Hash :
7af26f8f
Author :
Date :
2011-12-14T03:24:16
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/*
* Copyright (C) 2009-2011 the libgit2 contributors
*
* 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 "common.h"
#include "commit.h"
#include "tree.h"
#include "git2/repository.h"
#include "git2/object.h"
#define DEFAULT_TREE_SIZE 16
#define MAX_FILEMODE 0777777
#define MAX_FILEMODE_BYTES 6
#define ENTRY_IS_TREE(e) ((e)->attr & 040000)
static int valid_attributes(const int attributes)
{
return attributes >= 0 && attributes <= MAX_FILEMODE;
}
static int valid_entry_name(const char *filename)
{
return strlen(filename) > 0 && strchr(filename, '/') == NULL;
}
static int entry_sort_cmp(const void *a, const void *b)
{
const git_tree_entry *entry_a = (const git_tree_entry *)(a);
const git_tree_entry *entry_b = (const git_tree_entry *)(b);
return git_futils_cmp_path(
entry_a->filename, entry_a->filename_len, ENTRY_IS_TREE(entry_a),
entry_b->filename, entry_b->filename_len, ENTRY_IS_TREE(entry_b));
}
struct tree_key_search {
const char *filename;
size_t filename_len;
};
static int homing_search_cmp(const void *key, const void *array_member)
{
const struct tree_key_search *ksearch = key;
const git_tree_entry *entry = array_member;
const size_t len1 = ksearch->filename_len;
const size_t len2 = entry->filename_len;
return memcmp(
ksearch->filename,
entry->filename,
len1 < len2 ? len1 : len2
);
}
/*
* Search for an entry in a given tree.
*
* Note that this search is performed in two steps because
* of the way tree entries are sorted internally in git:
*
* Entries in a tree are not sorted alphabetically; two entries
* with the same root prefix will have different positions
* depending on whether they are folders (subtrees) or normal files.
*
* Consequently, it is not possible to find an entry on the tree
* with a binary search if you don't know whether the filename
* you're looking for is a folder or a normal file.
*
* To work around this, we first perform a homing binary search
* on the tree, using the minimal length root prefix of our filename.
* Once the comparisons for this homing search start becoming
* ambiguous because of folder vs file sorting, we look linearly
* around the area for our target file.
*/
static int tree_key_search(git_vector *entries, const char *filename)
{
struct tree_key_search ksearch;
const git_tree_entry *entry;
int homing, i;
ksearch.filename = filename;
ksearch.filename_len = strlen(filename);
/* Initial homing search; find an entry on the tree with
* the same prefix as the filename we're looking for */
homing = git_vector_bsearch2(entries, &homing_search_cmp, &ksearch);
if (homing < 0)
return homing;
/* We found a common prefix. Look forward as long as
* there are entries that share the common prefix */
for (i = homing; i < (int)entries->length; ++i) {
entry = entries->contents[i];
if (homing_search_cmp(&ksearch, entry) != 0)
break;
if (strcmp(filename, entry->filename) == 0)
return i;
}
/* If we haven't found our filename yet, look backwards
* too as long as we have entries with the same prefix */
for (i = homing - 1; i >= 0; --i) {
entry = entries->contents[i];
if (homing_search_cmp(&ksearch, entry) != 0)
break;
if (strcmp(filename, entry->filename) == 0)
return i;
}
/* The filename doesn't exist at all */
return GIT_ENOTFOUND;
}
void git_tree__free(git_tree *tree)
{
unsigned int i;
for (i = 0; i < tree->entries.length; ++i) {
git_tree_entry *e;
e = git_vector_get(&tree->entries, i);
git__free(e->filename);
git__free(e);
}
git_vector_free(&tree->entries);
git__free(tree);
}
const git_oid *git_tree_id(git_tree *c)
{
return git_object_id((git_object *)c);
}
unsigned int git_tree_entry_attributes(const git_tree_entry *entry)
{
return entry->attr;
}
const char *git_tree_entry_name(const git_tree_entry *entry)
{
assert(entry);
return entry->filename;
}
const git_oid *git_tree_entry_id(const git_tree_entry *entry)
{
assert(entry);
return &entry->oid;
}
