Use read_stream_list() for extraction

[wimlib] / src / extract.c

/*
 * extract.c
 *
 * Support for extracting WIM images, or files or directories contained in a WIM
 * image.
 */

/*
 * 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 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 General Public License for more
 * details.
 *
 * You should have received a copy of the GNU General Public License
 * along with wimlib; if not, see http://www.gnu.org/licenses/.
 */

/*
 * This file provides the API functions wimlib_extract_image(),
 * wimlib_extract_files(), and wimlib_extract_image_from_pipe().  Internally,
 * all end up calling extract_tree() zero or more times to extract a tree of
 * files from the currently selected WIM image to the specified target directory
 * or NTFS volume.
 *
 * Although wimlib supports multiple extraction modes/backends (NTFS-3g, UNIX,
 * Win32), this file does not itself have code to extract files or directories
 * to any specific target; instead, it handles generic functionality and relies
 * on lower-level callback functions declared in `struct apply_operations' to do
 * the actual extraction.
 */

#ifdef HAVE_CONFIG_H
#  include "config.h"
#endif

#include "wimlib/apply.h"
#include "wimlib/dentry.h"
#include "wimlib/encoding.h"
#include "wimlib/endianness.h"
#include "wimlib/error.h"
#include "wimlib/lookup_table.h"
#include "wimlib/metadata.h"
#include "wimlib/paths.h"
#include "wimlib/reparse.h"
#include "wimlib/resource.h"
#include "wimlib/security.h"
#ifdef __WIN32__
#  include "wimlib/win32.h" /* for realpath() equivalent */
#endif
#include "wimlib/xml.h"
#include "wimlib/wim.h"

#include <errno.h>
#include <fcntl.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <unistd.h>

#define WIMLIB_EXTRACT_FLAG_MULTI_IMAGE 0x80000000
#define WIMLIB_EXTRACT_FLAG_FROM_PIPE   0x40000000
#define WIMLIB_EXTRACT_MASK_PUBLIC      0x3fffffff

/* Given a WIM dentry in the tree to be extracted, resolve all streams in the
 * corresponding inode and set 'out_refcnt' in each to 0.  */
static int
dentry_resolve_and_zero_lte_refcnt(struct wim_dentry *dentry, void *_ctx)
{
        struct apply_ctx *ctx = _ctx;
        struct wim_inode *inode = dentry->d_inode;
        struct wim_lookup_table_entry *lte;
        int ret;
        bool force = false;

        if (dentry->extraction_skipped)
                return 0;

        /* Special case:  when extracting from a pipe, the WIM lookup table is
         * initially empty, so "resolving" an inode's streams is initially not
         * possible.  However, we still need to keep track of which streams,
         * identified by SHA1 message digests, need to be extracted, so we
         * "resolve" the inode's streams anyway by allocating new entries.  */
        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_FROM_PIPE)
                force = true;
        ret = inode_resolve_ltes(inode, ctx->wim->lookup_table, force);
        if (ret)
                return ret;
        for (unsigned i = 0; i <= inode->i_num_ads; i++) {
                lte = inode_stream_lte_resolved(inode, i);
                if (lte)
                        lte->out_refcnt = 0;
        }
        return 0;
}

static inline bool
is_linked_extraction(const struct apply_ctx *ctx)
{
        return 0 != (ctx->extract_flags & (WIMLIB_EXTRACT_FLAG_HARDLINK |
                                           WIMLIB_EXTRACT_FLAG_SYMLINK));
}

static inline bool
can_extract_named_data_streams(const struct apply_ctx *ctx)
{
        return ctx->supported_features.named_data_streams &&
                !is_linked_extraction(ctx);
}

static int
ref_stream_to_extract(struct wim_lookup_table_entry *lte,
                      struct wim_dentry *dentry, struct apply_ctx *ctx)
{
        if (!lte)
                return 0;

        /* Tally the size only for each extraction of the stream (not hard
         * links).  */
        if (!(dentry->d_inode->i_visited &&
              ctx->supported_features.hard_links) &&
            (!is_linked_extraction(ctx) || (lte->out_refcnt == 0 &&
                                            lte->extracted_file == NULL)))
        {
                ctx->progress.extract.total_bytes += lte->size;
                ctx->progress.extract.num_streams++;
        }

        /* Add stream to the extraction_list only one time, even if it's going
         * to be extracted to multiple locations.  */
        if (lte->out_refcnt == 0) {
                list_add_tail(&lte->extraction_list, &ctx->stream_list);
                ctx->num_streams_remaining++;
        }

        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_SEQUENTIAL) {
                struct wim_dentry **lte_dentries;

                /* Append dentry to this stream's array of dentries referencing
                 * it.  Use inline array to avoid memory allocation until the
                 * number of dentries becomes too large.  */
                if (lte->out_refcnt < ARRAY_LEN(lte->inline_lte_dentries)) {
                        lte_dentries = lte->inline_lte_dentries;
                } else {
                        struct wim_dentry **prev_lte_dentries;
                        size_t alloc_lte_dentries;

                        if (lte->out_refcnt == ARRAY_LEN(lte->inline_lte_dentries)) {
                                prev_lte_dentries = NULL;
                                alloc_lte_dentries = ARRAY_LEN(lte->inline_lte_dentries);
                        } else {
                                prev_lte_dentries = lte->lte_dentries;
                                alloc_lte_dentries = lte->alloc_lte_dentries;
                        }

                        if (lte->out_refcnt == alloc_lte_dentries) {
                                alloc_lte_dentries *= 2;
                                lte_dentries = REALLOC(prev_lte_dentries,
                                                       alloc_lte_dentries *
                                                        sizeof(lte_dentries[0]));
                                if (lte_dentries == NULL)
                                        return WIMLIB_ERR_NOMEM;
                                if (prev_lte_dentries == NULL) {
                                        memcpy(lte_dentries,
                                               lte->inline_lte_dentries,
                                               sizeof(lte->inline_lte_dentries));
                                }
                                lte->lte_dentries = lte_dentries;
                                lte->alloc_lte_dentries = alloc_lte_dentries;
                        }
                        lte_dentries = lte->lte_dentries;
                }
                lte_dentries[lte->out_refcnt] = dentry;
        }
        lte->out_refcnt++;
        return 0;
}

/* Given a WIM dentry in the tree to be extracted, iterate through streams that
 * need to be extracted.  For each one, add it to the list of streams to be
 * extracted (ctx->stream_list) if not already done so, and also update the
 * progress information (ctx->progress) with the stream.  Furthermore, if doing
 * a sequential extraction, build a mapping from each the stream to the dentries
 * referencing it.
 *
 * This uses the i_visited member of the inodes (assumed to be 0 initially).  */
static int
dentry_add_streams_to_extract(struct wim_dentry *dentry, void *_ctx)
{
        struct apply_ctx *ctx = _ctx;
        struct wim_inode *inode = dentry->d_inode;
        int ret;

        /* Don't process dentries marked as skipped.  */
        if (dentry->extraction_skipped)
                return 0;

        /* The unnamed data stream will always be extracted, except in an
         * unlikely case.  */
        if (!inode_is_encrypted_directory(inode)) {
                ret = ref_stream_to_extract(inode_unnamed_lte_resolved(inode),
                                            dentry, ctx);
                if (ret)
                        return ret;
        }

        /* Named data streams will be extracted only if supported in the current
         * extraction mode and volume, and to avoid complications, if not doing
         * a linked extraction.  */
        if (can_extract_named_data_streams(ctx)) {
                for (u16 i = 0; i < inode->i_num_ads; i++) {
                        if (!ads_entry_is_named_stream(&inode->i_ads_entries[i]))
                                continue;
                        ret = ref_stream_to_extract(inode->i_ads_entries[i].lte,
                                                    dentry, ctx);
                        if (ret)
                                return ret;
                }
        }
        inode->i_visited = 1;
        return 0;
}

/* Inform library user of progress of stream extraction following the successful
 * extraction of a copy of the stream specified by @lte.  */
static void
update_extract_progress(struct apply_ctx *ctx,
                        const struct wim_lookup_table_entry *lte)
{
        wimlib_progress_func_t progress_func = ctx->progress_func;
        union wimlib_progress_info *progress = &ctx->progress;

        progress->extract.completed_bytes += lte->size;
        if (progress_func &&
            progress->extract.completed_bytes >= ctx->next_progress)
        {
                progress_func(WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS, progress);
                if (progress->extract.completed_bytes >=
                    progress->extract.total_bytes)
                {
                        ctx->next_progress = ~0ULL;
                } else {
                        ctx->next_progress += progress->extract.total_bytes / 128;
                        if (ctx->next_progress > progress->extract.total_bytes)
                                ctx->next_progress = progress->extract.total_bytes;
                }
        }
}

#ifndef __WIN32__
/* Extract a symbolic link (not directly as reparse data), handling fixing up
 * the target of absolute symbolic links and updating the extract progress.
 *
 * @inode must specify the WIM inode for a symbolic link or junction reparse
 * point.
 *
 * @lte_override overrides the resource used as the reparse data for the
 * symbolic link.  */
static int
extract_symlink(const tchar *path, struct apply_ctx *ctx,
                struct wim_inode *inode,
                struct wim_lookup_table_entry *lte_override)
{
        ssize_t bufsize = ctx->ops->path_max;
        tchar target[bufsize];
        tchar *buf = target;
        tchar *fixed_target;
        ssize_t sret;
        int ret;

        /* If absolute symbolic link fixups requested, reserve space in the link
         * target buffer for the absolute path of the target directory.  */
        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_RPFIX)
        {
                buf += ctx->realtarget_nchars;
                bufsize -= ctx->realtarget_nchars;
        }

        /* Translate the WIM inode's reparse data into the link target.  */
        sret = wim_inode_readlink(inode, buf, bufsize - 1, lte_override);
        if (sret < 0) {
                errno = -sret;
                return WIMLIB_ERR_READLINK;
        }
        buf[sret] = '\0';

        if ((ctx->extract_flags & WIMLIB_EXTRACT_FLAG_RPFIX) &&
            buf[0] == '/')
        {
                /* Fix absolute symbolic link target to point into the
                 * actual extraction destination.  */
                tmemcpy(target, ctx->realtarget, ctx->realtarget_nchars);
                fixed_target = target;
        } else {
                /* Keep same link target.  */
                fixed_target = buf;
        }

        /* Call into the apply_operations to create the symbolic link.  */
        DEBUG("Creating symlink \"%"TS"\" => \"%"TS"\"",
              path, fixed_target);
        ret = ctx->ops->create_symlink(fixed_target, path, ctx);
        if (ret) {
                ERROR_WITH_ERRNO("Failed to create symlink "
                                 "\"%"TS"\" => \"%"TS"\"", path, fixed_target);
                return ret;
        }

        /* Account for reparse data consumed.  */
        update_extract_progress(ctx,
                                (lte_override ? lte_override :
                                      inode_unnamed_lte_resolved(inode)));
        return 0;
}
#endif /* !__WIN32__ */

/* Create a file, directory, or symbolic link.  */
static int
extract_inode(const tchar *path, struct apply_ctx *ctx, struct wim_inode *inode)
{
        int ret;

#ifndef __WIN32__
        if (ctx->supported_features.symlink_reparse_points &&
            !ctx->supported_features.reparse_points &&
            inode_is_symlink(inode))
        {
                ret = extract_symlink(path, ctx, inode, NULL);
        } else
#endif /* !__WIN32__ */
        if (inode->i_attributes & FILE_ATTRIBUTE_DIRECTORY) {
                ret = ctx->ops->create_directory(path, ctx, &inode->extract_cookie);
                if (ret) {
                        ERROR_WITH_ERRNO("Failed to create the directory "
                                         "\"%"TS"\"", path);
                }
        } else if ((inode->i_attributes & FILE_ATTRIBUTE_ENCRYPTED) &&
                    ctx->ops->extract_encrypted_stream_creates_file &&
                    ctx->supported_features.encrypted_files) {
                ret = ctx->ops->extract_encrypted_stream(
                                path, inode_unnamed_lte_resolved(inode), ctx);
                if (ret) {
                        ERROR_WITH_ERRNO("Failed to create and extract "
                                         "encrypted file \"%"TS"\"", path);
                }
        } else {
                ret = ctx->ops->create_file(path, ctx, &inode->extract_cookie);
                if (ret) {
                        ERROR_WITH_ERRNO("Failed to create the file "
                                         "\"%"TS"\"", path);
                }
        }
        return ret;
}

static int
extract_hardlink(const tchar *oldpath, const tchar *newpath,
                 struct apply_ctx *ctx)
{
        int ret;

        DEBUG("Creating hardlink \"%"TS"\" => \"%"TS"\"", newpath, oldpath);
        ret = ctx->ops->create_hardlink(oldpath, newpath, ctx);
        if (ret) {
                ERROR_WITH_ERRNO("Failed to create hardlink "
                                 "\"%"TS"\" => \"%"TS"\"",
                                 newpath, oldpath);
        }
        return ret;
}

