#include "sio.h"
#include "psxhle.h"
#include "psxinterpreter.h"
+#include "new_dynarec/events.h"
#include <zlib.h>
#ifndef PSXBIOS_LOG
#define A_CD_EVENTS 0xb9b8
#define A_EXC_GP 0xf450
+#define A_A0_DUMMY 0x1010
+#define A_B0_DUMMY 0x2010
+#define A_C0_DUMMY 0x3010
+#define A_B0_5B_DUMMY 0x43d0
+
#define HLEOP(n) SWAPu32((0x3b << 26) | (n));
+static u8 loadRam8(u32 addr)
+{
+ assert(!(addr & 0x5f800000));
+ return psxM[addr & 0x1fffff];
+}
+
static u32 loadRam32(u32 addr)
{
assert(!(addr & 0x5f800000));
ra = 0x80001000;
psxRegs.CP0.n.SR &= ~0x404; // disable interrupts
+ assert(psxRegs.cpuInRecursion <= 1);
+ psxRegs.cpuInRecursion++;
psxCpu->Notify(R3000ACPU_NOTIFY_AFTER_LOAD, PTR_1);
- while (pc0 != 0x80001000 && ++lim < 1000000)
+ while (pc0 != 0x80001000 && ++lim < 0x100000)
psxCpu->ExecuteBlock(EXEC_CALLER_HLE);
psxCpu->Notify(R3000ACPU_NOTIFY_BEFORE_SAVE, PTR_1);
+ psxRegs.cpuInRecursion--;
- if (lim == 1000000)
+ if (lim == 0x100000)
PSXBIOS_LOG("softCall @%x hit lim\n", pc);
ra = sra;
psxRegs.CP0.n.SR |= ssr & 0x404;
return;
ra = 0x80001000;
+ psxRegs.cpuInRecursion++;
psxCpu->Notify(R3000ACPU_NOTIFY_AFTER_LOAD, PTR_1);
- while (!returned_from_exception() && pc0 != 0x80001000 && ++lim < 1000000)
+ while (!returned_from_exception() && pc0 != 0x80001000 && ++lim < 0x100000)
psxCpu->ExecuteBlock(EXEC_CALLER_HLE);
psxCpu->Notify(R3000ACPU_NOTIFY_BEFORE_SAVE, PTR_1);
+ psxRegs.cpuInRecursion--;
- if (lim == 1000000)
+ if (lim == 0x100000)
PSXBIOS_LOG("softCallInException @%x hit lim\n", pc);
if (pc0 == 0x80001000)
ra = sra;
s32 n = 0, f = 0;
char *p = (char *)Ra0;
+ if (p == INVALID_PTR) {
+ mips_return(0);
+ return;
+ }
+
for (;;p++) {
switch (*p) {
case ' ': case '\t': continue;
v0 = (f ? -n : n);
pc0 = ra;
+ PSXBIOS_LOG("psxBios_%s %s (%x) -> 0x%x\n", biosA0n[0x10], Ra0, a0, v0);
}
void psxBios_atol() { // 0x11
}
void psxBios_strcat() { // 0x15
- char *p1 = (char *)Ra0, *p2 = (char *)Ra1;
+ u8 *p2 = (u8 *)Ra1;
+ u32 p1 = a0;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %s, %s\n", biosA0n[0x15], Ra0, Ra1);
-#endif
- if (a0 == 0 || a1 == 0)
+ PSXBIOS_LOG("psxBios_%s %s (%x), %s (%x)\n", biosA0n[0x15], Ra0, a0, Ra1, a1);
+ if (a0 == 0 || a1 == 0 || p2 == INVALID_PTR)
{
- v0 = 0;
- pc0 = ra;
+ mips_return_c(0, 6);
return;
}
- while (*p1++);
- --p1;
- while ((*p1++ = *p2++) != '\0');
+ while (loadRam8(p1)) {
+ use_cycles(4);
+ p1++;
+ }
+ for (; *p2; p1++, p2++)
+ storeRam8(p1, *p2);
+ storeRam8(p1, 0);
- v0 = a0; pc0 = ra;
