diff --git a/src/liblzma/api/lzma/index.h b/src/liblzma/api/lzma/index.h index 3dac6fb..144d416 100644 --- a/src/liblzma/api/lzma/index.h +++ b/src/liblzma/api/lzma/index.h @@ -684,3 +684,69 @@ extern LZMA_API(lzma_ret) lzma_index_buffer_decode(lzma_index **i, uint64_t *memlimit, const lzma_allocator *allocator, const uint8_t *in, size_t *in_pos, size_t in_size) lzma_nothrow; + + +/** + * \brief Initialize a .xz file information decoder + * + * \param strm Pointer to a properly prepared lzma_stream + * \param dest_index Pointer to a pointer where the decoder will put + * the decoded lzma_index. The old value + * of *dest_index is ignored (not freed). + * \param memlimit How much memory the resulting lzma_index is + * allowed to require. Use UINT64_MAX to + * effectively disable the limiter. + * \param file_size Size of the input .xz file + * + * This decoder decodes the Stream Header, Stream Footer, Index, and + * Stream Padding field(s) from the input .xz file and stores the resulting + * combined index in *dest_index. This information can be used to get the + * uncompressed file size with lzma_index_uncompressed_size(*dest_index) or, + * for example, to implement random access reading by locating the Blocks + * in the Streams. + * + * To get the required information from the .xz file, lzma_code() may ask + * the application to seek in the input file by returning LZMA_SEEK_NEEDED + * and having the target file position specified in lzma_stream.seek_pos. + * The number of seeks required depends on the input file and how big buffers + * the application provides. When possible, the decoder will seek backward + * and forward in the given buffer to avoid useless seek requests. Thus, if + * the application provides the whole file at once, no external seeking will + * be required (that is, lzma_code() won't return LZMA_SEEK_NEEDED). + * + * The value in lzma_stream.total_in can be used to estimate how much data + * liblzma had to read to get the file information. However, due to seeking + * and the way total_in is updated, the value of total_in will be somewhat + * inaccurate (a little too big). Thus, total_in is a good estimate but don't + * expect to see the same exact value for the same file if you change the + * input buffer size or switch to a different liblzma version. + * + * Valid `action' arguments to lzma_code() are LZMA_RUN and LZMA_FINISH. + * You only need to use LZMA_RUN; LZMA_FINISH is only supported because it + * might be convenient for some applications. If you use LZMA_FINISH and if + * lzma_code() asks the application to seek, remember to reset `action' back + * to LZMA_RUN unless you hit the end of the file again. + * + * Possible return values from lzma_code(): + * - LZMA_OK: All OK so far, more input needed + * - LZMA_SEEK_NEEDED: Provide more input starting from the absolute + * file position strm->seek_pos + * - LZMA_STREAM_END: Decoding was successful, *dest_index has been set + * - LZMA_FORMAT_ERROR: The input file is not in the .xz format (the + * expected magic bytes were not found from the beginning of the file) + * - LZMA_OPTIONS_ERROR: File looks valid but contains headers that aren't + * supported by this version of liblzma + * - LZMA_DATA_ERROR: File is corrupt + * - LZMA_BUF_ERROR + * - LZMA_MEM_ERROR + * - LZMA_MEMLIMIT_ERROR + * - LZMA_PROG_ERROR + * + * \return - LZMA_OK + * - LZMA_MEM_ERROR + * - LZMA_PROG_ERROR + */ +extern LZMA_API(lzma_ret) lzma_file_info_decoder( + lzma_stream *strm, lzma_index **dest_index, + uint64_t memlimit, uint64_t file_size) + lzma_nothrow; diff --git a/src/liblzma/common/Makefile.inc b/src/liblzma/common/Makefile.inc index 67c8e48..0408f9a 100644 --- a/src/liblzma/common/Makefile.inc +++ b/src/liblzma/common/Makefile.inc @@ -65,6 +65,7 @@ liblzma_la_SOURCES += \ common/block_decoder.h \ common/block_header_decoder.c \ common/easy_decoder_memusage.c \ + common/file_info.c \ common/filter_buffer_decoder.c \ common/filter_decoder.c \ common/filter_decoder.h \ diff --git a/src/liblzma/common/file_info.c b/src/liblzma/common/file_info.c new file mode 100644 index 0000000..deb644f --- /dev/null +++ b/src/liblzma/common/file_info.c @@ -0,0 +1,855 @@ +/////////////////////////////////////////////////////////////////////////////// +// +/// \file file_info.c +/// \brief Decode .xz file information into a lzma_index structure +// +// Author: Lasse Collin +// +// This file has been put into the public domain. +// You can do whatever you want with this file. +// +/////////////////////////////////////////////////////////////////////////////// + +#include "index_decoder.h" + + +typedef struct { + enum { + SEQ_MAGIC_BYTES, + SEQ_PADDING_SEEK, + SEQ_PADDING_DECODE, + SEQ_FOOTER, + SEQ_INDEX_INIT, + SEQ_INDEX_DECODE, + SEQ_HEADER_DECODE, + SEQ_HEADER_COMPARE, + } sequence; + + /// Absolute position of in[*in_pos] in the file. All code that + /// modifies *in_pos also updates this. seek_to_pos() needs this + /// to determine if we need to request the application to seek for + /// us or if we can do the seeking internally by adjusting *in_pos. + uint64_t file_cur_pos; + + /// This refers to absolute positions of interesting parts of the + /// input file. Sometimes it points to the *beginning* of a specific + /// field and sometimes to the *end* of a field. The current target + /// position at each moment is explained in the comments. + uint64_t file_target_pos; + + /// Size of the .xz file (from the application). + uint64_t file_size; + + /// Index decoder + lzma_next_coder index_decoder; + + /// Number of bytes remaining in the Index field that is currently + /// being decoded. + lzma_vli index_remaining; + + /// The Index decoder will store the decoded Index in this pointer. + lzma_index *this_index; + + /// Amount of Stream Padding in the current Stream. + lzma_vli stream_padding; + + /// The final combined index is collected here. + lzma_index *combined_index; + + /// Pointer from the application where to store the index information + /// after successful decoding. + lzma_index **dest_index; + + /// Pointer to lzma_stream.seek_pos to be used when returning + /// LZMA_SEEK_NEEDED. This is set by seek_to_pos() when needed. + uint64_t *external_seek_pos; + + /// Memory usage limit + uint64_t memlimit; + + /// Stream Flags from the very beginning of the file. + lzma_stream_flags first_header_flags; + + /// Stream Flags from Stream Header of the current Stream. + lzma_stream_flags header_flags; + + /// Stream Flags from Stream Footer of the current Stream. + lzma_stream_flags footer_flags; + + size_t temp_pos; + size_t temp_size; + uint8_t temp[8192]; + +} lzma_file_info_coder; + + +/// Copies data from in[*in_pos] into coder->temp until +/// coder->temp_pos == coder->temp_size. This also keeps coder->file_cur_pos +/// in sync with *in_pos. Returns true if more input is needed. +static bool +fill_temp(lzma_file_info_coder *coder, const uint8_t *restrict in, + size_t *restrict in_pos, size_t in_size) +{ + coder->file_cur_pos += lzma_bufcpy(in, in_pos, in_size, + coder->temp, &coder->temp_pos, coder->temp_size); + return coder->temp_pos < coder->temp_size; +} + + +/// Seeks to the absolute file position specified by target_pos. +/// This tries to do the seeking by only modifying *in_pos, if possible. +/// The main benefit of this is that if one passes the whole file at once +/// to lzma_code(), the decoder will never need to return LZMA_SEEK_NEEDED +/// as all the seeking can be done by adjusting *in_pos in this function. +/// +/// Returns true if an external seek is needed and the caller must return +/// LZMA_SEEK_NEEDED. +static bool +seek_to_pos(lzma_file_info_coder *coder, uint64_t target_pos, + size_t in_start, size_t *in_pos, size_t in_size) +{ + // The input buffer doesn't extend beyond the end of the file. + // This has been checked by file_info_decode() already. + assert(coder->file_size - coder->file_cur_pos >= in_size - *in_pos); + + const uint64_t pos_min = coder->file_cur_pos - (*in_pos - in_start); + const uint64_t pos_max = coder->file_cur_pos + (in_size - *in_pos); + + bool external_seek_needed; + + if (target_pos >= pos_min && target_pos <= pos_max) { + // The requested position is available in the current input + // buffer or right after it. That is, in a corner case we + // end up setting *in_pos == in_size and thus