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// license:BSD-3-Clause
// copyright-holders:Aaron Giles, Vas Crabb
/***************************************************************************
un7z.cpp
Functions to manipulate data within 7z files.
***************************************************************************/
// this is based on unzip.c, with modifications needed to use the 7zip library
#include "unzip.h"
#include "corestr.h"
#include "unicode.h"
#include "timeconv.h"
#include "lzma/C/7z.h"
#include "lzma/C/7zAlloc.h"
#include "lzma/C/7zCrc.h"
#include "lzma/C/7zTypes.h"
#include <algorithm>
#include <array>
#include <cassert>
#include <chrono>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <ctime>
#include <mutex>
#include <ratio>
#include <utility>
#include <vector>
namespace util {
namespace {
/***************************************************************************
TYPE DEFINITIONS
***************************************************************************/
struct CSzFile
{
CSzFile() : currfpos(0), length(0), osdfile() {}
std::uint64_t currfpos;
std::uint64_t length;
osd_file::ptr osdfile;
SRes read(void *data, std::size_t &size)
{
if (!osdfile)
{
osd_printf_error("un7z: called CSzFile::read without file\n");
return SZ_ERROR_READ;
}
if (!size)
return SZ_OK;
// TODO: this casts a size_t to a uint32_t, so it will fail if >=4GB is requested at once (need a loop)
std::uint32_t read_length(0);
auto const err = osdfile->read(data, currfpos, size, read_length);
size = read_length;
currfpos += read_length;
return (osd_file::error::NONE == err) ? SZ_OK : SZ_ERROR_READ;
}
SRes seek(Int64 &pos, ESzSeek origin)
{
switch (origin)
{
case SZ_SEEK_CUR: currfpos += pos; break;
case SZ_SEEK_SET: currfpos = pos; break;
case SZ_SEEK_END: currfpos = length + pos; break;
default: return SZ_ERROR_READ;
}
pos = currfpos;
return SZ_OK;
}
};
struct CFileInStream : public ISeekInStream, public CSzFile
{
CFileInStream();
};
class m7z_file_impl
{
public:
typedef std::unique_ptr<m7z_file_impl> ptr;
m7z_file_impl(const std::string &filename);
virtual ~m7z_file_impl()
{
if (m_out_buffer)
IAlloc_Free(&m_alloc_imp, m_out_buffer);
if (m_inited)
SzArEx_Free(&m_db, &m_alloc_imp);
}
static ptr find_cached(const std::string &filename)
{
std::lock_guard<std::mutex> guard(s_cache_mutex);
for (std::size_t cachenum = 0; cachenum < s_cache.size(); cachenum++)
{
// if we have a valid entry and it matches our filename, use it and remove from the cache
if (s_cache[cachenum] && (filename == s_cache[cachenum]->m_filename))
{
ptr result;
std::swap(s_cache[cachenum], result);
osd_printf_verbose("un7z: found %s in cache\n", filename.c_str());
return result;
}
}
return ptr();
}
static void close(ptr &&archive);
static void cache_clear()
{
// clear call cache entries
std::lock_guard<std::mutex> guard(s_cache_mutex);
for (std::size_t cachenum = 0; cachenum < s_cache.size(); s_cache[cachenum++].reset()) { }
}
archive_file::error initialize();
int first_file() { return search(0, 0, std::string(), false, false, false); }
int next_file() { return (m_curr_file_idx < 0) ? -1 : search(m_curr_file_idx + 1, 0, std::string(), false, false, false); }
int search(std::uint32_t crc)
{
return search(0, crc, std::string(), true, false, false);
}
int search(const std::string &filename, bool partialpath)
{
return search(0, 0, filename, false, true, partialpath);
}
int search(std::uint32_t crc, const std::string &filename, bool partialpath)
{
return search(0, crc, filename, true, true, partialpath);
}
bool current_is_directory() const { return m_curr_is_dir; }
const std::string ¤t_name() const { return m_curr_name; }
std::uint64_t current_uncompressed_length() const { return m_curr_length; }
virtual std::chrono::system_clock::time_point current_last_modified() const { return m_curr_modified; }
std::uint32_t current_crc() const { return m_curr_crc; }
archive_file::error decompress(void *buffer, std::uint32_t length);
private:
m7z_file_impl(const m7z_file_impl &) = delete;
m7z_file_impl(m7z_file_impl &&) = delete;