+ mips_return_c(a0, 22);
}
void psxBios_strncat() { // 0x16
void psxBios_strcpy() { // 0x19
char *p1 = (char *)Ra0, *p2 = (char *)Ra1;
+ PSXBIOS_LOG("psxBios_%s %x, %s (%x)\n", biosA0n[0x19], a0, p2, a1);
if (a0 == 0 || a1 == 0)
{
v0 = 0;
void psxBios_strstr() { // 0x24
char *p = (char *)Ra0, *p1, *p2;
+ PSXBIOS_LOG("psxBios_%s %s (%x), %s (%x)\n", biosA0n[0x24], p, a0, Ra1, a1);
while (*p != '\0') {
p1 = p;
if (*p2 == '\0') {
v0 = a0 + (p - (char *)Ra0);
pc0 = ra;
+ PSXBIOS_LOG(" -> %x\n", v0);
return;
}
- p++;
+ // bug: skips the whole matched substring + 1
+ p = p1 + 1;
}
v0 = 0; pc0 = ra;
static void psxBios_printf_psxout() { // 0x3f
char tmp[1024];
char tmp2[1024];
- u32 save[4];
+ u32 save[4] = { 0, };
char *ptmp = tmp;
int n=1, i=0, j;
void *psp;
SPU_writeRegister(0x1f801d80 + i*2, spu_config[i], psxRegs.cycle);
}
+static void hleExc0_0_1();
+static void hleExc0_0_2();
+static void hleExc0_1_1();
+static void hleExc0_1_2();
+
#include "sjisfont.h"
void psxBiosInit() {
int i;
uLongf len;
+ psxRegs.biosBranchCheck = ~0;
+
memset(psxM, 0, 0x10000);
for(i = 0; i < 256; i++) {
biosA0[i] = NULL;
biosA0[0x3e] = biosB0[0x3f] = psxBios_puts_psxout;
biosA0[0x3f] = psxBios_printf_psxout;
- if (!Config.HLE) return;
+ if (!Config.HLE) {
+ char verstr[0x24+1];
+ rom32 = (u32 *)psxR;
+ memcpy(verstr, psxR + 0x12c, 0x24);
+ verstr[0x24] = 0;
+ SysPrintf("BIOS: %08x, '%s', '%c'\n", SWAP32(rom32[0x100/4]),
+ verstr, psxR[0x7ff52]);
+ return;
+ }
for(i = 0; i < 256; i++) {
if (biosA0[i] == NULL) biosA0[i] = psxBios_dummy;
// (or rather the funcs listed there)
ptr = (u32 *)&psxM[A_A0_TABLE];
for (i = 0; i < 256; i++)
- ptr[i] = SWAP32(0x1000);
+ ptr[i] = SWAP32(A_A0_DUMMY);
ptr = (u32 *)&psxM[A_B0_TABLE];
for (i = 0; i < 256; i++)
- ptr[i] = SWAP32(0x2000);
+ ptr[i] = SWAP32(A_B0_DUMMY);
// B(5b) is special because games patch (sometimes even jump to)
// code at fixed offsets from it, nocash lists offsets:
// patch: +3d8, +4dc, +594, +62c, +9c8, +1988
// call: +7a0=4b70, +884=4c54, +894=4c64
- ptr[0x5b] = SWAP32(0x43d0);
+ ptr[0x5b] = SWAP32(A_B0_5B_DUMMY); // 0x43d0
ram32[0x4b70/4] = SWAP32(0x03e00008); // jr $ra // setPadOutputBuf
ram32[0x4c54/4] = SWAP32(0x240e0001); // mov $t6, 1
ptr = (u32 *)&psxM[A_C0_TABLE];
for (i = 0; i < 256/2; i++)
- ptr[i] = SWAP32(0x3000);
+ ptr[i] = SWAP32(A_C0_DUMMY);
ptr[6] = SWAP32(A_EXCEPTION);
// more HLE traps
- ram32[0x1000/4] = HLEOP(hleop_dummy);
- ram32[0x2000/4] = HLEOP(hleop_dummy);