will immediately + // need new input bytes from the application. + *in_pos += (size_t)(target_pos - coder->file_cur_pos); + external_seek_needed = false; + } else { + // Ask the application to seek the input file. + *coder->external_seek_pos = target_pos; + external_seek_needed = true; + + // Mark the whole input buffer as used. This way + // lzma_stream.total_in will have a better estimate + // of the amount of data read. It still won't be perfect + // as the value will depend on the input buffer size that + // the application uses, but it should be good enough for + // those few who want an estimate. + *in_pos = in_size; + } + + // After seeking (internal or external) the current position + // will match the requested target position. + coder->file_cur_pos = target_pos; + + return external_seek_needed; +} + + +/// The caller sets coder->file_target_pos so that it points to the *end* +/// of the desired file position. This function then determines how far +/// backwards from that position we can seek. After seeking fill_temp() +/// can be used to read data into coder->temp. When fill_temp() has finished, +/// coder->temp[coder->temp_size] will match coder->file_target_pos. +/// +/// This also validates that coder->target_file_pos is sane in sense that +/// we aren't trying to seek too far backwards (too close or beyond the +/// beginning of the file). +static lzma_ret +reverse_seek(lzma_file_info_coder *coder, + size_t in_start, size_t *in_pos, size_t in_size) +{ + // Check that there is enough data before the target position + // to contain at least Stream Header and Stream Footer. If there + // isn't, the file cannot be valid. + if (coder->file_target_pos < 2 * LZMA_STREAM_HEADER_SIZE) + return LZMA_DATA_ERROR; + + coder->temp_pos = 0; + + // The Stream Header at the very beginning of the file gets handled + // specially in SEQ_MAGIC_BYTES and thus we will never need to seek + // there. By not seeking to the first LZMA_STREAM_HEADER_SIZE bytes + // we avoid a useless external seek after SEQ_MAGIC_BYTES if the + // application uses an extremely small input buffer and the input + // file is very small. + if (coder->file_target_pos - LZMA_STREAM_HEADER_SIZE + < sizeof(coder->temp)) + coder->temp_size = (size_t)(coder->file_target_pos + - LZMA_STREAM_HEADER_SIZE); + else + coder->temp_size = sizeof(coder->temp); + + // The above if-statements guarantee this. This is important because + // the Stream Header/Footer decoders assume that there's at least + // LZMA_STREAM_HEADER_SIZE bytes in coder->temp. + assert(coder->temp_size >= LZMA_STREAM_HEADER_SIZE); + + if (seek_to_pos(coder, coder->file_target_pos - coder->temp_size, + in_start, in_pos, in_size)) + return LZMA_SEEK_NEEDED; + + return LZMA_OK; +} + + +/// Gets the number of zero-bytes at the end of the buffer. +static size_t +get_padding_size(const uint8_t *buf, size_t buf_size) +{ + size_t padding = 0; + while (buf_size > 0 && buf[--buf_size] == 0x00) + ++padding; + + return padding; +} + + +/// With the Stream Header at the very beginning of the file, LZMA_FORMAT_ERROR +/// is used to tell the application that Magic Bytes didn't match. In other +/// Stream Header/Footer fields (in the middle/end of the file) it could be +/// a bit confusing to return LZMA_FORMAT_ERROR as we already know that there +/// is a valid Stream Header at the beginning of the file. For those cases +/// this function is used to convert LZMA_FORMAT_ERROR to LZMA_DATA_ERROR. +static lzma_ret +hide_format_error(lzma_ret ret) +{ + if (ret == LZMA_FORMAT_ERROR) + ret = LZMA_DATA_ERROR; + + return ret; +} + + +/// Calls the Index decoder and updates coder->index_remaining. +/// This is a separate function because the input can be either directly +/// from the application or from coder->temp. +static lzma_ret +decode_index(lzma_file_info_coder *coder, const lzma_allocator *allocator, + const uint8_t *restrict in, size_t *restrict in_pos, + size_t in_size, bool update_file_cur_pos) +{ + const size_t in_start = *in_pos; + + const lzma_ret ret = coder->index_decoder.code( + coder->index_decoder.coder, + allocator, in, in_pos, in_size, + NULL, NULL, 