git/apply.c

5017 строки
129 KiB
C

/*
* apply.c
*
* Copyright (C) Linus Torvalds, 2005
*
* This applies patches on top of some (arbitrary) version of the SCM.
*
*/
#include "cache.h"
#include "config.h"
#include "blob.h"
#include "delta.h"
#include "diff.h"
#include "dir.h"
#include "xdiff-interface.h"
#include "ll-merge.h"
#include "lockfile.h"
#include "parse-options.h"
#include "quote.h"
#include "rerere.h"
#include "apply.h"
static void git_apply_config(void)
{
git_config_get_string_const("apply.whitespace", &apply_default_whitespace);
git_config_get_string_const("apply.ignorewhitespace", &apply_default_ignorewhitespace);
git_config(git_default_config, NULL);
}
static int parse_whitespace_option(struct apply_state *state, const char *option)
{
if (!option) {
state->ws_error_action = warn_on_ws_error;
return 0;
}
if (!strcmp(option, "warn")) {
state->ws_error_action = warn_on_ws_error;
return 0;
}
if (!strcmp(option, "nowarn")) {
state->ws_error_action = nowarn_ws_error;
return 0;
}
if (!strcmp(option, "error")) {
state->ws_error_action = die_on_ws_error;
return 0;
}
if (!strcmp(option, "error-all")) {
state->ws_error_action = die_on_ws_error;
state->squelch_whitespace_errors = 0;
return 0;
}
if (!strcmp(option, "strip") || !strcmp(option, "fix")) {
state->ws_error_action = correct_ws_error;
return 0;
}
return error(_("unrecognized whitespace option '%s'"), option);
}
static int parse_ignorewhitespace_option(struct apply_state *state,
const char *option)
{
if (!option || !strcmp(option, "no") ||
!strcmp(option, "false") || !strcmp(option, "never") ||
!strcmp(option, "none")) {
state->ws_ignore_action = ignore_ws_none;
return 0;
}
if (!strcmp(option, "change")) {
state->ws_ignore_action = ignore_ws_change;
return 0;
}
return error(_("unrecognized whitespace ignore option '%s'"), option);
}
int init_apply_state(struct apply_state *state,
const char *prefix,
struct lock_file *lock_file)
{
memset(state, 0, sizeof(*state));
state->prefix = prefix;
state->lock_file = lock_file;
state->newfd = -1;
state->apply = 1;
state->line_termination = '\n';
state->p_value = 1;
state->p_context = UINT_MAX;
state->squelch_whitespace_errors = 5;
state->ws_error_action = warn_on_ws_error;
state->ws_ignore_action = ignore_ws_none;
state->linenr = 1;
string_list_init(&state->fn_table, 0);
string_list_init(&state->limit_by_name, 0);
string_list_init(&state->symlink_changes, 0);
strbuf_init(&state->root, 0);
git_apply_config();
if (apply_default_whitespace && parse_whitespace_option(state, apply_default_whitespace))
return -1;
if (apply_default_ignorewhitespace && parse_ignorewhitespace_option(state, apply_default_ignorewhitespace))
return -1;
return 0;
}
void clear_apply_state(struct apply_state *state)
{
string_list_clear(&state->limit_by_name, 0);
string_list_clear(&state->symlink_changes, 0);
strbuf_release(&state->root);
/* &state->fn_table is cleared at the end of apply_patch() */
}
static void mute_routine(const char *msg, va_list params)
{
/* do nothing */
}
int check_apply_state(struct apply_state *state, int force_apply)
{
int is_not_gitdir = !startup_info->have_repository;
if (state->apply_with_reject && state->threeway)
return error(_("--reject and --3way cannot be used together."));
if (state->cached && state->threeway)
return error(_("--cached and --3way cannot be used together."));
if (state->threeway) {
if (is_not_gitdir)
return error(_("--3way outside a repository"));
state->check_index = 1;
}
if (state->apply_with_reject) {
state->apply = 1;
if (state->apply_verbosity == verbosity_normal)
state->apply_verbosity = verbosity_verbose;
}
if (!force_apply && (state->diffstat || state->numstat || state->summary || state->check || state->fake_ancestor))
state->apply = 0;
if (state->check_index && is_not_gitdir)
return error(_("--index outside a repository"));
if (state->cached) {
if (is_not_gitdir)
return error(_("--cached outside a repository"));
state->check_index = 1;
}
if (state->check_index)
state->unsafe_paths = 0;
if (!state->lock_file)
return error("BUG: state->lock_file should not be NULL");
if (state->apply_verbosity <= verbosity_silent) {
state->saved_error_routine = get_error_routine();
state->saved_warn_routine = get_warn_routine();
set_error_routine(mute_routine);
set_warn_routine(mute_routine);
}
return 0;
}
static void set_default_whitespace_mode(struct apply_state *state)
{
if (!state->whitespace_option && !apply_default_whitespace)
state->ws_error_action = (state->apply ? warn_on_ws_error : nowarn_ws_error);
}
/*
* 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;
unsigned long newpos, newlines;
/*
* 'patch' is usually borrowed from buf in apply_patch(),
* but some codepaths store an allocated buffer.
*/
const char *patch;
unsigned free_patch:1,
rejected:1;
int size;
int linenr;
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
/*
* This represents a "patch" to a file, both metainfo changes
* such as creation/deletion, filemode and content changes represented
* as a series of fragments.
*/
struct patch {
char *new_name, *old_name, *def_name;
unsigned int old_mode, new_mode;
int is_new, is_delete; /* -1 = unknown, 0 = false, 1 = true */
int rejected;
unsigned ws_rule;
int lines_added, lines_deleted;
int score;
int extension_linenr; /* first line specifying delete/new/rename/copy */
unsigned int is_toplevel_relative:1;
unsigned int inaccurate_eof:1;
unsigned int is_binary:1;
unsigned int is_copy:1;
unsigned int is_rename:1;
unsigned int recount:1;
unsigned int conflicted_threeway:1;
unsigned int direct_to_threeway:1;
unsigned int crlf_in_old:1;
struct fragment *fragments;
char *result;
size_t resultsize;
char old_sha1_prefix[41];
char new_sha1_prefix[41];
struct patch *next;
/* three-way fallback result */
struct object_id threeway_stage[3];
};
static void free_fragment_list(struct fragment *list)
{
while (list) {
struct fragment *next = list->next;
if (list->free_patch)
free((char *)list->patch);
free(list);
list = next;
}
}
static void free_patch(struct patch *patch)
{
free_fragment_list(patch->fragments);
free(patch->def_name);
free(patch->old_name);
free(patch->new_name);
free(patch->result);
free(patch);
}
static void free_patch_list(struct patch *list)
{
while (list) {
struct patch *next = list->next;
free_patch(list);
list = next;
}
}
/*
* A line in a file, len-bytes long (includes the terminating LF,
* except for an incomplete line at the end if the file ends with
* one), and its contents hashes to 'hash'.
*/
struct line {
size_t len;
unsigned hash : 24;
unsigned flag : 8;
#define LINE_COMMON 1
#define LINE_PATCHED 2
};
/*
* This represents a "file", which is an array of "lines".
*/
struct image {
char *buf;
size_t len;
size_t nr;
size_t alloc;
struct line *line_allocated;
struct line *line;
};
static uint32_t hash_line(const char *cp, size_t len)
{
size_t i;
uint32_t h;
for (i = 0, h = 0; i < len; i++) {
if (!isspace(cp[i])) {
h = h * 3 + (cp[i] & 0xff);
}
}
return h;
}
/*
* Compare lines s1 of length n1 and s2 of length n2, ignoring
* whitespace difference. Returns 1 if they match, 0 otherwise
*/
static int fuzzy_matchlines(const char *s1, size_t n1,
const char *s2, size_t n2)
{
const char *last1 = s1 + n1 - 1;
const char *last2 = s2 + n2 - 1;
int result = 0;
/* ignore line endings */
while ((*last1 == '\r') || (*last1 == '\n'))
last1--;
while ((*last2 == '\r') || (*last2 == '\n'))
last2--;
/* skip leading whitespaces, if both begin with whitespace */
if (s1 <= last1 && s2 <= last2 && isspace(*s1) && isspace(*s2)) {
while (isspace(*s1) && (s1 <= last1))
s1++;
while (isspace(*s2) && (s2 <= last2))
s2++;
}
/* early return if both lines are empty */
if ((s1 > last1) && (s2 > last2))
return 1;
while (!result) {
result = *s1++ - *s2++;
/*
* Skip whitespace inside. We check for whitespace on
* both buffers because we don't want "a b" to match
* "ab"
*/
if (isspace(*s1) && isspace(*s2)) {
while (isspace(*s1) && s1 <= last1)
s1++;
while (isspace(*s2) && s2 <= last2)
s2++;
}
/*
* If we reached the end on one side only,
* lines don't match
*/
if (
((s2 > last2) && (s1 <= last1)) ||
((s1 > last1) && (s2 <= last2)))
return 0;
if ((s1 > last1) && (s2 > last2))
break;
}
return !result;
}
static void add_line_info(struct image *img, const char *bol, size_t len, unsigned flag)
{
ALLOC_GROW(img->line_allocated, img->nr + 1, img->alloc);
img->line_allocated[img->nr].len = len;
img->line_allocated[img->nr].hash = hash_line(bol, len);
img->line_allocated[img->nr].flag = flag;
img->nr++;
}
/*
* "buf" has the file contents to be patched (read from various sources).
* attach it to "image" and add line-based index to it.
* "image" now owns the "buf".
*/
static void prepare_image(struct image *image, char *buf, size_t len,
int prepare_linetable)
{
const char *cp, *ep;
memset(image, 0, sizeof(*image));
image->buf = buf;
image->len = len;
if (!prepare_linetable)
return;
ep = image->buf + image->len;
cp = image->buf;
while (cp < ep) {
const char *next;
for (next = cp; next < ep && *next != '\n'; next++)
;
if (next < ep)
next++;
add_line_info(image, cp, next - cp, 0);
cp = next;
}
image->line = image->line_allocated;
}
static void clear_image(struct image *image)
{
free(image->buf);
free(image->line_allocated);
memset(image, 0, sizeof(*image));
}
/* fmt must contain _one_ %s and no other substitution */
static void say_patch_name(FILE *output, const char *fmt, struct patch *patch)
{
struct strbuf sb = STRBUF_INIT;
if (patch->old_name && patch->new_name &&
strcmp(patch->old_name, patch->new_name)) {
quote_c_style(patch->old_name, &sb, NULL, 0);
strbuf_addstr(&sb, " => ");
quote_c_style(patch->new_name, &sb, NULL, 0);
} else {
const char *n = patch->new_name;
if (!n)
n = patch->old_name;
quote_c_style(n, &sb, NULL, 0);
}
fprintf(output, fmt, sb.buf);
fputc('\n', output);
strbuf_release(&sb);
}
#define SLOP (16)
static int read_patch_file(struct strbuf *sb, int fd)
{
if (strbuf_read(sb, fd, 0) < 0)
return error_errno("git apply: failed to read");
/*
* Make sure that we have some slop in the buffer
* so that we can do speculative "memcmp" etc, and
* see to it that it is NUL-filled.
*/
strbuf_grow(sb, SLOP);
memset(sb->buf + sb->len, 0, SLOP);
return 0;
}
static unsigned long linelen(const char *buffer, unsigned long size)
{
unsigned long len = 0;
while (size--) {
len++;
if (*buffer++ == '\n')
break;
}
return len;
}
static int is_dev_null(const char *str)
{
return skip_prefix(str, "/dev/null", &str) && isspace(*str);
}
#define TERM_SPACE 1
#define TERM_TAB 2
static int name_terminate(int c, int terminate)
{
if (c == ' ' && !(terminate & TERM_SPACE))
return 0;
if (c == '\t' && !(terminate & TERM_TAB))
return 0;
return 1;
}
/* remove double slashes to make --index work with such filenames */
static char *squash_slash(char *name)
{
int i = 0, j = 0;
if (!name)
return NULL;
while (name[i]) {
if ((name[j++] = name[i++]) == '/')
while (name[i] == '/')
i++;
}
name[j] = '\0';
return name;
}
static char *find_name_gnu(struct apply_state *state,
const char *line,
const char *def,
int p_value)
{
struct strbuf name = STRBUF_INIT;
char *cp;
/*
* Proposed "new-style" GNU patch/diff format; see
* http://marc.info/?l=git&m=112927316408690&w=2
*/
if (unquote_c_style(&name, line, NULL)) {
strbuf_release(&name);
return NULL;
}
for (cp = name.buf; p_value; p_value--) {
cp = strchr(cp, '/');
if (!cp) {
strbuf_release(&name);
return NULL;
}
cp++;
}
strbuf_remove(&name, 0, cp - name.buf);
if (state->root.len)
strbuf_insert(&name, 0, state->root.buf, state->root.len);
return squash_slash(strbuf_detach(&name, NULL));
}
static size_t sane_tz_len(const char *line, size_t len)
{
const char *tz, *p;
if (len < strlen(" +0500") || line[len-strlen(" +0500")] != ' ')
return 0;
tz = line + len - strlen(" +0500");
if (tz[1] != '+' && tz[1] != '-')
return 0;
for (p = tz + 2; p != line + len; p++)
if (!isdigit(*p))
return 0;
return line + len - tz;
}
static size_t tz_with_colon_len(const char *line, size_t len)
{
const char *tz, *p;
if (len < strlen(" +08:00") || line[len - strlen(":00")] != ':')
return 0;
tz = line + len - strlen(" +08:00");
if (tz[0] != ' ' || (tz[1] != '+' && tz[1] != '-'))
return 0;
p = tz + 2;
if (!isdigit(*p++) || !isdigit(*p++) || *p++ != ':' ||
!isdigit(*p++) || !isdigit(*p++))
return 0;
return line + len - tz;
}
static size_t date_len(const char *line, size_t len)
{
const char *date, *p;
if (len < strlen("72-02-05") || line[len-strlen("-05")] != '-')
return 0;
p = date = line + len - strlen("72-02-05");
if (!isdigit(*p++) || !isdigit(*p++) || *p++ != '-' ||
!isdigit(*p++) || !isdigit(*p++) || *p++ != '-' ||
!isdigit(*p++) || !isdigit(*p++)) /* Not a date. */
return 0;
if (date - line >= strlen("19") &&
isdigit(date[-1]) && isdigit(date[-2])) /* 4-digit year */
date -= strlen("19");
return line + len - date;
}
static size_t short_time_len(const char *line, size_t len)
{
const char *time, *p;
if (len < strlen(" 07:01:32") || line[len-strlen(":32")] != ':')
return 0;
p = time = line + len - strlen(" 07:01:32");
/* Permit 1-digit hours? */
if (*p++ != ' ' ||
!isdigit(*p++) || !isdigit(*p++) || *p++ != ':' ||
!isdigit(*p++) || !isdigit(*p++) || *p++ != ':' ||
!isdigit(*p++) || !isdigit(*p++)) /* Not a time. */
return 0;
return line + len - time;
}
static size_t fractional_time_len(const char *line, size_t len)
{
const char *p;
size_t n;
/* Expected format: 19:41:17.620000023 */
if (!len || !isdigit(line[len - 1]))
return 0;
p = line + len - 1;
/* Fractional seconds. */
while (p > line && isdigit(*p))
p--;
if (*p != '.')
return 0;
/* Hours, minutes, and whole seconds. */
n = short_time_len(line, p - line);
if (!n)
return 0;
return line + len - p + n;
}
static size_t trailing_spaces_len(const char *line, size_t len)
{
const char *p;
/* Expected format: ' ' x (1 or more) */
if (!len || line[len - 1] != ' ')
return 0;
p = line + len;
while (p != line) {
p--;
if (*p != ' ')
return line + len - (p + 1);
}
/* All spaces! */
return len;
}
static size_t diff_timestamp_len(const char *line, size_t len)
{
const char *end = line + len;
size_t n;
/*
* Posix: 2010-07-05 19:41:17
* GNU: 2010-07-05 19:41:17.620000023 -0500
*/
if (!isdigit(end[-1]))
return 0;
n = sane_tz_len(line, end - line);
if (!n)
n = tz_with_colon_len(line, end - line);
end -= n;
n = short_time_len(line, end - line);
if (!n)
n = fractional_time_len(line, end - line);
end -= n;
n = date_len(line, end - line);
if (!n) /* No date. Too bad. */
return 0;
end -= n;
if (end == line) /* No space before date. */
return 0;
if (end[-1] == '\t') { /* Success! */
end--;
return line + len - end;
}
if (end[-1] != ' ') /* No space before date. */
return 0;
/* Whitespace damage. */
end -= trailing_spaces_len(line, end - line);
return line + len - end;
}
static char *find_name_common(struct apply_state *state,
const char *line,
const char *def,
int p_value,
const char *end,
int terminate)
{
int len;
const char *start = NULL;
if (p_value == 0)
start = line;
while (line != end) {
char c = *line;
if (!end && isspace(c)) {
if (c == '\n')
break;
if (name_terminate(c, terminate))
break;
}
line++;
if (c == '/' && !--p_value)
start = line;
}
if (!start)
return squash_slash(xstrdup_or_null(def));
len = line - start;
if (!len)
return squash_slash(xstrdup_or_null(def));
/*
* Generally we prefer the shorter name, especially
* if the other one is just a variation of that with
* something else tacked on to the end (ie "file.orig"
* or "file~").