git_otype git_tree_entry_type(const git_tree_entry *entry)
{
assert(entry);
if (S_ISGITLINK(entry->attr))
return GIT_OBJ_COMMIT;
else if (S_ISDIR(entry->attr))
return GIT_OBJ_TREE;
else
return GIT_OBJ_BLOB;
}
int git_tree_entry_2object(git_object **object_out, git_repository *repo, const git_tree_entry *entry)
{
assert(entry && object_out);
return git_object_lookup(object_out, repo, &entry->oid, GIT_OBJ_ANY);
}
const git_tree_entry *git_tree_entry_byname(git_tree *tree, const char *filename)
{
int idx;
assert(tree && filename);
idx = tree_key_search(&tree->entries, filename);
if (idx == GIT_ENOTFOUND)
return NULL;
return git_vector_get(&tree->entries, idx);
}
const git_tree_entry *git_tree_entry_byindex(git_tree *tree, unsigned int idx)
{
assert(tree);
return git_vector_get(&tree->entries, idx);
}
unsigned int git_tree_entrycount(git_tree *tree)
{
assert(tree);
return tree->entries.length;
}
static int tree_parse_buffer(git_tree *tree, const char *buffer, const char *buffer_end)
{
int error = GIT_SUCCESS;
if (git_vector_init(&tree->entries, DEFAULT_TREE_SIZE, entry_sort_cmp) < GIT_SUCCESS)
return GIT_ENOMEM;
while (buffer < buffer_end) {
git_tree_entry *entry;
int tmp;
entry = git__calloc(1, sizeof(git_tree_entry));
if (entry == NULL) {
error = GIT_ENOMEM;
break;
}
if (git_vector_insert(&tree->entries, entry) < GIT_SUCCESS)
return GIT_ENOMEM;
if (git__strtol32(&tmp, buffer, &buffer, 8) < GIT_SUCCESS ||
!buffer || !valid_attributes(tmp))
return git__throw(GIT_EOBJCORRUPTED, "Failed to parse tree. Can't parse attributes");
entry->attr = tmp;
if (*buffer++ != ' ') {
error = git__throw(GIT_EOBJCORRUPTED, "Failed to parse tree. Object it corrupted");
break;
}
if (memchr(buffer, 0, buffer_end - buffer) == NULL) {
error = git__throw(GIT_EOBJCORRUPTED, "Failed to parse tree. Object it corrupted");
break;
}
entry->filename = git__strdup(buffer);
entry->filename_len = strlen(buffer);
while (buffer < buffer_end && *buffer != 0)
buffer++;
buffer++;
git_oid_fromraw(&entry->oid, (const unsigned char *)buffer);
buffer += GIT_OID_RAWSZ;
}
return error == GIT_SUCCESS ? GIT_SUCCESS : git__rethrow(error, "Failed to parse buffer");
}
int git_tree__parse(git_tree *tree, git_odb_object *obj)
{
assert(tree);
return tree_parse_buffer(tree, (char *)obj->raw.data, (char *)obj->raw.data + obj->raw.len);
}
static unsigned int find_next_dir(const char *dirname, git_index *index, unsigned int start)
{
unsigned int i, entries = git_index_entrycount(index);
size_t dirlen;
dirlen = strlen(dirname);
for (i = start; i < entries; ++i) {
git_index_entry *entry = git_index_get(index, i);
if (strlen(entry->path) < dirlen ||
memcmp(entry->path, dirname, dirlen) ||
(dirlen > 0 && entry->path[dirlen] != '/')) {
break;
}
}
return i;
}
static int append_entry(git_treebuilder *bld, const char *filename, const git_oid *id, unsigned int attributes)
{
git_tree_entry *entry;
if ((entry = git__malloc(sizeof(git_tree_entry))) == NULL)
return GIT_ENOMEM;
memset(entry, 0x0, sizeof(git_tree_entry));
entry->filename = git__strdup(filename);
entry->filename_len = strlen(entry->filename);
bld->entry_count++;
git_oid_cpy(&entry->oid, id);
entry->attr = attributes;
if (git_vector_insert(&bld->entries, entry) < 0)
return GIT_ENOMEM;
return GIT_SUCCESS;
}
static int write_tree(
git_oid *oid,
git_repository *repo,
git_index *index,
const char *dirname,
unsigned int start)
{
git_treebuilder *bld = NULL;
unsigned int i, entries = git_index_entrycount(index);
int error;
size_t dirname_len = strlen(dirname);
const git_tree_cache *cache;
cache = git_tree_cache_get(index->tree, dirname);
if (cache != NULL && cache->entries >= 0){
git_oid_cpy(oid, &cache->oid);
return find_next_dir(dirname, index, start);
}
error = git_treebuilder_create(&bld, NULL);
if (bld == NULL) {
return GIT_ENOMEM;
}
/*
* This loop is unfortunate, but necessary. The index doesn't have
* any directores, so we need to handle that manually, and we
* need to keep track of the current position.
