/* * Copyright (c) Meta Platforms, Inc. and affiliates. * All rights reserved. * * This source code is licensed under both the BSD-style license (found in the * LICENSE file in the root directory of this source tree) and the GPLv2 (found * in the COPYING file in the root directory of this source tree). * You may select, at your option, one of the above-listed licenses. */ /* ********************************************************* * Turn on Large Files support (>4GB) for 32-bit Linux/Unix ***********************************************************/ #if !defined(__64BIT__) || defined(__MINGW32__) /* No point defining Large file for 64 bit but MinGW-w64 requires it */ # if !defined(_FILE_OFFSET_BITS) # define _FILE_OFFSET_BITS 64 /* turn off_t into a 64-bit type for ftello, fseeko */ # endif # if !defined(_LARGEFILE_SOURCE) /* obsolete macro, replaced with _FILE_OFFSET_BITS */ # define _LARGEFILE_SOURCE 1 /* Large File Support extension (LFS) - fseeko, ftello */ # endif # if defined(_AIX) || defined(__hpux) # define _LARGE_FILES /* Large file support on 32-bits AIX and HP-UX */ # endif #endif /* ************************************************************ * Detect POSIX version * PLATFORM_POSIX_VERSION = 0 for non-Unix e.g. Windows * PLATFORM_POSIX_VERSION = 1 for Unix-like but non-POSIX * PLATFORM_POSIX_VERSION > 1 is equal to found _POSIX_VERSION * Value of PLATFORM_POSIX_VERSION can be forced on command line ***************************************************************/ #ifndef PLATFORM_POSIX_VERSION # if (defined(__APPLE__) && defined(__MACH__)) || defined(__SVR4) || defined(_AIX) || defined(__hpux) /* POSIX.1-2001 (SUSv3) conformant */ \ || defined(__DragonFly__) || defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__) /* BSD distros */ /* exception rule : force posix version to 200112L, * note: it's better to use unistd.h's _POSIX_VERSION whenever possible */ # define PLATFORM_POSIX_VERSION 200112L /* try to determine posix version through official unistd.h's _POSIX_VERSION (https://pubs.opengroup.org/onlinepubs/7908799/xsh/unistd.h.html). * note : there is no simple way to know in advance if is present or not on target system, * Posix specification mandates its presence and its content, but target system must respect this spec. * It's necessary to _not_ #include whenever target OS is not unix-like * otherwise it will block preprocessing stage. * The following list of build macros tries to "guess" if target OS is likely unix-like, and therefore can #include */ # elif !defined(_WIN32) \ && ( defined(__unix__) || defined(__unix) \ || defined(__midipix__) || defined(__VMS) || defined(__HAIKU__) ) # if defined(__linux__) || defined(__linux) || defined(__CYGWIN__) # ifndef _POSIX_C_SOURCE # define _POSIX_C_SOURCE 200809L /* feature test macro : https://www.gnu.org/software/libc/manual/html_node/Feature-Test-Macros.html */ # endif # endif # include /* declares _POSIX_VERSION */ # if defined(_POSIX_VERSION) /* POSIX compliant */ # define PLATFORM_POSIX_VERSION _POSIX_VERSION # else # define PLATFORM_POSIX_VERSION 1 # endif # ifdef __UCLIBC__ # ifndef __USE_MISC # define __USE_MISC /* enable st_mtim on uclibc */ # endif # endif # else /* non-unix target platform (like Windows) */ # define PLATFORM_POSIX_VERSION 0 # endif #endif /* PLATFORM_POSIX_VERSION */ /* ************************************************************ * Avoid fseek()'s 2GiB barrier with MSVC, macOS, *BSD, MinGW ***************************************************************/ #if defined(_MSC_VER) && _MSC_VER >= 1400 # define LONG_SEEK _fseeki64 #elif !defined(__64BIT__) && (PLATFORM_POSIX_VERSION >= 200112L) /* No point defining Large file for 64 bit */ # define LONG_SEEK fseeko #elif defined(__MINGW32__) && !defined(__STRICT_ANSI__) && !defined(__NO_MINGW_LFS) && defined(__MSVCRT__) # define LONG_SEEK fseeko64 #elif defined(_WIN32) && !defined(__DJGPP__) # include static int LONG_SEEK(FILE* file, __int64 offset, int origin) { LARGE_INTEGER off; DWORD method; off.QuadPart = offset; if (origin == SEEK_END) method = FILE_END; else if (origin == SEEK_CUR) method = FILE_CURRENT; else method = FILE_BEGIN; if (SetFilePointerEx((HANDLE) _get_osfhandle(_fileno(file)), off, NULL, method)) return 0; else return -1; } #else # define LONG_SEEK fseek #endif #include /* malloc, free */ #include /* FILE* */ #include /* UNIT_MAX */ #include #define XXH_STATIC_LINKING_ONLY #include "xxhash.h" #define ZSTD_STATIC_LINKING_ONLY #include "zstd.h" #include "zstd_errors.h" #include "mem.h" #include "zstd_seekable.h" #undef ERROR #define ERROR(name) ((size_t)-ZSTD_error_##name) #define CHECK_IO(f) { int const errcod = (f); if (errcod < 0) return ERROR(seekableIO); } #undef MIN #undef MAX #define MIN(a, b) ((a) < (b) ? (a) : (b)) #define MAX(a, b) ((a) > (b) ? (a) : (b)) #define ZSTD_SEEKABLE_NO_OUTPUT_PROGRESS_MAX 16 /* Special-case callbacks for FILE* and in-memory modes, so that we can treat * them the same way as the advanced API */ static int ZSTD_seekable_read_FILE(void* opaque, void* buffer, size_t n) { size_t const result = fread(buffer, 1, n, (FILE*)opaque); if (result != n) { return -1; } return 0; } static int ZSTD_seekable_seek_FILE(void* opaque, long long offset, int origin) { int const ret = LONG_SEEK((FILE*)opaque, offset, origin); if (ret) return ret; return fflush((FILE*)opaque); } typedef struct { const void *ptr; size_t size; size_t pos; } buffWrapper_t; static int ZSTD_seekable_read_buff(void* opaque, void* buffer, size_t n) { buffWrapper_t* const buff = (buffWrapper_t*)opaque; assert(buff != NULL); if (buff->pos + n > buff->size) return -1; memcpy(buffer, (const BYTE*)buff->ptr + buff->pos, n); buff->pos += n; return 0; } static int ZSTD_seekable_seek_buff(void* opaque, long long offset, int origin) { buffWrapper_t* const buff = (buffWrapper_t*) opaque; unsigned long long newOffset; assert(buff != NULL); switch (origin) { case SEEK_SET: assert(offset >= 0); newOffset = (unsigned long long)offset; break; case SEEK_CUR: newOffset = (unsigned long long)((long long)buff->pos + offset); break; case SEEK_END: newOffset = (unsigned long long)((long long)buff->size + offset); break; default: assert(0); /* not possible */ } if (newOffset > buff->size) { return -1; } buff->pos = newOffset; return 0; } typedef struct { U64 cOffset; U64 dOffset; U32 checksum; } seekEntry_t; struct ZSTD_seekTable_s { seekEntry_t* entries; size_t tableLen; int checksumFlag; }; #define SEEKABLE_BUFF_SIZE ZSTD_BLOCKSIZE_MAX struct ZSTD_seekable_s { ZSTD_DStream* dstream; ZSTD_seekTable seekTable; ZSTD_seekable_customFile src; U64 decompressedOffset; U32 curFrame; BYTE inBuff[SEEKABLE_BUFF_SIZE]; /* need to do our own input buffering */ BYTE outBuff[SEEKABLE_BUFF_SIZE]; /* so we can efficiently decompress the starts of chunks before we get to the desired section */ ZSTD_inBuffer in; /* maintain continuity across ZSTD_seekable_decompress operations */ buffWrapper_t buffWrapper; /* for `src.opaque` in in-memory mode */ XXH64_state_t xxhState; }; ZSTD_seekable* ZSTD_seekable_create(void) { ZSTD_seekable* const