nod/lib/DiscGCN.cpp

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#include "nod/DiscGCN.hpp"
#include "nod/nod.hpp"
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#include <cinttypes>
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#define BUFFER_SZ 0x8000
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namespace nod {
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class PartitionGCN : public IPartition {
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public:
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PartitionGCN(const DiscGCN& parent, uint64_t offset, bool& err)
: IPartition(parent, PartitionKind::Data, false, offset) {
/* GCN-specific header reads */
std::unique_ptr<IPartReadStream> s = beginReadStream(0x0);
if (!s) {
err = true;
return;
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}
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m_header.read(*s);
m_bi2Header.read(*s);
m_dolOff = m_header.m_dolOff;
m_fstOff = m_header.m_fstOff;
m_fstSz = m_header.m_fstSz;
uint32_t vals[2];
s->seek(0x2440 + 0x14);
s->read(vals, 8);
m_apploaderSz = 32 + SBig(vals[0]) + SBig(vals[1]);
/* Yay files!! */
parseFST(*s);
/* Also make DOL header and size handy */
s->seek(m_dolOff);
parseDOL(*s);
}
class PartReadStream : public IPartReadStream {
const PartitionGCN& m_parent;
std::unique_ptr<IReadStream> m_dio;
uint64_t m_offset;
size_t m_curBlock = SIZE_MAX;
uint8_t m_buf[BUFFER_SZ];
public:
PartReadStream(const PartitionGCN& parent, uint64_t offset, bool& err) : m_parent(parent), m_offset(offset) {
size_t block = m_offset / BUFFER_SZ;
m_dio = m_parent.m_parent.getDiscIO().beginReadStream(block * BUFFER_SZ);
if (!m_dio) {
err = true;
return;
}
m_dio->read(m_buf, BUFFER_SZ);
m_curBlock = block;
}
void seek(int64_t offset, int whence) {
if (whence == SEEK_SET)
m_offset = offset;
else if (whence == SEEK_CUR)
m_offset += offset;
else
return;
size_t block = m_offset / BUFFER_SZ;
if (block != m_curBlock) {
m_dio->seek(block * BUFFER_SZ);
m_dio->read(m_buf, BUFFER_SZ);
m_curBlock = block;
}
}
uint64_t position() const { return m_offset; }
uint64_t read(void* buf, uint64_t length) {
size_t block = m_offset / BUFFER_SZ;
size_t cacheOffset = m_offset % BUFFER_SZ;
uint64_t cacheSize;
uint64_t rem = length;
uint8_t* dst = (uint8_t*)buf;
while (rem) {
if (block != m_curBlock) {
m_dio->read(m_buf, BUFFER_SZ);
m_curBlock = block;
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}
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cacheSize = rem;
if (cacheSize + cacheOffset > BUFFER_SZ)
cacheSize = BUFFER_SZ - cacheOffset;
memmove(dst, m_buf + cacheOffset, cacheSize);
dst += cacheSize;
rem -= cacheSize;
cacheOffset = 0;
++block;
}
m_offset += length;
return dst - (uint8_t*)buf;
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}
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};
std::unique_ptr<IPartReadStream> beginReadStream(uint64_t offset) const {
bool Err = false;
auto ret = std::unique_ptr<IPartReadStream>(new PartReadStream(*this, offset, Err));
if (Err)
return {};
return ret;
}
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};
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DiscGCN::DiscGCN(std::unique_ptr<IDiscIO>&& dio, bool& err) : DiscBase(std::move(dio), err) {
if (err)
return;
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/* One lone partition for GCN */
m_partitions.emplace_back(new PartitionGCN(*this, 0, err));
}
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DiscBuilderGCN DiscGCN::makeMergeBuilder(SystemStringView outPath, FProgress progressCB) {
return DiscBuilderGCN(outPath, progressCB);
}
