src/Dolphin/ai.c


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#include "dolphin/ai.h"
#include "dolphin/dsp_regs.h"
#include "dolphin/os.h"

const char* __AIVersion = "<< Dolphin SDK - AI\trelease build: Sep  5 2002 05:34:25 (0x2301) >>";

static AISCallback __AIS_Callback = NULL;
static AIDCallback __AID_Callback = NULL;
static u8* __CallbackStack;
static u8* __OldStack;
static volatile s32 __AI_init_flag = FALSE;
static volatile s32 __AID_Active = FALSE;

static OSTime bound_32KHz;
static OSTime bound_48KHz;
static OSTime min_wait;
static OSTime max_wait;
static OSTime buffer;

void __AISHandler(s16 interrupt, OSContext* context);
void __AIDHandler(s16 interrupt, OSContext* context);
void __AICallbackStackSwitch(register AIDCallback cb);
void __AI_SRC_INIT(void);

#ifdef FULL_FRANK
AIDCallback AIRegisterDMACallback(AIDCallback callback) {
  s32 oldInts;
  AIDCallback ret;

  ret = __AID_Callback;
  oldInts = OSDisableInterrupts();
  __AID_Callback = callback;
  OSRestoreInterrupts(oldInts);
  return ret;
}
#else
/* clang-format off */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm AIDCallback AIRegisterDMACallback(AIDCallback callback) {
  nofralloc
  mflr r0
  stw r0, 4(r1)
  stwu r1, -0x18(r1)
  stw r31, 0x14(r1)
  stw r30, 0x10(r1)
  mr r30, r3
  lwz r31, __AID_Callback
  bl OSDisableInterrupts
  stw r30, __AID_Callback
  bl OSRestoreInterrupts
  mr r3, r31
  lwz r0, 0x1c(r1)
  lwz r31, 0x14(r1)
  lwz r30, 0x10(r1)
  addi r1, r1, 0x18
  mtlr r0
  blr
}
#pragma pop
/* clang-format on */
#endif

void AIInitDMA(u32 addr, u32 length) {
  s32 oldInts;
  oldInts = OSDisableInterrupts();
  __DSPRegs[24] = (u16)((__DSPRegs[24] & ~0x3FF) | (addr >> 16));
  __DSPRegs[25] = (u16)((__DSPRegs[25] & ~0xFFE0) | (0xffff & addr));
  __DSPRegs[27] = (u16)((__DSPRegs[27] & ~0x7FFF) | (u16)((length >> 5) & 0xFFFF));
  OSRestoreInterrupts(oldInts);
}

void AIStartDMA() { __DSPRegs[27] |= 0x8000; }

void AIStopDMA(void) { __DSPRegs[27] &= ~0x8000; }

u32 AIGetDMAStartAddr(void) {
  return (u32)((__DSPRegs[24] & 0x03ff) << 16) | (__DSPRegs[25] & 0xffe0);
}

#ifdef FULL_FRANK
AISCallback AIRegisterStreamCallback(AISCallback callback) {
  AISCallback ret;
  s32 oldInts;

  ret = __AIS_Callback;
  oldInts = OSDisableInterrupts();
  __AIS_Callback = callback;
  OSRestoreInterrupts(oldInts);
  return ret;
}
#else
/* clang-format off */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm AISCallback AIRegisterStreamCallback(AISCallback callback) {
  nofralloc
  mflr r0
  stw r0, 4(r1)
  stwu r1, -0x18(r1)
  stw r31, 0x14(r1)
  stw r30, 0x10(r1)
  mr r30, r3
  lwz r31, __AIS_Callback
  bl OSDisableInterrupts
  stw r30, __AIS_Callback
  bl OSRestoreInterrupts
  mr r3, r31
  lwz r0, 0x1c(r1)
  lwz r31, 0x14(r1)
  lwz r30, 0x10(r1)
  addi r1, r1, 0x18
  mtlr r0
  blr
}
#pragma pop
/* clang-format on */
#endif

void AIResetStreamSampleCount(void) { __AIRegs[0] = (__AIRegs[0] & ~0x20) | 0x20; }