- ram32[0x3000/4] = HLEOP(hleop_dummy);
+ ram32[A_A0_DUMMY/4] = HLEOP(hleop_dummy);
+ ram32[A_B0_DUMMY/4] = HLEOP(hleop_dummy);
+ ram32[A_C0_DUMMY/4] = HLEOP(hleop_dummy);
+ ram32[A_B0_5B_DUMMY/4] = HLEOP(hleop_dummy);
ram32[0x8000/4] = HLEOP(hleop_execret);
ram32[A_EEXIT_PTR/4] = SWAP32(A_EEXIT_DEF);
// hleExc0_{0,1}* are usually removed by A(56)/A(72) on the game's startup,
// so this is only partially implemented
-void hleExc0_0_1() // A(93h) - CdromDmaIrqFunc2
+static void hleExc0_0_1() // A(93h) - CdromDmaIrqFunc2
{
u32 cdrom_dma_ack_enable = 1; // a000b93c
handle_chain_x_x_1(cdrom_dma_ack_enable, 3); // IRQ3 DMA
}
-void hleExc0_0_2() // A(91h) - CdromDmaIrqFunc1
+static void hleExc0_0_2() // A(91h) - CdromDmaIrqFunc1
{
u32 ret = 0;
//PSXBIOS_LOG("%s\n", __func__);
mips_return_c(ret, 20);
}
-void hleExc0_1_1() // A(92h) - CdromIoIrqFunc2
+static void hleExc0_1_1() // A(92h) - CdromIoIrqFunc2
{
u32 cdrom_irq_ack_enable = 1; // a000b938
handle_chain_x_x_1(cdrom_irq_ack_enable, 2); // IRQ2 cdrom
}
-void hleExc0_1_2() // A(90h) - CdromIoIrqFunc1
+static void hleExc0_1_2() // A(90h) - CdromIoIrqFunc1
{
u32 ret = 0;
if (psxHu32(0x1074) & psxHu32(0x1070) & 4) { // IRQ2 cdrom
mips_return_c(ret, 20);
}
-void hleExc0_2_2_syscall() // not in any A/B/C table
+static void hleExc0_2_2_syscall() // not in any A/B/C table
{
u32 tcbPtr = loadRam32(A_TT_PCB);
TCB *tcb = loadRam32ptr(tcbPtr);
psxBios_ReturnFromException();
}
-void hleExc1_0_1(void)
+static void hleExc1_0_1(void)
{
u32 vbl_irq_ack_enable = loadRam32(A_RCNT_VBL_ACK + 0x0c); // 860c
handle_chain_x_x_1(vbl_irq_ack_enable, 0); // IRQ0 vblank
mips_return_c(ret, 22);
}
-void hleExc1_0_2(void)
+static void hleExc1_0_2(void)
{
handle_chain_1_x_2(3, 0); // IRQ0 vblank
}
-void hleExc1_1_1(void)
+static void hleExc1_1_1(void)
{
u32 rcnt_irq_ack_enable = loadRam32(A_RCNT_VBL_ACK + 0x08); // 8608
handle_chain_x_x_1(rcnt_irq_ack_enable, 6); // IRQ6 rcnt2
}
-void hleExc1_1_2(void)
+static void hleExc1_1_2(void)
{
handle_chain_1_x_2(2, 6); // IRQ6 rcnt2
}
-void hleExc1_2_1(void)
+static void hleExc1_2_1(void)
{
u32 rcnt_irq_ack_enable = loadRam32(A_RCNT_VBL_ACK + 0x04); // 8604
handle_chain_x_x_1(rcnt_irq_ack_enable, 5); // IRQ5 rcnt1
}
-void hleExc1_2_2(void)
+static void hleExc1_2_2(void)
{
handle_chain_1_x_2(1, 5); // IRQ5 rcnt1
}
-void hleExc1_3_1(void)
+static void hleExc1_3_1(void)
{
u32 rcnt_irq_ack_enable = loadRam32(A_RCNT_VBL_ACK + 0x00); // 8600
handle_chain_x_x_1(rcnt_irq_ack_enable, 4); // IRQ4 rcnt0
