*/
/*
- * Copyright (C) 2010 Carl Thijssen
- * Copyright (C) 2012 Eric Biggers
+ * Copyright (C) 2012, 2013 Eric Biggers
*
* This file is part of wimlib, a library for working with WIM files.
*
* wimlib is free software; you can redistribute it and/or modify it under the
- * terms of the GNU Lesser General Public License as published by the Free
- * Software Foundation; either version 2.1 of the License, or (at your option)
+ * terms of the GNU General Public License as published by the Free
+ * Software Foundation; either version 3 of the License, or (at your option)
* any later version.
*
* wimlib is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
- * A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+ * A PARTICULAR PURPOSE. See the GNU General Public License for more
* details.
*
- * You should have received a copy of the GNU Lesser General Public License
+ * You should have received a copy of the GNU General Public License
* along with wimlib; if not, see http://www.gnu.org/licenses/.
*/
+#include "config.h"
+
+#if defined(HAVE_SYS_FILE_H) && defined(HAVE_FLOCK)
+/* On BSD, this should be included before "list.h" so that "list.h" can
+ * overwrite the LIST_HEAD macro. */
+# include <sys/file.h>
+#endif
+
+#ifdef __WIN32__
+# include "win32.h"
+#endif
+
+#include "list.h"
#include "wimlib_internal.h"
-#include "io.h"
+#include "buffer_io.h"
#include "dentry.h"
#include "lookup_table.h"
#include "xml.h"
+
+#ifdef ENABLE_MULTITHREADED_COMPRESSION
+# include <pthread.h>
+#endif
+
#include <unistd.h>
+#include <fcntl.h>
+#include <errno.h>
+
+#ifdef WITH_NTFS_3G
+# include <time.h>
+# include <ntfs-3g/attrib.h>
+# include <ntfs-3g/inode.h>
+# include <ntfs-3g/dir.h>
+#endif
+
+#ifdef HAVE_ALLOCA_H
+# include <alloca.h>
+#else
+# include <stdlib.h>
+#endif
+
+#include <limits.h>
+
+#ifndef __WIN32__
+# include <sys/uio.h> /* for `struct iovec' */
+#endif
+
+/* Chunk table that's located at the beginning of each compressed resource in
+ * the WIM. (This is not the on-disk format; the on-disk format just has an
+ * array of offsets.) */
+struct chunk_table {
+ off_t file_offset;
+ u64 num_chunks;
+ u64 original_resource_size;
+ u64 bytes_per_chunk_entry;
+ u64 table_disk_size;
+ u64 cur_offset;
+ u64 *cur_offset_p;
+ u64 offsets[0];
+};
+
+/*
+ * Allocates and initializes a chunk table, and reserves space for it in the
+ * output file.
+ */
+static int
+begin_wim_resource_chunk_tab(const struct wim_lookup_table_entry *lte,
+ int out_fd,
+ off_t file_offset,
+ struct chunk_table **chunk_tab_ret)
+{
+ u64 size = wim_resource_size(lte);
+ u64 num_chunks = (size + WIM_CHUNK_SIZE - 1) / WIM_CHUNK_SIZE;
+ size_t alloc_size = sizeof(struct chunk_table) + num_chunks * sizeof(u64);
+ struct chunk_table *chunk_tab = CALLOC(1, alloc_size);
+
+ DEBUG("Begin chunk table for stream with size %"PRIu64, size);
+
+ if (!chunk_tab) {
+ ERROR("Failed to allocate chunk table for %"PRIu64" byte "
+ "resource", size);
+ return WIMLIB_ERR_NOMEM;
+ }
+ chunk_tab->file_offset = file_offset;
+ chunk_tab->num_chunks = num_chunks;
+ chunk_tab->original_resource_size = size;
+ chunk_tab->bytes_per_chunk_entry = (size >= (1ULL << 32)) ? 8 : 4;
+ chunk_tab->table_disk_size = chunk_tab->bytes_per_chunk_entry *
+ (num_chunks - 1);
+ chunk_tab->cur_offset = 0;
+ chunk_tab->cur_offset_p = chunk_tab->offsets;
+
+ if (full_write(out_fd, chunk_tab,
+ chunk_tab->table_disk_size) != chunk_tab->table_disk_size)
+ {
+ ERROR_WITH_ERRNO("Failed to write chunk table in compressed "
+ "file resource");
+ FREE(chunk_tab);
+ return WIMLIB_ERR_WRITE;
+ }
+ *chunk_tab_ret = chunk_tab;
+ return 0;
+}
+
+/*
+ * compress_func_t- Pointer to a function to compresses a chunk
+ * of a WIM resource. This may be either
+ * wimlib_xpress_compress() (xpress-compress.c) or
+ * wimlib_lzx_compress() (lzx-compress.c).
+ *
+ * @chunk: Uncompressed data of the chunk.
+ * @chunk_size: Size of the uncompressed chunk, in bytes.
+ * @out: Pointer to output buffer of size at least (@chunk_size - 1) bytes.
+ *
+ * Returns the size of the compressed data written to @out in bytes, or 0 if the
+ * data could not be compressed to (@chunk_size - 1) bytes or fewer.
+ *
+ * As a special requirement, the compression code is optimized for the WIM
+ * format and therefore requires (@chunk_size <= 32768).
+ *
+ * As another special requirement, the compression code will read up to 8 bytes
+ * off the end of the @chunk array for performance reasons. The values of these
+ * bytes will not affect the output of the compression, but the calling code
+ * must make sure that the buffer holding the uncompressed chunk is actually at
+ * least (@chunk_size + 8) bytes, or at least that these extra bytes are in
+ * mapped memory that will not cause a memory access violation if accessed.
+ */
+typedef unsigned (*compress_func_t)(const void *chunk, unsigned chunk_size,
+ void *out);
+
+static compress_func_t
+get_compress_func(int out_ctype)
+{
+ if (out_ctype == WIMLIB_COMPRESSION_TYPE_LZX)
+ return wimlib_lzx_compress;
+ else
+ return wimlib_xpress_compress;
+}
+
+/*
+ * Writes a chunk of a WIM resource to an output file.
+ *
+ * @chunk: Uncompressed data of the chunk.
+ * @chunk_size: Size of the chunk (<= WIM_CHUNK_SIZE)
+ * @out_fd: File descriptor to write the chunk to.
+ * @compress: Compression function to use (NULL if writing uncompressed
+ * data).
+ * @chunk_tab: Pointer to chunk table being created. It is updated with the
+ * offset of the chunk we write.
+ *
+ * Returns 0 on success; nonzero on failure.
+ */
+static int
+write_wim_resource_chunk(const void * restrict chunk,
+ unsigned chunk_size,
+ filedes_t out_fd,
+ compress_func_t compress,
+ struct chunk_table * restrict chunk_tab)
+{
+ const void *out_chunk;
+ unsigned out_chunk_size;
+ if (compress) {
+ void *compressed_chunk = alloca(chunk_size);
+
+ out_chunk_size = (*compress)(chunk, chunk_size, compressed_chunk);
+ if (out_chunk_size) {
+ /* Write compressed */
+ out_chunk = compressed_chunk;
+ } else {
+ /* Write uncompressed */
+ out_chunk = chunk;
+ out_chunk_size = chunk_size;
+ }
+ *chunk_tab->cur_offset_p++ = chunk_tab->cur_offset;
+ chunk_tab->cur_offset += out_chunk_size;
+ } else {
+ /* Write uncompressed */
+ out_chunk = chunk;
+ out_chunk_size = chunk_size;
+ }
+ if (full_write(out_fd, out_chunk, out_chunk_size) != out_chunk_size) {
+ ERROR_WITH_ERRNO("Failed to write WIM resource chunk");
+ return WIMLIB_ERR_WRITE;
+ }
+ return 0;
+}
+
+/*
+ * Finishes a WIM chunk table and writes it to the output file at the correct
+ * offset.
+ *
+ * The final size of the full compressed resource is returned in the
+ * @compressed_size_p.
+ */
+static int
+finish_wim_resource_chunk_tab(struct chunk_table *chunk_tab,
+ filedes_t out_fd, u64 *compressed_size_p)
+{
+ size_t bytes_written;
+
+ if (chunk_tab->bytes_per_chunk_entry == 8) {
+ array_cpu_to_le64(chunk_tab->offsets, chunk_tab->num_chunks);
+ } else {
+ for (u64 i = 0; i < chunk_tab->num_chunks; i++)
+ ((u32*)chunk_tab->offsets)[i] =
+ cpu_to_le32(chunk_tab->offsets[i]);
+ }
+ bytes_written = full_pwrite(out_fd,
+ (u8*)chunk_tab->offsets + chunk_tab->bytes_per_chunk_entry,
+ chunk_tab->table_disk_size,
+ chunk_tab->file_offset);
+ if (bytes_written != chunk_tab->table_disk_size) {
+ ERROR_WITH_ERRNO("Failed to write chunk table in compressed "
+ "file resource");
+ return WIMLIB_ERR_WRITE;
+ }
+ *compressed_size_p = chunk_tab->cur_offset + chunk_tab->table_disk_size;
+ return 0;
+}
+
+static int
+seek_and_truncate(filedes_t out_fd, off_t offset)
+{
+ if (lseek(out_fd, offset, SEEK_SET) == -1 ||
+ ftruncate(out_fd, offset))
+ {
+ ERROR_WITH_ERRNO("Failed to truncate output WIM file");
+ return WIMLIB_ERR_WRITE;
+ } else {
+ return 0;
+ }
+}
+
+static int
+finalize_and_check_sha1(SHA_CTX * restrict sha_ctx,
+ struct wim_lookup_table_entry * restrict lte)
+{
+ u8 md[SHA1_HASH_SIZE];
+ sha1_final(md, sha_ctx);
+ if (lte->unhashed) {
+ copy_hash(lte->hash, md);
+ } else if (!hashes_equal(md, lte->hash)) {
+ ERROR("WIM resource has incorrect hash!");
+ if (lte_filename_valid(lte)) {
+ ERROR("We were reading it from \"%"TS"\"; maybe "
+ "it changed while we were reading it.",
+ lte->file_on_disk);
+ }
+ return WIMLIB_ERR_INVALID_RESOURCE_HASH;
+ }
+ return 0;
+}
+
+
+struct write_resource_ctx {
+ compress_func_t compress;
+ struct chunk_table *chunk_tab;
+ filedes_t out_fd;
+ SHA_CTX sha_ctx;
+ bool doing_sha;
+};
-/* Reopens the FILE* for a WIM read-write. */
-static int reopen_rw(WIMStruct *w)
+static int
+write_resource_cb(const void *restrict chunk, size_t chunk_size,
+ void *restrict _ctx)
+{
+ struct write_resource_ctx *ctx = _ctx;
+
+ if (ctx->doing_sha)
+ sha1_update(&ctx->sha_ctx, chunk, chunk_size);
+ return write_wim_resource_chunk(chunk, chunk_size,
+ ctx->out_fd, ctx->compress,
+ ctx->chunk_tab);
+}
+
+/*
+ * Write a resource to an output WIM.
+ *
+ * @lte: Lookup table entry for the resource, which could be in another WIM,
+ * in an external file, or in another location.
+ *
+ * @out_fd: File descriptor opened to the output WIM.
+ *
+ * @out_ctype: One of the WIMLIB_COMPRESSION_TYPE_* constants to indicate
+ * which compression algorithm to use.
+ *
+ * @out_res_entry: On success, this is filled in with the offset, flags,
+ * compressed size, and uncompressed size of the resource
+ * in the output WIM.
+ *
+ * @flags: WIMLIB_RESOURCE_FLAG_RECOMPRESS to force data to be recompressed
+ * even if it could otherwise be copied directly from the input.
+ *
+ * Additional notes: The SHA1 message digest of the uncompressed data is
+ * calculated (except when doing a raw copy --- see below). If the @unhashed
+ * flag is set on the lookup table entry, this message digest is simply copied
+ * to it; otherwise, the message digest is compared with the existing one, and
+ * the function will fail if they do not match.
