git/builtin/merge-tree.c at 5c15ca0b3c866398f22cbab974d0a1964ef105ca - mirrors/git - Incest Forge: Beyond sex. We incest.

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Jeff King 3efb988098 react to errors in xdi_diff

When we call into xdiff to perform a diff, we generally lose
the return code completely. Typically by ignoring the return
of our xdi_diff wrapper, but sometimes we even propagate
that return value up and then ignore it later.  This can
lead to us silently producing incorrect diffs (e.g., "git
log" might produce no output at all, not even a diff header,
for a content-level diff).

In practice this does not happen very often, because the
typical reason for xdiff to report failure is that it
malloc() failed (it uses straight malloc, and not our
xmalloc wrapper).  But it could also happen when xdiff
triggers one our callbacks, which returns an error (e.g.,
outf() in builtin/rerere.c tries to report a write failure
in this way). And the next patch also plans to add more
failure modes.

Let's notice an error return from xdiff and react
appropriately. In most of the diff.c code, we can simply
die(), which matches the surrounding code (e.g., that is
what we do if we fail to load a file for diffing in the
first place). This is not that elegant, but we are probably
better off dying to let the user know there was a problem,
rather than simply generating bogus output.

We could also just die() directly in xdi_diff, but the
callers typically have a bit more context, and can provide a
better message (and if we do later decide to pass errors up,
we're one step closer to doing so).

There is one interesting case, which is in diff_grep(). Here
if we cannot generate the diff, there is nothing to match,
and we silently return "no hits". This is actually what the
existing code does already, but we make it a little more
explicit.

Signed-off-by: Jeff King <peff@peff.net>
Signed-off-by: Junio C Hamano <gitster@pobox.com>

