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https://github.com/dolphin-emu/dolphin.git
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7c96762f5f
+ a surprise `std::memcpy` in VolumeVerifier.cpp.
402 lines
12 KiB
C++
402 lines
12 KiB
C++
// Copyright 2008 Dolphin Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "DiscIO/CompressedBlob.h"
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#include <algorithm>
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#include <cstdio>
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#include <cstring>
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#include <memory>
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#include <string>
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#include <utility>
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#include <vector>
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#include <zlib.h>
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#ifdef _WIN32
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#include <windows.h>
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#include <io.h>
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#endif
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#include "Common/Assert.h"
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#include "Common/CommonTypes.h"
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#include "Common/FileUtil.h"
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#include "Common/Hash.h"
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#include "Common/IOFile.h"
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#include "Common/Logging/Log.h"
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#include "Common/MsgHandler.h"
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#include "DiscIO/Blob.h"
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#include "DiscIO/DiscScrubber.h"
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#include "DiscIO/MultithreadedCompressor.h"
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#include "DiscIO/Volume.h"
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namespace DiscIO
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{
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bool IsGCZBlob(File::IOFile& file);
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CompressedBlobReader::CompressedBlobReader(File::IOFile file, const std::string& filename)
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: m_file(std::move(file)), m_file_name(filename)
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{
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m_file_size = m_file.GetSize();
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m_file.Seek(0, File::SeekOrigin::Begin);
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m_file.ReadArray(&m_header, 1);
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SetSectorSize(m_header.block_size);
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// cache block pointers and hashes
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m_block_pointers.resize(m_header.num_blocks);
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m_file.ReadArray(m_block_pointers.data(), m_header.num_blocks);
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m_hashes.resize(m_header.num_blocks);
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m_file.ReadArray(m_hashes.data(), m_header.num_blocks);
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m_data_offset = (sizeof(CompressedBlobHeader)) +
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(sizeof(u64)) * m_header.num_blocks // skip block pointers
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+ (sizeof(u32)) * m_header.num_blocks; // skip hashes
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// A compressed block is never ever longer than a decompressed block, so just header.block_size
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// should be fine.
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// I still add some safety margin.
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const u32 zlib_buffer_size = m_header.block_size + 64;
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m_zlib_buffer.resize(zlib_buffer_size);
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}
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std::unique_ptr<CompressedBlobReader> CompressedBlobReader::Create(File::IOFile file,
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const std::string& filename)
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{
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if (IsGCZBlob(file))
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return std::unique_ptr<CompressedBlobReader>(
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new CompressedBlobReader(std::move(file), filename));
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return nullptr;
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}
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CompressedBlobReader::~CompressedBlobReader()
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{
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}
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std::unique_ptr<BlobReader> CompressedBlobReader::CopyReader() const
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{
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return Create(m_file.Duplicate("rb"), m_file_name);
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}
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// IMPORTANT: Calling this function invalidates all earlier pointers gotten from this function.
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u64 CompressedBlobReader::GetBlockCompressedSize(u64 block_num) const
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{
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u64 start = m_block_pointers[block_num];
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if (block_num < m_header.num_blocks - 1)
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return m_block_pointers[block_num + 1] - start;
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else if (block_num == m_header.num_blocks - 1)
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return m_header.compressed_data_size - start;
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else
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ERROR_LOG_FMT(DISCIO, "{} - illegal block number {}", __func__, block_num);
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return 0;
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}
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bool CompressedBlobReader::GetBlock(u64 block_num, u8* out_ptr)
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{
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bool uncompressed = false;
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u32 comp_block_size = (u32)GetBlockCompressedSize(block_num);
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u64 offset = m_block_pointers[block_num] + m_data_offset;
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if (offset & (1ULL << 63))
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{
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if (comp_block_size != m_header.block_size)
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ERROR_LOG_FMT(DISCIO, "Uncompressed block with wrong size");
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uncompressed = true;
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offset &= ~(1ULL << 63);
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}
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// clear unused part of zlib buffer. maybe this can be deleted when it works fully.
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memset(&m_zlib_buffer[comp_block_size], 0, m_zlib_buffer.size() - comp_block_size);
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m_file.Seek(offset, File::SeekOrigin::Begin);
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if (!m_file.ReadBytes(m_zlib_buffer.data(), comp_block_size))
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{
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ERROR_LOG_FMT(DISCIO, "The disc image \"{}\" is truncated, some of the data is missing.",
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m_file_name);
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m_file.ClearError();
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return false;
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}
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// First, check hash.