*/
for (i = start; i < entries; ++i) {
git_index_entry *entry = git_index_get(index, i);
char *filename, *next_slash;
/*
* If we've left our (sub)tree, exit the loop and return. The
* first check is an early out (and security for the
* third). The second check is a simple prefix comparison. The
* third check catches situations where there is a directory
* win32/sys and a file win32mmap.c. Without it, the following
* code believes there is a file win32/mmap.c
*/
if (strlen(entry->path) < dirname_len ||
memcmp(entry->path, dirname, dirname_len) ||
(dirname_len > 0 && entry->path[dirname_len] != '/')) {
break;
}
filename = entry->path + dirname_len;
if (*filename == '/')
filename++;
next_slash = strchr(filename, '/');
if (next_slash) {
git_oid sub_oid;
int written;
char *subdir, *last_comp;
subdir = git__strndup(entry->path, next_slash - entry->path);
if (subdir == NULL) {
error = GIT_ENOMEM;
goto cleanup;
}
/* Write out the subtree */
written = write_tree(&sub_oid, repo, index, subdir, i);
if (written < 0) {
error = git__rethrow(written, "Failed to write subtree %s", subdir);
} else {
i = written - 1; /* -1 because of the loop increment */
}
/*
* We need to figure out what we want toinsert
* into this tree. If we're traversing
* deps/zlib/, then we only want to write
* 'zlib' into the tree.
*/
last_comp = strrchr(subdir, '/');
if (last_comp) {
last_comp++; /* Get rid of the '/' */
} else {
last_comp = subdir;
}
error = append_entry(bld, last_comp, &sub_oid, S_IFDIR);
git__free(subdir);
if (error < GIT_SUCCESS) {
error = git__rethrow(error, "Failed to insert dir");
goto cleanup;
}
} else {
error = append_entry(bld, filename, &entry->oid, entry->mode);
if (error < GIT_SUCCESS) {
error = git__rethrow(error, "Failed to insert file");
}
}
}
error = git_treebuilder_write(oid, repo, bld);
if (error < GIT_SUCCESS)
error = git__rethrow(error, "Failed to write tree to db");
cleanup:
git_treebuilder_free(bld);
if (error < GIT_SUCCESS)
return error;
else
return i;
}
int git_tree_create_fromindex(git_oid *oid, git_index *index)
{
git_repository *repo;
int error;
repo = (git_repository *)GIT_REFCOUNT_OWNER(index);
if (repo == NULL)
return git__throw(GIT_EBAREINDEX,
"Failed to create tree. "
"The index file is not backed up by an existing repository");
if (index->tree != NULL && index->tree->entries >= 0) {
git_oid_cpy(oid, &index->tree->oid);
return GIT_SUCCESS;
}
/* The tree cache didn't help us */
error = write_tree(oid, repo, index, "", 0);
return (error < GIT_SUCCESS) ? git__rethrow(error, "Failed to create tree") : GIT_SUCCESS;
}
static void sort_entries(git_treebuilder *bld)
{
git_vector_sort(&bld->entries);
}
int git_treebuilder_create(git_treebuilder **builder_p, const git_tree *source)
{
git_treebuilder *bld;
unsigned int i, source_entries = DEFAULT_TREE_SIZE;
assert(builder_p);
bld = git__calloc(1, sizeof(git_treebuilder));
if (bld == NULL)
return GIT_ENOMEM;
if (source != NULL)
source_entries = source->entries.length;
if (git_vector_init(&bld->entries, source_entries, entry_sort_cmp) < GIT_SUCCESS) {
git__free(bld);
return GIT_ENOMEM;
}
if (source != NULL) {
for (i = 0; i < source->entries.length; ++i) {
git_tree_entry *entry_src = source->entries.contents[i];
