/* automatically generated by rust-bindgen 0.59.2 */ #[repr(C)] #[derive(Copy, Clone, Debug, Default, Eq, Hash, Ord, PartialEq, PartialOrd)] pub struct __BindgenBitfieldUnit { storage: Storage, } impl __BindgenBitfieldUnit { #[inline] pub const fn new(storage: Storage) -> Self { Self { storage } } } impl __BindgenBitfieldUnit where Storage: AsRef<[u8]> + AsMut<[u8]>, { #[inline] pub fn get_bit(&self, index: usize) -> bool { debug_assert!(index / 8 < self.storage.as_ref().len()); let byte_index = index / 8; let byte = self.storage.as_ref()[byte_index]; let bit_index = if cfg!(target_endian = "big") { 7 - (index % 8) } else { index % 8 }; let mask = 1 << bit_index; byte & mask == mask } #[inline] pub fn set_bit(&mut self, index: usize, val: bool) { debug_assert!(index / 8 < self.storage.as_ref().len()); let byte_index = index / 8; let byte = &mut self.storage.as_mut()[byte_index]; let bit_index = if cfg!(target_endian = "big") { 7 - (index % 8) } else { index % 8 }; let mask = 1 << bit_index; if val { *byte |= mask; } else { *byte &= !mask; } } #[inline] pub fn get(&self, bit_offset: usize, bit_width: u8) -> u64 { debug_assert!(bit_width <= 64); debug_assert!(bit_offset / 8 < self.storage.as_ref().len()); debug_assert!((bit_offset + (bit_width as usize)) / 8 <= self.storage.as_ref().len()); let mut val = 0; for i in 0..(bit_width as usize) { if self.get_bit(i + bit_offset) { let index = if cfg!(target_endian = "big") { bit_width as usize - 1 - i } else { i }; val |= 1 << index; } } val } #[inline] pub fn set(&mut self, bit_offset: usize, bit_width: u8, val: u64) { debug_assert!(bit_width <= 64); debug_assert!(bit_offset / 8 < self.storage.as_ref().len()); debug_assert!((bit_offset + (bit_width as usize)) / 8 <= self.storage.as_ref().len()); for i in 0..(bit_width as usize) { let mask = 1 << i; let val_bit_is_set = val & mask == mask; let index = if cfg!(target_endian = "big") { bit_width as usize - 1 - i } else { i }; self.set_bit(index + bit_offset, val_bit_is_set); } } } #[repr(C)] #[derive(Default)] pub struct __IncompleteArrayField(::core::marker::PhantomData, [T; 0]); impl __IncompleteArrayField { #[inline] pub const fn new() -> Self { __IncompleteArrayField(::core::marker::PhantomData, []) } #[inline] pub fn as_ptr(&self) -> *const T { self as *const _ as *const T } #[inline] pub fn as_mut_ptr(&mut self) -> *mut T { self as *mut _ as *mut T } #[inline] pub unsafe fn as_slice(&self, len: usize) -> &[T] { ::core::slice::from_raw_parts(self.as_ptr(), len) } #[inline] pub unsafe fn as_mut_slice(&mut self, len: usize) -> &mut [T] { ::core::slice::from_raw_parts_mut(self.as_mut_ptr(), len) } } impl ::core::fmt::Debug for __IncompleteArrayField { fn fmt(&self, fmt: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result { fmt.write_str("__IncompleteArrayField") } } #[repr(C)] pub struct __BindgenUnionField(::core::marker::PhantomData); impl __BindgenUnionField { #[inline] pub const fn new() -> Self { __BindgenUnionField(::core::marker::PhantomData) } #[inline] pub unsafe fn as_ref(&self) -> &T { ::core::mem::transmute(self) } #[inline] pub unsafe fn as_mut(&mut self) -> &mut T { ::core::mem::transmute(self) } } impl ::core::default::Default for __BindgenUnionField { #[inline] fn default() -> Self { Self::new() } } impl ::core::clone::Clone for __BindgenUnionField { #[inline] fn clone(&self) -> Self { Self::new() } } impl ::core::marker::Copy for __BindgenUnionField {} impl ::core::fmt::Debug for __BindgenUnionField { fn fmt(&self, fmt: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result { fmt.write_str("__BindgenUnionField") } } impl ::core::hash::Hash for __BindgenUnionField { fn hash(&self, _state: &mut H) {} } impl ::core::cmp::PartialEq for __BindgenUnionField { fn eq(&self, _other: &__BindgenUnionField) -> bool { true } } impl ::core::cmp::Eq for __BindgenUnionField {} pub const _NEWLIB_VERSION_H__: u32 = 1; pub const _NEWLIB_VERSION: &[u8; 6usize] = b"4.1.0\0"; pub const __NEWLIB__: u32 = 4; pub const __NEWLIB_MINOR__: u32 = 1; pub const __NEWLIB_PATCHLEVEL__: u32 = 0; pub const _DEFAULT_SOURCE: u32 = 1; pub const _POSIX_SOURCE: u32 = 1; pub const _POSIX_C_SOURCE: u32 = 200809; pub const _ATFILE_SOURCE: u32 = 1; pub const __ATFILE_VISIBLE: u32 = 1; pub const __BSD_VISIBLE: u32 = 1; pub const __GNU_VISIBLE: u32 = 0; pub const __ISO_C_VISIBLE: u32 = 2011; pub const __LARGEFILE_VISIBLE: u32 = 0; pub const __MISC_VISIBLE: u32 = 1; pub const __POSIX_VISIBLE: u32 = 200809; pub const __SVID_VISIBLE: u32 = 1; pub const __XSI_VISIBLE: u32 = 0; pub const __SSP_FORTIFY_LEVEL: u32 = 0; pub const _POSIX_MONOTONIC_CLOCK: u32 = 200112; pub const _POSIX_TIMERS: u32 = 1; pub const __have_longlong64: u32 = 1; pub const __have_long32: u32 = 1; pub const ___int8_t_defined: u32 = 1; pub const ___int16_t_defined: u32 = 1; pub const ___int32_t_defined: u32 = 1; pub const ___int64_t_defined: u32 = 1; pub const ___int_least8_t_defined: u32 = 1; pub const ___int_least16_t_defined: u32 = 1; pub const ___int_least32_t_defined: u32 = 1; pub const ___int_least64_t_defined: u32 = 1; pub const __int20: u32 = 2; pub const __int20__: u32 = 2; pub const __INT8: &[u8; 3usize] = b"hh\0"; pub const __INT16: &[u8; 2usize] = b"h\0"; pub const __INT64: &[u8; 3usize] = b"ll\0"; pub const __FAST8: &[u8; 3usize] = b"hh\0"; pub const __FAST16: &[u8; 2usize] = b"h\0"; pub const __FAST64: &[u8; 3usize] = b"ll\0"; pub const __LEAST8: &[u8; 3usize] = b"hh\0"; pub const __LEAST16: &[u8; 2usize] = b"h\0"; pub const __LEAST64: &[u8; 3usize] = b"ll\0"; pub const __int8_t_defined: u32 = 1; pub const __int16_t_defined: u32 = 1; pub const __int32_t_defined: u32 = 1; pub const __int64_t_defined: u32 = 1; pub const __int_least8_t_defined: u32 = 1; pub const __int_least16_t_defined: u32 = 1; pub const __int_least32_t_defined: u32 = 1; pub const __int_least64_t_defined: u32 = 1; pub const __int_fast8_t_defined: u32 = 1; pub const __int_fast16_t_defined: u32 = 1; pub const __int_fast32_t_defined: u32 = 1; pub const __int_fast64_t_defined: u32 = 1; pub const WINT_MIN: u32 = 0; pub const true_: u32 = 1; pub const false_: u32 = 0; pub const __bool_true_false_are_defined: u32 = 1; pub const CUR_PROCESS_HANDLE: u32 = 4294934529; pub const ARBITRATION_SIGNAL_ALL: i32 = -1; pub const CUR_THREAD_HANDLE: u32 = 4294934528; pub const SYSCLOCK_SOC: u32 = 16756991; pub const SYSCLOCK_ARM9: u32 = 134055928; pub const SYSCLOCK_ARM11: u32 = 268111856; pub const SYSCLOCK_ARM11_NEW: u32 = 804335568; pub const CPU_TICKS_PER_MSEC: f64 = 268111.856; pub const CPU_TICKS_PER_USEC: f64 = 268.111856; pub const OS_HEAP_AREA_BEGIN: u32 = 134217728; pub const OS_HEAP_AREA_END: u32 = 234881024; pub const OS_MAP_AREA_BEGIN: u32 = 268435456; pub const OS_MAP_AREA_END: u32 = 335544320; pub const OS_OLD_FCRAM_VADDR: u32 = 335544320; pub const OS_OLD_FCRAM_PADDR: u32 = 536870912; pub const OS_OLD_FCRAM_SIZE: u32 = 134217728; pub const OS_QTMRAM_VADDR: u32 = 511705088; pub const OS_QTMRAM_PADDR: u32 = 520093696; pub const OS_QTMRAM_SIZE: u32 = 4194304; pub const OS_MMIO_VADDR: u32 = 515899392; pub const OS_MMIO_PADDR: u32 = 269484032; pub const OS_MMIO_SIZE: u32 = 4194304; pub const OS_VRAM_VADDR: u32 = 520093696; pub const OS_VRAM_PADDR: u32 = 402653184; pub const OS_VRAM_SIZE: u32 = 6291456; pub const OS_DSPRAM_VADDR: u32 = 535822336; pub const OS_DSPRAM_PADDR: u32 = 535822336; pub const OS_DSPRAM_SIZE: u32 = 524288; pub const OS_KERNELCFG_VADDR: u32 = 536346624; pub const OS_SHAREDCFG_VADDR: u32 = 536350720; pub const OS_FCRAM_VADDR: u32 = 805306368; pub const OS_FCRAM_PADDR: u32 = 536870912; pub const OS_FCRAM_SIZE: u32 = 268435456; pub const __NEWLIB_H__: u32 = 1; pub const _WANT_IO_C99_FORMATS: u32 = 1; pub const _WANT_IO_LONG_LONG: u32 = 1; pub const _WANT_IO_POS_ARGS: u32 = 1; pub const _REENT_CHECK_VERIFY: u32 = 1; pub const _MB_CAPABLE: u32 = 1; pub const _MB_LEN_MAX: u32 = 8; pub const HAVE_INITFINI_ARRAY: u32 = 1; pub const _ATEXIT_DYNAMIC_ALLOC: u32 = 1; pub const _HAVE_LONG_DOUBLE: u32 = 1; pub const _HAVE_CC_INHIBIT_LOOP_TO_LIBCALL: u32 = 1; pub const _LDBL_EQ_DBL: u32 = 1; pub const _FVWRITE_IN_STREAMIO: u32 = 1; pub const _FSEEK_OPTIMIZATION: u32 = 1; pub const _UNBUF_STREAM_OPT: u32 = 1; pub const __OBSOLETE_MATH_DEFAULT: u32 = 0; pub const __OBSOLETE_MATH: u32 = 0; pub const __RAND_MAX: u32 = 2147483647; pub const GSP_SCREEN_TOP: u32 = 0; pub const GSP_SCREEN_BOTTOM: u32 = 1; pub const GSP_SCREEN_WIDTH: u32 = 240; pub const GSP_SCREEN_HEIGHT_TOP: u32 = 400; pub const GSP_SCREEN_HEIGHT_TOP_2X: u32 = 800; pub const GSP_SCREEN_HEIGHT_BOTTOM: u32 = 320; pub const CONSOLE_COLOR_BOLD: u32 = 1; pub const CONSOLE_COLOR_FAINT: u32 = 2; pub const CONSOLE_ITALIC: u32 = 4; pub const CONSOLE_UNDERLINE: u32 = 8; pub const CONSOLE_BLINK_SLOW: u32 = 16; pub const CONSOLE_BLINK_FAST: u32 = 32; pub const CONSOLE_COLOR_REVERSE: u32 = 64; pub const CONSOLE_CONCEAL: u32 = 128; pub const CONSOLE_CROSSED_OUT: u32 = 256; pub const __GNUCLIKE_ASM: u32 = 3; pub const __GNUCLIKE___TYPEOF: u32 = 1; pub const __GNUCLIKE___OFFSETOF: u32 = 1; pub const __GNUCLIKE___SECTION: u32 = 1; pub const __GNUCLIKE_CTOR_SECTION_HANDLING: u32 = 1; pub const __GNUCLIKE_BUILTIN_CONSTANT_P: u32 = 1; pub const __GNUCLIKE_BUILTIN_VARARGS: u32 = 1; pub const __GNUCLIKE_BUILTIN_STDARG: u32 = 1; pub const __GNUCLIKE_BUILTIN_VAALIST: u32 = 1; pub const __GNUC_VA_LIST_COMPATIBILITY: u32 = 1; pub const __GNUCLIKE_BUILTIN_NEXT_ARG: u32 = 1; pub const __GNUCLIKE_BUILTIN_MEMCPY: u32 = 1; pub const __CC_SUPPORTS_INLINE: u32 = 1; pub const __CC_SUPPORTS___INLINE: u32 = 1; pub const __CC_SUPPORTS___INLINE__: u32 = 1; pub const __CC_SUPPORTS___FUNC__: u32 = 1; pub const __CC_SUPPORTS_WARNING: u32 = 1; pub const __CC_SUPPORTS_VARADIC_XXX: u32 = 1; pub const __CC_SUPPORTS_DYNAMIC_ARRAY_INIT: u32 = 1; pub const __BIT_TYPES_DEFINED__: u32 = 1; pub const _LITTLE_ENDIAN: u32 = 1234; pub const _BIG_ENDIAN: u32 = 4321; pub const _PDP_ENDIAN: u32 = 3412; pub const _BYTE_ORDER: u32 = 1234; pub const _QUAD_HIGHWORD: u32 = 1; pub const _QUAD_LOWWORD: u32 = 0; pub const LITTLE_ENDIAN: u32 = 1234; pub const BIG_ENDIAN: u32 = 4321; pub const PDP_ENDIAN: u32 = 3412; pub const BYTE_ORDER: u32 = 1234; pub const FD_SETSIZE: u32 = 64; pub const SCHED_OTHER: u32 = 0; pub const SCHED_FIFO: u32 = 1; pub const SCHED_RR: u32 = 2; pub const PTHREAD_SCOPE_PROCESS: u32 = 0; pub const PTHREAD_SCOPE_SYSTEM: u32 = 1; pub const PTHREAD_INHERIT_SCHED: u32 = 1; pub const PTHREAD_EXPLICIT_SCHED: u32 = 2; pub const PTHREAD_CREATE_DETACHED: u32 = 0; pub const PTHREAD_CREATE_JOINABLE: u32 = 1; pub const CSND_NUM_CHANNELS: u32 = 32; pub const FRIEND_SCREEN_NAME_SIZE: u32 = 11; pub const FRIEND_COMMENT_SIZE: u32 = 33; pub const FRIEND_LIST_SIZE: u32 = 100; pub const HTTPC_RESULTCODE_DOWNLOADPENDING: u32 = 3628113963; pub const HTTPC_RESULTCODE_NOTFOUND: u32 = 3628113960; pub const HTTPC_RESULTCODE_TIMEDOUT: u32 = 3626016873; pub const UDS_MAXNODES: u32 = 16; pub const UDS_BROADCAST_NETWORKNODEID: u32 = 65535; pub const UDS_HOST_NETWORKNODEID: u32 = 1; pub const UDS_DEFAULT_RECVBUFSIZE: u32 = 11824; pub const UDS_DATAFRAME_MAXSIZE: u32 = 1478; pub const DST_NONE: u32 = 0; pub const DST_USA: u32 = 1; pub const DST_AUST: u32 = 2; pub const DST_WET: u32 = 3; pub const DST_MET: u32 = 4; pub const DST_EET: u32 = 5; pub const DST_CAN: u32 = 6; pub const SBT_MAX: u64 = 9223372036854775807; pub const ITIMER_REAL: u32 = 0; pub const ITIMER_VIRTUAL: u32 = 1; pub const ITIMER_PROF: u32 = 2; pub const _NULL: u32 = 0; pub const _ATEXIT_SIZE: u32 = 32; pub const _RAND48_SEED_0: u32 = 13070; pub const _RAND48_SEED_1: u32 = 43981; pub const _RAND48_SEED_2: u32 = 4660; pub const _RAND48_MULT_0: u32 = 58989; pub const _RAND48_MULT_1: u32 = 57068; pub const _RAND48_MULT_2: u32 = 5; pub const _RAND48_ADD: u32 = 11; pub const _REENT_EMERGENCY_SIZE: u32 = 25; pub const _REENT_ASCTIME_SIZE: u32 = 26; pub const _REENT_SIGNAL_SIZE: u32 = 24; pub const _N_LISTS: u32 = 30; pub const _CLOCKS_PER_SEC_: u32 = 100; pub const CLOCKS_PER_SEC: u32 = 100; pub const CLK_TCK: u32 = 100; pub const SIGEV_NONE: u32 = 1; pub const SIGEV_SIGNAL: u32 = 2; pub const SIGEV_THREAD: u32 = 3; pub const SI_USER: u32 = 1; pub const SI_QUEUE: u32 = 2; pub const SI_TIMER: u32 = 3; pub const SI_ASYNCIO: u32 = 4; pub const SI_MESGQ: u32 = 5; pub const SA_NOCLDSTOP: u32 = 1; pub const MINSIGSTKSZ: u32 = 2048; pub const SIGSTKSZ: u32 = 8192; pub const SS_ONSTACK: u32 = 1; pub const SS_DISABLE: u32 = 2; pub const SIG_SETMASK: u32 = 0; pub const SIG_BLOCK: u32 = 1; pub const SIG_UNBLOCK: u32 = 2; pub const SIGHUP: u32 = 1; pub const SIGINT: u32 = 2; pub const SIGQUIT: u32 = 3; pub const SIGILL: u32 = 4; pub const SIGTRAP: u32 = 5; pub const SIGIOT: u32 = 6; pub const SIGABRT: u32 = 6; pub const SIGEMT: u32 = 7; pub const SIGFPE: u32 = 8; pub const SIGKILL: u32 = 9; pub const SIGBUS: u32 = 10; pub const SIGSEGV: u32 = 11; pub const SIGSYS: u32 = 12; pub const SIGPIPE: u32 = 13; pub const SIGALRM: u32 = 14; pub const SIGTERM: u32 = 15; pub const SIGURG: u32 = 16; pub const SIGSTOP: u32 = 17; pub const SIGTSTP: u32 = 18; pub const SIGCONT: u32 = 19; pub const SIGCHLD: u32 = 20; pub const SIGCLD: u32 = 20; pub const SIGTTIN: u32 = 21; pub const SIGTTOU: u32 = 22; pub const SIGIO: u32 = 23; pub const SIGPOLL: u32 = 23; pub const SIGXCPU: u32 = 24; pub const SIGXFSZ: u32 = 25; pub const SIGVTALRM: u32 = 26; pub const SIGPROF: u32 = 27; pub const SIGWINCH: u32 = 28; pub const SIGLOST: u32 = 29; pub const SIGUSR1: u32 = 30; pub const SIGUSR2: u32 = 31; pub const NSIG: u32 = 32; pub const CLOCK_ENABLED: u32 = 1; pub const CLOCK_DISABLED: u32 = 0; pub const CLOCK_ALLOWED: u32 = 1; pub const CLOCK_DISALLOWED: u32 = 0; pub const TIMER_ABSTIME: u32 = 4; pub const SOL_SOCKET: u32 = 65535; pub const PF_UNSPEC: u32 = 0; pub const PF_INET: u32 = 2; pub const PF_INET6: u32 = 23; pub const AF_UNSPEC: u32 = 0; pub const AF_INET: u32 = 2; pub const AF_INET6: u32 = 23; pub const SOCK_STREAM: u32 = 1; pub const SOCK_DGRAM: u32 = 2; pub const MSG_OOB: u32 = 1; pub const MSG_PEEK: u32 = 2; pub const MSG_DONTWAIT: u32 = 4; pub const MSG_DONTROUTE: u32 = 0; pub const MSG_WAITALL: u32 = 0; pub const MSG_MORE: u32 = 0; pub const MSG_NOSIGNAL: u32 = 0; pub const SHUT_RD: u32 = 0; pub const SHUT_WR: u32 = 1; pub const SHUT_RDWR: u32 = 2; pub const SO_REUSEADDR: u32 = 4; pub const SO_LINGER: u32 = 128; pub const SO_OOBINLINE: u32 = 256; pub const SO_SNDBUF: u32 = 4097; pub const SO_RCVBUF: u32 = 4098; pub const SO_SNDLOWAT: u32 = 4099; pub const SO_RCVLOWAT: u32 = 4100; pub const SO_TYPE: u32 = 4104; pub const SO_ERROR: u32 = 4105; pub const SO_BROADCAST: u32 = 0; pub const INADDR_LOOPBACK: u32 = 2130706433; pub const INADDR_ANY: u32 = 0; pub const INADDR_BROADCAST: u32 = 4294967295; pub const INADDR_NONE: u32 = 4294967295; pub const INET_ADDRSTRLEN: u32 = 16; pub const IPPROTO_IP: u32 = 0; pub const IPPROTO_UDP: u32 = 17; pub const IPPROTO_TCP: u32 = 6; pub const IP_TOS: u32 = 7; pub const IP_TTL: u32 = 8; pub const IP_MULTICAST_LOOP: u32 = 9; pub const IP_MULTICAST_TTL: u32 = 10; pub const IP_ADD_MEMBERSHIP: u32 = 11; pub const IP_DROP_MEMBERSHIP: u32 = 12; pub const SOL_CONFIG: u32 = 65534; pub const ROUTING_FLAG_G: u32 = 1; pub const TCP_STATE_CLOSED: u32 = 1; pub const TCP_STATE_LISTEN: u32 = 2; pub const TCP_STATE_ESTABLISHED: u32 = 5; pub const TCP_STATE_FINWAIT1: u32 = 6; pub const TCP_STATE_FINWAIT2: u32 = 7; pub const TCP_STATE_CLOSE_WAIT: u32 = 8; pub const TCP_STATE_LAST_ACK: u32 = 9; pub const TCP_STATE_TIME_WAIT: u32 = 11; pub const MVD_STATUS_OK: u32 = 94208; pub const MVD_STATUS_PARAMSET: u32 = 94209; pub const MVD_STATUS_BUSY: u32 = 94210; pub const MVD_STATUS_FRAMEREADY: u32 = 94211; pub const MVD_STATUS_INCOMPLETEPROCESSING: u32 = 94212; pub const MVD_STATUS_NALUPROCFLAG: u32 = 94215; pub const MVD_DEFAULT_WORKBUF_SIZE: u32 = 9438920; pub const NFC_ERR_INVALID_STATE: u32 = 3366024704; pub const NFC_ERR_APPDATA_UNINITIALIZED: u32 = 3366024736; pub const NFC_ERR_AMIIBO_NOTSETUP: u32 = 3366024744; pub const NFC_ERR_APPID_MISMATCH: u32 = 3366024760; pub const NFC_ERR_DATACORRUPTION0: u32 = 3368121868; pub const NFC_ERR_DATACORRUPTION1: u32 = 3366024728; pub const NFC_STARTSCAN_DEFAULTINPUT: u32 = 0; pub const GPUREG_0000: u32 = 0; pub const GPUREG_0001: u32 = 1; pub const GPUREG_0002: u32 = 2; pub const GPUREG_0003: u32 = 3; pub const GPUREG_0004: u32 = 4; pub const GPUREG_0005: u32 = 5; pub const GPUREG_0006: u32 = 6; pub const GPUREG_0007: u32 = 7; pub const GPUREG_0008: u32 = 8; pub const GPUREG_0009: u32 = 9; pub const GPUREG_000A: u32 = 10; pub const GPUREG_000B: u32 = 11; pub const GPUREG_000C: u32 = 12; pub const GPUREG_000D: u32 = 13; pub const GPUREG_000E: u32 = 14; pub const GPUREG_000F: u32 = 15; pub const GPUREG_FINALIZE: u32 = 16; pub const GPUREG_0011: u32 = 17; pub const GPUREG_0012: u32 = 18; pub const GPUREG_0013: u32 = 19; pub const GPUREG_0014: u32 = 20; pub const GPUREG_0015: u32 = 21; pub const GPUREG_0016: u32 = 22; pub const GPUREG_0017: u32 = 23; pub const GPUREG_0018: u32 = 24; pub const GPUREG_0019: u32 = 25; pub const GPUREG_001A: u32 = 26; pub const GPUREG_001B: u32 = 27; pub const GPUREG_001C: u32 = 28; pub const GPUREG_001D: u32 = 29; pub const GPUREG_001E: u32 = 30; pub const GPUREG_001F: u32 = 31; pub const GPUREG_0020: u32 = 32; pub const GPUREG_0021: u32 = 33; pub const GPUREG_0022: u32 = 34; pub const GPUREG_0023: u32 = 35; pub const GPUREG_0024: u32 = 36; pub const GPUREG_0025: u32 = 37; pub const GPUREG_0026: u32 = 38; pub const GPUREG_0027: u32 = 39; pub const GPUREG_0028: u32 = 40; pub const GPUREG_0029: u32 = 41; pub const GPUREG_002A: u32 = 42; pub const GPUREG_002B: u32 = 43; pub const GPUREG_002C: u32 = 44; pub const GPUREG_002D: u32 = 45; pub const GPUREG_002E: u32 = 46; pub const GPUREG_002F: u32 = 47; pub const GPUREG_0030: u32 = 48; pub const GPUREG_0031: u32 = 49; pub const GPUREG_0032: u32 = 50; pub const GPUREG_0033: u32 = 51; pub const GPUREG_0034: u32 = 52; pub const GPUREG_0035: u32 = 53; pub const GPUREG_0036: u32 = 54; pub const GPUREG_0037: u32 = 55; pub const GPUREG_0038: u32 = 56; pub const GPUREG_0039: u32 = 57; pub const GPUREG_003A: u32 = 58; pub const GPUREG_003B: u32 = 59; pub const GPUREG_003C: u32 = 60; pub const GPUREG_003D: u32 = 61; pub const GPUREG_003E: u32 = 62; pub const GPUREG_003F: u32 = 63; pub const GPUREG_FACECULLING_CONFIG: u32 = 64; pub const GPUREG_VIEWPORT_WIDTH: u32 = 65; pub const GPUREG_VIEWPORT_INVW: u32 = 66; pub const GPUREG_VIEWPORT_HEIGHT: u32 = 67; pub const GPUREG_VIEWPORT_INVH: u32 = 68; pub const GPUREG_0045: u32 = 69; pub const GPUREG_0046: u32 = 70; pub const GPUREG_FRAGOP_CLIP: u32 = 71; pub const GPUREG_FRAGOP_CLIP_DATA0: u32 = 72; pub const GPUREG_FRAGOP_CLIP_DATA1: u32 = 73; pub const GPUREG_FRAGOP_CLIP_DATA2: u32 = 74; pub const GPUREG_FRAGOP_CLIP_DATA3: u32 = 75; pub const GPUREG_004C: u32 = 76; pub const GPUREG_DEPTHMAP_SCALE: u32 = 77; pub const GPUREG_DEPTHMAP_OFFSET: u32 = 78; pub const GPUREG_SH_OUTMAP_TOTAL: u32 = 79; pub const GPUREG_SH_OUTMAP_O0: u32 = 80; pub const GPUREG_SH_OUTMAP_O1: u32 = 81; pub const GPUREG_SH_OUTMAP_O2: u32 = 82; pub const GPUREG_SH_OUTMAP_O3: u32 = 83; pub const GPUREG_SH_OUTMAP_O4: u32 = 84; pub const GPUREG_SH_OUTMAP_O5: u32 = 85; pub const GPUREG_SH_OUTMAP_O6: u32 = 86; pub const GPUREG_0057: u32 = 87; pub const GPUREG_0058: u32 = 88; pub const GPUREG_0059: u32 = 89; pub const GPUREG_005A: u32 = 90; pub const GPUREG_005B: u32 = 91; pub const GPUREG_005C: u32 = 92; pub const GPUREG_005D: u32 = 93; pub const GPUREG_005E: u32 = 94; pub const GPUREG_005F: u32 = 95; pub const GPUREG_0060: u32 = 96; pub const GPUREG_EARLYDEPTH_FUNC: u32 = 97; pub const GPUREG_EARLYDEPTH_TEST1: u32 = 98; pub const GPUREG_EARLYDEPTH_CLEAR: u32 = 99; pub const GPUREG_SH_OUTATTR_MODE: u32 = 100; pub const GPUREG_SCISSORTEST_MODE: u32 = 101; pub const GPUREG_SCISSORTEST_POS: u32 = 102; pub const GPUREG_SCISSORTEST_DIM: u32 = 103; pub const GPUREG_VIEWPORT_XY: u32 = 104; pub const GPUREG_0069: u32 = 105; pub const GPUREG_EARLYDEPTH_DATA: u32 = 106; pub const GPUREG_006B: u32 = 107; pub const GPUREG_006C: u32 = 108; pub const GPUREG_DEPTHMAP_ENABLE: u32 = 109; pub const GPUREG_RENDERBUF_DIM: u32 = 110; pub const GPUREG_SH_OUTATTR_CLOCK: u32 = 111; pub const GPUREG_0070: u32 = 112; pub const GPUREG_0071: u32 = 113; pub const GPUREG_0072: u32 = 114; pub const GPUREG_0073: u32 = 115; pub const GPUREG_0074: u32 = 116; pub const GPUREG_0075: u32 = 117; pub const GPUREG_0076: u32 = 118; pub const GPUREG_0077: u32 = 119; pub const GPUREG_0078: u32 = 120; pub const GPUREG_0079: u32 = 121; pub const GPUREG_007A: u32 = 122; pub const GPUREG_007B: u32 = 123; pub const GPUREG_007C: u32 = 124; pub const GPUREG_007D: u32 = 125; pub const GPUREG_007E: u32 = 126; pub const GPUREG_007F: u32 = 127; pub const GPUREG_TEXUNIT_CONFIG: u32 = 128; pub const GPUREG_TEXUNIT0_BORDER_COLOR: u32 = 129; pub const GPUREG_TEXUNIT0_DIM: u32 = 130; pub const GPUREG_TEXUNIT0_PARAM: u32 = 131; pub const GPUREG_TEXUNIT0_LOD: u32 = 132; pub const GPUREG_TEXUNIT0_ADDR1: u32 = 133; pub const GPUREG_TEXUNIT0_ADDR2: u32 = 134; pub const GPUREG_TEXUNIT0_ADDR3: u32 = 135; pub const GPUREG_TEXUNIT0_ADDR4: u32 = 136; pub const GPUREG_TEXUNIT0_ADDR5: u32 = 137; pub const GPUREG_TEXUNIT0_ADDR6: u32 = 138; pub const GPUREG_TEXUNIT0_SHADOW: u32 = 139; pub const GPUREG_008C: u32 = 140; pub const GPUREG_008D: u32 = 141; pub const GPUREG_TEXUNIT0_TYPE: u32 = 142; pub const GPUREG_LIGHTING_ENABLE0: u32 = 143; pub const GPUREG_0090: u32 = 144; pub const GPUREG_TEXUNIT1_BORDER_COLOR: u32 = 145; pub const GPUREG_TEXUNIT1_DIM: u32 = 146; pub const GPUREG_TEXUNIT1_PARAM: u32 = 147; pub const GPUREG_TEXUNIT1_LOD: u32 = 148; pub const GPUREG_TEXUNIT1_ADDR: u32 = 149; pub const GPUREG_TEXUNIT1_TYPE: u32 = 150; pub const GPUREG_0097: u32 = 151; pub const GPUREG_0098: u32 = 152; pub const GPUREG_TEXUNIT2_BORDER_COLOR: u32 = 153; pub const GPUREG_TEXUNIT2_DIM: u32 = 154; pub const GPUREG_TEXUNIT2_PARAM: u32 = 155; pub const GPUREG_TEXUNIT2_LOD: u32 = 156; pub const GPUREG_TEXUNIT2_ADDR: u32 = 157; pub const GPUREG_TEXUNIT2_TYPE: u32 = 158; pub const GPUREG_009F: u32 = 159; pub const GPUREG_00A0: u32 = 160; pub const GPUREG_00A1: u32 = 161; pub const GPUREG_00A2: u32 = 162; pub const GPUREG_00A3: u32 = 163; pub const GPUREG_00A4: u32 = 164; pub const GPUREG_00A5: u32 = 165; pub const GPUREG_00A6: u32 = 166; pub const GPUREG_00A7: u32 = 167; pub const GPUREG_TEXUNIT3_PROCTEX0: u32 = 168; pub const GPUREG_TEXUNIT3_PROCTEX1: u32 = 169; pub const GPUREG_TEXUNIT3_PROCTEX2: u32 = 170; pub const GPUREG_TEXUNIT3_PROCTEX3: u32 = 171; pub const GPUREG_TEXUNIT3_PROCTEX4: u32 = 10; pub const GPUREG_TEXUNIT3_PROCTEX5: u32 = 13; pub const GPUREG_00AE: u32 = 174; pub const GPUREG_PROCTEX_LUT: u32 = 175; pub const GPUREG_PROCTEX_LUT_DATA0: u32 = 176; pub const GPUREG_PROCTEX_LUT_DATA1: u32 = 177; pub const GPUREG_PROCTEX_LUT_DATA2: u32 = 178; pub const GPUREG_PROCTEX_LUT_DATA3: u32 = 179; pub const GPUREG_PROCTEX_LUT_DATA4: u32 = 180; pub const GPUREG_PROCTEX_LUT_DATA5: u32 = 181; pub const GPUREG_PROCTEX_LUT_DATA6: u32 = 182; pub const GPUREG_PROCTEX_LUT_DATA7: u32 = 183; pub const GPUREG_00B8: u32 = 184; pub const GPUREG_00B9: u32 = 185; pub const GPUREG_00BA: u32 = 186; pub const GPUREG_00BB: u32 = 187; pub const GPUREG_00BC: u32 = 188; pub const GPUREG_00BD: u32 = 189; pub const GPUREG_00BE: u32 = 190; pub const GPUREG_00BF: u32 = 191; pub const GPUREG_TEXENV0_SOURCE: u32 = 192; pub const GPUREG_TEXENV0_OPERAND: u32 = 193; pub const GPUREG_TEXENV0_COMBINER: u32 = 194; pub const GPUREG_TEXENV0_COLOR: u32 = 195; pub const GPUREG_TEXENV0_SCALE: u32 = 196; pub const GPUREG_00C5: u32 = 197; pub const GPUREG_00C6: u32 = 198; pub const GPUREG_00C7: u32 = 199; pub const GPUREG_TEXENV1_SOURCE: u32 = 200; pub const GPUREG_TEXENV1_OPERAND: u32 = 201; pub const GPUREG_TEXENV1_COMBINER: u32 = 202; pub const GPUREG_TEXENV1_COLOR: u32 = 203; pub const GPUREG_TEXENV1_SCALE: u32 = 204; pub const GPUREG_00CD: u32 = 205; pub const GPUREG_00CE: u32 = 206; pub const GPUREG_00CF: u32 = 207; pub const GPUREG_TEXENV2_SOURCE: u32 = 208; pub const GPUREG_TEXENV2_OPERAND: u32 = 209; pub const GPUREG_TEXENV2_COMBINER: u32 = 210; pub const GPUREG_TEXENV2_COLOR: u32 = 211; pub const GPUREG_TEXENV2_SCALE: u32 = 212; pub const GPUREG_00D5: u32 = 213; pub const GPUREG_00D6: u32 = 214; pub const GPUREG_00D7: u32 = 215; pub const GPUREG_TEXENV3_SOURCE: u32 = 216; pub const GPUREG_TEXENV3_OPERAND: u32 = 217; pub const GPUREG_TEXENV3_COMBINER: u32 = 218; pub const GPUREG_TEXENV3_COLOR: u32 = 219; pub const GPUREG_TEXENV3_SCALE: u32 = 220; pub const GPUREG_00DD: u32 = 221; pub const GPUREG_00DE: u32 = 222; pub const GPUREG_00DF: u32 = 223; pub const GPUREG_TEXENV_UPDATE_BUFFER: u32 = 224; pub const GPUREG_FOG_COLOR: u32 = 225; pub const GPUREG_00E2: u32 = 226; pub const GPUREG_00E3: u32 = 227; pub const GPUREG_GAS_ATTENUATION: u32 = 228; pub const GPUREG_GAS_ACCMAX: u32 = 229; pub const GPUREG_FOG_LUT_INDEX: u32 = 230; pub const GPUREG_00E7: u32 = 231; pub const GPUREG_FOG_LUT_DATA0: u32 = 232; pub const GPUREG_FOG_LUT_DATA1: u32 = 233; pub const GPUREG_FOG_LUT_DATA2: u32 = 234; pub const GPUREG_FOG_LUT_DATA3: u32 = 235; pub const GPUREG_FOG_LUT_DATA4: u32 = 236; pub const GPUREG_FOG_LUT_DATA5: u32 = 237; pub const GPUREG_FOG_LUT_DATA6: u32 = 238; pub const GPUREG_FOG_LUT_DATA7: u32 = 239; pub const GPUREG_TEXENV4_SOURCE: u32 = 240; pub const GPUREG_TEXENV4_OPERAND: u32 = 241; pub const GPUREG_TEXENV4_COMBINER: u32 = 242; pub const GPUREG_TEXENV4_COLOR: u32 = 243; pub const GPUREG_TEXENV4_SCALE: u32 = 244; pub const GPUREG_00F5: u32 = 245; pub const GPUREG_00F6: u32 = 246; pub const GPUREG_00F7: u32 = 247; pub const GPUREG_TEXENV5_SOURCE: u32 = 248; pub const GPUREG_TEXENV5_OPERAND: u32 = 249; pub const GPUREG_TEXENV5_COMBINER: u32 = 250; pub const GPUREG_TEXENV5_COLOR: u32 = 251; pub const GPUREG_TEXENV5_SCALE: u32 = 252; pub const GPUREG_TEXENV_BUFFER_COLOR: u32 = 253; pub const GPUREG_00FE: u32 = 254; pub const GPUREG_00FF: u32 = 255; pub const GPUREG_COLOR_OPERATION: u32 = 256; pub const GPUREG_BLEND_FUNC: u32 = 257; pub const GPUREG_LOGIC_OP: u32 = 258; pub const GPUREG_BLEND_COLOR: u32 = 259; pub const GPUREG_FRAGOP_ALPHA_TEST: u32 = 260; pub const GPUREG_STENCIL_TEST: u32 = 261; pub const GPUREG_STENCIL_OP: u32 = 262; pub const GPUREG_DEPTH_COLOR_MASK: u32 = 263; pub const GPUREG_0108: u32 = 264; pub const GPUREG_0109: u32 = 265; pub const GPUREG_010A: u32 = 266; pub const GPUREG_010B: u32 = 267; pub const GPUREG_010C: u32 = 268; pub const GPUREG_010D: u32 = 269; pub const GPUREG_010E: u32 = 270; pub const GPUREG_010F: u32 = 271; pub const GPUREG_FRAMEBUFFER_INVALIDATE: u32 = 272; pub const GPUREG_FRAMEBUFFER_FLUSH: u32 = 273; pub const GPUREG_COLORBUFFER_READ: u32 = 274; pub const GPUREG_COLORBUFFER_WRITE: u32 = 275; pub const GPUREG_DEPTHBUFFER_READ: u32 = 276; pub const GPUREG_DEPTHBUFFER_WRITE: u32 = 277; pub const GPUREG_DEPTHBUFFER_FORMAT: u32 = 278; pub const GPUREG_COLORBUFFER_FORMAT: u32 = 279; pub const GPUREG_EARLYDEPTH_TEST2: u32 = 280; pub const GPUREG_0119: u32 = 281; pub const GPUREG_011A: u32 = 282; pub const GPUREG_FRAMEBUFFER_BLOCK32: u32 = 283; pub const GPUREG_DEPTHBUFFER_LOC: u32 = 284; pub const GPUREG_COLORBUFFER_LOC: u32 = 285; pub const GPUREG_FRAMEBUFFER_DIM: u32 = 286; pub const GPUREG_011F: u32 = 287; pub const GPUREG_GAS_LIGHT_XY: u32 = 288; pub const GPUREG_GAS_LIGHT_Z: u32 = 289; pub const GPUREG_GAS_LIGHT_Z_COLOR: u32 = 290; pub const GPUREG_GAS_LUT_INDEX: u32 = 291; pub const GPUREG_GAS_LUT_DATA: u32 = 292; pub const GPUREG_GAS_ACCMAX_FEEDBACK: u32 = 293; pub const GPUREG_GAS_DELTAZ_DEPTH: u32 = 294; pub const GPUREG_0127: u32 = 295; pub const GPUREG_0128: u32 = 296; pub const GPUREG_0129: u32 = 297; pub const GPUREG_012A: u32 = 298; pub const GPUREG_012B: u32 = 299; pub const GPUREG_012C: u32 = 300; pub const GPUREG_012D: u32 = 301; pub const GPUREG_012E: u32 = 302; pub const GPUREG_012F: u32 = 303; pub const GPUREG_FRAGOP_SHADOW: u32 = 304; pub const GPUREG_0131: u32 = 305; pub const GPUREG_0132: u32 = 306; pub const GPUREG_0133: u32 = 307; pub const GPUREG_0134: u32 = 308; pub const GPUREG_0135: u32 = 309; pub const GPUREG_0136: u32 = 310; pub const GPUREG_0137: u32 = 311; pub const GPUREG_0138: u32 = 312; pub const GPUREG_0139: u32 = 313; pub const GPUREG_013A: u32 = 314; pub const GPUREG_013B: u32 = 315; pub const GPUREG_013C: u32 = 316; pub const GPUREG_013D: u32 = 317; pub const GPUREG_013E: u32 = 318; pub const GPUREG_013F: u32 = 319; pub const GPUREG_LIGHT0_SPECULAR0: u32 = 320; pub const GPUREG_LIGHT0_SPECULAR1: u32 = 321; pub const GPUREG_LIGHT0_DIFFUSE: u32 = 322; pub const GPUREG_LIGHT0_AMBIENT: u32 = 323; pub const GPUREG_LIGHT0_XY: u32 = 324; pub const GPUREG_LIGHT0_Z: u32 = 325; pub const GPUREG_LIGHT0_SPOTDIR_XY: u32 = 326; pub const GPUREG_LIGHT0_SPOTDIR_Z: u32 = 327; pub const GPUREG_0148: u32 = 328; pub const GPUREG_LIGHT0_CONFIG: u32 = 329; pub const GPUREG_LIGHT0_ATTENUATION_BIAS: u32 = 330; pub const GPUREG_LIGHT0_ATTENUATION_SCALE: u32 = 331; pub const GPUREG_014C: u32 = 332; pub const GPUREG_014D: u32 = 333; pub const GPUREG_014E: u32 = 334; pub const GPUREG_014F: u32 = 335; pub const GPUREG_LIGHT1_SPECULAR0: u32 = 336; pub const GPUREG_LIGHT1_SPECULAR1: u32 = 337; pub const GPUREG_LIGHT1_DIFFUSE: u32 = 338; pub const GPUREG_LIGHT1_AMBIENT: u32 = 339; pub const GPUREG_LIGHT1_XY: u32 = 340; pub const GPUREG_LIGHT1_Z: u32 = 341; pub const GPUREG_LIGHT1_SPOTDIR_XY: u32 = 342; pub const GPUREG_LIGHT1_SPOTDIR_Z: u32 = 343; pub const GPUREG_0158: u32 = 344; pub const GPUREG_LIGHT1_CONFIG: u32 = 345; pub const GPUREG_LIGHT1_ATTENUATION_BIAS: u32 = 346; pub const GPUREG_LIGHT1_ATTENUATION_SCALE: u32 = 347; pub const GPUREG_015C: u32 = 348; pub const GPUREG_015D: u32 = 349; pub const GPUREG_015E: u32 = 350; pub const GPUREG_015F: u32 = 351; pub const GPUREG_LIGHT2_SPECULAR0: u32 = 352; pub const GPUREG_LIGHT2_SPECULAR1: u32 = 353; pub const GPUREG_LIGHT2_DIFFUSE: u32 = 354; pub const GPUREG_LIGHT2_AMBIENT: u32 = 355; pub const GPUREG_LIGHT2_XY: u32 = 356; pub const GPUREG_LIGHT2_Z: u32 = 357; pub const GPUREG_LIGHT2_SPOTDIR_XY: u32 = 358; pub const GPUREG_LIGHT2_SPOTDIR_Z: u32 = 359; pub const GPUREG_0168: u32 = 360; pub const GPUREG_LIGHT2_CONFIG: u32 = 361; pub const GPUREG_LIGHT2_ATTENUATION_BIAS: u32 = 362; pub const GPUREG_LIGHT2_ATTENUATION_SCALE: u32 = 363; pub const GPUREG_016C: u32 = 364; pub const GPUREG_016D: u32 = 365; pub const GPUREG_016E: u32 = 366; pub const GPUREG_016F: u32 = 367; pub const GPUREG_LIGHT3_SPECULAR0: u32 = 368; pub const GPUREG_LIGHT3_SPECULAR1: u32 = 369; pub const GPUREG_LIGHT3_DIFFUSE: u32 = 370; pub const GPUREG_LIGHT3_AMBIENT: u32 = 371; pub const GPUREG_LIGHT3_XY: u32 = 372; pub const GPUREG_LIGHT3_Z: u32 = 373; pub const GPUREG_LIGHT3_SPOTDIR_XY: u32 = 374; pub const GPUREG_LIGHT3_SPOTDIR_Z: u32 = 375; pub const GPUREG_0178: u32 = 376; pub const GPUREG_LIGHT3_CONFIG: u32 = 377; pub const GPUREG_LIGHT3_ATTENUATION_BIAS: u32 = 378; pub const GPUREG_LIGHT3_ATTENUATION_SCALE: u32 = 379; pub const GPUREG_017C: u32 = 380; pub const GPUREG_017D: u32 = 381; pub const GPUREG_017E: u32 = 382; pub const GPUREG_017F: u32 = 383; pub const GPUREG_LIGHT4_SPECULAR0: u32 = 384; pub const GPUREG_LIGHT4_SPECULAR1: u32 = 385; pub const GPUREG_LIGHT4_DIFFUSE: u32 = 386; pub const GPUREG_LIGHT4_AMBIENT: u32 = 387; pub const GPUREG_LIGHT4_XY: u32 = 388; pub const GPUREG_LIGHT4_Z: u32 = 389; pub const GPUREG_LIGHT4_SPOTDIR_XY: u32 = 390; pub const GPUREG_LIGHT4_SPOTDIR_Z: u32 = 391; pub const GPUREG_0188: u32 = 392; pub const GPUREG_LIGHT4_CONFIG: u32 = 393; pub const GPUREG_LIGHT4_ATTENUATION_BIAS: u32 = 394; pub const GPUREG_LIGHT4_ATTENUATION_SCALE: u32 = 395; pub const GPUREG_018C: u32 = 396; pub const GPUREG_018D: u32 = 397; pub const GPUREG_018E: u32 = 398; pub const GPUREG_018F: u32 = 399; pub const GPUREG_LIGHT5_SPECULAR0: u32 = 400; pub const GPUREG_LIGHT5_SPECULAR1: u32 = 401; pub const GPUREG_LIGHT5_DIFFUSE: u32 = 402; pub const GPUREG_LIGHT5_AMBIENT: u32 = 403; pub const GPUREG_LIGHT5_XY: u32 = 404; pub const GPUREG_LIGHT5_Z: u32 = 405; pub const GPUREG_LIGHT5_SPOTDIR_XY: u32 = 406; pub const GPUREG_LIGHT5_SPOTDIR_Z: u32 = 407; pub const GPUREG_0198: u32 = 408; pub const GPUREG_LIGHT5_CONFIG: u32 = 409; pub const GPUREG_LIGHT5_ATTENUATION_BIAS: u32 = 410; pub const GPUREG_LIGHT5_ATTENUATION_SCALE: u32 = 411; pub const GPUREG_019C: u32 = 412; pub const GPUREG_019D: u32 = 413; pub const GPUREG_019E: u32 = 414; pub const GPUREG_019F: u32 = 415; pub const GPUREG_LIGHT6_SPECULAR0: u32 = 416; pub const GPUREG_LIGHT6_SPECULAR1: u32 = 417; pub const GPUREG_LIGHT6_DIFFUSE: u32 = 418; pub const GPUREG_LIGHT6_AMBIENT: u32 = 419; pub const GPUREG_LIGHT6_XY: u32 = 420; pub const GPUREG_LIGHT6_Z: u32 = 421; pub const GPUREG_LIGHT6_SPOTDIR_XY: u32 = 422; pub const GPUREG_LIGHT6_SPOTDIR_Z: u32 = 423; pub const GPUREG_01A8: u32 = 424; pub const GPUREG_LIGHT6_CONFIG: u32 = 425; pub const GPUREG_LIGHT6_ATTENUATION_BIAS: u32 = 426; pub const GPUREG_LIGHT6_ATTENUATION_SCALE: u32 = 427; pub const GPUREG_01AC: u32 = 428; pub const GPUREG_01AD: u32 = 429; pub const GPUREG_01AE: u32 = 430; pub const GPUREG_01AF: u32 = 431; pub const GPUREG_LIGHT7_SPECULAR0: u32 = 432; pub const GPUREG_LIGHT7_SPECULAR1: u32 = 433; pub const GPUREG_LIGHT7_DIFFUSE: u32 = 434; pub const GPUREG_LIGHT7_AMBIENT: u32 = 435; pub const GPUREG_LIGHT7_XY: u32 = 436; pub const GPUREG_LIGHT7_Z: u32 = 437; pub const GPUREG_LIGHT7_SPOTDIR_XY: u32 = 438; pub const GPUREG_LIGHT7_SPOTDIR_Z: u32 = 439; pub const GPUREG_01B8: u32 = 440; pub const GPUREG_LIGHT7_CONFIG: u32 = 441; pub const GPUREG_LIGHT7_ATTENUATION_BIAS: u32 = 442; pub const GPUREG_LIGHT7_ATTENUATION_SCALE: u32 = 443; pub const GPUREG_01BC: u32 = 444; pub const GPUREG_01BD: u32 = 445; pub const GPUREG_01BE: u32 = 446; pub const GPUREG_01BF: u32 = 447; pub const GPUREG_LIGHTING_AMBIENT: u32 = 448; pub const GPUREG_01C1: u32 = 449; pub const GPUREG_LIGHTING_NUM_LIGHTS: u32 = 450; pub const GPUREG_LIGHTING_CONFIG0: u32 = 451; pub const GPUREG_LIGHTING_CONFIG1: u32 = 452; pub const GPUREG_LIGHTING_LUT_INDEX: u32 = 453; pub const GPUREG_LIGHTING_ENABLE1: u32 = 454; pub const GPUREG_01C7: u32 = 455; pub const GPUREG_LIGHTING_LUT_DATA0: u32 = 456; pub const GPUREG_LIGHTING_LUT_DATA1: u32 = 457; pub const GPUREG_LIGHTING_LUT_DATA2: u32 = 458; pub const GPUREG_LIGHTING_LUT_DATA3: u32 = 459; pub const GPUREG_LIGHTING_LUT_DATA4: u32 = 460; pub const GPUREG_LIGHTING_LUT_DATA5: u32 = 461; pub const GPUREG_LIGHTING_LUT_DATA6: u32 = 462; pub const GPUREG_LIGHTING_LUT_DATA7: u32 = 463; pub const GPUREG_LIGHTING_LUTINPUT_ABS: u32 = 464; pub const GPUREG_LIGHTING_LUTINPUT_SELECT: u32 = 465; pub const GPUREG_LIGHTING_LUTINPUT_SCALE: u32 = 466; pub const GPUREG_01D3: u32 = 467; pub const GPUREG_01D4: u32 = 468; pub const GPUREG_01D5: u32 = 469; pub const GPUREG_01D6: u32 = 470; pub const GPUREG_01D7: u32 = 471; pub const GPUREG_01D8: u32 = 472; pub const GPUREG_LIGHTING_LIGHT_PERMUTATION: u32 = 473; pub const GPUREG_01DA: u32 = 474; pub const GPUREG_01DB: u32 = 475; pub const GPUREG_01DC: u32 = 476; pub const GPUREG_01DD: u32 = 477; pub const GPUREG_01DE: u32 = 478; pub const GPUREG_01DF: u32 = 479; pub const GPUREG_01E0: u32 = 480; pub const GPUREG_01E1: u32 = 481; pub const GPUREG_01E2: u32 = 482; pub const GPUREG_01E3: u32 = 483; pub const GPUREG_01E4: u32 = 484; pub const GPUREG_01E5: u32 = 485; pub const GPUREG_01E6: u32 = 486; pub const GPUREG_01E7: u32 = 487; pub const GPUREG_01E8: u32 = 488; pub const GPUREG_01E9: u32 = 489; pub const GPUREG_01EA: u32 = 490; pub const GPUREG_01EB: u32 = 491; pub const GPUREG_01EC: u32 = 492; pub const GPUREG_01ED: u32 = 493; pub const GPUREG_01EE: u32 = 494; pub const GPUREG_01EF: u32 = 495; pub const GPUREG_01F0: u32 = 496; pub const GPUREG_01F1: u32 = 497; pub const GPUREG_01F2: u32 = 498; pub const GPUREG_01F3: u32 = 499; pub const GPUREG_01F4: u32 = 500; pub const GPUREG_01F5: u32 = 501; pub const GPUREG_01F6: u32 = 502; pub const GPUREG_01F7: u32 = 503; pub const GPUREG_01F8: u32 = 504; pub const GPUREG_01F9: u32 = 505; pub const GPUREG_01FA: u32 = 506; pub const GPUREG_01FB: u32 = 507; pub const GPUREG_01FC: u32 = 508; pub const GPUREG_01FD: u32 = 509; pub const GPUREG_01FE: u32 = 510; pub const GPUREG_01FF: u32 = 511; pub const GPUREG_ATTRIBBUFFERS_LOC: u32 = 512; pub const GPUREG_ATTRIBBUFFERS_FORMAT_LOW: u32 = 513; pub const GPUREG_ATTRIBBUFFERS_FORMAT_HIGH: u32 = 514; pub const GPUREG_ATTRIBBUFFER0_OFFSET: u32 = 515; pub const GPUREG_ATTRIBBUFFER0_CONFIG1: u32 = 516; pub const GPUREG_ATTRIBBUFFER0_CONFIG2: u32 = 517; pub const GPUREG_ATTRIBBUFFER1_OFFSET: u32 = 518; pub const GPUREG_ATTRIBBUFFER1_CONFIG1: u32 = 519; pub const GPUREG_ATTRIBBUFFER1_CONFIG2: u32 = 520; pub const GPUREG_ATTRIBBUFFER2_OFFSET: u32 = 521; pub const GPUREG_ATTRIBBUFFER2_CONFIG1: u32 = 522; pub const GPUREG_ATTRIBBUFFER2_CONFIG2: u32 = 523; pub const GPUREG_ATTRIBBUFFER3_OFFSET: u32 = 524; pub const GPUREG_ATTRIBBUFFER3_CONFIG1: u32 = 525; pub const GPUREG_ATTRIBBUFFER3_CONFIG2: u32 = 526; pub const GPUREG_ATTRIBBUFFER4_OFFSET: u32 = 527; pub const GPUREG_ATTRIBBUFFER4_CONFIG1: u32 = 528; pub const GPUREG_ATTRIBBUFFER4_CONFIG2: u32 = 529; pub const GPUREG_ATTRIBBUFFER5_OFFSET: u32 = 530; pub const GPUREG_ATTRIBBUFFER5_CONFIG1: u32 = 531; pub const GPUREG_ATTRIBBUFFER5_CONFIG2: u32 = 532; pub const GPUREG_ATTRIBBUFFER6_OFFSET: u32 = 533; pub const GPUREG_ATTRIBBUFFER6_CONFIG1: u32 = 534; pub const GPUREG_ATTRIBBUFFER6_CONFIG2: u32 = 535; pub const GPUREG_ATTRIBBUFFER7_OFFSET: u32 = 536; pub const GPUREG_ATTRIBBUFFER7_CONFIG1: u32 = 537; pub const GPUREG_ATTRIBBUFFER7_CONFIG2: u32 = 538; pub const GPUREG_ATTRIBBUFFER8_OFFSET: u32 = 539; pub const GPUREG_ATTRIBBUFFER8_CONFIG1: u32 = 540; pub const GPUREG_ATTRIBBUFFER8_CONFIG2: u32 = 541; pub const GPUREG_ATTRIBBUFFER9_OFFSET: u32 = 542; pub const GPUREG_ATTRIBBUFFER9_CONFIG1: u32 = 543; pub const GPUREG_ATTRIBBUFFER9_CONFIG2: u32 = 544; pub const GPUREG_ATTRIBBUFFERA_OFFSET: u32 = 545; pub const GPUREG_ATTRIBBUFFERA_CONFIG1: u32 = 546; pub const GPUREG_ATTRIBBUFFERA_CONFIG2: u32 = 547; pub const GPUREG_ATTRIBBUFFERB_OFFSET: u32 = 548; pub const GPUREG_ATTRIBBUFFERB_CONFIG1: u32 = 549; pub const GPUREG_ATTRIBBUFFERB_CONFIG2: u32 = 550; pub const GPUREG_INDEXBUFFER_CONFIG: u32 = 551; pub const GPUREG_NUMVERTICES: u32 = 552; pub const GPUREG_GEOSTAGE_CONFIG: u32 = 553; pub const GPUREG_VERTEX_OFFSET: u32 = 554; pub const GPUREG_022B: u32 = 555; pub const GPUREG_022C: u32 = 556; pub const GPUREG_POST_VERTEX_CACHE_NUM: u32 = 557; pub const GPUREG_DRAWARRAYS: u32 = 558; pub const GPUREG_DRAWELEMENTS: u32 = 559; pub const GPUREG_0230: u32 = 560; pub const GPUREG_VTX_FUNC: u32 = 561; pub const GPUREG_FIXEDATTRIB_INDEX: u32 = 562; pub const GPUREG_FIXEDATTRIB_DATA0: u32 = 563; pub const GPUREG_FIXEDATTRIB_DATA1: u32 = 564; pub const GPUREG_FIXEDATTRIB_DATA2: u32 = 565; pub const GPUREG_0236: u32 = 566; pub const GPUREG_0237: u32 = 567; pub const GPUREG_CMDBUF_SIZE0: u32 = 568; pub const GPUREG_CMDBUF_SIZE1: u32 = 569; pub const GPUREG_CMDBUF_ADDR0: u32 = 570; pub const GPUREG_CMDBUF_ADDR1: u32 = 571; pub const GPUREG_CMDBUF_JUMP0: u32 = 572; pub const GPUREG_CMDBUF_JUMP1: u32 = 573; pub const GPUREG_023E: u32 = 574; pub const GPUREG_023F: u32 = 575; pub const GPUREG_0240: u32 = 576; pub const GPUREG_0241: u32 = 577; pub const GPUREG_VSH_NUM_ATTR: u32 = 578; pub const GPUREG_0243: u32 = 579; pub const GPUREG_VSH_COM_MODE: u32 = 580; pub const GPUREG_START_DRAW_FUNC0: u32 = 581; pub const GPUREG_0246: u32 = 582; pub const GPUREG_0247: u32 = 583; pub const GPUREG_0248: u32 = 584; pub const GPUREG_0249: u32 = 585; pub const GPUREG_VSH_OUTMAP_TOTAL1: u32 = 586; pub const GPUREG_024B: u32 = 587; pub const GPUREG_024C: u32 = 588; pub const GPUREG_024D: u32 = 589; pub const GPUREG_024E: u32 = 590; pub const GPUREG_024F: u32 = 591; pub const GPUREG_0250: u32 = 592; pub const GPUREG_VSH_OUTMAP_TOTAL2: u32 = 593; pub const GPUREG_GSH_MISC0: u32 = 594; pub const GPUREG_GEOSTAGE_CONFIG2: u32 = 595; pub const GPUREG_GSH_MISC1: u32 = 596; pub const GPUREG_0255: u32 = 597; pub const GPUREG_0256: u32 = 598; pub const GPUREG_0257: u32 = 599; pub const GPUREG_0258: u32 = 600; pub const GPUREG_0259: u32 = 601; pub const GPUREG_025A: u32 = 602; pub const GPUREG_025B: u32 = 603; pub const GPUREG_025C: u32 = 604; pub const GPUREG_025D: u32 = 605; pub const GPUREG_PRIMITIVE_CONFIG: u32 = 606; pub const GPUREG_RESTART_PRIMITIVE: u32 = 607; pub const GPUREG_0260: u32 = 608; pub const GPUREG_0261: u32 = 609; pub const GPUREG_0262: u32 = 610; pub const GPUREG_0263: u32 = 611; pub const GPUREG_0264: u32 = 612; pub const GPUREG_0265: u32 = 613; pub const GPUREG_0266: u32 = 614; pub const GPUREG_0267: u32 = 615; pub const GPUREG_0268: u32 = 616; pub const GPUREG_0269: u32 = 617; pub const GPUREG_026A: u32 = 618; pub const GPUREG_026B: u32 = 619; pub const GPUREG_026C: u32 = 620; pub const GPUREG_026D: u32 = 621; pub const GPUREG_026E: u32 = 622; pub const GPUREG_026F: u32 = 623; pub const GPUREG_0270: u32 = 624; pub const GPUREG_0271: u32 = 625; pub const GPUREG_0272: u32 = 626; pub const GPUREG_0273: u32 = 627; pub const GPUREG_0274: u32 = 628; pub const GPUREG_0275: u32 = 629; pub const GPUREG_0276: u32 = 630; pub const GPUREG_0277: u32 = 631; pub const GPUREG_0278: u32 = 632; pub const GPUREG_0279: u32 = 633; pub const GPUREG_027A: u32 = 634; pub const GPUREG_027B: u32 = 635; pub const GPUREG_027C: u32 = 636; pub const GPUREG_027D: u32 = 637; pub const GPUREG_027E: u32 = 638; pub const GPUREG_027F: u32 = 639; pub const GPUREG_GSH_BOOLUNIFORM: u32 = 640; pub const GPUREG_GSH_INTUNIFORM_I0: u32 = 641; pub const GPUREG_GSH_INTUNIFORM_I1: u32 = 642; pub const GPUREG_GSH_INTUNIFORM_I2: u32 = 643; pub const GPUREG_GSH_INTUNIFORM_I3: u32 = 644; pub const GPUREG_0285: u32 = 645; pub const GPUREG_0286: u32 = 646; pub const GPUREG_0287: u32 = 647; pub const GPUREG_0288: u32 = 648; pub const GPUREG_GSH_INPUTBUFFER_CONFIG: u32 = 649; pub const GPUREG_GSH_ENTRYPOINT: u32 = 650; pub const GPUREG_GSH_ATTRIBUTES_PERMUTATION_LOW: u32 = 651; pub const GPUREG_GSH_ATTRIBUTES_PERMUTATION_HIGH: u32 = 652; pub const GPUREG_GSH_OUTMAP_MASK: u32 = 653; pub const GPUREG_028E: u32 = 654; pub const GPUREG_GSH_CODETRANSFER_END: u32 = 655; pub const GPUREG_GSH_FLOATUNIFORM_CONFIG: u32 = 656; pub const GPUREG_GSH_FLOATUNIFORM_DATA: u32 = 657; pub const GPUREG_0299: u32 = 665; pub const GPUREG_029A: u32 = 666; pub const GPUREG_GSH_CODETRANSFER_CONFIG: u32 = 667; pub const GPUREG_GSH_CODETRANSFER_DATA: u32 = 668; pub const GPUREG_02A4: u32 = 676; pub const GPUREG_GSH_OPDESCS_CONFIG: u32 = 677; pub const GPUREG_GSH_OPDESCS_DATA: u32 = 678; pub const GPUREG_02AE: u32 = 686; pub const GPUREG_02AF: u32 = 687; pub const GPUREG_VSH_BOOLUNIFORM: u32 = 688; pub const GPUREG_VSH_INTUNIFORM_I0: u32 = 689; pub const GPUREG_VSH_INTUNIFORM_I1: u32 = 690; pub const GPUREG_VSH_INTUNIFORM_I2: u32 = 691; pub const GPUREG_VSH_INTUNIFORM_I3: u32 = 692; pub const GPUREG_02B5: u32 = 693; pub const GPUREG_02B6: u32 = 694; pub const GPUREG_02B7: u32 = 695; pub const GPUREG_02B8: u32 = 696; pub const GPUREG_VSH_INPUTBUFFER_CONFIG: u32 = 697; pub const GPUREG_VSH_ENTRYPOINT: u32 = 698; pub const GPUREG_VSH_ATTRIBUTES_PERMUTATION_LOW: u32 = 699; pub const GPUREG_VSH_ATTRIBUTES_PERMUTATION_HIGH: u32 = 700; pub const GPUREG_VSH_OUTMAP_MASK: u32 = 701; pub const GPUREG_02BE: u32 = 702; pub const GPUREG_VSH_CODETRANSFER_END: u32 = 703; pub const GPUREG_VSH_FLOATUNIFORM_CONFIG: u32 = 704; pub const GPUREG_VSH_FLOATUNIFORM_DATA: u32 = 705; pub const GPUREG_02C9: u32 = 713; pub const GPUREG_02CA: u32 = 714; pub const