2015-09-28 14:57:10 -07:00

379 lines

8.8 KiB

C

Raw Blame History

 #include "builtin.h"
 #include "tree-walk.h"
 #include "xdiff-interface.h"
 #include "blob.h"
 #include "exec_cmd.h"
 #include "merge-blobs.h"
 static const char merge_tree_usage[] = "git merge-tree <base-tree> <branch1> <branch2>";
 struct merge_list {
 	struct merge_list *next;
 	struct merge_list *link;	/* other stages for this object */
 	unsigned int stage : 2;
 	unsigned int mode;
 	const char *path;
 	struct blob *blob;
 };
 static struct merge_list *merge_result, **merge_result_end = &merge_result;
 static void add_merge_entry(struct merge_list *entry)
 {
 	*merge_result_end = entry;
 	merge_result_end = &entry->next;
 }
 static void merge_trees(struct tree_desc t[3], const char *base);
 static const char *explanation(struct merge_list *entry)
 {
 	switch (entry->stage) {
 	case 0:
 		return "merged";
 	case 3:
 		return "added in remote";
 	case 2:
 		if (entry->link)
 			return "added in both";
 		return "added in local";
 	}
 	/* Existed in base */
 	entry = entry->link;
 	if (!entry)
 		return "removed in both";
 	if (entry->link)
 		return "changed in both";
 	if (entry->stage == 3)
 		return "removed in local";
 	return "removed in remote";
 }
 static void *result(struct merge_list *entry, unsigned long *size)
 {
 	enum object_type type;
 	struct blob *base, *our, *their;
 	const char *path = entry->path;
 	if (!entry->stage)
 		return read_sha1_file(entry->blob->object.sha1, &type, size);
 	base = NULL;
 	if (entry->stage == 1) {
 		base = entry->blob;
 		entry = entry->link;
 	}
 	our = NULL;
 	if (entry && entry->stage == 2) {
 		our = entry->blob;
 		entry = entry->link;
 	}
 	their = NULL;
 	if (entry)
 		their = entry->blob;
 	return merge_blobs(path, base, our, their, size);
 }
 static void *origin(struct merge_list *entry, unsigned long *size)
 {
 	enum object_type type;
 	while (entry) {
 		if (entry->stage == 2)
 			return read_sha1_file(entry->blob->object.sha1, &type, size);
 		entry = entry->link;
 	}
 	return NULL;
 }
 static int show_outf(void *priv_, mmbuffer_t *mb, int nbuf)
 {
 	int i;
 	for (i = 0; i < nbuf; i++)
 		printf("%.*s", (int) mb[i].size, mb[i].ptr);
 	return 0;
 }
 static void show_diff(struct merge_list *entry)
 {
 	unsigned long size;
 	mmfile_t src, dst;
 	xpparam_t xpp;
 	xdemitconf_t xecfg;
 	xdemitcb_t ecb;
 	xpp.flags = 0;
 	memset(&xecfg, 0, sizeof(xecfg));
 	xecfg.ctxlen = 3;
 	ecb.outf = show_outf;
 	ecb.priv = NULL;
 	src.ptr = origin(entry, &size);
 	if (!src.ptr)
 		size = 0;
 	src.size = size;
 	dst.ptr = result(entry, &size);
 	if (!dst.ptr)
 		size = 0;
 	dst.size = size;
 	if (xdi_diff(&src, &dst, &xpp, &xecfg, &ecb))
 		die("unable to generate diff");
 	free(src.ptr);
 	free(dst.ptr);
 }
 static void show_result_list(struct merge_list *entry)
 {
 	printf("%s\n", explanation(entry));
 	do {
 		struct merge_list *link = entry->link;
 		static const char *desc[4] = { "result", "base", "our", "their" };
 		printf("  %-6s %o %s %s\n", desc[entry->stage], entry->mode, sha1_to_hex(entry->blob->object.sha1), entry->path);
 		entry = link;
 	} while (entry);
 }
 static void show_result(void)
 {
 	struct merge_list *walk;
 	walk = merge_result;
 	while (walk) {
 		show_result_list(walk);
 		show_diff(walk);
 		walk = walk->next;
 	}
 }
 /* An empty entry never compares same, not even to another empty entry */
 static int same_entry(struct name_entry *a, struct name_entry *b)
 {
 	return	a->sha1 &&
 		b->sha1 &&
 		!hashcmp(a->sha1, b->sha1) &&
 		a->mode == b->mode;
 }
 static int both_empty(struct name_entry *a, struct name_entry *b)
 {
 	return !(a->sha1 || b->sha1);
 }
 static struct merge_list *create_entry(unsigned stage, unsigned mode, const unsigned char *sha1, const char *path)
 {
 	struct merge_list *res = xcalloc(1, sizeof(*res));
 	res->stage = stage;
 	res->path = path;
 	res->mode = mode;
 	res->blob = lookup_blob(sha1);
 	return res;
 }
 static char *traverse_path(const struct traverse_info *info, const struct name_entry *n)
 {
 	char *path = xmalloc(traverse_path_len(info, n) + 1);
 	return make_traverse_path(path, info, n);
 }
 static void resolve(const struct traverse_info *info, struct name_entry *ours, struct name_entry *result)
 {
 	struct merge_list *orig, *final;
 	const char *path;
 	/* If it's already ours, don't bother showing it */
 	if (!ours)
 		return;
 	path = traverse_path(info, result);
 	orig = create_entry(2, ours->mode, ours->sha1, path);
 	final = create_entry(0, result->mode, result->sha1, path);
 	final->link = orig;
 	add_merge_entry(final);
 }
 static void unresolved_directory(const struct traverse_info *info,
