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#include "util/read_compressed.hh"
#include "util/file.hh"
#include "util/have.hh"
#include "util/scoped.hh"
#include <algorithm>
#include <iostream>
#include <assert.h>
#include <limits.h>
#include <stdlib.h>
#include <string.h>
#ifdef HAVE_ZLIB
#include <zlib.h>
#endif
#ifdef HAVE_BZLIB
#include <bzlib.h>
#endif
#ifdef HAVE_XZLIB
#include <lzma.h>
#endif
namespace util {
CompressedException::CompressedException() throw() {}
CompressedException::~CompressedException() throw() {}
GZException::GZException() throw() {}
GZException::~GZException() throw() {}
BZException::BZException() throw() {}
BZException::~BZException() throw() {}
XZException::XZException() throw() {}
XZException::~XZException() throw() {}
class ReadBase {
public:
virtual ~ReadBase() {}
virtual std::size_t Read(void *to, std::size_t amount, ReadCompressed &thunk) = 0;
protected:
static void ReplaceThis(ReadBase *with, ReadCompressed &thunk) {
thunk.internal_.reset(with);
}
static uint64_t &ReadCount(ReadCompressed &thunk) {
return thunk.raw_amount_;
}
};
namespace {
// Completed file that other classes can thunk to.
class Complete : public ReadBase {
public:
std::size_t Read(void *, std::size_t, ReadCompressed &) {
return 0;
}
};
class Uncompressed : public ReadBase {
public:
explicit Uncompressed(int fd) : fd_(fd) {}
std::size_t Read(void *to, std::size_t amount, ReadCompressed &thunk) {
std::size_t got = PartialRead(fd_.get(), to, amount);
ReadCount(thunk) += got;
return got;
}
private:
scoped_fd fd_;
};
class UncompressedWithHeader : public ReadBase {
public:
UncompressedWithHeader(int fd, void *already_data, std::size_t already_size) : fd_(fd) {
assert(already_size);
buf_.reset(malloc(already_size));
if (!buf_.get()) throw std::bad_alloc();
memcpy(buf_.get(), already_data, already_size);
remain_ = static_cast<uint8_t*>(buf_.get());
end_ = remain_ + already_size;
}
std::size_t Read(void *to, std::size_t amount, ReadCompressed &thunk) {
assert(buf_.get());
std::size_t sending = std::min<std::size_t>(amount, end_ - remain_);
memcpy(to, remain_, sending);
remain_ += sending;
if (remain_ == end_) {
ReplaceThis(new Uncompressed(fd_.release()), thunk);
}
return sending;
}
private:
scoped_malloc buf_;
uint8_t *remain_;
uint8_t *end_;
scoped_fd fd_;
};
#ifdef HAVE_ZLIB
class GZip : public ReadBase {
private:
static const std::size_t kInputBuffer = 16384;
public:
GZip(int fd, void *already_data, std::size_t already_size)
: file_(fd), in_buffer_(malloc(kInputBuffer)) {
if (!in_buffer_.get()) throw std::bad_alloc();
assert(already_size < kInputBuffer);
if (already_size) {
memcpy(in_buffer_.get(), already_data, already_size);
stream_.next_in = static_cast<Bytef *>(in_buffer_.get());
stream_.avail_in = already_size;
stream_.avail_in += ReadOrEOF(file_.get(), static_cast<uint8_t*>(in_buffer_.get()) + already_size, kInputBuffer - already_size);
} else {
stream_.avail_in = 0;
}
stream_.zalloc = Z_NULL;
stream_.zfree = Z_NULL;
stream_.opaque = Z_NULL;
stream_.msg = NULL;
// 32 for zlib and gzip decoding with automatic header detection.
// 15 for maximum window size.