#ifdef __WIN32__
static int
try_extract_rpfix(u8 *rpbuf,
                  u16 *rpbuflen_p,
                  const wchar_t *extract_root_realpath,
                  unsigned extract_root_realpath_nchars)
{
        struct reparse_data rpdata;
        wchar_t *target;
        size_t target_nchars;
        size_t stripped_nchars;
        wchar_t *stripped_target;
        wchar_t stripped_target_nchars;
        int ret;

        utf16lechar *new_target;
        utf16lechar *new_print_name;
        size_t new_target_nchars;
        size_t new_print_name_nchars;
        utf16lechar *p;

        ret = parse_reparse_data(rpbuf, *rpbuflen_p, &rpdata);
        if (ret)
                return ret;

        if (extract_root_realpath[0] == L'\0' ||
            extract_root_realpath[1] != L':' ||
            extract_root_realpath[2] != L'\\')
                return WIMLIB_ERR_REPARSE_POINT_FIXUP_FAILED;

        ret = parse_substitute_name(rpdata.substitute_name,
                                    rpdata.substitute_name_nbytes,
                                    rpdata.rptag);
        if (ret < 0)
                return 0;
        stripped_nchars = ret;
        target = rpdata.substitute_name;
        target_nchars = rpdata.substitute_name_nbytes / sizeof(utf16lechar);
        stripped_target = target + stripped_nchars;
        stripped_target_nchars = target_nchars - stripped_nchars;

        new_target = alloca((6 + extract_root_realpath_nchars +
                             stripped_target_nchars) * sizeof(utf16lechar));

        p = new_target;
        if (stripped_nchars == 6) {
                /* Include \??\ prefix if it was present before */
                p = wmempcpy(p, L"\\??\\", 4);
        }

        /* Print name excludes the \??\ if present. */
        new_print_name = p;
        if (stripped_nchars != 0) {
                /* Get drive letter from real path to extract root, if a drive
                 * letter was present before. */
                *p++ = extract_root_realpath[0];
                *p++ = extract_root_realpath[1];
        }
        /* Copy the rest of the extract root */
        p = wmempcpy(p, extract_root_realpath + 2, extract_root_realpath_nchars - 2);

        /* Append the stripped target */
        p = wmempcpy(p, stripped_target, stripped_target_nchars);
        new_target_nchars = p - new_target;
        new_print_name_nchars = p - new_print_name;

        if (new_target_nchars * sizeof(utf16lechar) >= REPARSE_POINT_MAX_SIZE ||
            new_print_name_nchars * sizeof(utf16lechar) >= REPARSE_POINT_MAX_SIZE)
                return WIMLIB_ERR_REPARSE_POINT_FIXUP_FAILED;

        rpdata.substitute_name = new_target;
        rpdata.substitute_name_nbytes = new_target_nchars * sizeof(utf16lechar);
        rpdata.print_name = new_print_name;
        rpdata.print_name_nbytes = new_print_name_nchars * sizeof(utf16lechar);
        return make_reparse_buffer(&rpdata, rpbuf, rpbuflen_p);
}
#endif /* __WIN32__ */

/* Set reparse data on extracted file or directory that has
 * FILE_ATTRIBUTE_REPARSE_POINT set.  */
static int
extract_reparse_data(const tchar *path, struct apply_ctx *ctx,
                     struct wim_inode *inode,
                     struct wim_lookup_table_entry *lte_override)
{
        int ret;
        u8 rpbuf[REPARSE_POINT_MAX_SIZE];
        u16 rpbuflen;

        ret = wim_inode_get_reparse_data(inode, rpbuf, &rpbuflen, lte_override);
        if (ret)
                goto error;

#ifdef __WIN32__
        /* Fix up target of absolute symbolic link or junction points so
         * that they point into the actual extraction target.  */
        if ((ctx->extract_flags & WIMLIB_EXTRACT_FLAG_RPFIX) &&
            (inode->i_reparse_tag == WIM_IO_REPARSE_TAG_SYMLINK ||
             inode->i_reparse_tag == WIM_IO_REPARSE_TAG_MOUNT_POINT) &&
            !inode->i_not_rpfixed)
        {
                ret = try_extract_rpfix(rpbuf, &rpbuflen, ctx->realtarget,
                                        ctx->realtarget_nchars);
                if (ret && !(ctx->extract_flags &
                             WIMLIB_EXTRACT_FLAG_STRICT_SYMLINKS))
                {
                        WARNING("Reparse point fixup of \"%"TS"\" "
                                "failed", path);
                        ret = 0;
                }
                if (ret)
                        goto error;
        }
#endif

        ret = ctx->ops->set_reparse_data(path, rpbuf, rpbuflen, ctx);

        /* On Windows, the SeCreateSymbolicLink privilege is required to create
         * symbolic links.  To be more friendly towards non-Administrator users,
         * we merely warn the user if symbolic links cannot be created due to
         * insufficient permissions or privileges, unless
         * WIMLIB_EXTRACT_FLAG_STRICT_SYMLINKS was provided.  */
#ifdef __WIN32__
        if (ret && inode_is_symlink(inode) &&
            (errno == EACCES || errno == EPERM) &&
            !(ctx->extract_flags & WIMLIB_EXTRACT_FLAG_STRICT_SYMLINKS))
        {
                WARNING("Can't set reparse data on \"%"TS"\": "
                        "Access denied!\n"
                        "          You may be trying to "
                        "extract a symbolic link without the\n"
                        "          SeCreateSymbolicLink privilege, "
                        "which by default non-Administrator\n"
                        "          accounts do not have.",
                        path);
                ret = 0;
        }
#endif
        if (ret)
                goto error;

        /* Account for reparse data consumed.  */
        update_extract_progress(ctx,
                                (lte_override ? lte_override :
                                      inode_unnamed_lte_resolved(inode)));
        return 0;

error:
        ERROR_WITH_ERRNO("Failed to set reparse data on \"%"TS"\"", path);
        return ret;
}

/*
 * Extract zero or more streams to a file.
 *
 * This function operates slightly differently depending on whether @lte_spec is
 * NULL or not.  When @lte_spec is NULL, the behavior is to extract the default
 * file contents (unnamed stream), and, if named data streams are supported in
 * the extract mode and volume, any named data streams.  When @lte_spec is NULL,
 * the behavior is to extract only all copies of the stream @lte_spec, and in
 * addition use @lte_spec to set the reparse data or create the symbolic link if
 * appropriate.
 *
 * @path
 *      Path to file to extract (as can be passed to apply_operations
 *      functions).
 * @ctx
 *      Apply context.
 * @dentry
 *      WIM dentry that corresponds to the file being extracted.
 * @lte_spec
 *      If non-NULL, specifies the lookup table entry for a stream to extract,
 *      and only that stream will be extracted (although there may be more than
 *      one instance of it).
 * @lte_override
 *      Used only if @lte_spec != NULL; it is passed to the extraction functions
 *      rather than @lte_spec, allowing the location of the stream to be
 *      overridden.  (This is used when the WIM is being read from a nonseekable
 *      file, such as a pipe, when streams need to be used more than once; each
 *      such stream is extracted to a temporary file.)
 */
static int
extract_streams(const tchar *path, struct apply_ctx *ctx,
                struct wim_dentry *dentry,
                struct wim_lookup_table_entry *lte_spec,
                struct wim_lookup_table_entry *lte_override)
{
        struct wim_inode *inode = dentry->d_inode;
        struct wim_lookup_table_entry *lte;
        file_spec_t file_spec;
        int ret;

        if (dentry->was_hardlinked)
                return 0;

#ifdef ENABLE_DEBUG
        if (lte_spec) {
                char sha1_str[100];
                char *p = sha1_str;
                for (unsigned i = 0; i < SHA1_HASH_SIZE; i++)
                        p += sprintf(p, "%02x", lte_override->hash[i]);
                DEBUG("Extracting stream SHA1=%s to \"%"TS"\"",
                      sha1_str, path, inode->i_ino);
        } else {
                DEBUG("Extracting streams to \"%"TS"\"", path, inode->i_ino);
        }
#endif

        if (ctx->ops->uses_cookies)
                file_spec.cookie = inode->extract_cookie;
        else
                file_spec.path = path;

        /* Unnamed data stream.  */
        lte = inode_unnamed_lte_resolved(inode);
        if (lte && (!lte_spec || lte == lte_spec)) {
                if (lte_spec)
                        lte = lte_override;
                if (!(inode->i_attributes & (FILE_ATTRIBUTE_DIRECTORY |
                                             FILE_ATTRIBUTE_REPARSE_POINT)))
                {
                        if (inode->i_attributes & FILE_ATTRIBUTE_ENCRYPTED &&
                            ctx->supported_features.encrypted_files) {
                                if (!ctx->ops->extract_encrypted_stream_creates_file) {
                                        ret = ctx->ops->extract_encrypted_stream(
                                                                path, lte, ctx);
                                        if (ret)
                                                goto error;
                                }
                        } else {
                                ret = ctx->ops->extract_unnamed_stream(
                                                        file_spec, lte, ctx);
                                if (ret)
                                        goto error;
                        }
                        update_extract_progress(ctx, lte);
                }
                else if (inode->i_attributes & FILE_ATTRIBUTE_REPARSE_POINT)
                {
                        ret = 0;
                        if (ctx->supported_features.reparse_points)
                                ret = extract_reparse_data(path, ctx, inode, lte);
                #ifndef __WIN32__
                        else if ((inode_is_symlink(inode) &&
                                  ctx->supported_features.symlink_reparse_points))
                                ret = extract_symlink(path, ctx, inode, lte);
                #endif
                        if (ret)
                                return ret;
                }
        }

        /* Named data streams.  */
        if (can_extract_named_data_streams(ctx)) {
                for (u16 i = 0; i < inode->i_num_ads; i++) {
                        struct wim_ads_entry *entry = &inode->i_ads_entries[i];

                        if (!ads_entry_is_named_stream(entry))
                                continue;
                        lte = entry->lte;
                        if (!lte)
                                continue;
                        if (lte_spec && lte_spec != lte)
                                continue;
                        if (lte_spec)
                                lte = lte_override;
                        ret = ctx->ops->extract_named_stream(file_spec, entry->stream_name,
                                                             entry->stream_name_nbytes / 2,
                                                             lte, ctx);
                        if (ret)
                                goto error;
                        update_extract_progress(ctx, lte);
                }
        }
        return 0;

error:
        ERROR_WITH_ERRNO("Failed to extract data of \"%"TS"\"", path);
        return ret;
}

/* Set attributes on an extracted file or directory if supported by the
 * extraction mode.  */
static int
extract_file_attributes(const tchar *path, struct apply_ctx *ctx,
                        struct wim_dentry *dentry, unsigned pass)
{
        int ret;

        if (ctx->ops->set_file_attributes &&
            !(dentry == ctx->extract_root && ctx->root_dentry_is_special)) {
                u32 attributes = dentry->d_inode->i_attributes;

                /* Clear unsupported attributes.  */
                attributes &= ctx->supported_attributes_mask;

                if ((attributes & FILE_ATTRIBUTE_DIRECTORY &&
                     !ctx->supported_features.encrypted_directories) ||
                    (!(attributes & FILE_ATTRIBUTE_DIRECTORY) &&
                     !ctx->supported_features.encrypted_files))
                {
                        attributes &= ~FILE_ATTRIBUTE_ENCRYPTED;
                }

                if (attributes == 0)
                        attributes = FILE_ATTRIBUTE_NORMAL;

                ret = ctx->ops->set_file_attributes(path, attributes, ctx, pass);
                if (ret) {
                        ERROR_WITH_ERRNO("Failed to set attributes on "
                                         "\"%"TS"\"", path);
                        return ret;
                }
        }
        return 0;
}


/* Set or remove the short (DOS) name on an extracted file or directory if
 * supported by the extraction mode.  Since DOS names are unimportant and it's
 * easy to run into problems setting them on Windows (SetFileShortName()
 * requires SE_RESTORE privilege, which only the Administrator can request, and
 * also requires DELETE access to the file), failure is ignored unless
 * WIMLIB_EXTRACT_FLAG_STRICT_SHORT_NAMES is set.  */
static int
extract_short_name(const tchar *path, struct apply_ctx *ctx,
                   struct wim_dentry *dentry)
{
        int ret;

        /* The root of the dentry tree being extracted may not be extracted to
         * its original name, so its short name should be ignored.  */
        if (dentry == ctx->extract_root)
                return 0;

        if (ctx->supported_features.short_names) {
                ret = ctx->ops->set_short_name(path,
                                               dentry->short_name,
                                               dentry->short_name_nbytes / 2,
                                               ctx);
                if (ret && (ctx->extract_flags &
                            WIMLIB_EXTRACT_FLAG_STRICT_SHORT_NAMES))
                {
                        ERROR_WITH_ERRNO("Failed to set short name of "
                                         "\"%"TS"\"", path);
                        return ret;
                }
        }
        return 0;
}

/* Set security descriptor, UNIX data, or neither on an extracted file, taking
 * into account the current extraction mode and flags.  */
static int
extract_security(const tchar *path, struct apply_ctx *ctx,
                 struct wim_dentry *dentry)
{
        int ret;
        struct wim_inode *inode = dentry->d_inode;

        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_NO_ACLS)
                return 0;

        if ((ctx->extract_root == dentry) && ctx->root_dentry_is_special)
                return 0;

#ifndef __WIN32__
        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_UNIX_DATA) {
                struct wimlib_unix_data data;

                ret = inode_get_unix_data(inode, &data, NULL);
                if (ret < 0)
                        ret = 0;
                else if (ret == 0)
                        ret = ctx->ops->set_unix_data(path, &data, ctx);
                if (ret) {
                        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_STRICT_ACLS) {
                                ERROR_WITH_ERRNO("Failed to set UNIX owner, "
                                                 "group, and/or mode on "
                                                 "\"%"TS"\"", path);
                                return ret;
                        } else {
                                WARNING_WITH_ERRNO("Failed to set UNIX owner, "
                                                   "group, and/or/mode on "
                                                   "\"%"TS"\"", path);
                        }
                }
        }
        else
#endif /* __WIN32__ */
        if (ctx->supported_features.security_descriptors &&
            inode->i_security_id != -1)
        {
                const struct wim_security_data *sd;
                const u8 *desc;
                size_t desc_size;

                sd = wim_const_security_data(ctx->wim);
                desc = sd->descriptors[inode->i_security_id];
                desc_size = sd->sizes[inode->i_security_id];

                ret = ctx->ops->set_security_descriptor(path, desc,
                                                        desc_size, ctx);
                if (ret) {
                        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_STRICT_ACLS) {
                                ERROR_WITH_ERRNO("Failed to set security "
                                                 "descriptor on \"%"TS"\"", path);
                                return ret;
                        } else {
                        #if 0
                                if (errno != EACCES) {
                                        WARNING_WITH_ERRNO("Failed to set "
                                                           "security descriptor "
                                                           "on \"%"TS"\"", path);
                                }
                        #endif
                                ctx->no_security_descriptors++;
                        }
                }
        }
        return 0;
}

