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ProcessPrx.C
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ProcessPrx.C
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/***************************************************************
* PRXTool : Utility for PSP executables.
* (c) TyRaNiD 2k5
*
* ProcessPrx.C - Implementation of a class to manipulate a PRX
***************************************************************/
#include <stdio.h>
#include <string.h>
#include <cassert>
#include "ProcessPrx.h"
#include "VirtualMem.h"
#include "output.h"
#include "disasm.h"
static const char* g_szRelTypes[16] =
{
"R_NONE",
"R_16",
"R_32",
"R_REL32",
"R_26",
"R_HI16",
"R_LO16",
"R_GPREL16",
"R_LITERAL",
"R_GOT16",
"R_PC16",
"R_CALL16",
"R_GPREL32",
"X_HI16",
"X_J26",
"X_JAL26"
};
/* Flag indicates the reloc offset field is relative to the text section base */
#define RELOC_OFS_TEXT 0
/* Flag indicates the reloc offset field is relative to the data section base */
#define RELOC_OFS_DATA 1
/* Flag indicates the reloc'ed field should be fixed up relative to the data section base */
#define RELOC_REL_DATA 256
/* Minimum string size */
#define MINIMUM_STRING 4
CProcessPrx::CProcessPrx(u32 dwBase)
: CProcessElf()
, m_defNidMgr()
, m_pCurrNidMgr(&m_defNidMgr)
, m_pElfRelocs(NULL)
, m_iRelocCount(0)
, m_dwBase(dwBase)
, m_blXmlDump(false)
{
memset(&m_modInfo, 0, sizeof(PspModule));
m_blPrxLoaded = false;
}
CProcessPrx::~CProcessPrx()
{
FreeMemory();
}
void CProcessPrx::FreeMemory()
{
/* Lets delete the export list */
PspLibExport *pExport;
PspLibImport *pImport;
pExport = m_modInfo.exp_head;
while(pExport != NULL)
{
PspLibExport *pNext;
pNext = pExport->next;
delete pExport;
pExport = pNext;
}
pImport = m_modInfo.imp_head;
while(pImport != NULL)
{
PspLibImport *pNext;
pNext = pImport->next;
delete pImport;
pImport = pNext;
}
if(m_pElfRelocs != NULL)
{
delete m_pElfRelocs;
m_pElfRelocs = NULL;
}
m_iRelocCount = 0;
/* Check the import and export lists and free */
memset(&m_modInfo, 0, sizeof(PspModule));
FreeSymbols(m_syms);
FreeImms(m_imms);
}
int CProcessPrx::LoadSingleImport(PspModuleImport *pImport, u32 addr)
{
bool blError = true;
int count = 0;
int iLoop;
u32 nidAddr;
u32 funcAddr;
u32 varAddr;
PspLibImport *pLib = NULL;
SAFE_ALLOC(pLib, PspLibImport);
if(pLib != NULL)
{
do
{
memset(pLib, 0, sizeof(PspModuleImport));
pLib->addr = addr;
pLib->stub.name = LW(pImport->name);
pLib->stub.flags = LW(pImport->flags);
pLib->stub.counts = LW(pImport->counts);
pLib->stub.nids = LW(pImport->nids);
pLib->stub.funcs = LW(pImport->funcs);
pLib->stub.vars = LW(pImport->vars);
if(pLib->stub.name == 0)
{
/* Shouldn't be zero, although technically it could be */
COutput::Puts(LEVEL_ERROR, "Import libraries must have a name");
break;
}
else
{
char *pName = (char*) m_vMem.GetPtr(pLib->stub.name);