if (append_entry(bld, entry_src->filename, &entry_src->oid, entry_src->attr) < 0) {
git_treebuilder_free(bld);
return GIT_ENOMEM;
}
}
}
*builder_p = bld;
return GIT_SUCCESS;
}
int git_treebuilder_insert(git_tree_entry **entry_out, git_treebuilder *bld, const char *filename, const git_oid *id, unsigned int attributes)
{
git_tree_entry *entry;
int pos;
assert(bld && id && filename);
if (!valid_attributes(attributes))
return git__throw(GIT_ERROR, "Failed to insert entry. Invalid attributes");
if (!valid_entry_name(filename))
return git__throw(GIT_ERROR, "Failed to insert entry. Invalid name for a tree entry");
pos = tree_key_search(&bld->entries, filename);
if (pos >= 0) {
entry = git_vector_get(&bld->entries, pos);
if (entry->removed) {
entry->removed = 0;
bld->entry_count++;
}
} else {
if ((entry = git__malloc(sizeof(git_tree_entry))) == NULL)
return GIT_ENOMEM;
memset(entry, 0x0, sizeof(git_tree_entry));
entry->filename = git__strdup(filename);
entry->filename_len = strlen(entry->filename);
bld->entry_count++;
}
git_oid_cpy(&entry->oid, id);
entry->attr = attributes;
if (pos == GIT_ENOTFOUND) {
if (git_vector_insert(&bld->entries, entry) < 0)
return GIT_ENOMEM;
}
if (entry_out != NULL)
*entry_out = entry;
return GIT_SUCCESS;
}
static git_tree_entry *treebuilder_get(git_treebuilder *bld, const char *filename)
{
int idx;
git_tree_entry *entry;
assert(bld && filename);
idx = tree_key_search(&bld->entries, filename);
if (idx < 0)
return NULL;
entry = git_vector_get(&bld->entries, idx);
if (entry->removed)
return NULL;
return entry;
}
const git_tree_entry *git_treebuilder_get(git_treebuilder *bld, const char *filename)
{
return treebuilder_get(bld, filename);
}
int git_treebuilder_remove(git_treebuilder *bld, const char *filename)
{
git_tree_entry *remove_ptr = treebuilder_get(bld, filename);
if (remove_ptr == NULL || remove_ptr->removed)
return git__throw(GIT_ENOTFOUND, "Failed to remove entry. File isn't in the tree");
remove_ptr->removed = 1;
bld->entry_count--;
return GIT_SUCCESS;
}
int git_treebuilder_write(git_oid *oid, git_repository *repo, git_treebuilder *bld)
{
unsigned int i;
int error;
git_buf tree = GIT_BUF_INIT;
git_odb *odb;
assert(bld);
sort_entries(bld);
/* Grow the buffer beforehand to an estimated size */
git_buf_grow(&tree, bld->entries.length * 72);
for (i = 0; i < bld->entries.length; ++i) {
git_tree_entry *entry = bld->entries.contents[i];
if (entry->removed)
continue;
git_buf_printf(&tree, "%o ", entry->attr);
git_buf_put(&tree, entry->filename, entry->filename_len + 1);
git_buf_put(&tree, (char *)entry->oid.id, GIT_OID_RAWSZ);
}
if ((error = git_buf_lasterror(&tree)) < GIT_SUCCESS) {
git_buf_free(&tree);
return git__rethrow(error, "Not enough memory to build the tree data");
}
error = git_repository_odb__weakptr(&odb, repo);
if (error < GIT_SUCCESS) {
git_buf_free(&tree);
return error;
}
error = git_odb_write(oid, odb, tree.ptr, tree.size, GIT_OBJ_TREE);
git_buf_free(&tree);
return error == GIT_SUCCESS ? GIT_SUCCESS : git__rethrow(error, "Failed to write tree");
}
void git_treebuilder_filter(git_treebuilder *bld, int (*filter)(const git_tree_entry *, void *), void *payload)
{
unsigned int i;
assert(bld && filter);
