s32 sceSTimerAlloc()
{
if (sceKernelIsIntrContext() != 0)
return 0x80020064;
s32 oldIntr = sceKernelCpuSuspendIntr();
s32 i;
for (i = 0; i < 4; i++) {
if (timers[i].curTimer == -1) {
timers[i].cb = NULL;
timers[i].hw->unk0 = 0x80000000;
timers[i].hw->unk8 = -1;
timers[i].hw->unk12 = -1;
(void)timers[i].hw->unk0;
timers[i].curTimer = -1;
timers[i].unk12 = 0;
timers[i].unk16 = 0;
timers[i].unk24 = 0;
timers[i].unk28 = 0;
timers[i].curTimer = ((initVar << 2) | i) & 0x7FFFFFFF;
initVar += 7;
sceKernelCpuResumeIntr(oldIntr);
return timers[i].curTimer;
}
}
sceKernelCpuResumeIntr(oldIntr);
return 0x80020096;
}
//OK
int sceUsbAccGetInfo(u64 *lpDst) // at 0x00000068
{
int ret = 0;
int curIntCtrlState = sceKernelCpuSuspendIntr();
if (!g_bAttached)
{
sceKernelCpuResumeIntr(curIntCtrlState);
return (0x80243007);
}
if (sceUsbBus_driver_8A3EB5D2() == 0)
{
sceKernelCpuResumeIntr(curIntCtrlState);
return (0x80243701);
}
if (lpDst)
{
if (((((u32)lpDst + 8) | (u32)lpDst) & (pspSdkGetK1() << 11)) >= 0)
{
*lpDst = g_info;
}
}
else
{
ret = 0x80243002;
}
sceKernelCpuResumeIntr(curIntCtrlState);
return (ret);
}
//5d18
int sceKernelCreateMbx(const char *name, unsigned int attr, SceKernelMbxOptParam *opt)
{
SET_K1_SRL16;
if(IS_USER_MODE && (IS_ADDR_KERNEL(name) || IS_ADDR_KERNEL(opt)))
{
RESET_K1;
return SCE_KERNEL_ERROR_ILLEGAL_ADDR;
}
if(sceKernelIsIntrContext())
{
RESET_K1;
return SCE_KERNEL_ERROR_ILLEGAL_CONTEXT;
}
if(attr & ~SCE_MBX_LEGAL_ATTR)
{
RESET_K1;
return SCE_KERNEL_ERROR_ILLEGAL_ATTR;
}
int intr = sceKernelCpuSuspendIntr();
uidControlBlock *cb;
int ret = sceKernelCreateUID(uidMboxType, name, IS_USER_MODE ? 0xFF : (attr & 0xFF), &cb);
if(ret != 0)
{
sceKernelCpuResumeIntr(intr);
RESET_K1;
return ret;
}
WaitQInfo *qinfo = t7 = UID_INFO(WaitQInfo, cb, uidWaitQType);
qinfo->attr = attr;
MboxInfo *mbinfo = s0 = UID_INFO(MboxInfo, cb, uidMboxType);
mbinfo->option = opt;
THREADMAN_TRACE(0x47, 1, mbinfo);
sceKernelCpuResumeIntr(intr);
RESET_K1;
return 0;
}
s32 sceSTimerStartCount(s32 timerId)
{
SceSysTimer *timer = &timers[timerId & 3];
if (timer->curTimer != timerId)
return 0x80020097;
s32 oldIntr = sceKernelCpuSuspendIntr();
if ((timer->hw->unk256 & 0x00800000) != 0) {
sceKernelCpuResumeIntr(oldIntr);
return 0x8002009A;
}
timer->hw->unk0 = timer->hw->unk256 | 0x00800000;
sceKernelCpuResumeIntr(oldIntr);
return 0;
}
s32 sceSTimerSetHandler(s32 timerId, s32 arg1, SceSysTimerCb arg2, s32 arg3)
{
SceSysTimer *timer = &timers[timerId & 3];
if (timer->curTimer != timerId)
return 0x80020097;
s32 oldIntr = sceKernelCpuSuspendIntr();
s32 mask;
if (arg1 <= 0x3FFFFF)
mask = arg1;
else
mask = 0x3FFFFF;
if (arg2 == NULL) {
timer->cb = NULL;
timer->unk24 = 0;
timer->unk28 = 0;
_sceSTimerStopCount(timer);
sceKernelDisableIntr(timer->s32Num);
} else {
timer->cb = arg2;
timer->unk28 = arg3;
timer->hw->unk0 = timer->hw->unk256 & 0xFFC00000;
timer->hw->unk0 |= mask;
timer->hw->unk0 = timer->hw->unk256 | 0x80400000;
sceKernelEnableIntr(timer->s32Num);
}
