static int newfd = -1;
static int p_value = 1;
-static int allow_binary_replacement = 0;
-static int check_index = 0;
-static int write_index = 0;
-static int cached = 0;
-static int diffstat = 0;
-static int numstat = 0;
-static int summary = 0;
-static int check = 0;
+static int allow_binary_replacement;
+static int check_index;
+static int write_index;
+static int cached;
+static int diffstat;
+static int numstat;
+static int summary;
+static int check;
static int apply = 1;
-static int no_add = 0;
-static int show_index_info = 0;
+static int apply_in_reverse;
+static int no_add;
+static int show_index_info;
static int line_termination = '\n';
static unsigned long p_context = -1;
static const char apply_usage[] =
error_on_whitespace,
strip_whitespace,
} new_whitespace = warn_on_whitespace;
-static int whitespace_error = 0;
+static int whitespace_error;
static int squelch_whitespace_errors = 5;
-static int applied_after_stripping = 0;
-static const char *patch_input_file = NULL;
+static int applied_after_stripping;
+static const char *patch_input_file;
static void parse_whitespace_option(const char *option)
{
*/
static int linenr = 1;
+/*
+ * This represents one "hunk" from a patch, starting with
+ * "@@ -oldpos,oldlines +newpos,newlines @@" marker. The
+ * patch text is pointed at by patch, and its byte length
+ * is stored in size. leading and trailing are the number
+ * of context lines.
+ */
struct fragment {
unsigned long leading, trailing;
unsigned long oldpos, oldlines;
struct fragment *next;
};
+/*
+ * When dealing with a binary patch, we reuse "leading" field
+ * to store the type of the binary hunk, either deflated "delta"
+ * or deflated "literal".
+ */
+#define binary_patch_method leading
+#define BINARY_DELTA_DEFLATED 1
+#define BINARY_LITERAL_DEFLATED 2
+
struct patch {
char *new_name, *old_name, *def_name;
unsigned int old_mode, new_mode;
- int is_rename, is_copy, is_new, is_delete, is_binary, is_reverse;
-#define BINARY_DELTA_DEFLATED 1
-#define BINARY_LITERAL_DEFLATED 2
+ int is_rename, is_copy, is_new, is_delete, is_binary;
unsigned long deflate_origlen;
int lines_added, lines_deleted;
int score;
* form.
*/
for (len = 0 ; ; len++) {
- char c = name[len];
-
- switch (c) {
+ switch (name[len]) {
default:
continue;
case '\n':
patch->old_mode != patch->new_mode);
}
-static int parse_binary(char *buffer, unsigned long size, struct patch *patch)
+static char *inflate_it(const void *data, unsigned long size,
+ unsigned long inflated_size)
{
- /* We have read "GIT binary patch\n"; what follows is a line
- * that says the patch method (currently, either "deflated
- * literal" or "deflated delta") and the length of data before
- * deflating; a sequence of 'length-byte' followed by base-85
- * encoded data follows.
+ z_stream stream;
+ void *out;
+ int st;
+
+ memset(&stream, 0, sizeof(stream));
+
+ stream.next_in = (unsigned char *)data;
+ stream.avail_in = size;
+ stream.next_out = out = xmalloc(inflated_size);
+ stream.avail_out = inflated_size;
+ inflateInit(&stream);
+ st = inflate(&stream, Z_FINISH);
+ if ((st != Z_STREAM_END) || stream.total_out != inflated_size) {
+ free(out);
+ return NULL;
+ }
+ return out;
+}
+
+static struct fragment *parse_binary_hunk(char **buf_p,
+ unsigned long *sz_p,
+ int *status_p,
+ int *used_p)
+{
+ /* Expect a line that begins with binary patch method ("literal"
+ * or "delta"), followed by the length of data before deflating.
+ * a sequence of 'length-byte' followed by base-85 encoded data
+ * should follow, terminated by a newline.
*
* Each 5-byte sequence of base-85 encodes up to 4 bytes,
* and we would limit the patch line to 66 characters,
* so one line can fit up to 13 groups that would decode
* to 52 bytes max. The length byte 'A'-'Z' corresponds
* to 1-26 bytes, and 'a'-'z' corresponds to 27-52 bytes.
- * The end of binary is signaled with an empty line.
