pcsx2/pcsx2/Dump.cpp

360 lines
12 KiB
C++

/* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2010 PCSX2 Dev Team
*
* PCSX2 is free software: you can redistribute it and/or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found-
* ation, either version 3 of the License, or (at your option) any later version.
*
* PCSX2 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE. See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along with PCSX2.
* If not, see <http://www.gnu.org/licenses/>.
*/
#include "PrecompiledHeader.h"
#include "IopCommon.h"
#include "Counters.h"
#include "iCore.h"
#include "iR5900.h"
#include "IPU/IPU.h"
#include "DebugTools/SymbolMap.h"
#include "AppConfig.h"
#include "Utilities/AsciiFile.h"
using namespace R5900;
// fixme: currently should not be uncommented.
//#define TEST_BROKEN_DUMP_ROUTINES
#ifdef TEST_BROKEN_DUMP_ROUTINES
extern tIPU_BP g_BP;
#define VF_VAL(x) ((x==0x80000000)?0:(x))
#endif
// iR5900-32.cpp
extern EEINST* s_pInstCache;
extern u32 s_nEndBlock; // what pc the current block ends
void iDumpPsxRegisters(u32 startpc, u32 temp)
{
// [TODO] fixme : this code is broken and has no labels. Needs a rewrite to be useful.
#ifdef TEST_BROKEN_DUMP_ROUTINES
int i;
const char* pstr = temp ? "t" : "";
// fixme: PSXM doesn't exist any more.
//__Log("%spsxreg: %x %x ra:%x k0: %x %x", pstr, startpc, psxRegs.cycle, psxRegs.GPR.n.ra, psxRegs.GPR.n.k0, *(int*)PSXM(0x13c128));
for(i = 0; i < 34; i+=2) __Log("%spsx%s: %x %x", pstr, disRNameGPR[i], psxRegs.GPR.r[i], psxRegs.GPR.r[i+1]);
DbgCon.WriteLn("%scycle: %x %x %x; counters %x %x", pstr, psxRegs.cycle, g_iopNextEventCycle, EEsCycle,
psxNextsCounter, psxNextCounter);
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 2) + hw_dma(2).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 3) + hw_dma(3).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 4) + hw_dma(4).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 6) + hw_dma(6).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 7) + hw_dma(7).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 8) + hw_dma(8).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 9) + hw_dma(9).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 10) + hw_dma(10).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 11) + hw_dma(11).desc());
DbgCon.WriteLn(wxsFormat(L"psxdma%d ", 12) + hw_dma(12).desc());
for(i = 0; i < 7; ++i)
DbgCon.WriteLn("%scounter%d: mode %x count %I64x rate %x scycle %x target %I64x", pstr, i, psxCounters[i].mode, psxCounters[i].count, psxCounters[i].rate, psxCounters[i].sCycleT, psxCounters[i].target);
#endif
}
void iDumpRegisters(u32 startpc, u32 temp)
{
// [TODO] fixme : this code is broken and has no labels. Needs a rewrite to be useful.
#ifdef TEST_BROKEN_DUMP_ROUTINES
int i;
const char* pstr;// = temp ? "t" : "";
const u32 dmacs[] = {0x8000, 0x9000, 0xa000, 0xb000, 0xb400, 0xc000, 0xc400, 0xc800, 0xd000, 0xd400 };
const char* psymb;
if (temp)
pstr = "t";
else
pstr = "";
psymb = disR5900GetSym(startpc);