/* Set timestamps on an extracted file.  Failure is warning-only unless
 * WIMLIB_EXTRACT_FLAG_STRICT_TIMESTAMPS is set.  */
static int
extract_timestamps(const tchar *path, struct apply_ctx *ctx,
                   struct wim_dentry *dentry)
{
        struct wim_inode *inode = dentry->d_inode;
        int ret;

        if ((ctx->extract_root == dentry) && ctx->root_dentry_is_special)
                return 0;

        if (ctx->ops->set_timestamps) {
                ret = ctx->ops->set_timestamps(path,
                                               inode->i_creation_time,
                                               inode->i_last_write_time,
                                               inode->i_last_access_time,
                                               ctx);
                if (ret) {
                        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_STRICT_TIMESTAMPS) {
                                ERROR_WITH_ERRNO("Failed to set timestamps "
                                                 "on \"%"TS"\"", path);
                                return ret;
                        } else {
                                WARNING_WITH_ERRNO("Failed to set timestamps "
                                                   "on \"%"TS"\"", path);
                        }
                }
        }
        return 0;
}

/* Check whether the extraction of a dentry should be skipped completely.  */
static bool
dentry_is_supported(struct wim_dentry *dentry,
                    const struct wim_features *supported_features)
{
        struct wim_inode *inode = dentry->d_inode;

        if (inode->i_attributes & FILE_ATTRIBUTE_REPARSE_POINT) {
                return supported_features->reparse_points ||
                        (inode_is_symlink(inode) &&
                         supported_features->symlink_reparse_points);
        }
        if (inode->i_attributes & FILE_ATTRIBUTE_ENCRYPTED) {
                if (inode->i_attributes & FILE_ATTRIBUTE_DIRECTORY)
                        return supported_features->encrypted_directories != 0;
                else
                        return supported_features->encrypted_files != 0;
        }
        return true;
}

/* Given a WIM dentry to extract, build the path to which to extract it, in the
 * format understood by the callbacks in the apply_operations being used.
 *
 * Write the resulting path into @path, which must have room for at least
 * ctx->ops->max_path characters including the null-terminator.
 *
 * Return %true if successful; %false if this WIM dentry doesn't actually need
 * to be extracted or if the calculated path exceeds ctx->ops->max_path
 * characters.
 *
 * This function clobbers the tmp_list member of @dentry and its ancestors up
 * until the extraction root.  */
static bool
build_extraction_path(tchar path[], struct wim_dentry *dentry,
                      struct apply_ctx *ctx)
{
        size_t path_nchars;
        LIST_HEAD(ancestor_list);
        tchar *p = path;
        const tchar *target_prefix;
        size_t target_prefix_nchars;
        struct wim_dentry *d;

        if (dentry->extraction_skipped)
                return false;

        path_nchars = ctx->ops->path_prefix_nchars;

        if (ctx->ops->requires_realtarget_in_paths) {
                target_prefix        = ctx->realtarget;
                target_prefix_nchars = ctx->realtarget_nchars;
        } else if (ctx->ops->requires_target_in_paths) {
                target_prefix        = ctx->target;
                target_prefix_nchars = ctx->target_nchars;
        } else {
                target_prefix        = NULL;
                target_prefix_nchars = 0;
        }
        path_nchars += target_prefix_nchars;

        for (d = dentry; d != ctx->extract_root; d = d->parent) {
                path_nchars += d->extraction_name_nchars + 1;
                list_add(&d->tmp_list, &ancestor_list);
        }

        path_nchars++; /* null terminator */

        if (path_nchars > ctx->ops->path_max) {
                WARNING("\"%"TS"\": Path too long to extract",
                        dentry_full_path(dentry));
                return false;
        }

        p = tmempcpy(p, ctx->ops->path_prefix, ctx->ops->path_prefix_nchars);
        p = tmempcpy(p, target_prefix, target_prefix_nchars);
        list_for_each_entry(d, &ancestor_list, tmp_list) {
                *p++ = ctx->ops->path_separator;
                p = tmempcpy(p, d->extraction_name, d->extraction_name_nchars);
        }
        *p++ = T('\0');
        wimlib_assert(p - path == path_nchars);
        return true;
}

static unsigned
get_num_path_components(const tchar *path, tchar path_separator)
{
        unsigned num_components = 0;
#ifdef __WIN32__
        /* Ignore drive letter.  */
        if (path[0] != L'\0' && path[1] == L':')
                path += 2;
#endif

        while (*path) {
                while (*path == path_separator)
                        path++;
                if (*path)
                        num_components++;
                while (*path && *path != path_separator)
                        path++;
        }
        return num_components;
}

static int
extract_multiimage_symlink(const tchar *oldpath, const tchar *newpath,
                           struct apply_ctx *ctx, struct wim_dentry *dentry)
{
        size_t num_raw_path_components;
        const struct wim_dentry *d;
        size_t num_target_path_components;
        tchar *p;
        const tchar *p_old;
        int ret;

        num_raw_path_components = 0;
        for (d = dentry; d != ctx->extract_root; d = d->parent)
                num_raw_path_components++;

        if (ctx->ops->requires_realtarget_in_paths)
                num_target_path_components = get_num_path_components(ctx->realtarget,
                                                                     ctx->ops->path_separator);
        else if (ctx->ops->requires_target_in_paths)
                num_target_path_components = get_num_path_components(ctx->target,
                                                                     ctx->ops->path_separator);
        else
                num_target_path_components = 0;

        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_MULTI_IMAGE) {
                wimlib_assert(num_target_path_components > 0);
                num_raw_path_components++;
                num_target_path_components--;
        }

        p_old = oldpath + ctx->ops->path_prefix_nchars;
#ifdef __WIN32__
        if (p_old[0] != L'\0' && p_old[1] == ':')
                p_old += 2;
#endif
        while (*p_old == ctx->ops->path_separator)
                p_old++;
        while (--num_target_path_components) {
                while (*p_old != ctx->ops->path_separator)
                        p_old++;
                while (*p_old == ctx->ops->path_separator)
                        p_old++;
        }

        tchar symlink_target[tstrlen(p_old) + 3 * num_raw_path_components + 1];

        p = &symlink_target[0];
        while (num_raw_path_components--) {
                *p++ = '.';
                *p++ = '.';
                *p++ = ctx->ops->path_separator;
        }
        tstrcpy(p, p_old);
        DEBUG("Creating symlink \"%"TS"\" => \"%"TS"\"",
              newpath, symlink_target);
        ret = ctx->ops->create_symlink(symlink_target, newpath, ctx);
        if (ret) {
                ERROR_WITH_ERRNO("Failed to create symlink "
                                 "\"%"TS"\" => \"%"TS"\"",
                                 newpath, symlink_target);
        }
        return ret;
}

/* Create the "skeleton" of an extracted file or directory.  Don't yet extract
 * data streams, reparse data (including symbolic links), timestamps, and
 * security descriptors.  Basically, everything that doesn't require reading
 * non-metadata resources from the WIM file and isn't delayed until the final
 * pass.  */
static int
do_dentry_extract_skeleton(tchar path[], struct wim_dentry *dentry,
                           struct apply_ctx *ctx)
{
        struct wim_inode *inode = dentry->d_inode;
        int ret;
        const tchar *oldpath;

        if (unlikely(is_linked_extraction(ctx))) {
                struct wim_lookup_table_entry *unnamed_lte;

                unnamed_lte = inode_unnamed_lte_resolved(dentry->d_inode);
                if (unnamed_lte && unnamed_lte->extracted_file) {
                        oldpath = unnamed_lte->extracted_file;
                        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_HARDLINK)
                                goto hardlink;
                        else
                                goto symlink;
                }
        }

        /* Create hard link if this dentry corresponds to an already-extracted
         * inode.  */
        if (inode->i_extracted_file) {
                oldpath = inode->i_extracted_file;
                goto hardlink;
        }

        /* Skip symlinks unless they can be extracted as reparse points rather
         * than created directly.  */
        if (inode_is_symlink(inode) && !ctx->supported_features.reparse_points)
                return 0;

        /* Create this file or directory unless it's the extraction root, which
         * was already created if necessary.  */
        if (dentry != ctx->extract_root) {
                ret = extract_inode(path, ctx, inode);
                if (ret)
                        return ret;
        }

        /* Create empty named data streams.  */
        if (can_extract_named_data_streams(ctx)) {
                for (u16 i = 0; i < inode->i_num_ads; i++) {
                        file_spec_t file_spec;
                        struct wim_ads_entry *entry = &inode->i_ads_entries[i];

                        if (!ads_entry_is_named_stream(entry))
                                continue;
                        if (entry->lte)
                                continue;
                        if (ctx->ops->uses_cookies)
                                file_spec.cookie = inode->extract_cookie;
                        else
                                file_spec.path = path;
                        ret = ctx->ops->extract_named_stream(file_spec,
                                                             entry->stream_name,
                                                             entry->stream_name_nbytes / 2,
                                                             entry->lte, ctx);
                        if (ret) {
                                ERROR_WITH_ERRNO("\"%"TS"\": failed to create "
                                                 "empty named data stream",
                                                 path);
                                return ret;
                        }
                }
        }

        /* Set file attributes (if supported).  */
        ret = extract_file_attributes(path, ctx, dentry, 0);
        if (ret)
                return ret;

        /* Set or remove file short name (if supported).  */
        ret = extract_short_name(path, ctx, dentry);
        if (ret)
                return ret;

        /* If inode has multiple links and hard links are supported in this
         * extraction mode and volume, save the path to the extracted file in
         * case it's needed to create a hard link.  */
        if (unlikely(is_linked_extraction(ctx))) {
                struct wim_lookup_table_entry *unnamed_lte;

                unnamed_lte = inode_unnamed_lte_resolved(dentry->d_inode);
                if (unnamed_lte) {
                        unnamed_lte->extracted_file = TSTRDUP(path);
                        if (!unnamed_lte->extracted_file)
                                return WIMLIB_ERR_NOMEM;
                }
        } else if (inode->i_nlink > 1 && ctx->supported_features.hard_links) {
                inode->i_extracted_file = TSTRDUP(path);
                if (!inode->i_extracted_file)
                        return WIMLIB_ERR_NOMEM;
        }
        return 0;

symlink:
        ret = extract_multiimage_symlink(oldpath, path, ctx, dentry);
        if (ret)
                return ret;
        dentry->was_hardlinked = 1;
        return 0;

hardlink:
        ret = extract_hardlink(oldpath, path, ctx);
        if (ret)
                return ret;
        dentry->was_hardlinked = 1;
        return 0;
}

/* This is a wrapper around do_dentry_extract_skeleton() that handles building
 * the path, doing short name reordering.  This is also idempotent; dentries
 * already processed have skeleton_extracted set and no action is taken.  See
 * apply_operations.requires_short_name_reordering for more details about short
 * name reordering.  */
static int
dentry_extract_skeleton(struct wim_dentry *dentry, void *_ctx)
{
        struct apply_ctx *ctx = _ctx;
        tchar path[ctx->ops->path_max];
        struct wim_dentry *orig_dentry;
        struct wim_dentry *other_dentry;
        int ret;

        if (dentry->skeleton_extracted)
                return 0;

        orig_dentry = NULL;
        if (ctx->supported_features.short_names
            && ctx->ops->requires_short_name_reordering
            && !dentry_has_short_name(dentry)
            && !dentry->d_inode->i_dos_name_extracted)
        {
                inode_for_each_dentry(other_dentry, dentry->d_inode) {
                        if (dentry_has_short_name(other_dentry)
                            && !other_dentry->skeleton_extracted
                            && other_dentry->in_extraction_tree)
                        {
                                DEBUG("Creating %"TS" before %"TS" "
                                      "to guarantee correct DOS name extraction",
                                      dentry_full_path(other_dentry),
                                      dentry_full_path(dentry));
                                orig_dentry = dentry;
                                dentry = other_dentry;
                                break;
                        }
                }
        }
again:
        if (!build_extraction_path(path, dentry, ctx))
                return 0;
        ret = do_dentry_extract_skeleton(path, dentry, ctx);
        if (ret)
                return ret;

        dentry->skeleton_extracted = 1;

        if (orig_dentry) {
                dentry = orig_dentry;
                orig_dentry = NULL;
                goto again;
        }
        dentry->d_inode->i_dos_name_extracted = 1;
        return 0;
}

static int
dentry_extract_dir_skeleton(struct wim_dentry *dentry, void *_ctx)
{
        if (dentry->d_inode->i_attributes & FILE_ATTRIBUTE_DIRECTORY)
                return dentry_extract_skeleton(dentry, _ctx);
        return 0;
}