*/
int llen, used;
- struct fragment *fragment;
+ unsigned long size = *sz_p;
+ char *buffer = *buf_p;
+ int patch_method;
+ unsigned long origlen;
char *data = NULL;
+ int hunk_size = 0;
+ struct fragment *frag;
- patch->fragments = fragment = xcalloc(1, sizeof(*fragment));
-
- /* Grab the type of patch */
llen = linelen(buffer, size);
used = llen;
- linenr++;
+
+ *status_p = 0;
if (!strncmp(buffer, "delta ", 6)) {
- patch->is_binary = BINARY_DELTA_DEFLATED;
- patch->deflate_origlen = strtoul(buffer + 6, NULL, 10);
+ patch_method = BINARY_DELTA_DEFLATED;
+ origlen = strtoul(buffer + 6, NULL, 10);
}
else if (!strncmp(buffer, "literal ", 8)) {
- patch->is_binary = BINARY_LITERAL_DEFLATED;
- patch->deflate_origlen = strtoul(buffer + 8, NULL, 10);
+ patch_method = BINARY_LITERAL_DEFLATED;
+ origlen = strtoul(buffer + 8, NULL, 10);
}
else
- return error("unrecognized binary patch at line %d: %.*s",
- linenr-1, llen-1, buffer);
+ return NULL;
+
+ linenr++;
buffer += llen;
while (1) {
int byte_length, max_byte_length, newsize;
if (max_byte_length < byte_length ||
byte_length <= max_byte_length - 4)
goto corrupt;
- newsize = fragment->size + byte_length;
+ newsize = hunk_size + byte_length;
data = xrealloc(data, newsize);
- if (decode_85(data + fragment->size,
- buffer + 1,
- byte_length))
+ if (decode_85(data + hunk_size, buffer + 1, byte_length))
goto corrupt;
- fragment->size = newsize;
+ hunk_size = newsize;
buffer += llen;
size -= llen;
}
- fragment->patch = data;
- return used;
+
+ frag = xcalloc(1, sizeof(*frag));
+ frag->patch = inflate_it(data, hunk_size, origlen);
+ if (!frag->patch)
+ goto corrupt;
+ free(data);
+ frag->size = origlen;
+ *buf_p = buffer;
+ *sz_p = size;
+ *used_p = used;
+ frag->binary_patch_method = patch_method;
+ return frag;
+
corrupt:
- return error("corrupt binary patch at line %d: %.*s",
- linenr-1, llen-1, buffer);
+ if (data)
+ free(data);
+ *status_p = -1;
+ error("corrupt binary patch at line %d: %.*s",
+ linenr-1, llen-1, buffer);
+ return NULL;
+}
+
+static int parse_binary(char *buffer, unsigned long size, struct patch *patch)
+{
+ /* We have read "GIT binary patch\n"; what follows is a line
+ * that says the patch method (currently, either "literal" or
+ * "delta") and the length of data before deflating; a
+ * sequence of 'length-byte' followed by base-85 encoded data
+ * follows.
+ *
+ * When a binary patch is reversible, there is another binary
+ * hunk in the same format, starting with patch method (either
+ * "literal" or "delta") with the length of data, and a sequence
+ * of length-byte + base-85 encoded data, terminated with another
+ * empty line. This data, when applied to the postimage, produces
+ * the preimage.
+ */
+ struct fragment *forward;
+ struct fragment *reverse;
+ int status;
+ int used, used_1;
+
+ forward = parse_binary_hunk(&buffer, &size, &status, &used);
+ if (!forward && !status)
+ /* there has to be one hunk (forward hunk) */
+ return error("unrecognized binary patch at line %d", linenr-1);
+ if (status)
+ /* otherwise we already gave an error message */
+ return status;
+
+ reverse = parse_binary_hunk(&buffer, &size, &status, &used_1);
+ if (reverse)
+ used += used_1;
+ else if (status) {
+ /* not having reverse hunk is not an error, but having
+ * a corrupt reverse hunk is.