GPUREG_VSH_CODETRANSFER_CONFIG: u32 = 715; pub const GPUREG_VSH_CODETRANSFER_DATA: u32 = 716; pub const GPUREG_02D4: u32 = 724; pub const GPUREG_VSH_OPDESCS_CONFIG: u32 = 725; pub const GPUREG_VSH_OPDESCS_DATA: u32 = 726; pub const GPUREG_02DE: u32 = 734; pub const GPUREG_02DF: u32 = 735; pub const GPUREG_02E0: u32 = 736; pub const GPUREG_02E1: u32 = 737; pub const GPUREG_02E2: u32 = 738; pub const GPUREG_02E3: u32 = 739; pub const GPUREG_02E4: u32 = 740; pub const GPUREG_02E5: u32 = 741; pub const GPUREG_02E6: u32 = 742; pub const GPUREG_02E7: u32 = 743; pub const GPUREG_02E8: u32 = 744; pub const GPUREG_02E9: u32 = 745; pub const GPUREG_02EA: u32 = 746; pub const GPUREG_02EB: u32 = 747; pub const GPUREG_02EC: u32 = 748; pub const GPUREG_02ED: u32 = 749; pub const GPUREG_02EE: u32 = 750; pub const GPUREG_02EF: u32 = 751; pub const GPUREG_02F0: u32 = 752; pub const GPUREG_02F1: u32 = 753; pub const GPUREG_02F2: u32 = 754; pub const GPUREG_02F3: u32 = 755; pub const GPUREG_02F4: u32 = 756; pub const GPUREG_02F5: u32 = 757; pub const GPUREG_02F6: u32 = 758; pub const GPUREG_02F7: u32 = 759; pub const GPUREG_02F8: u32 = 760; pub const GPUREG_02F9: u32 = 761; pub const GPUREG_02FA: u32 = 762; pub const GPUREG_02FB: u32 = 763; pub const GPUREG_02FC: u32 = 764; pub const GPUREG_02FD: u32 = 765; pub const GPUREG_02FE: u32 = 766; pub const GPUREG_02FF: u32 = 767; pub const NDSP_SAMPLE_RATE: f64 = 32728.498046875; pub const SWKBD_MAX_WORD_LEN: u32 = 40; pub const SWKBD_MAX_BUTTON_TEXT_LEN: u32 = 16; pub const SWKBD_MAX_HINT_TEXT_LEN: u32 = 64; pub const SWKBD_MAX_CALLBACK_MSG_LEN: u32 = 256; pub const MIISELECTOR_MAGIC: u32 = 333326543; pub const MIISELECTOR_TITLE_LEN: u32 = 64; pub const MIISELECTOR_GUESTMII_SLOTS: u32 = 6; pub const MIISELECTOR_USERMII_SLOTS: u32 = 100; pub const MIISELECTOR_GUESTMII_NAME_LEN: u32 = 12; pub const ARCHIVE_DIRITER_MAGIC: u32 = 1751347809; pub type __int8_t = ::libc::c_schar; pub type __uint8_t = ::libc::c_uchar; pub type __int16_t = ::libc::c_short; pub type __uint16_t = ::libc::c_ushort; pub type __int32_t = ::libc::c_int; pub type __uint32_t = ::libc::c_uint; pub type __int64_t = ::libc::c_longlong; pub type __uint64_t = ::libc::c_ulonglong; pub type __int_least8_t = ::libc::c_schar; pub type __uint_least8_t = ::libc::c_uchar; pub type __int_least16_t = ::libc::c_short; pub type __uint_least16_t = ::libc::c_ushort; pub type __int_least32_t = ::libc::c_int; pub type __uint_least32_t = ::libc::c_uint; pub type __int_least64_t = ::libc::c_longlong; pub type __uint_least64_t = ::libc::c_ulonglong; pub type __intmax_t = ::libc::c_longlong; pub type __uintmax_t = ::libc::c_ulonglong; pub type __intptr_t = ::libc::c_int; pub type __uintptr_t = ::libc::c_uint; pub type intmax_t = __intmax_t; pub type uintmax_t = __uintmax_t; pub type int_least8_t = __int_least8_t; pub type uint_least8_t = __uint_least8_t; pub type int_least16_t = __int_least16_t; pub type uint_least16_t = __uint_least16_t; pub type int_least32_t = __int_least32_t; pub type uint_least32_t = __uint_least32_t; pub type int_least64_t = __int_least64_t; pub type uint_least64_t = __uint_least64_t; pub type int_fast8_t = ::libc::c_schar; pub type uint_fast8_t = ::libc::c_uchar; pub type int_fast16_t = ::libc::c_short; pub type uint_fast16_t = ::libc::c_ushort; pub type int_fast32_t = ::libc::c_int; pub type uint_fast32_t = ::libc::c_uint; pub type int_fast64_t = ::libc::c_longlong; pub type uint_fast64_t = ::libc::c_ulonglong; pub type size_t = ::libc::c_uint; pub type wchar_t = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct max_align_t { pub __clang_max_align_nonce1: ::libc::c_longlong, pub __clang_max_align_nonce2: f64, } pub type u8_ = u8; pub type u16_ = u16; pub type u32_ = u32; pub type u64_ = u64; pub type s8 = i8; pub type s16 = i16; pub type s32 = i32; pub type s64 = i64; pub type vu8 = u8_; pub type vu16 = u16_; pub type vu32 = u32_; pub type vu64 = u64_; pub type vs8 = s8; pub type vs16 = s16; pub type vs32 = s32; pub type vs64 = s64; pub type Handle = u32_; pub type Result = s32; pub type ThreadFunc = ::core::option::Option; pub type voidfn = ::core::option::Option; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CpuRegisters { pub r: [u32_; 13usize], pub sp: u32_, pub lr: u32_, pub pc: u32_, pub cpsr: u32_, } #[repr(C)] #[derive(Copy, Clone)] pub struct FpuRegisters { pub __bindgen_anon_1: FpuRegisters__bindgen_ty_1, pub fpscr: u32_, pub fpexc: u32_, } #[repr(C)] #[derive(Copy, Clone)] pub union FpuRegisters__bindgen_ty_1 { pub __bindgen_anon_1: FpuRegisters__bindgen_ty_1__bindgen_ty_1, pub s: [f32; 32usize], } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct FpuRegisters__bindgen_ty_1__bindgen_ty_1 { pub d: [f64; 16usize], } impl Default for FpuRegisters__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for FpuRegisters { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const RL_SUCCESS: ::libc::c_uint = 0; pub const RL_INFO: ::libc::c_uint = 1; pub const RL_FATAL: ::libc::c_uint = 31; pub const RL_RESET: ::libc::c_uint = 30; pub const RL_REINITIALIZE: ::libc::c_uint = 29; pub const RL_USAGE: ::libc::c_uint = 28; pub const RL_PERMANENT: ::libc::c_uint = 27; pub const RL_TEMPORARY: ::libc::c_uint = 26; pub const RL_STATUS: ::libc::c_uint = 25; pub type _bindgen_ty_1 = ::libc::c_uint; pub const RS_SUCCESS: ::libc::c_uint = 0; pub const RS_NOP: ::libc::c_uint = 1; pub const RS_WOULDBLOCK: ::libc::c_uint = 2; pub const RS_OUTOFRESOURCE: ::libc::c_uint = 3; pub const RS_NOTFOUND: ::libc::c_uint = 4; pub const RS_INVALIDSTATE: ::libc::c_uint = 5; pub const RS_NOTSUPPORTED: ::libc::c_uint = 6; pub const RS_INVALIDARG: ::libc::c_uint = 7; pub const RS_WRONGARG: ::libc::c_uint = 8; pub const RS_CANCELED: ::libc::c_uint = 9; pub const RS_STATUSCHANGED: ::libc::c_uint = 10; pub const RS_INTERNAL: ::libc::c_uint = 11; pub const RS_INVALIDRESVAL: ::libc::c_uint = 63; pub type _bindgen_ty_2 = ::libc::c_uint; pub const RM_COMMON: ::libc::c_uint = 0; pub const RM_KERNEL: ::libc::c_uint = 1; pub const RM_UTIL: ::libc::c_uint = 2; pub const RM_FILE_SERVER: ::libc::c_uint = 3; pub const RM_LOADER_SERVER: ::libc::c_uint = 4; pub const RM_TCB: ::libc::c_uint = 5; pub const RM_OS: ::libc::c_uint = 6; pub const RM_DBG: ::libc::c_uint = 7; pub const RM_DMNT: ::libc::c_uint = 8; pub const RM_PDN: ::libc::c_uint = 9; pub const RM_GSP: ::libc::c_uint = 10; pub const RM_I2C: ::libc::c_uint = 11; pub const RM_GPIO: ::libc::c_uint = 12; pub const RM_DD: ::libc::c_uint = 13; pub const RM_CODEC: ::libc::c_uint = 14; pub const RM_SPI: ::libc::c_uint = 15; pub const RM_PXI: ::libc::c_uint = 16; pub const RM_FS: ::libc::c_uint = 17; pub const RM_DI: ::libc::c_uint = 18; pub const RM_HID: ::libc::c_uint = 19; pub const RM_CAM: ::libc::c_uint = 20; pub const RM_PI: ::libc::c_uint = 21; pub const RM_PM: ::libc::c_uint = 22; pub const RM_PM_LOW: ::libc::c_uint = 23; pub const RM_FSI: ::libc::c_uint = 24; pub const RM_SRV: ::libc::c_uint = 25; pub const RM_NDM: ::libc::c_uint = 26; pub const RM_NWM: ::libc::c_uint = 27; pub const RM_SOC: ::libc::c_uint = 28; pub const RM_LDR: ::libc::c_uint = 29; pub const RM_ACC: ::libc::c_uint = 30; pub const RM_ROMFS: ::libc::c_uint = 31; pub const RM_AM: ::libc::c_uint = 32; pub const RM_HIO: ::libc::c_uint = 33; pub const RM_UPDATER: ::libc::c_uint = 34; pub const RM_MIC: ::libc::c_uint = 35; pub const RM_FND: ::libc::c_uint = 36; pub const RM_MP: ::libc::c_uint = 37; pub const RM_MPWL: ::libc::c_uint = 38; pub const RM_AC: ::libc::c_uint = 39; pub const RM_HTTP: ::libc::c_uint = 40; pub const RM_DSP: ::libc::c_uint = 41; pub const RM_SND: ::libc::c_uint = 42; pub const RM_DLP: ::libc::c_uint = 43; pub const RM_HIO_LOW: ::libc::c_uint = 44; pub const RM_CSND: ::libc::c_uint = 45; pub const RM_SSL: ::libc::c_uint = 46; pub const RM_AM_LOW: ::libc::c_uint = 47; pub const RM_NEX: ::libc::c_uint = 48; pub const RM_FRIENDS: ::libc::c_uint = 49; pub const RM_RDT: ::libc::c_uint = 50; pub const RM_APPLET: ::libc::c_uint = 51; pub const RM_NIM: ::libc::c_uint = 52; pub const RM_PTM: ::libc::c_uint = 53; pub const RM_MIDI: ::libc::c_uint = 54; pub const RM_MC: ::libc::c_uint = 55; pub const RM_SWC: ::libc::c_uint = 56; pub const RM_FATFS: ::libc::c_uint = 57; pub const RM_NGC: ::libc::c_uint = 58; pub const RM_CARD: ::libc::c_uint = 59; pub const RM_CARDNOR: ::libc::c_uint = 60; pub const RM_SDMC: ::libc::c_uint = 61; pub const RM_BOSS: ::libc::c_uint = 62; pub const RM_DBM: ::libc::c_uint = 63; pub const RM_CONFIG: ::libc::c_uint = 64; pub const RM_PS: ::libc::c_uint = 65; pub const RM_CEC: ::libc::c_uint = 66; pub const RM_IR: ::libc::c_uint = 67; pub const RM_UDS: ::libc::c_uint = 68; pub const RM_PL: ::libc::c_uint = 69; pub const RM_CUP: ::libc::c_uint = 70; pub const RM_GYROSCOPE: ::libc::c_uint = 71; pub const RM_MCU: ::libc::c_uint = 72; pub const RM_NS: ::libc::c_uint = 73; pub const RM_NEWS: ::libc::c_uint = 74; pub const RM_RO: ::libc::c_uint = 75; pub const RM_GD: ::libc::c_uint = 76; pub const RM_CARD_SPI: ::libc::c_uint = 77; pub const RM_EC: ::libc::c_uint = 78; pub const RM_WEB_BROWSER: ::libc::c_uint = 79; pub const RM_TEST: ::libc::c_uint = 80; pub const RM_ENC: ::libc::c_uint = 81; pub const RM_PIA: ::libc::c_uint = 82; pub const RM_ACT: ::libc::c_uint = 83; pub const RM_VCTL: ::libc::c_uint = 84; pub const RM_OLV: ::libc::c_uint = 85; pub const RM_NEIA: ::libc::c_uint = 86; pub const RM_NPNS: ::libc::c_uint = 87; pub const RM_AVD: ::libc::c_uint = 90; pub const RM_L2B: ::libc::c_uint = 91; pub const RM_MVD: ::libc::c_uint = 92; pub const RM_NFC: ::libc::c_uint = 93; pub const RM_UART: ::libc::c_uint = 94; pub const RM_SPM: ::libc::c_uint = 95; pub const RM_QTM: ::libc::c_uint = 96; pub const RM_NFP: ::libc::c_uint = 97; pub const RM_APPLICATION: ::libc::c_uint = 254; pub const RM_INVALIDRESVAL: ::libc::c_uint = 255; pub type _bindgen_ty_3 = ::libc::c_uint; pub const RD_SUCCESS: ::libc::c_uint = 0; pub const RD_INVALID_RESULT_VALUE: ::libc::c_uint = 1023; pub const RD_TIMEOUT: ::libc::c_uint = 1022; pub const RD_OUT_OF_RANGE: ::libc::c_uint = 1021; pub const RD_ALREADY_EXISTS: ::libc::c_uint = 1020; pub const RD_CANCEL_REQUESTED: ::libc::c_uint = 1019; pub const RD_NOT_FOUND: ::libc::c_uint = 1018; pub const RD_ALREADY_INITIALIZED: ::libc::c_uint = 1017; pub const RD_NOT_INITIALIZED: ::libc::c_uint = 1016; pub const RD_INVALID_HANDLE: ::libc::c_uint = 1015; pub const RD_INVALID_POINTER: ::libc::c_uint = 1014; pub const RD_INVALID_ADDRESS: ::libc::c_uint = 1013; pub const RD_NOT_IMPLEMENTED: ::libc::c_uint = 1012; pub const RD_OUT_OF_MEMORY: ::libc::c_uint = 1011; pub const RD_MISALIGNED_SIZE: ::libc::c_uint = 1010; pub const RD_MISALIGNED_ADDRESS: ::libc::c_uint = 1009; pub const RD_BUSY: ::libc::c_uint = 1008; pub const RD_NO_DATA: ::libc::c_uint = 1007; pub const RD_INVALID_COMBINATION: ::libc::c_uint = 1006; pub const RD_INVALID_ENUM_VALUE: ::libc::c_uint = 1005; pub const RD_INVALID_SIZE: ::libc::c_uint = 1004; pub const RD_ALREADY_DONE: ::libc::c_uint = 1003; pub const RD_NOT_AUTHORIZED: ::libc::c_uint = 1002; pub const RD_TOO_LARGE: ::libc::c_uint = 1001; pub const RD_INVALID_SELECTION: ::libc::c_uint = 1000; pub type _bindgen_ty_4 = ::libc::c_uint; pub const IPC_BUFFER_R: IPC_BufferRights = 2; pub const IPC_BUFFER_W: IPC_BufferRights = 4; pub const IPC_BUFFER_RW: IPC_BufferRights = 6; pub type IPC_BufferRights = ::libc::c_uint; pub const MEMOP_FREE: MemOp = 1; pub const MEMOP_RESERVE: MemOp = 2; pub const MEMOP_ALLOC: MemOp = 3; pub const MEMOP_MAP: MemOp = 4; pub const MEMOP_UNMAP: MemOp = 5; pub const MEMOP_PROT: MemOp = 6; pub const MEMOP_REGION_APP: MemOp = 256; pub const MEMOP_REGION_SYSTEM: MemOp = 512; pub const MEMOP_REGION_BASE: MemOp = 768; pub const MEMOP_OP_MASK: MemOp = 255; pub const MEMOP_REGION_MASK: MemOp = 3840; pub const MEMOP_LINEAR_FLAG: MemOp = 65536; pub const MEMOP_ALLOC_LINEAR: MemOp = 65539; pub type MemOp = ::libc::c_uint; pub const MEMSTATE_FREE: MemState = 0; pub const MEMSTATE_RESERVED: MemState = 1; pub const MEMSTATE_IO: MemState = 2; pub const MEMSTATE_STATIC: MemState = 3; pub const MEMSTATE_CODE: MemState = 4; pub const MEMSTATE_PRIVATE: MemState = 5; pub const MEMSTATE_SHARED: MemState = 6; pub const MEMSTATE_CONTINUOUS: MemState = 7; pub const MEMSTATE_ALIASED: MemState = 8; pub const MEMSTATE_ALIAS: MemState = 9; pub const MEMSTATE_ALIASCODE: MemState = 10; pub const MEMSTATE_LOCKED: MemState = 11; pub type MemState = ::libc::c_uint; pub const MEMPERM_READ: MemPerm = 1; pub const MEMPERM_WRITE: MemPerm = 2; pub const MEMPERM_EXECUTE: MemPerm = 4; pub const MEMPERM_READWRITE: MemPerm = 3; pub const MEMPERM_READEXECUTE: MemPerm = 5; pub const MEMPERM_DONTCARE: MemPerm = 268435456; pub type MemPerm = ::libc::c_uint; pub const MEMREGION_ALL: MemRegion = 0; pub const MEMREGION_APPLICATION: MemRegion = 1; pub const MEMREGION_SYSTEM: MemRegion = 2; pub const MEMREGION_BASE: MemRegion = 3; pub type MemRegion = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct MemInfo { pub base_addr: u32_, pub size: u32_, pub perm: u32_, pub state: u32_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct PageInfo { pub flags: u32_, } pub const ARBITRATION_SIGNAL: ArbitrationType = 0; pub const ARBITRATION_WAIT_IF_LESS_THAN: ArbitrationType = 1; pub const ARBITRATION_DECREMENT_AND_WAIT_IF_LESS_THAN: ArbitrationType = 2; pub const ARBITRATION_WAIT_IF_LESS_THAN_TIMEOUT: ArbitrationType = 3; pub const ARBITRATION_DECREMENT_AND_WAIT_IF_LESS_THAN_TIMEOUT: ArbitrationType = 4; pub type ArbitrationType = ::libc::c_uint; pub const RESET_ONESHOT: ResetType = 0; pub const RESET_STICKY: ResetType = 1; pub const RESET_PULSE: ResetType = 2; pub type ResetType = ::libc::c_uint; pub const THREADINFO_TYPE_UNKNOWN: ThreadInfoType = 0; pub type ThreadInfoType = ::libc::c_uint; pub const RESLIMIT_PRIORITY: ResourceLimitType = 0; pub const RESLIMIT_COMMIT: ResourceLimitType = 1; pub const RESLIMIT_THREAD: ResourceLimitType = 2; pub const RESLIMIT_EVENT: ResourceLimitType = 3; pub const RESLIMIT_MUTEX: ResourceLimitType = 4; pub const RESLIMIT_SEMAPHORE: ResourceLimitType = 5; pub const RESLIMIT_TIMER: ResourceLimitType = 6; pub const RESLIMIT_SHAREDMEMORY: ResourceLimitType = 7; pub const RESLIMIT_ADDRESSARBITER: ResourceLimitType = 8; pub const RESLIMIT_CPUTIME: ResourceLimitType = 9; pub const RESLIMIT_BIT: ResourceLimitType = 2147483648; pub type ResourceLimitType = ::libc::c_uint; pub const DMASTATE_STARTING: DmaState = 0; pub const DMASTATE_WFP_DST: DmaState = 1; pub const DMASTATE_WFP_SRC: DmaState = 2; pub const DMASTATE_RUNNING: DmaState = 3; pub const DMASTATE_DONE: DmaState = 4; pub type DmaState = ::libc::c_uint; pub const DMACFG_SRC_IS_DEVICE: ::libc::c_uint = 1; pub const DMACFG_DST_IS_DEVICE: ::libc::c_uint = 2; pub const DMACFG_WAIT_AVAILABLE: ::libc::c_uint = 4; pub const DMACFG_KEEP_LOCKED: ::libc::c_uint = 8; pub const DMACFG_USE_SRC_CONFIG: ::libc::c_uint = 64; pub const DMACFG_USE_DST_CONFIG: ::libc::c_uint = 128; pub type _bindgen_ty_5 = ::libc::c_uint; pub const DMARST_UNLOCK: ::libc::c_uint = 1; pub const DMARST_RESUME_DEVICE: ::libc::c_uint = 2; pub type _bindgen_ty_6 = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct DmaDeviceConfig { pub deviceId: s8, pub allowedAlignments: s8, pub burstSize: s16, pub transferSize: s16, pub burstStride: s16, pub transferStride: s16, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct DmaConfig { pub channelId: s8, pub endianSwapSize: s8, pub flags: u8_, pub _padding: u8_, pub srcCfg: DmaDeviceConfig, pub dstCfg: DmaDeviceConfig, } pub const PERFCOUNTEROP_ENABLE: PerfCounterOperation = 0; pub const PERFCOUNTEROP_DISABLE: PerfCounterOperation = 1; pub const PERFCOUNTEROP_GET_VALUE: PerfCounterOperation = 2; pub const PERFCOUNTEROP_SET_VALUE: PerfCounterOperation = 3; pub const PERFCOUNTEROP_GET_OVERFLOW_FLAGS: PerfCounterOperation = 4; pub const PERFCOUNTEROP_RESET: PerfCounterOperation = 5; pub const PERFCOUNTEROP_GET_EVENT: PerfCounterOperation = 6; pub const PERFCOUNTEROP_SET_EVENT: PerfCounterOperation = 7; pub const PERFCOUNTEROP_SET_VIRTUAL_COUNTER_ENABLED: PerfCounterOperation = 8; pub type PerfCounterOperation = ::libc::c_uint; pub const PERFCOUNTERREG_CORE_BASE: PerfCounterRegister = 0; pub const PERFCOUNTERREG_CORE_COUNT_REG_0: PerfCounterRegister = 0; pub const PERFCOUNTERREG_CORE_COUNT_REG_1: PerfCounterRegister = 1; pub const PERFCOUNTERREG_CORE_CYCLE_COUNTER: PerfCounterRegister = 2; pub const PERFCOUNTERREG_SCU_BASE: PerfCounterRegister = 16; pub const PERFCOUNTERREG_SCU_0: PerfCounterRegister = 16; pub const PERFCOUNTERREG_SCU_1: PerfCounterRegister = 17; pub const PERFCOUNTERREG_SCU_2: PerfCounterRegister = 18; pub const PERFCOUNTERREG_SCU_3: PerfCounterRegister = 19; pub const PERFCOUNTERREG_SCU_4: PerfCounterRegister = 20; pub const PERFCOUNTERREG_SCU_5: PerfCounterRegister = 21; pub const PERFCOUNTERREG_SCU_6: PerfCounterRegister = 22; pub const PERFCOUNTERREG_SCU_7: PerfCounterRegister = 23; pub type PerfCounterRegister = ::libc::c_uint; pub const PERFCOUNTEREVT_CORE_BASE: PerfCounterEvent = 0; pub const PERFCOUNTEREVT_CORE_INST_CACHE_MISS: PerfCounterEvent = 0; pub const PERFCOUNTEREVT_CORE_STALL_BY_LACK_OF_INST: PerfCounterEvent = 1; pub const PERFCOUNTEREVT_CORE_STALL_BY_DATA_HAZARD: PerfCounterEvent = 2; pub const PERFCOUNTEREVT_CORE_INST_MICRO_TLB_MISS: PerfCounterEvent = 3; pub const PERFCOUNTEREVT_CORE_DATA_MICRO_TLB_MISS: PerfCounterEvent = 4; pub const PERFCOUNTEREVT_CORE_BRANCH_INST: PerfCounterEvent = 5; pub const PERFCOUNTEREVT_CORE_BRANCH_NOT_PREDICTED: PerfCounterEvent = 6; pub const PERFCOUNTEREVT_CORE_BRANCH_MISS_PREDICTED: PerfCounterEvent = 7; pub const PERFCOUNTEREVT_CORE_INST_EXECUTED: PerfCounterEvent = 8; pub const PERFCOUNTEREVT_CORE_FOLDED_INST_EXECUTED: PerfCounterEvent = 9; pub const PERFCOUNTEREVT_CORE_DATA_CACHE_READ: PerfCounterEvent = 10; pub const PERFCOUNTEREVT_CORE_DATA_CACHE_READ_MISS: PerfCounterEvent = 11; pub const PERFCOUNTEREVT_CORE_DATA_CACHE_WRITE: PerfCounterEvent = 12; pub const PERFCOUNTEREVT_CORE_DATA_CACHE_WRITE_MISS: PerfCounterEvent = 13; pub const PERFCOUNTEREVT_CORE_DATA_CACHE_LINE_EVICTION: PerfCounterEvent = 14; pub const PERFCOUNTEREVT_CORE_PC_CHANGED: PerfCounterEvent = 15; pub const PERFCOUNTEREVT_CORE_MAIN_TLB_MISS: PerfCounterEvent = 16; pub const PERFCOUNTEREVT_CORE_EXTERNAL_REQUEST: PerfCounterEvent = 17; pub const PERFCOUNTEREVT_CORE_STALL_BY_LSU_FULL: PerfCounterEvent = 18; pub const PERFCOUNTEREVT_CORE_STORE_BUFFER_DRAIN: PerfCounterEvent = 19; pub const PERFCOUNTEREVT_CORE_MERGE_IN_STORE_BUFFER: PerfCounterEvent = 20; pub const PERFCOUNTEREVT_CORE_CYCLE_COUNT: PerfCounterEvent = 255; pub const PERFCOUNTEREVT_CORE_CYCLE_COUNT_64: PerfCounterEvent = 4095; pub const PERFCOUNTEREVT_SCU_BASE: PerfCounterEvent = 4096; pub const PERFCOUNTEREVT_SCU_DISABLED: PerfCounterEvent = 4096; pub const PERFCOUNTEREVT_SCU_LINEFILL_MISS_FROM_CORE0: PerfCounterEvent = 4097; pub const PERFCOUNTEREVT_SCU_LINEFILL_MISS_FROM_CORE1: PerfCounterEvent = 4098; pub const PERFCOUNTEREVT_SCU_LINEFILL_MISS_FROM_CORE2: PerfCounterEvent = 4099; pub const PERFCOUNTEREVT_SCU_LINEFILL_MISS_FROM_CORE3: PerfCounterEvent = 4100; pub const PERFCOUNTEREVT_SCU_LINEFILL_HIT_FROM_CORE0: PerfCounterEvent = 4101; pub const PERFCOUNTEREVT_SCU_LINEFILL_HIT_FROM_CORE1: PerfCounterEvent = 4102; pub const PERFCOUNTEREVT_SCU_LINEFILL_HIT_FROM_CORE2: PerfCounterEvent = 4103; pub const PERFCOUNTEREVT_SCU_LINEFILL_HIT_FROM_CORE3: PerfCounterEvent = 4104; pub const PERFCOUNTEREVT_SCU_LINE_MISSING_FROM_CORE0: PerfCounterEvent = 4105; pub const PERFCOUNTEREVT_SCU_LINE_MISSING_FROM_CORE1: PerfCounterEvent = 4106; pub const PERFCOUNTEREVT_SCU_LINE_MISSING_FROM_CORE2: PerfCounterEvent = 4107; pub const PERFCOUNTEREVT_SCU_LINE_MISSING_FROM_CORE3: PerfCounterEvent = 4108; pub const PERFCOUNTEREVT_SCU_LINE_MIGRATION: PerfCounterEvent = 4109; pub const PERFCOUNTEREVT_SCU_READ_BUSY_PORT0: PerfCounterEvent = 4110; pub const PERFCOUNTEREVT_SCU_READ_BUSY_PORT1: PerfCounterEvent = 4111; pub const PERFCOUNTEREVT_SCU_WRITE_BUSY_PORT0: PerfCounterEvent = 4112; pub const PERFCOUNTEREVT_SCU_WRITE_BUSY_PORT1: PerfCounterEvent = 4113; pub const PERFCOUNTEREVT_SCU_EXTERNAL_READ: PerfCounterEvent = 4114; pub const PERFCOUNTEREVT_SCU_EXTERNAL_WRITE: PerfCounterEvent = 4115; pub const PERFCOUNTEREVT_SCU_CYCLE_COUNT: PerfCounterEvent = 4127; pub type PerfCounterEvent = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct AttachProcessEvent { pub program_id: u64_, pub process_name: [::libc::c_char; 8usize], pub process_id: u32_, pub other_flags: u32_, } pub const EXITPROCESS_EVENT_EXIT: ExitProcessEventReason = 0; pub const EXITPROCESS_EVENT_TERMINATE: ExitProcessEventReason = 1; pub const EXITPROCESS_EVENT_DEBUG_TERMINATE: ExitProcessEventReason = 2; pub type ExitProcessEventReason = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExitProcessEvent { pub reason: ExitProcessEventReason, } impl Default for ExitProcessEvent { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct AttachThreadEvent { pub creator_thread_id: u32_, pub thread_local_storage: u32_, pub entry_point: u32_, } pub const EXITTHREAD_EVENT_EXIT: ExitThreadEventReason = 0; pub const EXITTHREAD_EVENT_TERMINATE: ExitThreadEventReason = 1; pub const EXITTHREAD_EVENT_EXIT_PROCESS: ExitThreadEventReason = 2; pub const EXITTHREAD_EVENT_TERMINATE_PROCESS: ExitThreadEventReason = 3; pub type ExitThreadEventReason = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExitThreadEvent { pub reason: ExitThreadEventReason, } impl Default for ExitThreadEvent { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const USERBREAK_PANIC: UserBreakType = 0; pub const USERBREAK_ASSERT: UserBreakType = 1; pub const USERBREAK_USER: UserBreakType = 2; pub const USERBREAK_LOAD_RO: UserBreakType = 3; pub const USERBREAK_UNLOAD_RO: UserBreakType = 4; pub type UserBreakType = ::libc::c_uint; pub const EXCEVENT_UNDEFINED_INSTRUCTION: ExceptionEventType = 0; pub const EXCEVENT_PREFETCH_ABORT: ExceptionEventType = 1; pub const EXCEVENT_DATA_ABORT: ExceptionEventType = 2; pub const EXCEVENT_UNALIGNED_DATA_ACCESS: ExceptionEventType = 3; pub const EXCEVENT_ATTACH_BREAK: ExceptionEventType = 4; pub const EXCEVENT_STOP_POINT: ExceptionEventType = 5; pub const EXCEVENT_USER_BREAK: ExceptionEventType = 6; pub const EXCEVENT_DEBUGGER_BREAK: ExceptionEventType = 7; pub const EXCEVENT_UNDEFINED_SYSCALL: ExceptionEventType = 8; pub type ExceptionEventType = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct FaultExceptionEvent { pub fault_information: u32_, } pub const STOPPOINT_SVC_FF: StopPointType = 0; pub const STOPPOINT_BREAKPOINT: StopPointType = 1; pub const STOPPOINT_WATCHPOINT: StopPointType = 2; pub type StopPointType = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct StopPointExceptionEvent { pub type_: StopPointType, pub fault_information: u32_, } impl Default for StopPointExceptionEvent { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct UserBreakExceptionEvent { pub type_: UserBreakType, pub croInfo: u32_, pub croInfoSize: u32_, } impl Default for UserBreakExceptionEvent { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct DebuggerBreakExceptionEvent { pub thread_ids: [s32; 4usize], } #[repr(C)] #[derive(Copy, Clone)] pub struct ExceptionEvent { pub type_: ExceptionEventType, pub address: u32_, pub __bindgen_anon_1: ExceptionEvent__bindgen_ty_1, } #[repr(C)] #[derive(Copy, Clone)] pub union ExceptionEvent__bindgen_ty_1 { pub fault: FaultExceptionEvent, pub stop_point: StopPointExceptionEvent, pub user_break: UserBreakExceptionEvent, pub debugger_break: DebuggerBreakExceptionEvent, } impl Default for ExceptionEvent__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for ExceptionEvent { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ScheduleInOutEvent { pub clock_tick: u64_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct SyscallInOutEvent { pub clock_tick: u64_, pub syscall: u32_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct OutputStringEvent { pub string_addr: u32_, pub string_size: u32_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct MapEvent { pub mapped_addr: u32_, pub mapped_size: u32_, pub memperm: MemPerm, pub memstate: MemState, } impl Default for MapEvent { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const DBGEVENT_ATTACH_PROCESS: DebugEventType = 0; pub const DBGEVENT_ATTACH_THREAD: DebugEventType = 1; pub const DBGEVENT_EXIT_THREAD: DebugEventType = 2; pub const DBGEVENT_EXIT_PROCESS: DebugEventType = 3; pub const DBGEVENT_EXCEPTION: DebugEventType = 4; pub const DBGEVENT_DLL_LOAD: DebugEventType = 5; pub const DBGEVENT_DLL_UNLOAD: DebugEventType = 6; pub const DBGEVENT_SCHEDULE_IN: DebugEventType = 7; pub const DBGEVENT_SCHEDULE_OUT: DebugEventType = 8; pub const DBGEVENT_SYSCALL_IN: DebugEventType = 9; pub const DBGEVENT_SYSCALL_OUT: DebugEventType = 10; pub const DBGEVENT_OUTPUT_STRING: DebugEventType = 11; pub const DBGEVENT_MAP: DebugEventType = 12; pub type DebugEventType = ::libc::c_uint; #[repr(C)] #[derive(Copy, Clone)] pub struct DebugEventInfo { pub type_: DebugEventType, pub thread_id: u32_, pub flags: u32_, pub remnants: [u8_; 4usize], pub __bindgen_anon_1: DebugEventInfo__bindgen_ty_1, } #[repr(C)] #[derive(Copy, Clone)] pub union DebugEventInfo__bindgen_ty_1 { pub attach_process: AttachProcessEvent, pub attach_thread: AttachThreadEvent, pub exit_thread: ExitThreadEvent, pub exit_process: ExitProcessEvent, pub exception: ExceptionEvent, pub scheduler: ScheduleInOutEvent, pub syscall: SyscallInOutEvent, pub output_string: OutputStringEvent, pub map: MapEvent, } impl Default for DebugEventInfo__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for DebugEventInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const DBG_INHIBIT_USER_CPU_EXCEPTION_HANDLERS: DebugFlags = 1; pub const DBG_SIGNAL_FAULT_EXCEPTION_EVENTS: DebugFlags = 2; pub const DBG_SIGNAL_SCHEDULE_EVENTS: DebugFlags = 4; pub const DBG_SIGNAL_SYSCALL_EVENTS: DebugFlags = 8; pub const DBG_SIGNAL_MAP_EVENTS: DebugFlags = 16; pub type DebugFlags = ::libc::c_uint; #[repr(C)] #[derive(Copy, Clone)] pub struct ThreadContext { pub cpu_registers: CpuRegisters, pub fpu_registers: FpuRegisters, } impl Default for ThreadContext { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const THREADCONTEXT_CONTROL_CPU_GPRS: ThreadContextControlFlags = 1; pub const THREADCONTEXT_CONTROL_CPU_SPRS: ThreadContextControlFlags = 2; pub const THREADCONTEXT_CONTROL_FPU_GPRS: ThreadContextControlFlags = 4; pub const THREADCONTEXT_CONTROL_FPU_SPRS: ThreadContextControlFlags = 8; pub const THREADCONTEXT_CONTROL_CPU_REGS: ThreadContextControlFlags = 3; pub const THREADCONTEXT_CONTROL_FPU_REGS: ThreadContextControlFlags = 12; pub const THREADCONTEXT_CONTROL_ALL: ThreadContextControlFlags = 15; pub type ThreadContextControlFlags = ::libc::c_uint; pub const DBGTHREAD_PARAMETER_PRIORITY: DebugThreadParameter = 0; pub const DBGTHREAD_PARAMETER_SCHEDULING_MASK_LOW: DebugThreadParameter = 1; pub const DBGTHREAD_PARAMETER_CPU_IDEAL: DebugThreadParameter = 2; pub const DBGTHREAD_PARAMETER_CPU_CREATOR: DebugThreadParameter = 3; pub type DebugThreadParameter = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CodeSetInfo { pub name: [u8_; 8usize], pub unk1: u16_, pub unk2: u16_, pub unk3: u32_, pub text_addr: u32_, pub text_size: u32_, pub ro_addr: u32_, pub ro_size: u32_, pub rw_addr: u32_, pub rw_size: u32_, pub text_size_total: u32_, pub ro_size_total: u32_, pub rw_size_total: u32_, pub unk4: u32_, pub program_id: u64_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct StartupInfo { pub priority: ::libc::c_int, pub stack_size: u32_, pub argc: ::libc::c_int, pub argv: *mut u16_, pub envp: *mut u16_, } impl Default for StartupInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn svcControlMemory( addr_out: *mut u32_, addr0: u32_, addr1: u32_, size: u32_, op: MemOp, perm: MemPerm, ) -> Result; } extern "C" { pub fn svcControlProcessMemory( process: Handle, addr0: u32_, addr1: u32_, size: u32_, type_: u32_, perm: u32_, ) -> Result; } extern "C" { pub fn svcCreateMemoryBlock( memblock: *mut Handle, addr: u32_, size: u32_, my_perm: MemPerm, other_perm: MemPerm, ) -> Result; } extern "C" { pub fn svcMapMemoryBlock( memblock: Handle, addr: u32_, my_perm: MemPerm, other_perm: MemPerm, ) -> Result; } extern "C" { pub fn svcMapProcessMemory(process: Handle, destAddress: u32_, size: u32_) -> Result; } extern "C" { pub fn svcUnmapProcessMemory(process: Handle, destAddress: u32_, size: u32_) -> Result; } extern "C" { pub fn svcUnmapMemoryBlock(memblock: Handle, addr: u32_) -> Result; } extern "C" { pub fn svcQueryMemory(info: *mut MemInfo, out: *mut PageInfo, addr: u32_) -> Result; } extern "C" { pub fn svcQueryProcessMemory( info: *mut MemInfo, out: *mut PageInfo, process: Handle, addr: u32_, ) -> Result; } extern "C" { pub fn svcOpenProcess(process: *mut Handle, processId: u32_) -> Result; } extern "C" { pub fn svcExitProcess(); } extern "C" { pub fn svcTerminateProcess(process: Handle) -> Result; } extern "C" { pub fn svcGetProcessInfo(out: *mut s64, process: Handle, type_: u32_) -> Result; } extern "C" { pub fn svcGetProcessId(out: *mut u32_, handle: Handle) -> Result; } extern "C" { pub fn svcGetProcessList( processCount: *mut s32, processIds: *mut u32_, processIdMaxCount: s32, ) -> Result; } extern "C" { pub fn svcGetThreadList( threadCount: *mut s32, threadIds: *mut u32_, threadIdMaxCount: s32, process: Handle, ) -> Result; } extern "C" { pub fn svcCreatePort( portServer: *mut Handle, portClient: *mut Handle, name: *const ::libc::c_char, maxSessions: s32, ) -> Result; } extern "C" { pub fn svcConnectToPort(out: *mut Handle, portName: *const ::libc::c_char) -> Result; } extern "C" { pub fn svcCreateCodeSet( out: *mut Handle, info: *const CodeSetInfo, code_ptr: *mut ::libc::c_void, ro_ptr: *mut ::libc::c_void, data_ptr: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn svcCreateProcess( out: *mut Handle, codeset: Handle, arm11kernelcaps: *const u32_, arm11kernelcaps_num: u32_, ) -> Result; } extern "C" { pub fn svcGetProcessAffinityMask( affinitymask: *mut u8_, process: Handle, processorcount: s32, ) -> Result; } extern "C" { pub fn svcSetProcessAffinityMask( process: Handle, affinitymask: *const u8_, processorcount: s32, ) -> Result; } extern "C" { pub fn svcGetProcessIdealProcessor(processorid: *mut s32, process: Handle) -> Result; } extern "C" { pub fn svcSetProcessIdealProcessor(process: Handle, processorid: s32) -> Result; } extern "C" { pub fn svcRun(process: Handle, info: *const StartupInfo) -> Result; } extern "C" { pub fn svcCreateThread( thread: *mut Handle, entrypoint: ThreadFunc, arg: u32_, stack_top: *mut u32_, thread_priority: s32, processor_id: s32, ) -> Result; } extern "C" { pub fn svcOpenThread(thread: *mut Handle, process: Handle, threadId: u32_) -> Result; } extern "C" { pub fn svcExitThread(); } extern "C" { pub fn svcSleepThread(ns: s64); } extern "C" { pub fn svcGetThreadPriority(out: *mut s32, handle: Handle) -> Result; } extern "C" { pub fn svcSetThreadPriority(thread: Handle, prio: s32) -> Result; } extern "C" { pub fn svcGetThreadAffinityMask( affinitymask: *mut u8_, thread: Handle, processorcount: s32, ) -> Result; } extern "C" { pub fn svcSetThreadAffinityMask( thread: Handle, affinitymask: *const u8_, processorcount: s32, ) -> Result; } extern "C" { pub fn svcGetThreadIdealProcessor(processorid: *mut s32, thread: Handle) -> Result; } extern "C" { pub fn svcSetThreadIdealProcessor(thread: Handle, processorid: s32) -> Result; } extern "C" { pub fn svcGetProcessorID() -> s32; } extern "C" { pub fn svcGetThreadId(out: *mut u32_, handle: Handle) -> Result; } extern "C" { pub fn svcGetResourceLimit(resourceLimit: *mut Handle, process: Handle) -> Result; } extern "C" { pub fn svcGetResourceLimitLimitValues( values: *mut s64, resourceLimit: Handle, names: *mut ResourceLimitType, nameCount: s32, ) -> Result; } extern "C" { pub fn svcGetResourceLimitCurrentValues( values: *mut s64, resourceLimit: Handle, names: *mut ResourceLimitType, nameCount: s32, ) -> Result; } extern "C" { pub fn svcSetProcessResourceLimits(process: Handle, resourceLimit: Handle) -> Result; } extern "C" { pub fn svcCreateResourceLimit(resourceLimit: *mut Handle) -> Result; } extern "C" { pub fn svcSetResourceLimitValues( resourceLimit: Handle, names: *const ResourceLimitType, values: *const s64, nameCount: s32, ) -> Result; } extern "C" { pub fn svcGetProcessIdOfThread(out: *mut u32_, handle: Handle) -> Result; } extern "C" { pub fn svcGetThreadInfo(out: *mut s64, thread: Handle, type_: ThreadInfoType) -> Result; } extern "C" { pub fn svcCreateMutex(mutex: *mut Handle, initially_locked: bool) -> Result; } extern "C" { pub fn svcReleaseMutex(handle: Handle) -> Result; } extern "C" { pub fn svcCreateSemaphore(semaphore: *mut Handle, initial_count: s32, max_count: s32) -> Result; } extern "C" { pub fn svcReleaseSemaphore(count: *mut s32, semaphore: Handle, release_count: s32) -> Result; } extern "C" { pub fn svcCreateEvent(event: *mut Handle, reset_type: ResetType) -> Result; } extern "C" { pub fn svcSignalEvent(handle: Handle) -> Result; } extern "C" { pub fn svcClearEvent(handle: Handle) -> Result; } extern "C" { pub fn svcWaitSynchronization(handle: Handle, nanoseconds: s64) -> Result; } extern "C" { pub fn svcWaitSynchronizationN( out: *mut s32, handles: *const Handle, handles_num: s32, wait_all: bool, nanoseconds: s64, ) -> Result; } extern "C" { pub fn svcCreateAddressArbiter(arbiter: *mut Handle) -> Result; } extern "C" { pub fn svcArbitrateAddress( arbiter: Handle, addr: u32_, type_: ArbitrationType, value: s32, timeout_ns: s64, ) -> Result; } extern "C" { pub fn svcArbitrateAddressNoTimeout( arbiter: Handle, addr: u32_, type_: ArbitrationType, value: s32, ) -> Result; } extern "C" { pub fn svcSendSyncRequest(session: Handle) -> Result; } extern "C" { pub fn svcCreateSessionToPort(clientSession: *mut Handle, clientPort: Handle) -> Result; } extern "C" { pub fn svcCreateSession(serverSession: *mut Handle, clientSession: *mut Handle) -> Result; } extern "C" { pub fn svcAcceptSession(session: *mut Handle, port: Handle) -> Result; } extern "C" { pub fn svcReplyAndReceive( index: *mut s32, handles: *const Handle, handleCount: s32, replyTarget: Handle, ) -> Result; } extern "C" { pub fn svcCreateTimer(timer: *mut Handle, reset_type: ResetType) -> Result; } extern "C" { pub fn svcSetTimer(timer: Handle, initial: s64, interval: s64) -> Result; } extern "C" { pub fn svcCancelTimer(timer: Handle) -> Result; } extern "C" { pub fn svcClearTimer(timer: Handle) -> Result; } extern "C" { pub fn svcGetSystemTick() -> u64_; } extern "C" { pub fn svcCloseHandle(handle: Handle) -> Result; } extern "C" { pub fn svcDuplicateHandle(out: *mut Handle, original: Handle) -> Result; } extern "C" { pub fn svcGetHandleInfo(out: *mut s64, handle: Handle, param: u32_) -> Result; } extern "C" { pub fn svcGetSystemInfo(out: *mut s64, type_: u32_, param: s32) -> Result; } extern "C" { pub fn svcKernelSetState(type_: u32_, ...) -> Result; } extern "C" { pub fn svcBindInterrupt( interruptId: u32_, eventOrSemaphore: Handle, priority: s32, isManualClear: bool, ) -> Result; } extern "C" { pub fn svcUnbindInterrupt(interruptId: u32_, eventOrSemaphore: Handle) -> Result; } extern "C" { pub fn svcInvalidateProcessDataCache(process: Handle, addr: u32_, size: u32_) -> Result; } extern "C" { pub fn svcStoreProcessDataCache(process: Handle, addr: u32_, size: u32_) -> Result; } extern "C" { pub fn svcFlushProcessDataCache(process: Handle, addr: u32_, size: u32_) -> Result; } extern "C" { pub fn svcStartInterProcessDma( dma: *mut Handle, dstProcess: Handle, dstAddr: u32_, srcProcess: Handle, srcAddr: u32_, size: u32_, cfg: *const DmaConfig, ) -> Result; } extern "C" { pub fn svcStopDma(dma: Handle) -> Result; } extern "C" { pub fn svcGetDmaState(state: *mut DmaState, dma: Handle) -> Result; } extern "C" { pub fn svcRestartDma( dma: Handle, dstAddr: u32_, srcAddr: u32_, size: u32_, flags: s8, ) -> Result; } extern "C" { pub fn svcSetGpuProt(useApplicationRestriction: bool) -> Result; } extern "C" { pub fn svcSetWifiEnabled(enabled: bool) -> Result; } extern "C" { pub fn svcBreak(breakReason: UserBreakType); } extern "C" { pub fn svcBreakRO( breakReason: UserBreakType, croInfo: *const ::libc::c_void, croInfoSize: u32_, ); } extern "C" { pub fn svcOutputDebugString(str_: *const ::libc::c_char, length: s32) -> Result; } extern "C" { pub fn svcControlPerformanceCounter( out: *mut u64_, op: PerfCounterOperation, param1: u32_, param2: u64_, ) -> Result; } extern "C" { pub fn svcDebugActiveProcess(debug: *mut Handle, processId: u32_) -> Result; } extern "C" { pub fn svcBreakDebugProcess(debug: Handle) -> Result; } extern "C" { pub fn svcTerminateDebugProcess(debug: Handle) -> Result; } extern "C" { pub fn svcGetProcessDebugEvent(info: *mut DebugEventInfo, debug: Handle) -> Result; } extern "C" { pub fn svcContinueDebugEvent(debug: Handle, flags: DebugFlags) -> Result; } extern "C" { pub fn svcGetDebugThreadContext( context: *mut ThreadContext, debug: Handle, threadId: u32_, controlFlags: ThreadContextControlFlags, ) -> Result; } extern "C" { pub fn svcSetDebugThreadContext( debug: Handle, threadId: u32_, context: *mut ThreadContext, controlFlags: ThreadContextControlFlags, ) -> Result; } extern "C" { pub fn svcQueryDebugProcessMemory( info: *mut MemInfo, out: *mut PageInfo, debug: Handle, addr: u32_, ) -> Result; } extern "C" { pub fn svcReadProcessMemory( buffer: *mut ::libc::c_void, debug: Handle, addr: u32_, size: u32_, ) -> Result; } extern "C" { pub fn svcWriteProcessMemory( debug: Handle, buffer: *const ::libc::c_void, addr: u32_, size: u32_, ) -> Result; } extern "C" { pub fn svcSetHardwareBreakPoint(registerId: s32, control: u32_, value: u32_) -> Result; } extern "C" { pub fn svcGetDebugThreadParam( unused: *mut s64, out: *mut u32_, debug: Handle, threadId: u32_, parameter: DebugThreadParameter, ) -> Result; } extern "C" { pub fn svcBackdoor(callback: ::core::option::Option s32>) -> Result; } pub const ARM9DESC_MOUNT_NAND: ::libc::c_uint = 1; pub const ARM9DESC_MOUNT_NANDRO_RW: ::libc::c_uint = 2; pub const ARM9DESC_MOUNT_TWLN: ::libc::c_uint = 4; pub const ARM9DESC_MOUNT_WNAND: ::libc::c_uint = 8; pub const ARM9DESC_MOUNT_CARDSPI: ::libc::c_uint = 16; pub const ARM9DESC_USE_SDIF3: ::libc::c_uint = 32; pub const ARM9DESC_CREATE_SEED: ::libc::c_uint = 64; pub const ARM9DESC_USE_CARD_SPI: ::libc::c_uint = 128; pub const ARM9DESC_SD_APPLICATION: ::libc::c_uint = 256; pub const ARM9DESC_MOUNT_SDMC_RW: ::libc::c_uint = 512; pub type _bindgen_ty_7 = ::libc::c_uint; pub const FSACCESS_CATEGORY_SYSTEM_APPLICATION: ::libc::c_uint = 1; pub const FSACCESS_CATEGORY_HARDWARE_CHECK: ::libc::c_uint = 2; pub const FSACCESS_CATEGORY_FILESYSTEM_TOOL: ::libc::c_uint = 4; pub const FSACCESS_DEBUG: ::libc::c_uint = 8; pub const FSACCESS_TWLCARD_BACKUP: ::libc::c_uint = 16; pub const FSACCESS_TWLNAND_DATA: ::libc::c_uint = 32; pub const FSACCESS_BOSS: ::libc::c_uint = 64; pub const FSACCESS_SDMC_RW: ::libc::c_uint = 128; pub const FSACCESS_CORE: ::libc::c_uint = 256; pub const FSACCESS_NANDRO_RO: ::libc::c_uint = 512; pub const FSACCESS_NANDRW: ::libc::c_uint = 1024; pub const FSACCESS_NANDRO_RW: ::libc::c_uint = 2048; pub const FSACCESS_CATEGORY_SYSTEM_SETTINGS: ::libc::c_uint = 4096; pub const FSACCESS_CARDBOARD: ::libc::c_uint = 8192; pub const FSACCESS_EXPORT_IMPORT_IVS: ::libc::c_uint = 16384; pub const FSACCESS_SDMC_WO: ::libc::c_uint = 32768; pub const FSACCESS_SWITCH_CLEANUP: ::libc::c_uint = 65536; pub const FSACCESS_SAVEDATA_MOVE: ::libc::c_uint = 131072; pub const FSACCESS_SHOP: ::libc::c_uint = 262144; pub const FSACCESS_SHELL: ::libc::c_uint = 524288; pub const FSACCESS_CATEGORY_HOME_MENU: ::libc::c_uint = 1048576; pub const FSACCESS_SEEDDB: ::libc::c_uint = 2097152; pub type _bindgen_ty_8 = ::libc::c_uint; pub const RESLIMIT_CATEGORY_APPLICATION: ResourceLimitCategory = 0; pub const RESLIMIT_CATEGORY_SYS_APPLET: ResourceLimitCategory = 1; pub const RESLIMIT_CATEGORY_LIB_APPLET: ResourceLimitCategory = 2; pub const RESLIMIT_CATEGORY_OTHER: ResourceLimitCategory = 3; pub type ResourceLimitCategory = ::libc::c_uint; pub const SYSMODE_O3DS_PROD: SystemMode = 0; pub const SYSMODE_N3DS_PROD: SystemMode = 1; pub const SYSMODE_DEV1: SystemMode = 2; pub const SYSMODE_DEV2: SystemMode = 3; pub const SYSMODE_DEV3: SystemMode = 4; pub const SYSMODE_DEV4: SystemMode = 5; pub type SystemMode = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ExHeader_SystemInfoFlags { pub reserved: [u8_; 5usize], pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, pub remaster_version: u16_, } impl ExHeader_SystemInfoFlags { #[inline] pub fn compress_exefs_code(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 1u8) as u8) } } #[inline] pub fn set_compress_exefs_code(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 1u8, val as u64) } } #[inline] pub fn is_sd_application(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(1usize, 1u8) as u8) } } #[inline] pub fn set_is_sd_application(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(1usize, 1u8, val as u64) } } #[inline] pub fn new_bitfield_1( compress_exefs_code: bool, is_sd_application: bool, ) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 1u8, { let compress_exefs_code: u8 = unsafe { ::core::mem::transmute(compress_exefs_code) }; compress_exefs_code as u64 }); __bindgen_bitfield_unit.set(1usize, 1u8, { let is_sd_application: u8 = unsafe { ::core::mem::transmute(is_sd_application) }; is_sd_application as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ExHeader_CodeSectionInfo { pub address: u32_, pub num_pages: u32_, pub size: u32_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ExHeader_CodeSetInfo { pub name: [::libc::c_char; 8usize], pub flags: ExHeader_SystemInfoFlags, pub text: ExHeader_CodeSectionInfo, pub stack_size: u32_, pub rodata: ExHeader_CodeSectionInfo, pub reserved: u32_, pub data: ExHeader_CodeSectionInfo, pub bss_size: u32_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExHeader_SystemInfo { pub savedata_size: u64_, pub jump_id: u64_, pub reserved: [u8_; 48usize], } impl Default for ExHeader_SystemInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExHeader_SystemControlInfo { pub codeset_info: ExHeader_CodeSetInfo, pub dependencies: [u64_; 48usize], pub system_info: ExHeader_SystemInfo, } impl Default for ExHeader_SystemControlInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ExHeader_Arm11StorageInfo { pub extdata_id: u64_, pub system_savedata_ids: [u32_; 2usize], pub accessible_savedata_ids: u64_, pub fs_access_info: u32_, pub _bitfield_align_1: [u32; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 4usize]>, } impl ExHeader_Arm11StorageInfo { #[inline] pub fn reserved(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 24u8) as u32) } } #[inline] pub fn set_reserved(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 24u8, val as u64) } } #[inline] pub fn no_romfs(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(24usize, 1u8) as u8) } } #[inline] pub fn set_no_romfs(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(24usize, 1u8, val as u64) } } #[inline] pub fn use_extended_savedata_access(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(25usize, 1u8) as u8) } } #[inline] pub fn set_use_extended_savedata_access(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(25usize, 1u8, val as u64) } } #[inline] pub fn new_bitfield_1( reserved: u32_, no_romfs: bool, use_extended_savedata_access: bool, ) -> __BindgenBitfieldUnit<[u8; 4usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 4usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 