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git/csum-file.c
Junio C Hamano c3d034df16 csum-file: introduce discard_hashfile() 
The hashfile API is used to write out a "hashfile", which has a
final checksum (typically SHA-1) at the end.  An in-core hashfile
structure has up to two file descriptors and a few buffers that can
only be freed by calling a helper function that is private to the
csum-file implementation.

The usual flow of a user of the API is to first open a file
descriptor for writing, obtain a hashfile associated with that write
file descriptor by calling either hashfd() or hashfd_check(), call
hashwrite() number of times to write data to the file, and then call
finalize_hashfile(), which appends th checksum to the end of the
file, closes file descriptors and releases associated buffers.

But what if a caller finds some error after calling hashfd() to
start the process and/or hashwrite() to send some data to the file,
and wants to abort the operation?  The underlying file descriptor is
often managed by the tempfile API, so aborting will clean the file
out of the filesystem, but the resources associated with the in-core
hashfile structure is lost.

Introduce discard_hashfile() API function to allow them to release
the resources held by a hashfile structure the callers want to
dispose of, and use that in read-cache.c:do_write_index(), which is
a central place that writes the index file.

Mark t2107 as leak-free, as this leak in "update-index --cacheinfo"
test that deliberately makes it fail is now plugged.

Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-07-26 09:04:02 -07:00

254 lines
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/*
* csum-file.c
*
* Copyright (C) 2005 Linus Torvalds
*
* Simple file write infrastructure for writing SHA1-summed
* files. Useful when you write a file that you want to be
* able to verify hasn't been messed with afterwards.
*/
#define USE_THE_REPOSITORY_VARIABLE
#include "git-compat-util.h"
#include "progress.h"
#include "csum-file.h"
#include "hash.h"
static void verify_buffer_or_die(struct hashfile *f,
const void *buf,
unsigned int count)
{
ssize_t ret = read_in_full(f->check_fd, f->check_buffer, count);
if (ret < 0)
die_errno("%s: sha1 file read error", f->name);
if (ret != count)
die("%s: sha1 file truncated", f->name);
if (memcmp(buf, f->check_buffer, count))
die("sha1 file '%s' validation error", f->name);
}
static void flush(struct hashfile *f, const void *buf, unsigned int count)
{
if (0 <= f->check_fd && count)
verify_buffer_or_die(f, buf, count);
if (write_in_full(f->fd, buf, count) < 0) {
if (errno == ENOSPC)
die("sha1 file '%s' write error. Out of diskspace", f->name);
die_errno("sha1 file '%s' write error", f->name);
}
f->total += count;
display_throughput(f->tp, f->total);
}
void hashflush(struct hashfile *f)
{
unsigned offset = f->offset;
if (offset) {
if (!f->skip_hash)
the_hash_algo->update_fn(&f->ctx, f->buffer, offset);
flush(f, f->buffer, offset);
f->offset = 0;
}
}
static void free_hashfile(struct hashfile *f)
{
free(f->buffer);
free(f->check_buffer);
free(f);
}
int finalize_hashfile(struct hashfile *f, unsigned char *result,
enum fsync_component component, unsigned int flags)
{
int fd;
hashflush(f);
if (f->skip_hash)
hashclr(f->buffer, the_repository->hash_algo);
else
the_hash_algo->final_fn(f->buffer, &f->ctx);
if (result)
hashcpy(result, f->buffer, the_repository->hash_algo);
if (flags & CSUM_HASH_IN_STREAM)
flush(f, f->buffer, the_hash_algo->rawsz);
if (flags & CSUM_FSYNC)
fsync_component_or_die(component, f->fd, f->name);
if (flags & CSUM_CLOSE) {
if (close(f->fd))
die_errno("%s: sha1 file error on close", f->name);