+ */
+int
+write_wim_resource(struct wim_lookup_table_entry *lte,
+ filedes_t out_fd, int out_ctype,
+ struct resource_entry *out_res_entry,
+ int flags)
+{
+ struct write_resource_ctx write_ctx;
+ u64 read_size;
+ u64 new_size;
+ off_t offset;
+ int ret;
+
+ flags &= ~WIMLIB_RESOURCE_FLAG_RECOMPRESS;
+
+ /* Get current position in output WIM */
+ offset = filedes_offset(out_fd);
+ if (offset == -1) {
+ ERROR_WITH_ERRNO("Can't get position in output WIM");
+ return WIMLIB_ERR_WRITE;
+ }
+
+ /* If we are not forcing the data to be recompressed, and the input
+ * resource is located in a WIM with the same compression type as that
+ * desired other than no compression, we can simply copy the compressed
+ * data without recompressing it. This also means we must skip
+ * calculating the SHA1, as we never will see the uncompressed data. */
+ if (!(flags & WIMLIB_RESOURCE_FLAG_RECOMPRESS) &&
+ lte->resource_location == RESOURCE_IN_WIM &&
+ out_ctype != WIMLIB_COMPRESSION_TYPE_NONE &&
+ wimlib_get_compression_type(lte->wim) == out_ctype)
+ {
+ flags |= WIMLIB_RESOURCE_FLAG_RAW;
+ write_ctx.doing_sha = false;
+ read_size = lte->resource_entry.size;
+ } else {
+ write_ctx.doing_sha = true;
+ sha1_init(&write_ctx.sha_ctx);
+ read_size = lte->resource_entry.original_size;
+ }
+
+ /* Initialize the chunk table and set the compression function if
+ * compressing the resource. */
+ if (out_ctype == WIMLIB_COMPRESSION_TYPE_NONE ||
+ (flags & WIMLIB_RESOURCE_FLAG_RAW)) {
+ write_ctx.compress = NULL;
+ write_ctx.chunk_tab = NULL;
+ } else {
+ write_ctx.compress = get_compress_func(out_ctype);
+ ret = begin_wim_resource_chunk_tab(lte, out_fd,
+ offset,
+ &write_ctx.chunk_tab);
+ if (ret)
+ return ret;
+ }
+
+ /* Write the entire resource by reading the entire resource and feeding
+ * the data through the write_resource_cb function. */
+ write_ctx.out_fd = out_fd;
+try_write_again:
+ ret = read_resource_prefix(lte, read_size,
+ write_resource_cb, &write_ctx, flags);
+ if (ret)
+ goto out_free_chunk_tab;
+
+ /* Verify SHA1 message digest of the resource, or set the hash for the
+ * first time. */
+ if (write_ctx.doing_sha) {
+ ret = finalize_and_check_sha1(&write_ctx.sha_ctx, lte);
+ if (ret)
+ goto out_free_chunk_tab;
+ }
+
+ out_res_entry->flags = lte->resource_entry.flags;
+ out_res_entry->original_size = wim_resource_size(lte);
+ out_res_entry->offset = offset;
+ if (flags & WIMLIB_RESOURCE_FLAG_RAW) {
+ /* Doing a raw write: The new compressed size is the same as
+ * the compressed size in the other WIM. */
+ new_size = lte->resource_entry.size;
+ } else if (out_ctype == WIMLIB_COMPRESSION_TYPE_NONE) {
+ /* Using WIMLIB_COMPRESSION_TYPE_NONE: The new compressed size
+ * is the original size. */
+ new_size = lte->resource_entry.original_size;
+ out_res_entry->flags &= ~WIM_RESHDR_FLAG_COMPRESSED;
+ } else {
+ /* Using a different compression type: Call
+ * finish_wim_resource_chunk_tab() and it will provide the new
+ * compressed size. */
+ ret = finish_wim_resource_chunk_tab(write_ctx.chunk_tab, out_fd,
+ &new_size);
+ if (ret)
+ goto out_free_chunk_tab;
+ if (new_size >= wim_resource_size(lte)) {
+ /* Oops! We compressed the resource to larger than the original
+ * size. Write the resource uncompressed instead. */
+ DEBUG("Compressed %"PRIu64" => %"PRIu64" bytes; "
+ "writing uncompressed instead",
+ wim_resource_size(lte), new_size);
+ ret = seek_and_truncate(out_fd, offset);
+ if (ret)
+ goto out_free_chunk_tab;
+ write_ctx.compress = NULL;
+ write_ctx.doing_sha = false;
+ out_ctype = WIMLIB_COMPRESSION_TYPE_NONE;
+ goto try_write_again;
+ }
+ out_res_entry->flags |= WIM_RESHDR_FLAG_COMPRESSED;
+ }
+ out_res_entry->size = new_size;
+ ret = 0;
+out_free_chunk_tab:
+ FREE(write_ctx.chunk_tab);
+ return ret;
+}
+
+#ifdef ENABLE_MULTITHREADED_COMPRESSION
+
+/* Blocking shared queue (solves the producer-consumer problem) */
+struct shared_queue {
+ unsigned size;
+ unsigned front;
+ unsigned back;
+ unsigned filled_slots;
+ void **array;
+ pthread_mutex_t lock;
+ pthread_cond_t msg_avail_cond;
+ pthread_cond_t space_avail_cond;
+};
+
+static int
+shared_queue_init(struct shared_queue *q, unsigned size)
+{
+ wimlib_assert(size != 0);
+ q->array = CALLOC(sizeof(q->array[0]), size);
+ if (!q->array)
+ goto err;
+ q->filled_slots = 0;
+ q->front = 0;
+ q->back = size - 1;
+ q->size = size;
+ if (pthread_mutex_init(&q->lock, NULL)) {
+ ERROR_WITH_ERRNO("Failed to initialize mutex");
+ goto err;
+ }
+ if (pthread_cond_init(&q->msg_avail_cond, NULL)) {
+ ERROR_WITH_ERRNO("Failed to initialize condition variable");
+ goto err_destroy_lock;
+ }
+ if (pthread_cond_init(&q->space_avail_cond, NULL)) {
+ ERROR_WITH_ERRNO("Failed to initialize condition variable");
+ goto err_destroy_msg_avail_cond;
+ }
+ return 0;
+err_destroy_msg_avail_cond:
+ pthread_cond_destroy(&q->msg_avail_cond);
+err_destroy_lock:
+ pthread_mutex_destroy(&q->lock);
+err:
+ return WIMLIB_ERR_NOMEM;
+}
+
+static void
+shared_queue_destroy(struct shared_queue *q)
+{
+ FREE(q->array);
+ pthread_mutex_destroy(&q->lock);
+ pthread_cond_destroy(&q->msg_avail_cond);
+ pthread_cond_destroy(&q->space_avail_cond);
+}
+
+static void
+shared_queue_put(struct shared_queue *q, void *obj)
+{
+ pthread_mutex_lock(&q->lock);
+ while (q->filled_slots == q->size)
+ pthread_cond_wait(&q->space_avail_cond, &q->lock);
+
+ q->back = (q->back + 1) % q->size;
+ q->array[q->back] = obj;
+ q->filled_slots++;
+
+ pthread_cond_broadcast(&q->msg_avail_cond);
+ pthread_mutex_unlock(&q->lock);
+}
+
+static void *
+shared_queue_get(struct shared_queue *q)
+{
+ void *obj;
+
+ pthread_mutex_lock(&q->lock);
+ while (q->filled_slots == 0)
+ pthread_cond_wait(&q->msg_avail_cond, &q->lock);
+
+ obj = q->array[q->front];
+ q->array[q->front] = NULL;
+ q->front = (q->front + 1) % q->size;
+ q->filled_slots--;
+
+ pthread_cond_broadcast(&q->space_avail_cond);
+ pthread_mutex_unlock(&q->lock);
+ return obj;
+}
+
+struct compressor_thread_params {
+ struct shared_queue *res_to_compress_queue;
+ struct shared_queue *compressed_res_queue;
+ compress_func_t compress;
+};
+
+#define MAX_CHUNKS_PER_MSG 2
+
+struct message {
+ struct wim_lookup_table_entry *lte;
+ u8 *uncompressed_chunks[MAX_CHUNKS_PER_MSG];
+ u8 *compressed_chunks[MAX_CHUNKS_PER_MSG];
+ unsigned uncompressed_chunk_sizes[MAX_CHUNKS_PER_MSG];
+ struct iovec out_chunks[MAX_CHUNKS_PER_MSG];
+ size_t total_out_bytes;
+ unsigned num_chunks;
+ struct list_head list;
+ bool complete;
+ u64 begin_chunk;
+};
+
+static void
+compress_chunks(struct message *msg, compress_func_t compress)
+{
+ msg->total_out_bytes = 0;
+ for (unsigned i = 0; i < msg->num_chunks; i++) {
+ unsigned len = compress(msg->uncompressed_chunks[i],
+ msg->uncompressed_chunk_sizes[i],
+ msg->compressed_chunks[i]);
+ void *out_chunk;
+ unsigned out_len;
+ if (len) {
+ /* To be written compressed */
+ out_chunk = msg->compressed_chunks[i];
+ out_len = len;
+ } else {
+ /* To be written uncompressed */
+ out_chunk = msg->uncompressed_chunks[i];
+ out_len = msg->uncompressed_chunk_sizes[i];
+ }
+ msg->out_chunks[i].iov_base = out_chunk;
+ msg->out_chunks[i].iov_len = out_len;
+ msg->total_out_bytes += out_len;
+ }
+}
+
+/* Compressor thread routine. This is a lot simpler than the main thread
+ * routine: just repeatedly get a group of chunks from the
+ * res_to_compress_queue, compress them, and put them in the
+ * compressed_res_queue. A NULL pointer indicates that the thread should stop.