24u8, { let reserved: u32 = unsafe { ::core::mem::transmute(reserved) }; reserved as u64 }); __bindgen_bitfield_unit.set(24usize, 1u8, { let no_romfs: u8 = unsafe { ::core::mem::transmute(no_romfs) }; no_romfs as u64 }); __bindgen_bitfield_unit.set(25usize, 1u8, { let use_extended_savedata_access: u8 = unsafe { ::core::mem::transmute(use_extended_savedata_access) }; use_extended_savedata_access as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExHeader_Arm11CoreInfo { pub core_version: u32_, pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 3usize]>, pub priority: u8_, } impl Default for ExHeader_Arm11CoreInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl ExHeader_Arm11CoreInfo { #[inline] pub fn use_cpu_clockrate_804MHz(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 1u8) as u8) } } #[inline] pub fn set_use_cpu_clockrate_804MHz(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 1u8, val as u64) } } #[inline] pub fn enable_l2c(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(1usize, 1u8) as u8) } } #[inline] pub fn set_enable_l2c(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(1usize, 1u8, val as u64) } } #[inline] pub fn flag1_unused(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(2usize, 6u8) as u8) } } #[inline] pub fn set_flag1_unused(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(2usize, 6u8, val as u64) } } #[inline] pub fn n3ds_system_mode(&self) -> SystemMode { unsafe { ::core::mem::transmute(self._bitfield_1.get(8usize, 4u8) as u32) } } #[inline] pub fn set_n3ds_system_mode(&mut self, val: SystemMode) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(8usize, 4u8, val as u64) } } #[inline] pub fn flag2_unused(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(12usize, 4u8) as u8) } } #[inline] pub fn set_flag2_unused(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(12usize, 4u8, val as u64) } } #[inline] pub fn ideal_processor(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(16usize, 2u8) as u8) } } #[inline] pub fn set_ideal_processor(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(16usize, 2u8, val as u64) } } #[inline] pub fn affinity_mask(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(18usize, 2u8) as u8) } } #[inline] pub fn set_affinity_mask(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(18usize, 2u8, val as u64) } } #[inline] pub fn o3ds_system_mode(&self) -> SystemMode { unsafe { ::core::mem::transmute(self._bitfield_1.get(20usize, 4u8) as u32) } } #[inline] pub fn set_o3ds_system_mode(&mut self, val: SystemMode) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(20usize, 4u8, val as u64) } } #[inline] pub fn new_bitfield_1( use_cpu_clockrate_804MHz: bool, enable_l2c: bool, flag1_unused: u8_, n3ds_system_mode: SystemMode, flag2_unused: u8_, ideal_processor: u8_, affinity_mask: u8_, o3ds_system_mode: SystemMode, ) -> __BindgenBitfieldUnit<[u8; 3usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 3usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 1u8, { let use_cpu_clockrate_804MHz: u8 = unsafe { ::core::mem::transmute(use_cpu_clockrate_804MHz) }; use_cpu_clockrate_804MHz as u64 }); __bindgen_bitfield_unit.set(1usize, 1u8, { let enable_l2c: u8 = unsafe { ::core::mem::transmute(enable_l2c) }; enable_l2c as u64 }); __bindgen_bitfield_unit.set(2usize, 6u8, { let flag1_unused: u8 = unsafe { ::core::mem::transmute(flag1_unused) }; flag1_unused as u64 }); __bindgen_bitfield_unit.set(8usize, 4u8, { let n3ds_system_mode: u32 = unsafe { ::core::mem::transmute(n3ds_system_mode) }; n3ds_system_mode as u64 }); __bindgen_bitfield_unit.set(12usize, 4u8, { let flag2_unused: u8 = unsafe { ::core::mem::transmute(flag2_unused) }; flag2_unused as u64 }); __bindgen_bitfield_unit.set(16usize, 2u8, { let ideal_processor: u8 = unsafe { ::core::mem::transmute(ideal_processor) }; ideal_processor as u64 }); __bindgen_bitfield_unit.set(18usize, 2u8, { let affinity_mask: u8 = unsafe { ::core::mem::transmute(affinity_mask) }; affinity_mask as u64 }); __bindgen_bitfield_unit.set(20usize, 4u8, { let o3ds_system_mode: u32 = unsafe { ::core::mem::transmute(o3ds_system_mode) }; o3ds_system_mode as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExHeader_Arm11SystemLocalCapabilities { pub title_id: u64_, pub core_info: ExHeader_Arm11CoreInfo, pub reslimits: [u16_; 16usize], pub storage_info: ExHeader_Arm11StorageInfo, pub service_access: [[::libc::c_char; 8usize]; 34usize], pub reserved: [u8_; 15usize], pub reslimit_category: ResourceLimitCategory, } impl Default for ExHeader_Arm11SystemLocalCapabilities { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ExHeader_Arm11KernelCapabilities { pub descriptors: [u32_; 28usize], pub reserved: [u8_; 16usize], } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ExHeader_Arm9AccessControl { pub descriptors: [u8_; 15usize], pub descriptor_version: u8_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExHeader_AccessControlInfo { pub local_caps: ExHeader_Arm11SystemLocalCapabilities, pub kernel_caps: ExHeader_Arm11KernelCapabilities, pub access_control: ExHeader_Arm9AccessControl, } impl Default for ExHeader_AccessControlInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExHeader_Info { pub sci: ExHeader_SystemControlInfo, pub aci: ExHeader_AccessControlInfo, } impl Default for ExHeader_Info { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExHeader_AccessDescriptor { pub signature: [u8_; 256usize], pub ncchModulus: [u8_; 256usize], pub acli: ExHeader_AccessControlInfo, } impl Default for ExHeader_AccessDescriptor { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ExHeader { pub info: ExHeader_Info, pub access_descriptor: ExHeader_AccessDescriptor, } impl Default for ExHeader { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn srvInit() -> Result; } extern "C" { pub fn srvExit(); } extern "C" { pub fn srvSetBlockingPolicy(nonBlocking: bool); } extern "C" { pub fn srvGetSessionHandle() -> *mut Handle; } extern "C" { pub fn srvGetServiceHandle(out: *mut Handle, name: *const ::libc::c_char) -> Result; } extern "C" { pub fn srvRegisterClient() -> Result; } extern "C" { pub fn srvEnableNotification(semaphoreOut: *mut Handle) -> Result; } extern "C" { pub fn srvRegisterService( out: *mut Handle, name: *const ::libc::c_char, maxSessions: ::libc::c_int, ) -> Result; } extern "C" { pub fn srvUnregisterService(name: *const ::libc::c_char) -> Result; } extern "C" { pub fn srvGetServiceHandleDirect(out: *mut Handle, name: *const ::libc::c_char) -> Result; } extern "C" { pub fn srvRegisterPort(name: *const ::libc::c_char, clientHandle: Handle) -> Result; } extern "C" { pub fn srvUnregisterPort(name: *const ::libc::c_char) -> Result; } extern "C" { pub fn srvGetPort(out: *mut Handle, name: *const ::libc::c_char) -> Result; } extern "C" { pub fn srvWaitForPortRegistered(name: *const ::libc::c_char) -> Result; } extern "C" { pub fn srvSubscribe(notificationId: u32_) -> Result; } extern "C" { pub fn srvUnsubscribe(notificationId: u32_) -> Result; } extern "C" { pub fn srvReceiveNotification(notificationIdOut: *mut u32_) -> Result; } extern "C" { pub fn srvPublishToSubscriber(notificationId: u32_, flags: u32_) -> Result; } extern "C" { pub fn srvPublishAndGetSubscriber( processIdCountOut: *mut u32_, processIdsOut: *mut u32_, notificationId: u32_, ) -> Result; } extern "C" { pub fn srvIsServiceRegistered(registeredOut: *mut bool, name: *const ::libc::c_char) -> Result; } extern "C" { pub fn srvIsPortRegistered(registeredOut: *mut bool, name: *const ::libc::c_char) -> Result; } pub const ERRF_ERRTYPE_GENERIC: ERRF_ErrType = 0; pub const ERRF_ERRTYPE_MEM_CORRUPT: ERRF_ErrType = 1; pub const ERRF_ERRTYPE_CARD_REMOVED: ERRF_ErrType = 2; pub const ERRF_ERRTYPE_EXCEPTION: ERRF_ErrType = 3; pub const ERRF_ERRTYPE_FAILURE: ERRF_ErrType = 4; pub const ERRF_ERRTYPE_LOGGED: ERRF_ErrType = 5; pub type ERRF_ErrType = ::libc::c_uint; pub const ERRF_EXCEPTION_PREFETCH_ABORT: ERRF_ExceptionType = 0; pub const ERRF_EXCEPTION_DATA_ABORT: ERRF_ExceptionType = 1; pub const ERRF_EXCEPTION_UNDEFINED: ERRF_ExceptionType = 2; pub const ERRF_EXCEPTION_VFP: ERRF_ExceptionType = 3; pub type ERRF_ExceptionType = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ERRF_ExceptionInfo { pub type_: ERRF_ExceptionType, pub reserved: [u8_; 3usize], pub fsr: u32_, pub far: u32_, pub fpexc: u32_, pub fpinst: u32_, pub fpinst2: u32_, } impl Default for ERRF_ExceptionInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ERRF_ExceptionData { pub excep: ERRF_ExceptionInfo, pub regs: CpuRegisters, } impl Default for ERRF_ExceptionData { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Copy, Clone)] pub struct ERRF_FatalErrInfo { pub type_: ERRF_ErrType, pub revHigh: u8_, pub revLow: u16_, pub resCode: u32_, pub pcAddr: u32_, pub procId: u32_, pub titleId: u64_, pub appTitleId: u64_, pub data: ERRF_FatalErrInfo__bindgen_ty_1, } #[repr(C)] #[derive(Copy, Clone)] pub union ERRF_FatalErrInfo__bindgen_ty_1 { pub exception_data: ERRF_ExceptionData, pub failure_mesg: [::libc::c_char; 96usize], } impl Default for ERRF_FatalErrInfo__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for ERRF_FatalErrInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn errfInit() -> Result; } extern "C" { pub fn errfExit(); } extern "C" { pub fn errfGetSessionHandle() -> *mut Handle; } extern "C" { pub fn ERRF_Throw(error: *const ERRF_FatalErrInfo) -> Result; } extern "C" { pub fn ERRF_ThrowResult(failure: Result) -> Result; } extern "C" { pub fn ERRF_ThrowResultWithMessage(failure: Result, message: *const ::libc::c_char) -> Result; } extern "C" { pub fn ERRF_ExceptionHandler(excep: *mut ERRF_ExceptionInfo, regs: *mut CpuRegisters); } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct osKernelConfig_s { pub kernel_ver: u32_, pub update_flag: u32_, pub ns_tid: u64_, pub kernel_syscore_ver: u32_, pub env_info: u8_, pub unit_info: u8_, pub boot_env: u8_, pub unk_0x17: u8_, pub kernel_ctrsdk_ver: u32_, pub unk_0x1c: u32_, pub firmlaunch_flags: u32_, pub unk_0x24: [u8_; 12usize], pub app_memtype: u32_, pub unk_0x34: [u8_; 12usize], pub memregion_sz: [u32_; 3usize], pub unk_0x4c: [u8_; 20usize], pub firm_ver: u32_, pub firm_syscore_ver: u32_, pub firm_ctrsdk_ver: u32_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct osTimeRef_s { pub value_ms: u64_, pub value_tick: u64_, pub sysclock_hz: s64, pub drift_ms: s64, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct osSharedConfig_s { pub timeref_cnt: vu32, pub running_hw: u8_, pub mcu_hwinfo: u8_, pub unk_0x06: [u8_; 26usize], pub timeref: [osTimeRef_s; 2usize], pub wifi_macaddr: [u8_; 6usize], pub wifi_strength: vu8, pub network_state: vu8, pub unk_0x68: [u8_; 24usize], pub slider_3d: f32, pub led_3d: vu8, pub led_battery: vu8, pub unk_flag: vu8, pub unk_0x87: u8_, pub unk_0x88: [u8_; 24usize], pub menu_tid: vu64, pub cur_menu_tid: vu64, pub unk_0xB0: [u8_; 16usize], pub headset_connected: vu8, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct TickCounter { pub elapsed: u64_, pub reference: u64_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct OS_VersionBin { pub build: u8_, pub minor: u8_, pub mainver: u8_, pub reserved_x3: u8_, pub region: ::libc::c_char, pub reserved_x5: [u8_; 3usize], } extern "C" { pub fn osConvertVirtToPhys(vaddr: *const ::libc::c_void) -> u32_; } extern "C" { pub fn osConvertOldLINEARMemToNew(vaddr: *const ::libc::c_void) -> *mut ::libc::c_void; } extern "C" { pub fn osStrError(error: Result) -> *const ::libc::c_char; } extern "C" { pub fn osGetTimeRef() -> osTimeRef_s; } extern "C" { pub fn osGetTime() -> u64_; } extern "C" { pub fn osTickCounterRead(cnt: *const TickCounter) -> f64; } extern "C" { pub fn osSetSpeedupEnable(enable: bool); } extern "C" { pub fn osGetSystemVersionData( nver_versionbin: *mut OS_VersionBin, cver_versionbin: *mut OS_VersionBin, ) -> Result; } extern "C" { pub fn osGetSystemVersionDataString( nver_versionbin: *mut OS_VersionBin, cver_versionbin: *mut OS_VersionBin, sysverstr: *mut ::libc::c_char, sysverstr_maxsize: u32_, ) -> Result; } pub type _LOCK_T = i32; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct __lock_t { pub lock: _LOCK_T, pub thread_tag: u32, pub counter: u32, } pub type _LOCK_RECURSIVE_T = __lock_t; extern "C" { pub fn __libc_lock_init(lock: *mut _LOCK_T); } extern "C" { pub fn __libc_lock_init_recursive(lock: *mut _LOCK_RECURSIVE_T); } extern "C" { pub fn __libc_lock_close(lock: *mut _LOCK_T); } extern "C" { pub fn __libc_lock_close_recursive(lock: *mut _LOCK_RECURSIVE_T); } extern "C" { pub fn __libc_lock_acquire(lock: *mut _LOCK_T); } extern "C" { pub fn __libc_lock_acquire_recursive(lock: *mut _LOCK_RECURSIVE_T); } extern "C" { pub fn __libc_lock_release(lock: *mut _LOCK_T); } extern "C" { pub fn __libc_lock_release_recursive(lock: *mut _LOCK_RECURSIVE_T); } extern "C" { pub fn __libc_lock_try_acquire(lock: *mut _LOCK_T) -> ::libc::c_int; } extern "C" { pub fn __libc_lock_try_acquire_recursive(lock: *mut _LOCK_RECURSIVE_T) -> ::libc::c_int; } pub type LightLock = _LOCK_T; pub type RecursiveLock = _LOCK_RECURSIVE_T; pub type CondVar = s32; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct LightEvent { pub state: s32, pub lock: LightLock, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct LightSemaphore { pub current_count: s32, pub num_threads_acq: s16, pub max_count: s16, } extern "C" { pub fn syncArbitrateAddress(addr: *mut s32, type_: ArbitrationType, value: s32) -> Result; } extern "C" { pub fn syncArbitrateAddressWithTimeout( addr: *mut s32, type_: ArbitrationType, value: s32, timeout_ns: s64, ) -> Result; } extern "C" { pub fn LightLock_Init(lock: *mut LightLock); } extern "C" { pub fn LightLock_Lock(lock: *mut LightLock); } extern "C" { pub fn LightLock_TryLock(lock: *mut LightLock) -> ::libc::c_int; } extern "C" { pub fn LightLock_Unlock(lock: *mut LightLock); } extern "C" { pub fn RecursiveLock_Init(lock: *mut RecursiveLock); } extern "C" { pub fn RecursiveLock_Lock(lock: *mut RecursiveLock); } extern "C" { pub fn RecursiveLock_TryLock(lock: *mut RecursiveLock) -> ::libc::c_int; } extern "C" { pub fn RecursiveLock_Unlock(lock: *mut RecursiveLock); } extern "C" { pub fn CondVar_Init(cv: *mut CondVar); } extern "C" { pub fn CondVar_Wait(cv: *mut CondVar, lock: *mut LightLock); } extern "C" { pub fn CondVar_WaitTimeout( cv: *mut CondVar, lock: *mut LightLock, timeout_ns: s64, ) -> ::libc::c_int; } extern "C" { pub fn CondVar_WakeUp(cv: *mut CondVar, num_threads: s32); } extern "C" { pub fn LightEvent_Init(event: *mut LightEvent, reset_type: ResetType); } extern "C" { pub fn LightEvent_Clear(event: *mut LightEvent); } extern "C" { pub fn LightEvent_Pulse(event: *mut LightEvent); } extern "C" { pub fn LightEvent_Signal(event: *mut LightEvent); } extern "C" { pub fn LightEvent_TryWait(event: *mut LightEvent) -> ::libc::c_int; } extern "C" { pub fn LightEvent_Wait(event: *mut LightEvent); } extern "C" { pub fn LightEvent_WaitTimeout(event: *mut LightEvent, timeout_ns: s64) -> ::libc::c_int; } extern "C" { pub fn LightSemaphore_Init(semaphore: *mut LightSemaphore, initial_count: s16, max_count: s16); } extern "C" { pub fn LightSemaphore_Acquire(semaphore: *mut LightSemaphore, count: s32); } extern "C" { pub fn LightSemaphore_TryAcquire(semaphore: *mut LightSemaphore, count: s32) -> ::libc::c_int; } extern "C" { pub fn LightSemaphore_Release(semaphore: *mut LightSemaphore, count: s32); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct Thread_tag { _unused: [u8; 0], } pub type Thread = *mut Thread_tag; pub type ExceptionHandler = ::core::option::Option< unsafe extern "C" fn(excep: *mut ERRF_ExceptionInfo, regs: *mut CpuRegisters), >; extern "C" { pub fn threadCreate( entrypoint: ThreadFunc, arg: *mut ::libc::c_void, stack_size: size_t, prio: ::libc::c_int, core_id: ::libc::c_int, detached: bool, ) -> Thread; } extern "C" { pub fn threadGetHandle(thread: Thread) -> Handle; } extern "C" { pub fn threadGetExitCode(thread: Thread) -> ::libc::c_int; } extern "C" { pub fn threadFree(thread: Thread); } extern "C" { pub fn threadJoin(thread: Thread, timeout_ns: u64_) -> Result; } extern "C" { pub fn threadDetach(thread: Thread); } extern "C" { pub fn threadGetCurrent() -> Thread; } extern "C" { pub fn threadExit(rc: ::libc::c_int); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct GSPGPU_FramebufferInfo { pub active_framebuf: u32_, pub framebuf0_vaddr: *mut u32_, pub framebuf1_vaddr: *mut u32_, pub framebuf_widthbytesize: u32_, pub format: u32_, pub framebuf_dispselect: u32_, pub unk: u32_, } impl Default for GSPGPU_FramebufferInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const GSP_RGBA8_OES: GSPGPU_FramebufferFormat = 0; pub const GSP_BGR8_OES: GSPGPU_FramebufferFormat = 1; pub const GSP_RGB565_OES: GSPGPU_FramebufferFormat = 2; pub const GSP_RGB5_A1_OES: GSPGPU_FramebufferFormat = 3; pub const GSP_RGBA4_OES: GSPGPU_FramebufferFormat = 4; pub type GSPGPU_FramebufferFormat = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct GSPGPU_CaptureInfoEntry { pub framebuf0_vaddr: *mut u32_, pub framebuf1_vaddr: *mut u32_, pub format: u32_, pub framebuf_widthbytesize: u32_, } impl Default for GSPGPU_CaptureInfoEntry { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct GSPGPU_CaptureInfo { pub screencapture: [GSPGPU_CaptureInfoEntry; 2usize], } impl Default for GSPGPU_CaptureInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const GSPGPU_EVENT_PSC0: GSPGPU_Event = 0; pub const GSPGPU_EVENT_PSC1: GSPGPU_Event = 1; pub const GSPGPU_EVENT_VBlank0: GSPGPU_Event = 2; pub const GSPGPU_EVENT_VBlank1: GSPGPU_Event = 3; pub const GSPGPU_EVENT_PPF: GSPGPU_Event = 4; pub const GSPGPU_EVENT_P3D: GSPGPU_Event = 5; pub const GSPGPU_EVENT_DMA: GSPGPU_Event = 6; pub const GSPGPU_EVENT_MAX: GSPGPU_Event = 7; pub type GSPGPU_Event = ::libc::c_uint; extern "C" { pub fn gspInit() -> Result; } extern "C" { pub fn gspExit(); } extern "C" { pub fn gspHasGpuRight() -> bool; } extern "C" { pub fn gspPresentBuffer( screen: ::libc::c_uint, swap: ::libc::c_uint, fb_a: *const ::libc::c_void, fb_b: *const ::libc::c_void, stride: u32_, mode: u32_, ); } extern "C" { pub fn gspSetEventCallback( id: GSPGPU_Event, cb: ThreadFunc, data: *mut ::libc::c_void, oneShot: bool, ); } extern "C" { pub fn gspWaitForEvent(id: GSPGPU_Event, nextEvent: bool); } extern "C" { pub fn gspWaitForAnyEvent() -> GSPGPU_Event; } extern "C" { pub fn gspSubmitGxCommand(gxCommand: *const u32_) -> Result; } extern "C" { pub fn GSPGPU_AcquireRight(flags: u8_) -> Result; } extern "C" { pub fn GSPGPU_ReleaseRight() -> Result; } extern "C" { pub fn GSPGPU_ImportDisplayCaptureInfo(captureinfo: *mut GSPGPU_CaptureInfo) -> Result; } extern "C" { pub fn GSPGPU_SaveVramSysArea() -> Result; } extern "C" { pub fn GSPGPU_ResetGpuCore() -> Result; } extern "C" { pub fn GSPGPU_RestoreVramSysArea() -> Result; } extern "C" { pub fn GSPGPU_SetLcdForceBlack(flags: u8_) -> Result; } extern "C" { pub fn GSPGPU_SetBufferSwap( screenid: u32_, framebufinfo: *const GSPGPU_FramebufferInfo, ) -> Result; } extern "C" { pub fn GSPGPU_FlushDataCache(adr: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn GSPGPU_InvalidateDataCache(adr: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn GSPGPU_WriteHWRegs(regAddr: u32_, data: *const u32_, size: u8_) -> Result; } extern "C" { pub fn GSPGPU_WriteHWRegsWithMask( regAddr: u32_, data: *const u32_, datasize: u8_, maskdata: *const u32_, masksize: u8_, ) -> Result; } extern "C" { pub fn GSPGPU_ReadHWRegs(regAddr: u32_, data: *mut u32_, size: u8_) -> Result; } extern "C" { pub fn GSPGPU_RegisterInterruptRelayQueue( eventHandle: Handle, flags: u32_, outMemHandle: *mut Handle, threadID: *mut u8_, ) -> Result; } extern "C" { pub fn GSPGPU_UnregisterInterruptRelayQueue() -> Result; } extern "C" { pub fn GSPGPU_TriggerCmdReqQueue() -> Result; } extern "C" { pub fn GSPGPU_SetLedForceOff(disable: bool) -> Result; } pub const GFX_TOP: gfxScreen_t = 0; pub const GFX_BOTTOM: gfxScreen_t = 1; pub type gfxScreen_t = ::libc::c_uint; pub const GFX_LEFT: gfx3dSide_t = 0; pub const GFX_RIGHT: gfx3dSide_t = 1; pub type gfx3dSide_t = ::libc::c_uint; extern "C" { pub fn gfxInitDefault(); } extern "C" { pub fn gfxInit( topFormat: GSPGPU_FramebufferFormat, bottomFormat: GSPGPU_FramebufferFormat, vrambuffers: bool, ); } extern "C" { pub fn gfxExit(); } extern "C" { pub fn gfxSet3D(enable: bool); } extern "C" { pub fn gfxIs3D() -> bool; } extern "C" { pub fn gfxIsWide() -> bool; } extern "C" { pub fn gfxSetWide(enable: bool); } extern "C" { pub fn gfxSetScreenFormat(screen: gfxScreen_t, format: GSPGPU_FramebufferFormat); } extern "C" { pub fn gfxGetScreenFormat(screen: gfxScreen_t) -> GSPGPU_FramebufferFormat; } extern "C" { pub fn gfxSetDoubleBuffering(screen: gfxScreen_t, enable: bool); } extern "C" { pub fn gfxGetFramebuffer( screen: gfxScreen_t, side: gfx3dSide_t, width: *mut u16_, height: *mut u16_, ) -> *mut u8_; } extern "C" { pub fn gfxFlushBuffers(); } extern "C" { pub fn gfxScreenSwapBuffers(scr: gfxScreen_t, hasStereo: bool); } extern "C" { pub fn gfxConfigScreen(scr: gfxScreen_t, immediate: bool); } extern "C" { pub fn gfxSwapBuffers(); } extern "C" { pub fn gfxSwapBuffersGpu(); } pub type ConsolePrint = ::core::option::Option< unsafe extern "C" fn(con: *mut ::libc::c_void, c: ::libc::c_int) -> bool, >; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct ConsoleFont { pub gfx: *mut u8_, pub asciiOffset: u16_, pub numChars: u16_, } impl Default for ConsoleFont { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct PrintConsole { pub font: ConsoleFont, pub frameBuffer: *mut u16_, pub cursorX: ::libc::c_int, pub cursorY: ::libc::c_int, pub prevCursorX: ::libc::c_int, pub prevCursorY: ::libc::c_int, pub consoleWidth: ::libc::c_int, pub consoleHeight: ::libc::c_int, pub windowX: ::libc::c_int, pub windowY: ::libc::c_int, pub windowWidth: ::libc::c_int, pub windowHeight: ::libc::c_int, pub tabSize: ::libc::c_int, pub fg: ::libc::c_int, pub bg: ::libc::c_int, pub flags: ::libc::c_int, pub PrintChar: ConsolePrint, pub consoleInitialised: bool, } impl Default for PrintConsole { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const debugDevice_NULL: debugDevice = 0; pub const debugDevice_SVC: debugDevice = 1; pub const debugDevice_CONSOLE: debugDevice = 2; pub const debugDevice_3DMOO: debugDevice = 1; pub type debugDevice = ::libc::c_uint; extern "C" { pub fn consoleSetFont(console: *mut PrintConsole, font: *mut ConsoleFont); } extern "C" { pub fn consoleSetWindow( console: *mut PrintConsole, x: ::libc::c_int, y: ::libc::c_int, width: ::libc::c_int, height: ::libc::c_int, ); } extern "C" { pub fn consoleGetDefault() -> *mut PrintConsole; } extern "C" { pub fn consoleSelect(console: *mut PrintConsole) -> *mut PrintConsole; } extern "C" { pub fn consoleInit(screen: gfxScreen_t, console: *mut PrintConsole) -> *mut PrintConsole; } extern "C" { pub fn consoleDebugInit(device: debugDevice); } extern "C" { pub fn consoleClear(); } pub const RUNFLAG_APTWORKAROUND: ::libc::c_uint = 1; pub const RUNFLAG_APTREINIT: ::libc::c_uint = 2; pub const RUNFLAG_APTCHAINLOAD: ::libc::c_uint = 4; pub type _bindgen_ty_9 = ::libc::c_uint; extern "C" { pub fn envGetHandle(name: *const ::libc::c_char) -> Handle; } pub type _off_t = __int64_t; pub type _fpos_t = __int64_t; pub type __ino_t = __uint32_t; pub type __dev_t = __uint32_t; pub type u_int8_t = __uint8_t; pub type u_int16_t = __uint16_t; pub type u_int32_t = __uint32_t; pub type u_int64_t = __uint64_t; pub type register_t = __intptr_t; pub type wint_t = ::libc::c_int; pub type __blkcnt_t = ::libc::c_long; pub type __blksize_t = ::libc::c_long; pub type __fsblkcnt_t = __uint64_t; pub type __fsfilcnt_t = __uint32_t; pub type __pid_t = ::libc::c_int; pub type __uid_t = ::libc::c_ushort; pub type __gid_t = ::libc::c_ushort; pub type __id_t = __uint32_t; pub type __mode_t = __uint32_t; pub type _off64_t = ::libc::c_longlong; pub type __off_t = _off_t; pub type __loff_t = _off64_t; pub type __key_t = ::libc::c_long; pub type __size_t = ::libc::c_uint; pub type _ssize_t = ::libc::c_int; pub type __ssize_t = _ssize_t; #[repr(C)] #[derive(Copy, Clone)] pub struct _mbstate_t { pub __count: ::libc::c_int, pub __value: _mbstate_t__bindgen_ty_1, } #[repr(C)] #[derive(Copy, Clone)] pub union _mbstate_t__bindgen_ty_1 { pub __wch: wint_t, pub __wchb: [::libc::c_uchar; 4usize], } impl Default for _mbstate_t__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for _mbstate_t { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type _iconv_t = *mut ::libc::c_void; pub type __clock_t = ::libc::c_ulong; pub type __time_t = __int_least64_t; pub type __clockid_t = ::libc::c_ulong; pub type __timer_t = ::libc::c_ulong; pub type __sa_family_t = __uint8_t; pub type __socklen_t = __uint32_t; pub type __nl_item = ::libc::c_int; pub type __nlink_t = ::libc::c_ushort; pub type __suseconds_t = ::libc::c_long; pub type __useconds_t = ::libc::c_ulong; pub type __sigset_t = ::libc::c_ulong; pub type suseconds_t = __suseconds_t; pub type time_t = __int_least64_t; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct timeval { pub tv_sec: time_t, pub tv_usec: suseconds_t, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct timespec { pub tv_sec: time_t, pub tv_nsec: ::libc::c_long, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct itimerspec { pub it_interval: timespec, pub it_value: timespec, } pub type sigset_t = __sigset_t; pub type __fd_mask = ::libc::c_ulong; pub type fd_mask = __fd_mask; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct fd_set { pub __fds_bits: [__fd_mask; 2usize], } extern "C" { pub fn select( __n: ::libc::c_int, __readfds: *mut fd_set, __writefds: *mut fd_set, __exceptfds: *mut fd_set, __timeout: *mut timeval, ) -> ::libc::c_int; } extern "C" { pub fn pselect( __n: ::libc::c_int, __readfds: *mut fd_set, __writefds: *mut fd_set, __exceptfds: *mut fd_set, __timeout: *const timespec, __set: *const sigset_t, ) -> ::libc::c_int; } pub type in_addr_t = __uint32_t; pub type in_port_t = __uint16_t; pub type u_register_t = __uintptr_t; pub type u_char = ::libc::c_uchar; pub type u_short = ::libc::c_ushort; pub type u_int = ::libc::c_uint; pub type u_long = ::libc::c_ulong; pub type ushort = ::libc::c_ushort; pub type uint = ::libc::c_uint; pub type ulong = ::libc::c_ulong; pub type blkcnt_t = __blkcnt_t; pub type blksize_t = __blksize_t; pub type clock_t = ::libc::c_ulong; pub type daddr_t = ::libc::c_long; pub type caddr_t = *mut ::libc::c_char; pub type fsblkcnt_t = __fsblkcnt_t; pub type fsfilcnt_t = __fsfilcnt_t; pub type id_t = __id_t; pub type ino_t = __ino_t; pub type off_t = __off_t; pub type dev_t = __dev_t; pub type uid_t = __uid_t; pub type gid_t = __gid_t; pub type pid_t = __pid_t; pub type key_t = __key_t; pub type ssize_t = _ssize_t; pub type mode_t = __mode_t; pub type nlink_t = __nlink_t; pub type clockid_t = __clockid_t; pub type timer_t = __timer_t; pub type useconds_t = __useconds_t; pub type sbintime_t = __int64_t; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct sched_param { pub sched_priority: ::libc::c_int, } pub type pthread_t = __uint32_t; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct pthread_attr_t { pub is_initialized: ::libc::c_int, pub stackaddr: *mut ::libc::c_void, pub stacksize: ::libc::c_int, pub contentionscope: ::libc::c_int, pub inheritsched: ::libc::c_int, pub schedpolicy: ::libc::c_int, pub schedparam: sched_param, pub detachstate: ::libc::c_int, } impl Default for pthread_attr_t { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type pthread_mutex_t = __uint32_t; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct pthread_mutexattr_t { pub is_initialized: ::libc::c_int, pub recursive: ::libc::c_int, } pub type pthread_cond_t = __uint32_t; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct pthread_condattr_t { pub is_initialized: ::libc::c_int, pub clock: clock_t, } pub type pthread_key_t = __uint32_t; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct pthread_once_t { pub is_initialized: ::libc::c_int, pub init_executed: ::libc::c_int, } pub const DECOMPRESS_DUMMY: decompressType = 0; pub const DECOMPRESS_LZSS: decompressType = 16; pub const DECOMPRESS_LZ10: decompressType = 16; pub const DECOMPRESS_LZ11: decompressType = 17; pub const DECOMPRESS_HUFF1: decompressType = 33; pub const DECOMPRESS_HUFF2: decompressType = 34; pub const DECOMPRESS_HUFF3: decompressType = 35; pub const DECOMPRESS_HUFF4: decompressType = 36; pub const DECOMPRESS_HUFF5: decompressType = 37; pub const DECOMPRESS_HUFF6: decompressType = 38; pub const DECOMPRESS_HUFF7: decompressType = 39; pub const DECOMPRESS_HUFF8: decompressType = 40; pub const DECOMPRESS_HUFF: decompressType = 40; pub const DECOMPRESS_RLE: decompressType = 48; pub type decompressType = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct decompressIOVec { pub data: *mut ::libc::c_void, pub size: size_t, } impl Default for decompressIOVec { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type decompressCallback = ::core::option::Option< unsafe extern "C" fn( userdata: *mut ::libc::c_void, buffer: *mut ::libc::c_void, size: size_t, ) -> ssize_t, >; extern "C" { pub fn decompressCallback_FD( userdata: *mut ::libc::c_void, buffer: *mut ::libc::c_void, size: size_t, ) -> ssize_t; } extern "C" { pub fn decompressCallback_Stdio( userdata: *mut ::libc::c_void, buffer: *mut ::libc::c_void, size: size_t, ) -> ssize_t; } extern "C" { pub fn decompressHeader( type_: *mut decompressType, size: *mut size_t, callback: decompressCallback, userdata: *mut ::libc::c_void, insize: size_t, ) -> ssize_t; } extern "C" { pub fn decompressV( iov: *const decompressIOVec, iovcnt: size_t, callback: decompressCallback, userdata: *mut ::libc::c_void, insize: size_t, ) -> bool; } extern "C" { pub fn decompressV_LZSS( iov: *const decompressIOVec, iovcnt: size_t, callback: decompressCallback, userdata: *mut ::libc::c_void, insize: size_t, ) -> bool; } extern "C" { pub fn decompressV_LZ11( iov: *const decompressIOVec, iovcnt: size_t, callback: decompressCallback, userdata: *mut ::libc::c_void, insize: size_t, ) -> bool; } extern "C" { pub fn decompressV_Huff( bits: size_t, iov: *const decompressIOVec, iovcnt: size_t, callback: decompressCallback, userdata: *mut ::libc::c_void, insize: size_t, ) -> bool; } extern "C" { pub fn decompressV_RLE( iov: *const decompressIOVec, iovcnt: size_t, callback: decompressCallback, userdata: *mut ::libc::c_void, insize: size_t, ) -> bool; } extern "C" { pub fn decode_utf8(out: *mut u32, in_: *const u8) -> ssize_t; } extern "C" { pub fn decode_utf16(out: *mut u32, in_: *const u16) -> ssize_t; } extern "C" { pub fn encode_utf8(out: *mut u8, in_: u32) -> ssize_t; } extern "C" { pub fn encode_utf16(out: *mut u16, in_: u32) -> ssize_t; } extern "C" { pub fn utf8_to_utf16(out: *mut u16, in_: *const u8, len: size_t) -> ssize_t; } extern "C" { pub fn utf8_to_utf32(out: *mut u32, in_: *const u8, len: size_t) -> ssize_t; } extern "C" { pub fn utf16_to_utf8(out: *mut u8, in_: *const u16, len: size_t) -> ssize_t; } extern "C" { pub fn utf16_to_utf32(out: *mut u32, in_: *const u16, len: size_t) -> ssize_t; } extern "C" { pub fn utf32_to_utf8(out: *mut u8, in_: *const u32, len: size_t) -> ssize_t; } extern "C" { pub fn utf32_to_utf16(out: *mut u16, in_: *const u32, len: size_t) -> ssize_t; } extern "C" { pub fn linearAlloc(size: size_t) -> *mut ::libc::c_void; } extern "C" { pub fn linearMemAlign(size: size_t, alignment: size_t) -> *mut ::libc::c_void; } extern "C" { pub fn linearRealloc(mem: *mut ::libc::c_void, size: size_t) -> *mut ::libc::c_void; } extern "C" { pub fn linearGetSize(mem: *mut ::libc::c_void) -> size_t; } extern "C" { pub fn linearFree(mem: *mut ::libc::c_void); } extern "C" { pub fn linearSpaceFree() -> u32_; } extern "C" { pub fn mappableInit(addrMin: u32_, addrMax: u32_); } extern "C" { pub fn mappableAlloc(size: size_t) -> *mut ::libc::c_void; } extern "C" { pub fn mappableFree(mem: *mut ::libc::c_void); } extern "C" { pub fn vramAlloc(size: size_t) -> *mut ::libc::c_void; } extern "C" { pub fn vramMemAlign(size: size_t, alignment: size_t) -> *mut ::libc::c_void; } extern "C" { pub fn vramRealloc(mem: *mut ::libc::c_void, size: size_t) -> *mut ::libc::c_void; } extern "C" { pub fn vramGetSize(mem: *mut ::libc::c_void) -> size_t; } extern "C" { pub fn vramFree(mem: *mut ::libc::c_void); } extern "C" { pub fn vramSpaceFree() -> u32_; } pub const AC_OPEN: acSecurityMode = 0; pub const AC_WEP_40BIT: acSecurityMode = 1; pub const AC_WEP_104BIT: acSecurityMode = 2; pub const AC_WEP_128BIT: acSecurityMode = 3; pub const AC_WPA_TKIP: acSecurityMode = 4; pub const AC_WPA2_TKIP: acSecurityMode = 5; pub const AC_WPA_AES: acSecurityMode = 6; pub const AC_WPA2_AES: acSecurityMode = 7; pub type acSecurityMode = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct acuConfig { pub reserved: [u8_; 512usize], } impl Default for acuConfig { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn acInit() -> Result; } extern "C" { pub fn acExit(); } extern "C" { pub fn acWaitInternetConnection() -> Result; } extern "C" { pub fn ACU_GetWifiStatus(out: *mut u32_) -> Result; } extern "C" { pub fn ACU_GetStatus(out: *mut u32_) -> Result; } extern "C" { pub fn ACU_GetSecurityMode(mode: *mut acSecurityMode) -> Result; } extern "C" { pub fn ACU_GetSSID(SSID: *mut ::libc::c_char) -> Result; } extern "C" { pub fn ACU_GetSSIDLength(out: *mut u32_) -> Result; } extern "C" { pub fn ACU_GetProxyEnable(enable: *mut bool) -> Result; } extern "C" { pub fn ACU_GetProxyPort(out: *mut u32_) -> Result; } extern "C" { pub fn ACU_GetProxyUserName(username: *mut ::libc::c_char) -> Result; } extern "C" { pub fn ACU_GetProxyPassword(password: *mut ::libc::c_char) -> Result; } extern "C" { pub fn ACU_GetLastErrorCode(errorCode: *mut u32_) -> Result; } extern "C" { pub fn ACU_GetLastDetailErrorCode(errorCode: *mut u32_) -> Result; } extern "C" { pub fn ACU_CreateDefaultConfig(config: *mut acuConfig) -> Result; } extern "C" { pub fn ACU_SetNetworkArea(config: *mut acuConfig, area: u8_) -> Result; } extern "C" { pub fn ACU_SetAllowApType(config: *mut acuConfig, type_: u8_) -> Result; } extern "C" { pub fn ACU_SetRequestEulaVersion(config: *mut acuConfig) -> Result; } extern "C" { pub fn ACU_ConnectAsync(config: *const acuConfig, connectionHandle: Handle) -> Result; } pub const FS_OPEN_READ: ::libc::c_uint = 1; pub const FS_OPEN_WRITE: ::libc::c_uint = 2; pub const FS_OPEN_CREATE: ::libc::c_uint = 4; pub type _bindgen_ty_10 = ::libc::c_uint; pub const FS_WRITE_FLUSH: ::libc::c_uint = 1; pub const FS_WRITE_UPDATE_TIME: ::libc::c_uint = 256; pub type _bindgen_ty_11 = ::libc::c_uint; pub const FS_ATTRIBUTE_DIRECTORY: ::libc::c_uint = 1; pub const FS_ATTRIBUTE_HIDDEN: ::libc::c_uint = 256; pub const FS_ATTRIBUTE_ARCHIVE: ::libc::c_uint = 65536; pub const FS_ATTRIBUTE_READ_ONLY: ::libc::c_uint = 16777216; pub type _bindgen_ty_12 = ::libc::c_uint; pub const MEDIATYPE_NAND: FS_MediaType = 0; pub const MEDIATYPE_SD: FS_MediaType = 1; pub const MEDIATYPE_GAME_CARD: FS_MediaType = 2; pub type FS_MediaType = ::libc::c_uint; pub const SYSTEM_MEDIATYPE_CTR_NAND: FS_SystemMediaType = 0; pub const SYSTEM_MEDIATYPE_TWL_NAND: FS_SystemMediaType = 1; pub const SYSTEM_MEDIATYPE_SD: FS_SystemMediaType = 2; pub const SYSTEM_MEDIATYPE_TWL_PHOTO: FS_SystemMediaType = 3; pub type FS_SystemMediaType = ::libc::c_uint; pub const ARCHIVE_ROMFS: FS_ArchiveID = 3; pub const ARCHIVE_SAVEDATA: FS_ArchiveID = 4; pub const ARCHIVE_EXTDATA: FS_ArchiveID = 6; pub const ARCHIVE_SHARED_EXTDATA: FS_ArchiveID = 7; pub const ARCHIVE_SYSTEM_SAVEDATA: FS_ArchiveID = 8; pub const ARCHIVE_SDMC: FS_ArchiveID = 9; pub const ARCHIVE_SDMC_WRITE_ONLY: FS_ArchiveID = 10; pub const ARCHIVE_BOSS_EXTDATA: FS_ArchiveID = 305419896; pub const ARCHIVE_CARD_SPIFS: FS_ArchiveID = 305419897; pub const ARCHIVE_EXTDATA_AND_BOSS_EXTDATA: FS_ArchiveID = 305419899; pub const ARCHIVE_SYSTEM_SAVEDATA2: FS_ArchiveID = 305419900; pub const ARCHIVE_NAND_RW: FS_ArchiveID = 305419901; pub const ARCHIVE_NAND_RO: FS_ArchiveID = 305419902; pub const ARCHIVE_NAND_RO_WRITE_ACCESS: FS_ArchiveID = 305419903; pub const ARCHIVE_SAVEDATA_AND_CONTENT: FS_ArchiveID = 591751050; pub const ARCHIVE_SAVEDATA_AND_CONTENT2: FS_ArchiveID = 591751054; pub const ARCHIVE_NAND_CTR_FS: FS_ArchiveID = 1450741931; pub const ARCHIVE_TWL_PHOTO: FS_ArchiveID = 1450741932; pub const ARCHIVE_TWL_SOUND: FS_ArchiveID = 1450741933; pub const ARCHIVE_NAND_TWL_FS: FS_ArchiveID = 1450741934; pub const ARCHIVE_NAND_W_FS: FS_ArchiveID = 1450741935; pub const ARCHIVE_GAMECARD_SAVEDATA: FS_ArchiveID = 1450741937; pub const ARCHIVE_USER_SAVEDATA: FS_ArchiveID = 1450741938; pub const ARCHIVE_DEMO_SAVEDATA: FS_ArchiveID = 1450741940; pub type FS_ArchiveID = ::libc::c_uint; pub const PATH_INVALID: FS_PathType = 0; pub const PATH_EMPTY: FS_PathType = 1; pub const PATH_BINARY: FS_PathType = 2; pub const PATH_ASCII: FS_PathType = 3; pub const PATH_UTF16: FS_PathType = 4; pub type FS_PathType = ::libc::c_uint; pub const SECUREVALUE_SLOT_SD: FS_SecureValueSlot = 4096; pub type FS_SecureValueSlot = ::libc::c_uint; pub const BAUDRATE_512KHZ: FS_CardSpiBaudRate = 0; pub const BAUDRATE_1MHZ: FS_CardSpiBaudRate = 1; pub const BAUDRATE_2MHZ: FS_CardSpiBaudRate = 2; pub const BAUDRATE_4MHZ: FS_CardSpiBaudRate = 3; pub const BAUDRATE_8MHZ: FS_CardSpiBaudRate = 4; pub const BAUDRATE_16MHZ: FS_CardSpiBaudRate = 5; pub type FS_CardSpiBaudRate = ::libc::c_uint; pub const BUSMODE_1BIT: FS_CardSpiBusMode = 0; pub const BUSMODE_4BIT: FS_CardSpiBusMode = 1; pub type FS_CardSpiBusMode = ::libc::c_uint; pub const SPECIALCONTENT_UPDATE: FS_SpecialContentType = 1; pub const SPECIALCONTENT_MANUAL: FS_SpecialContentType = 2; pub const SPECIALCONTENT_DLP_CHILD: FS_SpecialContentType = 3; pub type FS_SpecialContentType = ::libc::c_uint; pub const CARD_CTR: FS_CardType = 0; pub const CARD_TWL: FS_CardType = 1; pub type FS_CardType = ::libc::c_uint; pub const FS_ACTION_UNKNOWN: FS_Action = 0; pub type FS_Action = ::libc::c_uint; pub const ARCHIVE_ACTION_COMMIT_SAVE_DATA: FS_ArchiveAction = 0; pub const ARCHIVE_ACTION_GET_TIMESTAMP: FS_ArchiveAction = 1; pub const ARCHIVE_ACTION_UNKNOWN: FS_ArchiveAction = 30877; pub type FS_ArchiveAction = ::libc::c_uint; pub const SECURESAVE_ACTION_DELETE: FS_SecureSaveAction = 0; pub const SECURESAVE_ACTION_FORMAT: FS_SecureSaveAction = 1; pub type FS_SecureSaveAction = ::libc::c_uint; pub const FILE_ACTION_UNKNOWN: FS_FileAction = 0; pub type FS_FileAction = ::libc::c_uint; pub const DIRECTORY_ACTION_UNKNOWN: FS_DirectoryAction = 0; pub type FS_DirectoryAction = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct FS_DirectoryEntry { pub name: [u16_; 262usize], pub shortName: [::libc::c_char; 10usize], pub shortExt: [::libc::c_char; 4usize], pub valid: u8_, pub reserved: u8_, pub attributes: u32_, pub fileSize: u64_, } impl Default for FS_DirectoryEntry { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct FS_ArchiveResource { pub sectorSize: u32_, pub clusterSize: u32_, pub totalClusters: u32_, pub freeClusters: u32_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct FS_ProgramInfo { pub programId: u64_, pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, pub padding: [u8_; 7usize], } impl Default for FS_ProgramInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl FS_ProgramInfo { #[inline] pub fn mediaType(&self) -> FS_MediaType { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 8u8) as u32) } } #[inline] pub fn set_mediaType(&mut self, val: FS_MediaType) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 8u8, val as u64) } } #[inline] pub fn new_bitfield_1(mediaType: FS_MediaType) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 8u8, { let mediaType: u32 = unsafe { ::core::mem::transmute(mediaType) }; mediaType as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct FS_ProductInfo { pub productCode: [::libc::c_char; 16usize], pub companyCode: [::libc::c_char; 2usize], pub remasterVersion: u16_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct FS_IntegrityVerificationSeed { pub aesCbcMac: [u8_; 16usize], pub movableSed: [u8_; 288usize], } impl Default for FS_IntegrityVerificationSeed { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C, packed)] #[derive(Debug, Copy, Clone)] pub struct FS_ExtSaveDataInfo { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, pub unknown: u8_, pub reserved1: u16_, pub saveId: u64_, pub reserved2: u32_, } impl Default for FS_ExtSaveDataInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl FS_ExtSaveDataInfo { #[inline] pub fn mediaType(&self) -> FS_MediaType { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 8u8) as u32) } } #[inline] pub fn set_mediaType(&mut self, val: FS_MediaType) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 8u8, val as u64) } } #[inline] pub fn new_bitfield_1(mediaType: FS_MediaType) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 8u8, { let mediaType: u32 = unsafe { ::core::mem::transmute(mediaType) }; mediaType as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct FS_SystemSaveDataInfo { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, pub unknown: u8_, pub reserved: u16_, pub saveId: u32_, } impl Default for FS_SystemSaveDataInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl FS_SystemSaveDataInfo { #[inline] pub fn mediaType(&self) -> FS_MediaType { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 8u8) as u32) } } #[inline] pub fn set_mediaType(&mut self, val: FS_MediaType) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 8u8, val as u64) } } #[inline] pub fn new_bitfield_1(mediaType: FS_MediaType) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 8u8, { let mediaType: u32 = unsafe { ::core::mem::transmute(mediaType) }; mediaType as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct FS_DeviceMoveContext { pub ivs: [u8_; 16usize], pub encryptParameter: [u8_; 16usize], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct FS_Path { pub type_: FS_PathType, pub size: u32_, pub data: *const ::libc::c_void, } impl Default for FS_Path { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type FS_Archive = u64_; extern "C" { pub fn fsInit() -> Result; } extern "C" { pub fn fsExit(); } extern "C" { pub fn fsUseSession(session: Handle); } extern "C" { pub fn fsEndUseSession(); } extern "C" { pub fn fsExemptFromSession(archive: FS_Archive); } extern "C" { pub fn fsUnexemptFromSession(archive: FS_Archive); } extern "C" { pub fn fsMakePath(type_: FS_PathType, path: *const ::libc::c_void) -> FS_Path; } extern "C" { pub fn fsGetSessionHandle() -> *mut Handle; } extern "C" { pub fn FSUSER_Control( action: FS_Action, input: *mut ::libc::c_void, inputSize: u32_, output: *mut ::libc::c_void, outputSize: u32_, ) -> Result; } extern "C" { pub fn FSUSER_Initialize(session: Handle) -> Result; } extern "C" { pub fn FSUSER_OpenFile( out: *mut Handle, archive: FS_Archive, path: FS_Path, openFlags: u32_, attributes: u32_, ) -> Result; } extern "C" { pub fn FSUSER_OpenFileDirectly( out: *mut Handle, archiveId: FS_ArchiveID, archivePath: FS_Path, filePath: FS_Path, openFlags: u32_, attributes: u32_, ) -> Result; } extern "C" { pub fn FSUSER_DeleteFile(archive: FS_Archive, path: FS_Path) -> Result; } extern "C" { pub fn FSUSER_RenameFile( srcArchive: FS_Archive, srcPath: FS_Path, dstArchive: FS_Archive, dstPath: FS_Path, ) -> Result; } extern "C" { pub fn FSUSER_DeleteDirectory(archive: FS_Archive, path: FS_Path) -> Result; } extern "C" { pub fn FSUSER_DeleteDirectoryRecursively(archive: FS_Archive, path: FS_Path) -> Result; } extern "C" { pub fn FSUSER_CreateFile( archive: FS_Archive, path: FS_Path, attributes: u32_, fileSize: u64_, ) -> Result; } extern "C" { pub fn FSUSER_CreateDirectory(archive: FS_Archive, path: FS_Path, attributes: u32_) -> Result; } extern "C" { pub fn FSUSER_RenameDirectory( srcArchive: FS_Archive, srcPath: FS_Path, dstArchive: FS_Archive, dstPath: FS_Path, ) -> Result; } extern "C" { pub fn FSUSER_OpenDirectory(out: *mut Handle, archive: FS_Archive, path: FS_Path) -> Result; } extern "C" { pub fn FSUSER_OpenArchive(archive: *mut FS_Archive, id: FS_ArchiveID, path: FS_Path) -> Result; } extern "C" { pub fn FSUSER_ControlArchive( archive: FS_Archive, action: FS_ArchiveAction, input: *mut ::libc::c_void, inputSize: u32_, output: *mut ::libc::c_void, outputSize: u32_, ) -> Result; } extern "C" { pub fn FSUSER_CloseArchive(archive: FS_Archive) -> Result; } extern "C" { pub fn FSUSER_GetFreeBytes(freeBytes: *mut u64_, archive: FS_Archive) -> Result; } extern "C" { pub fn FSUSER_GetCardType(type_: *mut FS_CardType) -> Result; } extern "C" { pub fn FSUSER_GetSdmcArchiveResource(archiveResource: *mut FS_ArchiveResource) -> Result; } extern "C" { pub fn FSUSER_GetNandArchiveResource(archiveResource: *mut FS_ArchiveResource) -> Result; } extern "C" { pub fn FSUSER_GetSdmcFatfsError(error: *mut u32_) -> Result; } extern "C" { pub fn FSUSER_IsSdmcDetected(detected: *mut bool) -> Result; } extern "C" { pub fn FSUSER_IsSdmcWritable(writable: *mut bool) -> Result; } extern "C" { pub fn FSUSER_GetSdmcCid(out: *mut u8_, length: u32_) -> Result; } extern "C" { pub fn FSUSER_GetNandCid(out: *mut u8_, length: u32_) -> Result; } extern "C" { pub fn FSUSER_GetSdmcSpeedInfo(speedInfo: *mut u32_) -> Result; } extern "C" { pub fn FSUSER_GetNandSpeedInfo(speedInfo: *mut u32_) -> Result; } extern "C" { pub fn FSUSER_GetSdmcLog(out: *mut u8_, length: u32_) -> Result; } extern "C" { pub fn FSUSER_GetNandLog(out: *mut u8_, length: u32_) -> Result; } extern "C" { pub fn FSUSER_ClearSdmcLog() -> Result; } extern "C" { pub fn FSUSER_ClearNandLog() -> Result; } extern "C" { pub fn FSUSER_CardSlotIsInserted(inserted: *mut bool) -> Result; } extern "C" { pub fn FSUSER_CardSlotPowerOn(status: *mut bool) -> Result; } extern "C" { pub fn FSUSER_CardSlotPowerOff(status: *mut bool) -> Result; } extern "C" { pub fn FSUSER_CardSlotGetCardIFPowerStatus(status: *mut bool) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectCommand(commandId: u8_) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectCommandWithAddress(commandId: u8_, address: u32_) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectRead( commandId: u8_, size: u32_, output: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectReadWithAddress( commandId: u8_, address: u32_, size: u32_, output: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectWrite( commandId: u8_, size: u32_, input: *const ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectWriteWithAddress( commandId: u8_, address: u32_, size: u32_, input: *const ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectRead_4xIO( commandId: u8_, address: u32_, size: u32_, output: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectCpuWriteWithoutVerify( address: u32_, size: u32_, input: *const ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_CardNorDirectSectorEraseWithoutVerify(address: u32_) -> Result; } extern "C" { pub fn FSUSER_GetProductInfo(info: *mut FS_ProductInfo, processId: u32_) -> Result; } extern "C" { pub fn FSUSER_GetProgramLaunchInfo(info: *mut FS_ProgramInfo, processId: u32_) -> Result; } extern "C" { pub fn FSUSER_SetCardSpiBaudRate(baudRate: FS_CardSpiBaudRate) -> Result; } extern "C" { pub fn FSUSER_SetCardSpiBusMode(busMode: FS_CardSpiBusMode) -> Result; } extern "C" { pub fn FSUSER_SendInitializeInfoTo9() -> Result; } extern "C" { pub fn FSUSER_GetSpecialContentIndex( index: *mut u16_, mediaType: FS_MediaType, programId: u64_, type_: FS_SpecialContentType, ) -> Result; } extern "C" { pub fn FSUSER_GetLegacyRomHeader( mediaType: FS_MediaType, programId: u64_, header: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_GetLegacyBannerData( mediaType: FS_MediaType, programId: u64_, banner: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_CheckAuthorityToAccessExtSaveData( access: *mut bool, mediaType: FS_MediaType, saveId: u64_, processId: u32_, ) -> Result; } extern "C" { pub fn FSUSER_QueryTotalQuotaSize( quotaSize: *mut u64_, directories: u32_, files: u32_, fileSizeCount: u32_, fileSizes: *mut u64_, ) -> Result; } extern "C" { pub fn FSUSER_AbnegateAccessRight(accessRight: u32_) -> Result; } extern "C" { pub fn FSUSER_DeleteSdmcRoot() -> Result; } extern "C" { pub fn FSUSER_DeleteAllExtSaveDataOnNand() -> Result; } extern "C" { pub fn FSUSER_InitializeCtrFileSystem() -> Result; } extern "C" { pub fn FSUSER_CreateSeed() -> Result; } extern "C" { pub fn FSUSER_GetFormatInfo( totalSize: *mut u32_, directories: *mut u32_, files: *mut u32_, duplicateData: *mut bool, archiveId: FS_ArchiveID, path: FS_Path, ) -> Result; } extern "C" { pub fn FSUSER_GetLegacyRomHeader2( headerSize: u32_, mediaType: FS_MediaType, programId: u64_, header: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_GetSdmcCtrRootPath(out: *mut u8_, length: u32_) -> Result; } extern "C" { pub fn FSUSER_GetArchiveResource( archiveResource: *mut FS_ArchiveResource, mediaType: FS_SystemMediaType, ) -> Result; } extern "C" { pub fn FSUSER_ExportIntegrityVerificationSeed( seed: *mut FS_IntegrityVerificationSeed, ) -> Result; } extern "C" { pub fn FSUSER_ImportIntegrityVerificationSeed( seed: *mut FS_IntegrityVerificationSeed, ) -> Result; } extern "C" { pub fn FSUSER_FormatSaveData( archiveId: FS_ArchiveID, path: FS_Path, blocks: u32_, directories: u32_, files: u32_, directoryBuckets: u32_, fileBuckets: u32_, duplicateData: bool, ) -> Result; } extern "C" { pub fn FSUSER_GetLegacySubBannerData( bannerSize: u32_, mediaType: FS_MediaType, programId: u64_, banner: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_UpdateSha256Context( data: *const ::libc::c_void, inputSize: u32_, hash: *mut u8_, ) -> Result; } extern "C" { pub fn FSUSER_ReadSpecialFile( bytesRead: *mut u32_, fileOffset: u64_, size: u32_, data: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSUSER_GetSpecialFileSize(fileSize: *mut u64_) -> Result; } extern "C" { pub fn FSUSER_CreateExtSaveData( info: FS_ExtSaveDataInfo, directories: u32_, files: u32_, sizeLimit: u64_, smdhSize: u32_, smdh: *mut u8_, ) -> Result; } extern "C" { pub fn FSUSER_DeleteExtSaveData(info: FS_ExtSaveDataInfo) -> Result; } extern "C" { pub fn FSUSER_ReadExtSaveDataIcon( bytesRead: *mut u32_, info: FS_ExtSaveDataInfo, smdhSize: u32_, smdh: *mut u8_, ) -> Result; } extern "C" { pub fn FSUSER_GetExtDataBlockSize( totalBlocks: *mut u64_, freeBlocks: *mut u64_, blockSize: *mut u32_, info: FS_ExtSaveDataInfo, ) -> Result; } extern "C" { pub fn FSUSER_EnumerateExtSaveData( idsWritten: *mut u32_, idsSize: u32_, mediaType: FS_MediaType, idSize: u32_, shared: bool, ids: *mut u8_, ) -> Result; } extern "C" { pub fn FSUSER_CreateSystemSaveData( info: FS_SystemSaveDataInfo, totalSize: u32_, blockSize: u32_, directories: u32_, files: u32_, directoryBuckets: u32_, fileBuckets: u32_, duplicateData: bool, ) -> Result; } extern "C" { pub fn FSUSER_DeleteSystemSaveData(info: FS_SystemSaveDataInfo) -> Result; } extern "C" { pub fn FSUSER_StartDeviceMoveAsSource(context: *mut FS_DeviceMoveContext) -> Result; } extern "C" { pub fn FSUSER_StartDeviceMoveAsDestination( context: FS_DeviceMoveContext, clear: bool, ) -> Result; } extern "C" { pub fn FSUSER_SetArchivePriority(archive: FS_Archive, priority: u32_) -> Result; } extern "C" { pub fn FSUSER_GetArchivePriority(priority: *mut u32_, archive: FS_Archive) -> Result; } extern "C" { pub fn FSUSER_SetCtrCardLatencyParameter(latency: u64_, emulateEndurance: bool) -> Result; } extern "C" { pub fn FSUSER_SwitchCleanupInvalidSaveData(enable: bool) -> Result; } extern "C" { pub fn FSUSER_EnumerateSystemSaveData( idsWritten: *mut u32_, idsSize: u32_, ids: *mut u32_, ) -> Result; } extern "C" { pub fn FSUSER_InitializeWithSdkVersion(session: Handle, version: u32_) -> Result; } extern "C" { pub fn FSUSER_SetPriority(priority: u32_) -> Result; } extern "C" { pub fn FSUSER_GetPriority(priority: *mut u32_) -> Result; } extern "C" { pub fn FSUSER_SetSaveDataSecureValue( value: u64_, slot: FS_SecureValueSlot, titleUniqueId: u32_, titleVariation: u8_, ) -> Result; } extern "C" { pub fn FSUSER_GetSaveDataSecureValue( exists: *mut bool, value: *mut u64_, slot: FS_SecureValueSlot, titleUniqueId: u32_, titleVariation: u8_, ) -> Result; } extern "C" { pub fn FSUSER_ControlSecureSave( action: FS_SecureSaveAction, input: *mut ::libc::c_void, inputSize: u32_, output: *mut ::libc::c_void, outputSize: u32_, ) -> Result; } extern "C" { pub fn FSUSER_GetMediaType(mediaType: *mut FS_MediaType) -> Result; } extern "C" { pub fn FSFILE_Control( handle: Handle, action: FS_FileAction, input: *mut ::libc::c_void, inputSize: u32_, output: *mut ::libc::c_void, outputSize: u32_, ) -> Result; } extern "C" { pub fn FSFILE_OpenSubFile( handle: Handle, subFile: *mut Handle, offset: u64_, size: u64_, ) -> Result; } extern "C" { pub fn FSFILE_Read( handle: Handle, bytesRead: *mut u32_, offset: u64_, buffer: *mut ::libc::c_void, size: u32_, ) -> Result; } extern "C" { pub fn FSFILE_Write( handle: Handle, bytesWritten: *mut u32_, offset: u64_, buffer: *const ::libc::c_void, size: u32_, flags: u32_, ) -> Result; } extern "C" { pub fn FSFILE_GetSize(handle: Handle, size: *mut u64_) -> Result; } extern "C" { pub fn FSFILE_SetSize(handle: Handle, size: u64_) -> Result; } extern "C" { pub fn FSFILE_GetAttributes(handle: Handle, attributes: *mut u32_) -> Result; } extern "C" { pub fn FSFILE_SetAttributes(handle: Handle, attributes: u32_) -> Result; } extern "C" { pub fn FSFILE_Close(handle: Handle) -> Result; } extern "C" { pub fn FSFILE_Flush(handle: Handle) -> Result; } extern "C" { pub fn FSFILE_SetPriority(handle: Handle, priority: u32_) -> Result; } extern "C" { pub fn FSFILE_GetPriority(handle: Handle, priority: *mut u32_) -> Result; } extern "C" { pub fn FSFILE_OpenLinkFile(handle: Handle, linkFile: *mut Handle) -> Result; } extern "C" { pub fn FSDIR_Control( handle: Handle, action: FS_DirectoryAction, input: *mut ::libc::c_void, inputSize: u32_, output: *mut ::libc::c_void, outputSize: u32_, ) -> Result; } extern "C" { pub fn FSDIR_Read( handle: Handle, entriesRead: *mut u32_, entryCount: u32_, entries: *mut FS_DirectoryEntry, ) -> Result; } extern "C" { pub fn FSDIR_Close(handle: Handle) -> Result; } extern "C" { pub fn FSDIR_SetPriority(handle: Handle, priority: u32_) -> Result; } extern "C" { pub fn FSDIR_GetPriority(handle: Handle, priority: *mut u32_) -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct AM_TitleEntry { pub titleID: u64_, pub size: u64_, pub version: u16_, pub unk: [u8_; 6usize], } pub const AM_STATUS_MASK_INSTALLING: ::libc::c_uint = 1; pub const AM_STATUS_MASK_AWAITING_FINALIZATION: ::libc::c_uint = 2; pub type _bindgen_ty_13 = ::libc::c_uint; pub const AM_STATUS_ABORTED: AM_InstallStatus = 2; pub const AM_STATUS_SAVED: AM_InstallStatus = 3; pub const AM_STATUS_INSTALL_IN_PROGRESS: AM_InstallStatus = 2050; pub const AM_STATUS_AWAITING_FINALIZATION: AM_InstallStatus = 2051; pub type AM_InstallStatus = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct AM_PendingTitleEntry { pub titleId: u64_, pub version: u16_, pub status: u16_, pub titleType: u32_, pub unk: [u8_; 8usize], } pub const AM_DELETE_PENDING_NON_SYSTEM: ::libc::c_uint = 1; pub const AM_DELETE_PENDING_SYSTEM: ::libc::c_uint = 2; pub type _bindgen_ty_14 = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct AM_TWLPartitionInfo { pub capacity: u64_, pub freeSpace: u64_, pub titlesCapacity: u64_, pub titlesFreeSpace: u64_, } extern "C" { pub fn amInit() -> Result; } extern "C" { pub fn amAppInit() -> Result; } extern "C" { pub fn amExit(); } extern "C" { pub fn amGetSessionHandle() -> *mut Handle; } extern "C" { pub fn AM_GetTitleCount(mediatype: FS_MediaType, count: *mut u32_) -> Result; } extern "C" { pub fn AM_GetTitleList( titlesRead: *mut u32_, mediatype: FS_MediaType, titleCount: u32_, titleIds: *mut u64_, ) -> Result; } extern "C" { pub fn AM_GetTitleInfo( mediatype: FS_MediaType, titleCount: u32_, titleIds: *mut u64_, titleInfo: *mut AM_TitleEntry, ) -> Result; } extern "C" { pub fn AM_GetTicketCount(count: *mut u32_) -> Result; } extern "C" { pub fn AM_GetTicketList( ticketsRead: *mut u32_, ticketCount: u32_, skip: u32_, ticketIds: *mut u64_, ) -> Result; } extern "C" { pub fn AM_GetPendingTitleCount( count: *mut u32_, mediatype: FS_MediaType, statusMask: u32_, ) -> Result; } extern "C" { pub fn AM_GetPendingTitleList( titlesRead: *mut u32_, titleCount: u32_, mediatype: FS_MediaType, statusMask: u32_, titleIds: *mut u64_, ) -> Result; } extern "C" { pub fn AM_GetPendingTitleInfo( titleCount: u32_, mediatype: FS_MediaType, titleIds: *mut u64_, titleInfo: *mut AM_PendingTitleEntry, ) -> Result; } extern "C" { pub fn AM_GetDeviceId(deviceID: *mut u32_) -> Result; } extern "C" { pub fn AM_ExportTwlBackup( titleID: u64_, operation: u8_, workbuf: *mut ::libc::c_void, workbuf_size: u32_, filepath: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn AM_ImportTwlBackup( filehandle: Handle, operation: u8_, buffer: *mut ::libc::c_void, size: u32_, ) -> Result; } extern "C" { pub fn AM_ReadTwlBackupInfo( filehandle: Handle, outinfo: *mut ::libc::c_void, outinfo_size: u32_, workbuf: *mut ::libc::c_void, workbuf_size: u32_, banner: *mut ::libc::c_void, banner_size: u32_, ) -> Result; } extern "C" { pub fn AM_GetTWLPartitionInfo(info: *mut AM_TWLPartitionInfo) -> Result; } extern "C" { pub fn AM_StartCiaInstall(mediatype: FS_MediaType, ciaHandle: *mut Handle) -> Result; } extern "C" { pub fn AM_StartDlpChildCiaInstall(ciaHandle: *mut Handle) -> Result; } extern "C" { pub fn AM_CancelCIAInstall(ciaHandle: Handle) -> Result; } extern "C" { pub fn AM_FinishCiaInstall(ciaHandle: Handle) -> Result; } extern "C" { pub fn AM_FinishCiaInstallWithoutCommit(ciaHandle: Handle) -> Result; } extern "C" { pub fn AM_CommitImportPrograms( mediaType: FS_MediaType, titleCount: u32_, temp: bool, titleIds: *const u64_, ) -> Result; } extern "C" { pub fn AM_DeleteTitle(mediatype: FS_MediaType, titleID: u64_) -> Result; } extern "C" { pub fn AM_DeleteAppTitle(mediatype: FS_MediaType, titleID: u64_) -> Result; } extern "C" { pub fn AM_DeleteTicket(ticketId: u64_) -> Result; } extern "C" { pub fn AM_DeletePendingTitle(mediatype: FS_MediaType, titleId: u64_) -> Result; } extern "C" { pub fn AM_DeletePendingTitles(mediatype: FS_MediaType, flags: u32_) -> Result; } extern "C" { pub fn AM_DeleteAllPendingTitles(mediatype: FS_MediaType) -> Result; } extern "C" { pub fn AM_InstallNativeFirm() -> Result; } extern "C" { pub fn AM_InstallFirm(titleID: u64_) -> Result; } extern "C" { pub fn AM_GetTitleProductCode( mediatype: FS_MediaType, titleId: u64_, productCode: *mut ::libc::c_char, ) -> Result; } extern "C" { pub fn AM_GetTitleExtDataId( extDataId: *mut u64_, mediatype: FS_MediaType, titleId: u64_, ) -> Result; } extern "C" { pub fn AM_GetCiaFileInfo( mediatype: FS_MediaType, titleEntry: *mut AM_TitleEntry, fileHandle: Handle, ) -> Result; } extern "C" { pub fn AM_GetCiaIcon(icon: *mut ::libc::c_void, fileHandle: Handle) -> Result; } extern "C" { pub fn AM_GetCiaDependencies(dependencies: *mut u64_, fileHandle: Handle) -> Result; } extern "C" { pub fn AM_GetCiaMetaOffset(metaOffset: *mut u64_, fileHandle: Handle) -> Result; } extern "C" { pub fn AM_GetCiaCoreVersion(coreVersion: *mut u32_, fileHandle: Handle) -> Result; } extern "C" { pub fn AM_GetCiaRequiredSpace( requiredSpace: *mut u64_, mediaType: FS_MediaType, fileHandle: Handle, ) -> Result; } extern "C" { pub fn AM_GetCiaMetaSection( meta: *mut ::libc::c_void, size: u32_, fileHandle: Handle, ) -> Result; } extern "C" { pub fn AM_InitializeExternalTitleDatabase(overwrite: bool) -> Result; } extern "C" { pub fn AM_QueryAvailableExternalTitleDatabase(available: *mut bool) -> Result; } extern "C" { pub fn AM_InstallTicketBegin(ticketHandle: *mut Handle) -> Result; } extern "C" { pub fn AM_InstallTicketAbort(ticketHandle: Handle) -> Result; } extern "C" { pub fn AM_InstallTicketFinish(ticketHandle: Handle) -> Result; } extern "C" { pub fn AM_InstallTitleBegin(mediaType: FS_MediaType, titleId: u64_, unk: bool) -> Result; } extern "C" { pub fn AM_InstallTitleStop() -> Result; } extern "C" { pub fn AM_InstallTitleResume(mediaType: FS_MediaType, titleId: u64_) -> Result; } extern "C" { pub fn AM_InstallTitleAbort() -> Result; } extern "C" { pub fn AM_InstallTitleFinish() -> Result; } extern "C" { pub fn AM_CommitImportTitles( mediaType: FS_MediaType, titleCount: u32_, temp: bool, titleIds: *const u64_, ) -> Result; } extern "C" { pub fn AM_InstallTmdBegin(tmdHandle: *mut Handle) -> Result; } extern "C" { pub fn AM_InstallTmdAbort(tmdHandle: Handle) -> Result; } extern "C" { pub fn AM_InstallTmdFinish(tmdHandle: Handle, unk: bool) -> Result; } extern "C" { pub fn AM_CreateImportContentContexts(contentCount: u32_, contentIndices: *mut u16_) -> Result; } extern "C" { pub fn AM_InstallContentBegin(contentHandle: *mut Handle, index: u16_) -> Result; } extern "C" { pub fn AM_InstallContentStop(contentHandle: Handle) -> Result; } extern "C" { pub fn AM_InstallContentResume( contentHandle: *mut Handle, resumeOffset: *mut u64_, index: u16_, ) -> Result; } extern "C" { pub fn AM_InstallContentCancel(contentHandle: Handle) -> Result; } extern "C" { pub fn AM_InstallContentFinish(contentHandle: Handle) -> Result; } extern "C" { pub fn AM_ImportCertificates( cert1Size: u32_, cert1: *mut ::libc::c_void, cert2Size: u32_, cert2: *mut ::libc::c_void, cert3Size: u32_, cert3: *mut ::libc::c_void, cert4Size: u32_, cert4: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn AM_ImportCertificate(certSize: u32_, cert: *mut ::libc::c_void) -> Result; } extern "C" { pub fn AM_CommitImportTitlesAndUpdateFirmwareAuto( mediaType: FS_MediaType, titleCount: u32_, temp: bool, titleIds: *mut u64_, ) -> Result; } extern "C" { pub fn AM_DeleteAllDemoLaunchInfos() -> Result; } extern "C" { pub fn AM_DeleteAllTemporaryTitles() -> Result; } extern "C" { pub fn AM_DeleteAllExpiredTitles(mediatype: FS_MediaType) -> Result; } extern "C" { pub fn AM_DeleteAllTwlTitles() -> Result; } extern "C" { pub fn ampxiInit(servhandle: Handle) -> Result; } extern "C" { pub fn ampxiExit(); } extern "C" { pub fn AMPXI_WriteTWLSavedata( titleid: u64_, buffer: *mut u8_, size: u32_, image_filepos: u32_, section_type: u8_, operation: u8_, ) -> Result; } extern "C" { pub fn AMPXI_InstallTitlesFinish( mediaType: FS_MediaType, db: u8_, titlecount: u32_, tidlist: *mut u64_, ) -> Result; } pub const APPID_NONE: NS_APPID = 0; pub const APPID_HOMEMENU: NS_APPID = 257; pub const APPID_CAMERA: NS_APPID = 272; pub const APPID_FRIENDS_LIST: NS_APPID = 274; pub const APPID_GAME_NOTES: NS_APPID = 275; pub const APPID_WEB: NS_APPID = 276; pub const APPID_INSTRUCTION_MANUAL: NS_APPID = 277; pub const APPID_NOTIFICATIONS: NS_APPID = 278; pub const APPID_MIIVERSE: NS_APPID = 279; pub const APPID_MIIVERSE_POSTING: NS_APPID = 280; pub const APPID_AMIIBO_SETTINGS: NS_APPID = 281; pub const APPID_APPLICATION: NS_APPID = 768; pub const APPID_ESHOP: NS_APPID = 769; pub const APPID_SOFTWARE_KEYBOARD: NS_APPID = 1025; pub const APPID_APPLETED: NS_APPID = 1026; pub const APPID_PNOTE_AP: NS_APPID = 1028; pub const APPID_SNOTE_AP: NS_APPID = 1029; pub const APPID_ERROR: NS_APPID = 1030; pub const APPID_MINT: NS_APPID = 1031; pub const APPID_EXTRAPAD: NS_APPID = 1032; pub const APPID_MEMOLIB: NS_APPID = 1033; pub type NS_APPID = ::libc::c_uint; pub const APTPOS_NONE: APT_AppletPos = -1; pub const APTPOS_APP: APT_AppletPos = 0; pub const APTPOS_APPLIB: APT_AppletPos = 1; pub const APTPOS_SYS: APT_AppletPos = 2; pub const APTPOS_SYSLIB: APT_AppletPos = 3; pub const APTPOS_RESIDENT: APT_AppletPos = 4; pub type APT_AppletPos = ::libc::c_int; pub type APT_AppletAttr = u8_; pub const APTREPLY_REJECT: APT_QueryReply = 0; pub const APTREPLY_ACCEPT: APT_QueryReply = 1; pub const APTREPLY_LATER: APT_QueryReply = 2; pub type APT_QueryReply = ::libc::c_uint; pub const APTSIGNAL_NONE: APT_Signal = 0; pub const APTSIGNAL_HOMEBUTTON: APT_Signal = 1; pub const APTSIGNAL_HOMEBUTTON2: APT_Signal = 2; pub const APTSIGNAL_SLEEP_QUERY: APT_Signal = 3; pub const APTSIGNAL_SLEEP_CANCEL: APT_Signal = 4; pub const APTSIGNAL_SLEEP_ENTER: APT_Signal = 5; pub const APTSIGNAL_SLEEP_WAKEUP: APT_Signal = 6; pub const APTSIGNAL_SHUTDOWN: APT_Signal = 7; pub const APTSIGNAL_POWERBUTTON: APT_Signal = 8; pub const APTSIGNAL_POWERBUTTON2: APT_Signal = 9; pub const APTSIGNAL_TRY_SLEEP: APT_Signal = 10; pub const APTSIGNAL_ORDERTOCLOSE: APT_Signal = 11; pub type APT_Signal = ::libc::c_uint; pub const APTCMD_NONE: APT_Command = 0; pub const APTCMD_WAKEUP: APT_Command = 1; pub const APTCMD_REQUEST: APT_Command = 2; pub const APTCMD_RESPONSE: APT_Command = 3; pub const APTCMD_EXIT: APT_Command = 4; pub const APTCMD_MESSAGE: APT_Command = 5; pub const APTCMD_HOMEBUTTON_ONCE: APT_Command = 6; pub const APTCMD_HOMEBUTTON_TWICE: APT_Command = 7; pub const APTCMD_DSP_SLEEP: APT_Command = 8; pub const APTCMD_DSP_WAKEUP: APT_Command = 9; pub const APTCMD_WAKEUP_EXIT: APT_Command = 10; pub const APTCMD_WAKEUP_PAUSE: APT_Command = 11; pub const APTCMD_WAKEUP_CANCEL: APT_Command = 12; pub const APTCMD_WAKEUP_CANCELALL: APT_Command = 13; pub const APTCMD_WAKEUP_POWERBUTTON: APT_Command = 14; pub const APTCMD_WAKEUP_JUMPTOHOME: APT_Command = 15; pub const APTCMD_SYSAPPLET_REQUEST: APT_Command = 16; pub const APTCMD_WAKEUP_LAUNCHAPP: APT_Command = 17; pub type APT_Command = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct aptCaptureBufInfo { pub size: u32_, pub is3D: u32_, pub top: aptCaptureBufInfo__bindgen_ty_1, pub bottom: aptCaptureBufInfo__bindgen_ty_1, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct aptCaptureBufInfo__bindgen_ty_1 { pub leftOffset: u32_, pub rightOffset: u32_, pub format: u32_, } pub const APTHOOK_ONSUSPEND: APT_HookType = 0; pub const APTHOOK_ONRESTORE: APT_HookType = 1; pub const APTHOOK_ONSLEEP: APT_HookType = 2; pub const APTHOOK_ONWAKEUP: APT_HookType = 3; pub const APTHOOK_ONEXIT: APT_HookType = 4; pub const APTHOOK_COUNT: APT_HookType = 5; pub type APT_HookType = ::libc::c_uint; pub type aptHookFn = ::core::option::Option; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct tag_aptHookCookie { pub next: *mut tag_aptHookCookie, pub callback: aptHookFn, pub param: *mut ::libc::c_void, } impl Default for tag_aptHookCookie { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type aptHookCookie = tag_aptHookCookie; pub type aptMessageCb = ::core::option::Option< unsafe extern "C" fn( user: *mut ::libc::c_void, sender: NS_APPID, msg: *mut ::libc::c_void, msgsize: size_t, ), >; extern "C" { pub fn aptInit() -> Result; } extern "C" { pub fn aptExit(); } extern "C" { pub fn aptSendCommand(aptcmdbuf: *mut u32_) -> Result; } extern "C" { pub fn aptIsActive() -> bool; } extern "C" { pub fn aptShouldClose() -> bool; } extern "C" { pub fn aptIsSleepAllowed() -> bool; } extern "C" { pub fn aptSetSleepAllowed(allowed: bool); } extern "C" { pub fn aptHandleSleep(); } extern "C" { pub fn aptIsHomeAllowed() -> bool; } extern "C" { pub fn aptSetHomeAllowed(allowed: bool); } extern "C" { pub fn aptShouldJumpToHome() -> bool; } extern "C" { pub fn aptCheckHomePressRejected() -> bool; } extern "C" { pub fn aptJumpToHomeMenu(); } extern "C" { pub fn aptMainLoop() -> bool; } extern "C" { pub fn aptHook(cookie: *mut aptHookCookie, callback: aptHookFn, param: *mut ::libc::c_void); } extern "C" { pub fn aptUnhook(cookie: *mut aptHookCookie); } extern "C" { pub fn aptSetMessageCallback(callback: aptMessageCb, user: *mut ::libc::c_void); } extern "C" { pub fn aptLaunchLibraryApplet( appId: NS_APPID, buf: *mut ::libc::c_void, bufsize: size_t, handle: Handle, ); } extern "C" { pub fn aptClearChainloader(); } extern "C" { pub fn aptSetChainloader(programID: u64_, mediatype: u8_); } extern "C" { pub fn aptSetChainloaderToSelf(); } extern "C" { pub fn APT_GetLockHandle(flags: u16_, lockHandle: *mut Handle) -> Result; } extern "C" { pub fn APT_Initialize( appId: NS_APPID, attr: APT_AppletAttr, signalEvent: *mut Handle, resumeEvent: *mut Handle, ) -> Result; } extern "C" { pub fn APT_Finalize(appId: NS_APPID) -> Result; } extern "C" { pub fn APT_HardwareResetAsync() -> Result; } extern "C" { pub fn APT_Enable(attr: APT_AppletAttr) -> Result; } extern "C" { pub fn APT_GetAppletManInfo( inpos: APT_AppletPos, outpos: *mut APT_AppletPos, req_appid: *mut NS_APPID, menu_appid: *mut NS_APPID, active_appid: *mut NS_APPID, ) -> Result; } extern "C" { pub fn APT_GetAppletInfo( appID: NS_APPID, pProgramID: *mut u64_, pMediaType: *mut u8_, pRegistered: *mut bool, pLoadState: *mut bool, pAttributes: *mut APT_AppletAttr, ) -> Result; } extern "C" { pub fn APT_GetAppletProgramInfo(id: u32_, flags: u32_, titleversion: *mut u16_) -> Result; } extern "C" { pub fn APT_GetProgramID(pProgramID: *mut u64_) -> Result; } extern "C" { pub fn APT_PrepareToJumpToHomeMenu() -> Result; } extern "C" { pub fn APT_JumpToHomeMenu( param: *const ::libc::c_void, paramSize: size_t, handle: Handle, ) -> Result; } extern "C" { pub fn APT_PrepareToJumpToApplication(exiting: bool) -> Result; } extern "C" { pub fn APT_JumpToApplication( param: *const ::libc::c_void, paramSize: size_t, handle: Handle, ) -> Result; } extern "C" { pub fn APT_IsRegistered(appID: NS_APPID, out: *mut bool) -> Result; } extern "C" { pub fn APT_InquireNotification(appID: u32_, signalType: *mut APT_Signal) -> Result; } extern "C" { pub fn APT_SleepSystem(wakeEvents: *const PtmWakeEvents) -> Result; } extern "C" { pub fn APT_NotifyToWait(appID: NS_APPID) -> Result; } extern "C" { pub fn APT_AppletUtility( id: ::libc::c_int, out: *mut ::libc::c_void, outSize: size_t, in_: *const ::libc::c_void, inSize: size_t, ) -> Result; } extern "C" { pub fn APT_SleepIfShellClosed() -> Result; } extern "C" { pub fn APT_LockTransition(transition: u32_, flag: bool) -> Result; } extern "C" { pub fn APT_TryLockTransition(transition: u32_, succeeded: *mut bool) -> Result; } extern "C" { pub fn APT_UnlockTransition(transition: u32_) -> Result; } extern "C" { pub fn APT_GlanceParameter( appID: NS_APPID, buffer: *mut ::libc::c_void, bufferSize: size_t, sender: *mut NS_APPID, command: *mut APT_Command, actualSize: *mut size_t, parameter: *mut Handle, ) -> Result; } extern "C" { pub fn APT_ReceiveParameter( appID: NS_APPID, buffer: *mut ::libc::c_void, bufferSize: size_t, sender: *mut NS_APPID, command: *mut APT_Command, actualSize: *mut size_t, parameter: *mut Handle, ) -> Result; } extern "C" { pub fn APT_SendParameter( source: NS_APPID, dest: NS_APPID, command: APT_Command, buffer: *const ::libc::c_void, bufferSize: u32_, parameter: Handle, ) -> Result; } extern "C" { pub fn APT_CancelParameter(source: NS_APPID, dest: NS_APPID, success: *mut bool) -> Result; } extern "C" { pub fn APT_SendCaptureBufferInfo(captureBuf: *const aptCaptureBufInfo) -> Result; } extern "C" { pub fn APT_ReplySleepQuery(appID: NS_APPID, reply: APT_QueryReply) -> Result; } extern "C" { pub fn APT_ReplySleepNotificationComplete(appID: NS_APPID) -> Result; } extern "C" { pub fn APT_PrepareToCloseApplication(cancelPreload: bool) -> Result; } extern "C" { pub fn APT_CloseApplication( param: *const ::libc::c_void, paramSize: size_t, handle: Handle, ) -> Result; } extern "C" { pub fn APT_SetAppCpuTimeLimit(percent: u32_) -> Result; } extern "C" { pub fn APT_GetAppCpuTimeLimit(percent: *mut u32_) -> Result; } extern "C" { pub fn APT_CheckNew3DS(out: *mut bool) -> Result; } extern "C" { pub fn APT_PrepareToDoApplicationJump(flags: u8_, programID: u64_, mediatype: u8_) -> Result; } extern "C" { pub fn APT_DoApplicationJump( param: *const ::libc::c_void, paramSize: size_t, hmac: *const ::libc::c_void, ) -> Result; } extern "C" { pub fn APT_PrepareToStartLibraryApplet(appID: NS_APPID) -> Result; } extern "C" { pub fn APT_StartLibraryApplet( appID: NS_APPID, param: *const ::libc::c_void, paramSize: size_t, handle: Handle, ) -> Result; } extern "C" { pub fn APT_PrepareToStartSystemApplet(appID: NS_APPID) -> Result; } extern "C" { pub fn APT_StartSystemApplet( appID: NS_APPID, param: *const ::libc::c_void, paramSize: size_t, handle: Handle, ) -> Result; } extern "C" { pub fn APT_GetSharedFont(fontHandle: *mut Handle, mapAddr: *mut u32_) -> Result; } extern "C" { pub fn APT_ReceiveDeliverArg( param: *const ::libc::c_void, paramSize: size_t, hmac: *const ::libc::c_void, sender: *mut u64_, received: *mut bool, ) -> Result; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct bossContext { pub property: [u32_; 7usize], pub url: [::libc::c_char; 512usize], pub property_x8: u32_, pub property_x9: u8_, pub property_xa: [u8_; 256usize], pub property_xb: [u8_; 512usize], pub property_xd: [::libc::c_char; 864usize], pub property_xe: u32_, pub property_xf: [u32_; 3usize], pub property_x10: u8_, pub property_x11: u8_, pub property_x12: u8_, pub property_x13: u32_, pub property_x14: u32_, pub property_x15: [u8_; 64usize], pub property_x16: u32_, pub property_x3b: u32_, pub property_x3e: [u8_; 512usize], } impl Default for bossContext { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const BOSSTASKSTATUS_STARTED: bossTaskStatus = 2; pub const BOSSTASKSTATUS_ERROR: bossTaskStatus = 7; pub type bossTaskStatus = ::libc::c_uint; pub const bossNsDataHeaderInfoType_ContentSize: bossNsDataHeaderInfoTypes = 3; pub type bossNsDataHeaderInfoTypes = ::libc::c_uint; pub const bossNsDataHeaderInfoTypeSize_ContentSize: bossNsDataHeaderInfoTypeSizes = 4; pub type bossNsDataHeaderInfoTypeSizes = ::libc::c_uint; extern "C" { pub fn bossInit(programID: u64_, force_user: bool) -> Result; } extern "C" { pub fn bossReinit(programID: u64_) -> Result; } extern "C" { pub fn bossExit(); } extern "C" { pub fn bossGetSessionHandle() -> Handle; } extern "C" { pub fn bossSetStorageInfo(extdataID: u64_, boss_size: u32_, mediaType: u8_) -> Result; } extern "C" { pub fn bossUnregisterStorage() -> Result; } extern "C" { pub fn bossRegisterTask(taskID: *const ::libc::c_char, unk0: u8_, unk1: u8_) -> Result; } extern "C" { pub fn bossSendProperty(PropertyID: u16_, buf: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn bossDeleteNsData(NsDataId: u32_) -> Result; } extern "C" { pub fn bossGetNsDataHeaderInfo( NsDataId: u32_, type_: u8_, buffer: *mut ::libc::c_void, size: u32_, ) -> Result; } extern "C" { pub fn bossReadNsData( NsDataId: u32_, offset: u64_, buffer: *mut ::libc::c_void, size: u32_, transfer_total: *mut u32_, unk_out: *mut u32_, ) -> Result; } extern "C" { pub fn bossStartTaskImmediate(taskID: *const ::libc::c_char) -> Result; } extern "C" { pub fn bossStartBgImmediate(taskID: *const ::libc::c_char) -> Result; } extern "C" { pub fn bossDeleteTask(taskID: *const ::libc::c_char, unk: u32_) -> Result; } extern "C" { pub fn bossGetTaskState( taskID: *const ::libc::c_char, inval: s8, status: *mut u8_, out1: *mut u32_, out2: *mut u8_, ) -> Result; } extern "C" { pub fn bossGetTaskProperty0(taskID: *const ::libc::c_char, out: *mut u8_) -> Result; } extern "C" { pub fn bossSetupContextDefault( ctx: *mut bossContext, seconds_interval: u32_, url: *const ::libc::c_char, ); } extern "C" { pub fn bossSendContextConfig(ctx: *mut bossContext) -> Result; } pub const INPUT_YUV422_INDIV_8: Y2RU_InputFormat = 0; pub const INPUT_YUV420_INDIV_8: Y2RU_InputFormat = 1; pub const INPUT_YUV422_INDIV_16: Y2RU_InputFormat = 2; pub const INPUT_YUV420_INDIV_16: Y2RU_InputFormat = 3; pub const INPUT_YUV422_BATCH: Y2RU_InputFormat = 4; pub type Y2RU_InputFormat = ::libc::c_uint; pub const OUTPUT_RGB_32: Y2RU_OutputFormat = 0; pub const OUTPUT_RGB_24: Y2RU_OutputFormat = 1; pub const OUTPUT_RGB_16_555: Y2RU_OutputFormat = 2; pub const OUTPUT_RGB_16_565: Y2RU_OutputFormat = 3; pub type Y2RU_OutputFormat = ::libc::c_uint; pub const ROTATION_NONE: Y2RU_Rotation = 0; pub const ROTATION_CLOCKWISE_90: Y2RU_Rotation = 1; pub const ROTATION_CLOCKWISE_180: Y2RU_Rotation = 2; pub const ROTATION_CLOCKWISE_270: Y2RU_Rotation = 3; pub type Y2RU_Rotation = ::libc::c_uint; pub const BLOCK_LINE: Y2RU_BlockAlignment = 0; pub const BLOCK_8_BY_8: Y2RU_BlockAlignment = 1; pub type Y2RU_BlockAlignment = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct Y2RU_ColorCoefficients { pub rgb_Y: u16_, pub r_V: u16_, pub g_V: u16_, pub g_U: u16_, pub b_U: u16_, pub r_offset: u16_, pub g_offset: u16_, pub b_offset: u16_, } pub const COEFFICIENT_ITU_R_BT_601: Y2RU_StandardCoefficient = 0; pub const COEFFICIENT_ITU_R_BT_709: Y2RU_StandardCoefficient = 1; pub const COEFFICIENT_ITU_R_BT_601_SCALING: Y2RU_StandardCoefficient = 2; pub const COEFFICIENT_ITU_R_BT_709_SCALING: Y2RU_StandardCoefficient = 3; pub type Y2RU_StandardCoefficient = ::libc::c_uint; #[repr(C)] #[repr(align(4))] #[derive(Debug, Copy, Clone)] pub struct Y2RU_ConversionParams { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 4usize]>, pub input_line_width: s16, pub input_lines: s16, pub _bitfield_align_2: [u8; 0], pub _bitfield_2: __BindgenBitfieldUnit<[u8; 1usize]>, pub unused: u8_, pub alpha: u16_, } impl Default for Y2RU_ConversionParams { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Y2RU_ConversionParams { #[inline] pub fn input_format(&self) -> Y2RU_InputFormat { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 8u8) as u32) } } #[inline] pub fn set_input_format(&mut self, val: Y2RU_InputFormat) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 8u8, val as u64) } } #[inline] pub fn output_format(&self) -> Y2RU_OutputFormat { unsafe { ::core::mem::transmute(self._bitfield_1.get(8usize, 8u8) as u32) } } #[inline] pub fn set_output_format(&mut self, val: Y2RU_OutputFormat) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(8usize, 8u8, val as u64) } } #[inline] pub fn rotation(&self) -> Y2RU_Rotation { unsafe { ::core::mem::transmute(self._bitfield_1.get(16usize, 8u8) as u32) } } #[inline] pub fn set_rotation(&mut self, val: Y2RU_Rotation) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(16usize, 8u8, val as u64) } } #[inline] pub fn block_alignment(&self) -> Y2RU_BlockAlignment { unsafe { ::core::mem::transmute(self._bitfield_1.get(24usize, 8u8) as u32) } } #[inline] pub fn set_block_alignment(&mut self, val: Y2RU_BlockAlignment) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(24usize, 8u8, val as u64) } } #[inline] pub fn new_bitfield_1( input_format: Y2RU_InputFormat, output_format: Y2RU_OutputFormat, rotation: Y2RU_Rotation, block_alignment: Y2RU_BlockAlignment, ) -> __BindgenBitfieldUnit<[u8; 4usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 4usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 8u8, { let input_format: u32 = unsafe { ::core::mem::transmute(input_format) }; input_format as u64 }); __bindgen_bitfield_unit.set(8usize, 8u8, { let output_format: u32 = unsafe { ::core::mem::transmute(output_format) }; output_format as u64 }); __bindgen_bitfield_unit.set(16usize, 8u8, { let rotation: u32 = unsafe { ::core::mem::transmute(rotation) }; rotation as u64 }); __bindgen_bitfield_unit.set(24usize, 8u8, { let block_alignment: u32 = unsafe { ::core::mem::transmute(block_alignment) }; block_alignment as u64 }); __bindgen_bitfield_unit } #[inline] pub fn standard_coefficient(&self) -> Y2RU_StandardCoefficient { unsafe { ::core::mem::transmute(self._bitfield_2.get(0usize, 8u8) as u32) } } #[inline] pub fn set_standard_coefficient(&mut self, val: Y2RU_StandardCoefficient) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_2.set(0usize, 8u8, val as u64) } } #[inline] pub fn new_bitfield_2( standard_coefficient: Y2RU_StandardCoefficient, ) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 8u8, { let standard_coefficient: u32 = unsafe { ::core::mem::transmute(standard_coefficient) }; standard_coefficient as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct Y2RU_DitheringWeightParams { pub w0_xEven_yEven: u16_, pub w0_xOdd_yEven: u16_, pub w0_xEven_yOdd: u16_, pub w0_xOdd_yOdd: u16_, pub w1_xEven_yEven: u16_, pub w1_xOdd_yEven: u16_, pub w1_xEven_yOdd: u16_, pub w1_xOdd_yOdd: u16_, pub w2_xEven_yEven: u16_, pub w2_xOdd_yEven: u16_, pub w2_xEven_yOdd: u16_, pub w2_xOdd_yOdd: u16_, pub w3_xEven_yEven: u16_, pub w3_xOdd_yEven: u16_, pub w3_xEven_yOdd: u16_, pub w3_xOdd_yOdd: u16_, } extern "C" { pub fn y2rInit() -> Result; } extern "C" { pub fn y2rExit(); } extern "C" { pub fn Y2RU_SetInputFormat(format: Y2RU_InputFormat) -> Result; } extern "C" { pub fn Y2RU_GetInputFormat(format: *mut Y2RU_InputFormat) -> Result; } extern "C" { pub fn Y2RU_SetOutputFormat(format: Y2RU_OutputFormat) -> Result; } extern "C" { pub fn Y2RU_GetOutputFormat(format: *mut Y2RU_OutputFormat) -> Result; } extern "C" { pub fn Y2RU_SetRotation(rotation: Y2RU_Rotation) -> Result; } extern "C" { pub fn Y2RU_GetRotation(rotation: *mut Y2RU_Rotation) -> Result; } extern "C" { pub fn Y2RU_SetBlockAlignment(alignment: Y2RU_BlockAlignment) -> Result; } extern "C" { pub fn Y2RU_GetBlockAlignment(alignment: *mut Y2RU_BlockAlignment) -> Result; } extern "C" { pub fn Y2RU_SetSpacialDithering(enable: bool) -> Result; } extern "C" { pub fn Y2RU_GetSpacialDithering(enabled: *mut bool) -> Result; } extern "C" { pub fn Y2RU_SetTemporalDithering(enable: bool) -> Result; } extern "C" { pub fn Y2RU_GetTemporalDithering(enabled: *mut bool) -> Result; } extern "C" { pub fn Y2RU_SetInputLineWidth(line_width: u16_) -> Result; } extern "C" { pub fn Y2RU_GetInputLineWidth(line_width: *mut u16_) -> Result; } extern "C" { pub fn Y2RU_SetInputLines(num_lines: u16_) -> Result; } extern "C" { pub fn Y2RU_GetInputLines(num_lines: *mut u16_) -> Result; } extern "C" { pub fn Y2RU_SetCoefficients(coefficients: *const Y2RU_ColorCoefficients) -> Result; } extern "C" { pub fn Y2RU_GetCoefficients(coefficients: *mut Y2RU_ColorCoefficients) -> Result; } extern "C" { pub fn Y2RU_SetStandardCoefficient(coefficient: Y2RU_StandardCoefficient) -> Result; } extern "C" { pub fn Y2RU_GetStandardCoefficient( coefficients: *mut Y2RU_ColorCoefficients, standardCoeff: Y2RU_StandardCoefficient, ) -> Result; } extern "C" { pub fn Y2RU_SetAlpha(alpha: u16_) -> Result; } extern "C" { pub fn Y2RU_GetAlpha(alpha: *mut u16_) -> Result; } extern "C" { pub fn Y2RU_SetTransferEndInterrupt(should_interrupt: bool) -> Result; } extern "C" { pub fn Y2RU_GetTransferEndInterrupt(should_interrupt: *mut bool) -> Result; } extern "C" { pub fn Y2RU_GetTransferEndEvent(end_event: *mut Handle) -> Result; } extern "C" { pub fn Y2RU_SetSendingY( src_buf: *const ::libc::c_void, image_size: u32_, transfer_unit: s16, transfer_gap: s16, ) -> Result; } extern "C" { pub fn Y2RU_SetSendingU( src_buf: *const ::libc::c_void, image_size: u32_, transfer_unit: s16, transfer_gap: s16, ) -> Result; } extern "C" { pub fn Y2RU_SetSendingV( src_buf: *const ::libc::c_void, image_size: u32_, transfer_unit: s16, transfer_gap: s16, ) -> Result; } extern "C" { pub fn Y2RU_SetSendingYUYV( src_buf: *const ::libc::c_void, image_size: u32_, transfer_unit: s16, transfer_gap: s16, ) -> Result; } extern "C" { pub fn Y2RU_SetReceiving( dst_buf: *mut ::libc::c_void, image_size: u32_, transfer_unit: s16, transfer_gap: s16, ) -> Result; } extern "C" { pub fn Y2RU_IsDoneSendingY(is_done: *mut bool) -> Result; } extern "C" { pub fn Y2RU_IsDoneSendingU(is_done: *mut bool) -> Result; } extern "C" { pub fn Y2RU_IsDoneSendingV(is_done: *mut bool) -> Result; } extern "C" { pub fn Y2RU_IsDoneSendingYUYV(is_done: *mut bool) -> Result; } extern "C" { pub fn Y2RU_IsDoneReceiving(is_done: *mut bool) -> Result; } extern "C" { pub fn Y2RU_SetDitheringWeightParams(params: *const Y2RU_DitheringWeightParams) -> Result; } extern "C" { pub fn Y2RU_GetDitheringWeightParams(params: *mut Y2RU_DitheringWeightParams) -> Result; } extern "C" { pub fn Y2RU_SetConversionParams(params: *const Y2RU_ConversionParams) -> Result; } extern "C" { pub fn Y2RU_StartConversion() -> Result; } extern "C" { pub fn Y2RU_StopConversion() -> Result; } extern "C" { pub fn Y2RU_IsBusyConversion(is_busy: *mut bool) -> Result; } extern "C" { pub fn Y2RU_PingProcess(ping: *mut u8_) -> Result; } extern "C" { pub fn Y2RU_DriverInitialize() -> Result; } extern "C" { pub fn Y2RU_DriverFinalize() -> Result; } pub const PORT_NONE: ::libc::c_uint = 0; pub const PORT_CAM1: ::libc::c_uint = 1; pub const PORT_CAM2: ::libc::c_uint = 2; pub const PORT_BOTH: ::libc::c_uint = 3; pub type _bindgen_ty_15 = ::libc::c_uint; pub const SELECT_NONE: ::libc::c_uint = 0; pub const SELECT_OUT1: ::libc::c_uint = 1; pub const SELECT_IN1: ::libc::c_uint = 2; pub const SELECT_OUT2: ::libc::c_uint = 4; pub const SELECT_IN1_OUT1: ::libc::c_uint = 3; pub const SELECT_OUT1_OUT2: ::libc::c_uint = 5; pub const SELECT_IN1_OUT2: ::libc::c_uint = 6; pub const SELECT_ALL: ::libc::c_uint = 7; pub type _bindgen_ty_16 = ::libc::c_uint; pub const CONTEXT_NONE: CAMU_Context = 0; pub const CONTEXT_A: CAMU_Context = 1; pub const CONTEXT_B: CAMU_Context = 2; pub const CONTEXT_BOTH: CAMU_Context = 3; pub type CAMU_Context = ::libc::c_uint; pub const FLIP_NONE: CAMU_Flip = 0; pub const FLIP_HORIZONTAL: CAMU_Flip = 1; pub const FLIP_VERTICAL: CAMU_Flip = 2; pub const FLIP_REVERSE: CAMU_Flip = 3; pub type CAMU_Flip = ::libc::c_uint; pub const SIZE_VGA: CAMU_Size = 0; pub const SIZE_QVGA: CAMU_Size = 1; pub const SIZE_QQVGA: CAMU_Size = 2; pub const SIZE_CIF: CAMU_Size = 3; pub const SIZE_QCIF: CAMU_Size = 4; pub const SIZE_DS_LCD: CAMU_Size = 5; pub const SIZE_DS_LCDx4: CAMU_Size = 6; pub const SIZE_CTR_TOP_LCD: CAMU_Size = 7; pub const SIZE_CTR_BOTTOM_LCD: CAMU_Size = 1; pub type CAMU_Size = ::libc::c_uint; pub const FRAME_RATE_15: CAMU_FrameRate = 0; pub const FRAME_RATE_15_TO_5: CAMU_FrameRate = 1; pub const FRAME_RATE_15_TO_2: CAMU_FrameRate = 2; pub const FRAME_RATE_10: CAMU_FrameRate = 3; pub const FRAME_RATE_8_5: CAMU_FrameRate = 4; pub const FRAME_RATE_5: CAMU_FrameRate = 5; pub const FRAME_RATE_20: CAMU_FrameRate = 6; pub const FRAME_RATE_20_TO_5: CAMU_FrameRate = 7; pub const FRAME_RATE_30: CAMU_FrameRate = 8; pub const FRAME_RATE_30_TO_5: CAMU_FrameRate = 9; pub const FRAME_RATE_15_TO_10: CAMU_FrameRate = 10; pub const FRAME_RATE_20_TO_10: CAMU_FrameRate = 11; pub const FRAME_RATE_30_TO_10: CAMU_FrameRate = 12; pub type CAMU_FrameRate = ::libc::c_uint; pub const WHITE_BALANCE_AUTO: CAMU_WhiteBalance = 0; pub const WHITE_BALANCE_3200K: CAMU_WhiteBalance = 1; pub const WHITE_BALANCE_4150K: CAMU_WhiteBalance = 2; pub const WHITE_BALANCE_5200K: CAMU_WhiteBalance = 3; pub const WHITE_BALANCE_6000K: CAMU_WhiteBalance = 4; pub const WHITE_BALANCE_7000K: CAMU_WhiteBalance = 5; pub const WHITE_BALANCE_NORMAL: CAMU_WhiteBalance = 0; pub const WHITE_BALANCE_TUNGSTEN: CAMU_WhiteBalance = 1; pub const WHITE_BALANCE_WHITE_FLUORESCENT_LIGHT: CAMU_WhiteBalance = 2; pub const WHITE_BALANCE_DAYLIGHT: CAMU_WhiteBalance = 3; pub const WHITE_BALANCE_CLOUDY: CAMU_WhiteBalance = 4; pub const WHITE_BALANCE_HORIZON: CAMU_WhiteBalance = 4; pub const WHITE_BALANCE_SHADE: CAMU_WhiteBalance = 5; pub type CAMU_WhiteBalance = ::libc::c_uint; pub const PHOTO_MODE_NORMAL: CAMU_PhotoMode = 0; pub const PHOTO_MODE_PORTRAIT: CAMU_PhotoMode = 1; pub const PHOTO_MODE_LANDSCAPE: CAMU_PhotoMode = 2; pub const PHOTO_MODE_NIGHTVIEW: CAMU_PhotoMode = 3; pub const PHOTO_MODE_LETTER: CAMU_PhotoMode = 4; pub type CAMU_PhotoMode = ::libc::c_uint; pub const EFFECT_NONE: CAMU_Effect = 0; pub const EFFECT_MONO: CAMU_Effect = 1; pub const EFFECT_SEPIA: CAMU_Effect = 2; pub const EFFECT_NEGATIVE: CAMU_Effect = 3; pub const EFFECT_NEGAFILM: CAMU_Effect = 4; pub const EFFECT_SEPIA01: CAMU_Effect = 5; pub type CAMU_Effect = ::libc::c_uint; pub const CONTRAST_PATTERN_01: CAMU_Contrast = 0; pub const CONTRAST_PATTERN_02: CAMU_Contrast = 1; pub const CONTRAST_PATTERN_03: CAMU_Contrast = 2; pub const CONTRAST_PATTERN_04: CAMU_Contrast = 3; pub const CONTRAST_PATTERN_05: CAMU_Contrast = 4; pub const CONTRAST_PATTERN_06: CAMU_Contrast = 5; pub const CONTRAST_PATTERN_07: CAMU_Contrast = 6; pub const CONTRAST_PATTERN_08: CAMU_Contrast = 7; pub const CONTRAST_PATTERN_09: CAMU_Contrast = 8; pub const CONTRAST_PATTERN_10: CAMU_Contrast = 9; pub const CONTRAST_PATTERN_11: CAMU_Contrast = 10; pub const CONTRAST_LOW: CAMU_Contrast = 4; pub const CONTRAST_NORMAL: CAMU_Contrast = 5; pub const CONTRAST_HIGH: CAMU_Contrast = 6; pub type CAMU_Contrast = ::libc::c_uint; pub const LENS_CORRECTION_OFF: CAMU_LensCorrection = 0; pub const LENS_CORRECTION_ON_70: CAMU_LensCorrection = 1; pub const LENS_CORRECTION_ON_90: CAMU_LensCorrection = 2; pub const LENS_CORRECTION_DARK: CAMU_LensCorrection = 0; pub const LENS_CORRECTION_NORMAL: CAMU_LensCorrection = 1; pub const LENS_CORRECTION_BRIGHT: CAMU_LensCorrection = 2; pub type CAMU_LensCorrection = ::libc::c_uint; pub const OUTPUT_YUV_422: CAMU_OutputFormat = 0; pub const OUTPUT_RGB_565: CAMU_OutputFormat = 1; pub type CAMU_OutputFormat = ::libc::c_uint; pub const SHUTTER_SOUND_TYPE_NORMAL: CAMU_ShutterSoundType = 0; pub const SHUTTER_SOUND_TYPE_MOVIE: CAMU_ShutterSoundType = 1; pub const SHUTTER_SOUND_TYPE_MOVIE_END: CAMU_ShutterSoundType = 2; pub type CAMU_ShutterSoundType = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CAMU_ImageQualityCalibrationData { pub aeBaseTarget: s16, pub kRL: s16, pub kGL: s16, pub kBL: s16, pub ccmPosition: s16, pub awbCcmL9Right: u16_, pub awbCcmL9Left: u16_, pub awbCcmL10Right: u16_, pub awbCcmL10Left: u16_, pub awbX0Right: u16_, pub awbX0Left: u16_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CAMU_StereoCameraCalibrationData { pub isValidRotationXY: u8_, pub padding: [u8_; 3usize], pub scale: f32, pub rotationZ: f32, pub translationX: f32, pub translationY: f32, pub rotationX: f32, pub rotationY: f32, pub angleOfViewRight: f32, pub angleOfViewLeft: f32, pub distanceToChart: f32, pub distanceCameras: f32, pub imageWidth: s16, pub imageHeight: s16, pub reserved: [u8_; 16usize], } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CAMU_PackageParameterCameraSelect { pub camera: u8_, pub exposure: s8, pub whiteBalance: u8_, pub sharpness: s8, pub autoExposureOn: u8_, pub autoWhiteBalanceOn: u8_, pub frameRate: u8_, pub photoMode: u8_, pub contrast: u8_, pub lensCorrection: u8_, pub noiseFilterOn: u8_, pub padding: u8_, pub autoExposureWindowX: s16, pub autoExposureWindowY: s16, pub autoExposureWindowWidth: s16, pub autoExposureWindowHeight: s16, pub autoWhiteBalanceWindowX: s16, pub autoWhiteBalanceWindowY: s16, pub autoWhiteBalanceWindowWidth: s16, pub autoWhiteBalanceWindowHeight: s16, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CAMU_PackageParameterContext { pub camera: u8_, pub context: u8_, pub flip: u8_, pub effect: u8_, pub size: u8_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CAMU_PackageParameterContextDetail { pub camera: u8_, pub context: u8_, pub flip: u8_, pub effect: u8_, pub width: s16, pub height: s16, pub cropX0: s16, pub cropY0: s16, pub cropX1: s16, pub cropY1: s16, } extern "C" { pub fn camInit() -> Result; } extern "C" { pub fn camExit(); } extern "C" { pub fn CAMU_StartCapture(port: u32_) -> Result; } extern "C" { pub fn CAMU_StopCapture(port: u32_) -> Result; } extern "C" { pub fn CAMU_IsBusy(busy: *mut bool, port: u32_) -> Result; } extern "C" { pub fn CAMU_ClearBuffer(port: u32_) -> Result; } extern "C" { pub fn CAMU_GetVsyncInterruptEvent(event: *mut Handle, port: u32_) -> Result; } extern "C" { pub fn CAMU_GetBufferErrorInterruptEvent(event: *mut Handle, port: u32_) -> Result; } extern "C" { pub fn CAMU_SetReceiving( event: *mut Handle, dst: *mut ::libc::c_void, port: u32_, imageSize: u32_, transferUnit: s16, ) -> Result; } extern "C" { pub fn CAMU_IsFinishedReceiving(finishedReceiving: *mut bool, port: u32_) -> Result; } extern "C" { pub fn CAMU_SetTransferLines(port: u32_, lines: s16, width: s16, height: s16) -> Result; } extern "C" { pub fn CAMU_GetMaxLines(maxLines: *mut s16, width: s16, height: s16) -> Result; } extern "C" { pub fn CAMU_SetTransferBytes(port: u32_, bytes: u32_, width: s16, height: s16) -> Result; } extern "C" { pub fn CAMU_GetTransferBytes(transferBytes: *mut u32_, port: u32_) -> Result; } extern "C" { pub fn CAMU_GetMaxBytes(maxBytes: *mut u32_, width: s16, height: s16) -> Result; } extern "C" { pub fn CAMU_SetTrimming(port: u32_, trimming: bool) -> Result; } extern "C" { pub fn CAMU_IsTrimming(trimming: *mut bool, port: u32_) -> Result; } extern "C" { pub fn CAMU_SetTrimmingParams( port: u32_, xStart: s16, yStart: s16, xEnd: s16, yEnd: s16, ) -> Result; } extern "C" { pub fn CAMU_GetTrimmingParams( xStart: *mut s16, yStart: *mut s16, xEnd: *mut s16, yEnd: *mut s16, port: u32_, ) -> Result; } extern "C" { pub fn CAMU_SetTrimmingParamsCenter( port: u32_, trimWidth: s16, trimHeight: s16, camWidth: s16, camHeight: s16, ) -> Result; } extern "C" { pub fn CAMU_Activate(select: u32_) -> Result; } extern "C" { pub fn CAMU_SwitchContext(select: u32_, context: CAMU_Context) -> Result; } extern "C" { pub fn CAMU_SetExposure(select: u32_, exposure: s8) -> Result; } extern "C" { pub fn CAMU_SetWhiteBalance(select: u32_, whiteBalance: CAMU_WhiteBalance) -> Result; } extern "C" { pub fn CAMU_SetWhiteBalanceWithoutBaseUp( select: u32_, whiteBalance: CAMU_WhiteBalance, ) -> Result; } extern "C" { pub fn CAMU_SetSharpness(select: u32_, sharpness: s8) -> Result; } extern "C" { pub fn CAMU_SetAutoExposure(select: u32_, autoExposure: bool) -> Result; } extern "C" { pub fn CAMU_IsAutoExposure(autoExposure: *mut bool, select: u32_) -> Result; } extern "C" { pub fn CAMU_SetAutoWhiteBalance(select: u32_, autoWhiteBalance: bool) -> Result; } extern "C" { pub fn CAMU_IsAutoWhiteBalance(autoWhiteBalance: *mut bool, select: u32_) -> Result; } extern "C" { pub fn CAMU_FlipImage(select: u32_, flip: CAMU_Flip, context: CAMU_Context) -> Result; } extern "C" { pub fn CAMU_SetDetailSize( select: u32_, width: s16, height: s16, cropX0: s16, cropY0: s16, cropX1: s16, cropY1: s16, context: CAMU_Context, ) -> Result; } extern "C" { pub fn CAMU_SetSize(select: u32_, size: CAMU_Size, context: CAMU_Context) -> Result; } extern "C" { pub fn CAMU_SetFrameRate(select: u32_, frameRate: CAMU_FrameRate) -> Result; } extern "C" { pub fn CAMU_SetPhotoMode(select: u32_, photoMode: CAMU_PhotoMode) -> Result; } extern "C" { pub fn CAMU_SetEffect(select: u32_, effect: CAMU_Effect, context: CAMU_Context) -> Result; } extern "C" { pub fn CAMU_SetContrast(select: u32_, contrast: CAMU_Contrast) -> Result; } extern "C" { pub fn CAMU_SetLensCorrection(select: u32_, lensCorrection: CAMU_LensCorrection) -> Result; } extern "C" { pub fn CAMU_SetOutputFormat( select: u32_, format: CAMU_OutputFormat, context: CAMU_Context, ) -> Result; } extern "C" { pub fn CAMU_SetAutoExposureWindow( select: u32_, x: s16, y: s16, width: s16, height: s16, ) -> Result; } extern "C" { pub fn CAMU_SetAutoWhiteBalanceWindow( select: u32_, x: s16, y: s16, width: s16, height: s16, ) -> Result; } extern "C" { pub fn CAMU_SetNoiseFilter(select: u32_, noiseFilter: bool) -> Result; } extern "C" { pub fn CAMU_SynchronizeVsyncTiming(select1: u32_, select2: u32_) -> Result; } extern "C" { pub fn CAMU_GetLatestVsyncTiming(timing: *mut s64, port: u32_, past: u32_) -> Result; } extern "C" { pub fn CAMU_GetStereoCameraCalibrationData( data: *mut CAMU_StereoCameraCalibrationData, ) -> Result; } extern "C" { pub fn CAMU_SetStereoCameraCalibrationData(data: CAMU_StereoCameraCalibrationData) -> Result; } extern "C" { pub fn CAMU_WriteRegisterI2c(select: u32_, addr: u16_, data: u16_) -> Result; } extern "C" { pub fn CAMU_WriteMcuVariableI2c(select: u32_, addr: u16_, data: u16_) -> Result; } extern "C" { pub fn CAMU_ReadRegisterI2cExclusive(data: *mut u16_, select: u32_, addr: u16_) -> Result; } extern "C" { pub fn CAMU_ReadMcuVariableI2cExclusive(data: *mut u16_, select: u32_, addr: u16_) -> Result; } extern "C" { pub fn CAMU_SetImageQualityCalibrationData(data: CAMU_ImageQualityCalibrationData) -> Result; } extern "C" { pub fn CAMU_GetImageQualityCalibrationData( data: *mut CAMU_ImageQualityCalibrationData, ) -> Result; } extern "C" { pub fn CAMU_SetPackageParameterWithoutContext( param: CAMU_PackageParameterCameraSelect, ) -> Result; } extern "C" { pub fn CAMU_SetPackageParameterWithContext(param: CAMU_PackageParameterContext) -> Result; } extern "C" { pub fn CAMU_SetPackageParameterWithContextDetail( param: CAMU_PackageParameterContextDetail, ) -> Result; } extern "C" { pub fn CAMU_GetSuitableY2rStandardCoefficient( coefficient: *mut Y2RU_StandardCoefficient, ) -> Result; } extern "C" { pub fn CAMU_PlayShutterSound(sound: CAMU_ShutterSoundType) -> Result; } extern "C" { pub fn CAMU_DriverInitialize() -> Result; } extern "C" { pub fn CAMU_DriverFinalize() -> Result; } extern "C" { pub fn CAMU_GetActivatedCamera(select: *mut u32_) -> Result; } extern "C" { pub fn CAMU_GetSleepCamera(select: *mut u32_) -> Result; } extern "C" { pub fn CAMU_SetSleepCamera(select: u32_) -> Result; } extern "C" { pub fn CAMU_SetBrightnessSynchronization(brightnessSynchronization: bool) -> Result; } extern "C" { pub fn cfgnorInit(value: u8_) -> Result; } extern "C" { pub fn cfgnorExit(); } extern "C" { pub fn cfgnorDumpFlash(buf: *mut u32_, size: u32_) -> Result; } extern "C" { pub fn cfgnorWriteFlash(buf: *mut u32_, size: u32_) -> Result; } extern "C" { pub fn CFGNOR_Initialize(value: u8_) -> Result; } extern "C" { pub fn CFGNOR_Shutdown() -> Result; } extern "C" { pub fn CFGNOR_ReadData(offset: u32_, buf: *mut u32_, size: u32_) -> Result; } extern "C" { pub fn CFGNOR_WriteData(offset: u32_, buf: *mut u32_, size: u32_) -> Result; } pub const CFG_REGION_JPN: CFG_Region = 0; pub const CFG_REGION_USA: CFG_Region = 1; pub const CFG_REGION_EUR: CFG_Region = 2; pub const CFG_REGION_AUS: CFG_Region = 3; pub const CFG_REGION_CHN: CFG_Region = 4; pub const CFG_REGION_KOR: CFG_Region = 5; pub const CFG_REGION_TWN: CFG_Region = 6; pub type CFG_Region = ::libc::c_uint; pub const CFG_LANGUAGE_JP: CFG_Language = 0; pub const CFG_LANGUAGE_EN: CFG_Language = 1; pub const CFG_LANGUAGE_FR: CFG_Language = 2; pub const CFG_LANGUAGE_DE: CFG_Language = 3; pub const CFG_LANGUAGE_IT: CFG_Language = 4; pub const CFG_LANGUAGE_ES: CFG_Language = 5; pub const CFG_LANGUAGE_ZH: CFG_Language = 6; pub const CFG_LANGUAGE_KO: CFG_Language = 7; pub const CFG_LANGUAGE_NL: CFG_Language = 8; pub const CFG_LANGUAGE_PT: CFG_Language = 9; pub const CFG_LANGUAGE_RU: CFG_Language = 10; pub const CFG_LANGUAGE_TW: CFG_Language = 11; pub type CFG_Language = ::libc::c_uint; pub const CFG_MODEL_3DS: CFG_SystemModel = 0; pub const CFG_MODEL_3DSXL: CFG_SystemModel = 1; pub const CFG_MODEL_N3DS: CFG_SystemModel = 2; pub const CFG_MODEL_2DS: CFG_SystemModel = 3; pub const CFG_MODEL_N3DSXL: CFG_SystemModel = 4; pub const CFG_MODEL_N2DSXL: CFG_SystemModel = 5; pub type CFG_SystemModel = ::libc::c_uint; extern "C" { pub fn cfguInit() -> Result; } extern "C" { pub fn cfguExit(); } extern "C" { pub fn CFGU_SecureInfoGetRegion(region: *mut u8_) -> Result; } extern "C" { pub fn CFGU_GenHashConsoleUnique(appIDSalt: u32_, hash: *mut u64_) -> Result; } extern "C" { pub fn CFGU_GetRegionCanadaUSA(value: *mut u8_) -> Result; } extern "C" { pub fn CFGU_GetSystemModel(model: *mut u8_) -> Result; } extern "C" { pub fn CFGU_GetModelNintendo2DS(value: *mut u8_) -> Result; } extern "C" { pub fn CFGU_GetCountryCodeString(code: u16_, string: *mut u16_) -> Result; } extern "C" { pub fn CFGU_GetCountryCodeID(string: u16_, code: *mut u16_) -> Result; } extern "C" { pub fn CFGU_IsNFCSupported(isSupported: *mut bool) -> Result; } extern "C" { pub fn CFGU_GetConfigInfoBlk2(size: u32_, blkID: u32_, outData: *mut ::libc::c_void) -> Result; } extern "C" { pub fn CFG_GetConfigInfoBlk4(size: u32_, blkID: u32_, outData: *mut ::libc::c_void) -> Result; } extern "C" { pub fn CFG_GetConfigInfoBlk8(size: u32_, blkID: u32_, outData: *mut ::libc::c_void) -> Result; } extern "C" { pub fn CFG_SetConfigInfoBlk4(size: u32_, blkID: u32_, inData: *const ::libc::c_void) -> Result; } extern "C" { pub fn CFG_SetConfigInfoBlk8(size: u32_, blkID: u32_, inData: *const ::libc::c_void) -> Result; } extern "C" { pub fn CFG_UpdateConfigSavegame() -> Result; } extern "C" { pub fn CFGU_GetSystemLanguage(language: *mut u8_) -> Result; } extern "C" { pub fn CFGI_RestoreLocalFriendCodeSeed() -> Result; } extern "C" { pub fn CFGI_RestoreSecureInfo() -> Result; } extern "C" { pub fn CFGI_DeleteConfigSavefile() -> Result; } extern "C" { pub fn CFGI_FormatConfig() -> Result; } extern "C" { pub fn CFGI_ClearParentalControls() -> Result; } extern "C" { pub fn CFGI_VerifySigLocalFriendCodeSeed() -> Result; } extern "C" { pub fn CFGI_VerifySigSecureInfo() -> Result; } extern "C" { pub fn CFGI_SecureInfoGetSerialNumber(serial: *mut u8_) -> Result; } extern "C" { pub fn CFGI_GetLocalFriendCodeSeedData(data: *mut u8_) -> Result; } extern "C" { pub fn CFGI_GetLocalFriendCodeSeed(seed: *mut u64_) -> Result; } extern "C" { pub fn CFGI_GetSecureInfoData(data: *mut u8_) -> Result; } extern "C" { pub fn CFGI_GetSecureInfoSignature(data: *mut u8_) -> Result; } pub const CSND_ENCODING_PCM8: ::libc::c_uint = 0; pub const CSND_ENCODING_PCM16: ::libc::c_uint = 1; pub const CSND_ENCODING_ADPCM: ::libc::c_uint = 2; pub const CSND_ENCODING_PSG: ::libc::c_uint = 3; pub type _bindgen_ty_17 = ::libc::c_uint; pub const CSND_LOOPMODE_MANUAL: ::libc::c_uint = 0; pub const CSND_LOOPMODE_NORMAL: ::libc::c_uint = 1; pub const CSND_LOOPMODE_ONESHOT: ::libc::c_uint = 2; pub const CSND_LOOPMODE_NORELOAD: ::libc::c_uint = 3; pub type _bindgen_ty_18 = ::libc::c_uint; pub const SOUND_LINEAR_INTERP: ::libc::c_uint = 64; pub const SOUND_REPEAT: ::libc::c_uint = 1024; pub const SOUND_ONE_SHOT: ::libc::c_uint = 2048; pub const SOUND_FORMAT_8BIT: ::libc::c_uint = 0; pub const SOUND_FORMAT_16BIT: ::libc::c_uint = 4096; pub const SOUND_FORMAT_ADPCM: ::libc::c_uint = 8192; pub const SOUND_FORMAT_PSG: ::libc::c_uint = 12288; pub const SOUND_ENABLE: ::libc::c_uint = 16384; pub type _bindgen_ty_19 = ::libc::c_uint; pub const CAPTURE_REPEAT: ::libc::c_uint = 0; pub const CAPTURE_ONE_SHOT: ::libc::c_uint = 1; pub const CAPTURE_FORMAT_16BIT: ::libc::c_uint = 0; pub const CAPTURE_FORMAT_8BIT: ::libc::c_uint = 2; pub const CAPTURE_ENABLE: ::libc::c_uint = 32768; pub type _bindgen_ty_20 = ::libc::c_uint; pub const DutyCycle_0: CSND_DutyCycle = 7; pub const DutyCycle_12: CSND_DutyCycle = 0; pub const DutyCycle_25: CSND_DutyCycle = 1; pub const DutyCycle_37: CSND_DutyCycle = 2; pub const DutyCycle_50: CSND_DutyCycle = 3; pub const DutyCycle_62: CSND_DutyCycle = 4; pub const DutyCycle_75: CSND_DutyCycle = 5; pub const DutyCycle_87: CSND_DutyCycle = 6; pub type CSND_DutyCycle = ::libc::c_uint; #[repr(C)] #[derive(Copy, Clone)] pub union CSND_ChnInfo { pub value: [u32_; 3usize], pub __bindgen_anon_1: CSND_ChnInfo__bindgen_ty_1, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CSND_ChnInfo__bindgen_ty_1 { pub active: u8_, pub _pad1: u8_, pub _pad2: u16_, pub adpcmSample: s16, pub adpcmIndex: u8_, pub _pad3: u8_, pub unknownZero: u32_, } impl Default for CSND_ChnInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Copy, Clone)] pub union CSND_CapInfo { pub value: [u32_; 2usize], pub __bindgen_anon_1: CSND_CapInfo__bindgen_ty_1, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct CSND_CapInfo__bindgen_ty_1 { pub active: u8_, pub _pad1: u8_, pub _pad2: u16_, pub unknownZero: u32_, } impl Default for CSND_CapInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub static mut csndSharedMem: *mut vu32; } extern "C" { pub static mut csndSharedMemSize: u32_; } extern "C" { pub static mut csndChannels: u32_; } extern "C" { pub fn CSND_AcquireCapUnit(capUnit: *mut u32_) -> Result; } extern "C" { pub fn CSND_ReleaseCapUnit(capUnit: u32_) -> Result; } extern "C" { pub fn CSND_FlushDataCache(adr: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn CSND_StoreDataCache(adr: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn CSND_InvalidateDataCache(adr: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn CSND_Reset() -> Result; } extern "C" { pub fn csndInit() -> Result; } extern "C" { pub fn csndExit(); } extern "C" { pub fn csndAddCmd(cmdid: ::libc::c_int) -> *mut u32_; } extern "C" { pub fn csndWriteCmd(cmdid: ::libc::c_int, cmdparams: *mut u8_); } extern "C" { pub fn csndExecCmds(waitDone: bool) -> Result; } extern "C" { pub fn CSND_SetPlayStateR(channel: u32_, value: u32_); } extern "C" { pub fn CSND_SetPlayState(channel: u32_, value: u32_); } extern "C" { pub fn CSND_SetEncoding(channel: u32_, value: u32_); } extern "C" { pub fn CSND_SetBlock(channel: u32_, block: ::libc::c_int, physaddr: u32_, size: u32_); } extern "C" { pub fn CSND_SetLooping(channel: u32_, value: u32_); } extern "C" { pub fn CSND_SetBit7(channel: u32_, set: bool); } extern "C" { pub fn CSND_SetInterp(channel: u32_, interp: bool); } extern "C" { pub fn CSND_SetDuty(channel: u32_, duty: CSND_DutyCycle); } extern "C" { pub fn CSND_SetTimer(channel: u32_, timer: u32_); } extern "C" { pub fn CSND_SetVol(channel: u32_, chnVolumes: u32_, capVolumes: u32_); } extern "C" { pub fn CSND_SetAdpcmState( channel: u32_, block: ::libc::c_int, sample: ::libc::c_int, index: ::libc::c_int, ); } extern "C" { pub fn CSND_SetAdpcmReload(channel: u32_, reload: bool); } extern "C" { pub fn CSND_SetChnRegs( flags: u32_, physaddr0: u32_, physaddr1: u32_, totalbytesize: u32_, chnVolumes: u32_, capVolumes: u32_, ); } extern "C" { pub fn CSND_SetChnRegsPSG( flags: u32_, chnVolumes: u32_, capVolumes: u32_, duty: CSND_DutyCycle, ); } extern "C" { pub fn CSND_SetChnRegsNoise(flags: u32_, chnVolumes: u32_, capVolumes: u32_); } extern "C" { pub fn CSND_CapEnable(capUnit: u32_, enable: bool); } extern "C" { pub fn CSND_CapSetRepeat(capUnit: u32_, repeat: bool); } extern "C" { pub fn CSND_CapSetFormat(capUnit: u32_, eightbit: bool); } extern "C" { pub fn CSND_CapSetBit2(capUnit: u32_, set: bool); } extern "C" { pub fn CSND_CapSetTimer(capUnit: u32_, timer: u32_); } extern "C" { pub fn CSND_CapSetBuffer(capUnit: u32_, addr: u32_, size: u32_); } extern "C" { pub fn CSND_SetCapRegs(capUnit: u32_, flags: u32_, addr: u32_, size: u32_); } extern "C" { pub fn CSND_SetDspFlags(waitDone: bool) -> Result; } extern "C" { pub fn CSND_UpdateInfo(waitDone: bool) -> Result; } extern "C" { pub fn csndPlaySound( chn: ::libc::c_int, flags: u32_, sampleRate: u32_, vol: f32, pan: f32, data0: *mut ::libc::c_void, data1: *mut ::libc::c_void, size: u32_, ) -> Result; } extern "C" { pub fn csndGetDspFlags(outSemFlags: *mut u32_, outIrqFlags: *mut u32_); } extern "C" { pub fn csndGetChnInfo(channel: u32_) -> *mut CSND_ChnInfo; } extern "C" { pub fn csndGetCapInfo(capUnit: u32_) -> *mut CSND_CapInfo; } extern "C" { pub fn csndGetState(channel: u32_, out: *mut CSND_ChnInfo) -> Result; } extern "C" { pub fn csndIsPlaying(channel: u32_, status: *mut u8_) -> Result; } pub const DSP_INTERRUPT_PIPE: DSP_InterruptType = 2; pub type DSP_InterruptType = ::libc::c_uint; pub const DSPHOOK_ONSLEEP: DSP_HookType = 0; pub const DSPHOOK_ONWAKEUP: DSP_HookType = 1; pub const DSPHOOK_ONCANCEL: DSP_HookType = 2; pub type DSP_HookType = ::libc::c_uint; pub type dspHookFn = ::core::option::Option; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct tag_dspHookCookie { pub next: *mut tag_dspHookCookie, pub callback: dspHookFn, } impl Default for tag_dspHookCookie { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type dspHookCookie = tag_dspHookCookie; extern "C" { pub fn dspInit() -> Result; } extern "C" { pub fn dspExit(); } extern "C" { pub fn dspIsComponentLoaded() -> bool; } extern "C" { pub fn dspHook(cookie: *mut dspHookCookie, callback: dspHookFn); } extern "C" { pub fn dspUnhook(cookie: *mut dspHookCookie); } extern "C" { pub fn DSP_GetHeadphoneStatus(is_inserted: *mut bool) -> Result; } extern "C" { pub fn DSP_FlushDataCache(address: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn DSP_InvalidateDataCache(address: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn DSP_GetSemaphoreHandle(semaphore: *mut Handle) -> Result; } extern "C" { pub fn DSP_SetSemaphore(value: u16_) -> Result; } extern "C" { pub fn DSP_SetSemaphoreMask(mask: u16_) -> Result; } extern "C" { pub fn DSP_LoadComponent( component: *const ::libc::c_void, size: u32_, prog_mask: u16_, data_mask: u16_, is_loaded: *mut bool, ) -> Result; } extern "C" { pub fn DSP_UnloadComponent() -> Result; } extern "C" { pub fn DSP_RegisterInterruptEvents(handle: Handle, interrupt: u32_, channel: u32_) -> Result; } extern "C" { pub fn DSP_ReadPipeIfPossible( channel: u32_, peer: u32_, buffer: *mut ::libc::c_void, length: u16_, length_read: *mut u16_, ) -> Result; } extern "C" { pub fn DSP_WriteProcessPipe( channel: u32_, buffer: *const ::libc::c_void, length: u32_, ) -> Result; } extern "C" { pub fn DSP_ConvertProcessAddressFromDspDram( dsp_address: u32_, arm_address: *mut u32_, ) -> Result; } extern "C" { pub fn DSP_RecvData(regNo: u16_, value: *mut u16_) -> Result; } extern "C" { pub fn DSP_RecvDataIsReady(regNo: u16_, is_ready: *mut bool) -> Result; } extern "C" { pub fn DSP_SendData(regNo: u16_, value: u16_) -> Result; } extern "C" { pub fn DSP_SendDataIsEmpty(regNo: u16_, is_empty: *mut bool) -> Result; } pub type FSPXI_Archive = u64_; pub type FSPXI_File = u64_; pub type FSPXI_Directory = u64_; extern "C" { pub fn FSPXI_OpenFile( serviceHandle: Handle, out: *mut FSPXI_File, archive: FSPXI_Archive, path: FS_Path, flags: u32_, attributes: u32_, ) -> Result; } extern "C" { pub fn FSPXI_DeleteFile(serviceHandle: Handle, archive: FSPXI_Archive, path: FS_Path) -> Result; } extern "C" { pub fn FSPXI_RenameFile( serviceHandle: Handle, srcArchive: FSPXI_Archive, srcPath: FS_Path, dstArchive: FSPXI_Archive, dstPath: FS_Path, ) -> Result; } extern "C" { pub fn FSPXI_DeleteDirectory( serviceHandle: Handle, archive: FSPXI_Archive, path: FS_Path, ) -> Result; } extern "C" { pub fn FSPXI_CreateFile( serviceHandle: Handle, archive: FSPXI_Archive, path: FS_Path, attributes: u32_, fileSize: u64_, ) -> Result; } extern "C" { pub fn FSPXI_CreateDirectory( serviceHandle: Handle, archive: FSPXI_Archive, path: FS_Path, attributes: u32_, ) -> Result; } extern "C" { pub fn FSPXI_RenameDirectory( serviceHandle: Handle, srcArchive: FSPXI_Archive, srcPath: FS_Path, dstArchive: FSPXI_Archive, dstPath: FS_Path, ) -> Result; } extern "C" { pub fn FSPXI_OpenDirectory( serviceHandle: Handle, out: *mut FSPXI_Directory, archive: FSPXI_Archive, path: FS_Path, ) -> Result; } extern "C" { pub fn FSPXI_ReadFile( serviceHandle: Handle, file: FSPXI_File, bytesRead: *mut u32_, offset: u64_, buffer: *mut ::libc::c_void, size: u32_, ) -> Result; } extern "C" { pub fn FSPXI_CalculateFileHashSHA256( serviceHandle: Handle, file: FSPXI_File, buffer: *mut ::libc::c_void, size: u32_, ) -> Result; } extern "C" { pub fn FSPXI_WriteFile( serviceHandle: Handle, file: FSPXI_File, bytesWritten: *mut u32_, offset: u64_, buffer: *const ::libc::c_void, size: u32_, flags: u32_, ) -> Result; } extern "C" { pub fn FSPXI_CalcSavegameMAC( serviceHandle: Handle, file: FSPXI_File, inBuffer: *const ::libc::c_void, inSize: u32_, outBuffer: *mut ::libc::c_void, outSize: u32_, ) -> Result; } extern "C" { pub fn FSPXI_GetFileSize(serviceHandle: Handle, file: FSPXI_File, size: *mut u64_) -> Result; } extern "C" { pub fn FSPXI_SetFileSize(serviceHandle: Handle, file: FSPXI_File, size: u64_) -> Result; } extern "C" { pub fn FSPXI_CloseFile(serviceHandle: Handle, file: FSPXI_File) -> Result; } extern "C" { pub fn FSPXI_ReadDirectory( serviceHandle: Handle, directory: FSPXI_Directory, entriesRead: *mut u32_, entryCount: u32_, entries: *mut FS_DirectoryEntry, ) -> Result; } extern "C" { pub fn FSPXI_CloseDirectory(serviceHandle: Handle, directory: FSPXI_Directory) -> Result; } extern "C" { pub fn FSPXI_OpenArchive( serviceHandle: Handle, archive: *mut FSPXI_Archive, archiveID: FS_ArchiveID, path: FS_Path, ) -> Result; } extern "C" { pub fn FSPXI_HasFile( serviceHandle: Handle, archive: FSPXI_Archive, out: *mut bool, path: FS_Path, ) -> Result; } extern "C" { pub fn FSPXI_HasDirectory( serviceHandle: Handle, archive: FSPXI_Archive, out: *mut bool, path: FS_Path, ) -> Result; } extern "C" { pub fn FSPXI_CommitSaveData(serviceHandle: Handle, archive: FSPXI_Archive, id: u32_) -> Result; } extern "C" { pub fn FSPXI_CloseArchive(serviceHandle: Handle, archive: FSPXI_Archive) -> Result; } extern "C" { pub fn FSPXI_Unknown0x17( serviceHandle: Handle, archive: FSPXI_Archive, out: *mut bool, ) -> Result; } extern "C" { pub fn FSPXI_GetCardType(serviceHandle: Handle, out: *mut FS_CardType) -> Result; } extern "C" { pub fn FSPXI_GetSdmcArchiveResource( serviceHandle: Handle, out: *mut FS_ArchiveResource, ) -> Result; } extern "C" { pub fn FSPXI_GetNandArchiveResource( serviceHandle: Handle, out: *mut FS_ArchiveResource, ) -> Result; } extern "C" { pub fn FSPXI_GetSdmcFatFsError(serviceHandle: Handle, out: *mut u32_) -> Result; } extern "C" { pub fn FSPXI_IsSdmcDetected(serviceHandle: Handle, out: *mut bool) -> Result; } extern "C" { pub fn FSPXI_IsSdmcWritable(serviceHandle: Handle, out: *mut bool) -> Result; } extern "C" { pub fn FSPXI_GetSdmcCid(serviceHandle: Handle, out: *mut ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn FSPXI_GetNandCid(serviceHandle: Handle, out: *mut ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn FSPXI_GetSdmcSpeedInfo(serviceHandle: Handle, out: *mut u32_) -> Result; } extern "C" { pub fn FSPXI_GetNandSpeedInfo(serviceHandle: Handle, out: *mut u32_) -> Result; } extern "C" { pub fn FSPXI_GetSdmcLog(serviceHandle: Handle, out: *mut ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn FSPXI_GetNandLog(serviceHandle: Handle, out: *mut ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn FSPXI_ClearSdmcLog(serviceHandle: Handle) -> Result; } extern "C" { pub fn FSPXI_ClearNandLog(serviceHandle: Handle) -> Result; } extern "C" { pub fn FSPXI_CardSlotIsInserted(serviceHandle: Handle, inserted: *mut bool) -> Result; } extern "C" { pub fn FSPXI_CardSlotPowerOn(serviceHandle: Handle, status: *mut bool) -> Result; } extern "C" { pub fn FSPXI_CardSlotPowerOff(serviceHandle: Handle, status: *mut bool) -> Result; } extern "C" { pub fn FSPXI_CardSlotGetCardIFPowerStatus(serviceHandle: Handle, status: *mut bool) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectCommand(serviceHandle: Handle, commandId: u8_) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectCommandWithAddress( serviceHandle: Handle, commandId: u8_, address: u32_, ) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectRead( serviceHandle: Handle, commandId: u8_, size: u32_, output: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectReadWithAddress( serviceHandle: Handle, commandId: u8_, address: u32_, size: u32_, output: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectWrite( serviceHandle: Handle, commandId: u8_, size: u32_, input: *const ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectWriteWithAddress( serviceHandle: Handle, commandId: u8_, address: u32_, size: u32_, input: *const ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectRead_4xIO( serviceHandle: Handle, commandId: u8_, address: u32_, size: u32_, output: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectCpuWriteWithoutVerify( serviceHandle: Handle, address: u32_, size: u32_, input: *const ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_CardNorDirectSectorEraseWithoutVerify( serviceHandle: Handle, address: u32_, ) -> Result; } extern "C" { pub fn FSPXI_GetProductInfo( serviceHandle: Handle, info: *mut FS_ProductInfo, archive: FSPXI_Archive, ) -> Result; } extern "C" { pub fn FSPXI_SetCardSpiBaudrate(serviceHandle: Handle, baudRate: FS_CardSpiBaudRate) -> Result; } extern "C" { pub fn FSPXI_SetCardSpiBusMode(serviceHandle: Handle, busMode: FS_CardSpiBusMode) -> Result; } extern "C" { pub fn FSPXI_SendInitializeInfoTo9(serviceHandle: Handle, unk: u8_) -> Result; } extern "C" { pub fn FSPXI_CreateExtSaveData(serviceHandle: Handle, info: FS_ExtSaveDataInfo) -> Result; } extern "C" { pub fn FSPXI_DeleteExtSaveData(serviceHandle: Handle, info: FS_ExtSaveDataInfo) -> Result; } extern "C" { pub fn FSPXI_EnumerateExtSaveData( serviceHandle: Handle, idsWritten: *mut u32_, idsSize: u32_, mediaType: FS_MediaType, idSize: u32_, shared: bool, ids: *mut u8_, ) -> Result; } extern "C" { pub fn FSPXI_GetSpecialContentIndex( serviceHandle: Handle, index: *mut u16_, mediaType: FS_MediaType, programId: u64_, type_: FS_SpecialContentType, ) -> Result; } extern "C" { pub fn FSPXI_GetLegacyRomHeader( serviceHandle: Handle, mediaType: FS_MediaType, programId: u64_, header: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_GetLegacyBannerData( serviceHandle: Handle, mediaType: FS_MediaType, programId: u64_, banner: *mut ::libc::c_void, unk: u8_, ) -> Result; } extern "C" { pub fn FSPXI_FormatCardNorDevice(serviceHandle: Handle, unk: u32_) -> Result; } extern "C" { pub fn FSPXI_DeleteSdmcRoot(serviceHandle: Handle) -> Result; } extern "C" { pub fn FSPXI_DeleteAllExtSaveDataOnNand(serviceHandle: Handle) -> Result; } extern "C" { pub fn FSPXI_InitializeCtrFilesystem(serviceHandle: Handle) -> Result; } extern "C" { pub fn FSPXI_CreateSeed(serviceHandle: Handle) -> Result; } extern "C" { pub fn FSPXI_GetSdmcCtrRootPath(serviceHandle: Handle, out: *mut u16_, length: u32_) -> Result; } extern "C" { pub fn FSPXI_GetArchiveResource( serviceHandle: Handle, archiveResource: *mut FS_ArchiveResource, mediaType: FS_SystemMediaType, ) -> Result; } extern "C" { pub fn FSPXI_ExportIntegrityVerificationSeed( serviceHandle: Handle, seed: *mut FS_IntegrityVerificationSeed, ) -> Result; } extern "C" { pub fn FSPXI_ImportIntegrityVerificationSeed( serviceHandle: Handle, seed: *const FS_IntegrityVerificationSeed, ) -> Result; } extern "C" { pub fn FSPXI_GetLegacySubBannerData( serviceHandle: Handle, bannerSize: u32_, mediaType: FS_MediaType, programId: u64_, banner: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_GenerateRandomBytes( serviceHandle: Handle, buffer: *mut ::libc::c_void, size: u32_, ) -> Result; } extern "C" { pub fn FSPXI_GetFileLastModified( serviceHandle: Handle, archive: FSPXI_Archive, out: *mut u64_, path: *const u16_, size: u32_, ) -> Result; } extern "C" { pub fn FSPXI_ReadSpecialFile( serviceHandle: Handle, bytesRead: *mut u32_, fileOffset: u64_, size: u32_, data: *mut ::libc::c_void, ) -> Result; } extern "C" { pub fn FSPXI_GetSpecialFileSize(serviceHandle: Handle, fileSize: *mut u64_) -> Result; } extern "C" { pub fn FSPXI_StartDeviceMoveAsSource( serviceHandle: Handle, context: *mut FS_DeviceMoveContext, ) -> Result; } extern "C" { pub fn FSPXI_StartDeviceMoveAsDestination( serviceHandle: Handle, context: FS_DeviceMoveContext, clear: bool, ) -> Result; } extern "C" { pub fn FSPXI_ReadFileSHA256( serviceHandle: Handle, file: FSPXI_File, bytesRead: *mut u32_, offset: u64_, readBuffer: *mut ::libc::c_void, readBufferSize: u32_, hashtable: *mut ::libc::c_void, hashtableSize: u32_, unk: u32_, ) -> Result; } extern "C" { pub fn FSPXI_WriteFileSHA256( serviceHandle: Handle, file: FSPXI_File, bytesWritten: *mut u32_, offset: u64_, writeBuffer: *const ::libc::c_void, writeBufferSize: u32_, hashtable: *mut ::libc::c_void, hashtableSize: u32_, unk1: u32_, unk2: u32_, ) -> Result; } extern "C" { pub fn FSPXI_SetCtrCardLatencyParameter(serviceHandle: Handle, latency: u64_) -> Result; } extern "C" { pub fn FSPXI_SetPriority(serviceHandle: Handle, priority: u32_) -> Result; } extern "C" { pub fn FSPXI_SwitchCleanupInvalidSaveData(serviceHandle: Handle, enable: bool) -> Result; } extern "C" { pub fn FSPXI_EnumerateSystemSaveData( serviceHandle: Handle, idsWritten: *mut u32_, idsSize: u32_, ids: *mut u32_, ) -> Result; } extern "C" { pub fn FSPXI_ReadNandReport( serviceHandle: Handle, buffer: *mut ::libc::c_void, size: u32_, unk: u32_, ) -> Result; } extern "C" { pub fn FSPXI_Unknown0x56( serviceHandle: Handle, out: *mut u32_, archive: FS_Archive, path: FS_Path, ) -> Result; } extern "C" { pub fn fsRegInit() -> Result; } extern "C" { pub fn fsRegExit(); } extern "C" { pub fn fsRegGetSessionHandle() -> *mut Handle; } extern "C" { pub fn FSREG_Register( pid: u32_, programHandle: u64_, programInfo: *const FS_ProgramInfo, storageInfo: *const ExHeader_Arm11StorageInfo, ) -> Result; } extern "C" { pub fn FSREG_Unregister(pid: u32_) -> Result; } extern "C" { pub fn FSREG_GetProgramInfo( exheaderInfos: *mut ExHeader_Info, maxNumEntries: u32_, programHandle: u64_, ) -> Result; } extern "C" { pub fn FSREG_LoadProgram( programHandle: *mut u64_, programInfo: *const FS_ProgramInfo, ) -> Result; } extern "C" { pub fn FSREG_UnloadProgram(programHandle: u64_) -> Result; } extern "C" { pub fn FSREG_CheckHostLoadId(programHandle: u64_) -> Result; } #[repr(C)] #[repr(align(1))] pub struct MiiData { pub _bindgen_opaque_blob: [u8; 92usize], } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_1 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, } impl MiiData__bindgen_ty_1 { #[inline] pub fn allow_copying(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 1u8) as u8) } } #[inline] pub fn set_allow_copying(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 1u8, val as u64) } } #[inline] pub fn is_private_name(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(1usize, 1u8) as u8) } } #[inline] pub fn set_is_private_name(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(1usize, 1u8, val as u64) } } #[inline] pub fn region_lock(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(2usize, 2u8) as u8) } } #[inline] pub fn set_region_lock(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(2usize, 2u8, val as u64) } } #[inline] pub fn char_set(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(4usize, 2u8) as u8) } } #[inline] pub fn set_char_set(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(4usize, 2u8, val as u64) } } #[inline] pub fn new_bitfield_1( allow_copying: bool, is_private_name: bool, region_lock: u8_, char_set: u8_, ) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 1u8, { let allow_copying: u8 = unsafe { ::core::mem::transmute(allow_copying) }; allow_copying as u64 }); __bindgen_bitfield_unit.set(1usize, 1u8, { let is_private_name: u8 = unsafe { ::core::mem::transmute(is_private_name) }; is_private_name as u64 }); __bindgen_bitfield_unit.set(2usize, 2u8, { let region_lock: u8 = unsafe { ::core::mem::transmute(region_lock) }; region_lock as u64 }); __bindgen_bitfield_unit.set(4usize, 2u8, { let char_set: u8 = unsafe { ::core::mem::transmute(char_set) }; char_set as u64 }); __bindgen_bitfield_unit } } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_2 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, } impl MiiData__bindgen_ty_2 { #[inline] pub fn page_index(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 4u8) as u8) } } #[inline] pub fn set_page_index(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 4u8, val as u64) } } #[inline] pub fn slot_index(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(4usize, 4u8) as u8) } } #[inline] pub fn set_slot_index(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(4usize, 4u8, val as u64) } } #[inline] pub fn new_bitfield_1(page_index: u8_, slot_index: u8_) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 4u8, { let page_index: u8 = unsafe { ::core::mem::transmute(page_index) }; page_index as u64 }); __bindgen_bitfield_unit.set(4usize, 4u8, { let slot_index: u8 = unsafe { ::core::mem::transmute(slot_index) }; slot_index as u64 }); __bindgen_bitfield_unit } } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_3 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, } impl MiiData__bindgen_ty_3 { #[inline] pub fn unknown0(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 4u8) as u8) } } #[inline] pub fn set_unknown0(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 4u8, val as u64) } } #[inline] pub fn origin_console(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(4usize, 3u8) as u8) } } #[inline] pub fn set_origin_console(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(4usize, 3u8, val as u64) } } #[inline] pub fn new_bitfield_1( unknown0: u8_, origin_console: u8_, ) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 4u8, { let unknown0: u8 = unsafe { ::core::mem::transmute(unknown0) }; unknown0 as u64 }); __bindgen_bitfield_unit.set(4usize, 3u8, { let origin_console: u8 = unsafe { ::core::mem::transmute(origin_console) }; origin_console as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(2))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_4 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 2usize]>, } impl MiiData__bindgen_ty_4 { #[inline] pub fn sex(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 1u8) as u8) } } #[inline] pub fn set_sex(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 1u8, val as u64) } } #[inline] pub fn bday_month(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(1usize, 4u8) as u16) } } #[inline] pub fn set_bday_month(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(1usize, 4u8, val as u64) } } #[inline] pub fn bday_day(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(5usize, 5u8) as u16) } } #[inline] pub fn set_bday_day(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(5usize, 5u8, val as u64) } } #[inline] pub fn shirt_color(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(10usize, 4u8) as u16) } } #[inline] pub fn set_shirt_color(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(10usize, 4u8, val as u64) } } #[inline] pub fn favorite(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(14usize, 1u8) as u8) } } #[inline] pub fn set_favorite(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(14usize, 1u8, val as u64) } } #[inline] pub fn new_bitfield_1( sex: bool, bday_month: u16_, bday_day: u16_, shirt_color: u16_, favorite: bool, ) -> __BindgenBitfieldUnit<[u8; 2usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 2usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 1u8, { let sex: u8 = unsafe { ::core::mem::transmute(sex) }; sex as u64 }); __bindgen_bitfield_unit.set(1usize, 4u8, { let bday_month: u16 = unsafe { ::core::mem::transmute(bday_month) }; bday_month as u64 }); __bindgen_bitfield_unit.set(5usize, 5u8, { let bday_day: u16 = unsafe { ::core::mem::transmute(bday_day) }; bday_day as u64 }); __bindgen_bitfield_unit.set(10usize, 4u8, { let shirt_color: u16 = unsafe { ::core::mem::transmute(shirt_color) }; shirt_color as u64 }); __bindgen_bitfield_unit.set(14usize, 1u8, { let favorite: u8 = unsafe { ::core::mem::transmute(favorite) }; favorite as u64 }); __bindgen_bitfield_unit } } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_5 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, } impl MiiData__bindgen_ty_5 { #[inline] pub fn disable_sharing(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 1u8) as u8) } } #[inline] pub fn set_disable_sharing(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 1u8, val as u64) } } #[inline] pub fn shape(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(1usize, 4u8) as u8) } } #[inline] pub fn set_shape(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(1usize, 4u8, val as u64) } } #[inline] pub fn skinColor(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(5usize, 3u8) as u8) } } #[inline] pub fn set_skinColor(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(5usize, 3u8, val as u64) } } #[inline] pub fn new_bitfield_1( disable_sharing: bool, shape: u8_, skinColor: u8_, ) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 1u8, { let disable_sharing: u8 = unsafe { ::core::mem::transmute(disable_sharing) }; disable_sharing as u64 }); __bindgen_bitfield_unit.set(1usize, 4u8, { let shape: u8 = unsafe { ::core::mem::transmute(shape) }; shape as u64 }); __bindgen_bitfield_unit.set(5usize, 3u8, { let skinColor: u8 = unsafe { ::core::mem::transmute(skinColor) }; skinColor as u64 }); __bindgen_bitfield_unit } } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_6 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, } impl MiiData__bindgen_ty_6 { #[inline] pub fn wrinkles(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 4u8) as u8) } } #[inline] pub fn set_wrinkles(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 4u8, val as u64) } } #[inline] pub fn makeup(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(4usize, 4u8) as u8) } } #[inline] pub fn set_makeup(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(4usize, 4u8, val as u64) } } #[inline] pub fn new_bitfield_1(wrinkles: u8_, makeup: u8_) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 4u8, { let wrinkles: u8 = unsafe { ::core::mem::transmute(wrinkles) }; wrinkles as u64 }); __bindgen_bitfield_unit.set(4usize, 4u8, { let makeup: u8 = unsafe { ::core::mem::transmute(makeup) }; makeup as u64 }); __bindgen_bitfield_unit } } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_7 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 1usize]>, } impl MiiData__bindgen_ty_7 { #[inline] pub fn color(&self) -> u8_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 3u8) as u8) } } #[inline] pub fn set_color(&mut self, val: u8_) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 3u8, val as u64) } } #[inline] pub fn flip(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(3usize, 1u8) as u8) } } #[inline] pub fn set_flip(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(3usize, 1u8, val as u64) } } #[inline] pub fn new_bitfield_1(color: u8_, flip: bool) -> __BindgenBitfieldUnit<[u8; 1usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 1usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 3u8, { let color: u8 = unsafe { ::core::mem::transmute(color) }; color as u64 }); __bindgen_bitfield_unit.set(3usize, 1u8, { let flip: u8 = unsafe { ::core::mem::transmute(flip) }; flip as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(4))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_8 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 4usize]>, } impl MiiData__bindgen_ty_8 { #[inline] pub fn style(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 6u8) as u32) } } #[inline] pub fn set_style(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 6u8, val as u64) } } #[inline] pub fn color(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(6usize, 3u8) as u32) } } #[inline] pub fn set_color(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(6usize, 3u8, val as u64) } } #[inline] pub fn scale(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(9usize, 4u8) as u32) } } #[inline] pub fn set_scale(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(9usize, 4u8, val as u64) } } #[inline] pub fn yscale(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(13usize, 3u8) as u32) } } #[inline] pub fn set_yscale(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(13usize, 3u8, val as u64) } } #[inline] pub fn rotation(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(16usize, 5u8) as u32) } } #[inline] pub fn set_rotation(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(16usize, 5u8, val as u64) } } #[inline] pub fn xspacing(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(21usize, 4u8) as u32) } } #[inline] pub fn set_xspacing(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(21usize, 4u8, val as u64) } } #[inline] pub fn