/* Create a file or directory, then immediately extract all streams.  This
 * assumes that WIMLIB_EXTRACT_FLAG_SEQUENTIAL is not specified, since the WIM
 * may not be read sequentially by this function.  */
static int
dentry_extract(struct wim_dentry *dentry, void *_ctx)
{
        struct apply_ctx *ctx = _ctx;
        tchar path[ctx->ops->path_max];
        int ret;

        ret = dentry_extract_skeleton(dentry, ctx);
        if (ret)
                return ret;

        if (!build_extraction_path(path, dentry, ctx))
                return 0;

        return extract_streams(path, ctx, dentry, NULL, NULL);
}

/* Creates a temporary file opened for writing.  The open file descriptor is
 * returned in @fd_ret and its name is returned in @name_ret (dynamically
 * allocated).  */
static int
create_temporary_file(struct filedes *fd_ret, tchar **name_ret)
{
        tchar *name;
        int raw_fd;

retry:
        name = ttempnam(NULL, T("wimlib"));
        if (name == NULL) {
                ERROR_WITH_ERRNO("Failed to create temporary filename");
                return WIMLIB_ERR_NOMEM;
        }

        raw_fd = topen(name, O_WRONLY | O_CREAT | O_EXCL | O_BINARY, 0600);

        if (raw_fd < 0) {
                int errno_save = errno;
                FREE(name);
                if (errno_save == EEXIST)
                        goto retry;
                ERROR_WITH_ERRNO("Failed to open temporary file \"%"TS"\"", name);
                return WIMLIB_ERR_OPEN;
        }

        filedes_init(fd_ret, raw_fd);
        *name_ret = name;
        return 0;
}

/* Extract all instances of the stream @lte that are being extracted in this
 * call of extract_tree(), but actually read the stream data from @lte_override.
 */
static int
extract_stream_instances(struct wim_lookup_table_entry *lte,
                         struct wim_lookup_table_entry *lte_override,
                         struct apply_ctx *ctx)
{
        struct wim_dentry **lte_dentries;
        tchar path[ctx->ops->path_max];
        size_t i;
        int ret;

        if (lte->out_refcnt <= ARRAY_LEN(lte->inline_lte_dentries))
                lte_dentries = lte->inline_lte_dentries;
        else
                lte_dentries = lte->lte_dentries;

        for (i = 0; i < lte->out_refcnt; i++) {
                struct wim_dentry *dentry = lte_dentries[i];

                if (dentry->tmp_flag)
                        continue;
                if (!build_extraction_path(path, dentry, ctx))
                        continue;
                ret = extract_streams(path, ctx, dentry, lte, lte_override);
                if (ret)
                        goto out_clear_tmp_flags;
                dentry->tmp_flag = 1;
        }
        ret = 0;
out_clear_tmp_flags:
        for (i = 0; i < lte->out_refcnt; i++)
                lte_dentries[i]->tmp_flag = 0;
        return ret;
}

/* Determine whether the specified stream needs to be extracted to a temporary
 * file or not.
 *
 * @lte->out_refcnt specifies the number of instances of this stream that must
 * be extracted.
 *
 * @is_partial_res is %true if this stream is just one of multiple in a single
 * WIM resource being extracted.  */
static bool
need_tmpfile_to_extract(struct wim_lookup_table_entry *lte,
                        bool is_partial_res)
{
        /* Temporary file is always required when reading a partial resource,
         * since in that case we retrieve all the contained streams in one pass.
         * */
        if (is_partial_res)
                return true;

        /* Otherwise we don't need a temporary file if only a single instance of
         * the stream is needed.  */
        if (lte->out_refcnt == 1)
                return false;

        wimlib_assert(lte->out_refcnt >= 2);

        /* We also don't need a temporary file if random access to the stream is
         * allowed.  */
        if (lte->resource_location != RESOURCE_IN_WIM ||
            filedes_is_seekable(&lte->rspec->wim->in_fd))
                return false;

        return true;
}

static int
begin_extract_stream_to_tmpfile(struct wim_lookup_table_entry *lte,
                                bool is_partial_res, void *_ctx)
{
        struct apply_ctx *ctx = _ctx;
        int ret;

        if (!need_tmpfile_to_extract(lte, is_partial_res)) {
                DEBUG("Temporary file not needed "
                      "for stream (size=%"PRIu64")", lte->size);
                ret = extract_stream_instances(lte, lte, ctx);
                if (ret)
                        return ret;

                /* Negative return value here means the function was successful,
                 * but the consume_chunk and end_chunk callbacks need not be
                 * called.  */
                return -1;
        }

        DEBUG("Temporary file needed for stream (size=%"PRIu64")", lte->size);
        return create_temporary_file(&ctx->tmpfile_fd, &ctx->tmpfile_name);
}

static int
end_extract_stream_to_tmpfile(struct wim_lookup_table_entry *lte,
                              int status, void *_ctx)
{
        struct apply_ctx *ctx = _ctx;
        struct wim_lookup_table_entry lte_override;
        int ret;
        int errno_save = errno;

        ret = filedes_close(&ctx->tmpfile_fd);

        if (status) {
                ret = status;
                errno = errno_save;
                goto out_delete_tmpfile;
        }

        if (ret) {
                ERROR_WITH_ERRNO("Error writing temporary file %"TS, ctx->tmpfile_name);
                ret = WIMLIB_ERR_WRITE;
                goto out_delete_tmpfile;
        }

        /* Now that a full stream has been extracted to a temporary file,
         * extract all instances of it to the actual target.  */

        memcpy(&lte_override, lte, sizeof(struct wim_lookup_table_entry));
        lte_override.resource_location = RESOURCE_IN_FILE_ON_DISK;
        lte_override.file_on_disk = ctx->tmpfile_name;

        ret = extract_stream_instances(lte, &lte_override, ctx);

out_delete_tmpfile:
        errno_save = errno;
        tunlink(ctx->tmpfile_name);
        FREE(ctx->tmpfile_name);
        errno = errno_save;
        return ret;
}

/* Extracts a list of streams (ctx.stream_list), assuming that the directory
 * structure and empty files were already created.  This relies on the
 * per-`struct wim_lookup_table_entry' list of dentries that reference each
 * stream that was constructed earlier.  */
static int
extract_stream_list(struct apply_ctx *ctx)
{
        if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_SEQUENTIAL) {
                /* Sequential extraction: read the streams in the order in which
                 * they appear in the WIM file.  */
                struct read_stream_list_callbacks cbs = {
                        .begin_stream           = begin_extract_stream_to_tmpfile,
                        .begin_stream_ctx       = ctx,
                        .consume_chunk          = extract_chunk_to_fd,
                        .consume_chunk_ctx      = &ctx->tmpfile_fd,
                        .end_stream             = end_extract_stream_to_tmpfile,
                        .end_stream_ctx         = ctx,
                };
                return read_stream_list(&ctx->stream_list,
                                        offsetof(struct wim_lookup_table_entry, extraction_list),
                                        0, &cbs);
        } else {
                /* Extract the streams in unsorted order.  */
                struct wim_lookup_table_entry *lte;
                int ret;

                list_for_each_entry(lte, &ctx->stream_list, extraction_list) {
                        ret = extract_stream_instances(lte, lte, ctx);
                        if (ret)
                                return ret;
                }
                return 0;
        }
}

#define PWM_ALLOW_WIM_HDR 0x00001
#define PWM_SILENT_EOF    0x00002

/* Read the header from a stream in a pipable WIM.  */
static int
read_pwm_stream_header(WIMStruct *pwm, struct wim_lookup_table_entry *lte,
                       struct wim_resource_spec *rspec,
                       int flags, struct wim_header_disk *hdr_ret)
{
        union {
                struct pwm_stream_hdr stream_hdr;
                struct wim_header_disk pwm_hdr;
        } buf;
        struct wim_reshdr reshdr;
        int ret;

        ret = full_read(&pwm->in_fd, &buf.stream_hdr, sizeof(buf.stream_hdr));
        if (ret)
                goto read_error;

        if ((flags & PWM_ALLOW_WIM_HDR) && buf.stream_hdr.magic == PWM_MAGIC) {
                BUILD_BUG_ON(sizeof(buf.pwm_hdr) < sizeof(buf.stream_hdr));
                ret = full_read(&pwm->in_fd, &buf.stream_hdr + 1,
                                sizeof(buf.pwm_hdr) - sizeof(buf.stream_hdr));

                if (ret)
                        goto read_error;
                lte->resource_location = RESOURCE_NONEXISTENT;
                memcpy(hdr_ret, &buf.pwm_hdr, sizeof(buf.pwm_hdr));
                return 0;
        }

        if (buf.stream_hdr.magic != PWM_STREAM_MAGIC) {
                ERROR("Data read on pipe is invalid (expected stream header).");
                return WIMLIB_ERR_INVALID_PIPABLE_WIM;
        }

        copy_hash(lte->hash, buf.stream_hdr.hash);

        reshdr.size_in_wim = 0;
        reshdr.flags = le32_to_cpu(buf.stream_hdr.flags);
        reshdr.offset_in_wim = pwm->in_fd.offset;
        reshdr.uncompressed_size = le64_to_cpu(buf.stream_hdr.uncompressed_size);
        wim_res_hdr_to_spec(&reshdr, pwm, rspec);
        lte_bind_wim_resource_spec(lte, rspec);
        lte->flags = rspec->flags;
        lte->size = rspec->uncompressed_size;
        lte->offset_in_res = 0;
        return 0;

read_error:
        if (ret != WIMLIB_ERR_UNEXPECTED_END_OF_FILE || !(flags & PWM_SILENT_EOF))
                ERROR_WITH_ERRNO("Error reading pipable WIM from pipe");
        return ret;
}

static int
extract_streams_from_pipe(struct apply_ctx *ctx)
{
        struct wim_lookup_table_entry *found_lte;
        struct wim_resource_spec *rspec;
        struct wim_lookup_table_entry *needed_lte;
        struct wim_lookup_table *lookup_table;
        struct wim_header_disk pwm_hdr;
        int ret;
        int pwm_flags;

        ret = WIMLIB_ERR_NOMEM;
        found_lte = new_lookup_table_entry();
        if (found_lte == NULL)
                goto out;

        rspec = MALLOC(sizeof(struct wim_resource_spec));
        if (rspec == NULL)
                goto out_free_found_lte;

        lookup_table = ctx->wim->lookup_table;
        pwm_flags = PWM_ALLOW_WIM_HDR;
        if ((ctx->extract_flags & WIMLIB_EXTRACT_FLAG_RESUME))
                pwm_flags |= PWM_SILENT_EOF;
        memcpy(ctx->progress.extract.guid, ctx->wim->hdr.guid, WIM_GID_LEN);
        ctx->progress.extract.part_number = ctx->wim->hdr.part_number;
        ctx->progress.extract.total_parts = ctx->wim->hdr.total_parts;
        if (ctx->progress_func)
                ctx->progress_func(WIMLIB_PROGRESS_MSG_EXTRACT_SPWM_PART_BEGIN,
                                   &ctx->progress);
        while (ctx->num_streams_remaining) {
                if (found_lte->resource_location != RESOURCE_NONEXISTENT)
                        lte_unbind_wim_resource_spec(found_lte);
                ret = read_pwm_stream_header(ctx->wim, found_lte, rspec,
                                             pwm_flags, &pwm_hdr);
                if (ret) {
                        if (ret == WIMLIB_ERR_UNEXPECTED_END_OF_FILE &&
                            (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_RESUME))
                        {
                                goto resume_done;
                        }
                        goto out_free_found_lte;
                }

                if ((found_lte->resource_location != RESOURCE_NONEXISTENT)
                    && !(found_lte->flags & WIM_RESHDR_FLAG_METADATA)
                    && (needed_lte = lookup_resource(lookup_table, found_lte->hash))
                    && (needed_lte->out_refcnt))
                {
                        char *tmpfile_name = NULL;
                        struct wim_lookup_table_entry *lte_override;
                        struct wim_lookup_table_entry tmpfile_lte;

                        needed_lte->offset_in_res = found_lte->offset_in_res;
                        needed_lte->flags = found_lte->flags;
                        needed_lte->size = found_lte->size;

                        lte_unbind_wim_resource_spec(found_lte);
                        lte_bind_wim_resource_spec(needed_lte, rspec);

                        if (needed_lte->out_refcnt > 1) {

                                struct filedes tmpfile_fd;

                                /* Extract stream to temporary file.  */
                                ret = create_temporary_file(&tmpfile_fd, &tmpfile_name);
                                if (ret)
                                        goto out_free_found_lte;

                                ret = extract_stream_to_fd(needed_lte, &tmpfile_fd,
                                                           needed_lte->size);
                                if (ret) {
                                        filedes_close(&tmpfile_fd);
                                        goto delete_tmpfile;
                                }

                                if (filedes_close(&tmpfile_fd)) {
                                        ERROR_WITH_ERRNO("Error writing to temporary "
                                                         "file \"%"TS"\"", tmpfile_name);
                                        ret = WIMLIB_ERR_WRITE;
                                        goto delete_tmpfile;
                                }
                                memcpy(&tmpfile_lte, needed_lte,
                                       sizeof(struct wim_lookup_table_entry));
                                tmpfile_lte.resource_location = RESOURCE_IN_FILE_ON_DISK;
                                tmpfile_lte.file_on_disk = tmpfile_name;
                                lte_override = &tmpfile_lte;
                        } else {
                                lte_override = needed_lte;
                        }

                        ret = extract_stream_instances(needed_lte, lte_override, ctx);
                delete_tmpfile:
                        lte_unbind_wim_resource_spec(needed_lte);
                        if (tmpfile_name) {
                                tunlink(tmpfile_name);
                                FREE(tmpfile_name);
                        }
                        if (ret)
                                goto out_free_found_lte;
                        ctx->num_streams_remaining--;
                } else if (found_lte->resource_location != RESOURCE_NONEXISTENT) {
                        ret = skip_wim_stream(found_lte);
                        if (ret)
                                goto out_free_found_lte;
                } else {
                        u16 part_number = le16_to_cpu(pwm_hdr.part_number);
                        u16 total_parts = le16_to_cpu(pwm_hdr.total_parts);