}
-void hleExc1_3_2(void)
+static void hleExc1_3_2(void)
{
handle_chain_1_x_2(0, 4); // IRQ4 rcnt0
}
-void hleExc3_0_2_defint(void)
+static void hleExc3_0_2_defint(void)
{
static const struct {
u8 ev, irqbit;
mips_return_c(0, 11 + 7*11 + 7*11 + 12);
}
-void hleExcPadCard1(void)
+static void hleExcPadCard1(void)
{
if (loadRam32(A_PAD_IRQR_ENA)) {
u8 *pad_buf1 = loadRam8ptr(A_PAD_INBUF + 0);
mips_return_c(0, 18);
}
-void hleExcPadCard2(void)
+static void hleExcPadCard2(void)
{
u32 ret = psxHu32(0x1074) & psxHu32(0x1070) & 1;
mips_return_c(ret, 15);
sp = fp = loadRam32(A_EXC_SP);
gp = A_EXC_GP;
use_cycles(46);
+ assert(!psxRegs.cpuInRecursion);
// do the chains (always 4)
for (c = lim = 0; c < 4; c++) {
psxBios_ReturnFromException();
}
+/* HLE */
+static void hleDummy() {
+ log_unhandled("hleDummy called @%08x ra=%08x\n", psxRegs.pc - 4, ra);
+ psxRegs.pc = ra;
+ psxRegs.cycle += 1000;
+
+ psxBranchTest();
+}
+
+static void hleA0() {
+ u32 call = t1 & 0xff;
+ u32 entry = loadRam32(A_A0_TABLE + call * 4);
+
+ if (call < 192 && entry != A_A0_DUMMY) {
+ PSXBIOS_LOG("custom A%02x %s(0x%x, ) addr=%08x ra=%08x\n",
+ call, biosA0n[call], a0, entry, ra);
+ softCall(entry);
+ pc0 = ra;
+ PSXBIOS_LOG(" -> %08x\n", v0);
+ }
+ else if (biosA0[call])
+ biosA0[call]();
+
+ //printf("A(%02x) -> %x\n", call, v0);
+ psxBranchTest();
+}
+
+static void hleB0() {
+ u32 call = t1 & 0xff;
+ u32 entry = loadRam32(A_B0_TABLE + call * 4);
+ int is_custom = 0;
+
+ if (call == 0x5b)
+ is_custom = entry != A_B0_5B_DUMMY;
+ else
+ is_custom = entry != A_B0_DUMMY;
+ if (is_custom) {
+ PSXBIOS_LOG("custom B%02x %s(0x%x, ) addr=%08x ra=%08x\n",
+ call, biosB0n[call], a0, entry, ra);
+ softCall(entry);
+ pc0 = ra;
+ PSXBIOS_LOG(" -> %08x\n", v0);
+ }
+ else if (biosB0[call])
+ biosB0[call]();
+
+ //printf("B(%02x) -> %x\n", call, v0);
+ psxBranchTest();
+}
+
+static void hleC0() {
+ u32 call = t1 & 0xff;
+ u32 entry = loadRam32(A_C0_TABLE + call * 4);
+
+ if (call < 128 && entry != A_C0_DUMMY) {
+ PSXBIOS_LOG("custom C%02x %s(0x%x, ) addr=%08x ra=%08x\n",
+ call, biosC0n[call], a0, entry, ra);
+ softCall(entry);
+ pc0 = ra;
+ PSXBIOS_LOG(" -> %08x\n", v0);
+ }
+ else if (biosC0[call])
+ biosC0[call]();
+
+ //printf("C(%02x) -> %x\n", call, v0);
+ psxBranchTest();
+}
+
+// currently not used
+static void hleBootstrap() {
+ CheckCdrom();
+ LoadCdrom();
+}
+
+static void hleExecRet() {
+ const EXEC *header = (EXEC *)PSXM(s0);
+
