Browse Source

Added new bindings

pull/10/head
Fenrir 9 years ago
parent
commit
c314c0098e
  1. 2
      Cargo.toml
  2. 4
      ctru-sys/Cargo.toml
  3. 14
      ctru-sys/src/env.rs
  4. 41
      ctru-sys/src/gfx.rs
  5. 308
      ctru-sys/src/gpu/gpu.rs
  6. 55
      ctru-sys/src/gpu/gx.rs
  7. 8
      ctru-sys/src/gpu/mod.rs
  8. 19
      ctru-sys/src/gpu/registers.rs
  9. 89
      ctru-sys/src/gpu/shaderProgram.rs
  10. 42
      ctru-sys/src/gpu/shader_program.rs
  11. 193
      ctru-sys/src/gpu/shbin.rs
  12. 10
      ctru-sys/src/ipc.rs
  13. 14
      ctru-sys/src/lib.rs
  14. 10
      ctru-sys/src/linear.rs
  15. 33
      ctru-sys/src/lock.rs
  16. 49
      ctru-sys/src/os.rs
  17. 9
      ctru-sys/src/services/ac.rs
  18. 49
      ctru-sys/src/services/am.rs
  19. 190
      ctru-sys/src/services/apt.rs
  20. 410
      ctru-sys/src/services/cam.rs
  21. 12
      ctru-sys/src/services/cfgnor.rs
  22. 39
      ctru-sys/src/services/cfgu.rs
  23. 48
      ctru-sys/src/services/dsp.rs
  24. 536
      ctru-sys/src/services/fs.rs
  25. 83
      ctru-sys/src/services/gsp.rs
  26. 120
      ctru-sys/src/services/gspgpu.rs
  27. 17
      ctru-sys/src/services/gsplcd.rs
  28. 6
      ctru-sys/src/services/hb.rs
  29. 67
      ctru-sys/src/services/hid.rs
  30. 79
      ctru-sys/src/services/httpc.rs
  31. 17
      ctru-sys/src/services/ir.rs
  32. 16
      ctru-sys/src/services/irrst.rs
  33. 53
      ctru-sys/src/services/mic.rs
  34. 16
      ctru-sys/src/services/mod.rs
  35. 67
      ctru-sys/src/services/mvd.rs
  36. 11
      ctru-sys/src/services/news.rs
  37. 4
      ctru-sys/src/services/ns.rs
  38. 24
      ctru-sys/src/services/pm.rs
  39. 46
      ctru-sys/src/services/ps.rs
  40. 12
      ctru-sys/src/services/ptm.rs
  41. 7
      ctru-sys/src/services/ptmsysm.rs
  42. 11
      ctru-sys/src/services/ptmu.rs
  43. 44
      ctru-sys/src/services/qtm.rs
  44. 6
      ctru-sys/src/services/soc.rs
  45. 12
      ctru-sys/src/services/srvpm.rs
  46. 185
      ctru-sys/src/services/y2r.rs
  47. 534
      ctru-sys/src/svc.rs
  48. 19
      ctru-sys/src/synchronization.rs
  49. 19
      ctru-sys/src/thread.rs
  50. 1987
      rawunused.rs
  51. 3
      src/lib.rs
  52. 44
      src/services/apt.rs
  53. 34
      src/services/gsp.rs
  54. 2
      src/services/hid.rs

2
Cargo.toml

@ -2,7 +2,7 @@
name = "ctru-rs" name = "ctru-rs"
version = "0.2.0" version = "0.2.0"
description = "A safe wrapper around smealum's ctrulib." description = "A safe wrapper around smealum's ctrulib."
authors = ["Ronald Kinard <furyhunter600@gmail.com>", "FenrirWolf <fenrirwolf@gmail.com>"] authors = ["Ronald Kinard <furyhunter600@gmail.com>"]
links = "ctru" links = "ctru"
build = "build.rs" build = "build.rs"
license = "https://en.wikipedia.org/wiki/Zlib_License" license = "https://en.wikipedia.org/wiki/Zlib_License"

4
ctru-sys/Cargo.toml

@ -1,5 +1,5 @@
[package] [package]
name = "ctru-sys" name = "ctru-sys"
version = "0.1.0" version = "0.2.0"
authors = ["Ronald Kinard <furyhunter600@gmail.com>", "FenrirWolf <fenrirwolf@gmail.com>"] authors = ["Ronald Kinard <furyhunter600@gmail.com>"]
license = "https://en.wikipedia.org/wiki/Zlib_License" license = "https://en.wikipedia.org/wiki/Zlib_License"

14
ctru-sys/src/env.rs

@ -0,0 +1,14 @@
//TODO: There are a bunch of static inline functions that bindgen didn't pick up and idk how they work
use ::Handle;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed1 {
RUNFLAG_APTWORKAROUND = 1,
RUNFLAG_APTREINIT = 2,
}
extern "C" {
pub fn envGetHandle(name: *const u8) -> Handle;
}

41
ctru-sys/src/gfx.rs

@ -1,13 +1,13 @@
use services::gsp::*; use services::gspgpu::*;
#[inline] #[inline]
pub fn RGB565(r: u32, g: u32, b: u32) { pub fn RGB565(r: u32, g: u32, b: u32) -> u32 {
(((b)&0x1f)|(((g)&0x3f)<<5)|(((r)&0x1f)<<11)); (((b)&0x1f)|(((g)&0x3f)<<5)|(((r)&0x1f)<<11))
} }
#[inline] #[inline]
pub fn RGB8_to_565(r: u32, g: u32, b: u32) { pub fn RGB8_to_565(r: u32, g: u32, b: u32) -> u32 {
(((b)>>3)&0x1f)|((((g)>>2)&0x3f)<<5)|((((r)>>3)&0x1f)<<11); (((b)>>3)&0x1f)|((((g)>>2)&0x3f)<<5)|((((r)>>3)&0x1f)<<11)
} }
#[repr(C)] #[repr(C)]
@ -22,22 +22,27 @@ pub enum gfx3dSide_t {
GFX_RIGHT = 1 GFX_RIGHT = 1
} }
extern "C" { extern "C" {
pub static mut gfxTopLeftFramebuffers: [*mut u8; 2usize]; pub static mut gfxTopLeftFramebuffers: [*mut u8; 2usize];
pub static mut gfxTopRightFramebuffers: [*mut u8; 2usize]; pub static mut gfxTopRightFramebuffers: [*mut u8; 2usize];
pub static mut gfxBottomFramebuffers: [*mut u8; 2usize]; pub static mut gfxBottomFramebuffers: [*mut u8; 2usize];
pub static mut gxCmdBuf: *mut u32;
pub fn gfxInitDefault() -> (); pub fn gfxInitDefault();
pub fn gfxInit(topFormat: GSP_FramebufferFormats, bottomFormat: GSP_FramebufferFormats, vrambuffers: u8) -> (); pub fn gfxInit(topFormat: GSPGPU_FramebufferFormats,
pub fn gfxExit() -> (); bottomFormat: GSPGPU_FramebufferFormats, vrambuffers: u8);
pub fn gfxSet3D(enable: u8) -> (); pub fn gfxExit();
pub fn gfxSetScreenFormat(screen: gfxScreen_t, format: GSP_FramebufferFormats) -> (); pub fn gfxSet3D(enable: u8);
pub fn gfxGetScreenFormat(screen: gfxScreen_t) -> GSP_FramebufferFormats; pub fn gfxIs3D() -> u8;
pub fn gfxSetDoubleBuffering(screen: gfxScreen_t, doubleBuffering: u8) -> (); pub fn gfxSetScreenFormat(screen: gfxScreen_t,
pub fn gfxFlushBuffers() -> (); format: GSPGPU_FramebufferFormats);
pub fn gfxSwapBuffers() -> (); pub fn gfxGetScreenFormat(screen: gfxScreen_t)
pub fn gfxSwapBuffersGpu() -> (); -> GSPGPU_FramebufferFormats;
pub fn gfxGetFramebuffer(screen: gfxScreen_t, side: gfx3dSide_t, width: *mut u16, height: *mut u16) -> *mut u8; pub fn gfxSetDoubleBuffering(screen: gfxScreen_t, doubleBuffering: u8);
pub fn gfxFlushBuffers();
pub fn gfxConfigScreen(scr: gfxScreen_t, immediate: u8);
pub fn gfxSwapBuffers();
pub fn gfxSwapBuffersGpu();
pub fn gfxGetFramebuffer(screen: gfxScreen_t, side: gfx3dSide_t,
width: *mut u16, height: *mut u16) -> *mut u8;
} }

308
ctru-sys/src/gpu/gpu.rs

@ -1,294 +1,26 @@
use ctru::Handle; /* automatically generated by rust-bindgen */
#[inline] #[inline]
pub fn GPUCMD_HEADER(incremental: i32, mask: i32, reg: i32) { pub fn GPUCMD_HEADER(incremental: u32, mask: u32, reg: u32) -> u32{
(((incremental)<<31)|(((mask)&0xF)<<16)|((reg)&0x3FF)); (((incremental)<<31)|(((mask)&0xF)<<16)|((reg)&0x3FF))
} }
#[inline]
pub fn GPU_TEXTURE_MAG_FILTER(v: i32) {
(((v)&0x1)<<1); //takes a GPU_TEXTURE_FILTER_PARAM
}
#[inline]
pub fn GPU_TEXTURE_MIN_FILTER(v: i32) {
(((v)&0x1)<<2); //takes a GPU_TEXTURE_FILTER_PARAM
}
#[inline]
pub fn GPU_TEXTURE_WRAP_S(v: i32) {
(((v)&0x3)<<8); //takes a GPU_TEXTURE_WRAP_PARAM
}
#[inline]
pub fn GPU_TEXTURE_WRAP_T(v: i32) {
(((v)&0x3)<<12); //takes a GPU_TEXTURE_WRAP_PARAM
}
#[repr(C)]
pub enum GPU_TEXTURE_FILTER_PARAM {
GPU_NEAREST = 0x0,
GPU_LINEAR = 0x1
}
#[repr(C)]
pub enum GPU_TEXTURE_WRAP_PARAM {
GPU_CLAMP_TO_EDGE = 0x0,
GPU_REPEAT = 0x1
}
#[repr(C)]
pub enum GPU_TEXUNIT {
GPU_TEXUNIT0 = 0x1,
GPU_TEXUNIT1 = 0x2,
GPU_TEXUNIT2 = 0x4
}
#[repr(C)]
pub enum GPU_TEXCOLOR {
GPU_RGBA8=0x0,
GPU_RGB8=0x1,
GPU_RGBA5551=0x2,
GPU_RGB565=0x3,
GPU_RGBA4=0x4,
GPU_LA8=0x5,
GPU_HILO8=0x6,
GPU_L8=0x7,
GPU_A8=0x8,
GPU_LA4=0x9,
GPU_L4=0xA,
GPU_ETC1=0xB,
GPU_ETC1A4=0xC
}
#[repr(C)]
pub enum GPU_TESTFUNC {
GPU_NEVER = 0,
GPU_ALWAYS = 1,
GPU_EQUAL = 2,
GPU_NOTEQUAL = 3,
GPU_LESS = 4,
GPU_LEQUAL = 5,
GPU_GREATER = 6,
GPU_GEQUAL = 7
}
#[repr(C)]
pub enum GPU_SCISSORMODE {
GPU_SCISSOR_DISABLE = 0, // disable scissor test
GPU_SCISSOR_INVERT = 1, // exclude pixels inside the scissor box
// 2 is the same as 0
GPU_SCISSOR_NORMAL = 3, // exclude pixels outside of the scissor box
}
#[repr(C)]
pub enum GPU_STENCILOP {
GPU_KEEP = 0, // keep destination value
GPU_AND_NOT = 1, // destination & ~source
GPU_XOR = 5, // destination ^ source
// 2 is the same as 1. Other values are too weird to even be usable.
}
#[repr(C)]
pub enum GPU_WRITEMASK {
GPU_WRITE_RED = 0x01,
GPU_WRITE_GREEN = 0x02,
GPU_WRITE_BLUE = 0x04,
GPU_WRITE_ALPHA = 0x08,
GPU_WRITE_DEPTH = 0x10,
GPU_WRITE_COLOR = 0x0F,
GPU_WRITE_ALL = 0x1F
}
#[repr(C)]
pub enum GPU_BLENDEQUATION {
GPU_BLEND_ADD = 0,
GPU_BLEND_SUBTRACT = 1,
GPU_BLEND_REVERSE_SUBTRACT = 2,
GPU_BLEND_MIN = 3,
GPU_BLEND_MAX = 4
}
#[repr(C)]
pub enum GPU_BLENDFACTOR {
GPU_ZERO = 0,
GPU_ONE = 1,
GPU_SRC_COLOR = 2,
GPU_ONE_MINUS_SRC_COLOR = 3,
GPU_DST_COLOR = 4,
GPU_ONE_MINUS_DST_COLOR = 5,
GPU_SRC_ALPHA = 6,
GPU_ONE_MINUS_SRC_ALPHA = 7,
GPU_DST_ALPHA = 8,
GPU_ONE_MINUS_DST_ALPHA = 9,
GPU_CONSTANT_COLOR = 10,
GPU_ONE_MINUS_CONSTANT_COLOR = 11,
GPU_CONSTANT_ALPHA = 12,
GPU_ONE_MINUS_CONSTANT_ALPHA = 13,
GPU_SRC_ALPHA_SATURATE = 14
}
#[repr(C)]
pub enum GPU_LOGICOP {
GPU_LOGICOP_CLEAR = 0,
GPU_LOGICOP_AND = 1,
GPU_LOGICOP_AND_REVERSE = 2,
GPU_LOGICOP_COPY = 3,
GPU_LOGICOP_SET = 4,
GPU_LOGICOP_COPY_INVERTED = 5,
GPU_LOGICOP_NOOP = 6,
GPU_LOGICOP_INVERT = 7,
GPU_LOGICOP_NAND = 8,
GPU_LOGICOP_OR = 9,
GPU_LOGICOP_NOR = 10,
GPU_LOGICOP_XOR = 11,
GPU_LOGICOP_EQUIV = 12,
GPU_LOGICOP_AND_INVERTED = 13,
GPU_LOGICOP_OR_REVERSE = 14,
GPU_LOGICOP_OR_INVERTED = 15
}
#[repr(C)]
pub enum GPU_FORMATS {
GPU_BYTE = 0,
GPU_UNSIGNED_BYTE = 1,
GPU_SHORT = 2,
GPU_FLOAT = 3
}
//defines for CW ?
#[repr(C)]
pub enum GPU_CULLMODE {
GPU_CULL_NONE = 0,
GPU_CULL_FRONT_CCW = 1,
GPU_CULL_BACK_CCW = 2
}
#[inline]
pub fn GU_ATTRIBFMT(i: i32, n: i32, f: i32) {
(((((n)-1)<<2)|((f)&3))<<((i)*4));
}
/**
* Texture combiners sources
*/
#[repr(C)]
pub enum GPU_TEVSRC{
GPU_PRIMARY_COLOR = 0x00,
GPU_TEXTURE0 = 0x03,
GPU_TEXTURE1 = 0x04,
GPU_TEXTURE2 = 0x05,
GPU_TEXTURE3 = 0x06,
GPU_CONSTANT = 0x0E,
GPU_PREVIOUS = 0x0F,
}
/**
* Texture RGB combiners operands
*/
#[repr(C)]
pub enum GPU_TEVOP_RGB{
GPU_TEVOP_RGB_SRC_COLOR = 0x00,
GPU_TEVOP_RGB_ONE_MINUS_SRC_COLOR = 0x01,
GPU_TEVOP_RGB_SRC_ALPHA = 0x02,
GPU_TEVOP_RGB_ONE_MINUS_SRC_ALPHA = 0x03,
GPU_TEVOP_RGB_SRC0_RGB = 0x04,
GPU_TEVOP_RGB_0x05 = 0x05,
GPU_TEVOP_RGB_0x06 = 0x06,
GPU_TEVOP_RGB_0x07 = 0x07,
GPU_TEVOP_RGB_SRC1_RGB = 0x08,
GPU_TEVOP_RGB_0x09 = 0x09,
GPU_TEVOP_RGB_0x0A = 0x0A,
GPU_TEVOP_RGB_0x0B = 0x0B,
GPU_TEVOP_RGB_SRC2_RGB = 0x0C,
GPU_TEVOP_RGB_0x0D = 0x0D,
GPU_TEVOP_RGB_0x0E = 0x0E,
GPU_TEVOP_RGB_0x0F = 0x0F,
};
/**
* Texture ALPHA combiners operands
*/
#[repr(C)]
pub enum GPU_TEVOP_A {
GPU_TEVOP_A_SRC_ALPHA = 0x00,
GPU_TEVOP_A_ONE_MINUS_SRC_ALPHA = 0x01,
GPU_TEVOP_A_SRC0_RGB = 0x02,
GPU_TEVOP_A_SRC1_RGB = 0x04,
GPU_TEVOP_A_SRC2_RGB = 0x06,
}
/**
* Texture combiner functions
*/
pub enum GPU_COMBINEFUNC {
GPU_REPLACE = 0x00,
GPU_MODULATE = 0x01,
GPU_ADD = 0x02,
GPU_ADD_SIGNED = 0x03,
GPU_INTERPOLATE = 0x04,
GPU_SUBTRACT = 0x05,
GPU_DOT3_RGB = 0x06 //RGB only
}
#[inline]
pub fn GPU_TEVSOURCES(a, b, c) {
(((a))|((b)<<4)|((c)<<8));
}
#[inline]
pub fn GPU_TEVOPERANDS(a, b, c) {
(((a))|((b)<<4)|((c)<<8));
}
#[repr(C)]
pub enum GPU_Primitive_t {
GPU_TRIANGLES = 0x0000,
GPU_TRIANGLE_STRIP = 0x0100,
GPU_TRIANGLE_FAN = 0x0200,
GPU_UNKPRIM = 0x0300 // ?
}
#[repr(C)]
pub enum GPU_SHADER_TYPE {
GPU_VERTEX_SHADER=0x0,
GPU_GEOMETRY_SHADER=0x1
}
extern "C" { extern "C" {
pub fn GPU_Init(gsphandle: *mut Handle) -> (); pub static mut gpuCmdBuf: *mut u32;
pub fn GPU_Reset(gxbuf: *mut u32, gpuBuf: *mut u32, gpuBufSize: u32) -> (); pub static mut gpuCmdBufSize: u32;
pub static mut gpuCmdBufOffset: u32;
pub fn GPUCMD_SetBuffer(adr: *mut u32, size: u32, offset: u32) -> ();
pub fn GPUCMD_SetBufferOffset(offset: u32) -> (); pub fn GPUCMD_SetBuffer(adr: *mut u32, size: u32, offset: u32);
pub fn GPUCMD_GetBuffer(adr: *mut *mut u32, size: *mut u32, offset: *mut u32) -> (); pub fn GPUCMD_SetBufferOffset(offset: u32);
pub fn GPUCMD_AddRawCommands(cmd: *mut u32, size: u32) -> (); pub fn GPUCMD_GetBuffer(adr: *mut *mut u32, size: *mut u32,
pub fn GPUCMD_Run(gxbuf: *mut u32) -> (); offset: *mut u32);
pub fn GPUCMD_FlushAndRun(gxbuf: *mut u32) -> (); pub fn GPUCMD_AddRawCommands(cmd: *mut u32, size: u32);
pub fn GPUCMD_Add(header: u32, param: *mut u32, paramlength: u32) -> (); pub fn GPUCMD_Run();
pub fn GPUCMD_Finalize() -> (); pub fn GPUCMD_FlushAndRun();
pub fn GPU_SetFloatUniform(_type: GPU_SHADER_TYPE, startreg: u32, data: *mut u32, numreg: u32) -> (); pub fn GPUCMD_Add(header: u32, param: *mut u32, paramlength: u32);
pub fn GPU_SetViewport(depthBuffer: *mut u32, colorBuffer: *mut u32, x: u32, y: u32, w: u32, h: u32) -> (); pub fn GPUCMD_Finalize();
pub fn GPU_SetScissorTest(mode: GPU_SCISSORMODE, x: u32, y: u32, w: u32, h: u32) -> (); pub fn f32tof16(f: f32) -> u32;
pub fn GPU_DepthMap(zScale: f32, zOffset: f32) -> (); pub fn f32tof20(f: f32) -> u32;
pub fn GPU_SetAlphaTest(enable: u8, function: GPU_TESTFUNC, _ref: u8) -> (); pub fn f32tof24(f: f32) -> u32;
pub fn GPU_SetDepthTestAndWriteMask(enable: u8, function: GPU_TESTFUNC, writemask: GPU_WRITEMASK) -> (); pub fn f32tof31(f: f32) -> u32;
pub fn GPU_SetStencilTest(enable: u8, function: GPU_TESTFUNC, _ref: _u8, mask: _u8, replace: _u8) -> ();
pub fn GPU_SetStencilOp(sfail: GPU_STENCILOP, dfail: GPU_STENCILOP, pass: GPU_STENCILOP) -> ();
pub fn GPU_SetFaceCulling(mode: GPU_CULLMODE) -> ();
pub fn GPU_SetAlphaBlending(colorEquation: GPU_BLENDEQUATION, alphaEquation: GPU_BLENDEQUATION, colorSrc: GPU_BLENDFACTOR, colorDst: GPU_BLENDFACTOR, alphaSrc: GPU_BLENDFACTOR, alphaDst: GPU_BLENDFACTOR) -> ();
pub fn GPU_SetColorLogicOp(op: GPU_LOGICOP) -> ();
pub fn GPU_SetBlendingColor(r: u8, g: u8, b: u8, a: u8) -> ();
pub fn GPU_SetAttributeBuffers(totalAttributes: u8, baseAddress: *mut u32, attributeFormats: u64, attributeMask: u16, attributePermutation: u64, numBuffers: u8, bufferOffsets: *mut u32, bufferPermutations: *mut u64, bufferNumAttributes: *mut u8) -> ();
pub fn GPU_SetTextureEnable(units: GPU_TEXUNIT) -> ();
pub fn GPU_SetTexture(unit: GPU_TEXUNIT, data: *mut u32, width: u16, height: u16, param: u32, colorType: GPU_TEXCOLOR) -> ();
pub fn GPU_SetTexEnv(id: u8, rgbSources: u16, alphaSources: u16, rgbOperands: u16, alphaOperands: u16, rgbCombine: GPU_COMBINEFUNC, alphaCombine: GPU_COMBINEFUNC, constantColor: u32) -> ();
pub fn GPU_DrawArray(primitive: GPU_Primitive_t, n: u32) -> ();
pub fn GPU_DrawElements(primitive: GPU_Primitive_t, indexArray: *mut u32, n: u32) -> ();
pub fn GPU_FinishDrawing() -> ();
pub fn GPU_SetShaderOutmap(outmapData: *mut u32) -> ();
pub fn GPU_SendShaderCode(_type: GPU_SHADER_TYPE, data: *mut u32, offset: u16, length: u16) -> ();
pub fn GPU_SendOperandDescriptors(_type: GPU_SHADER_TYPE, data: *mut u32, offset: u16, length: u16) -> ();
} }

