/* * Copyright (C) the libgit2 contributors. All rights reserved. * * This file is part of libgit2, distributed under the GNU GPL v2 with * a Linking Exception. For full terms see the included COPYING file. */ #include #include "common.h" #include "repository.h" #include "index.h" #include "tree.h" #include "tree-cache.h" #include "hash.h" #include "iterator.h" #include "pathspec.h" #include "ignore.h" #include "blob.h" #include "git2/odb.h" #include "git2/oid.h" #include "git2/blob.h" #include "git2/config.h" #include "git2/sys/index.h" static int index_apply_to_wd_diff(git_index *index, int action, const git_strarray *paths, unsigned int flags, git_index_matched_path_cb cb, void *payload); #define entry_size(type,len) ((offsetof(type, path) + (len) + 8) & ~7) #define short_entry_size(len) entry_size(struct entry_short, len) #define long_entry_size(len) entry_size(struct entry_long, len) #define minimal_entry_size (offsetof(struct entry_short, path)) static const size_t INDEX_FOOTER_SIZE = GIT_OID_RAWSZ; static const size_t INDEX_HEADER_SIZE = 12; static const unsigned int INDEX_VERSION_NUMBER = 2; static const unsigned int INDEX_VERSION_NUMBER_EXT = 3; static const unsigned int INDEX_HEADER_SIG = 0x44495243; static const char INDEX_EXT_TREECACHE_SIG[] = {'T', 'R', 'E', 'E'}; static const char INDEX_EXT_UNMERGED_SIG[] = {'R', 'E', 'U', 'C'}; static const char INDEX_EXT_CONFLICT_NAME_SIG[] = {'N', 'A', 'M', 'E'}; #define INDEX_OWNER(idx) ((git_repository *)(GIT_REFCOUNT_OWNER(idx))) struct index_header { uint32_t signature; uint32_t version; uint32_t entry_count; }; struct index_extension { char signature[4]; uint32_t extension_size; }; struct entry_time { uint32_t seconds; uint32_t nanoseconds; }; struct entry_short { struct entry_time ctime; struct entry_time mtime; uint32_t dev; uint32_t ino; uint32_t mode; uint32_t uid; uint32_t gid; uint32_t file_size; git_oid oid; uint16_t flags; char path[1]; /* arbitrary length */ }; struct entry_long { struct entry_time ctime; struct entry_time mtime; uint32_t dev; uint32_t ino; uint32_t mode; uint32_t uid; uint32_t gid; uint32_t file_size; git_oid oid; uint16_t flags; uint16_t flags_extended; char path[1]; /* arbitrary length */ }; struct entry_srch_key { const char *path; size_t pathlen; int stage; }; struct entry_internal { git_index_entry entry; size_t pathlen; char path[GIT_FLEX_ARRAY]; }; struct reuc_entry_internal { git_index_reuc_entry entry; size_t pathlen; char path[GIT_FLEX_ARRAY]; }; /* local declarations */ static size_t read_extension(git_index *index, const char *buffer, size_t buffer_size); static int read_header(struct index_header *dest, const void *buffer); static int parse_index(git_index *index, const char *buffer, size_t buffer_size); static bool is_index_extended(git_index *index); static int write_index(git_oid *checksum, git_index *index, git_filebuf *file); static void index_entry_free(git_index_entry *entry); static void index_entry_reuc_free(git_index_reuc_entry *reuc); int git_index_entry_srch(const void *key, const void *array_member) { const struct entry_srch_key *srch_key = key; const struct entry_internal *entry = array_member; int cmp; size_t len1, len2, len; len1 = srch_key->pathlen; len2 = entry->pathlen; len = len1 < len2 ? len1 : len2; cmp = memcmp(srch_key->path, entry->path, len); if (cmp) return cmp; if (len1 < len2) return -1; if (len1 > len2) return 1; if (srch_key->stage != GIT_INDEX_STAGE_ANY) return srch_key->stage - GIT_IDXENTRY_STAGE(&entry->entry); return 0; } int git_index_entry_isrch(const void *key, const void *array_member) { const struct entry_srch_key *srch_key = key; const struct entry_internal *entry = array_member; int cmp; size_t len1, len2, len; len1 = srch_key->pathlen; len2 = entry->pathlen; len = len1 < len2 ? len1 : len2; cmp = strncasecmp(srch_key->path, entry->path, len); if (cmp) return cmp; if (len1 < len2) return -1; if (len1 > len2) return 1; if (srch_key->stage != GIT_INDEX_STAGE_ANY) return srch_key->stage - GIT_IDXENTRY_STAGE(&entry->entry); return 0; } static int index_entry_srch_path(const void *path, const void *array_member) { const git_index_entry *entry = array_member; return strcmp((const char *)path, entry->path); } static int index_entry_isrch_path(const void *path, const void *array_member) { const git_index_entry *entry = array_member; return strcasecmp((const char *)path, entry->path); } int git_index_entry_cmp(const void *a, const void *b) { int diff; const git_index_entry *entry_a = a; const git_index_entry *entry_b = b; diff = strcmp(entry_a->path, entry_b->path); if (diff == 0) diff = (GIT_IDXENTRY_STAGE(entry_a) - GIT_IDXENTRY_STAGE(entry_b)); return diff; } int git_index_entry_icmp(const void *a, const void *b) { int diff; const git_index_entry *entry_a = a; const git_index_entry *entry_b = b; diff = strcasecmp(entry_a->path, entry_b->path); if (diff == 0) diff = (GIT_IDXENTRY_STAGE(entry_a) - GIT_IDXENTRY_STAGE(entry_b)); return diff; } static int conflict_name_cmp(const void *a, const void *b) { const git_index_name_entry *name_a = a; const git_index_name_entry *name_b = b; if (name_a->ancestor && !name_b->ancestor) return 1; if (!name_a->ancestor && name_b->ancestor) return -1; if (name_a->ancestor) return strcmp(name_a->ancestor, name_b->ancestor); if (!name_a->ours || !name_b->ours) return 0; return strcmp(name_a->ours, name_b->ours); } /** * TODO: enable this when resolving case insensitive conflicts */ #if 0 static int conflict_name_icmp(const void *a, const void *b) { const git_index_name_entry *name_a = a; const git_index_name_entry *name_b = b; if (name_a->ancestor && !name_b->ancestor) return 1; if (!name_a->ancestor && name_b->ancestor) return -1; if (name_a->ancestor) return strcasecmp(name_a->ancestor, name_b->ancestor); if (!name_a->ours || !name_b->ours) return 0; return strcasecmp(name_a->ours, name_b->ours); } #endif static int reuc_srch(const void *key, const void *array_member) { const git_index_reuc_entry *reuc = array_member; return strcmp(key, reuc->path); } static int reuc_isrch(const void *key, const void *array_member) { const git_index_reuc_entry *reuc = array_member; return strcasecmp(key, reuc->path); } static int reuc_cmp(const void *a, const void *b) { const git_index_reuc_entry *info_a = a; const git_index_reuc_entry *info_b = b; return strcmp(info_a->path, info_b->path); } static int reuc_icmp(const void *a, const void *b) { const git_index_reuc_entry *info_a = a; const git_index_reuc_entry *info_b = b; return strcasecmp(info_a->path, info_b->path); } static void index_entry_reuc_free(git_index_reuc_entry *reuc) { git__free(reuc); } static void index_entry_free(git_index_entry *entry) { if (!entry) return; memset(&entry->id, 0, sizeof(entry->id)); git__free(entry); } unsigned int git_index__create_mode(unsigned int mode) { if (S_ISLNK(mode)) return S_IFLNK; if (S_ISDIR(mode) || (mode & S_IFMT) == (S_IFLNK | S_IFDIR)) return (S_IFLNK | S_IFDIR); return S_IFREG | GIT_PERMS_CANONICAL(mode); } static unsigned int index_merge_mode( git_index *index, git_index_entry *existing, unsigned int mode) { if (index->no_symlinks && S_ISREG(mode) && existing && S_ISLNK(existing->mode)) return existing->mode; if (index->distrust_filemode && S_ISREG(mode)) return (existing && S_ISREG(existing->mode)) ? existing->mode : git_index__create_mode(0666); return git_index__create_mode(mode); } static int index_sort_if_needed(git_index *index, bool need_lock) { /* not truly threadsafe because between when this checks and/or * sorts the array another thread could come in and unsort it */ if (git_vector_is_sorted(&index->entries)) return 0; if (need_lock && git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Unable to lock index"); return -1; } git_vector_sort(&index->entries); if (need_lock) git_mutex_unlock(&index->lock); return 0; } GIT_INLINE(int) index_find_in_entries( size_t *out, git_vector *entries, git_vector_cmp entry_srch, const char *path, size_t path_len, int stage) { struct entry_srch_key srch_key; srch_key.path = path; srch_key.pathlen = !path_len ? strlen(path) : path_len; srch_key.stage = stage; return git_vector_bsearch2(out, entries, entry_srch, &srch_key); } GIT_INLINE(int) index_find( size_t *out, git_index *index, const char *path, size_t path_len, int stage, bool need_lock) { if (index_sort_if_needed(index, need_lock) < 0) return -1; return index_find_in_entries( out, &index->entries, index->entries_search, path, path_len, stage); } void git_index__set_ignore_case(git_index *index, bool ignore_case) { index->ignore_case = ignore_case; if (ignore_case) { index->entries_cmp_path = git__strcasecmp_cb; index->entries_search = git_index_entry_isrch; index->entries_search_path = index_entry_isrch_path; index->reuc_search = reuc_isrch; } else { index->entries_cmp_path = git__strcmp_cb; index->entries_search = git_index_entry_srch; index->entries_search_path = index_entry_srch_path; index->reuc_search = reuc_srch; } git_vector_set_cmp(&index->entries, ignore_case ? git_index_entry_icmp : git_index_entry_cmp); index_sort_if_needed(index, true); git_vector_set_cmp(&index->reuc, ignore_case ? reuc_icmp : reuc_cmp); git_vector_sort(&index->reuc); } int git_index_open(git_index **index_out, const char *index_path) { git_index *index; int error = -1; assert(index_out); index = git__calloc(1, sizeof(git_index)); GITERR_CHECK_ALLOC(index); if (git_mutex_init(&index->lock)) { giterr_set(GITERR_OS, "Failed to initialize lock"); git__free(index); return -1; } git_pool_init(&index->tree_pool, 1, 0); if (index_path != NULL) { index->index_file_path = git__strdup(index_path); if (!index->index_file_path) goto fail; /* Check if index file is stored on disk already */ if (git_path_exists(index->index_file_path) == true) index->on_disk = 1; } if (git_vector_init(&index->entries, 32, git_index_entry_cmp) < 0 || git_vector_init(&index->names, 8, conflict_name_cmp) < 0 || git_vector_init(&index->reuc, 8, reuc_cmp) < 0 || git_vector_init(&index->deleted, 8, git_index_entry_cmp) < 0) goto fail; index->entries_cmp_path = git__strcmp_cb; index->entries_search = git_index_entry_srch; index->entries_search_path = index_entry_srch_path; index->reuc_search = reuc_srch; if (index_path != NULL && (error = git_index_read(index, true)) < 0) goto fail; *index_out = index; GIT_REFCOUNT_INC(index); return 0; fail: git_pool_clear(&index->tree_pool); git_index_free(index); return error; } int git_index_new(git_index **out) { return git_index_open(out, NULL); } static void index_free(git_index *index) { /* index iterators increment the refcount of the index, so if we * get here then there should be no outstanding iterators. */ assert(!git_atomic_get(&index->readers)); git_index_clear(index); git_vector_free(&index->entries); git_vector_free(&index->names); git_vector_free(&index->reuc); git_vector_free(&index->deleted); git__free(index->index_file_path); git_mutex_free(&index->lock); git__memzero(index, sizeof(*index)); git__free(index); } void git_index_free(git_index *index) { if (index == NULL) return; GIT_REFCOUNT_DEC(index, index_free); } /* call with locked index */ static void index_free_deleted(git_index *index) { int readers = (int)git_atomic_get(&index->readers); size_t i; if (readers > 0 || !index->deleted.length) return; for (i = 0; i < index->deleted.length; ++i) { git_index_entry *ie = git__swap(index->deleted.contents[i], NULL); index_entry_free(ie); } git_vector_clear(&index->deleted); } /* call with locked index */ static int index_remove_entry(git_index *index, size_t pos) { int error = 0; git_index_entry *entry = git_vector_get(&index->entries, pos); if (entry != NULL) git_tree_cache_invalidate_path(index->tree, entry->path); error = git_vector_remove(&index->entries, pos); if (!error) { if (git_atomic_get(&index->readers) > 0) { error = git_vector_insert(&index->deleted, entry); } else { index_entry_free(entry); } } return error; } int git_index_clear(git_index *index) { int error = 0; assert(index); index->tree = NULL; git_pool_clear(&index->tree_pool); if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Failed to lock index"); return -1; } while (!error && index->entries.length > 0) error = index_remove_entry(index, index->entries.length - 1); index_free_deleted(index); git_index_reuc_clear(index); git_index_name_clear(index); git_futils_filestamp_set(&index->stamp, NULL); git_mutex_unlock(&index->lock); return error; } static int create_index_error(int error, const char *msg) { giterr_set(GITERR_INDEX, msg); return error; } int git_index_set_caps(git_index *index, int caps) { unsigned int old_ignore_case; assert(index); old_ignore_case = index->ignore_case; if (caps == GIT_INDEXCAP_FROM_OWNER) { git_repository *repo = INDEX_OWNER(index); int val; if (!repo) return create_index_error( -1, "Cannot access repository to set index caps"); if (!git_repository__cvar(&val, repo, GIT_CVAR_IGNORECASE)) index->ignore_case = (val != 0); if (!git_repository__cvar(&val, repo, GIT_CVAR_FILEMODE)) index->distrust_filemode = (val == 0); if (!git_repository__cvar(&val, repo, GIT_CVAR_SYMLINKS)) index->no_symlinks = (val == 0); } else { index->ignore_case = ((caps & GIT_INDEXCAP_IGNORE_CASE) != 0); index->distrust_filemode = ((caps & GIT_INDEXCAP_NO_FILEMODE) != 0); index->no_symlinks = ((caps & GIT_INDEXCAP_NO_SYMLINKS) != 0); } if (old_ignore_case != index->ignore_case) { git_index__set_ignore_case(index, (bool)index->ignore_case); } return 0; } int git_index_caps(const git_index *index) { return ((index->ignore_case ? GIT_INDEXCAP_IGNORE_CASE : 0) | (index->distrust_filemode ? GIT_INDEXCAP_NO_FILEMODE : 0) | (index->no_symlinks ? GIT_INDEXCAP_NO_SYMLINKS : 0)); } const git_oid *git_index_checksum(git_index *index) { return &index->checksum; } /** * Returns 1 for changed, 0 for not changed and <0 for errors */ static int compare_checksum(git_index *index) { int fd, error; ssize_t bytes_read; git_oid checksum = {{ 0 }}; if ((fd = p_open(index->index_file_path, O_RDONLY)) < 0) return fd; if ((error = p_lseek(fd, -20, SEEK_END)) < 0) { p_close(fd); giterr_set(GITERR_OS, "failed to seek to end of file"); return -1; } bytes_read = p_read(fd, &checksum, GIT_OID_RAWSZ); p_close(fd); if (bytes_read < 0) return -1; return !!git_oid_cmp(&checksum, &index->checksum); } int git_index_read(git_index *index, int force) { int error = 0, updated; git_buf buffer = GIT_BUF_INIT; git_futils_filestamp stamp = index->stamp; if (!index->index_file_path) return create_index_error(-1, "Failed to read index: The index is in-memory only"); index->on_disk = git_path_exists(index->index_file_path); if (!index->on_disk) { if (force) return git_index_clear(index); return 0; } if ((updated = git_futils_filestamp_check(&stamp, index->index_file_path) < 0) || ((updated = compare_checksum(index)) < 0)) { giterr_set( GITERR_INDEX, "Failed to read index: '%s' no longer exists", index->index_file_path); return updated; } if (!updated && !force) return 0; error = git_futils_readbuffer(&buffer, index->index_file_path); if (error < 0) return error; index->tree = NULL; git_pool_clear(&index->tree_pool); error = git_index_clear(index); if (!error) error = parse_index(index, buffer.ptr, buffer.size); if (!error) git_futils_filestamp_set(&index->stamp, &stamp); git_buf_free(&buffer); return error; } int git_index__changed_relative_to( git_index *index, const git_futils_filestamp *fs) { /* attempt to update index (ignoring errors) */ if (git_index_read(index, false) < 0) giterr_clear(); return (index->stamp.mtime != fs->mtime || index->stamp.size != fs->size || index->stamp.ino != fs->ino); } /* * Force the next diff to take a look at those entries which have the * same timestamp as the current index. */ static void truncate_racily_clean(git_index *index) { size_t i; git_index_entry *entry; git_time_t ts = index->stamp.mtime; git_vector_foreach(&index->entries, i, entry) { if (entry->mtime.seconds == ts || ts == 0) entry->file_size = 0; } } int git_index_write(git_index *index) { git_indexwriter writer = GIT_INDEXWRITER_INIT; int error; truncate_racily_clean(index); if ((error = git_indexwriter_init(&writer, index)) == 0) error = git_indexwriter_commit(&writer); git_indexwriter_cleanup(&writer); return error; } const char * git_index_path(const git_index *index) { assert(index); return index->index_file_path; } int git_index_write_tree(git_oid *oid, git_index *index) { git_repository *repo; assert(oid && index); repo = INDEX_OWNER(index); if (repo == NULL) return create_index_error(-1, "Failed to write tree. " "The index file is not backed up by an existing repository"); return git_tree__write_index(oid, index, repo); } int git_index_write_tree_to( git_oid *oid, git_index *index, git_repository *repo) { assert(oid && index && repo); return git_tree__write_index(oid, index, repo); } size_t git_index_entrycount(const git_index *index) { assert(index); return index->entries.length; } const git_index_entry *git_index_get_byindex( git_index *index, size_t n) { assert(index); if (index_sort_if_needed(index, true) < 0) return NULL; return git_vector_get(&index->entries, n); } const git_index_entry *git_index_get_bypath( git_index *index, const char *path, int stage) { size_t pos; assert(index); if (index_find(&pos, index, path, 0, stage, true) < 0) { giterr_set(GITERR_INDEX, "Index does