diff --git a/pcsx2/x86/ix86-32/iR5900-32.cpp b/pcsx2/x86/ix86-32/iR5900-32.cpp index 05f93d3769..c8424ae404 100644 --- a/pcsx2/x86/ix86-32/iR5900-32.cpp +++ b/pcsx2/x86/ix86-32/iR5900-32.cpp @@ -1303,14 +1303,14 @@ void __fastcall dynarecMemLogcheck(u32 start, bool store) DevCon.WriteLn("Hit load breakpoint @0x%x", start); } -void recMemcheck(u32 bits, bool store) +void recMemcheck(u32 op, u32 bits, bool store) { iFlushCall(FLUSH_INTERPRETER); // compute accessed address - _eeMoveGPRtoR(ECX, _Rs_); - if (_Imm_ != 0) - xADD(ecx, _Imm_); + _eeMoveGPRtoR(ECX, (op >> 21) & 0x1F); + if ((s16)op != 0) + xADD(ecx, (s16)op); if (bits == 128) xAND(ecx, ~0x0F); @@ -1356,6 +1356,166 @@ void recMemcheck(u32 bits, bool store) } } +inline bool isBranchOrJump(u32 addr) +{ + u32 op = memRead32(addr); + + switch (op >> 26) + { + case 0x02: // j + case 0x03: // jal + case 0x04: // beq + case 0x05: // bne + case 0x06: // blez + case 0x07: // bgtz + case 0x14: // beql + case 0x15: // bnel + case 0x16: // blezl + case 0x17: // bgtzl + return true; + case 0x00: // special + switch (op & 0x3F) + { + case 0x08: // jr + case 0x09: // jalr + return true; + } + break; + case 0x01: // regimm + switch ((op >> 16) & 0x1F) + { + case 0x00: // bltz + case 0x01: // bgez + case 0x02: // bltzl + case 0x03: // bgezl + case 0x10: // bltzal + case 0x11: // bgezal + case 0x12: // bltzall + case 0x13: // bgezall + return true; + } + break; + } + + return false; +} + +// The next two functions return 0 if no breakpoint is needed, +// 1 if it's needed on the current pc, 2 if it's needed in the delay slot + +int isBreakpointNeeded(u32 addr) +{ + if (CBreakPoints::IsAddressBreakPoint(addr)) + return 1; + + // there may be a breakpoint in the delay slot + if (isBranchOrJump(addr) && CBreakPoints::IsAddressBreakPoint(addr+4)) + return 2; + + return 0; +} + +int isMemcheckNeeded(u32 pc) +{ + if (CBreakPoints::GetMemChecks().size() == 0) + return 0; + + u32 addr = pc; + if (isBranchOrJump(addr)) + addr += 4; + + u32 op = memRead32(addr); + + switch (op >> 26) + { + case 0x20: // lb + case 0x21: // lh + case 0x22: // lwl + case 0x23: // lw + case 0x24: // lbu + case 0x25: // lhu + case 0x26: // lwr + case 0x28: // sb + case 0x29: // sh + case 0x2A: // swl + case 0x2B: // sw + case 0x2E: // swr + case 0x37: // ld + case 0x1B: // ldr + case 0x3F: // sd + case 0x3D: // sdr + case 0x1A: // ldl + case 0x2C: // sdl + case 0x1E: // lq + case 0x1F: // sq + return addr == pc ? 1 : 2; + default: + return 0; + } +} + +void encodeBreakpoint() +{ + if (isBreakpointNeeded(pc) != 0) + { + iFlushCall(FLUSH_EVERYTHING); + xCALL(&dynarecCheckBreakpoint); + } +} + +void encodeMemcheck() +{ + int needed = isMemcheckNeeded(pc); + if (needed == 0) + return; + + u32 op = memRead32(needed == 2 ? pc+4 : pc); + switch (cpuRegs.code >> 26) + { + case 0x20: // lb + case 0x24: // lbu + recMemcheck(op,8,false); + break; + case 0x28: // sb + recMemcheck(op,8,true); + break; + case 0x21: // lh + case 0x25: // lhu + recMemcheck(op,16,false); + break; + case 0x22: // lwl + case 0x23: // lw + case 0x26: // lwr + recMemcheck(op,32,false); + break; + case 0x29: // sh + recMemcheck(op,16,true); + break; + case 