zs = (ZSTD_seekable*)malloc(sizeof(ZSTD_seekable)); if (zs == NULL) return NULL; /* also initializes stage to zsds_init */ memset(zs, 0, sizeof(*zs)); zs->dstream = ZSTD_createDStream(); if (zs->dstream == NULL) { free(zs); return NULL; } return zs; } size_t ZSTD_seekable_free(ZSTD_seekable* zs) { if (zs == NULL) return 0; /* support free on null */ ZSTD_freeDStream(zs->dstream); free(zs->seekTable.entries); free(zs); return 0; } ZSTD_seekTable* ZSTD_seekTable_create_fromSeekable(const ZSTD_seekable* zs) { ZSTD_seekTable* const st = (ZSTD_seekTable*)malloc(sizeof(ZSTD_seekTable)); if (st==NULL) return NULL; st->checksumFlag = zs->seekTable.checksumFlag; st->tableLen = zs->seekTable.tableLen; /* Allocate an extra entry at the end to match logic of initial allocation */ size_t const entriesSize = sizeof(seekEntry_t) * (zs->seekTable.tableLen + 1); seekEntry_t* const entries = (seekEntry_t*)malloc(entriesSize); if (entries==NULL) { free(st); return NULL; } memcpy(entries, zs->seekTable.entries, entriesSize); st->entries = entries; return st; } size_t ZSTD_seekTable_free(ZSTD_seekTable* st) { if (st == NULL) return 0; /* support free on null */ free(st->entries); free(st); return 0; } /** ZSTD_seekable_offsetToFrameIndex() : * Performs a binary search to find the last frame with a decompressed offset * <= pos * @return : the frame's index */ unsigned ZSTD_seekable_offsetToFrameIndex(const ZSTD_seekable* zs, unsigned long long pos) { return ZSTD_seekTable_offsetToFrameIndex(&zs->seekTable, pos); } unsigned ZSTD_seekTable_offsetToFrameIndex(const ZSTD_seekTable* st, unsigned long long pos) { U32 lo = 0; U32 hi = (U32)st->tableLen; assert(st->tableLen <= UINT_MAX); if (pos >= st->entries[st->tableLen].dOffset) { return (unsigned)st->tableLen; } while (lo + 1 < hi) { U32 const mid = lo + ((hi - lo) >> 1); if (st->entries[mid].dOffset <= pos) { lo = mid; } else { hi = mid; } } return lo; } unsigned ZSTD_seekable_getNumFrames(const ZSTD_seekable* zs) { return ZSTD_seekTable_getNumFrames(&zs->seekTable); } unsigned ZSTD_seekTable_getNumFrames(const ZSTD_seekTable* st) { assert(st->tableLen <= UINT_MAX); return (unsigned)st->tableLen; } unsigned long long ZSTD_seekable_getFrameCompressedOffset(const ZSTD_seekable* zs, unsigned frameIndex) { return ZSTD_seekTable_getFrameCompressedOffset(&zs->seekTable, frameIndex); } unsigned long long ZSTD_seekTable_getFrameCompressedOffset(const ZSTD_seekTable* st, unsigned frameIndex) { if (frameIndex >= st->tableLen) return ZSTD_SEEKABLE_FRAMEINDEX_TOOLARGE; return st->entries[frameIndex].cOffset; } unsigned long long ZSTD_seekable_getFrameDecompressedOffset(const ZSTD_seekable* zs, unsigned frameIndex) { return ZSTD_seekTable_getFrameDecompressedOffset(&zs->seekTable, frameIndex); } unsigned long long ZSTD_seekTable_getFrameDecompressedOffset(const ZSTD_seekTable* st, unsigned frameIndex) { if (frameIndex >= st->tableLen) return ZSTD_SEEKABLE_FRAMEINDEX_TOOLARGE; return st->entries[frameIndex].dOffset; } size_t ZSTD_seekable_getFrameCompressedSize(const ZSTD_seekable* zs, unsigned frameIndex) { return ZSTD_seekTable_getFrameCompressedSize(&zs->seekTable, frameIndex); } size_t ZSTD_seekTable_getFrameCompressedSize(const ZSTD_seekTable* st, unsigned frameIndex) { if (frameIndex >= st->tableLen) return ERROR(frameIndex_tooLarge); return st->entries[frameIndex + 1].cOffset - st->entries[frameIndex].cOffset; } size_t ZSTD_seekable_getFrameDecompressedSize(const ZSTD_seekable* zs, unsigned frameIndex) { return