#define PSXBIOS_LOG(...)
#endif
+#define PTR_1 (void *)(size_t)1
+
char *biosA0n[256] = {
// 0x00
"open", "lseek", "read", "write",
// todo: FileDesc layout is wrong
// todo: get rid of these globals
static FileDesc FDesc[32];
-static char ffile[64], *pfile;
+static char ffile[64];
static int nfile;
// fixed RAM offsets, SCPH1001 compatible
#define A_HEAP_SIZE 0x9004
#define A_HEAP_END 0x9008
#define A_HEAP_FLAG 0x900c
+#define A_RND_SEED 0x9010
+#define A_CONF_TCB 0xb940
+#define A_CONF_EvCB 0xb944
+#define A_CONF_SP 0xb948
#define A_CD_EVENTS 0xb9b8
#define A_EXC_GP 0xf450
pc0 = ra;
}
+static void mips_return_void(void)
+{
+ pc0 = ra;
+}
+
static void use_cycles(u32 cycle)
{
psxRegs.cycle += cycle * 2;
ra = 0x80001000;
psxRegs.CP0.n.SR &= ~0x404; // disable interrupts
+ psxCpu->Notify(R3000ACPU_NOTIFY_AFTER_LOAD, PTR_1);
+
while (pc0 != 0x80001000 && ++lim < 1000000)
psxCpu->ExecuteBlock(EXEC_CALLER_HLE);
+ psxCpu->Notify(R3000ACPU_NOTIFY_BEFORE_SAVE, PTR_1);
+
if (lim == 1000000)
PSXBIOS_LOG("softCall @%x hit lim\n", pc);
ra = sra;
u32 sra = ra;
u32 lim = 0;
pc0 = pc;
+
+ assert(ra != 0x80001000);
+ if (ra == 0x80001000)
+ return;
ra = 0x80001000;
+ psxCpu->Notify(R3000ACPU_NOTIFY_AFTER_LOAD, PTR_1);
+
while (!returned_from_exception() && pc0 != 0x80001000 && ++lim < 1000000)
psxCpu->ExecuteBlock(EXEC_CALLER_HLE);
+ psxCpu->Notify(R3000ACPU_NOTIFY_BEFORE_SAVE, PTR_1);
+
if (lim == 1000000)
PSXBIOS_LOG("softCallInException @%x hit lim\n", pc);
if (pc0 == 0x80001000)
mips_return_c(0, 4);
return;
}
+ v1 = a0;
if ((s32)a2 > 0) {
do_memcpy(a0, a1, a2);
cycles = a2 * 6;
- v1 = a0;
a0 += a2;
a1 += a2;
a2 = 0;
v0 = 0; pc0 = ra;
}
-void psxBios_rand() { // 0x2f
- u32 s = psxMu32(0x9010) * 1103515245 + 12345;
- v0 = (s >> 16) & 0x7fff;
- psxMu32ref(0x9010) = SWAPu32(s);
- pc0 = ra;
+static void psxBios_rand() { // 0x2f
+ u32 s = loadRam32(A_RND_SEED) * 1103515245 + 12345;
+ storeRam32(A_RND_SEED, s);
+ v1 = s;
+ mips_return_c((s >> 16) & 0x7fff, 12+37);
}
-void psxBios_srand() { // 0x30
- psxMu32ref(0x9010) = SWAPu32(a0);
- pc0 = ra;
+static void psxBios_srand() { // 0x30
+ storeRam32(A_RND_SEED, a0);
+ mips_return_void_c(3);
}
static u32 qscmpfunc, qswidth;
mips_return_void_c(1000);
}
+static void FlushCache() {
+ psxCpu->Notify(R3000ACPU_NOTIFY_CACHE_ISOLATED, NULL);
+ psxCpu->Notify(R3000ACPU_NOTIFY_CACHE_UNISOLATED, NULL);
+ k0 = 0xbfc0193c;
+ // runs from uncached mem so tons of cycles
+ use_cycles(500);
+}
+
/*
* long Load(char *name, struct EXEC *header);
*/
if (pa1 != INVALID_PTR && LoadCdromFile(Ra0, &eheader) == 0) {
memcpy(pa1, ((char*)&eheader)+16, sizeof(EXEC));
psxCpu->Clear(a1, sizeof(EXEC) / 4);
+ FlushCache();
v0 = 1;
} else v0 = 0;
PSXBIOS_LOG("psxBios_%s: %s, %d -> %d\n", biosA0n[0x42], Ra0, a1, v0);