                        if (part_number != ctx->progress.extract.part_number ||
                            total_parts != ctx->progress.extract.total_parts ||
                            memcmp(pwm_hdr.guid, ctx->progress.extract.guid,
                                   WIM_GID_LEN))
                        {
                                ctx->progress.extract.part_number = part_number;
                                ctx->progress.extract.total_parts = total_parts;
                                memcpy(ctx->progress.extract.guid,
                                       pwm_hdr.guid, WIM_GID_LEN);
                                if (ctx->progress_func) {
                                        ctx->progress_func(
                                                WIMLIB_PROGRESS_MSG_EXTRACT_SPWM_PART_BEGIN,
                                                           &ctx->progress);
                                }

                        }
                }
        }
        ret = 0;
out_free_found_lte:
        if (found_lte->resource_location != RESOURCE_IN_WIM)
                FREE(rspec);
        free_lookup_table_entry(found_lte);
out:
        return ret;

resume_done:
        /* TODO */
        return 0;
}

/* Finish extracting a file, directory, or symbolic link by setting file
 * security and timestamps.  */
static int
dentry_extract_final(struct wim_dentry *dentry, void *_ctx)
{
        struct apply_ctx *ctx = _ctx;
        int ret;
        tchar path[ctx->ops->path_max];

        if (!build_extraction_path(path, dentry, ctx))
                return 0;

        ret = extract_security(path, ctx, dentry);
        if (ret)
                return ret;

        if (ctx->ops->requires_final_set_attributes_pass) {
                /* Set file attributes (if supported).  */
                ret = extract_file_attributes(path, ctx, dentry, 1);
                if (ret)
                        return ret;
        }

        return extract_timestamps(path, ctx, dentry);
}

/*
 * Extract a WIM dentry to standard output.
 *
 * This obviously doesn't make sense in all cases.  We return an error if the
 * dentry does not correspond to a regular file.  Otherwise we extract the
 * unnamed data stream only.
 */
static int
extract_dentry_to_stdout(struct wim_dentry *dentry)
{
        int ret = 0;
        if (dentry->d_inode->i_attributes & (FILE_ATTRIBUTE_REPARSE_POINT |
                                             FILE_ATTRIBUTE_DIRECTORY))
        {
                ERROR("\"%"TS"\" is not a regular file and therefore cannot be "
                      "extracted to standard output", dentry_full_path(dentry));
                ret = WIMLIB_ERR_NOT_A_REGULAR_FILE;
        } else {
                struct wim_lookup_table_entry *lte;

                lte = inode_unnamed_lte_resolved(dentry->d_inode);
                if (lte) {
                        struct filedes _stdout;
                        filedes_init(&_stdout, STDOUT_FILENO);
                        ret = extract_stream_to_fd(lte, &_stdout, lte->size);
                }
        }
        return ret;
}

#ifdef __WIN32__
static const utf16lechar replacement_char = cpu_to_le16(0xfffd);
#else
static const utf16lechar replacement_char = cpu_to_le16('?');
#endif

static bool
file_name_valid(utf16lechar *name, size_t num_chars, bool fix)
{
        size_t i;

        if (num_chars == 0)
                return true;
        for (i = 0; i < num_chars; i++) {
                switch (name[i]) {
        #ifdef __WIN32__
                case cpu_to_le16('\\'):
                case cpu_to_le16(':'):
                case cpu_to_le16('*'):
                case cpu_to_le16('?'):
                case cpu_to_le16('"'):
                case cpu_to_le16('<'):
                case cpu_to_le16('>'):
                case cpu_to_le16('|'):
        #endif
                case cpu_to_le16('/'):
                case cpu_to_le16('\0'):
                        if (fix)
                                name[i] = replacement_char;
                        else
                                return false;
                }
        }

#ifdef __WIN32__
        if (name[num_chars - 1] == cpu_to_le16(' ') ||
            name[num_chars - 1] == cpu_to_le16('.'))
        {
                if (fix)
                        name[num_chars - 1] = replacement_char;
                else
                        return false;
        }
#endif
        return true;
}

static bool
dentry_is_dot_or_dotdot(const struct wim_dentry *dentry)
{
        const utf16lechar *file_name = dentry->file_name;
        return file_name != NULL &&
                file_name[0] == cpu_to_le16('.') &&
                (file_name[1] == cpu_to_le16('\0') ||
                 (file_name[1] == cpu_to_le16('.') &&
                  file_name[2] == cpu_to_le16('\0')));
}

static int
dentry_mark_skipped(struct wim_dentry *dentry, void *_ignore)
{
        dentry->extraction_skipped = 1;
        return 0;
}

/*
 * dentry_calculate_extraction_path-
 *
 * Calculate the actual filename component at which a WIM dentry will be
 * extracted, handling invalid filenames "properly".
 *
 * dentry->extraction_name usually will be set the same as dentry->file_name (on
 * UNIX, converted into the platform's multibyte encoding).  However, if the
 * file name contains characters that are not valid on the current platform or
 * has some other format that is not valid, leave dentry->extraction_name as
 * NULL and set dentry->extraction_skipped to indicate that this dentry should
 * not be extracted, unless the appropriate flag
 * WIMLIB_EXTRACT_FLAG_REPLACE_INVALID_FILENAMES is set in the extract flags, in
 * which case a substitute filename will be created and set instead.
 *
 * Conflicts with case-insensitive names on Windows are handled similarly; see
 * below.
 */
static int
dentry_calculate_extraction_path(struct wim_dentry *dentry, void *_args)
{
        struct apply_ctx *ctx = _args;
        int ret;

        dentry->in_extraction_tree = 1;

        if (dentry == ctx->extract_root || dentry->extraction_skipped)
                return 0;

        if (!dentry_is_supported(dentry, &ctx->supported_features))
                goto skip_dentry;

        if (dentry_is_dot_or_dotdot(dentry)) {
                /* WIM files shouldn't contain . or .. entries.  But if they are
                 * there, don't attempt to extract them. */
                WARNING("Skipping extraction of unexpected . or .. file "
                        "\"%"TS"\"", dentry_full_path(dentry));
                goto skip_dentry;
        }

#ifdef __WIN32__
        if (!ctx->ops->supports_case_sensitive_filenames)
        {
                struct wim_dentry *other;
                list_for_each_entry(other, &dentry->case_insensitive_conflict_list,
                                    case_insensitive_conflict_list)
                {
                        if (ctx->extract_flags &
                            WIMLIB_EXTRACT_FLAG_ALL_CASE_CONFLICTS) {
                                WARNING("\"%"TS"\" has the same "
                                        "case-insensitive name as "
                                        "\"%"TS"\"; extracting "
                                        "dummy name instead",
                                        dentry_full_path(dentry),
                                        dentry_full_path(other));
                                goto out_replace;
                        } else {
                                WARNING("Not extracting \"%"TS"\": "
                                        "has same case-insensitive "
                                        "name as \"%"TS"\"",
                                        dentry_full_path(dentry),
                                        dentry_full_path(other));
                                goto skip_dentry;
                        }
                }
        }
#else   /* __WIN32__ */
        wimlib_assert(ctx->ops->supports_case_sensitive_filenames);
#endif  /* !__WIN32__ */

        if (file_name_valid(dentry->file_name, dentry->file_name_nbytes / 2, false)) {
#ifdef __WIN32__
                dentry->extraction_name = dentry->file_name;
                dentry->extraction_name_nchars = dentry->file_name_nbytes / 2;
                return 0;
#else
                return utf16le_to_tstr(dentry->file_name,
                                       dentry->file_name_nbytes,
                                       &dentry->extraction_name,
                                       &dentry->extraction_name_nchars);
#endif
        } else {
                if (ctx->extract_flags & WIMLIB_EXTRACT_FLAG_REPLACE_INVALID_FILENAMES)
                {
                        WARNING("\"%"TS"\" has an invalid filename "
                                "that is not supported on this platform; "
                                "extracting dummy name instead",
                                dentry_full_path(dentry));
                        goto out_replace;
                } else {
                        WARNING("Not extracting \"%"TS"\": has an invalid filename "
                                "that is not supported on this platform",
                                dentry_full_path(dentry));
                        goto skip_dentry;
                }
        }

out_replace:
        {
                utf16lechar utf16_name_copy[dentry->file_name_nbytes / 2];

                memcpy(utf16_name_copy, dentry->file_name, dentry->file_name_nbytes);
                file_name_valid(utf16_name_copy, dentry->file_name_nbytes / 2, true);

                tchar *tchar_name;
                size_t tchar_nchars;
        #ifdef __WIN32__
                tchar_name = utf16_name_copy;
                tchar_nchars = dentry->file_name_nbytes / 2;
        #else
                ret = utf16le_to_tstr(utf16_name_copy,
                                      dentry->file_name_nbytes,
                                      &tchar_name, &tchar_nchars);
                if (ret)
                        return ret;
        #endif
                size_t fixed_name_num_chars = tchar_nchars;
                tchar fixed_name[tchar_nchars + 50];

                tmemcpy(fixed_name, tchar_name, tchar_nchars);
                fixed_name_num_chars += tsprintf(fixed_name + tchar_nchars,
                                                 T(" (invalid filename #%lu)"),
                                                 ++ctx->invalid_sequence);
        #ifndef __WIN32__
                FREE(tchar_name);
        #endif
                dentry->extraction_name = memdup(fixed_name,
                                                 2 * fixed_name_num_chars + 2);
                if (!dentry->extraction_name)
                        return WIMLIB_ERR_NOMEM;
                dentry->extraction_name_nchars = fixed_name_num_chars;
        }
        return 0;

skip_dentry:
        for_dentry_in_tree(dentry, dentry_mark_skipped, NULL);
        return 0;
}

/* Clean up dentry and inode structure after extraction.  */
static int
dentry_reset_needs_extraction(struct wim_dentry *dentry, void *_ignore)
{
        struct wim_inode *inode = dentry->d_inode;

        dentry->in_extraction_tree = 0;
        dentry->extraction_skipped = 0;
        dentry->was_hardlinked = 0;
        dentry->skeleton_extracted = 0;
        inode->i_visited = 0;
        FREE(inode->i_extracted_file);
        inode->i_extracted_file = NULL;
        inode->i_dos_name_extracted = 0;
        if ((void*)dentry->extraction_name != (void*)dentry->file_name)
                FREE(dentry->extraction_name);
        dentry->extraction_name = NULL;
        return 0;
}

/* Tally features necessary to extract a dentry and the corresponding inode.  */
static int
dentry_tally_features(struct wim_dentry *dentry, void *_features)
{
        struct wim_features *features = _features;
        struct wim_inode *inode = dentry->d_inode;

        if (inode->i_attributes & FILE_ATTRIBUTE_ARCHIVE)
                features->archive_files++;
        if (inode->i_attributes & FILE_ATTRIBUTE_HIDDEN)
                features->hidden_files++;
        if (inode->i_attributes & FILE_ATTRIBUTE_SYSTEM)
                features->system_files++;
        if (inode->i_attributes & FILE_ATTRIBUTE_COMPRESSED)
                features->compressed_files++;
        if (inode->i_attributes & FILE_ATTRIBUTE_ENCRYPTED) {
                if (inode->i_attributes & FILE_ATTRIBUTE_DIRECTORY)
                        features->encrypted_directories++;
                else
                        features->encrypted_files++;
        }
        if (inode->i_attributes & FILE_ATTRIBUTE_NOT_CONTENT_INDEXED)
                features->not_context_indexed_files++;
        if (inode->i_attributes & FILE_ATTRIBUTE_SPARSE_FILE)
                features->sparse_files++;
        if (inode_has_named_stream(inode))
                features->named_data_streams++;
        if (inode->i_visited)
                features->hard_links++;
        if (inode->i_attributes & FILE_ATTRIBUTE_REPARSE_POINT) {
                features->reparse_points++;
                if (inode_is_symlink(inode))
                        features->symlink_reparse_points++;
                else
                        features->other_reparse_points++;
        }
        if (inode->i_security_id != -1)
                features->security_descriptors++;
        if (dentry->short_name_nbytes)
                features->short_names++;
        if (inode_has_unix_data(inode))
                features->unix_data++;
        inode->i_visited = 1;
        return 0;
}

/* Tally the features necessary to extract a dentry tree.  */
static void
dentry_tree_get_features(struct wim_dentry *root, struct wim_features *features)
{
        memset(features, 0, sizeof(struct wim_features));
        for_dentry_in_tree(root, dentry_tally_features, features);
        dentry_tree_clear_inode_visited(root);
}

static u32
compute_supported_attributes_mask(const struct wim_features *supported_features)
{
        u32 mask = ~(u32)0;

        if (!supported_features->archive_files)
                mask &= ~FILE_ATTRIBUTE_ARCHIVE;

        if (!supported_features->hidden_files)
                mask &= ~FILE_ATTRIBUTE_HIDDEN;

        if (!supported_features->system_files)
                mask &= ~FILE_ATTRIBUTE_SYSTEM;

        if (!supported_features->not_context_indexed_files)
                mask &= ~FILE_ATTRIBUTE_NOT_CONTENT_INDEXED;

        if (!supported_features->compressed_files)
                mask &= ~FILE_ATTRIBUTE_COMPRESSED;

        if (!supported_features->sparse_files)
                mask &= ~FILE_ATTRIBUTE_SPARSE_FILE;

        if (!supported_features->reparse_points)
                mask &= ~FILE_ATTRIBUTE_REPARSE_POINT;

        return mask;
}

static int
do_feature_check(const struct wim_features *required_features,
                 const struct wim_features *supported_features,
                 int extract_flags,
                 const struct apply_operations *ops,
                 const tchar *wim_source_path)
{
        const tchar *loc;
        const tchar *mode = T("this extraction mode");

        if (wim_source_path[0] == '\0')
                loc = T("the WIM image");
        else
                loc = wim_source_path;