ZSTD_seekTable_getFrameDecompressedSize(&zs->seekTable, frameIndex); } size_t ZSTD_seekTable_getFrameDecompressedSize(const ZSTD_seekTable* st, unsigned frameIndex) { if (frameIndex > st->tableLen) return ERROR(frameIndex_tooLarge); return st->entries[frameIndex + 1].dOffset - st->entries[frameIndex].dOffset; } static size_t ZSTD_seekable_loadSeekTable(ZSTD_seekable* zs) { int checksumFlag; ZSTD_seekable_customFile src = zs->src; /* read the footer, fixed size */ CHECK_IO(src.seek(src.opaque, -(int)ZSTD_seekTableFooterSize, SEEK_END)); CHECK_IO(src.read(src.opaque, zs->inBuff, ZSTD_seekTableFooterSize)); if (MEM_readLE32(zs->inBuff + 5) != ZSTD_SEEKABLE_MAGICNUMBER) { return ERROR(prefix_unknown); } { BYTE const sfd = zs->inBuff[4]; checksumFlag = sfd >> 7; /* check reserved bits */ if ((sfd >> 2) & 0x1f) { return ERROR(corruption_detected); } } { U32 const numFrames = MEM_readLE32(zs->inBuff); U32 const sizePerEntry = 8 + (checksumFlag?4:0); U32 const tableSize = sizePerEntry * numFrames; U32 const frameSize = tableSize + ZSTD_seekTableFooterSize + ZSTD_SKIPPABLEHEADERSIZE; U32 remaining = frameSize - ZSTD_seekTableFooterSize; /* don't need to re-read footer */ { U32 const toRead = MIN(remaining, SEEKABLE_BUFF_SIZE); CHECK_IO(src.seek(src.opaque, -(S64)frameSize, SEEK_END)); CHECK_IO(src.read(src.opaque, zs->inBuff, toRead)); remaining -= toRead; } if (MEM_readLE32(zs->inBuff) != (ZSTD_MAGIC_SKIPPABLE_START | 0xE)) { return ERROR(prefix_unknown); } if (MEM_readLE32(zs->inBuff+4) + ZSTD_SKIPPABLEHEADERSIZE != frameSize) { return ERROR(prefix_unknown); } { /* Allocate an extra entry at the end so that we can do size * computations on the last element without special case */ seekEntry_t* const entries = (seekEntry_t*)malloc(sizeof(seekEntry_t) * (numFrames + 1)); U32 idx = 0; U32 pos = 8; U64 cOffset = 0; U64 dOffset = 0; if (entries == NULL) return ERROR(memory_allocation); /* compute cumulative positions */ for (; idx < numFrames; idx++) { if (pos + sizePerEntry > SEEKABLE_BUFF_SIZE) { U32 const offset = SEEKABLE_BUFF_SIZE - pos; U32 const toRead = MIN(remaining, SEEKABLE_BUFF_SIZE - offset); memmove(zs->inBuff, zs->inBuff + pos, offset); /* move any data we haven't read yet */ CHECK_IO(src.read(src.opaque, zs->inBuff+offset, toRead)); remaining -= toRead; pos = 0; } entries[idx].cOffset = cOffset; entries[idx].dOffset = dOffset; cOffset += MEM_readLE32(zs->inBuff + pos); pos += 4; dOffset += MEM_readLE32(zs->inBuff + pos); pos += 4; if (checksumFlag) { entries[idx].checksum = MEM_readLE32(zs->inBuff + pos); pos += 4; } } entries[numFrames].cOffset = cOffset; entries[numFrames].dOffset = dOffset; zs->seekTable.entries = entries; zs->seekTable.tableLen = numFrames; zs->seekTable.checksumFlag = checksumFlag; return 0; } } } size_t ZSTD_seekable_initBuff(ZSTD_seekable* zs, const void* src, size_t srcSize) { zs->buffWrapper = (buffWrapper_t){src, srcSize, 0}; { ZSTD_seekable_customFile srcFile = {&zs->buffWrapper, &ZSTD_seekable_read_buff, &ZSTD_seekable_seek_buff}; return ZSTD_seekable_initAdvanced(zs, srcFile); } } size_t ZSTD_seekable_initFile(ZSTD_seekable* zs, FILE* src) { ZSTD_seekable_customFile srcFile = {src, &ZSTD_seekable_read_FILE, &ZSTD_seekable_seek_FILE}; return ZSTD_seekable_initAdvanced(zs, srcFile); } size_t ZSTD_seekable_initAdvanced(ZSTD_seekable* zs, ZSTD_seekable_customFile src) { zs->src = src; { const size_t seekTableInit = ZSTD_seekable_loadSeekTable(zs); if (ZSTD_isError(seekTableInit)) return seekTableInit; } zs->decompressedOffset = (U64)-1; zs->curFrame = (U32)-1; { const