55
ctru-sys/src/gpu/gx.rs

@ -1,3 +1,5 @@
use ::Result;
#[inline] #[inline]
pub fn GX_BUFFER_DIM(w: u32, h: u32) { pub fn GX_BUFFER_DIM(w: u32, h: u32) {
(((h)<<16)|((w)&0xFFFF)); (((h)<<16)|((w)&0xFFFF));
@ -10,7 +12,7 @@ pub enum GX_TRANSFER_FORMAT
GX_TRANSFER_FMT_RGB8 = 1, GX_TRANSFER_FMT_RGB8 = 1,
GX_TRANSFER_FMT_RGB565 = 2, GX_TRANSFER_FMT_RGB565 = 2,
GX_TRANSFER_FMT_RGB5A1 = 3, GX_TRANSFER_FMT_RGB5A1 = 3,
GX_TRANSFER_FMT_RGBA4 = 4 GX_TRANSFER_FMT_RGBA4 = 4,
} }
#[repr(C)] #[repr(C)]
@ -18,7 +20,7 @@ pub enum GX_TRANSFER_SCALE
{ {
GX_TRANSFER_SCALE_NO = 0, GX_TRANSFER_SCALE_NO = 0,
GX_TRANSFER_SCALE_X = 1, GX_TRANSFER_SCALE_X = 1,
GX_TRANSFER_SCALE_Y = 2 GX_TRANSFER_SCALE_Y = 2,
} }
#[repr(C)] #[repr(C)]
@ -31,43 +33,62 @@ pub enum GX_FILL_CONTROL {
} }
#[inline] #[inline]
pub fn GX_TRANSFER_FLIP_VERT(x) { pub fn GX_TRANSFER_FLIP_VERT(x: i32) {
((x)<<0); ((x)<<0);
} }
#[inline] #[inline]
pub fn GX_TRANSFER_OUT_TILED(x) { pub fn GX_TRANSFER_OUT_TILED(x: i32) {
((x)<<1); ((x)<<1);
} }
#[inline] #[inline]
pub fn GX_TRANSFER_RAW_COPY(x) { pub fn GX_TRANSFER_RAW_COPY(x: i32) {
((x)<<3) ((x)<<3);
} }
#[inline] #[inline]
pub fn GX_TRANSFER_IN_FORMAT(x) { pub fn GX_TRANSFER_IN_FORMAT(x: i32) {
((x)<<8); ((x)<<8);
} }
#[inline] #[inline]
pub fn GX_TRANSFER_OUT_FORMAT(x) { pub fn GX_TRANSFER_OUT_FORMAT(x: i32) {
((x)<<12) ((x)<<12);
} }
#[inline] #[inline]
pub fn GX_TRANSFER_SCALING(x) { pub fn GX_TRANSFER_SCALING(x: i32) {
((x)<<24); ((x)<<24);
} }
use ctru::Result; #[inline]
pub fn GX_CMDLIST_BIT0() {
(1u32<<(0));
}
#[inline]
pub fn GX_CMNDLIST_FLUSH() {
(1u32<<(1));
}
extern "C" { extern "C" {
pub fn GX_RequestDma(gxbuf: *mut u32, src: *mut u32, dst: *mut u32, length: u32) -> Result; pub static mut gxCmdBuf: *mut u32;
pub fn GX_SetCommandList_Last(gxbuf: *mut u32, buf0a: *mut u32, buf0s: u32, flags: u8) -> Result;
pub fn GX_SetMemoryFill(gxbuf: *mut u32, buf0a: *mut u32, buf0v: u32, buf0e: *mut u32, width0: u16, buf1a: *mut u32, buf1v: u32, buf1e: *mut u32, width1: u16) -> Result; pub fn GX_RequestDma(src: *mut u32, dst: *mut u32, length: u32)
pub fn GX_SetDisplayTransfer(gxbuf: *mut u32, inadr: *mut u32, indim: u32, outadr: *mut u32, outdim: u32, flags: u32) -> Result; -> Result;
pub fn GX_SetTextureCopy(gxbuf: *mut u32, inadr: *mut u32, indim: u32, outadr: *mut u32, outdim: u32, size: u32, flags: u32) -> Result; pub fn GX_ProcessCommandList(buf0a: *mut u32, buf0s: u32, flags: u8)
pub fn GX_SetCommandList_First(gxbuf: *mut u32, buf0a: *mut u32, buf0s: u32, buf1a: *mut u32, buf1s: u32, buf2a: *mut u32, buf2s: u32) -> Result; -> Result;
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;
pub fn GX_DisplayTransfer(inadr: *mut u32, indim: u32,
outadr: *mut u32, outdim: u32, flags: u32)
-> Result;
pub fn GX_TextureCopy(inadr: *mut u32, indim: u32, outadr: *mut u32,
outdim: u32, size: u32, flags: u32) -> Result;
pub fn GX_FlushCacheRegions(buf0a: *mut u32, buf0s: u32,
buf1a: *mut u32, buf1s: u32,
buf2a: *mut u32, buf2s: u32) -> Result;
} }

8
ctru-sys/src/gpu/mod.rs

@ -1,11 +1,5 @@
pub mod gpu; pub mod gpu;
pub mod gx; pub mod gx;
pub mod registers; pub mod registers;
pub mod shader_program; pub mod shaderProgram;
pub mod shbin; pub mod shbin;
use self::gpu::*;
use self::gx::*;
use self::registers::*;
use self::shader_program::*;
use self::shbin::*;

19
ctru-sys/src/gpu/registers.rs

@ -1,3 +1,4 @@
//Miscellaneous registers (0x000-0x03F)
pub const GPUREG_0000: i32 = 0x0000; pub const GPUREG_0000: i32 = 0x0000;
pub const GPUREG_0001: i32 = 0x0001; pub const GPUREG_0001: i32 = 0x0001;
pub const GPUREG_0002: i32 = 0x0002; pub const GPUREG_0002: i32 = 0x0002;
@ -62,6 +63,8 @@ pub const GPUREG_003C: i32 = 0x003C;
pub const GPUREG_003D: i32 = 0x003D; pub const GPUREG_003D: i32 = 0x003D;
pub const GPUREG_003E: i32 = 0x003E; pub const GPUREG_003E: i32 = 0x003E;
pub const GPUREG_003F: i32 = 0x003F; pub const GPUREG_003F: i32 = 0x003F;
//Rasterizer registers (0x040-0x07F)
pub const GPUREG_FACECULLING_CONFIG: i32 = 0x0040; pub const GPUREG_FACECULLING_CONFIG: i32 = 0x0040;
pub const GPUREG_0041: i32 = 0x0041; pub const GPUREG_0041: i32 = 0x0041;
pub const GPUREG_0042: i32 = 0x0042; pub const GPUREG_0042: i32 = 0x0042;
@ -126,6 +129,8 @@ pub const GPUREG_007C: i32 = 0x007C;
pub const GPUREG_007D: i32 = 0x007D; pub const GPUREG_007D: i32 = 0x007D;
pub const GPUREG_007E: i32 = 0x007E; pub const GPUREG_007E: i32 = 0x007E;
pub const GPUREG_007F: i32 = 0x007F; pub const GPUREG_007F: i32 = 0x007F;
//Texturing registers (0x080-0x0FF)
pub const GPUREG_TEXUNITS_CONFIG: i32 = 0x0080; pub const GPUREG_TEXUNITS_CONFIG: i32 = 0x0080;
pub const GPUREG_0081: i32 = 0x0081; pub const GPUREG_0081: i32 = 0x0081;
pub const GPUREG_TEXUNIT0_DIM: i32 = 0x0082; pub const GPUREG_TEXUNIT0_DIM: i32 = 0x0082;
@ -254,6 +259,8 @@ pub const GPUREG_TEXENV5_CONFIG4: i32 = 0x00FC;
pub const GPUREG_00FD: i32 = 0x00FD; pub const GPUREG_00FD: i32 = 0x00FD;
pub const GPUREG_00FE: i32 = 0x00FE; pub const GPUREG_00FE: i32 = 0x00FE;
pub const GPUREG_00FF: i32 = 0x00FF; pub const GPUREG_00FF: i32 = 0x00FF;
//Framebuffer registers (0x100-0x13F)
pub const GPUREG_COLOROUTPUT_CONFIG: i32 = 0x0100; pub const GPUREG_COLOROUTPUT_CONFIG: i32 = 0x0100;
pub const GPUREG_BLEND_CONFIG: i32 = 0x0101; pub const GPUREG_BLEND_CONFIG: i32 = 0x0101;
pub const GPUREG_COLORLOGICOP_CONFIG: i32 = 0x0102; pub const GPUREG_COLORLOGICOP_CONFIG: i32 = 0x0102;
@ -318,6 +325,8 @@ pub const GPUREG_013C: i32 = 0x013C;
pub const GPUREG_013D: i32 = 0x013D; pub const GPUREG_013D: i32 = 0x013D;
pub const GPUREG_013E: i32 = 0x013E; pub const GPUREG_013E: i32 = 0x013E;
pub const GPUREG_013F: i32 = 0x013F; pub const GPUREG_013F: i32 = 0x013F;
//Fragment lighting registers (0x140-0x1FF)
pub const GPUREG_0140: i32 = 0x0140; pub const GPUREG_0140: i32 = 0x0140;
pub const GPUREG_0141: i32 = 0x0141; pub const GPUREG_0141: i32 = 0x0141;
pub const GPUREG_0142: i32 = 0x0142; pub const GPUREG_0142: i32 = 0x0142;
@ -510,6 +519,8 @@ pub const GPUREG_01FC: i32 = 0x01FC;
pub const GPUREG_01FD: i32 = 0x01FD; pub const GPUREG_01FD: i32 = 0x01FD;
pub const GPUREG_01FE: i32 = 0x01FE; pub const GPUREG_01FE: i32 = 0x01FE;
pub const GPUREG_01FF: i32 = 0x01FF; pub const GPUREG_01FF: i32 = 0x01FF;
//Geometry pipeline registers (0x200-0x27F)
pub const GPUREG_ATTRIBBUFFERS_LOC: i32 = 0x0200; pub const GPUREG_ATTRIBBUFFERS_LOC: i32 = 0x0200;
pub const GPUREG_ATTRIBBUFFERS_FORMAT_LOW: i32 = 0x0201; pub const GPUREG_ATTRIBBUFFERS_FORMAT_LOW: i32 = 0x0201;
pub const GPUREG_ATTRIBBUFFERS_FORMAT_HIGH: i32 = 0x0202; pub const GPUREG_ATTRIBBUFFERS_FORMAT_HIGH: i32 = 0x0202;
@ -638,6 +649,8 @@ pub const GPUREG_027C: i32 = 0x027C;
pub const GPUREG_027D: i32 = 0x027D; pub const GPUREG_027D: i32 = 0x027D;
pub const GPUREG_027E: i32 = 0x027E; pub const GPUREG_027E: i32 = 0x027E;
pub const GPUREG_027F: i32 = 0x027F; pub const GPUREG_027F: i32 = 0x027F;
//Geometry shader registers (0x280-0x2AF)
pub const GPUREG_GSH_BOOLUNIFORM: i32 = 0x0280; pub const GPUREG_GSH_BOOLUNIFORM: i32 = 0x0280;
pub const GPUREG_GSH_INTUNIFORM_I0: i32 = 0x0281; pub const GPUREG_GSH_INTUNIFORM_I0: i32 = 0x0281;
pub const GPUREG_GSH_INTUNIFORM_I1: i32 = 0x0282; pub const GPUREG_GSH_INTUNIFORM_I1: i32 = 0x0282;
@ -665,6 +678,8 @@ pub const GPUREG_GSH_OPDESCS_CONFIG: i32 = 0x02A5;
pub const GPUREG_GSH_OPDESCS_DATA: i32 = 0x02A6; pub const GPUREG_GSH_OPDESCS_DATA: i32 = 0x02A6;
pub const GPUREG_02AE: i32 = 0x02AE; pub const GPUREG_02AE: i32 = 0x02AE;
pub const GPUREG_02AF: i32 = 0x02AF; pub const GPUREG_02AF: i32 = 0x02AF;
//Vertex shader registers (0x2B0-0x2DF)
pub const GPUREG_VSH_BOOLUNIFORM: i32 = 0x02B0; pub const GPUREG_VSH_BOOLUNIFORM: i32 = 0x02B0;
pub const GPUREG_VSH_INTUNIFORM_I0: i32 = 0x02B1; pub const GPUREG_VSH_INTUNIFORM_I0: i32 = 0x02B1;
pub const GPUREG_VSH_INTUNIFORM_I1: i32 = 0x02B2; pub const GPUREG_VSH_INTUNIFORM_I1: i32 = 0x02B2;
@ -692,6 +707,8 @@ pub const GPUREG_VSH_OPDESCS_CONFIG: i32 = 0x02D5;
pub const GPUREG_VSH_OPDESCS_DATA: i32 = 0x02D6; pub const GPUREG_VSH_OPDESCS_DATA: i32 = 0x02D6;
pub const GPUREG_02DE: i32 = 0x02DE; pub const GPUREG_02DE: i32 = 0x02DE;
pub const GPUREG_02DF: i32 = 0x02DF; pub const GPUREG_02DF: i32 = 0x02DF;
//Unknown registers (0x2E0-0x2FF)
pub const GPUREG_02E0: i32 = 0x02E0; pub const GPUREG_02E0: i32 = 0x02E0;
pub const GPUREG_02E1: i32 = 0x02E1; pub const GPUREG_02E1: i32 = 0x02E1;
pub const GPUREG_02E2: i32 = 0x02E2; pub const GPUREG_02E2: i32 = 0x02E2;
@ -723,4 +740,4 @@ pub const GPUREG_02FB: i32 = 0x02FB;
pub const GPUREG_02FC: i32 = 0x02FC; pub const GPUREG_02FC: i32 = 0x02FC;
pub const GPUREG_02FD: i32 = 0x02FD; pub const GPUREG_02FD: i32 = 0x02FD;
pub const GPUREG_02FE: i32 = 0x02FE; pub const GPUREG_02FE: i32 = 0x02FE;
pub const GPUREG_02FF: i32 = 0x02FF pub const GPUREG_02FF: i32 = 0x02FF;

89
ctru-sys/src/gpu/shaderProgram.rs

@ -0,0 +1,89 @@
use ::Result;
use ::types::*;
use gpu::shbin::*;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed1 {
pub id: u32,
pub data: [u32; 3usize],
}
impl ::core::clone::Clone for Struct_Unnamed1 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed1 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type float24Uniform_s = Struct_Unnamed1;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed2 {
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 ::core::clone::Clone for Struct_Unnamed2 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed2 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type shaderInstance_s = Struct_Unnamed2;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed3 {
pub vertexShader: *mut shaderInstance_s,
pub geometryShader: *mut shaderInstance_s,
pub geoShaderInputPermutation: [u32; 2usize],
pub geoShaderInputStride: u8,
pub geoShaderMode: u8,
}
impl ::core::clone::Clone for Struct_Unnamed3 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed3 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type shaderProgram_s = Struct_Unnamed3;
#[derive(Clone, Copy)]
#[repr(u32)]
pub enum Enum_Unnamed4 {
GSH_NORMAL = 0,
GSH_PARTICLE = 1,
GSH_SUBDIVISION_LOOP = 2,
GSH_SUBDIVISION_CATMULL_CLARK = 3,
}
pub type geoShaderMode = Enum_Unnamed4;
extern "C" {
pub fn shaderInstanceInit(si: *mut shaderInstance_s, dvle: *mut DVLE_s)
-> Result;
pub fn shaderInstanceFree(si: *mut shaderInstance_s) -> Result;
pub fn shaderInstanceSetBool(si: *mut shaderInstance_s,
id: i32, value: u8)
-> Result;
pub fn shaderInstanceGetBool(si: *mut shaderInstance_s,
id: i32, value: *mut u8)
-> Result;
pub fn shaderInstanceGetUniformLocation(si: *mut shaderInstance_s,
name:
*const u8)
-> s8;
pub fn shaderProgramInit(sp: *mut shaderProgram_s) -> Result;
pub fn shaderProgramFree(sp: *mut shaderProgram_s) -> Result;
pub fn shaderProgramSetVsh(sp: *mut shaderProgram_s, dvle: *mut DVLE_s)
-> Result;
pub fn shaderProgramSetGsh(sp: *mut shaderProgram_s, dvle: *mut DVLE_s,
stride: u8) -> Result;
pub fn shaderProgramSetGshInputPermutation(sp: *mut shaderProgram_s,
permutation: u64) -> Result;
pub fn shaderProgramSetGshMode(sp: *mut shaderProgram_s,
mode: geoShaderMode) -> Result;
pub fn shaderProgramConfigure(sp: *mut shaderProgram_s, sendVshCode: u8,
sendGshCode: u8) -> Result;
pub fn shaderProgramUse(sp: *mut shaderProgram_s) -> Result;
}

42
ctru-sys/src/gpu/shader_program.rs

@ -1,42 +0,0 @@
use super::shbin::*;
#[repr(C)]
#[derive(Copy)]
pub struct float24Uniform_s {
id: u32,
data: [u32; 3usize]
}
#[repr(C)]
#[derive(Copy)]
pub struct shaderInstance_s {
pub dvle: *mut DVLE_s;
pub boolUniforms: u16,
pub intUniforms: [u32; 4usize],
pub float24Uniforms: *mut float24Uniform_s,
pub numFloat24Uniforms: u8,
}
#[repr(C)]
#[derive(Copy)]
pub struct shaderProgram_s {
pub vertexShader: *mut shaderInstance_s,
pub geometryShader: *mut shaderInstance_s,
pub geometryShaderInputStride: u8,
}
use ctru::Result;
extern "C" {
pub fn shaderInstanceInit(si: *mut shaderInstance_s, dvle: *mut DVLE_s) -> Result;
pub fn shaderInstanceFree(si: *mut shaderInstance_s) -> Result;
pub fn shaderInstanceSetBool(si: *mut shaderInstance_s, id: ::libc::c_int, value: u8) -> Result;
pub fn shaderInstanceGetBool(si: *mut shaderInstance_s, id: ::libc::c_int, value: *mut u8) -> Result;
pub fn shaderInstanceGetUniformLocation(si: *mut shaderInstance_s, name: *const ::libc::c_char) -> Result;
pub fn shaderProgramInit(sp: *mut shaderProgram_s) -> Result;
pub fn shaderProgramFree(sp: *mut shaderProgram_s) -> Result;
pub fn shaderProgramSetVsh(sp: *mut shaderProgram_s, dvle: *mut DVLE_s) -> Result;
pub fn shaderProgramSetGsh(sp: *mut shaderProgram_s, dvle: *mut DVLE_s, stride: _u8) -> Result;
pub fn shaderProgramUse(sp: *mut shaderProgram_s) -> Result;
}

193
ctru-sys/src/gpu/shbin.rs

@ -1,105 +1,136 @@
typedef enum{ use ::types::*;
VERTEX_SHDR=GPU_VERTEX_SHADER,
GEOMETRY_SHDR=GPU_GEOMETRY_SHADER
}DVLE_type;
#[repr(C)] #[derive(Clone, Copy)]
pub enum DVLE_type { #[repr(u32)]
VERTEX_SHDR=GPU_VERTEX_SHADER, pub enum Enum_Unnamed1 {
GEOMETRY_SHDR=GPU_GEOMETRY_SHADER, VERTEX_SHDR = 0,
GEOMETRY_SHDR = 1,
} }
pub type DVLE_type = Enum_Unnamed1;
typedef enum{ #[derive(Clone, Copy)]
DVLE_CONST_BOOL=0x0, #[repr(u32)]
DVLE_CONST_u8=0x1, pub enum Enum_Unnamed2 {
DVLE_CONST_FLOAT24=0x2, DVLE_CONST_BOOL = 0,
}DVLE_constantType; DVLE_CONST_u8 = 1,
DVLE_CONST_FLOAT24 = 2,
#[repr(C)]
pub enum DVLE_constantType {
DVLE_CONST_BOOL = 0x0,
DVLE_CONST_u8 = 0x1,
DVLE_CONST_FLOAT24 = 0x2,
} }
pub type DVLE_constantType = Enum_Unnamed2;
#[repr(C)] #[derive(Clone, Copy)]
pub enum DVLE_outputAttribute_t { #[repr(u32)]
RESULT_POSITION = 0x0, pub enum Enum_Unnamed3 {
RESULT_NORMALQUAT = 0x1, RESULT_POSITION = 0,
RESULT_COLOR = 0x2, RESULT_NORMALQUAT = 1,
RESULT_TEXCOORD0 = 0x3, RESULT_COLOR = 2,
RESULT_TEXCOORD0W = 0x4, RESULT_TEXCOORD0 = 3,
RESULT_TEXCOORD1 = 0x5, RESULT_TEXCOORD0W = 4,
RESULT_TEXCOORD2 = 0x6, RESULT_TEXCOORD1 = 5,
RESULT_VIEW = 0x8 RESULT_TEXCOORD2 = 6,
RESULT_VIEW = 8,
} }
pub type DVLE_outputAttribute_t = Enum_Unnamed3;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct DVLP_s { pub struct Struct_Unnamed4 {
codeSize: u32, pub codeSize: u32,
codeData: *mut u32, pub codeData: *mut u32,
opdescSize: u32, pub opdescSize: u32,
opcdescData: *mut u32 pub opcdescData: *mut u32,
} }
impl ::core::clone::Clone for Struct_Unnamed4 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed4 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type DVLP_s = Struct_Unnamed4;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct DVLE_constEntry_s { pub struct Struct_Unnamed5 {
type: u16, pub _type: u16,
id: u16, pub id: u16,
data: [u32; 4usize] pub data: [u32; 4usize],
} }
impl ::core::clone::Clone for Struct_Unnamed5 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed5 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type DVLE_constEntry_s = Struct_Unnamed5;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct DVLE_outEntry_s { pub struct Struct_Unnamed6 {
type: u16, pub _type: u16,
regID: u16, pub regID: u16,
mask: u8, pub mask: u8,
unk: [u8; 3usize] pub unk: [u8; 3usize],
} }
impl ::core::clone::Clone for Struct_Unnamed6 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed6 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type DVLE_outEntry_s = Struct_Unnamed6;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct DVLE_uniformEntry_s{ pub struct Struct_Unnamed7 {
symbolOffset: u32, pub symbolOffset: u32,
startReg: u16, pub startReg: u16,
endReg: u16, pub endReg: u16,
} }
impl ::core::clone::Clone for Struct_Unnamed7 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed7 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type DVLE_uniformEntry_s = Struct_Unnamed7;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct DVLE_s { pub struct Struct_Unnamed8 {
DVLE_type type: DVLE_type, pub _type: DVLE_type,
DVLP_s* dvlp: *mut DVLP_s, pub dvlp: *mut DVLP_s,
mainOffset: u32, pub mainOffset: u32,
endmainOffset: u32, pub endmainOffset: u32,
constTableSize: u32, pub constTableSize: u32,
constTableData: *mut DVLE_constEntry_s, pub constTableData: *mut DVLE_constEntry_s,
outTableSize: u32, pub outTableSize: u32,
outTableData: *mut DVLE_outEntry_s, pub outTableData: *mut DVLE_outEntry_s,
uniformTableSize: u32, pub uniformTableSize: u32,
uniformTableData: *mut DVLE_uniformEntry_s, pub uniformTableData: *mut DVLE_uniformEntry_s,
symbolTableData: *mut u8, pub symbolTableData: *mut u8,
outmapMask: u8, pub outmapMask: u8,
outmapData: [u32; 8usize] pub outmapData: [u32; 8usize],
pub outmapMode: u32,
pub outmapClock: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed8 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed8 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type DVLE_s = Struct_Unnamed8;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct DVLB_s { pub struct Struct_Unnamed9 {
numDVLE: u32, pub numDVLE: u32,
DVLP: DVLP_s, pub DVLP: DVLP_s,
DVLE: *mut DVLE_s pub DVLE: *mut DVLE_s,
} }
impl ::core::clone::Clone for Struct_Unnamed9 {
use ctru::raw::types::*; fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed9 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type DVLB_s = Struct_Unnamed9;
extern "C" { extern "C" {
pub fn DVLB_ParseFile(shbinData: *mut u32, shbinSize: u32) -> *mut DVLB_s; pub fn DVLB_ParseFile(shbinData: *mut u32, shbinSize: u32)
pub fn DVLB_Free(dvlb: *mut DVLB_s) -> (); -> *mut DVLB_s;
pub fn DVLE_GetUniformRegister(dvle: *mut DVLE_s, name: *const u8) -> s8; pub fn DVLB_Free(dvlb: *mut DVLB_s);
pub fn DVLE_GenerateOutmap(dvle: *mut DVLE_s) -> (); pub fn DVLE_GetUniformRegister(dvle: *mut DVLE_s,
name: *const u8) -> s8;
pub fn DVLE_GenerateOutmap(dvle: *mut DVLE_s);
} }

10
ctru-sys/src/ipc.rs

@ -0,0 +1,10 @@
//TODO: Implement static inline functions + solve the anonymous enum enigma
#[derive(Clone, Copy)]
#[repr(C)]
pub enum IPC_BufferRights {
IPC_BUFFER_R = 2,
IPC_BUFFER_W = 4,
IPC_BUFFER_RW = 6,
}