fd = 0;
} else
fd = f->fd;
if (0 <= f->check_fd) {
char discard;
int cnt = read_in_full(f->check_fd, &discard, 1);
if (cnt < 0)
die_errno("%s: error when reading the tail of sha1 file",
f->name);
if (cnt)
die("%s: sha1 file has trailing garbage", f->name);
if (close(f->check_fd))
die_errno("%s: sha1 file error on close", f->name);
}
free_hashfile(f);
return fd;
}
void discard_hashfile(struct hashfile *f)
{
if (0 <= f->check_fd)
close(f->check_fd);
if (0 <= f->fd)
close(f->fd);
free_hashfile(f);
}
void hashwrite(struct hashfile *f, const void *buf, unsigned int count)
{
while (count) {
unsigned left = f->buffer_len - f->offset;
unsigned nr = count > left ? left : count;
if (f->do_crc)
f->crc32 = crc32(f->crc32, buf, nr);
if (nr == f->buffer_len) {
/*
* Flush a full batch worth of data directly
* from the input, skipping the memcpy() to
* the hashfile's buffer. In this block,
* f->offset is necessarily zero.
*/
if (!f->skip_hash)
the_hash_algo->update_fn(&f->ctx, buf, nr);
flush(f, buf, nr);
} else {
/*
* Copy to the hashfile's buffer, flushing only
* if it became full.
*/
memcpy(f->buffer + f->offset, buf, nr);
f->offset += nr;
left -= nr;
if (!left)
hashflush(f);
}
count -= nr;
buf = (char *) buf + nr;
}
}
struct hashfile *hashfd_check(const char *name)
{
int sink, check;
struct hashfile *f;
sink = xopen("/dev/null", O_WRONLY);
check = xopen(name, O_RDONLY);
f = hashfd(sink, name);
f->check_fd = check;
f->check_buffer = xmalloc(f->buffer_len);
return f;
}
static struct hashfile *hashfd_internal(int fd, const char *name,
struct progress *tp,
size_t buffer_len)
{
struct hashfile *f = xmalloc(sizeof(*f));
f->fd = fd;
f->check_fd = -1;
f->offset = 0;
f->total = 0;
f->tp = tp;
f->name = name;
f->do_crc = 0;
f->skip_hash = 0;
the_hash_algo->init_fn(&f->ctx);
f->buffer_len = buffer_len;
f->buffer = xmalloc(buffer_len);
f->check_buffer = NULL;
return f;
}
struct hashfile *hashfd(int fd, const char *name)
{
/*
* Since we are not going to use a progress meter to
* measure the rate of data passing through this hashfile,
* use a larger buffer size to reduce fsync() calls.
*/
return hashfd_internal(fd, name, NULL, 128 * 1024);
}
struct hashfile *hashfd_throughput(int fd, const char *name, struct progress *tp)
{
/*
* Since we are expecting to report progress of the
* write into this hashfile, use a smaller buffer
* size so the progress indicators arrive at a more
* frequent rate.
*/
return hashfd_internal(fd, name, tp, 8 * 1024);
}
void hashfile_checkpoint(struct hashfile *f, struct hashfile_checkpoint *checkpoint)
{
hashflush(f);
checkpoint->offset = f->total;
the_hash_algo->clone_fn(&checkpoint->ctx, &f->ctx);
}
int hashfile_truncate(struct hashfile *f, struct hashfile_checkpoint *checkpoint)
{
off_t offset = checkpoint->offset;
if (ftruncate(f->fd, offset) ||
lseek(f->fd, offset, SEEK_SET) != offset)
return -1;
f->total = offset;
the_hash_algo->clone_fn(&f->ctx, &checkpoint->ctx);
f->offset = 0; /* hashflush() was called in checkpoint */
return 0;
}
void crc32_begin(struct hashfile *f)
{
f->crc32 = crc32(0, NULL, 0);
f->do_crc = 1;
}
uint32_t crc32_end(struct hashfile *f)
{
f->do_crc = 0;
return f->crc32;
}
int hashfile_checksum_valid(const unsigned char *data, size_t total_len)
{
unsigned char got[GIT_MAX_RAWSZ];
git_hash_ctx ctx;
size_t data_len = total_len - the_hash_algo->rawsz;
if (total_len < the_hash_algo->rawsz)
return 0; /* say "too short"? */
the_hash_algo->init_fn(&ctx);
the_hash_algo->update_fn(&ctx, data, data_len);
the_hash_algo->final_fn(got, &ctx);
return hasheq(got, data + data_len, the_repository->hash_algo);
}
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