pc0 = SWAP32(header->_pc0);
}
-void psxBios_FlushCache() { // 44
-#ifdef PSXBIOS_LOG
+static void psxBios_FlushCache() { // 44
PSXBIOS_LOG("psxBios_%s\n", biosA0n[0x44]);
-#endif
- psxCpu->Notify(R3000ACPU_NOTIFY_CACHE_ISOLATED, NULL);
- psxCpu->Notify(R3000ACPU_NOTIFY_CACHE_UNISOLATED, NULL);
- pc0 = ra;
+ FlushCache();
+ mips_return_void();
}
void psxBios_GPU_dw() { // 0x46
void psxBios_mem2vram() { // 0x47
int size;
- gpuSyncPluginSR();
+ gpuSyncPluginSR(); // flush
GPU_writeData(0xa0000000);
GPU_writeData((a1<<0x10)|(a0&0xffff));
GPU_writeData((a3<<0x10)|(a2&0xffff));
}
void psxBios_GPU_cw() { // 0x49
- gpuSyncPluginSR();
GPU_writeData(a0);
+ gpuSyncPluginSR();
v0 = HW_GPU_STATUS;
pc0 = ra;
}
use_cycles(30);
}
+static void setup_tt(u32 tcb_cnt, u32 evcb_cnt, u32 stack);
+
+static void psxBios_SetConf() { // 9c
+ PSXBIOS_LOG("psxBios_%s %x %x %x\n", biosA0n[0x9c], a0, a1, a2);
+ setup_tt(a1, a0, a2);
+ psxRegs.CP0.n.SR |= 0x401;
+ mips_return_void_c(500);
+}
+
+static void psxBios_GetConf() { // 9d
+ PSXBIOS_LOG("psxBios_%s %x %x %x\n", biosA0n[0x9d], a0, a1, a2);
+ storeRam32(a0, loadRam32(A_CONF_EvCB));
+ storeRam32(a1, loadRam32(A_CONF_TCB));
+ storeRam32(a2, loadRam32(A_CONF_SP));
+ mips_return_void_c(10);
+}
+
void psxBios_SetMem() { // 9f
u32 new = psxHu32(0x1060);
PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x03]);
#endif
- a0&= 0x3;
- if (a0 != 3) v0 = psxRcntRcount(a0);
- else v0 = 0;
+ switch (a0 & 0x3)
+ {
+ case 0: v0 = psxRcntRcount0(); break;
+ case 1: v0 = psxRcntRcount1(); break;
+ case 2: v0 = psxRcntRcount2(); break;
+ case 3: v0 = 0; break;
+ }
pc0 = ra;
}
u32 ret = loadRam32(A_TT_EvCB) + evcb_len;
u32 i, lim = evcb_len / 0x1c;
+ //printf("%s %08x %x\n", __func__, class, spec);
for (i = 0; i < lim; i++, ev++) {
use_cycles(8);
if (SWAP32(ev->status) != EvStACTIVE)
mips_return_c(0xffffffff, 20);
return;
}
- PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x0e], th);
+ PSXBIOS_LOG("psxBios_%s -> %x\n", biosB0n[0x0e], 0xff000000 + th);
tcb[th].status = SWAP32(0x4000);
tcb[th].mode = SWAP32(0x1000);
* int CloseTh(long thread);
*/
-void psxBios_CloseTh() { // 0f
- TCB *tcb = loadRam32ptr(A_TT_TCB);
- u32 limit = loadRam32(A_TT_TCB + 4) / 0xc0u;
- u32 th = a0 & 0xff;
+static void psxBios_CloseTh() { // 0f
+ u32 tcb = loadRam32(A_TT_TCB);
+ u32 th = a0 & 0xffff;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x0f], th);
-#endif
- /* The return value is always 1 (even if the handle was already closed). */
- v0 = 1;
- if (th < limit && tcb[th].status == SWAP32(0x4000)) {
- tcb[th].status = SWAP32(0x1000);
- }
+ PSXBIOS_LOG("psxBios_%s %x\n", biosB0n[0x0f], a0);
+ // in the usual bios fashion no checks, just write and return 1
+ storeRam32(tcb + th * sizeof(TCB), 0x1000);