*/
if (def) {
int deflen = strlen(def);
if (deflen < len && !strncmp(start, def, deflen))
return squash_slash(xstrdup(def));
}
if (state->root.len) {
char *ret = xstrfmt("%s%.*s", state->root.buf, len, start);
return squash_slash(ret);
}
return squash_slash(xmemdupz(start, len));
}
static char *find_name(struct apply_state *state,
const char *line,
char *def,
int p_value,
int terminate)
{
if (*line == '"') {
char *name = find_name_gnu(state, line, def, p_value);
if (name)
return name;
}
return find_name_common(state, line, def, p_value, NULL, terminate);
}
static char *find_name_traditional(struct apply_state *state,
const char *line,
char *def,
int p_value)
{
size_t len;
size_t date_len;
if (*line == '"') {
char *name = find_name_gnu(state, line, def, p_value);
if (name)
return name;
}
len = strchrnul(line, '\n') - line;
date_len = diff_timestamp_len(line, len);
if (!date_len)
return find_name_common(state, line, def, p_value, NULL, TERM_TAB);
len -= date_len;
return find_name_common(state, line, def, p_value, line + len, 0);
}
/*
* Given the string after "--- " or "+++ ", guess the appropriate
* p_value for the given patch.
*/
static int guess_p_value(struct apply_state *state, const char *nameline)
{
char *name, *cp;
int val = -1;
if (is_dev_null(nameline))
return -1;
name = find_name_traditional(state, nameline, NULL, 0);
if (!name)
return -1;
cp = strchr(name, '/');
if (!cp)
val = 0;
else if (state->prefix) {
/*
* Does it begin with "a/$our-prefix" and such? Then this is
* very likely to apply to our directory.
*/
if (starts_with(name, state->prefix))
val = count_slashes(state->prefix);
else {
cp++;
if (starts_with(cp, state->prefix))
val = count_slashes(state->prefix) + 1;
}
}
free(name);
return val;
}
/*
* Does the ---/+++ line have the POSIX timestamp after the last HT?
* GNU diff puts epoch there to signal a creation/deletion event. Is
* this such a timestamp?
*/
static int has_epoch_timestamp(const char *nameline)
{
/*
* We are only interested in epoch timestamp; any non-zero
* fraction cannot be one, hence "(\.0+)?" in the regexp below.
* For the same reason, the date must be either 1969-12-31 or
* 1970-01-01, and the seconds part must be "00".
*/
const char stamp_regexp[] =
"^(1969-12-31|1970-01-01)"
" "
"[0-2][0-9]:[0-5][0-9]:00(\\.0+)?"
" "
"([-+][0-2][0-9]:?[0-5][0-9])\n";
const char *timestamp = NULL, *cp, *colon;
static regex_t *stamp;
regmatch_t m[10];
int zoneoffset;
int hourminute;
int status;
for (cp = nameline; *cp != '\n'; cp++) {
if (*cp == '\t')
timestamp = cp + 1;
}
if (!timestamp)
return 0;
if (!stamp) {
stamp = xmalloc(sizeof(*stamp));
if (regcomp(stamp, stamp_regexp, REG_EXTENDED)) {
warning(_("Cannot prepare timestamp regexp %s"),
stamp_regexp);
return 0;
}
}
status = regexec(stamp, timestamp, ARRAY_SIZE(m), m, 0);
if (status) {
if (status != REG_NOMATCH)
warning(_("regexec returned %d for input: %s"),
status, timestamp);
return 0;
}
zoneoffset = strtol(timestamp + m[3].rm_so + 1, (char **) &colon, 10);
if (*colon == ':')
zoneoffset = zoneoffset * 60 + strtol(colon + 1, NULL, 10);
else
zoneoffset = (zoneoffset / 100) * 60 + (zoneoffset % 100);
if (timestamp[m[3].rm_so] == '-')
zoneoffset = -zoneoffset;
/*
* YYYY-MM-DD hh:mm:ss must be from either 1969-12-31
* (west of GMT) or 1970-01-01 (east of GMT)
*/
if ((zoneoffset < 0 && memcmp(timestamp, "1969-12-31", 10)) ||
(0 <= zoneoffset && memcmp(timestamp, "1970-01-01", 10)))
return 0;
hourminute = (strtol(timestamp + 11, NULL, 10) * 60 +
strtol(timestamp + 14, NULL, 10) -
zoneoffset);
return ((zoneoffset < 0 && hourminute == 1440) ||
(0 <= zoneoffset && !hourminute));
}
/*
* Get the name etc info from the ---/+++ lines of a traditional patch header
*
* FIXME! The end-of-filename heuristics are kind of screwy. For existing
* files, we can happily check the index for a match, but for creating a
* new file we should try to match whatever "patch" does. I have no idea.
*/
static int parse_traditional_patch(struct apply_state *state,
const char *first,
const char *second,
struct patch *patch)
{
char *name;
first += 4; /* skip "--- " */
second += 4; /* skip "+++ " */
if (!state->p_value_known) {
int p, q;
p = guess_p_value(state, first);
q = guess_p_value(state, second);
if (p < 0) p = q;
if (0 <= p && p == q) {
state->p_value = p;
state->p_value_known = 1;
}
}
if (is_dev_null(first)) {
patch->is_new = 1;
patch->is_delete = 0;
name = find_name_traditional(state, second, NULL, state->p_value);
patch->new_name = name;
} else if (is_dev_null(second)) {
patch->is_new = 0;
patch->is_delete = 1;
name = find_name_traditional(state, first, NULL, state->p_value);
patch->old_name = name;
} else {
char *first_name;
first_name = find_name_traditional(state, first, NULL, state->p_value);
name = find_name_traditional(state, second, first_name, state->p_value);
free(first_name);
if (has_epoch_timestamp(first)) {
patch->is_new = 1;
patch->is_delete = 0;
patch->new_name = name;
} else if (has_epoch_timestamp(second)) {
patch->is_new = 0;
patch->is_delete = 1;
patch->old_name = name;
} else {
patch->old_name = name;
patch->new_name = xstrdup_or_null(name);
}
}
if (!name)
return error(_("unable to find filename in patch at line %d"), state->linenr);
return 0;
}
static int gitdiff_hdrend(struct apply_state *state,
const char *line,
struct patch *patch)
{
return 1;
}
/*
* We're anal about diff header consistency, to make
* sure that we don't end up having strange ambiguous
* patches floating around.
*
* As a result, gitdiff_{old|new}name() will check
* their names against any previous information, just
* to make sure..
*/
#define DIFF_OLD_NAME 0
#define DIFF_NEW_NAME 1
static int gitdiff_verify_name(struct apply_state *state,
const char *line,
int isnull,
char **name,
int side)
{
if (!*name && !isnull) {
*name = find_name(state, line, NULL, state->p_value, TERM_TAB);
return 0;
}
if (*name) {
char *another;
if (isnull)
return error(_("git apply: bad git-diff - expected /dev/null, got %s on line %d"),
*name, state->linenr);
another = find_name(state, line, NULL, state->p_value, TERM_TAB);
if (!another || strcmp(another, *name)) {
free(another);
return error((side == DIFF_NEW_NAME) ?
_("git apply: bad git-diff - inconsistent new filename on line %d") :
_("git apply: bad git-diff - inconsistent old filename on line %d"), state->linenr);
}
free(another);
} else {
if (!starts_with(line, "/dev/null\n"))
return error(_("git apply: bad git-diff - expected /dev/null on line %d"), state->linenr);
}
return 0;
}
static int gitdiff_oldname(struct apply_state *state,
const char *line,
struct patch *patch)
{
return gitdiff_verify_name(state, line,
patch->is_new, &patch->old_name,
DIFF_OLD_NAME);
}
static int gitdiff_newname(struct apply_state *state,
const char *line,
struct patch *patch)
{
return gitdiff_verify_name(state, line,
patch->is_delete, &patch->new_name,
DIFF_NEW_NAME);
}
static int parse_mode_line(const char *line, int linenr, unsigned int *mode)
{
char *end;
*mode = strtoul(line, &end, 8);
if (end == line || !isspace(*end))
return error(_("invalid mode on line %d: %s"), linenr, line);
return 0;
}
static int gitdiff_oldmode(struct apply_state *state,
const char *line,
struct patch *patch)
{
return parse_mode_line(line, state->linenr, &patch->old_mode);
}
static int gitdiff_newmode(struct apply_state *state,
const char *line,
struct patch *patch)
{
return parse_mode_line(line, state->linenr, &patch->new_mode);
}
static int gitdiff_delete(struct apply_state *state,
const char *line,
struct patch *patch)
{
patch->is_delete = 1;
free(patch->old_name);
patch->old_name = xstrdup_or_null(patch->def_name);
return gitdiff_oldmode(state, line, patch);
}
static int gitdiff_newfile(struct apply_state *state,
const char *line,
struct patch *patch)
{
patch->is_new = 1;
free(patch->new_name);
patch->new_name = xstrdup_or_null(patch->def_name);
return gitdiff_newmode(state, line, patch);
}
static int gitdiff_copysrc(struct apply_state *state,
const char *line,
struct patch *patch)
{
patch->is_copy = 1;
free(patch->old_name);
patch->old_name = find_name(state, line, NULL, state->p_value ? state->p_value - 1 : 0, 0);
return 0;
}
static int gitdiff_copydst(struct apply_state *state,
const char *line,
struct patch *patch)
{
patch->is_copy = 1;
free(patch->new_name);
patch->new_name = find_name(state, line, NULL, state->p_value ? state->p_value - 1 : 0, 0);
return 0;
}
static int gitdiff_renamesrc(struct apply_state *state,
const char *line,
struct patch *patch)
{
patch->is_rename = 1;
free(patch->old_name);
patch->old_name = find_name(state, line, NULL, state->p_value ? state->p_value - 1 : 0, 0);
return 0;
}
static int gitdiff_renamedst(struct apply_state *state,
const char *line,
struct patch *patch)
{
patch->is_rename = 1;
free(patch->new_name);
patch->new_name = find_name(state, line, NULL, state->p_value ? state->p_value - 1 : 0, 0);
return 0;
}
static int gitdiff_similarity(struct apply_state *state,
const char *line,
struct patch *patch)
{
unsigned long val = strtoul(line, NULL, 10);
if (val <= 100)
patch->score = val;
return 0;
}
static int gitdiff_dissimilarity(struct apply_state *state,
const char *line,
struct patch *patch)
{
unsigned long val = strtoul(line, NULL, 10);
if (val <= 100)
patch->score = val;
return 0;
}
static int gitdiff_index(struct apply_state *state,
const char *line,
struct patch *patch)
{
/*
* index line is N hexadecimal, "..", N hexadecimal,
* and optional space with octal mode.
*/
const char *ptr, *eol;
int len;
ptr = strchr(line, '.');
if (!ptr || ptr[1] != '.' || 40 < ptr - line)
return 0;
len = ptr - line;
memcpy(patch->old_sha1_prefix, line, len);
patch->old_sha1_prefix[len] = 0;
line = ptr + 2;
ptr = strchr(line, ' ');
eol = strchrnul(line, '\n');
if (!ptr || eol < ptr)
ptr = eol;
len = ptr - line;
if (40 < len)
return 0;
memcpy(patch->new_sha1_prefix, line, len);
patch->new_sha1_prefix[len] = 0;
if (*ptr == ' ')
return gitdiff_oldmode(state, ptr + 1, patch);
return 0;
}
/*
* This is normal for a diff that doesn't change anything: we'll fall through
* into the next diff. Tell the parser to break out.
*/
static int gitdiff_unrecognized(struct apply_state *state,
const char *line,
struct patch *patch)
{
return 1;
}
/*
* Skip p_value leading components from "line"; as we do not accept
* absolute paths, return NULL in that case.
*/
static const char *skip_tree_prefix(struct apply_state *state,
const char *line,
int llen)
{
int nslash;
int i;
if (!state->p_value)
return (llen && line[0] == '/') ? NULL : line;
nslash = state->p_value;
for (i = 0; i < llen; i++) {
int ch = line[i];
if (ch == '/' && --nslash <= 0)
return (i == 0) ? NULL : &line[i + 1];
}
return NULL;
}
/*
* This is to extract the same name that appears on "diff --git"
* line. We do not find and return anything if it is a rename
* patch, and it is OK because we will find the name elsewhere.
* We need to reliably find name only when it is mode-change only,
* creation or deletion of an empty file. In any of these cases,
* both sides are the same name under a/ and b/ respectively.
*/
static char *git_header_name(struct apply_state *state,
const char *line,
int llen)
{
const char *name;
const char *second = NULL;
size_t len, line_len;
line += strlen("diff --git ");
llen -= strlen("diff --git ");
if (*line == '"') {
const char *cp;
struct strbuf first = STRBUF_INIT;
struct strbuf sp = STRBUF_INIT;
if (unquote_c_style(&first, line, &second))
goto free_and_fail1;
/* strip the a/b prefix including trailing slash */
cp = skip_tree_prefix(state, first.buf, first.len);
if (!cp)
goto free_and_fail1;
strbuf_remove(&first, 0, cp - first.buf);
/*
* second points at one past closing dq of name.
* find the second name.
*/
while ((second < line + llen) && isspace(*second))
second++;
if (line + llen <= second)
goto free_and_fail1;
if (*second == '"') {
if (unquote_c_style(&sp, second, NULL))
goto free_and_fail1;
cp = skip_tree_prefix(state, sp.buf, sp.len);
if (!cp)
goto free_and_fail1;
/* They must match, otherwise ignore */
if (strcmp(cp, first.buf))
goto free_and_fail1;
strbuf_release(&sp);
return strbuf_detach(&first, NULL);
}
/* unquoted second */
cp = skip_tree_prefix(state, second, line + llen - second);
if (!cp)
goto free_and_fail1;
if (line + llen - cp != first.len ||
memcmp(first.buf, cp, first.len))
goto free_and_fail1;
return strbuf_detach(&first, NULL);
free_and_fail1:
strbuf_release(&first);
strbuf_release(&sp);
return NULL;
}
/* unquoted first name */
name = skip_tree_prefix(state, line, llen);
if (!name)
return NULL;
/*
* since the first name is unquoted, a dq if exists must be
* the beginning of the second name.
*/
for (second = name; second < line + llen; second++) {
if (*second == '"') {
struct strbuf sp = STRBUF_INIT;
const char *np;
if (unquote_c_style(&sp, second, NULL))
goto free_and_fail2;
np = skip_tree_prefix(state, sp.buf, sp.len);
if (!np)
goto free_and_fail2;
len = sp.buf + sp.len - np;
if (len < second - name &&
!strncmp(np, name, len) &&
isspace(name[len])) {
/* Good */
strbuf_remove(&sp, 0, np - sp.buf);
return strbuf_detach(&sp, NULL);
}
free_and_fail2:
strbuf_release(&sp);
return NULL;
}
}
/*
* Accept a name only if it shows up twice, exactly the same
* form.
*/
second = strchr(name, '\n');
if (!second)
return NULL;
line_len = second - name;
for (len = 0 ; ; len++) {
switch (name[len]) {
default:
continue;
case '\n':
return NULL;
case '\t': case ' ':
/*
* Is this the separator between the preimage
* and the postimage pathname? Again, we are
* only interested in the case where there is
* no rename, as this is only to set def_name
* and a rename patch has the names elsewhere
* in an unambiguous form.
*/
if (!name[len + 1])
return NULL; /* no postimage name */
second = skip_tree_prefix(state, name + len + 1,
line_len - (len + 1));
if (!second)
return NULL;
/*
* Does len bytes starting at "name" and "second"
* (that are separated by one HT or SP we just
* found) exactly match?