UTIL_THROW_IF(Z_OK != inflateInit2(&stream_, 32 + 15), GZException, "Failed to initialize zlib.");
}
~GZip() {
if (Z_OK != inflateEnd(&stream_)) {
std::cerr << "zlib could not close properly." << std::endl;
abort();
}
}
std::size_t Read(void *to, std::size_t amount, ReadCompressed &thunk) {
if (amount == 0) return 0;
stream_.next_out = static_cast<Bytef*>(to);
stream_.avail_out = std::min<std::size_t>(std::numeric_limits<uInt>::max(), amount);
do {
if (!stream_.avail_in) ReadInput(thunk);
int result = inflate(&stream_, 0);
switch (result) {
case Z_OK:
break;
case Z_STREAM_END:
{
std::size_t ret = static_cast<uint8_t*>(stream_.next_out) - static_cast<uint8_t*>(to);
ReplaceThis(new Complete(), thunk);
return ret;
}
case Z_ERRNO:
UTIL_THROW(ErrnoException, "zlib error");
default:
UTIL_THROW(GZException, "zlib encountered " << (stream_.msg ? stream_.msg : "an error ") << " code " << result);
}
} while (stream_.next_out == to);
return static_cast<uint8_t*>(stream_.next_out) - static_cast<uint8_t*>(to);
}
private:
void ReadInput(ReadCompressed &thunk) {
assert(!stream_.avail_in);
stream_.next_in = static_cast<Bytef *>(in_buffer_.get());
stream_.avail_in = ReadOrEOF(file_.get(), in_buffer_.get(), kInputBuffer);
ReadCount(thunk) += stream_.avail_in;
}
scoped_fd file_;
scoped_malloc in_buffer_;
z_stream stream_;
};
#endif // HAVE_ZLIB
#ifdef HAVE_BZLIB
class BZip : public ReadBase {
public:
explicit BZip(int fd, void *already_data, std::size_t already_size) {
scoped_fd hold(fd);
closer_.reset(FDOpenReadOrThrow(hold));
int bzerror = BZ_OK;
file_ = BZ2_bzReadOpen(&bzerror, closer_.get(), 0, 0, already_data, already_size);
switch (bzerror) {
case BZ_OK:
return;
case BZ_CONFIG_ERROR:
UTIL_THROW(BZException, "Looks like bzip2 was miscompiled.");
case BZ_PARAM_ERROR:
UTIL_THROW(BZException, "Parameter error");
case BZ_IO_ERROR:
UTIL_THROW(BZException, "IO error reading file");
case BZ_MEM_ERROR:
throw std::bad_alloc();
}
}
~BZip() {
int bzerror = BZ_OK;
BZ2_bzReadClose(&bzerror, file_);
if (bzerror != BZ_OK) {
std::cerr << "bz2 readclose error" << std::endl;
abort();
}
}
std::size_t Read(void *to, std::size_t amount, ReadCompressed &thunk) {
int bzerror = BZ_OK;
int ret = BZ2_bzRead(&bzerror, file_, to, std::min<std::size_t>(static_cast<std::size_t>(INT_MAX), amount));
long pos;
switch (bzerror) {
case BZ_STREAM_END:
pos = ftell(closer_.get());
if (pos != -1) ReadCount(thunk) = pos;
ReplaceThis(new Complete(), thunk);
return ret;
case BZ_OK:
pos = ftell(closer_.get());
if (pos != -1) ReadCount(thunk) = pos;
return ret;
default:
UTIL_THROW(BZException, "bzip2 error " << BZ2_bzerror(file_, &bzerror) << " code " << bzerror);
}
}
private:
scoped_FILE closer_;
BZFILE *file_;
};
#endif // HAVE_BZLIB
#ifdef HAVE_XZLIB
class XZip : public ReadBase {
private:
static const std::size_t kInputBuffer = 16384;
public:
XZip(int fd, void *already_data, std::size_t already_size)
: file_(fd), in_buffer_(malloc(kInputBuffer)), stream_(), action_(LZMA_RUN) {
if (!in_buffer_.get()) throw std::bad_alloc();
assert(already_size < kInputBuffer);
if (already_size) {
memcpy(in_buffer_.get(), already_data, already_size);
stream_.next_in = static_cast<const uint8_t*>(in_buffer_.get());
stream_.avail_in = already_size;
stream_.avail_in += ReadOrEOF(file_.get(), static_cast<uint8_t*>(in_buffer_.get()) + already_size, kInputBuffer - already_size);
} else {
stream_.avail_in = 0;
}
stream_.allocator = NULL;
lzma_ret ret = lzma_stream_decoder(&stream_, UINT64_MAX, LZMA_CONCATENATED);
switch (ret) {
case LZMA_OK:
break;
case LZMA_MEM_ERROR:
UTIL_THROW(ErrnoException, "xz open error");
default:
UTIL_THROW(XZException, "xz error code " << ret);
}
}
~XZip() {
lzma_end(&stream_);
}
std::size_t Read(void *to, std::size_t amount, ReadCompressed &thunk) {