if( psymb != NULL )
__Log("%sreg(%s): %x %x c:%x", pstr, psymb, startpc, cpuRegs.interrupt, cpuRegs.cycle);
else
__Log("%sreg: %x %x c:%x", pstr, startpc, cpuRegs.interrupt, cpuRegs.cycle);
for(i = 1; i < 32; ++i) __Log("%s: %x_%x_%x_%x", disRNameGPR[i], cpuRegs.GPR.r[i].UL[3], cpuRegs.GPR.r[i].UL[2], cpuRegs.GPR.r[i].UL[1], cpuRegs.GPR.r[i].UL[0]);
//for(i = 0; i < 32; i+=4) __Log("cp%d: %x_%x_%x_%x", i, cpuRegs.CP0.r[i], cpuRegs.CP0.r[i+1], cpuRegs.CP0.r[i+2], cpuRegs.CP0.r[i+3]);
//for(i = 0; i < 32; ++i) __Log("%sf%d: %f %x", pstr, i, fpuRegs.fpr[i].f, fpuRegs.fprc[i]);
//for(i = 1; i < 32; ++i) __Log("%svf%d: %f %f %f %f, vi: %x", pstr, i, VU0.VF[i].F[3], VU0.VF[i].F[2], VU0.VF[i].F[1], VU0.VF[i].F[0], VU0.VI[i].UL);
for(i = 0; i < 32; ++i) __Log("%sf%d: %x %x", pstr, i, fpuRegs.fpr[i].UL, fpuRegs.fprc[i]);
for(i = 1; i < 32; ++i) __Log("%svf%d: %x %x %x %x, vi: %x", pstr, i, VU0.VF[i].UL[3], VU0.VF[i].UL[2], VU0.VF[i].UL[1], VU0.VF[i].UL[0], VU0.VI[i].UL);
__Log("%svfACC: %x %x %x %x", pstr, VU0.ACC.UL[3], VU0.ACC.UL[2], VU0.ACC.UL[1], VU0.ACC.UL[0]);
__Log("%sLO: %x_%x_%x_%x, HI: %x_%x_%x_%x", pstr, cpuRegs.LO.UL[3], cpuRegs.LO.UL[2], cpuRegs.LO.UL[1], cpuRegs.LO.UL[0],
cpuRegs.HI.UL[3], cpuRegs.HI.UL[2], cpuRegs.HI.UL[1], cpuRegs.HI.UL[0]);
__Log("%sCycle: %x %x, Count: %x", pstr, cpuRegs.cycle, g_nextEventCycle, cpuRegs.CP0.n.Count);
iDumpPsxRegisters(psxRegs.pc, temp);
__Log("f410,30,40: %x %x %x, %d %d", psHu32(0xf410), psHu32(0xf430), psHu32(0xf440), rdram_sdevid, rdram_devices);
__Log("cyc11: %x %x; vu0: %x, vu1: %x", cpuRegs.sCycle[1], cpuRegs.eCycle[1], VU0.cycle, VU1.cycle);
__Log("%scounters: %x %x; psx: %x %x", pstr, nextsCounter, nextCounter, psxNextsCounter, psxNextCounter);
// fixme: The members of the counters[i] struct are wrong here.
/*for(i = 0; i < 4; ++i) {
__Log("eetimer%d: count: %x mode: %x target: %x %x; %x %x; %x %x %x %x", i,
counters[i].count, counters[i].mode, counters[i].target, counters[i].hold, counters[i].rate,
counters[i].interrupt, counters[i].Cycle, counters[i].sCycle, counters[i].CycleT, counters[i].sCycleT);
}*/
__Log("VIF0_STAT = %x, VIF1_STAT = %x", psHu32(0x3800), psHu32(0x3C00));
__Log("ipu %x %x %x %x; bp: %x %x %x %x", psHu32(0x2000), psHu32(0x2010), psHu32(0x2020), psHu32(0x2030), g_BP.BP, g_BP.bufferhasnew, g_BP.FP, g_BP.IFC);
__Log("gif: %x %x %x", psHu32(0x3000), psHu32(0x3010), psHu32(0x3020));
for(i = 0; i < ArraySize(dmacs); ++i) {
DMACh* p = (DMACh*)(&eeHw[dmacs[i]]);
__Log("dma%d c%x m%x q%x t%x s%x", i, p->chcr._u32, p->madr, p->qwc, p->tadr, p->sadr);
}
__Log(L"dmac " + dmacRegs.ctrl.desc() + L" " + dmacRegs.stat.desc() + L" " + dmacRegs.rbsr.desc() + L" " + dmacRegs.rbor.desc());
__Log(L"intc " + intcRegs->stat.desc() + L" " + intcRegs->mask.desc());
__Log("sif: %x %x %x %x %x", psHu32(SBUS_F200), psHu32(SBUS_F220), psHu32(SBUS_F230), psHu32(SBUS_F240), psHu32(SBUS_F260));
#endif
}
void iDumpVU0Registers()
{
// fixme: This code is outdated, broken, and lacks printed labels.
// Needs heavy mods to be useful.