        /* We're an archive program, so theoretically we can do what we want
         * with FILE_ATTRIBUTE_ARCHIVE (which is a dumb flag anyway).  Don't
         * bother the user about it.  */
#if 0
        if (required_features->archive_files && !supported_features->archive_files)
        {
                WARNING(
          "%lu files in %"TS" are marked as archived, but this attribute\n"
"          is not supported in %"TS".",
                        required_features->archive_files, loc, mode);
        }
#endif

        if (required_features->hidden_files && !supported_features->hidden_files)
        {
                WARNING(
          "%lu files in %"TS" are marked as hidden, but this\n"
"          attribute is not supported in %"TS".",
                        required_features->hidden_files, loc, mode);
        }

        if (required_features->system_files && !supported_features->system_files)
        {
                WARNING(
          "%lu files in %"TS" are marked as system files,\n"
"          but this attribute is not supported in %"TS".",
                        required_features->system_files, loc, mode);
        }

        if (required_features->compressed_files && !supported_features->compressed_files)
        {
                WARNING(
          "%lu files in %"TS" are marked as being transparently\n"
"          compressed, but transparent compression is not supported in\n"
"          %"TS".  These files will be extracted as uncompressed.",
                        required_features->compressed_files, loc, mode);
        }

        if (required_features->encrypted_files && !supported_features->encrypted_files)
        {
                WARNING(
          "%lu files in %"TS" are marked as being encrypted,\n"
"           but encryption is not supported in %"TS".  These files\n"
"           will not be extracted.",
                        required_features->encrypted_files, loc, mode);
        }

        if (required_features->encrypted_directories &&
            !supported_features->encrypted_directories)
        {
                WARNING(
          "%lu directories in %"TS" are marked as being encrypted,\n"
"           but encryption is not supported in %"TS".\n"
"           These directories will be extracted as unencrypted.",
                        required_features->encrypted_directories, loc, mode);
        }

        if (required_features->not_context_indexed_files &&
            !supported_features->not_context_indexed_files)
        {
                WARNING(
          "%lu files in %"TS" are marked as not content indexed,\n"
"          but this attribute is not supported in %"TS".",
                        required_features->not_context_indexed_files, loc, mode);
        }

        if (required_features->sparse_files && !supported_features->sparse_files)
        {
                WARNING(
          "%lu files in %"TS" are marked as sparse, but creating\n"
"           sparse files is not supported in %"TS".  These files\n"
"           will be extracted as non-sparse.",
                        required_features->sparse_files, loc, mode);
        }

        if (required_features->named_data_streams &&
            !supported_features->named_data_streams)
        {
                WARNING(
          "%lu files in %"TS" contain one or more alternate (named)\n"
"          data streams, which are not supported in %"TS".\n"
"          Alternate data streams will NOT be extracted.",
                        required_features->named_data_streams, loc, mode);
        }

        if (unlikely(extract_flags & (WIMLIB_EXTRACT_FLAG_HARDLINK |
                                      WIMLIB_EXTRACT_FLAG_SYMLINK)) &&
            required_features->named_data_streams &&
            supported_features->named_data_streams)
        {
                WARNING(
          "%lu files in %"TS" contain one or more alternate (named)\n"
"          data streams, which are not supported in linked extraction mode.\n"
"          Alternate data streams will NOT be extracted.",
                        required_features->named_data_streams, loc);
        }

        if (required_features->hard_links && !supported_features->hard_links)
        {
                WARNING(
          "%lu files in %"TS" are hard links, but hard links are\n"
"          not supported in %"TS".  Hard links will be extracted as\n"
"          duplicate copies of the linked files.",
                        required_features->hard_links, loc, mode);
        }

        if (required_features->reparse_points && !supported_features->reparse_points)
        {
                if (supported_features->symlink_reparse_points) {
                        if (required_features->other_reparse_points) {
                                WARNING(
          "%lu files in %"TS" are reparse points that are neither\n"
"          symbolic links nor junction points and are not supported in\n"
"          %"TS".  These reparse points will not be extracted.",
                                        required_features->other_reparse_points, loc,
                                        mode);
                        }
                } else {
                        WARNING(
          "%lu files in %"TS" are reparse points, which are\n"
"          not supported in %"TS" and will not be extracted.",
                                required_features->reparse_points, loc, mode);
                }
        }

        if (required_features->security_descriptors &&
            !supported_features->security_descriptors)
        {
                WARNING(
          "%lu files in %"TS" have Windows NT security descriptors,\n"
"          but extracting security descriptors is not supported in\n"
"          %"TS".  No security descriptors will be extracted.",
                        required_features->security_descriptors, loc, mode);
        }

        if (required_features->short_names && !supported_features->short_names)
        {
                WARNING(
          "%lu files in %"TS" have short (DOS) names, but\n"
"          extracting short names is not supported in %"TS".\n"
"          Short names will not be extracted.\n",
                        required_features->short_names, loc, mode);
        }

        if ((extract_flags & WIMLIB_EXTRACT_FLAG_UNIX_DATA) &&
            required_features->unix_data && !supported_features->unix_data)
        {
                ERROR("Extracting UNIX data is not supported in %"TS, mode);
                return WIMLIB_ERR_UNSUPPORTED;
        }
        if ((extract_flags & WIMLIB_EXTRACT_FLAG_STRICT_SHORT_NAMES) &&
            required_features->short_names && !supported_features->short_names)
        {
                ERROR("Extracting short names is not supported in %"TS"", mode);
                return WIMLIB_ERR_UNSUPPORTED;
        }
        if ((extract_flags & WIMLIB_EXTRACT_FLAG_STRICT_TIMESTAMPS) &&
            !ops->set_timestamps)
        {
                ERROR("Extracting timestamps is not supported in %"TS"", mode);
                return WIMLIB_ERR_UNSUPPORTED;
        }
        if (((extract_flags & (WIMLIB_EXTRACT_FLAG_STRICT_ACLS |
                               WIMLIB_EXTRACT_FLAG_UNIX_DATA))
             == WIMLIB_EXTRACT_FLAG_STRICT_ACLS) &&
            required_features->security_descriptors &&
            !supported_features->security_descriptors)
        {
                ERROR("Extracting security descriptors is not supported in %"TS, mode);
                return WIMLIB_ERR_UNSUPPORTED;
        }

        if ((extract_flags & WIMLIB_EXTRACT_FLAG_HARDLINK) &&
            !supported_features->hard_links)
        {
                ERROR("Hard link extraction mode requested, but "
                      "%"TS" does not support hard links!", mode);
                return WIMLIB_ERR_UNSUPPORTED;
        }

        if ((extract_flags & WIMLIB_EXTRACT_FLAG_STRICT_SYMLINKS) &&
            required_features->symlink_reparse_points &&
            !(supported_features->symlink_reparse_points ||
              supported_features->reparse_points))
        {
                ERROR("Extracting symbolic links is not supported in %"TS, mode);
                return WIMLIB_ERR_UNSUPPORTED;
        }

        if ((extract_flags & WIMLIB_EXTRACT_FLAG_SYMLINK) &&
            !supported_features->symlink_reparse_points)
        {
                ERROR("Symbolic link extraction mode requested, but "
                      "%"TS" does not support symbolic "
                      "links!", mode);
                return WIMLIB_ERR_UNSUPPORTED;
        }
        return 0;
}

static void
do_extract_warnings(struct apply_ctx *ctx)
{
        if (ctx->partial_security_descriptors == 0 &&
            ctx->no_security_descriptors == 0)
                return;

        WARNING("Extraction to \"%"TS"\" complete, but with one or more warnings:",
                ctx->target);
        if (ctx->partial_security_descriptors != 0) {
                WARNING("- Could only partially set the security descriptor\n"
                        "            on %lu files or directories.",
                        ctx->partial_security_descriptors);
        }
        if (ctx->no_security_descriptors != 0) {
                WARNING("- Could not set security descriptor at all\n"
                        "            on %lu files or directories.",
                        ctx->no_security_descriptors);
        }
#ifdef __WIN32__
        WARNING("To fully restore all security descriptors, run the program\n"
                "          with Administrator rights.");
#endif
}

/*
 * extract_tree - Extract a file or directory tree from the currently selected
 *                WIM image.
 *
 * @wim:        WIMStruct for the WIM file, with the desired image selected
 *              (as wim->current_image).
 *
 * @wim_source_path:
 *              "Canonical" (i.e. no leading or trailing slashes, path
 *              separators WIM_PATH_SEPARATOR) path inside the WIM image to
 *              extract.  An empty string means the full image.
 *
 * @target:
 *              Filesystem path to extract the file or directory tree to.
 *              (Or, with WIMLIB_EXTRACT_FLAG_NTFS: the name of a NTFS volume.)
 *
 * @extract_flags:
 *              WIMLIB_EXTRACT_FLAG_*.  Also, the private flag
 *              WIMLIB_EXTRACT_FLAG_MULTI_IMAGE will be set if this is being
 *              called through wimlib_extract_image() with WIMLIB_ALL_IMAGES as
 *              the image.
 *
 * @progress_func:
 *              If non-NULL, progress function for the extraction.  The messages
 *              that may be sent in this function are:
 *
 *              WIMLIB_PROGRESS_MSG_EXTRACT_TREE_BEGIN or
 *                      WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_BEGIN;
 *              WIMLIB_PROGRESS_MSG_EXTRACT_DIR_STRUCTURE_BEGIN;
 *              WIMLIB_PROGRESS_MSG_EXTRACT_DIR_STRUCTURE_END;
 *              WIMLIB_PROGRESS_MSG_EXTRACT_DENTRY;
 *              WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS;
 *              WIMLIB_PROGRESS_MSG_APPLY_TIMESTAMPS;
 *              WIMLIB_PROGRESS_MSG_EXTRACT_TREE_END or
 *                      WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_END.
 *
 * Returns 0 on success; a positive WIMLIB_ERR_* code on failure.
 */
static int
extract_tree(WIMStruct *wim, const tchar *wim_source_path, const tchar *target,
             int extract_flags, wimlib_progress_func_t progress_func)
{
        struct wim_dentry *root;
        struct wim_features required_features;
        struct apply_ctx ctx;
        int ret;
        struct wim_lookup_table_entry *lte;

        /* Start initializing the apply_ctx.  */
        memset(&ctx, 0, sizeof(struct apply_ctx));
        ctx.wim = wim;
        ctx.extract_flags = extract_flags;
        ctx.target = target;
        ctx.target_nchars = tstrlen(target);
        ctx.progress_func = progress_func;
        if (progress_func) {
                ctx.progress.extract.wimfile_name = wim->filename;
                ctx.progress.extract.image = wim->current_image;
                ctx.progress.extract.extract_flags = (extract_flags &
                                                      WIMLIB_EXTRACT_MASK_PUBLIC);
                ctx.progress.extract.image_name = wimlib_get_image_name(wim,
                                                                        wim->current_image);
                ctx.progress.extract.extract_root_wim_source_path = wim_source_path;
                ctx.progress.extract.target = target;
        }
        INIT_LIST_HEAD(&ctx.stream_list);

        /* Translate the path to extract into the corresponding
         * `struct wim_dentry', which will be the root of the
         * "dentry tree" to extract.  */
        root = get_dentry(wim, wim_source_path);
        if (!root) {
                ERROR("Path \"%"TS"\" does not exist in WIM image %d",
                      wim_source_path, wim->current_image);
                ret = WIMLIB_ERR_PATH_DOES_NOT_EXIST;
                goto out;
        }

        ctx.extract_root = root;

        /* Select the appropriate apply_operations based on the
         * platform and extract_flags.  */
#ifdef __WIN32__
        ctx.ops = &win32_apply_ops;
#else
        ctx.ops = &unix_apply_ops;
#endif

#ifdef WITH_NTFS_3G
        if (extract_flags & WIMLIB_EXTRACT_FLAG_NTFS)
                ctx.ops = &ntfs_3g_apply_ops;
#endif

        /* Call the start_extract() callback.  This gives the apply_operations
         * implementation a chance to do any setup needed to access the volume.
         * Furthermore, it's expected to set the supported features of this
         * extraction mode (ctx.supported_features), which are determined at
         * runtime as they may vary depending on the actual volume.  These
         * features are then compared with the actual features extracting this
         * dentry tree requires.  Some mismatches will merely produce warnings
         * and the unsupported data will be ignored; others will produce errors.
         */
        ret = ctx.ops->start_extract(target, &ctx);
        if (ret)
                goto out;

        dentry_tree_get_features(root, &required_features);
        ret = do_feature_check(&required_features, &ctx.supported_features,
                               extract_flags, ctx.ops, wim_source_path);
        if (ret)
                goto out_finish_or_abort_extract;

        ctx.supported_attributes_mask =
                compute_supported_attributes_mask(&ctx.supported_features);

        /* Figure out whether the root dentry is being extracted to the root of
         * a volume and therefore needs to be treated "specially", for example
         * not being explicitly created and not having attributes set.  */
        if (ctx.ops->target_is_root && ctx.ops->root_directory_is_special)
                ctx.root_dentry_is_special = ctx.ops->target_is_root(target);