14
ctru-sys/src/lib.rs

@ -1,15 +1,25 @@
/*
* C bindings generation:
* bindgen --sysroot=$DEVKITARM/arm-none-eabi -I$CTRULIB/include $CTRULIB/include/3ds.h
*/
#![no_std] #![no_std]
#![allow(non_camel_case_types)] #![allow(non_camel_case_types)]
#![allow(non_snake_case)] #![allow(non_snake_case)]
#![allow(overflowing_literals)] #![allow(overflowing_literals)]
pub mod console; pub mod console;
pub mod env;
pub mod gfx; pub mod gfx;
pub mod linear; pub mod gpu;
pub mod ipc;
pub mod lock;
pub mod os; pub mod os;
pub mod sdmc; pub mod sdmc;
pub mod srv; pub mod srv;
pub mod svc; pub mod svc;
pub mod synchronization;
pub mod thread;
pub mod types; pub mod types;
pub mod services; pub mod services;
@ -22,7 +32,7 @@ pub type Handle = u32;
#[repr(u8)] #[repr(u8)]
pub enum c_void { pub enum c_void {
__variant1, __variant1,
__variant2 __variant2,
} }
pub type ThreadFunc = Option<extern "C" fn(arg1: *mut c_void) -> ()>; pub type ThreadFunc = Option<extern "C" fn(arg1: *mut c_void) -> ()>;

10
ctru-sys/src/linear.rs

@ -1,10 +0,0 @@
use c_void;
extern "C" {
pub fn linearAlloc(size: i32) -> *mut c_void;
pub fn linearMemAlign(size: i32, alignment: i32) -> *mut c_void;
pub fn linearRealloc(mem: *mut c_void, size: i32) -> *mut c_void;
pub fn linearFree(mem: *mut c_void) -> ();
pub fn linearSpaceFree() -> u32;
}

33
ctru-sys/src/lock.rs

@ -0,0 +1,33 @@
//<sys/lock.h> from devkitArm, needed for synchronization.rs to compile
//TODO: I don't even know this thing looks really spooky
pub type _LOCK_T = i32;
#[repr(C)]
#[derive(Copy)]
pub struct Struct___lock_t {
pub lock: _LOCK_T,
pub thread_tag: u32,
pub counter: u32,
}
impl ::core::clone::Clone for Struct___lock_t {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct___lock_t {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type _LOCK_RECURSIVE_T = Struct___lock_t;
extern "C" {
pub fn __libc_lock_init(lock: *mut _LOCK_T);
pub fn __libc_lock_init_recursive(lock: *mut _LOCK_RECURSIVE_T);
pub fn __libc_lock_close(lock: *mut _LOCK_T);
pub fn __libc_lock_close_recursive(lock: *mut _LOCK_RECURSIVE_T);
pub fn __libc_lock_acquire(lock: *mut _LOCK_T);
pub fn __libc_lock_acquire_recursive(lock: *mut _LOCK_RECURSIVE_T);
pub fn __libc_lock_release(lock: *mut _LOCK_T);
pub fn __libc_lock_release_recursive(lock: *mut _LOCK_RECURSIVE_T);
pub fn __libc_lock_try_acquire(lock: *mut _LOCK_T)
-> i32;
pub fn __libc_lock_try_acquire_recursive(lock: *mut _LOCK_RECURSIVE_T)
-> i32;
}

49
ctru-sys/src/os.rs

@ -1,14 +1,53 @@
//TODO: Fix Bindgen's issues again.
use ::Result;
use types::*;
#[inline] #[inline]
pub fn SYSTEM_VERSION(major: i32, minor: i32, revision: i32) { pub fn SYSTEM_VERSION(major: i32, minor: i32, revision: i32) {
(((major)<<24)|((minor)<<16)|((revision)<<8)); (((major)<<24)|((minor)<<16)|((revision)<<8));
} }
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed1 {
MEMREGION_ALL = 0,
MEMREGION_APPLICATION = 1,
MEMREGION_SYSTEM = 2,
MEMREGION_BASE = 3,
}
pub type MemRegion = Enum_Unnamed1;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed2 {
pub build: u8,
pub minor: u8,
pub mainver: u8,
pub reserved_x3: u8,
pub region: u8,
pub reserved_x5: [u8; 3usize],
}
impl ::core::clone::Clone for Struct_Unnamed2 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed2 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type OS_VersionBin = Struct_Unnamed2;
extern "C" { extern "C" {
pub fn osConvertVirtToPhys(vaddr: u32) -> u32; pub fn osConvertVirtToPhys(vaddr: *const ::c_void) -> u32;
pub fn osConvertOldLINEARMemToNew(addr: u32) -> u32; pub fn osConvertOldLINEARMemToNew(vaddr: *const ::c_void)
-> *mut ::c_void;
pub fn osStrError(error: u32) -> *const u8; pub fn osStrError(error: u32) -> *const u8;
pub fn osGetFirmVersion() -> u32; pub fn osGetMemRegionUsed(region: MemRegion) -> s64;
pub fn osGetKernelVersion() -> u32;
pub fn osGetTime() -> u64; pub fn osGetTime() -> u64;
pub fn osSetSpeedupEnable(enable: u8);
pub fn osGetSystemVersionData(nver_versionbin: *mut OS_VersionBin,
cver_versionbin: *mut OS_VersionBin)
-> Result;
pub fn osGetSystemVersionDataString(nver_versionbin: *mut OS_VersionBin,
cver_versionbin: *mut OS_VersionBin,
sysverstr:
*mut u8,
sysverstr_maxsize: u32) -> Result;
} }

9
ctru-sys/src/services/ac.rs

@ -1,9 +1,8 @@
use ::{Handle, Result}; use ::Result;
extern "C" { extern "C" {
pub fn acInit() -> Result; pub fn acInit() -> Result;
pub fn acExit() -> Result; pub fn acExit();
pub fn ACU_GetWifiStatus(servhandle: *mut Handle, out: *mut u32) -> Result; pub fn acWaitInternetConnection() -> Result;
pub fn ACU_WaitInternetConnection() -> Result; pub fn ACU_GetWifiStatus(out: *mut u32) -> Result;
} }

49
ctru-sys/src/services/am.rs

@ -1,30 +1,49 @@
use ::c_void; use ::{Handle, Result};
use ::{Result, Handle};
#[repr(C)] #[repr(C)]
#[derive(Clone, Copy)] #[derive(Copy)]
pub struct TitleList { pub struct AM_TitleEntry {
titleID: u64, pub titleID: u64,
size: u64, pub size: u64,
titleVersion: u16, pub version: u16,
unknown2: [u8; 6usize] pub unk: [u8; 6usize],
} }
impl ::core::clone::Clone for AM_TitleEntry {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for AM_TitleEntry {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
extern "C" { extern "C" {
pub fn amInit() -> Result; pub fn amInit() -> Result;
pub fn amExit() -> Result; pub fn amExit();
pub fn amGetSessionHandle() -> *mut Handle; pub fn amGetSessionHandle() -> *mut Handle;
pub fn AM_GetTitleCount(mediatype: u8, count: *mut u32) -> Result; pub fn AM_GetTitleCount(mediatype: u8, count: *mut u32) -> Result;
pub fn AM_GetTitleIdList(mediatype: u8, count: u32, titleIDs: *mut u64) -> Result; pub fn AM_GetTitleIdList(mediatype: u8, count: u32, titleIDs: *mut u64)
-> Result;
pub fn AM_GetDeviceId(deviceID: *mut u32) -> Result; pub fn AM_GetDeviceId(deviceID: *mut u32) -> Result;
pub fn AM_ListTitles(mediatype: u8, titleCount: u32, titleIdList: *mut u64, titleList: *mut TitleList) -> Result; pub fn AM_ListTitles(mediatype: u8, titleCount: u32,
pub fn AM_StartCiaInstall(mediatype: u8, ciaHandle: *mut Handle) -> Result; titleIdList: *mut u64, titleList: *mut AM_TitleEntry)
-> Result;
pub fn AM_StartCiaInstall(mediatype: u8, ciaHandle: *mut Handle)
-> Result;
pub fn AM_StartDlpChildCiaInstall(ciaHandle: *mut Handle) -> Result; pub fn AM_StartDlpChildCiaInstall(ciaHandle: *mut Handle) -> Result;
pub fn AM_CancelCIAInstall(ciaHandle: *mut Handle) -> Result; pub fn AM_CancelCIAInstall(ciaHandle: *mut Handle) -> Result;
pub fn AM_FinishCiaInstall(mediatype: u8, ciaHandle: *mut Handle) -> Result; pub fn AM_FinishCiaInstall(mediatype: u8, ciaHandle: *mut Handle)
-> Result;
pub fn AM_DeleteTitle(mediatype: u8, titleID: u64) -> Result; pub fn AM_DeleteTitle(mediatype: u8, titleID: u64) -> Result;
pub fn AM_DeleteAppTitle(mediatype: u8, titleID: u64) -> Result; pub fn AM_DeleteAppTitle(mediatype: u8, titleID: u64) -> Result;
pub fn AM_InstallFIRM(titleID: u64) -> Result; pub fn AM_InstallNativeFirm() -> Result;
pub fn AM_GetTitleProductCode(mediatype: u8, titleID: u64, productCode: *mut c_void) -> Result; pub fn AM_InstallFirm(titleID: u64) -> Result;
pub fn AM_GetTitleProductCode(mediatype: u8, titleID: u64,
productCode: *mut u8)
-> Result;
pub fn AM_GetCiaFileInfo(mediatype: u8, titleEntry: *mut AM_TitleEntry,
fileHandle: Handle) -> Result;
pub fn AM_InitializeExternalTitleDatabase(overwrite: u8) -> Result;
pub fn AM_QueryAvailableExternalTitleDatabase(available: *mut u8)
-> Result;
} }

190
ctru-sys/src/services/apt.rs

@ -1,10 +1,8 @@
use ::{Handle, Result}; use ::{Result, Handle};
use ::c_void; use ::c_void;
pub const RUNFLAG_APTWORKAROUND: u32 = 1;
pub const RUNFLAG_APTREINIT: u32 = 2;
#[repr(C)] #[repr(C)]
#[derive(Clone, Copy)]
pub enum NS_APPID { pub enum NS_APPID {
APPID_HOMEMENU = 0x101, // Home Menu APPID_HOMEMENU = 0x101, // Home Menu
APPID_CAMERA = 0x110, // Camera applet APPID_CAMERA = 0x110, // Camera applet
@ -14,7 +12,10 @@ pub enum NS_APPID {
APPID_INSTRUCTION_MANUAL = 0x115, // Instruction Manual applet APPID_INSTRUCTION_MANUAL = 0x115, // Instruction Manual applet
APPID_NOTIFICATIONS = 0x116, // Notifications applet APPID_NOTIFICATIONS = 0x116, // Notifications applet
APPID_MIIVERSE = 0x117, // Miiverse applet APPID_MIIVERSE = 0x117, // Miiverse applet
APPID_MIIVERSE_POSTING = 0x118,
APPID_AMIIBO_SETTINGS = 0x119,
APPID_APPLICATION = 0x300, // Application APPID_APPLICATION = 0x300, // Application
APPID_ESHOP = 0x301,
APPID_SOFTWARE_KEYBOARD = 0x401, // Software Keyboard APPID_SOFTWARE_KEYBOARD = 0x401, // Software Keyboard
APPID_APPLETED = 0x402, // appletEd APPID_APPLETED = 0x402, // appletEd
APPID_PNOTE_AP = 0x404, // PNOTE_AP APPID_PNOTE_AP = 0x404, // PNOTE_AP
@ -23,103 +24,146 @@ pub enum NS_APPID {
APPID_MINT = 0x407, // mint APPID_MINT = 0x407, // mint
APPID_EXTRAPAD = 0x408, // extrapad APPID_EXTRAPAD = 0x408, // extrapad
APPID_MEMOLIB = 0x409, // memolib APPID_MEMOLIB = 0x409, // memolib
} // cf http://3dbrew.org/wiki/NS_and_APT_Services#AppIDs }
#[repr(C)] #[repr(C)]
pub enum APP_STATUS { #[derive(Clone, Copy)]
APP_NOTINITIALIZED, pub enum APT_AppStatus {
APP_RUNNING, APP_NOTINITIALIZED = 0,
APP_SUSPENDED, APP_RUNNING = 1,
APP_EXITING, APP_SUSPENDED = 2,
APP_SUSPENDING, APP_EXITING = 3,
APP_SLEEPMODE, APP_SUSPENDING = 4,
APP_PREPARE_SLEEPMODE, APP_SLEEPMODE = 5,
APP_APPLETSTARTED, APP_PREPARE_SLEEPMODE = 6,
APP_APPLETCLOSED APP_APPLETSTARTED = 7,
APP_APPLETCLOSED = 8,
} }
#[repr(C)] #[repr(C)]
pub enum APTSIGNAL { #[derive(Clone, Copy)]
pub enum APT_Signal {
APTSIGNAL_HOMEBUTTON = 1, APTSIGNAL_HOMEBUTTON = 1,
// 2: sleep-mode related?
APTSIGNAL_PREPARESLEEP = 3, APTSIGNAL_PREPARESLEEP = 3,
// 4: triggered when ptm:s GetShellStatus() returns 5.
APTSIGNAL_ENTERSLEEP = 5, APTSIGNAL_ENTERSLEEP = 5,
APTSIGNAL_WAKEUP = 6, APTSIGNAL_WAKEUP = 6,
APTSIGNAL_ENABLE = 7, APTSIGNAL_ENABLE = 7,
APTSIGNAL_POWERBUTTON = 8, APTSIGNAL_POWERBUTTON = 8,
APTSIGNAL_UTILITY = 9, APTSIGNAL_UTILITY = 9,
APTSIGNAL_SLEEPSYSTEM = 10, APTSIGNAL_SLEEPSYSTEM = 10,
APTSIGNAL_ERROR = 11 APTSIGNAL_ERROR = 11,
} }
#[repr(C)] #[repr(C)]
pub enum APTHOOK { #[derive(Clone, Copy)]
pub enum APT_HookType {
APTHOOK_ONSUSPEND = 0, APTHOOK_ONSUSPEND = 0,
APTHOOK_ONRESTORE, APTHOOK_ONRESTORE = 1,
APTHOOK_ONSLEEP, APTHOOK_ONSLEEP = 2,
APTHOOK_ONWAKEUP, APTHOOK_ONWAKEUP = 3,
APTHOOK_ONEXIT, APTHOOK_ONEXIT = 4,
APTHOOK_COUNT = 5,
APTHOOK_COUNT,
} }
type aptHookFn = Option<extern "C" fn(hook: i32, param: *mut c_void) -> ()>; pub type aptHookFn = Option<unsafe extern "C" fn(hook: APT_HookType, param: *mut c_void)>;
#[repr(C)] #[repr(C)]
#[derive(Clone, Copy)] #[derive(Copy)]
pub struct aptHookCookie { pub struct aptHookCookie {
next: *mut aptHookCookie, pub next: *mut aptHookCookie,
callback: aptHookFn, pub callback: aptHookFn,
param: *mut c_void, pub param: *mut c_void,
}
impl ::core::clone::Clone for aptHookCookie {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for aptHookCookie {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
} }
extern "C" { extern "C" {
pub static mut aptEvents: [Handle; 3usize]; pub static mut aptEvents: [Handle; 3usize];
}
extern "C" {
pub fn aptInit() -> Result; pub fn aptInit() -> Result;
pub fn aptExit() -> (); pub fn aptExit();
pub fn aptOpenSession() -> (); pub fn aptOpenSession();
pub fn aptCloseSession() -> (); pub fn aptCloseSession();
pub fn aptSetStatus(status: APP_STATUS) -> (); pub fn aptSetStatus(status: APT_AppStatus);
pub fn aptGetStatus() -> APP_STATUS; pub fn aptGetStatus() -> APT_AppStatus;
pub fn aptGetStatusPower() -> u32; pub fn aptGetStatusPower() -> u32;
pub fn aptSetStatusPower(status: u32) -> (); pub fn aptSetStatusPower(status: u32);
pub fn aptReturnToMenu() -> (); pub fn aptReturnToMenu();
pub fn aptWaitStatusEvent() -> (); pub fn aptWaitStatusEvent();
pub fn aptSignalReadyForSleep() -> (); pub fn aptSignalReadyForSleep();
pub fn aptGetMenuAppID() -> NS_APPID; pub fn aptGetMenuAppID() -> NS_APPID;
pub fn aptMainLoop() -> u8; pub fn aptMainLoop() -> u8;
pub fn APT_GetLockHandle(handle: *mut Handle, flags: u16, lockHandle: *mut Handle) -> Result; pub fn aptHook(cookie: *mut aptHookCookie, callback: aptHookFn,
pub fn APT_Initialize(handle: *mut Handle, appId: NS_APPID, eventHandle1: *mut Handle, eventHandle2: *mut Handle) -> Result; param: *mut c_void);
pub fn APT_HardwareResetAsync(handle: *mut Handle) -> Result; pub fn aptUnhook(cookie: *mut aptHookCookie);
pub fn APT_Enable(handle: *mut Handle, a: u32) -> Result; pub fn APT_GetLockHandle(flags: u16, lockHandle: *mut Handle) -> Result;
pub fn APT_GetAppletManInfo(handle: *mut Handle, inval: u8, outval8: *mut u8, outval32: *mut u32, menu_appid: *mut NS_APPID, active_appid: *mut NS_APPID) -> Result; pub fn APT_Initialize(appId: NS_APPID, eventHandle1: *mut Handle,
pub fn APT_PrepareToJumpToHomeMenu(handle: *mut Handle) -> Result; eventHandle2: *mut Handle) -> Result;
pub fn APT_JumpToHomeMenu(handle: *mut Handle, a: u32, b: u32, c: u32) -> Result; pub fn APT_Finalize(appId: NS_APPID) -> Result;
pub fn APT_IsRegistered(handle: *mut Handle, appID: NS_APPID, out: *mut u8) -> Result; pub fn APT_HardwareResetAsync() -> Result;
pub fn APT_InquireNotification(handle: *mut Handle, appID: u32, signalType: *mut u8) -> Result; pub fn APT_Enable(a: u32) -> Result;
pub fn APT_NotifyToWait(handle: *mut Handle, appID: NS_APPID) -> Result; pub fn APT_GetAppletManInfo(inval: u8, outval8: *mut u8,
pub fn APT_AppletUtility(handle: *mut Handle, out: *mut u32, a: u32, size1: u32, buf1: *mut u8, size2: u32, buf2: *mut u8) -> Result; outval32: *mut u32,
pub fn APT_GlanceParameter(handle: *mut Handle, appID: NS_APPID, bufferSize: u32, buffer: *mut u32, actualSize: *mut u32, signalType: *mut u8) -> Result; menu_appid: *mut NS_APPID,
pub fn APT_ReceiveParameter(handle: *mut Handle, appID: NS_APPID, bufferSize: u32, buffer: *mut u32, actualSize: *mut u32, signalType: *mut u8) -> Result; active_appid: *mut NS_APPID) -> Result;
pub fn APT_SendParameter(handle: *mut Handle, src_appID: NS_APPID, dst_appID: NS_APPID, bufferSize: u32, buffer: *mut u32, paramhandle: Handle, signalType: u8) -> Result; pub fn APT_GetAppletInfo(appID: NS_APPID, pProgramID: *mut u64,
pub fn APT_SendCaptureBufferInfo(handle: *mut Handle, bufferSize: u32, buffer: *mut u32) -> Result; pMediaType: *mut u8, pRegistered: *mut u8,
pub fn APT_ReplySleepQuery(handle: *mut Handle, appID: NS_APPID, a: u32) -> Result; pLoadState: *mut u8, pAttributes: *mut u32)
pub fn APT_ReplySleepNotificationComplete(handle: *mut Handle, appID: NS_APPID) -> Result; -> Result;
pub fn APT_PrepareToCloseApplication(handle: *mut Handle, a: u8) -> Result; pub fn APT_GetAppletProgramInfo(id: u32, flags: u32,
pub fn APT_CloseApplication(handle: *mut Handle, a: u32, b: u32, c: u32) -> Result; titleversion: *mut u16) -> Result;
pub fn APT_SetAppCpuTimeLimit(handle: *mut Handle, percent: u32) -> Result; pub fn APT_GetProgramID(pProgramID: *mut u64) -> Result;
pub fn APT_GetAppCpuTimeLimit(handle: *mut Handle, percent: *mut u32) -> Result; pub fn APT_PrepareToJumpToHomeMenu() -> Result;
pub fn APT_CheckNew3DS_Application(handle: *mut Handle, out: *mut u8) -> Result; pub fn APT_JumpToHomeMenu(param: *const u8, paramSize: usize,
pub fn APT_CheckNew3DS_System(handle: *mut Handle, out: *mut u8) -> Result; handle: Handle) -> Result;
pub fn APT_CheckNew3DS(handle: *mut Handle, out: *mut u8) -> Result; pub fn APT_PrepareToJumpToApplication(a: u32) -> Result;
pub fn APT_PrepareToDoAppJump(handle: *mut Handle, flags: u8, programID: u64, mediatype: u8) -> Result; pub fn APT_JumpToApplication(param: *const u8, paramSize: usize,
pub fn APT_DoAppJump(handle: *mut Handle, NSbuf0Size: u32, NSbuf1Size: u32, NSbuf0Ptr: *mut u8, NSbuf1Ptr: *mut u8) -> Result; handle: Handle) -> Result;
pub fn APT_PrepareToStartLibraryApplet(handle: *mut Handle, appID: NS_APPID) -> Result; pub fn APT_IsRegistered(appID: NS_APPID, out: *mut u8) -> Result;
pub fn APT_StartLibraryApplet(handle: *mut Handle, appID: NS_APPID, inhandle: Handle, parambuf: *mut u32, parambufsize: u32) -> Result; pub fn APT_InquireNotification(appID: u32, signalType: *mut APT_Signal)
pub fn APT_LaunchLibraryApplet(appID: NS_APPID, inhandle: Handle, parambuf: *mut u32, parambufsize: u32) -> Result; -> Result;
pub fn APT_PrepareToStartSystemApplet(handle: *mut Handle, appID: NS_APPID) -> Result; pub fn APT_NotifyToWait(appID: NS_APPID) -> Result;
pub fn APT_StartSystemApplet(handle: *mut Handle, appID: NS_APPID, bufSize: u32, applHandle: Handle, buf: *mut u8) -> Result; pub fn APT_AppletUtility(out: *mut u32, a: u32, size1: u32,
buf1: *mut u8, size2: u32, buf2: *mut u8)
-> Result;
pub fn APT_GlanceParameter(appID: NS_APPID, bufferSize: u32,
buffer: *mut u32, actualSize: *mut u32,
signalType: *mut u8) -> Result;
pub fn APT_ReceiveParameter(appID: NS_APPID, bufferSize: u32,
buffer: *mut u32, actualSize: *mut u32,
signalType: *mut u8) -> Result;
pub fn APT_SendParameter(src_appID: NS_APPID, dst_appID: NS_APPID,
bufferSize: u32, buffer: *mut u32,
paramhandle: Handle, signalType: u8) -> Result;
pub fn APT_SendCaptureBufferInfo(bufferSize: u32, buffer: *mut u32)
-> Result;
pub fn APT_ReplySleepQuery(appID: NS_APPID, a: u32) -> Result;
pub fn APT_ReplySleepNotificationComplete(appID: NS_APPID) -> Result;
pub fn APT_PrepareToCloseApplication(a: u8) -> Result;
pub fn APT_CloseApplication(param: *const u8, paramSize: usize,
handle: Handle) -> Result;
pub fn APT_SetAppCpuTimeLimit(percent: u32) -> Result;
pub fn APT_GetAppCpuTimeLimit(percent: *mut u32) -> Result;
pub fn APT_CheckNew3DS_Application(out: *mut u8) -> Result;
pub fn APT_CheckNew3DS_System(out: *mut u8) -> Result;
pub fn APT_CheckNew3DS(out: *mut u8) -> Result;
pub fn APT_PrepareToDoAppJump(flags: u8, programID: u64, mediatype: u8)
-> Result;
pub fn APT_DoAppJump(NSbuf0Size: u32, NSbuf1Size: u32,
NSbuf0Ptr: *mut u8, NSbuf1Ptr: *mut u8) -> Result;
pub fn APT_PrepareToStartLibraryApplet(appID: NS_APPID) -> Result;
pub fn APT_StartLibraryApplet(appID: NS_APPID, inhandle: Handle,
parambuf: *mut u32, parambufsize: u32)
-> Result;
pub fn APT_LaunchLibraryApplet(appID: NS_APPID, inhandle: Handle,
parambuf: *mut u32, parambufsize: u32)
-> Result;
pub fn APT_PrepareToStartSystemApplet(appID: NS_APPID) -> Result;
pub fn APT_StartSystemApplet(appID: NS_APPID, bufSize: u32,
applHandle: Handle, buf: *mut u8) -> Result;
} }