- pc0 = ra;
+ mips_return_c(1, 11);
}
/*
void psxBios_open() { // 0x32
void *pa0 = Ra0;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %s,%x\n", biosB0n[0x32], Ra0, a1);
-#endif
+ PSXBIOS_LOG("psxBios_%s %s %x\n", biosB0n[0x32], Ra0, a1);
v0 = -1;
pc0 = ra;
}
+static void bufile(const u8 *mcd_data, u32 dir_) {
+ struct DIRENTRY *dir = (struct DIRENTRY *)castRam8ptr(dir_);
+ const char *pfile = ffile + 5;
+ const u8 *data = mcd_data;
+ int i = 0, match = 0;
+ int blocks = 1;
+ u32 head = 0;
-/* To avoid any issues with different behaviour when using the libc's own strlen instead.
- * We want to mimic the PSX's behaviour in this case for bufile. */
-static size_t strlen_internal(char* p)
-{
- size_t size_of_array = 0;
- while (*p++) size_of_array++;
- return size_of_array;
-}
-
-#define bufile(mcd) { \
- size_t size_of_name = strlen_internal(dir->name); \
- while (nfile < 16) { \
- int match=1; \
- \
- ptr = Mcd##mcd##Data + 128 * (nfile + 1); \
- nfile++; \
- if ((*ptr & 0xF0) != 0x50) continue; \
- /* Bug link files show up as free block. */ \
- if (!ptr[0xa]) continue; \
- ptr+= 0xa; \
- if (pfile[0] == 0) { \
- strncpy(dir->name, ptr, sizeof(dir->name) - 1); \
- if (size_of_name < sizeof(dir->name)) dir->name[size_of_name] = '\0'; \
- } else for (i=0; i<20; i++) { \
- if (pfile[i] == ptr[i]) { \
- dir->name[i] = ptr[i]; continue; } \
- if (pfile[i] == '?') { \
- dir->name[i] = ptr[i]; continue; } \
- if (pfile[i] == '*') { \
- strcpy(dir->name+i, ptr+i); break; } \
- match = 0; break; \
- } \
- PSXBIOS_LOG("%d : %s = %s + %s (match=%d)\n", nfile, dir->name, pfile, ptr, match); \
- if (match == 0) { continue; } \
- dir->size = 8192; \
- v0 = _dir; \
- break; \
- } \
+ v0 = 0;
+ for (; nfile <= 15 && !match; nfile++) {
+ const char *name;
+
+ head = nfile * 0x40;
+ data = mcd_data + 128 * nfile;
+ name = (const char *)data + 0x0a;
+ if ((data[0] & 0xF0) != 0x50) continue;
+ /* Bug link files show up as free block. */
+ if (!name[0]) continue;
+ match = 1;
+ for (i = 0; i < 20; i++) {
+ if (pfile[i] == name[i] || pfile[i] == '?')
+ dir->name[i] = name[i];
+ else if (pfile[i] == '*') {
+ int len = strlen(name + i);
+ if (i + len > 20)
+ len = 20 - i;
+ memcpy(dir->name + i, name + i, len + 1);
+ i += len;
+ break;
+ }
+ else {
+ match = 0;
+ break;
+ }
+ if (!name[i])
+ break;
+ }
+ PSXBIOS_LOG("%d : %s = %s + %s (match=%d)\n",
+ nfile, dir->name, pfile, name, match);
+ }
+ for (; nfile <= 15; nfile++, blocks++) {
+ const u8 *data2 = mcd_data + 128 * nfile;
+ const char *name = data2 + 0x0a;
+ if ((data2[0] & 0xF0) != 0x50 || name[0])
+ break;
+ }
+ if (match) {
+ // nul char of full lenth name seems to overwrite .attr
+ dir->attr = SWAP32(i < 20 ? data[0] & 0xf0 : 0); // ?