yposition(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(25usize, 5u8) as u32) } } #[inline] pub fn set_yposition(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(25usize, 5u8, val as u64) } } #[inline] pub fn new_bitfield_1( style: u32_, color: u32_, scale: u32_, yscale: u32_, rotation: u32_, xspacing: u32_, yposition: u32_, ) -> __BindgenBitfieldUnit<[u8; 4usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 4usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 6u8, { let style: u32 = unsafe { ::core::mem::transmute(style) }; style as u64 }); __bindgen_bitfield_unit.set(6usize, 3u8, { let color: u32 = unsafe { ::core::mem::transmute(color) }; color as u64 }); __bindgen_bitfield_unit.set(9usize, 4u8, { let scale: u32 = unsafe { ::core::mem::transmute(scale) }; scale as u64 }); __bindgen_bitfield_unit.set(13usize, 3u8, { let yscale: u32 = unsafe { ::core::mem::transmute(yscale) }; yscale as u64 }); __bindgen_bitfield_unit.set(16usize, 5u8, { let rotation: u32 = unsafe { ::core::mem::transmute(rotation) }; rotation as u64 }); __bindgen_bitfield_unit.set(21usize, 4u8, { let xspacing: u32 = unsafe { ::core::mem::transmute(xspacing) }; xspacing as u64 }); __bindgen_bitfield_unit.set(25usize, 5u8, { let yposition: u32 = unsafe { ::core::mem::transmute(yposition) }; yposition as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(4))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_9 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 4usize]>, } impl MiiData__bindgen_ty_9 { #[inline] pub fn style(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 5u8) as u32) } } #[inline] pub fn set_style(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 5u8, val as u64) } } #[inline] pub fn color(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(5usize, 3u8) as u32) } } #[inline] pub fn set_color(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(5usize, 3u8, val as u64) } } #[inline] pub fn scale(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(8usize, 4u8) as u32) } } #[inline] pub fn set_scale(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(8usize, 4u8, val as u64) } } #[inline] pub fn yscale(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(12usize, 3u8) as u32) } } #[inline] pub fn set_yscale(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(12usize, 3u8, val as u64) } } #[inline] pub fn pad(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(15usize, 1u8) as u32) } } #[inline] pub fn set_pad(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(15usize, 1u8, val as u64) } } #[inline] pub fn rotation(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(16usize, 5u8) as u32) } } #[inline] pub fn set_rotation(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(16usize, 5u8, val as u64) } } #[inline] pub fn xspacing(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(21usize, 4u8) as u32) } } #[inline] pub fn set_xspacing(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(21usize, 4u8, val as u64) } } #[inline] pub fn yposition(&self) -> u32_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(25usize, 5u8) as u32) } } #[inline] pub fn set_yposition(&mut self, val: u32_) { unsafe { let val: u32 = ::core::mem::transmute(val); self._bitfield_1.set(25usize, 5u8, val as u64) } } #[inline] pub fn new_bitfield_1( style: u32_, color: u32_, scale: u32_, yscale: u32_, pad: u32_, rotation: u32_, xspacing: u32_, yposition: u32_, ) -> __BindgenBitfieldUnit<[u8; 4usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 4usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 5u8, { let style: u32 = unsafe { ::core::mem::transmute(style) }; style as u64 }); __bindgen_bitfield_unit.set(5usize, 3u8, { let color: u32 = unsafe { ::core::mem::transmute(color) }; color as u64 }); __bindgen_bitfield_unit.set(8usize, 4u8, { let scale: u32 = unsafe { ::core::mem::transmute(scale) }; scale as u64 }); __bindgen_bitfield_unit.set(12usize, 3u8, { let yscale: u32 = unsafe { ::core::mem::transmute(yscale) }; yscale as u64 }); __bindgen_bitfield_unit.set(15usize, 1u8, { let pad: u32 = unsafe { ::core::mem::transmute(pad) }; pad as u64 }); __bindgen_bitfield_unit.set(16usize, 5u8, { let rotation: u32 = unsafe { ::core::mem::transmute(rotation) }; rotation as u64 }); __bindgen_bitfield_unit.set(21usize, 4u8, { let xspacing: u32 = unsafe { ::core::mem::transmute(xspacing) }; xspacing as u64 }); __bindgen_bitfield_unit.set(25usize, 5u8, { let yposition: u32 = unsafe { ::core::mem::transmute(yposition) }; yposition as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(2))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_10 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 2usize]>, } impl MiiData__bindgen_ty_10 { #[inline] pub fn style(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 5u8) as u16) } } #[inline] pub fn set_style(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 5u8, val as u64) } } #[inline] pub fn scale(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(5usize, 4u8) as u16) } } #[inline] pub fn set_scale(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(5usize, 4u8, val as u64) } } #[inline] pub fn yposition(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(9usize, 5u8) as u16) } } #[inline] pub fn set_yposition(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(9usize, 5u8, val as u64) } } #[inline] pub fn new_bitfield_1( style: u16_, scale: u16_, yposition: u16_, ) -> __BindgenBitfieldUnit<[u8; 2usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 2usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 5u8, { let style: u16 = unsafe { ::core::mem::transmute(style) }; style as u64 }); __bindgen_bitfield_unit.set(5usize, 4u8, { let scale: u16 = unsafe { ::core::mem::transmute(scale) }; scale as u64 }); __bindgen_bitfield_unit.set(9usize, 5u8, { let yposition: u16 = unsafe { ::core::mem::transmute(yposition) }; yposition as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(2))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_11 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 2usize]>, } impl MiiData__bindgen_ty_11 { #[inline] pub fn style(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 6u8) as u16) } } #[inline] pub fn set_style(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 6u8, val as u64) } } #[inline] pub fn color(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(6usize, 3u8) as u16) } } #[inline] pub fn set_color(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(6usize, 3u8, val as u64) } } #[inline] pub fn scale(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(9usize, 4u8) as u16) } } #[inline] pub fn set_scale(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(9usize, 4u8, val as u64) } } #[inline] pub fn yscale(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(13usize, 3u8) as u16) } } #[inline] pub fn set_yscale(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(13usize, 3u8, val as u64) } } #[inline] pub fn new_bitfield_1( style: u16_, color: u16_, scale: u16_, yscale: u16_, ) -> __BindgenBitfieldUnit<[u8; 2usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 2usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 6u8, { let style: u16 = unsafe { ::core::mem::transmute(style) }; style as u64 }); __bindgen_bitfield_unit.set(6usize, 3u8, { let color: u16 = unsafe { ::core::mem::transmute(color) }; color as u64 }); __bindgen_bitfield_unit.set(9usize, 4u8, { let scale: u16 = unsafe { ::core::mem::transmute(scale) }; scale as u64 }); __bindgen_bitfield_unit.set(13usize, 3u8, { let yscale: u16 = unsafe { ::core::mem::transmute(yscale) }; yscale as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(2))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_12 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 2usize]>, } impl MiiData__bindgen_ty_12 { #[inline] pub fn mouth_yposition(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 5u8) as u16) } } #[inline] pub fn set_mouth_yposition(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 5u8, val as u64) } } #[inline] pub fn mustach_style(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(5usize, 3u8) as u16) } } #[inline] pub fn set_mustach_style(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(5usize, 3u8, val as u64) } } #[inline] pub fn pad(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(8usize, 2u8) as u16) } } #[inline] pub fn set_pad(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(8usize, 2u8, val as u64) } } #[inline] pub fn new_bitfield_1( mouth_yposition: u16_, mustach_style: u16_, pad: u16_, ) -> __BindgenBitfieldUnit<[u8; 2usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 2usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 5u8, { let mouth_yposition: u16 = unsafe { ::core::mem::transmute(mouth_yposition) }; mouth_yposition as u64 }); __bindgen_bitfield_unit.set(5usize, 3u8, { let mustach_style: u16 = unsafe { ::core::mem::transmute(mustach_style) }; mustach_style as u64 }); __bindgen_bitfield_unit.set(8usize, 2u8, { let pad: u16 = unsafe { ::core::mem::transmute(pad) }; pad as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(2))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_13 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 2usize]>, } impl MiiData__bindgen_ty_13 { #[inline] pub fn style(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 3u8) as u16) } } #[inline] pub fn set_style(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 3u8, val as u64) } } #[inline] pub fn color(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(3usize, 3u8) as u16) } } #[inline] pub fn set_color(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(3usize, 3u8, val as u64) } } #[inline] pub fn scale(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(6usize, 4u8) as u16) } } #[inline] pub fn set_scale(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(6usize, 4u8, val as u64) } } #[inline] pub fn ypos(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(10usize, 5u8) as u16) } } #[inline] pub fn set_ypos(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(10usize, 5u8, val as u64) } } #[inline] pub fn new_bitfield_1( style: u16_, color: u16_, scale: u16_, ypos: u16_, ) -> __BindgenBitfieldUnit<[u8; 2usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 2usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 3u8, { let style: u16 = unsafe { ::core::mem::transmute(style) }; style as u64 }); __bindgen_bitfield_unit.set(3usize, 3u8, { let color: u16 = unsafe { ::core::mem::transmute(color) }; color as u64 }); __bindgen_bitfield_unit.set(6usize, 4u8, { let scale: u16 = unsafe { ::core::mem::transmute(scale) }; scale as u64 }); __bindgen_bitfield_unit.set(10usize, 5u8, { let ypos: u16 = unsafe { ::core::mem::transmute(ypos) }; ypos as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(2))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_14 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 2usize]>, } impl MiiData__bindgen_ty_14 { #[inline] pub fn style(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 4u8) as u16) } } #[inline] pub fn set_style(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 4u8, val as u64) } } #[inline] pub fn color(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(4usize, 3u8) as u16) } } #[inline] pub fn set_color(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(4usize, 3u8, val as u64) } } #[inline] pub fn scale(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(7usize, 4u8) as u16) } } #[inline] pub fn set_scale(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(7usize, 4u8, val as u64) } } #[inline] pub fn ypos(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(11usize, 5u8) as u16) } } #[inline] pub fn set_ypos(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(11usize, 5u8, val as u64) } } #[inline] pub fn new_bitfield_1( style: u16_, color: u16_, scale: u16_, ypos: u16_, ) -> __BindgenBitfieldUnit<[u8; 2usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 2usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 4u8, { let style: u16 = unsafe { ::core::mem::transmute(style) }; style as u64 }); __bindgen_bitfield_unit.set(4usize, 3u8, { let color: u16 = unsafe { ::core::mem::transmute(color) }; color as u64 }); __bindgen_bitfield_unit.set(7usize, 4u8, { let scale: u16 = unsafe { ::core::mem::transmute(scale) }; scale as u64 }); __bindgen_bitfield_unit.set(11usize, 5u8, { let ypos: u16 = unsafe { ::core::mem::transmute(ypos) }; ypos as u64 }); __bindgen_bitfield_unit } } #[repr(C)] #[repr(align(2))] #[derive(Debug, Default, Copy, Clone)] pub struct MiiData__bindgen_ty_15 { pub _bitfield_align_1: [u8; 0], pub _bitfield_1: __BindgenBitfieldUnit<[u8; 2usize]>, } impl MiiData__bindgen_ty_15 { #[inline] pub fn enable(&self) -> bool { unsafe { ::core::mem::transmute(self._bitfield_1.get(0usize, 1u8) as u8) } } #[inline] pub fn set_enable(&mut self, val: bool) { unsafe { let val: u8 = ::core::mem::transmute(val); self._bitfield_1.set(0usize, 1u8, val as u64) } } #[inline] pub fn scale(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(1usize, 5u8) as u16) } } #[inline] pub fn set_scale(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(1usize, 5u8, val as u64) } } #[inline] pub fn xpos(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(6usize, 5u8) as u16) } } #[inline] pub fn set_xpos(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(6usize, 5u8, val as u64) } } #[inline] pub fn ypos(&self) -> u16_ { unsafe { ::core::mem::transmute(self._bitfield_1.get(11usize, 5u8) as u16) } } #[inline] pub fn set_ypos(&mut self, val: u16_) { unsafe { let val: u16 = ::core::mem::transmute(val); self._bitfield_1.set(11usize, 5u8, val as u64) } } #[inline] pub fn new_bitfield_1( enable: bool, scale: u16_, xpos: u16_, ypos: u16_, ) -> __BindgenBitfieldUnit<[u8; 2usize]> { let mut __bindgen_bitfield_unit: __BindgenBitfieldUnit<[u8; 2usize]> = Default::default(); __bindgen_bitfield_unit.set(0usize, 1u8, { let enable: u8 = unsafe { ::core::mem::transmute(enable) }; enable as u64 }); __bindgen_bitfield_unit.set(1usize, 5u8, { let scale: u16 = unsafe { ::core::mem::transmute(scale) }; scale as u64 }); __bindgen_bitfield_unit.set(6usize, 5u8, { let xpos: u16 = unsafe { ::core::mem::transmute(xpos) }; xpos as u64 }); __bindgen_bitfield_unit.set(11usize, 5u8, { let ypos: u16 = unsafe { ::core::mem::transmute(ypos) }; ypos as u64 }); __bindgen_bitfield_unit } } impl Default for MiiData { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct FriendKey { pub principalId: u32_, pub padding: u32_, pub localFriendCode: u64_, } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct TitleData { pub tid: u64_, pub version: u32_, pub unk: u32_, } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct FriendProfile { pub region: u8_, pub country: u8_, pub area: u8_, pub language: u8_, pub platform: u8_, pub padding: u32_, } #[repr(C, packed)] #[derive(Debug, Copy, Clone)] pub struct GameDescription { pub data: TitleData, pub desc: [u16_; 128usize], } impl Default for GameDescription { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C, packed)] #[derive(Debug, Default, Copy, Clone)] pub struct NotificationEvent { pub type_: u8_, pub padding3: [u8_; 3usize], pub padding: u32_, pub key: FriendKey, } pub const USER_WENT_ONLINE: NotificationTypes = 1; pub const USER_WENT_OFFLINE: NotificationTypes = 2; pub const FRIEND_WENT_ONLINE: NotificationTypes = 3; pub const FRIEND_UPDATED_PRESENCE: NotificationTypes = 4; pub const FRIEND_UPDATED_MII: NotificationTypes = 5; pub const FRIEND_UPDATED_PROFILE: NotificationTypes = 6; pub const FRIEND_WENT_OFFLINE: NotificationTypes = 7; pub const FRIEND_REGISTERED_USER: NotificationTypes = 8; pub const FRIEND_SENT_INVITATION: NotificationTypes = 9; pub type NotificationTypes = ::libc::c_uint; extern "C" { pub fn frdInit() -> Result; } extern "C" { pub fn frdExit(); } extern "C" { pub fn frdGetSessionHandle() -> *mut Handle; } extern "C" { pub fn FRDU_HasLoggedIn(state: *mut bool) -> Result; } extern "C" { pub fn FRDU_IsOnline(state: *mut bool) -> Result; } extern "C" { pub fn FRD_Logout() -> Result; } extern "C" { pub fn FRD_Login(event: Handle) -> Result; } extern "C" { pub fn FRD_GetMyFriendKey(key: *mut FriendKey) -> Result; } extern "C" { pub fn FRD_GetMyPreference( isPublicMode: *mut bool, isShowGameName: *mut bool, isShowPlayedGame: *mut bool, ) -> Result; } extern "C" { pub fn FRD_GetMyProfile(profile: *mut FriendProfile) -> Result; } extern "C" { pub fn FRD_GetMyScreenName(name: *mut ::libc::c_char, max_size: size_t) -> Result; } extern "C" { pub fn FRD_GetMyMii(mii: *mut MiiData) -> Result; } extern "C" { pub fn FRD_GetMyPlayingGame(titleId: *mut u64_) -> Result; } extern "C" { pub fn FRD_GetMyFavoriteGame(titleId: *mut u64_) -> Result; } extern "C" { pub fn FRD_GetMyComment(comment: *mut ::libc::c_char, max_size: size_t) -> Result; } extern "C" { pub fn FRD_GetFriendKeyList( friendKeyList: *mut FriendKey, num: *mut u32_, offset: u32_, size: u32_, ) -> Result; } extern "C" { pub fn FRD_GetFriendMii( miiDataList: *mut MiiData, friendKeyList: *const FriendKey, size: size_t, ) -> Result; } extern "C" { pub fn FRD_GetFriendProfile( profile: *mut FriendProfile, friendKeyList: *const FriendKey, size: size_t, ) -> Result; } extern "C" { pub fn FRD_GetFriendPlayingGame( desc: *mut GameDescription, friendKeyList: *const FriendKey, size: size_t, ) -> Result; } extern "C" { pub fn FRD_GetFriendFavouriteGame( desc: *mut GameDescription, friendKeyList: *const FriendKey, count: u32_, ) -> Result; } extern "C" { pub fn FRD_IsInFriendList(friendKeyList: *mut FriendKey, isFromList: *mut bool) -> Result; } extern "C" { pub fn FRD_UpdateGameModeDescription(desc: *const ::libc::c_char) -> Result; } extern "C" { pub fn FRD_AttachToEventNotification(event: Handle) -> Result; } extern "C" { pub fn FRD_GetEventNotification( event: *mut NotificationEvent, count: u32_, recievedNotifCount: *mut u32_, ) -> Result; } extern "C" { pub fn FRD_PrincipalIdToFriendCode(principalId: u32_, friendCode: *mut u64_) -> Result; } extern "C" { pub fn FRD_FriendCodeToPrincipalId(friendCode: u64_, principalId: *mut u32_) -> Result; } extern "C" { pub fn FRD_IsValidFriendCode(friendCode: u64_, isValid: *mut bool) -> Result; } extern "C" { pub fn FRD_SetClientSdkVersion(sdkVer: u32_) -> Result; } extern "C" { pub fn FRD_AddFriendOnline(event: Handle, principalId: u32_) -> Result; } extern "C" { pub fn FRD_RemoveFriend(principalId: u32_, localFriendCode: u64_) -> Result; } pub const GSPLCD_SCREEN_TOP: ::libc::c_uint = 1; pub const GSPLCD_SCREEN_BOTTOM: ::libc::c_uint = 2; pub const GSPLCD_SCREEN_BOTH: ::libc::c_uint = 3; pub type _bindgen_ty_21 = ::libc::c_uint; extern "C" { pub fn gspLcdInit() -> Result; } extern "C" { pub fn gspLcdExit(); } extern "C" { pub fn GSPLCD_PowerOnAllBacklights() -> Result; } extern "C" { pub fn GSPLCD_PowerOffAllBacklights() -> Result; } extern "C" { pub fn GSPLCD_PowerOnBacklight(screen: u32_) -> Result; } extern "C" { pub fn GSPLCD_PowerOffBacklight(screen: u32_) -> Result; } extern "C" { pub fn GSPLCD_SetLedForceOff(disable: bool) -> Result; } extern "C" { pub fn GSPLCD_GetVendors(vendors: *mut u8_) -> Result; } extern "C" { pub fn GSPLCD_GetBrightness(screen: u32_, brightness: *mut u32_) -> Result; } extern "C" { pub fn GSPLCD_SetBrightness(screen: u32_, brightness: u32_) -> Result; } extern "C" { pub fn GSPLCD_SetBrightnessRaw(screen: u32_, brightness: u32_) -> Result; } pub const KEY_A: ::libc::c_uint = 1; pub const KEY_B: ::libc::c_uint = 2; pub const KEY_SELECT: ::libc::c_uint = 4; pub const KEY_START: ::libc::c_uint = 8; pub const KEY_DRIGHT: ::libc::c_uint = 16; pub const KEY_DLEFT: ::libc::c_uint = 32; pub const KEY_DUP: ::libc::c_uint = 64; pub const KEY_DDOWN: ::libc::c_uint = 128; pub const KEY_R: ::libc::c_uint = 256; pub const KEY_L: ::libc::c_uint = 512; pub const KEY_X: ::libc::c_uint = 1024; pub const KEY_Y: ::libc::c_uint = 2048; pub const KEY_ZL: ::libc::c_uint = 16384; pub const KEY_ZR: ::libc::c_uint = 32768; pub const KEY_TOUCH: ::libc::c_uint = 1048576; pub const KEY_CSTICK_RIGHT: ::libc::c_uint = 16777216; pub const KEY_CSTICK_LEFT: ::libc::c_uint = 33554432; pub const KEY_CSTICK_UP: ::libc::c_uint = 67108864; pub const KEY_CSTICK_DOWN: ::libc::c_uint = 134217728; pub const KEY_CPAD_RIGHT: ::libc::c_uint = 268435456; pub const KEY_CPAD_LEFT: ::libc::c_uint = 536870912; pub const KEY_CPAD_UP: ::libc::c_uint = 1073741824; pub const KEY_CPAD_DOWN: ::libc::c_uint = 2147483648; pub const KEY_UP: ::libc::c_uint = 1073741888; pub const KEY_DOWN: ::libc::c_uint = 2147483776; pub const KEY_LEFT: ::libc::c_uint = 536870944; pub const KEY_RIGHT: ::libc::c_uint = 268435472; pub type _bindgen_ty_22 = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct touchPosition { pub px: u16_, pub py: u16_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct circlePosition { pub dx: s16, pub dy: s16, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct accelVector { pub x: s16, pub y: s16, pub z: s16, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct angularRate { pub x: s16, pub z: s16, pub y: s16, } pub const HIDEVENT_PAD0: HID_Event = 0; pub const HIDEVENT_PAD1: HID_Event = 1; pub const HIDEVENT_Accel: HID_Event = 2; pub const HIDEVENT_Gyro: HID_Event = 3; pub const HIDEVENT_DebugPad: HID_Event = 4; pub const HIDEVENT_MAX: HID_Event = 5; pub type HID_Event = ::libc::c_uint; extern "C" { pub static mut hidMemHandle: Handle; } extern "C" { pub static mut hidSharedMem: *mut vu32; } extern "C" { pub fn hidInit() -> Result; } extern "C" { pub fn hidExit(); } extern "C" { pub fn hidSetRepeatParameters(delay: u32_, interval: u32_); } extern "C" { pub fn hidScanInput(); } extern "C" { pub fn hidKeysHeld() -> u32_; } extern "C" { pub fn hidKeysDown() -> u32_; } extern "C" { pub fn hidKeysDownRepeat() -> u32_; } extern "C" { pub fn hidKeysUp() -> u32_; } extern "C" { pub fn hidTouchRead(pos: *mut touchPosition); } extern "C" { pub fn hidCircleRead(pos: *mut circlePosition); } extern "C" { pub fn hidAccelRead(vector: *mut accelVector); } extern "C" { pub fn hidGyroRead(rate: *mut angularRate); } extern "C" { pub fn hidWaitForEvent(id: HID_Event, nextEvent: bool); } extern "C" { pub fn hidWaitForAnyEvent(nextEvents: bool, cancelEvent: Handle, timeout: s64) -> Result; } extern "C" { pub fn HIDUSER_GetHandles( outMemHandle: *mut Handle, eventpad0: *mut Handle, eventpad1: *mut Handle, eventaccel: *mut Handle, eventgyro: *mut Handle, eventdebugpad: *mut Handle, ) -> Result; } extern "C" { pub fn HIDUSER_EnableAccelerometer() -> Result; } extern "C" { pub fn HIDUSER_DisableAccelerometer() -> Result; } extern "C" { pub fn HIDUSER_EnableGyroscope() -> Result; } extern "C" { pub fn HIDUSER_DisableGyroscope() -> Result; } extern "C" { pub fn HIDUSER_GetGyroscopeRawToDpsCoefficient(coeff: *mut f32) -> Result; } extern "C" { pub fn HIDUSER_GetSoundVolume(volume: *mut u8_) -> Result; } extern "C" { pub static mut irrstMemHandle: Handle; } extern "C" { pub static mut irrstSharedMem: *mut vu32; } extern "C" { pub static mut irrstEvent: Handle; } extern "C" { pub fn irrstInit() -> Result; } extern "C" { pub fn irrstExit(); } extern "C" { pub fn irrstScanInput(); } extern "C" { pub fn irrstKeysHeld() -> u32_; } extern "C" { pub fn irrstCstickRead(pos: *mut circlePosition); } extern "C" { pub fn irrstWaitForEvent(nextEvent: bool); } extern "C" { pub fn IRRST_GetHandles(outMemHandle: *mut Handle, outEventHandle: *mut Handle) -> Result; } extern "C" { pub fn IRRST_Initialize(unk1: u32_, unk2: u8_) -> Result; } extern "C" { pub fn IRRST_Shutdown() -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct sslcContext { pub servhandle: Handle, pub sslchandle: u32_, pub sharedmem_handle: Handle, } pub const SSLC_DefaultRootCert_Nintendo_CA: SSLC_DefaultRootCert = 1; pub const SSLC_DefaultRootCert_Nintendo_CA_G2: SSLC_DefaultRootCert = 2; pub const SSLC_DefaultRootCert_Nintendo_CA_G3: SSLC_DefaultRootCert = 3; pub const SSLC_DefaultRootCert_Nintendo_Class2_CA: SSLC_DefaultRootCert = 4; pub const SSLC_DefaultRootCert_Nintendo_Class2_CA_G2: SSLC_DefaultRootCert = 5; pub const SSLC_DefaultRootCert_Nintendo_Class2_CA_G3: SSLC_DefaultRootCert = 6; pub const SSLC_DefaultRootCert_CyberTrust: SSLC_DefaultRootCert = 7; pub const SSLC_DefaultRootCert_AddTrust_External_CA: SSLC_DefaultRootCert = 8; pub const SSLC_DefaultRootCert_COMODO: SSLC_DefaultRootCert = 9; pub const SSLC_DefaultRootCert_USERTrust: SSLC_DefaultRootCert = 10; pub const SSLC_DefaultRootCert_DigiCert_EV: SSLC_DefaultRootCert = 11; pub type SSLC_DefaultRootCert = ::libc::c_uint; pub const SSLC_DefaultClientCert_ClCertA: SSLC_DefaultClientCert = 64; pub type SSLC_DefaultClientCert = ::libc::c_uint; pub const SSLCOPT_Default: ::libc::c_uint = 0; pub const SSLCOPT_DisableVerify: ::libc::c_uint = 512; pub const SSLCOPT_TLSv10: ::libc::c_uint = 2048; pub type _bindgen_ty_23 = ::libc::c_uint; extern "C" { pub fn sslcInit(session_handle: Handle) -> Result; } extern "C" { pub fn sslcExit(); } extern "C" { pub fn sslcCreateRootCertChain(RootCertChain_contexthandle: *mut u32_) -> Result; } extern "C" { pub fn sslcDestroyRootCertChain(RootCertChain_contexthandle: u32_) -> Result; } extern "C" { pub fn sslcAddTrustedRootCA( RootCertChain_contexthandle: u32_, cert: *const u8_, certsize: u32_, cert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn sslcRootCertChainAddDefaultCert( RootCertChain_contexthandle: u32_, certID: SSLC_DefaultRootCert, cert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn sslcRootCertChainRemoveCert( RootCertChain_contexthandle: u32_, cert_contexthandle: u32_, ) -> Result; } extern "C" { pub fn sslcCreate8CertChain(CertChain_contexthandle: *mut u32_) -> Result; } extern "C" { pub fn sslcDestroy8CertChain(CertChain_contexthandle: u32_) -> Result; } extern "C" { pub fn sslc8CertChainAddCert( CertChain_contexthandle: u32_, cert: *const u8_, certsize: u32_, cert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn sslc8CertChainAddDefaultCert( CertChain_contexthandle: u32_, certID: u8_, cert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn sslc8CertChainRemoveCert( CertChain_contexthandle: u32_, cert_contexthandle: u32_, ) -> Result; } extern "C" { pub fn sslcOpenClientCertContext( cert: *const u8_, certsize: u32_, key: *const u8_, keysize: u32_, ClientCert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn sslcOpenDefaultClientCertContext( certID: SSLC_DefaultClientCert, ClientCert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn sslcCloseClientCertContext(ClientCert_contexthandle: u32_) -> Result; } extern "C" { pub fn sslcSeedRNG() -> Result; } extern "C" { pub fn sslcGenerateRandomData(buf: *mut u8_, size: u32_) -> Result; } extern "C" { pub fn sslcCreateContext( context: *mut sslcContext, sockfd: ::libc::c_int, input_opt: u32_, hostname: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn sslcDestroyContext(context: *mut sslcContext) -> Result; } extern "C" { pub fn sslcStartConnection( context: *mut sslcContext, internal_retval: *mut ::libc::c_int, out: *mut u32_, ) -> Result; } extern "C" { pub fn sslcRead( context: *mut sslcContext, buf: *mut ::libc::c_void, len: size_t, peek: bool, ) -> Result; } extern "C" { pub fn sslcWrite(context: *mut sslcContext, buf: *const ::libc::c_void, len: size_t) -> Result; } extern "C" { pub fn sslcContextSetRootCertChain(context: *mut sslcContext, handle: u32_) -> Result; } extern "C" { pub fn sslcContextSetClientCert(context: *mut sslcContext, handle: u32_) -> Result; } extern "C" { pub fn sslcContextSetHandle8(context: *mut sslcContext, handle: u32_) -> Result; } extern "C" { pub fn sslcContextClearOpt(context: *mut sslcContext, bitmask: u32_) -> Result; } extern "C" { pub fn sslcContextGetProtocolCipher( context: *mut sslcContext, outprotocols: *mut ::libc::c_char, outprotocols_maxsize: u32_, outcipher: *mut ::libc::c_char, outcipher_maxsize: u32_, ) -> Result; } extern "C" { pub fn sslcContextGetState(context: *mut sslcContext, out: *mut u32_) -> Result; } extern "C" { pub fn sslcContextInitSharedmem(context: *mut sslcContext, buf: *mut u8_, size: u32_) -> Result; } extern "C" { pub fn sslcAddCert(context: *mut sslcContext, buf: *const u8_, size: u32_) -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct httpcContext { pub servhandle: Handle, pub httphandle: u32_, } pub const HTTPC_METHOD_GET: HTTPC_RequestMethod = 1; pub const HTTPC_METHOD_POST: HTTPC_RequestMethod = 2; pub const HTTPC_METHOD_HEAD: HTTPC_RequestMethod = 3; pub const HTTPC_METHOD_PUT: HTTPC_RequestMethod = 4; pub const HTTPC_METHOD_DELETE: HTTPC_RequestMethod = 5; pub type HTTPC_RequestMethod = ::libc::c_uint; pub const HTTPC_STATUS_REQUEST_IN_PROGRESS: HTTPC_RequestStatus = 5; pub const HTTPC_STATUS_DOWNLOAD_READY: HTTPC_RequestStatus = 7; pub type HTTPC_RequestStatus = ::libc::c_uint; pub const HTTPC_KEEPALIVE_DISABLED: HTTPC_KeepAlive = 0; pub const HTTPC_KEEPALIVE_ENABLED: HTTPC_KeepAlive = 1; pub type HTTPC_KeepAlive = ::libc::c_uint; extern "C" { pub fn httpcInit(sharedmem_size: u32_) -> Result; } extern "C" { pub fn httpcExit(); } extern "C" { pub fn httpcOpenContext( context: *mut httpcContext, method: HTTPC_RequestMethod, url: *const ::libc::c_char, use_defaultproxy: u32_, ) -> Result; } extern "C" { pub fn httpcCloseContext(context: *mut httpcContext) -> Result; } extern "C" { pub fn httpcCancelConnection(context: *mut httpcContext) -> Result; } extern "C" { pub fn httpcAddRequestHeaderField( context: *mut httpcContext, name: *const ::libc::c_char, value: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn httpcAddPostDataAscii( context: *mut httpcContext, name: *const ::libc::c_char, value: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn httpcAddPostDataBinary( context: *mut httpcContext, name: *const ::libc::c_char, value: *const u8_, len: u32_, ) -> Result; } extern "C" { pub fn httpcAddPostDataRaw(context: *mut httpcContext, data: *const u32_, len: u32_) -> Result; } extern "C" { pub fn httpcBeginRequest(context: *mut httpcContext) -> Result; } extern "C" { pub fn httpcReceiveData(context: *mut httpcContext, buffer: *mut u8_, size: u32_) -> Result; } extern "C" { pub fn httpcReceiveDataTimeout( context: *mut httpcContext, buffer: *mut u8_, size: u32_, timeout: u64_, ) -> Result; } extern "C" { pub fn httpcGetRequestState( context: *mut httpcContext, out: *mut HTTPC_RequestStatus, ) -> Result; } extern "C" { pub fn httpcGetDownloadSizeState( context: *mut httpcContext, downloadedsize: *mut u32_, contentsize: *mut u32_, ) -> Result; } extern "C" { pub fn httpcGetResponseStatusCode(context: *mut httpcContext, out: *mut u32_) -> Result; } extern "C" { pub fn httpcGetResponseStatusCodeTimeout( context: *mut httpcContext, out: *mut u32_, timeout: u64_, ) -> Result; } extern "C" { pub fn httpcGetResponseHeader( context: *mut httpcContext, name: *const ::libc::c_char, value: *mut ::libc::c_char, valuebuf_maxsize: u32_, ) -> Result; } extern "C" { pub fn httpcAddTrustedRootCA( context: *mut httpcContext, cert: *const u8_, certsize: u32_, ) -> Result; } extern "C" { pub fn httpcAddDefaultCert(context: *mut httpcContext, certID: SSLC_DefaultRootCert) -> Result; } extern "C" { pub fn httpcSelectRootCertChain( context: *mut httpcContext, RootCertChain_contexthandle: u32_, ) -> Result; } extern "C" { pub fn httpcSetClientCert( context: *mut httpcContext, cert: *const u8_, certsize: u32_, privk: *const u8_, privk_size: u32_, ) -> Result; } extern "C" { pub fn httpcSetClientCertDefault( context: *mut httpcContext, certID: SSLC_DefaultClientCert, ) -> Result; } extern "C" { pub fn httpcSetClientCertContext( context: *mut httpcContext, ClientCert_contexthandle: u32_, ) -> Result; } extern "C" { pub fn httpcSetSSLOpt(context: *mut httpcContext, options: u32_) -> Result; } extern "C" { pub fn httpcSetSSLClearOpt(context: *mut httpcContext, options: u32_) -> Result; } extern "C" { pub fn httpcCreateRootCertChain(RootCertChain_contexthandle: *mut u32_) -> Result; } extern "C" { pub fn httpcDestroyRootCertChain(RootCertChain_contexthandle: u32_) -> Result; } extern "C" { pub fn httpcRootCertChainAddCert( RootCertChain_contexthandle: u32_, cert: *const u8_, certsize: u32_, cert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn httpcRootCertChainAddDefaultCert( RootCertChain_contexthandle: u32_, certID: SSLC_DefaultRootCert, cert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn httpcRootCertChainRemoveCert( RootCertChain_contexthandle: u32_, cert_contexthandle: u32_, ) -> Result; } extern "C" { pub fn httpcOpenClientCertContext( cert: *const u8_, certsize: u32_, privk: *const u8_, privk_size: u32_, ClientCert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn httpcOpenDefaultClientCertContext( certID: SSLC_DefaultClientCert, ClientCert_contexthandle: *mut u32_, ) -> Result; } extern "C" { pub fn httpcCloseClientCertContext(ClientCert_contexthandle: u32_) -> Result; } extern "C" { pub fn httpcDownloadData( context: *mut httpcContext, buffer: *mut u8_, size: u32_, downloadedsize: *mut u32_, ) -> Result; } extern "C" { pub fn httpcSetKeepAlive(context: *mut httpcContext, option: HTTPC_KeepAlive) -> Result; } #[repr(C)] #[derive(Copy, Clone)] pub struct udsNodeInfo { pub uds_friendcodeseed: u64_, pub __bindgen_anon_1: udsNodeInfo__bindgen_ty_1, pub NetworkNodeID: u16_, pub pad_x22: u16_, pub word_x24: u32_, } #[repr(C)] #[derive(Copy, Clone)] pub union udsNodeInfo__bindgen_ty_1 { pub usercfg: [u8_; 24usize], pub __bindgen_anon_1: udsNodeInfo__bindgen_ty_1__bindgen_ty_1, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct udsNodeInfo__bindgen_ty_1__bindgen_ty_1 { pub username: [u16_; 10usize], pub unk_x1c: u16_, pub flag: u8_, pub pad_x1f: u8_, } impl Default for udsNodeInfo__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for udsNodeInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct udsConnectionStatus { pub status: u32_, pub unk_x4: u32_, pub cur_NetworkNodeID: u16_, pub unk_xa: u16_, pub unk_xc: [u32_; 8usize], pub total_nodes: u8_, pub max_nodes: u8_, pub node_bitmask: u16_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct udsNetworkStruct { pub host_macaddress: [u8_; 6usize], pub channel: u8_, pub pad_x7: u8_, pub initialized_flag: u8_, pub unk_x9: [u8_; 3usize], pub oui_value: [u8_; 3usize], pub oui_type: u8_, pub wlancommID: u32_, pub id8: u8_, pub unk_x15: u8_, pub attributes: u16_, pub networkID: u32_, pub total_nodes: u8_, pub max_nodes: u8_, pub unk_x1e: u8_, pub unk_x1f: u8_, pub unk_x20: [u8_; 31usize], pub appdata_size: u8_, pub appdata: [u8_; 200usize], } impl Default for udsNetworkStruct { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct udsBindContext { pub BindNodeID: u32_, pub event: Handle, pub spectator: bool, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct nwmScanInputStruct { pub unk_x0: u16_, pub unk_x2: u16_, pub unk_x4: u16_, pub unk_x6: u16_, pub mac_address: [u8_; 6usize], pub unk_xe: [u8_; 38usize], } impl Default for nwmScanInputStruct { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct nwmBeaconDataReplyHeader { pub maxsize: u32_, pub size: u32_, pub total_entries: u32_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct nwmBeaconDataReplyEntry { pub size: u32_, pub unk_x4: u8_, pub channel: u8_, pub unk_x6: u8_, pub unk_x7: u8_, pub mac_address: [u8_; 6usize], pub unk_xe: [u8_; 6usize], pub unk_x14: u32_, pub val_x1c: u32_, } #[repr(C)] #[derive(Copy, Clone)] pub struct udsNetworkScanInfo { pub datareply_entry: nwmBeaconDataReplyEntry, pub network: udsNetworkStruct, pub nodes: [udsNodeInfo; 16usize], } impl Default for udsNetworkScanInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const UDSNETATTR_DisableConnectSpectators: ::libc::c_uint = 1; pub const UDSNETATTR_DisableConnectClients: ::libc::c_uint = 2; pub const UDSNETATTR_x4: ::libc::c_uint = 4; pub const UDSNETATTR_Default: ::libc::c_uint = 32768; pub type _bindgen_ty_24 = ::libc::c_uint; pub const UDS_SENDFLAG_Default: ::libc::c_uint = 1; pub const UDS_SENDFLAG_Broadcast: ::libc::c_uint = 2; pub type _bindgen_ty_25 = ::libc::c_uint; pub const UDSCONTYPE_Client: udsConnectionType = 1; pub const UDSCONTYPE_Spectator: udsConnectionType = 2; pub type udsConnectionType = ::libc::c_uint; extern "C" { pub fn udsInit(sharedmem_size: size_t, username: *const ::libc::c_char) -> Result; } extern "C" { pub fn udsExit(); } extern "C" { pub fn udsGenerateNodeInfo( nodeinfo: *mut udsNodeInfo, username: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn udsGetNodeInfoUsername( nodeinfo: *const udsNodeInfo, username: *mut ::libc::c_char, ) -> Result; } extern "C" { pub fn udsCheckNodeInfoInitialized(nodeinfo: *const udsNodeInfo) -> bool; } extern "C" { pub fn udsGenerateDefaultNetworkStruct( network: *mut udsNetworkStruct, wlancommID: u32_, id8: u8_, max_nodes: u8_, ); } extern "C" { pub fn udsScanBeacons( outbuf: *mut ::libc::c_void, maxsize: size_t, networks: *mut *mut udsNetworkScanInfo, total_networks: *mut size_t, wlancommID: u32_, id8: u8_, host_macaddress: *const u8_, connected: bool, ) -> Result; } extern "C" { pub fn udsSetApplicationData(buf: *const ::libc::c_void, size: size_t) -> Result; } extern "C" { pub fn udsGetApplicationData( buf: *mut ::libc::c_void, size: size_t, actual_size: *mut size_t, ) -> Result; } extern "C" { pub fn udsGetNetworkStructApplicationData( network: *const udsNetworkStruct, buf: *mut ::libc::c_void, size: size_t, actual_size: *mut size_t, ) -> Result; } extern "C" { pub fn udsBind( bindcontext: *mut udsBindContext, NetworkNodeID: u16_, spectator: bool, data_channel: u8_, recv_buffer_size: u32_, ) -> Result; } extern "C" { pub fn udsUnbind(bindcontext: *mut udsBindContext) -> Result; } extern "C" { pub fn udsWaitDataAvailable( bindcontext: *const udsBindContext, nextEvent: bool, wait: bool, ) -> bool; } extern "C" { pub fn udsPullPacket( bindcontext: *const udsBindContext, buf: *mut ::libc::c_void, size: size_t, actual_size: *mut size_t, src_NetworkNodeID: *mut u16_, ) -> Result; } extern "C" { pub fn udsSendTo( dst_NetworkNodeID: u16_, data_channel: u8_, flags: u8_, buf: *const ::libc::c_void, size: size_t, ) -> Result; } extern "C" { pub fn udsGetChannel(channel: *mut u8_) -> Result; } extern "C" { pub fn udsCreateNetwork( network: *const udsNetworkStruct, passphrase: *const ::libc::c_void, passphrase_size: size_t, context: *mut udsBindContext, data_channel: u8_, recv_buffer_size: u32_, ) -> Result; } extern "C" { pub fn udsConnectNetwork( network: *const udsNetworkStruct, passphrase: *const ::libc::c_void, passphrase_size: size_t, context: *mut udsBindContext, recv_NetworkNodeID: u16_, connection_type: udsConnectionType, data_channel: u8_, recv_buffer_size: u32_, ) -> Result; } extern "C" { pub fn udsDestroyNetwork() -> Result; } extern "C" { pub fn udsDisconnectNetwork() -> Result; } extern "C" { pub fn udsEjectClient(NetworkNodeID: u16_) -> Result; } extern "C" { pub fn udsEjectSpectator() -> Result; } extern "C" { pub fn udsUpdateNetworkAttribute(bitmask: u16_, flag: bool) -> Result; } extern "C" { pub fn udsSetNewConnectionsBlocked(block: bool, clients: bool, flag: bool) -> Result; } extern "C" { pub fn udsAllowSpectators() -> Result; } extern "C" { pub fn udsGetConnectionStatus(output: *mut udsConnectionStatus) -> Result; } extern "C" { pub fn udsWaitConnectionStatusEvent(nextEvent: bool, wait: bool) -> bool; } extern "C" { pub fn udsGetNodeInformation(NetworkNodeID: u16_, output: *mut udsNodeInfo) -> Result; } pub const NDM_EXCLUSIVE_STATE_NONE: ndmExclusiveState = 0; pub const NDM_EXCLUSIVE_STATE_INFRASTRUCTURE: ndmExclusiveState = 1; pub const NDM_EXCLUSIVE_STATE_LOCAL_COMMUNICATIONS: ndmExclusiveState = 2; pub const NDM_EXCLUSIVE_STATE_STREETPASS: ndmExclusiveState = 3; pub const NDM_EXCLUSIVE_STATE_STREETPASS_DATA: ndmExclusiveState = 4; pub type ndmExclusiveState = ::libc::c_uint; pub const NDM_STATE_INITIAL: ndmState = 0; pub const NDM_STATE_SUSPENDED: ndmState = 1; pub const NDM_STATE_INFRASTRUCTURE_CONNECTING: ndmState = 2; pub const NDM_STATE_INFRASTRUCTURE_CONNECTED: ndmState = 3; pub const NDM_STATE_INFRASTRUCTURE_WORKING: ndmState = 4; pub const NDM_STATE_INFRASTRUCTURE_SUSPENDING: ndmState = 5; pub const NDM_STATE_INFRASTRUCTURE_FORCE_SUSPENDING: ndmState = 6; pub const NDM_STATE_INFRASTRUCTURE_DISCONNECTING: ndmState = 7; pub const NDM_STATE_INFRASTRUCTURE_FORCE_DISCONNECTING: ndmState = 8; pub const NDM_STATE_CEC_WORKING: ndmState = 9; pub const NDM_STATE_CEC_FORCE_SUSPENDING: ndmState = 10; pub const NDM_STATE_CEC_SUSPENDING: ndmState = 11; pub type ndmState = ::libc::c_uint; pub const NDM_DAEMON_CEC: ndmDaemon = 0; pub const NDM_DAEMON_BOSS: ndmDaemon = 1; pub const NDM_DAEMON_NIM: ndmDaemon = 2; pub const NDM_DAEMON_FRIENDS: ndmDaemon = 3; pub type ndmDaemon = ::libc::c_uint; pub const NDM_DAEMON_MASK_CEC: ndmDaemonMask = 1; pub const NDM_DAEMON_MASK_BOSS: ndmDaemonMask = 2; pub const NDM_DAEMON_MASK_NIM: ndmDaemonMask = 4; pub const NDM_DAEMON_MASK_FRIENDS: ndmDaemonMask = 8; pub const NDM_DAEMON_MASK_BACKGROUOND: ndmDaemonMask = 7; pub const NDM_DAEMON_MASK_ALL: ndmDaemonMask = 15; pub const NDM_DAEMON_MASK_DEFAULT: ndmDaemonMask = 9; pub type ndmDaemonMask = ::libc::c_uint; pub const NDM_DAEMON_STATUS_BUSY: ndmDaemonStatus = 0; pub const NDM_DAEMON_STATUS_IDLE: ndmDaemonStatus = 1; pub const NDM_DAEMON_STATUS_SUSPENDING: ndmDaemonStatus = 2; pub const NDM_DAEMON_STATUS_SUSPENDED: ndmDaemonStatus = 3; pub type ndmDaemonStatus = ::libc::c_uint; extern "C" { pub fn ndmuInit() -> Result; } extern "C" { pub fn ndmuExit(); } extern "C" { pub fn NDMU_EnterExclusiveState(state: ndmExclusiveState) -> Result; } extern "C" { pub fn NDMU_LeaveExclusiveState() -> Result; } extern "C" { pub fn NDMU_GetExclusiveState(state: *mut ndmExclusiveState) -> Result; } extern "C" { pub fn NDMU_LockState() -> Result; } extern "C" { pub fn NDMU_UnlockState() -> Result; } extern "C" { pub fn NDMU_SuspendDaemons(mask: ndmDaemonMask) -> Result; } extern "C" { pub fn NDMU_ResumeDaemons(mask: ndmDaemonMask) -> Result; } extern "C" { pub fn NDMU_SuspendScheduler(flag: u32_) -> Result; } extern "C" { pub fn NDMU_ResumeScheduler() -> Result; } extern "C" { pub fn NDMU_GetCurrentState(state: *mut ndmState) -> Result; } extern "C" { pub fn NDMU_QueryStatus(status: *mut ndmDaemonStatus) -> Result; } extern "C" { pub fn NDMU_SetScanInterval(interval: u32_) -> Result; } extern "C" { pub fn NDMU_GetScanInterval(interval: *mut u32_) -> Result; } extern "C" { pub fn NDMU_GetRetryInterval(interval: *mut u32_) -> Result; } extern "C" { pub fn NDMU_ResetDaemons() -> Result; } extern "C" { pub fn NDMU_GetDefaultDaemons(mask: *mut ndmDaemonMask) -> Result; } extern "C" { pub fn NDMU_ClearMacFilter() -> Result; } pub const IM_DEFAULT: NIM_InstallationMode = 0; pub const IM_UNKNOWN1: NIM_InstallationMode = 1; pub const IM_UNKNOWN2: NIM_InstallationMode = 2; pub const IM_REINSTALL: NIM_InstallationMode = 3; pub type NIM_InstallationMode = ::libc::c_uint; pub const DS_NOT_INITIALIZED: NIM_DownloadState = 0; pub const DS_INITIALIZED: NIM_DownloadState = 1; pub const DS_DOWNLOAD_TMD: NIM_DownloadState = 2; pub const DS_PREPARE_SAVE_DATA: NIM_DownloadState = 3; pub const DS_DOWNLOAD_CONTENTS: NIM_DownloadState = 4; pub const DS_WAIT_COMMIT: NIM_DownloadState = 5; pub const DS_COMMITTING: NIM_DownloadState = 6; pub const DS_FINISHED: NIM_DownloadState = 7; pub const DS_VERSION_ERROR: NIM_DownloadState = 8; pub const DS_CREATE_CONTEXT: NIM_DownloadState = 9; pub const DS_CANNOT_RECOVER: NIM_DownloadState = 10; pub const DS_INVALID: NIM_DownloadState = 11; pub type NIM_DownloadState = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct NIM_TitleConfig { pub titleId: u64_, pub version: u32_, pub unknown_0: u32_, pub