const char *dep;
if(pName == NULL)
{
COutput::Printf(LEVEL_ERROR, "Invalid memory address for import name (0x%08X)\n", pLib->stub.name);
break;
}
/* Should use strncpy I guess */
strcpy(pLib->name, pName);
dep = m_pCurrNidMgr->FindDependancy(pName);
if(dep)
{
const char *slash;
/* Remove any path element */
slash = strrchr(dep, '/');
if(slash)
{
dep = slash + 1;
}
strcpy(pLib->file, dep);
}
}
COutput::Printf(LEVEL_DEBUG, "Found import library '%s'\n", pLib->name);
COutput::Printf(LEVEL_DEBUG, "Flags %08X, counts %08X, nids %08X, funcs %08X\n",
pLib->stub.flags, pLib->stub.counts, pLib->stub.nids, pLib->stub.funcs);
pLib->v_count = (pLib->stub.counts >> 8) & 0xFF;
pLib->f_count = (pLib->stub.counts >> 16) & 0xFFFF;
count = pLib->stub.counts & 0xFF;
nidAddr = pLib->stub.nids;
funcAddr = pLib->stub.funcs;
varAddr = pLib->stub.vars;
if(m_vMem.GetSize(nidAddr) < (sizeof(u32) * pLib->f_count))
{
COutput::Puts(LEVEL_ERROR, "Not enough space for library import nids");
break;
}
if(m_vMem.GetSize(funcAddr) < (u32) (8 * pLib->f_count))
{
COutput::Puts(LEVEL_ERROR, "Not enough space for library functions");
break;
}
for(iLoop = 0; iLoop < pLib->f_count; iLoop++)
{
pLib->funcs[iLoop].nid = m_vMem.GetU32(nidAddr);
strcpy(pLib->funcs[iLoop].name, m_pCurrNidMgr->FindLibName(pLib->name, pLib->funcs[iLoop].nid));
pLib->funcs[iLoop].type = PSP_ENTRY_FUNC;
pLib->funcs[iLoop].addr = funcAddr;
pLib->funcs[iLoop].nid_addr = nidAddr;
COutput::Printf(LEVEL_DEBUG, "Found import nid:0x%08X func:0x%08X name:%s\n",
pLib->funcs[iLoop].nid, pLib->funcs[iLoop].addr, pLib->funcs[iLoop].name);
nidAddr += 4;
funcAddr += 8;
}
for(iLoop = 0; iLoop < pLib->v_count; iLoop++)
{
u32 varFixup;
u32 varData;
pLib->vars[iLoop].addr = m_vMem.GetU32(varAddr);
pLib->vars[iLoop].nid = m_vMem.GetU32(varAddr+4);
pLib->vars[iLoop].type = PSP_ENTRY_VAR;
pLib->vars[iLoop].nid_addr = varAddr+4;
strcpy(pLib->vars[iLoop].name, m_pCurrNidMgr->FindLibName(pLib->name, pLib->vars[iLoop].nid));
COutput::Printf(LEVEL_DEBUG, "Found variable nid:0x%08X addr:0x%08X name:%s\n",
pLib->vars[iLoop].nid, pLib->vars[iLoop].addr, pLib->vars[iLoop].name);
varFixup = pLib->vars[iLoop].addr;
while((varData = m_vMem.GetU32(varFixup)))
{
COutput::Printf(LEVEL_DEBUG, "Variable Fixup: addr:%08X type:%08X\n",
(varData & 0x3FFFFFF) << 2, varData >> 26);
varFixup += 4;
}
varAddr += 8;
}
if(m_modInfo.imp_head == NULL)
{
pLib->next = NULL;
pLib->prev = NULL;
m_modInfo.imp_head = pLib;
}
else
{
// Search for the end of the list
PspLibImport* pImport;
pImport = m_modInfo.imp_head;
while(pImport->next != NULL)
{
pImport = pImport->next;
}
pImport->next = pLib;
pLib->prev = pImport;
pLib->next = NULL;
}
blError = false;
}
while(false);
}
else
{
COutput::Puts(LEVEL_ERROR, "Could not allocate memory for import library");
}