+ * */
+static void *
+compressor_thread_proc(void *arg)
+{
+ struct compressor_thread_params *params = arg;
+ struct shared_queue *res_to_compress_queue = params->res_to_compress_queue;
+ struct shared_queue *compressed_res_queue = params->compressed_res_queue;
+ compress_func_t compress = params->compress;
+ struct message *msg;
+
+ DEBUG("Compressor thread ready");
+ while ((msg = shared_queue_get(res_to_compress_queue)) != NULL) {
+ compress_chunks(msg, compress);
+ shared_queue_put(compressed_res_queue, msg);
+ }
+ DEBUG("Compressor thread terminating");
+ return NULL;
+}
+#endif /* ENABLE_MULTITHREADED_COMPRESSION */
+
+static void
+do_write_streams_progress(union wimlib_progress_info *progress,
+ wimlib_progress_func_t progress_func,
+ uint64_t size_added)
+{
+ progress->write_streams.completed_bytes += size_added;
+ progress->write_streams.completed_streams++;
+ if (progress_func &&
+ progress->write_streams.completed_bytes >= progress->write_streams._private)
+ {
+ progress_func(WIMLIB_PROGRESS_MSG_WRITE_STREAMS,
+ progress);
+ if (progress->write_streams._private == progress->write_streams.total_bytes) {
+ progress->write_streams._private = ~0;
+ } else {
+ progress->write_streams._private =
+ min(progress->write_streams.total_bytes,
+ progress->write_streams.completed_bytes +
+ progress->write_streams.total_bytes / 100);
+ }
+ }
+}
+
+struct serial_write_stream_ctx {
+ filedes_t out_fd;
+ int out_ctype;
+ int write_resource_flags;
+};
+
+static int
+serial_write_stream(struct wim_lookup_table_entry *lte, void *_ctx)
+{
+ struct serial_write_stream_ctx *ctx = _ctx;
+ return write_wim_resource(lte, ctx->out_fd,
+ ctx->out_ctype, <e->output_resource_entry,
+ ctx->write_resource_flags);
+}
+
+/* Write a list of streams, taking into account that some streams may be
+ * duplicates that are checksummed and discarded on the fly, and also delegating
+ * the actual writing of a stream to a function @write_stream_cb, which is
+ * passed the context @write_stream_ctx. */
+static int
+do_write_stream_list(struct list_head *stream_list,
+ struct wim_lookup_table *lookup_table,
+ int (*write_stream_cb)(struct wim_lookup_table_entry *, void *),
+ void *write_stream_ctx,
+ wimlib_progress_func_t progress_func,
+ union wimlib_progress_info *progress)
+{
+ int ret = 0;
+ struct wim_lookup_table_entry *lte;
+
+ /* For each stream in @stream_list ... */
+ while (!list_empty(stream_list)) {
+ lte = container_of(stream_list->next,
+ struct wim_lookup_table_entry,
+ write_streams_list);
+ list_del(<e->write_streams_list);
+ if (lte->unhashed && !lte->unique_size) {
+ /* Unhashed stream that shares a size with some other
+ * stream in the WIM we are writing. The stream must be
+ * checksummed to know if we need to write it or not. */
+ struct wim_lookup_table_entry *tmp;
+ u32 orig_refcnt = lte->out_refcnt;
+
+ ret = hash_unhashed_stream(lte, lookup_table, &tmp);
+ if (ret)
+ break;
+ if (tmp != lte) {
+ lte = tmp;
+ /* We found a duplicate stream. */
+ if (orig_refcnt != tmp->out_refcnt) {
+ /* We have already written, or are going
+ * to write, the duplicate stream. So
+ * just skip to the next stream. */
+ DEBUG("Discarding duplicate stream of length %"PRIu64,
+ wim_resource_size(lte));
+ lte->no_progress = 0;
+ goto skip_to_progress;
+ }
+ }
+ }
+
+ /* Here, @lte is either a hashed stream or an unhashed stream
+ * with a unique size. In either case we know that the stream
+ * has to be written. In either case the SHA1 message digest
+ * will be calculated over the stream while writing it; however,
+ * in the former case this is done merely to check the data,
+ * while in the latter case this is done because we do not have
+ * the SHA1 message digest yet. */
+ wimlib_assert(lte->out_refcnt != 0);
+ lte->deferred = 0;
+ lte->no_progress = 0;
+ ret = (*write_stream_cb)(lte, write_stream_ctx);
+ if (ret)
+ break;
+ /* In parallel mode, some streams are deferred for later,
+ * serialized processing; ignore them here. */
+ if (lte->deferred)
+ continue;
+ if (lte->unhashed) {
+ list_del(<e->unhashed_list);
+ lookup_table_insert(lookup_table, lte);
+ lte->unhashed = 0;
+ }
+ skip_to_progress:
+ if (!lte->no_progress) {
+ do_write_streams_progress(progress,
+ progress_func,
+ wim_resource_size(lte));
+ }
+ }
+ return ret;
+}
+
+static int
+do_write_stream_list_serial(struct list_head *stream_list,
+ struct wim_lookup_table *lookup_table,
+ filedes_t out_fd,
+ int out_ctype,
+ int write_resource_flags,
+ wimlib_progress_func_t progress_func,
+ union wimlib_progress_info *progress)
+{
+ struct serial_write_stream_ctx ctx = {
+ .out_fd = out_fd,
+ .out_ctype = out_ctype,
+ .write_resource_flags = write_resource_flags,
+ };
+ return do_write_stream_list(stream_list,
+ lookup_table,
+ serial_write_stream,
+ &ctx,
+ progress_func,
+ progress);
+}
+
+static inline int
+write_flags_to_resource_flags(int write_flags)
+{
+ int resource_flags = 0;
+
+ if (write_flags & WIMLIB_WRITE_FLAG_RECOMPRESS)
+ resource_flags |= WIMLIB_RESOURCE_FLAG_RECOMPRESS;
+ return resource_flags;
+}
+
+static int
+write_stream_list_serial(struct list_head *stream_list,
+ struct wim_lookup_table *lookup_table,
+ filedes_t out_fd,
+ int out_ctype,
+ int write_resource_flags,
+ wimlib_progress_func_t progress_func,
+ union wimlib_progress_info *progress)
+{
+ DEBUG("Writing stream list (serial version)");
+ progress->write_streams.num_threads = 1;
+ if (progress_func)
+ progress_func(WIMLIB_PROGRESS_MSG_WRITE_STREAMS, progress);
+ return do_write_stream_list_serial(stream_list,
+ lookup_table,
+ out_fd,
+ out_ctype,
+ write_resource_flags,
+ progress_func,
+ progress);
+}
+
+#ifdef ENABLE_MULTITHREADED_COMPRESSION
+static int
+write_wim_chunks(struct message *msg, filedes_t out_fd,
+ struct chunk_table *chunk_tab)
+{
+ for (unsigned i = 0; i < msg->num_chunks; i++) {
+ *chunk_tab->cur_offset_p++ = chunk_tab->cur_offset;
+ chunk_tab->cur_offset += msg->out_chunks[i].iov_len;
+ }
+ if (full_writev(out_fd, msg->out_chunks,
+ msg->num_chunks) != msg->total_out_bytes)
+ {
+ ERROR_WITH_ERRNO("Failed to write WIM chunks");
+ return WIMLIB_ERR_WRITE;
+ }
+ return 0;
+}
+
+struct main_writer_thread_ctx {
+ struct list_head *stream_list;
+ struct wim_lookup_table *lookup_table;
+ filedes_t out_fd;
+ int out_ctype;
+ int write_resource_flags;
+ struct shared_queue *res_to_compress_queue;
+ struct shared_queue *compressed_res_queue;
+ size_t num_messages;
+ wimlib_progress_func_t progress_func;
+ union wimlib_progress_info *progress;
+
+ struct list_head available_msgs;
+ struct list_head outstanding_streams;
+ struct list_head serial_streams;
+ size_t num_outstanding_messages;
+
+ SHA_CTX next_sha_ctx;
+ u64 next_chunk;
+ u64 next_num_chunks;
+ struct wim_lookup_table_entry *next_lte;
+
+ struct message *msgs;
+ struct message *next_msg;
+ struct chunk_table *cur_chunk_tab;
+};
+
+static int
+init_message(struct message *msg)
+{
+ for (size_t i = 0; i < MAX_CHUNKS_PER_MSG; i++) {
+ msg->compressed_chunks[i] = MALLOC(WIM_CHUNK_SIZE);
+ msg->uncompressed_chunks[i] = MALLOC(WIM_CHUNK_SIZE);
+ if (msg->compressed_chunks[i] == NULL ||
+ msg->uncompressed_chunks[i] == NULL)
+ return WIMLIB_ERR_NOMEM;
+ }
+ return 0;
+}
+
+static void
+destroy_message(struct message *msg)
+{
+ for (size_t i = 0; i < MAX_CHUNKS_PER_MSG; i++) {
+ FREE(msg->compressed_chunks[i]);
+ FREE(msg->uncompressed_chunks[i]);
+ }
+}
+
+static void
+free_messages(struct message *msgs, size_t num_messages)
+{
+ if (msgs) {
+ for (size_t i = 0; i < num_messages; i++)
+ destroy_message(&msgs[i]);
+ FREE(msgs);
+ }
+}
+
+static struct message *
+allocate_messages(size_t num_messages)
+{
+ struct message *msgs;
+
+ msgs = CALLOC(num_messages, sizeof(struct message));
+ if (!msgs)
+ return NULL;
+ for (size_t i = 0; i < num_messages; i++) {
+ if (init_message(&msgs[i])) {
+ free_messages(msgs, num_messages);
+ return NULL;
+ }
+ }
+ return msgs;
+}
+
+static void
+main_writer_thread_destroy_ctx(struct main_writer_thread_ctx *ctx)
+{
+ while (ctx->num_outstanding_messages--)
+ shared_queue_get(ctx->compressed_res_queue);
+ free_messages(ctx->msgs, ctx->num_messages);
+ FREE(ctx->cur_chunk_tab);
+}
+
+static int
+main_writer_thread_init_ctx(struct main_writer_thread_ctx *ctx)
+{
+ /* Pre-allocate all the buffers that will be needed to do the chunk
+ * compression. */
+ ctx->msgs = allocate_messages(ctx->num_messages);
+ if (!ctx->msgs)
+ return WIMLIB_ERR_NOMEM;
+
+ /* Initially, all the messages are available to use. */
+ INIT_LIST_HEAD(&ctx->available_msgs);
+ for (size_t i = 0; i < ctx->num_messages; i++)
+ list_add_tail(&ctx->msgs[i].list, &ctx->available_msgs);
+
+ /* outstanding_streams is the list of streams that currently have had
+ * chunks sent off for compression.
+ *
+ * The first stream in outstanding_streams is the stream that is
+ * currently being written.
+ *
+ * The last stream in outstanding_streams is the stream that is
+ * currently being read and having chunks fed to the compressor threads.
+ * */
+ INIT_LIST_HEAD(&ctx->outstanding_streams);
+ ctx->num_outstanding_messages = 0;
+
+ ctx->next_msg = NULL;
+
+ /* Resources that don't need any chunks compressed are added to this
+ * list and written directly by the main thread. */
+ INIT_LIST_HEAD(&ctx->serial_streams);
+
+ ctx->cur_chunk_tab = NULL;
+
+ return 0;
+}
+
+static int
+receive_compressed_chunks(struct main_writer_thread_ctx *ctx)
+{
+ struct message *msg;
+ struct wim_lookup_table_entry *cur_lte;
+ int ret;
+
+ wimlib_assert(!list_empty(&ctx->outstanding_streams));
+ wimlib_assert(ctx->num_outstanding_messages != 0);
+
+ cur_lte = container_of(ctx->outstanding_streams.next,
+ struct wim_lookup_table_entry,
+ being_compressed_list);
+
+ /* Get the next message from the queue and process it.
+ * The message will contain 1 or more data chunks that have been
+ * compressed. */
+ msg = shared_queue_get(ctx->compressed_res_queue);
+ msg->complete = true;
+ --ctx->num_outstanding_messages;
+
+ /* Is this the next chunk in the current resource? If it's not
+ * (i.e., an earlier chunk in a same or different resource
+ * hasn't been compressed yet), do nothing, and keep this
+ * message around until all earlier chunks are received.
+ *
+ * Otherwise, write all the chunks we can. */
+ while (cur_lte != NULL &&
+ !list_empty(&cur_lte->msg_list)
+ && (msg = container_of(cur_lte->msg_list.next,
+ struct message,
+ list))->complete)
+ {
+ list_move(&msg->list, &ctx->available_msgs);
+ if (msg->begin_chunk == 0) {
+ /* This is the first set of chunks. Leave space
+ * for the chunk table in the output file. */
+ off_t cur_offset = filedes_offset(ctx->out_fd);
+ if (cur_offset == -1)
+ return WIMLIB_ERR_WRITE;
+ ret = begin_wim_resource_chunk_tab(cur_lte,
+ ctx->out_fd,
+ cur_offset,
+ &ctx->cur_chunk_tab);
+ if (ret)
+ return ret;
+ }
+
+ /* Write the compressed chunks from the message. */
+ ret = write_wim_chunks(msg, ctx->out_fd, ctx->cur_chunk_tab);
+ if (ret)
+ return ret;
+
+ /* Was this the last chunk of the stream? If so, finish
+ * it. */
+ if (list_empty(&cur_lte->msg_list) &&
+ msg->begin_chunk + msg->num_chunks == ctx->cur_chunk_tab->num_chunks)
+ {
+ u64 res_csize;
+ off_t offset;
+
+ ret = finish_wim_resource_chunk_tab(ctx->cur_chunk_tab,
+ ctx->out_fd,
+ &res_csize);
+ if (ret)
+ return ret;
+
+ list_del(&cur_lte->being_compressed_list);
+
+ /* Grab the offset of this stream in the output file
+ * from the chunk table before we free it. */
+ offset = ctx->cur_chunk_tab->file_offset;
+
+ FREE(ctx->cur_chunk_tab);
+ ctx->cur_chunk_tab = NULL;
+
+ if (res_csize >= wim_resource_size(cur_lte)) {
+ /* Oops! We compressed the resource to
+ * larger than the original size. Write
+ * the resource uncompressed instead. */
+ DEBUG("Compressed %"PRIu64" => %"PRIu64" bytes; "
+ "writing uncompressed instead",
+ wim_resource_size(cur_lte), res_csize);
+ ret = seek_and_truncate(ctx->out_fd, offset);
+ if (ret)
+ return ret;
+ ret = write_wim_resource(cur_lte,
+ ctx->out_fd,
+ WIMLIB_COMPRESSION_TYPE_NONE,
+ &cur_lte->output_resource_entry,
+ ctx->write_resource_flags);
+ if (ret)
+ return ret;
+ } else {
+ cur_lte->output_resource_entry.size =
+ res_csize;
+
+ cur_lte->output_resource_entry.original_size =
+ cur_lte->resource_entry.original_size;
+
+ cur_lte->output_resource_entry.offset =
+ offset;
+
+ cur_lte->output_resource_entry.flags =
+ cur_lte->resource_entry.flags |
+ WIM_RESHDR_FLAG_COMPRESSED;
+ }
+
+ do_write_streams_progress(ctx->progress,
+ ctx->progress_func,
+ wim_resource_size(cur_lte));
+
+ /* Since we just finished writing a stream, write any
+ * streams that have been added to the serial_streams
+ * list for direct writing by the main thread (e.g.