*/
if (second[len] == '\n' && !strncmp(name, second, len))
return xmemdupz(name, len);
}
}
}
static int check_header_line(struct apply_state *state, struct patch *patch)
{
int extensions = (patch->is_delete == 1) + (patch->is_new == 1) +
(patch->is_rename == 1) + (patch->is_copy == 1);
if (extensions > 1)
return error(_("inconsistent header lines %d and %d"),
patch->extension_linenr, state->linenr);
if (extensions && !patch->extension_linenr)
patch->extension_linenr = state->linenr;
return 0;
}
/* Verify that we recognize the lines following a git header */
static int parse_git_header(struct apply_state *state,
const char *line,
int len,
unsigned int size,
struct patch *patch)
{
unsigned long offset;
/* A git diff has explicit new/delete information, so we don't guess */
patch->is_new = 0;
patch->is_delete = 0;
/*
* Some things may not have the old name in the
* rest of the headers anywhere (pure mode changes,
* or removing or adding empty files), so we get
* the default name from the header.
*/
patch->def_name = git_header_name(state, line, len);
if (patch->def_name && state->root.len) {
char *s = xstrfmt("%s%s", state->root.buf, patch->def_name);
free(patch->def_name);
patch->def_name = s;
}
line += len;
size -= len;
state->linenr++;
for (offset = len ; size > 0 ; offset += len, size -= len, line += len, state->linenr++) {
static const struct opentry {
const char *str;
int (*fn)(struct apply_state *, const char *, struct patch *);
} optable[] = {
{ "@@ -", gitdiff_hdrend },
{ "--- ", gitdiff_oldname },
{ "+++ ", gitdiff_newname },
{ "old mode ", gitdiff_oldmode },
{ "new mode ", gitdiff_newmode },
{ "deleted file mode ", gitdiff_delete },
{ "new file mode ", gitdiff_newfile },
{ "copy from ", gitdiff_copysrc },
{ "copy to ", gitdiff_copydst },
{ "rename old ", gitdiff_renamesrc },
{ "rename new ", gitdiff_renamedst },
{ "rename from ", gitdiff_renamesrc },
{ "rename to ", gitdiff_renamedst },
{ "similarity index ", gitdiff_similarity },
{ "dissimilarity index ", gitdiff_dissimilarity },
{ "index ", gitdiff_index },
{ "", gitdiff_unrecognized },
};
int i;
len = linelen(line, size);
if (!len || line[len-1] != '\n')
break;
for (i = 0; i < ARRAY_SIZE(optable); i++) {
const struct opentry *p = optable + i;
int oplen = strlen(p->str);
int res;
if (len < oplen || memcmp(p->str, line, oplen))
continue;
res = p->fn(state, line + oplen, patch);
if (res < 0)
return -1;
if (check_header_line(state, patch))
return -1;
if (res > 0)
return offset;
break;
}
}
return offset;
}
static int parse_num(const char *line, unsigned long *p)
{
char *ptr;
if (!isdigit(*line))
return 0;
*p = strtoul(line, &ptr, 10);
return ptr - line;
}
static int parse_range(const char *line, int len, int offset, const char *expect,
unsigned long *p1, unsigned long *p2)
{
int digits, ex;
if (offset < 0 || offset >= len)
return -1;
line += offset;
len -= offset;
digits = parse_num(line, p1);
if (!digits)
return -1;
offset += digits;
line += digits;
len -= digits;
*p2 = 1;
if (*line == ',') {
digits = parse_num(line+1, p2);
if (!digits)
return -1;
offset += digits+1;
line += digits+1;
len -= digits+1;
}
ex = strlen(expect);
if (ex > len)
return -1;
if (memcmp(line, expect, ex))
return -1;
return offset + ex;
}
static void recount_diff(const char *line, int size, struct fragment *fragment)
{
int oldlines = 0, newlines = 0, ret = 0;
if (size < 1) {
warning("recount: ignore empty hunk");
return;
}
for (;;) {
int len = linelen(line, size);
size -= len;
line += len;
if (size < 1)
break;
switch (*line) {
case ' ': case '\n':
newlines++;
/* fall through */
case '-':
oldlines++;
continue;
case '+':
newlines++;
continue;
case '\\':
continue;
case '@':
ret = size < 3 || !starts_with(line, "@@ ");
break;
case 'd':
ret = size < 5 || !starts_with(line, "diff ");
break;
default:
ret = -1;
break;
}
if (ret) {
warning(_("recount: unexpected line: %.*s"),
(int)linelen(line, size), line);
return;
}
break;
}
fragment->oldlines = oldlines;
fragment->newlines = newlines;
}
/*
* Parse a unified diff fragment header of the
* form "@@ -a,b +c,d @@"
*/
static int parse_fragment_header(const char *line, int len, struct fragment *fragment)
{
int offset;
if (!len || line[len-1] != '\n')
return -1;
/* Figure out the number of lines in a fragment */
offset = parse_range(line, len, 4, " +", &fragment->oldpos, &fragment->oldlines);
offset = parse_range(line, len, offset, " @@", &fragment->newpos, &fragment->newlines);
return offset;
}
/*
* Find file diff header
*
* Returns:
* -1 if no header was found
* -128 in case of error
* the size of the header in bytes (called "offset") otherwise
*/
static int find_header(struct apply_state *state,
const char *line,
unsigned long size,
int *hdrsize,
struct patch *patch)
{
unsigned long offset, len;
patch->is_toplevel_relative = 0;
patch->is_rename = patch->is_copy = 0;
patch->is_new = patch->is_delete = -1;
patch->old_mode = patch->new_mode = 0;
patch->old_name = patch->new_name = NULL;
for (offset = 0; size > 0; offset += len, size -= len, line += len, state->linenr++) {
unsigned long nextlen;
len = linelen(line, size);
if (!len)
break;
/* Testing this early allows us to take a few shortcuts.. */
if (len < 6)
continue;
/*
* Make sure we don't find any unconnected patch fragments.
* That's a sign that we didn't find a header, and that a
* patch has become corrupted/broken up.
*/
if (!memcmp("@@ -", line, 4)) {
struct fragment dummy;
if (parse_fragment_header(line, len, &dummy) < 0)
continue;
error(_("patch fragment without header at line %d: %.*s"),
state->linenr, (int)len-1, line);
return -128;
}
if (size < len + 6)
break;
/*
* Git patch? It might not have a real patch, just a rename
* or mode change, so we handle that specially
*/
if (!memcmp("diff --git ", line, 11)) {
int git_hdr_len = parse_git_header(state, line, len, size, patch);
if (git_hdr_len < 0)
return -128;
if (git_hdr_len <= len)
continue;
if (!patch->old_name && !patch->new_name) {
if (!patch->def_name) {
error(Q_("git diff header lacks filename information when removing "
"%d leading pathname component (line %d)",
"git diff header lacks filename information when removing "
"%d leading pathname components (line %d)",
state->p_value),
state->p_value, state->linenr);
return -128;
}
patch->old_name = xstrdup(patch->def_name);
patch->new_name = xstrdup(patch->def_name);
}
if ((!patch->new_name && !patch->is_delete) ||
(!patch->old_name && !patch->is_new)) {
error(_("git diff header lacks filename information "
"(line %d)"), state->linenr);
return -128;
}
patch->is_toplevel_relative = 1;
*hdrsize = git_hdr_len;
return offset;
}
/* --- followed by +++ ? */
if (memcmp("--- ", line, 4) || memcmp("+++ ", line + len, 4))
continue;
/*
* We only accept unified patches, so we want it to
* at least have "@@ -a,b +c,d @@\n", which is 14 chars
* minimum ("@@ -0,0 +1 @@\n" is the shortest).
*/
nextlen = linelen(line + len, size - len);
if (size < nextlen + 14 || memcmp("@@ -", line + len + nextlen, 4))
continue;
/* Ok, we'll consider it a patch */
if (parse_traditional_patch(state, line, line+len, patch))
return -128;
*hdrsize = len + nextlen;
state->linenr += 2;
return offset;
}
return -1;
}
static void record_ws_error(struct apply_state *state,
unsigned result,
const char *line,
int len,
int linenr)
{
char *err;
if (!result)
return;
state->whitespace_error++;
if (state->squelch_whitespace_errors &&
state->squelch_whitespace_errors < state->whitespace_error)
return;
err = whitespace_error_string(result);
if (state->apply_verbosity > verbosity_silent)
fprintf(stderr, "%s:%d: %s.\n%.*s\n",
state->patch_input_file, linenr, err, len, line);
free(err);
}
static void check_whitespace(struct apply_state *state,
const char *line,
int len,
unsigned ws_rule)
{
unsigned result = ws_check(line + 1, len - 1, ws_rule);
record_ws_error(state, result, line + 1, len - 2, state->linenr);
}
/*
* Check if the patch has context lines with CRLF or
* the patch wants to remove lines with CRLF.
*/
static void check_old_for_crlf(struct patch *patch, const char *line, int len)
{
if (len >= 2 && line[len-1] == '\n' && line[len-2] == '\r') {
patch->ws_rule |= WS_CR_AT_EOL;
patch->crlf_in_old = 1;
}
}
/*
* Parse a unified diff. Note that this really needs to parse each
* fragment separately, since the only way to know the difference
* between a "---" that is part of a patch, and a "---" that starts
* the next patch is to look at the line counts..
*/
static int parse_fragment(struct apply_state *state,
const char *line,
unsigned long size,
struct patch *patch,
struct fragment *fragment)
{
int added, deleted;
int len = linelen(line, size), offset;
unsigned long oldlines, newlines;
unsigned long leading, trailing;
offset = parse_fragment_header(line, len, fragment);
if (offset < 0)
return -1;
if (offset > 0 && patch->recount)
recount_diff(line + offset, size - offset, fragment);
oldlines = fragment->oldlines;
newlines = fragment->newlines;
leading = 0;
trailing = 0;
/* Parse the thing.. */
line += len;
size -= len;
state->linenr++;
added = deleted = 0;
for (offset = len;
0 < size;
offset += len, size -= len, line += len, state->linenr++) {
if (!oldlines && !newlines)
break;
len = linelen(line, size);
if (!len || line[len-1] != '\n')
return -1;
switch (*line) {
default:
return -1;
case '\n': /* newer GNU diff, an empty context line */
case ' ':
oldlines--;
newlines--;
if (!deleted && !added)
leading++;
trailing++;
check_old_for_crlf(patch, line, len);
if (!state->apply_in_reverse &&
state->ws_error_action == correct_ws_error)
check_whitespace(state, line, len, patch->ws_rule);
break;
case '-':
if (!state->apply_in_reverse)
check_old_for_crlf(patch, line, len);
if (state->apply_in_reverse &&
state->ws_error_action != nowarn_ws_error)
check_whitespace(state, line, len, patch->ws_rule);
deleted++;
oldlines--;
trailing = 0;
break;
case '+':
if (state->apply_in_reverse)
check_old_for_crlf(patch, line, len);
if (!state->apply_in_reverse &&
state->ws_error_action != nowarn_ws_error)
check_whitespace(state, line, len, patch->ws_rule);
added++;
newlines--;
trailing = 0;
break;
/*
* We allow "\ No newline at end of file". Depending
* on locale settings when the patch was produced we
* don't know what this line looks like. The only
* thing we do know is that it begins with "\ ".
* Checking for 12 is just for sanity check -- any
* l10n of "\ No newline..." is at least that long.
*/
case '\\':
if (len < 12 || memcmp(line, "\\ ", 2))
return -1;
break;
}
}
if (oldlines || newlines)
return -1;
if (!deleted && !added)
return -1;
fragment->leading = leading;
fragment->trailing = trailing;
/*
* If a fragment ends with an incomplete line, we failed to include
* it in the above loop because we hit oldlines == newlines == 0
* before seeing it.
*/
if (12 < size && !memcmp(line, "\\ ", 2))
offset += linelen(line, size);
patch->lines_added += added;
patch->lines_deleted += deleted;
if (0 < patch->is_new && oldlines)
return error(_("new file depends on old contents"));
if (0 < patch->is_delete && newlines)
return error(_("deleted file still has contents"));
return offset;
}
/*
* We have seen "diff --git a/... b/..." header (or a traditional patch
* header). Read hunks that belong to this patch into fragments and hang
* them to the given patch structure.
*
* The (fragment->patch, fragment->size) pair points into the memory given
* by the caller, not a copy, when we return.
*
* Returns:
* -1 in case of error,
* the number of bytes in the patch otherwise.
*/
static int parse_single_patch(struct apply_state *state,
const char *line,
unsigned long size,
struct patch *patch)
{
unsigned long offset = 0;
unsigned long oldlines = 0, newlines = 0, context = 0;
struct fragment **fragp = &patch->fragments;
while (size > 4 && !memcmp(line, "@@ -", 4)) {
struct fragment *fragment;
int len;
fragment = xcalloc(1, sizeof(*fragment));
fragment->linenr = state->linenr;
len = parse_fragment(state, line, size, patch, fragment);
if (len <= 0) {
free(fragment);
return error(_("corrupt patch at line %d"), state->linenr);
}
fragment->patch = line;
fragment->size = len;
oldlines += fragment->oldlines;
newlines += fragment->newlines;
context += fragment->leading + fragment->trailing;
*fragp = fragment;
fragp = &fragment->next;
offset += len;
line += len;
size -= len;
}
/*
* If something was removed (i.e. we have old-lines) it cannot
* be creation, and if something was added it cannot be
* deletion. However, the reverse is not true; --unified=0
* patches that only add are not necessarily creation even
* though they do not have any old lines, and ones that only
* delete are not necessarily deletion.
*
* Unfortunately, a real creation/deletion patch do _not_ have
* any context line by definition, so we cannot safely tell it
* apart with --unified=0 insanity. At least if the patch has
* more than one hunk it is not creation or deletion.
*/
if (patch->is_new < 0 &&
(oldlines || (patch->fragments && patch->fragments->next)))
patch->is_new = 0;
if (patch->is_delete < 0 &&
(newlines || (patch->fragments && patch->fragments->next)))
patch->is_delete = 0;
if (0 < patch->is_new && oldlines)
return error(_("new file %s depends on old contents"), patch->new_name);
if (0 < patch->is_delete && newlines)
return error(_("deleted file %s still has contents"), patch->old_name);
if (!patch->is_delete && !newlines && context && state->apply_verbosity > verbosity_silent)
fprintf_ln(stderr,
_("** warning: "
"file %s becomes empty but is not deleted"),
patch->new_name);
return offset;
}
static inline int metadata_changes(struct patch *patch)
{
return patch->is_rename > 0 ||
patch->is_copy > 0 ||
patch->is_new > 0 ||
patch->is_delete ||
(patch->old_mode && patch->new_mode &&
patch->old_mode != patch->new_mode);
}
static char *inflate_it(const void *data, unsigned long size,
unsigned long inflated_size)
{
git_zstream 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;
git_inflate_init(&stream);
st = git_inflate(&stream, Z_FINISH);
git_inflate_end(&stream);
if ((st != Z_STREAM_END) || stream.total_out != inflated_size) {
free(out);
return NULL;
}
return out;
}
/*
* Read a binary hunk and return a new fragment; fragment->patch
* points at an allocated memory that the caller must free, so
* it is marked as "->free_patch = 1".
*/
static struct fragment *parse_binary_hunk(struct apply_state *state,
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.
*/
int llen, used;
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;
llen = linelen(buffer, size);
used = llen;
*status_p = 0;
if (starts_with(buffer, "delta ")) {
patch_method = BINARY_DELTA_DEFLATED;
origlen = strtoul(buffer + 6, NULL, 10);
}
else if (starts_with(buffer, "literal ")) {
patch_method = BINARY_LITERAL_DEFLATED;
origlen = strtoul(buffer + 8, NULL, 10);
}
else
return NULL;
state->linenr++;
buffer += llen;
while (1) {
int byte_length, max_byte_length, newsize;
llen = linelen(buffer, size);
used += llen;
state->linenr++;
if (llen == 1) {
/* consume the blank line */
buffer++;
size--;
break;
}
/*
* Minimum line is "A00000\n" which is 7-byte long,
* and the line length must be multiple of 5 plus 2.