ratingAge: u8_, pub mediaType: u8_, pub padding: [u8_; 2usize], pub unknown_1: u32_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct NIM_TitleProgress { pub state: u32_, pub lastResult: Result, pub downloadedSize: u64_, pub totalSize: u64_, } extern "C" { pub fn nimsInit(buffer: *mut ::libc::c_void, buffer_len: size_t) -> Result; } extern "C" { pub fn nimsInitWithTIN( buffer: *mut ::libc::c_void, buffer_len: size_t, TIN: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn nimsExit(); } extern "C" { pub fn nimsGetSessionHandle() -> *mut Handle; } extern "C" { pub fn NIMS_SetAttribute(attr: *const ::libc::c_char, val: *const ::libc::c_char) -> Result; } extern "C" { pub fn NIMS_WantUpdate(want_update: *mut bool) -> Result; } extern "C" { pub fn NIMS_MakeTitleConfig( cfg: *mut NIM_TitleConfig, titleId: u64_, version: u32_, ratingAge: u8_, mediaType: FS_MediaType, ); } extern "C" { pub fn NIMS_RegisterTask( cfg: *const NIM_TitleConfig, name: *const ::libc::c_char, maker: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn NIMS_IsTaskRegistered(titleId: u64_, registered: *mut bool) -> Result; } extern "C" { pub fn NIMS_UnregisterTask(titleId: u64_) -> Result; } extern "C" { pub fn NIMS_StartDownload(cfg: *const NIM_TitleConfig, mode: NIM_InstallationMode) -> Result; } extern "C" { pub fn NIMS_StartDownloadSimple(cfg: *const NIM_TitleConfig) -> Result; } extern "C" { pub fn NIMS_GetProgress(tp: *mut NIM_TitleProgress) -> Result; } extern "C" { pub fn NIMS_CancelDownload() -> Result; } extern "C" { pub fn nwmExtInit() -> Result; } extern "C" { pub fn nwmExtExit(); } extern "C" { pub fn NWMEXT_ControlWirelessEnabled(enableWifi: bool) -> Result; } extern "C" { pub fn iruInit(sharedmem_addr: *mut u32_, sharedmem_size: u32_) -> Result; } extern "C" { pub fn iruExit(); } extern "C" { pub fn iruGetServHandle() -> Handle; } extern "C" { pub fn iruSendData(buf: *mut u8_, size: u32_, wait: bool) -> Result; } extern "C" { pub fn iruRecvData( buf: *mut u8_, size: u32_, flag: u8_, transfercount: *mut u32_, wait: bool, ) -> Result; } extern "C" { pub fn IRU_Initialize() -> Result; } extern "C" { pub fn IRU_Shutdown() -> Result; } extern "C" { pub fn IRU_StartSendTransfer(buf: *mut u8_, size: u32_) -> Result; } extern "C" { pub fn IRU_WaitSendTransfer() -> Result; } extern "C" { pub fn IRU_StartRecvTransfer(size: u32_, flag: u8_) -> Result; } extern "C" { pub fn IRU_WaitRecvTransfer(transfercount: *mut u32_) -> Result; } extern "C" { pub fn IRU_SetBitRate(value: u8_) -> Result; } extern "C" { pub fn IRU_GetBitRate(out: *mut u8_) -> Result; } extern "C" { pub fn IRU_SetIRLEDState(value: u32_) -> Result; } extern "C" { pub fn IRU_GetIRLEDRecvState(out: *mut u32_) -> Result; } extern "C" { pub fn nsInit() -> Result; } extern "C" { pub fn nsExit(); } extern "C" { pub fn NS_LaunchFIRM(titleid: u64_) -> Result; } extern "C" { pub fn NS_LaunchTitle(titleid: u64_, launch_flags: u32_, procid: *mut u32_) -> Result; } extern "C" { pub fn NS_TerminateTitle() -> Result; } extern "C" { pub fn NS_LaunchApplicationFIRM(titleid: u64_, flags: u32_) -> Result; } extern "C" { pub fn NS_RebootToTitle(mediatype: u8_, titleid: u64_) -> Result; } extern "C" { pub fn NS_TerminateProcessTID(titleid: u64_, timeout: u64_) -> Result; } extern "C" { pub fn NS_RebootSystem() -> Result; } pub const PMLAUNCHFLAG_NORMAL_APPLICATION: ::libc::c_uint = 1; pub const PMLAUNCHFLAG_LOAD_DEPENDENCIES: ::libc::c_uint = 2; pub const PMLAUNCHFLAG_NOTIFY_TERMINATION: ::libc::c_uint = 4; pub const PMLAUNCHFLAG_QUEUE_DEBUG_APPLICATION: ::libc::c_uint = 8; pub const PMLAUNCHFLAG_TERMINATION_NOTIFICATION_MASK: ::libc::c_uint = 240; pub const PMLAUNCHFLAG_FORCE_USE_O3DS_APP_MEM: ::libc::c_uint = 256; pub const PMLAUNCHFLAG_FORCE_USE_O3DS_MAX_APP_MEM: ::libc::c_uint = 512; pub const PMLAUNCHFLAG_USE_UPDATE_TITLE: ::libc::c_uint = 65536; pub type _bindgen_ty_26 = ::libc::c_uint; extern "C" { pub fn pmAppInit() -> Result; } extern "C" { pub fn pmAppExit(); } extern "C" { pub fn pmAppGetSessionHandle() -> *mut Handle; } extern "C" { pub fn PMAPP_LaunchTitle(programInfo: *const FS_ProgramInfo, launchFlags: u32_) -> Result; } extern "C" { pub fn PMAPP_LaunchTitleUpdate( programInfo: *const FS_ProgramInfo, programInfoUpdate: *const FS_ProgramInfo, launchFlags: u32_, ) -> Result; } extern "C" { pub fn PMAPP_GetTitleExheaderFlags( outCoreInfo: *mut ExHeader_Arm11CoreInfo, outSiFlags: *mut ExHeader_SystemInfoFlags, programInfo: *const FS_ProgramInfo, ) -> Result; } extern "C" { pub fn PMAPP_SetFIRMLaunchParams(size: u32_, in_: *const ::libc::c_void) -> Result; } extern "C" { pub fn PMAPP_GetFIRMLaunchParams(out: *mut ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn PMAPP_LaunchFIRMSetParams( firmTidLow: u32_, size: u32_, in_: *const ::libc::c_void, ) -> Result; } extern "C" { pub fn PMAPP_PrepareForReboot(timeout: s64) -> Result; } extern "C" { pub fn PMAPP_TerminateCurrentApplication(timeout: s64) -> Result; } extern "C" { pub fn PMAPP_TerminateTitle(titleId: u64_, timeout: s64) -> Result; } extern "C" { pub fn PMAPP_TerminateProcess(pid: u32_, timeout: s64) -> Result; } extern "C" { pub fn PMAPP_UnregisterProcess(tid: u64_) -> Result; } extern "C" { pub fn PMAPP_SetAppResourceLimit(cpuTime: s64) -> Result; } extern "C" { pub fn PMAPP_GetAppResourceLimit(outCpuTime: *mut s64) -> Result; } extern "C" { pub fn pmDbgInit() -> Result; } extern "C" { pub fn pmDbgExit(); } extern "C" { pub fn pmDbgGetSessionHandle() -> *mut Handle; } extern "C" { pub fn PMDBG_LaunchAppDebug( outDebug: *mut Handle, programInfo: *const FS_ProgramInfo, launchFlags: u32_, ) -> Result; } extern "C" { pub fn PMDBG_LaunchApp(programInfo: *const FS_ProgramInfo, launchFlags: u32_) -> Result; } extern "C" { pub fn PMDBG_RunQueuedProcess(outDebug: *mut Handle) -> Result; } pub const PS_ALGORITHM_CBC_ENC: PS_AESAlgorithm = 0; pub const PS_ALGORITHM_CBC_DEC: PS_AESAlgorithm = 1; pub const PS_ALGORITHM_CTR_ENC: PS_AESAlgorithm = 2; pub const PS_ALGORITHM_CTR_DEC: PS_AESAlgorithm = 3; pub const PS_ALGORITHM_CCM_ENC: PS_AESAlgorithm = 4; pub const PS_ALGORITHM_CCM_DEC: PS_AESAlgorithm = 5; pub type PS_AESAlgorithm = ::libc::c_uint; pub const PS_KEYSLOT_0D: PS_AESKeyType = 0; pub const PS_KEYSLOT_2D: PS_AESKeyType = 1; pub const PS_KEYSLOT_31: PS_AESKeyType = 2; pub const PS_KEYSLOT_38: PS_AESKeyType = 3; pub const PS_KEYSLOT_32: PS_AESKeyType = 4; pub const PS_KEYSLOT_39_DLP: PS_AESKeyType = 5; pub const PS_KEYSLOT_2E: PS_AESKeyType = 6; pub const PS_KEYSLOT_INVALID: PS_AESKeyType = 7; pub const PS_KEYSLOT_36: PS_AESKeyType = 8; pub const PS_KEYSLOT_39_NFC: PS_AESKeyType = 9; pub type PS_AESKeyType = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct psRSAContext { pub modulo: [u8_; 256usize], pub exponent: [u8_; 256usize], pub rsa_bitsize: u32_, pub unk: u32_, } impl Default for psRSAContext { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn psInit() -> Result; } extern "C" { pub fn psInitHandle(handle: Handle) -> Result; } extern "C" { pub fn psExit(); } extern "C" { pub fn psGetSessionHandle() -> Handle; } extern "C" { pub fn PS_SignRsaSha256(hash: *mut u8_, ctx: *mut psRSAContext, signature: *mut u8_) -> Result; } extern "C" { pub fn PS_VerifyRsaSha256( hash: *mut u8_, ctx: *mut psRSAContext, signature: *mut u8_, ) -> Result; } extern "C" { pub fn PS_EncryptDecryptAes( size: u32_, in_: *mut u8_, out: *mut u8_, aes_algo: PS_AESAlgorithm, key_type: PS_AESKeyType, iv: *mut u8_, ) -> Result; } extern "C" { pub fn PS_EncryptSignDecryptVerifyAesCcm( in_: *mut u8_, in_size: u32_, out: *mut u8_, out_size: u32_, data_len: u32_, mac_data_len: u32_, mac_len: u32_, aes_algo: PS_AESAlgorithm, key_type: PS_AESKeyType, nonce: *mut u8_, ) -> Result; } extern "C" { pub fn PS_GetLocalFriendCodeSeed(seed: *mut u64_) -> Result; } extern "C" { pub fn PS_GetDeviceId(device_id: *mut u32_) -> Result; } extern "C" { pub fn PS_GenerateRandomBytes(out: *mut ::libc::c_void, len: size_t) -> Result; } extern "C" { pub fn ptmuInit() -> Result; } extern "C" { pub fn ptmuExit(); } extern "C" { pub fn PTMU_GetShellState(out: *mut u8_) -> Result; } extern "C" { pub fn PTMU_GetBatteryLevel(out: *mut u8_) -> Result; } extern "C" { pub fn PTMU_GetBatteryChargeState(out: *mut u8_) -> Result; } extern "C" { pub fn PTMU_GetPedometerState(out: *mut u8_) -> Result; } extern "C" { pub fn PTMU_GetTotalStepCount(steps: *mut u32_) -> Result; } extern "C" { pub fn PTMU_GetAdapterState(out: *mut bool) -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct PtmWakeEvents { pub pdn_wake_events: u32_, pub mcu_interupt_mask: u32_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct PtmSleepConfig { pub exit_sleep_events: PtmWakeEvents, pub continue_sleep_events: PtmWakeEvents, } pub const PTMNOTIFID_SLEEP_REQUESTED: ::libc::c_uint = 257; pub const PTMNOTIFID_SLEEP_DENIED: ::libc::c_uint = 258; pub const PTMNOTIFID_SLEEP_ALLOWED: ::libc::c_uint = 259; pub const PTMNOTIFID_GOING_TO_SLEEP: ::libc::c_uint = 260; pub const PTMNOTIFID_FULLY_WAKING_UP: ::libc::c_uint = 261; pub const PTMNOTIFID_FULLY_AWAKE: ::libc::c_uint = 262; pub const PTMNOTIFID_HALF_AWAKE: ::libc::c_uint = 263; pub const PTMNOTIFID_SHUTDOWN: ::libc::c_uint = 264; pub const PTMNOTIFID_BATTERY_VERY_LOW: ::libc::c_uint = 529; pub const PTMNOTIFID_BATTERY_LOW: ::libc::c_uint = 530; pub type _bindgen_ty_27 = ::libc::c_uint; extern "C" { pub fn ptmSysmInit() -> Result; } extern "C" { pub fn ptmSysmExit(); } extern "C" { pub fn PTMSYSM_RequestSleep() -> Result; } extern "C" { pub fn PTMSYSM_ReplyToSleepQuery(deny: bool) -> Result; } extern "C" { pub fn PTMSYSM_NotifySleepPreparationComplete(ackValue: s32) -> Result; } extern "C" { pub fn PTMSYSM_SetWakeEvents(sleepConfig: *const PtmSleepConfig) -> Result; } extern "C" { pub fn PTMSYSM_GetWakeReason(outSleepConfig: *mut PtmSleepConfig) -> Result; } extern "C" { pub fn PTMSYSM_Awaken() -> Result; } extern "C" { pub fn PTMSYSM_InvalidateSystemTime() -> Result; } extern "C" { pub fn PTMSYSM_GetRtcTime(outMsY2k: *mut s64) -> Result; } extern "C" { pub fn PTMSYSM_SetRtcTime(msY2k: s64) -> Result; } extern "C" { pub fn PTMSYSM_CheckNew3DS() -> Result; } extern "C" { pub fn PTMSYSM_ConfigureNew3DSCPU(value: u8_) -> Result; } extern "C" { pub fn PTMSYSM_ShutdownAsync(timeout: u64_) -> Result; } extern "C" { pub fn PTMSYSM_RebootAsync(timeout: u64_) -> Result; } pub const WAIT_NONE: PXIDEV_WaitType = 0; pub const WAIT_SLEEP: PXIDEV_WaitType = 1; pub const WAIT_IREQ_RETURN: PXIDEV_WaitType = 2; pub const WAIT_IREQ_CONTINUE: PXIDEV_WaitType = 3; pub type PXIDEV_WaitType = ::libc::c_uint; pub const DEASSERT_NONE: PXIDEV_DeassertType = 0; pub const DEASSERT_BEFORE_WAIT: PXIDEV_DeassertType = 1; pub const DEASSERT_AFTER_WAIT: PXIDEV_DeassertType = 2; pub type PXIDEV_DeassertType = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct PXIDEV_SPIBuffer { pub ptr: *mut ::libc::c_void, pub size: u32_, pub transferOption: u8_, pub waitOperation: u64_, } impl Default for PXIDEV_SPIBuffer { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn pxiDevInit() -> Result; } extern "C" { pub fn pxiDevExit(); } extern "C" { pub fn PXIDEV_SPIMultiWriteRead( header: *mut PXIDEV_SPIBuffer, writeBuffer1: *mut PXIDEV_SPIBuffer, readBuffer1: *mut PXIDEV_SPIBuffer, writeBuffer2: *mut PXIDEV_SPIBuffer, readBuffer2: *mut PXIDEV_SPIBuffer, footer: *mut PXIDEV_SPIBuffer, ) -> Result; } extern "C" { pub fn PXIDEV_SPIWriteRead( bytesRead: *mut u32_, initialWaitOperation: u64_, writeBuffer: *mut PXIDEV_SPIBuffer, readBuffer: *mut PXIDEV_SPIBuffer, ) -> Result; } extern "C" { pub fn pxiPmInit() -> Result; } extern "C" { pub fn pxiPmExit(); } extern "C" { pub fn pxiPmGetSessionHandle() -> *mut Handle; } extern "C" { pub fn PXIPM_GetProgramInfo(exheaderInfo: *mut ExHeader_Info, programHandle: u64_) -> Result; } extern "C" { pub fn PXIPM_RegisterProgram( programHandle: *mut u64_, programInfo: *const FS_ProgramInfo, updateInfo: *const FS_ProgramInfo, ) -> Result; } extern "C" { pub fn PXIPM_UnregisterProgram(programHandle: u64_) -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct timezone { pub tz_minuteswest: ::libc::c_int, pub tz_dsttime: ::libc::c_int, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct bintime { pub sec: time_t, pub frac: u64, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct itimerval { pub it_interval: timeval, pub it_value: timeval, } pub type __ULong = ::libc::c_ulong; pub type _flock_t = _LOCK_RECURSIVE_T; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct __locale_t { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _Bigint { pub _next: *mut _Bigint, pub _k: ::libc::c_int, pub _maxwds: ::libc::c_int, pub _sign: ::libc::c_int, pub _wds: ::libc::c_int, pub _x: [__ULong; 1usize], } impl Default for _Bigint { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct __tm { pub __tm_sec: ::libc::c_int, pub __tm_min: ::libc::c_int, pub __tm_hour: ::libc::c_int, pub __tm_mday: ::libc::c_int, pub __tm_mon: ::libc::c_int, pub __tm_year: ::libc::c_int, pub __tm_wday: ::libc::c_int, pub __tm_yday: ::libc::c_int, pub __tm_isdst: ::libc::c_int, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _on_exit_args { pub _fnargs: [*mut ::libc::c_void; 32usize], pub _dso_handle: [*mut ::libc::c_void; 32usize], pub _fntypes: __ULong, pub _is_cxa: __ULong, } impl Default for _on_exit_args { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _atexit { pub _next: *mut _atexit, pub _ind: ::libc::c_int, pub _fns: [::core::option::Option; 32usize], pub _on_exit_args: _on_exit_args, } impl Default for _atexit { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct __sbuf { pub _base: *mut ::libc::c_uchar, pub _size: ::libc::c_int, } impl Default for __sbuf { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Copy, Clone)] pub struct __sFILE { pub _p: *mut ::libc::c_uchar, pub _r: ::libc::c_int, pub _w: ::libc::c_int, pub _flags: ::libc::c_short, pub _file: ::libc::c_short, pub _bf: __sbuf, pub _lbfsize: ::libc::c_int, pub _cookie: *mut ::libc::c_void, pub _read: ::core::option::Option< unsafe extern "C" fn( arg1: *mut _reent, arg2: *mut ::libc::c_void, arg3: *mut ::libc::c_char, arg4: ::libc::c_int, ) -> ::libc::c_int, >, pub _write: ::core::option::Option< unsafe extern "C" fn( arg1: *mut _reent, arg2: *mut ::libc::c_void, arg3: *const ::libc::c_char, arg4: ::libc::c_int, ) -> ::libc::c_int, >, pub _seek: ::core::option::Option< unsafe extern "C" fn( arg1: *mut _reent, arg2: *mut ::libc::c_void, arg3: _fpos_t, arg4: ::libc::c_int, ) -> _fpos_t, >, pub _close: ::core::option::Option< unsafe extern "C" fn(arg1: *mut _reent, arg2: *mut ::libc::c_void) -> ::libc::c_int, >, pub _ub: __sbuf, pub _up: *mut ::libc::c_uchar, pub _ur: ::libc::c_int, pub _ubuf: [::libc::c_uchar; 3usize], pub _nbuf: [::libc::c_uchar; 1usize], pub _lb: __sbuf, pub _blksize: ::libc::c_int, pub _offset: _off_t, pub _data: *mut _reent, pub _lock: _flock_t, pub _mbstate: _mbstate_t, pub _flags2: ::libc::c_int, } impl Default for __sFILE { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type __FILE = __sFILE; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _glue { pub _next: *mut _glue, pub _niobs: ::libc::c_int, pub _iobs: *mut __FILE, } impl Default for _glue { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct _rand48 { pub _seed: [::libc::c_ushort; 3usize], pub _mult: [::libc::c_ushort; 3usize], pub _add: ::libc::c_ushort, } #[repr(C)] #[derive(Copy, Clone)] pub struct _reent { pub _errno: ::libc::c_int, pub _stdin: *mut __FILE, pub _stdout: *mut __FILE, pub _stderr: *mut __FILE, pub _inc: ::libc::c_int, pub _emergency: [::libc::c_char; 25usize], pub _unspecified_locale_info: ::libc::c_int, pub _locale: *mut __locale_t, pub __sdidinit: ::libc::c_int, pub __cleanup: ::core::option::Option, pub _result: *mut _Bigint, pub _result_k: ::libc::c_int, pub _p5s: *mut _Bigint, pub _freelist: *mut *mut _Bigint, pub _cvtlen: ::libc::c_int, pub _cvtbuf: *mut ::libc::c_char, pub _new: _reent__bindgen_ty_1, pub _atexit: *mut _atexit, pub _atexit0: _atexit, pub _sig_func: *mut ::core::option::Option, pub __sglue: _glue, pub __sf: [__FILE; 3usize], pub deviceData: *mut ::libc::c_void, } #[repr(C)] #[derive(Copy, Clone)] pub union _reent__bindgen_ty_1 { pub _reent: _reent__bindgen_ty_1__bindgen_ty_1, pub _unused: _reent__bindgen_ty_1__bindgen_ty_2, } #[repr(C)] #[derive(Copy, Clone)] pub struct _reent__bindgen_ty_1__bindgen_ty_1 { pub _unused_rand: ::libc::c_uint, pub _strtok_last: *mut ::libc::c_char, pub _asctime_buf: [::libc::c_char; 26usize], pub _localtime_buf: __tm, pub _gamma_signgam: ::libc::c_int, pub _rand_next: ::libc::c_ulonglong, pub _r48: _rand48, pub _mblen_state: _mbstate_t, pub _mbtowc_state: _mbstate_t, pub _wctomb_state: _mbstate_t, pub _l64a_buf: [::libc::c_char; 8usize], pub _signal_buf: [::libc::c_char; 24usize], pub _getdate_err: ::libc::c_int, pub _mbrlen_state: _mbstate_t, pub _mbrtowc_state: _mbstate_t, pub _mbsrtowcs_state: _mbstate_t, pub _wcrtomb_state: _mbstate_t, pub _wcsrtombs_state: _mbstate_t, pub _h_errno: ::libc::c_int, } impl Default for _reent__bindgen_ty_1__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct _reent__bindgen_ty_1__bindgen_ty_2 { pub _nextf: [*mut ::libc::c_uchar; 30usize], pub _nmalloc: [::libc::c_uint; 30usize], } impl Default for _reent__bindgen_ty_1__bindgen_ty_2 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for _reent__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for _reent { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub static mut _impure_ptr: *mut _reent; } extern "C" { pub static _global_impure_ptr: *mut _reent; } extern "C" { pub fn _reclaim_reent(arg1: *mut _reent); } extern "C" { pub fn __getreent() -> *mut _reent; } pub type locale_t = *mut __locale_t; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct tm { pub tm_sec: ::libc::c_int, pub tm_min: ::libc::c_int, pub tm_hour: ::libc::c_int, pub tm_mday: ::libc::c_int, pub tm_mon: ::libc::c_int, pub tm_year: ::libc::c_int, pub tm_wday: ::libc::c_int, pub tm_yday: ::libc::c_int, pub tm_isdst: ::libc::c_int, } extern "C" { pub fn clock() -> clock_t; } extern "C" { pub fn difftime(_time2: time_t, _time1: time_t) -> f64; } extern "C" { pub fn mktime(_timeptr: *mut tm) -> time_t; } extern "C" { pub fn time(_timer: *mut time_t) -> time_t; } extern "C" { pub fn asctime(_tblock: *const tm) -> *mut ::libc::c_char; } extern "C" { pub fn ctime(_time: *const time_t) -> *mut ::libc::c_char; } extern "C" { pub fn gmtime(_timer: *const time_t) -> *mut tm; } extern "C" { pub fn localtime(_timer: *const time_t) -> *mut tm; } extern "C" { pub fn strftime( _s: *mut ::libc::c_char, _maxsize: size_t, _fmt: *const ::libc::c_char, _t: *const tm, ) -> size_t; } extern "C" { pub fn strftime_l( _s: *mut ::libc::c_char, _maxsize: size_t, _fmt: *const ::libc::c_char, _t: *const tm, _l: locale_t, ) -> size_t; } extern "C" { pub fn asctime_r(arg1: *const tm, arg2: *mut ::libc::c_char) -> *mut ::libc::c_char; } extern "C" { pub fn ctime_r(arg1: *const time_t, arg2: *mut ::libc::c_char) -> *mut ::libc::c_char; } extern "C" { pub fn gmtime_r(arg1: *const time_t, arg2: *mut tm) -> *mut tm; } extern "C" { pub fn localtime_r(arg1: *const time_t, arg2: *mut tm) -> *mut tm; } extern "C" { pub fn tzset(); } extern "C" { pub fn _tzset_r(arg1: *mut _reent); } extern "C" { pub static mut _timezone: ::libc::c_long; } extern "C" { pub static mut _daylight: ::libc::c_int; } extern "C" { pub static mut _tzname: [*mut ::libc::c_char; 2usize]; } #[repr(C)] #[derive(Copy, Clone)] pub union sigval { pub sival_int: ::libc::c_int, pub sival_ptr: *mut ::libc::c_void, } impl Default for sigval { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Copy, Clone)] pub struct sigevent { pub sigev_notify: ::libc::c_int, pub sigev_signo: ::libc::c_int, pub sigev_value: sigval, } impl Default for sigevent { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Copy, Clone)] pub struct siginfo_t { pub si_signo: ::libc::c_int, pub si_code: ::libc::c_int, pub si_value: sigval, } impl Default for siginfo_t { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type _sig_func_ptr = ::core::option::Option; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct sigaction { pub sa_handler: _sig_func_ptr, pub sa_mask: sigset_t, pub sa_flags: ::libc::c_int, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct sigaltstack { pub ss_sp: *mut ::libc::c_void, pub ss_flags: ::libc::c_int, pub ss_size: size_t, } impl Default for sigaltstack { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type stack_t = sigaltstack; extern "C" { pub fn sigprocmask( arg1: ::libc::c_int, arg2: *const sigset_t, arg3: *mut sigset_t, ) -> ::libc::c_int; } extern "C" { pub fn pthread_sigmask( arg1: ::libc::c_int, arg2: *const sigset_t, arg3: *mut sigset_t, ) -> ::libc::c_int; } extern "C" { pub fn kill(arg1: pid_t, arg2: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn killpg(arg1: pid_t, arg2: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn sigaction( arg1: ::libc::c_int, arg2: *const sigaction, arg3: *mut sigaction, ) -> ::libc::c_int; } extern "C" { pub fn sigaddset(arg1: *mut sigset_t, arg2: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn sigdelset(arg1: *mut sigset_t, arg2: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn sigismember(arg1: *const sigset_t, arg2: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn sigfillset(arg1: *mut sigset_t) -> ::libc::c_int; } extern "C" { pub fn sigemptyset(arg1: *mut sigset_t) -> ::libc::c_int; } extern "C" { pub fn sigpending(arg1: *mut sigset_t) -> ::libc::c_int; } extern "C" { pub fn sigsuspend(arg1: *const sigset_t) -> ::libc::c_int; } extern "C" { pub fn sigwait(arg1: *const sigset_t, arg2: *mut ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn sigpause(arg1: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn sigaltstack(arg1: *const stack_t, arg2: *mut stack_t) -> ::libc::c_int; } extern "C" { pub fn pthread_kill(arg1: pthread_t, arg2: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn sigwaitinfo(arg1: *const sigset_t, arg2: *mut siginfo_t) -> ::libc::c_int; } extern "C" { pub fn sigtimedwait( arg1: *const sigset_t, arg2: *mut siginfo_t, arg3: *const timespec, ) -> ::libc::c_int; } extern "C" { pub fn sigqueue(arg1: pid_t, arg2: ::libc::c_int, arg3: sigval) -> ::libc::c_int; } pub type sig_atomic_t = ::libc::c_int; pub type sig_t = _sig_func_ptr; extern "C" { pub fn _signal_r(arg1: *mut _reent, arg2: ::libc::c_int, arg3: _sig_func_ptr) -> _sig_func_ptr; } extern "C" { pub fn _raise_r(arg1: *mut _reent, arg2: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn signal(arg1: ::libc::c_int, arg2: _sig_func_ptr) -> _sig_func_ptr; } extern "C" { pub fn raise(arg1: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn psignal(arg1: ::libc::c_int, arg2: *const ::libc::c_char); } extern "C" { pub fn clock_settime(clock_id: clockid_t, tp: *const timespec) -> ::libc::c_int; } extern "C" { pub fn clock_gettime(clock_id: clockid_t, tp: *mut timespec) -> ::libc::c_int; } extern "C" { pub fn clock_getres(clock_id: clockid_t, res: *mut timespec) -> ::libc::c_int; } extern "C" { pub fn timer_create( clock_id: clockid_t, evp: *mut sigevent, timerid: *mut timer_t, ) -> ::libc::c_int; } extern "C" { pub fn timer_delete(timerid: timer_t) -> ::libc::c_int; } extern "C" { pub fn timer_settime( timerid: timer_t, flags: ::libc::c_int, value: *const itimerspec, ovalue: *mut itimerspec, ) -> ::libc::c_int; } extern "C" { pub fn timer_gettime(timerid: timer_t, value: *mut itimerspec) -> ::libc::c_int; } extern "C" { pub fn timer_getoverrun(timerid: timer_t) -> ::libc::c_int; } extern "C" { pub fn nanosleep(rqtp: *const timespec, rmtp: *mut timespec) -> ::libc::c_int; } extern "C" { pub fn utimes(__path: *const ::libc::c_char, __tvp: *const timeval) -> ::libc::c_int; } extern "C" { pub fn adjtime(arg1: *const timeval, arg2: *mut timeval) -> ::libc::c_int; } extern "C" { pub fn futimes(arg1: ::libc::c_int, arg2: *const timeval) -> ::libc::c_int; } extern "C" { pub fn lutimes(arg1: *const ::libc::c_char, arg2: *const timeval) -> ::libc::c_int; } extern "C" { pub fn settimeofday(arg1: *const timeval, arg2: *const timezone) -> ::libc::c_int; } extern "C" { pub fn getitimer(__which: ::libc::c_int, __value: *mut itimerval) -> ::libc::c_int; } extern "C" { pub fn setitimer( __which: ::libc::c_int, __value: *const itimerval, __ovalue: *mut itimerval, ) -> ::libc::c_int; } extern "C" { pub fn gettimeofday(__p: *mut timeval, __tz: *mut ::libc::c_void) -> ::libc::c_int; } pub type socklen_t = u32; pub type sa_family_t = u16; #[repr(C)] #[derive(Debug, Default)] pub struct sockaddr { pub sa_family: sa_family_t, pub sa_data: __IncompleteArrayField<::libc::c_char>, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct sockaddr_storage { pub ss_family: sa_family_t, pub __ss_padding: [::libc::c_char; 26usize], } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct linger { pub l_onoff: ::libc::c_int, pub l_linger: ::libc::c_int, } extern "C" { pub fn accept( sockfd: ::libc::c_int, addr: *mut sockaddr, addrlen: *mut socklen_t, ) -> ::libc::c_int; } extern "C" { pub fn bind(sockfd: ::libc::c_int, addr: *const sockaddr, addrlen: socklen_t) -> ::libc::c_int; } extern "C" { pub fn closesocket(sockfd: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn connect( sockfd: ::libc::c_int, addr: *const sockaddr, addrlen: socklen_t, ) -> ::libc::c_int; } extern "C" { pub fn getpeername( sockfd: ::libc::c_int, addr: *mut sockaddr, addrlen: *mut socklen_t, ) -> ::libc::c_int; } extern "C" { pub fn getsockname( sockfd: ::libc::c_int, addr: *mut sockaddr, addrlen: *mut socklen_t, ) -> ::libc::c_int; } extern "C" { pub fn getsockopt( sockfd: ::libc::c_int, level: ::libc::c_int, optname: ::libc::c_int, optval: *mut ::libc::c_void, optlen: *mut socklen_t, ) -> ::libc::c_int; } extern "C" { pub fn listen(sockfd: ::libc::c_int, backlog: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn recv( sockfd: ::libc::c_int, buf: *mut ::libc::c_void, len: size_t, flags: ::libc::c_int, ) -> ssize_t; } extern "C" { pub fn recvfrom( sockfd: ::libc::c_int, buf: *mut ::libc::c_void, len: size_t, flags: ::libc::c_int, src_addr: *mut sockaddr, addrlen: *mut socklen_t, ) -> ssize_t; } extern "C" { pub fn send( sockfd: ::libc::c_int, buf: *const ::libc::c_void, len: size_t, flags: ::libc::c_int, ) -> ssize_t; } extern "C" { pub fn sendto( sockfd: ::libc::c_int, buf: *const ::libc::c_void, len: size_t, flags: ::libc::c_int, dest_addr: *const sockaddr, addrlen: socklen_t, ) -> ssize_t; } extern "C" { pub fn setsockopt( sockfd: ::libc::c_int, level: ::libc::c_int, optname: ::libc::c_int, optval: *const ::libc::c_void, optlen: socklen_t, ) -> ::libc::c_int; } extern "C" { pub fn shutdown(sockfd: ::libc::c_int, how: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn socket( domain: ::libc::c_int, type_: ::libc::c_int, protocol: ::libc::c_int, ) -> ::libc::c_int; } extern "C" { pub fn sockatmark(sockfd: ::libc::c_int) -> ::libc::c_int; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct in_addr { pub s_addr: in_addr_t, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct sockaddr_in { pub sin_family: sa_family_t, pub sin_port: in_port_t, pub sin_addr: in_addr, pub sin_zero: [::libc::c_uchar; 8usize], } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ip_mreq { pub imr_multiaddr: in_addr, pub imr_interface: in_addr, } pub const NETOPT_MAC_ADDRESS: NetworkOpt = 4100; pub const NETOPT_ARP_TABLE: NetworkOpt = 12290; pub const NETOPT_IP_INFO: NetworkOpt = 16387; pub const NETOPT_IP_MTU: NetworkOpt = 16388; pub const NETOPT_ROUTING_TABLE: NetworkOpt = 16390; pub const NETOPT_UDP_NUMBER: NetworkOpt = 32770; pub const NETOPT_UDP_TABLE: NetworkOpt = 32771; pub const NETOPT_TCP_NUMBER: NetworkOpt = 36866; pub const NETOPT_TCP_TABLE: NetworkOpt = 36867; pub const NETOPT_DNS_TABLE: NetworkOpt = 45059; pub const NETOPT_DHCP_LEASE_TIME: NetworkOpt = 49153; pub type NetworkOpt = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct SOCU_ARPTableEntry { pub unk0: u32_, pub ip: in_addr, pub mac: [u8_; 6usize], pub padding: [u8_; 2usize], } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct SOCU_IPInfo { pub ip: in_addr, pub netmask: in_addr, pub broadcast: in_addr, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct SOCU_RoutingTableEntry { pub dest_ip: in_addr, pub netmask: in_addr, pub gateway: in_addr, pub flags: u32_, pub time: u64_, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct SOCU_UDPTableEntry { pub local: sockaddr_storage, pub remote: sockaddr_storage, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct SOCU_TCPTableEntry { pub state: u32_, pub local: sockaddr_storage, pub remote: sockaddr_storage, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct SOCU_DNSTableEntry { pub family: u32_, pub ip: in_addr, pub padding: [u8_; 12usize], } extern "C" { pub fn socInit(context_addr: *mut u32_, context_size: u32_) -> Result; } extern "C" { pub fn socExit() -> Result; } extern "C" { pub fn gethostid() -> ::libc::c_long; } extern "C" { pub fn gethostname(name: *mut ::libc::c_char, namelen: size_t) -> ::libc::c_int; } extern "C" { pub fn SOCU_ShutdownSockets() -> ::libc::c_int; } extern "C" { pub fn SOCU_CloseSockets() -> ::libc::c_int; } extern "C" { pub fn SOCU_GetNetworkOpt( level: ::libc::c_int, optname: NetworkOpt, optval: *mut ::libc::c_void, optlen: *mut socklen_t, ) -> ::libc::c_int; } extern "C" { pub fn SOCU_GetIPInfo( ip: *mut in_addr, netmask: *mut in_addr, broadcast: *mut in_addr, ) -> ::libc::c_int; } extern "C" { pub fn SOCU_AddGlobalSocket(sockfd: ::libc::c_int) -> ::libc::c_int; } pub const MICU_ENCODING_PCM8: MICU_Encoding = 0; pub const MICU_ENCODING_PCM16: MICU_Encoding = 1; pub const MICU_ENCODING_PCM8_SIGNED: MICU_Encoding = 2; pub const MICU_ENCODING_PCM16_SIGNED: MICU_Encoding = 3; pub type MICU_Encoding = ::libc::c_uint; pub const MICU_SAMPLE_RATE_32730: MICU_SampleRate = 0; pub const MICU_SAMPLE_RATE_16360: MICU_SampleRate = 1; pub const MICU_SAMPLE_RATE_10910: MICU_SampleRate = 2; pub const MICU_SAMPLE_RATE_8180: MICU_SampleRate = 3; pub type MICU_SampleRate = ::libc::c_uint; extern "C" { pub fn micInit(buffer: *mut u8_, bufferSize: u32_) -> Result; } extern "C" { pub fn micExit(); } extern "C" { pub fn micGetSampleDataSize() -> u32_; } extern "C" { pub fn micGetLastSampleOffset() -> u32_; } extern "C" { pub fn MICU_MapSharedMem(size: u32_, handle: Handle) -> Result; } extern "C" { pub fn MICU_UnmapSharedMem() -> Result; } extern "C" { pub fn MICU_StartSampling( encoding: MICU_Encoding, sampleRate: MICU_SampleRate, offset: u32_, size: u32_, loop_: bool, ) -> Result; } extern "C" { pub fn MICU_AdjustSampling(sampleRate: MICU_SampleRate) -> Result; } extern "C" { pub fn MICU_StopSampling() -> Result; } extern "C" { pub fn MICU_IsSampling(sampling: *mut bool) -> Result; } extern "C" { pub fn MICU_GetEventHandle(handle: *mut Handle) -> Result; } extern "C" { pub fn MICU_SetGain(gain: u8_) -> Result; } extern "C" { pub fn MICU_GetGain(gain: *mut u8_) -> Result; } extern "C" { pub fn MICU_SetPower(power: bool) -> Result; } extern "C" { pub fn MICU_GetPower(power: *mut bool) -> Result; } extern "C" { pub fn MICU_SetClamp(clamp: bool) -> Result; } extern "C" { pub fn MICU_GetClamp(clamp: *mut bool) -> Result; } extern "C" { pub fn MICU_SetAllowShellClosed(allowShellClosed: bool) -> Result; } pub const MVDMODE_COLORFORMATCONV: MVDSTD_Mode = 0; pub const MVDMODE_VIDEOPROCESSING: MVDSTD_Mode = 1; pub type MVDSTD_Mode = ::libc::c_uint; pub const MVD_INPUT_YUYV422: MVDSTD_InputFormat = 65537; pub const MVD_INPUT_H264: MVDSTD_InputFormat = 131073; pub type MVDSTD_InputFormat = ::libc::c_uint; pub const MVD_OUTPUT_YUYV422: MVDSTD_OutputFormat = 65537; pub const MVD_OUTPUT_BGR565: MVDSTD_OutputFormat = 262146; pub const MVD_OUTPUT_RGB565: MVDSTD_OutputFormat = 262148; pub type MVDSTD_OutputFormat = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct MVDSTD_Config { pub input_type: MVDSTD_InputFormat, pub unk_x04: u32_, pub unk_x08: u32_, pub inwidth: u32_, pub inheight: u32_, pub physaddr_colorconv_indata: u32_, pub physaddr_colorconv_unk0: u32_, pub physaddr_colorconv_unk1: u32_, pub physaddr_colorconv_unk2: u32_, pub physaddr_colorconv_unk3: u32_, pub unk_x28: [u32_; 6usize], pub enable_cropping: u32_, pub input_crop_x_pos: u32_, pub input_crop_y_pos: u32_, pub input_crop_height: u32_, pub input_crop_width: u32_, pub unk_x54: u32_, pub output_type: MVDSTD_OutputFormat, pub outwidth: u32_, pub outheight: u32_, pub physaddr_outdata0: u32_, pub physaddr_outdata1: u32_, pub unk_x6c: [u32_; 38usize], pub flag_x104: u32_, pub output_x_pos: u32_, pub output_y_pos: u32_, pub output_width_override: u32_, pub output_height_override: u32_, pub unk_x118: u32_, } impl Default for MVDSTD_Config { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct MVDSTD_ProcessNALUnitOut { pub end_vaddr: u32_, pub end_physaddr: u32_, pub remaining_size: u32_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct MVDSTD_OutputBuffersEntry { pub outdata0: *mut ::libc::c_void, pub outdata1: *mut ::libc::c_void, } impl Default for MVDSTD_OutputBuffersEntry { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct MVDSTD_OutputBuffersEntryList { pub total_entries: u32_, pub entries: [MVDSTD_OutputBuffersEntry; 17usize], } impl Default for MVDSTD_OutputBuffersEntryList { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct MVDSTD_InitStruct { pub cmd5_inval0: s8, pub cmd5_inval1: s8, pub cmd5_inval2: s8, pub cmd5_inval3: u32_, pub cmd1b_inval: u8_, } extern "C" { pub fn mvdstdInit( mode: MVDSTD_Mode, input_type: MVDSTD_InputFormat, output_type: MVDSTD_OutputFormat, size: u32_, initstruct: *mut MVDSTD_InitStruct, ) -> Result; } extern "C" { pub fn mvdstdExit(); } extern "C" { pub fn mvdstdGenerateDefaultConfig( config: *mut MVDSTD_Config, input_width: u32_, input_height: u32_, output_width: u32_, output_height: u32_, vaddr_colorconv_indata: *mut u32_, vaddr_outdata0: *mut u32_, vaddr_outdata1: *mut u32_, ); } extern "C" { pub fn mvdstdConvertImage(config: *mut MVDSTD_Config) -> Result; } extern "C" { pub fn mvdstdProcessVideoFrame( inbuf_vaddr: *mut ::libc::c_void, size: size_t, flag: u32_, out: *mut MVDSTD_ProcessNALUnitOut, ) -> Result; } extern "C" { pub fn mvdstdRenderVideoFrame(config: *mut MVDSTD_Config, wait: bool) -> Result; } extern "C" { pub fn MVDSTD_SetConfig(config: *mut MVDSTD_Config) -> Result; } extern "C" { pub fn mvdstdSetupOutputBuffers( entrylist: *mut MVDSTD_OutputBuffersEntryList, bufsize: u32_, ) -> Result; } extern "C" { pub fn mvdstdOverrideOutputBuffers( cur_outdata0: *mut ::libc::c_void, cur_outdata1: *mut ::libc::c_void, new_outdata0: *mut ::libc::c_void, new_outdata1: *mut ::libc::c_void, ) -> Result; } pub const NFC_OpType_1: NFC_OpType = 1; pub const NFC_OpType_NFCTag: NFC_OpType = 2; pub const NFC_OpType_RawNFC: NFC_OpType = 3; pub type NFC_OpType = ::libc::c_uint; pub const NFC_TagState_Uninitialized: NFC_TagState = 0; pub const NFC_TagState_ScanningStopped: NFC_TagState = 1; pub const NFC_TagState_Scanning: NFC_TagState = 2; pub const NFC_TagState_InRange: NFC_TagState = 3; pub const NFC_TagState_OutOfRange: NFC_TagState = 4; pub const NFC_TagState_DataReady: NFC_TagState = 5; pub type NFC_TagState = ::libc::c_uint; pub const NFC_amiiboFlag_Setup: ::libc::c_uint = 16; pub const NFC_amiiboFlag_AppDataSetup: ::libc::c_uint = 32; pub type _bindgen_ty_28 = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct NFC_TagInfo { pub id_offset_size: u16_, pub unk_x2: u8_, pub unk_x3: u8_, pub id: [u8_; 40usize], } impl Default for NFC_TagInfo { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct NFC_AmiiboSettings { pub mii: [u8_; 96usize], pub nickname: [u16_; 11usize], pub flags: u8_, pub countrycodeid: u8_, pub setupdate_year: u16_, pub setupdate_month: u8_, pub setupdate_day: u8_, pub unk_x7c: [u8_; 44usize], } impl Default for NFC_AmiiboSettings { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct NFC_AmiiboConfig { pub lastwritedate_year: u16_, pub lastwritedate_month: u8_, pub lastwritedate_day: u8_, pub write_counter: u16_, pub characterID: [u8_; 3usize], pub series: u8_, pub amiiboID: u16_, pub type_: u8_, pub pagex4_byte3: u8_, pub appdata_size: u16_, pub zeros: [u8_; 48usize], } impl Default for NFC_AmiiboConfig { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct NFC_AppDataInitStruct { pub data_x0: [u8_; 12usize], pub data_xc: [u8_; 48usize], } impl Default for NFC_AppDataInitStruct { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct NFC_AppDataWriteStruct { pub id: [u8_; 10usize], pub id_size: u8_, pub unused_xb: [u8_; 21usize], } extern "C" { pub fn nfcInit(type_: NFC_OpType) -> Result; } extern "C" { pub fn nfcExit(); } extern "C" { pub fn nfcGetSessionHandle() -> Handle; } extern "C" { pub fn nfcStartScanning(inval: u16_) -> Result; } extern "C" { pub fn nfcStopScanning(); } extern "C" { pub fn nfcLoadAmiiboData() -> Result; } extern "C" { pub fn nfcResetTagScanState() -> Result; } extern "C" { pub fn nfcUpdateStoredAmiiboData() -> Result; } extern "C" { pub fn nfcGetTagState(state: *mut NFC_TagState) -> Result; } extern "C" { pub fn nfcGetTagInfo(out: *mut NFC_TagInfo) -> Result; } extern "C" { pub fn nfcOpenAppData(amiibo_appid: u32_) -> Result; } extern "C" { pub fn nfcInitializeWriteAppData( amiibo_appid: u32_, buf: *const ::libc::c_void, size: size_t, ) -> Result; } extern "C" { pub fn nfcReadAppData(buf: *mut ::libc::c_void, size: size_t) -> Result; } extern "C" { pub fn nfcWriteAppData( buf: *const ::libc::c_void, size: size_t, taginfo: *mut NFC_TagInfo, ) -> Result; } extern "C" { pub fn nfcGetAmiiboSettings(out: *mut NFC_AmiiboSettings) -> Result; } extern "C" { pub fn nfcGetAmiiboConfig(out: *mut NFC_AmiiboConfig) -> Result; } extern "C" { pub fn nfcStartOtherTagScanning(unk0: u16_, unk1: u32_) -> Result; } extern "C" { pub fn nfcSendTagCommand( inbuf: *const ::libc::c_void, insize: size_t, outbuf: *mut ::libc::c_void, outsize: size_t, actual_transfer_size: *mut size_t, microseconds: u64_, ) -> Result; } extern "C" { pub fn nfcCmd21() -> Result; } extern "C" { pub fn nfcCmd22() -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct NotificationHeader { pub dataSet: bool, pub unread: bool, pub enableJPEG: bool, pub isSpotPass: bool, pub isOptedOut: bool, pub unkData: [u8_; 3usize], pub processID: u64_, pub unkData2: [u8_; 8usize], pub jumpParam: u64_, pub unkData3: [u8_; 8usize], pub time: u64_, pub title: [u16_; 32usize], } extern "C" { pub fn newsInit() -> Result; } extern "C" { pub fn newsExit(); } extern "C" { pub fn NEWS_AddNotification( title: *const u16_, titleLength: u32_, message: *const u16_, messageLength: u32_, imageData: *const ::libc::c_void, imageSize: u32_, jpeg: bool, ) -> Result; } extern "C" { pub fn NEWS_GetTotalNotifications(num: *mut u32_) -> Result; } extern "C" { pub fn NEWS_SetNotificationHeader(news_id: u32_, header: *const NotificationHeader) -> Result; } extern "C" { pub fn NEWS_GetNotificationHeader(news_id: u32_, header: *mut NotificationHeader) -> Result; } extern "C" { pub fn NEWS_SetNotificationMessage(news_id: u32_, message: *const u16_, size: u32_) -> Result; } extern "C" { pub fn NEWS_GetNotificationMessage( news_id: u32_, message: *mut u16_, size: *mut u32_, ) -> Result; } extern "C" { pub fn NEWS_SetNotificationImage( news_id: u32_, buffer: *const ::libc::c_void, size: u32_, ) -> Result; } extern "C" { pub fn NEWS_GetNotificationImage( news_id: u32_, buffer: *mut ::libc::c_void, size: *mut u32_, ) -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct QTM_HeadTrackingInfoCoord { pub x: f32, pub y: f32, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct QTM_HeadTrackingInfo { pub flags: [u8_; 5usize], pub padding: [u8_; 3usize], pub floatdata_x08: f32, pub coords0: [QTM_HeadTrackingInfoCoord; 4usize], pub unk_x2c: [u32_; 5usize], } extern "C" { pub fn qtmInit() -> Result; } extern "C" { pub fn qtmExit(); } extern "C" { pub fn qtmCheckInitialized() -> bool; } extern "C" { pub fn qtmCheckHeadFullyDetected(info: *mut QTM_HeadTrackingInfo) -> bool; } extern "C" { pub fn qtmConvertCoordToScreen( coord: *mut QTM_HeadTrackingInfoCoord, screen_width: *mut f32, screen_height: *mut f32, x: *mut u32_, y: *mut u32_, ) -> Result; } extern "C" { pub fn QTM_GetHeadTrackingInfo(val: u64_, out: *mut QTM_HeadTrackingInfo) -> Result; } extern "C" { pub fn srvPmInit() -> Result; } extern "C" { pub fn srvPmExit(); } extern "C" { pub fn srvPmGetSessionHandle() -> *mut Handle; } extern "C" { pub fn SRVPM_PublishToProcess(notificationId: u32_, process: Handle) -> Result; } extern "C" { pub fn SRVPM_PublishToAll(notificationId: u32_) -> Result; } extern "C" { pub fn SRVPM_RegisterProcess( pid: u32_, count: u32_, serviceAccessControlList: *const [::libc::c_char; 8usize], ) -> Result; } extern "C" { pub fn SRVPM_UnregisterProcess(pid: u32_) -> Result; } extern "C" { pub fn loaderInit() -> Result; } extern "C" { pub fn loaderExit(); } extern "C" { pub fn LOADER_LoadProcess(process: *mut Handle, programHandle: u64_) -> Result; } extern "C" { pub fn LOADER_RegisterProgram( programHandle: *mut u64_, programInfo: *const FS_ProgramInfo, programInfoUpdate: *const FS_ProgramInfo, ) -> Result; } extern "C" { pub fn LOADER_UnregisterProgram(programHandle: u64_) -> Result; } extern "C" { pub fn LOADER_GetProgramInfo(exheaderInfo: *mut ExHeader_Info, programHandle: u64_) -> Result; } pub const LED_NORMAL: powerLedState = 1; pub const LED_SLEEP_MODE: powerLedState = 2; pub const LED_OFF: powerLedState = 3; pub const LED_RED: powerLedState = 4; pub const LED_BLUE: powerLedState = 5; pub const LED_BLINK_RED: powerLedState = 6; pub type powerLedState = ::libc::c_uint; extern "C" { pub fn mcuHwcInit() -> Result; } extern "C" { pub fn mcuHwcExit(); } extern "C" { pub fn MCUHWC_ReadRegister(reg: u8_, data: *mut ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn MCUHWC_WriteRegister(reg: u8_, data: *const ::libc::c_void, size: u32_) -> Result; } extern "C" { pub fn MCUHWC_GetBatteryVoltage(voltage: *mut u8_) -> Result; } extern "C" { pub fn MCUHWC_GetBatteryLevel(level: *mut u8_) -> Result; } extern "C" { pub fn MCUHWC_GetSoundSliderLevel(level: *mut u8_) -> Result; } extern "C" { pub fn MCUHWC_SetWifiLedState(state: bool) -> Result; } extern "C" { pub fn MCUHWC_SetPowerLedState(state: powerLedState) -> Result; } extern "C" { pub fn MCUHWC_Get3dSliderLevel(level: *mut u8_) -> Result; } extern "C" { pub fn MCUHWC_GetFwVerHigh(out: *mut u8_) -> Result; } extern "C" { pub fn MCUHWC_GetFwVerLow(out: *mut u8_) -> Result; } pub const GX_TRANSFER_FMT_RGBA8: GX_TRANSFER_FORMAT = 0; pub const GX_TRANSFER_FMT_RGB8: GX_TRANSFER_FORMAT = 1; pub const GX_TRANSFER_FMT_RGB565: GX_TRANSFER_FORMAT = 2; pub const GX_TRANSFER_FMT_RGB5A1: GX_TRANSFER_FORMAT = 3; pub const GX_TRANSFER_FMT_RGBA4: GX_TRANSFER_FORMAT = 4; pub type GX_TRANSFER_FORMAT = ::libc::c_uint; pub const GX_TRANSFER_SCALE_NO: GX_TRANSFER_SCALE = 0; pub const GX_TRANSFER_SCALE_X: GX_TRANSFER_SCALE = 1; pub const GX_TRANSFER_SCALE_XY: GX_TRANSFER_SCALE = 2; pub type GX_TRANSFER_SCALE = ::libc::c_uint; pub const GX_FILL_TRIGGER: GX_FILL_CONTROL = 1; pub const GX_FILL_FINISHED: GX_FILL_CONTROL = 2; pub const GX_FILL_16BIT_DEPTH: GX_FILL_CONTROL = 0; pub const GX_FILL_24BIT_DEPTH: GX_FILL_CONTROL = 256; pub const GX_FILL_32BIT_DEPTH: GX_FILL_CONTROL = 512; pub type GX_FILL_CONTROL = ::libc::c_uint; #[repr(C)] #[derive(Copy, Clone)] pub union gxCmdEntry_s { pub data: [u32_; 8usize], pub __bindgen_anon_1: gxCmdEntry_s__bindgen_ty_1, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct gxCmdEntry_s__bindgen_ty_1 { pub type_: u8_, pub unk1: u8_, pub unk2: u8_, pub unk3: u8_, pub args: [u32_; 7usize], } impl Default for