if(blError == true)
{
count = 0;
if(pLib != NULL)
{
delete pLib;
pLib = NULL;
}
}
return count;
}
bool CProcessPrx::LoadImports()
{
bool blRet = true;
u32 imp_base;
u32 imp_end;
assert(m_modInfo.imp_head == NULL);
imp_base = m_modInfo.info.imports;
imp_end = m_modInfo.info.imp_end;
if(imp_base != 0)
{
while((imp_end - imp_base) >= PSP_IMPORT_BASE_SIZE)
{
u32 count;
PspModuleImport *pImport;
pImport = (PspModuleImport*) m_vMem.GetPtr(imp_base);
if(pImport != NULL)
{
count = LoadSingleImport(pImport, imp_base);
if(count > 0)
{
imp_base += (count * sizeof(u32));
}
else
{
blRet = false;
break;
}
}
else
{
blRet = false;
break;
}
}
}
return blRet;
}
int CProcessPrx::LoadSingleExport(PspModuleExport *pExport, u32 addr)
{
bool blError = true;
int count = 0;
int iLoop;
PspLibExport* pLib = NULL;
u32 expAddr;
assert(pExport != NULL);
SAFE_ALLOC(pLib, PspLibExport);
if(pLib != NULL)
{
do
{
memset(pLib, 0, sizeof(PspLibExport));
pLib->addr = addr;
pLib->stub.name = LW(pExport->name);
pLib->stub.flags = LW(pExport->flags);
pLib->stub.counts = LW(pExport->counts);
pLib->stub.exports = LW(pExport->exports);
if(pLib->stub.name == 0)
{
/* If 0 then this is the system, this should be the only one */
strcpy(pLib->name, PSP_SYSTEM_EXPORT);
}
else
{
char *pName = (char*) m_vMem.GetPtr(pLib->stub.name);
if(pName == NULL)
{
COutput::Printf(LEVEL_ERROR, "Invalid memory address for export name (0x%08X)\n", pLib->stub.name);
break;
}
strcpy(pLib->name, pName);
}
COutput::Printf(LEVEL_DEBUG, "Found export library '%s'\n", pLib->name);
COutput::Printf(LEVEL_DEBUG, "Flags %08X, counts %08X, exports %08X\n",
pLib->stub.flags, pLib->stub.counts, pLib->stub.exports);
pLib->v_count = (pLib->stub.counts >> 8) & 0xFF;
pLib->f_count = (pLib->stub.counts >> 16) & 0xFFFF;
count = pLib->stub.counts & 0xFF;
expAddr = pLib->stub.exports;
if(m_vMem.GetSize(expAddr) < (sizeof(u32) * (pLib->v_count + pLib->f_count)))
{
COutput::Printf(LEVEL_ERROR, "Invalid memory address for exports (0x%08X)\n", pLib->stub.exports);
break;
}
for(iLoop = 0; iLoop < pLib->f_count; iLoop++)
{
/* We will fix up the names later */
pLib->funcs[iLoop].nid = m_vMem.GetU32(expAddr);
strcpy(pLib->funcs[iLoop].name, m_pCurrNidMgr->FindLibName(pLib->name, pLib->funcs[iLoop].nid));
pLib->funcs[iLoop].type = PSP_ENTRY_FUNC;
pLib->funcs[iLoop].addr = m_vMem.GetU32(expAddr + (sizeof(u32) * (pLib->v_count + pLib->f_count)));
pLib->funcs[iLoop].nid_addr = expAddr;
COutput::Printf(LEVEL_DEBUG, "Found export nid:0x%08X func:0x%08X name:%s\n",
pLib->funcs[iLoop].nid, pLib->funcs[iLoop].addr, pLib->funcs[iLoop].name);
expAddr += 4;
}
for(iLoop = 0; iLoop < pLib->v_count; iLoop++)
{
/* We will fix up the names later */
pLib->vars[iLoop].nid = m_vMem.GetU32(expAddr);
strcpy(pLib->vars[iLoop].name, m_pCurrNidMgr->FindLibName(pLib->name, pLib->vars[iLoop].nid));