+ * resources that don't need to be compressed because
+ * the desired compression type is the same as the
+ * previous compression type). */
+ if (!list_empty(&ctx->serial_streams)) {
+ ret = do_write_stream_list_serial(&ctx->serial_streams,
+ ctx->lookup_table,
+ ctx->out_fd,
+ ctx->out_ctype,
+ ctx->write_resource_flags,
+ ctx->progress_func,
+ ctx->progress);
+ if (ret)
+ return ret;
+ }
+
+ /* Advance to the next stream to write. */
+ if (list_empty(&ctx->outstanding_streams)) {
+ cur_lte = NULL;
+ } else {
+ cur_lte = container_of(ctx->outstanding_streams.next,
+ struct wim_lookup_table_entry,
+ being_compressed_list);
+ }
+ }
+ }
+ return 0;
+}
+
+/* Called when the main thread has read a new chunk of data. */
+static int
+main_writer_thread_cb(const void *chunk, size_t chunk_size, void *_ctx)
+{
+ struct main_writer_thread_ctx *ctx = _ctx;
+ int ret;
+ struct message *next_msg;
+ u64 next_chunk_in_msg;
+
+ /* Update SHA1 message digest for the stream currently being read by the
+ * main thread. */
+ sha1_update(&ctx->next_sha_ctx, chunk, chunk_size);
+
+ /* We send chunks of data to the compressor chunks in batches which we
+ * refer to as "messages". @next_msg is the message that is currently
+ * being prepared to send off. If it is NULL, that indicates that we
+ * need to start a new message. */
+ next_msg = ctx->next_msg;
+ if (!next_msg) {
+ /* We need to start a new message. First check to see if there
+ * is a message available in the list of available messages. If
+ * so, we can just take one. If not, all the messages (there is
+ * a fixed number of them, proportional to the number of
+ * threads) have been sent off to the compressor threads, so we
+ * receive messages from the compressor threads containing
+ * compressed chunks of data.
+ *
+ * We may need to receive multiple messages before one is
+ * actually available to use because messages received that are
+ * *not* for the very next set of chunks to compress must be
+ * buffered until it's time to write those chunks. */
+ while (list_empty(&ctx->available_msgs)) {
+ ret = receive_compressed_chunks(ctx);
+ if (ret)
+ return ret;
+ }
+
+ next_msg = container_of(ctx->available_msgs.next,
+ struct message, list);
+ list_del(&next_msg->list);
+ next_msg->complete = false;
+ next_msg->begin_chunk = ctx->next_chunk;
+ next_msg->num_chunks = min(MAX_CHUNKS_PER_MSG,
+ ctx->next_num_chunks - ctx->next_chunk);
+ ctx->next_msg = next_msg;
+ }
+
+ /* Fill in the next chunk to compress */
+ next_chunk_in_msg = ctx->next_chunk - next_msg->begin_chunk;
+
+ next_msg->uncompressed_chunk_sizes[next_chunk_in_msg] = chunk_size;
+ memcpy(next_msg->uncompressed_chunks[next_chunk_in_msg],
+ chunk, chunk_size);
+ ctx->next_chunk++;
+ if (++next_chunk_in_msg == next_msg->num_chunks) {
+ /* Send off an array of chunks to compress */
+ list_add_tail(&next_msg->list, &ctx->next_lte->msg_list);
+ shared_queue_put(ctx->res_to_compress_queue, next_msg);
+ ++ctx->num_outstanding_messages;
+ ctx->next_msg = NULL;
+ }
+ return 0;
+}
+
+static int
+main_writer_thread_finish(void *_ctx)
+{
+ struct main_writer_thread_ctx *ctx = _ctx;
+ int ret;
+ while (ctx->num_outstanding_messages != 0) {
+ ret = receive_compressed_chunks(ctx);
+ if (ret)
+ return ret;
+ }
+ wimlib_assert(list_empty(&ctx->outstanding_streams));
+ return do_write_stream_list_serial(&ctx->serial_streams,
+ ctx->lookup_table,
+ ctx->out_fd,
+ ctx->out_ctype,
+ ctx->write_resource_flags,
+ ctx->progress_func,
+ ctx->progress);
+}
+
+static int
+submit_stream_for_compression(struct wim_lookup_table_entry *lte,
+ struct main_writer_thread_ctx *ctx)
+{
+ int ret;
+
+ /* Read the entire stream @lte, feeding its data chunks to the
+ * compressor threads. Also SHA1-sum the stream; this is required in
+ * the case that @lte is unhashed, and a nice additional verification
+ * when @lte is already hashed. */
+ sha1_init(&ctx->next_sha_ctx);
+ ctx->next_chunk = 0;
+ ctx->next_num_chunks = wim_resource_chunks(lte);
+ ctx->next_lte = lte;
+ INIT_LIST_HEAD(<e->msg_list);
+ list_add_tail(<e->being_compressed_list, &ctx->outstanding_streams);
+ ret = read_resource_prefix(lte, wim_resource_size(lte),
+ main_writer_thread_cb, ctx, 0);
+ if (ret == 0) {
+ wimlib_assert(ctx->next_chunk == ctx->next_num_chunks);
+ ret = finalize_and_check_sha1(&ctx->next_sha_ctx, lte);
+ }
+ return ret;
+}
+
+static int
+main_thread_process_next_stream(struct wim_lookup_table_entry *lte, void *_ctx)
+{
+ struct main_writer_thread_ctx *ctx = _ctx;
+ int ret;
+
+ if (wim_resource_size(lte) < 1000 ||
+ ctx->out_ctype == WIMLIB_COMPRESSION_TYPE_NONE ||
+ (lte->resource_location == RESOURCE_IN_WIM &&
+ !(ctx->write_resource_flags & WIMLIB_RESOURCE_FLAG_RECOMPRESS) &&
+ wimlib_get_compression_type(lte->wim) == ctx->out_ctype))
+ {
+ /* Stream is too small or isn't being compressed. Process it by
+ * the main thread when we have a chance. We can't necessarily
+ * process it right here, as the main thread could be in the
+ * middle of writing a different stream. */
+ list_add_tail(<e->write_streams_list, &ctx->serial_streams);
+ lte->deferred = 1;
+ ret = 0;
+ } else {
+ ret = submit_stream_for_compression(lte, ctx);
+ }
+ lte->no_progress = 1;
+ return ret;
+}
+
+static long
+get_default_num_threads()
+{
+#ifdef __WIN32__
+ return win32_get_number_of_processors();
+#else
+ return sysconf(_SC_NPROCESSORS_ONLN);
+#endif
+}
+
+/* Equivalent to write_stream_list_serial(), except this takes a @num_threads
+ * parameter and will perform compression using that many threads. Falls
+ * back to write_stream_list_serial() on certain errors, such as a failure to
+ * create the number of threads requested.
+ *
+ * High level description of the algorithm for writing compressed streams in
+ * parallel: We perform compression on chunks of size WIM_CHUNK_SIZE bytes
+ * rather than on full files. The currently executing thread becomes the main
+ * thread and is entirely in charge of reading the data to compress (which may
+ * be in any location understood by the resource code--- such as in an external
+ * file being captured, or in another WIM file from which an image is being
+ * exported) and actually writing the compressed data to the output file.
+ * Additional threads are "compressor threads" and all execute the
+ * compressor_thread_proc, where they repeatedly retrieve buffers of data from
+ * the main thread, compress them, and hand them back to the main thread.
+ *
+ * Certain streams, such as streams that do not need to be compressed (e.g.
+ * input compression type same as output compression type) or streams of very
+ * small size are placed in a list (main_writer_thread_ctx.serial_list) and
+ * handled entirely by the main thread at an appropriate time.
+ *
+ * At any given point in time, multiple streams may be having chunks compressed
+ * concurrently. The stream that the main thread is currently *reading* may be
+ * later in the list that the stream that the main thread is currently
+ * *writing*.
+ */
+static int
+write_stream_list_parallel(struct list_head *stream_list,
+ struct wim_lookup_table *lookup_table,
+ filedes_t out_fd,
+ int out_ctype,
+ int write_resource_flags,
+ wimlib_progress_func_t progress_func,
+ union wimlib_progress_info *progress,
+ unsigned num_threads)
{
- FILE *fp;
+ int ret;
+ struct shared_queue res_to_compress_queue;
+ struct shared_queue compressed_res_queue;
+ pthread_t *compressor_threads = NULL;
- if (fclose(w->fp) != 0)
- ERROR_WITH_ERRNO("Failed to close the file `%s'", w->filename);
- fp = fopen(w->filename, "r+b");
- if (!fp) {
- ERROR_WITH_ERRNO("Failed to open `%s' for reading and writing",
- w->filename);
- return WIMLIB_ERR_OPEN;
+ if (num_threads == 0) {
+ long nthreads = get_default_num_threads();
+ if (nthreads < 1 || nthreads > UINT_MAX) {
+ WARNING("Could not determine number of processors! Assuming 1");
+ goto out_serial;
+ } else if (nthreads == 1) {
+ goto out_serial_quiet;
+ } else {
+ num_threads = nthreads;
+ }
}
- w->fp = fp;
- return 0;
-}
+ DEBUG("Writing stream list (parallel version, num_threads=%u)",
+ num_threads);
+ progress->write_streams.num_threads = num_threads;
-/*
- * Writes a WIM file to the original file that it was read from, overwriting it.
