Shipwright/ZAPDTR/ZAPD/Overlays/ZOverlay.cpp

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#if 0
#include "ZOverlay.h"
#include <cassert>
#include <unordered_set>
#include "Globals.h"
#include "Utils/Directory.h"
#include <Utils/DiskFile.h>
#include "Utils/Path.h"
#include "Utils/StringHelper.h"
#include "WarningHandler.h"
using namespace ELFIO;
const char* RelocationEntry::GetSectionName() const
{
switch (sectionType)
{
case SectionType::Text:
return ".text";
case SectionType::Data:
return ".data";
case SectionType::RoData:
return ".rodata";
case SectionType::Bss:
return ".bss";
case SectionType::ERROR:
return ".ERROR";
}
assert(!"Oh no :c");
}
const char* RelocationEntry::GetRelocTypeName() const
{
switch (relocationType)
{
case RelocationType::R_MIPS_32:
return "R_MIPS_32";
case RelocationType::R_MIPS_26:
return "R_MIPS_26";
case RelocationType::R_MIPS_HI16:
return "R_MIPS_HI16";
case RelocationType::R_MIPS_LO16:
return "R_MIPS_LO16";
}
assert(!"Oh no :c");
}
ZOverlay::ZOverlay()
{
name = "";
entries = std::vector<RelocationEntry*>();
}
ZOverlay::ZOverlay(const std::string& nName) : ZOverlay()
{
name = nName;
}
ZOverlay::~ZOverlay()
{
for (auto entry : entries)
if (entry)
delete entry;
entries.clear();
}
static const std::unordered_set<std::string> sRelSections = {
".rel.text",
".rel.data",
".rel.rodata",
};
static const std::unordered_set<std::string> sSections = {
".text", ".data", ".symtab", ".rodata", ".rodata.str1.4", ".rodata.cst4", ".rodata.cst8",
};
ZOverlay* ZOverlay::FromBuild(fs::path buildPath, fs::path cfgFolderPath)
{
std::string cfgText = DiskFile::ReadAllText(cfgFolderPath / "overlay.cfg");
std::vector<std::string> cfgLines = StringHelper::Split(cfgText, "\n");
ZOverlay* ovl = new ZOverlay(StringHelper::Strip(cfgLines[0], "\r"));
ovl->cfgLines = cfgLines;
int32_t sectionOffs[5] = {0};
std::vector<RelocationEntry*> textRelocs;
std::vector<RelocationEntry*> dataRelocs;
std::vector<RelocationEntry*> rodataRelocs;
// get the elf files
std::vector<elfio*> readers;
for (size_t i = 1; i < cfgLines.size(); i++)
{
std::string elfPath =
(buildPath / (cfgLines[i].substr(0, cfgLines[i].size() - 2) + ".o")).string();
elfio* reader = new elfio();
if (!reader->load(elfPath))
{
// not all files were compiled
for (auto r : readers)
delete r;
readers.clear();
delete ovl;
return nullptr;
}
readers.push_back(reader);
}
for (size_t curReaderId = 0; curReaderId < readers.size(); curReaderId++)
{
auto& curReader = readers[curReaderId];
Elf_Half sec_num = curReader->sections.size();
for (int32_t i = 0; i < sec_num; i++)
{
section* pSec = curReader->sections[i];
if (pSec->get_type() != SHT_REL ||
sRelSections.find(pSec->get_name()) == sRelSections.end())
{
continue;
}
symbol_section_accessor currentSymbols(*curReader,
curReader->sections[(Elf_Half)pSec->get_link()]);
SectionType sectionType = GetSectionTypeFromStr(pSec->get_name());
if (sectionType == SectionType::ERROR)
{
HANDLE_WARNING(WarningType::Always, "one of the section types returned ERROR", "");
}
relocation_section_accessor relocs(*curReader, pSec);
for (Elf_Xword j = 0; j < relocs.get_entries_num(); j++)
{
Elf64_Addr offset = 0;
Elf_Word symbol = 0;
Elf_Word type = 0;
{
Elf_Sxword addend = 0;
relocs.get_entry(j, offset, symbol, type, addend);
}
std::string curSymName;
Elf_Half curSymShndx = SHN_UNDEF;
{
Elf64_Addr value;
Elf_Xword size;
unsigned char bind;
unsigned char type;
unsigned char other;
currentSymbols.get_symbol(symbol, curSymName, value, size, bind, type,
curSymShndx, other);
}
// check symbols outside the elf but within the overlay
if (curSymShndx == SHN_UNDEF)
{
if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_DEBUG)
{
printf("Symbol '%s' doesn't exist in current .o file (%s). Searching...\n",
curSymName.c_str(), cfgLines[curReaderId + 1].c_str());
}
for (size_t readerId = 0; readerId < readers.size(); readerId++)
{
auto& reader = readers[readerId];
if (curSymShndx != SHN_UNDEF)
break;
if (reader == curReader)
continue;
auto sectionData = reader->sections[(Elf_Half)pSec->get_link()];
curSymShndx =
ovl->FindSymbolInSection(curSymName, sectionData, *reader, readerId);
if (curSymShndx != SHN_UNDEF)
break;
if (Globals::Instance->gccCompat)
{
// Symbol wasn't found, try checking every section
Elf_Half sec_num = reader->sections.size();
for (int32_t otherSectionIdx = 0; otherSectionIdx < sec_num;
otherSectionIdx++)
{