pLib->vars[iLoop].type = PSP_ENTRY_FUNC;
pLib->vars[iLoop].addr = m_vMem.GetU32(expAddr + (sizeof(u32) * (pLib->v_count + pLib->f_count)));
pLib->vars[iLoop].nid_addr = expAddr;
COutput::Printf(LEVEL_DEBUG, "Found export nid:0x%08X var:0x%08X name:%s\n",
pLib->vars[iLoop].nid, pLib->vars[iLoop].addr, pLib->vars[iLoop].name);
expAddr += 4;
}
if(m_modInfo.exp_head == NULL)
{
pLib->next = NULL;
pLib->prev = NULL;
m_modInfo.exp_head = pLib;
}
else
{
// Search for the end of the list
PspLibExport* pExport;
pExport = m_modInfo.exp_head;
while(pExport->next != NULL)
{
pExport = pExport->next;
}
pExport->next = pLib;
pLib->prev = pExport;
pLib->next = NULL;
}
blError = false;
}
while(false);
}
else
{
COutput::Printf(LEVEL_ERROR, "Couldn't allocate memory for export\n");
}
if(blError)
{
count = 0;
if(pLib != NULL)
{
delete pLib;
pLib = NULL;
}
}
return count;
}
bool CProcessPrx::LoadExports()
{
bool blRet = true;
u32 exp_base;
u32 exp_end;
assert(m_modInfo.exp_head == NULL);
exp_base = m_modInfo.info.exports;
exp_end = m_modInfo.info.exp_end;
if(exp_base != 0)
{
while((exp_end - exp_base) >= sizeof(PspModuleExport))
{
u32 count;
PspModuleExport *pExport;
pExport = (PspModuleExport*) m_vMem.GetPtr(exp_base);
if(pExport != NULL)
{
count = LoadSingleExport(pExport, exp_base);
if(count > 0)
{
exp_base += (count * sizeof(u32));
}
else
{
blRet = false;
break;
}
}
else
{
blRet = false;
break;
}
}
}
return blRet;
}
bool CProcessPrx::FillModule(u8 *pData, u32 iAddr)
{
bool blRet = false;
if(pData != NULL)
{
PspModuleInfo *pModInfo;
pModInfo = (PspModuleInfo*) pData;
memcpy(m_modInfo.name, pModInfo->name, PSP_MODULE_MAX_NAME);
m_modInfo.name[PSP_MODULE_MAX_NAME] = 0;
m_modInfo.addr = iAddr;
memcpy(&m_modInfo.info, pModInfo, sizeof(PspModuleInfo));
m_modInfo.info.flags = LW(m_modInfo.info.flags);
m_modInfo.info.gp = LW(m_modInfo.info.gp);
m_modInfo.info.exports = LW(m_modInfo.info.exports);
m_modInfo.info.exp_end = LW(m_modInfo.info.exp_end);
m_modInfo.info.imports = LW(m_modInfo.info.imports);
m_modInfo.info.imp_end = LW(m_modInfo.info.imp_end);
m_stubBottom = m_modInfo.info.exports - 4; // ".lib.ent.top"
COutput::Printf(LEVEL_DEBUG, "Stub bottom 0x%08X\n", m_stubBottom);
blRet = true;
if(COutput::GetDebug())
{
COutput::Puts(LEVEL_DEBUG, "Module Info:");
COutput::Printf(LEVEL_DEBUG, "Name: %s\n", m_modInfo.name);
COutput::Printf(LEVEL_DEBUG, "Addr: 0x%08X\n", m_modInfo.addr);
COutput::Printf(LEVEL_DEBUG, "Flags: 0x%08X\n", m_modInfo.info.flags);
COutput::Printf(LEVEL_DEBUG, "GP: 0x%08X\n", m_modInfo.info.gp);
COutput::Printf(LEVEL_DEBUG, "Exports: 0x%08X, Exp_end 0x%08X\n", m_modInfo.info.exports, m_modInfo.info.exp_end);
COutput::Printf(LEVEL_DEBUG, "Imports: 0x%08X, Imp_end 0x%08X\n", m_modInfo.info.imports, m_modInfo.info.imp_end);
}
}
return blRet;
}