410
ctru-sys/src/services/cam.rs

@ -0,0 +1,410 @@
// TODO: Determine if anonymous enums are properly represented (they probably aren't)
use ::{Handle, Result};
use ::c_void;
use ::types::*;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed1 {
PORT_NONE = 0,
PORT_CAM1 = 1,
PORT_CAM2 = 2,
PORT_BOTH = 3,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed2 {
SELECT_NONE = 0,
SELECT_OUT1 = 1,
SELECT_IN1 = 2,
SELECT_OUT2 = 4,
SELECT_IN1_OUT1 = 3,
SELECT_OUT1_OUT2 = 5,
SELECT_IN1_OUT2 = 6,
SELECT_ALL = 7,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed3 {
CONTEXT_NONE = 0,
CONTEXT_A = 1,
CONTEXT_B = 2,
CONTEXT_BOTH = 3,
}
pub type CAMU_Context = Enum_Unnamed3;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed4 {
FLIP_NONE = 0,
FLIP_HORIZONTAL = 1,
FLIP_VERTICAL = 2,
FLIP_REVERSE = 3,
}
pub type CAMU_Flip = Enum_Unnamed4;
pub const SIZE_CTR_BOTTOM_LCD: Enum_Unnamed5 = Enum_Unnamed5::SIZE_QVGA;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed5 {
SIZE_VGA = 0,
SIZE_QVGA = 1,
SIZE_QQVGA = 2,
SIZE_CIF = 3,
SIZE_QCIF = 4,
SIZE_DS_LCD = 5,
SIZE_DS_LCDx4 = 6,
SIZE_CTR_TOP_LCD = 7,
}
pub type CAMU_Size = Enum_Unnamed5;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum CAMU_FrameRate {
FRAME_RATE_15 = 0,
FRAME_RATE_15_TO_5 = 1,
FRAME_RATE_15_TO_2 = 2,
FRAME_RATE_10 = 3,
FRAME_RATE_8_5 = 4,
FRAME_RATE_5 = 5,
FRAME_RATE_20 = 6,
FRAME_RATE_20_TO_5 = 7,
FRAME_RATE_30 = 8,
FRAME_RATE_30_TO_5 = 9,
FRAME_RATE_15_TO_10 = 10,
FRAME_RATE_20_TO_10 = 11,
FRAME_RATE_30_TO_10 = 12,
}
pub const WHITE_BALANCE_NORMAL: Enum_Unnamed7 =
Enum_Unnamed7::WHITE_BALANCE_AUTO;
pub const WHITE_BALANCE_TUNGSTEN: Enum_Unnamed7 =
Enum_Unnamed7::WHITE_BALANCE_3200K;
pub const WHITE_BALANCE_WHITE_FLUORESCENT_LIGHT: Enum_Unnamed7 =
Enum_Unnamed7::WHITE_BALANCE_4150K;
pub const WHITE_BALANCE_DAYLIGHT: Enum_Unnamed7 =
Enum_Unnamed7::WHITE_BALANCE_5200K;
pub const WHITE_BALANCE_CLOUDY: Enum_Unnamed7 =
Enum_Unnamed7::WHITE_BALANCE_6000K;
pub const WHITE_BALANCE_HORIZON: Enum_Unnamed7 =
Enum_Unnamed7::WHITE_BALANCE_6000K;
pub const WHITE_BALANCE_SHADE: Enum_Unnamed7 =
Enum_Unnamed7::WHITE_BALANCE_7000K;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed7 {
WHITE_BALANCE_AUTO = 0,
WHITE_BALANCE_3200K = 1,
WHITE_BALANCE_4150K = 2,
WHITE_BALANCE_5200K = 3,
WHITE_BALANCE_6000K = 4,
WHITE_BALANCE_7000K = 5,
}
pub type CAMU_WhiteBalance = Enum_Unnamed7;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed8 {
PHOTO_MODE_NORMAL = 0,
PHOTO_MODE_PORTRAIT = 1,
PHOTO_MODE_LANDSCAPE = 2,
PHOTO_MODE_NIGHTVIEW = 3,
PHOTO_MODE_LETTER = 4,
}
pub type CAMU_PhotoMode = Enum_Unnamed8;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed9 {
EFFECT_NONE = 0,
EFFECT_MONO = 1,
EFFECT_SEPIA = 2,
EFFECT_NEGATIVE = 3,
EFFECT_NEGAFILM = 4,
EFFECT_SEPIA01 = 5,
}
pub type CAMU_Effect = Enum_Unnamed9;
pub const CONTRAST_LOW: Enum_Unnamed10 = Enum_Unnamed10::CONTRAST_PATTERN_05;
pub const CONTRAST_NORMAL: Enum_Unnamed10 =
Enum_Unnamed10::CONTRAST_PATTERN_06;
pub const CONTRAST_HIGH: Enum_Unnamed10 = Enum_Unnamed10::CONTRAST_PATTERN_07;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed10 {
CONTRAST_PATTERN_01 = 0,
CONTRAST_PATTERN_02 = 1,
CONTRAST_PATTERN_03 = 2,
CONTRAST_PATTERN_04 = 3,
CONTRAST_PATTERN_05 = 4,
CONTRAST_PATTERN_06 = 5,
CONTRAST_PATTERN_07 = 6,
CONTRAST_PATTERN_08 = 7,
CONTRAST_PATTERN_09 = 8,
CONTRAST_PATTERN_10 = 9,
CONTRAST_PATTERN_11 = 10,
}
pub type CAMU_Contrast = Enum_Unnamed10;
pub const LENS_CORRECTION_DARK: Enum_Unnamed11 =
Enum_Unnamed11::LENS_CORRECTION_OFF;
pub const LENS_CORRECTION_NORMAL: Enum_Unnamed11 =
Enum_Unnamed11::LENS_CORRECTION_ON_70;
pub const LENS_CORRECTION_BRIGHT: Enum_Unnamed11 =
Enum_Unnamed11::LENS_CORRECTION_ON_90;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed11 {
LENS_CORRECTION_OFF = 0,
LENS_CORRECTION_ON_70 = 1,
LENS_CORRECTION_ON_90 = 2,
}
pub type CAMU_LensCorrection = Enum_Unnamed11;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed12 { OUTPUT_YUV_422 = 0, OUTPUT_RGB_565 = 1, }
pub type CAMU_OutputFormat = Enum_Unnamed12;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed13 {
SHUTTER_SOUND_TYPE_NORMAL = 0,
SHUTTER_SOUND_TYPE_MOVIE = 1,
SHUTTER_SOUND_TYPE_MOVIE_END = 2,
}
pub type CAMU_ShutterSoundType = Enum_Unnamed13;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed14 {
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,
}
impl ::core::clone::Clone for Struct_Unnamed14 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed14 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type CAMU_ImageQualityCalibrationData = Struct_Unnamed14;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed15 {
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],
}
impl ::core::clone::Clone for Struct_Unnamed15 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed15 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type CAMU_StereoCameraCalibrationData = Struct_Unnamed15;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed16 {
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,
}
impl ::core::clone::Clone for Struct_Unnamed16 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed16 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type CAMU_PackageParameterCameraSelect = Struct_Unnamed16;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed17 {
pub camera: u8,
pub context: u8,
pub flip: u8,
pub effect: u8,
pub size: u8,
}
impl ::core::clone::Clone for Struct_Unnamed17 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed17 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type CAMU_PackageParameterContext = Struct_Unnamed17;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed18 {
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,
}
impl ::core::clone::Clone for Struct_Unnamed18 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed18 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type CAMU_PackageParameterContextDetail = Struct_Unnamed18;
use services::y2r::Y2RU_StandardCoefficient;
extern "C" {
pub fn camInit() -> Result;
pub fn camExit();
pub fn CAMU_StartCapture(port: u32) -> Result;
pub fn CAMU_StopCapture(port: u32) -> Result;
pub fn CAMU_IsBusy(busy: *mut u8, port: u32) -> Result;
pub fn CAMU_ClearBuffer(port: u32) -> Result;
pub fn CAMU_GetVsyncInterruptEvent(event: *mut Handle, port: u32)
-> Result;
pub fn CAMU_GetBufferErrorInterruptEvent(event: *mut Handle, port: u32)
-> Result;
pub fn CAMU_SetReceiving(event: *mut Handle,
dst: *mut c_void, port: u32,
imageSize: u32, transferUnit: s16) -> Result;
pub fn CAMU_IsFinishedReceiving(finishedReceiving: *mut u8, port: u32)
-> Result;
pub fn CAMU_SetTransferLines(port: u32, lines: s16, width: s16,
height: s16) -> Result;
pub fn CAMU_GetMaxLines(maxLines: *mut s16, width: s16, height: s16)
-> Result;
pub fn CAMU_SetTransferBytes(port: u32, bytes: u32, width: s16,
height: s16) -> Result;
pub fn CAMU_GetTransferBytes(transferBytes: *mut u32, port: u32)
-> Result;
pub fn CAMU_GetMaxBytes(maxBytes: *mut u32, width: s16, height: s16)
-> Result;
pub fn CAMU_SetTrimming(port: u32, trimming: u8) -> Result;
pub fn CAMU_IsTrimming(trimming: *mut u8, port: u32) -> Result;
pub fn CAMU_SetTrimmingParams(port: u32, xStart: s16, yStart: s16,
xEnd: s16, yEnd: s16) -> Result;
pub fn CAMU_GetTrimmingParams(xStart: *mut s16, yStart: *mut s16,
xEnd: *mut s16, yEnd: *mut s16, port: u32)
-> Result;
pub fn CAMU_SetTrimmingParamsCenter(port: u32, trimWidth: s16,
trimHeight: s16, camWidth: s16,
camHeight: s16) -> Result;
pub fn CAMU_Activate(select: u32) -> Result;
pub fn CAMU_SwitchContext(select: u32, context: CAMU_Context) -> Result;
pub fn CAMU_SetExposure(select: u32, exposure: s8) -> Result;
pub fn CAMU_SetWhiteBalance(select: u32, whiteBalance: CAMU_WhiteBalance)
-> Result;
pub fn CAMU_SetWhiteBalanceWithoutBaseUp(select: u32,
whiteBalance: CAMU_WhiteBalance)
-> Result;
pub fn CAMU_SetSharpness(select: u32, sharpness: s8) -> Result;
pub fn CAMU_SetAutoExposure(select: u32, autoExposure: u8) -> Result;
pub fn CAMU_IsAutoExposure(autoExposure: *mut u8, select: u32) -> Result;
pub fn CAMU_SetAutoWhiteBalance(select: u32, autoWhiteBalance: u8)
-> Result;
pub fn CAMU_IsAutoWhiteBalance(autoWhiteBalance: *mut u8, select: u32)
-> Result;
pub fn CAMU_FlipImage(select: u32, flip: CAMU_Flip,
context: CAMU_Context) -> Result;
pub fn CAMU_SetDetailSize(select: u32, width: s16, height: s16,
cropX0: s16, cropY0: s16, cropX1: s16,
cropY1: s16, context: CAMU_Context) -> Result;
pub fn CAMU_SetSize(select: u32, size: CAMU_Size, context: CAMU_Context)
-> Result;
pub fn CAMU_SetFrameRate(select: u32, frameRate: CAMU_FrameRate)
-> Result;
pub fn CAMU_SetPhotoMode(select: u32, photoMode: CAMU_PhotoMode)
-> Result;
pub fn CAMU_SetEffect(select: u32, effect: CAMU_Effect,
context: CAMU_Context) -> Result;
pub fn CAMU_SetContrast(select: u32, contrast: CAMU_Contrast) -> Result;
pub fn CAMU_SetLensCorrection(select: u32,
lensCorrection: CAMU_LensCorrection)
-> Result;
pub fn CAMU_SetOutputFormat(select: u32, format: CAMU_OutputFormat,
context: CAMU_Context) -> Result;
pub fn CAMU_SetAutoExposureWindow(select: u32, x: s16, y: s16,
width: s16, height: s16) -> Result;
pub fn CAMU_SetAutoWhiteBalanceWindow(select: u32, x: s16, y: s16,
width: s16, height: s16) -> Result;
pub fn CAMU_SetNoiseFilter(select: u32, noiseFilter: u8) -> Result;
pub fn CAMU_SynchronizeVsyncTiming(select1: u32, select2: u32)
-> Result;
pub fn CAMU_GetLatestVsyncTiming(timing: *mut s64, port: u32, past: u32)
-> Result;
pub fn CAMU_GetStereoCameraCalibrationData(data:
*mut CAMU_StereoCameraCalibrationData)
-> Result;
pub fn CAMU_SetStereoCameraCalibrationData(data:
CAMU_StereoCameraCalibrationData)
-> Result;
pub fn CAMU_WriteRegisterI2c(select: u32, addr: u16, data: u16)
-> Result;
pub fn CAMU_WriteMcuVariableI2c(select: u32, addr: u16, data: u16)
-> Result;
pub fn CAMU_ReadRegisterI2cExclusive(data: *mut u16, select: u32,
addr: u16) -> Result;
pub fn CAMU_ReadMcuVariableI2cExclusive(data: *mut u16, select: u32,
addr: u16) -> Result;
pub fn CAMU_SetImageQualityCalibrationData(data:
CAMU_ImageQualityCalibrationData)
-> Result;
pub fn CAMU_GetImageQualityCalibrationData(data:
*mut CAMU_ImageQualityCalibrationData)
-> Result;
pub fn CAMU_SetPackageParameterWithoutContext(param:
CAMU_PackageParameterCameraSelect)
-> Result;
pub fn CAMU_SetPackageParameterWithContext(param:
CAMU_PackageParameterContext)
-> Result;
pub fn CAMU_SetPackageParameterWithContextDetail(param:
CAMU_PackageParameterContextDetail)
-> Result;
pub fn CAMU_GetSuitableY2rStandardCoefficient(coefficient:
*mut Y2RU_StandardCoefficient)
-> Result;
pub fn CAMU_PlayShutterSound(sound: CAMU_ShutterSoundType) -> Result;
pub fn CAMU_DriverInitialize() -> Result;
pub fn CAMU_DriverFinalize() -> Result;
pub fn CAMU_GetActivatedCamera(select: *mut u32) -> Result;
pub fn CAMU_GetSleepCamera(select: *mut u32) -> Result;
pub fn CAMU_SetSleepCamera(select: u32) -> Result;
pub fn CAMU_SetBrightnessSynchronization(brightnessSynchronization: u8)
-> Result;
}

12
ctru-sys/src/services/cfgnor.rs

@ -1,10 +1,14 @@
use ::Result; use ::Result;
extern "C" { extern "C" {
pub fn cfgnorInit(value: u8) -> Result;
pub fn cfgnorExit();
pub fn cfgnorDumpFlash(buf: *mut u32, size: u32) -> Result;
pub fn cfgnorWriteFlash(buf: *mut u32, size: u32) -> Result;
pub fn CFGNOR_Initialize(value: u8) -> Result; pub fn CFGNOR_Initialize(value: u8) -> Result;
pub fn CFGNOR_Shutdown() -> Result; pub fn CFGNOR_Shutdown() -> Result;
pub fn CFGNOR_ReadData(offset: u32, buf: *mut u32, size: u32) -> Result; pub fn CFGNOR_ReadData(offset: u32, buf: *mut u32, size: u32)
pub fn CFGNOR_WriteData(offset: u32, buf: *mut u32, size: u32) -> Result; -> Result;
pub fn CFGNOR_DumpFlash(buf: *mut u32, size: u32) -> Result; pub fn CFGNOR_WriteData(offset: u32, buf: *mut u32, size: u32)
pub fn CFGNOR_WriteFlash(buf: *mut u32, size: u32) -> Result; -> Result;
} }

39
ctru-sys/src/services/cfgu.rs

@ -1,15 +1,46 @@
use ::Result; use ::Result;
#[repr(C)]
#[derive(Clone, Copy)]
pub enum CFG_Region {
CFG_REGION_JPN = 0,
CFG_REGION_USA = 1,
CFG_REGION_EUR = 2,
CFG_REGION_AUS = 3,
CFG_REGION_CHN = 4,
CFG_REGION_KOR = 5,
CFG_REGION_TWN = 6,
}
#[repr(C)]
#[derive(Clone, Copy)]
pub enum CFG_Language {
CFG_LANGUAGE_JP = 0,
CFG_LANGUAGE_EN = 1,
CFG_LANGUAGE_FR = 2,
CFG_LANGUAGE_DE = 3,
CFG_LANGUAGE_IT = 4,
CFG_LANGUAGE_ES = 5,
CFG_LANGUAGE_ZH = 6,
CFG_LANGUAGE_KO = 7,
CFG_LANGUAGE_NL = 8,
CFG_LANGUAGE_PT = 9,
CFG_LANGUAGE_RU = 10,
CFG_LANGUAGE_TW = 11,
}
extern "C" { extern "C" {
pub fn initCfgu() -> Result; pub fn cfguInit() -> Result;
pub fn exitCfgu() -> Result; pub fn cfguExit();
pub fn CFGU_SecureInfoGetRegion(region: *mut u8) -> Result; pub fn CFGU_SecureInfoGetRegion(region: *mut u8) -> Result;
pub fn CFGU_GenHashConsoleUnique(appIDSalt: u32, hash: *mut u64) -> Result; pub fn CFGU_GenHashConsoleUnique(appIDSalt: u32, hash: *mut u64)
-> Result;
pub fn CFGU_GetRegionCanadaUSA(value: *mut u8) -> Result; pub fn CFGU_GetRegionCanadaUSA(value: *mut u8) -> Result;
pub fn CFGU_GetSystemModel(model: *mut u8) -> Result; pub fn CFGU_GetSystemModel(model: *mut u8) -> Result;
pub fn CFGU_GetModelNintendo2DS(value: *mut u8) -> Result; pub fn CFGU_GetModelNintendo2DS(value: *mut u8) -> Result;
pub fn CFGU_GetCountryCodeString(code: u16, string: *mut u16) -> Result; pub fn CFGU_GetCountryCodeString(code: u16, string: *mut u16) -> Result;
pub fn CFGU_GetCountryCodeID(string: u16, code: *mut u16) -> Result; pub fn CFGU_GetCountryCodeID(string: u16, code: *mut u16) -> Result;
pub fn CFGU_GetConfigInfoBlk2(size: u32, blkID: u32, outData: *mut u8) -> Result; pub fn CFGU_GetConfigInfoBlk2(size: u32, blkID: u32, outData: *mut u8)
-> Result;
pub fn CFGU_GetSystemLanguage(language: *mut u8) -> Result; pub fn CFGU_GetSystemLanguage(language: *mut u8) -> Result;
} }

48
ctru-sys/src/services/dsp.rs

@ -0,0 +1,48 @@
use ::{Handle, Result};
use ::c_void;
#[repr(C)]
#[derive(Clone, Copy)]
pub enum DSP_InterruptType {
DSP_INTERRUPT_PIPE = 2,
}
#[repr(C)]
#[derive(Clone, Copy)]
pub enum DSP_PipeDirection {
DSP_PIPE_INPUT = 0,
DSP_PIPE_OUTPUT = 1,
}
extern "C" {
pub fn dspInit() -> Result;
pub fn dspExit();
pub fn DSP_GetHeadphoneStatus(is_inserted: *mut u8) -> Result;
pub fn DSP_FlushDataCache(address: *const c_void,
size: u32) -> Result;
pub fn DSP_InvalidateDataCache(address: *const c_void,
size: u32) -> Result;
pub fn DSP_GetSemaphoreHandle(semaphore: *mut Handle) -> Result;
pub fn DSP_SetSemaphore(value: u16) -> Result;
pub fn DSP_SetSemaphoreMask(mask: u16) -> Result;
pub fn DSP_LoadComponent(component: *const c_void,
size: u32, prog_mask: u16, data_mask: u16,
is_loaded: *mut u8) -> Result;
pub fn DSP_UnloadComponent() -> Result;
pub fn DSP_RegisterInterruptEvents(handle: Handle, interrupt: u32,
channel: u32) -> Result;
pub fn DSP_ReadPipeIfPossible(channel: u32, peer: u32,
buffer: *mut c_void,
length: u16, length_read: *mut u16)
-> Result;
pub fn DSP_WriteProcessPipe(channel: u32,
buffer: *const c_void,
length: u32) -> Result;
pub fn DSP_ConvertProcessAddressFromDspDram(dsp_address: u32,
arm_address: *mut u32)
-> Result;
pub fn DSP_RecvData(regNo: u16, value: *mut u16) -> Result;
pub fn DSP_RecvDataIsReady(regNo: u16, is_ready: *mut u8) -> Result;
pub fn DSP_SendData(regNo: u16, value: u16) -> Result;
pub fn DSP_SendDataIsEmpty(regNo: u16, is_empty: *mut u8) -> Result;
}