+ PSXBIOS_LOG("ExecRet %x: %x\n", s0, header->ret);
+
+ ra = SWAP32(header->ret);
+ sp = SWAP32(header->_sp);
+ fp = SWAP32(header->_fp);
+ gp = SWAP32(header->_gp);
+ s0 = SWAP32(header->base);
+
+ v0 = 1;
+ psxRegs.pc = ra;
+}
+
+void (* const psxHLEt[24])() = {
+ hleDummy, hleA0, hleB0, hleC0,
+ hleBootstrap, hleExecRet, psxBiosException, hleDummy,
+ hleExc0_0_1, hleExc0_0_2,
+ hleExc0_1_1, hleExc0_1_2, hleExc0_2_2_syscall,
+ hleExc1_0_1, hleExc1_0_2,
+ hleExc1_1_1, hleExc1_1_2,
+ hleExc1_2_1, hleExc1_2_2,
+ hleExc1_3_1, hleExc1_3_2,
+ hleExc3_0_2_defint,
+ hleExcPadCard1, hleExcPadCard2,
+};
+
+void psxBiosCheckExe(u32 t_addr, u32 t_size, int loading_state)
+{
+ // lw $v0, 0x10($sp)
+ // nop
+ // addiu $v0, -1
+ // sw $v0, 0x10($sp)
+ // lw $v0, 0x10($sp)
+ // nop
+ // bne $v0, $v1, not_timeout
+ // nop
+ // lui $a0, ...
+ static const u8 pattern[] = {
+ 0x10, 0x00, 0xA2, 0x8F, 0x00, 0x00, 0x00, 0x00,
+ 0xFF, 0xFF, 0x42, 0x24, 0x10, 0x00, 0xA2, 0xAF,
+ 0x10, 0x00, 0xA2, 0x8F, 0x00, 0x00, 0x00, 0x00,
+ 0x0C, 0x00, 0x43, 0x14, 0x00, 0x00, 0x00, 0x00,
+ };
+ u32 start = t_addr & 0x1ffffc;
+ u32 end = (start + t_size) & 0x1ffffc;
+ u32 buf[sizeof(pattern) / sizeof(u32)];
+ const u32 *r32 = (u32 *)(psxM + start);
+ u32 i, j;
+
+ if (end <= start)
+ return;
+ if (!Config.HLE)
+ return;
+
+ memcpy(buf, pattern, sizeof(buf));
+ for (i = 0; i < t_size / 4; i += j + 1) {
+ for (j = 0; j < sizeof(buf) / sizeof(buf[0]); j++)
+ if (r32[i + j] != buf[j])
+ break;
+ if (j != sizeof(buf) / sizeof(buf[0]))
+ continue;
+
+ if ((SWAP32(r32[i + j]) >> 16) != 0x3c04) // lui
+ continue;
+ if (!loading_state)
+ SysPrintf("HLE vsync @%08x\n", start + i * 4);
+ psxRegs.biosBranchCheck = (t_addr & 0xa01ffffc) + i * 4;
+ }
+}
+
+void psxBiosCheckBranch(void)
+{
+#if 1
+ // vsync HLE hack
+ static u32 cycles_prev, v0_prev;
+ u32 cycles_passed, waste_cycles;
+ u32 loops, v0_expect = v0_prev - 1;
+ if (v0 != 1)
+ return;
+ execI(&psxRegs);
+ cycles_passed = psxRegs.cycle - cycles_prev;
+ cycles_prev = psxRegs.cycle;
+ v0_prev = v0;
+ if (cycles_passed < 10 || cycles_passed > 50 || v0 != v0_expect)
+ return;
+
+ waste_cycles = schedule_timeslice() - psxRegs.cycle;
+ loops = waste_cycles / cycles_passed;
+ if (loops > v0)
+ loops = v0;
+ v0 -= loops;
+ psxRegs.cycle += loops * cycles_passed;
+ //printf("c %4u %d\n", loops, cycles_passed);
+#endif
+}
+
#define bfreeze(ptr, size) { \
if (Mode == 1) memcpy(&psxR[base], ptr, size); \
if (Mode == 0) memcpy(ptr, &psxR[base], size); \