bool CProcessPrx::CreateFakeSections()
{
/* If we have no section headers let's build some fake sections */
if(m_iSHCount == 0)
{
if(m_iPHCount < 3)
{
COutput::Printf(LEVEL_ERROR, "Invalid number of program headers for newstyle PRX (%d)\n",
m_iPHCount);
return false;
}
if (m_pElfPrograms[2].iType == PT_PRXRELOC) {
m_iSHCount = 6;
} else {
m_iSHCount = 5;
}
SAFE_ALLOC(m_pElfSections, ElfSection[m_iSHCount]);
if(m_pElfSections == NULL)
{
return false;
}
memset(m_pElfSections, 0, sizeof(ElfSection) * m_iSHCount);
m_pElfSections[1].iType = SHT_PROGBITS;
m_pElfSections[1].iFlags = SHF_ALLOC | SHF_EXECINSTR;
m_pElfSections[1].iAddr = m_pElfPrograms[0].iVaddr;
m_pElfSections[1].pData = m_pElf + m_pElfPrograms[0].iOffset;
m_pElfSections[1].iSize = m_stubBottom;
strcpy(m_pElfSections[1].szName, ".text");
m_pElfSections[2].iType = SHT_PROGBITS;
m_pElfSections[2].iFlags = SHF_ALLOC;
m_pElfSections[2].iAddr = m_stubBottom;
m_pElfSections[2].pData = m_pElf + m_pElfPrograms[0].iOffset + m_stubBottom;
m_pElfSections[2].iSize = m_pElfPrograms[0].iMemsz - m_stubBottom;
strcpy(m_pElfSections[2].szName, ".rodata");
m_pElfSections[3].iType = SHT_PROGBITS;
m_pElfSections[3].iFlags = SHF_ALLOC | SHF_WRITE;
m_pElfSections[3].iAddr = m_pElfPrograms[1].iVaddr;
m_pElfSections[3].pData = m_pElf + m_pElfPrograms[1].iOffset;
m_pElfSections[3].iSize = m_pElfPrograms[1].iFilesz;
strcpy(m_pElfSections[3].szName, ".data");
m_pElfSections[4].iType = SHT_NOBITS;
m_pElfSections[4].iFlags = SHF_ALLOC | SHF_WRITE;
m_pElfSections[4].iAddr = m_pElfPrograms[1].iVaddr + m_pElfPrograms[1].iFilesz;
m_pElfSections[4].pData = m_pElf + m_pElfPrograms[1].iOffset + m_pElfPrograms[1].iFilesz;
m_pElfSections[4].iSize = m_pElfPrograms[1].iMemsz - m_pElfPrograms[1].iFilesz;
strcpy(m_pElfSections[4].szName, ".bss");
if (m_pElfPrograms[2].iType == PT_PRXRELOC) {
m_pElfSections[5].iType = SHT_PRXRELOC;
m_pElfSections[5].iFlags = 0;
m_pElfSections[5].iAddr = 0;
m_pElfSections[5].pData = m_pElf + m_pElfPrograms[2].iOffset;
m_pElfSections[5].iSize = m_pElfPrograms[2].iFilesz;
/* Bind to section 1, not that is matters */
m_pElfSections[5].iInfo = 1;
strcpy(m_pElfSections[5].szName, ".reloc");
}
if(COutput::GetDebug())
{
ElfDumpSections();
}
}
return true;
}
int CProcessPrx::CountRelocs()
{
int iLoop;
int iRelocCount = 0;
for(iLoop = 0; iLoop < m_iSHCount; iLoop++)
{
if((m_pElfSections[iLoop].iType == SHT_PRXRELOC) || (m_pElfSections[iLoop].iType == SHT_REL))
{
if(m_pElfSections[iLoop].iSize % sizeof(Elf32_Rel))
{
COutput::Printf(LEVEL_DEBUG, "Relocation section invalid\n");
}
iRelocCount += m_pElfSections[iLoop].iSize / sizeof(Elf32_Rel);
}
}
for(iLoop = 0; iLoop < m_iPHCount; iLoop++)
{
if(m_pElfPrograms[iLoop].iType == PT_PRXRELOC2) {
u8 *block1, block1s, part1s;
u8 *block2, block2s, part2s;
u8 *pos, *end;
if (m_pElfPrograms[iLoop].pData[0] != 0 ||