536
ctru-sys/src/services/fs.rs

@ -0,0 +1,536 @@
// TODO: Determine if anonymous enums are properly represented (they probably aren't)
use ::{Handle, Result};
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed1 {
FS_OPEN_READ = 1,
FS_OPEN_WRITE = 2,
FS_OPEN_CREATE = 4,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed2 {
FS_WRITE_FLUSH = 1,
FS_WRITE_UPDATE_TIME = 256,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed3 {
FS_ATTRIBUTE_DIRECTORY = 1,
FS_ATTRIBUTE_HIDDEN = 256,
FS_ATTRIBUTE_ARCHIVE = 65536,
FS_ATTRIBUTE_READ_ONLY = 16777216,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed4 {
MEDIATYPE_NAND = 0,
MEDIATYPE_SD = 1,
MEDIATYPE_GAME_CARD = 2,
}
pub type FS_MediaType = Enum_Unnamed4;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed5 {
ARCHIVE_ROMFS = 3,
ARCHIVE_SAVEDATA = 4,
ARCHIVE_EXTDATA = 6,
ARCHIVE_SHARED_EXTDATA = 7,
ARCHIVE_SYSTEM_SAVEDATA = 8,
ARCHIVE_SDMC = 9,
ARCHIVE_SDMC_WRITE_ONLY = 10,
ARCHIVE_BOSS_EXTDATA = 305419896,
ARCHIVE_CARD_SPIFS = 305419897,
ARCHIVE_EXTDATA_AND_BOSS_EXTDATA = 305419899,
ARCHIVE_SYSTEM_SAVEDATA2 = 305419900,
ARCHIVE_NAND_RW = 305419901,
ARCHIVE_NAND_RO = 305419902,
ARCHIVE_NAND_RO_WRITE_ACCESS = 305419903,
ARCHIVE_SAVEDATA_AND_CONTENT = 591751050,
ARCHIVE_SAVEDATA_AND_CONTENT2 = 591751054,
ARCHIVE_NAND_CTR_FS = 1450741931,
ARCHIVE_TWL_PHOTO = 1450741932,
ARCHIVE_NAND_TWL_FS = 1450741934,
ARCHIVE_NAND_W_FS = 1450741935,
ARCHIVE_GAMECARD_SAVEDATA = 1450741937,
ARCHIVE_USER_SAVEDATA = 1450741938,
ARCHIVE_DEMO_SAVEDATA = 1450741940,
}
pub type FS_ArchiveID = Enum_Unnamed5;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed6 {
PATH_INVALID = 0,
PATH_EMPTY = 1,
PATH_BINARY = 2,
PATH_ASCII = 3,
PATH_UTF16 = 4,
}
pub type FS_PathType = Enum_Unnamed6;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed7 { SECUREVALUE_SLOT_SD = 4096, }
pub type FS_SecureValueSlot = Enum_Unnamed7;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed8 {
BAUDRATE_512KHZ = 0,
BAUDRATE_1MHZ = 1,
BAUDRATE_2MHZ = 2,
BAUDRATE_4MHZ = 3,
BAUDRATE_8MHZ = 4,
BAUDRATE_16MHZ = 5,
}
pub type FS_CardSpiBaudRate = Enum_Unnamed8;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed9 {
BUSMODE_1BIT = 0,
BUSMODE_4BIT = 1,
}
pub type FS_CardSpiBusMode = Enum_Unnamed9;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed10 {
SPECIALCONTENT_UPDATE = 1,
SPECIALCONTENT_MANUAL = 2,
SPECIALCONTENT_DLP_CHILD = 3,
}
pub type FS_SpecialContentType = Enum_Unnamed10;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed11 { CARD_CTR = 0, CARD_TWL = 1, }
pub type FS_CardType = Enum_Unnamed11;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed12 { FS_ACTION_UNKNOWN = 0, }
pub type FS_Action = Enum_Unnamed12;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed13 {
ARCHIVE_ACTION_COMMIT_SAVE_DATA = 0,
ARCHIVE_ACTION_GET_TIMESTAMP = 1,
}
pub type FS_ArchiveAction = Enum_Unnamed13;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed14 {
SECURESAVE_ACTION_DELETE = 0,
SECURESAVE_ACTION_FORMAT = 1,
}
pub type FS_SecureSaveAction = Enum_Unnamed14;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed15 { FILE_ACTION_UNKNOWN = 0, }
pub type FS_FileAction = Enum_Unnamed15;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed16 { DIRECTORY_ACTION_UNKNOWN = 0, }
pub type FS_DirectoryAction = Enum_Unnamed16;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed17 {
pub name: [u16; 262usize],
pub shortName: [u8; 10usize],
pub shortExt: [u8; 4usize],
pub valid: u8,
pub reserved: u8,
pub attributes: u32,
pub fileSize: u64,
}
impl ::core::clone::Clone for Struct_Unnamed17 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed17 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_DirectoryEntry = Struct_Unnamed17;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed18 {
pub sectorSize: u32,
pub clusterSize: u32,
pub totalClusters: u32,
pub freeClusters: u32,
}
impl ::core::clone::Clone for Struct_Unnamed18 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed18 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_ArchiveResource = Struct_Unnamed18;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed19 {
pub programId: u64,
pub _bindgen_bitfield_1_: FS_MediaType,
pub padding: [u8; 7usize],
}
impl ::core::clone::Clone for Struct_Unnamed19 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed19 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_ProgramInfo = Struct_Unnamed19;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed20 {
pub productCode: [u8; 16usize],
pub companyCode: [u8; 2usize],
pub remasterVersion: u16,
}
impl ::core::clone::Clone for Struct_Unnamed20 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed20 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_ProductInfo = Struct_Unnamed20;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed21 {
pub aesCbcMac: [u8; 16usize],
pub movableSed: [u8; 288usize],
}
impl ::core::clone::Clone for Struct_Unnamed21 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed21 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_IntegrityVerificationSeed = Struct_Unnamed21;
#[repr(C, packed)]
#[derive(Copy)]
pub struct Struct_Unnamed22 {
pub _bindgen_bitfield_1_: FS_MediaType,
pub unknown: u8,
pub reserved1: u16,
pub saveId: u64,
pub reserved2: u32,
}
impl ::core::clone::Clone for Struct_Unnamed22 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed22 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_ExtSaveDataInfo = Struct_Unnamed22;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed23 {
pub _bindgen_bitfield_1_: FS_MediaType,
pub unknown: u8,
pub reserved: u16,
pub saveId: u32,
}
impl ::core::clone::Clone for Struct_Unnamed23 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed23 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_SystemSaveDataInfo = Struct_Unnamed23;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed24 {
pub ivs: [u8; 16usize],
pub encryptParameter: [u8; 16usize],
}
impl ::core::clone::Clone for Struct_Unnamed24 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed24 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_DeviceMoveContext = Struct_Unnamed24;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed25 {
pub _type: FS_PathType,
pub size: u32,
pub data: *const ::c_void,
}
impl ::core::clone::Clone for Struct_Unnamed25 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed25 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_Path = Struct_Unnamed25;
#[repr(C)]
#[derive(Copy)]
pub struct Struct_Unnamed26 {
pub id: u32,
pub lowPath: FS_Path,
pub handle: u64,
}
impl ::core::clone::Clone for Struct_Unnamed26 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed26 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type FS_Archive = Struct_Unnamed26;
extern "C" {
pub fn fsInit() -> Result;
pub fn fsExit();
pub fn fsUseSession(session: Handle, sdmc: u8);
pub fn fsEndUseSession();
pub fn fsMakePath(_type: FS_PathType, path: *const ::c_void)
-> FS_Path;
pub fn fsGetSessionHandle() -> *mut Handle;
pub fn FSUSER_Control(action: FS_Action,
input: *mut ::c_void, inputSize: u32,
output: *mut ::c_void,
outputSize: u32) -> Result;
pub fn FSUSER_Initialize(session: Handle) -> Result;
pub fn FSUSER_OpenFile(out: *mut Handle, archive: FS_Archive,
path: FS_Path, openFlags: u32, attributes: u32)
-> Result;
pub fn FSUSER_OpenFileDirectly(out: *mut Handle, archive: FS_Archive,
path: FS_Path, openFlags: u32,
attributes: u32) -> Result;
pub fn FSUSER_DeleteFile(archive: FS_Archive, path: FS_Path) -> Result;
pub fn FSUSER_RenameFile(srcArchive: FS_Archive, srcPath: FS_Path,
dstArchive: FS_Archive, dstPath: FS_Path)
-> Result;
pub fn FSUSER_DeleteDirectory(archive: FS_Archive, path: FS_Path)
-> Result;
pub fn FSUSER_DeleteDirectoryRecursively(archive: FS_Archive,
path: FS_Path) -> Result;
pub fn FSUSER_CreateFile(archive: FS_Archive, path: FS_Path,
attributes: u32, fileSize: u64) -> Result;
pub fn FSUSER_CreateDirectory(archive: FS_Archive, path: FS_Path,
attributes: u32) -> Result;
pub fn FSUSER_RenameDirectory(srcArchive: FS_Archive, srcPath: FS_Path,
dstArchive: FS_Archive, dstPath: FS_Path)
-> Result;
pub fn FSUSER_OpenDirectory(out: *mut Handle, archive: FS_Archive,
path: FS_Path) -> Result;
pub fn FSUSER_OpenArchive(archive: *mut FS_Archive) -> Result;
pub fn FSUSER_ControlArchive(archive: FS_Archive,
action: FS_ArchiveAction,
input: *mut ::c_void,
inputSize: u32,
output: *mut ::c_void,
outputSize: u32) -> Result;
pub fn FSUSER_CloseArchive(archive: *mut FS_Archive) -> Result;
pub fn FSUSER_GetFreeBytes(freeBytes: *mut u64, archive: FS_Archive)
-> Result;
pub fn FSUSER_GetCardType(_type: *mut FS_CardType) -> Result;
pub fn FSUSER_GetSdmcArchiveResource(archiveResource:
*mut FS_ArchiveResource)
-> Result;
pub fn FSUSER_GetNandArchiveResource(archiveResource:
*mut FS_ArchiveResource)
-> Result;
pub fn FSUSER_GetSdmcFatfsError(error: *mut u32) -> Result;
pub fn FSUSER_IsSdmcDetected(detected: *mut u8) -> Result;
pub fn FSUSER_IsSdmcWritable(writable: *mut u8) -> Result;
pub fn FSUSER_GetSdmcCid(out: *mut u8, length: u32) -> Result;
pub fn FSUSER_GetNandCid(out: *mut u8, length: u32) -> Result;
pub fn FSUSER_GetSdmcSpeedInfo(speedInfo: *mut u32) -> Result;
pub fn FSUSER_GetNandSpeedInfo(speedInfo: *mut u32) -> Result;
pub fn FSUSER_GetSdmcLog(out: *mut u8, length: u32) -> Result;
pub fn FSUSER_GetNandLog(out: *mut u8, length: u32) -> Result;
pub fn FSUSER_ClearSdmcLog() -> Result;
pub fn FSUSER_ClearNandLog() -> Result;
pub fn FSUSER_CardSlotIsInserted(inserted: *mut u8) -> Result;
pub fn FSUSER_CardSlotPowerOn(status: *mut u8) -> Result;
pub fn FSUSER_CardSlotPowerOff(status: *mut u8) -> Result;
pub fn FSUSER_CardSlotGetCardIFPowerStatus(status: *mut u8) -> Result;
pub fn FSUSER_CardNorDirectCommand(commandId: u8) -> Result;
pub fn FSUSER_CardNorDirectCommandWithAddress(commandId: u8,
address: u32) -> Result;
pub fn FSUSER_CardNorDirectRead(commandId: u8, size: u32,
output: *mut u8) -> Result;
pub fn FSUSER_CardNorDirectReadWithAddress(commandId: u8, address: u32,
size: u32, output: *mut u8)
-> Result;
pub fn FSUSER_CardNorDirectWrite(commandId: u8, size: u32,
input: *mut u8) -> Result;
pub fn FSUSER_CardNorDirectWriteWithAddress(commandId: u8, address: u32,
size: u32, input: *mut u8)
-> Result;
pub fn FSUSER_CardNorDirectRead_4xIO(commandId: u8, address: u32,
size: u32, output: *mut u8)
-> Result;
pub fn FSUSER_CardNorDirectCpuWriteWithoutVerify(address: u32,
size: u32,
input: *mut u8)
-> Result;
pub fn FSUSER_CardNorDirectSectorEraseWithoutVerify(address: u32)
-> Result;
pub fn FSUSER_GetProductInfo(info: *mut FS_ProductInfo, processId: u32)
-> Result;
pub fn FSUSER_GetProgramLaunchInfo(info: *mut FS_ProgramInfo,
processId: u32) -> Result;
pub fn FSUSER_SetCardSpiBaudRate(baudRate: FS_CardSpiBaudRate) -> Result;
pub fn FSUSER_SetCardSpiBusMode(busMode: FS_CardSpiBusMode) -> Result;
pub fn FSUSER_SendInitializeInfoTo9() -> Result;
pub fn FSUSER_GetSpecialContentIndex(index: *mut u16,
mediaType: FS_MediaType,
programId: u64,
_type: FS_SpecialContentType)
-> Result;
pub fn FSUSER_GetLegacyRomHeader(mediaType: FS_MediaType, programId: u64,
header: *mut u8) -> Result;
pub fn FSUSER_GetLegacyBannerData(mediaType: FS_MediaType, programId: u64,
banner: *mut u8) -> Result;
pub fn FSUSER_CheckAuthorityToAccessExtSaveData(access: *mut u8,
mediaType: FS_MediaType,
saveId: u64,
processId: u32)
-> Result;
pub fn FSUSER_QueryTotalQuotaSize(quotaSize: *mut u64, directories: u32,
files: u32, fileSizeCount: u32,
fileSizes: *mut u64) -> Result;
pub fn FSUSER_AbnegateAccessRight(accessRight: u32) -> Result;
pub fn FSUSER_DeleteSdmcRoot() -> Result;
pub fn FSUSER_DeleteAllExtSaveDataOnNand() -> Result;
pub fn FSUSER_InitializeCtrFileSystem() -> Result;
pub fn FSUSER_CreateSeed() -> Result;
pub fn FSUSER_GetFormatInfo(totalSize: *mut u32, directories: *mut u32,
files: *mut u32, duplicateData: *mut u8,
archiveId: FS_ArchiveID, path: FS_Path)
-> Result;
pub fn FSUSER_GetLegacyRomHeader2(headerSize: u32,
mediaType: FS_MediaType, programId: u64,
header: *mut u8) -> Result;
pub fn FSUSER_GetSdmcCtrRootPath(out: *mut u8, length: u32) -> Result;
pub fn FSUSER_GetArchiveResource(archiveResource: *mut FS_ArchiveResource,
mediaType: FS_MediaType) -> Result;
pub fn FSUSER_ExportIntegrityVerificationSeed(seed:
*mut FS_IntegrityVerificationSeed)
-> Result;
pub fn FSUSER_ImportIntegrityVerificationSeed(seed:
*mut FS_IntegrityVerificationSeed)
-> Result;
pub fn FSUSER_FormatSaveData(archiveId: FS_ArchiveID, path: FS_Path,
blocks: u32, directories: u32, files: u32,
directoryBuckets: u32, fileBuckets: u32,
duplicateData: u8) -> Result;
pub fn FSUSER_GetLegacySubBannerData(bannerSize: u32,
mediaType: FS_MediaType,
programId: u64, banner: *mut u8)
-> Result;
pub fn FSUSER_ReadSpecialFile(bytesRead: *mut u32, fileOffset: u64,
size: u32, data: *mut u8) -> Result;
pub fn FSUSER_GetSpecialFileSize(fileSize: *mut u64) -> Result;
pub fn FSUSER_CreateExtSaveData(info: FS_ExtSaveDataInfo,
directories: u32, files: u32,
sizeLimit: u64, smdhSize: u32,
smdh: *mut u8) -> Result;
pub fn FSUSER_DeleteExtSaveData(info: FS_ExtSaveDataInfo) -> Result;
pub fn FSUSER_ReadExtSaveDataIcon(bytesRead: *mut u32,
info: FS_ExtSaveDataInfo,
smdhSize: u32, smdh: *mut u8)
-> Result;
pub fn FSUSER_GetExtDataBlockSize(totalBlocks: *mut u64,
freeBlocks: *mut u64,
blockSize: *mut u32,
info: FS_ExtSaveDataInfo) -> Result;
pub fn FSUSER_EnumerateExtSaveData(idsWritten: *mut u32, idsSize: u32,
mediaType: FS_MediaType, idSize: u32,
shared: u8, ids: *mut u8) -> Result;
pub fn FSUSER_CreateSystemSaveData(info: FS_SystemSaveDataInfo,
totalSize: u32, blockSize: u32,
directories: u32, files: u32,
directoryBuckets: u32,
fileBuckets: u32, duplicateData: u8)
-> Result;
pub fn FSUSER_DeleteSystemSaveData(info: FS_SystemSaveDataInfo) -> Result;
pub fn FSUSER_StartDeviceMoveAsSource(context: *mut FS_DeviceMoveContext)
-> Result;
pub fn FSUSER_StartDeviceMoveAsDestination(context: FS_DeviceMoveContext,
clear: u8) -> Result;
pub fn FSUSER_SetArchivePriority(archive: FS_Archive, priority: u32)
-> Result;
pub fn FSUSER_GetArchivePriority(priority: *mut u32, archive: FS_Archive)
-> Result;
pub fn FSUSER_SetCtrCardLatencyParameter(latency: u64,
emulateEndurance: u8) -> Result;
pub fn FSUSER_SwitchCleanupInvalidSaveData(enable: u8) -> Result;
pub fn FSUSER_EnumerateSystemSaveData(idsWritten: *mut u32,
idsSize: u32, ids: *mut u64)
-> Result;
pub fn FSUSER_InitializeWithSdkVersion(session: Handle, version: u32)
-> Result;
pub fn FSUSER_SetPriority(priority: u32) -> Result;
pub fn FSUSER_GetPriority(priority: *mut u32) -> Result;
pub fn FSUSER_SetSaveDataSecureValue(value: u64, slot: FS_SecureValueSlot,
titleUniqueId: u32,
titleVariation: u8) -> Result;
pub fn FSUSER_GetSaveDataSecureValue(exists: *mut u8, value: *mut u64,
slot: FS_SecureValueSlot,
titleUniqueId: u32,
titleVariation: u8) -> Result;
pub fn FSUSER_ControlSecureSave(action: FS_SecureSaveAction,
input: *mut ::c_void,
inputSize: u32,
output: *mut ::c_void,
outputSize: u32) -> Result;
pub fn FSUSER_GetMediaType(mediaType: *mut FS_MediaType) -> Result;
pub fn FSFILE_Control(handle: Handle, action: FS_FileAction,
input: *mut ::c_void, inputSize: u32,
output: *mut ::c_void,
outputSize: u32) -> Result;
pub fn FSFILE_OpenSubFile(handle: Handle, subFile: *mut Handle,
offset: u64, size: u64) -> Result;
pub fn FSFILE_Read(handle: Handle, bytesRead: *mut u32, offset: u64,
buffer: *mut ::c_void, size: u32)
-> Result;
pub fn FSFILE_Write(handle: Handle, bytesWritten: *mut u32, offset: u64,
buffer: *const ::c_void, size: u32,
flags: u32) -> Result;
pub fn FSFILE_GetSize(handle: Handle, size: *mut u64) -> Result;
pub fn FSFILE_SetSize(handle: Handle, size: u64) -> Result;
pub fn FSFILE_GetAttributes(handle: Handle, attributes: *mut u32)
-> Result;
pub fn FSFILE_SetAttributes(handle: Handle, attributes: u32) -> Result;
pub fn FSFILE_Close(handle: Handle) -> Result;
pub fn FSFILE_Flush(handle: Handle) -> Result;
pub fn FSFILE_SetPriority(handle: Handle, priority: u32) -> Result;
pub fn FSFILE_GetPriority(handle: Handle, priority: *mut u32) -> Result;
pub fn FSFILE_OpenLinkFile(handle: Handle, linkFile: *mut Handle)
-> Result;
pub fn FSDIR_Control(handle: Handle, action: FS_DirectoryAction,
input: *mut ::c_void, inputSize: u32,
output: *mut ::c_void,
outputSize: u32) -> Result;
pub fn FSDIR_Read(handle: Handle, entriesRead: *mut u32,
entryCount: u32, entries: *mut FS_DirectoryEntry)
-> Result;
pub fn FSDIR_Close(handle: Handle) -> Result;
pub fn FSDIR_SetPriority(handle: Handle, priority: u32) -> Result;
pub fn FSDIR_GetPriority(handle: Handle, priority: *mut u32) -> Result;
}

83
ctru-sys/src/services/gsp.rs

@ -1,83 +0,0 @@
use super::super::types::*;
#[inline]
pub fn GSP_REBASE_REG(r: u32) {
((r)-0x1EB00000);
}
#[repr(C)]
#[derive(Clone, Copy)]
pub struct GSP_FramebufferInfo {
active_framebuf: u32, //"0=first, 1=second"
framebuf0_vaddr: *mut u32, //"Framebuffer virtual address, for the main screen this is the 3D left framebuffer"
framebuf1_vaddr: *mut u32,//"For the main screen: 3D right framebuffer address"
framebuf_widthbytesize: u32, //"Value for 0x1EF00X90, controls framebuffer width"
format: u32,//"Framebuffer format, this u16 is written to the low u16 for LCD register 0x1EF00X70."
framebuf_dispselect: u32, //"Value for 0x1EF00X78, controls which framebuffer is displayed"
unk: u32 //"?"
}
#[repr(C)]
#[derive(Clone, Copy)]
pub enum GSP_FramebufferFormats {
GSP_RGBA8_OES=0, //pixel_size = 4-bytes
GSP_BGR8_OES=1, //pixel_size = 3-bytes
GSP_RGB565_OES=2, //pixel_size = 2-bytes
GSP_RGB5_A1_OES=3, //pixel_size = 2-bytes
GSP_RGBA4_OES=4 //pixel_size = 2-bytes
}
#[repr(C)]
#[derive(Clone, Copy)]
pub struct GSP_CaptureInfoEntry { //See this for GSP_CaptureInfoEntry and GSP_CaptureInfo: http://3dbrew.org/wiki/GSPGPU:ImportDisplayCaptureInfo
framebuf0_vaddr: *mut u32,
framebuf1_vaddr: *mut u32,
format: u32,
framebuf_widthbytesize: u32,
}
#[repr(C)]
#[derive(Clone, Copy)]
pub struct GSP_CaptureInfo {
screencapture: [GSP_CaptureInfoEntry; 2usize]
}
#[repr(C)]
pub enum GSP_Event {
GSPEVENT_PSC0 = 0, // memory fill completed
GSPEVENT_PSC1,
GSPEVENT_VBlank0,
GSPEVENT_VBlank1,
GSPEVENT_PPF, // display transfer finished
GSPEVENT_P3D, // command list processing finished
GSPEVENT_DMA,
GSPEVENT_MAX, // used to know how many events there are
}
use super::super::{Result, Handle};
extern "C" {
pub fn gspInit() -> Result;
pub fn gspExit() -> ();
pub fn gspInitEventHandler(gspEvent: Handle, gspSharedMem: *mut vu8, gspThreadId: u8) -> Result;
pub fn gspExitEventHandler() -> ();
pub fn gspWaitForEvent(id: GSP_Event, nextEvent: u8) -> ();
pub fn GSPGPU_AcquireRight(handle: *mut Handle, flags: u8) -> Result;
pub fn GSPGPU_ReleaseRight(handle: *mut Handle) -> Result;
pub fn GSPGPU_ImportDisplayCaptureInfo(handle: *mut Handle, captureinfo: *mut GSP_CaptureInfo) -> Result;
pub fn GSPGPU_SaveVramSysArea(handle: *mut Handle) -> Result;
pub fn GSPGPU_RestoreVramSysArea(handle: *mut Handle) -> Result;
pub fn GSPGPU_SetLcdForceBlack(handle: *mut Handle, flags: u8) -> Result;
pub fn GSPGPU_SetBufferSwap(handle: *mut Handle, screenid: u32, framebufinfo: *mut GSP_FramebufferInfo) -> Result;
pub fn GSPGPU_FlushDataCache(handle: *mut Handle, adr: *mut u8, size: u32) -> Result;
pub fn GSPGPU_InvalidateDataCache(handle: *mut Handle, adr: *mut u8, size: u32) -> Result;
pub fn GSPGPU_WriteHWRegs(handle: *mut Handle, regAddr: u32, data: *mut u32, size: u8) -> Result;
pub fn GSPGPU_WriteHWRegsWithMask(handle: *mut Handle, regAddr: u32, data: *mut u32, datasize: u8, maskdata: *mut u32, masksize: u8) -> Result;
pub fn GSPGPU_ReadHWRegs(handle: *mut Handle, regAddr: u32, data: *mut u32, size: u8) -> Result;
pub fn GSPGPU_RegisterInterruptRelayQueue(handle: *mut Handle, eventHandle: Handle, flags: u32, outMemHandle: *mut Handle, threadID: *mut u8) -> Result;
pub fn GSPGPU_UnregisterInterruptRelayQueue(handle: *mut Handle) -> Result;
pub fn GSPGPU_TriggerCmdReqQueue(handle: *mut Handle) -> Result;
pub fn GSPGPU_SubmitGxCommand(sharedGspCmdBuf: *mut u32, gxCommand: *mut u32, handle: *mut Handle) -> Result;
}

