/* * 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 "iterator.h" #include "tree.h" #include "ignore.h" #include "buffer.h" #include "git2/submodule.h" #include #define ITERATOR_SET_CB(P,NAME_LC) do { \ (P)->cb.current = NAME_LC ## _iterator__current; \ (P)->cb.at_end = NAME_LC ## _iterator__at_end; \ (P)->cb.advance = NAME_LC ## _iterator__advance; \ (P)->cb.seek = NAME_LC ## _iterator__seek; \ (P)->cb.reset = NAME_LC ## _iterator__reset; \ (P)->cb.free = NAME_LC ## _iterator__free; \ } while (0) #define ITERATOR_BASE_INIT(P,NAME_LC,NAME_UC) do { \ (P) = git__calloc(1, sizeof(NAME_LC ## _iterator)); \ GITERR_CHECK_ALLOC(P); \ (P)->base.type = GIT_ITERATOR_TYPE_ ## NAME_UC; \ (P)->base.cb = &(P)->cb; \ ITERATOR_SET_CB(P,NAME_LC); \ (P)->base.start = start ? git__strdup(start) : NULL; \ (P)->base.end = end ? git__strdup(end) : NULL; \ if ((start && !(P)->base.start) || (end && !(P)->base.end)) { \ git__free(P); return -1; } \ (P)->base.prefixcomp = git__prefixcmp; \ } while (0) static int iterator__reset_range( git_iterator *iter, const char *start, const char *end) { if (start) { if (iter->start) git__free(iter->start); iter->start = git__strdup(start); GITERR_CHECK_ALLOC(iter->start); } if (end) { if (iter->end) git__free(iter->end); iter->end = git__strdup(end); GITERR_CHECK_ALLOC(iter->end); } return 0; } static int iterator_update_ignore_case( git_iterator *iter, git_iterator_flag_t flags) { int error = 0, ignore_case = -1; if ((flags & GIT_ITERATOR_IGNORE_CASE) != 0) ignore_case = true; else if ((flags & GIT_ITERATOR_DONT_IGNORE_CASE) != 0) ignore_case = false; else { git_index *index; if (!(error = git_repository_index__weakptr(&index, iter->repo))) ignore_case = (index->ignore_case != false); } if (ignore_case > 0) iter->flags = (iter->flags | GIT_ITERATOR_IGNORE_CASE); else if (ignore_case == 0) iter->flags = (iter->flags & ~GIT_ITERATOR_IGNORE_CASE); iter->prefixcomp = ((iter->flags & GIT_ITERATOR_IGNORE_CASE) != 0) ? git__prefixcmp_icase : git__prefixcmp; return error; } static int empty_iterator__no_item( git_iterator *iter, const git_index_entry **entry) { GIT_UNUSED(iter); *entry = NULL; return 0; } static int empty_iterator__at_end(git_iterator *iter) { GIT_UNUSED(iter); return 1; } static int empty_iterator__reset( git_iterator *iter, const char *start, const char *end) { GIT_UNUSED(iter); GIT_UNUSED(start); GIT_UNUSED(end); return 0; } static int empty_iterator__seek(git_iterator *iter, const char *prefix) { GIT_UNUSED(iter); GIT_UNUSED(prefix); return -1; } static void empty_iterator__free(git_iterator *iter) { GIT_UNUSED(iter); } typedef struct { git_iterator base; git_iterator_callbacks cb; } empty_iterator; int git_iterator_for_nothing(git_iterator **iter, git_iterator_flag_t flags) { empty_iterator *i = git__calloc(1, sizeof(empty_iterator)); GITERR_CHECK_ALLOC(i); i->base.type = GIT_ITERATOR_TYPE_EMPTY; i->base.cb = &i->cb; i->base.flags = flags; i->cb.current = empty_iterator__no_item; i->cb.at_end = empty_iterator__at_end; i->cb.advance = empty_iterator__no_item; i->cb.seek = empty_iterator__seek; i->cb.reset = empty_iterator__reset; i->cb.free = empty_iterator__free; *iter = (git_iterator *)i; return 0; } typedef struct tree_iterator_frame tree_iterator_frame; struct tree_iterator_frame { tree_iterator_frame *next, *prev; git_tree *tree; char *start; size_t startlen; size_t index; void **icase_map; void *icase_data[GIT_FLEX_ARRAY]; }; typedef struct { git_iterator base; git_iterator_callbacks cb; tree_iterator_frame *stack, *tail; git_index_entry entry; git_buf path; bool path_has_filename; } tree_iterator; GIT_INLINE(const git_tree_entry *)tree_iterator__tree_entry(tree_iterator *ti) { tree_iterator_frame *tf = ti->stack; if (tf->index >= git_tree_entrycount(tf->tree)) return NULL; return git_tree_entry_byindex( tf->tree, tf->icase_map ? (size_t)tf->icase_map[tf->index] : tf->index); } static char *tree_iterator__current_filename( tree_iterator *ti, const git_tree_entry *te) { if (!ti->path_has_filename) { if (git_buf_joinpath(&ti->path, ti->path.ptr, te->filename) < 0) return NULL; ti->path_has_filename = true; } return ti->path.ptr; } static void tree_iterator__free_frame(tree_iterator_frame *tf) { if (!tf) return; git_tree_free(tf->tree); tf->tree = NULL; git__free(tf); } static bool tree_iterator__pop_frame(tree_iterator *ti) { tree_iterator_frame *tf = ti->stack; /* don't free the initial tree/frame */ if (!tf->next) return false; ti->stack = tf->next; ti->stack->prev = NULL; tree_iterator__free_frame(tf); return true; } static int tree_iterator__to_end(tree_iterator *ti) { while (tree_iterator__pop_frame(ti)) /* pop all */; ti->stack->index = git_tree_entrycount(ti->stack->tree); return 0; } static int tree_iterator__current( git_iterator *self, const git_index_entry **entry) { tree_iterator *ti = (tree_iterator *)self; const git_tree_entry *te = tree_iterator__tree_entry(ti); if (entry) *entry = NULL; if (te == NULL) return 0; ti->entry.mode = te->attr; git_oid_cpy(&ti->entry.oid, &te->oid); ti->entry.path = tree_iterator__current_filename(ti, te); if (ti->entry.path == NULL) return -1; if (ti->base.end && ti->base.prefixcomp(ti->entry.path, ti->base.end) > 0) return tree_iterator__to_end(ti); if (entry) *entry = &ti->entry; return 0; } static int tree_iterator__at_end(git_iterator *self) { return (tree_iterator__tree_entry((tree_iterator *)self) == NULL); } static int tree_iterator__icase_map_cmp(const void *a, const void *b, void *data) { git_tree *tree = data; const git_tree_entry *te1 = git_tree_entry_byindex(tree, (size_t)a); const git_tree_entry *te2 = git_tree_entry_byindex(tree, (size_t)b); return te1 ? (te2 ? git_tree_entry_icmp(te1, te2) : 1) : -1; } static int tree_iterator__frame_start_icmp(const void *key, const void *el) { const tree_iterator_frame *tf = (const tree_iterator_frame *)key; const git_tree_entry *te = git_tree_entry_byindex(tf->tree, (size_t)el); size_t minlen = min(tf->startlen, te->filename_len); return git__strncasecmp(tf->start, te->filename, minlen); } static void tree_iterator__frame_seek_start(tree_iterator_frame *tf) { if (!tf->start) tf->index = 0; else if (!tf->icase_map) tf->index = git_tree__prefix_position(tf->tree, tf->start); else { if (!git__bsearch( tf->icase_map, git_tree_entrycount(tf->tree), tf, tree_iterator__frame_start_icmp, &tf->index)) { while (tf->index > 0) { /* move back while previous entry is still prefixed */ if (tree_iterator__frame_start_icmp( tf, (const void *)(tf->index - 1))) break; tf->index--; } } } } static tree_iterator_frame *tree_iterator__alloc_frame( tree_iterator *ti, git_tree *tree, char *start) { size_t i, max_i = git_tree_entrycount(tree); tree_iterator_frame *tf = git__calloc(1, sizeof(tree_iterator_frame) + max_i * sizeof(void *)); if (!tf) return NULL; tf->tree = tree; if (start && *start) { tf->start = start; tf->startlen = strlen(start); } if (!max_i) return tf; if ((ti->base.flags & GIT_ITERATOR_IGNORE_CASE) != 0) { tf->icase_map = tf->icase_data; for (i = 0; i < max_i; ++i) tf->icase_map[i] = (void *)i; git__tsort_r( tf->icase_map, max_i, tree_iterator__icase_map_cmp, tf->tree); } tree_iterator__frame_seek_start(tf); return tf; } static int tree_iterator__expand_tree(tree_iterator *ti) { int error; git_tree *subtree; const git_tree_entry *te = tree_iterator__tree_entry(ti); tree_iterator_frame *tf; char *relpath; while (te != NULL && git_tree_entry__is_tree(te)) { if (git_buf_joinpath(&ti->path, ti->path.ptr, te->filename) < 0) return -1; /* check that we have not passed the range end */ if (ti->base.end != NULL && ti->base.prefixcomp(ti->path.ptr, ti->base.end) > 0) return tree_iterator__to_end(ti); if ((error = git_tree_lookup(&subtree, ti->base.repo, &te->oid)) < 0) return error; relpath = NULL; /* apply range start to new frame if relevant */ if (ti->stack->start && ti->base.prefixcomp(ti->stack->start, te->filename) == 0) { if (ti->stack->start[te->filename_len] == '/') relpath = ti->stack->start + te->filename_len + 1; } if ((tf = tree_iterator__alloc_frame(ti, subtree, relpath)) == NULL) return -1; tf->next = ti->stack; ti->stack = tf; tf->next->prev = tf; te = tree_iterator__tree_entry(ti); } return 0; } static int tree_iterator__advance( git_iterator *self, const git_index_entry **entry) { int error = 0; tree_iterator *ti = (tree_iterator *)self; const git_tree_entry *te = NULL; if (entry != NULL) *entry = NULL; if (ti->path_has_filename) { git_buf_rtruncate_at_char(&ti->path, '/'); ti->path_has_filename = false; } while (1) { ++ti->stack->index; if ((te = tree_iterator__tree_entry(ti)) != NULL) break; if (!tree_iterator__pop_frame(ti)) break; /* no frames left to pop */ git_buf_rtruncate_at_char(&ti->path, '/'); } if (te && git_tree_entry__is_tree(te)) error = tree_iterator__expand_tree(ti); if (!error) error = tree_iterator__current(self, entry); return error; } static int tree_iterator__seek(git_iterator *self, const char *prefix) { GIT_UNUSED(self); GIT_UNUSED(prefix); /* pop stack until matches prefix */ /* seek item in current frame matching prefix */ /* push stack which matches prefix */ return -1; } static void tree_iterator__free(git_iterator *self) { tree_iterator *ti = (tree_iterator *)self; while (tree_iterator__pop_frame(ti)) /* pop all */; tree_iterator__free_frame(ti->stack); ti->stack = ti->tail = NULL; git_buf_free(&ti->path); } static int tree_iterator__reset( git_iterator *self, const char *start, const char *end) { tree_iterator *ti = (tree_iterator *)self; while (tree_iterator__pop_frame(ti)) /* pop all */; if (iterator__reset_range(self, start, end) < 0) return -1; /* reset start position */ tree_iterator__frame_seek_start(ti->stack); git_buf_clear(&ti->path); ti->path_has_filename = false; return tree_iterator__expand_tree(ti); } int git_iterator_for_tree_range( git_iterator **iter, git_tree *tree, git_iterator_flag_t flags, const char *start, const char *end) { int error; tree_iterator *ti; if (tree == NULL) return git_iterator_for_nothing(iter, flags); if ((error = git_tree__dup(&tree, tree)) < 0) return error; ITERATOR_BASE_INIT(ti, tree, TREE); ti->base.repo = git_tree_owner(tree); if ((error = iterator_update_ignore_case((git_iterator *)ti, flags)) < 0) goto fail; ti->stack = ti->tail = tree_iterator__alloc_frame(ti, tree, ti->base.start); if ((error = tree_iterator__expand_tree(ti)) < 0) goto fail; *iter = (git_iterator *)ti; return 0; fail: git_iterator_free((git_iterator *)ti); return error; } typedef struct { git_iterator base; git_iterator_callbacks cb; git_index *index; size_t current; } index_iterator; static int index_iterator__current( git_iterator *self, const git_index_entry **entry) { index_iterator *ii = (index_iterator *)self; const git_index_entry *ie = git_index_get_byindex(ii->index, ii->current); if (entry) *entry = ie; return 0; } static int index_iterator__at_end(git_iterator *self) { index_iterator *ii = (index_iterator *)self; return (ii->current >= git_index_entrycount(ii->index)); } static void index_iterator__skip_conflicts( index_iterator *ii) { size_t entrycount = git_index_entrycount(ii->index); const git_index_entry *ie; while (ii->current < entrycount) { ie = git_index_get_byindex(ii->index, ii->current); if (ie == NULL || (ii->base.end != NULL && ii->base.prefixcomp(ie->path, ii->base.end) > 0)) { ii->current = entrycount; break; } if (git_index_entry_stage(ie) == 0) break; ii->current++; } } static int index_iterator__advance( git_iterator *self, const git_index_entry **entry) { index_iterator *ii = (index_iterator *)self; if (ii->current < git_index_entrycount(ii->index)) ii->current++; index_iterator__skip_conflicts(ii); return index_iterator__current(self, entry); } static int index_iterator__seek(git_iterator *self, const char *prefix) { GIT_UNUSED(self); GIT_UNUSED(prefix); /* find last item before prefix */ return -1; } static int index_iterator__reset( git_iterator *self, const char *start, const char *end) { index_iterator *ii = (index_iterator *)self; if (iterator__reset_range(self, start, end) < 0) return -1; ii->current = ii->base.start ? git_index__prefix_position(ii->index, ii->base.start) : 0; index_iterator__skip_conflicts(ii); return 0; } static void index_iterator__free(git_iterator *self) { index_iterator *ii = (index_iterator *)self; git_index_free(ii->index); ii->index = NULL; } int git_iterator_for_index_range( git_iterator **iter, git_index *index, git_iterator_flag_t flags, const char *start, const char *end) { index_iterator *ii; GIT_UNUSED(flags); ITERATOR_BASE_INIT(ii, index, INDEX); ii->base.repo = git_index_owner(index); if (index->ignore_case) { ii->base.flags |= GIT_ITERATOR_IGNORE_CASE; ii->base.prefixcomp = git__prefixcmp_icase; } ii->index = index; GIT_REFCOUNT_INC(index); index_iterator__reset((git_iterator *)ii, NULL, NULL); *iter = (git_iterator *)ii; return 0; } typedef struct workdir_iterator_frame workdir_iterator_frame; struct workdir_iterator_frame { workdir_iterator_frame *next; git_vector entries; size_t index; }; typedef struct { git_iterator base; git_iterator_callbacks cb; workdir_iterator_frame *stack; int (*entrycmp)(const void *pfx, const void *item); git_ignores ignores; git_index_entry entry; git_buf path; size_t root_len; int is_ignored; } workdir_iterator; GIT_INLINE(bool) path_is_dotgit(const git_path_with_stat *ps) { if (!ps) return false; else { const char *path = ps->path; size_t len = ps->path_len; if (len < 4) return false; if (path[len - 1] == '/') len--; if (tolower(path[len - 1]) != 't' || tolower(path[len - 