gxCmdEntry_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct tag_gxCmdQueue_s { pub entries: *mut gxCmdEntry_s, pub maxEntries: u16_, pub numEntries: u16_, pub curEntry: u16_, pub lastEntry: u16_, pub callback: ::core::option::Option, pub user: *mut ::libc::c_void, } impl Default for tag_gxCmdQueue_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type gxCmdQueue_s = tag_gxCmdQueue_s; extern "C" { pub fn gxCmdQueueClear(queue: *mut gxCmdQueue_s); } extern "C" { pub fn gxCmdQueueAdd(queue: *mut gxCmdQueue_s, entry: *const gxCmdEntry_s); } extern "C" { pub fn gxCmdQueueRun(queue: *mut gxCmdQueue_s); } extern "C" { pub fn gxCmdQueueStop(queue: *mut gxCmdQueue_s); } extern "C" { pub fn gxCmdQueueWait(queue: *mut gxCmdQueue_s, timeout: s64) -> bool; } extern "C" { pub fn GX_BindQueue(queue: *mut gxCmdQueue_s); } extern "C" { pub fn GX_RequestDma(src: *mut u32_, dst: *mut u32_, length: u32_) -> Result; } extern "C" { pub fn GX_ProcessCommandList(buf0a: *mut u32_, buf0s: u32_, flags: u8_) -> Result; } extern "C" { pub fn GX_MemoryFill( buf0a: *mut u32_, buf0v: u32_, buf0e: *mut u32_, control0: u16_, buf1a: *mut u32_, buf1v: u32_, buf1e: *mut u32_, control1: u16_, ) -> Result; } extern "C" { pub fn GX_DisplayTransfer( inadr: *mut u32_, indim: u32_, outadr: *mut u32_, outdim: u32_, flags: u32_, ) -> Result; } extern "C" { pub fn GX_TextureCopy( inadr: *mut u32_, indim: u32_, outadr: *mut u32_, outdim: u32_, size: u32_, flags: u32_, ) -> Result; } extern "C" { pub fn GX_FlushCacheRegions( buf0a: *mut u32_, buf0s: u32_, buf1a: *mut u32_, buf1s: u32_, buf2a: *mut u32_, buf2s: u32_, ) -> Result; } pub const GPU_NEAREST: GPU_TEXTURE_FILTER_PARAM = 0; pub const GPU_LINEAR: GPU_TEXTURE_FILTER_PARAM = 1; pub type GPU_TEXTURE_FILTER_PARAM = ::libc::c_uint; pub const GPU_CLAMP_TO_EDGE: GPU_TEXTURE_WRAP_PARAM = 0; pub const GPU_CLAMP_TO_BORDER: GPU_TEXTURE_WRAP_PARAM = 1; pub const GPU_REPEAT: GPU_TEXTURE_WRAP_PARAM = 2; pub const GPU_MIRRORED_REPEAT: GPU_TEXTURE_WRAP_PARAM = 3; pub type GPU_TEXTURE_WRAP_PARAM = ::libc::c_uint; pub const GPU_TEX_2D: GPU_TEXTURE_MODE_PARAM = 0; pub const GPU_TEX_CUBE_MAP: GPU_TEXTURE_MODE_PARAM = 1; pub const GPU_TEX_SHADOW_2D: GPU_TEXTURE_MODE_PARAM = 2; pub const GPU_TEX_PROJECTION: GPU_TEXTURE_MODE_PARAM = 3; pub const GPU_TEX_SHADOW_CUBE: GPU_TEXTURE_MODE_PARAM = 4; pub const GPU_TEX_DISABLED: GPU_TEXTURE_MODE_PARAM = 5; pub type GPU_TEXTURE_MODE_PARAM = ::libc::c_uint; pub const GPU_TEXUNIT0: GPU_TEXUNIT = 1; pub const GPU_TEXUNIT1: GPU_TEXUNIT = 2; pub const GPU_TEXUNIT2: GPU_TEXUNIT = 4; pub type GPU_TEXUNIT = ::libc::c_uint; pub const GPU_RGBA8: GPU_TEXCOLOR = 0; pub const GPU_RGB8: GPU_TEXCOLOR = 1; pub const GPU_RGBA5551: GPU_TEXCOLOR = 2; pub const GPU_RGB565: GPU_TEXCOLOR = 3; pub const GPU_RGBA4: GPU_TEXCOLOR = 4; pub const GPU_LA8: GPU_TEXCOLOR = 5; pub const GPU_HILO8: GPU_TEXCOLOR = 6; pub const GPU_L8: GPU_TEXCOLOR = 7; pub const GPU_A8: GPU_TEXCOLOR = 8; pub const GPU_LA4: GPU_TEXCOLOR = 9; pub const GPU_L4: GPU_TEXCOLOR = 10; pub const GPU_A4: GPU_TEXCOLOR = 11; pub const GPU_ETC1: GPU_TEXCOLOR = 12; pub const GPU_ETC1A4: GPU_TEXCOLOR = 13; pub type GPU_TEXCOLOR = ::libc::c_uint; pub const GPU_TEXFACE_2D: GPU_TEXFACE = 0; pub const GPU_POSITIVE_X: GPU_TEXFACE = 0; pub const GPU_NEGATIVE_X: GPU_TEXFACE = 1; pub const GPU_POSITIVE_Y: GPU_TEXFACE = 2; pub const GPU_NEGATIVE_Y: GPU_TEXFACE = 3; pub const GPU_POSITIVE_Z: GPU_TEXFACE = 4; pub const GPU_NEGATIVE_Z: GPU_TEXFACE = 5; pub type GPU_TEXFACE = ::libc::c_uint; pub const GPU_PT_CLAMP_TO_ZERO: GPU_PROCTEX_CLAMP = 0; pub const GPU_PT_CLAMP_TO_EDGE: GPU_PROCTEX_CLAMP = 1; pub const GPU_PT_REPEAT: GPU_PROCTEX_CLAMP = 2; pub const GPU_PT_MIRRORED_REPEAT: GPU_PROCTEX_CLAMP = 3; pub const GPU_PT_PULSE: GPU_PROCTEX_CLAMP = 4; pub type GPU_PROCTEX_CLAMP = ::libc::c_uint; pub const GPU_PT_U: GPU_PROCTEX_MAPFUNC = 0; pub const GPU_PT_U2: GPU_PROCTEX_MAPFUNC = 1; pub const GPU_PT_V: GPU_PROCTEX_MAPFUNC = 2; pub const GPU_PT_V2: GPU_PROCTEX_MAPFUNC = 3; pub const GPU_PT_ADD: GPU_PROCTEX_MAPFUNC = 4; pub const GPU_PT_ADD2: GPU_PROCTEX_MAPFUNC = 5; pub const GPU_PT_SQRT2: GPU_PROCTEX_MAPFUNC = 6; pub const GPU_PT_MIN: GPU_PROCTEX_MAPFUNC = 7; pub const GPU_PT_MAX: GPU_PROCTEX_MAPFUNC = 8; pub const GPU_PT_RMAX: GPU_PROCTEX_MAPFUNC = 9; pub type GPU_PROCTEX_MAPFUNC = ::libc::c_uint; pub const GPU_PT_NONE: GPU_PROCTEX_SHIFT = 0; pub const GPU_PT_ODD: GPU_PROCTEX_SHIFT = 1; pub const GPU_PT_EVEN: GPU_PROCTEX_SHIFT = 2; pub type GPU_PROCTEX_SHIFT = ::libc::c_uint; pub const GPU_PT_NEAREST: GPU_PROCTEX_FILTER = 0; pub const GPU_PT_LINEAR: GPU_PROCTEX_FILTER = 1; pub const GPU_PT_NEAREST_MIP_NEAREST: GPU_PROCTEX_FILTER = 2; pub const GPU_PT_LINEAR_MIP_NEAREST: GPU_PROCTEX_FILTER = 3; pub const GPU_PT_NEAREST_MIP_LINEAR: GPU_PROCTEX_FILTER = 4; pub const GPU_PT_LINEAR_MIP_LINEAR: GPU_PROCTEX_FILTER = 5; pub type GPU_PROCTEX_FILTER = ::libc::c_uint; pub const GPU_LUT_NOISE: GPU_PROCTEX_LUTID = 0; pub const GPU_LUT_RGBMAP: GPU_PROCTEX_LUTID = 2; pub const GPU_LUT_ALPHAMAP: GPU_PROCTEX_LUTID = 3; pub const GPU_LUT_COLOR: GPU_PROCTEX_LUTID = 4; pub const GPU_LUT_COLORDIF: GPU_PROCTEX_LUTID = 5; pub type GPU_PROCTEX_LUTID = ::libc::c_uint; pub const GPU_RB_RGBA8: GPU_COLORBUF = 0; pub const GPU_RB_RGB8: GPU_COLORBUF = 1; pub const GPU_RB_RGBA5551: GPU_COLORBUF = 2; pub const GPU_RB_RGB565: GPU_COLORBUF = 3; pub const GPU_RB_RGBA4: GPU_COLORBUF = 4; pub type GPU_COLORBUF = ::libc::c_uint; pub const GPU_RB_DEPTH16: GPU_DEPTHBUF = 0; pub const GPU_RB_DEPTH24: GPU_DEPTHBUF = 2; pub const GPU_RB_DEPTH24_STENCIL8: GPU_DEPTHBUF = 3; pub type GPU_DEPTHBUF = ::libc::c_uint; pub const GPU_NEVER: GPU_TESTFUNC = 0; pub const GPU_ALWAYS: GPU_TESTFUNC = 1; pub const GPU_EQUAL: GPU_TESTFUNC = 2; pub const GPU_NOTEQUAL: GPU_TESTFUNC = 3; pub const GPU_LESS: GPU_TESTFUNC = 4; pub const GPU_LEQUAL: GPU_TESTFUNC = 5; pub const GPU_GREATER: GPU_TESTFUNC = 6; pub const GPU_GEQUAL: GPU_TESTFUNC = 7; pub type GPU_TESTFUNC = ::libc::c_uint; pub const GPU_EARLYDEPTH_GEQUAL: GPU_EARLYDEPTHFUNC = 0; pub const GPU_EARLYDEPTH_GREATER: GPU_EARLYDEPTHFUNC = 1; pub const GPU_EARLYDEPTH_LEQUAL: GPU_EARLYDEPTHFUNC = 2; pub const GPU_EARLYDEPTH_LESS: GPU_EARLYDEPTHFUNC = 3; pub type GPU_EARLYDEPTHFUNC = ::libc::c_uint; pub const GPU_GAS_NEVER: GPU_GASDEPTHFUNC = 0; pub const GPU_GAS_ALWAYS: GPU_GASDEPTHFUNC = 1; pub const GPU_GAS_GREATER: GPU_GASDEPTHFUNC = 2; pub const GPU_GAS_LESS: GPU_GASDEPTHFUNC = 3; pub type GPU_GASDEPTHFUNC = ::libc::c_uint; pub const GPU_SCISSOR_DISABLE: GPU_SCISSORMODE = 0; pub const GPU_SCISSOR_INVERT: GPU_SCISSORMODE = 1; pub const GPU_SCISSOR_NORMAL: GPU_SCISSORMODE = 3; pub type GPU_SCISSORMODE = ::libc::c_uint; pub const GPU_STENCIL_KEEP: GPU_STENCILOP = 0; pub const GPU_STENCIL_ZERO: GPU_STENCILOP = 1; pub const GPU_STENCIL_REPLACE: GPU_STENCILOP = 2; pub const GPU_STENCIL_INCR: GPU_STENCILOP = 3; pub const GPU_STENCIL_DECR: GPU_STENCILOP = 4; pub const GPU_STENCIL_INVERT: GPU_STENCILOP = 5; pub const GPU_STENCIL_INCR_WRAP: GPU_STENCILOP = 6; pub const GPU_STENCIL_DECR_WRAP: GPU_STENCILOP = 7; pub type GPU_STENCILOP = ::libc::c_uint; pub const GPU_WRITE_RED: GPU_WRITEMASK = 1; pub const GPU_WRITE_GREEN: GPU_WRITEMASK = 2; pub const GPU_WRITE_BLUE: GPU_WRITEMASK = 4; pub const GPU_WRITE_ALPHA: GPU_WRITEMASK = 8; pub const GPU_WRITE_DEPTH: GPU_WRITEMASK = 16; pub const GPU_WRITE_COLOR: GPU_WRITEMASK = 15; pub const GPU_WRITE_ALL: GPU_WRITEMASK = 31; pub type GPU_WRITEMASK = ::libc::c_uint; pub const GPU_BLEND_ADD: GPU_BLENDEQUATION = 0; pub const GPU_BLEND_SUBTRACT: GPU_BLENDEQUATION = 1; pub const GPU_BLEND_REVERSE_SUBTRACT: GPU_BLENDEQUATION = 2; pub const GPU_BLEND_MIN: GPU_BLENDEQUATION = 3; pub const GPU_BLEND_MAX: GPU_BLENDEQUATION = 4; pub type GPU_BLENDEQUATION = ::libc::c_uint; pub const GPU_ZERO: GPU_BLENDFACTOR = 0; pub const GPU_ONE: GPU_BLENDFACTOR = 1; pub const GPU_SRC_COLOR: GPU_BLENDFACTOR = 2; pub const GPU_ONE_MINUS_SRC_COLOR: GPU_BLENDFACTOR = 3; pub const GPU_DST_COLOR: GPU_BLENDFACTOR = 4; pub const GPU_ONE_MINUS_DST_COLOR: GPU_BLENDFACTOR = 5; pub const GPU_SRC_ALPHA: GPU_BLENDFACTOR = 6; pub const GPU_ONE_MINUS_SRC_ALPHA: GPU_BLENDFACTOR = 7; pub const GPU_DST_ALPHA: GPU_BLENDFACTOR = 8; pub const GPU_ONE_MINUS_DST_ALPHA: GPU_BLENDFACTOR = 9; pub const GPU_CONSTANT_COLOR: GPU_BLENDFACTOR = 10; pub const GPU_ONE_MINUS_CONSTANT_COLOR: GPU_BLENDFACTOR = 11; pub const GPU_CONSTANT_ALPHA: GPU_BLENDFACTOR = 12; pub const GPU_ONE_MINUS_CONSTANT_ALPHA: GPU_BLENDFACTOR = 13; pub const GPU_SRC_ALPHA_SATURATE: GPU_BLENDFACTOR = 14; pub type GPU_BLENDFACTOR = ::libc::c_uint; pub const GPU_LOGICOP_CLEAR: GPU_LOGICOP = 0; pub const GPU_LOGICOP_AND: GPU_LOGICOP = 1; pub const GPU_LOGICOP_AND_REVERSE: GPU_LOGICOP = 2; pub const GPU_LOGICOP_COPY: GPU_LOGICOP = 3; pub const GPU_LOGICOP_SET: GPU_LOGICOP = 4; pub const GPU_LOGICOP_COPY_INVERTED: GPU_LOGICOP = 5; pub const GPU_LOGICOP_NOOP: GPU_LOGICOP = 6; pub const GPU_LOGICOP_INVERT: GPU_LOGICOP = 7; pub const GPU_LOGICOP_NAND: GPU_LOGICOP = 8; pub const GPU_LOGICOP_OR: GPU_LOGICOP = 9; pub const GPU_LOGICOP_NOR: GPU_LOGICOP = 10; pub const GPU_LOGICOP_XOR: GPU_LOGICOP = 11; pub const GPU_LOGICOP_EQUIV: GPU_LOGICOP = 12; pub const GPU_LOGICOP_AND_INVERTED: GPU_LOGICOP = 13; pub const GPU_LOGICOP_OR_REVERSE: GPU_LOGICOP = 14; pub const GPU_LOGICOP_OR_INVERTED: GPU_LOGICOP = 15; pub type GPU_LOGICOP = ::libc::c_uint; pub const GPU_FRAGOPMODE_GL: GPU_FRAGOPMODE = 0; pub const GPU_FRAGOPMODE_GAS_ACC: GPU_FRAGOPMODE = 1; pub const GPU_FRAGOPMODE_SHADOW: GPU_FRAGOPMODE = 3; pub type GPU_FRAGOPMODE = ::libc::c_uint; pub const GPU_BYTE: GPU_FORMATS = 0; pub const GPU_UNSIGNED_BYTE: GPU_FORMATS = 1; pub const GPU_SHORT: GPU_FORMATS = 2; pub const GPU_FLOAT: GPU_FORMATS = 3; pub type GPU_FORMATS = ::libc::c_uint; pub const GPU_CULL_NONE: GPU_CULLMODE = 0; pub const GPU_CULL_FRONT_CCW: GPU_CULLMODE = 1; pub const GPU_CULL_BACK_CCW: GPU_CULLMODE = 2; pub type GPU_CULLMODE = ::libc::c_uint; pub const GPU_PRIMARY_COLOR: GPU_TEVSRC = 0; pub const GPU_FRAGMENT_PRIMARY_COLOR: GPU_TEVSRC = 1; pub const GPU_FRAGMENT_SECONDARY_COLOR: GPU_TEVSRC = 2; pub const GPU_TEXTURE0: GPU_TEVSRC = 3; pub const GPU_TEXTURE1: GPU_TEVSRC = 4; pub const GPU_TEXTURE2: GPU_TEVSRC = 5; pub const GPU_TEXTURE3: GPU_TEVSRC = 6; pub const GPU_PREVIOUS_BUFFER: GPU_TEVSRC = 13; pub const GPU_CONSTANT: GPU_TEVSRC = 14; pub const GPU_PREVIOUS: GPU_TEVSRC = 15; pub type GPU_TEVSRC = ::libc::c_uint; pub const GPU_TEVOP_RGB_SRC_COLOR: GPU_TEVOP_RGB = 0; pub const GPU_TEVOP_RGB_ONE_MINUS_SRC_COLOR: GPU_TEVOP_RGB = 1; pub const GPU_TEVOP_RGB_SRC_ALPHA: GPU_TEVOP_RGB = 2; pub const GPU_TEVOP_RGB_ONE_MINUS_SRC_ALPHA: GPU_TEVOP_RGB = 3; pub const GPU_TEVOP_RGB_SRC_R: GPU_TEVOP_RGB = 4; pub const GPU_TEVOP_RGB_ONE_MINUS_SRC_R: GPU_TEVOP_RGB = 5; pub const GPU_TEVOP_RGB_0x06: GPU_TEVOP_RGB = 6; pub const GPU_TEVOP_RGB_0x07: GPU_TEVOP_RGB = 7; pub const GPU_TEVOP_RGB_SRC_G: GPU_TEVOP_RGB = 8; pub const GPU_TEVOP_RGB_ONE_MINUS_SRC_G: GPU_TEVOP_RGB = 9; pub const GPU_TEVOP_RGB_0x0A: GPU_TEVOP_RGB = 10; pub const GPU_TEVOP_RGB_0x0B: GPU_TEVOP_RGB = 11; pub const GPU_TEVOP_RGB_SRC_B: GPU_TEVOP_RGB = 12; pub const GPU_TEVOP_RGB_ONE_MINUS_SRC_B: GPU_TEVOP_RGB = 13; pub const GPU_TEVOP_RGB_0x0E: GPU_TEVOP_RGB = 14; pub const GPU_TEVOP_RGB_0x0F: GPU_TEVOP_RGB = 15; pub type GPU_TEVOP_RGB = ::libc::c_uint; pub const GPU_TEVOP_A_SRC_ALPHA: GPU_TEVOP_A = 0; pub const GPU_TEVOP_A_ONE_MINUS_SRC_ALPHA: GPU_TEVOP_A = 1; pub const GPU_TEVOP_A_SRC_R: GPU_TEVOP_A = 2; pub const GPU_TEVOP_A_ONE_MINUS_SRC_R: GPU_TEVOP_A = 3; pub const GPU_TEVOP_A_SRC_G: GPU_TEVOP_A = 4; pub const GPU_TEVOP_A_ONE_MINUS_SRC_G: GPU_TEVOP_A = 5; pub const GPU_TEVOP_A_SRC_B: GPU_TEVOP_A = 6; pub const GPU_TEVOP_A_ONE_MINUS_SRC_B: GPU_TEVOP_A = 7; pub type GPU_TEVOP_A = ::libc::c_uint; pub const GPU_REPLACE: GPU_COMBINEFUNC = 0; pub const GPU_MODULATE: GPU_COMBINEFUNC = 1; pub const GPU_ADD: GPU_COMBINEFUNC = 2; pub const GPU_ADD_SIGNED: GPU_COMBINEFUNC = 3; pub const GPU_INTERPOLATE: GPU_COMBINEFUNC = 4; pub const GPU_SUBTRACT: GPU_COMBINEFUNC = 5; pub const GPU_DOT3_RGB: GPU_COMBINEFUNC = 6; pub const GPU_MULTIPLY_ADD: GPU_COMBINEFUNC = 8; pub const GPU_ADD_MULTIPLY: GPU_COMBINEFUNC = 9; pub type GPU_COMBINEFUNC = ::libc::c_uint; pub const GPU_TEVSCALE_1: GPU_TEVSCALE = 0; pub const GPU_TEVSCALE_2: GPU_TEVSCALE = 1; pub const GPU_TEVSCALE_4: GPU_TEVSCALE = 2; pub type GPU_TEVSCALE = ::libc::c_uint; pub const GPU_NO_FRESNEL: GPU_FRESNELSEL = 0; pub const GPU_PRI_ALPHA_FRESNEL: GPU_FRESNELSEL = 1; pub const GPU_SEC_ALPHA_FRESNEL: GPU_FRESNELSEL = 2; pub const GPU_PRI_SEC_ALPHA_FRESNEL: GPU_FRESNELSEL = 3; pub type GPU_FRESNELSEL = ::libc::c_uint; pub const GPU_BUMP_NOT_USED: GPU_BUMPMODE = 0; pub const GPU_BUMP_AS_BUMP: GPU_BUMPMODE = 1; pub const GPU_BUMP_AS_TANG: GPU_BUMPMODE = 2; pub type GPU_BUMPMODE = ::libc::c_uint; pub const GPU_LUT_D0: GPU_LIGHTLUTID = 0; pub const GPU_LUT_D1: GPU_LIGHTLUTID = 1; pub const GPU_LUT_SP: GPU_LIGHTLUTID = 2; pub const GPU_LUT_FR: GPU_LIGHTLUTID = 3; pub const GPU_LUT_RB: GPU_LIGHTLUTID = 4; pub const GPU_LUT_RG: GPU_LIGHTLUTID = 5; pub const GPU_LUT_RR: GPU_LIGHTLUTID = 6; pub const GPU_LUT_DA: GPU_LIGHTLUTID = 7; pub type GPU_LIGHTLUTID = ::libc::c_uint; pub const GPU_LUTINPUT_NH: GPU_LIGHTLUTINPUT = 0; pub const GPU_LUTINPUT_VH: GPU_LIGHTLUTINPUT = 1; pub const GPU_LUTINPUT_NV: GPU_LIGHTLUTINPUT = 2; pub const GPU_LUTINPUT_LN: GPU_LIGHTLUTINPUT = 3; pub const GPU_LUTINPUT_SP: GPU_LIGHTLUTINPUT = 4; pub const GPU_LUTINPUT_CP: GPU_LIGHTLUTINPUT = 5; pub type GPU_LIGHTLUTINPUT = ::libc::c_uint; pub const GPU_LUTSCALER_1x: GPU_LIGHTLUTSCALER = 0; pub const GPU_LUTSCALER_2x: GPU_LIGHTLUTSCALER = 1; pub const GPU_LUTSCALER_4x: GPU_LIGHTLUTSCALER = 2; pub const GPU_LUTSCALER_8x: GPU_LIGHTLUTSCALER = 3; pub const GPU_LUTSCALER_0_25x: GPU_LIGHTLUTSCALER = 6; pub const GPU_LUTSCALER_0_5x: GPU_LIGHTLUTSCALER = 7; pub type GPU_LIGHTLUTSCALER = ::libc::c_uint; pub const GPU_LUTSELECT_COMMON: GPU_LIGHTLUTSELECT = 0; pub const GPU_LUTSELECT_SP: GPU_LIGHTLUTSELECT = 1; pub const GPU_LUTSELECT_DA: GPU_LIGHTLUTSELECT = 2; pub type GPU_LIGHTLUTSELECT = ::libc::c_uint; pub const GPU_NO_FOG: GPU_FOGMODE = 0; pub const GPU_FOG: GPU_FOGMODE = 5; pub const GPU_GAS: GPU_FOGMODE = 7; pub type GPU_FOGMODE = ::libc::c_uint; pub const GPU_PLAIN_DENSITY: GPU_GASMODE = 0; pub const GPU_DEPTH_DENSITY: GPU_GASMODE = 1; pub type GPU_GASMODE = ::libc::c_uint; pub const GPU_GAS_DENSITY: GPU_GASLUTINPUT = 0; pub const GPU_GAS_LIGHT_FACTOR: GPU_GASLUTINPUT = 1; pub type GPU_GASLUTINPUT = ::libc::c_uint; pub const GPU_TRIANGLES: GPU_Primitive_t = 0; pub const GPU_TRIANGLE_STRIP: GPU_Primitive_t = 256; pub const GPU_TRIANGLE_FAN: GPU_Primitive_t = 512; pub const GPU_GEOMETRY_PRIM: GPU_Primitive_t = 768; pub type GPU_Primitive_t = ::libc::c_uint; pub const GPU_VERTEX_SHADER: GPU_SHADER_TYPE = 0; pub const GPU_GEOMETRY_SHADER: GPU_SHADER_TYPE = 1; pub type GPU_SHADER_TYPE = ::libc::c_uint; extern "C" { pub static mut gpuCmdBuf: *mut u32_; } extern "C" { pub static mut gpuCmdBufSize: u32_; } extern "C" { pub static mut gpuCmdBufOffset: u32_; } extern "C" { pub fn GPUCMD_AddRawCommands(cmd: *const u32_, size: u32_); } extern "C" { pub fn GPUCMD_Add(header: u32_, param: *const u32_, paramlength: u32_); } extern "C" { pub fn GPUCMD_Split(addr: *mut *mut u32_, size: *mut u32_); } extern "C" { pub fn f32tof16(f: f32) -> u32_; } extern "C" { pub fn f32tof20(f: f32) -> u32_; } extern "C" { pub fn f32tof24(f: f32) -> u32_; } extern "C" { pub fn f32tof31(f: f32) -> u32_; } pub const VERTEX_SHDR: DVLE_type = 0; pub const GEOMETRY_SHDR: DVLE_type = 1; pub type DVLE_type = ::libc::c_uint; pub const DVLE_CONST_BOOL: DVLE_constantType = 0; pub const DVLE_CONST_u8: DVLE_constantType = 1; pub const DVLE_CONST_FLOAT24: DVLE_constantType = 2; pub type DVLE_constantType = ::libc::c_uint; pub const RESULT_POSITION: DVLE_outputAttribute_t = 0; pub const RESULT_NORMALQUAT: DVLE_outputAttribute_t = 1; pub const RESULT_COLOR: DVLE_outputAttribute_t = 2; pub const RESULT_TEXCOORD0: DVLE_outputAttribute_t = 3; pub const RESULT_TEXCOORD0W: DVLE_outputAttribute_t = 4; pub const RESULT_TEXCOORD1: DVLE_outputAttribute_t = 5; pub const RESULT_TEXCOORD2: DVLE_outputAttribute_t = 6; pub const RESULT_VIEW: DVLE_outputAttribute_t = 8; pub const RESULT_DUMMY: DVLE_outputAttribute_t = 9; pub type DVLE_outputAttribute_t = ::libc::c_uint; pub const GSH_POINT: DVLE_geoShaderMode = 0; pub const GSH_VARIABLE_PRIM: DVLE_geoShaderMode = 1; pub const GSH_FIXED_PRIM: DVLE_geoShaderMode = 2; pub type DVLE_geoShaderMode = ::libc::c_uint; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct DVLP_s { pub codeSize: u32_, pub codeData: *mut u32_, pub opdescSize: u32_, pub opcdescData: *mut u32_, } impl Default for DVLP_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct DVLE_constEntry_s { pub type_: u16_, pub id: u16_, pub data: [u32_; 4usize], } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct DVLE_outEntry_s { pub type_: u16_, pub regID: u16_, pub mask: u8_, pub unk: [u8_; 3usize], } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct DVLE_uniformEntry_s { pub symbolOffset: u32_, pub startReg: u16_, pub endReg: u16_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct DVLE_s { pub type_: DVLE_type, pub mergeOutmaps: bool, pub gshMode: DVLE_geoShaderMode, pub gshFixedVtxStart: u8_, pub gshVariableVtxNum: u8_, pub gshFixedVtxNum: u8_, pub dvlp: *mut DVLP_s, pub mainOffset: u32_, pub endmainOffset: u32_, pub constTableSize: u32_, pub constTableData: *mut DVLE_constEntry_s, pub outTableSize: u32_, pub outTableData: *mut DVLE_outEntry_s, pub uniformTableSize: u32_, pub uniformTableData: *mut DVLE_uniformEntry_s, pub symbolTableData: *mut ::libc::c_char, pub outmapMask: u8_, pub outmapData: [u32_; 8usize], pub outmapMode: u32_, pub outmapClock: u32_, } impl Default for DVLE_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct DVLB_s { pub numDVLE: u32_, pub DVLP: DVLP_s, pub DVLE: *mut DVLE_s, } impl Default for DVLB_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn DVLB_ParseFile(shbinData: *mut u32_, shbinSize: u32_) -> *mut DVLB_s; } extern "C" { pub fn DVLB_Free(dvlb: *mut DVLB_s); } extern "C" { pub fn DVLE_GetUniformRegister(dvle: *mut DVLE_s, name: *const ::libc::c_char) -> s8; } extern "C" { pub fn DVLE_GenerateOutmap(dvle: *mut DVLE_s); } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct float24Uniform_s { pub id: u32_, pub data: [u32_; 3usize], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct shaderInstance_s { pub dvle: *mut DVLE_s, pub boolUniforms: u16_, pub boolUniformMask: u16_, pub intUniforms: [u32_; 4usize], pub float24Uniforms: *mut float24Uniform_s, pub intUniformMask: u8_, pub numFloat24Uniforms: u8_, } impl Default for shaderInstance_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct shaderProgram_s { pub vertexShader: *mut shaderInstance_s, pub geometryShader: *mut shaderInstance_s, pub geoShaderInputPermutation: [u32_; 2usize], pub geoShaderInputStride: u8_, } impl Default for shaderProgram_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn shaderInstanceInit(si: *mut shaderInstance_s, dvle: *mut DVLE_s) -> Result; } extern "C" { pub fn shaderInstanceFree(si: *mut shaderInstance_s) -> Result; } extern "C" { pub fn shaderInstanceSetBool( si: *mut shaderInstance_s, id: ::libc::c_int, value: bool, ) -> Result; } extern "C" { pub fn shaderInstanceGetBool( si: *mut shaderInstance_s, id: ::libc::c_int, value: *mut bool, ) -> Result; } extern "C" { pub fn shaderInstanceGetUniformLocation( si: *mut shaderInstance_s, name: *const ::libc::c_char, ) -> s8; } extern "C" { pub fn shaderProgramInit(sp: *mut shaderProgram_s) -> Result; } extern "C" { pub fn shaderProgramFree(sp: *mut shaderProgram_s) -> Result; } extern "C" { pub fn shaderProgramSetVsh(sp: *mut shaderProgram_s, dvle: *mut DVLE_s) -> Result; } extern "C" { pub fn shaderProgramSetGsh(sp: *mut shaderProgram_s, dvle: *mut DVLE_s, stride: u8_) -> Result; } extern "C" { pub fn shaderProgramSetGshInputPermutation( sp: *mut shaderProgram_s, permutation: u64_, ) -> Result; } extern "C" { pub fn shaderProgramConfigure( sp: *mut shaderProgram_s, sendVshCode: bool, sendGshCode: bool, ) -> Result; } extern "C" { pub fn shaderProgramUse(sp: *mut shaderProgram_s) -> Result; } pub const NDSP_OUTPUT_MONO: ndspOutputMode = 0; pub const NDSP_OUTPUT_STEREO: ndspOutputMode = 1; pub const NDSP_OUTPUT_SURROUND: ndspOutputMode = 2; pub type ndspOutputMode = ::libc::c_uint; pub const NDSP_CLIP_NORMAL: ndspClippingMode = 0; pub const NDSP_CLIP_SOFT: ndspClippingMode = 1; pub type ndspClippingMode = ::libc::c_uint; pub const NDSP_SPKPOS_SQUARE: ndspSpeakerPos = 0; pub const NDSP_SPKPOS_WIDE: ndspSpeakerPos = 1; pub const NDSP_SPKPOS_NUM: ndspSpeakerPos = 2; pub type ndspSpeakerPos = ::libc::c_uint; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct ndspAdpcmData { pub index: u16_, pub history0: s16, pub history1: s16, } pub type ndspWaveBuf = tag_ndspWaveBuf; pub const NDSP_WBUF_FREE: ::libc::c_uint = 0; pub const NDSP_WBUF_QUEUED: ::libc::c_uint = 1; pub const NDSP_WBUF_PLAYING: ::libc::c_uint = 2; pub const NDSP_WBUF_DONE: ::libc::c_uint = 3; pub type _bindgen_ty_29 = ::libc::c_uint; #[repr(C)] #[derive(Copy, Clone)] pub struct tag_ndspWaveBuf { pub __bindgen_anon_1: tag_ndspWaveBuf__bindgen_ty_1, pub nsamples: u32_, pub adpcm_data: *mut ndspAdpcmData, pub offset: u32_, pub looping: bool, pub status: u8_, pub sequence_id: u16_, pub next: *mut ndspWaveBuf, } #[repr(C)] #[derive(Copy, Clone)] pub union tag_ndspWaveBuf__bindgen_ty_1 { pub data_pcm8: *mut s8, pub data_pcm16: *mut s16, pub data_adpcm: *mut u8_, pub data_vaddr: *const ::libc::c_void, } impl Default for tag_ndspWaveBuf__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for tag_ndspWaveBuf { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type ndspCallback = ::core::option::Option; pub type ndspAuxCallback = ::core::option::Option< unsafe extern "C" fn( data: *mut ::libc::c_void, nsamples: ::libc::c_int, samples: *mut *mut ::libc::c_void, ), >; extern "C" { pub fn ndspUseComponent( binary: *const ::libc::c_void, size: u32_, progMask: u16_, dataMask: u16_, ); } extern "C" { pub fn ndspInit() -> Result; } extern "C" { pub fn ndspExit(); } extern "C" { pub fn ndspGetDroppedFrames() -> u32_; } extern "C" { pub fn ndspGetFrameCount() -> u32_; } extern "C" { pub fn ndspSetMasterVol(volume: f32); } extern "C" { pub fn ndspSetOutputMode(mode: ndspOutputMode); } extern "C" { pub fn ndspSetClippingMode(mode: ndspClippingMode); } extern "C" { pub fn ndspSetOutputCount(count: ::libc::c_int); } extern "C" { pub fn ndspSetCapture(capture: *mut ndspWaveBuf); } extern "C" { pub fn ndspSetCallback(callback: ndspCallback, data: *mut ::libc::c_void); } extern "C" { pub fn ndspSurroundSetDepth(depth: u16_); } extern "C" { pub fn ndspSurroundSetPos(pos: ndspSpeakerPos); } extern "C" { pub fn ndspSurroundSetRearRatio(ratio: u16_); } extern "C" { pub fn ndspAuxSetEnable(id: ::libc::c_int, enable: bool); } extern "C" { pub fn ndspAuxSetFrontBypass(id: ::libc::c_int, bypass: bool); } extern "C" { pub fn ndspAuxSetVolume(id: ::libc::c_int, volume: f32); } extern "C" { pub fn ndspAuxSetCallback( id: ::libc::c_int, callback: ndspAuxCallback, data: *mut ::libc::c_void, ); } pub const NDSP_ENCODING_PCM8: ::libc::c_uint = 0; pub const NDSP_ENCODING_PCM16: ::libc::c_uint = 1; pub const NDSP_ENCODING_ADPCM: ::libc::c_uint = 2; pub type _bindgen_ty_30 = ::libc::c_uint; pub const NDSP_FORMAT_MONO_PCM8: ::libc::c_uint = 1; pub const NDSP_FORMAT_MONO_PCM16: ::libc::c_uint = 5; pub const NDSP_FORMAT_MONO_ADPCM: ::libc::c_uint = 9; pub const NDSP_FORMAT_STEREO_PCM8: ::libc::c_uint = 2; pub const NDSP_FORMAT_STEREO_PCM16: ::libc::c_uint = 6; pub const NDSP_FORMAT_PCM8: ::libc::c_uint = 1; pub const NDSP_FORMAT_PCM16: ::libc::c_uint = 5; pub const NDSP_FORMAT_ADPCM: ::libc::c_uint = 9; pub const NDSP_FRONT_BYPASS: ::libc::c_uint = 16; pub const NDSP_3D_SURROUND_PREPROCESSED: ::libc::c_uint = 64; pub type _bindgen_ty_31 = ::libc::c_uint; pub const NDSP_INTERP_POLYPHASE: ndspInterpType = 0; pub const NDSP_INTERP_LINEAR: ndspInterpType = 1; pub const NDSP_INTERP_NONE: ndspInterpType = 2; pub type ndspInterpType = ::libc::c_uint; extern "C" { pub fn ndspChnReset(id: ::libc::c_int); } extern "C" { pub fn ndspChnInitParams(id: ::libc::c_int); } extern "C" { pub fn ndspChnIsPlaying(id: ::libc::c_int) -> bool; } extern "C" { pub fn ndspChnGetSamplePos(id: ::libc::c_int) -> u32_; } extern "C" { pub fn ndspChnGetWaveBufSeq(id: ::libc::c_int) -> u16_; } extern "C" { pub fn ndspChnIsPaused(id: ::libc::c_int) -> bool; } extern "C" { pub fn ndspChnSetPaused(id: ::libc::c_int, paused: bool); } extern "C" { pub fn ndspChnSetFormat(id: ::libc::c_int, format: u16_); } extern "C" { pub fn ndspChnSetInterp(id: ::libc::c_int, type_: ndspInterpType); } extern "C" { pub fn ndspChnSetRate(id: ::libc::c_int, rate: f32); } extern "C" { pub fn ndspChnSetMix(id: ::libc::c_int, mix: *mut f32); } extern "C" { pub fn ndspChnSetAdpcmCoefs(id: ::libc::c_int, coefs: *mut u16_); } extern "C" { pub fn ndspChnWaveBufClear(id: ::libc::c_int); } extern "C" { pub fn ndspChnWaveBufAdd(id: ::libc::c_int, buf: *mut ndspWaveBuf); } extern "C" { pub fn ndspChnIirMonoSetEnable(id: ::libc::c_int, enable: bool); } extern "C" { pub fn ndspChnIirMonoSetParamsCustomFilter( id: ::libc::c_int, a0: f32, a1: f32, b0: f32, ) -> bool; } extern "C" { pub fn ndspChnIirMonoSetParamsLowPassFilter(id: ::libc::c_int, f0: f32) -> bool; } extern "C" { pub fn ndspChnIirMonoSetParamsHighPassFilter(id: ::libc::c_int, f0: f32) -> bool; } extern "C" { pub fn ndspChnIirBiquadSetEnable(id: ::libc::c_int, enable: bool); } extern "C" { pub fn ndspChnIirBiquadSetParamsCustomFilter( id: ::libc::c_int, a0: f32, a1: f32, a2: f32, b0: f32, b1: f32, b2: f32, ) -> bool; } extern "C" { pub fn ndspChnIirBiquadSetParamsLowPassFilter(id: ::libc::c_int, f0: f32, Q: f32) -> bool; } extern "C" { pub fn ndspChnIirBiquadSetParamsHighPassFilter(id: ::libc::c_int, f0: f32, Q: f32) -> bool; } extern "C" { pub fn ndspChnIirBiquadSetParamsBandPassFilter(id: ::libc::c_int, f0: f32, Q: f32) -> bool; } extern "C" { pub fn ndspChnIirBiquadSetParamsNotchFilter(id: ::libc::c_int, f0: f32, Q: f32) -> bool; } extern "C" { pub fn ndspChnIirBiquadSetParamsPeakingEqualizer( id: ::libc::c_int, f0: f32, Q: f32, gain: f32, ) -> bool; } pub const SWKBD_TYPE_NORMAL: SwkbdType = 0; pub const SWKBD_TYPE_QWERTY: SwkbdType = 1; pub const SWKBD_TYPE_NUMPAD: SwkbdType = 2; pub const SWKBD_TYPE_WESTERN: SwkbdType = 3; pub type SwkbdType = ::libc::c_uint; pub const SWKBD_ANYTHING: SwkbdValidInput = 0; pub const SWKBD_NOTEMPTY: SwkbdValidInput = 1; pub const SWKBD_NOTEMPTY_NOTBLANK: SwkbdValidInput = 2; pub const SWKBD_NOTBLANK_NOTEMPTY: SwkbdValidInput = 2; pub const SWKBD_NOTBLANK: SwkbdValidInput = 3; pub const SWKBD_FIXEDLEN: SwkbdValidInput = 4; pub type SwkbdValidInput = ::libc::c_uint; pub const SWKBD_BUTTON_LEFT: SwkbdButton = 0; pub const SWKBD_BUTTON_MIDDLE: SwkbdButton = 1; pub const SWKBD_BUTTON_RIGHT: SwkbdButton = 2; pub const SWKBD_BUTTON_CONFIRM: SwkbdButton = 2; pub const SWKBD_BUTTON_NONE: SwkbdButton = 3; pub type SwkbdButton = ::libc::c_uint; pub const SWKBD_PASSWORD_NONE: SwkbdPasswordMode = 0; pub const SWKBD_PASSWORD_HIDE: SwkbdPasswordMode = 1; pub const SWKBD_PASSWORD_HIDE_DELAY: SwkbdPasswordMode = 2; pub type SwkbdPasswordMode = ::libc::c_uint; pub const SWKBD_FILTER_DIGITS: ::libc::c_uint = 1; pub const SWKBD_FILTER_AT: ::libc::c_uint = 2; pub const SWKBD_FILTER_PERCENT: ::libc::c_uint = 4; pub const SWKBD_FILTER_BACKSLASH: ::libc::c_uint = 8; pub const SWKBD_FILTER_PROFANITY: ::libc::c_uint = 16; pub const SWKBD_FILTER_CALLBACK: ::libc::c_uint = 32; pub type _bindgen_ty_32 = ::libc::c_uint; pub const SWKBD_PARENTAL: ::libc::c_uint = 1; pub const SWKBD_DARKEN_TOP_SCREEN: ::libc::c_uint = 2; pub const SWKBD_PREDICTIVE_INPUT: ::libc::c_uint = 4; pub const SWKBD_MULTILINE: ::libc::c_uint = 8; pub const SWKBD_FIXED_WIDTH: ::libc::c_uint = 16; pub const SWKBD_ALLOW_HOME: ::libc::c_uint = 32; pub const SWKBD_ALLOW_RESET: ::libc::c_uint = 64; pub const SWKBD_ALLOW_POWER: ::libc::c_uint = 128; pub const SWKBD_DEFAULT_QWERTY: ::libc::c_uint = 512; pub type _bindgen_ty_33 = ::libc::c_uint; pub const SWKBD_CALLBACK_OK: SwkbdCallbackResult = 0; pub const SWKBD_CALLBACK_CLOSE: SwkbdCallbackResult = 1; pub const SWKBD_CALLBACK_CONTINUE: SwkbdCallbackResult = 2; pub type SwkbdCallbackResult = ::libc::c_uint; pub const SWKBD_NONE: SwkbdResult = -1; pub const SWKBD_INVALID_INPUT: SwkbdResult = -2; pub const SWKBD_OUTOFMEM: SwkbdResult = -3; pub const SWKBD_D0_CLICK: SwkbdResult = 0; pub const SWKBD_D1_CLICK0: SwkbdResult = 1; pub const SWKBD_D1_CLICK1: SwkbdResult = 2; pub const SWKBD_D2_CLICK0: SwkbdResult = 3; pub const SWKBD_D2_CLICK1: SwkbdResult = 4; pub const SWKBD_D2_CLICK2: SwkbdResult = 5; pub const SWKBD_HOMEPRESSED: SwkbdResult = 10; pub const SWKBD_RESETPRESSED: SwkbdResult = 11; pub const SWKBD_POWERPRESSED: SwkbdResult = 12; pub const SWKBD_PARENTAL_OK: SwkbdResult = 20; pub const SWKBD_PARENTAL_FAIL: SwkbdResult = 21; pub const SWKBD_BANNED_INPUT: SwkbdResult = 30; pub type SwkbdResult = ::libc::c_int; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct SwkbdDictWord { pub reading: [u16_; 41usize], pub word: [u16_; 41usize], pub language: u8_, pub all_languages: bool, } impl Default for SwkbdDictWord { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type SwkbdCallbackFn = ::core::option::Option< unsafe extern "C" fn( user: *mut ::libc::c_void, ppMessage: *mut *const ::libc::c_char, text: *const ::libc::c_char, textlen: size_t, ) -> SwkbdCallbackResult, >; #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct SwkbdStatusData { pub data: [u32_; 17usize], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct SwkbdLearningData { pub data: [u32_; 10523usize], } impl Default for SwkbdLearningData { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct SwkbdExtra { pub initial_text: *const ::libc::c_char, pub dict: *const SwkbdDictWord, pub status_data: *mut SwkbdStatusData, pub learning_data: *mut SwkbdLearningData, pub callback: SwkbdCallbackFn, pub callback_user: *mut ::libc::c_void, } impl Default for SwkbdExtra { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Copy, Clone)] pub struct SwkbdState { pub type_: ::libc::c_int, pub num_buttons_m1: ::libc::c_int, pub valid_input: ::libc::c_int, pub password_mode: ::libc::c_int, pub is_parental_screen: ::libc::c_int, pub darken_top_screen: ::libc::c_int, pub filter_flags: u32_, pub save_state_flags: u32_, pub max_text_len: u16_, pub dict_word_count: u16_, pub max_digits: u16_, pub button_text: [[u16_; 17usize]; 3usize], pub numpad_keys: [u16_; 2usize], pub hint_text: [u16_; 65usize], pub predictive_input: bool, pub multiline: bool, pub fixed_width: bool, pub allow_home: bool, pub allow_reset: bool, pub allow_power: bool, pub unknown: bool, pub default_qwerty: bool, pub button_submits_text: [bool; 4usize], pub language: u16_, pub initial_text_offset: ::libc::c_int, pub dict_offset: ::libc::c_int, pub initial_status_offset: ::libc::c_int, pub initial_learning_offset: ::libc::c_int, pub shared_memory_size: size_t, pub version: u32_, pub result: SwkbdResult, pub status_offset: ::libc::c_int, pub learning_offset: ::libc::c_int, pub text_offset: ::libc::c_int, pub text_length: u16_, pub callback_result: ::libc::c_int, pub callback_msg: [u16_; 257usize], pub skip_at_check: bool, pub __bindgen_anon_1: SwkbdState__bindgen_ty_1, } #[repr(C)] #[derive(Copy, Clone)] pub union SwkbdState__bindgen_ty_1 { pub reserved: [u8_; 171usize], pub extra: SwkbdExtra, } impl Default for SwkbdState__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for SwkbdState { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn swkbdInit( swkbd: *mut SwkbdState, type_: SwkbdType, numButtons: ::libc::c_int, maxTextLength: ::libc::c_int, ); } extern "C" { pub fn swkbdSetFeatures(swkbd: *mut SwkbdState, features: u32_); } extern "C" { pub fn swkbdSetHintText(swkbd: *mut SwkbdState, text: *const ::libc::c_char); } extern "C" { pub fn swkbdSetButton( swkbd: *mut SwkbdState, button: SwkbdButton, text: *const ::libc::c_char, submit: bool, ); } extern "C" { pub fn swkbdSetInitialText(swkbd: *mut SwkbdState, text: *const ::libc::c_char); } extern "C" { pub fn swkbdSetDictWord( word: *mut SwkbdDictWord, reading: *const ::libc::c_char, text: *const ::libc::c_char, ); } extern "C" { pub fn swkbdSetDictionary( swkbd: *mut SwkbdState, dict: *const SwkbdDictWord, wordCount: ::libc::c_int, ); } extern "C" { pub fn swkbdSetStatusData( swkbd: *mut SwkbdState, data: *mut SwkbdStatusData, in_: bool, out: bool, ); } extern "C" { pub fn swkbdSetLearningData( swkbd: *mut SwkbdState, data: *mut SwkbdLearningData, in_: bool, out: bool, ); } extern "C" { pub fn swkbdSetFilterCallback( swkbd: *mut SwkbdState, callback: SwkbdCallbackFn, user: *mut ::libc::c_void, ); } extern "C" { pub fn swkbdInputText( swkbd: *mut SwkbdState, buf: *mut ::libc::c_char, bufsize: size_t, ) -> SwkbdButton; } pub const ERROR_LANGUAGE_FLAG: ::libc::c_uint = 256; pub const ERROR_WORD_WRAP_FLAG: ::libc::c_uint = 512; pub type _bindgen_ty_34 = ::libc::c_uint; pub const ERROR_CODE: errorType = 0; pub const ERROR_TEXT: errorType = 1; pub const ERROR_EULA: errorType = 2; pub const ERROR_TYPE_EULA_FIRST_BOOT: errorType = 3; pub const ERROR_TYPE_EULA_DRAW_ONLY: errorType = 4; pub const ERROR_TYPE_AGREE: errorType = 5; pub const ERROR_CODE_LANGUAGE: errorType = 256; pub const ERROR_TEXT_LANGUAGE: errorType = 257; pub const ERROR_EULA_LANGUAGE: errorType = 258; pub const ERROR_TEXT_WORD_WRAP: errorType = 513; pub const ERROR_TEXT_LANGUAGE_WORD_WRAP: errorType = 769; pub type errorType = ::libc::c_uint; pub const ERROR_NORMAL: errorScreenFlag = 0; pub const ERROR_STEREO: errorScreenFlag = 1; pub type errorScreenFlag = ::libc::c_uint; pub const ERROR_UNKNOWN: errorReturnCode = -1; pub const ERROR_NONE: errorReturnCode = 0; pub const ERROR_SUCCESS: errorReturnCode = 1; pub const ERROR_NOT_SUPPORTED: errorReturnCode = 2; pub const ERROR_HOME_BUTTON: errorReturnCode = 10; pub const ERROR_SOFTWARE_RESET: errorReturnCode = 11; pub const ERROR_POWER_BUTTON: errorReturnCode = 12; pub type errorReturnCode = ::libc::c_int; #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct errorConf { pub type_: errorType, pub errorCode: ::libc::c_int, pub upperScreenFlag: errorScreenFlag, pub useLanguage: u16_, pub Text: [u16_; 1900usize], pub homeButton: bool, pub softwareReset: bool, pub appJump: bool, pub returnCode: errorReturnCode, pub eulaVersion: u16_, } impl Default for errorConf { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn errorInit(err: *mut errorConf, type_: errorType, lang: CFG_Language); } extern "C" { pub fn errorCode(err: *mut errorConf, error: ::libc::c_int); } extern "C" { pub fn errorText(err: *mut errorConf, text: *const ::libc::c_char); } extern "C" { pub fn errorDisp(err: *mut errorConf); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct MiiSelectorConf { pub enable_cancel_button: u8_, pub enable_selecting_guests: u8_, pub show_on_top_screen: u8_, pub _unk0x3: [u8_; 5usize], pub title: [u16_; 64usize], pub _unk0x88: [u8_; 4usize], pub show_guest_page: u8_, pub _unk0x8D: [u8_; 3usize], pub initial_index: u32_, pub mii_guest_whitelist: [u8_; 6usize], pub mii_whitelist: [u8_; 100usize], pub _unk0xFE: u16_, pub magic: u32_, } impl Default for MiiSelectorConf { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] pub struct MiiSelectorReturn { pub no_mii_selected: u32_, pub guest_mii_was_selected: u32_, pub guest_mii_index: u32_, pub mii: MiiData, pub _pad0x68: u16_, pub checksum: u16_, pub guest_mii_name: [u16_; 12usize], } impl Default for MiiSelectorReturn { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const MIISELECTOR_CANCEL: ::libc::c_uint = 1; pub const MIISELECTOR_GUESTS: ::libc::c_uint = 2; pub const MIISELECTOR_TOP: ::libc::c_uint = 4; pub const MIISELECTOR_GUESTSTART: ::libc::c_uint = 8; pub type _bindgen_ty_35 = ::libc::c_uint; extern "C" { pub fn miiSelectorInit(conf: *mut MiiSelectorConf); } extern "C" { pub fn miiSelectorLaunch(conf: *const MiiSelectorConf, returnbuf: *mut MiiSelectorReturn); } extern "C" { pub fn miiSelectorSetTitle(conf: *mut MiiSelectorConf, text: *const ::libc::c_char); } extern "C" { pub fn miiSelectorSetOptions(conf: *mut MiiSelectorConf, options: u32_); } extern "C" { pub fn miiSelectorWhitelistGuestMii(conf: *mut MiiSelectorConf, index: u32_); } extern "C" { pub fn miiSelectorBlacklistGuestMii(conf: *mut MiiSelectorConf, index: u32_); } extern "C" { pub fn miiSelectorWhitelistUserMii(conf: *mut MiiSelectorConf, index: u32_); } extern "C" { pub fn miiSelectorBlacklistUserMii(conf: *mut MiiSelectorConf, index: u32_); } extern "C" { pub fn miiSelectorReturnGetName( returnbuf: *const MiiSelectorReturn, out: *mut ::libc::c_char, max_size: size_t, ); } extern "C" { pub fn miiSelectorReturnGetAuthor( returnbuf: *const MiiSelectorReturn, out: *mut ::libc::c_char, max_size: size_t, ); } extern "C" { pub fn miiSelectorChecksumIsValid(returnbuf: *const MiiSelectorReturn) -> bool; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct archive_dir_t { pub magic: u32_, pub fd: Handle, pub index: ssize_t, pub size: size_t, pub entry_data: [FS_DirectoryEntry; 32usize], } impl Default for archive_dir_t { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } extern "C" { pub fn archiveMountSdmc() -> Result; } extern "C" { pub fn archiveMount( archiveID: FS_ArchiveID, archivePath: FS_Path, deviceName: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn archiveCommitSaveData(deviceName: *const ::libc::c_char) -> Result; } extern "C" { pub fn archiveUnmount(deviceName: *const ::libc::c_char) -> Result; } extern "C" { pub fn archiveUnmountAll() -> Result; } extern "C" { pub fn archive_getmtime(name: *const ::libc::c_char, mtime: *mut u64_) -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct romfs_header { pub headerSize: u32_, pub dirHashTableOff: u32_, pub dirHashTableSize: u32_, pub dirTableOff: u32_, pub dirTableSize: u32_, pub fileHashTableOff: u32_, pub fileHashTableSize: u32_, pub fileTableOff: u32_, pub fileTableSize: u32_, pub fileDataOff: u32_, } #[repr(C)] #[derive(Debug, Default)] pub struct romfs_dir { pub parent: u32_, pub sibling: u32_, pub childDir: u32_, pub childFile: u32_, pub nextHash: u32_, pub nameLen: u32_, pub name: __IncompleteArrayField, } #[repr(C)] #[derive(Debug, Default)] pub struct romfs_file { pub parent: u32_, pub sibling: u32_, pub dataOff: u64_, pub dataSize: u64_, pub nextHash: u32_, pub nameLen: u32_, pub name: __IncompleteArrayField, } extern "C" { pub fn romfsMountSelf(name: *const ::libc::c_char) -> Result; } extern "C" { pub fn romfsMountFromFile(fd: Handle, offset: u32_, name: *const ::libc::c_char) -> Result; } extern "C" { pub fn romfsMountFromCurrentProcess(name: *const ::libc::c_char) -> Result; } extern "C" { pub fn romfsMountFromTitle( tid: u64_, mediatype: FS_MediaType, name: *const ::libc::c_char, ) -> Result; } extern "C" { pub fn romfsUnmount(name: *const ::libc::c_char) -> Result; } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct charWidthInfo_s { pub left: s8, pub glyphWidth: u8_, pub charWidth: u8_, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct TGLP_s { pub cellWidth: u8_, pub cellHeight: u8_, pub baselinePos: u8_, pub maxCharWidth: u8_, pub sheetSize: u32_, pub nSheets: u16_, pub sheetFmt: u16_, pub nRows: u16_, pub nLines: u16_, pub sheetWidth: u16_, pub sheetHeight: u16_, pub sheetData: *mut u8_, } impl Default for TGLP_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub type CWDH_s = tag_CWDH_s; #[repr(C)] #[derive(Debug)] pub struct tag_CWDH_s { pub startIndex: u16_, pub endIndex: u16_, pub next: *mut CWDH_s, pub widths: __IncompleteArrayField, } impl Default for tag_CWDH_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } pub const CMAP_TYPE_DIRECT: ::libc::c_uint = 0; pub const CMAP_TYPE_TABLE: ::libc::c_uint = 1; pub const CMAP_TYPE_SCAN: ::libc::c_uint = 2; pub type _bindgen_ty_36 = ::libc::c_uint; pub type CMAP_s = tag_CMAP_s; #[repr(C)] pub struct tag_CMAP_s { pub codeBegin: u16_, pub codeEnd: u16_, pub mappingMethod: u16_, pub reserved: u16_, pub next: *mut CMAP_s, pub __bindgen_anon_1: tag_CMAP_s__bindgen_ty_1, } #[repr(C)] pub struct tag_CMAP_s__bindgen_ty_1 { pub indexOffset: __BindgenUnionField, pub indexTable: __BindgenUnionField<[u16_; 0usize]>, pub __bindgen_anon_1: __BindgenUnionField, pub bindgen_union_field: u16, } #[repr(C)] #[derive(Debug, Default)] pub struct tag_CMAP_s__bindgen_ty_1__bindgen_ty_1 { pub nScanEntries: u16_, pub scanEntries: __IncompleteArrayField, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct tag_CMAP_s__bindgen_ty_1__bindgen_ty_1__bindgen_ty_1 { pub code: u16_, pub glyphIndex: u16_, } impl Default for tag_CMAP_s__bindgen_ty_1 { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } impl Default for tag_CMAP_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct FINF_s { pub signature: u32_, pub sectionSize: u32_, pub fontType: u8_, pub lineFeed: u8_, pub alterCharIndex: u16_, pub defaultWidth: charWidthInfo_s, pub encoding: u8_, pub tglp: *mut TGLP_s, pub cwdh: *mut CWDH_s, pub cmap: *mut CMAP_s, pub height: u8_, pub width: u8_, pub ascent: u8_, pub padding: u8_, } impl Default for FINF_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct CFNT_s { pub signature: u32_, pub endianness: u16_, pub headerSize: u16_, pub version: u32_, pub fileSize: u32_, pub nBlocks: u32_, pub finf: FINF_s, } impl Default for CFNT_s { fn default() -> Self { let mut s = ::core::mem::MaybeUninit::::uninit(); unsafe { ::core::ptr::write_bytes(s.as_mut_ptr(), 0, 1); s.assume_init() } } } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct fontGlyphPos_s { pub sheetIndex: ::libc::c_int, pub xOffset: f32, pub xAdvance: f32, pub width: f32, pub texcoord: fontGlyphPos_s__bindgen_ty_1, pub vtxcoord: fontGlyphPos_s__bindgen_ty_2, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct fontGlyphPos_s__bindgen_ty_1 { pub left: f32, pub top: f32, pub right: f32, pub bottom: f32, } #[repr(C)] #[derive(Debug, Default, Copy, Clone)] pub struct fontGlyphPos_s__bindgen_ty_2 { pub left: f32, pub top: f32, pub right: f32, pub bottom: f32, } pub const GLYPH_POS_CALC_VTXCOORD: ::libc::c_uint = 1; pub const GLYPH_POS_AT_BASELINE: ::libc::c_uint = 2; pub const GLYPH_POS_Y_POINTS_UP: ::libc::c_uint = 4; pub type _bindgen_ty_37 = ::libc::c_uint; extern "C" { pub fn fontEnsureMapped() -> Result; } extern "C" { pub fn fontFixPointers(font: *mut CFNT_s); } extern "C" { pub fn fontGlyphIndexFromCodePoint(font: *mut CFNT_s, codePoint: u32_) -> ::libc::c_int; } extern "C" { pub fn fontGetCharWidthInfo( font: *mut CFNT_s, glyphIndex: ::libc::c_int, ) -> *mut charWidthInfo_s; } extern "C" { pub fn fontCalcGlyphPos( out: *mut fontGlyphPos_s, font: *mut CFNT_s, glyphIndex: ::libc::c_int, flags: u32_, scaleX: f32, scaleY: f32, ); } extern "C" { pub fn gdbHioDevInit() -> ::libc::c_int; } extern "C" { pub fn gdbHioDevExit(); } extern "C" { pub fn gdbHioDevGetStdin() -> ::libc::c_int; } extern "C" { pub fn gdbHioDevGetStdout() -> ::libc::c_int; } extern "C" { pub fn gdbHioDevGetStderr() -> ::libc::c_int; } extern "C" { pub fn gdbHioDevRedirectStdStreams(in_: bool, out: bool, err: bool) -> ::libc::c_int; } extern "C" { pub fn gdbHioDevGettimeofday(tv: *mut timeval, tz: *mut ::libc::c_void) -> ::libc::c_int; } extern "C" { pub fn gdbHioDevIsatty(fd: ::libc::c_int) -> ::libc::c_int; } extern "C" { pub fn gdbHioDevSystem(command: *const ::libc::c_char) -> ::libc::c_int; }