0, LZMA_RUN); + + coder->index_remaining -= *in_pos - in_start; + + if (update_file_cur_pos) + coder->file_cur_pos += *in_pos - in_start; + + return ret; +} + + +static lzma_ret +file_info_decode(void *coder_ptr, const lzma_allocator *allocator, + const uint8_t *restrict in, size_t *restrict in_pos, + size_t in_size, + uint8_t *restrict out lzma_attribute((__unused__)), + size_t *restrict out_pos lzma_attribute((__unused__)), + size_t out_size lzma_attribute((__unused__)), + lzma_action action lzma_attribute((__unused__))) +{ + lzma_file_info_coder *coder = coder_ptr; + const size_t in_start = *in_pos; + + // If the caller provides input past the end of the file, trim + // the extra bytes from the buffer so that we won't read too far. + assert(coder->file_size >= coder->file_cur_pos); + if (coder->file_size - coder->file_cur_pos < in_size - in_start) + in_size = in_start + + (size_t)(coder->file_size - coder->file_cur_pos); + + while (true) + switch (coder->sequence) { + case SEQ_MAGIC_BYTES: + // Decode the Stream Header at the beginning of the file + // first to check if the Magic Bytes match. The flags + // are stored in coder->first_header_flags so that we + // don't need to seek to it again. + // + // Check that the file is big enough to contain at least + // Stream Header. + if (coder->file_size < LZMA_STREAM_HEADER_SIZE) + return LZMA_FORMAT_ERROR; + + // Read the Stream Header field into coder->temp. + if (fill_temp(coder, in, in_pos, in_size)) + return LZMA_OK; + + // This is the only Stream Header/Footer decoding where we + // want to return LZMA_FORMAT_ERROR if the Magic Bytes don't + // match. Elsewehere it will be converted to LZMA_DATA_ERROR. + return_if_error(lzma_stream_header_decode( + &coder->first_header_flags, coder->temp)); + + // Now that we know that the Magic Bytes match, check the + // file size. It's better to do this here after checking the + // Magic Bytes since this way we can give LZMA_FORMAT_ERROR + // instead of LZMA_DATA_ERROR when the Magic Bytes don't + // match in a file that is too big or isn't a multiple of + // four bytes. + if (coder->file_size > LZMA_VLI_MAX || (coder->file_size & 3)) + return LZMA_DATA_ERROR; + + // Start looking for Stream Padding and Stream Footer + // at the end of the file. + coder->file_target_pos = coder->file_size; + + // Fall through + + case SEQ_PADDING_SEEK: + coder->sequence = SEQ_PADDING_DECODE; + return_if_error(reverse_seek( + coder, in_start, in_pos, in_size)); + + // Fall through + + case SEQ_PADDING_DECODE: { + // Copy to coder->temp first. This keeps the code simpler if + // the application only provides input a few bytes at a time. + if (fill_temp(coder, in, in_pos, in_size)) + return LZMA_OK; + + // Scan the buffer backwards to get the size of the + // Stream Padding field (if any). + const size_t new_padding = get_padding_size( + coder->temp, coder->temp_size); + coder->stream_padding += new_padding; + + // Set the target position to the beginning of Stream Padding + // that has been observed so far. If all Stream Padding has + // been seen, then the target position will be at the end + // of the Stream Footer field. + coder->file_target_pos -= new_padding; + + if (new_padding == coder->temp_size) { + // The whole buffer was padding. Seek backwards in + // the file to get more input. + coder->sequence = SEQ_PADDING_SEEK; + break; + } + + // Size of Stream Padding must be a multiple of 4 bytes. + if (coder->stream_padding & 3) + return LZMA_DATA_ERROR; + + coder->sequence = SEQ_FOOTER; + + // Calculate the amount of non-padding data in coder->temp. + coder->temp_size -= new_padding; + coder->temp_pos = coder->temp_size; + + // We can avoid an external seek if the whole Stream Footer + // is already in coder->temp. In that case SEQ_FOOTER won't + // read more input and will find the Stream Footer from + // coder->temp[coder->temp_size - LZMA_STREAM_HEADER_SIZE]. + // + // Otherwise we will need to seek. The seeking is done so + // that Stream Footer wil be at the end of coder->temp. + // This way it's likely that we also get a complete Index + // field into coder->temp without needing a separate seek + // for that (unless the Index