metaforce/DataSpec/DNAMP3/PAK.cpp

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#include "PAK.hpp"
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#include "DNAMP3.hpp"
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namespace DataSpec::DNAMP3
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{
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const hecl::FourCC CMPD("CMPD");
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template <>
void PAK::Enumerate<BigDNA::Read>(athena::io::IStreamReader& reader)
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{
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m_header.read(reader);
if (m_header.version != 2)
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Log.report(logvisor::Fatal, "unexpected PAK magic");
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reader.seek(8, athena::Current);
atUint32 strgSz = reader.readUint32Big();
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reader.seek(4, athena::Current);
atUint32 rshdSz = reader.readUint32Big();
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reader.seek(44, athena::Current);
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atUint32 dataOffset = 128 + strgSz + rshdSz;
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atUint64 strgBase = reader.position();
atUint32 nameCount = reader.readUint32Big();
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m_nameEntries.clear();
m_nameEntries.reserve(nameCount);
for (atUint32 n=0 ; n<nameCount ; ++n)
{
m_nameEntries.emplace_back();
m_nameEntries.back().read(reader);
}
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reader.seek(strgBase + strgSz, athena::Begin);
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atUint32 count = reader.readUint32Big();
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m_entries.clear();
m_entries.reserve(count);
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m_firstEntries.clear();
m_firstEntries.reserve(count);
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std::vector<Entry> entries;
entries.reserve(count);
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for (atUint32 e=0 ; e<count ; ++e)
{
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entries.emplace_back();
entries.back().read(reader);
}
for (atUint32 e=0 ; e<count ; ++e)
{
Entry& entry = entries[e];
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entry.offset += dataOffset;
auto search = m_entries.find(entry.id);
if (search == m_entries.end())
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{
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m_firstEntries.push_back(entry.id);
m_entries[entry.id] = std::move(entry);
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}
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else
{
/* Find next MREA to record which area has dupes */
for (atUint32 e2=e+1 ; e2<count ; ++e2)
{
Entry& entry2 = entries[e2];
if (entry2.type != FOURCC('MREA'))
continue;
m_dupeMREAs.insert(entry2.id);
break;
}
}
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}
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m_nameMap.clear();
m_nameMap.reserve(nameCount);
for (NameEntry& entry : m_nameEntries)
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m_nameMap[entry.name] = entry.id;
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}
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template <>
void PAK::Enumerate<BigDNA::Write>(athena::io::IStreamWriter& writer)
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{
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m_header.write(writer);
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DNAFourCC("STRG").write(writer);
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atUint32 strgSz = 4;
for (const NameEntry& entry : m_nameEntries)
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strgSz += (atUint32)entry.name.size() + 13;
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atUint32 strgPad = ((strgSz + 63) & ~63) - strgSz;
strgSz += strgPad;
writer.writeUint32Big(strgSz);
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DNAFourCC("RSHD").write(writer);
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atUint32 rshdSz = 4 + 24 * m_entries.size();
atUint32 rshdPad = ((rshdSz + 63) & ~63) - rshdSz;
rshdSz += rshdPad;
writer.writeUint32Big(rshdSz);
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atUint32 dataOffset = 128 + strgSz + rshdSz;
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DNAFourCC("DATA").write(writer);
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atUint32 dataSz = 0;
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for (const auto& entry : m_entries)
dataSz += (entry.second.size + 63) & ~63;
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atUint32 dataPad = ((dataSz + 63) & ~63) - dataSz;
dataSz += dataPad;
writer.writeUint32Big(dataSz);
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writer.seek(36, athena::Current);
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writer.writeUint32Big((atUint32)m_nameEntries.size());
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for (const NameEntry& entry : m_nameEntries)