*/
if ((llen < 7) || (llen-2) % 5)
goto corrupt;
max_byte_length = (llen - 2) / 5 * 4;
byte_length = *buffer;
if ('A' <= byte_length && byte_length <= 'Z')
byte_length = byte_length - 'A' + 1;
else if ('a' <= byte_length && byte_length <= 'z')
byte_length = byte_length - 'a' + 27;
else
goto corrupt;
/* if the input length was not multiple of 4, we would
* have filler at the end but the filler should never
* exceed 3 bytes
*/
if (max_byte_length < byte_length ||
byte_length <= max_byte_length - 4)
goto corrupt;
newsize = hunk_size + byte_length;
data = xrealloc(data, newsize);
if (decode_85(data + hunk_size, buffer + 1, byte_length))
goto corrupt;
hunk_size = newsize;
buffer += llen;
size -= llen;
}
frag = xcalloc(1, sizeof(*frag));
frag->patch = inflate_it(data, hunk_size, origlen);
frag->free_patch = 1;
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:
free(data);
*status_p = -1;
error(_("corrupt binary patch at line %d: %.*s"),
state->linenr-1, llen-1, buffer);
return NULL;
}
/*
* Returns:
* -1 in case of error,
* the length of the parsed binary patch otherwise
*/
static int parse_binary(struct apply_state *state,
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(state, &buffer, &size, &status, &used);
if (!forward && !status)
/* there has to be one hunk (forward hunk) */
return error(_("unrecognized binary patch at line %d"), state->linenr-1);
if (status)
/* otherwise we already gave an error message */
return status;
reverse = parse_binary_hunk(state, &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 void prefix_one(struct apply_state *state, char **name)
{
char *old_name = *name;
if (!old_name)
return;
*name = prefix_filename(state->prefix, *name);
free(old_name);
}
static void prefix_patch(struct apply_state *state, struct patch *p)
{
if (!state->prefix || p->is_toplevel_relative)
return;
prefix_one(state, &p->new_name);
prefix_one(state, &p->old_name);
}
/*
* include/exclude
*/
static void add_name_limit(struct apply_state *state,
const char *name,
int exclude)
{
struct string_list_item *it;
it = string_list_append(&state->limit_by_name, name);
it->util = exclude ? NULL : (void *) 1;
}
static int use_patch(struct apply_state *state, struct patch *p)
{
const char *pathname = p->new_name ? p->new_name : p->old_name;
int i;
/* Paths outside are not touched regardless of "--include" */
if (state->prefix && *state->prefix) {
const char *rest;
if (!skip_prefix(pathname, state->prefix, &rest) || !*rest)
return 0;
}
/* See if it matches any of exclude/include rule */
for (i = 0; i < state->limit_by_name.nr; i++) {
struct string_list_item *it = &state->limit_by_name.items[i];
if (!wildmatch(it->string, pathname, 0))
return (it->util != NULL);
}
/*
* If we had any include, a path that does not match any rule is
* not used. Otherwise, we saw bunch of exclude rules (or none)
* and such a path is used.
*/
return !state->has_include;
}
/*
* Read the patch text in "buffer" that extends for "size" bytes; stop
* reading after seeing a single patch (i.e. changes to a single file).
* Create fragments (i.e. patch hunks) and hang them to the given patch.
*
* Returns:
* -1 if no header was found or parse_binary() failed,
* -128 on another error,
* the number of bytes consumed otherwise,
* so that the caller can call us again for the next patch.
*/
static int parse_chunk(struct apply_state *state, char *buffer, unsigned long size, struct patch *patch)
{
int hdrsize, patchsize;
int offset = find_header(state, buffer, size, &hdrsize, patch);
if (offset < 0)
return offset;
prefix_patch(state, patch);
if (!use_patch(state, patch))
patch->ws_rule = 0;
else
patch->ws_rule = whitespace_rule(patch->new_name
? patch->new_name
: patch->old_name);
patchsize = parse_single_patch(state,
buffer + offset + hdrsize,
size - offset - hdrsize,
patch);
if (patchsize < 0)
return -128;
if (!patchsize) {
static const char git_binary[] = "GIT binary patch\n";
int hd = hdrsize + offset;
unsigned long llen = linelen(buffer + hd, size - hd);
if (llen == sizeof(git_binary) - 1 &&
!memcmp(git_binary, buffer + hd, llen)) {
int used;
state->linenr++;
used = parse_binary(state, buffer + hd + llen,
size - hd - llen, patch);
if (used < 0)
return -1;
if (used)
patchsize = used + llen;
else
patchsize = 0;
}
else if (!memcmp(" differ\n", buffer + hd + llen - 8, 8)) {
static const char *binhdr[] = {
"Binary files ",
"Files ",
NULL,
};
int i;
for (i = 0; binhdr[i]; i++) {
int len = strlen(binhdr[i]);
if (len < size - hd &&
!memcmp(binhdr[i], buffer + hd, len)) {
state->linenr++;
patch->is_binary = 1;
patchsize = llen;
break;
}
}
}
/* Empty patch cannot be applied if it is a text patch
* without metadata change. A binary patch appears
* empty to us here.
*/
if ((state->apply || state->check) &&
(!patch->is_binary && !metadata_changes(patch))) {
error(_("patch with only garbage at line %d"), state->linenr);
return -128;
}
}
return offset + hdrsize + patchsize;
}
static void reverse_patches(struct patch *p)
{
for (; p; p = p->next) {
struct fragment *frag = p->fragments;
SWAP(p->new_name, p->old_name);
SWAP(p->new_mode, p->old_mode);
SWAP(p->is_new, p->is_delete);
SWAP(p->lines_added, p->lines_deleted);
SWAP(p->old_sha1_prefix, p->new_sha1_prefix);
for (; frag; frag = frag->next) {
SWAP(frag->newpos, frag->oldpos);
SWAP(frag->newlines, frag->oldlines);
}
}
}
static const char pluses[] =
"++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++";
static const char minuses[]=
"----------------------------------------------------------------------";
static void show_stats(struct apply_state *state, struct patch *patch)
{
struct strbuf qname = STRBUF_INIT;
char *cp = patch->new_name ? patch->new_name : patch->old_name;
int max, add, del;
quote_c_style(cp, &qname, NULL, 0);
/*
* "scale" the filename
*/
max = state->max_len;
if (max > 50)
max = 50;
if (qname.len > max) {
cp = strchr(qname.buf + qname.len + 3 - max, '/');
if (!cp)
cp = qname.buf + qname.len + 3 - max;
strbuf_splice(&qname, 0, cp - qname.buf, "...", 3);
}
if (patch->is_binary) {
printf(" %-*s | Bin\n", max, qname.buf);
strbuf_release(&qname);
return;
}
printf(" %-*s |", max, qname.buf);
strbuf_release(&qname);
/*
* scale the add/delete
*/
max = max + state->max_change > 70 ? 70 - max : state->max_change;
add = patch->lines_added;
del = patch->lines_deleted;
if (state->max_change > 0) {
int total = ((add + del) * max + state->max_change / 2) / state->max_change;
add = (add * max + state->max_change / 2) / state->max_change;
del = total - add;
}
printf("%5d %.*s%.*s\n", patch->lines_added + patch->lines_deleted,
add, pluses, del, minuses);
}
static int read_old_data(struct stat *st, struct patch *patch,
const char *path, struct strbuf *buf)
{
enum safe_crlf safe_crlf = patch->crlf_in_old ?
SAFE_CRLF_KEEP_CRLF : SAFE_CRLF_RENORMALIZE;
switch (st->st_mode & S_IFMT) {
case S_IFLNK:
if (strbuf_readlink(buf, path, st->st_size) < 0)
return error(_("unable to read symlink %s"), path);
return 0;
case S_IFREG:
if (strbuf_read_file(buf, path, st->st_size) != st->st_size)
return error(_("unable to open or read %s"), path);
/*
* "git apply" without "--index/--cached" should never look
* at the index; the target file may not have been added to
* the index yet, and we may not even be in any Git repository.
* Pass NULL to convert_to_git() to stress this; the function
* should never look at the index when explicit crlf option
* is given.
*/
convert_to_git(NULL, path, buf->buf, buf->len, buf, safe_crlf);
return 0;
default:
return -1;
}
}
/*
* Update the preimage, and the common lines in postimage,
* from buffer buf of length len. If postlen is 0 the postimage
* is updated in place, otherwise it's updated on a new buffer
* of length postlen
*/
static void update_pre_post_images(struct image *preimage,
struct image *postimage,
char *buf,
size_t len, size_t postlen)
{
int i, ctx, reduced;
char *new, *old, *fixed;
struct image fixed_preimage;
/*
* Update the preimage with whitespace fixes. Note that we
* are not losing preimage->buf -- apply_one_fragment() will
* free "oldlines".
*/
prepare_image(&fixed_preimage, buf, len, 1);
assert(postlen
? fixed_preimage.nr == preimage->nr
: fixed_preimage.nr <= preimage->nr);
for (i = 0; i < fixed_preimage.nr; i++)
fixed_preimage.line[i].flag = preimage->line[i].flag;
free(preimage->line_allocated);
*preimage = fixed_preimage;
/*
* Adjust the common context lines in postimage. This can be
* done in-place when we are shrinking it with whitespace
* fixing, but needs a new buffer when ignoring whitespace or
* expanding leading tabs to spaces.
*
* We trust the caller to tell us if the update can be done
* in place (postlen==0) or not.
*/
old = postimage->buf;
if (postlen)
new = postimage->buf = xmalloc(postlen);
else
new = old;
fixed = preimage->buf;
for (i = reduced = ctx = 0; i < postimage->nr; i++) {
size_t l_len = postimage->line[i].len;
if (!(postimage->line[i].flag & LINE_COMMON)) {
/* an added line -- no counterparts in preimage */
memmove(new, old, l_len);
old += l_len;
new += l_len;
continue;
}
/* a common context -- skip it in the original postimage */
old += l_len;
/* and find the corresponding one in the fixed preimage */
while (ctx < preimage->nr &&
!(preimage->line[ctx].flag & LINE_COMMON)) {
fixed += preimage->line[ctx].len;
ctx++;
}
/*
* preimage is expected to run out, if the caller
* fixed addition of trailing blank lines.
*/
if (preimage->nr <= ctx) {
reduced++;
continue;
}
/* and copy it in, while fixing the line length */
l_len = preimage->line[ctx].len;
memcpy(new, fixed, l_len);
new += l_len;
fixed += l_len;
postimage->line[i].len = l_len;
ctx++;
}
if (postlen
? postlen < new - postimage->buf
: postimage->len < new - postimage->buf)
die("BUG: caller miscounted postlen: asked %d, orig = %d, used = %d",
(int)postlen, (int) postimage->len, (int)(new - postimage->buf));
/* Fix the length of the whole thing */
postimage->len = new - postimage->buf;
postimage->nr -= reduced;
}
static int line_by_line_fuzzy_match(struct image *img,
struct image *preimage,
struct image *postimage,
unsigned long try,
int try_lno,
int preimage_limit)
{
int i;
size_t imgoff = 0;
size_t preoff = 0;
size_t postlen = postimage->len;
size_t extra_chars;
char *buf;
char *preimage_eof;
char *preimage_end;
struct strbuf fixed;
char *fixed_buf;
size_t fixed_len;
for (i = 0; i < preimage_limit; i++) {
size_t prelen = preimage->line[i].len;
size_t imglen = img->line[try_lno+i].len;
if (!fuzzy_matchlines(img->buf + try + imgoff, imglen,
preimage->buf + preoff, prelen))
return 0;
if (preimage->line[i].flag & LINE_COMMON)
postlen += imglen - prelen;
imgoff += imglen;
preoff += prelen;
}
/*
* Ok, the preimage matches with whitespace fuzz.
*
* imgoff now holds the true length of the target that
* matches the preimage before the end of the file.
*
* Count the number of characters in the preimage that fall
* beyond the end of the file and make sure that all of them
* are whitespace characters. (This can only happen if
* we are removing blank lines at the end of the file.)
*/
buf = preimage_eof = preimage->buf + preoff;
for ( ; i < preimage->nr; i++)
preoff += preimage->line[i].len;
preimage_end = preimage->buf + preoff;
for ( ; buf < preimage_end; buf++)
if (!isspace(*buf))
return 0;
/*
* Update the preimage and the common postimage context
* lines to use the same whitespace as the target.
* If whitespace is missing in the target (i.e.
* if the preimage extends beyond the end of the file),
* use the whitespace from the preimage.
*/
extra_chars = preimage_end - preimage_eof;
strbuf_init(&fixed, imgoff + extra_chars);
strbuf_add(&fixed, img->buf + try, imgoff);
strbuf_add(&fixed, preimage_eof, extra_chars);
fixed_buf = strbuf_detach(&fixed, &fixed_len);
update_pre_post_images(preimage, postimage,
fixed_buf, fixed_len, postlen);
return 1;
}
static int match_fragment(struct apply_state *state,
struct image *img,
struct image *preimage,
struct image *postimage,
unsigned long try,
int try_lno,
unsigned ws_rule,
int match_beginning, int match_end)
{
int i;
char *fixed_buf, *buf, *orig, *target;
struct strbuf fixed;
size_t fixed_len, postlen;
int preimage_limit;
if (preimage->nr + try_lno <= img->nr) {
/*
* The hunk falls within the boundaries of img.
*/
preimage_limit = preimage->nr;
if (match_end && (preimage->nr + try_lno != img->nr))
return 0;
} else if (state->ws_error_action == correct_ws_error &&
(ws_rule & WS_BLANK_AT_EOF)) {
/*
* This hunk extends beyond the end of img, and we are
* removing blank lines at the end of the file. This
* many lines from the beginning of the preimage must
* match with img, and the remainder of the preimage
* must be blank.
*/
preimage_limit = img->nr - try_lno;
} else {
/*
* The hunk extends beyond the end of the img and
* we are not removing blanks at the end, so we
* should reject the hunk at this position.
*/
return 0;
}
if (match_beginning && try_lno)
return 0;
/* Quick hash check */
for (i = 0; i < preimage_limit; i++)
if ((img->line[try_lno + i].flag & LINE_PATCHED) ||
(preimage->line[i].hash != img->line[try_lno + i].hash))
return 0;
if (preimage_limit == preimage->nr) {
/*
* Do we have an exact match? If we were told to match
* at the end, size must be exactly at try+fragsize,
* otherwise try+fragsize must be still within the preimage,
* and either case, the old piece should match the preimage
* exactly.
*/
if ((match_end
? (try + preimage->len == img->len)
: (try + preimage->len <= img->len)) &&
!memcmp(img->buf + try, preimage->buf, preimage->len))
return 1;
} else {
/*
* The preimage extends beyond the end of img, so
* there cannot be an exact match.
*
* There must be one non-blank context line that match
* a line before the end of img.
*/
char *buf_end;
buf = preimage->buf;
buf_end = buf;
for (i = 0; i < preimage_limit; i++)
buf_end += preimage->line[i].len;
for ( ; buf < buf_end; buf++)
if (!isspace(*buf))
break;
if (buf == buf_end)
return 0;
}
/*
* No exact match. If we are ignoring whitespace, run a line-by-line
* fuzzy matching. We collect all the line length information because
* we need it to adjust whitespace if we match.
*/
if (state->ws_ignore_action == ignore_ws_change)
return line_by_line_fuzzy_match(img, preimage, postimage,
try, try_lno, preimage_limit);
if (state->ws_error_action != correct_ws_error)
return 0;
/*
* The hunk does not apply byte-by-byte, but the hash says
* it might with whitespace fuzz. We weren't asked to
* ignore whitespace, we were asked to correct whitespace
* errors, so let's try matching after whitespace correction.
*
* While checking the preimage against the target, whitespace
* errors in both fixed, we count how large the corresponding
* postimage needs to be. The postimage prepared by
* apply_one_fragment() has whitespace errors fixed on added
* lines already, but the common lines were propagated as-is,
* which may become longer when their whitespace errors are
* fixed.
*/
/* First count added lines in postimage */
postlen = 0;
for (i = 0; i < postimage->nr; i++) {
if (!(postimage->line[i].flag & LINE_COMMON))
postlen += postimage->line[i].len;
}
/*
* The preimage may extend beyond the end of the file,
* but in this loop we will only handle the part of the
* preimage that falls within the file.
*/
strbuf_init(&fixed, preimage->len + 1);
orig = preimage->buf;
target = img->buf + try;
for (i = 0; i < preimage_limit; i++) {
size_t oldlen = preimage->line[i].len;
size_t tgtlen = img->line[try_lno + i].len;
size_t fixstart = fixed.len;
struct strbuf tgtfix;
int match;
/* Try fixing the line in the preimage */
ws_fix_copy(&fixed, orig, oldlen, ws_rule, NULL);
/* Try fixing the line in the target */
strbuf_init(&tgtfix, tgtlen);
ws_fix_copy(&tgtfix, target, tgtlen, ws_rule, NULL);
/*
* If they match, either the preimage was based on
* a version before our tree fixed whitespace breakage,
* or we are lacking a whitespace-fix patch the tree
* the preimage was based on already had (i.e. target
* has whitespace breakage, the preimage doesn't).
* In either case, we are fixing the whitespace breakages
* so we might as well take the fix together with their
* real change.