field is big). + if (coder->temp_size < LZMA_STREAM_HEADER_SIZE) + return_if_error(reverse_seek( + coder, in_start, in_pos, in_size)); + } + + // Fall through + + case SEQ_FOOTER: + // Copy the Stream Footer field into coder->temp. + // If Stream Footer was already available in coder->temp + // in SEQ_PADDING_DECODE, then this does nothing. + if (fill_temp(coder, in, in_pos, in_size)) + return LZMA_OK; + + // Make coder->file_target_pos and coder->temp_size point + // to the beginning of Stream Footer and thus to the end + // of the Index field. coder->temp_pos will be updated + // a bit later. + coder->file_target_pos -= LZMA_STREAM_HEADER_SIZE; + coder->temp_size -= LZMA_STREAM_HEADER_SIZE; + + // Decode Stream Footer. + return_if_error(hide_format_error(lzma_stream_footer_decode( + &coder->footer_flags, + coder->temp + coder->temp_size))); + + // Check that we won't seek past the beginning of the file. + // + // LZMA_STREAM_HEADER_SIZE is added because there must be + // space for Stream Header too even though we won't seek + // there before decoding the Index field. + // + // There's no risk of integer overflow here because + // Backward Size cannot be greater than 2^34. + if (coder->file_target_pos < coder->footer_flags.backward_size + + LZMA_STREAM_HEADER_SIZE) + return LZMA_DATA_ERROR; + + // Set the target position to the beginning of the Index field. + coder->file_target_pos -= coder->footer_flags.backward_size; + coder->sequence = SEQ_INDEX_INIT; + + // We can avoid an external seek if the whole Index field is + // already available in coder->temp. + if (coder->temp_size >= coder->footer_flags.backward_size) { + // Set coder->temp_pos to point to the beginning + // of the Index. + coder->temp_pos = coder->temp_size + - coder->footer_flags.backward_size; + } else { + // These are set to zero to indicate that there's no + // useful data (Index or anything else) in coder->temp. + coder->temp_pos = 0; + coder->temp_size = 0; + + // Seek to the beginning of the Index field. + if (seek_to_pos(coder, coder->file_target_pos, + in_start, in_pos, in_size)) + return LZMA_SEEK_NEEDED; + } + + // Fall through + + case SEQ_INDEX_INIT: { + // Calculate the amount of memory already used by the earlier + // Indexes so that we know how big memory limit to pass to + // the Index decoder. + // + // NOTE: When there are multiple Streams, the separate + // lzma_index structures can use more RAM (as measured by + // lzma_index_memused()) than the final combined lzma_index. + // Thus memlimit may need to be slightly higher than the final + // calculated memory usage will be. This is perhaps a bit + // confusing to the application, but I think it shouldn't + // cause problems in practice. + uint64_t memused = 0; + if (coder->combined_index != NULL) { + memused = lzma_index_memused(coder->combined_index); + assert(memused <= coder->memlimit); + if (memused > coder->memlimit) // Extra sanity check + return LZMA_PROG_ERROR; + } + + // Initialize the Index decoder. + return_if_error(lzma_index_decoder_init( + &coder->index_decoder, allocator, + &coder->this_index, + coder->memlimit - memused)); + + coder->index_remaining = coder->footer_flags.backward_size; + coder->sequence = SEQ_INDEX_DECODE; + } + + // Fall through + + case SEQ_INDEX_DECODE: { + // Decode (a part of) the Index. If the whole Index is already + // in coder->temp, read it from there. Otherwise read from + // in[*in_pos] onwards. Note that index_decode() updates + // coder->index_remaining and optionally coder->file_cur_pos. + lzma_ret ret; + if (coder->temp_size != 0) { + assert(coder->temp_size - coder->temp_pos + == coder->index_remaining); + ret = decode_index(coder, allocator, coder->temp, + &coder->temp_pos, coder->temp_size, + false); + } else { + // Don't give the decoder more input than the known + // remaining size of the Index field. + size_t in_stop = in_size; + if (in_size - *in_pos > coder->index_remaining) + in_stop = *in_pos + + (size_t)(coder->index_remaining); + + ret = decode_index(coder, allocator, + in, in_pos, in_stop, true); + } + + switch (ret) { + case LZMA_OK: + // If the Index docoder asks for more input when we + // have already given it as much input as Backward Size + // indicated, the file is invalid. + if (coder->index_remaining == 0) + return LZMA_DATA_ERROR; + + // We cannot get here if we were reading Index from + // coder->temp because when reading from coder->temp + // we give the Index decoder exactly + // coder->index_remaining bytes of input. + assert(coder->temp_size == 0); + + return LZMA_OK; + + case LZMA_STREAM_END: + // If the decoding seems to be successful, check also + // that the Index decoder consumed as much input as + // indicated by the Backward Size field. + if (coder->index_remaining != 0) + return LZMA_DATA_ERROR; + + break; + + default: + return ret; + } + + // Calculate how much the Index tells us to seek backwards + // (relative to the beginning of the Index): Total size of + // all Blocks plus the size of the Stream Header field. + // No integer overflow here because lzma_index_total_size() + // cannot return a value greater than LZMA_VLI_MAX. + const uint64_t seek_amount + = lzma_index_total_size(coder->this_index) + + LZMA_STREAM_HEADER_SIZE; + + // Check that Index is sane in sense that seek_amount won't + // make us seek past the beginning of the file when locating + // the Stream Header. + // + // coder->file_target_pos still points to the beginning of + // the Index field. + if (coder->file_target_pos < seek_amount) + return LZMA_DATA_ERROR; + + // Set the target to the beginning of Stream Header. + coder->file_target_pos -= seek_amount; + + if (coder->file_target_pos == 0) { + // We would seek to the beginning of the file, but + // since we already decoded that Stream Header in + // SEQ_MAGIC_BYTES, we can use the cached value from + // coder->first_header_flags to avoid the seek. + coder->header_flags = coder->first_header_flags; + coder->sequence = SEQ_HEADER_COMPARE; + break; + } + + coder->sequence = SEQ_HEADER_DECODE; + + // Make coder->file_target_pos point to the end of + // the Stream Header field. + coder->file_target_pos += LZMA_STREAM_HEADER_SIZE; + + // If coder->temp_size is non-zero, it points to the end + // of the Index field. Then the beginning of the Index + // field is at coder->temp[coder->temp_size + // - coder->footer_flags.backward_size]. + assert(coder->temp_size == 0 || coder->temp_size + >= coder->footer_flags.backward_size); + + // If coder->temp contained the whole Index, see if it has + // enough data to contain also the Stream Header. If so, + // we avoid an external seek. + // + // NOTE: This can happen only with small .xz files and only + // for the non-first Stream as the Stream Flags of the first + // Stream are cached and already handled a few lines above. + // So this isn't as useful as the other seek-avoidance cases. + if (coder->temp_size != 0 && coder->temp_size + - coder->footer_flags.backward_size + >= seek_amount) { + // Make temp_pos and temp_size point to the *end* of + // Stream Header so that SEQ_HEADER_DECODE will find + // the start of Stream Header from coder->temp[ + // coder->temp_size - LZMA_STREAM_HEADER_SIZE]. + coder->temp_pos = coder->temp_size + - coder->footer_flags.backward_size + - seek_amount + + LZMA_STREAM_HEADER_SIZE; + coder->temp_size = coder->temp_pos; + } else { + // Seek so that Stream Header will be at the end of + // coder->temp. With typical multi-Stream files we + // will usually also get the Stream Footer and Index + // of the *previous* Stream in coder->temp and thus + // won't need a separate seek for them. + return_if_error(reverse_seek(coder, + in_start, in_pos, in_size)); + } + } + + // Fall through + + case SEQ_HEADER_DECODE: + // Copy the Stream Header field into coder->temp. + // If Stream Header was already available in coder->temp + // in SEQ_INDEX_DECODE, then this does nothing. + if (fill_temp(coder, in, in_pos, in_size)) + return LZMA_OK; + + // Make all these point to the beginning of Stream Header. + coder->file_target_pos -= LZMA_STREAM_HEADER_SIZE; + coder->temp_size -= LZMA_STREAM_HEADER_SIZE; + coder->temp_pos = coder->temp_size; + + // Decode the Stream Header. + return_if_error(hide_format_error(lzma_stream_header_decode( + &coder->header_flags, + coder->temp + coder->temp_size))); + + coder->sequence = SEQ_HEADER_COMPARE; + + // Fall through + + case SEQ_HEADER_COMPARE: + // Compare Stream Header against Stream Footer. They must + // match. + return_if_error(lzma_stream_flags_compare( + &coder->header_flags, &coder->footer_flags)); + + // Store the decoded Stream Flags into the Index. Use the + // Footer Flags because it contains Backward Size, although + // it shouldn't matter in practice. + if (lzma_index_stream_flags(coder->this_index, + &coder->footer_flags) != LZMA_OK) + return LZMA_PROG_ERROR; + + // Store also the size of the Stream Padding field. It is + // needed to calculate the offsets of the Streams correctly. + if (lzma_index_stream_padding(coder->this_index, + coder->stream_padding) != LZMA_OK) + return LZMA_PROG_ERROR; + + // Reset it so that it's ready for the next Stream. + coder->stream_padding = 0; + + // Append the earlier decoded Indexes after this_index. + if (coder->combined_index != NULL) + return_if_error(lzma_index_cat(coder->this_index, + coder->combined_index, allocator)); + + coder->combined_index = coder->this_index; + coder->this_index = NULL; + + // If the whole file was decoded, tell the caller that we + // are finished. + if (coder->file_target_pos == 0) { + // The combined index must indicate the same file + // size as was told to us at initialization. + assert(lzma_index_file_size(coder->combined_index) + == coder->file_size); + + // Make the combined index available to + // the application. + *coder->dest_index = coder->combined_index; + coder->combined_index = NULL; + + // Mark the input buffer as used since we may have + // done internal seeking and thus don't know how + // many input bytes were actually used. This way + // lzma_stream.total_in gets a slightly better + // estimate of the amount of input used. + *in_pos = in_size; + return LZMA_STREAM_END; + } + + // We didn't hit the beginning of the file yet, so continue + // reading backwards in the file. If we have unprocessed + // data in coder->temp, use it before requesting more data + // from the application. + // + // coder->file_target_pos, coder->temp_size, and + // coder->temp_pos all point to the beginning of Stream Header + // and thus the end of the previous Stream in the file. + coder->sequence = coder->temp_size > 0 + ? SEQ_PADDING_DECODE : SEQ_PADDING_SEEK; + break; + + default: + assert(0); + return LZMA_PROG_ERROR; + } +} + + +static lzma_ret +file_info_decoder_memconfig(void *coder_ptr, uint64_t *memusage, + uint64_t *old_memlimit, uint64_t new_memlimit) +{ + lzma_file_info_coder *coder = coder_ptr; + + // The memory usage calculation comes from three things: + // + // (1) The Indexes that have already been decoded and processed into + // coder->combined_index. + // + // (2) The latest Index in coder->this_index that has been decoded but + // not yet put into coder->combined_index. + // + // (3) The latest Index that we have started decoding but haven't + // finished and thus isn't available in coder->this_index yet. + // Memory usage and limit information needs to be communicated + // from/to coder->index_decoder. + // + // Care has to be taken to not do both (2) and (3) when calculating + // the memory usage. + uint64_t combined_index_memusage = 0; + uint64_t this_index_memusage = 0; + + // (1) If we have already successfully decoded one or more Indexes, + // get their memory usage. + if (coder->combined_index != NULL) + combined_index_memusage = lzma_index_memused( + coder->combined_index); + + // Choose between (2), (3), or neither. + if (coder->this_index != NULL) { + // (2) The latest Index is available. Use its memory usage. + this_index_memusage = lzma_index_memused(coder->this_index); + + } else if (coder->sequence == SEQ_INDEX_DECODE) { + // (3) The Index decoder is activate and hasn't yet stored + // the new index in coder->this_index. Get the memory usage + // information from the Index decoder. + // + // NOTE: If the Index decoder doesn't yet know how much memory + // it will eventually need, it will return a tiny value here. + uint64_t dummy; + if (coder->index_decoder.memconfig(coder->index_decoder.coder, + &this_index_memusage, &dummy, 