for (i = 0; i < bld->entries.length; ++i) {
git_tree_entry *entry = bld->entries.contents[i];
if (!entry->removed && filter(entry, payload))
entry->removed = 1;
}
}
void git_treebuilder_clear(git_treebuilder *bld)
{
unsigned int i;
assert(bld);
for (i = 0; i < bld->entries.length; ++i) {
git_tree_entry *e = bld->entries.contents[i];
git__free(e->filename);
git__free(e);
}
git_vector_clear(&bld->entries);
}
void git_treebuilder_free(git_treebuilder *bld)
{
git_treebuilder_clear(bld);
git_vector_free(&bld->entries);
git__free(bld);
}
static int tree_frompath(
git_tree **parent_out,
git_tree *root,
git_buf *treeentry_path,
int offset)
{
char *slash_pos = NULL;
const git_tree_entry* entry;
int error = GIT_SUCCESS;
git_tree *subtree;
if (!*(treeentry_path->ptr + offset))
return git__rethrow(GIT_EINVALIDPATH,
"Invalid relative path to a tree entry '%s'.", treeentry_path->ptr);
slash_pos = (char *)strchr(treeentry_path->ptr + offset, '/');
if (slash_pos == NULL)
return git_tree_lookup(
parent_out,
root->object.repo,
git_object_id((const git_object *)root)
);
if (slash_pos == treeentry_path->ptr + offset)
return git__rethrow(GIT_EINVALIDPATH,
"Invalid relative path to a tree entry '%s'.", treeentry_path->ptr);
*slash_pos = '\0';
entry = git_tree_entry_byname(root, treeentry_path->ptr + offset);
if (slash_pos != NULL)
*slash_pos = '/';
if (entry == NULL)
return git__rethrow(GIT_ENOTFOUND,
"No tree entry can be found from "
"the given tree and relative path '%s'.", treeentry_path->ptr);
error = git_tree_lookup(&subtree, root->object.repo, &entry->oid);
if (error < GIT_SUCCESS)
return error;
error = tree_frompath(
parent_out,
subtree,
treeentry_path,
(slash_pos - treeentry_path->ptr) + 1
);
git_tree_free(subtree);
return error;
}
int git_tree_get_subtree(
git_tree **subtree,
git_tree *root,
const char *subtree_path)
{
int error;
git_buf buffer = GIT_BUF_INIT;
assert(subtree && root && subtree_path);
if ((error = git_buf_sets(&buffer, subtree_path)) == GIT_SUCCESS)
error = tree_frompath(subtree, root, &buffer, 0);
git_buf_free(&buffer);
return error;
}
static int tree_walk_post(
git_tree *tree,
git_treewalk_cb callback,
git_buf *path,
void *payload)
{
int error = GIT_SUCCESS;
unsigned int i;
for (i = 0; i < tree->entries.length; ++i) {
git_tree_entry *entry = tree->entries.contents[i];
if (callback(path->ptr, entry, payload) < 0)
continue;
if (ENTRY_IS_TREE(entry)) {
git_tree *subtree;
size_t path_len = path->size;
if ((error = git_tree_lookup(
&subtree, tree->object.repo, &entry->oid)) < 0)
break;
/* append the next entry to the path */
git_buf_puts(path, entry->filename);
git_buf_putc(path, '/');
if ((error = git_buf_lasterror(path)) < GIT_SUCCESS)
break;
error = tree_walk_post(subtree, callback, path, payload);
if (error < GIT_SUCCESS)
break;
git_buf_truncate(path, path_len);
git_tree_free(subtree);
}
}
return error;
}
int git_tree_walk(git_tree *tree, git_treewalk_cb callback, int mode, void *payload)
{
int error = GIT_SUCCESS;
git_buf root_path = GIT_BUF_INIT;
switch (mode) {
case GIT_TREEWALK_POST:
error = tree_walk_post(tree, callback, &root_path, payload);
break;
case GIT_TREEWALK_PRE:
error = git__throw(GIT_ENOTIMPLEMENTED,
"Preorder tree walking is still not implemented");