120
ctru-sys/src/services/gspgpu.rs

@ -0,0 +1,120 @@
use ::{Handle, Result};
use ::c_void;
use ::types::*;
#[inline]
pub fn GSPGPU_REBASE_REG(r: u32) {
((r)-0x1EB00000);
}
#[repr(C)]
#[derive(Copy)]
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 ::core::clone::Clone for GSPGPU_FramebufferInfo {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for GSPGPU_FramebufferInfo {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum GSPGPU_FramebufferFormats {
GSP_RGBA8_OES = 0,
GSP_BGR8_OES = 1,
GSP_RGB565_OES = 2,
GSP_RGB5_A1_OES = 3,
GSP_RGBA4_OES = 4,
}
#[repr(C)]
#[derive(Copy)]
pub struct GSPGPU_CaptureInfoEntry {
pub framebuf0_vaddr: *mut u32,
pub framebuf1_vaddr: *mut u32,
pub format: u32,
pub framebuf_widthbytesize: u32,
}
impl ::core::clone::Clone for GSPGPU_CaptureInfoEntry {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for GSPGPU_CaptureInfoEntry {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
#[repr(C)]
#[derive(Copy)]
pub struct GSPGPU_CaptureInfo {
pub screencapture: [GSPGPU_CaptureInfoEntry; 2usize],
}
impl ::core::clone::Clone for GSPGPU_CaptureInfo {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for GSPGPU_CaptureInfo {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
#[repr(C)]
pub enum GSPGPU_Event {
GSPGPU_EVENT_PSC0 = 0,
GSPGPU_EVENT_PSC1 = 1,
GSPGPU_EVENT_VBlank0 = 2,
GSPGPU_EVENT_VBlank1 = 3,
GSPGPU_EVENT_PPF = 4,
GSPGPU_EVENT_P3D = 5,
GSPGPU_EVENT_DMA = 6,
GSPGPU_EVENT_MAX = 7,
}
use ThreadFunc;
extern "C" {
pub fn gspInit() -> Result;
pub fn gspExit();
pub fn gspSetEventCallback(id: GSPGPU_Event, cb: ThreadFunc,
data: *mut c_void,
oneShot: u8);
pub fn gspInitEventHandler(gspEvent: Handle, gspSharedMem: *mut vu8,
gspThreadId: u8) -> Result;
pub fn gspExitEventHandler();
pub fn gspWaitForEvent(id: GSPGPU_Event, nextEvent: u8);
pub fn gspWaitForAnyEvent() -> GSPGPU_Event;
pub fn gspSubmitGxCommand(sharedGspCmdBuf: *mut u32,
gxCommand: *mut u32) -> Result;
pub fn GSPGPU_AcquireRight(flags: u8) -> Result;
pub fn GSPGPU_ReleaseRight() -> Result;
pub fn GSPGPU_ImportDisplayCaptureInfo(captureinfo:
*mut GSPGPU_CaptureInfo)
-> Result;
pub fn GSPGPU_SaveVramSysArea() -> Result;
pub fn GSPGPU_RestoreVramSysArea() -> Result;
pub fn GSPGPU_SetLcdForceBlack(flags: u8) -> Result;
pub fn GSPGPU_SetBufferSwap(screenid: u32,
framebufinfo: *mut GSPGPU_FramebufferInfo)
-> Result;
pub fn GSPGPU_FlushDataCache(adr: *const c_void,
size: u32) -> Result;
pub fn GSPGPU_InvalidateDataCache(adr: *const c_void,
size: u32) -> Result;
pub fn GSPGPU_WriteHWRegs(regAddr: u32, data: *mut u32, size: u8)
-> Result;
pub fn GSPGPU_WriteHWRegsWithMask(regAddr: u32, data: *mut u32,
datasize: u8, maskdata: *mut u32,
masksize: u8) -> Result;
pub fn GSPGPU_ReadHWRegs(regAddr: u32, data: *mut u32, size: u8)
-> Result;
pub fn GSPGPU_RegisterInterruptRelayQueue(eventHandle: Handle,
flags: u32,
outMemHandle: *mut Handle,
threadID: *mut u8) -> Result;
pub fn GSPGPU_UnregisterInterruptRelayQueue() -> Result;
pub fn GSPGPU_TriggerCmdReqQueue() -> Result;
}

17
ctru-sys/src/services/gsplcd.rs

@ -0,0 +1,17 @@
//TODO: Verify if anonymous enum is properly represented
use ::Result;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed1 {
GSPLCD_SCREEN_TOP = 1,
GSPLCD_SCREEN_BOTTOM = 2,
GSPLCD_SCREEN_BOTH = 3,
}
extern "C" {
pub fn gspLcdInit() -> Result;
pub fn gspLcdExit();
pub fn GSPLCD_PowerOnBacklight(screen: u32) -> Result;
pub fn GSPLCD_PowerOffBacklight(screen: u32) -> Result;
}

6
ctru-sys/src/services/hb.rs

@ -6,6 +6,8 @@ extern "C" {
pub fn hbInit() -> Result; pub fn hbInit() -> Result;
pub fn hbExit() -> (); pub fn hbExit() -> ();
pub fn HB_FlushInvalidateCache() -> Result; pub fn HB_FlushInvalidateCache() -> Result;
pub fn HB_GetBootloaderAddresses(load3dsx: *mut *mut c_void, setArgv: *mut *mut c_void) -> Result; pub fn HB_GetBootloaderAddresses(load3dsx: *mut *mut c_void, setArgv: *mut *mut c_void)
pub fn HB_ReprotectMemory(addr: *mut u32, pages: u32, mode: u32, reprotectedPages: *mut u32) -> Result; -> Result;
pub fn HB_ReprotectMemory(addr: *mut u32, pages: u32, mode: u32, reprotectedPages: *mut u32)
-> Result;
} }

67
ctru-sys/src/services/hid.rs

@ -17,17 +17,21 @@ pub enum PAD_KEY {
KEY_L = 512, KEY_L = 512,
KEY_X = 1024, KEY_X = 1024,
KEY_Y = 2048, KEY_Y = 2048,
KEY_ZL = 4096, // (new 3DS only) KEY_ZL = 16384,
KEY_ZR = 8192, // (new 3DS only) KEY_ZR = 32768,
KEY_TOUCH = 1048576, // Not actually provided by HID KEY_TOUCH = 1048576,
KEY_CSTICK_RIGHT = 16777216, // c-stick (new 3DS only) KEY_CSTICK_RIGHT = 16777216,
KEY_CSTICK_LEFT = 33554432, // c-stick (new 3DS only) KEY_CSTICK_LEFT = 33554432,
KEY_CSTICK_UP = 67108864, // c-stick (new 3DS only) KEY_CSTICK_UP = 67108864,
KEY_CSTICK_DOWN = 134217728, // c-stick (new 3DS only) KEY_CSTICK_DOWN = 134217728,
KEY_CPAD_RIGHT = 268435456, // circle pad KEY_CPAD_RIGHT = 268435456,
KEY_CPAD_LEFT = 536870912, // circle pad KEY_CPAD_LEFT = 536870912,
KEY_CPAD_UP = 1073741824, // circle pad KEY_CPAD_UP = 1073741824,
KEY_CPAD_DOWN = 2147483648, // circle pad KEY_CPAD_DOWN = -2147483648,
KEY_UP = 1073741888,
KEY_DOWN = -2147483520,
KEY_LEFT = 536870944,
KEY_RIGHT = 268435472,
// Generic catch-all directions // Generic catch-all directions
/*KEY_UP = KEY_DUP | KEY_CPAD_UP, /*KEY_UP = KEY_DUP | KEY_CPAD_UP,
@ -68,36 +72,39 @@ pub struct angularRate {
#[repr(C)] #[repr(C)]
pub enum HID_Event { pub enum HID_Event {
HIDEVENT_PAD0 = 0, //"Event signaled by HID-module, when the sharedmem+0(PAD/circle-pad)/+0xA8(touch-screen) region was updated." HIDEVENT_PAD0 = 0,
HIDEVENT_PAD1, //"Event signaled by HID-module, when the sharedmem+0(PAD/circle-pad)/+0xA8(touch-screen) region was updated." HIDEVENT_PAD1 = 1,
HIDEVENT_Accel, //"Event signaled by HID-module, when the sharedmem accelerometer state was updated." HIDEVENT_Accel = 2,
HIDEVENT_Gyro, //"Event signaled by HID-module, when the sharedmem gyroscope state was updated." HIDEVENT_Gyro = 3,
HIDEVENT_DebugPad, //"Event signaled by HID-module, when the sharedmem DebugPad state was updated." HIDEVENT_DebugPad = 4,
HIDEVENT_MAX = 5,
HIDEVENT_MAX, // used to know how many events there are
} }
extern "C" { extern "C" {
pub static hidMemHandle: Handle; pub fn hidInit() -> Result;
pub static hidSharedMem: *mut vu32; pub fn hidExit();
pub fn hidScanInput();
pub fn hidInit(sharedMem: *mut u32) -> Result;
pub fn hidExit() -> ();
pub fn hidScanInput() -> ();
pub fn hidKeysHeld() -> u32; pub fn hidKeysHeld() -> u32;
pub fn hidKeysDown() -> u32; pub fn hidKeysDown() -> u32;
pub fn hidKeysUp() -> u32; pub fn hidKeysUp() -> u32;
pub fn hidTouchRead(pos: *mut touchPosition) -> (); pub fn hidTouchRead(pos: *mut touchPosition);
pub fn hidCircleRead(pos: *mut circlePosition) -> (); pub fn hidCircleRead(pos: *mut circlePosition);
pub fn hidAccelRead(vector: *mut accelVector) -> (); pub fn hidAccelRead(vector: *mut accelVector);
pub fn hidGyroRead(rate: *mut angularRate) -> (); pub fn hidGyroRead(rate: *mut angularRate);
pub fn hidWaitForEvent(id: HID_Event, nextEvent: u8) -> (); pub fn hidWaitForEvent(id: HID_Event, nextEvent: u8);
pub fn HIDUSER_GetHandles(outMemHandle: *mut Handle, eventpad0: *mut Handle, eventpad1: *mut Handle, eventaccel: *mut Handle, eventgyro: *mut Handle, eventdebugpad: *mut Handle) -> Result; pub fn HIDUSER_GetHandles(outMemHandle: *mut Handle,
eventpad0: *mut Handle, eventpad1: *mut Handle,
eventaccel: *mut Handle, eventgyro: *mut Handle,
eventdebugpad: *mut Handle) -> Result;
pub fn HIDUSER_EnableAccelerometer() -> Result; pub fn HIDUSER_EnableAccelerometer() -> Result;
pub fn HIDUSER_DisableAccelerometer() -> Result; pub fn HIDUSER_DisableAccelerometer() -> Result;
pub fn HIDUSER_EnableGyroscope() -> Result; pub fn HIDUSER_EnableGyroscope() -> Result;
pub fn HIDUSER_DisableGyroscope() -> Result; pub fn HIDUSER_DisableGyroscope() -> Result;
pub fn HIDUSER_GetGyroscopeRawToDpsCoefficient(coeff: *mut f32) -> Result; pub fn HIDUSER_GetGyroscopeRawToDpsCoefficient(coeff:
*mut f32)
-> Result;
pub fn HIDUSER_GetSoundVolume(volume: *mut u8) -> Result; pub fn HIDUSER_GetSoundVolume(volume: *mut u8) -> Result;
} }

79
ctru-sys/src/services/httpc.rs

@ -0,0 +1,79 @@
use ::{Handle, Result};
#[repr(C)]
#[derive(Copy)]
pub struct httpcContext {
pub servhandle: Handle,
pub httphandle: u32,
}
impl ::core::clone::Clone for httpcContext {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for httpcContext {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum HTTPC_RequestStatus {
HTTPC_STATUS_REQUEST_IN_PROGRESS = 5,
HTTPC_STATUS_DOWNLOAD_READY = 7,
}
extern "C" {
pub fn httpcInit() -> Result;
pub fn httpcExit();
pub fn httpcOpenContext(context: *mut httpcContext,
url: *mut u8,
use_defaultproxy: u32) -> Result;
pub fn httpcCloseContext(context: *mut httpcContext) -> Result;
pub fn httpcAddRequestHeaderField(context: *mut httpcContext,
name: *mut u8,
value: *mut u8)
-> Result;
pub fn httpcBeginRequest(context: *mut httpcContext) -> Result;
pub fn httpcReceiveData(context: *mut httpcContext, buffer: *mut u8,
size: u32) -> Result;
pub fn httpcGetRequestState(context: *mut httpcContext,
out: *mut HTTPC_RequestStatus) -> Result;
pub fn httpcGetDownloadSizeState(context: *mut httpcContext,
downloadedsize: *mut u32,
contentsize: *mut u32) -> Result;
pub fn httpcGetResponseStatusCode(context: *mut httpcContext,
out: *mut u32, delay: u64) -> Result;
pub fn httpcGetResponseHeader(context: *mut httpcContext,
name: *mut u8,
value: *mut u8,
valuebuf_maxsize: u32) -> Result;
pub fn httpcDownloadData(context: *mut httpcContext, buffer: *mut u8,
size: u32, downloadedsize: *mut u32) -> Result;
pub fn HTTPC_Initialize(handle: Handle) -> Result;
pub fn HTTPC_InitializeConnectionSession(handle: Handle,
contextHandle: Handle) -> Result;
pub fn HTTPC_CreateContext(handle: Handle,
url: *mut u8,
contextHandle: *mut Handle) -> Result;
pub fn HTTPC_CloseContext(handle: Handle, contextHandle: Handle)
-> Result;
pub fn HTTPC_SetProxyDefault(handle: Handle, contextHandle: Handle)
-> Result;
pub fn HTTPC_AddRequestHeaderField(handle: Handle, contextHandle: Handle,
name: *mut u8,
value: *mut u8)
-> Result;
pub fn HTTPC_BeginRequest(handle: Handle, contextHandle: Handle)
-> Result;
pub fn HTTPC_ReceiveData(handle: Handle, contextHandle: Handle,
buffer: *mut u8, size: u32) -> Result;
pub fn HTTPC_GetRequestState(handle: Handle, contextHandle: Handle,
out: *mut HTTPC_RequestStatus) -> Result;
pub fn HTTPC_GetDownloadSizeState(handle: Handle, contextHandle: Handle,
downloadedsize: *mut u32,
contentsize: *mut u32) -> Result;
pub fn HTTPC_GetResponseHeader(handle: Handle, contextHandle: Handle,
name: *mut u8,
value: *mut u8,
valuebuf_maxsize: u32) -> Result;
pub fn HTTPC_GetResponseStatusCode(handle: Handle, contextHandle: Handle,
out: *mut u32) -> Result;
}

17
ctru-sys/src/services/ir.rs

@ -1,14 +1,21 @@
use ::{Result, Handle}; use ::{Result, Handle};
extern "C" { extern "C" {
pub fn IRU_Initialize(sharedmem_addr: *mut u32, sharedmem_size: u32) -> Result; pub fn iruInit(sharedmem_addr: *mut u32, sharedmem_size: u32) -> Result;
pub fn iruExit();
pub fn iruGetServHandle() -> Handle;
pub fn iruSendData(buf: *mut u8, size: u32, wait: u8) -> Result;
pub fn iruRecvData(buf: *mut u8, size: u32, flag: u8,
transfercount: *mut u32, wait: u8) -> Result;
pub fn IRU_Initialize() -> Result;
pub fn IRU_Shutdown() -> Result; pub fn IRU_Shutdown() -> Result;
pub fn IRU_GetServHandle() -> Handle; pub fn IRU_StartSendTransfer(buf: *mut u8, size: u32) -> Result;
pub fn IRU_SendData(buf: *mut u8, size: u32, wait: u32) -> Result; pub fn IRU_WaitSendTransfer() -> Result;
pub fn IRU_RecvData(buf: *mut u8, size: u32, flag: u8, transfercount: *mut u32, wait: u32) -> Result; pub fn IRU_StartRecvTransfer(size: u32, flag: u8) -> Result;
pub fn IRU_WaitRecvTransfer(transfercount: *mut u32) -> Result;
pub fn IRU_SetBitRate(value: u8) -> Result; pub fn IRU_SetBitRate(value: u8) -> Result;
pub fn IRU_GetBitRate(out: *mut u8) -> Result; pub fn IRU_GetBitRate(out: *mut u8) -> Result;
pub fn IRU_SetIRLEDState(value: u32) -> Result; pub fn IRU_SetIRLEDState(value: u32) -> Result;
pub fn IRU_GetIRLEDRecvState(out: *mut u32) -> Result; pub fn IRU_GetIRLEDRecvState(out: *mut u32) -> Result;
} }

16
ctru-sys/src/services/irrst.rs

@ -3,19 +3,19 @@ use ::types::*;
use super::hid::circlePosition; use super::hid::circlePosition;
extern "C" { extern "C" {
pub static irrstMemHandle: Handle; pub static mut irrstMemHandle: Handle;
pub static irrstSharedMem: *mut vu32; pub static mut irrstSharedMem: *mut vu32;
pub fn irrstInit(sharedMem: *mut u32) -> Result; pub fn irrstInit() -> Result;
pub fn irrstExit() -> (); pub fn irrstExit();
pub fn irrstScanInput() -> (); pub fn irrstScanInput();
pub fn irrstKeysHeld() -> u32; pub fn irrstKeysHeld() -> u32;
pub fn irrstCstickRead(pos: *mut circlePosition) -> (); pub fn irrstCstickRead(pos: *mut circlePosition);
pub fn irrstWaitForEvent(nextEvent: u8) -> (); pub fn irrstWaitForEvent(nextEvent: u8);
pub fn IRRST_GetHandles(outMemHandle: *mut Handle, pub fn IRRST_GetHandles(outMemHandle: *mut Handle,
outEventHandle: *mut Handle) -> Result; outEventHandle: *mut Handle) -> Result;
pub fn IRRST_Initialize(unk1: u32, unk2: u8) -> Result; pub fn IRRST_Initialize(unk1: u32, unk2: u8) -> Result;
pub fn IRRST_Shutdown() -> Result; pub fn IRRST_Shutdown() -> Result;
} }

53
ctru-sys/src/services/mic.rs

@ -1,19 +1,42 @@
use ::{Result, Handle}; use ::{Handle, Result};
#[derive(Clone, Copy)]
#[repr(C)]
pub enum MICU_Encoding {
MICU_ENCODING_PCM8 = 0,
MICU_ENCODING_PCM16 = 1,
MICU_ENCODING_PCM8_SIGNED = 2,
MICU_ENCODING_PCM16_SIGNED = 3,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum MICU_SampleRate {
MICU_SAMPLE_RATE_32730 = 0,
MICU_SAMPLE_RATE_16360 = 1,
MICU_SAMPLE_RATE_10910 = 2,
MICU_SAMPLE_RATE_8180 = 3,
}
extern "C" { extern "C" {
pub fn MIC_Initialize(sharedmem: *mut u32, sharedmem_size: u32, control: u8, recording: u8, unk0: u8, unk1: u8, unk2: u8) -> Result; pub fn micInit(buffer: *mut u8, bufferSize: u32) -> Result;
pub fn MIC_Shutdown() -> Result; pub fn micExit();
pub fn MIC_GetSharedMemOffsetValue() -> u32; pub fn micGetSampleDataSize() -> u32;
pub fn MIC_ReadAudioData(outbuf: *mut u8, readsize: u32, waitforevent: u32) -> u32; pub fn micGetLastSampleOffset() -> u32;
pub fn MIC_MapSharedMem(handle: Handle, size: u32) -> Result; pub fn MICU_MapSharedMem(size: u32, handle: Handle) -> Result;
pub fn MIC_UnmapSharedMem() -> Result; pub fn MICU_UnmapSharedMem() -> Result;
pub fn MIC_cmd3_Initialize(unk0: u8, unk1: u8, sharedmem_baseoffset: u32, sharedmem_endoffset: u32, unk2: u8) -> Result; pub fn MICU_StartSampling(encoding: MICU_Encoding,
pub fn MIC_cmd5() -> Result; sampleRate: MICU_SampleRate, offset: u32,
pub fn MIC_GetCNTBit15(out: *mut u8) -> Result; size: u32, _loop: u8) -> Result;
pub fn MIC_GetEventHandle(handle: *mut Handle) -> Result; pub fn MICU_AdjustSampling(sampleRate: MICU_SampleRate) -> Result;
pub fn MIC_SetControl(value: u8) -> Result; pub fn MICU_StopSampling() -> Result;
pub fn MIC_GetControl(value: *mut u8) -> Result; pub fn MICU_IsSampling(sampling: *mut u8) -> Result;
pub fn MIC_SetRecording(value: u8) -> Result; pub fn MICU_GetEventHandle(handle: *mut Handle) -> Result;
pub fn MIC_IsRecoding(value: *mut u8) -> Result; pub fn MICU_SetGain(gain: u8) -> Result;
pub fn MICU_GetGain(gain: *mut u8) -> Result;
pub fn MICU_SetPower(power: u8) -> Result;
pub fn MICU_GetPower(power: *mut u8) -> Result;
pub fn MICU_SetClamp(clamp: u8) -> Result;
pub fn MICU_GetClamp(clamp: *mut u8) -> Result;
pub fn MICU_SetAllowShellClosed(allowShellClosed: u8) -> Result;
} }

16
ctru-sys/src/services/mod.rs

@ -1,15 +1,27 @@
pub mod ac; pub mod ac;
pub mod am; pub mod am;
pub mod apt; pub mod apt;
pub mod cam;
pub mod cfgnor; pub mod cfgnor;
pub mod cfgu; pub mod cfgu;
pub mod gsp; pub mod dsp;
pub mod fs;
pub mod gspgpu;
pub mod gsplcd;
pub mod hb; pub mod hb;
pub mod hid; pub mod hid;
pub mod httpc;
pub mod ir; pub mod ir;
pub mod irrst; pub mod irrst;
pub mod mic; pub mod mic;
pub mod mvd;
pub mod news;
pub mod ns; pub mod ns;
pub mod pm; pub mod pm;
pub mod ptm; pub mod ps;
pub mod ptmsysm;
pub mod ptmu;
pub mod qtm;
pub mod soc; pub mod soc;
pub mod srvpm;
pub mod y2r;

67
ctru-sys/src/services/mvd.rs

@ -0,0 +1,67 @@
use ::Result;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum MVDSTD_Mode {
MVDMODE_COLORFORMATCONV = 0,
MVDMODE_VIDEOPROCESSING = 1,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum MVDSTD_InputFormat {
MVD_INPUT_YUYV422 = 65537,
MVD_INPUT_H264 = 131073,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum MVDSTD_OutputFormat { MVD_OUTPUT_RGB565 = 262146, }
#[repr(C)]
#[derive(Copy)]
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 unk_x18: [u32; 10usize],
pub flag_x40: u32,
pub unk_x44: u32,
pub unk_x48: u32,
pub outheight0: u32,
pub outwidth0: u32,
pub unk_x54: u32,
pub output_type: MVDSTD_OutputFormat,
pub outwidth1: u32,
pub outheight1: u32,
pub physaddr_outdata0: u32,
pub physaddr_outdata1_colorconv: u32,
pub unk_x6c: [u32; 44usize],
}
impl ::core::clone::Clone for MVDSTD_Config {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for MVDSTD_Config {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
extern "C" {
pub fn mvdstdInit(mode: MVDSTD_Mode, input_type: MVDSTD_InputFormat,
output_type: MVDSTD_OutputFormat, size: u32) -> Result;
pub fn mvdstdExit();
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_colorconv: *mut u32);
pub fn mvdstdProcessFrame(config: *mut MVDSTD_Config,
h264_vaddr_inframe: *mut u32,
h264_inframesize: u32, h264_frameid: u32)
-> Result;
pub fn MVDSTD_SetConfig(config: *mut MVDSTD_Config) -> Result;
}

11
ctru-sys/src/services/news.rs

@ -0,0 +1,11 @@
use ::Result;
use ::c_void;
extern "C" {
pub fn newsInit() -> Result;
pub fn newsExit();
pub fn NEWS_AddNotification(title: *const u16, titleLength: u32,
message: *const u16, messageLength: u32,
imageData: *const c_void,
imageSize: u32, jpeg: u8) -> Result;
}

4
ctru-sys/src/services/ns.rs

@ -1,9 +1,9 @@
use ::Result; use ::Result;
extern "C" { extern "C" {
pub fn nsInit() -> Result; pub fn nsInit() -> Result;
pub fn nsExit() -> Result; pub fn nsExit();
pub fn NS_LaunchTitle(titleid: u64, launch_flags: u32, procid: *mut u32) -> Result; pub fn NS_LaunchTitle(titleid: u64, launch_flags: u32, procid: *mut u32) -> Result;
pub fn NS_RebootToTitle(mediatype: u8, titleid: u64) -> Result; pub fn NS_RebootToTitle(mediatype: u8, titleid: u64) -> Result;
} }

24
ctru-sys/src/services/pm.rs

@ -1,12 +1,24 @@
use ::Result; use ::{Handle, Result};
use ::c_void;
extern "C" { extern "C" {
pub fn pmInit() -> Result; pub fn pmInit() -> Result;
pub fn pmExit() -> Result; pub fn pmExit();
pub fn PM_LaunchTitle(mediatype: u8, titleid: u64, launch_flags: u32) -> Result; pub fn PM_LaunchTitle(mediatype: u8, titleid: u64, launch_flags: u32)
pub fn PM_GetTitleExheaderFlags(mediatype: u8, titleid: u64, out: *mut u8) -> Result; -> Result;
pub fn PM_GetTitleExheaderFlags(mediatype: u8, titleid: u64,
out: *mut u8) -> Result;
pub fn PM_SetFIRMLaunchParams(size: u32, _in: *mut u8) -> Result; pub fn PM_SetFIRMLaunchParams(size: u32, _in: *mut u8) -> Result;
pub fn PM_GetFIRMLaunchParams(size: u32, out: *mut u8) -> Result; pub fn PM_GetFIRMLaunchParams(size: u32, out: *mut u8) -> Result;
pub fn PM_LaunchFIRMSetParams(firm_titleid_low: u32, size: u32, _in: *mut u8) -> Result; pub fn PM_LaunchFIRMSetParams(firm_titleid_low: u32, size: u32,
_in: *mut u8) -> Result;
pub fn srvPmInit() -> Result;
pub fn srvPmExit();
pub fn SRVPM_PublishToProcess(notificationId: u32, process: Handle)
-> Result;
pub fn SRVPM_PublishToAll(notificationId: u32) -> Result;
pub fn SRVPM_RegisterProcess(procid: u32, count: u32,
serviceaccesscontrol: c_void) -> Result;
pub fn SRVPM_UnregisterProcess(procid: u32) -> Result;
} }