m7z_file_impl &operator=(const m7z_file_impl &) = delete;
m7z_file_impl &operator=(m7z_file_impl &&) = delete;
int search(
int i,
std::uint32_t search_crc,
const std::string &search_filename,
bool matchcrc,
bool matchname,
bool partialpath);
void make_utf8_name(int index);
void set_curr_modified();
static constexpr std::size_t CACHE_SIZE = 8;
static std::array<ptr, CACHE_SIZE> s_cache;
static std::mutex s_cache_mutex;
const std::string m_filename; // copy of _7Z filename (for caching)
int m_curr_file_idx; // current file index
bool m_curr_is_dir; // current file is directory
std::string m_curr_name; // current file name
std::uint64_t m_curr_length; // current file uncompressed length
std::chrono::system_clock::time_point m_curr_modified; // current file modification time
std::uint32_t m_curr_crc; // current file crc
std::vector<UInt16> m_utf16_buf;
std::vector<char32_t> m_uchar_buf;
std::vector<char> m_utf8_buf;
CFileInStream m_archive_stream;
CLookToRead m_look_stream;
CSzArEx m_db;
ISzAlloc m_alloc_imp;
ISzAlloc m_alloc_temp_imp;
bool m_inited;
// cached stuff for solid blocks
UInt32 m_block_index;
Byte * m_out_buffer;
std::size_t m_out_buffer_size;
};
class m7z_file_wrapper : public archive_file
{
public:
m7z_file_wrapper(m7z_file_impl::ptr &&impl) : m_impl(std::move(impl)) { assert(m_impl); }
virtual ~m7z_file_wrapper() override { m7z_file_impl::close(std::move(m_impl)); }
virtual int first_file() override { return m_impl->first_file(); }
virtual int next_file() override { return m_impl->next_file(); }
virtual int search(std::uint32_t crc) override
{
return m_impl->search(crc);
}
virtual int search(const std::string &filename, bool partialpath) override
{
return m_impl->search(filename, partialpath);
}
virtual int search(std::uint32_t crc, const std::string &filename, bool partialpath) override
{
return m_impl->search(crc, filename, partialpath);
}
virtual bool current_is_directory() const override { return m_impl->current_is_directory(); }
virtual const std::string ¤t_name() const override { return m_impl->current_name(); }
virtual std::uint64_t current_uncompressed_length() const override { return m_impl->current_uncompressed_length(); }
virtual std::chrono::system_clock::time_point current_last_modified() const override { return m_impl->current_last_modified(); }
virtual std::uint32_t current_crc() const override { return m_impl->current_crc(); }
virtual error decompress(void *buffer, std::uint32_t length) override { return m_impl->decompress(buffer, length); }
private:
m7z_file_impl::ptr m_impl;
};
/***************************************************************************
GLOBAL VARIABLES
***************************************************************************/
std::array<m7z_file_impl::ptr, m7z_file_impl::CACHE_SIZE> m7z_file_impl::s_cache;
std::mutex m7z_file_impl::s_cache_mutex;
/***************************************************************************
7Zip Memory / File handling (adapted from 7zfile.c/.h and 7zalloc.c/.h)
***************************************************************************/
/* ---------- FileInStream ---------- */
extern "C" {
static SRes FileInStream_Read(void *pp, void *buf, size_t *size)
{
return (reinterpret_cast<CFileInStream *>(pp)->read(buf, *size) == 0) ? SZ_OK : SZ_ERROR_READ;
}
static SRes FileInStream_Seek(void *pp, Int64 *pos, ESzSeek origin)
{
return reinterpret_cast<CFileInStream *>(pp)->seek(*pos, origin);
}
} // extern "C"
CFileInStream::CFileInStream()
{
Read = &FileInStream_Read;
Seek = &FileInStream_Seek;
}
/***************************************************************************
CACHE MANAGEMENT
***************************************************************************/
m7z_file_impl::m7z_file_impl(const std::string &filename)
: m_filename(filename)
, m_curr_file_idx(-1)
, m_curr_is_dir(false)
, m_curr_name()
, m_curr_length(0)
, m_curr_modified()
, m_curr_crc(0)
, m_utf16_buf(128)
, m_uchar_buf(128)
, m_utf8_buf(512)
, m_inited(false)
, m_block_index(0)
, m_out_buffer(nullptr)