not contain %s", path); return NULL; } return git_index_get_byindex(index, pos); } void git_index_entry__init_from_stat( git_index_entry *entry, struct stat *st, bool trust_mode) { entry->ctime.seconds = (git_time_t)st->st_ctime; entry->mtime.seconds = (git_time_t)st->st_mtime; /* entry->mtime.nanoseconds = st->st_mtimensec; */ /* entry->ctime.nanoseconds = st->st_ctimensec; */ entry->dev = st->st_rdev; entry->ino = st->st_ino; entry->mode = (!trust_mode && S_ISREG(st->st_mode)) ? git_index__create_mode(0666) : git_index__create_mode(st->st_mode); entry->uid = st->st_uid; entry->gid = st->st_gid; entry->file_size = st->st_size; } static int index_entry_create( git_index_entry **out, git_repository *repo, const char *path) { size_t pathlen = strlen(path), alloclen; struct entry_internal *entry; if (!git_path_isvalid(repo, path, GIT_PATH_REJECT_DEFAULTS | GIT_PATH_REJECT_DOT_GIT)) { giterr_set(GITERR_INDEX, "Invalid path: '%s'", path); return -1; } GITERR_CHECK_ALLOC_ADD(&alloclen, sizeof(struct entry_internal), pathlen); GITERR_CHECK_ALLOC_ADD(&alloclen, alloclen, 1); entry = git__calloc(1, alloclen); GITERR_CHECK_ALLOC(entry); entry->pathlen = pathlen; memcpy(entry->path, path, pathlen); entry->entry.path = entry->path; *out = (git_index_entry *)entry; return 0; } static int index_entry_init( git_index_entry **entry_out, git_index *index, const char *rel_path) { int error = 0; git_index_entry *entry = NULL; struct stat st; git_oid oid; if (INDEX_OWNER(index) == NULL) return create_index_error(-1, "Could not initialize index entry. " "Index is not backed up by an existing repository."); if (index_entry_create(&entry, INDEX_OWNER(index), rel_path) < 0) return -1; /* write the blob to disk and get the oid and stat info */ error = git_blob__create_from_paths( &oid, &st, INDEX_OWNER(index), NULL, rel_path, 0, true); if (error < 0) { index_entry_free(entry); return error; } entry->id = oid; git_index_entry__init_from_stat(entry, &st, !index->distrust_filemode); *entry_out = (git_index_entry *)entry; return 0; } static git_index_reuc_entry *reuc_entry_alloc(const char *path) { size_t pathlen = strlen(path), structlen = sizeof(struct reuc_entry_internal), alloclen; struct reuc_entry_internal *entry; if (GIT_ADD_SIZET_OVERFLOW(&alloclen, structlen, pathlen) || GIT_ADD_SIZET_OVERFLOW(&alloclen, alloclen, 1)) return NULL; entry = git__calloc(1, alloclen); if (!entry) return NULL; entry->pathlen = pathlen; memcpy(entry->path, path, pathlen); entry->entry.path = entry->path; return (git_index_reuc_entry *)entry; } static int index_entry_reuc_init(git_index_reuc_entry **reuc_out, const char *path, int ancestor_mode, const git_oid *ancestor_oid, int our_mode, const git_oid *our_oid, int their_mode, const git_oid *their_oid) { git_index_reuc_entry *reuc = NULL; assert(reuc_out && path); *reuc_out = reuc = reuc_entry_alloc(path); GITERR_CHECK_ALLOC(reuc); if ((reuc->mode[0] = ancestor_mode) > 0) git_oid_cpy(&reuc->oid[0], ancestor_oid); if ((reuc->mode[1] = our_mode) > 0) git_oid_cpy(&reuc->oid[1], our_oid); if ((reuc->mode[2] = their_mode) > 0) git_oid_cpy(&reuc->oid[2], their_oid); return 0; } static void index_entry_cpy(git_index_entry *tgt, const git_index_entry *src) { const char *tgt_path = tgt->path; memcpy(tgt, src, sizeof(*tgt)); tgt->path = tgt_path; /* reset to existing path data */ } static int index_entry_dup( git_index_entry **out, git_repository *repo, const git_index_entry *src) { git_index_entry *entry; if (!src) { *out = NULL; return 0; } if (index_entry_create(&entry, repo, src->path) < 0) return -1; index_entry_cpy(entry, src); *out = entry; return 0; } static int has_file_name(git_index *index, const git_index_entry *entry, size_t pos, int ok_to_replace) { int retval = 0; size_t len = strlen(entry->path); int stage = GIT_IDXENTRY_STAGE(entry); const char *name = entry->path; while (pos < index->entries.length) { struct entry_internal *p = index->entries.contents[pos++]; if (len >= p->pathlen) break; if (memcmp(name, p->path, len)) break; if (GIT_IDXENTRY_STAGE(&p->entry) != stage) continue; if (p->path[len] != '/') continue; retval = -1; if (!ok_to_replace) break; if (index_remove_entry(index, --pos) < 0) break; } return retval; } /* * Do we have another file with a pathname that is a proper * subset of the name we're trying to add? */ static int has_dir_name(git_index *index, const git_index_entry *entry, int ok_to_replace) { int retval = 0; int stage = GIT_IDXENTRY_STAGE(entry); const char *name = entry->path; const char *slash = name + strlen(name); for (;;) { size_t len, pos; for (;;) { if (*--slash == '/') break; if (slash <= entry->path) return retval; } len = slash - name; if (!index_find(&pos, index, name, len, stage, false)) { retval = -1; if (!ok_to_replace) break; if (index_remove_entry(index, pos) < 0) break; continue; } /* * Trivial optimization: if we find an entry that * already matches the sub-directory, then we know * we're ok, and we can exit. */ for (; pos < index->entries.length; ++pos) { struct entry_internal *p = index->entries.contents[pos]; if (p->pathlen <= len || p->path[len] != '/' || memcmp(p->path, name, len)) break; /* not our subdirectory */ if (GIT_IDXENTRY_STAGE(&p->entry) == stage) return retval; } } return retval; } static int check_file_directory_collision(git_index *index, git_index_entry *entry, size_t pos, int ok_to_replace) { int retval = has_file_name(index, entry, pos, ok_to_replace); retval = retval + has_dir_name(index, entry, ok_to_replace); if (retval) { giterr_set(GITERR_INDEX, "'%s' appears as both a file and a directory", entry->path); return -1; } return 0; } static int index_no_dups(void **old, void *new) { const git_index_entry *entry = new; GIT_UNUSED(old); giterr_set(GITERR_INDEX, "'%s' appears multiple times at stage %d", entry->path, GIT_IDXENTRY_STAGE(entry)); return GIT_EEXISTS; } /* index_insert takes ownership of the new entry - if it can't insert * it, then it will return an error **and also free the entry**. When * it replaces an existing entry, it will update the entry_ptr with the * actual entry in the index (and free the passed in one). * trust_mode is whether we trust the mode in entry_ptr. */ static int index_insert( git_index *index, git_index_entry **entry_ptr, int replace, bool trust_mode) { int error = 0; size_t path_length, position; git_index_entry *existing = NULL, *entry; assert(index && entry_ptr); entry = *entry_ptr; /* make sure that the path length flag is correct */ path_length = ((struct entry_internal *)entry)->pathlen; entry->flags &= ~GIT_IDXENTRY_NAMEMASK; if (path_length < GIT_IDXENTRY_NAMEMASK) entry->flags |= path_length & GIT_IDXENTRY_NAMEMASK; else entry->flags |= GIT_IDXENTRY_NAMEMASK; if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Unable to acquire index lock"); return -1; } git_vector_sort(&index->entries); /* look if an entry with this path already exists */ if (!index_find( &position, index, entry->path, 0, GIT_IDXENTRY_STAGE(entry), false)) { existing = index->entries.contents[position]; /* update filemode to existing values if stat is not trusted */ if (trust_mode) entry->mode = git_index__create_mode(entry->mode); else entry->mode = index_merge_mode(index, existing, entry->mode); } /* look for tree / blob name collisions, removing conflicts if requested */ error = check_file_directory_collision(index, entry, position, replace); if (error < 0) /* skip changes */; /* if we are replacing an existing item, overwrite the existing entry * and return it in place of the passed in one. */ else if (existing) { if (replace) index_entry_cpy(existing, entry); index_entry_free(entry); *entry_ptr = entry = existing; } else { /* if replace is not requested or no existing entry exists, insert * at the sorted position. (Since we re-sort after each insert to * check for dups, this is actually cheaper in the long run.) */ error = git_vector_insert_sorted(&index->entries, entry, index_no_dups); } if (error < 0) { index_entry_free(*entry_ptr); *entry_ptr = NULL; } git_mutex_unlock(&index->lock); return error; } static int index_conflict_to_reuc(git_index *index, const char *path) { const git_index_entry *conflict_entries[3]; int ancestor_mode, our_mode, their_mode; git_oid const *ancestor_oid, *our_oid, *their_oid; int ret; if ((ret = git_index_conflict_get(&conflict_entries[0], &conflict_entries[1], &conflict_entries[2], index, path)) < 0) return ret; ancestor_mode = conflict_entries[0] == NULL ? 0 : conflict_entries[0]->mode; our_mode = conflict_entries[1] == NULL ? 0 : conflict_entries[1]->mode; their_mode = conflict_entries[2] == NULL ? 