 				 struct name_entry n[3])
 {
 	char *newbase;
 	struct name_entry *p;
 	struct tree_desc t[3];
 	void *buf0, *buf1, *buf2;
 	for (p = n; p < n + 3; p++) {
 		if (p->mode && S_ISDIR(p->mode))
 			break;
 	}
 	if (n + 3 <= p)
 		return; /* there is no tree here */
 	newbase = traverse_path(info, p);
 #define ENTRY_SHA1(e) (((e)->mode && S_ISDIR((e)->mode)) ? (e)->sha1 : NULL)
 	buf0 = fill_tree_descriptor(t+0, ENTRY_SHA1(n + 0));
 	buf1 = fill_tree_descriptor(t+1, ENTRY_SHA1(n + 1));
 	buf2 = fill_tree_descriptor(t+2, ENTRY_SHA1(n + 2));
 #undef ENTRY_SHA1
 	merge_trees(t, newbase);
 	free(buf0);
 	free(buf1);
 	free(buf2);
 	free(newbase);
 }
 static struct merge_list *link_entry(unsigned stage, const struct traverse_info *info, struct name_entry *n, struct merge_list *entry)
 {
 	const char *path;
 	struct merge_list *link;
 	if (!n->mode)
 		return entry;
 	if (entry)
 		path = entry->path;
 	else
 		path = traverse_path(info, n);
 	link = create_entry(stage, n->mode, n->sha1, path);
 	link->link = entry;
 	return link;
 }
 static void unresolved(const struct traverse_info *info, struct name_entry n[3])
 {
 	struct merge_list *entry = NULL;
 	int i;
 	unsigned dirmask = 0, mask = 0;
 	for (i = 0; i < 3; i++) {
 		mask |= (1 << i);
 		/*
 		 * Treat missing entries as directories so that we return
 		 * after unresolved_directory has handled this.
 		 */
 		if (!n[i].mode || S_ISDIR(n[i].mode))
 			dirmask |= (1 << i);
 	}
 	unresolved_directory(info, n);
 	if (dirmask == mask)
 		return;
 	if (n[2].mode && !S_ISDIR(n[2].mode))
 		entry = link_entry(3, info, n + 2, entry);
 	if (n[1].mode && !S_ISDIR(n[1].mode))
 		entry = link_entry(2, info, n + 1, entry);
 	if (n[0].mode && !S_ISDIR(n[0].mode))
 		entry = link_entry(1, info, n + 0, entry);
 	add_merge_entry(entry);
 }
 /*
  * Merge two trees together (t[1] and t[2]), using a common base (t[0])
  * as the origin.
  *
  * This walks the (sorted) trees in lock-step, checking every possible
  * name. Note that directories automatically sort differently from other
  * files (see "base_name_compare"), so you'll never see file/directory
  * conflicts, because they won't ever compare the same.
  *
  * IOW, if a directory changes to a filename, it will automatically be
  * seen as the directory going away, and the filename being created.
  *
  * Think of this as a three-way diff.
  *
  * The output will be either:
  *  - successful merge
  *	 "0 mode sha1 filename"
  *    NOTE NOTE NOTE! FIXME! We really really need to walk the index
  *    in parallel with this too!
  *
  *  - conflict:
  *	"1 mode sha1 filename"
  *	"2 mode sha1 filename"
  *	"3 mode sha1 filename"
  *    where not all of the 1/2/3 lines may exist, of course.
  *
  * The successful merge rules are the same as for the three-way merge
  * in git-read-tree.
  */
 static int threeway_callback(int n, unsigned long mask, unsigned long dirmask, struct name_entry *entry, struct traverse_info *info)
 {
 	/* Same in both? */
 	if (same_entry(entry+1, entry+2) || both_empty(entry+1, entry+2)) {
 		/* Modified, added or removed identically */
 		resolve(info, NULL, entry+1);
 		return mask;
 	}
 	if (same_entry(entry+0, entry+1)) {
 		if (entry[2].sha1 && !S_ISDIR(entry[2].mode)) {
 			/* We did not touch, they modified -- take theirs */
 			resolve(info, entry+1, entry+2);
 			return mask;
 		}
 		/*
 		 * If we did not touch a directory but they made it
 		 * into a file, we fall through and unresolved()
 		 * recurses down.  Likewise for the opposite case.
 		 */
 	}
 	if (same_entry(entry+0, entry+2) || both_empty(entry+0, entry+2)) {
 		/* We added, modified or removed, they did not touch -- take ours */
 		resolve(info, NULL, entry+1);
 		return mask;
 	}
 	unresolved(info, entry);
 	return mask;
 }
 static void merge_trees(struct tree_desc t[3], const char *base)
 {
 	struct traverse_info info;
 	setup_traverse_info(&info, base);
 	info.fn = threeway_callback;
 	traverse_trees(3, t, &info);
 }
 static void *get_tree_descriptor(struct tree_desc *desc, const char *rev)
 {
 	unsigned char sha1[20];
 	void *buf;
 	if (get_sha1(rev, sha1))
 		die("unknown rev %s", rev);
 	buf = fill_tree_descriptor(desc, sha1);
 	if (!buf)
 		die("%s is not a tree", rev);
 	return buf;
 }
 int cmd_merge_tree(int argc, const char **argv, const char *prefix)
 {
 	struct tree_desc t[3];
 	void *buf1, *buf2, *buf3;
 	if (argc != 4)
 		usage(merge_tree_usage);
 	buf1 = get_tree_descriptor(t+0, argv[1]);
 	buf2 = get_tree_descriptor(t+1, argv[2]);
 	buf3 = get_tree_descriptor(t+2, argv[3]);
 	merge_trees(t, "");
 	free(buf1);
 	free(buf2);
 	free(buf3);
 	show_result();
 	return 0;
 }