m_pElfPrograms[iLoop].pData[1] != 0) {
COutput::Printf(LEVEL_DEBUG, "Should start with 0x00 0x00\n");
return 0;
}
part1s = m_pElfPrograms[iLoop].pData[2];
part2s = m_pElfPrograms[iLoop].pData[3];
block1s = m_pElfPrograms[iLoop].pData[4];
block1 = &m_pElfPrograms[iLoop].pData[4];
block2 = block1 + block1s;
block2s = block2[0];
pos = block2 + block2s;
end = &m_pElfPrograms[iLoop].pData[m_pElfPrograms[iLoop].iFilesz];
while (pos < end) {
u32 cmd, part1, temp;
cmd = pos[0] | (pos[1] << 16);
pos += 2;
temp = (cmd << (16 - part1s)) & 0xFFFF;
temp = (temp >> (16 - part1s)) & 0xFFFF;
if (temp >= block1s) {
COutput::Printf(LEVEL_DEBUG, "Invalid cmd1 index\n");
return 0;
}
part1 = block1[temp];
if ( (part1 & 0x01) == 0 ) {
if ( ( part1 & 0x06 ) == 4 ) {
pos += 4;
}
}
else {
switch (part1 & 0x06) {
case 2:
pos += 2;
break;
case 4:
pos += 4;
break;
}
switch (part1 & 0x38) {
case 0x10:
pos += 2;
break;
case 0x18:
pos += 4;
break;
}
}
iRelocCount++;
}
}
}
COutput::Printf(LEVEL_DEBUG, "Relocation entries %d\n", iRelocCount);
return iRelocCount;
}
int CProcessPrx::LoadRelocsTypeA(struct ElfReloc *pRelocs)
{
int i, count;
const Elf32_Rel *reloc;
int iLoop, iCurrRel = 0;
for(iLoop = 0; iLoop < m_iSHCount; iLoop++)
{
if((m_pElfSections[iLoop].iType == SHT_PRXRELOC) || (m_pElfSections[iLoop].iType == SHT_REL))
{
count = m_pElfSections[iLoop].iSize / sizeof(Elf32_Rel);
reloc = (const Elf32_Rel *) m_pElfSections[iLoop].pData;
for(i = 0; i < count; i++) {
pRelocs[iCurrRel].secname = m_pElfSections[iLoop].szName;
pRelocs[iCurrRel].base = 0;
pRelocs[iCurrRel].type = ELF32_R_TYPE(LW(reloc->r_info));
pRelocs[iCurrRel].symbol = ELF32_R_SYM(LW(reloc->r_info));
pRelocs[iCurrRel].info = LW(reloc->r_info);
pRelocs[iCurrRel].offset = reloc->r_offset;
reloc++;
iCurrRel++;
}
}
}
return iCurrRel;
}
int CProcessPrx::LoadRelocsTypeB(struct ElfReloc *pRelocs)
{
u8 *block1, *block2, *pos, *end;
u32 block1s, block2s, part1s, part2s;
u32 cmd, part1, part2, lastpart2;
u32 addend = 0, offset = 0;
u32 ofsbase = 0xFFFFFFFF, addrbase;
u32 temp1, temp2;
u32 nbits;
int iLoop, iCurrRel = 0;
for(iLoop = 0; iLoop < m_iPHCount; iLoop++)
{
if(m_pElfPrograms[iLoop].iType == PT_PRXRELOC2)
{
part1s = m_pElfPrograms[iLoop].pData[2];
part2s = m_pElfPrograms[iLoop].pData[3];
block1s =m_pElfPrograms[iLoop].pData[4];
block1 = &m_pElfPrograms[iLoop].pData[4];
block2 = block1 + block1s;
block2s = block2[0];
pos = block2 + block2s;
end = &m_pElfPrograms[iLoop].pData[m_pElfPrograms[iLoop].iFilesz];
for (nbits = 1; (1 << nbits) < iLoop; nbits++) {
if (nbits >= 33) {
COutput::Printf(LEVEL_DEBUG, "Invalid nbits\n");
return 0;
}
}
lastpart2 = block2s;
while (pos < end) {
cmd = pos[0] | (pos[1] << 8);
pos += 2;
temp1 = (cmd << (16 - part1s)) & 0xFFFF;
temp1 = (temp1 >> (16 - part1s)) & 0xFFFF;
if (temp1 >= block1s) {
