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/*
* GIT - The information manager from hell
*
* Copyright (C) Linus Torvalds, 2005
*/
#include "cache.h"
static int stage = 0;
static int update = 0;
static int unpack_tree(unsigned char *sha1)
{
void *buffer;
unsigned long size;
int ret;
buffer = read_object_with_reference(sha1, "tree", &size, NULL);
if (!buffer)
return -1;
ret = read_tree(buffer, size, stage);
free(buffer);
return ret;
}
static int path_matches(struct cache_entry *a, struct cache_entry *b)
{
int len = ce_namelen(a);
return ce_namelen(b) == len &&
!memcmp(a->name, b->name, len);
}
static int same(struct cache_entry *a, struct cache_entry *b)
{
return a->ce_mode == b->ce_mode &&
!memcmp(a->sha1, b->sha1, 20);
}
/*
* This removes all trivial merges that don't change the tree
* and collapses them to state 0.
*/
static struct cache_entry *merge_entries(struct cache_entry *a,
struct cache_entry *b,
struct cache_entry *c)
{
/*
* Ok, all three entries describe the same
* filename, but maybe the contents or file
* mode have changed?
*
* The trivial cases end up being the ones where two
* out of three files are the same:
* - both destinations the same, trivially take either
* - one of the destination versions hasn't changed,
* take the other.
*
* The "all entries exactly the same" case falls out as
* a special case of any of the "two same" cases.
*
* Here "a" is "original", and "b" and "c" are the two
* trees we are merging.
*/
if (a && b && c) {
if (same(b,c))
return c;
if (same(a,b))
return c;
if (same(a,c))
return b;
}
return NULL;
}
/*
* When a CE gets turned into an unmerged entry, we
* want it to be up-to-date
*/
static void verify_uptodate(struct cache_entry *ce)
{
struct stat st;
if (!lstat(ce->name, &st)) {
unsigned changed = ce_match_stat(ce, &st);
if (!changed)
return;
errno = 0;
}
if (errno == ENOENT)
return;
die("Entry '%s' not uptodate. Cannot merge.", ce->name);
}
/*
* If the old tree contained a CE that isn't even in the
* result, that's always a problem, regardless of whether
* it's up-to-date or not (ie it can be a file that we
* have updated but not committed yet).
*/
static void reject_merge(struct cache_entry *ce)
{
die("Entry '%s' would be overwritten by merge. Cannot merge.", ce->name);
}
static int merged_entry(struct cache_entry *merge, struct cache_entry *old, struct cache_entry **dst)
{
merge->ce_flags |= htons(CE_UPDATE);
if (old) {
/*
* See if we can re-use the old CE directly?
* That way we get the uptodate stat info.
*
* This also removes the UPDATE flag on
* a match.
*/
if (same(old, merge)) {
*merge = *old;
} else {
verify_uptodate(old);
}
}
merge->ce_flags &= ~htons(CE_STAGEMASK);
*dst++ = merge;
return 1;
}
static int deleted_entry(struct cache_entry *ce, struct cache_entry *old, struct cache_entry **dst)
{
if (old)
verify_uptodate(old);
ce->ce_mode = 0;
*dst++ = ce;
return 1;
}
static int threeway_merge(struct cache_entry *stages[4], struct cache_entry **dst)
{
struct cache_entry *old = stages[0];
struct cache_entry *a = stages[1], *b = stages[2], *c = stages[3];
struct cache_entry *merge;
int count;
/*
* If we have an entry in the index cache ("old"), then we want
* to make sure that it matches any entries in stage 2 ("first
* branch", aka "b").
*/
if (old) {
if (!b || !same(old, b))
return -1;
}
merge = merge_entries(a, b, c);
if (merge)
return merged_entry(merge, old, dst);
if (old)
verify_uptodate(old);
count = 0;
if (a) { *dst++ = a; count++; }
if (b) { *dst++ = b; count++; }
if (c) { *dst++ = c; count++; }
return count;
}
/*
* Two-way merge.
*
* The rule is to "carry forward" what is in the index without losing
* information across a "fast forward", favoring a successful merge
* over a merge failure when it makes sense. For details of the
* "carry forward" rule, please see <Documentation/git-read-tree.txt>.