0 : conflict_entries[2]->mode; ancestor_oid = conflict_entries[0] == NULL ? NULL : &conflict_entries[0]->id; our_oid = conflict_entries[1] == NULL ? NULL : &conflict_entries[1]->id; their_oid = conflict_entries[2] == NULL ? NULL : &conflict_entries[2]->id; if ((ret = git_index_reuc_add(index, path, ancestor_mode, ancestor_oid, our_mode, our_oid, their_mode, their_oid)) >= 0) ret = git_index_conflict_remove(index, path); return ret; } static bool valid_filemode(const int filemode) { return (filemode == GIT_FILEMODE_BLOB || filemode == GIT_FILEMODE_BLOB_EXECUTABLE || filemode == GIT_FILEMODE_LINK || filemode == GIT_FILEMODE_COMMIT); } int git_index_add_frombuffer( git_index *index, const git_index_entry *source_entry, const void *buffer, size_t len) { git_index_entry *entry = NULL; int error = 0; git_oid id; assert(index && source_entry->path); if (INDEX_OWNER(index) == NULL) return create_index_error(-1, "Could not initialize index entry. " "Index is not backed up by an existing repository."); if (!valid_filemode(source_entry->mode)) { giterr_set(GITERR_INDEX, "invalid filemode"); return -1; } if (index_entry_dup(&entry, INDEX_OWNER(index), source_entry) < 0) return -1; error = git_blob_create_frombuffer(&id, INDEX_OWNER(index), buffer, len); if (error < 0) { index_entry_free(entry); return error; } git_oid_cpy(&entry->id, &id); entry->file_size = len; if ((error = index_insert(index, &entry, 1, true)) < 0) return error; /* Adding implies conflict was resolved, move conflict entries to REUC */ if ((error = index_conflict_to_reuc(index, entry->path)) < 0 && error != GIT_ENOTFOUND) return error; git_tree_cache_invalidate_path(index->tree, entry->path); return 0; } int git_index_add_bypath(git_index *index, const char *path) { git_index_entry *entry = NULL; int ret; assert(index && path); if ((ret = index_entry_init(&entry, index, path)) < 0 || (ret = index_insert(index, &entry, 1, false)) < 0) return ret; /* Adding implies conflict was resolved, move conflict entries to REUC */ if ((ret = index_conflict_to_reuc(index, path)) < 0 && ret != GIT_ENOTFOUND) return ret; git_tree_cache_invalidate_path(index->tree, entry->path); return 0; } int git_index_remove_bypath(git_index *index, const char *path) { int ret; assert(index && path); if (((ret = git_index_remove(index, path, 0)) < 0 && ret != GIT_ENOTFOUND) || ((ret = index_conflict_to_reuc(index, path)) < 0 && ret != GIT_ENOTFOUND)) return ret; if (ret == GIT_ENOTFOUND) giterr_clear(); return 0; } int git_index_add(git_index *index, const git_index_entry *source_entry) { git_index_entry *entry = NULL; int ret; assert(index && source_entry && source_entry->path); if (!valid_filemode(source_entry->mode)) { giterr_set(GITERR_INDEX, "invalid filemode"); return -1; } if ((ret = index_entry_dup(&entry, INDEX_OWNER(index), source_entry)) < 0 || (ret = index_insert(index, &entry, 1, true)) < 0) return ret; git_tree_cache_invalidate_path(index->tree, entry->path); return 0; } int git_index_remove(git_index *index, const char *path, int stage) { int error; size_t position; if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Failed to lock index"); return -1; } if (index_find(&position, index, path, 0, stage, false) < 0) { giterr_set( GITERR_INDEX, "Index does not contain %s at stage %d", path, stage); error = GIT_ENOTFOUND; } else { error = index_remove_entry(index, position); } git_mutex_unlock(&index->lock); return error; } int git_index_remove_directory(git_index *index, const char *dir, int stage) { git_buf pfx = GIT_BUF_INIT; int error = 0; size_t pos; git_index_entry *entry; if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Failed to lock index"); return -1; } if (!(error = git_buf_sets(&pfx, dir)) && !(error = git_path_to_dir(&pfx))) index_find(&pos, index, pfx.ptr, pfx.size, GIT_INDEX_STAGE_ANY, false); while (!error) { entry = git_vector_get(&index->entries, pos); if (!entry || git__prefixcmp(entry->path, pfx.ptr) != 0) break; if (GIT_IDXENTRY_STAGE(entry) != stage) { ++pos; continue; } error = index_remove_entry(index, pos); /* removed entry at 'pos' so we don't need to increment */ } git_mutex_unlock(&index->lock); git_buf_free(&pfx); return error; } int git_index__find_pos( size_t *out, git_index *index, const char *path, size_t path_len, int stage) { assert(index && path); return index_find(out, index, path, path_len, stage, true); } int git_index_find(size_t *at_pos, git_index *index, const char *path) { size_t pos; assert(index && path); if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Failed to lock index"); return -1; } if (git_vector_bsearch2( &pos, &index->entries, index->entries_search_path, path) < 0) { git_mutex_unlock(&index->lock); giterr_set(GITERR_INDEX, "Index does not contain %s", path); return GIT_ENOTFOUND; } /* Since our binary search only looked at path, we may be in the * middle of a list of stages. */ for (; pos > 0; --pos) { const git_index_entry *prev = git_vector_get(&index->entries, pos - 1); if (index->entries_cmp_path(prev->path, path) != 0) break; } if (at_pos) *at_pos = pos; git_mutex_unlock(&index->lock); return 0; } int git_index_conflict_add(git_index *index, const git_index_entry *ancestor_entry, const git_index_entry *our_entry, const git_index_entry *their_entry) { git_index_entry *entries[3] = { 0 }; unsigned short i; int ret = 0; assert (index); if ((ret = index_entry_dup(&entries[0], INDEX_OWNER(index), ancestor_entry)) < 0 || (ret = index_entry_dup(&entries[1], INDEX_OWNER(index), our_entry)) < 0 || (ret = index_entry_dup(&entries[2], INDEX_OWNER(index), their_entry)) < 0) goto on_error; /* Validate entries */ for (i = 0; i < 3; i++) { if (entries[i] && !valid_filemode(entries[i]->mode)) { giterr_set(GITERR_INDEX, "invalid filemode for stage %d entry", i); return -1; } } /* Remove existing index entries for each path */ for (i = 0; i < 3; i++) { if (entries[i] == NULL) continue; if ((ret = git_index_remove(index, entries[i]->path, 0)) != 0) { if (ret != GIT_ENOTFOUND) goto on_error; giterr_clear(); ret = 0; } } /* Add the conflict entries */ for (i = 0; i < 3; i++) { if (entries[i] == NULL) continue; /* Make sure stage is correct */ GIT_IDXENTRY_STAGE_SET(entries[i], i + 1); if ((ret = index_insert(index, &entries[i], 0, true)) < 0) goto on_error; entries[i] = NULL; /* don't free if later entry fails */ } return 0; on_error: for (i = 0; i < 3; i++) { if (entries[i] != NULL) index_entry_free(entries[i]); } return ret; } static int index_conflict__get_byindex( const git_index_entry **ancestor_out, const git_index_entry **our_out, const git_index_entry **their_out, git_index *index, size_t n) { const git_index_entry *conflict_entry; const char *path = NULL; size_t count; int stage, len = 0; assert(ancestor_out && our_out && their_out && index); *ancestor_out = NULL; *our_out = NULL; *their_out = NULL; for (count = git_index_entrycount(index); n < count; ++n) { conflict_entry = git_vector_get(&index->entries, n); if (path && index->entries_cmp_path(conflict_entry->path, path) != 0) break; stage = GIT_IDXENTRY_STAGE(conflict_entry); path = conflict_entry->path; switch (stage) { case 3: *their_out = conflict_entry; len++; break; case 2: *our_out = conflict_entry; len++; break; case 1: *ancestor_out = conflict_entry; len++; break; default: break; }; } return len; } int git_index_conflict_get( const git_index_entry **ancestor_out, const git_index_entry **our_out, const git_index_entry **their_out, git_index *index, const char *path) { size_t pos; int len = 0; assert(ancestor_out && our_out && their_out && index && path); *ancestor_out = NULL; *our_out = NULL; *their_out = NULL; if (git_index_find(&pos, index, path) < 0) return GIT_ENOTFOUND; if ((len = index_conflict__get_byindex( ancestor_out, our_out, their_out, index, pos)) < 0) return len; else if (len == 0) return GIT_ENOTFOUND; return 0; } static int index_conflict_remove(git_index *index, const char *path) { size_t pos = 0; git_index_entry *conflict_entry; int error = 0; if (path != NULL && git_index_find(&pos, index, path) < 0) return GIT_ENOTFOUND; if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Unable to lock index"); return -1; } while ((conflict_entry = git_vector_get(&index->entries, pos)) != NULL) { if (path != NULL && index->entries_cmp_path(conflict_entry->path, path) != 0) break; if (GIT_IDXENTRY_STAGE(conflict_entry) == 0) { pos++; continue; } if ((error = index_remove_entry(index, pos)) < 0) break; } git_mutex_unlock(&index->lock); return error; } int git_index_conflict_remove(git_index *index, const char *path) { assert(index && path); return index_conflict_remove(index, path); } int git_index_conflict_cleanup(git_index *index) { assert(index); return