void AISetStreamTrigger(u32 trigger) { __AIRegs[3] = trigger; }

void AISetStreamPlayState(u32 state) {
  s32 oldInts;
  u8 volRight;
  u8 volLeft;

  if (state == AIGetStreamPlayState()) {
    return;
  }
  if ((AIGetStreamSampleRate() == 0U) && (state == 1)) {
    volRight = AIGetStreamVolRight();
    volLeft = AIGetStreamVolLeft();
    AISetStreamVolRight(0);
    AISetStreamVolLeft(0);
    oldInts = OSDisableInterrupts();
    __AI_SRC_INIT();
    __AIRegs[0] = (__AIRegs[0] & ~0x20) | 0x20;
    __AIRegs[0] = (__AIRegs[0] & ~1) | 1;
    OSRestoreInterrupts(oldInts);
    AISetStreamVolLeft(volRight);
    AISetStreamVolRight(volLeft);
  } else {
    __AIRegs[0] = (__AIRegs[0] & ~1) | state;
  }
}

u32 AIGetStreamPlayState() { return __AIRegs[0] & 1; }

void AISetDSPSampleRate(u32 rate) {
  u32 state;
  s32 oldInts;
  u8 left;
  u8 right;
  u32 sampleRate;

  if (rate == AIGetDSPSampleRate()) {
    return;
  }

  __AIRegs[0] &= ~0x40;
  if (rate == 0) {
    left = AIGetStreamVolLeft();
    right = AIGetStreamVolRight();
    state = AIGetStreamPlayState();
    sampleRate = AIGetStreamSampleRate();
    AISetStreamVolLeft(0);
    AISetStreamVolRight(0);
    oldInts = OSDisableInterrupts();
    __AI_SRC_INIT();
    __AIRegs[0] = (__AIRegs[0] & ~0x20) | 0x20;
    __AIRegs[0] = (__AIRegs[0] & ~2) | (sampleRate * 2);
    __AIRegs[0] = (__AIRegs[0] & ~1) | state;
    __AIRegs[0] |= 0x40;
    OSRestoreInterrupts(oldInts);
    AISetStreamVolLeft(left);
    AISetStreamVolRight(right);
  }
}

u32 AIGetDSPSampleRate() { return ((__AIRegs[0] >> 6) & 1) ^ 1; }

void __AI_set_stream_sample_rate(u32 rate) {
  s32 oldInts;
  s32 state;
  u8 left;
  u8 right;
  s32 temp_r26;

  if (rate == AIGetStreamSampleRate()) {
    return;
  }
  state = AIGetStreamPlayState();
  left = AIGetStreamVolLeft();
  right = AIGetStreamVolRight();
  AISetStreamVolRight(0);
  AISetStreamVolLeft(0);
  temp_r26 = __AIRegs[0] & 0x40;
  __AIRegs[0] &= ~0x40;
  oldInts = OSDisableInterrupts();
  __AI_SRC_INIT();
  __AIRegs[0] |= temp_r26;
  __AIRegs[0] = (__AIRegs[0] & ~0x20) | 0x20;
  __AIRegs[0] = (__AIRegs[0] & ~2) | (rate * 2);
  OSRestoreInterrupts(oldInts);
  AISetStreamPlayState(state);
  AISetStreamVolLeft(left);
  AISetStreamVolRight(right);
}

u32 AIGetStreamSampleRate() { return (__AIRegs[0] >> 1) & 1; }

void AISetStreamVolLeft(u8 volume) { __AIRegs[1] = (__AIRegs[1] & ~0xFF) | (volume & 0xFF); }

u8 AIGetStreamVolLeft() { return __AIRegs[1]; }

void AISetStreamVolRight(u8 volume) {
  __AIRegs[1] = (__AIRegs[1] & ~0xFF00) | ((volume & 0xFF) << 8);
}

u8 AIGetStreamVolRight() { return __AIRegs[1] >> 8; }

void AIInit(u8* stack) {
  if (__AI_init_flag == TRUE) {
    return;
  }

  OSRegisterVersion(__AIVersion);
  bound_32KHz = OSNanosecondsToTicks(31524);
  bound_48KHz = OSNanosecondsToTicks(42024);
  min_wait = OSNanosecondsToTicks(42000);
  max_wait = OSNanosecondsToTicks(63000);
  buffer = OSNanosecondsToTicks(3000);