#ifdef TEST_BROKEN_DUMP_ROUTINES
for(int i = 1; i < 32; ++i) {
__Log("v%d: %x %x %x %x, vi: ", i, VF_VAL(VU0.VF[i].UL[3]), VF_VAL(VU0.VF[i].UL[2]),
VF_VAL(VU0.VF[i].UL[1]), VF_VAL(VU0.VF[i].UL[0]));
switch (i)
{
case REG_Q:
case REG_P:
__Log("%f", VU0.VI[i].F);
break;
case REG_MAC_FLAG:
__Log("%x", 0);//VU0.VI[i].UL&0xff);
break;
case REG_STATUS_FLAG:
__Log("%x", 0);//VU0.VI[i].UL&0x03);
break;
case REG_CLIP_FLAG:
__Log("0");
break;
default:
__Log("%x", VU0.VI[i].UL);
break;
}
}
__Log("vfACC: %f %f %f %f\n", VU0.ACC.F[3], VU0.ACC.F[2], VU0.ACC.F[1], VU0.ACC.F[0]);
#endif
}
void iDumpVU1Registers()
{
// fixme: This code is outdated, broken, and lacks printed labels.
// Needs heavy mods to be useful.
#ifdef TEST_BROKEN_DUMP_ROUTINES
int i;
// static int icount = 0;
// __Log("%x\n", icount);
for(i = 1; i < 32; ++i) {
// __Log("v%d: w%f(%x) z%f(%x) y%f(%x) x%f(%x), vi: ", i, VU1.VF[i].F[3], VU1.VF[i].UL[3], VU1.VF[i].F[2], VU1.VF[i].UL[2],
// VU1.VF[i].F[1], VU1.VF[i].UL[1], VU1.VF[i].F[0], VU1.VF[i].UL[0]);
//__Log("v%d: %f %f %f %f, vi: ", i, VU1.VF[i].F[3], VU1.VF[i].F[2], VU1.VF[i].F[1], VU1.VF[i].F[0]);
__Log("v%d: %x %x %x %x, vi: ", i, VF_VAL(VU1.VF[i].UL[3]), VF_VAL(VU1.VF[i].UL[2]), VF_VAL(VU1.VF[i].UL[1]), VF_VAL(VU1.VF[i].UL[0]));
if( i == REG_Q || i == REG_P ) __Log("%f\n", VU1.VI[i].F);
//else __Log("%x\n", VU1.VI[i].UL);
else __Log("%x\n", (i==REG_STATUS_FLAG||i==REG_MAC_FLAG||i==REG_CLIP_FLAG)?0:VU1.VI[i].UL);
}
__Log("vfACC: %f %f %f %f\n", VU1.ACC.F[3], VU1.ACC.F[2], VU1.ACC.F[1], VU1.ACC.F[0]);
#endif
}
// This function is close of iDumpBlock but it doesn't rely too much on
// global variable. Beside it doesn't print the flag info.
//
// However you could call it anytime to dump any block. And we have both
// x86 and EE disassembly code
void iDumpBlock(u32 ee_pc, u32 ee_size, uptr x86_pc, u32 x86_size)
{
u32 ee_end = ee_pc + ee_size;
DbgCon.WriteLn( Color_Gray, "dump block %x:%x (x86:0x%x)", ee_pc, ee_end, x86_pc );
g_Conf->Folders.Logs.Mkdir();
wxString dump_filename = Path::Combine( g_Conf->Folders.Logs, wxsFormat(L"R5900dump_%.8X:%.8X.txt", ee_pc, ee_end) );
AsciiFile eff( dump_filename, L"w" );
// Print register content to detect the memory access type. Warning value are taken
// during the call of this function. There aren't the real value of the block.