break;
default:
error = git__throw(GIT_EINVALIDARGS,
"Invalid walking mode for tree walk");
break;
}
git_buf_free(&root_path);
return error;
}
static int tree_entry_cmp(const git_tree_entry *a, const git_tree_entry *b)
{
int ret;
ret = a->attr - b->attr;
if (ret != 0)
return ret;
return git_oid_cmp(&a->oid, &b->oid);
}
static void mark_del(git_tree_diff_data *diff, git_tree_entry *entry)
{
diff->old_attr = entry->attr;
git_oid_cpy(&diff->old_oid, &entry->oid);
diff->path = entry->filename;
diff->status |= GIT_STATUS_DELETED;
}
static void mark_add(git_tree_diff_data *diff, git_tree_entry *entry)
{
diff->new_attr = entry->attr;
git_oid_cpy(&diff->new_oid, &entry->oid);
diff->path = entry->filename;
diff->status |= GIT_STATUS_ADDED;
}
static int signal_additions(git_tree *tree, int start, int end, git_tree_diff_cb cb, void *data)
{
git_tree_diff_data diff;
git_tree_entry *entry;
int i, error;
if (end < 0)
end = git_tree_entrycount(tree);
for (i = start; i < end; ++i) {
memset(&diff, 0x0, sizeof(git_tree_diff_data));
entry = git_vector_get(&tree->entries, i);
mark_add(&diff, entry);
error = cb(&diff, data);
if (error < GIT_SUCCESS)
return error;
}
return GIT_SUCCESS;
}
static int signal_addition(git_tree_entry *entry, git_tree_diff_cb cb, void *data)
{
git_tree_diff_data diff;
memset(&diff, 0x0, sizeof(git_tree_diff_data));
mark_add(&diff, entry);
return cb(&diff, data);
}
static int signal_deletions(git_tree *tree, int start, int end, git_tree_diff_cb cb, void *data)
{
git_tree_diff_data diff;
git_tree_entry *entry;
int i, error;
if (end < 0)
end = git_tree_entrycount(tree);
for (i = start; i < end; ++i) {
memset(&diff, 0x0, sizeof(git_tree_diff_data));
entry = git_vector_get(&tree->entries, i);
mark_del(&diff, entry);
error = cb(&diff, data);
if (error < GIT_SUCCESS)
return error;
}
return GIT_SUCCESS;
}
static int signal_deletion(git_tree_entry *entry, git_tree_diff_cb cb, void *data)
{
git_tree_diff_data diff;
memset(&diff, 0x0, sizeof(git_tree_diff_data));
mark_del(&diff, entry);
return cb(&diff, data);
}
static int signal_modification(git_tree_entry *a, git_tree_entry *b,
git_tree_diff_cb cb, void *data)
{
git_tree_diff_data diff;
memset(&diff, 0x0, sizeof(git_tree_diff_data));
mark_del(&diff, a);
mark_add(&diff, b);
return cb(&diff, data);
}
int git_tree_diff(git_tree *a, git_tree *b, git_tree_diff_cb cb, void *data)
{
unsigned int i_a = 0, i_b = 0; /* Counters for trees a and b */
git_tree_entry *entry_a = NULL, *entry_b = NULL;
git_tree_diff_data diff;
int error = GIT_SUCCESS, cmp;
while (1) {
entry_a = a == NULL ? NULL : git_vector_get(&a->entries, i_a);
entry_b = b == NULL ? NULL : git_vector_get(&b->entries, i_b);
if (!entry_a && !entry_b)
goto exit;
memset(&diff, 0x0, sizeof(git_tree_diff_data));
/*
* We've run out of tree on one side so the rest of the
* entries on the tree with remaining entries are all
* deletions or additions.
*/
if (entry_a && !entry_b)
return signal_deletions(a, i_a, -1, cb, data);
if (!entry_a && entry_b)
return signal_additions(b, i_b, -1, cb, data);
/*
* Both trees are sorted with git's almost-alphabetical
* sorting, so a comparison value < 0 means the entry was
* deleted in the right tree. > 0 means the entry was added.