0x2A: // swl + case 0x2B: // sw + case 0x2E: // swr + recMemcheck(op,32,true); + break; + case 0x37: // ld + case 0x1B: // ldr + case 0x1A: // ldl + recMemcheck(op,64,false); + break; + case 0x3F: // sd + case 0x3D: // sdr + case 0x2C: // sdl + recMemcheck(op,64,true); + break; + case 0x1E: // lq + recMemcheck(op,128,false); + break; + case 0x1F: // sq + recMemcheck(op,128,true); + break; + } + +} + void recompileNextInstruction(int delayslot) { @@ -1364,12 +1524,12 @@ void recompileNextInstruction(int delayslot) int count; // add breakpoint - if (CBreakPoints::IsAddressBreakPoint(pc)) + if (!delayslot) { - iFlushCall(FLUSH_EVERYTHING); - xCALL(&dynarecCheckBreakpoint); + encodeBreakpoint(); + encodeMemcheck(); } - + s_pCode = (int *)PSM( pc ); pxAssert(s_pCode); @@ -1378,53 +1538,6 @@ void recompileNextInstruction(int delayslot) cpuRegs.code = *(int *)s_pCode; - if (CBreakPoints::GetMemChecks().size() != 0) - { - switch (cpuRegs.code >> 26) - { - case 0x20: // lb - case 0x24: // lbu - recMemcheck(8,false); - break; - case 0x28: // sb - recMemcheck(8,true); - break; - case 0x21: // lh - case 0x25: // lhu - recMemcheck(16,false); - break; - case 0x22: // lwl - case 0x23: // lw - case 0x26: // lwr - recMemcheck(32,false); - break; - case 0x29: // sh - recMemcheck(16,true); - break; - case 0x2A: // swl - case 0x2B: // sw - case 0x2E: // swr - recMemcheck(32,true); - break; - case 0x37: // ld - case 0x1B: // ldr - case 0x1A: // ldl - recMemcheck(64,false); - break; - case 0x3F: // sd - case 0x3D: // sdr - case 0x2C: // sdl - recMemcheck(64,true); - break; - case 0x1E: // lq - recMemcheck(128,false); - break; - case 0x1F: // sq - recMemcheck(128,true); - break; - } - } - if (!delayslot) { pc += 4; g_cpuFlushedPC = false; @@ -1675,44 +1788,6 @@ bool skipMPEG_By_Pattern(u32 sPC) { return 0; } -inline bool needsBreakpoint(u32 pc) -{ - if (CBreakPoints::IsAddressBreakPoint(pc)) - return true; - - if (CBreakPoints::GetMemChecks().size() == 0) - return false; - - u32 op = memRead32(pc); - - switch (op >> 26) - { - case 0x20: // lb - case 0x21: // lh - case 0x22: // lwl - case 0x23: // lw - case 0x24: // lbu - case 0x25: // lhu - case 0x26: // lwr - case 0x28: // sb - case 0x29: // sh - case 0x2A: // swl - case 0x2B: // sw - case 0x2E: // swr - case 0x37: // ld - case 0x1B: // ldr - case 0x3F: // sd - case 0x3D: // sdr - case 0x1A: // ldl - case 0x2C: // sdl - case 0x1E: // lq - case 0x1F: // sq - return true; - default: - return false; - } -} - static void __fastcall recRecompile( const u32 startpc ) { u32 i = 0; @@ -1793,9 +1868,12 @@ static void __fastcall recRecompile( const u32 startpc ) s_branchTo = -1; // compile breakpoints as individual blocks - if (needsBreakpoint(i)) + int n1 = isBreakpointNeeded(i); + int n2 = isMemcheckNeeded(i); + int n = std::max(n1,n2); + if (n != 0) { - s_nEndBlock = i + 4; + s_nEndBlock = i + n*4; goto StartRecomp; } @@ -1803,7 +1881,7 @@ static void __fastcall recRecompile( const u32 startpc ) BASEBLOCK* pblock = PC_GETBLOCK(i); // stop before breakpoints - if (needsBreakpoint(i)) + if (isBreakpointNeeded(i) != 0 || isMemcheckNeeded(i) != 0) { s_nEndBlock = i; break;