index_conflict_remove(index, NULL); } int git_index_has_conflicts(const git_index *index) { size_t i; git_index_entry *entry; assert(index); git_vector_foreach(&index->entries, i, entry) { if (GIT_IDXENTRY_STAGE(entry) > 0) return 1; } return 0; } int git_index_conflict_iterator_new( git_index_conflict_iterator **iterator_out, git_index *index) { git_index_conflict_iterator *it = NULL; assert(iterator_out && index); it = git__calloc(1, sizeof(git_index_conflict_iterator)); GITERR_CHECK_ALLOC(it); it->index = index; *iterator_out = it; return 0; } int git_index_conflict_next( const git_index_entry **ancestor_out, const git_index_entry **our_out, const git_index_entry **their_out, git_index_conflict_iterator *iterator) { const git_index_entry *entry; int len; assert(ancestor_out && our_out && their_out && iterator); *ancestor_out = NULL; *our_out = NULL; *their_out = NULL; while (iterator->cur < iterator->index->entries.length) { entry = git_index_get_byindex(iterator->index, iterator->cur); if (git_index_entry_is_conflict(entry)) { if ((len = index_conflict__get_byindex( ancestor_out, our_out, their_out, iterator->index, iterator->cur)) < 0) return len; iterator->cur += len; return 0; } iterator->cur++; } return GIT_ITEROVER; } void git_index_conflict_iterator_free(git_index_conflict_iterator *iterator) { if (iterator == NULL) return; git__free(iterator); } size_t git_index_name_entrycount(git_index *index) { assert(index); return index->names.length; } const git_index_name_entry *git_index_name_get_byindex( git_index *index, size_t n) { assert(index); git_vector_sort(&index->names); return git_vector_get(&index->names, n); } static void index_name_entry_free(git_index_name_entry *ne) { if (!ne) return; git__free(ne->ancestor); git__free(ne->ours); git__free(ne->theirs); git__free(ne); } int git_index_name_add(git_index *index, const char *ancestor, const char *ours, const char *theirs) { git_index_name_entry *conflict_name; assert((ancestor && ours) || (ancestor && theirs) || (ours && theirs)); conflict_name = git__calloc(1, sizeof(git_index_name_entry)); GITERR_CHECK_ALLOC(conflict_name); if ((ancestor && !(conflict_name->ancestor = git__strdup(ancestor))) || (ours && !(conflict_name->ours = git__strdup(ours))) || (theirs && !(conflict_name->theirs = git__strdup(theirs))) || git_vector_insert(&index->names, conflict_name) < 0) { index_name_entry_free(conflict_name); return -1; } return 0; } void git_index_name_clear(git_index *index) { size_t i; git_index_name_entry *conflict_name; assert(index); git_vector_foreach(&index->names, i, conflict_name) index_name_entry_free(conflict_name); git_vector_clear(&index->names); } size_t git_index_reuc_entrycount(git_index *index) { assert(index); return index->reuc.length; } static int index_reuc_insert( git_index *index, git_index_reuc_entry *reuc, int replace) { git_index_reuc_entry **existing = NULL; size_t position; assert(index && reuc && reuc->path != NULL); if (!git_index_reuc_find(&position, index, reuc->path)) existing = (git_index_reuc_entry **)&index->reuc.contents[position]; if (!replace || !existing) return git_vector_insert(&index->reuc, reuc); /* exists, replace it */ git__free(*existing); *existing = reuc; return 0; } int git_index_reuc_add(git_index *index, const char *path, int ancestor_mode, const git_oid *ancestor_oid, int our_mode, const git_oid *our_oid, int their_mode, const git_oid *their_oid) { git_index_reuc_entry *reuc = NULL; int error = 0; assert(index && path); if ((error = index_entry_reuc_init(&reuc, path, ancestor_mode, ancestor_oid, our_mode, our_oid, their_mode, their_oid)) < 0 || (error = index_reuc_insert(index, reuc, 1)) < 0) index_entry_reuc_free(reuc); return error; } int git_index_reuc_find(size_t *at_pos, git_index *index, const char *path) { return git_vector_bsearch2(at_pos, &index->reuc, index->reuc_search, path); } const git_index_reuc_entry *git_index_reuc_get_bypath( git_index *index, const char *path) { size_t pos; assert(index && path); if (!index->reuc.length) return NULL; git_vector_sort(&index->reuc); if (git_index_reuc_find(&pos, index, path) < 0) return NULL; return git_vector_get(&index->reuc, pos); } const git_index_reuc_entry *git_index_reuc_get_byindex( git_index *index, size_t n) { assert(index); git_vector_sort(&index->reuc); return git_vector_get(&index->reuc, n); } int git_index_reuc_remove(git_index *index, size_t position) { int error; git_index_reuc_entry *reuc; git_vector_sort(&index->reuc); reuc = git_vector_get(&index->reuc, position); error = git_vector_remove(&index->reuc, position); if (!error) index_entry_reuc_free(reuc); return error; } void git_index_reuc_clear(git_index *index) { size_t i; assert(index); for (i = 0; i < index->reuc.length; ++i) index_entry_reuc_free(git__swap(index->reuc.contents[i], NULL)); git_vector_clear(&index->reuc); } static int index_error_invalid(const char *message) { giterr_set(GITERR_INDEX, "Invalid data in index - %s", message); return -1; } static int read_reuc(git_index *index, const char *buffer, size_t size) { const char *endptr; size_t len; int i; /* If called multiple times, the vector might already be initialized */ if (index->reuc._alloc_size == 0 && git_vector_init(&index->reuc, 16, reuc_cmp) < 0) return -1; while (size) { git_index_reuc_entry *lost; len = p_strnlen(buffer, size) + 1; if (size <= len) return index_error_invalid("reading reuc entries"); lost = reuc_entry_alloc(buffer); GITERR_CHECK_ALLOC(lost); size -= len; buffer += len; /* read 3 ASCII octal numbers for stage entries */ for (i = 0; i < 3; i++) { int tmp; if (git__strtol32(&tmp, buffer, &endptr, 8) < 0 || !endptr || endptr == buffer || *endptr || (unsigned)tmp > UINT_MAX) { index_entry_reuc_free(lost); return index_error_invalid("reading reuc entry stage"); } lost->mode[i] = tmp; len = (endptr + 1) - buffer; if (size <= len) { index_entry_reuc_free(lost); return index_error_invalid("reading reuc entry stage"); } size -= len; buffer += len; } /* read up to 3 OIDs for stage entries */ for (i = 0; i < 3; i++) { if (!lost->mode[i]) continue; if (size < 20) { index_entry_reuc_free(lost); return index_error_invalid("reading reuc entry oid"); } git_oid_fromraw(&lost->oid[i], (const unsigned char *) buffer); size -= 20; buffer += 20; } /* entry was read successfully - insert into reuc vector */ if (git_vector_insert(&index->reuc, lost) < 0) return -1; } /* entries are guaranteed to be sorted on-disk */ git_vector_set_sorted(&index->reuc, true); return 0; } static int read_conflict_names(git_index *index, const char *buffer, size_t size) { size_t len; /* This gets called multiple times, the vector might already be initialized */ if (index->names._alloc_size == 0 && git_vector_init(&index->names, 16, conflict_name_cmp) < 0) return -1; #define read_conflict_name(ptr) \ len = p_strnlen(buffer, size) + 1; \ if (size < len) \ return index_error_invalid("reading conflict name entries"); \ \ if (len == 1) \ ptr = NULL; \ else { \ ptr = git__malloc(len); \ GITERR_CHECK_ALLOC(ptr); \ memcpy(ptr, buffer, len); \ } \ \ buffer += len; \ size -= len; while (size) { git_index_name_entry *conflict_name = git__calloc(1, sizeof(git_index_name_entry)); GITERR_CHECK_ALLOC(conflict_name); read_conflict_name(conflict_name->ancestor); read_conflict_name(conflict_name->ours); read_conflict_name(conflict_name->theirs); if (git_vector_insert(&index->names, conflict_name) < 0) return -1; } #undef read_conflict_name /* entries are guaranteed to be sorted on-disk */ git_vector_set_sorted(&index->names, true); return 0; } static size_t read_entry( git_index_entry **out, git_index *index, const void *buffer, size_t buffer_size) { size_t path_length, entry_size; const char *path_ptr; struct entry_short source; git_index_entry entry = {{0}}; if (INDEX_FOOTER_SIZE + minimal_entry_size > buffer_size) return 0; /* buffer is not guaranteed to be aligned */ memcpy(&source, buffer, sizeof(struct entry_short)); entry.ctime.seconds = (git_time_t)ntohl(source.ctime.seconds); entry.ctime.nanoseconds = ntohl(source.ctime.nanoseconds); entry.mtime.seconds = (git_time_t)ntohl(source.mtime.seconds); entry.mtime.nanoseconds = ntohl(source.mtime.nanoseconds); entry.dev = ntohl(source.dev); entry.ino = ntohl(source.ino); entry.mode = ntohl(source.mode); entry.uid = ntohl(source.uid); entry.gid = ntohl(source.gid); entry.file_size = ntohl(source.file_size); git_oid_cpy(&entry.id, &source.oid); entry.flags = ntohs(source.flags); if (entry.flags & GIT_IDXENTRY_EXTENDED) { uint16_t flags_raw; size_t flags_offset; flags_offset = offsetof(struct entry_long, flags_extended); memcpy(&flags_raw, (const char *) buffer + flags_offset, sizeof(flags_raw)); flags_raw = ntohs(flags_raw); memcpy(&entry.flags_extended, &flags_raw, sizeof(flags_raw)); path_ptr = (const char *) buffer + offsetof(struct entry_long, path); } else path_ptr = (const char *) buffer + offsetof(struct entry_short, path); path_length = entry.flags & GIT_IDXENTRY_NAMEMASK; /* if this is a very long string, we must find its * real length without overflowing */ if (path_length == 0xFFF) { const char *path_end; path_end = memchr(path_ptr, '\0', buffer_size); if (path_end == NULL) return 0; path_length = path_end - path_ptr; } if (entry.flags & GIT_IDXENTRY_EXTENDED) entry_size = long_entry_size(path_length); else entry_size = short_entry_size(path_length); if (INDEX_FOOTER_SIZE + entry_size > buffer_size) return 0; entry.path = (char *)path_ptr; if (index_entry_dup(out, INDEX_OWNER(index), &entry) < 0) return 0; return entry_size; } static int read_header(struct index_header *dest, const void *buffer) { const struct index_header *source = buffer; dest->signature = ntohl(source->signature); if (dest->signature != INDEX_HEADER_SIG) return index_error_invalid("incorrect header signature"); dest->version = ntohl(source->version); if (dest->version != INDEX_VERSION_NUMBER_EXT && dest->version != INDEX_VERSION_NUMBER) return index_error_invalid("incorrect header version"); dest->entry_count = ntohl(source->entry_count); return 0; } static size_t read_extension(git_index *index, const char *buffer, size_t buffer_size) { struct index_extension dest; size_t total_size; /* buffer is not guaranteed to be aligned */ memcpy(&dest, buffer, sizeof(struct index_extension)); dest.extension_size = ntohl(dest.extension_size); total_size = dest.extension_size + sizeof(struct index_extension); if (dest.extension_size > total_size || buffer_size < total_size || buffer_size - total_size < INDEX_FOOTER_SIZE) return 0; /* optional extension */ if (dest.signature[0] >= 'A' && dest.signature[0] <= 'Z') { /* tree cache */ if (memcmp(dest.signature, INDEX_EXT_TREECACHE_SIG, 4) == 0) { if (git_tree_cache_read(&index->tree, buffer + 8, dest.extension_size, &index->tree_pool) < 0) return 0; } else if (memcmp(dest.signature, INDEX_EXT_UNMERGED_SIG, 4) == 0) { if (read_reuc(index, buffer + 8, dest.extension_size) < 0) return 0; } else if (memcmp(dest.signature, INDEX_EXT_CONFLICT_NAME_SIG, 4) == 0) { if (read_conflict_names(index, buffer + 8, dest.extension_size) < 0) return 0; } /* else, unsupported extension. We cannot parse this, but we can skip * it by returning `total_size */ } else { /* we cannot handle non-ignorable extensions; * in fact they aren't even defined in the standard */ return 0; } return total_size; } static int parse_index(git_index *index, const char *buffer, size_t buffer_size) { int error = 0; unsigned int i; struct index_header header = { 0 }; git_oid checksum_calculated, checksum_expected; #define seek_forward(_increase) { \ if (_increase >= buffer_size) { \ error = index_error_invalid("ran out of data while parsing"); \ goto done; } \ buffer += _increase; \ buffer_size -= _increase;\ } if (buffer_size < INDEX_HEADER_SIZE + INDEX_FOOTER_SIZE) return index_error_invalid("insufficient buffer space"); /* Precalculate the SHA1 of the files's contents -- we'll match it to * the provided SHA1 in the footer */ git_hash_buf(&checksum_calculated, buffer, buffer_size - INDEX_FOOTER_SIZE); /* Parse header */ if ((error = read_header(&header, buffer)) < 0) return error; seek_forward(INDEX_HEADER_SIZE); if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Unable to acquire index lock"); return -1; } assert(!index->entries.length); /* Parse all the entries */ for (i = 0; i < header.entry_count && buffer_size > INDEX_FOOTER_SIZE; ++i) { git_index_entry *entry; size_t entry_size = read_entry(&entry, index, buffer, buffer_size); /* 0 bytes read means an object corruption */ if (entry_size == 0) { error = index_error_invalid("invalid entry"); goto done; } if ((error = git_vector_insert(&index->entries, entry)) < 0) { index_entry_free(entry); goto done; } seek_forward(entry_size); } if (i != header.entry_count) { error = index_error_invalid("header entries changed while parsing"); goto done; } /* There's still space for some extensions! */ while (buffer_size > INDEX_FOOTER_SIZE) { size_t extension_size; extension_size = read_extension(index, buffer, buffer_size); /* see if we have read any bytes from the extension */ if (extension_size == 0) { error = index_error_invalid("extension is truncated"); goto done; } seek_forward(extension_size); } if (buffer_size != INDEX_FOOTER_SIZE) { error = index_error_invalid( "buffer size does not match index footer size"); goto done; } /* 160-bit SHA-1 over the content of the index file before this checksum. */ git_oid_fromraw(&checksum_expected, (const unsigned char *)buffer); if (git_oid__cmp(&checksum_calculated, &checksum_expected) != 0) { error = index_error_invalid( "calculated checksum does not match expected"); goto done; } git_oid_cpy(&index->checksum, &checksum_calculated); #undef seek_forward /* Entries are stored case-sensitively on disk, so re-sort now if * in-memory index is supposed to be case-insensitive */ git_vector_set_sorted(&index->entries, !index->ignore_case); error = index_sort_if_needed(index, false); done: git_mutex_unlock(&index->lock); return error; } static bool is_index_extended(git_index *index) { size_t i, extended; git_index_entry *entry; extended = 0; git_vector_foreach(&index->entries, i, entry) { entry->flags &= ~GIT_IDXENTRY_EXTENDED; if (entry->flags_extended & GIT_IDXENTRY_EXTENDED_FLAGS) { extended++; entry->flags |= GIT_IDXENTRY_EXTENDED; } } return (extended > 0); } static int write_disk_entry(git_filebuf *file, git_index_entry *entry) { void *mem = NULL; struct entry_short *ondisk; size_t path_len, disk_size; char *path; path_len = ((struct entry_internal *)entry)->pathlen; if (entry->flags & GIT_IDXENTRY_EXTENDED) disk_size = long_entry_size(path_len); else disk_size = short_entry_size(path_len); if (git_filebuf_reserve(file, &mem, disk_size) < 0) return -1; ondisk = (struct entry_short *)mem; memset(ondisk, 0x0, disk_size); /** * Yes, we have to truncate. * * The on-disk format for Index entries clearly defines * the time and size fields to be 4 bytes each -- so even if * we store these values with 8 bytes on-memory, they must * be truncated to 4 bytes before writing to disk. * * In 2038 I will be either too dead or too rich to care about this */ ondisk->ctime.seconds = htonl((uint32_t)entry->ctime.seconds); ondisk->mtime.seconds = htonl((uint32_t)entry->mtime.seconds); ondisk->ctime.nanoseconds = htonl(entry->ctime.nanoseconds); ondisk->mtime.nanoseconds = htonl(entry->mtime.nanoseconds); ondisk->dev = htonl(entry->dev); ondisk->ino = htonl(entry->ino); ondisk->mode = htonl(entry->mode); ondisk->uid = htonl(entry->uid); ondisk->gid = htonl(entry->gid); ondisk->file_size = htonl((uint32_t)entry->file_size); git_oid_cpy(&ondisk->oid, &entry->id); ondisk->flags = htons(entry->flags); if (entry->flags & GIT_IDXENTRY_EXTENDED) { struct entry_long *ondisk_ext; ondisk_ext = (struct entry_long *)ondisk; ondisk_ext->flags_extended = htons(entry->flags_extended); path = ondisk_ext->path; } else path = ondisk->path; memcpy(path, entry->path, path_len); return 0; } static int write_entries(git_index *index, git_filebuf *file) { int error = 0; size_t i; git_vector case_sorted, *entries; git_index_entry *entry; if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Failed to lock index"); return -1; } /* If index->entries is sorted case-insensitively, then we need * to re-sort it case-sensitively before writing */ if (index->ignore_case) { git_vector_dup(&case_sorted, &index->entries, git_index_entry_cmp); git_vector_sort(&case_sorted); entries = &case_sorted; } else { entries = &index->entries; } git_vector_foreach(entries, i, entry) if ((error = write_disk_entry(file, entry)) < 0) break; git_mutex_unlock(&index->lock); if (index->ignore_case) git_vector_free(&case_sorted); return error; } static int write_extension(git_filebuf *file, struct index_extension *header, git_buf *data) { struct index_extension ondisk; memset(&ondisk, 0x0, sizeof(struct index_extension)); memcpy(&ondisk, header, 4); ondisk.extension_size = htonl(header->extension_size); git_filebuf_write(file, &ondisk, sizeof(struct index_extension)); return git_filebuf_write(file, data->ptr, data->size); } static int create_name_extension_data(git_buf *name_buf, git_index_name_entry *conflict_name) { int error = 0; if (conflict_name->ancestor == NULL) error = git_buf_put(name_buf, "\0", 1); else error = git_buf_put(name_buf, conflict_name->ancestor, strlen(conflict_name->ancestor) + 