COutput::Printf(LEVEL_DEBUG, "Invalid part1 index\n");
return 0;
}
part1 = block1[temp1];
if ((part1 & 0x01) == 0) {
ofsbase = (cmd << (16 - part1s - nbits)) & 0xFFFF;
ofsbase = (ofsbase >> (16 - nbits)) & 0xFFFF;
if (!(ofsbase < iLoop)) {
COutput::Printf(LEVEL_DEBUG, "Invalid offset base\n");
return 0;
}
if ((part1 & 0x06) == 0) {
offset = cmd >> (part1s + nbits);
} else if ((part1 & 0x06) == 4) {
offset = pos[0] | (pos[1] << 8) | (pos[2] << 16) | (pos[3] << 24);
pos += 4;
} else {
COutput::Printf(LEVEL_DEBUG, "Invalid size\n");
return 0;
}
} else {
temp2 = (cmd << (16 - (part1s + nbits + part2s))) & 0xFFFF;
temp2 = (temp2 >> (16 - part2s)) & 0xFFFF;
if (temp2 >= block2s) {
COutput::Printf(LEVEL_DEBUG, "Invalid part2 index\n");
return 0;
}
addrbase = (cmd << (16 - part1s - nbits)) & 0xFFFF;
addrbase = (addrbase >> (16 - nbits)) & 0xFFFF;
if (!(addrbase < iLoop)) {
COutput::Printf(LEVEL_DEBUG, "Invalid address base\n");
return 0;
}
part2 = block2[temp2];
switch (part1 & 0x06) {
case 0:
temp1 = cmd;
if (temp1 & 0x8000) {
temp1 |= ~0xFFFF;
temp1 >>= part1s + part2s + nbits;
temp1 |= ~0xFFFF;
} else {
temp1 >>= part1s + part2s + nbits;
}
offset += temp1;
break;
case 2:
temp1 = cmd;
if (temp1 & 0x8000) temp1 |= ~0xFFFF;
temp1 = (temp1 >> (part1s + part2s + nbits)) << 16;
temp1 |= pos[0] | (pos[1] << 8);
offset += temp1;
pos += 2;
break;
case 4:
offset = pos[0] | (pos[1] << 8) | (pos[2] << 16) | (pos[3] << 24);
pos += 4;
break;
default:
COutput::Printf(LEVEL_DEBUG, "invalid part1 size\n");
return 0;
}
if (!(offset < m_pElfPrograms[ofsbase].iFilesz)) {
COutput::Printf(LEVEL_DEBUG, "invalid relocation offset\n");
return 0;
}
switch (part1 & 0x38) {
case 0x00:
addend = 0;
break;
case 0x08:
if ((lastpart2 ^ 0x04) != 0) {
addend = 0;
}
break;
case 0x10:
addend = pos[0] | (pos[1] << 8);
pos += 2;
break;
case 0x18:
addend = pos[0] | (pos[1] << 8) | (pos[2] << 16) | (pos[3] << 24);
pos += 4;
COutput::Printf(LEVEL_DEBUG, "invalid addendum size\n");
return 0;
default:
COutput::Printf(LEVEL_DEBUG, "invalid addendum size\n");
return 0;
}
lastpart2 = part2;
pRelocs[iCurrRel].secname = NULL;
pRelocs[iCurrRel].base = 0;
pRelocs[iCurrRel].symbol = ofsbase | (addrbase << 8);
pRelocs[iCurrRel].info = (ofsbase << 8) | (addrbase << 8);
pRelocs[iCurrRel].offset = offset;
switch (part2) {
case 2:
pRelocs[iCurrRel].type = R_MIPS_32;
break;
case 0:
continue;
case 3:
pRelocs[iCurrRel].type = R_MIPS_26;
break;
case 6:
pRelocs[iCurrRel].type = R_MIPS_X_J26;
break;
case 7:
pRelocs[iCurrRel].type = R_MIPS_X_JAL26;
break;
case 4:
pRelocs[iCurrRel].type = R_MIPS_X_HI16;
pRelocs[iCurrRel].base = (s16) addend;
break;
case 1:
case 5:
pRelocs[iCurrRel].type = R_MIPS_LO16;
break;
default:
COutput::Printf(LEVEL_DEBUG, "invalid relocation type\n");
return 0;
}
temp1 = (cmd << (16 - part1s)) & 0xFFFF;