sceKernelCpuResumeIntr(oldIntr);
return 0;
}
static u32 sub_05F0(void)
{
s32 pspModel;
s32 apiType;
s32 intrState;
invoke_init_callback(3);
patchGames();
sceKernelSetDNAS(0);
intrState = sceKernelCpuSuspendIntr();
pspModel = sceKernelGetModel();
if (pspModel >= PSP_4000) {
apiType = sceKernelApplicationType();
switch (apiType) {
case SCE_INIT_APPLICATION_VSH:
case SCE_INIT_APPLICATION_UPDATER:
case SCE_INIT_APPLICATION_POPS:
UtilsForKernel_39FFB756(81);
break;
default:
UtilsForKernel_39FFB756(0);
break;
}
}
sceKernelCpuResumeIntr(intrState);
PowerUnlock();
return SCE_ERROR_OK;
}
int sceKermit_driver_9160841C(int pin_n, int allow_callbacks)
{
/* lock the power source, no shutdown */
int res = sceKernelPowerLock(0);
/* check if valid */
if (res == 0)
{
/* wait? */
sub_00000908();
/* suspend interrupts */
int intr = sceKernelCpuSuspendIntr();
PIN_HIGH(0xBC300038, pin_n);
PIN_LOW(0xBC300050, pin_n);
PIN_HIGH(0xBC300050, pin_n);
/* resume all the interrupts */
sceKernelCpuResumeIntr(intr);
/* wait on work sema */
if (allow_callbacks) sceKernelWaitSemaCB(g_work_sema[pin_n], 1, NULL);
else sceKernelWaitSema(g_work_sema[pin_n], 1, NULL);
/* unlock power */
res = sceKernelPowerUnlock(0);
/* resolve +ve res to 0 */
if (res > 0) res = 0;
}
/* return the result */
return res;
}
int sub_00000588(void)
{
int intr;
void (*ptr)(u32) = (void*)g_func_1200;
(*ptr)(0);
open_iso();
intr = sceKernelCpuSuspendIntr();
/* sceUmdManGetUmdDiscInfo patch */
_sw(0xE0000800, g_sceNp9660_driver_text_addr + g_offs->Data1);
_sw(0x00000009, g_sceNp9660_driver_text_addr + g_offs->Data2);
_sw(g_total_blocks, g_sceNp9660_driver_text_addr + g_offs->Data3);
_sw(g_total_blocks, g_sceNp9660_driver_text_addr + g_offs->Data4);
_sw(0x00000000, g_sceNp9660_driver_text_addr + g_offs->Data5);
sceKernelCpuResumeIntr(intr);
if(g_data_1204 == 0) {
g_data_1204 = 1;
sceKernelDelayThread(800000);
}
clear_cache();
sceKernelSetQTGP3(g_umddata);
return 0;
}
s32 sceUmdModuleStart(s32 argc, void *argp)
{
s32 intrState;
(void)argc;
(void)argp;
memset(&g_mediaMan, 0, sizeof g_mediaMan);
// TODO: Check assignment order; might be :DMU
g_umdFileSystem[0] = 'U';
g_umdFileSystem[1] = 'M';
g_umdFileSystem[2] = 'D';
g_umdFileSystem[3] = ':';
g_eventId = sceKernelCreateEventFlag("SceMediaManUser", SCE_KERNEL_EA_MULTI | 0x1, 0, NULL);
if (g_eventId < 0)
return SCE_KERNEL_NO_RESIDENT;
g_isAssigned = SCE_UMD_DEVICE_NOT_ASSIGNED;
intrState = sceKernelCpuSuspendIntr();
g_driveState |= SCE_UMD_MEDIA_OUT;
sceKernelSetEventFlag(g_eventId, 1);
sceKernelCpuResumeIntr(intrState);
return SCE_KERNEL_RESIDENT;
}
void checkDispatchCases(const char *name, void (*testfunc)(int)) {
int state;
dispatchCheckpoint("%s without changes:", name);
testfunc(0);
flushschedf();
didResched = 0;
schedf("\n");
dispatchCheckpoint("%s with short dispatch suspend:", name);
testfunc(1);
flushschedf();
didResched = 0;
schedf("\n");
dispatchCheckpoint("%s while dispatch suspended:", name);
// Starting a thread apparently resumes the dispatch thread.