*
*/
static int twoway_merge(struct cache_entry **src, struct cache_entry **dst)
{
struct cache_entry *current = src[0];
struct cache_entry *oldtree = src[1], *newtree = src[2];
if (src[3])
return -1;
if (current) {
if ((!oldtree && !newtree) || /* 4 and 5 */
(!oldtree && newtree &&
same(current, newtree)) || /* 6 and 7 */
(oldtree && newtree &&
same(oldtree, newtree)) || /* 14 and 15 */
(oldtree && newtree &&
!same(oldtree, newtree) && /* 18 and 19*/
same(current, newtree))) {
*dst++ = current;
return 1;
}
else if (oldtree && !newtree && same(current, oldtree)) {
/* 10 or 11 */
return deleted_entry(oldtree, current, dst);
}
else if (oldtree && newtree &&
same(current, oldtree) && !same(current, newtree)) {
/* 20 or 21 */
return merged_entry(newtree, current, dst);
}
else
/* all other failures */
return -1;
}
else if (newtree)
return merged_entry(newtree, current, dst);
else
return deleted_entry(oldtree, current, dst);
}
/*
* One-way merge.
*
* The rule is:
* - take the stat information from stage0, take the data from stage1
*/
static int oneway_merge(struct cache_entry **src, struct cache_entry **dst)
{
struct cache_entry *old = src[0];
struct cache_entry *a = src[1];
if (src[2] || src[3])
return -1;
if (!a)
return 0;
if (old && same(old, a)) {
*dst++ = old;
return 1;
}
return merged_entry(a, NULL, dst);
}
static void check_updates(struct cache_entry **src, int nr)
{
static struct checkout state = {
.base_dir = "",
.force = 1,
.quiet = 1,
.refresh_cache = 1,
};
unsigned short mask = htons(CE_UPDATE);
while (nr--) {
struct cache_entry *ce = *src++;
if (!ce->ce_mode) {
if (update)
unlink(ce->name);
continue;
}
if (ce->ce_flags & mask) {
ce->ce_flags &= ~mask;
if (update)
checkout_entry(ce, &state);
}
}
}
typedef int (*merge_fn_t)(struct cache_entry **, struct cache_entry **);
static void merge_cache(struct cache_entry **src, int nr, merge_fn_t fn)
{
struct cache_entry **dst = src;
while (nr) {
int entries;
struct cache_entry *name, *ce, *stages[4] = { NULL, };
name = ce = *src;
for (;;) {
int stage = ce_stage(ce);
stages[stage] = ce;
ce = *++src;
active_nr--;
if (!--nr)
break;
if (!path_matches(ce, name))
break;
}
entries = fn(stages, dst);
if (entries < 0)
reject_merge(name);
dst += entries;
active_nr += entries;
}
check_updates(active_cache, active_nr);
}
static int read_cache_unmerged(void)
{
int i, deleted;
struct cache_entry **dst;
read_cache();
dst = active_cache;
deleted = 0;
for (i = 0; i < active_nr; i++) {
struct cache_entry *ce = active_cache[i];
if (ce_stage(ce)) {
deleted++;
continue;
}
if (deleted)
*dst = ce;
dst++;
}
active_nr -= deleted;
return deleted;
}
static char *read_tree_usage = "git-read-tree (<sha> | -m [-u] <sha1> [<sha2> [<sha3>]])";
static struct cache_file cache_file;
int main(int argc, char **argv)
{
int i, newfd, merge, reset;
unsigned char sha1[20];
newfd = hold_index_file_for_update(&cache_file, get_index_file());
if (newfd < 0)
die("unable to create new cachefile");
merge = 0;
reset = 0;
for (i = 1; i < argc; i++) {
const char *arg = argv[i];
/* "-u" means "update", meaning that a merge will update the working directory */
if (!strcmp(arg, "-u")) {
update = 1;
continue;
}
/* This differs from "-m" in that we'll silently ignore unmerged entries */
if (!strcmp(arg, "--reset")) {
if (stage || merge)
usage(read_tree_usage);
reset = 1;
merge = 1;
stage = 1;
read_cache_unmerged();
}
/* "-m" stands for "merge", meaning we start in stage 1 */
if (!strcmp(arg, "-m")) {
if (stage || merge)
usage(read_tree_usage);
if (read_cache_unmerged())
die("you need to resolve your current index first");
stage = 1;
merge = 1;
continue;
}
if (get_sha1(arg, sha1) < 0)
usage(read_tree_usage);
if (stage > 3)
usage(read_tree_usage);
if (unpack_tree(sha1) < 0)
die("failed to unpack tree object %s", arg);
stage++;
}
if (update && !merge)
usage(read_tree_usage);
if (merge) {
static const merge_fn_t merge_function[] = {
[1] = oneway_merge,
[2] = twoway_merge,
[3] = threeway_merge,
};
if (stage < 2 || stage > 4)
die("just how do you expect me to merge %d trees?", stage-1);
merge_cache(active_cache, active_nr, merge_function[stage-1]);
}
if (write_cache(newfd, active_cache, active_nr) ||
commit_index_file(&cache_file))
die("unable to write new index file");
return 0;
}