2]) != 'i' || tolower(path[len - 3]) != 'g' || tolower(path[len - 4]) != '.') return false; return (len == 4 || path[len - 5] == '/'); } } static workdir_iterator_frame *workdir_iterator__alloc_frame( workdir_iterator *wi) { workdir_iterator_frame *wf = git__calloc(1, sizeof(workdir_iterator_frame)); git_vector_cmp entry_compare = CASESELECT( (wi->base.flags & GIT_ITERATOR_IGNORE_CASE) != 0, git_path_with_stat_cmp_icase, git_path_with_stat_cmp); if (wf == NULL) return NULL; if (git_vector_init(&wf->entries, 0, entry_compare) != 0) { git__free(wf); return NULL; } return wf; } static void workdir_iterator__free_frame(workdir_iterator_frame *wf) { unsigned int i; git_path_with_stat *path; git_vector_foreach(&wf->entries, i, path) git__free(path); git_vector_free(&wf->entries); git__free(wf); } static int workdir_iterator__update_entry(workdir_iterator *wi); static int workdir_iterator__entry_cmp_case(const void *pfx, const void *item) { const git_path_with_stat *ps = item; return git__prefixcmp((const char *)pfx, ps->path); } static int workdir_iterator__entry_cmp_icase(const void *pfx, const void *item) { const git_path_with_stat *ps = item; return git__prefixcmp_icase((const char *)pfx, ps->path); } static void workdir_iterator__seek_frame_start( workdir_iterator *wi, workdir_iterator_frame *wf) { if (!wf) return; if (wi->base.start) git_vector_bsearch2( &wf->index, &wf->entries, wi->entrycmp, wi->base.start); else wf->index = 0; if (path_is_dotgit(git_vector_get(&wf->entries, wf->index))) wf->index++; } static int workdir_iterator__expand_dir(workdir_iterator *wi) { int error; workdir_iterator_frame *wf = workdir_iterator__alloc_frame(wi); GITERR_CHECK_ALLOC(wf); error = git_path_dirload_with_stat( wi->path.ptr, wi->root_len, (wi->base.flags & GIT_ITERATOR_IGNORE_CASE) != 0, wi->base.start, wi->base.end, &wf->entries); if (error < 0 || wf->entries.length == 0) { workdir_iterator__free_frame(wf); return GIT_ENOTFOUND; } workdir_iterator__seek_frame_start(wi, wf); /* only push new ignores if this is not top level directory */ if (wi->stack != NULL) { ssize_t slash_pos = git_buf_rfind_next(&wi->path, '/'); (void)git_ignore__push_dir(&wi->ignores, &wi->path.ptr[slash_pos + 1]); } wf->next = wi->stack; wi->stack = wf; return workdir_iterator__update_entry(wi); } static int workdir_iterator__current( git_iterator *self, const git_index_entry **entry) { workdir_iterator *wi = (workdir_iterator *)self; *entry = (wi->entry.path == NULL) ? NULL : &wi->entry; return 0; } static int workdir_iterator__at_end(git_iterator *self) { return (((workdir_iterator *)self)->entry.path == NULL); } static int workdir_iterator__advance( git_iterator *self, const git_index_entry **entry) { int error; workdir_iterator *wi = (workdir_iterator *)self; workdir_iterator_frame *wf; git_path_with_stat *next; if (entry != NULL) *entry = NULL; if (wi->entry.path == NULL) return 0; while (1) { wf = wi->stack; next = git_vector_get(&wf->entries, ++wf->index); if (next != NULL) { /* match git's behavior of ignoring anything named ".git" */ if (path_is_dotgit(next)) continue; /* else found a good entry */ break; } /* pop stack if anything is left to pop */ if (!wf->next) { memset(&wi->entry, 0, sizeof(wi->entry)); return 0; } wi->stack = wf->next; workdir_iterator__free_frame(wf); git_ignore__pop_dir(&wi->ignores); } error = workdir_iterator__update_entry(wi); if (!error && entry != NULL) error = workdir_iterator__current(self, entry); return error; } static int workdir_iterator__seek(git_iterator *self, const char *prefix) { GIT_UNUSED(self); GIT_UNUSED(prefix); /* pop stack until matching prefix */ /* find prefix item in current frame */ /* push subdirectories as deep as possible while matching */ return 0; } static int workdir_iterator__reset( git_iterator *self, const char *start, const char *end) { workdir_iterator *wi = (workdir_iterator *)self; while (wi->stack != NULL && wi->stack->next != NULL) { workdir_iterator_frame *wf = wi->stack; wi->stack = wf->next; workdir_iterator__free_frame(wf); git_ignore__pop_dir(&wi->ignores); } if (iterator__reset_range(self, start, end) < 0) return -1; workdir_iterator__seek_frame_start(wi, wi->stack); return workdir_iterator__update_entry(wi); } static void workdir_iterator__free(git_iterator *self) { workdir_iterator *wi = (workdir_iterator *)self; while (wi->stack != NULL) { workdir_iterator_frame *wf = wi->stack; wi->stack = wf->next; workdir_iterator__free_frame(wf); } git_ignore__free(&wi->ignores); git_buf_free(&wi->path); } static int workdir_iterator__update_entry(workdir_iterator *wi) { git_path_with_stat *ps = git_vector_get(&wi->stack->entries, wi->stack->index); git_buf_truncate(&wi->path, wi->root_len); memset(&wi->entry, 0, sizeof(wi->entry)); if (!ps) return 0; if (git_buf_put(&wi->path, ps->path, ps->path_len) < 0) return -1; if (wi->base.end && wi->base.prefixcomp(wi->path.ptr + wi->root_len, wi->base.end) > 0) return 0; wi->entry.path = ps->path; /* skip over .git entries */ if (path_is_dotgit(ps)) return workdir_iterator__advance((git_iterator *)wi, NULL); wi->is_ignored = -1; git_index_entry__init_from_stat(&wi->entry, &ps->st); /* need different mode here to keep directories during iteration */ wi->entry.mode = git_futils_canonical_mode(ps->st.st_mode); /* if this is a file type we don't handle, treat as ignored */ if (wi->entry.mode == 0) { wi->is_ignored = 1; return 0; } /* detect submodules */ if (S_ISDIR(wi->entry.mode)) { int res = git_submodule_lookup(NULL, wi->base.repo, wi->entry.path); bool is_submodule = (res == 0); if (res == GIT_ENOTFOUND) giterr_clear(); /* if submodule, mark as GITLINK and remove trailing slash */ if (is_submodule) { size_t len = strlen(wi->entry.path); assert(wi->entry.path[len - 1] == '/'); wi->entry.path[len - 1] = '\0'; wi->entry.mode = S_IFGITLINK; } } return 0; } int git_iterator_for_workdir_range( git_iterator **iter, git_repository *repo, git_iterator_flag_t flags, const char *start, const char *end) { int error; workdir_iterator *wi; assert(iter && repo); if ((error = git_repository__ensure_not_bare( repo, "scan working directory")) < 0) return error; ITERATOR_BASE_INIT(wi, workdir, WORKDIR); wi->base.repo = repo; if ((error = iterator_update_ignore_case((git_iterator *)wi, flags)) < 0) goto fail; if (git_buf_sets(&wi->path, git_repository_workdir(repo)) < 0 || git_path_to_dir(&wi->path) < 0 || git_ignore__for_path(repo, "", &wi->ignores) < 0) { git__free(wi); return -1; } wi->root_len = wi->path.size; wi->entrycmp = (wi->base.flags & GIT_ITERATOR_IGNORE_CASE) != 0 ? workdir_iterator__entry_cmp_icase : workdir_iterator__entry_cmp_case; if ((error = workdir_iterator__expand_dir(wi)) < 0) { if (error != GIT_ENOTFOUND) goto fail; giterr_clear(); } *iter = (git_iterator *)wi; return 0; fail: git_iterator_free((git_iterator *)wi); return error; } typedef struct { /* replacement callbacks */ git_iterator_callbacks cb; /* original iterator values */ git_iterator_callbacks *orig; git_iterator_type_t orig_type; /* spoolandsort data */ git_vector entries; git_pool entry_pool; git_pool string_pool; size_t position; } spoolandsort_callbacks; static int spoolandsort_iterator__current( git_iterator *self, const git_index_entry **entry) { spoolandsort_callbacks *scb = (spoolandsort_callbacks *)self->cb; *entry = (const git_index_entry *) git_vector_get(&scb->entries, scb->position); return 0; } static int spoolandsort_iterator__at_end(git_iterator *self) { spoolandsort_callbacks *scb = (spoolandsort_callbacks *)self->cb; return 0 == scb->entries.length || scb->entries.length - 1 <= scb->position; } static int spoolandsort_iterator__advance( git_iterator *self, const git_index_entry **entry) { spoolandsort_callbacks *scb = (spoolandsort_callbacks *)self->cb; *entry = (const git_index_entry *) git_vector_get(&scb->entries, ++scb->position); return 0; } static int spoolandsort_iterator__seek(git_iterator *self, const char *prefix) { GIT_UNUSED(self); GIT_UNUSED(prefix); return -1; } static int spoolandsort_iterator__reset( git_iterator *self, const char *start, const char *end) { spoolandsort_callbacks *scb = (spoolandsort_callbacks *)self->cb; GIT_UNUSED(start); GIT_UNUSED(end); scb->position = 0; return 0; } static void spoolandsort_iterator__free_callbacks(spoolandsort_callbacks *scb) { git_pool_clear(&scb->string_pool); git_pool_clear(&scb->entry_pool); git_vector_free(&scb->entries); git__free(scb); } void git_iterator_spoolandsort_pop(git_iterator *self) { spoolandsort_callbacks *scb = (spoolandsort_callbacks *)self->cb; if (self->type != GIT_ITERATOR_TYPE_SPOOLANDSORT) return; self->cb = scb->orig; self->type = scb->orig_type; self->flags ^= GIT_ITERATOR_IGNORE_CASE; spoolandsort_iterator__free_callbacks(scb); } static void spoolandsort_iterator__free(git_iterator *self) { git_iterator_spoolandsort_pop(self); self->cb->free(self); } int git_iterator_spoolandsort_push(git_iterator *iter, bool ignore_case) { const git_index_entry *item; spoolandsort_callbacks *scb; int (*entrycomp)(const void *a, const void *b); if (((iter->flags & GIT_ITERATOR_IGNORE_CASE) != 0) == (ignore_case != 0)) return 0; if (iter->type == GIT_ITERATOR_TYPE_EMPTY) { iter->flags = (iter->flags ^ GIT_ITERATOR_IGNORE_CASE); return 0; } scb = git__calloc(1, sizeof(spoolandsort_callbacks)); GITERR_CHECK_ALLOC(scb); ITERATOR_SET_CB(scb,spoolandsort); scb->orig = iter->cb; scb->orig_type = iter->type; scb->position = 0; entrycomp = ignore_case ? git_index_entry__cmp_icase : git_index_entry__cmp; if (git_vector_init(&scb->entries, 16, entrycomp) < 0 || git_pool_init(&scb->entry_pool, sizeof(git_index_entry), 0) < 0 || git_pool_init(&scb->string_pool, 1, 0) < 0 || git_iterator_current(iter, &item) < 0) goto fail; while (item) { git_index_entry *clone = git_pool_malloc(&scb->entry_pool, 1); if (!clone) goto fail; memcpy(clone, item, sizeof(git_index_entry)); if (item->path) { clone->path = git_pool_strdup(&scb->string_pool, item->path); if (!clone->path) goto fail; } if (git_vector_insert(&scb->entries, clone) < 0) goto fail; if (git_iterator_advance(iter, &item) < 0) goto fail; } git_vector_sort(&scb->entries); iter->cb = (git_iterator_callbacks *)scb; iter->type = GIT_ITERATOR_TYPE_SPOOLANDSORT; iter->flags ^= GIT_ITERATOR_IGNORE_CASE; return 0; fail: spoolandsort_iterator__free_callbacks(scb); return -1; } void git_iterator_free(git_iterator *iter) { if (iter == NULL) return; iter->cb->free(iter); git__free(iter->start); git__free(iter->end); memset(iter, 0, sizeof(*iter)); git__free(iter); } git_index *git_iterator_index_get_index(git_iterator *iter) { if (iter->type == GIT_ITERATOR_TYPE_INDEX) return ((index_iterator *)iter)->index; if (iter->type == GIT_ITERATOR_TYPE_SPOOLANDSORT && ((spoolandsort_callbacks *)iter->cb)->orig_type == GIT_ITERATOR_TYPE_INDEX) return ((index_iterator *)iter)->index; return NULL; } git_iterator_type_t git_iterator_inner_type(git_iterator *iter) { if (iter->type == GIT_ITERATOR_TYPE_SPOOLANDSORT) return ((spoolandsort_callbacks *)iter->cb)->orig_type; return iter->type; } int git_iterator_current_tree_entry( git_iterator *iter, const git_tree_entry **tree_entry) { *tree_entry = (iter->type != GIT_ITERATOR_TYPE_TREE) ? NULL : tree_iterator__tree_entry((tree_iterator *)iter); return 0; } int git_iterator_current_parent_tree( git_iterator *iter, const char *parent_path, const git_tree **tree_ptr) { tree_iterator *ti = (tree_iterator *)iter; tree_iterator_frame *tf; const char *scan = parent_path; int (*strncomp)(const char *a, const char *b, size_t sz); if (iter->type != GIT_ITERATOR_TYPE_TREE || ti->stack == NULL) goto notfound; strncomp = ((iter->flags & GIT_ITERATOR_IGNORE_CASE) != 0) ? git__strncasecmp : git__strncmp; for (tf = ti->tail; tf != NULL; tf = tf->prev) { const git_tree_entry *te; if (!*scan) { *tree_ptr = tf->tree; return 0; } te = git_tree_entry_byindex(tf->tree, tf->icase_map ? (size_t)tf->icase_map[tf->index] : tf->index); if (strncomp(scan, te->filename, te->filename_len) != 0) goto notfound; scan += te->filename_len; if (*scan) { if (*scan != '/') goto notfound; scan++; } } notfound: *tree_ptr = NULL; return 0; } int git_iterator_current_is_ignored(git_iterator *iter) { workdir_iterator *wi = (workdir_iterator *)iter; if (iter->type != GIT_ITERATOR_TYPE_WORKDIR) return 0; if (wi->is_ignored != -1) return wi->is_ignored; if (git_ignore__lookup(&wi->ignores, wi->entry.path, &wi->is_ignored) < 0) wi->is_ignored = 1; return wi->is_ignored; } int git_iterator_advance_into_directory( git_iterator *iter, const git_index_entry **entry) { workdir_iterator *wi = (workdir_iterator *)iter; if (iter->type == GIT_ITERATOR_TYPE_WORKDIR && wi->entry.path && (wi->entry.mode == GIT_FILEMODE_TREE || wi->entry.mode == GIT_FILEMODE_COMMIT)) { if (workdir_iterator__expand_dir(wi) < 0) /* if error loading or if empty, skip the directory. */ return workdir_iterator__advance(iter, entry); } return entry ? git_iterator_current(iter, entry) : 0; } int git_iterator_cmp(git_iterator *iter, const char *path_prefix) { const git_index_entry *entry; /* a "done" iterator is after every prefix */ if (git_iterator_current(iter, &entry) < 0 || entry == NULL) return 1; /* a NULL prefix is after any valid iterator */ if (!path_prefix) return -1; return iter->prefixcomp(entry->path, path_prefix); } int git_iterator_current_workdir_path(git_iterator *iter, git_buf **path) { workdir_iterator *wi = (workdir_iterator *)iter; if (iter->type != GIT_ITERATOR_TYPE_WORKDIR || !wi->entry.path) *path = NULL; else *path = &wi->path; return 0; }