46
ctru-sys/src/services/ps.rs

@ -0,0 +1,46 @@
use ::Result;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum PS_AESAlgorithm {
PS_ALGORITHM_CBC_ENC = 0,
PS_ALGORITHM_CBC_DEC = 1,
PS_ALGORITHM_CTR_ENC = 2,
PS_ALGORITHM_CTR_DEC = 3,
PS_ALGORITHM_CCM_ENC = 4,
PS_ALGORITHM_CCM_DEC = 5,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum PS_AESKeyType {
PS_KEYSLOT_0D = 0,
PS_KEYSLOT_2D = 1,
PS_KEYSLOT_31 = 2,
PS_KEYSLOT_38 = 3,
PS_KEYSLOT_32 = 4,
PS_KEYSLOT_39_DLP = 5,
PS_KEYSLOT_2E = 6,
PS_KEYSLOT_INVALID = 7,
PS_KEYSLOT_36 = 8,
PS_KEYSLOT_39_NFC = 9,
}
extern "C" {
pub fn psInit() -> Result;
pub fn psExit();
pub fn PS_EncryptDecryptAes(size: u32, _in: *mut u8, out: *mut u8,
aes_algo: PS_AESAlgorithm,
key_type: PS_AESKeyType, iv: *mut u8)
-> Result;
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;
pub fn PS_GetLocalFriendCodeSeed(seed: *mut u64) -> Result;
pub fn PS_GetDeviceId(device_id: *mut u32) -> Result;
}

12
ctru-sys/src/services/ptm.rs

@ -1,12 +0,0 @@
use ::{Result, Handle};
extern "C" {
pub fn ptmInit() -> Result;
pub fn ptmExit() -> Result;
pub fn PTMU_GetShellState(servhandle: *mut Handle, out: *mut u8) -> Result;
pub fn PTMU_GetBatteryLevel(servhandle: *mut Handle, out: *mut u8) -> Result;
pub fn PTMU_GetBatteryChargeState(servhandle: *mut Handle, out: *mut u8) -> Result;
pub fn PTMU_GetPedometerState(servhandle: *mut Handle, out: *mut u8) -> Result;
pub fn PTMU_GetTotalStepCount(servhandle: *mut Handle, steps: *mut u32) -> Result;
}

7
ctru-sys/src/services/ptmsysm.rs

@ -0,0 +1,7 @@
use ::Result;
extern "C" {
pub fn ptmSysmInit() -> Result;
pub fn ptmSysmExit();
pub fn PTMSYSM_ConfigureNew3DSCPU(value: u8) -> Result;
}

11
ctru-sys/src/services/ptmu.rs

@ -0,0 +1,11 @@
use ::Result;
extern "C" {
pub fn ptmuInit() -> Result;
pub fn ptmuExit();
pub fn PTMU_GetShellState(out: *mut u8) -> Result;
pub fn PTMU_GetBatteryLevel(out: *mut u8) -> Result;
pub fn PTMU_GetBatteryChargeState(out: *mut u8) -> Result;
pub fn PTMU_GetPedometerState(out: *mut u8) -> Result;
pub fn PTMU_GetTotalStepCount(steps: *mut u32) -> Result;
}

44
ctru-sys/src/services/qtm.rs

@ -0,0 +1,44 @@
use ::Result;
#[repr(C)]
#[derive(Copy)]
pub struct QTM_HeadTrackingInfoCoord {
pub x: f32,
pub y: f32,
}
impl ::core::clone::Clone for QTM_HeadTrackingInfoCoord {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for QTM_HeadTrackingInfoCoord {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
#[repr(C)]
#[derive(Copy)]
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],
}
impl ::core::clone::Clone for QTM_HeadTrackingInfo {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for QTM_HeadTrackingInfo {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
extern "C" {
pub fn qtmInit() -> Result;
pub fn qtmExit();
pub fn qtmCheckInitialized() -> u8;
pub fn qtmCheckHeadFullyDetected(info: *mut QTM_HeadTrackingInfo) -> u8;
pub fn qtmConvertCoordToScreen(coord: *mut QTM_HeadTrackingInfoCoord,
screen_width: *mut f32,
screen_height:
*mut f32,
x: *mut u32, y: *mut u32) -> Result;
pub fn QTM_GetHeadTrackingInfo(val: u64, out: *mut QTM_HeadTrackingInfo)
-> Result;
}

6
ctru-sys/src/services/soc.rs

@ -1,7 +1,7 @@
use ::Result; use ::Result;
extern "C" { extern "C" {
pub fn SOC_Initialize(context_addr: *mut u32, context_size: u32) -> Result; pub fn SOC_Init(context_addr: *mut u32, context_size: u32) -> Result;
pub fn SOC_Shutdown() -> Result; pub fn SOC_Exit() -> Result;
pub fn gethostid() -> i32;
} }

12
ctru-sys/src/services/srvpm.rs

@ -0,0 +1,12 @@
use ::{Handle, Result};
use ::c_void;
extern "C" {
pub fn srvPmInit() -> Result;
pub fn srvPmExit();
pub fn SRVPM_PublishToProcess(notificationId: u32, process: Handle) -> Result;
pub fn SRVPM_PublishToAll(notificationId: u32) -> Result;
pub fn SRVPM_RegisterProcess(procid: u32, count: u32,
serviceaccesscontrol: c_void) -> Result;
pub fn SRVPM_UnregisterProcess(procid: u32) -> Result;
}

185
ctru-sys/src/services/y2r.rs

@ -0,0 +1,185 @@
use ::{Handle, Result};
use ::c_void;
use ::types::*;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Y2RU_InputFormat {
INPUT_YUV422_INDIV_8 = 0,
INPUT_YUV420_INDIV_8 = 1,
INPUT_YUV422_INDIV_16 = 2,
INPUT_YUV420_INDIV_16 = 3,
INPUT_YUV422_BATCH = 4,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Y2RU_OutputFormat {
OUTPUT_RGB_32 = 0,
OUTPUT_RGB_24 = 1,
OUTPUT_RGB_16_555 = 2,
OUTPUT_RGB_16_565 = 3,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Y2RU_Rotation {
ROTATION_NONE = 0,
ROTATION_CLOCKWISE_90 = 1,
ROTATION_CLOCKWISE_180 = 2,
ROTATION_CLOCKWISE_270 = 3,
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Y2RU_BlockAlignment {
BLOCK_LINE = 0,
BLOCK_8_BY_8 = 1,
}
#[repr(C)]
#[derive(Copy)]
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,
}
impl ::core::clone::Clone for Y2RU_ColorCoefficients {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Y2RU_ColorCoefficients {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Y2RU_StandardCoefficient {
COEFFICIENT_ITU_R_BT_601 = 0,
COEFFICIENT_ITU_R_BT_709 = 1,
COEFFICIENT_ITU_R_BT_601_SCALING = 2,
COEFFICIENT_ITU_R_BT_709_SCALING = 3,
}
#[repr(C)]
#[derive(Copy)]
pub struct Y2RU_ConversionParams {
pub _bindgen_bitfield_1_: Y2RU_InputFormat,
pub _bindgen_bitfield_2_: Y2RU_OutputFormat,
pub _bindgen_bitfield_3_: Y2RU_Rotation,
pub _bindgen_bitfield_4_: Y2RU_BlockAlignment,
pub input_line_width: s16,
pub input_lines: s16,
pub _bindgen_bitfield_5_: Y2RU_StandardCoefficient,
pub unused: u8,
pub alpha: u16,
}
impl ::core::clone::Clone for Y2RU_ConversionParams {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Y2RU_ConversionParams {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
#[repr(C)]
#[derive(Copy)]
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,
}
impl ::core::clone::Clone for Y2RU_DitheringWeightParams {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Y2RU_DitheringWeightParams {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
extern "C" {
pub fn y2rInit() -> Result;
pub fn y2rExit();
pub fn Y2RU_SetInputFormat(format: Y2RU_InputFormat) -> Result;
pub fn Y2RU_GetInputFormat(format: *mut Y2RU_InputFormat) -> Result;
pub fn Y2RU_SetOutputFormat(format: Y2RU_OutputFormat) -> Result;
pub fn Y2RU_GetOutputFormat(format: *mut Y2RU_OutputFormat) -> Result;
pub fn Y2RU_SetRotation(rotation: Y2RU_Rotation) -> Result;
pub fn Y2RU_GetRotation(rotation: *mut Y2RU_Rotation) -> Result;
pub fn Y2RU_SetBlockAlignment(alignment: Y2RU_BlockAlignment) -> Result;
pub fn Y2RU_GetBlockAlignment(alignment: *mut Y2RU_BlockAlignment)
-> Result;
pub fn Y2RU_SetSpacialDithering(enable: u8) -> Result;
pub fn Y2RU_GetSpacialDithering(enabled: *mut u8) -> Result;
pub fn Y2RU_SetTemporalDithering(enable: u8) -> Result;
pub fn Y2RU_GetTemporalDithering(enabled: *mut u8) -> Result;
pub fn Y2RU_SetInputLineWidth(line_width: u16) -> Result;
pub fn Y2RU_GetInputLineWidth(line_width: *mut u16) -> Result;
pub fn Y2RU_SetInputLines(num_lines: u16) -> Result;
pub fn Y2RU_GetInputLines(num_lines: *mut u16) -> Result;
pub fn Y2RU_SetCoefficients(coefficients: *const Y2RU_ColorCoefficients)
-> Result;
pub fn Y2RU_GetCoefficients(coefficients: *mut Y2RU_ColorCoefficients)
-> Result;
pub fn Y2RU_SetStandardCoefficient(coefficient: Y2RU_StandardCoefficient)
-> Result;
pub fn Y2RU_GetStandardCoefficient(coefficients:
*mut Y2RU_ColorCoefficients,
standardCoeff:
Y2RU_StandardCoefficient)
-> Result;
pub fn Y2RU_SetAlpha(alpha: u16) -> Result;
pub fn Y2RU_GetAlpha(alpha: *mut u16) -> Result;
pub fn Y2RU_SetTransferEndInterrupt(should_interrupt: u8) -> Result;
pub fn Y2RU_GetTransferEndInterrupt(should_interrupt: *mut u8) -> Result;
pub fn Y2RU_GetTransferEndEvent(end_event: *mut Handle) -> Result;
pub fn Y2RU_SetSendingY(src_buf: *const c_void,
image_size: u32, transfer_unit: s16,
transfer_gap: s16) -> Result;
pub fn Y2RU_SetSendingU(src_buf: *const c_void,
image_size: u32, transfer_unit: s16,
transfer_gap: s16) -> Result;
pub fn Y2RU_SetSendingV(src_buf: *const c_void,
image_size: u32, transfer_unit: s16,
transfer_gap: s16) -> Result;
pub fn Y2RU_SetSendingYUYV(src_buf: *const c_void,
image_size: u32, transfer_unit: s16,
transfer_gap: s16) -> Result;
pub fn Y2RU_SetReceiving(dst_buf: *mut c_void,
image_size: u32, transfer_unit: s16,
transfer_gap: s16) -> Result;
pub fn Y2RU_IsDoneSendingY(is_done: *mut u8) -> Result;
pub fn Y2RU_IsDoneSendingU(is_done: *mut u8) -> Result;
pub fn Y2RU_IsDoneSendingV(is_done: *mut u8) -> Result;
pub fn Y2RU_IsDoneSendingYUYV(is_done: *mut u8) -> Result;
pub fn Y2RU_IsDoneReceiving(is_done: *mut u8) -> Result;
pub fn Y2RU_SetDitheringWeightParams(params:
*const Y2RU_DitheringWeightParams)
-> Result;
pub fn Y2RU_GetDitheringWeightParams(params:
*mut Y2RU_DitheringWeightParams)
-> Result;
pub fn Y2RU_SetConversionParams(params: *const Y2RU_ConversionParams)
-> Result;
pub fn Y2RU_StartConversion() -> Result;
pub fn Y2RU_StopConversion() -> Result;
pub fn Y2RU_IsBusyConversion(is_busy: *mut u8) -> Result;
pub fn Y2RU_PingProcess(ping: *mut u8) -> Result;
pub fn Y2RU_DriverInitialize() -> Result;
pub fn Y2RU_DriverFinalize() -> Result;
}