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const u32 block_hash = Common::HashAdler32(m_zlib_buffer.data(), comp_block_size);
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if (block_hash != m_hashes[block_num])
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{
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ERROR_LOG_FMT(DISCIO,
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"The disc image \"{}\" is corrupt.\n"
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"Hash of block {} is {:08x} instead of {:08x}.",
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m_file_name, block_num, block_hash, m_hashes[block_num]);
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}
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if (uncompressed)
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{
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std::copy_n(m_zlib_buffer.begin(), comp_block_size, out_ptr);
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}
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else
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{
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z_stream z = {};
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z.next_in = m_zlib_buffer.data();
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z.avail_in = comp_block_size;
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if (z.avail_in > m_header.block_size)
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{
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ERROR_LOG_FMT(DISCIO, "Compressed block size is larger than uncompressed block size");
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}
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z.next_out = out_ptr;
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z.avail_out = m_header.block_size;
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inflateInit(&z);
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int status = inflate(&z, Z_FULL_FLUSH);
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u32 uncomp_size = m_header.block_size - z.avail_out;
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if (status != Z_STREAM_END)
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{
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// this seem to fire wrongly from time to time
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// to be sure, don't use compressed isos :P
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ERROR_LOG_FMT(DISCIO, "Failure reading block {} - out of data and not at end.", block_num);
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}
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inflateEnd(&z);
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if (uncomp_size != m_header.block_size)
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{
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ERROR_LOG_FMT(DISCIO, "Wrong block size");
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return false;
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}
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}
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return true;
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}
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struct CompressThreadState
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{
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CompressThreadState() : z{} {}
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~CompressThreadState() { deflateEnd(&z); }
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// z_stream will stop working if it changes address, so this object must not be moved
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CompressThreadState(const CompressThreadState&) = delete;
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CompressThreadState(CompressThreadState&&) = delete;
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CompressThreadState& operator=(const CompressThreadState&) = delete;
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CompressThreadState& operator=(CompressThreadState&&) = delete;
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std::vector<u8> compressed_buffer;
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z_stream z;
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};
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struct CompressParameters
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{
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std::vector<u8> data{};
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u32 block_number = 0;
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u64 inpos = 0;
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};
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struct OutputParameters
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{
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std::vector<u8> data{};
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u32 block_number = 0;
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bool compressed = false;
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u64 inpos = 0;
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};
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static ConversionResultCode SetUpCompressThreadState(CompressThreadState* state)
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{
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return deflateInit(&state->z, 9) == Z_OK ? ConversionResultCode::Success :
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ConversionResultCode::InternalError;
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}
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static ConversionResult<OutputParameters> Compress(CompressThreadState* state,
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CompressParameters parameters, int block_size,
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std::vector<u32>* hashes, int* num_stored,
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int* num_compressed)
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{
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state->compressed_buffer.resize(block_size);
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int retval = deflateReset(&state->z);
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state->z.next_in = parameters.data.data();
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state->z.avail_in = block_size;
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state->z.next_out = state->compressed_buffer.data();
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state->z.avail_out = block_size;
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if (retval != Z_OK)
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{
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ERROR_LOG_FMT(DISCIO, "Deflate failed");
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return ConversionResultCode::InternalError;
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}
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const int status = deflate(&state->z, Z_FINISH);
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state->compressed_buffer.resize(block_size - state->z.avail_out);
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OutputParameters output_parameters;
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if ((status != Z_STREAM_END) || (state->z.avail_out < 10))
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{
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// let's store uncompressed
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++*num_stored;
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output_parameters = OutputParameters{std::move(parameters.data), parameters.block_number, false,
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parameters.inpos};
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}
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else
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{
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// let's store compressed
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++*num_compressed;
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output_parameters = OutputParameters{std::move(state->compressed_buffer),
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parameters.block_number, true, parameters.inpos};
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}
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(*hashes)[parameters.block_number] =
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Common::HashAdler32(output_parameters.data.data(), output_parameters.data.size());
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return std::move(output_parameters);
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}
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static ConversionResultCode Output(OutputParameters parameters, File::IOFile* outfile,
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u64* position, std::vector<u64>* offsets, int progress_monitor,
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u32 num_blocks, CompressCB callback)
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{
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u64 offset = *position;
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if (!parameters.compressed)
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offset |= 0x8000000000000000ULL;
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(*offsets)[parameters.block_number] = offset;
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*position += parameters.data.size();
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if (!outfile->WriteBytes(parameters.data.data(), parameters.data.size()))
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return ConversionResultCode::WriteFailed;
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if (parameters.block_number % progress_monitor == 0)
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{
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const int ratio =
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parameters.inpos == 0 ? 0 : static_cast<int>(100 * *position / parameters.inpos);
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const std::string text = Common::FmtFormatT("{0} of {1} blocks. Compression ratio {2}%",
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parameters.block_number, num_blocks, ratio);
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const float completion = static_cast<float>(parameters.block_number) / num_blocks;
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if (!callback(text, completion))
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return ConversionResultCode::Canceled;
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}
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return ConversionResultCode::Success;
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}
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bool ConvertToGCZ(BlobReader* infile, const std::string& infile_path,
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const std::string& outfile_path, u32 sub_type, int block_size,
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CompressCB callback)
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{
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ASSERT(infile->GetDataSizeType() == DataSizeType::Accurate);
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File::IOFile outfile(outfile_path, "wb");
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if (!outfile)
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{
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PanicAlertFmtT(
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"Failed to open the output file \"{0}\".\n"
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"Check that you have permissions to write the target folder and that the media can "
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"be written.",
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outfile_path);
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return false;
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}
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callback(Common::GetStringT("Files opened, ready to compress."), 0);
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CompressedBlobHeader header;
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header.magic_cookie = GCZ_MAGIC;
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header.sub_type = sub_type;
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header.block_size = block_size;
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header.data_size = infile->GetDataSize();
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// round upwards!