- */
-WIMLIBAPI int wimlib_overwrite(WIMStruct *w, int flags)
-{
- const char *wimfile_name;
- size_t wim_name_len;
- int ret;
-
- wimfile_name = w->filename;
+ static const size_t MESSAGES_PER_THREAD = 2;
+ size_t queue_size = (size_t)(num_threads * MESSAGES_PER_THREAD);
- DEBUG("Replacing WIM file `%s'.", wimfile_name);
+ DEBUG("Initializing shared queues (queue_size=%zu)", queue_size);
- if (!wimfile_name)
- return WIMLIB_ERR_NO_FILENAME;
+ ret = shared_queue_init(&res_to_compress_queue, queue_size);
+ if (ret)
+ goto out_serial;
- /* Write the WIM to a temporary file. */
- /* XXX should the temporary file be somewhere else? */
- wim_name_len = strlen(wimfile_name);
- char tmpfile[wim_name_len + 10];
- memcpy(tmpfile, wimfile_name, wim_name_len);
- randomize_char_array_with_alnum(tmpfile + wim_name_len, 9);
- tmpfile[wim_name_len + 9] = '\0';
+ ret = shared_queue_init(&compressed_res_queue, queue_size);
+ if (ret)
+ goto out_destroy_res_to_compress_queue;
- ret = wimlib_write(w, tmpfile, WIM_ALL_IMAGES, flags);
- if (ret != 0) {
- ERROR("Failed to write the WIM file `%s'", tmpfile);
- return ret;
+ struct compressor_thread_params params;
+ params.res_to_compress_queue = &res_to_compress_queue;
+ params.compressed_res_queue = &compressed_res_queue;
+ params.compress = get_compress_func(out_ctype);
+
+ compressor_threads = MALLOC(num_threads * sizeof(pthread_t));
+ if (!compressor_threads) {
+ ret = WIMLIB_ERR_NOMEM;
+ goto out_destroy_compressed_res_queue;
}
- DEBUG("Closing original WIM file.");
- /* Close the original WIM file that was opened for reading. */
- if (w->fp) {
- if (fclose(w->fp) != 0) {
- WARNING("Failed to close the file `%s'", wimfile_name);
+ for (unsigned i = 0; i < num_threads; i++) {
+ DEBUG("pthread_create thread %u of %u", i + 1, num_threads);
+ ret = pthread_create(&compressor_threads[i], NULL,
+ compressor_thread_proc, ¶ms);
+ if (ret != 0) {
+ ret = -1;
+ ERROR_WITH_ERRNO("Failed to create compressor "
+ "thread %u of %u",
+ i + 1, num_threads);
+ num_threads = i;
+ goto out_join;
}
- w->fp = NULL;
}
- DEBUG("Renaming `%s' to `%s'", tmpfile, wimfile_name);
+ if (progress_func)
+ progress_func(WIMLIB_PROGRESS_MSG_WRITE_STREAMS, progress);
- /* Rename the new file to the old file .*/
- if (rename(tmpfile, wimfile_name) != 0) {
- ERROR_WITH_ERRNO("Failed to rename `%s' to `%s'",
- tmpfile, wimfile_name);
- /* Remove temporary file. */
- if (unlink(tmpfile) != 0)
- ERROR_WITH_ERRNO("Failed to remove `%s'", tmpfile);
- return WIMLIB_ERR_RENAME;
+ struct main_writer_thread_ctx ctx;
+ ctx.stream_list = stream_list;
+ ctx.lookup_table = lookup_table;
+ ctx.out_fd = out_fd;
+ ctx.out_ctype = out_ctype;
+ ctx.res_to_compress_queue = &res_to_compress_queue;
+ ctx.compressed_res_queue = &compressed_res_queue;
+ ctx.num_messages = queue_size;
+ ctx.write_resource_flags = write_resource_flags;
+ ctx.progress_func = progress_func;
+ ctx.progress = progress;
+ ret = main_writer_thread_init_ctx(&ctx);
+ if (ret)
+ goto out_join;
+ ret = do_write_stream_list(stream_list, lookup_table,
+ main_thread_process_next_stream,
+ &ctx, progress_func, progress);
+ if (ret)
+ goto out_destroy_ctx;
+
+ /* The main thread has finished reading all streams that are going to be
+ * compressed in parallel, and it now needs to wait for all remaining
+ * chunks to be compressed so that the remaining streams can actually be
+ * written to the output file. Furthermore, any remaining streams that
+ * had processing deferred to the main thread need to be handled. These
+ * tasks are done by the main_writer_thread_finish() function. */
+ ret = main_writer_thread_finish(&ctx);
+out_destroy_ctx:
+ main_writer_thread_destroy_ctx(&ctx);
+out_join:
+ for (unsigned i = 0; i < num_threads; i++)
+ shared_queue_put(&res_to_compress_queue, NULL);
+
+ for (unsigned i = 0; i < num_threads; i++) {
+ if (pthread_join(compressor_threads[i], NULL)) {
+ WARNING_WITH_ERRNO("Failed to join compressor "
+ "thread %u of %u",
+ i + 1, num_threads);
+ }
}
+ FREE(compressor_threads);
+out_destroy_compressed_res_queue:
+ shared_queue_destroy(&compressed_res_queue);
+out_destroy_res_to_compress_queue:
+ shared_queue_destroy(&res_to_compress_queue);
+ if (ret >= 0 && ret != WIMLIB_ERR_NOMEM)
+ return ret;
+out_serial:
+ WARNING("Falling back to single-threaded compression");
+out_serial_quiet:
+ return write_stream_list_serial(stream_list,
+ lookup_table,
+ out_fd,
+ out_ctype,
+ write_resource_flags,
+ progress_func,
+ progress);
- return 0;
}
+#endif
-
-WIMLIBAPI int wimlib_overwrite_xml_and_header(WIMStruct *w, int flags)
+/*
+ * Write a list of streams to a WIM (@out_fd) using the compression type
+ * @out_ctype and up to @num_threads compressor threads.
+ */
+static int
+write_stream_list(struct list_head *stream_list,
+ struct wim_lookup_table *lookup_table,
+ filedes_t out_fd, int out_ctype, int write_flags,
+ unsigned num_threads, wimlib_progress_func_t progress_func)
{
+ struct wim_lookup_table_entry *lte;
+ size_t num_streams = 0;
+ u64 total_bytes = 0;
+ u64 total_compression_bytes = 0;
+ union wimlib_progress_info progress;
int ret;
- FILE *fp;
- u8 *integrity_table = NULL;
- off_t xml_end;
- off_t xml_size;
- size_t bytes_written;
+ int write_resource_flags;
- DEBUG("Overwriting XML and header of `%s', flags = %d",
- w->filename, flags);
- if (!w->filename)
- return WIMLIB_ERR_NO_FILENAME;
+ if (list_empty(stream_list))
+ return 0;
- ret = reopen_rw(w);
- if (ret != 0)
- return ret;
+ write_resource_flags = write_flags_to_resource_flags(write_flags);
- fp = w->fp;
+ /* Calculate the total size of the streams to be written. Note: this
+ * will be the uncompressed size, as we may not know the compressed size
+ * yet, and also this will assume that every unhashed stream will be
+ * written (which will not necessarily be the case). */
+ list_for_each_entry(lte, stream_list, write_streams_list) {
+ num_streams++;
+ total_bytes += wim_resource_size(lte);
+ if (out_ctype != WIMLIB_COMPRESSION_TYPE_NONE
+ && (wim_resource_compression_type(lte) != out_ctype ||
+ (write_resource_flags & WIMLIB_RESOURCE_FLAG_RECOMPRESS)))
+ {
+ total_compression_bytes += wim_resource_size(lte);
+ }
+ }
+ progress.write_streams.total_bytes = total_bytes;
+ progress.write_streams.total_streams = num_streams;
+ progress.write_streams.completed_bytes = 0;
+ progress.write_streams.completed_streams = 0;
+ progress.write_streams.num_threads = num_threads;
+ progress.write_streams.compression_type = out_ctype;
+ progress.write_streams._private = 0;
- /* The old integrity table is still OK, as the SHA1 message digests in
- * the integrity table include neither the header nor the XML data.
- * Save it for later if it exists and an integrity table was required.
- * */
- if (flags & WIMLIB_WRITE_FLAG_CHECK_INTEGRITY &&
- w->hdr.integrity.offset != 0) {
- DEBUG("Reading existing integrity table.");
- integrity_table = MALLOC(w->hdr.integrity.size);
- if (!integrity_table)
- return WIMLIB_ERR_NOMEM;
+#ifdef ENABLE_MULTITHREADED_COMPRESSION
+ if (total_compression_bytes >= 1000000 && num_threads != 1)
+ ret = write_stream_list_parallel(stream_list,
+ lookup_table,
+ out_fd,
+ out_ctype,
+ write_resource_flags,
+ progress_func,
+ &progress,
+ num_threads);
+ else
+#endif
+ ret = write_stream_list_serial(stream_list,
+ lookup_table,
+ out_fd,
+ out_ctype,
+ write_resource_flags,
+ progress_func,
+ &progress);
+ return ret;
+}
- ret = read_uncompressed_resource(fp, w->hdr.integrity.offset,
- w->hdr.integrity.original_size,
- integrity_table);
- if (ret != 0)
- goto err;
- DEBUG("Done reading existing integrity table.");
- }
+struct stream_size_table {
+ struct hlist_head *array;
+ size_t num_entries;
+ size_t capacity;
+};
- DEBUG("Overwriting XML data.");
- /* Overwrite the XML data. */
- if (fseeko(fp, w->hdr.xml_res_entry.offset, SEEK_SET) != 0) {
- ERROR_WITH_ERRNO("Failed to seek to byte %"PRIu64" "
- "for XML data", w->hdr.xml_res_entry.offset);
- ret = WIMLIB_ERR_WRITE;
- goto err;
- }
- ret = write_xml_data(w->wim_info, WIM_ALL_IMAGES, fp, 0);
- if (ret != 0)
- goto err;
+static int
+init_stream_size_table(struct stream_size_table *tab, size_t capacity)
+{
+ tab->array = CALLOC(capacity, sizeof(tab->array[0]));
+ if (!tab->array)
+ return WIMLIB_ERR_NOMEM;
+ tab->num_entries = 0;
+ tab->capacity = capacity;
+ return 0;
+}
- DEBUG("Updating XML resource entry.");
- /* Update the XML resource entry in the WIM header. */
- xml_end = ftello(fp);
- if (xml_end == -1) {
- ret = WIMLIB_ERR_WRITE;
- goto err;
- }
- xml_size = xml_end - w->hdr.xml_res_entry.offset;
- w->hdr.xml_res_entry.size = xml_size;
- w->hdr.xml_res_entry.original_size = xml_size;
-
- if (flags & WIMLIB_WRITE_FLAG_CHECK_INTEGRITY) {
- DEBUG("Writing integrity table.");
- w->hdr.integrity.offset = xml_end;
- if (integrity_table) {
- /* The existing integrity table was saved. */
- bytes_written = fwrite(integrity_table, 1,
- w->hdr.integrity.size, fp);
- if (bytes_written != w->hdr.integrity.size) {
- ERROR_WITH_ERRNO("Failed to write integrity "
- "table");
- ret = WIMLIB_ERR_WRITE;
- goto err;
- }
- FREE(integrity_table);
- } else {
- /* There was no existing integrity table, so a new one
- * must be calculated. */
- ret = write_integrity_table(fp, WIM_HEADER_DISK_SIZE,
- w->hdr.lookup_table_res_entry.offset +
- w->hdr.lookup_table_res_entry.size,
- flags & WIMLIB_WRITE_FLAG_SHOW_PROGRESS);
- if (ret != 0)
- goto err;
-
- off_t integrity_size = ftello(fp) - xml_end;
- w->hdr.integrity.size = integrity_size;
- w->hdr.integrity.original_size = integrity_size;
- w->hdr.integrity.flags = 0;
- }
- } else {
- DEBUG("Truncating file to end of XML data.");
- /* No integrity table to write. The file should be truncated
- * because it's possible that the old file was longer (due to it
- * including an integrity table, or due to its XML data being
- * longer) */
- if (fflush(fp) != 0) {
- ERROR_WITH_ERRNO("Failed to flush stream for file `%s'",
- w->filename);
- return WIMLIB_ERR_WRITE;
- }
- if (ftruncate(fileno(fp), xml_end) != 0) {
- ERROR_WITH_ERRNO("Failed to truncate `%s' to %"PRIu64" "
- "bytes", w->filename, xml_end);
- return WIMLIB_ERR_WRITE;
+static void
+destroy_stream_size_table(struct stream_size_table *tab)
+{
+ FREE(tab->array);
+}
+
+static int
+stream_size_table_insert(struct wim_lookup_table_entry *lte, void *_tab)
+{
+ struct stream_size_table *tab = _tab;
+ size_t pos;
+ struct wim_lookup_table_entry *same_size_lte;
+ struct hlist_node *tmp;
+
+ pos = hash_u64(wim_resource_size(lte)) % tab->capacity;
+ lte->unique_size = 1;
+ hlist_for_each_entry(same_size_lte, tmp, &tab->array[pos], hash_list_2) {
+ if (wim_resource_size(same_size_lte) == wim_resource_size(lte)) {
+ lte->unique_size = 0;
+ same_size_lte->unique_size = 0;
+ break;
}
- memset(&w->hdr.integrity, 0, sizeof(struct resource_entry));
}
- DEBUG("Overwriting header.");
- /* Overwrite the header. */
- if (fseeko(fp, 0, SEEK_SET) != 0) {
- ERROR_WITH_ERRNO("Failed to seek to beginning of `%s'",
- w->filename);
- return WIMLIB_ERR_WRITE;
+ hlist_add_head(<e->hash_list_2, &tab->array[pos]);
+ tab->num_entries++;
+ return 0;
+}
+
+
+struct lte_overwrite_prepare_args {
+ WIMStruct *wim;
+ off_t end_offset;
+ struct list_head stream_list;
+ struct stream_size_table stream_size_tab;
+};
+
+/* First phase of preparing streams for an in-place overwrite. This is called
+ * on all streams, both hashed and unhashed, except the metadata resources. */
+static int
+lte_overwrite_prepare(struct wim_lookup_table_entry *lte, void *_args)
+{
+ struct lte_overwrite_prepare_args *args = _args;
+
+ wimlib_assert(!(lte->resource_entry.flags & WIM_RESHDR_FLAG_METADATA));
+ if (lte->resource_location != RESOURCE_IN_WIM || lte->wim != args->wim)
+ list_add_tail(<e->write_streams_list, &args->stream_list);
+ lte->out_refcnt = lte->refcnt;
+ stream_size_table_insert(lte, &args->stream_size_tab);
+ return 0;
+}
+
+/* Second phase of preparing streams for an in-place overwrite. This is called
+ * on existing metadata resources and hashed streams, but not unhashed streams.