534
ctru-sys/src/svc.rs

@ -1,19 +1,31 @@
//TODO: Implement static functions
use {Handle, Result}; use {Handle, Result};
use c_void;
use ThreadFunc;
use types::*; use types::*;
#[derive(Clone, Copy)]
#[repr(C)] #[repr(C)]
pub enum MemOp { pub enum Enum_Unnamed1 {
MEMOP_FREE = 1, MEMOP_FREE = 1,
MEMOP_RESERVE = 2,
MEMOP_ALLOC = 3, MEMOP_ALLOC = 3,
MEMOP_MAP = 4, MEMOP_MAP = 4,
MEMOP_UNMAP = 5, MEMOP_UNMAP = 5,
MEMOP_PROT = 6, MEMOP_PROT = 6,
MEMOP_REGION_APP = 256,
MEMOP_ALLOC_LINEAR = 0x10003, MEMOP_REGION_SYSTEM = 512,
} MEMOP_REGION_BASE = 768,
MEMOP_OP_MASK = 255,
MEMOP_REGION_MASK = 3840,
MEMOP_LINEAR_FLAG = 65536,
MEMOP_ALLOC_LINEAR = 65539,
}
pub type MemOp = Enum_Unnamed1;
#[derive(Clone, Copy)]
#[repr(C)] #[repr(C)]
pub enum MemState { pub enum Enum_Unnamed2 {
MEMSTATE_FREE = 0, MEMSTATE_FREE = 0,
MEMSTATE_RESERVED = 1, MEMSTATE_RESERVED = 1,
MEMSTATE_IO = 2, MEMSTATE_IO = 2,
@ -25,288 +37,414 @@ pub enum MemState {
MEMSTATE_ALIASED = 8, MEMSTATE_ALIASED = 8,
MEMSTATE_ALIAS = 9, MEMSTATE_ALIAS = 9,
MEMSTATE_ALIASCODE = 10, MEMSTATE_ALIASCODE = 10,
MEMSTATE_LOCKED = 11 MEMSTATE_LOCKED = 11,
} }
pub type MemState = Enum_Unnamed2;
#[derive(Clone, Copy)]
#[repr(C)] #[repr(C)]
pub enum MemPerm { pub enum Enum_Unnamed3 {
MEMPERM_READ = 1, MEMPERM_READ = 1,
MEMPERM_WRITE = 2, MEMPERM_WRITE = 2,
MEMPERM_EXECUTE = 4, MEMPERM_EXECUTE = 4,
MEMPERM_DONTCARE = 0x10000000, MEMPERM_DONTCARE = 268435456,
MEMPERM_MAX = 0xFFFFFFFF //force 4-byte
} }
pub type MemPerm = Enum_Unnamed3;
#[repr(C)] #[repr(C)]
pub struct MemInfo { #[derive(Copy)]
pub struct Struct_Unnamed4 {
pub base_addr: u32, pub base_addr: u32,
pub size: u32, pub size: u32,
pub perm: u32, pub perm: u32,
pub state: u32, pub state: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed4 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed4 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type MemInfo = Struct_Unnamed4;
#[repr(C)] #[repr(C)]
#[derive(Clone, Copy)] #[derive(Copy)]
pub struct PageInfo { pub struct Struct_Unnamed5 {
pub flags: u32, pub flags: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed5 {
#[repr(C)] fn clone(&self) -> Self { *self }
pub enum ArbitrationType {
ARBITER_FREE =0,
ARBITER_ACQUIRE =1,
ARBITER_KERNEL2 =2,
ARBITER_ACQUIRE_TIMEOUT=3,
ARBITER_KERNEL4 =4,
} }
impl ::core::default::Default for Struct_Unnamed5 {
#[repr(C)] fn default() -> Self { unsafe { ::core::mem::zeroed() } }
pub enum DebugEventType {
DBG_EVENT_PROCESS = 0,
DBG_EVENT_CREATE_THREAD = 1,
DBG_EVENT_EXIT_THREAD = 2,
DBG_EVENT_EXIT_PROCESS = 3,
DBG_EVENT_EXCEPTION = 4,
DBG_EVENT_DLL_LOAD = 5,
DBG_EVENT_DLL_UNLOAD = 6,
DBG_EVENT_SCHEDULE_IN = 7,
DBG_EVENT_SCHEDULE_OUT = 8,
DBG_EVENT_SYSCALL_IN = 9,
DBG_EVENT_SYSCALL_OUT = 10,
DBG_EVENT_OUTPUT_STRING = 11,
DBG_EVENT_MAP = 12
} }
pub type PageInfo = Struct_Unnamed5;
#[derive(Clone, Copy)]
#[repr(C)] #[repr(C)]
pub enum ProcessEventReason { pub enum Enum_Unnamed6 {
REASON_CREATE = 1, ARBITRATION_SIGNAL = 0,
REASON_ATTACH = 2 ARBITRATION_WAIT_IF_LESS_THAN = 1,
} ARBITRATION_DECREMENT_AND_WAIT_IF_LESS_THAN = 2,
ARBITRATION_WAIT_IF_LESS_THAN_TIMEOUT = 3,
ARBITRATION_DECREMENT_AND_WAIT_IF_LESS_THAN_TIMEOUT = 4,
}
pub type ArbitrationType = Enum_Unnamed6;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed7 { THREADINFO_TYPE_UNKNOWN = 0, }
pub type ThreadInfoType = Enum_Unnamed7;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed8 { REASON_CREATE = 1, REASON_ATTACH = 2, }
pub type ProcessEventReason = Enum_Unnamed8;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct ProcessEvent { pub struct Struct_Unnamed9 {
pub program_id: u64, pub program_id: u64,
pub process_name: [u8; 8usize], pub process_name: [u8; 8usize],
pub process_id: u32, pub process_id: u32,
pub reason: u32 pub reason: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed9 {
impl Clone for ProcessEvent {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed9 {
#[repr(C)] fn default() -> Self { unsafe { ::core::mem::zeroed() } }
#[derive(Copy)]
pub struct CreateThreadEvent {
pub creator_thread_id: u32,
pub base_addr: u32,
pub entry_point: u32
}
impl Clone for CreateThreadEvent {
fn clone(&self) -> Self { *self }
} }
pub type ProcessEvent = Struct_Unnamed9;
#[repr(C)] #[derive(Clone, Copy)]
pub enum ExitThreadEventReason {
EXITTHREAD_EVENT_NONE = 0,
EXITTHREAD_EVENT_TERMINATE = 1,
EXITTHREAD_EVENT_UNHANDLED_EXC = 2,
EXITTHREAD_EVENT_TERMINATE_PROCESS = 3
}
#[repr(C)] #[repr(C)]
pub enum ExitProcessEventReason { pub enum Enum_Unnamed10 {
EXITPROCESS_EVENT_NONE = 0, EXITPROCESS_EVENT_NONE = 0,
EXITPROCESS_EVENT_TERMINATE = 1, EXITPROCESS_EVENT_TERMINATE = 1,
EXITPROCESS_EVENT_UNHANDLED_EXCEPTION = 2 EXITPROCESS_EVENT_UNHANDLED_EXCEPTION = 2,
} }
pub type ExitProcessEventReason = Enum_Unnamed10;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct ExitProcessEvent { pub struct Struct_Unnamed11 {
pub reason: u32 pub reason: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed11 {
impl Clone for ExitProcessEvent {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed11 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type ExitProcessEvent = Struct_Unnamed11;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct ExitThreadEvent { pub struct Struct_Unnamed12 {
pub reason: u32 pub creator_thread_id: u32,
pub base_addr: u32,
pub entry_point: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed12 {
impl Clone for ExitThreadEvent {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed12 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type CreateThreadEvent = Struct_Unnamed12;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed13 {
EXITTHREAD_EVENT_NONE = 0,
EXITTHREAD_EVENT_TERMINATE = 1,
EXITTHREAD_EVENT_UNHANDLED_EXC = 2,
EXITTHREAD_EVENT_TERMINATE_PROCESS = 3,
}
pub type ExitThreadEventReason = Enum_Unnamed13;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct ExceptionEvent { pub struct Struct_Unnamed14 {
pub _type: u32, pub reason: u32,
pub address: u32,
pub argument: u32
} }
impl ::core::clone::Clone for Struct_Unnamed14 {
impl Clone for ExceptionEvent {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed14 {
#[repr(C)] fn default() -> Self { unsafe { ::core::mem::zeroed() } }
pub enum ExceptionEventType {
EXC_EVENT_UNDEFINED_INSTRUCTION = 0, // arg: (None)
EXC_EVENT_UNKNOWN1 = 1, // arg: (None)
EXC_EVENT_UNKNOWN2 = 2, // arg: address
EXC_EVENT_UNKNOWN3 = 3, // arg: address
EXC_EVENT_ATTACH_BREAK = 4, // arg: (None)
EXC_EVENT_BREAKPOINT = 5, // arg: (None)
EXC_EVENT_USER_BREAK = 6, // arg: user break type
EXC_EVENT_DEBUGGER_BREAK = 7, // arg: (None)
EXC_EVENT_UNDEFINED_SYSCALL = 8 // arg: attempted syscall
} }
pub type ExitThreadEvent = Struct_Unnamed14;
#[derive(Clone, Copy)]
#[repr(C)] #[repr(C)]
pub enum UserBreakType { pub enum Enum_Unnamed15 {
USERBREAK_PANIC = 0, USERBREAK_PANIC = 0,
USERBREAK_ASSERT = 1, USERBREAK_ASSERT = 1,
USERBREAK_USER = 2 USERBREAK_USER = 2,
} }
pub type UserBreakType = Enum_Unnamed15;
/** #[derive(Clone, Copy)]
* Type of the query for svcGetThreadInfo #[repr(C)]
*/ pub enum Enum_Unnamed16 {
EXC_EVENT_UNDEFINED_INSTRUCTION = 0,
EXC_EVENT_UNKNOWN1 = 1,
EXC_EVENT_UNKNOWN2 = 2,
EXC_EVENT_UNKNOWN3 = 3,
EXC_EVENT_ATTACH_BREAK = 4,
EXC_EVENT_BREAKPOINT = 5,
EXC_EVENT_USER_BREAK = 6,
EXC_EVENT_DEBUGGER_BREAK = 7,
EXC_EVENT_UNDEFINED_SYSCALL = 8,
}
pub type ExceptionEventType = Enum_Unnamed16;
#[repr(C)] #[repr(C)]
pub enum ThreadInfoType { #[derive(Copy)]
THREADINFO_TYPE_UNKNOWN = 0, pub struct Struct_Unnamed17 {
VARIANT2 = 1, // needed because enums must have 2+ variants for C representation pub _type: u32,
pub address: u32,
pub argument: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed17 {
fn clone(&self) -> Self { *self }
}
impl ::core::default::Default for Struct_Unnamed17 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type ExceptionEvent = Struct_Unnamed17;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct SchedulerInOutEvent { pub struct Struct_Unnamed18 {
pub clock_tick: u64 pub clock_tick: u64,
} }
impl ::core::clone::Clone for Struct_Unnamed18 {
impl Clone for SchedulerInOutEvent {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed18 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type SchedulerInOutEvent = Struct_Unnamed18;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct SyscallInOutEvent { pub struct Struct_Unnamed19 {
pub clock_tick: u64, pub clock_tick: u64,
pub syscall: u32, pub syscall: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed19 {
impl Clone for SyscallInOutEvent {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed19 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type SyscallInOutEvent = Struct_Unnamed19;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct OutputStringEvent { pub struct Struct_Unnamed20 {
pub string_addr: u32, pub string_addr: u32,
pub string_size: u32 pub string_size: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed20 {
impl Clone for OutputStringEvent {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed20 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type OutputStringEvent = Struct_Unnamed20;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct MapEvent { pub struct Struct_Unnamed21 {
pub mapped_addr: u32, pub mapped_addr: u32,
pub mapped_size: u32, pub mapped_size: u32,
pub memperm: u32, pub memperm: u32,
pub memstate: u32 pub memstate: u32,
} }
impl ::core::clone::Clone for Struct_Unnamed21 {
impl Clone for MapEvent {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed21 {
fn default() -> Self { unsafe { ::core::mem::zeroed() } }
}
pub type MapEvent = Struct_Unnamed21;
#[derive(Clone, Copy)]
#[repr(C)]
pub enum Enum_Unnamed22 {
DBG_EVENT_PROCESS = 0,
DBG_EVENT_CREATE_THREAD = 1,
DBG_EVENT_EXIT_THREAD = 2,
DBG_EVENT_EXIT_PROCESS = 3,
DBG_EVENT_EXCEPTION = 4,
DBG_EVENT_DLL_LOAD = 5,
DBG_EVENT_DLL_UNLOAD = 6,
DBG_EVENT_SCHEDULE_IN = 7,
DBG_EVENT_SCHEDULE_OUT = 8,
DBG_EVENT_SYSCALL_IN = 9,
DBG_EVENT_SYSCALL_OUT = 10,
DBG_EVENT_OUTPUT_STRING = 11,
DBG_EVENT_MAP = 12,
}
pub type DebugEventType = Enum_Unnamed22;
#[repr(C)] #[repr(C)]
#[derive(Copy)] #[derive(Copy)]
pub struct DebugEventInfo { pub struct Struct_Unnamed23 {
pub _type: u32, pub _type: u32,
pub thread_id: u32, pub thread_id: u32,
pub unknown: [u32; 2usize], pub unknown: [u32; 2usize],
pub eventUnion: [u64; 3usize], // must use transmutes to access contents pub _bindgen_data_1_: [u64; 3usize],
// union {
// ProcessEvent process;
// CreateThreadEvent create_thread;
// ExitThreadEvent exit_thread;
// ExitProcessEvent exit_process;
// ExceptionEvent exception;
// /* TODO: DLL_LOAD */
// /* TODO: DLL_UNLOAD */
// SchedulerInOutEvent scheduler;
// SyscallInOutEvent syscall;
// OutputStringEvent output_string;
// MapEvent map;
// };
} }
impl Struct_Unnamed23 {
impl Clone for DebugEventInfo { pub unsafe fn process(&mut self) -> *mut ProcessEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
pub unsafe fn create_thread(&mut self) -> *mut CreateThreadEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
pub unsafe fn exit_thread(&mut self) -> *mut ExitThreadEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
pub unsafe fn exit_process(&mut self) -> *mut ExitProcessEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
pub unsafe fn exception(&mut self) -> *mut ExceptionEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
pub unsafe fn scheduler(&mut self) -> *mut SchedulerInOutEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
pub unsafe fn syscall(&mut self) -> *mut SyscallInOutEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
pub unsafe fn output_string(&mut self) -> *mut OutputStringEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
pub unsafe fn map(&mut self) -> *mut MapEvent {
let raw: *mut u8 = ::core::mem::transmute(&self._bindgen_data_1_);
::core::mem::transmute(raw.offset(0))
}
}
impl ::core::clone::Clone for Struct_Unnamed23 {
fn clone(&self) -> Self { *self } fn clone(&self) -> Self { *self }
} }
impl ::core::default::Default for Struct_Unnamed23 {
// getLocalThreadStorage and getThreadCommandBuffer can't be implemented fn default() -> Self { unsafe { ::core::mem::zeroed() } }
// due to asm. Custom build step may be necessary. }
pub type DebugEventInfo = Struct_Unnamed23;
use ThreadFunc;
extern "C" { extern "C" {
pub fn svcControlMemory(addr_out: *mut u32, addr0: u32, addr1: u32, size: u32, op: MemOp, perm: MemPerm) -> s32; pub fn svcControlMemory(addr_out: *mut u32, addr0: u32, addr1: u32,
pub fn svcQueryMemory(info: *mut MemInfo, out: *mut PageInfo, addr: u32) -> s32; size: u32, op: MemOp, perm: MemPerm) -> Result;
pub fn svcExitProcess() -> (); pub fn svcControlProcessMemory(process: Handle, addr0: u32, addr1: u32,
pub fn svcCreateThread(thread: *mut Handle, entrypoint: ThreadFunc, arg: u32, stack_top: *mut u32, thread_priority: s32, processor_id: s32) -> s32; size: u32, _type: u32, perm: u32)
pub fn svcExitThread() -> (); -> Result;
pub fn svcSleepThread(ns: s64) -> (); pub fn svcCreateMemoryBlock(memblock: *mut Handle, addr: u32, size: u32,
pub fn svcSetThreadPriority(thread: Handle, prio: s32) -> s32; my_perm: MemPerm, other_perm: MemPerm)
pub fn svcCreateMutex(mutex: *mut Handle, initially_locked: u8) -> s32; -> Result;
pub fn svcReleaseMutex(handle: Handle) -> s32; pub fn svcMapMemoryBlock(memblock: Handle, addr: u32, my_perm: MemPerm,
pub fn svcCreateSemaphore(semaphore: *mut Handle, initial_count: s32, max_count: s32) -> s32; other_perm: MemPerm) -> Result;
pub fn svcReleaseSemaphore(count: *mut s32, semaphore: Handle, release_count: s32) -> s32; pub fn svcMapProcessMemory(process: Handle, startAddr: u32,
pub fn svcCreateEvent(event: *mut Handle, reset_type: u8) -> s32; endAddr: u32) -> Result;
pub fn svcSignalEvent(handle: Handle) -> s32; pub fn svcUnmapProcessMemory(process: Handle, startAddr: u32,
pub fn svcClearEvent(handle: Handle) -> s32; endAddr: u32) -> Result;
pub fn svcCreateTimer(timer: *mut Handle, reset_type: u8) -> s32; pub fn svcUnmapMemoryBlock(memblock: Handle, addr: u32) -> Result;
pub fn svcSetTimer(timer: Handle, initial: s64, interval: s64) -> s32; pub fn svcStartInterProcessDma(dma: *mut Handle, dstProcess: Handle,
pub fn svcCancelTimer(timer: Handle) -> s32; dst: *mut c_void,
pub fn svcClearTimer(timer: Handle) -> s32; srcProcess: Handle,
pub fn svcCreateMemoryBlock(memblock: *mut Handle, addr: u32, size: u32, my_perm: MemPerm, other_perm: MemPerm) -> s32; src: *const c_void,
pub fn svcMapMemoryBlock(memblock: Handle, addr: u32, my_perm: MemPerm, other_perm: MemPerm) -> s32; size: u32,
pub fn svcUnmapMemoryBlock(memblock: Handle, addr: u32) -> s32; dmaConfig: *mut c_void)
pub fn svcCreateAddressArbiter(arbiter: *mut Handle) -> s32; -> Result;
pub fn svcArbitrateAddress(arbiter: Handle, addr: u32, _type: ArbitrationType, value: s32, nanoseconds: s64) -> s32; pub fn svcStopDma(dma: Handle) -> Result;
pub fn svcWaitSynchronization(handle: Handle, nanoseconds: s64) -> s32; pub fn svcGetDmaState(dmaState: *mut c_void, dma: Handle)
pub fn svcWaitSynchronizationN(out: *mut s32, handles: *mut Handle, handles_num: s32, wait_all: u8, nanoseconds: s64) -> s32; -> Result;
pub fn svcCloseHandle(handle: Handle) -> s32; pub fn svcQueryMemory(info: *mut MemInfo, out: *mut PageInfo, addr: u32)
pub fn svcDuplicateHandle(out: *mut Handle, original: Handle) -> s32; -> Result;
pub fn svcGetSystemTick() -> u64; pub fn svcQueryProcessMemory(info: *mut MemInfo, out: *mut PageInfo,
pub fn svcGetSystemInfo(out: *mut s64, _type: u32, param: s32) -> s32; process: Handle, addr: u32) -> Result;
pub fn svcGetProcessInfo(out: *mut s64, process: Handle, _type: u32) -> s32; pub fn svcInvalidateProcessDataCache(process: Handle,
pub fn svcConnectToPort(out: *mut Handle, portName: *const u8) -> s32; addr: *mut c_void,
pub fn svcSendSyncRequest(session: Handle) -> s32; size: u32) -> Result;
pub fn svcFlushProcessDataCache(process: Handle,
addr: *const c_void,
size: u32) -> Result;
pub fn svcReadProcessMemory(buffer: *mut c_void,
debug: Handle, addr: u32, size: u32)
-> Result;
pub fn svcWriteProcessMemory(debug: Handle,
buffer: *const c_void,
addr: u32, size: u32) -> Result;
pub fn svcOpenProcess(process: *mut Handle, processId: u32) -> Result; pub fn svcOpenProcess(process: *mut Handle, processId: u32) -> Result;
pub fn svcGetProcessId(out: *mut u32, handle: Handle) -> s32; pub fn svcExitProcess();
pub fn svcGetThreadId(out: *mut u32, handle: Handle) -> s32; pub fn svcTerminateProcess(process: Handle) -> Result;
pub fn svcOutputDebugString(string: *const u8, length: i32) -> s32; pub fn svcGetProcessInfo(out: *mut s64, process: Handle, _type: u32)
pub fn svcCreatePort(portServer: *mut Handle, portClient: *mut Handle, name: *const u8, maxSessions: s32) -> Result; -> Result;
pub fn svcDebugActiveProcess(debug: *mut Handle, processId: u32) -> Result; pub fn svcGetProcessId(out: *mut u32, handle: Handle) -> Result;
pub fn svcGetProcessList(processCount: *mut s32, processIds: *mut u32,
processIdMaxCount: s32) -> Result;
pub fn svcCreatePort(portServer: *mut Handle, portClient: *mut Handle,
name: *const u8,
maxSessions: s32) -> Result;
pub fn svcConnectToPort(out: *mut Handle,
portName: *const u8)
-> Result;
pub fn svcCreateThread(thread: *mut Handle, entrypoint: ThreadFunc,
arg: u32, stack_top: *mut u32,
thread_priority: s32, processor_id: s32) -> Result;
pub fn svcOpenThread(thread: *mut Handle, process: Handle, threadId: u32)
-> Result;
pub fn svcExitThread();
pub fn svcSleepThread(ns: s64);
pub fn svcGetThreadPriority(out: *mut s32, handle: Handle) -> Result;
pub fn svcSetThreadPriority(thread: Handle, prio: s32) -> Result;
pub fn svcGetThreadAffinityMask(affinitymask: *mut u8, thread: Handle,
processorcount: s32) -> Result;
pub fn svcSetThreadAffinityMask(thread: Handle, affinitymask: *mut u8,
processorcount: s32) -> Result;
pub fn svcGetThreadIdealProcessor(processorid: *mut s32, thread: Handle)
-> Result;
pub fn svcSetThreadIdealProcessor(thread: Handle, processorid: s32)
-> Result;
pub fn svcGetProcessorID() -> s32;
pub fn svcGetThreadId(out: *mut u32, handle: Handle) -> Result;
pub fn svcGetProcessIdOfThread(out: *mut u32, handle: Handle) -> Result;
pub fn svcGetThreadInfo(out: *mut s64, thread: Handle,
_type: ThreadInfoType) -> Result;
pub fn svcCreateMutex(mutex: *mut Handle, initially_locked: u8) -> Result;
pub fn svcReleaseMutex(handle: Handle) -> Result;
pub fn svcCreateSemaphore(semaphore: *mut Handle, initial_count: s32,
max_count: s32) -> Result;
pub fn svcReleaseSemaphore(count: *mut s32, semaphore: Handle,
release_count: s32) -> Result;
pub fn svcCreateEvent(event: *mut Handle, reset_type: u8) -> Result;
pub fn svcSignalEvent(handle: Handle) -> Result;
pub fn svcClearEvent(handle: Handle) -> Result;
pub fn svcWaitSynchronization(handle: Handle, nanoseconds: s64) -> Result;
pub fn svcWaitSynchronizationN(out: *mut s32, handles: *mut Handle,
handles_num: s32, wait_all: u8,
nanoseconds: s64) -> Result;
pub fn svcCreateAddressArbiter(arbiter: *mut Handle) -> Result;
pub fn svcArbitrateAddress(arbiter: Handle, addr: u32,
_type: ArbitrationType, value: s32,
nanoseconds: s64) -> Result;
pub fn svcSendSyncRequest(session: Handle) -> Result;
pub fn svcAcceptSession(session: *mut Handle, port: Handle) -> Result;
pub fn svcReplyAndReceive(index: *mut s32, handles: *mut Handle,
handleCount: s32, replyTarget: Handle)
-> Result;
pub fn svcCreateTimer(timer: *mut Handle, reset_type: u8) -> Result;
pub fn svcSetTimer(timer: Handle, initial: s64, interval: s64) -> Result;
pub fn svcCancelTimer(timer: Handle) -> Result;
pub fn svcClearTimer(timer: Handle) -> Result;
pub fn svcGetSystemTick() -> u64;
pub fn svcCloseHandle(handle: Handle) -> Result;
pub fn svcDuplicateHandle(out: *mut Handle, original: Handle) -> Result;
pub fn svcGetSystemInfo(out: *mut s64, _type: u32, param: s32) -> Result;
pub fn svcKernelSetState(_type: u32, param0: u32, param1: u32,
param2: u32) -> Result;
pub fn svcBreak(breakReason: UserBreakType);
pub fn svcOutputDebugString(str: *const u8,
length: i32) -> Result;
pub fn svcDebugActiveProcess(debug: *mut Handle, processId: u32)
-> Result;
pub fn svcBreakDebugProcess(debug: Handle) -> Result; pub fn svcBreakDebugProcess(debug: Handle) -> Result;
pub fn svcTerminateDebugProcess(debug: Handle) -> Result; pub fn svcTerminateDebugProcess(debug: Handle) -> Result;
pub fn svcGetProcessDebugEvent(info: *mut DebugEventInfo, debug: Handle) -> Result; pub fn svcGetProcessDebugEvent(info: *mut DebugEventInfo, debug: Handle)
-> Result;
pub fn svcContinueDebugEvent(debug: Handle, flags: u32) -> Result; pub fn svcContinueDebugEvent(debug: Handle, flags: u32) -> Result;
pub fn svcGetProcessList(processCount: *mut s32, processIds: *mut u32, processIdMaxCount: s32) -> Result; pub fn svcBackdoor(callback:
pub fn svcReadProcessMemory(buffer: *mut u8, debug: Handle, addr: u32, size: u32) -> Result; ::core::option::Option<extern "C" fn() -> s32>)
pub fn svcMapProcessMemory(process: Handle, startAddr: u32, endAddr: u32) -> Result; -> Result;
pub fn svcUnmapProcessMemory(process: Handle, startAddr: u32, endAddr: u32) -> Result;
pub fn svcQueryProcessMemory(info: *mut MemInfo, out: *mut PageInfo, process: Handle, addr: u32) -> Result;
pub fn svcGetProcessorID() -> s32;
} }

19
ctru-sys/src/synchronization.rs

@ -0,0 +1,19 @@
//TODO: Implement stuff that bindgen doesn't catch
use Handle;
use super::lock::*;
pub type LightLock = _LOCK_T;
pub type RecursiveLock = _LOCK_RECURSIVE_T;
extern "C" {
pub fn __sync_get_arbiter() -> Handle;
pub fn LightLock_Init(lock: *mut LightLock);
pub fn LightLock_Lock(lock: *mut LightLock);
pub fn LightLock_TryLock(lock: *mut LightLock) -> i32;
pub fn LightLock_Unlock(lock: *mut LightLock);
pub fn RecursiveLock_Init(lock: *mut RecursiveLock);
pub fn RecursiveLock_Lock(lock: *mut RecursiveLock);
pub fn RecursiveLock_TryLock(lock: *mut RecursiveLock) -> i32;
pub fn RecursiveLock_Unlock(lock: *mut RecursiveLock);
}

19
ctru-sys/src/thread.rs

@ -0,0 +1,19 @@
use {Handle, Result};
use c_void;
use ThreadFunc;
pub enum Struct_Thread_tag { }
pub type Thread = *mut Struct_Thread_tag;
extern "C" {
pub fn threadCreate(entrypoint: ThreadFunc,
arg: *mut c_void, stack_size: usize,
prio: i32,
affinity: i32, detached: u8)
-> Thread;
pub fn threadGetHandle(thread: Thread) -> Handle;
pub fn threadGetExitCode(thread: Thread) -> i32;
pub fn threadFree(thread: Thread);
pub fn threadJoin(thread: Thread, timeout_ns: u64) -> Result;
pub fn threadGetCurrent() -> Thread;
pub fn threadExit(rc: i32);
}

1987
rawunused.rs

File diff suppressed because it is too large Load Diff

3
src/lib.rs

@ -5,9 +5,6 @@
extern crate ctru_sys as libctru; extern crate ctru_sys as libctru;
pub type Result = i32;
pub type Handle = u32;
pub mod srv; pub mod srv;
pub mod gfx; pub mod gfx;
pub mod sdmc; pub mod sdmc;

44
src/services/apt.rs

@ -14,36 +14,36 @@ pub enum AppStatus {
AppletClosed AppletClosed
} }
impl From<AppStatus> for apt::APP_STATUS { impl From<AppStatus> for apt::APT_AppStatus {
fn from(a: AppStatus) -> apt::APP_STATUS { fn from(a: AppStatus) -> apt::APT_AppStatus {
use self::AppStatus::*; use self::AppStatus::*;
match a { match a {
NotInitialized => apt::APP_STATUS::APP_NOTINITIALIZED, NotInitialized => apt::APT_AppStatus::APP_NOTINITIALIZED,
Running => apt::APP_STATUS::APP_RUNNING, Running => apt::APT_AppStatus::APP_RUNNING,
Suspended => apt::APP_STATUS::APP_SUSPENDED, Suspended => apt::APT_AppStatus::APP_SUSPENDED,
Exiting => apt::APP_STATUS::APP_EXITING, Exiting => apt::APT_AppStatus::APP_EXITING,
Suspending => apt::APP_STATUS::APP_SUSPENDING, Suspending => apt::APT_AppStatus::APP_SUSPENDING,
SleepMode => apt::APP_STATUS::APP_SLEEPMODE, SleepMode => apt::APT_AppStatus::APP_SLEEPMODE,
PrepareSleepMode => apt::APP_STATUS::APP_PREPARE_SLEEPMODE, PrepareSleepMode => apt::APT_AppStatus::APP_PREPARE_SLEEPMODE,
AppletStarted => apt::APP_STATUS::APP_APPLETSTARTED, AppletStarted => apt::APT_AppStatus::APP_APPLETSTARTED,
AppletClosed => apt::APP_STATUS::APP_APPLETCLOSED, AppletClosed => apt::APT_AppStatus::APP_APPLETCLOSED,
} }
} }
} }
impl From<apt::APP_STATUS> for AppStatus { impl From<apt::APT_AppStatus> for AppStatus {
fn from(a: apt::APP_STATUS) -> AppStatus { fn from(a: apt::APT_AppStatus) -> AppStatus {
use self::AppStatus::*; use self::AppStatus::*;
match a { match a {
apt::APP_STATUS::APP_NOTINITIALIZED => NotInitialized, apt::APT_AppStatus::APP_NOTINITIALIZED => NotInitialized,
apt::APP_STATUS::APP_RUNNING => Running, apt::APT_AppStatus::APP_RUNNING => Running,
apt::APP_STATUS::APP_SUSPENDED => Suspended, apt::APT_AppStatus::APP_SUSPENDED => Suspended,
apt::APP_STATUS::APP_EXITING => Exiting, apt::APT_AppStatus::APP_EXITING => Exiting,
apt::APP_STATUS::APP_SUSPENDING => Suspending, apt::APT_AppStatus::APP_SUSPENDING => Suspending,
apt::APP_STATUS::APP_SLEEPMODE => SleepMode, apt::APT_AppStatus::APP_SLEEPMODE => SleepMode,
apt::APP_STATUS::APP_PREPARE_SLEEPMODE => PrepareSleepMode, apt::APT_AppStatus::APP_PREPARE_SLEEPMODE => PrepareSleepMode,
apt::APP_STATUS::APP_APPLETSTARTED => AppletStarted, apt::APT_AppStatus::APP_APPLETSTARTED => AppletStarted,
apt::APP_STATUS::APP_APPLETCLOSED => AppletClosed apt::APT_AppStatus::APP_APPLETCLOSED => AppletClosed
} }
} }
} }

34
src/services/gsp.rs

@ -1,4 +1,4 @@
use libctru::services::gsp; use libctru::services::gspgpu;
use core::convert::From; use core::convert::From;
@ -34,9 +34,9 @@ impl FramebufferFormat {
} }
} }
impl From<gsp::GSP_FramebufferFormats> for FramebufferFormat { impl From<gspgpu::GSPGPU_FramebufferFormats> for FramebufferFormat {
#[inline] fn from(g: gsp::GSP_FramebufferFormats) -> FramebufferFormat { #[inline] fn from(g: gspgpu::GSPGPU_FramebufferFormats) -> FramebufferFormat {
use libctru::services::gsp::GSP_FramebufferFormats::*; use libctru::services::gspgpu::GSPGPU_FramebufferFormats::*;
use self::FramebufferFormat::*; use self::FramebufferFormat::*;
match g { match g {
GSP_RGBA8_OES => Rgba8, GSP_RGBA8_OES => Rgba8,
@ -48,9 +48,9 @@ impl From<gsp::GSP_FramebufferFormats> for FramebufferFormat {
} }
} }
impl From<FramebufferFormat> for gsp::GSP_FramebufferFormats { impl From<FramebufferFormat> for gspgpu::GSPGPU_FramebufferFormats {
#[inline] fn from(g: FramebufferFormat) -> gsp::GSP_FramebufferFormats { #[inline] fn from(g: FramebufferFormat) -> gspgpu::GSPGPU_FramebufferFormats {
use libctru::services::gsp::GSP_FramebufferFormats::*; use libctru::services::gspgpu::GSPGPU_FramebufferFormats::*;
use self::FramebufferFormat::*; use self::FramebufferFormat::*;
match g { match g {
Rgba8 => GSP_RGBA8_OES, Rgba8 => GSP_RGBA8_OES,
@ -62,18 +62,18 @@ impl From<FramebufferFormat> for gsp::GSP_FramebufferFormats {
} }
} }
fn to_raw_event(ev: Event) -> gsp::GSP_Event { fn to_raw_event(ev: Event) -> gspgpu::GSPGPU_Event {
use libctru::services::gsp::GSP_Event::*; use libctru::services::gspgpu::GSPGPU_Event::*;
use self::Event::*; use self::Event::*;
match ev { match ev {
Psc0 => GSPEVENT_PSC0, Psc0 => GSPGPU_EVENT_PSC0,
Psc1 => GSPEVENT_PSC1, Psc1 => GSPGPU_EVENT_PSC1,
VBlank0 => GSPEVENT_VBlank0, VBlank0 => GSPGPU_EVENT_VBlank0,
VBlank1 => GSPEVENT_VBlank1, VBlank1 => GSPGPU_EVENT_VBlank1,
PPF => GSPEVENT_PPF, PPF => GSPGPU_EVENT_PPF,
P3D => GSPEVENT_P3D, P3D => GSPGPU_EVENT_P3D,
DMA => GSPEVENT_DMA DMA => GSPGPU_EVENT_DMA
} }
} }
@ -91,6 +91,6 @@ fn to_raw_event(ev: Event) -> gsp::GSP_Event {
pub fn wait_for_event(ev: Event) -> () { pub fn wait_for_event(ev: Event) -> () {
unsafe { unsafe {
// TODO second argument? // TODO second argument?
gsp::gspWaitForEvent(to_raw_event(ev), 0); gspgpu::gspWaitForEvent(to_raw_event(ev), 0);
} }
} }

2
src/services/hid.rs

@ -80,7 +80,7 @@ pub struct Hid {
impl Hid { impl Hid {
pub fn new() -> Result<Hid, i32> { pub fn new() -> Result<Hid, i32> {
unsafe { unsafe {
let r = hid::hidInit(hid::HID_SHAREDMEM_DEFAULT as *mut u32); let r = hid::hidInit();
if r < 0 { if r < 0 {
Err(r) Err(r)
} else { } else {

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