size_t dstreamInit = ZSTD_initDStream(zs->dstream); if (ZSTD_isError(dstreamInit)) return dstreamInit; } return 0; } size_t ZSTD_seekable_decompress(ZSTD_seekable* zs, void* dst, size_t len, unsigned long long offset) { unsigned long long const eos = zs->seekTable.entries[zs->seekTable.tableLen].dOffset; if (offset + len > eos) { len = eos - offset; } U32 targetFrame = ZSTD_seekable_offsetToFrameIndex(zs, offset); U32 noOutputProgressCount = 0; size_t srcBytesRead = 0; do { /* check if we can continue from a previous decompress job */ if (targetFrame != zs->curFrame || offset != zs->decompressedOffset) { zs->decompressedOffset = zs->seekTable.entries[targetFrame].dOffset; zs->curFrame = targetFrame; assert(zs->seekTable.entries[targetFrame].cOffset < LLONG_MAX); CHECK_IO(zs->src.seek(zs->src.opaque, (long long)zs->seekTable.entries[targetFrame].cOffset, SEEK_SET)); zs->in = (ZSTD_inBuffer){zs->inBuff, 0, 0}; XXH64_reset(&zs->xxhState, 0); ZSTD_DCtx_reset(zs->dstream, ZSTD_reset_session_only); if (zs->buffWrapper.size && srcBytesRead > zs->buffWrapper.size) { return ERROR(seekableIO); } } while (zs->decompressedOffset < offset + len) { size_t toRead; ZSTD_outBuffer outTmp; size_t prevOutPos; size_t prevInPos; size_t forwardProgress; if (zs->decompressedOffset < offset) { /* dummy decompressions until we get to the target offset */ outTmp = (ZSTD_outBuffer){zs->outBuff, (size_t) (MIN(SEEKABLE_BUFF_SIZE, offset - zs->decompressedOffset)), 0}; } else { outTmp = (ZSTD_outBuffer){dst, len, (size_t) (zs->decompressedOffset - offset)}; } prevOutPos = outTmp.pos; prevInPos = zs->in.pos; toRead = ZSTD_decompressStream(zs->dstream, &outTmp, &zs->in); if (ZSTD_isError(toRead)) { return toRead; } if (zs->seekTable.checksumFlag) { XXH64_update(&zs->xxhState, (BYTE*)outTmp.dst + prevOutPos, outTmp.pos - prevOutPos); } forwardProgress = outTmp.pos - prevOutPos; if (forwardProgress == 0) { if (noOutputProgressCount++ > ZSTD_SEEKABLE_NO_OUTPUT_PROGRESS_MAX) { return ERROR(seekableIO); } } else { noOutputProgressCount = 0; } zs->decompressedOffset += forwardProgress; srcBytesRead += zs->in.pos - prevInPos; if (toRead == 0) { /* frame complete */ /* verify checksum */ if (zs->seekTable.checksumFlag && (XXH64_digest(&zs->xxhState) & 0xFFFFFFFFU) != zs->seekTable.entries[targetFrame].checksum) { return ERROR(corruption_detected); } if (zs->decompressedOffset < offset + len) { /* go back to the start and force a reset of the stream */ targetFrame = ZSTD_seekable_offsetToFrameIndex(zs, zs->decompressedOffset); /* in this case it will fail later with corruption_detected, since last block does not have checksum */ assert(targetFrame != zs->seekTable.tableLen); } break; } /* read in more data if we're done with this buffer */ if (zs->in.pos == zs->in.size) { toRead = MIN(toRead, SEEKABLE_BUFF_SIZE); CHECK_IO(zs->src.read(zs->src.opaque, zs->inBuff, toRead)); zs->in.size = toRead; zs->in.pos = 0; } } /* while (zs->decompressedOffset < offset + len) */ } while (zs->decompressedOffset != offset + len); return len; } size_t ZSTD_seekable_decompressFrame(ZSTD_seekable* zs, void* dst, size_t dstSize, unsigned frameIndex) { if (frameIndex >= zs->seekTable.tableLen) { return ERROR(frameIndex_tooLarge); } { size_t const decompressedSize = zs->seekTable.entries[frameIndex + 1].dOffset - zs->seekTable.entries[frameIndex].dOffset; if (dstSize < decompressedSize) { return ERROR(dstSize_tooSmall); } return ZSTD_seekable_decompress( zs, dst, decompressedSize, zs->seekTable.entries[frameIndex].dOffset); } }