*/
match = (tgtfix.len == fixed.len - fixstart &&
!memcmp(tgtfix.buf, fixed.buf + fixstart,
fixed.len - fixstart));
/* Add the length if this is common with the postimage */
if (preimage->line[i].flag & LINE_COMMON)
postlen += tgtfix.len;
strbuf_release(&tgtfix);
if (!match)
goto unmatch_exit;
orig += oldlen;
target += tgtlen;
}
/*
* Now handle the lines in the preimage that falls beyond the
* end of the file (if any). They will only match if they are
* empty or only contain whitespace (if WS_BLANK_AT_EOL is
* false).
*/
for ( ; i < preimage->nr; i++) {
size_t fixstart = fixed.len; /* start of the fixed preimage */
size_t oldlen = preimage->line[i].len;
int j;
/* Try fixing the line in the preimage */
ws_fix_copy(&fixed, orig, oldlen, ws_rule, NULL);
for (j = fixstart; j < fixed.len; j++)
if (!isspace(fixed.buf[j]))
goto unmatch_exit;
orig += oldlen;
}
/*
* Yes, the preimage is based on an older version that still
* has whitespace breakages unfixed, and fixing them makes the
* hunk match. Update the context lines in the postimage.
*/
fixed_buf = strbuf_detach(&fixed, &fixed_len);
if (postlen < postimage->len)
postlen = 0;
update_pre_post_images(preimage, postimage,
fixed_buf, fixed_len, postlen);
return 1;
unmatch_exit:
strbuf_release(&fixed);
return 0;
}
static int find_pos(struct apply_state *state,
struct image *img,
struct image *preimage,
struct image *postimage,
int line,
unsigned ws_rule,
int match_beginning, int match_end)
{
int i;
unsigned long backwards, forwards, try;
int backwards_lno, forwards_lno, try_lno;
/*
* If match_beginning or match_end is specified, there is no
* point starting from a wrong line that will never match and
* wander around and wait for a match at the specified end.
*/
if (match_beginning)
line = 0;
else if (match_end)
line = img->nr - preimage->nr;
/*
* Because the comparison is unsigned, the following test
* will also take care of a negative line number that can
* result when match_end and preimage is larger than the target.
*/
if ((size_t) line > img->nr)
line = img->nr;
try = 0;
for (i = 0; i < line; i++)
try += img->line[i].len;
/*
* There's probably some smart way to do this, but I'll leave
* that to the smart and beautiful people. I'm simple and stupid.
*/
backwards = try;
backwards_lno = line;
forwards = try;
forwards_lno = line;
try_lno = line;
for (i = 0; ; i++) {
if (match_fragment(state, img, preimage, postimage,
try, try_lno, ws_rule,
match_beginning, match_end))
return try_lno;
again:
if (backwards_lno == 0 && forwards_lno == img->nr)
break;
if (i & 1) {
if (backwards_lno == 0) {
i++;
goto again;
}
backwards_lno--;
backwards -= img->line[backwards_lno].len;
try = backwards;
try_lno = backwards_lno;
} else {
if (forwards_lno == img->nr) {
i++;
goto again;
}
forwards += img->line[forwards_lno].len;
forwards_lno++;
try = forwards;
try_lno = forwards_lno;
}
}
return -1;
}
static void remove_first_line(struct image *img)
{
img->buf += img->line[0].len;
img->len -= img->line[0].len;
img->line++;
img->nr--;
}
static void remove_last_line(struct image *img)
{
img->len -= img->line[--img->nr].len;
}
/*
* The change from "preimage" and "postimage" has been found to
* apply at applied_pos (counts in line numbers) in "img".
* Update "img" to remove "preimage" and replace it with "postimage".
*/
static void update_image(struct apply_state *state,
struct image *img,
int applied_pos,
struct image *preimage,
struct image *postimage)
{
/*
* remove the copy of preimage at offset in img
* and replace it with postimage
*/
int i, nr;
size_t remove_count, insert_count, applied_at = 0;
char *result;
int preimage_limit;
/*
* If we are removing blank lines at the end of img,
* the preimage may extend beyond the end.
* If that is the case, we must be careful only to
* remove the part of the preimage that falls within
* the boundaries of img. Initialize preimage_limit
* to the number of lines in the preimage that falls
* within the boundaries.
*/
preimage_limit = preimage->nr;
if (preimage_limit > img->nr - applied_pos)
preimage_limit = img->nr - applied_pos;
for (i = 0; i < applied_pos; i++)
applied_at += img->line[i].len;
remove_count = 0;
for (i = 0; i < preimage_limit; i++)
remove_count += img->line[applied_pos + i].len;
insert_count = postimage->len;
/* Adjust the contents */
result = xmalloc(st_add3(st_sub(img->len, remove_count), insert_count, 1));
memcpy(result, img->buf, applied_at);
memcpy(result + applied_at, postimage->buf, postimage->len);
memcpy(result + applied_at + postimage->len,
img->buf + (applied_at + remove_count),
img->len - (applied_at + remove_count));
free(img->buf);
img->buf = result;
img->len += insert_count - remove_count;
result[img->len] = '\0';
/* Adjust the line table */
nr = img->nr + postimage->nr - preimage_limit;
if (preimage_limit < postimage->nr) {
/*
* NOTE: this knows that we never call remove_first_line()
* on anything other than pre/post image.
*/
REALLOC_ARRAY(img->line, nr);
img->line_allocated = img->line;
}
if (preimage_limit != postimage->nr)
MOVE_ARRAY(img->line + applied_pos + postimage->nr,
img->line + applied_pos + preimage_limit,
img->nr - (applied_pos + preimage_limit));
COPY_ARRAY(img->line + applied_pos, postimage->line, postimage->nr);
if (!state->allow_overlap)
for (i = 0; i < postimage->nr; i++)
img->line[applied_pos + i].flag |= LINE_PATCHED;
img->nr = nr;
}
/*
* Use the patch-hunk text in "frag" to prepare two images (preimage and
* postimage) for the hunk. Find lines that match "preimage" in "img" and
* replace the part of "img" with "postimage" text.
*/
static int apply_one_fragment(struct apply_state *state,
struct image *img, struct fragment *frag,
int inaccurate_eof, unsigned ws_rule,
int nth_fragment)
{
int match_beginning, match_end;
const char *patch = frag->patch;
int size = frag->size;
char *old, *oldlines;
struct strbuf newlines;
int new_blank_lines_at_end = 0;
int found_new_blank_lines_at_end = 0;
int hunk_linenr = frag->linenr;
unsigned long leading, trailing;
int pos, applied_pos;
struct image preimage;
struct image postimage;
memset(&preimage, 0, sizeof(preimage));
memset(&postimage, 0, sizeof(postimage));
oldlines = xmalloc(size);
strbuf_init(&newlines, size);
old = oldlines;
while (size > 0) {
char first;
int len = linelen(patch, size);
int plen;
int added_blank_line = 0;
int is_blank_context = 0;
size_t start;
if (!len)
break;
/*
* "plen" is how much of the line we should use for
* the actual patch data. Normally we just remove the
* first character on the line, but if the line is
* followed by "\ No newline", then we also remove the
* last one (which is the newline, of course).
*/
plen = len - 1;
if (len < size && patch[len] == '\\')
plen--;
first = *patch;
if (state->apply_in_reverse) {
if (first == '-')
first = '+';
else if (first == '+')
first = '-';
}
switch (first) {
case '\n':
/* Newer GNU diff, empty context line */
if (plen < 0)
/* ... followed by '\No newline'; nothing */
break;
*old++ = '\n';
strbuf_addch(&newlines, '\n');
add_line_info(&preimage, "\n", 1, LINE_COMMON);
add_line_info(&postimage, "\n", 1, LINE_COMMON);
is_blank_context = 1;
break;
case ' ':
if (plen && (ws_rule & WS_BLANK_AT_EOF) &&
ws_blank_line(patch + 1, plen, ws_rule))
is_blank_context = 1;
case '-':
memcpy(old, patch + 1, plen);
add_line_info(&preimage, old, plen,
(first == ' ' ? LINE_COMMON : 0));
old += plen;
if (first == '-')
break;
/* Fall-through for ' ' */
case '+':
/* --no-add does not add new lines */
if (first == '+' && state->no_add)
break;
start = newlines.len;
if (first != '+' ||
!state->whitespace_error ||
state->ws_error_action != correct_ws_error) {
strbuf_add(&newlines, patch + 1, plen);
}
else {
ws_fix_copy(&newlines, patch + 1, plen, ws_rule, &state->applied_after_fixing_ws);
}
add_line_info(&postimage, newlines.buf + start, newlines.len - start,
(first == '+' ? 0 : LINE_COMMON));
if (first == '+' &&
(ws_rule & WS_BLANK_AT_EOF) &&
ws_blank_line(patch + 1, plen, ws_rule))
added_blank_line = 1;
break;
case '@': case '\\':
/* Ignore it, we already handled it */
break;
default:
if (state->apply_verbosity > verbosity_normal)
error(_("invalid start of line: '%c'"), first);
applied_pos = -1;
goto out;
}
if (added_blank_line) {
if (!new_blank_lines_at_end)
found_new_blank_lines_at_end = hunk_linenr;
new_blank_lines_at_end++;
}
else if (is_blank_context)
;
else
new_blank_lines_at_end = 0;
patch += len;
size -= len;
hunk_linenr++;
}
if (inaccurate_eof &&
old > oldlines && old[-1] == '\n' &&
newlines.len > 0 && newlines.buf[newlines.len - 1] == '\n') {
old--;
strbuf_setlen(&newlines, newlines.len - 1);
}
leading = frag->leading;
trailing = frag->trailing;
/*
* A hunk to change lines at the beginning would begin with
* @@ -1,L +N,M @@
* but we need to be careful. -U0 that inserts before the second
* line also has this pattern.
*
* And a hunk to add to an empty file would begin with
* @@ -0,0 +N,M @@
*
* In other words, a hunk that is (frag->oldpos <= 1) with or
* without leading context must match at the beginning.
*/
match_beginning = (!frag->oldpos ||
(frag->oldpos == 1 && !state->unidiff_zero));
/*
* A hunk without trailing lines must match at the end.
* However, we simply cannot tell if a hunk must match end
* from the lack of trailing lines if the patch was generated
* with unidiff without any context.
*/
match_end = !state->unidiff_zero && !trailing;
pos = frag->newpos ? (frag->newpos - 1) : 0;
preimage.buf = oldlines;
preimage.len = old - oldlines;
postimage.buf = newlines.buf;
postimage.len = newlines.len;
preimage.line = preimage.line_allocated;
postimage.line = postimage.line_allocated;
for (;;) {
applied_pos = find_pos(state, img, &preimage, &postimage, pos,
ws_rule, match_beginning, match_end);
if (applied_pos >= 0)
break;
/* Am I at my context limits? */
if ((leading <= state->p_context) && (trailing <= state->p_context))
break;
if (match_beginning || match_end) {
match_beginning = match_end = 0;
continue;
}
/*
* Reduce the number of context lines; reduce both
* leading and trailing if they are equal otherwise
* just reduce the larger context.
*/
if (leading >= trailing) {
remove_first_line(&preimage);
remove_first_line(&postimage);
pos--;
leading--;
}
if (trailing > leading) {
remove_last_line(&preimage);
remove_last_line(&postimage);
trailing--;
}
}
if (applied_pos >= 0) {
if (new_blank_lines_at_end &&
preimage.nr + applied_pos >= img->nr &&
(ws_rule & WS_BLANK_AT_EOF) &&
state->ws_error_action != nowarn_ws_error) {
record_ws_error(state, WS_BLANK_AT_EOF, "+", 1,
found_new_blank_lines_at_end);
if (state->ws_error_action == correct_ws_error) {
while (new_blank_lines_at_end--)
remove_last_line(&postimage);
}
/*
* We would want to prevent write_out_results()
* from taking place in apply_patch() that follows
* the callchain led us here, which is:
* apply_patch->check_patch_list->check_patch->
* apply_data->apply_fragments->apply_one_fragment
*/
if (state->ws_error_action == die_on_ws_error)
state->apply = 0;
}
if (state->apply_verbosity > verbosity_normal && applied_pos != pos) {
int offset = applied_pos - pos;
if (state->apply_in_reverse)
offset = 0 - offset;
fprintf_ln(stderr,
Q_("Hunk #%d succeeded at %d (offset %d line).",
"Hunk #%d succeeded at %d (offset %d lines).",
offset),
nth_fragment, applied_pos + 1, offset);
}
/*
* Warn if it was necessary to reduce the number
* of context lines.
*/
if ((leading != frag->leading ||
trailing != frag->trailing) && state->apply_verbosity > verbosity_silent)
fprintf_ln(stderr, _("Context reduced to (%ld/%ld)"
" to apply fragment at %d"),
leading, trailing, applied_pos+1);
update_image(state, img, applied_pos, &preimage, &postimage);
} else {
if (state->apply_verbosity > verbosity_normal)
error(_("while searching for:\n%.*s"),
(int)(old - oldlines), oldlines);
}
out:
free(oldlines);
strbuf_release(&newlines);
free(preimage.line_allocated);
free(postimage.line_allocated);
return (applied_pos < 0);
}
static int apply_binary_fragment(struct apply_state *state,
struct image *img,
struct patch *patch)
{
struct fragment *fragment = patch->fragments;
unsigned long len;
void *dst;
if (!fragment)
return error(_("missing binary patch data for '%s'"),
patch->new_name ?
patch->new_name :
patch->old_name);
/* Binary patch is irreversible without the optional second hunk */
if (state->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->next;
}
switch (fragment->binary_patch_method) {
case BINARY_DELTA_DEFLATED:
dst = patch_delta(img->buf, img->len, fragment->patch,
fragment->size, &len);
if (!dst)
return -1;
clear_image(img);
img->buf = dst;
img->len = len;
return 0;
case BINARY_LITERAL_DEFLATED:
clear_image(img);
img->len = fragment->size;
img->buf = xmemdupz(fragment->patch, img->len);
return 0;
}
return -1;
}
/*
* Replace "img" with the result of applying the binary patch.
* The binary patch data itself in patch->fragment is still kept
* but the preimage prepared by the caller in "img" is freed here
* or in the helper function apply_binary_fragment() this calls.
*/
static int apply_binary(struct apply_state *state,
struct image *img,
struct patch *patch)
{
const char *name = patch->old_name ? patch->old_name : patch->new_name;
struct object_id oid;
/*
* For safety, we require patch index line to contain
* full 40-byte textual SHA1 for old and new, at least for now.
*/
if (strlen(patch->old_sha1_prefix) != 40 ||
strlen(patch->new_sha1_prefix) != 40 ||
get_oid_hex(patch->old_sha1_prefix, &oid) ||
get_oid_hex(patch->new_sha1_prefix, &oid))
return error(_("cannot apply binary patch to '%s' "
"without full index line"), name);
if (patch->old_name) {
/*
* See if the old one matches what the patch
* applies to.
*/
hash_sha1_file(img->buf, img->len, blob_type, oid.hash);
if (strcmp(oid_to_hex(&oid), patch->old_sha1_prefix))
return error(_("the patch applies to '%s' (%s), "
"which does not match the "
"current contents."),
name, oid_to_hex(&oid));
}
else {
/* Otherwise, the old one must be empty. */
if (img->len)
return error(_("the patch applies to an empty "
"'%s' but it is not empty"), name);
}
get_oid_hex(patch->new_sha1_prefix, &oid);
if (is_null_oid(&oid)) {
clear_image(img);
return 0; /* deletion patch */
}
if (has_sha1_file(oid.hash)) {
/* We already have the postimage */
enum object_type type;
unsigned long size;
char *result;
result = read_sha1_file(oid.hash, &type, &size);
if (!result)
return error(_("the necessary postimage %s for "
"'%s' cannot be read"),
patch->new_sha1_prefix, name);
clear_image(img);
img->buf = result;
img->len = size;
} else {
/*
* We have verified buf matches the preimage;
* apply the patch data to it, which is stored
* in the patch->fragments->{patch,size}.