+ *
+ * NOTE: lte->output_resource_entry is in union with lte->hash_list_2, so
+ * lte_overwrite_prepare_2() must be called after lte_overwrite_prepare(), as
+ * the latter uses lte->hash_list_2, while the former expects to set
+ * lte->output_resource_entry. */
+static int
+lte_overwrite_prepare_2(struct wim_lookup_table_entry *lte, void *_args)
+{
+ struct lte_overwrite_prepare_args *args = _args;
+
+ if (lte->resource_location == RESOURCE_IN_WIM && lte->wim == args->wim) {
+ /* We can't do an in place overwrite on the WIM if there are
+ * streams after the XML data. */
+ if (lte->resource_entry.offset +
+ lte->resource_entry.size > args->end_offset)
+ {
+ #ifdef ENABLE_ERROR_MESSAGES
+ ERROR("The following resource is after the XML data:");
+ print_lookup_table_entry(lte, stderr);
+ #endif
+ return WIMLIB_ERR_RESOURCE_ORDER;
+ }
+ copy_resource_entry(<e->output_resource_entry,
+ <e->resource_entry);
}
+ return 0;
+}
- ret = write_header(&w->hdr, fp);
- if (ret != 0)
+/* Given a WIM that we are going to overwrite in place with zero or more
+ * additional streams added, construct a list the list of new unique streams
+ * ('struct wim_lookup_table_entry's) that must be written, plus any unhashed
+ * streams that need to be added but may be identical to other hashed or
+ * unhashed streams. These unhashed streams are checksummed while the streams
+ * are being written. To aid this process, the member @unique_size is set to 1
+ * on streams that have a unique size and therefore must be written.
+ *
+ * The out_refcnt member of each 'struct wim_lookup_table_entry' is set to
+ * indicate the number of times the stream is referenced in only the streams
+ * that are being written; this may still be adjusted later when unhashed
+ * streams are being resolved.
+ */
+static int
+prepare_streams_for_overwrite(WIMStruct *wim, off_t end_offset,
+ struct list_head *stream_list)
+{
+ int ret;
+ struct lte_overwrite_prepare_args args;
+ unsigned i;
+
+ args.wim = wim;
+ args.end_offset = end_offset;
+ ret = init_stream_size_table(&args.stream_size_tab,
+ wim->lookup_table->capacity);
+ if (ret)
return ret;
- DEBUG("Closing `%s'.", w->filename);
- if (fclose(fp) != 0) {
- ERROR_WITH_ERRNO("Failed to close `%s'", w->filename);
- return WIMLIB_ERR_WRITE;
+ INIT_LIST_HEAD(&args.stream_list);
+ for (i = 0; i < wim->hdr.image_count; i++) {
+ struct wim_image_metadata *imd;
+ struct wim_lookup_table_entry *lte;
+
+ imd = wim->image_metadata[i];
+ image_for_each_unhashed_stream(lte, imd)
+ lte_overwrite_prepare(lte, &args);
}
- w->fp = NULL;
- DEBUG("Done.");
- return 0;
-err:
- FREE(integrity_table);
+ for_lookup_table_entry(wim->lookup_table, lte_overwrite_prepare, &args);
+ list_transfer(&args.stream_list, stream_list);
+
+ for (i = 0; i < wim->hdr.image_count; i++) {
+ ret = lte_overwrite_prepare_2(wim->image_metadata[i]->metadata_lte,
+ &args);
+ if (ret)
+ goto out_destroy_stream_size_table;
+ }
+ ret = for_lookup_table_entry(wim->lookup_table,
+ lte_overwrite_prepare_2, &args);
+out_destroy_stream_size_table:
+ destroy_stream_size_table(&args.stream_size_tab);
return ret;
}
-/* Write the file resources for the current image. */
-static int write_file_resources(WIMStruct *w)
+struct find_streams_ctx {
+ struct list_head stream_list;
+ struct stream_size_table stream_size_tab;
+};
+
+static void
+inode_find_streams_to_write(struct wim_inode *inode,
+ struct wim_lookup_table *table,
+ struct list_head *stream_list,
+ struct stream_size_table *tab)
+{
+ struct wim_lookup_table_entry *lte;
+ for (unsigned i = 0; i <= inode->i_num_ads; i++) {
+ lte = inode_stream_lte(inode, i, table);
+ if (lte) {
+ if (lte->out_refcnt == 0) {
+ if (lte->unhashed)
+ stream_size_table_insert(lte, tab);
+ list_add_tail(<e->write_streams_list, stream_list);
+ }
+ lte->out_refcnt += inode->i_nlink;
+ }
+ }
+}
+
+static int
+image_find_streams_to_write(WIMStruct *w)
{
+ struct find_streams_ctx *ctx;
+ struct wim_image_metadata *imd;
+ struct wim_inode *inode;
+ struct wim_lookup_table_entry *lte;
+
+ ctx = w->private;
+ imd = wim_get_current_image_metadata(w);
+
+ image_for_each_unhashed_stream(lte, imd)
+ lte->out_refcnt = 0;
- DEBUG("Writing file resources for image %u.", w->current_image);
- return for_dentry_in_tree(wim_root_dentry(w), write_dentry_resources, w);
+ /* Go through this image's inodes to find any streams that have not been
+ * found yet. */
+ image_for_each_inode(inode, imd) {
+ inode_find_streams_to_write(inode, w->lookup_table,
+ &ctx->stream_list,
+ &ctx->stream_size_tab);
+ }
+ return 0;
}
-/* Write the lookup table, xml data, and integrity table, then overwrite the WIM
- * header.
+/* Given a WIM that from which one or all of the images is being written, build
+ * the list of unique streams ('struct wim_lookup_table_entry's) that must be
+ * written, plus any unhashed streams that need to be written but may be
+ * identical to other hashed or unhashed streams being written. These unhashed
+ * streams are checksummed while the streams are being written. To aid this
+ * process, the member @unique_size is set to 1 on streams that have a unique
+ * size and therefore must be written.
*
- * write_lt is zero iff the lookup table is not to be written; i.e. it is
- * handled elsewhere. */
-int finish_write(WIMStruct *w, int image, int flags, int write_lt)
+ * The out_refcnt member of each 'struct wim_lookup_table_entry' is set to
+ * indicate the number of times the stream is referenced in only the streams
+ * that are being written; this may still be adjusted later when unhashed
+ * streams are being resolved.
+ */
+static int
+prepare_stream_list(WIMStruct *wim, int image, struct list_head *stream_list)
{
- off_t lookup_table_offset;
- off_t xml_data_offset;
- off_t lookup_table_size;
- off_t integrity_offset;
- off_t xml_data_size;
- off_t end_offset;
- off_t integrity_size;
int ret;
- struct wim_header hdr;
- FILE *out = w->out_fp;
+ struct find_streams_ctx ctx;
- if (write_lt) {
- lookup_table_offset = ftello(out);
- if (lookup_table_offset == -1)
- return WIMLIB_ERR_WRITE;
+ for_lookup_table_entry(wim->lookup_table, lte_zero_out_refcnt, NULL);
+ ret = init_stream_size_table(&ctx.stream_size_tab,
+ wim->lookup_table->capacity);
+ if (ret)
+ return ret;
+ for_lookup_table_entry(wim->lookup_table, stream_size_table_insert,
+ &ctx.stream_size_tab);
+ INIT_LIST_HEAD(&ctx.stream_list);
+ wim->private = &ctx;
+ ret = for_image(wim, image, image_find_streams_to_write);
+ destroy_stream_size_table(&ctx.stream_size_tab);
+ if (ret == 0)
+ list_transfer(&ctx.stream_list, stream_list);
+ return ret;
+}
- DEBUG("Writing lookup table (offset %"PRIu64")", lookup_table_offset);
- /* Write the lookup table. */
- ret = write_lookup_table(w->lookup_table, out);
- if (ret != 0)
- return ret;
- }
+/* Writes the streams for the specified @image in @wim to @wim->out_fd.
+ */
+static int
+write_wim_streams(WIMStruct *wim, int image, int write_flags,
+ unsigned num_threads,
+ wimlib_progress_func_t progress_func)
+{
+ int ret;
+ struct list_head stream_list;
+ ret = prepare_stream_list(wim, image, &stream_list);
+ if (ret)
+ return ret;
+ return write_stream_list(&stream_list,
+ wim->lookup_table,
+ wim->out_fd,
+ wimlib_get_compression_type(wim),
+ write_flags,
+ num_threads,
+ progress_func);
+}
- xml_data_offset = ftello(out);
- if (xml_data_offset == -1)
- return WIMLIB_ERR_WRITE;
- DEBUG("Writing XML data (offset %"PRIu64")", xml_data_offset);
+/*
+ * Finish writing a WIM file: write the lookup table, xml data, and integrity
+ * table (optional), then overwrite the WIM header.
+ *
+ * write_flags is a bitwise OR of the following:
+ *
+ * (public) WIMLIB_WRITE_FLAG_CHECK_INTEGRITY:
+ * Include an integrity table.
+ *
+ * (public) WIMLIB_WRITE_FLAG_SHOW_PROGRESS:
+ * Show progress information when (if) writing the integrity table.
+ *
+ * (private) WIMLIB_WRITE_FLAG_NO_LOOKUP_TABLE:
+ * Don't write the lookup table.
+ *
+ * (private) WIMLIB_WRITE_FLAG_REUSE_INTEGRITY_TABLE:
+ * When (if) writing the integrity table, re-use entries from the
+ * existing integrity table, if possible.
+ *
+ * (private) WIMLIB_WRITE_FLAG_CHECKPOINT_AFTER_XML:
+ * After writing the XML data but before writing the integrity
+ * table, write a temporary WIM header and flush the stream so that
+ * the WIM is less likely to become corrupted upon abrupt program
+ * termination.
+ *
+ * (private) WIMLIB_WRITE_FLAG_FSYNC:
+ * fsync() the output file before closing it.