1); if (error != 0) goto on_error; if (conflict_name->ours == NULL) error = git_buf_put(name_buf, "\0", 1); else error = git_buf_put(name_buf, conflict_name->ours, strlen(conflict_name->ours) + 1); if (error != 0) goto on_error; if (conflict_name->theirs == NULL) error = git_buf_put(name_buf, "\0", 1); else error = git_buf_put(name_buf, conflict_name->theirs, strlen(conflict_name->theirs) + 1); on_error: return error; } static int write_name_extension(git_index *index, git_filebuf *file) { git_buf name_buf = GIT_BUF_INIT; git_vector *out = &index->names; git_index_name_entry *conflict_name; struct index_extension extension; size_t i; int error = 0; git_vector_foreach(out, i, conflict_name) { if ((error = create_name_extension_data(&name_buf, conflict_name)) < 0) goto done; } memset(&extension, 0x0, sizeof(struct index_extension)); memcpy(&extension.signature, INDEX_EXT_CONFLICT_NAME_SIG, 4); extension.extension_size = (uint32_t)name_buf.size; error = write_extension(file, &extension, &name_buf); git_buf_free(&name_buf); done: return error; } static int create_reuc_extension_data(git_buf *reuc_buf, git_index_reuc_entry *reuc) { int i; int error = 0; if ((error = git_buf_put(reuc_buf, reuc->path, strlen(reuc->path) + 1)) < 0) return error; for (i = 0; i < 3; i++) { if ((error = git_buf_printf(reuc_buf, "%o", reuc->mode[i])) < 0 || (error = git_buf_put(reuc_buf, "\0", 1)) < 0) return error; } for (i = 0; i < 3; i++) { if (reuc->mode[i] && (error = git_buf_put(reuc_buf, (char *)&reuc->oid[i].id, GIT_OID_RAWSZ)) < 0) return error; } return 0; } static int write_reuc_extension(git_index *index, git_filebuf *file) { git_buf reuc_buf = GIT_BUF_INIT; git_vector *out = &index->reuc; git_index_reuc_entry *reuc; struct index_extension extension; size_t i; int error = 0; git_vector_foreach(out, i, reuc) { if ((error = create_reuc_extension_data(&reuc_buf, reuc)) < 0) goto done; } memset(&extension, 0x0, sizeof(struct index_extension)); memcpy(&extension.signature, INDEX_EXT_UNMERGED_SIG, 4); extension.extension_size = (uint32_t)reuc_buf.size; error = write_extension(file, &extension, &reuc_buf); git_buf_free(&reuc_buf); done: return error; } static int write_tree_extension(git_index *index, git_filebuf *file) { struct index_extension extension; git_buf buf = GIT_BUF_INIT; int error; if (index->tree == NULL) return 0; if ((error = git_tree_cache_write(&buf, index->tree)) < 0) return error; memset(&extension, 0x0, sizeof(struct index_extension)); memcpy(&extension.signature, INDEX_EXT_TREECACHE_SIG, 4); extension.extension_size = (uint32_t)buf.size; error = write_extension(file, &extension, &buf); git_buf_free(&buf); return error; } static int write_index(git_oid *checksum, git_index *index, git_filebuf *file) { git_oid hash_final; struct index_header header; bool is_extended; uint32_t index_version_number; assert(index && file); is_extended = is_index_extended(index); index_version_number = is_extended ? INDEX_VERSION_NUMBER_EXT : INDEX_VERSION_NUMBER; header.signature = htonl(INDEX_HEADER_SIG); header.version = htonl(index_version_number); header.entry_count = htonl((uint32_t)index->entries.length); if (git_filebuf_write(file, &header, sizeof(struct index_header)) < 0) return -1; if (write_entries(index, file) < 0) return -1; /* write the tree cache extension */ if (index->tree != NULL && write_tree_extension(index, file) < 0) return -1; /* write the rename conflict extension */ if (index->names.length > 0 && write_name_extension(index, file) < 0) return -1; /* write the reuc extension */ if (index->reuc.length > 0 && write_reuc_extension(index, file) < 0) return -1; /* get out the hash for all the contents we've appended to the file */ git_filebuf_hash(&hash_final, file); git_oid_cpy(checksum, &hash_final); /* write it at the end of the file */ return git_filebuf_write(file, hash_final.id, GIT_OID_RAWSZ); } int git_index_entry_stage(const git_index_entry *entry) { return GIT_IDXENTRY_STAGE(entry); } int git_index_entry_is_conflict(const git_index_entry *entry) { return (GIT_IDXENTRY_STAGE(entry) > 0); } typedef struct read_tree_data { git_index *index; git_vector *old_entries; git_vector *new_entries; git_vector_cmp entry_cmp; git_tree_cache *tree; } read_tree_data; static int read_tree_cb( const char *root, const git_tree_entry *tentry, void *payload) { read_tree_data *data = payload; git_index_entry *entry = NULL, *old_entry; git_buf path = GIT_BUF_INIT; size_t pos; if (git_tree_entry__is_tree(tentry)) return 0; if (git_buf_joinpath(&path, root, tentry->filename) < 0) return -1; if (index_entry_create(&entry, INDEX_OWNER(data->index), path.ptr) < 0) return -1; entry->mode = tentry->attr; entry->id = tentry->oid; /* look for corresponding old entry and copy data to new entry */ if (data->old_entries != NULL && !index_find_in_entries( &pos, data->old_entries, data->entry_cmp, path.ptr, 0, 0) && (old_entry = git_vector_get(data->old_entries, pos)) != NULL && entry->mode == old_entry->mode && git_oid_equal(&entry->id, &old_entry->id)) { index_entry_cpy(entry, old_entry); entry->flags_extended = 0; } if (path.size < GIT_IDXENTRY_NAMEMASK) entry->flags = path.size & GIT_IDXENTRY_NAMEMASK; else entry->flags = GIT_IDXENTRY_NAMEMASK; git_buf_free(&path); if (git_vector_insert(data->new_entries, entry) < 0) { index_entry_free(entry); return -1; } return 0; } int git_index_read_tree(git_index *index, const git_tree *tree) { int error = 0; git_vector entries = GIT_VECTOR_INIT; read_tree_data data; git_vector_set_cmp(&entries, index->entries._cmp); /* match sort */ data.index = index; data.old_entries = &index->entries; data.new_entries = &entries; data.entry_cmp = index->entries_search; index->tree = NULL; git_pool_clear(&index->tree_pool); if (index_sort_if_needed(index, true) < 0) return -1; error = git_tree_walk(tree, GIT_TREEWALK_POST, read_tree_cb, &data); if (!error) { git_vector_sort(&entries); if ((error = git_index_clear(index)) < 0) /* well, this isn't good */; else if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Unable to acquire index lock"); error = -1; } else { git_vector_swap(&entries, &index->entries); git_mutex_unlock(&index->lock); } } git_vector_free(&entries); if (error < 0) return error; error = git_tree_cache_read_tree(&index->tree, tree, &index->tree_pool); return error; } int git_index_read_index( git_index *index, const git_index *new_index) { git_vector new_entries = GIT_VECTOR_INIT, remove_entries = GIT_VECTOR_INIT; git_iterator *index_iterator = NULL; git_iterator *new_iterator = NULL; const git_index_entry *old_entry, *new_entry; git_index_entry *entry; size_t i; int error; if ((error = git_vector_init(&new_entries, new_index->entries.length, index->entries._cmp)) < 0 || (error = git_vector_init(&remove_entries, index->entries.length, NULL)) < 0) goto done; if ((error = git_iterator_for_index(&index_iterator, index, GIT_ITERATOR_DONT_IGNORE_CASE, NULL, NULL)) < 0 || (error = git_iterator_for_index(&new_iterator, (git_index *)new_index, GIT_ITERATOR_DONT_IGNORE_CASE, NULL, NULL)) < 0) goto done; if (((error = git_iterator_current(&old_entry, index_iterator)) < 0 && error != GIT_ITEROVER) || ((error = git_iterator_current(&new_entry, new_iterator)) < 0 && error != GIT_ITEROVER)) goto done; while (true) { int diff; if (old_entry && new_entry) diff = git_index_entry_cmp(old_entry, new_entry); else if (!old_entry && new_entry) diff = 1; else if (old_entry && !new_entry) diff = -1; else break; if (diff < 0) { git_vector_insert(&remove_entries, (git_index_entry *)old_entry); } else if (diff > 0) { if ((error = index_entry_dup(&entry, git_index_owner(index), new_entry)) < 0) goto done; git_vector_insert(&new_entries, entry); } else { /* Path and stage are equal, if the OID is equal, keep it to * keep the stat cache data. */ if (git_oid_equal(&old_entry->id, &new_entry->id)) { git_vector_insert(&new_entries, (git_index_entry *)old_entry); } else { if ((error = index_entry_dup(&entry, git_index_owner(index), new_entry)) < 0) goto done; git_vector_insert(&new_entries, entry); git_vector_insert(&remove_entries, (git_index_entry *)old_entry); } } if (diff <= 0) { if ((error = git_iterator_advance(&old_entry, index_iterator)) < 0 && error != GIT_ITEROVER) goto done; } if (diff >= 0) { if ((error = git_iterator_advance(&new_entry, new_iterator)) < 0 && error != GIT_ITEROVER) goto done; } } git_index_name_clear(index); git_index_reuc_clear(index); git_vector_swap(&new_entries, &index->entries); git_vector_foreach(&remove_entries, i, entry) { if (index->tree) git_tree_cache_invalidate_path(index->tree, entry->path); index_entry_free(entry); } error = 0; done: git_vector_free(&new_entries); git_vector_free(&remove_entries); git_iterator_free(index_iterator); git_iterator_free(new_iterator); return error; } git_repository *git_index_owner(const git_index *index) { return INDEX_OWNER(index); } enum { INDEX_ACTION_NONE = 0, INDEX_ACTION_UPDATE = 1, INDEX_ACTION_REMOVE = 2, INDEX_ACTION_ADDALL = 3, }; int git_index_add_all( git_index *index, const git_strarray *paths, unsigned int flags, git_index_matched_path_cb cb, void *payload) { int error; git_repository *repo; git_iterator *wditer = NULL; git_pathspec ps; bool no_fnmatch = (flags & GIT_INDEX_ADD_DISABLE_PATHSPEC_MATCH) != 0; assert(index); repo = INDEX_OWNER(index); if ((error = git_repository__ensure_not_bare(repo, "index add all")) < 0) return error; if ((error = git_pathspec__init(&ps, paths)) < 0) return error; /* optionally check that pathspec doesn't mention any ignored files */ if ((flags & GIT_INDEX_ADD_CHECK_PATHSPEC) != 0 && (flags & GIT_INDEX_ADD_FORCE) == 0 && (error = git_ignore__check_pathspec_for_exact_ignores( repo, &ps.pathspec, no_fnmatch)) < 0) goto cleanup; error = index_apply_to_wd_diff(index, INDEX_ACTION_ADDALL, paths, flags, cb, payload); if (error) giterr_set_after_callback(error); cleanup: git_iterator_free(wditer); git_pathspec__clear(&ps); return error; } struct foreach_diff_data { git_index *index; const git_pathspec *pathspec; unsigned int flags; git_index_matched_path_cb cb; void *payload; }; static int apply_each_file(const git_diff_delta *delta, float progress, void *payload) { struct foreach_diff_data *data = payload; const char *match, *path; int error = 0; GIT_UNUSED(progress); path = delta->old_file.path; /* We only want those which match the pathspecs */ if (!git_pathspec__match( &data->pathspec->pathspec, path, false, (bool)data->index->ignore_case, &match, NULL)) return 0; if (data->cb) error = data->cb(path, match, data->payload); if (error > 0) /* skip this entry */ return 0; if (error < 0) /* actual error */ return error; /* If the workdir item does not exist, remove it from the index. */ if ((delta->new_file.flags & GIT_DIFF_FLAG_EXISTS) == 0) error = git_index_remove_bypath(data->index, path); else error = git_index_add_bypath(data->index, delta->new_file.path); return error; } static int index_apply_to_wd_diff(git_index *index, int action, const git_strarray *paths, unsigned int flags, git_index_matched_path_cb cb, void *payload) { int error; git_diff *diff; git_pathspec ps; git_repository *repo; git_diff_options opts = GIT_DIFF_OPTIONS_INIT; struct foreach_diff_data data = { index, NULL, flags, cb, payload, }; assert(index); assert(action == INDEX_ACTION_UPDATE || action == INDEX_ACTION_ADDALL); repo = INDEX_OWNER(index); if (!repo) { return create_index_error(-1, "cannot run update; the index is not backed up by a repository."); } /* * We do the matching ourselves intead of passing the list to * diff because we want to tell the callback which one * matched, which we do not know if we ask diff to filter for us. */ if ((error = git_pathspec__init(&ps, paths)) < 0) return error; opts.flags = GIT_DIFF_INCLUDE_TYPECHANGE; if (action == INDEX_ACTION_ADDALL) { opts.flags |= GIT_DIFF_INCLUDE_UNTRACKED | GIT_DIFF_RECURSE_UNTRACKED_DIRS; if (flags == GIT_INDEX_ADD_FORCE) opts.flags |= GIT_DIFF_INCLUDE_IGNORED; } if ((error = git_diff_index_to_workdir(&diff, repo, index, &opts)) < 0) goto cleanup; data.pathspec = &ps; error = git_diff_foreach(diff, apply_each_file, NULL, NULL, NULL, &data); git_diff_free(diff); if (error) /* make sure error is set if callback stopped iteration */ giterr_set_after_callback(error); cleanup: git_pathspec__clear(&ps); return error; } static int index_apply_to_all( git_index *index, int action, const git_strarray *paths, git_index_matched_path_cb cb, void *payload) { int error = 0; size_t i; git_pathspec ps; const char *match; git_buf path = GIT_BUF_INIT; assert(index); if ((error = git_pathspec__init(&ps, paths)) < 0) return error; git_vector_sort(&index->entries); for (i = 0; !error && i < index->entries.length; ++i) { git_index_entry *entry = git_vector_get(&index->entries, i); /* check if path actually matches */ if (!git_pathspec__match( &ps.pathspec, entry->path, false, (bool)index->ignore_case, &match, NULL)) continue; /* issue notification callback if requested */ if (cb && (error = cb(entry->path, match, payload)) != 0) { if (error > 0) { /* return > 0 means skip this one */ error = 0; continue; } if (error < 0) /* return < 0 means abort */ break; } /* index manipulation may alter entry, so don't depend on it */ if ((error = git_buf_sets(&path, entry->path)) < 0) break; switch (action) { case INDEX_ACTION_NONE: break; case INDEX_ACTION_UPDATE: error = git_index_add_bypath(index, path.ptr); if (error == GIT_ENOTFOUND) { giterr_clear(); error = git_index_remove_bypath(index, path.ptr); if (!error) /* back up foreach if we removed this */ i--; } break; case INDEX_ACTION_REMOVE: if (!(error = git_index_remove_bypath(index, path.ptr))) i--; /* back up foreach if we removed this */ break; default: giterr_set(GITERR_INVALID, "Unknown index action %d", action); error = -1; break; } } git_buf_free(&path); git_pathspec__clear(&ps); return error; } int git_index_remove_all( git_index *index, const git_strarray *pathspec, git_index_matched_path_cb cb, void *payload) { int error = index_apply_to_all( index, INDEX_ACTION_REMOVE, pathspec, cb, payload); if (error) /* make sure error is set if callback stopped iteration */ giterr_set_after_callback(error); return error; } int git_index_update_all( git_index *index, const git_strarray *pathspec, git_index_matched_path_cb cb, void *payload) { int error = index_apply_to_wd_diff(index, INDEX_ACTION_UPDATE, pathspec, 0, cb, payload); if (error) /* make sure error is set if callback stopped iteration */ giterr_set_after_callback(error); return error; } int git_index_snapshot_new(git_vector *snap, git_index *index) { int error; GIT_REFCOUNT_INC(index); if (git_mutex_lock(&index->lock) < 0) { giterr_set(GITERR_OS, "Failed to lock index"); return -1; } git_atomic_inc(&index->readers); git_vector_sort(&index->entries); error = git_vector_dup(snap, &index->entries, index->entries._cmp); git_mutex_unlock(&index->lock); if (error < 0) git_index_free(index); return error; } void git_index_snapshot_release(git_vector *snap, git_index *index) { git_vector_free(snap); git_atomic_dec(&index->readers); if (!git_mutex_lock(&index->lock)) { index_free_deleted(index); /* try to free pending deleted items */ git_mutex_unlock(&index->lock); } git_index_free(index); } int git_index_snapshot_find( size_t *out, git_vector *entries, git_vector_cmp entry_srch, const char *path, size_t path_len, int stage) { return index_find_in_entries(out, entries, entry_srch, path, path_len, stage); } int git_indexwriter_init( git_indexwriter *writer, git_index *index) { int error; GIT_REFCOUNT_INC(index); writer->index = index; if (!index->index_file_path) return create_index_error(-1, "Failed to write index: The index is in-memory only"); if ((error = git_filebuf_open( &writer->file, index->index_file_path, GIT_FILEBUF_HASH_CONTENTS, GIT_INDEX_FILE_MODE)) < 0) { if (error == GIT_ELOCKED) giterr_set(GITERR_INDEX, "The index is locked. This might be due to a concurrent or crashed process"); return error; } writer->should_write = 1; return 0; } int git_indexwriter_init_for_operation( git_indexwriter *writer, git_repository *repo, unsigned int *checkout_strategy) { git_index *index; int error; if ((error = git_repository_index__weakptr(&index, repo)) < 0 || (error = git_indexwriter_init(writer, index)) < 0) return error; writer->should_write = (*checkout_strategy & GIT_CHECKOUT_DONT_WRITE_INDEX) == 0; *checkout_strategy |= GIT_CHECKOUT_DONT_WRITE_INDEX; return 0; } int git_indexwriter_commit(git_indexwriter *writer) { int error; git_oid checksum = {{ 0 }}; if (!writer->should_write) return 0; if (index_sort_if_needed(writer->index, true) < 0) return -1; git_vector_sort(&writer->index->reuc); if ((error = write_index(&checksum, writer->index, &writer->file)) < 0) { git_indexwriter_cleanup(writer); return error; } if ((error = git_filebuf_commit(&writer->file)) < 0) return error; if ((error = git_futils_filestamp_check( &writer->index->stamp, writer->index->index_file_path)) < 0) { giterr_set(GITERR_OS, "Could not read index timestamp"); return -1; } writer->index->on_disk = 1; git_oid_cpy(&writer->index->checksum, &checksum); git_index_free(writer->index); writer->index = NULL; return 0; } void git_indexwriter_cleanup(git_indexwriter *writer) { git_filebuf_cleanup(&writer->file); git_index_free(writer->index); writer->index = NULL; }