+ */
+ free((void*) forward->patch);
+ free(forward);
+ return status;
+ }
+ forward->next = reverse;
+ patch->fragments = forward;
+ patch->is_binary = 1;
+ return used;
}
static int parse_chunk(char *buffer, unsigned long size, struct patch *patch)
swap(frag->newpos, frag->oldpos);
swap(frag->newlines, frag->oldlines);
}
- p->is_reverse = !p->is_reverse;
}
}
return plen;
}
-static int apply_one_fragment(struct buffer_desc *desc, struct fragment *frag,
- int reverse, int inaccurate_eof)
+static int apply_one_fragment(struct buffer_desc *desc, struct fragment *frag, int inaccurate_eof)
{
int match_beginning, match_end;
char *buf = desc->buffer;
if (len < size && patch[len] == '\\')
plen--;
first = *patch;
- if (reverse) {
+ if (apply_in_reverse) {
if (first == '-')
first = '+';
else if (first == '+')
return offset;
}
-static char *inflate_it(const void *data, unsigned long size,
- unsigned long inflated_size)
-{
- z_stream stream;
- void *out;
- int st;
-
- memset(&stream, 0, sizeof(stream));
-
- stream.next_in = (unsigned char *)data;
- stream.avail_in = size;
- stream.next_out = out = xmalloc(inflated_size);
- stream.avail_out = inflated_size;
- inflateInit(&stream);
- st = inflate(&stream, Z_FINISH);
- if ((st != Z_STREAM_END) || stream.total_out != inflated_size) {
- free(out);
- return NULL;
- }
- return out;
-}
-
static int apply_binary_fragment(struct buffer_desc *desc, struct patch *patch)
{
unsigned long dst_size;
void *data;
void *result;
- /* Binary patch is irreversible */
- if (patch->is_reverse)
- return error("cannot reverse-apply a binary patch to '%s'",
- patch->new_name
- ? patch->new_name : patch->old_name);
-
- data = inflate_it(fragment->patch, fragment->size,
- patch->deflate_origlen);
- if (!data)
- return error("corrupt patch data");
- switch (patch->is_binary) {
+ /* Binary patch is irreversible without the optional second hunk */
+ if (apply_in_reverse) {
+ if (!fragment->next)
+ return error("cannot reverse-apply a binary patch "
+ "without the reverse hunk to '%s'",
+ patch->new_name
+ ? patch->new_name : patch->old_name);
+ fragment = fragment;
+ }
+ data = (void*) fragment->patch;
+ switch (fragment->binary_patch_method) {
case BINARY_DELTA_DEFLATED:
result = patch_delta(desc->buffer, desc->size,
data,
- patch->deflate_origlen,
+ fragment->size,
&dst_size);
free(desc->buffer);
desc->buffer = result;
- free(data);
break;
case BINARY_LITERAL_DEFLATED:
free(desc->buffer);
desc->buffer = data;
- dst_size = patch->deflate_origlen;
+ dst_size = fragment->size;
break;
}
if (!desc->buffer)
}
get_sha1_hex(patch->new_sha1_prefix, sha1);
- if (!memcmp(sha1, null_sha1, 20)) {
+ if (is_null_sha1(sha1)) {
free(desc->buffer);
desc->alloc = desc->size = 0;
desc->buffer = NULL;
return apply_binary(desc, patch);
while (frag) {
- if (apply_one_fragment(desc, frag, patch->is_reverse,
- patch->inaccurate_eof) < 0)
+ if (apply_one_fragment(desc, frag, patch->inaccurate_eof) < 0)
return error("patch failed: %s:%ld",
name, frag->oldpos);
frag = frag->next;
static int check_patch_list(struct patch *patch)
{
struct patch *prev_patch = NULL;
- int error = 0;
+ int err = 0;
for (prev_patch = NULL; patch ; patch = patch->next) {
- error |= check_patch(patch, prev_patch);
+ err |= check_patch(patch, prev_patch);
prev_patch = patch;
}
- return error;
-}
-
-static inline int is_null_sha1(const unsigned char *sha1)
-{
- return !memcmp(sha1, null_sha1, 20);
+ return err;
}
static void show_index_list(struct patch *list)
return 1;
}
-static int apply_patch(int fd, const char *filename,
- int reverse, int inaccurate_eof)
+static int apply_patch(int fd, const char *filename, int inaccurate_eof)
{
unsigned long offset, size;
char *buffer = read_patch_file(fd, &size);
nr = parse_chunk(buffer + offset, size, patch);
if (nr < 0)
break;
- if (reverse)
+ if (apply_in_reverse)
reverse_patches(patch);
if (use_patch(patch)) {
patch_stats(patch);
{
int i;
int read_stdin = 1;
- int reverse = 0;
int inaccurate_eof = 0;
const char *whitespace_option = NULL;
int fd;
if (!strcmp(arg, "-")) {
- apply_patch(0, "<stdin>", reverse, inaccurate_eof);
+ apply_patch(0, "<stdin>", inaccurate_eof);
read_stdin = 0;
continue;
}
continue;
}
if (!strcmp(arg, "-R") || !strcmp(arg, "--reverse")) {
- reverse = 1;
+ apply_in_reverse = 1;
continue;
}
if (!strcmp(arg, "--inaccurate-eof")) {
usage(apply_usage);
read_stdin = 0;
set_default_whitespace_mode(whitespace_option);
- apply_patch(fd, arg, reverse, inaccurate_eof);
+ apply_patch(fd, arg, inaccurate_eof);
close(fd);
}
set_default_whitespace_mode(whitespace_option);
if (read_stdin)
- apply_patch(0, "<stdin>", reverse, inaccurate_eof);
+ apply_patch(0, "<stdin>", inaccurate_eof);
if (whitespace_error) {
if (squelch_whitespace_errors &&
squelch_whitespace_errors < whitespace_error) {