++ignoreResched;
state = sceKernelSuspendDispatchThread();
dispatchCheckpoint("sceKernelSuspendDispatchThread: %08x", state);
testfunc(0);
dispatchCheckpoint("sceKernelResumeDispatchThread: %08x", sceKernelResumeDispatchThread(state));
--ignoreResched;
flushschedf();
didResched = 0;
schedf("\n");
dispatchCheckpoint("%s while intr suspended:", name);
state = sceKernelCpuSuspendIntr();
dispatchCheckpoint("sceKernelCpuSuspendIntr: %08x", state);
testfunc(1);
dispatchCheckpoint("sceKernelCpuResumeIntr: %08x", sceKernelCpuResumeIntr(state));
flushschedf();
}
int sub_01B8(int flag, int enable)
{
int oldIntr = sceKernelCpuSuspendIntr();
int reg = LW(0xBC10004C);
*(int*)(0xBC10004C) = enable ? (reg | flag) : (reg ^ (reg & flag));
sceKernelCpuResumeIntr(intr);
return (reg & flag) != 0;
}
s32 sceSTimerSetPrscl(s32 timerId, s32 arg1, s32 arg2)
{
SceSysTimer *timer = &timers[timerId & 3];
if (timer->curTimer != timerId)
return 0x80020097;
if (arg1 == 0 || arg2 == 0)
return 0x80020099;
if (arg2 / arg1 < 12)
return 0x80020099;
s32 oldIntr = sceKernelCpuSuspendIntr();
if ((timer->hw->unk256 & 0x00800000) != 0) {
sceKernelCpuResumeIntr(oldIntr);
return 0x8002009A;
}
timer->hw->unk8 = arg1;
timer->hw->unk12 = arg2;
sceKernelCpuResumeIntr(oldIntr);
return 0;
}
s32 sceSTimerStopCount(s32 timerId)
{
SceSysTimer *timer = &timers[timerId & 3];
if (timer->curTimer != timerId)
return 0x80020097;
s32 oldIntr = sceKernelCpuSuspendIntr();
_sceSTimerStopCount(timer);
sceKernelCpuResumeIntr(oldIntr);
return 0;
}
//Subroutine sceUmd_060E934D - Address 0x00000CF0
void sceUmdSetDetectUMDCallBackId(SceUID callbackId)
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_umdCallbackId = callbackId;
sceKernelCpuResumeIntr(intrState);
}
//5e98
int sceKernelDeleteMbx(SceUID mbxid)
{
SET_K1_SRL16;
if(sceKernelIsIntrContext())
{
RESET_K1;
return SCE_KERNEL_ERROR_ILLEGAL_CONTEXT;
}
int intr = sceKernelCpuSuspendIntr();
uidControlBlock *cb;
if(sceKernelGetUIDcontrolBlockWithType(mbxid, uidMboxType, &cb) != 0)
{
sceKernelCpuResumeIntr(intr);
RESET_K1;
return SCE_KERNEL_ERROR_UNKNOWN_MBXID;
}
if(IS_USER_MODE && !(cb->attr & 0x10))
{
sceKernelCpuResumeIntr(intr);
RESET_K1;
return SCE_KERNEL_ERROR_ILLEGAL_PERM;
}
THREADMAN_TRACE(0x48, 1, mbxid);
ASSERT(sceKernelDeleteUID(mbxid) <= 0);
sceKernelCpuResumeIntr(intr);
RESET_K1;
return 0;
}
s32 sceSTimerResetCount(s32 timerId)
{
SceSysTimer *timer = &timers[timerId & 3];
if (timer->curTimer != timerId)
return 0x80020097;
s32 oldIntr = sceKernelCpuSuspendIntr();
timer->hw->unk0 |= 0x80000000;
timer->unk24 = 0;
sceKernelCpuResumeIntr(oldIntr);
return 0;
}
s32 module_reboot_before()
{
s32 oldIntr = sceKernelCpuSuspendIntr();
s32 i;
for (i = 0; i < 4; i++) {
_sceSTimerStopCount(&timers[i]);
sceKernelReleaseIntrHandler(timers[i].s32Num);
}
sceKernelCpuResumeIntr(oldIntr);
return 0;
}
//Subroutine sceUmd_982272FE - Address 0x00000444
void sceUmdSetDriveStatus(s32 state)
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_driveState |= state;
sceKernelSetEventFlag(g_eventId, state);
sceKernelCpuResumeIntr(intrState);
}
//Subroutine sceUmd_6EDF57F1 - Address 0x000003E8
void sceUmdClearDriveStatus(s32 state)
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
sceKernelClearEventFlag(g_eventId, ~state);
g_driveState &= (~state);
sceKernelCpuResumeIntr(intrState);
}
//Subroutine sceUmd_07E98AF8 - Address 0x0000049C
u32 sceUmdSetErrorStatus(s32 state) //param state: one of SCE_UMD_errors
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_errorState = state;
sceKernelCpuResumeIntr(intrState);
return SCE_ERROR_OK;
}
// OK
int sceUsbAccGetAuthStat() // at 0x00000000
{
int curIntCtrlState = sceKernelCpuSuspendIntr();
int ret = 0x80243007;
if (g_bAttached)