0) + != LZMA_OK) { + assert(0); + return LZMA_PROG_ERROR; + } + } + + // Now we know the total memory usage/requirement. If we had neither + // old Indexes nor a new Index, this will be zero which isn't + // acceptable as lzma_memusage() has to return non-zero on success + // and even with an empty .xz file we will end up with a lzma_index + // that takes some memory. + *memusage = combined_index_memusage + this_index_memusage; + if (*memusage == 0) + *memusage = lzma_index_memusage(1, 0); + + *old_memlimit = coder->memlimit; + + // If requested, set a new memory usage limit. + if (new_memlimit != 0) { + if (new_memlimit < *memusage) + return LZMA_MEMLIMIT_ERROR; + + // In the condition (3) we need to tell the Index decoder + // its new memory usage limit. + if (coder->this_index == NULL + && coder->sequence == SEQ_INDEX_DECODE) { + const uint64_t idec_new_memlimit = new_memlimit + - combined_index_memusage; + + assert(this_index_memusage > 0); + assert(idec_new_memlimit > 0); + + uint64_t dummy1; + uint64_t dummy2; + + if (coder->index_decoder.memconfig( + coder->index_decoder.coder, + &dummy1, &dummy2, idec_new_memlimit) + != LZMA_OK) { + assert(0); + return LZMA_PROG_ERROR; + } + } + + coder->memlimit = new_memlimit; + } + + return LZMA_OK; +} + + +static void +file_info_decoder_end(void *coder_ptr, const lzma_allocator *allocator) +{ + lzma_file_info_coder *coder = coder_ptr; + + lzma_next_end(&coder->index_decoder, allocator); + lzma_index_end(coder->this_index, allocator); + lzma_index_end(coder->combined_index, allocator); + + lzma_free(coder, allocator); + return; +} + + +static lzma_ret +lzma_file_info_decoder_init(lzma_next_coder *next, + const lzma_allocator *allocator, uint64_t *seek_pos, + lzma_index **dest_index, + uint64_t memlimit, uint64_t file_size) +{ + lzma_next_coder_init(&lzma_file_info_decoder_init, next, allocator); + + if (dest_index == NULL) + return LZMA_PROG_ERROR; + + lzma_file_info_coder *coder = next->coder; + if (coder == NULL) { + coder = lzma_alloc(sizeof(lzma_file_info_coder), allocator); + if (coder == NULL) + return LZMA_MEM_ERROR; + + next->coder = coder; + next->code = &file_info_decode; + next->end = &file_info_decoder_end; + next->memconfig = &file_info_decoder_memconfig; + + coder->index_decoder = LZMA_NEXT_CODER_INIT; + coder->this_index = NULL; + coder->combined_index = NULL; + } + + coder->sequence = SEQ_MAGIC_BYTES; + coder->file_cur_pos = 0; + coder->file_target_pos = 0; + coder->file_size = file_size; + + lzma_index_end(coder->this_index, allocator); + coder->this_index = NULL; + + lzma_index_end(coder->combined_index, allocator); + coder->combined_index = NULL; + + coder->stream_padding = 0; + + coder->dest_index = dest_index; + coder->external_seek_pos = seek_pos; + + // If memlimit is 0, make it 1 to ensure that lzma_memlimit_get() + // won't return 0 (which would indicate an error). + coder->memlimit = my_max(1, memlimit); + + // Preprare thse for reading the first Stream Header into coder->temp. + coder->temp_pos = 0; + coder->temp_size = LZMA_STREAM_HEADER_SIZE; + + return LZMA_OK; +} + + +extern LZMA_API(lzma_ret) +lzma_file_info_decoder(lzma_stream *strm, lzma_index **dest_index, + uint64_t memlimit, uint64_t file_size) +{ + lzma_next_strm_init(lzma_file_info_decoder_init, strm, &strm->seek_pos, + dest_index, memlimit, file_size); + + // We allow LZMA_FINISH in addition to LZMA_RUN for convenience. + // lzma_code() is able to handle the LZMA_FINISH + LZMA_SEEK_NEEDED + // combination in a sane way. Applications still need to be careful + // if they use LZMA_FINISH so that they remember to reset it back + // to LZMA_RUN after seeking if needed. + strm->internal->supported_actions[LZMA_RUN] = true; + strm->internal->supported_actions[LZMA_FINISH] = true; + + return LZMA_OK; +} diff --git a/src/liblzma/liblzma.map b/src/liblzma/liblzma.map index f53a4ea..930e5e8 100644 --- a/src/liblzma/liblzma.map +++ b/src/liblzma/liblzma.map @@ -102,7 +102,12 @@ global: lzma_get_progress; lzma_stream_encoder_mt; lzma_stream_encoder_mt_memusage; +} XZ_5.0; + +XZ_5.3.0alpha { +global: + lzma_file_info_decoder; local: *; -} XZ_5.0; +} XZ_5.2;