*/
if (apply_binary_fragment(state, img, patch))
return error(_("binary patch does not apply to '%s'"),
name);
/* verify that the result matches */
hash_sha1_file(img->buf, img->len, blob_type, oid.hash);
if (strcmp(oid_to_hex(&oid), patch->new_sha1_prefix))
return error(_("binary patch to '%s' creates incorrect result (expecting %s, got %s)"),
name, patch->new_sha1_prefix, oid_to_hex(&oid));
}
return 0;
}
static int apply_fragments(struct apply_state *state, struct image *img, struct patch *patch)
{
struct fragment *frag = patch->fragments;
const char *name = patch->old_name ? patch->old_name : patch->new_name;
unsigned ws_rule = patch->ws_rule;
unsigned inaccurate_eof = patch->inaccurate_eof;
int nth = 0;
if (patch->is_binary)
return apply_binary(state, img, patch);
while (frag) {
nth++;
if (apply_one_fragment(state, img, frag, inaccurate_eof, ws_rule, nth)) {
error(_("patch failed: %s:%ld"), name, frag->oldpos);
if (!state->apply_with_reject)
return -1;
frag->rejected = 1;
}
frag = frag->next;
}
return 0;
}
static int read_blob_object(struct strbuf *buf, const struct object_id *oid, unsigned mode)
{
if (S_ISGITLINK(mode)) {
strbuf_grow(buf, 100);
strbuf_addf(buf, "Subproject commit %s\n", oid_to_hex(oid));
} else {
enum object_type type;
unsigned long sz;
char *result;
result = read_sha1_file(oid->hash, &type, &sz);
if (!result)
return -1;
/* XXX read_sha1_file NUL-terminates */
strbuf_attach(buf, result, sz, sz + 1);
}
return 0;
}
static int read_file_or_gitlink(const struct cache_entry *ce, struct strbuf *buf)
{
if (!ce)
return 0;
return read_blob_object(buf, &ce->oid, ce->ce_mode);
}
static struct patch *in_fn_table(struct apply_state *state, const char *name)
{
struct string_list_item *item;
if (name == NULL)
return NULL;
item = string_list_lookup(&state->fn_table, name);
if (item != NULL)
return (struct patch *)item->util;
return NULL;
}
/*
* item->util in the filename table records the status of the path.
* Usually it points at a patch (whose result records the contents
* of it after applying it), but it could be PATH_WAS_DELETED for a
* path that a previously applied patch has already removed, or
* PATH_TO_BE_DELETED for a path that a later patch would remove.
*
* The latter is needed to deal with a case where two paths A and B
* are swapped by first renaming A to B and then renaming B to A;
* moving A to B should not be prevented due to presence of B as we
* will remove it in a later patch.
*/
#define PATH_TO_BE_DELETED ((struct patch *) -2)
#define PATH_WAS_DELETED ((struct patch *) -1)
static int to_be_deleted(struct patch *patch)
{
return patch == PATH_TO_BE_DELETED;
}
static int was_deleted(struct patch *patch)
{
return patch == PATH_WAS_DELETED;
}
static void add_to_fn_table(struct apply_state *state, struct patch *patch)
{
struct string_list_item *item;
/*
* Always add new_name unless patch is a deletion
* This should cover the cases for normal diffs,
* file creations and copies
*/
if (patch->new_name != NULL) {
item = string_list_insert(&state->fn_table, patch->new_name);
item->util = patch;
}
/*
* store a failure on rename/deletion cases because
* later chunks shouldn't patch old names
*/
if ((patch->new_name == NULL) || (patch->is_rename)) {
item = string_list_insert(&state->fn_table, patch->old_name);
item->util = PATH_WAS_DELETED;
}
}
static void prepare_fn_table(struct apply_state *state, struct patch *patch)
{
/*
* store information about incoming file deletion
*/
while (patch) {
if ((patch->new_name == NULL) || (patch->is_rename)) {
struct string_list_item *item;
item = string_list_insert(&state->fn_table, patch->old_name);
item->util = PATH_TO_BE_DELETED;
}
patch = patch->next;
}
}
static int checkout_target(struct index_state *istate,
struct cache_entry *ce, struct stat *st)
{
struct checkout costate = CHECKOUT_INIT;
costate.refresh_cache = 1;
costate.istate = istate;
if (checkout_entry(ce, &costate, NULL) || lstat(ce->name, st))
return error(_("cannot checkout %s"), ce->name);
return 0;
}
static struct patch *previous_patch(struct apply_state *state,
struct patch *patch,
int *gone)
{
struct patch *previous;
*gone = 0;
if (patch->is_copy || patch->is_rename)
return NULL; /* "git" patches do not depend on the order */
previous = in_fn_table(state, patch->old_name);
if (!previous)
return NULL;
if (to_be_deleted(previous))
return NULL; /* the deletion hasn't happened yet */
if (was_deleted(previous))
*gone = 1;
return previous;
}
static int verify_index_match(const struct cache_entry *ce, struct stat *st)
{
if (S_ISGITLINK(ce->ce_mode)) {
if (!S_ISDIR(st->st_mode))
return -1;
return 0;
}
return ce_match_stat(ce, st, CE_MATCH_IGNORE_VALID|CE_MATCH_IGNORE_SKIP_WORKTREE);
}
#define SUBMODULE_PATCH_WITHOUT_INDEX 1
static int load_patch_target(struct apply_state *state,
struct strbuf *buf,
const struct cache_entry *ce,
struct stat *st,
struct patch *patch,
const char *name,
unsigned expected_mode)
{
if (state->cached || state->check_index) {
if (read_file_or_gitlink(ce, buf))
return error(_("failed to read %s"), name);
} else if (name) {
if (S_ISGITLINK(expected_mode)) {
if (ce)
return read_file_or_gitlink(ce, buf);
else
return SUBMODULE_PATCH_WITHOUT_INDEX;
} else if (has_symlink_leading_path(name, strlen(name))) {
return error(_("reading from '%s' beyond a symbolic link"), name);
} else {
if (read_old_data(st, patch, name, buf))
return error(_("failed to read %s"), name);
}
}
return 0;
}
/*
* We are about to apply "patch"; populate the "image" with the
* current version we have, from the working tree or from the index,
* depending on the situation e.g. --cached/--index. If we are
* applying a non-git patch that incrementally updates the tree,
* we read from the result of a previous diff.
*/
static int load_preimage(struct apply_state *state,
struct image *image,
struct patch *patch, struct stat *st,
const struct cache_entry *ce)
{
struct strbuf buf = STRBUF_INIT;
size_t len;
char *img;
struct patch *previous;
int status;
previous = previous_patch(state, patch, &status);
if (status)
return error(_("path %s has been renamed/deleted"),
patch->old_name);
if (previous) {
/* We have a patched copy in memory; use that. */
strbuf_add(&buf, previous->result, previous->resultsize);
} else {
status = load_patch_target(state, &buf, ce, st, patch,
patch->old_name, patch->old_mode);
if (status < 0)
return status;
else if (status == SUBMODULE_PATCH_WITHOUT_INDEX) {
/*
* There is no way to apply subproject
* patch without looking at the index.
* NEEDSWORK: shouldn't this be flagged
* as an error???
*/
free_fragment_list(patch->fragments);
patch->fragments = NULL;
} else if (status) {
return error(_("failed to read %s"), patch->old_name);
}
}
img = strbuf_detach(&buf, &len);
prepare_image(image, img, len, !patch->is_binary);
return 0;
}
static int three_way_merge(struct image *image,
char *path,
const struct object_id *base,
const struct object_id *ours,
const struct object_id *theirs)
{
mmfile_t base_file, our_file, their_file;
mmbuffer_t result = { NULL };
int status;
read_mmblob(&base_file, base);
read_mmblob(&our_file, ours);
read_mmblob(&their_file, theirs);
status = ll_merge(&result, path,
&base_file, "base",
&our_file, "ours",
&their_file, "theirs", NULL);
free(base_file.ptr);
free(our_file.ptr);
free(their_file.ptr);
if (status < 0 || !result.ptr) {
free(result.ptr);
return -1;
}
clear_image(image);
image->buf = result.ptr;
image->len = result.size;
return status;
}
/*
* When directly falling back to add/add three-way merge, we read from
* the current contents of the new_name. In no cases other than that
* this function will be called.
*/
static int load_current(struct apply_state *state,
struct image *image,
struct patch *patch)
{
struct strbuf buf = STRBUF_INIT;
int status, pos;
size_t len;
char *img;
struct stat st;
struct cache_entry *ce;
char *name = patch->new_name;
unsigned mode = patch->new_mode;
if (!patch->is_new)
die("BUG: patch to %s is not a creation", patch->old_name);
pos = cache_name_pos(name, strlen(name));
if (pos < 0)
return error(_("%s: does not exist in index"), name);
ce = active_cache[pos];
if (lstat(name, &st)) {
if (errno != ENOENT)
return error_errno("%s", name);
if (checkout_target(&the_index, ce, &st))
return -1;
}
if (verify_index_match(ce, &st))
return error(_("%s: does not match index"), name);
status = load_patch_target(state, &buf, ce, &st, patch, name, mode);
if (status < 0)
return status;
else if (status)
return -1;
img = strbuf_detach(&buf, &len);
prepare_image(image, img, len, !patch->is_binary);
return 0;
}
static int try_threeway(struct apply_state *state,
struct image *image,
struct patch *patch,
struct stat *st,
const struct cache_entry *ce)
{
struct object_id pre_oid, post_oid, our_oid;
struct strbuf buf = STRBUF_INIT;
size_t len;
int status;
char *img;
struct image tmp_image;
/* No point falling back to 3-way merge in these cases */
if (patch->is_delete ||
S_ISGITLINK(patch->old_mode) || S_ISGITLINK(patch->new_mode))
return -1;
/* Preimage the patch was prepared for */
if (patch->is_new)
write_sha1_file("", 0, blob_type, pre_oid.hash);
else if (get_sha1(patch->old_sha1_prefix, pre_oid.hash) ||
read_blob_object(&buf, &pre_oid, patch->old_mode))
return error(_("repository lacks the necessary blob to fall back on 3-way merge."));
if (state->apply_verbosity > verbosity_silent)
fprintf(stderr, _("Falling back to three-way merge...\n"));
img = strbuf_detach(&buf, &len);
prepare_image(&tmp_image, img, len, 1);
/* Apply the patch to get the post image */
if (apply_fragments(state, &tmp_image, patch) < 0) {
clear_image(&tmp_image);
return -1;
}
/* post_oid is theirs */
write_sha1_file(tmp_image.buf, tmp_image.len, blob_type, post_oid.hash);
clear_image(&tmp_image);
/* our_oid is ours */
if (patch->is_new) {
if (load_current(state, &tmp_image, patch))
return error(_("cannot read the current contents of '%s'"),
patch->new_name);
} else {
if (load_preimage(state, &tmp_image, patch, st, ce))
return error(_("cannot read the current contents of '%s'"),
patch->old_name);
}
write_sha1_file(tmp_image.buf, tmp_image.len, blob_type, our_oid.hash);
clear_image(&tmp_image);
/* in-core three-way merge between post and our using pre as base */
status = three_way_merge(image, patch->new_name,
&pre_oid, &our_oid, &post_oid);
if (status < 0) {
if (state->apply_verbosity > verbosity_silent)
fprintf(stderr,
_("Failed to fall back on three-way merge...\n"));
return status;
}
if (status) {
patch->conflicted_threeway = 1;
if (patch->is_new)
oidclr(&patch->threeway_stage[0]);
else
oidcpy(&patch->threeway_stage[0], &pre_oid);
oidcpy(&patch->threeway_stage[1], &our_oid);
oidcpy(&patch->threeway_stage[2], &post_oid);
if (state->apply_verbosity > verbosity_silent)
fprintf(stderr,
_("Applied patch to '%s' with conflicts.\n"),
patch->new_name);
} else {
if (state->apply_verbosity > verbosity_silent)
fprintf(stderr,
_("Applied patch to '%s' cleanly.\n"),
patch->new_name);
}
return 0;
}
static int apply_data(struct apply_state *state, struct patch *patch,
struct stat *st, const struct cache_entry *ce)
{
struct image image;
if (load_preimage(state, &image, patch, st, ce) < 0)
return -1;
if (patch->direct_to_threeway ||
apply_fragments(state, &image, patch) < 0) {
/* Note: with --reject, apply_fragments() returns 0 */
if (!state->threeway || try_threeway(state, &image, patch, st, ce) < 0)
return -1;
}
patch->result = image.buf;
patch->resultsize = image.len;
add_to_fn_table(state, patch);
free(image.line_allocated);
if (0 < patch->is_delete && patch->resultsize)
return error(_("removal patch leaves file contents"));
return 0;
}
/*
* If "patch" that we are looking at modifies or deletes what we have,
* we would want it not to lose any local modification we have, either
* in the working tree or in the index.
*
* This also decides if a non-git patch is a creation patch or a
* modification to an existing empty file. We do not check the state
* of the current tree for a creation patch in this function; the caller
* check_patch() separately makes sure (and errors out otherwise) that
* the path the patch creates does not exist in the current tree.
*/
static int check_preimage(struct apply_state *state,
struct patch *patch,
struct cache_entry **ce,
struct stat *st)
{
const char *old_name = patch->old_name;
struct patch *previous = NULL;
int stat_ret = 0, status;
unsigned st_mode = 0;
if (!old_name)
return 0;
assert(patch->is_new <= 0);
previous = previous_patch(state, patch, &status);
if (status)
return error(_("path %s has been renamed/deleted"), old_name);
if (previous) {
st_mode = previous->new_mode;
} else if (!state->cached) {
stat_ret = lstat(old_name, st);
if (stat_ret && errno != ENOENT)
return error_errno("%s", old_name);
}
if (state->check_index && !previous) {
int pos = cache_name_pos(old_name, strlen(old_name));
if (pos < 0) {
if (patch->is_new < 0)
goto is_new;
return error(_("%s: does not exist in index"), old_name);
}
*ce = active_cache[pos];
if (stat_ret < 0) {
if (checkout_target(&the_index, *ce, st))
return -1;
}
if (!state->cached && verify_index_match(*ce, st))
return error(_("%s: does not match index"), old_name);
if (state->cached)
st_mode = (*ce)->ce_mode;
} else if (stat_ret < 0) {
if (patch->is_new < 0)
goto is_new;
return error_errno("%s", old_name);
}
if (!state->cached && !previous)
st_mode = ce_mode_from_stat(*ce, st->st_mode);
if (patch->is_new < 0)
patch->is_new = 0;
if (!patch->old_mode)
patch->old_mode = st_mode;
if ((st_mode ^ patch->old_mode) & S_IFMT)
return error(_("%s: wrong type"), old_name);
if (st_mode != patch->old_mode)
warning(_("%s has type %o, expected %o"),
old_name, st_mode, patch->old_mode);
if (!patch->new_mode && !patch->is_delete)
patch->new_mode = st_mode;
return 0;
is_new:
patch->is_new = 1;
patch->is_delete = 0;
FREE_AND_NULL(patch->old_name);
return 0;
}
#define EXISTS_IN_INDEX 1
#define EXISTS_IN_WORKTREE 2
static int check_to_create(struct apply_state *state,
const char *new_name,
int ok_if_exists)
{
struct stat nst;
if (state->check_index &&
cache_name_pos(new_name, strlen(new_name)) >= 0 &&
!ok_if_exists)
return EXISTS_IN_INDEX;
if (state->cached)
return 0;
if (!lstat(new_name, &nst)) {
if (S_ISDIR(nst.st_mode) || ok_if_exists)
return 0;
/*
* A leading component of new_name might be a symlink
* that is going to be removed with this patch, but
* still pointing at somewhere that has the path.
* In such a case, path "new_name" does not exist as
* far as git is concerned.
*/
if (has_symlink_leading_path(new_name, strlen(new_name)))
return 0;
return EXISTS_IN_WORKTREE;
} else if (!is_missing_file_error(errno)) {
return error_errno("%s", new_name);
}
return 0;
}
static uintptr_t register_symlink_changes(struct apply_state *state,
const char *path,
uintptr_t what)
{
struct string_list_item *ent;
ent = string_list_lookup(&state->symlink_changes, path);
if (!ent) {
ent = string_list_insert(&state->symlink_changes, path);
ent->util = (void *)0;
}
ent->util = (void *)(what | ((uintptr_t)ent->util));
return (uintptr_t)ent->util;
}
static uintptr_t check_symlink_changes(struct apply_state *state, const char *path)
{
struct string_list_item *ent;
ent = string_list_lookup(&state->symlink_changes, path);
if (!ent)
return 0;
return (uintptr_t)ent->util;
}
static void prepare_symlink_changes(struct apply_state *state, struct patch *patch)
{
for ( ; patch; patch = patch->next) {
if ((patch->old_name && S_ISLNK(patch->old_mode)) &&
(patch->is_rename || patch->is_delete))
/* the symlink at patch->old_name is removed */
register_symlink_changes(state, patch->old_name, APPLY_SYMLINK_GOES_AWAY);
if (patch->new_name && S_ISLNK(patch->new_mode))
/* the symlink at patch->new_name is created or remains */
register_symlink_changes(state, patch->new_name, APPLY_SYMLINK_IN_RESULT);
}
}
static int path_is_beyond_symlink_1(struct apply_state *state, struct strbuf *name)
{
do {
unsigned int change;
while (--name->len && name->buf[name->len] != '/')
; /* scan backwards */
if (!name->len)
break;
name->buf[name->len] = '\0';
change = check_symlink_changes(state, name->buf);
if (change & APPLY_SYMLINK_IN_RESULT)
return 1;
if (change & APPLY_SYMLINK_GOES_AWAY)
/*
* This cannot be "return 0", because we may
* see a new one created at a higher level.