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bool DiscGCN::extractDiscHeaderFiles(SystemStringView path, const ExtractionContext& ctx) const { return true; }
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class PartitionBuilderGCN : public DiscBuilderBase::PartitionBuilderBase {
uint64_t m_curUser = 0x57058000;
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public:
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class PartWriteStream : public IPartWriteStream {
const PartitionBuilderGCN& m_parent;
uint64_t m_offset;
std::unique_ptr<IFileIO::IWriteStream> m_fio;
public:
PartWriteStream(const PartitionBuilderGCN& parent, uint64_t offset, bool& err)
: m_parent(parent), m_offset(offset) {
m_fio = m_parent.m_parent.getFileIO().beginWriteStream(offset);
if (!m_fio)
err = true;
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}
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void close() { m_fio.reset(); }
uint64_t position() const { return m_offset; }
uint64_t write(const void* buf, uint64_t length) {
uint64_t len = m_fio->write(buf, length);
m_offset += len;
return len;
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}
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void seek(size_t off) {
m_offset = off;
m_fio = m_parent.m_parent.getFileIO().beginWriteStream(off);
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}
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};
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PartitionBuilderGCN(DiscBuilderBase& parent)
: DiscBuilderBase::PartitionBuilderBase(parent, PartitionKind::Data, false) {}
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uint64_t userAllocate(uint64_t reqSz, IPartWriteStream& ws) {
m_curUser -= reqSz;
m_curUser &= 0xfffffffffffffff0;
if (m_curUser < 0x30000) {
LogModule.report(logvisor::Error, "user area low mark reached");
return -1;
}
static_cast<PartWriteStream&>(ws).seek(m_curUser);
return m_curUser;
}
uint32_t packOffset(uint64_t offset) const { return offset; }
std::unique_ptr<IPartWriteStream> beginWriteStream(uint64_t offset) {
bool Err = false;
std::unique_ptr<IPartWriteStream> ret = std::make_unique<PartWriteStream>(*this, offset, Err);
if (Err)
return {};
return ret;
}
bool
_build(const std::function<bool(IPartWriteStream&, uint32_t, uint32_t, uint32_t, uint32_t, uint32_t)>& headerFunc,
const std::function<bool(IPartWriteStream&)>& bi2Func,
const std::function<bool(IPartWriteStream&, size_t&)>& apploaderFunc) {
std::unique_ptr<IPartWriteStream> ws = beginWriteStream(0x2440);
if (!ws)
return false;
size_t xferSz = 0;
if (!apploaderFunc(*ws, xferSz))
return false;
size_t fstOff = ROUND_UP_32(xferSz);
size_t fstSz = sizeof(FSTNode) * m_buildNodes.size();
for (size_t i = 0; i < fstOff - xferSz; ++i)
ws->write("\xff", 1);
fstOff += 0x2440;
ws->write(m_buildNodes.data(), fstSz);
for (const std::string& str : m_buildNames)
ws->write(str.data(), str.size() + 1);
fstSz += m_buildNameOff;
fstSz = ROUND_UP_32(fstSz);
if (fstOff + fstSz >= m_curUser) {
LogModule.report(logvisor::Error, "FST flows into user area (one or the other is too big)");
return false;
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}
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ws = beginWriteStream(0);
if (!ws)
return false;
if (!headerFunc(*ws, m_dolOffset, fstOff, fstSz, m_curUser, 0x57058000 - m_curUser))
return false;
if (!bi2Func(*ws))
return false;
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return true;
}
bool buildFromDirectory(SystemStringView dirIn) {
std::unique_ptr<IPartWriteStream> ws = beginWriteStream(0);
if (!ws)
return false;
bool result = DiscBuilderBase::PartitionBuilderBase::buildFromDirectory(*ws, dirIn);
if (!result)
return false;
SystemString dirStr(dirIn);