  AISetStreamVolRight(0);
  AISetStreamVolLeft(0);
  AISetStreamTrigger(0);
  AIResetStreamSampleCount();
  __AI_set_stream_sample_rate(1);
  AISetDSPSampleRate(0);
  __AIS_Callback = 0;
  __AID_Callback = 0;
  __CallbackStack = stack;
  __OSSetInterruptHandler(5, __AIDHandler);
  __OSUnmaskInterrupts(0x04000000);
  __OSSetInterruptHandler(8, __AISHandler);
  __OSUnmaskInterrupts(0x800000);
  __AI_init_flag = TRUE;
}

void __AISHandler(s16 interrupt, OSContext* context) {
  OSContext tmpContext;
  __AIRegs[0] |= 8;
  OSClearContext(&tmpContext);
  OSSetCurrentContext(&tmpContext);
  if (__AIS_Callback != NULL) {
    __AIS_Callback(__AIRegs[2]);
  }
  OSClearContext(&tmpContext);
  OSSetCurrentContext(context);
}

void __AIDHandler(s16 interrupt, OSContext* context) {
  OSContext tempContext;
  u32 temp = __DSPRegs[5];
  __DSPRegs[5] = (temp & ~0xA0) | 8;
  OSClearContext(&tempContext);
  OSSetCurrentContext(&tempContext);
  if (__AID_Callback && !__AID_Active) {
    __AID_Active = TRUE;
    if (__CallbackStack) {
      __AICallbackStackSwitch(__AID_Callback);
    } else {
      __AID_Callback();
    }

    __AID_Active = FALSE;
  }

  OSClearContext(&tempContext);
  OSSetCurrentContext(context);
}

// clang-format off
asm void __AICallbackStackSwitch(register AIDCallback cb) {
  // Allocate stack frame
  fralloc

  // Store current stack
  lis r5, __OldStack@ha
  addi r5, r5, __OldStack@l
  stw r1, 0(r5)

  // Load stack for callback
  lis r5, __CallbackStack@ha 
  addi r5, r5, __CallbackStack@l 
  lwz r1,0(r5)

  // Move stack down 8 bytes
  subi r1, r1, 8
  // Call callback
  mtlr cb 
  blrl

  // Restore old stack
  lis r5, __OldStack @ha 
  addi r5, r5, __OldStack@l 
  lwz r1,0(r5)

  // Free stack frame
  frfree

  blr
}
// clang-format on

void __AI_SRC_INIT(void) {
  OSTime rise32 = 0;
  OSTime rise48 = 0;
  OSTime diff = 0;
  OSTime unused1 = 0;
  OSTime temp = 0;
  u32 temp0 = 0;
  u32 temp1 = 0;
  u32 done = 0;
  u32 walking = 0;
  u32 unused2 = 0;
  u32 initCnt = 0;

  walking = 0;
  initCnt = 0;
  temp = 0;

  while (!done) {
    __AIRegs[0] = (__AIRegs[0] & ~0x20) | 0x20;
    __AIRegs[0] &= ~2;
    __AIRegs[0] = (__AIRegs[0] & ~1) | 1;

    temp0 = __AIRegs[2];

    while (temp0 == __AIRegs[2])
      ;
    rise32 = OSGetTime();

    __AIRegs[0] = (__AIRegs[0] & ~2) | 2;
    __AIRegs[0] = (__AIRegs[0] & ~1) | 1;

    temp1 = __AIRegs[2];
    while (temp1 == __AIRegs[2])
      ;

    rise48 = OSGetTime();

    diff = rise48 - rise32;
    __AIRegs[0] &= ~2;
    __AIRegs[0] &= ~1;

    if (diff < (bound_32KHz - buffer)) {
      temp = min_wait;
      done = 1;
      ++initCnt;
    } else if (diff >= (bound_32KHz + buffer) && diff < (bound_48KHz - buffer)) {
      temp = max_wait;
      done = 1;
      ++initCnt;
    } else {
      done = 0;
      walking = 1;
      ++initCnt;
    }
  }

  while ((rise48 + temp) > OSGetTime())
    ;
}