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header.num_blocks = (u32)((header.data_size + (block_size - 1)) / block_size);
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std::vector<u64> offsets(header.num_blocks);
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std::vector<u32> hashes(header.num_blocks);
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// seek past the header (we will write it at the end)
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outfile.Seek(sizeof(CompressedBlobHeader), File::SeekOrigin::Current);
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// seek past the offset and hash tables (we will write them at the end)
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outfile.Seek((sizeof(u64) + sizeof(u32)) * header.num_blocks, File::SeekOrigin::Current);
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// Now we are ready to write compressed data!
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u64 inpos = 0;
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u64 position = 0;
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int num_compressed = 0;
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int num_stored = 0;
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int progress_monitor = std::max<int>(1, header.num_blocks / 1000);
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const auto compress = [&](CompressThreadState* state, CompressParameters parameters) {
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return Compress(state, std::move(parameters), block_size, &hashes, &num_stored,
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&num_compressed);
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};
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const auto output = [&](OutputParameters parameters) {
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return Output(std::move(parameters), &outfile, &position, &offsets, progress_monitor,
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header.num_blocks, callback);
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};
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MultithreadedCompressor<CompressThreadState, CompressParameters, OutputParameters> compressor(
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SetUpCompressThreadState, compress, output);
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std::vector<u8> in_buf(block_size);
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for (u32 i = 0; i < header.num_blocks; i++)
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{
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if (compressor.GetStatus() != ConversionResultCode::Success)
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break;
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const u64 bytes_to_read = std::min<u64>(block_size, header.data_size - inpos);
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if (!infile->Read(inpos, bytes_to_read, in_buf.data()))
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{
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compressor.SetError(ConversionResultCode::ReadFailed);
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break;
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}
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std::fill(in_buf.begin() + bytes_to_read, in_buf.begin() + header.block_size, 0);
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inpos += block_size;
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compressor.CompressAndWrite(CompressParameters{in_buf, i, inpos});
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}
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compressor.Shutdown();
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header.compressed_data_size = position;
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const ConversionResultCode result = compressor.GetStatus();
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if (result != ConversionResultCode::Success)
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{
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// Remove the incomplete output file.
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outfile.Close();
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File::Delete(outfile_path);
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}
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else
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{
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// Okay, go back and fill in headers
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outfile.Seek(0, File::SeekOrigin::Begin);
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outfile.WriteArray(&header, 1);
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outfile.WriteArray(offsets.data(), header.num_blocks);
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outfile.WriteArray(hashes.data(), header.num_blocks);
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callback(Common::GetStringT("Done compressing disc image."), 1.0f);
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}
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if (result == ConversionResultCode::ReadFailed)
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PanicAlertFmtT("Failed to read from the input file \"{0}\".", infile_path);
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if (result == ConversionResultCode::WriteFailed)
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{
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PanicAlertFmtT("Failed to write the output file \"{0}\".\n"
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"Check that you have enough space available on the target drive.",
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outfile_path);
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}
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return result == ConversionResultCode::Success;
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}
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bool IsGCZBlob(File::IOFile& file)
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{
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const u64 position = file.Tell();
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if (!file.Seek(0, File::SeekOrigin::Begin))
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return false;
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CompressedBlobHeader header;
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bool is_gcz = file.ReadArray(&header, 1) && header.magic_cookie == GCZ_MAGIC;
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file.Seek(position, File::SeekOrigin::Begin);
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return is_gcz;
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}
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} // namespace DiscIO
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