entry.write(writer);
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writer.seek(strgPad, athena::Current);
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writer.writeUint32Big((atUint32)m_entries.size());
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for (const auto& entry : m_entries)
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{
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Entry copy = entry.second;
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copy.offset -= dataOffset;
copy.write(writer);
}
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writer.seek(rshdPad, athena::Current);
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}
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template <>
void PAK::Enumerate<BigDNA::BinarySize>(size_t& __isz)
{
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m_header.binarySize(__isz);
size_t strgSz = 4;
for (const NameEntry& entry : m_nameEntries)
strgSz += entry.name.size() + 13;
size_t strgPad = ((strgSz + 63) & ~63) - strgSz;
size_t rshdSz = 4 + 24 * m_entries.size();
size_t rshdPad = ((rshdSz + 63) & ~63) - rshdSz;
__isz += 60;
__isz += 4;
for (const NameEntry& entry : m_nameEntries)
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entry.binarySize(__isz);
__isz += strgPad;
__isz += 4;
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for (const auto& entry : m_entries)
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entry.second.binarySize(__isz);
__isz += rshdPad;
}
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std::unique_ptr<atUint8[]> PAK::Entry::getBuffer(const nod::Node& pak, atUint64& szOut) const
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{
if (compressed)
{
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std::unique_ptr<nod::IPartReadStream> strm = pak.beginReadStream(offset);
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struct
{
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hecl::FourCC magic;
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atUint32 blockCount;
} head;
strm->read(&head, 8);
if (head.magic != CMPD)
{
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Log.report(logvisor::Error, "invalid CMPD block");
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return std::unique_ptr<atUint8[]>();
}
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head.blockCount = hecl::SBig(head.blockCount);
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struct Block
{
atUint32 compSz;
atUint32 decompSz;
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};
std::unique_ptr<Block[]> blocks(new Block[head.blockCount]);
strm->read(blocks.get(), 8 * head.blockCount);
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atUint64 maxBlockSz = 0;
atUint64 totalDecompSz = 0;
for (atUint32 b=0 ; b<head.blockCount ; ++b)
{
Block& block = blocks[b];
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block.compSz = hecl::SBig(block.compSz) & 0xffffff;
block.decompSz = hecl::SBig(block.decompSz);
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if (block.compSz > maxBlockSz)
maxBlockSz = block.compSz;
totalDecompSz += block.decompSz;
}
std::unique_ptr<atUint8[]> compBuf(new atUint8[maxBlockSz]);
atUint8* buf = new atUint8[totalDecompSz];
atUint8* bufCur = buf;
for (atUint32 b=0 ; b<head.blockCount ; ++b)
{
Block& block = blocks[b];
atUint8* compBufCur = compBuf.get();
strm->read(compBufCur, block.compSz);
if (block.compSz == block.decompSz)
{
memcpy(bufCur, compBufCur, block.decompSz);
bufCur += block.decompSz;
}
else
{
atUint32 rem = block.decompSz;
while (rem)
{
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atUint16 chunkSz = hecl::SBig(*(atUint16*)compBufCur);
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compBufCur += 2;
lzo_uint dsz = rem;
lzo1x_decompress(compBufCur, chunkSz, bufCur, &dsz, nullptr);
compBufCur += chunkSz;
bufCur += dsz;
rem -= dsz;
}
}
}
szOut = totalDecompSz;
return std::unique_ptr<atUint8[]>(buf);
}
else
{
atUint8* buf = new atUint8[size];
pak.beginReadStream(offset)->read(buf, size);
szOut = size;
return std::unique_ptr<atUint8[]>(buf);
}
}
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const PAK::Entry* PAK::lookupEntry(const UniqueID64& id) const
{
auto result = m_entries.find(id);
if (result != m_entries.end())
return &result->second;
return nullptr;
}
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const PAK::Entry* PAK::lookupEntry(std::string_view name) const
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{
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auto result = m_nameMap.find(name.data());
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if (result != m_nameMap.end())
{
auto result1 = m_entries.find(result->second);
if (result1 != m_entries.end())
return &result1->second;
}
return nullptr;
}
std::string PAK::bestEntryName(const Entry& entry, bool& named) const
{
/* Prefer named entries first */
for (const NameEntry& nentry : m_nameEntries)
if (nentry.id == entry.id)
{
named = true;
return nentry.name;
}
/* Otherwise return ID format string */
named = false;
return entry.type.toString() + '_' + entry.id.toString();
}
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}