, m_out_buffer_size(0)
{
m_alloc_imp.Alloc = &SzAlloc;
m_alloc_imp.Free = &SzFree;
m_alloc_temp_imp.Alloc = &SzAllocTemp;
m_alloc_temp_imp.Free = &SzFreeTemp;
LookToRead_CreateVTable(&m_look_stream, False);
m_look_stream.realStream = &m_archive_stream;
LookToRead_Init(&m_look_stream);
}
archive_file::error m7z_file_impl::initialize()
{
osd_file::error const err = osd_file::open(m_filename, OPEN_FLAG_READ, m_archive_stream.osdfile, m_archive_stream.length);
if (err != osd_file::error::NONE)
return archive_file::error::FILE_ERROR;
osd_printf_verbose("un7z: opened archive file %s\n", m_filename.c_str());
CrcGenerateTable(); // FIXME: doesn't belong here - it should be called once statically
SzArEx_Init(&m_db);
m_inited = true;
SRes const res = SzArEx_Open(&m_db, &m_look_stream.s, &m_alloc_imp, &m_alloc_temp_imp);
if (res != SZ_OK)
{
osd_printf_error("un7z: error opening %s as 7z archive (%d)\n", m_filename.c_str(), int(res));
switch (res)
{
case SZ_ERROR_UNSUPPORTED: return archive_file::error::UNSUPPORTED;
case SZ_ERROR_MEM: return archive_file::error::OUT_OF_MEMORY;
case SZ_ERROR_INPUT_EOF: return archive_file::error::FILE_TRUNCATED;
default: return archive_file::error::FILE_ERROR;
}
}
return archive_file::error::NONE;
}
/*-------------------------------------------------
_7z_file_close - close a _7Z file and add it
to the cache
-------------------------------------------------*/
void m7z_file_impl::close(ptr &&archive)
{
if (!archive) return;
// close the open files
osd_printf_verbose("un7z: closing archive file %s and sending to cache\n", archive->m_filename.c_str());
archive->m_archive_stream.osdfile.reset();
// find the first nullptr entry in the cache
std::lock_guard<std::mutex> guard(s_cache_mutex);
std::size_t cachenum;
for (cachenum = 0; cachenum < s_cache.size(); cachenum++)
if (!s_cache[cachenum])
break;
// if no room left in the cache, free the bottommost entry
if (cachenum == s_cache.size())
{
cachenum--;
osd_printf_verbose("un7z: removing %s from cache to make space\n", s_cache[cachenum]->m_filename.c_str());
s_cache[cachenum].reset();
}
// move everyone else down and place us at the top
for ( ; cachenum > 0; cachenum--)
s_cache[cachenum] = std::move(s_cache[cachenum - 1]);
s_cache[0] = std::move(archive);
}
/***************************************************************************
7Z FILE ACCESS
***************************************************************************/
/*-------------------------------------------------
_7z_file_decompress - decompress a file
from a _7Z into the target buffer
-------------------------------------------------*/
archive_file::error m7z_file_impl::decompress(void *buffer, std::uint32_t length)
{
// if we don't have enough buffer, error
if (length < m_curr_length)
{
osd_printf_error("un7z: buffer too small to decompress %s from %s\n", m_curr_name.c_str(), m_filename.c_str());
return archive_file::error::BUFFER_TOO_SMALL;
}
// make sure the file is open..
if (!m_archive_stream.osdfile)
{
m_archive_stream.currfpos = 0;
osd_file::error const err = osd_file::open(m_filename, OPEN_FLAG_READ, m_archive_stream.osdfile, m_archive_stream.length);
if (err != osd_file::error::NONE)
{
osd_printf_error("un7z: error reopening archive file %s (%d)\n", m_filename.c_str(), int(err));
return archive_file::error::FILE_ERROR;
}
osd_printf_verbose("un7z: reopened archive file %s\n", m_filename.c_str());
}
std::size_t offset(0);
std::size_t out_size_processed(0);
SRes const res = SzArEx_Extract(
&m_db, &m_look_stream.s, m_curr_file_idx, // requested file
&m_block_index, &m_out_buffer, &m_out_buffer_size, // solid block caching
&offset, &out_size_processed, // data size/offset
&m_alloc_imp, &m_alloc_temp_imp); // allocator helpers
if (res != SZ_OK)
{
osd_printf_error("un7z: error decompressing %s from %s (%d)\n", m_curr_name.c_str(), m_filename.c_str(), int(res));
switch (res)
{
case SZ_ERROR_UNSUPPORTED: return archive_file::error::UNSUPPORTED;
case SZ_ERROR_MEM: return archive_file::error::OUT_OF_MEMORY;