+ dir->size = 8192 * blocks;
+ dir->head = head;
+ v0 = dir_;
+ }
+ PSXBIOS_LOG(" -> %x '%s' %x %x %x %x\n", v0, v0 ? dir->name : "",
+ dir->attr, dir->size, dir->next, dir->head);
}
/*
* struct DIRENTRY* firstfile(char *name,struct DIRENTRY *dir);
*/
-void psxBios_firstfile() { // 42
- struct DIRENTRY *dir = (struct DIRENTRY *)Ra1;
- void *pa0 = Ra0;
- u32 _dir = a1;
- char *ptr;
- int i;
-
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %s\n", biosB0n[0x42], Ra0);
-#endif
+static void psxBios_firstfile() { // 42
+ char *pa0 = castRam8ptr(a0);
+ PSXBIOS_LOG("psxBios_%s %s %x\n", biosB0n[0x42], pa0, a1);
v0 = 0;
- if (pa0 != INVALID_PTR) {
- strcpy(ffile, pa0);
- pfile = ffile+5;
- nfile = 0;
+ {
+ snprintf(ffile, sizeof(ffile), "%s", pa0);
+ if (ffile[5] == 0)
+ strcpy(ffile + 5, "*"); // maybe?
+ nfile = 1;
if (!strncmp(pa0, "bu00", 4)) {
// firstfile() calls _card_read() internally, so deliver it's event
DeliverEvent(0xf0000011, 0x0004);
- bufile(1);
+ bufile(Mcd1Data, a1);
} else if (!strncmp(pa0, "bu10", 4)) {
// firstfile() calls _card_read() internally, so deliver it's event
DeliverEvent(0xf0000011, 0x0004);
- bufile(2);
+ bufile(Mcd2Data, a1);
}
}
*/
void psxBios_nextfile() { // 43
- struct DIRENTRY *dir = (struct DIRENTRY *)Ra0;
- u32 _dir = a0;
- char *ptr;
- int i;
-
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %s\n", biosB0n[0x43], dir->name);
-#endif
+ PSXBIOS_LOG("psxBios_%s %x\n", biosB0n[0x43], a0);
v0 = 0;
-
- if (!strncmp(ffile, "bu00", 4)) {
- bufile(1);
- }
-
- if (!strncmp(ffile, "bu10", 4)) {
- bufile(2);
- }
+ if (!strncmp(ffile, "bu00", 4))
+ bufile(Mcd1Data, a0);
+ else if (!strncmp(ffile, "bu10", 4))
+ bufile(Mcd2Data, a0);
pc0 = ra;
}
u32 *ram32 = (u32 *)psxM;
PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x4a], a0);
write_chain(ram32 + A_PADCRD_CHN_E/4, 0, 0x49bc, 0x4a4c);
- // (maybe) todo: early_card_irq, FlushCache etc
+ // (maybe) todo: early_card_irq, etc
ram32[A_PAD_IRQR_ENA/4] = SWAP32(a0);
- mips_return_c(0, 300);
+ psxBios_FlushCache();
+ mips_return_c(0, 34+13+15+6);
}
void psxBios_StartCARD() { // 4b
d[2] = SWAPu32(handler2);
// install the hle traps
- PSXMu32ref(handler1) = HLEOP(chain_hle_op(handler1));
- PSXMu32ref(handler2) = HLEOP(chain_hle_op(handler2));
+ if (handler1) PSXMu32ref(handler1) = HLEOP(chain_hle_op(handler1));
+ if (handler2) PSXMu32ref(handler2) = HLEOP(chain_hle_op(handler2));
}
-static void setup_tt(u32 tcb_cnt, u32 evcb_cnt)