if (curSymShndx != SHN_UNDEF)
{
break;
}
auto sectionDataIter = reader->sections[otherSectionIdx];
curSymShndx = ovl->FindSymbolInSection(curSymName, sectionDataIter,
*reader, readerId);
}
}
}
}
if (curSymShndx != SHN_UNDEF)
{
RelocationType typeConverted = (RelocationType)type;
offset += sectionOffs[static_cast<size_t>(sectionType)];
RelocationEntry* reloc =
new RelocationEntry(sectionType, typeConverted, offset);
if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_DEBUG)
{
printf(".word 0x%08X # %s %s 0x%04X\n", reloc->CalcRelocationWord(),
reloc->GetSectionName(), reloc->GetRelocTypeName(), reloc->offset);
}
// this is to keep the correct reloc entry order
if (sectionType == SectionType::Text)
textRelocs.push_back(reloc);
if (sectionType == SectionType::Data)
dataRelocs.push_back(reloc);
if (sectionType == SectionType::RoData)
rodataRelocs.push_back(reloc);
}
}
}
// increase section offsets
for (int32_t i = 0; i < sec_num; i++)
{
section* pSec = curReader->sections[i];
if (pSec->get_type() == SHT_PROGBITS &&
sSections.find(pSec->get_name()) != sSections.end())
{
SectionType sectionType = GetSectionTypeFromStr(pSec->get_name());
sectionOffs[static_cast<size_t>(sectionType)] += pSec->get_size();
}
}
}
ovl->entries.reserve(textRelocs.size() + dataRelocs.size() + rodataRelocs.size());
ovl->entries.insert(ovl->entries.end(), textRelocs.begin(), textRelocs.end());
ovl->entries.insert(ovl->entries.end(), dataRelocs.begin(), dataRelocs.end());
ovl->entries.insert(ovl->entries.end(), rodataRelocs.begin(), rodataRelocs.end());
for (auto r : readers)
delete r;
readers.clear();
return ovl;
}
std::string ZOverlay::GetSourceOutputCode([[maybe_unused]] const std::string& prefix)
{
std::string output;
output += ".section .ovl\n";
output += StringHelper::Sprintf("# %sOverlayInfo\n", name.c_str());
output += StringHelper::Sprintf(".word _%sSegmentTextSize\n", name.c_str());
output += StringHelper::Sprintf(".word _%sSegmentDataSize\n", name.c_str());
output += StringHelper::Sprintf(".word _%sSegmentRoDataSize\n", name.c_str());
output += StringHelper::Sprintf(".word _%sSegmentBssSize\n", name.c_str());
output += "\n";
output += StringHelper::Sprintf(".word %i # reloc_count\n", entries.size());
for (size_t i = 0; i < entries.size(); i++)
{
RelocationEntry* reloc = entries[i];
output += StringHelper::Sprintf(".word 0x%08X # %s %s 0x%04X\n",
reloc->CalcRelocationWord(), reloc->GetSectionName(),
reloc->GetRelocTypeName(), reloc->offset);
}
size_t offset = (entries.size() * 4) + 20;
while (offset % 16 != 12)
{
output += ".word 0\n";
offset += 4;
}
output += "\n";
output +=
StringHelper::Sprintf(".word 0x%08X # %sOverlayInfoOffset\n", offset + 4, name.c_str());
return output;
}
SectionType ZOverlay::GetSectionTypeFromStr(const std::string& sectionName)
{
if (sectionName == ".rel.text" || sectionName == ".text")
return SectionType::Text;
else if (sectionName == ".rel.data" || sectionName == ".data")
return SectionType::Data;
else if (sectionName == ".rel.rodata" || sectionName == ".rodata" ||
sectionName == ".rodata.str1.4" || sectionName == ".rodata.cst4")
return SectionType::RoData;
else if (sectionName == ".rel.bss" || sectionName == ".bss")
return SectionType::Bss;
return SectionType::ERROR;
}
ELFIO::Elf_Half ZOverlay::FindSymbolInSection(const std::string& curSymName,
ELFIO::section* sectionData, ELFIO::elfio& reader,
size_t readerId)
{
if (sectionData == nullptr)
return SHN_UNDEF;
auto sectionDataName = sectionData->get_name();
if (sSections.find(sectionDataName) == sSections.end())
return SHN_UNDEF;
#ifdef DEVELOPMENT
if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_DEBUG)
{
printf("\t File '%s' section: %s \n", cfgLines[readerId + 1].c_str(),
sectionDataName.c_str());
}
#endif
symbol_section_accessor symbols(reader, sectionData);
Elf_Xword symbolNum = symbols.get_symbols_num();
for (Elf_Xword symIdx = 0; symIdx < symbolNum; symIdx++)
{
Elf_Half shndx = SHN_UNDEF;
Elf64_Addr value;
std::string name;
Elf_Xword size;
unsigned char bind;
unsigned char type;
unsigned char other;
symbols.get_symbol(symIdx, name, value, size, bind, type, shndx, other);
if (name == curSymName)
{
if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_DEBUG)
{
printf("\t Symbol '%s' found in '%s' '%s' \n", curSymName.c_str(),
cfgLines[readerId + 1].c_str(), sectionDataName.c_str());
}
return shndx;
}
}
return SHN_UNDEF;
}
#endif