eff.Printf("Dump register data: 0x%x\n", (uptr)&cpuRegs.GPR.r[0].UL[0]);
for (int reg = 0; reg < 32; reg++) {
// Only lower 32 bits (enough for address)
eff.Printf("\t%2s <= 0x%08x_%08x\n", R5900::GPR_REG[reg], cpuRegs.GPR.r[reg].UL[1],cpuRegs.GPR.r[reg].UL[0]);
}
eff.Printf("\n");
if (!symbolMap.GetLabelString(ee_pc).empty())
{
eff.Printf( "%s\n", symbolMap.GetLabelString(ee_pc).c_str() );
}
for ( u32 i = ee_pc; i < ee_end; i += 4 )
{
std::string output;
//TLB Issue disR5900Fasm( output, memRead32( i ), i, false );
disR5900Fasm( output, psMu32(i), i, false );
eff.Printf( "0x%.X : %s\n", i, output.c_str() );
}
// Didn't find (search) a better solution
eff.Printf( "\nRaw x86 dump (https://www.onlinedisassembler.com/odaweb/):\n");
u8* x86 = (u8*)x86_pc;
for (u32 i = 0; i < x86_size; i++) {
eff.Printf("%.2X", x86[i]);
}
eff.Printf("\n\n");
eff.Close(); // Close the file so it can be appended by objdump
// handy but slow solution (system call)
#ifdef __linux__
wxString obj_filename = Path::Combine(g_Conf->Folders.Logs, wxString(L"objdump_tmp.o"));
wxFFile objdump(obj_filename , L"wb");
objdump.Write(x86, x86_size);
objdump.Close();
std::system(
wxsFormat( L"objdump -D -b binary -mi386 --disassembler-options=intel --no-show-raw-insn --adjust-vma=%d %s >> %s",
(u32) x86_pc, WX_STR(obj_filename), WX_STR(dump_filename)).mb_str()
);
#endif
}
// Originally from iR5900-32.cpp
void iDumpBlock( int startpc, u8 * ptr )
{
u8 used[34];
u8 fpuused[33];
int numused, fpunumused;
DbgCon.WriteLn( Color_Gray, "dump1 %x:%x, %x", startpc, pc, cpuRegs.cycle );
g_Conf->Folders.Logs.Mkdir();
AsciiFile eff(
Path::Combine( g_Conf->Folders.Logs, wxsFormat(L"R5900dump%.8X.txt", startpc) ), L"w"
);
if (!symbolMap.GetLabelString(startpc).empty())
{
eff.Printf( "%s\n", symbolMap.GetLabelString(startpc).c_str() );
}
for ( uint i = startpc; i < s_nEndBlock; i += 4 )
{
std::string output;
disR5900Fasm( output, memRead32( i ), i, false );
eff.Printf( "%s\n", output.c_str() );
}
// write the instruction info
eff.Printf( "\n\nlive0 - %x, live2 - %x, lastuse - %x\nxmm - %x, used - %x\n",
EEINST_LIVE0, EEINST_LIVE2, EEINST_LASTUSE, EEINST_XMM, EEINST_USED
);
memzero(used);
numused = 0;
for(uint i = 0; i < ArraySize(s_pInstCache->regs); ++i) {
if( s_pInstCache->regs[i] & EEINST_USED ) {
used[i] = 1;
numused++;
}
}
memzero(fpuused);
fpunumused = 0;
for(uint i = 0; i < ArraySize(s_pInstCache->fpuregs); ++i) {
if( s_pInstCache->fpuregs[i] & EEINST_USED ) {
fpuused[i] = 1;
fpunumused++;
}
}
eff.Printf( " " );
for(uint i = 0; i < ArraySize(s_pInstCache->regs); ++i) {
if( used[i] ) eff.Printf( "%2d ", i );
}
eff.Printf( "\n" );
for(uint i = 0; i < ArraySize(s_pInstCache->fpuregs); ++i) {
if( fpuused[i] ) eff.Printf( "%2d ", i );
}
eff.Printf( "\n" );
eff.Printf( " " );
// TODO : Finish converting this over to wxWidgets wxFile stuff...
/*
int count;
EEINST* pcur;
for(uint i = 0; i < ArraySize(s_pInstCache->regs); ++i) {
if( used[i] ) fprintf(f, "%s ", disRNameGPR[i]);
}
for(uint i = 0; i < ArraySize(s_pInstCache->fpuregs); ++i) {
if( fpuused[i] ) fprintf(f, "%s ", i<32?"FR":"FA");
}
fprintf(f, "\n");
pcur = s_pInstCache+1;
for( uint i = 0; i < (s_nEndBlock-startpc)/4; ++i, ++pcur) {
fprintf(f, "%2d: %2.2x ", i+1, pcur->info);
count = 1;
for(uint j = 0; j < ArraySize(s_pInstCache->regs); j++) {
if( used[j] ) {
fprintf(f, "%2.2x%s", pcur->regs[j], ((count%8)&&count<numused)?"_":" ");
++count;
}
}
count = 1;
for(uint j = 0; j < ArraySize(s_pInstCache->fpuregs); j++) {
if( fpuused[j] ) {
fprintf(f, "%2.2x%s", pcur->fpuregs[j], ((count%8)&&count<fpunumused)?"_":" ");
++count;
}
}
fprintf(f, "\n");
}
fclose( f );*/
}