+static void setup_tt(u32 tcb_cnt, u32 evcb_cnt, u32 stack)
{
u32 *ram32 = (u32 *)psxM;
- u32 s_excb = 0x20, s_evcb = 0x1c * evcb_cnt;
- u32 s_pcb = 4, s_tcb = 0xc0 * tcb_cnt;
+ u32 s_excb = 0x20, s_evcb, s_pcb = 4, s_tcb;
u32 p_excb, p_evcb, p_pcb, p_tcb;
+ u32 i;
+
+ PSXBIOS_LOG("setup: tcb %u, evcb %u\n", tcb_cnt, evcb_cnt);
+
+ // the real bios doesn't care, but we just don't
+ // want to crash in case of garbage parameters
+ if (tcb_cnt > 1024) tcb_cnt = 1024;
+ if (evcb_cnt > 1024) evcb_cnt = 1024;
+ s_evcb = 0x1c * evcb_cnt;
+ s_tcb = 0xc0 * tcb_cnt;
memset(ram32 + 0xe000/4, 0, s_excb + s_evcb + s_pcb + s_tcb + 5*4);
psxBios_SysInitMemory_(0xa000e000, 0x2000);
storeRam32(p_pcb, p_tcb);
storeRam32(p_tcb, 0x4000); // first TCB
+ for (i = 1; i < tcb_cnt; i++)
+ storeRam32(p_tcb + sizeof(TCB) * i, 0x1000);
// default events
storeRam32(A_CD_EVENTS + 0x00, OpenEvent(0xf0000003, 0x0010, EvMdMARK, 0));
storeRam32(A_CD_EVENTS + 0x08, OpenEvent(0xf0000003, 0x0040, EvMdMARK, 0));
storeRam32(A_CD_EVENTS + 0x0c, OpenEvent(0xf0000003, 0x0080, EvMdMARK, 0));
storeRam32(A_CD_EVENTS + 0x10, OpenEvent(0xf0000003, 0x8000, EvMdMARK, 0));
- DeliverEvent(0xf0000003, 0x0010);
+
+ storeRam32(A_CONF_EvCB, evcb_cnt);
+ storeRam32(A_CONF_TCB, tcb_cnt);
+ storeRam32(A_CONF_SP, stack);
}
static const u32 gpu_ctl_def[] = {
//biosA0[0x99] = psxBios_EnableKernelIORedirection;
//biosA0[0x9a] = psxBios_sys_a0_9a;
//biosA0[0x9b] = psxBios_sys_a0_9b;
- //biosA0[0x9c] = psxBios_SetConf;
- //biosA0[0x9d] = psxBios_GetConf;
+ biosA0[0x9c] = psxBios_SetConf;
+ biosA0[0x9d] = psxBios_GetConf;
//biosA0[0x9e] = psxBios_sys_a0_9e;
biosA0[0x9f] = psxBios_SetMem;
//biosA0[0xa0] = psxBios__boot;
memset(FDesc, 0, sizeof(FDesc));
- // initial RNG seed
- psxMu32ref(0x9010) = SWAPu32(0xac20cc00);
-
// somewhat pretend to be a SCPH1001 BIOS
// some games look for these and take an exception if they're missing
rom32 = (u32 *)psxR;
len = 0x80000 - 0x69d68;
uncompress((Bytef *)(psxR + 0x69d68), &len, font_889f, sizeof(font_889f));
+ // trap attempts to call bios directly
+ rom32[0x00000/4] = HLEOP(hleop_dummy);
+ rom32[0x00180/4] = HLEOP(hleop_dummy);
+ rom32[0x3fffc/4] = HLEOP(hleop_dummy);
+ rom32[0x65ffc/4] = HLEOP(hleop_dummy);
+ rom32[0x7ff2c/4] = HLEOP(hleop_dummy);
+
/* Some games like R-Types, CTR, Fade to Black read from adress 0x00000000 due to uninitialized pointers.
See Garbage Area at Address 00000000h in Nocash PSX Specfications for more information.