*/
continue;
/* otherwise, check the preimage */
if (state->check_index) {
struct cache_entry *ce;
ce = cache_file_exists(name->buf, name->len, ignore_case);
if (ce && S_ISLNK(ce->ce_mode))
return 1;
} else {
struct stat st;
if (!lstat(name->buf, &st) && S_ISLNK(st.st_mode))
return 1;
}
} while (1);
return 0;
}
static int path_is_beyond_symlink(struct apply_state *state, const char *name_)
{
int ret;
struct strbuf name = STRBUF_INIT;
assert(*name_ != '\0');
strbuf_addstr(&name, name_);
ret = path_is_beyond_symlink_1(state, &name);
strbuf_release(&name);
return ret;
}
static int check_unsafe_path(struct patch *patch)
{
const char *old_name = NULL;
const char *new_name = NULL;
if (patch->is_delete)
old_name = patch->old_name;
else if (!patch->is_new && !patch->is_copy)
old_name = patch->old_name;
if (!patch->is_delete)
new_name = patch->new_name;
if (old_name && !verify_path(old_name))
return error(_("invalid path '%s'"), old_name);
if (new_name && !verify_path(new_name))
return error(_("invalid path '%s'"), new_name);
return 0;
}
/*
* Check and apply the patch in-core; leave the result in patch->result
* for the caller to write it out to the final destination.
*/
static int check_patch(struct apply_state *state, struct patch *patch)
{
struct stat st;
const char *old_name = patch->old_name;
const char *new_name = patch->new_name;
const char *name = old_name ? old_name : new_name;
struct cache_entry *ce = NULL;
struct patch *tpatch;
int ok_if_exists;
int status;
patch->rejected = 1; /* we will drop this after we succeed */
status = check_preimage(state, patch, &ce, &st);
if (status)
return status;
old_name = patch->old_name;
/*
* A type-change diff is always split into a patch to delete
* old, immediately followed by a patch to create new (see
* diff.c::run_diff()); in such a case it is Ok that the entry
* to be deleted by the previous patch is still in the working
* tree and in the index.
*
* A patch to swap-rename between A and B would first rename A
* to B and then rename B to A. While applying the first one,
* the presence of B should not stop A from getting renamed to
* B; ask to_be_deleted() about the later rename. Removal of
* B and rename from A to B is handled the same way by asking
* was_deleted().
*/
if ((tpatch = in_fn_table(state, new_name)) &&
(was_deleted(tpatch) || to_be_deleted(tpatch)))
ok_if_exists = 1;
else
ok_if_exists = 0;
if (new_name &&
((0 < patch->is_new) || patch->is_rename || patch->is_copy)) {
int err = check_to_create(state, new_name, ok_if_exists);
if (err && state->threeway) {
patch->direct_to_threeway = 1;
} else switch (err) {
case 0:
break; /* happy */
case EXISTS_IN_INDEX:
return error(_("%s: already exists in index"), new_name);
break;
case EXISTS_IN_WORKTREE:
return error(_("%s: already exists in working directory"),
new_name);
default:
return err;
}
if (!patch->new_mode) {
if (0 < patch->is_new)
patch->new_mode = S_IFREG | 0644;
else
patch->new_mode = patch->old_mode;
}
}
if (new_name && old_name) {
int same = !strcmp(old_name, new_name);
if (!patch->new_mode)
patch->new_mode = patch->old_mode;
if ((patch->old_mode ^ patch->new_mode) & S_IFMT) {
if (same)
return error(_("new mode (%o) of %s does not "
"match old mode (%o)"),
patch->new_mode, new_name,
patch->old_mode);
else
return error(_("new mode (%o) of %s does not "
"match old mode (%o) of %s"),
patch->new_mode, new_name,
patch->old_mode, old_name);
}
}
if (!state->unsafe_paths && check_unsafe_path(patch))
return -128;
/*
* An attempt to read from or delete a path that is beyond a
* symbolic link will be prevented by load_patch_target() that
* is called at the beginning of apply_data() so we do not
* have to worry about a patch marked with "is_delete" bit
* here. We however need to make sure that the patch result
* is not deposited to a path that is beyond a symbolic link
* here.
*/
if (!patch->is_delete && path_is_beyond_symlink(state, patch->new_name))
return error(_("affected file '%s' is beyond a symbolic link"),
patch->new_name);
if (apply_data(state, patch, &st, ce) < 0)
return error(_("%s: patch does not apply"), name);
patch->rejected = 0;
return 0;
}
static int check_patch_list(struct apply_state *state, struct patch *patch)
{
int err = 0;
prepare_symlink_changes(state, patch);
prepare_fn_table(state, patch);
while (patch) {
int res;
if (state->apply_verbosity > verbosity_normal)
say_patch_name(stderr,
_("Checking patch %s..."), patch);
res = check_patch(state, patch);
if (res == -128)
return -128;
err |= res;
patch = patch->next;
}
return err;
}
static int read_apply_cache(struct apply_state *state)
{
if (state->index_file)
return read_cache_from(state->index_file);
else
return read_cache();
}
/* This function tries to read the object name from the current index */
static int get_current_oid(struct apply_state *state, const char *path,
struct object_id *oid)
{
int pos;
if (read_apply_cache(state) < 0)
return -1;
pos = cache_name_pos(path, strlen(path));
if (pos < 0)
return -1;
oidcpy(oid, &active_cache[pos]->oid);
return 0;
}
static int preimage_oid_in_gitlink_patch(struct patch *p, struct object_id *oid)
{
/*
* A usable gitlink patch has only one fragment (hunk) that looks like:
* @@ -1 +1 @@
* -Subproject commit <old sha1>
* +Subproject commit <new sha1>
* or
* @@ -1 +0,0 @@
* -Subproject commit <old sha1>
* for a removal patch.
*/
struct fragment *hunk = p->fragments;
static const char heading[] = "-Subproject commit ";
char *preimage;
if (/* does the patch have only one hunk? */
hunk && !hunk->next &&
/* is its preimage one line? */
hunk->oldpos == 1 && hunk->oldlines == 1 &&
/* does preimage begin with the heading? */
(preimage = memchr(hunk->patch, '\n', hunk->size)) != NULL &&
starts_with(++preimage, heading) &&
/* does it record full SHA-1? */
!get_oid_hex(preimage + sizeof(heading) - 1, oid) &&
preimage[sizeof(heading) + GIT_SHA1_HEXSZ - 1] == '\n' &&
/* does the abbreviated name on the index line agree with it? */
starts_with(preimage + sizeof(heading) - 1, p->old_sha1_prefix))
return 0; /* it all looks fine */
/* we may have full object name on the index line */
return get_oid_hex(p->old_sha1_prefix, oid);
}
/* Build an index that contains the just the files needed for a 3way merge */
static int build_fake_ancestor(struct apply_state *state, struct patch *list)
{
struct patch *patch;
struct index_state result = { NULL };
static struct lock_file lock;
int res;
/* Once we start supporting the reverse patch, it may be
* worth showing the new sha1 prefix, but until then...
*/
for (patch = list; patch; patch = patch->next) {
struct object_id oid;
struct cache_entry *ce;
const char *name;
name = patch->old_name ? patch->old_name : patch->new_name;
if (0 < patch->is_new)
continue;
if (S_ISGITLINK(patch->old_mode)) {
if (!preimage_oid_in_gitlink_patch(patch, &oid))
; /* ok, the textual part looks sane */
else
return error(_("sha1 information is lacking or "
"useless for submodule %s"), name);
} else if (!get_sha1_blob(patch->old_sha1_prefix, oid.hash)) {
; /* ok */
} else if (!patch->lines_added && !patch->lines_deleted) {
/* mode-only change: update the current */
if (get_current_oid(state, patch->old_name, &oid))
return error(_("mode change for %s, which is not "
"in current HEAD"), name);
} else
return error(_("sha1 information is lacking or useless "
"(%s)."), name);
ce = make_cache_entry(patch->old_mode, oid.hash, name, 0, 0);
if (!ce)
return error(_("make_cache_entry failed for path '%s'"),
name);
if (add_index_entry(&result, ce, ADD_CACHE_OK_TO_ADD)) {
free(ce);
return error(_("could not add %s to temporary index"),
name);
}
}
hold_lock_file_for_update(&lock, state->fake_ancestor, LOCK_DIE_ON_ERROR);
res = write_locked_index(&result, &lock, COMMIT_LOCK);
discard_index(&result);
if (res)
return error(_("could not write temporary index to %s"),
state->fake_ancestor);
return 0;
}
static void stat_patch_list(struct apply_state *state, struct patch *patch)
{
int files, adds, dels;
for (files = adds = dels = 0 ; patch ; patch = patch->next) {
files++;
adds += patch->lines_added;
dels += patch->lines_deleted;
show_stats(state, patch);
}
print_stat_summary(stdout, files, adds, dels);
}
static void numstat_patch_list(struct apply_state *state,
struct patch *patch)
{
for ( ; patch; patch = patch->next) {
const char *name;
name = patch->new_name ? patch->new_name : patch->old_name;
if (patch->is_binary)
printf("-\t-\t");
else
printf("%d\t%d\t", patch->lines_added, patch->lines_deleted);
write_name_quoted(name, stdout, state->line_termination);
}
}
static void show_file_mode_name(const char *newdelete, unsigned int mode, const char *name)
{
if (mode)
printf(" %s mode %06o %s\n", newdelete, mode, name);
else
printf(" %s %s\n", newdelete, name);
}
static void show_mode_change(struct patch *p, int show_name)
{
if (p->old_mode && p->new_mode && p->old_mode != p->new_mode) {
if (show_name)
printf(" mode change %06o => %06o %s\n",
p->old_mode, p->new_mode, p->new_name);
else
printf(" mode change %06o => %06o\n",
p->old_mode, p->new_mode);
}
}
static void show_rename_copy(struct patch *p)
{
const char *renamecopy = p->is_rename ? "rename" : "copy";
const char *old, *new;
/* Find common prefix */
old = p->old_name;
new = p->new_name;
while (1) {
const char *slash_old, *slash_new;
slash_old = strchr(old, '/');
slash_new = strchr(new, '/');
if (!slash_old ||
!slash_new ||
slash_old - old != slash_new - new ||
memcmp(old, new, slash_new - new))
break;
old = slash_old + 1;
new = slash_new + 1;
}
/* p->old_name thru old is the common prefix, and old and new
* through the end of names are renames
*/
if (old != p->old_name)
printf(" %s %.*s{%s => %s} (%d%%)\n", renamecopy,
(int)(old - p->old_name), p->old_name,
old, new, p->score);
else
printf(" %s %s => %s (%d%%)\n", renamecopy,
p->old_name, p->new_name, p->score);
show_mode_change(p, 0);
}
static void summary_patch_list(struct patch *patch)
{
struct patch *p;
for (p = patch; p; p = p->next) {
if (p->is_new)
show_file_mode_name("create", p->new_mode, p->new_name);
else if (p->is_delete)
show_file_mode_name("delete", p->old_mode, p->old_name);
else {
if (p->is_rename || p->is_copy)
show_rename_copy(p);
else {
if (p->score) {
printf(" rewrite %s (%d%%)\n",
p->new_name, p->score);
show_mode_change(p, 0);
}
else
show_mode_change(p, 1);
}
}
}
}
static void patch_stats(struct apply_state *state, struct patch *patch)
{
int lines = patch->lines_added + patch->lines_deleted;
if (lines > state->max_change)
state->max_change = lines;
if (patch->old_name) {
int len = quote_c_style(patch->old_name, NULL, NULL, 0);
if (!len)
len = strlen(patch->old_name);
if (len > state->max_len)
state->max_len = len;
}
if (patch->new_name) {
int len = quote_c_style(patch->new_name, NULL, NULL, 0);
if (!len)
len = strlen(patch->new_name);
if (len > state->max_len)
state->max_len = len;
}
}
static int remove_file(struct apply_state *state, struct patch *patch, int rmdir_empty)
{
if (state->update_index) {
if (remove_file_from_cache(patch->old_name) < 0)
return error(_("unable to remove %s from index"), patch->old_name);
}
if (!state->cached) {
if (!remove_or_warn(patch->old_mode, patch->old_name) && rmdir_empty) {
remove_path(patch->old_name);
}
}
return 0;
}
static int add_index_file(struct apply_state *state,
const char *path,
unsigned mode,
void *buf,
unsigned long size)
{
struct stat st;
struct cache_entry *ce;
int namelen = strlen(path);
unsigned ce_size = cache_entry_size(namelen);
if (!state->update_index)
return 0;
ce = xcalloc(1, ce_size);
memcpy(ce->name, path, namelen);
ce->ce_mode = create_ce_mode(mode);
ce->ce_flags = create_ce_flags(0);
ce->ce_namelen = namelen;
if (S_ISGITLINK(mode)) {
const char *s;
if (!skip_prefix(buf, "Subproject commit ", &s) ||
get_oid_hex(s, &ce->oid)) {
free(ce);
return error(_("corrupt patch for submodule %s"), path);
}
} else {
if (!state->cached) {
if (lstat(path, &st) < 0) {
free(ce);
return error_errno(_("unable to stat newly "
"created file '%s'"),
path);
}
fill_stat_cache_info(ce, &st);
}
if (write_sha1_file(buf, size, blob_type, ce->oid.hash) < 0) {
free(ce);
return error(_("unable to create backing store "
"for newly created file %s"), path);
}
}
if (add_cache_entry(ce, ADD_CACHE_OK_TO_ADD) < 0) {
free(ce);
return error(_("unable to add cache entry for %s"), path);
}
return 0;
}
/*
* Returns:
* -1 if an unrecoverable error happened
* 0 if everything went well
* 1 if a recoverable error happened
*/
static int try_create_file(const char *path, unsigned int mode, const char *buf, unsigned long size)
{
int fd, res;
struct strbuf nbuf = STRBUF_INIT;
if (S_ISGITLINK(mode)) {
struct stat st;
if (!lstat(path, &st) && S_ISDIR(st.st_mode))
return 0;
return !!mkdir(path, 0777);
}
if (has_symlinks && S_ISLNK(mode))
/* Although buf:size is counted string, it also is NUL
* terminated.
*/
return !!symlink(buf, path);
fd = open(path, O_CREAT | O_EXCL | O_WRONLY, (mode & 0100) ? 0777 : 0666);
if (fd < 0)
return 1;
if (convert_to_working_tree(path, buf, size, &nbuf)) {
size = nbuf.len;
buf = nbuf.buf;
}
res = write_in_full(fd, buf, size) < 0;
if (res)
error_errno(_("failed to write to '%s'"), path);
strbuf_release(&nbuf);
if (close(fd) < 0 && !res)
return error_errno(_("closing file '%s'"), path);
return res ? -1 : 0;
}
/*
* We optimistically assume that the directories exist,
* which is true 99% of the time anyway. If they don't,
* we create them and try again.
*
* Returns:
* -1 on error
* 0 otherwise
*/
static int create_one_file(struct apply_state *state,
char *path,
unsigned mode,
const char *buf,
unsigned long size)
{
int res;
if (state->cached)
return 0;
res = try_create_file(path, mode, buf, size);
if (res < 0)
return -1;
if (!res)
return 0;
if (errno == ENOENT) {
if (safe_create_leading_directories(path))
return 0;
res = try_create_file(path, mode, buf, size);
if (res < 0)
return -1;
if (!res)
return 0;
}
if (errno == EEXIST || errno == EACCES) {
/* We may be trying to create a file where a directory
* used to be.