+ *
+ */
+int
+finish_write(WIMStruct *w, int image, int write_flags,
+ wimlib_progress_func_t progress_func)
+{
+ int ret;
+ struct wim_header hdr;
/* @hdr will be the header for the new WIM. First copy all the data
* from the header in the WIMStruct; then set all the fields that may
* have changed, including the resource entries, boot index, and image
* count. */
memcpy(&hdr, &w->hdr, sizeof(struct wim_header));
- if (write_lt) {
- lookup_table_size = xml_data_offset - lookup_table_offset;
- hdr.lookup_table_res_entry.offset = lookup_table_offset;
- hdr.lookup_table_res_entry.size = lookup_table_size;
- }
- hdr.lookup_table_res_entry.original_size = hdr.lookup_table_res_entry.size;
- hdr.lookup_table_res_entry.flags = WIM_RESHDR_FLAG_METADATA;
-
- ret = write_xml_data(w->wim_info, image, out,
- write_lt ? 0 : wim_info_get_total_bytes(w->wim_info));
- if (ret != 0)
- return ret;
- integrity_offset = ftello(out);
- if (integrity_offset == -1)
- return WIMLIB_ERR_WRITE;
- xml_data_size = integrity_offset - xml_data_offset;
-
- hdr.xml_res_entry.offset = xml_data_offset;
- hdr.xml_res_entry.size = xml_data_size;
- hdr.xml_res_entry.original_size = xml_data_size;
- hdr.xml_res_entry.flags = 0;
-
- if (flags & WIMLIB_WRITE_FLAG_CHECK_INTEGRITY) {
- ret = write_integrity_table(out, WIM_HEADER_DISK_SIZE,
- xml_data_offset,
- flags & WIMLIB_WRITE_FLAG_SHOW_PROGRESS);
- if (ret != 0)
- return ret;
- end_offset = ftello(out);
- if (end_offset == -1)
- return WIMLIB_ERR_WRITE;
- integrity_size = end_offset - integrity_offset;
- hdr.integrity.offset = integrity_offset;
- hdr.integrity.size = integrity_size;
- hdr.integrity.original_size = integrity_size;
- } else {
- hdr.integrity.offset = 0;
- hdr.integrity.size = 0;
- hdr.integrity.original_size = 0;
+ /* Set image count and boot index correctly for single image writes */
+ if (image != WIMLIB_ALL_IMAGES) {
+ hdr.image_count = 1;
+ if (hdr.boot_idx == image)
+ hdr.boot_idx = 1;
+ else
+ hdr.boot_idx = 0;
}
- hdr.integrity.flags = 0;
-
- DEBUG("Updating WIM header.");
- /*
- * In the WIM header, there is room for the resource entry for a
+ /* In the WIM header, there is room for the resource entry for a
* metadata resource labeled as the "boot metadata". This entry should
* be zeroed out if there is no bootable image (boot_idx 0). Otherwise,
* it should be a copy of the resource entry for the image that is
- * marked as bootable. This is not well documented...
- */
- if (hdr.boot_idx == 0 || !w->image_metadata
- || (image != WIM_ALL_IMAGES && image != hdr.boot_idx)) {
- memset(&hdr.boot_metadata_res_entry, 0,
- sizeof(struct resource_entry));
+ * marked as bootable. This is not well documented... */
+ if (hdr.boot_idx == 0) {
+ zero_resource_entry(&hdr.boot_metadata_res_entry);
} else {
- memcpy(&hdr.boot_metadata_res_entry,
- &w->image_metadata[
- hdr.boot_idx - 1].metadata_lte->output_resource_entry,
- sizeof(struct resource_entry));
+ copy_resource_entry(&hdr.boot_metadata_res_entry,
+ &w->image_metadata[ hdr.boot_idx- 1
+ ]->metadata_lte->output_resource_entry);
}
- /* Set image count and boot index correctly for single image writes */
- if (image != WIM_ALL_IMAGES) {
- hdr.image_count = 1;
- if (hdr.boot_idx == image)
- hdr.boot_idx = 1;
- else
- hdr.boot_idx = 0;
+ if (!(write_flags & WIMLIB_WRITE_FLAG_NO_LOOKUP_TABLE)) {
+ ret = write_lookup_table(w, image, &hdr.lookup_table_res_entry);
+ if (ret)
+ goto out_close_wim;
}
+ ret = write_xml_data(w->wim_info, image, w->out_fd,
+ (write_flags & WIMLIB_WRITE_FLAG_NO_LOOKUP_TABLE) ?
+ wim_info_get_total_bytes(w->wim_info) : 0,
+ &hdr.xml_res_entry);
+ if (ret)
+ goto out_close_wim;
- if (fseeko(out, 0, SEEK_SET) != 0)
- return WIMLIB_ERR_WRITE;
+ if (write_flags & WIMLIB_WRITE_FLAG_CHECK_INTEGRITY) {
+ if (write_flags & WIMLIB_WRITE_FLAG_CHECKPOINT_AFTER_XML) {
+ struct wim_header checkpoint_hdr;
+ memcpy(&checkpoint_hdr, &hdr, sizeof(struct wim_header));
+ zero_resource_entry(&checkpoint_hdr.integrity);
+ ret = write_header(&checkpoint_hdr, w->out_fd);
+ if (ret)
+ goto out_close_wim;
+ }
+
+ off_t old_lookup_table_end;
+ off_t new_lookup_table_end;
+ if (write_flags & WIMLIB_WRITE_FLAG_REUSE_INTEGRITY_TABLE) {
+ old_lookup_table_end = w->hdr.lookup_table_res_entry.offset +
+ w->hdr.lookup_table_res_entry.size;
+ } else {
+ old_lookup_table_end = 0;
+ }
+ new_lookup_table_end = hdr.lookup_table_res_entry.offset +
+ hdr.lookup_table_res_entry.size;
+
+ ret = write_integrity_table(w->out_fd,
+ &hdr.integrity,
+ new_lookup_table_end,
+ old_lookup_table_end,
+ progress_func);
+ if (ret)
+ goto out_close_wim;
+ } else {
+ zero_resource_entry(&hdr.integrity);
+ }
- return write_header(&hdr, out);
+ ret = write_header(&hdr, w->out_fd);
+ if (ret)
+ goto out_close_wim;
+
+ if (write_flags & WIMLIB_WRITE_FLAG_FSYNC) {
+ if (fsync(w->out_fd)) {
+ ERROR_WITH_ERRNO("Error syncing data to WIM file");
+ ret = WIMLIB_ERR_WRITE;
+ }
+ }
+out_close_wim:
+ if (close(w->out_fd)) {
+ ERROR_WITH_ERRNO("Failed to close the output WIM file");
+ if (ret == 0)
+ ret = WIMLIB_ERR_WRITE;
+ }
+ w->out_fd = INVALID_FILEDES;
+ return ret;
}
-/* Open file stream and write dummy header for WIM. */
-int begin_write(WIMStruct *w, const char *path, int flags)
+#if defined(HAVE_SYS_FILE_H) && defined(HAVE_FLOCK)
+int
+lock_wim(WIMStruct *w, filedes_t fd)
{
- const char *mode;
- DEBUG("Opening `%s' for new WIM", path);
-
- /* checking the integrity requires going back over the file to read it.
- * XXX
- * (It also would be possible to keep a running sha1sum as the file
- * as written-- this would be faster, but a bit more complicated) */
- if (flags & WIMLIB_WRITE_FLAG_CHECK_INTEGRITY)
- mode = "w+b";
- else
- mode = "wb";
+ int ret = 0;
+ if (fd != INVALID_FILEDES && !w->wim_locked) {
+ ret = flock(fd, LOCK_EX | LOCK_NB);
+ if (ret != 0) {
+ if (errno == EWOULDBLOCK) {
+ ERROR("`%"TS"' is already being modified or has been "
+ "mounted read-write\n"
+ " by another process!", w->filename);
+ ret = WIMLIB_ERR_ALREADY_LOCKED;
+ } else {
+ WARNING_WITH_ERRNO("Failed to lock `%"TS"'",
+ w->filename);
+ ret = 0;
+ }
+ } else {
+ w->wim_locked = 1;
+ }
+ }
+ return ret;
+}
+#endif
- w->out_fp = fopen(path, mode);
- if (!w->out_fp) {
- ERROR_WITH_ERRNO("Failed to open the file `%s' for writing",
- path);
+static int
+open_wim_writable(WIMStruct *w, const tchar *path, int open_flags)
+{
+ w->out_fd = topen(path, open_flags, 0644);
+ if (w->out_fd == INVALID_FILEDES) {
+ ERROR_WITH_ERRNO("Failed to open `%"TS"' for writing", path);
return WIMLIB_ERR_OPEN;
}
+ return 0;
+}
+
+
+void
+close_wim_writable(WIMStruct *w)
+{
+ if (w->out_fd != INVALID_FILEDES) {
+ if (close(w->out_fd))
+ WARNING_WITH_ERRNO("Failed to close output WIM");
+ w->out_fd = INVALID_FILEDES;
+ }
+}
+/* Open file stream and write dummy header for WIM. */
+int
+begin_write(WIMStruct *w, const tchar *path, int write_flags)
+{
+ int ret;
+ int open_flags = O_TRUNC | O_CREAT;
+ if (write_flags & WIMLIB_WRITE_FLAG_CHECK_INTEGRITY)
+ open_flags |= O_RDWR;
+ else
+ open_flags |= O_WRONLY;
+ ret = open_wim_writable(w, path, open_flags);
+ if (ret)
+ return ret;
/* Write dummy header. It will be overwritten later. */
- return write_header(&w->hdr, w->out_fp);
+ ret = write_header(&w->hdr, w->out_fd);
+ if (ret)
+ return ret;
+ if (lseek(w->out_fd, WIM_HEADER_DISK_SIZE, SEEK_SET) == -1) {
+ ERROR_WITH_ERRNO("Failed to seek to end of WIM header");
+ return WIMLIB_ERR_WRITE;
+ }
+ return 0;
}
-/* Writes the WIM to a file. */
-WIMLIBAPI int wimlib_write(WIMStruct *w, const char *path, int image, int flags)
+/* Writes a stand-alone WIM to a file. */
+WIMLIBAPI int
+wimlib_write(WIMStruct *w, const tchar *path,
+ int image, int write_flags, unsigned num_threads,
+ wimlib_progress_func_t progress_func)
{
int ret;
- if (image != WIM_ALL_IMAGES &&
+ if (!path)
+ return WIMLIB_ERR_INVALID_PARAM;
+
+ write_flags &= WIMLIB_WRITE_MASK_PUBLIC;
+
+ if (image != WIMLIB_ALL_IMAGES &&
(image < 1 || image > w->hdr.image_count))
return WIMLIB_ERR_INVALID_IMAGE;
- if (image == WIM_ALL_IMAGES)
- DEBUG("Writing all images to `%s'.", path);
- else
- DEBUG("Writing image %d to `%s'.", image, path);
+ if (w->hdr.total_parts != 1) {
+ ERROR("Cannot call wimlib_write() on part of a split WIM");
+ return WIMLIB_ERR_SPLIT_UNSUPPORTED;
+ }
+
+ ret = begin_write(w, path, write_flags);
+ if (ret)
+ goto out_close_wim;
+
+ ret = write_wim_streams(w, image, write_flags, num_threads,
+ progress_func);
+ if (ret)
+ goto out_close_wim;
+
+ if (progress_func)
+ progress_func(WIMLIB_PROGRESS_MSG_WRITE_METADATA_BEGIN, NULL);
+
+ ret = for_image(w, image, write_metadata_resource);
+ if (ret)
+ goto out_close_wim;
+
+ if (progress_func)
+ progress_func(WIMLIB_PROGRESS_MSG_WRITE_METADATA_END, NULL);
+
+ ret = finish_write(w, image, write_flags, progress_func);
+ /* finish_write() closed the WIM for us */
+ goto out;
+out_close_wim:
+ close_wim_writable(w);
+out:
+ DEBUG("wimlib_write(path=%"TS") = %d", path, ret);
+ return ret;
+}
+
+static bool
+any_images_modified(WIMStruct *w)
+{
+ for (int i = 0; i < w->hdr.image_count; i++)
+ if (w->image_metadata[i]->modified)
+ return true;
+ return false;
+}
+
+/*
+ * Overwrite a WIM, possibly appending streams to it.