        /* Calculate the actual filename component of each extracted dentry.  In
         * the process, set the dentry->extraction_skipped flag on dentries that
         * are being skipped for some reason (e.g. invalid filename).  */
        ret = for_dentry_in_tree(root, dentry_calculate_extraction_path, &ctx);
        if (ret)
                goto out_dentry_reset_needs_extraction;

        /* Build the list of the streams that need to be extracted and
         * initialize ctx.progress.extract with stream information.  */
        ret = for_dentry_in_tree(ctx.extract_root,
                                 dentry_resolve_and_zero_lte_refcnt, &ctx);
        if (ret)
                goto out_dentry_reset_needs_extraction;

        ret = for_dentry_in_tree(ctx.extract_root,
                                 dentry_add_streams_to_extract, &ctx);
        if (ret)
                goto out_teardown_stream_list;

        if (extract_flags & WIMLIB_EXTRACT_FLAG_FROM_PIPE) {
                /* When extracting from a pipe, the number of bytes of data to
                 * extract can't be determined in the normal way (examining the
                 * lookup table), since at this point all we have is a set of
                 * SHA1 message digests of streams that need to be extracted.
                 * However, we can get a reasonably accurate estimate by taking
                 * <TOTALBYTES> from the corresponding <IMAGE> in the WIM XML
                 * data.  This does assume that a full image is being extracted,
                 * but currently there is no API for doing otherwise.  (Also,
                 * subtract <HARDLINKBYTES> from this if hard links are
                 * supported by the extraction mode.)  */
                ctx.progress.extract.total_bytes =
                        wim_info_get_image_total_bytes(wim->wim_info,
                                                       wim->current_image);
                if (ctx.supported_features.hard_links) {
                        ctx.progress.extract.total_bytes -=
                                wim_info_get_image_hard_link_bytes(wim->wim_info,
                                                                   wim->current_image);
                }
        }

        /* Handle the special case of extracting a file to standard
         * output.  In that case, "root" should be a single file, not a
         * directory tree.  (If not, extract_dentry_to_stdout() will
         * return an error.)  */
        if (extract_flags & WIMLIB_EXTRACT_FLAG_TO_STDOUT) {
                ret = extract_dentry_to_stdout(root);
                goto out_teardown_stream_list;
        }

        if (ctx.ops->realpath_works_on_nonexisting_files &&
            ((extract_flags & WIMLIB_EXTRACT_FLAG_RPFIX) ||
             ctx.ops->requires_realtarget_in_paths))
        {
                ctx.realtarget = realpath(target, NULL);
                if (!ctx.realtarget) {
                        ret = WIMLIB_ERR_NOMEM;
                        goto out_teardown_stream_list;
                }
                ctx.realtarget_nchars = tstrlen(ctx.realtarget);
        }

        if (progress_func) {
                progress_func(*wim_source_path ? WIMLIB_PROGRESS_MSG_EXTRACT_TREE_BEGIN :
                                                 WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_BEGIN,
                              &ctx.progress);
        }

        if (!ctx.root_dentry_is_special)
        {
                tchar path[ctx.ops->path_max];
                if (build_extraction_path(path, root, &ctx))
                {
                        ret = extract_inode(path, &ctx, root->d_inode);
                        if (ret)
                                goto out_free_realtarget;
                }
        }

        /* If we need to fix up the targets of absolute symbolic links
         * (WIMLIB_EXTRACT_FLAG_RPFIX) or the extraction mode requires paths to
         * be absolute, use realpath() (or its replacement on Windows) to get
         * the absolute path to the extraction target.  Note that this requires
         * the target directory to exist, unless
         * realpath_works_on_nonexisting_files is set in the apply_operations.
         * */
        if (!ctx.realtarget &&
            (((extract_flags & WIMLIB_EXTRACT_FLAG_RPFIX) &&
              required_features.symlink_reparse_points) ||
             ctx.ops->requires_realtarget_in_paths))
        {
                ctx.realtarget = realpath(target, NULL);
                if (!ctx.realtarget) {
                        ret = WIMLIB_ERR_NOMEM;
                        goto out_free_realtarget;
                }
                ctx.realtarget_nchars = tstrlen(ctx.realtarget);
        }

        if (ctx.ops->requires_short_name_reordering) {
                ret = for_dentry_in_tree(root, dentry_extract_dir_skeleton,
                                         &ctx);
                if (ret)
                        goto out_free_realtarget;
        }

        /* Finally, the important part: extract the tree of files.  */
        if (extract_flags & (WIMLIB_EXTRACT_FLAG_SEQUENTIAL |
                             WIMLIB_EXTRACT_FLAG_FROM_PIPE)) {
                /* Sequential extraction requested, so two passes are needed
                 * (one for directory structure, one for streams.)  */
                if (progress_func)
                        progress_func(WIMLIB_PROGRESS_MSG_EXTRACT_DIR_STRUCTURE_BEGIN,
                                      &ctx.progress);

                if (!(extract_flags & WIMLIB_EXTRACT_FLAG_RESUME)) {
                        ret = for_dentry_in_tree(root, dentry_extract_skeleton, &ctx);
                        if (ret)
                                goto out_free_realtarget;
                }
                if (progress_func)
                        progress_func(WIMLIB_PROGRESS_MSG_EXTRACT_DIR_STRUCTURE_END,
                                      &ctx.progress);
                if (extract_flags & WIMLIB_EXTRACT_FLAG_FROM_PIPE)
                        ret = extract_streams_from_pipe(&ctx);
                else
                        ret = extract_stream_list(&ctx);
                if (ret)
                        goto out_free_realtarget;
        } else {
                /* Sequential extraction was not requested, so we can make do
                 * with one pass where we both create the files and extract
                 * streams.   */
                if (progress_func)
                        progress_func(WIMLIB_PROGRESS_MSG_EXTRACT_DIR_STRUCTURE_BEGIN,
                                      &ctx.progress);
                ret = for_dentry_in_tree(root, dentry_extract, &ctx);
                if (ret)
                        goto out_free_realtarget;
                if (progress_func)
                        progress_func(WIMLIB_PROGRESS_MSG_EXTRACT_DIR_STRUCTURE_END,
                                      &ctx.progress);
        }

        /* If the total number of bytes to extract was miscalculated, just jump
         * to the calculated number in order to avoid confusing the progress
         * function.  This should only occur when extracting from a pipe.  */
        if (ctx.progress.extract.completed_bytes != ctx.progress.extract.total_bytes)
        {
                DEBUG("Calculated %"PRIu64" bytes to extract, but actually "
                      "extracted %"PRIu64,
                      ctx.progress.extract.total_bytes,
                      ctx.progress.extract.completed_bytes);
        }
        if (progress_func &&
            ctx.progress.extract.completed_bytes < ctx.progress.extract.total_bytes)
        {
                ctx.progress.extract.completed_bytes = ctx.progress.extract.total_bytes;
                progress_func(WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS, &ctx.progress);
        }

        /* Apply security descriptors and timestamps.  This is done at the end,
         * and in a depth-first manner, to prevent timestamps from getting
         * changed by subsequent extract operations and to minimize the chance
         * of the restored security descriptors getting in our way.  */
        if (progress_func)
                progress_func(WIMLIB_PROGRESS_MSG_APPLY_TIMESTAMPS,
                              &ctx.progress);
        ret = for_dentry_in_tree_depth(root, dentry_extract_final, &ctx);
        if (ret)
                goto out_free_realtarget;

        if (progress_func) {
                progress_func(*wim_source_path ? WIMLIB_PROGRESS_MSG_EXTRACT_TREE_END :
                              WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_END,
                              &ctx.progress);
        }

        do_extract_warnings(&ctx);

        ret = 0;
out_free_realtarget:
        FREE(ctx.realtarget);
out_teardown_stream_list:
        /* Free memory allocated as part of the mapping from each
         * wim_lookup_table_entry to the dentries that reference it.  */
        if (ctx.extract_flags & WIMLIB_EXTRACT_FLAG_SEQUENTIAL)
                list_for_each_entry(lte, &ctx.stream_list, extraction_list)
                        if (lte->out_refcnt > ARRAY_LEN(lte->inline_lte_dentries))
                                FREE(lte->lte_dentries);
out_dentry_reset_needs_extraction:
        for_dentry_in_tree(root, dentry_reset_needs_extraction, NULL);
out_finish_or_abort_extract:
        if (ret) {
                if (ctx.ops->abort_extract)
                        ctx.ops->abort_extract(&ctx);
        } else {
                if (ctx.ops->finish_extract)
                        ret = ctx.ops->finish_extract(&ctx);
        }
out:
        return ret;
}

/* Validates a single wimlib_extract_command, mostly checking to make sure the
 * extract flags make sense. */
static int
check_extract_command(struct wimlib_extract_command *cmd, int wim_header_flags)
{
        int extract_flags;

        /* Empty destination path? */
        if (cmd->fs_dest_path[0] == T('\0'))
                return WIMLIB_ERR_INVALID_PARAM;

        extract_flags = cmd->extract_flags;

        /* Check for invalid flag combinations  */
        if ((extract_flags &
             (WIMLIB_EXTRACT_FLAG_SYMLINK |
              WIMLIB_EXTRACT_FLAG_HARDLINK)) == (WIMLIB_EXTRACT_FLAG_SYMLINK |
                                                 WIMLIB_EXTRACT_FLAG_HARDLINK))
                return WIMLIB_ERR_INVALID_PARAM;

        if ((extract_flags &
             (WIMLIB_EXTRACT_FLAG_NO_ACLS |
              WIMLIB_EXTRACT_FLAG_STRICT_ACLS)) == (WIMLIB_EXTRACT_FLAG_NO_ACLS |
                                                    WIMLIB_EXTRACT_FLAG_STRICT_ACLS))
                return WIMLIB_ERR_INVALID_PARAM;

        if ((extract_flags &
             (WIMLIB_EXTRACT_FLAG_RPFIX |
              WIMLIB_EXTRACT_FLAG_NORPFIX)) == (WIMLIB_EXTRACT_FLAG_RPFIX |
                                                WIMLIB_EXTRACT_FLAG_NORPFIX))
                return WIMLIB_ERR_INVALID_PARAM;

        if ((extract_flags &
             (WIMLIB_EXTRACT_FLAG_RESUME |
              WIMLIB_EXTRACT_FLAG_FROM_PIPE)) == WIMLIB_EXTRACT_FLAG_RESUME)
                return WIMLIB_ERR_INVALID_PARAM;

        if (extract_flags & WIMLIB_EXTRACT_FLAG_NTFS) {
#ifndef WITH_NTFS_3G
                ERROR("wimlib was compiled without support for NTFS-3g, so\n"
                      "        we cannot apply a WIM image directly to a NTFS volume.");
                return WIMLIB_ERR_UNSUPPORTED;
#endif
        }

        if ((extract_flags & (WIMLIB_EXTRACT_FLAG_RPFIX |
                              WIMLIB_EXTRACT_FLAG_NORPFIX)) == 0)
        {
                /* Do reparse point fixups by default if the WIM header says
                 * they are enabled and we are extracting a full image. */
                if (wim_header_flags & WIM_HDR_FLAG_RP_FIX)
                        extract_flags |= WIMLIB_EXTRACT_FLAG_RPFIX;
        }

        /* TODO: Since UNIX data entries are stored in the file resources, in a
         * completely sequential extraction they may come up before the
         * corresponding file or symbolic link data.  This needs to be handled
         * better.  */
        if ((extract_flags & (WIMLIB_EXTRACT_FLAG_UNIX_DATA |
                              WIMLIB_EXTRACT_FLAG_SEQUENTIAL))
                                    == (WIMLIB_EXTRACT_FLAG_UNIX_DATA |
                                        WIMLIB_EXTRACT_FLAG_SEQUENTIAL))
        {
                if (extract_flags & WIMLIB_EXTRACT_FLAG_FROM_PIPE) {
                        WARNING("Setting UNIX file/owner group may "
                                "be impossible on some\n"
                                "          symbolic links "
                                "when applying from a pipe.");
                } else {
                        extract_flags &= ~WIMLIB_EXTRACT_FLAG_SEQUENTIAL;
                        WARNING("Disabling sequential extraction for "
                                "UNIX data mode");
                }
        }

        cmd->extract_flags = extract_flags;
        return 0;
}


/* Internal function to execute extraction commands for a WIM image.  The paths
 * in the extract commands are expected to be already "canonicalized".  */
static int
do_wimlib_extract_files(WIMStruct *wim,
                        int image,
                        struct wimlib_extract_command *cmds,
                        size_t num_cmds,
                        wimlib_progress_func_t progress_func)
{
        int ret;
        bool found_link_cmd = false;
        bool found_nolink_cmd = false;

        /* Select the image from which we are extracting files */
        ret = select_wim_image(wim, image);
        if (ret)
                return ret;

        /* Make sure there are no streams in the WIM that have not been
         * checksummed yet.  */
        ret = wim_checksum_unhashed_streams(wim);
        if (ret)
                return ret;

        /* Check for problems with the extraction commands */
        for (size_t i = 0; i < num_cmds; i++) {
                ret = check_extract_command(&cmds[i], wim->hdr.flags);
                if (ret)
                        return ret;
                if (cmds[i].extract_flags & (WIMLIB_EXTRACT_FLAG_SYMLINK |
                                             WIMLIB_EXTRACT_FLAG_HARDLINK)) {
                        found_link_cmd = true;
                } else {
                        found_nolink_cmd = true;
                }
                if (found_link_cmd && found_nolink_cmd) {
                        ERROR("Symlink or hardlink extraction mode must "
                              "be set on all extraction commands");
                        return WIMLIB_ERR_INVALID_PARAM;
                }
        }