if (amount == 0) return 0;
stream_.next_out = static_cast<uint8_t*>(to);
stream_.avail_out = amount;
do {
if (!stream_.avail_in) ReadInput(thunk);
lzma_ret status = lzma_code(&stream_, action_);
switch (status) {
case LZMA_OK:
break;
case LZMA_STREAM_END:
UTIL_THROW_IF(action_ != LZMA_FINISH, XZException, "Input not finished yet.");
{
std::size_t ret = static_cast<uint8_t*>(stream_.next_out) - static_cast<uint8_t*>(to);
ReplaceThis(new Complete(), thunk);
return ret;
}
case LZMA_MEM_ERROR:
throw std::bad_alloc();
case LZMA_FORMAT_ERROR:
UTIL_THROW(XZException, "xzlib says file format not recognized");
case LZMA_OPTIONS_ERROR:
UTIL_THROW(XZException, "xzlib says unsupported compression options");
case LZMA_DATA_ERROR:
UTIL_THROW(XZException, "xzlib says this file is corrupt");
case LZMA_BUF_ERROR:
UTIL_THROW(XZException, "xzlib says unexpected end of input");
default:
UTIL_THROW(XZException, "unrecognized xzlib error " << status);
}
} while (stream_.next_out == to);
return static_cast<uint8_t*>(stream_.next_out) - static_cast<uint8_t*>(to);
}
private:
void ReadInput(ReadCompressed &thunk) {
assert(!stream_.avail_in);
stream_.next_in = static_cast<const uint8_t*>(in_buffer_.get());
stream_.avail_in = ReadOrEOF(file_.get(), in_buffer_.get(), kInputBuffer);
if (!stream_.avail_in) action_ = LZMA_FINISH;
ReadCount(thunk) += stream_.avail_in;
}
scoped_fd file_;
scoped_malloc in_buffer_;
lzma_stream stream_;
lzma_action action_;
};
#endif // HAVE_XZLIB
enum MagicResult {
UNKNOWN, GZIP, BZIP, XZIP
};
MagicResult DetectMagic(const void *from_void) {
const uint8_t *header = static_cast<const uint8_t*>(from_void);
if (header[0] == 0x1f && header[1] == 0x8b) {
return GZIP;
}
if (header[0] == 'B' && header[1] == 'Z') {
return BZIP;
}
const uint8_t xzmagic[6] = { 0xFD, '7', 'z', 'X', 'Z', 0x00 };
if (!memcmp(header, xzmagic, 6)) {
return XZIP;
}
return UNKNOWN;
}
ReadBase *ReadFactory(int fd, uint64_t &raw_amount) {
scoped_fd hold(fd);
unsigned char header[ReadCompressed::kMagicSize];
raw_amount = ReadOrEOF(fd, header, ReadCompressed::kMagicSize);
if (!raw_amount)
return new Uncompressed(hold.release());
if (raw_amount != ReadCompressed::kMagicSize)
return new UncompressedWithHeader(hold.release(), header, raw_amount);
switch (DetectMagic(header)) {
case GZIP:
#ifdef HAVE_ZLIB
return new GZip(hold.release(), header, ReadCompressed::kMagicSize);
#else
UTIL_THROW(CompressedException, "This looks like a gzip file but gzip support was not compiled in.");
#endif
case BZIP:
#ifdef HAVE_BZLIB
return new BZip(hold.release(), header, ReadCompressed::kMagicSize);
#else
UTIL_THROW(CompressedException, "This looks like a bzip file (it begins with BZ), but bzip support was not compiled in.");
#endif
case XZIP:
#ifdef HAVE_XZLIB
return new XZip(hold.release(), header, ReadCompressed::kMagicSize);
#else
UTIL_THROW(CompressedException, "This looks like an xz file, but xz support was not compiled in.");
#endif
case UNKNOWN:
break;
}
try {
SeekOrThrow(fd, 0);
} catch (const util::ErrnoException &e) {
return new UncompressedWithHeader(hold.release(), header, ReadCompressed::kMagicSize);
}
return new Uncompressed(hold.release());
}
} // namespace
bool ReadCompressed::DetectCompressedMagic(const void *from_void) {
return DetectMagic(from_void) != UNKNOWN;
}
ReadCompressed::ReadCompressed(int fd) {
Reset(fd);
}
ReadCompressed::ReadCompressed() {}
ReadCompressed::~ReadCompressed() {}
void ReadCompressed::Reset(int fd) {
internal_.reset();
internal_.reset(ReadFactory(fd, raw_amount_));
}
std::size_t ReadCompressed::Read(void *to, std::size_t amount) {
return internal_->Read(to, amount, *this);
}
} // namespace util
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