+ *
+ * A WIM looks like (or is supposed to look like) the following:
+ *
+ * Header (212 bytes)
+ * Streams and metadata resources (variable size)
+ * Lookup table (variable size)
+ * XML data (variable size)
+ * Integrity table (optional) (variable size)
+ *
+ * If we are not adding any streams or metadata resources, the lookup table is
+ * unchanged--- so we only need to overwrite the XML data, integrity table, and
+ * header. This operation is potentially unsafe if the program is abruptly
+ * terminated while the XML data or integrity table are being overwritten, but
+ * before the new header has been written. To partially alleviate this problem,
+ * a special flag (WIMLIB_WRITE_FLAG_CHECKPOINT_AFTER_XML) is passed to
+ * finish_write() to cause a temporary WIM header to be written after the XML
+ * data has been written. This may prevent the WIM from becoming corrupted if
+ * the program is terminated while the integrity table is being calculated (but
+ * no guarantees, due to write re-ordering...).
+ *
+ * If we are adding new streams or images (metadata resources), the lookup table
+ * needs to be changed, and those streams need to be written. In this case, we
+ * try to perform a safe update of the WIM file by writing the streams *after*
+ * the end of the previous WIM, then writing the new lookup table, XML data, and
+ * (optionally) integrity table following the new streams. This will produce a
+ * layout like the following:
+ *
+ * Header (212 bytes)
+ * (OLD) Streams and metadata resources (variable size)
+ * (OLD) Lookup table (variable size)
+ * (OLD) XML data (variable size)
+ * (OLD) Integrity table (optional) (variable size)
+ * (NEW) Streams and metadata resources (variable size)
+ * (NEW) Lookup table (variable size)
+ * (NEW) XML data (variable size)
+ * (NEW) Integrity table (optional) (variable size)
+ *
+ * At all points, the WIM is valid as nothing points to the new data yet. Then,
+ * the header is overwritten to point to the new lookup table, XML data, and
+ * integrity table, to produce the following layout:
+ *
+ * Header (212 bytes)
+ * Streams and metadata resources (variable size)
+ * Nothing (variable size)
+ * More Streams and metadata resources (variable size)
+ * Lookup table (variable size)
+ * XML data (variable size)
+ * Integrity table (optional) (variable size)
+ *
+ * This method allows an image to be appended to a large WIM very quickly, and
+ * is is crash-safe except in the case of write re-ordering, but the
+ * disadvantage is that a small hole is left in the WIM where the old lookup
+ * table, xml data, and integrity table were. (These usually only take up a
+ * small amount of space compared to the streams, however.)
+ */
+static int
+overwrite_wim_inplace(WIMStruct *w, int write_flags,
+ unsigned num_threads,
+ wimlib_progress_func_t progress_func)
+{
+ int ret;
+ struct list_head stream_list;
+ off_t old_wim_end;
+ u64 old_lookup_table_end, old_xml_begin, old_xml_end;
+ int open_flags;
- ret = begin_write(w, path, flags);
- if (ret != 0)
- goto done;
+ DEBUG("Overwriting `%"TS"' in-place", w->filename);
- for_lookup_table_entry(w->lookup_table, zero_out_refcnts, NULL);
+ /* Make sure that the integrity table (if present) is after the XML
+ * data, and that there are no stream resources, metadata resources, or
+ * lookup tables after the XML data. Otherwise, these data would be
+ * overwritten. */
+ old_xml_begin = w->hdr.xml_res_entry.offset;
+ old_xml_end = old_xml_begin + w->hdr.xml_res_entry.size;
+ old_lookup_table_end = w->hdr.lookup_table_res_entry.offset +
+ w->hdr.lookup_table_res_entry.size;
+ if (w->hdr.integrity.offset != 0 && w->hdr.integrity.offset < old_xml_end) {
+ ERROR("Didn't expect the integrity table to be before the XML data");
+ return WIMLIB_ERR_RESOURCE_ORDER;
+ }
- w->write_flags = flags;
+ if (old_lookup_table_end > old_xml_begin) {
+ ERROR("Didn't expect the lookup table to be after the XML data");
+ return WIMLIB_ERR_RESOURCE_ORDER;
+ }
- ret = for_image(w, image, write_file_resources);
- if (ret != 0) {
- ERROR("Failed to write WIM file resources to `%s'", path);
- goto done;
+ /* Set @old_wim_end, which indicates the point beyond which we don't
+ * allow any file and metadata resources to appear without returning
+ * WIMLIB_ERR_RESOURCE_ORDER (due to the fact that we would otherwise
+ * overwrite these resources). */
+ if (!w->deletion_occurred && !any_images_modified(w)) {
+ /* If no images have been modified and no images have been
+ * deleted, a new lookup table does not need to be written. We
+ * shall write the new XML data and optional integrity table
+ * immediately after the lookup table. Note that this may
+ * overwrite an existing integrity table. */
+ DEBUG("Skipping writing lookup table "
+ "(no images modified or deleted)");
+ old_wim_end = old_lookup_table_end;
+ write_flags |= WIMLIB_WRITE_FLAG_NO_LOOKUP_TABLE |
+ WIMLIB_WRITE_FLAG_CHECKPOINT_AFTER_XML;
+ } else if (w->hdr.integrity.offset) {
+ /* Old WIM has an integrity table; begin writing new streams
+ * after it. */
+ old_wim_end = w->hdr.integrity.offset + w->hdr.integrity.size;
+ } else {
+ /* No existing integrity table; begin writing new streams after
+ * the old XML data. */
+ old_wim_end = old_xml_end;
}
- ret = for_image(w, image, write_metadata_resource);
+ ret = prepare_streams_for_overwrite(w, old_wim_end, &stream_list);
+ if (ret)
+ return ret;
+
+ open_flags = 0;
+ if (write_flags & WIMLIB_WRITE_FLAG_CHECK_INTEGRITY)
+ open_flags |= O_RDWR;
+ else
+ open_flags |= O_WRONLY;
+ ret = open_wim_writable(w, w->filename, open_flags);
+ if (ret)
+ return ret;
+
+ ret = lock_wim(w, w->out_fd);
+ if (ret) {
+ close_wim_writable(w);
+ return ret;
+ }
- if (ret != 0) {
- ERROR("Failed to write WIM image metadata to `%s'", path);
- goto done;
+ if (lseek(w->out_fd, old_wim_end, SEEK_SET) == -1) {
+ ERROR_WITH_ERRNO("Can't seek to end of WIM");
+ close_wim_writable(w);
+ w->wim_locked = 0;
+ return WIMLIB_ERR_WRITE;
}
- ret = finish_write(w, image, flags, 1);
+ DEBUG("Writing newly added streams (offset = %"PRIu64")",
+ old_wim_end);
+ ret = write_stream_list(&stream_list,
+ w->lookup_table,
+ w->out_fd,
+ wimlib_get_compression_type(w),
+ write_flags,
+ num_threads,
+ progress_func);
+ if (ret)
+ goto out_truncate;
-done:
- DEBUG("Closing output file.");
- if (w->out_fp != NULL) {
- if (fclose(w->out_fp) != 0) {
- ERROR_WITH_ERRNO("Failed to close the file `%s'", path);
- ret = WIMLIB_ERR_WRITE;
+ for (int i = 0; i < w->hdr.image_count; i++) {
+ if (w->image_metadata[i]->modified) {
+ select_wim_image(w, i + 1);
+ ret = write_metadata_resource(w);
+ if (ret)
+ goto out_truncate;
}
- w->out_fp = NULL;
}
+ write_flags |= WIMLIB_WRITE_FLAG_REUSE_INTEGRITY_TABLE;
+ ret = finish_write(w, WIMLIB_ALL_IMAGES, write_flags,
+ progress_func);
+out_truncate:
+ close_wim_writable(w);
+ if (ret != 0 && !(write_flags & WIMLIB_WRITE_FLAG_NO_LOOKUP_TABLE)) {
+ WARNING("Truncating `%"TS"' to its original size (%"PRIu64" bytes)",
+ w->filename, old_wim_end);
+ /* Return value of truncate() is ignored because this is already
+ * an error path. */
+ (void)ttruncate(w->filename, old_wim_end);
+ }
+ w->wim_locked = 0;
return ret;
}
+
+static int
+overwrite_wim_via_tmpfile(WIMStruct *w, int write_flags,
+ unsigned num_threads,
+ wimlib_progress_func_t progress_func)
+{
+ size_t wim_name_len;
+ int ret;
+
+ DEBUG("Overwriting `%"TS"' via a temporary file", w->filename);
+
+ /* Write the WIM to a temporary file in the same directory as the
+ * original WIM. */
+ wim_name_len = tstrlen(w->filename);
+ tchar tmpfile[wim_name_len + 10];
+ tmemcpy(tmpfile, w->filename, wim_name_len);
+ randomize_char_array_with_alnum(tmpfile + wim_name_len, 9);
+ tmpfile[wim_name_len + 9] = T('\0');
+
+ ret = wimlib_write(w, tmpfile, WIMLIB_ALL_IMAGES,
+ write_flags | WIMLIB_WRITE_FLAG_FSYNC,
+ num_threads, progress_func);
+ if (ret) {
+ ERROR("Failed to write the WIM file `%"TS"'", tmpfile);
+ goto out_unlink;
+ }
+
+ close_wim(w);
+
+ DEBUG("Renaming `%"TS"' to `%"TS"'", tmpfile, w->filename);
+ /* Rename the new file to the old file .*/
+ if (trename(tmpfile, w->filename) != 0) {
+ ERROR_WITH_ERRNO("Failed to rename `%"TS"' to `%"TS"'",
+ tmpfile, w->filename);
+ ret = WIMLIB_ERR_RENAME;
+ goto out_unlink;
+ }
+
+ if (progress_func) {
+ union wimlib_progress_info progress;
+ progress.rename.from = tmpfile;
+ progress.rename.to = w->filename;
+ progress_func(WIMLIB_PROGRESS_MSG_RENAME, &progress);
+ }
+ goto out;
+out_unlink:
+ /* Remove temporary file. */
+ if (tunlink(tmpfile) != 0)
+ WARNING_WITH_ERRNO("Failed to remove `%"TS"'", tmpfile);
+out:
+ return ret;
+}
+
+/*
+ * Writes a WIM file to the original file that it was read from, overwriting it.
+ */
+WIMLIBAPI int
+wimlib_overwrite(WIMStruct *w, int write_flags,
+ unsigned num_threads,
+ wimlib_progress_func_t progress_func)
+{
+ write_flags &= WIMLIB_WRITE_MASK_PUBLIC;
+
+ if (!w->filename)
+ return WIMLIB_ERR_NO_FILENAME;
+
+ if (w->hdr.total_parts != 1) {
+ ERROR("Cannot modify a split WIM");
+ return WIMLIB_ERR_SPLIT_UNSUPPORTED;
+ }
+
+ if ((!w->deletion_occurred || (write_flags & WIMLIB_WRITE_FLAG_SOFT_DELETE))
+ && !(write_flags & WIMLIB_WRITE_FLAG_REBUILD))
+ {
+ int ret;
+ ret = overwrite_wim_inplace(w, write_flags, num_threads,
+ progress_func);
+ if (ret == WIMLIB_ERR_RESOURCE_ORDER)
+ WARNING("Falling back to re-building entire WIM");
+ else
+ return ret;
+ }
+ return overwrite_wim_via_tmpfile(w, write_flags, num_threads,
+ progress_func);
+}