*/
cmp = entry_sort_cmp(entry_a, entry_b);
if (cmp == 0) {
i_a++;
i_b++;
/* If everything's the same, jump to next pair */
if (!tree_entry_cmp(entry_a, entry_b))
continue;
/* If they're not both dirs or both files, it's add + del */
if (S_ISDIR(entry_a->attr) != S_ISDIR(entry_b->attr)) {
if ((error = signal_addition(entry_a, cb, data)) < 0)
goto exit;
if ((error = signal_deletion(entry_b, cb, data)) < 0)
goto exit;
}
/* Otherwise consider it a modification */
if ((error = signal_modification(entry_a, entry_b, cb, data)) < 0)
goto exit;
} else if (cmp < 0) {
i_a++;
if ((error = signal_deletion(entry_a, cb, data)) < 0)
goto exit;
} else if (cmp > 0) {
i_b++;
if ((error = signal_addition(entry_b, cb, data)) < 0)
goto exit;
}
}
exit:
return error;
}
struct diff_index_cbdata {
git_index *index;
unsigned int i;
git_tree_diff_cb cb;
void *data;
};
static int cmp_tentry_ientry(git_tree_entry *tentry, git_index_entry *ientry)
{
int cmp;
cmp = tentry->attr - ientry->mode;
if (cmp != 0)
return cmp;
return git_oid_cmp(&tentry->oid, &ientry->oid);
}
static void make_tentry(git_tree_entry *tentry, git_index_entry *ientry, git_buf *buf)
{
memset(tentry, 0x0, sizeof(git_tree_entry));
tentry->attr = ientry->mode;
git_oid_cpy(&tentry->oid, &ientry->oid);
if (buf != NULL) {
tentry->filename = buf->ptr;
tentry->filename_len = buf->size;
}
}
static int diff_index_cb(const char *root, git_tree_entry *tentry, void *data)
{
struct diff_index_cbdata *cbdata = (struct diff_index_cbdata *) data;
git_index_entry *ientry = git_index_get(cbdata->index, cbdata->i);
git_tree_entry fake_entry;
git_buf fn_buf = GIT_BUF_INIT;
int cmp, error = GIT_SUCCESS;
if (ENTRY_IS_TREE(tentry))
return GIT_SUCCESS;
git_buf_puts(&fn_buf, root);
git_buf_puts(&fn_buf, tentry->filename);
if (!ientry) {
error = signal_deletion(tentry, cbdata->cb, cbdata->data);
goto exit;
}
/* Like with 'git diff-index', the index is the right side*/
cmp = strcmp(git_buf_cstr(&fn_buf), ientry->path);
if (cmp == 0) {
cbdata->i++;
if (!cmp_tentry_ientry(tentry, ientry))
goto exit;
/* modification */
make_tentry(&fake_entry, ientry, &fn_buf);
if ((error = signal_modification(tentry, &fake_entry, cbdata->cb, cbdata->data)) < 0)
goto exit;
} else if (cmp < 0) {
/* deletion */
memcpy(&fake_entry, tentry, sizeof(git_tree_entry));
fake_entry.filename = fn_buf.ptr;
fake_entry.filename_len = fn_buf.size;
if ((error = signal_deletion(tentry, cbdata->cb, cbdata->data)) < 0)
goto exit;
} else {
/* addition */
cbdata->i++;
make_tentry(&fake_entry, ientry, &fn_buf);
if ((error = signal_addition(&fake_entry, cbdata->cb, cbdata->data)) < 0)
goto exit;
/*
* The index has an addition. This means that we need to use
* the next entry in the index without advancing the tree
* walker, so call ourselves with the same tree state.
*/
if ((error = diff_index_cb(root, tentry, data)) < 0)
goto exit;
}
exit:
git_buf_free(&fn_buf);
return error;
}
int git_tree_diff_index_recursive(git_tree *tree, git_index *index, git_tree_diff_cb cb, void *data)
{
struct diff_index_cbdata cbdata;
git_buf dummy_path = GIT_BUF_INIT;
cbdata.index = index;
cbdata.i = 0;
cbdata.cb = cb;
cbdata.data = data;
return tree_walk_post(tree, diff_index_cb, &dummy_path, &cbdata);
}