{
ret = sceUsbBus_driver_8A3EB5D2() ? 0 : 0x80243701;
}
sceKernelCpuResumeIntr(curIntCtrlState);
return (ret);
}
extern "C" int main(int argc, char *argv[]) {
checkpointNext("Not suspended:");
checkpoint(" 0: %08x", sceKernelIsCpuIntrSuspended(0));
checkpoint(" 1: %08x", sceKernelIsCpuIntrSuspended(1));
checkpoint(" 2: %08x", sceKernelIsCpuIntrSuspended(2));
checkpoint(" 0xDEADBEEF: %08x", sceKernelIsCpuIntrSuspended(0xDEADBEEF));
checkpointNext("Suspended:");
int flags1 = sceKernelCpuSuspendIntr();
int flags2 = sceKernelCpuSuspendIntr();
checkpoint(" 0: %08x", sceKernelIsCpuIntrSuspended(0));
checkpoint(" 1: %08x", sceKernelIsCpuIntrSuspended(1));
checkpoint(" 2: %08x", sceKernelIsCpuIntrSuspended(2));
checkpoint(" 0xDEADBEEF: %08x", sceKernelIsCpuIntrSuspended(0xDEADBEEF));
checkpoint(" flags (inner): %08x", sceKernelIsCpuIntrSuspended(flags2));
checkpoint(" flags (outer): %08x", sceKernelIsCpuIntrSuspended(flags1));
sceKernelCpuResumeIntr(flags2);
sceKernelCpuResumeIntr(flags1);
return 0;
}
//Subroutine sceUmd_0E3F8ED9 - Address 0x0000087C
u32 sceUmdUnRegisterReplaceCallBack(void)
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_mediaMan.umdReplaceCallback = NULL;
g_mediaMan.umdReplaceCallbackGp = 0;
sceKernelCpuResumeIntr(intrState);
return SCE_ERROR_OK;
}
//Subroutine sceUmd_3748C4DB - Address 0x00000838
u32 sceUmdRegisterReplaceCallBack(s32 (*umdReplaceCallback)(s32))
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_mediaMan.umdReplaceCallback = umdReplaceCallback;
g_mediaMan.umdReplaceCallbackGp = pspGetGp();
sceKernelCpuResumeIntr(intrState);
return SCE_ERROR_OK;
}
//Subroutine sceUmd_76D356F9 - Address 0x000008B4
u32 sceUmd_76D356F9(s32 (*arg0)(void))
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_mediaMan.unk60 = arg0;
g_mediaMan.unk36 = pspGetGp();
sceKernelCpuResumeIntr(intrState);
return SCE_ERROR_OK;
}
//Subroutine sceUmd_99CA645A - Address 0x00000694
void sceUmdUnRegisterDeactivateCallBack(void)
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_mediaMan.umdDeactivateCallback = NULL;
g_mediaMan.umdDeactivateCallbackGp = 0;
g_mediaMan.umdDeactivateCallbackParam = NULL;
sceKernelCpuResumeIntr(intrState);
}
//6690
int sceKernelRegisterSysEventHandler(SceSysEventHandler *handler)
{
int intr = sceKernelCpuSuspendIntr();
if(sceKernelIsRegisterSysEventHandler(handler))
{
//66f8
sceKernelCpuResumeIntr(intr);
return SCE_KERNEL_ERROR_FOUND_HANDLER;
}
handler->busy = 0;
handler->r28 = gp;
handler->next = sys_event_handlers;
sys_event_handlers = handler;
sceKernelCpuResumeIntr(intr);
return 0;
}
//Subroutine sceUmd_1471F63D - Address 0x00000620
u32 sceUmdUnRegisterMediaPresentCallBack(void)
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_mediaMan.umdMediaPresentCallbackParam = NULL;
g_mediaMan.umdMediaPresentCallbackGp = 0;
g_mediaMan.umdMediaPresentCallback = NULL;
sceKernelCpuResumeIntr(intrState);
return SCE_ERROR_OK;
}
//Subroutine sceUmd_63517CBA - Address 0x000005CC
u32 sceUmdRegisterMediaPresentCallBack(s32(*MediaPresentCallback)(void *), void *param)
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_mediaMan.umdMediaPresentCallback = MediaPresentCallback;
g_mediaMan.umdMediaPresentCallbackParam = param;
g_mediaMan.umdMediaPresentCallbackGp = pspGetGp();
sceKernelCpuResumeIntr(intrState);
return SCE_ERROR_OK;
}
//Subroutine sceUmd_D1C80E51 - Address 0x00000720
u32 sceUmdRegisterDeactivateCallBack(s32 (*deactivateCallback)(s32, void *), void *param)
{
s32 intrState;
intrState = sceKernelCpuSuspendIntr();
g_mediaMan.umdDeactivateCallback = deactivateCallback;
g_mediaMan.umdDeactivateCallbackParam = param;
g_mediaMan.umdDeactivateCallbackGp = pspGetGp();
sceKernelCpuResumeIntr(intrState);
return SCE_ERROR_OK;
}