temp1 = (temp1 >> (16 - part1s)) & 0xFFFF;
temp2 = (cmd << (16 - (part1s + nbits + part2s))) & 0xFFFF;
temp2 = (temp2 >> (16 - part2s)) & 0xFFFF;
COutput::Printf(LEVEL_DEBUG, "CMD=0x%04X I1=0x%02X I2=0x%02X PART1=0x%02X PART2=0x%02X\n", cmd, temp1, temp2, part1, part2);
pRelocs[iCurrRel].info |= pRelocs[iCurrRel].type;
iCurrRel++;
}
}
}
}
return iCurrRel;
}
bool CProcessPrx::LoadRelocs()
{
bool blRet = false;
int iRelocCount = 0;
int iCurrRel = 0;
int count;
int iLoop;
iRelocCount = this->CountRelocs();
if(iRelocCount > 0)
{
SAFE_ALLOC(m_pElfRelocs, ElfReloc[iRelocCount]);
if(m_pElfRelocs != NULL)
{
memset(m_pElfRelocs, 0, sizeof(ElfReloc) * iRelocCount);
COutput::Printf(LEVEL_DEBUG, "Loading Type A relocs\n");
count = this->LoadRelocsTypeA (&m_pElfRelocs[iCurrRel]);
if (count) {
iCurrRel += count;
} else {
}
COutput::Printf(LEVEL_DEBUG, "Loading Type B relocs\n");
count = this->LoadRelocsTypeB (&m_pElfRelocs[iCurrRel]);
if (count) {
iCurrRel += count;
} else {
}
m_iRelocCount = iCurrRel;
if(COutput::GetDebug())
{
COutput::Printf(LEVEL_DEBUG, "Dumping relocs %d\n", m_iRelocCount);
for(iLoop = 0; iLoop < m_iRelocCount; iLoop++)
{
if(m_pElfRelocs[iLoop].type < 16)
{
COutput::Printf(LEVEL_DEBUG, "Reloc %s:%d Type:%s Symbol:%d Offset %08X Info:%08X\n",
m_pElfRelocs[iLoop].secname, iLoop, g_szRelTypes[m_pElfRelocs[iLoop].type],
m_pElfRelocs[iLoop].symbol, m_pElfRelocs[iLoop].offset, m_pElfRelocs[iLoop].info);
}
else
{
COutput::Printf(LEVEL_DEBUG, "Reloc %s:%d Type:%d Symbol:%d Offset %08X\n",
m_pElfRelocs[iLoop].secname, iLoop, m_pElfRelocs[iLoop].type,
m_pElfRelocs[iLoop].symbol, m_pElfRelocs[iLoop].offset);
}
}
}
}
}
blRet = true;
return blRet;
}
bool CProcessPrx::LoadFromFile(const char *szFilename)
{
bool blRet = false;
if(CProcessElf::LoadFromFile(szFilename))
{
/* Do PRX specific stuff */
ElfSection *pInfoSect;
u8 *pData = NULL;
u32 iAddr = 0;
FreeMemory();
m_blPrxLoaded = false;
m_vMem = CVirtualMem(m_pElfBin, m_iBinSize, m_iBaseAddr, MEM_LITTLE_ENDIAN);
pInfoSect = ElfFindSection(PSP_MODULE_INFO_NAME);
if(pInfoSect == NULL)
{
/* Get from program headers */
if(m_iPHCount > 0)
{
iAddr = m_pElfPrograms[0].iVaddr + (m_pElfPrograms[0].iPaddr & 0x7FFFFFFF) - m_pElfPrograms[0].iOffset;
pData = m_pElfBin + iAddr;
}
}
else
{
pData = pInfoSect->pData;
iAddr = pInfoSect->iAddr;
}
if(pData != NULL)
{
if((FillModule(pData, iAddr)) && (LoadRelocs()))
{
m_blPrxLoaded = true;
if(m_pElfRelocs)
{
FixupRelocs(m_dwBase, m_imms);
}
if ((LoadExports()) && (LoadImports()) && (CreateFakeSections()))
{
COutput::Printf(LEVEL_INFO, "Loaded PRX %s successfully\n", szFilename);
BuildMaps();
blRet = true;
}
}
}
else
{
COutput::Printf(LEVEL_ERROR, "Could not find module section\n");
}
}
return blRet;
}
bool CProcessPrx::LoadFromBinFile(const char *szFilename, unsigned int dwDataBase)
{