Here are some examples of games not working with this fix in place :
ram32[0x00b0/4] = HLEOP(hleop_b0);
ram32[0x00c0/4] = HLEOP(hleop_c0);
- setup_tt(4, 16);
+ setup_tt(4, 16, 0x801fff00);
+ DeliverEvent(0xf0000003, 0x0010);
ram32[0x6ee0/4] = SWAPu32(0x0000eff0); // DCB
strcpy((char *)&ram32[0xeff0/4], "bu");
ram32[0x1000/4] = HLEOP(hleop_dummy);
ram32[0x2000/4] = HLEOP(hleop_dummy);
ram32[0x3000/4] = HLEOP(hleop_dummy);
- ram32[0x4c54/4] = HLEOP(hleop_dummy); // for B12_InitPad?
ram32[0x8000/4] = HLEOP(hleop_execret);
ram32[A_EEXIT_PTR/4] = SWAP32(A_EEXIT_DEF);
ram32[A_RCNT_VBL_ACK/4 + 1] = SWAP32(1);
ram32[A_RCNT_VBL_ACK/4 + 2] = SWAP32(1);
ram32[A_RCNT_VBL_ACK/4 + 3] = SWAP32(1);
+ ram32[A_RND_SEED/4] = SWAPu32(0x24040001); // was 0xac20cc00
}
void psxBiosShutdown() {
}
-void psxBiosCnfLoaded(u32 tcb_cnt, u32 evcb_cnt) {
- if (tcb_cnt != 4 || evcb_cnt != 16)
- setup_tt(tcb_cnt, evcb_cnt);
+void psxBiosCnfLoaded(u32 tcb_cnt, u32 evcb_cnt, u32 stack) {
+ if (stack == 0)
+ stack = 0x801FFF00;
+ if (tcb_cnt != 4 || evcb_cnt != 16) {
+ setup_tt(tcb_cnt, evcb_cnt, stack);
+ DeliverEvent(0xf0000003, 0x0010);
+ }
+ storeRam32(A_CONF_SP, stack);
}
#define psxBios_PADpoll(pad) { \
void hleExc0_2_2_syscall() // not in any A/B/C table
{
- u32 code = (psxRegs.CP0.n.Cause & 0x3c) >> 2;
u32 tcbPtr = loadRam32(A_TT_PCB);
TCB *tcb = loadRam32ptr(tcbPtr);
+ u32 code = (SWAP32(tcb->cause) & 0x3c) >> 2;
if (code != R3000E_Syscall) {
if (code != 0) {
return;
}
- //printf("%s c=%d a0=%d\n", __func__, code, a0);
+ //printf("%s c=%d a0=%d\n", __func__, code, SWAP32(tcb->reg[4]));
tcb->epc += SWAP32(4);
- switch (a0) {
+ switch (SWAP32(tcb->reg[4])) { // a0
case 0: // noop
break;
case 3: { // ChangeThreadSubFunction
u32 tcbPtr = loadRam32(A_TT_PCB);
- storeRam32(tcbPtr, a1);
+ storeRam32(tcbPtr, SWAP32(tcb->reg[5])); // a1
break;
}
default:
}
#define bfreezes(ptr) bfreeze(ptr, sizeof(ptr))
-#define bfreezel(ptr) bfreeze(ptr, sizeof(*ptr))
-
-#define bfreezepsxMptr(ptr, type) { \
- if (Mode == 1) { \
- if (ptr) psxRu32ref(base) = SWAPu32((s8 *)(ptr) - psxM); \
- else psxRu32ref(base) = 0; \
- } else { \
- if (psxRu32(base) != 0) ptr = (type *)(psxM + psxRu32(base)); \
- else (ptr) = NULL; \
- } \
- base += sizeof(u32); \
-}
+#define bfreezel(ptr) bfreeze(ptr, sizeof(*(ptr)))
void psxBiosFreeze(int Mode) {
u32 base = 0x40000;
bfreezes(FDesc);
+ bfreezes(ffile);
+ bfreezel(&nfile);
}