case SZ_ERROR_INPUT_EOF: return archive_file::error::FILE_TRUNCATED;
default: return archive_file::error::DECOMPRESS_ERROR;
}
}
// copy to destination buffer
std::memcpy(buffer, m_out_buffer + offset, (std::min<std::size_t>)(length, out_size_processed));
return archive_file::error::NONE;
}
int m7z_file_impl::search(
int i,
std::uint32_t search_crc,
const std::string &search_filename,
bool matchcrc,
bool matchname,
bool partialpath)
{
for ( ; i < m_db.NumFiles; i++)
{
make_utf8_name(i);
bool const is_dir(SzArEx_IsDir(&m_db, i));
const std::uint64_t size(SzArEx_GetFileSize(&m_db, i));
const std::uint32_t crc(m_db.CRCs.Vals[i]);
const bool crcmatch(SzBitArray_Check(m_db.CRCs.Defs, i) && (crc == search_crc));
auto const partialoffset(m_utf8_buf.size() - 1 - search_filename.length());
bool const partialpossible((m_utf8_buf.size() > (search_filename.length() + 1)) && (m_utf8_buf[partialoffset - 1] == '/'));
const bool namematch(
!core_stricmp(search_filename.c_str(), &m_utf8_buf[0]) ||
(partialpath && partialpossible && !core_stricmp(search_filename.c_str(), &m_utf8_buf[partialoffset])));
const bool found = ((!matchcrc && !matchname) || !is_dir) && (!matchcrc || crcmatch) && (!matchname || namematch);
if (found)
{
m_curr_file_idx = i;
m_curr_is_dir = is_dir;
m_curr_name = &m_utf8_buf[0];
m_curr_length = size;
set_curr_modified();
m_curr_crc = crc;
return i;
}
}
return -1;
}
void m7z_file_impl::make_utf8_name(int index)
{
std::size_t len, out_pos;
len = SzArEx_GetFileNameUtf16(&m_db, index, nullptr);
m_utf16_buf.resize((std::max<std::size_t>)(m_utf16_buf.size(), len));
SzArEx_GetFileNameUtf16(&m_db, index, &m_utf16_buf[0]);
m_uchar_buf.resize((std::max<std::size_t>)(m_uchar_buf.size(), len));
out_pos = 0;
for (std::size_t in_pos = 0; in_pos < (len - 1); )
{
const int used = uchar_from_utf16(&m_uchar_buf[out_pos], (char16_t *)&m_utf16_buf[in_pos], len - in_pos);
if (used < 0)
{
in_pos++;
m_uchar_buf[out_pos++] = 0x00fffd; // Unicode REPLACEMENT CHARACTER
}
else
{
assert(used > 0);
in_pos += used;
out_pos++;
}
}
len = out_pos;
m_utf8_buf.resize((std::max<std::size_t>)(m_utf8_buf.size(), 4 * len + 1));
out_pos = 0;
for (std::size_t in_pos = 0; in_pos < len; in_pos++)
{
int produced = utf8_from_uchar(&m_utf8_buf[out_pos], m_utf8_buf.size() - out_pos, m_uchar_buf[in_pos]);
if (produced < 0)
produced = utf8_from_uchar(&m_utf8_buf[out_pos], m_utf8_buf.size() - out_pos, 0x00fffd);
if (produced >= 0)
out_pos += produced;
assert(out_pos < m_utf8_buf.size());
}
m_utf8_buf[out_pos++] = '\0';
m_utf8_buf.resize(out_pos);
}
void m7z_file_impl::set_curr_modified()
{
if (SzBitWithVals_Check(&m_db.MTime, m_curr_file_idx))
{
CNtfsFileTime const &file_time(m_db.MTime.Vals[m_curr_file_idx]);
auto ticks = ntfs_duration_from_filetime(file_time.High, file_time.Low);
m_curr_modified = system_clock_time_point_from_ntfs_duration(ticks);
}
else
{
// FIXME: what do we do about a lack of time?
}
}
} // anonymous namespace
archive_file::error archive_file::open_7z(const std::string &filename, ptr &result)
{
// ensure we start with a nullptr result
result.reset();
// see if we are in the cache, and reopen if so
m7z_file_impl::ptr newimpl(m7z_file_impl::find_cached(filename));
if (!newimpl)
{
// allocate memory for the 7z file structure
try { newimpl = std::make_unique<m7z_file_impl>(filename); }
catch (...) { return error::OUT_OF_MEMORY; }
error const err = newimpl->initialize();
if (err != error::NONE) return err;
}
try
{
result = std::make_unique<m7z_file_wrapper>(std::move(newimpl));
return error::NONE;
}
catch (...)
{
m7z_file_impl::close(std::move(newimpl));
return error::OUT_OF_MEMORY;
}
}
/*-------------------------------------------------
_7z_file_cache_clear - clear the _7Z file
cache and free all memory
-------------------------------------------------*/
void m7z_file_cache_clear()
{
// This is a trampoline called from unzip.cpp to avoid the need to have the zip and 7zip code in one file
m7z_file_impl::cache_clear();
}
} // namespace util
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