/* Check Apploader */
SystemString apploaderIn = dirStr + _SYS_STR("/sys/apploader.img");
Sstat apploaderStat;
if (Stat(apploaderIn.c_str(), &apploaderStat)) {
LogModule.report(logvisor::Error, _SYS_STR("unable to stat %s"), apploaderIn.c_str());
return false;
}
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/* Check Boot */
SystemString bootIn = dirStr + _SYS_STR("/sys/boot.bin");
Sstat bootStat;
if (Stat(bootIn.c_str(), &bootStat)) {
LogModule.report(logvisor::Error, _SYS_STR("unable to stat %s"), bootIn.c_str());
return false;
}
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/* Check BI2 */
SystemString bi2In = dirStr + _SYS_STR("/sys/bi2.bin");
Sstat bi2Stat;
if (Stat(bi2In.c_str(), &bi2Stat)) {
LogModule.report(logvisor::Error, _SYS_STR("unable to stat %s"), bi2In.c_str());
return false;
}
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return _build(
[&bootIn](IPartWriteStream& ws, uint32_t dolOff, uint32_t fstOff, uint32_t fstSz, uint32_t userOff,
uint32_t userSz) -> bool {
std::unique_ptr<IFileIO::IReadStream> rs = NewFileIO(bootIn.c_str())->beginReadStream();
if (!rs)
return false;
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Header header;
header.read(*rs);
header.m_dolOff = dolOff;
header.m_fstOff = fstOff;
header.m_fstSz = fstSz;
header.m_fstMaxSz = fstSz;
header.m_userPosition = userOff;
header.m_userSz = userSz;
header.write(ws);
return true;
},
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[&bi2In](IPartWriteStream& ws) -> bool {
std::unique_ptr<IFileIO::IReadStream> rs = NewFileIO(bi2In.c_str())->beginReadStream();
if (!rs)
return false;
BI2Header bi2;
bi2.read(*rs);
bi2.write(ws);
return true;
},
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[this, &apploaderIn](IPartWriteStream& ws, size_t& xferSz) -> bool {
std::unique_ptr<IFileIO::IReadStream> rs = NewFileIO(apploaderIn.c_str())->beginReadStream();
if (!rs)
return false;
char buf[8192];
while (true) {
size_t rdSz = rs->read(buf, 8192);
if (!rdSz)
break;
ws.write(buf, rdSz);
xferSz += rdSz;
if (0x2440 + xferSz >= m_curUser) {
LogModule.report(logvisor::Error, "apploader flows into user area (one or the other is too big)");
return false;
}
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m_parent.m_progressCB(m_parent.getProgressFactor(), apploaderIn, xferSz);
}
++m_parent.m_progressIdx;
return true;
});
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}
bool mergeFromDirectory(const PartitionGCN* partIn, SystemStringView dirIn) {
std::unique_ptr<IPartWriteStream> ws = beginWriteStream(0);
if (!ws)
return false;
bool result = DiscBuilderBase::PartitionBuilderBase::mergeFromDirectory(*ws, partIn, dirIn);
if (!result)
return false;
return _build(
[partIn](IPartWriteStream& ws, uint32_t dolOff, uint32_t fstOff, uint32_t fstSz, uint32_t userOff,
uint32_t userSz) -> bool {
Header header = partIn->getHeader();
header.m_dolOff = dolOff;
header.m_fstOff = fstOff;
header.m_fstSz = fstSz;
header.m_fstMaxSz = fstSz;
header.m_userPosition = userOff;
header.m_userSz = userSz;
header.write(ws);
return true;
},
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[partIn](IPartWriteStream& ws) -> bool {
partIn->getBI2().write(ws);
return true;
},
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[this, partIn](IPartWriteStream& ws, size_t& xferSz) -> bool {
std::unique_ptr<uint8_t[]> apploaderBuf = partIn->getApploaderBuf();
size_t apploaderSz = partIn->getApploaderSize();
SystemString apploaderName(_SYS_STR("<apploader>"));
ws.write(apploaderBuf.get(), apploaderSz);
xferSz += apploaderSz;
if (0x2440 + xferSz >= m_curUser) {
LogModule.report(logvisor::Error, "apploader flows into user area (one or the other is too big)");
return false;