        /* Execute the extraction commands */
        for (size_t i = 0; i < num_cmds; i++) {
                ret = extract_tree(wim,
                                   cmds[i].wim_source_path,
                                   cmds[i].fs_dest_path,
                                   cmds[i].extract_flags,
                                   progress_func);
                if (ret)
                        return ret;
        }
        return 0;
}

/* API function documented in wimlib.h  */
WIMLIBAPI int
wimlib_extract_files(WIMStruct *wim,
                     int image,
                     const struct wimlib_extract_command *cmds,
                     size_t num_cmds,
                     int default_extract_flags,
                     wimlib_progress_func_t progress_func)
{
        int ret;
        struct wimlib_extract_command *cmds_copy;
        int all_flags = 0;

        default_extract_flags &= WIMLIB_EXTRACT_MASK_PUBLIC;

        if (num_cmds == 0)
                return 0;

        cmds_copy = CALLOC(num_cmds, sizeof(cmds[0]));
        if (!cmds_copy)
                return WIMLIB_ERR_NOMEM;

        for (size_t i = 0; i < num_cmds; i++) {
                cmds_copy[i].extract_flags = (default_extract_flags |
                                                 cmds[i].extract_flags)
                                                & WIMLIB_EXTRACT_MASK_PUBLIC;
                all_flags |= cmds_copy[i].extract_flags;

                cmds_copy[i].wim_source_path = canonicalize_wim_path(cmds[i].wim_source_path);
                if (!cmds_copy[i].wim_source_path) {
                        ret = WIMLIB_ERR_NOMEM;
                        goto out_free_cmds_copy;
                }

                cmds_copy[i].fs_dest_path = canonicalize_fs_path(cmds[i].fs_dest_path);
                if (!cmds_copy[i].fs_dest_path) {
                        ret = WIMLIB_ERR_NOMEM;
                        goto out_free_cmds_copy;
                }

        }
        ret = do_wimlib_extract_files(wim, image,
                                      cmds_copy, num_cmds,
                                      progress_func);

        if (all_flags & (WIMLIB_EXTRACT_FLAG_SYMLINK |
                         WIMLIB_EXTRACT_FLAG_HARDLINK))
        {
                for_lookup_table_entry(wim->lookup_table,
                                       lte_free_extracted_file, NULL);
        }
out_free_cmds_copy:
        for (size_t i = 0; i < num_cmds; i++) {
                FREE(cmds_copy[i].wim_source_path);
                FREE(cmds_copy[i].fs_dest_path);
        }
        FREE(cmds_copy);
        return ret;
}

/*
 * Extracts an image from a WIM file.
 *
 * @wim:                WIMStruct for the WIM file.
 *
 * @image:              Number of the single image to extract.
 *
 * @target:             Directory or NTFS volume to extract the image to.
 *
 * @extract_flags:      Bitwise or of WIMLIB_EXTRACT_FLAG_*.
 *
 * @progress_func:      If non-NULL, a progress function to be called
 *                      periodically.
 *
 * Returns 0 on success; nonzero on failure.
 */
static int
extract_single_image(WIMStruct *wim, int image,
                     const tchar *target, int extract_flags,
                     wimlib_progress_func_t progress_func)
{
        int ret;
        tchar *target_copy = canonicalize_fs_path(target);
        if (target_copy == NULL)
                return WIMLIB_ERR_NOMEM;
        struct wimlib_extract_command cmd = {
                .wim_source_path = T(""),
                .fs_dest_path = target_copy,
                .extract_flags = extract_flags,
        };
        ret = do_wimlib_extract_files(wim, image, &cmd, 1, progress_func);
        FREE(target_copy);
        return ret;
}

static const tchar * const filename_forbidden_chars =
T(
#ifdef __WIN32__
"<>:\"/\\|?*"
#else
"/"
#endif
);

/* This function checks if it is okay to use a WIM image's name as a directory
 * name.  */
static bool
image_name_ok_as_dir(const tchar *image_name)
{
        return image_name && *image_name &&
                !tstrpbrk(image_name, filename_forbidden_chars) &&
                tstrcmp(image_name, T(".")) &&
                tstrcmp(image_name, T(".."));
}

/* Extracts all images from the WIM to the directory @target, with the images
 * placed in subdirectories named by their image names. */
static int
extract_all_images(WIMStruct *wim,
                   const tchar *target,
                   int extract_flags,
                   wimlib_progress_func_t progress_func)
{
        size_t image_name_max_len = max(xml_get_max_image_name_len(wim), 20);
        size_t output_path_len = tstrlen(target);
        tchar buf[output_path_len + 1 + image_name_max_len + 1];
        int ret;
        int image;
        const tchar *image_name;
        struct stat stbuf;

        extract_flags |= WIMLIB_EXTRACT_FLAG_MULTI_IMAGE;

        if (extract_flags & WIMLIB_EXTRACT_FLAG_NTFS) {
                ERROR("Cannot extract multiple images in NTFS extraction mode.");
                return WIMLIB_ERR_INVALID_PARAM;
        }

        if (tstat(target, &stbuf)) {
                if (errno == ENOENT) {
                        if (tmkdir(target, 0755)) {
                                ERROR_WITH_ERRNO("Failed to create directory \"%"TS"\"", target);
                                return WIMLIB_ERR_MKDIR;
                        }
                } else {
                        ERROR_WITH_ERRNO("Failed to stat \"%"TS"\"", target);
                        return WIMLIB_ERR_STAT;
                }
        } else if (!S_ISDIR(stbuf.st_mode)) {
                ERROR("\"%"TS"\" is not a directory", target);
                return WIMLIB_ERR_NOTDIR;
        }

        tmemcpy(buf, target, output_path_len);
        buf[output_path_len] = OS_PREFERRED_PATH_SEPARATOR;
        for (image = 1; image <= wim->hdr.image_count; image++) {
                image_name = wimlib_get_image_name(wim, image);
                if (image_name_ok_as_dir(image_name)) {
                        tstrcpy(buf + output_path_len + 1, image_name);
                } else {
                        /* Image name is empty or contains forbidden characters.
                         * Use image number instead. */
                        tsprintf(buf + output_path_len + 1, T("%d"), image);
                }
                ret = extract_single_image(wim, image, buf, extract_flags,
                                           progress_func);
                if (ret)
                        return ret;
        }
        return 0;
}

static int
do_wimlib_extract_image(WIMStruct *wim,
                        int image,
                        const tchar *target,
                        int extract_flags,
                        wimlib_progress_func_t progress_func)
{
        int ret;

        if (image == WIMLIB_ALL_IMAGES) {
                ret = extract_all_images(wim, target, extract_flags,
                                         progress_func);
        } else {
                ret = extract_single_image(wim, image, target, extract_flags,
                                           progress_func);
        }

        if (extract_flags & (WIMLIB_EXTRACT_FLAG_SYMLINK |
                             WIMLIB_EXTRACT_FLAG_HARDLINK))
        {
                for_lookup_table_entry(wim->lookup_table,
                                       lte_free_extracted_file,
                                       NULL);
        }
        return ret;
}

/* API function documented in wimlib.h  */
WIMLIBAPI int
wimlib_extract_image_from_pipe(int pipe_fd, const tchar *image_num_or_name,
                               const tchar *target, int extract_flags,
                               wimlib_progress_func_t progress_func)
{
        int ret;
        WIMStruct *pwm;
        struct filedes *in_fd;
        int image;
        unsigned i;

        extract_flags &= WIMLIB_EXTRACT_MASK_PUBLIC;

        if (extract_flags & WIMLIB_EXTRACT_FLAG_TO_STDOUT)
                return WIMLIB_ERR_INVALID_PARAM;

        extract_flags |= WIMLIB_EXTRACT_FLAG_SEQUENTIAL;

        /* Read the WIM header from the pipe and get a WIMStruct to represent
         * the pipable WIM.  Caveats:  Unlike getting a WIMStruct with
         * wimlib_open_wim(), getting a WIMStruct in this way will result in
         * an empty lookup table, no XML data read, and no filename set.  */
        ret = open_wim_as_WIMStruct(&pipe_fd,
                                    WIMLIB_OPEN_FLAG_FROM_PIPE,
                                    &pwm, progress_func);
        if (ret)
                return ret;

        /* Sanity check to make sure this is a pipable WIM.  */
        if (pwm->hdr.magic != PWM_MAGIC) {
                ERROR("The WIM being read from file descriptor %d "
                      "is not pipable!", pipe_fd);
                ret = WIMLIB_ERR_NOT_PIPABLE;
                goto out_wimlib_free;
        }

        /* Sanity check to make sure the first part of a pipable split WIM is
         * sent over the pipe first.  */
        if (pwm->hdr.part_number != 1) {
                ERROR("The first part of the split WIM must be "
                      "sent over the pipe first.");
                ret = WIMLIB_ERR_INVALID_PIPABLE_WIM;
                goto out_wimlib_free;
        }

        in_fd = &pwm->in_fd;
        wimlib_assert(in_fd->offset == WIM_HEADER_DISK_SIZE);

        /* As mentioned, the WIMStruct we created from the pipe does not have
         * XML data yet.  Fix this by reading the extra copy of the XML data
         * that directly follows the header in pipable WIMs.  (Note: see
         * write_pipable_wim() for more details about the format of pipable
         * WIMs.)  */
        {
                struct wim_lookup_table_entry xml_lte;
                struct wim_resource_spec xml_rspec;
                ret = read_pwm_stream_header(pwm, &xml_lte, &xml_rspec, 0, NULL);
                if (ret)
                        goto out_wimlib_free;

                if (!(xml_lte.flags & WIM_RESHDR_FLAG_METADATA))
                {
                        ERROR("Expected XML data, but found non-metadata "
                              "stream.");
                        ret = WIMLIB_ERR_INVALID_PIPABLE_WIM;
                        goto out_wimlib_free;
                }

                wim_res_spec_to_hdr(&xml_rspec, &pwm->hdr.xml_data_reshdr);

                ret = read_wim_xml_data(pwm);
                if (ret)
                        goto out_wimlib_free;

                if (wim_info_get_num_images(pwm->wim_info) != pwm->hdr.image_count) {
                        ERROR("Image count in XML data is not the same as in WIM header.");
                        ret = WIMLIB_ERR_XML;
                        goto out_wimlib_free;
                }
        }

        /* Get image index (this may use the XML data that was just read to
         * resolve an image name).  */
        if (image_num_or_name) {
                image = wimlib_resolve_image(pwm, image_num_or_name);
                if (image == WIMLIB_NO_IMAGE) {
                        ERROR("\"%"TS"\" is not a valid image in the pipable WIM!",
                              image_num_or_name);
                        ret = WIMLIB_ERR_INVALID_IMAGE;
                        goto out_wimlib_free;
                } else if (image == WIMLIB_ALL_IMAGES) {
                        ERROR("Applying all images from a pipe is not supported.");
                        ret = WIMLIB_ERR_INVALID_IMAGE;
                        goto out_wimlib_free;
                }
        } else {
                if (pwm->hdr.image_count != 1) {
                        ERROR("No image was specified, but the pipable WIM "
                              "did not contain exactly 1 image");
                        ret = WIMLIB_ERR_INVALID_IMAGE;
                        goto out_wimlib_free;
                }
                image = 1;
        }

        /* Load the needed metadata resource.  */
        for (i = 1; i <= pwm->hdr.image_count; i++) {
                struct wim_lookup_table_entry *metadata_lte;
                struct wim_image_metadata *imd;
                struct wim_resource_spec *metadata_rspec;

                metadata_lte = new_lookup_table_entry();
                if (metadata_lte == NULL) {
                        ret = WIMLIB_ERR_NOMEM;
                        goto out_wimlib_free;
                }
                metadata_rspec = MALLOC(sizeof(struct wim_resource_spec));
                if (metadata_rspec == NULL) {
                        ret = WIMLIB_ERR_NOMEM;
                        free_lookup_table_entry(metadata_lte);
                        goto out_wimlib_free;
                }

                ret = read_pwm_stream_header(pwm, metadata_lte, metadata_rspec, 0, NULL);
                imd = pwm->image_metadata[i - 1];
                imd->metadata_lte = metadata_lte;
                if (ret) {
                        FREE(metadata_rspec);
                        goto out_wimlib_free;
                }

                if (!(metadata_lte->flags & WIM_RESHDR_FLAG_METADATA)) {
                        ERROR("Expected metadata resource, but found "
                              "non-metadata stream.");
                        ret = WIMLIB_ERR_INVALID_PIPABLE_WIM;
                        goto out_wimlib_free;
                }

                if (i == image) {
                        /* Metadata resource is for the images being extracted.
                         * Parse it and save the metadata in memory.  */
                        ret = read_metadata_resource(pwm, imd);
                        if (ret)
                                goto out_wimlib_free;
                        imd->modified = 1;
                } else {
                        /* Metadata resource is not for the image being
                         * extracted.  Skip over it.  */
                        ret = skip_wim_stream(metadata_lte);
                        if (ret)
                                goto out_wimlib_free;
                }
        }
        /* Extract the image.  */
        extract_flags |= WIMLIB_EXTRACT_FLAG_FROM_PIPE;
        ret = do_wimlib_extract_image(pwm, image, target,
                                      extract_flags, progress_func);
        /* Clean up and return.  */
out_wimlib_free:
        wimlib_free(pwm);
        return ret;
}

/* API function documented in wimlib.h  */
WIMLIBAPI int
wimlib_extract_image(WIMStruct *wim,
                     int image,
                     const tchar *target,
                     int extract_flags,
                     wimlib_progress_func_t progress_func)
{
        extract_flags &= WIMLIB_EXTRACT_MASK_PUBLIC;
        return do_wimlib_extract_image(wim, image, target, extract_flags,
                                       progress_func);
}