*/
struct stat st;
if (!lstat(path, &st) && (!S_ISDIR(st.st_mode) || !rmdir(path)))
errno = EEXIST;
}
if (errno == EEXIST) {
unsigned int nr = getpid();
for (;;) {
char newpath[PATH_MAX];
mksnpath(newpath, sizeof(newpath), "%s~%u", path, nr);
res = try_create_file(newpath, mode, buf, size);
if (res < 0)
return -1;
if (!res) {
if (!rename(newpath, path))
return 0;
unlink_or_warn(newpath);
break;
}
if (errno != EEXIST)
break;
++nr;
}
}
return error_errno(_("unable to write file '%s' mode %o"),
path, mode);
}
static int add_conflicted_stages_file(struct apply_state *state,
struct patch *patch)
{
int stage, namelen;
unsigned ce_size, mode;
struct cache_entry *ce;
if (!state->update_index)
return 0;
namelen = strlen(patch->new_name);
ce_size = cache_entry_size(namelen);
mode = patch->new_mode ? patch->new_mode : (S_IFREG | 0644);
remove_file_from_cache(patch->new_name);
for (stage = 1; stage < 4; stage++) {
if (is_null_oid(&patch->threeway_stage[stage - 1]))
continue;
ce = xcalloc(1, ce_size);
memcpy(ce->name, patch->new_name, namelen);
ce->ce_mode = create_ce_mode(mode);
ce->ce_flags = create_ce_flags(stage);
ce->ce_namelen = namelen;
oidcpy(&ce->oid, &patch->threeway_stage[stage - 1]);
if (add_cache_entry(ce, ADD_CACHE_OK_TO_ADD) < 0) {
free(ce);
return error(_("unable to add cache entry for %s"),
patch->new_name);
}
}
return 0;
}
static int create_file(struct apply_state *state, struct patch *patch)
{
char *path = patch->new_name;
unsigned mode = patch->new_mode;
unsigned long size = patch->resultsize;
char *buf = patch->result;
if (!mode)
mode = S_IFREG | 0644;
if (create_one_file(state, path, mode, buf, size))
return -1;
if (patch->conflicted_threeway)
return add_conflicted_stages_file(state, patch);
else
return add_index_file(state, path, mode, buf, size);
}
/* phase zero is to remove, phase one is to create */
static int write_out_one_result(struct apply_state *state,
struct patch *patch,
int phase)
{
if (patch->is_delete > 0) {
if (phase == 0)
return remove_file(state, patch, 1);
return 0;
}
if (patch->is_new > 0 || patch->is_copy) {
if (phase == 1)
return create_file(state, patch);
return 0;
}
/*
* Rename or modification boils down to the same
* thing: remove the old, write the new
*/
if (phase == 0)
return remove_file(state, patch, patch->is_rename);
if (phase == 1)
return create_file(state, patch);
return 0;
}
static int write_out_one_reject(struct apply_state *state, struct patch *patch)
{
FILE *rej;
char namebuf[PATH_MAX];
struct fragment *frag;
int cnt = 0;
struct strbuf sb = STRBUF_INIT;
for (cnt = 0, frag = patch->fragments; frag; frag = frag->next) {
if (!frag->rejected)
continue;
cnt++;
}
if (!cnt) {
if (state->apply_verbosity > verbosity_normal)
say_patch_name(stderr,
_("Applied patch %s cleanly."), patch);
return 0;
}
/* This should not happen, because a removal patch that leaves
* contents are marked "rejected" at the patch level.
*/
if (!patch->new_name)
die(_("internal error"));
/* Say this even without --verbose */
strbuf_addf(&sb, Q_("Applying patch %%s with %d reject...",
"Applying patch %%s with %d rejects...",
cnt),
cnt);
if (state->apply_verbosity > verbosity_silent)
say_patch_name(stderr, sb.buf, patch);
strbuf_release(&sb);
cnt = strlen(patch->new_name);
if (ARRAY_SIZE(namebuf) <= cnt + 5) {
cnt = ARRAY_SIZE(namebuf) - 5;
warning(_("truncating .rej filename to %.*s.rej"),
cnt - 1, patch->new_name);
}
memcpy(namebuf, patch->new_name, cnt);
memcpy(namebuf + cnt, ".rej", 5);
rej = fopen(namebuf, "w");
if (!rej)
return error_errno(_("cannot open %s"), namebuf);
/* Normal git tools never deal with .rej, so do not pretend
* this is a git patch by saying --git or giving extended
* headers. While at it, maybe please "kompare" that wants
* the trailing TAB and some garbage at the end of line ;-).
*/
fprintf(rej, "diff a/%s b/%s\t(rejected hunks)\n",
patch->new_name, patch->new_name);
for (cnt = 1, frag = patch->fragments;
frag;
cnt++, frag = frag->next) {
if (!frag->rejected) {
if (state->apply_verbosity > verbosity_silent)
fprintf_ln(stderr, _("Hunk #%d applied cleanly."), cnt);
continue;
}
if (state->apply_verbosity > verbosity_silent)
fprintf_ln(stderr, _("Rejected hunk #%d."), cnt);
fprintf(rej, "%.*s", frag->size, frag->patch);
if (frag->patch[frag->size-1] != '\n')
fputc('\n', rej);
}
fclose(rej);
return -1;
}
/*
* Returns:
* -1 if an error happened
* 0 if the patch applied cleanly
* 1 if the patch did not apply cleanly
*/
static int write_out_results(struct apply_state *state, struct patch *list)
{
int phase;
int errs = 0;
struct patch *l;
struct string_list cpath = STRING_LIST_INIT_DUP;
for (phase = 0; phase < 2; phase++) {
l = list;
while (l) {
if (l->rejected)
errs = 1;
else {
if (write_out_one_result(state, l, phase)) {
string_list_clear(&cpath, 0);
return -1;
}
if (phase == 1) {
if (write_out_one_reject(state, l))
errs = 1;
if (l->conflicted_threeway) {
string_list_append(&cpath, l->new_name);
errs = 1;
}
}
}
l = l->next;
}
}
if (cpath.nr) {
struct string_list_item *item;
string_list_sort(&cpath);
if (state->apply_verbosity > verbosity_silent) {
for_each_string_list_item(item, &cpath)
fprintf(stderr, "U %s\n", item->string);
}
string_list_clear(&cpath, 0);
rerere(0);
}
return errs;
}
/*
* Try to apply a patch.
*
* Returns:
* -128 if a bad error happened (like patch unreadable)
* -1 if patch did not apply and user cannot deal with it
* 0 if the patch applied
* 1 if the patch did not apply but user might fix it
*/
static int apply_patch(struct apply_state *state,
int fd,
const char *filename,
int options)
{
size_t offset;
struct strbuf buf = STRBUF_INIT; /* owns the patch text */
struct patch *list = NULL, **listp = &list;
int skipped_patch = 0;
int res = 0;
state->patch_input_file = filename;
if (read_patch_file(&buf, fd) < 0)
return -128;
offset = 0;
while (offset < buf.len) {
struct patch *patch;
int nr;
patch = xcalloc(1, sizeof(*patch));
patch->inaccurate_eof = !!(options & APPLY_OPT_INACCURATE_EOF);
patch->recount = !!(options & APPLY_OPT_RECOUNT);
nr = parse_chunk(state, buf.buf + offset, buf.len - offset, patch);
if (nr < 0) {
free_patch(patch);
if (nr == -128) {
res = -128;
goto end;
}
break;
}
if (state->apply_in_reverse)
reverse_patches(patch);
if (use_patch(state, patch)) {
patch_stats(state, patch);
*listp = patch;
listp = &patch->next;
}
else {
if (state->apply_verbosity > verbosity_normal)
say_patch_name(stderr, _("Skipped patch '%s'."), patch);
free_patch(patch);
skipped_patch++;
}
offset += nr;
}
if (!list && !skipped_patch) {
error(_("unrecognized input"));
res = -128;
goto end;
}
if (state->whitespace_error && (state->ws_error_action == die_on_ws_error))
state->apply = 0;
state->update_index = state->check_index && state->apply;
if (state->update_index && state->newfd < 0) {
if (state->index_file)
state->newfd = hold_lock_file_for_update(state->lock_file,
state->index_file,
LOCK_DIE_ON_ERROR);
else
state->newfd = hold_locked_index(state->lock_file, LOCK_DIE_ON_ERROR);
}
if (state->check_index && read_apply_cache(state) < 0) {
error(_("unable to read index file"));
res = -128;
goto end;
}
if (state->check || state->apply) {
int r = check_patch_list(state, list);
if (r == -128) {
res = -128;
goto end;
}
if (r < 0 && !state->apply_with_reject) {
res = -1;
goto end;
}
}
if (state->apply) {
int write_res = write_out_results(state, list);
if (write_res < 0) {
res = -128;
goto end;
}
if (write_res > 0) {
/* with --3way, we still need to write the index out */
res = state->apply_with_reject ? -1 : 1;
goto end;
}
}
if (state->fake_ancestor &&
build_fake_ancestor(state, list)) {
res = -128;
goto end;
}
if (state->diffstat && state->apply_verbosity > verbosity_silent)
stat_patch_list(state, list);
if (state->numstat && state->apply_verbosity > verbosity_silent)
numstat_patch_list(state, list);
if (state->summary && state->apply_verbosity > verbosity_silent)
summary_patch_list(list);
end:
free_patch_list(list);
strbuf_release(&buf);
string_list_clear(&state->fn_table, 0);
return res;
}
static int apply_option_parse_exclude(const struct option *opt,
const char *arg, int unset)
{
struct apply_state *state = opt->value;
add_name_limit(state, arg, 1);
return 0;
}
static int apply_option_parse_include(const struct option *opt,
const char *arg, int unset)
{
struct apply_state *state = opt->value;
add_name_limit(state, arg, 0);
state->has_include = 1;
return 0;
}
static int apply_option_parse_p(const struct option *opt,
const char *arg,
int unset)
{
struct apply_state *state = opt->value;
state->p_value = atoi(arg);
state->p_value_known = 1;
return 0;
}
static int apply_option_parse_space_change(const struct option *opt,
const char *arg, int unset)
{
struct apply_state *state = opt->value;
if (unset)
state->ws_ignore_action = ignore_ws_none;
else
state->ws_ignore_action = ignore_ws_change;
return 0;
}
static int apply_option_parse_whitespace(const struct option *opt,
const char *arg, int unset)
{
struct apply_state *state = opt->value;
state->whitespace_option = arg;
if (parse_whitespace_option(state, arg))
exit(1);
return 0;
}
static int apply_option_parse_directory(const struct option *opt,
const char *arg, int unset)
{
struct apply_state *state = opt->value;
strbuf_reset(&state->root);
strbuf_addstr(&state->root, arg);
strbuf_complete(&state->root, '/');
return 0;
}
int apply_all_patches(struct apply_state *state,
int argc,
const char **argv,
int options)
{
int i;
int res;
int errs = 0;
int read_stdin = 1;
for (i = 0; i < argc; i++) {
const char *arg = argv[i];
char *to_free = NULL;
int fd;
if (!strcmp(arg, "-")) {
res = apply_patch(state, 0, "<stdin>", options);
if (res < 0)
goto end;
errs |= res;
read_stdin = 0;
continue;
} else
arg = to_free = prefix_filename(state->prefix, arg);
fd = open(arg, O_RDONLY);
if (fd < 0) {
error(_("can't open patch '%s': %s"), arg, strerror(errno));
res = -128;
free(to_free);
goto end;
}
read_stdin = 0;
set_default_whitespace_mode(state);
res = apply_patch(state, fd, arg, options);
close(fd);
free(to_free);
if (res < 0)
goto end;
errs |= res;
}
set_default_whitespace_mode(state);
if (read_stdin) {
res = apply_patch(state, 0, "<stdin>", options);
if (res < 0)
goto end;
errs |= res;
}
if (state->whitespace_error) {
if (state->squelch_whitespace_errors &&
state->squelch_whitespace_errors < state->whitespace_error) {
int squelched =
state->whitespace_error - state->squelch_whitespace_errors;
warning(Q_("squelched %d whitespace error",
"squelched %d whitespace errors",
squelched),
squelched);
}
if (state->ws_error_action == die_on_ws_error) {
error(Q_("%d line adds whitespace errors.",
"%d lines add whitespace errors.",
state->whitespace_error),
state->whitespace_error);
res = -128;
goto end;
}
if (state->applied_after_fixing_ws && state->apply)
warning(Q_("%d line applied after"
" fixing whitespace errors.",
"%d lines applied after"
" fixing whitespace errors.",
state->applied_after_fixing_ws),
state->applied_after_fixing_ws);
else if (state->whitespace_error)
warning(Q_("%d line adds whitespace errors.",
"%d lines add whitespace errors.",
state->whitespace_error),
state->whitespace_error);
}
if (state->update_index) {
res = write_locked_index(&the_index, state->lock_file, COMMIT_LOCK);
if (res) {
error(_("Unable to write new index file"));
res = -128;
goto end;
}
state->newfd = -1;
}
res = !!errs;
end:
if (state->newfd >= 0) {
rollback_lock_file(state->lock_file);
state->newfd = -1;
}
if (state->apply_verbosity <= verbosity_silent) {
set_error_routine(state->saved_error_routine);
set_warn_routine(state->saved_warn_routine);
}
if (res > -1)
return res;
return (res == -1 ? 1 : 128);
}
int apply_parse_options(int argc, const char **argv,
struct apply_state *state,
int *force_apply, int *options,
const char * const *apply_usage)
{
struct option builtin_apply_options[] = {
{ OPTION_CALLBACK, 0, "exclude", state, N_("path"),
N_("don't apply changes matching the given path"),
0, apply_option_parse_exclude },
{ OPTION_CALLBACK, 0, "include", state, N_("path"),
N_("apply changes matching the given path"),
0, apply_option_parse_include },
{ OPTION_CALLBACK, 'p', NULL, state, N_("num"),
N_("remove <num> leading slashes from traditional diff paths"),
0, apply_option_parse_p },
OPT_BOOL(0, "no-add", &state->no_add,
N_("ignore additions made by the patch")),
OPT_BOOL(0, "stat", &state->diffstat,
N_("instead of applying the patch, output diffstat for the input")),
OPT_NOOP_NOARG(0, "allow-binary-replacement"),
OPT_NOOP_NOARG(0, "binary"),
OPT_BOOL(0, "numstat", &state->numstat,
N_("show number of added and deleted lines in decimal notation")),
OPT_BOOL(0, "summary", &state->summary,
N_("instead of applying the patch, output a summary for the input")),
OPT_BOOL(0, "check", &state->check,
N_("instead of applying the patch, see if the patch is applicable")),
OPT_BOOL(0, "index", &state->check_index,
N_("make sure the patch is applicable to the current index")),
OPT_BOOL(0, "cached", &state->cached,
N_("apply a patch without touching the working tree")),
OPT_BOOL(0, "unsafe-paths", &state->unsafe_paths,
N_("accept a patch that touches outside the working area")),
OPT_BOOL(0, "apply", force_apply,
N_("also apply the patch (use with --stat/--summary/--check)")),
OPT_BOOL('3', "3way", &state->threeway,
N_( "attempt three-way merge if a patch does not apply")),
OPT_FILENAME(0, "build-fake-ancestor", &state->fake_ancestor,
N_("build a temporary index based on embedded index information")),
/* Think twice before adding "--nul" synonym to this */
OPT_SET_INT('z', NULL, &state->line_termination,
N_("paths are separated with NUL character"), '\0'),
OPT_INTEGER('C', NULL, &state->p_context,
N_("ensure at least <n> lines of context match")),
{ OPTION_CALLBACK, 0, "whitespace", state, N_("action"),
N_("detect new or modified lines that have whitespace errors"),
0, apply_option_parse_whitespace },
{ OPTION_CALLBACK, 0, "ignore-space-change", state, NULL,
N_("ignore changes in whitespace when finding context"),
PARSE_OPT_NOARG, apply_option_parse_space_change },
{ OPTION_CALLBACK, 0, "ignore-whitespace", state, NULL,
N_("ignore changes in whitespace when finding context"),
PARSE_OPT_NOARG, apply_option_parse_space_change },
OPT_BOOL('R', "reverse", &state->apply_in_reverse,
N_("apply the patch in reverse")),
OPT_BOOL(0, "unidiff-zero", &state->unidiff_zero,
N_("don't expect at least one line of context")),
OPT_BOOL(0, "reject", &state->apply_with_reject,
N_("leave the rejected hunks in corresponding *.rej files")),
OPT_BOOL(0, "allow-overlap", &state->allow_overlap,
N_("allow overlapping hunks")),
OPT__VERBOSE(&state->apply_verbosity, N_("be verbose")),
OPT_BIT(0, "inaccurate-eof", options,
N_("tolerate incorrectly detected missing new-line at the end of file"),
APPLY_OPT_INACCURATE_EOF),
OPT_BIT(0, "recount", options,
N_("do not trust the line counts in the hunk headers"),
APPLY_OPT_RECOUNT),
{ OPTION_CALLBACK, 0, "directory", state, N_("root"),
N_("prepend <root> to all filenames"),
0, apply_option_parse_directory },
OPT_END()
};
return parse_options(argc, argv, state->prefix, builtin_apply_options, apply_usage, 0);
}