}
m_parent.m_progressCB(m_parent.getProgressFactor(), apploaderName, xferSz);
++m_parent.m_progressIdx;
return true;
});
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}
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};
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EBuildResult DiscBuilderGCN::buildFromDirectory(SystemStringView dirIn) {
if (!m_fileIO->beginWriteStream())
return EBuildResult::Failed;
if (!CheckFreeSpace(m_outPath.c_str(), 0x57058000)) {
LogModule.report(logvisor::Error, _SYS_STR("not enough free disk space for %s"), m_outPath.c_str());
return EBuildResult::DiskFull;
}
m_progressCB(getProgressFactor(), _SYS_STR("Preallocating image"), -1);
++m_progressIdx;
{
auto ws = m_fileIO->beginWriteStream(0);
if (!ws)
return EBuildResult::Failed;
char zeroBytes[1024] = {};
for (uint64_t i = 0; i < 0x57058000; i += 1024)
ws->write(zeroBytes, 1024);
}
PartitionBuilderGCN& pb = static_cast<PartitionBuilderGCN&>(*m_partitions[0]);
return pb.buildFromDirectory(dirIn) ? EBuildResult::Success : EBuildResult::Failed;
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}
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uint64_t DiscBuilderGCN::CalculateTotalSizeRequired(SystemStringView dirIn) {
uint64_t sz = DiscBuilderBase::PartitionBuilderBase::CalculateTotalSizeBuild(dirIn, PartitionKind::Data, false);
if (sz == -1)
return -1;
sz += 0x30000;
if (sz > 0x57058000) {
LogModule.report(logvisor::Error, _SYS_STR("disc capacity exceeded [%" PRIu64 " / %" PRIu64 "]"), sz, 0x57058000);
return -1;
}
return sz;
}
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DiscBuilderGCN::DiscBuilderGCN(SystemStringView outPath, FProgress progressCB)
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: DiscBuilderBase(outPath, 0x57058000, progressCB) {
PartitionBuilderGCN* partBuilder = new PartitionBuilderGCN(*this);
m_partitions.emplace_back(partBuilder);
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}
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DiscMergerGCN::DiscMergerGCN(SystemStringView outPath, DiscGCN& sourceDisc, FProgress progressCB)
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: m_sourceDisc(sourceDisc), m_builder(sourceDisc.makeMergeBuilder(outPath, progressCB)) {}
EBuildResult DiscMergerGCN::mergeFromDirectory(SystemStringView dirIn) {
if (!m_builder.getFileIO().beginWriteStream())
return EBuildResult::Failed;
if (!CheckFreeSpace(m_builder.m_outPath.c_str(), 0x57058000)) {
LogModule.report(logvisor::Error, _SYS_STR("not enough free disk space for %s"), m_builder.m_outPath.c_str());
return EBuildResult::DiskFull;
}
m_builder.m_progressCB(m_builder.getProgressFactor(), _SYS_STR("Preallocating image"), -1);
++m_builder.m_progressIdx;
{
auto ws = m_builder.m_fileIO->beginWriteStream(0);
if (!ws)
return EBuildResult::Failed;
char zeroBytes[1024] = {};
for (uint64_t i = 0; i < 0x57058000; i += 1024)
ws->write(zeroBytes, 1024);
}
PartitionBuilderGCN& pb = static_cast<PartitionBuilderGCN&>(*m_builder.m_partitions[0]);
return pb.mergeFromDirectory(static_cast<PartitionGCN*>(m_sourceDisc.getDataPartition()), dirIn)
? EBuildResult::Success
: EBuildResult::Failed;
}
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uint64_t DiscMergerGCN::CalculateTotalSizeRequired(DiscGCN& sourceDisc, SystemStringView dirIn) {
uint64_t sz = DiscBuilderBase::PartitionBuilderBase::CalculateTotalSizeMerge(sourceDisc.getDataPartition(), dirIn);
if (sz == -1)
return -1;
sz += 0x30000;
if (sz > 0x57058000) {
LogModule.report(logvisor::Error, _SYS_STR("disc capacity exceeded [%" PRIu64 " / %" PRIu64 "]"), sz, 0x57058000);
return -1;
}
return sz;
}
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} // namespace nod