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|
/*
Copyright 2020 Google LLC
Use of this source code is governed by a BSD-style
license that can be found in the LICENSE file or at
https://developers.google.com/open-source/licenses/bsd
*/
#include "stack.h"
#include "../write-or-die.h"
#include "system.h"
#include "merged.h"
#include "reader.h"
#include "refname.h"
#include "reftable-error.h"
#include "reftable-record.h"
#include "reftable-merged.h"
#include "writer.h"
#include "tempfile.h"
static int stack_try_add(struct reftable_stack *st,
int (*write_table)(struct reftable_writer *wr,
void *arg),
void *arg);
static int stack_write_compact(struct reftable_stack *st,
struct reftable_writer *wr,
size_t first, size_t last,
struct reftable_log_expiry_config *config);
static int stack_check_addition(struct reftable_stack *st,
const char *new_tab_name);
static void reftable_addition_close(struct reftable_addition *add);
static int reftable_stack_reload_maybe_reuse(struct reftable_stack *st,
int reuse_open);
static void stack_filename(struct strbuf *dest, struct reftable_stack *st,
const char *name)
{
strbuf_reset(dest);
strbuf_addstr(dest, st->reftable_dir);
strbuf_addstr(dest, "/");
strbuf_addstr(dest, name);
}
static ssize_t reftable_fd_write(void *arg, const void *data, size_t sz)
{
int *fdp = (int *)arg;
return write_in_full(*fdp, data, sz);
}
static int reftable_fd_flush(void *arg)
{
int *fdp = (int *)arg;
return fsync_component(FSYNC_COMPONENT_REFERENCE, *fdp);
}
int reftable_new_stack(struct reftable_stack **dest, const char *dir,
struct reftable_write_options config)
{
struct reftable_stack *p = reftable_calloc(1, sizeof(*p));
struct strbuf list_file_name = STRBUF_INIT;
int err = 0;
if (config.hash_id == 0) {
config.hash_id = GIT_SHA1_FORMAT_ID;
}
*dest = NULL;
strbuf_reset(&list_file_name);
strbuf_addstr(&list_file_name, dir);
strbuf_addstr(&list_file_name, "/tables.list");
p->list_file = strbuf_detach(&list_file_name, NULL);
p->list_fd = -1;
p->reftable_dir = xstrdup(dir);
p->config = config;
err = reftable_stack_reload_maybe_reuse(p, 1);
if (err < 0) {
reftable_stack_destroy(p);
} else {
*dest = p;
}
return err;
}
static int fd_read_lines(int fd, char ***namesp)
{
off_t size = lseek(fd, 0, SEEK_END);
char *buf = NULL;
int err = 0;
if (size < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
err = lseek(fd, 0, SEEK_SET);
if (err < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
REFTABLE_ALLOC_ARRAY(buf, size + 1);
if (read_in_full(fd, buf, size) != size) {
err = REFTABLE_IO_ERROR;
goto done;
}
buf[size] = 0;
parse_names(buf, size, namesp);
done:
reftable_free(buf);
return err;
}
int read_lines(const char *filename, char ***namesp)
{
int fd = open(filename, O_RDONLY);
int err = 0;
if (fd < 0) {
if (errno == ENOENT) {
REFTABLE_CALLOC_ARRAY(*namesp, 1);
return 0;
}
return REFTABLE_IO_ERROR;
}
err = fd_read_lines(fd, namesp);
close(fd);
return err;
}
struct reftable_merged_table *
reftable_stack_merged_table(struct reftable_stack *st)
{
return st->merged;
}
static int has_name(char **names, const char *name)
{
while (*names) {
if (!strcmp(*names, name))
return 1;
names++;
}
return 0;
}
/* Close and free the stack */
void reftable_stack_destroy(struct reftable_stack *st)
{
char **names = NULL;
int err = 0;
if (st->merged) {
reftable_merged_table_free(st->merged);
st->merged = NULL;
}
err = read_lines(st->list_file, &names);
if (err < 0) {
FREE_AND_NULL(names);
}
if (st->readers) {
int i = 0;
struct strbuf filename = STRBUF_INIT;
for (i = 0; i < st->readers_len; i++) {
const char *name = reader_name(st->readers[i]);
strbuf_reset(&filename);
if (names && !has_name(names, name)) {
stack_filename(&filename, st, name);
}
reftable_reader_free(st->readers[i]);
if (filename.len) {
/* On Windows, can only unlink after closing. */
unlink(filename.buf);
}
}
strbuf_release(&filename);
st->readers_len = 0;
FREE_AND_NULL(st->readers);
}
if (st->list_fd >= 0) {
close(st->list_fd);
st->list_fd = -1;
}
FREE_AND_NULL(st->list_file);
FREE_AND_NULL(st->reftable_dir);
reftable_free(st);
free_names(names);
}
static struct reftable_reader **stack_copy_readers(struct reftable_stack *st,
int cur_len)
{
struct reftable_reader **cur = reftable_calloc(cur_len, sizeof(*cur));
int i = 0;
for (i = 0; i < cur_len; i++) {
cur[i] = st->readers[i];
}
return cur;
}
static int reftable_stack_reload_once(struct reftable_stack *st, char **names,
int reuse_open)
{
size_t cur_len = !st->merged ? 0 : st->merged->stack_len;
struct reftable_reader **cur = stack_copy_readers(st, cur_len);
size_t names_len = names_length(names);
struct reftable_reader **new_readers =
reftable_calloc(names_len, sizeof(*new_readers));
struct reftable_table *new_tables =
reftable_calloc(names_len, sizeof(*new_tables));
size_t new_readers_len = 0;
struct reftable_merged_table *new_merged = NULL;
struct strbuf table_path = STRBUF_INIT;
int err = 0;
size_t i;
while (*names) {
struct reftable_reader *rd = NULL;
char *name = *names++;
/* this is linear; we assume compaction keeps the number of
tables under control so this is not quadratic. */
for (i = 0; reuse_open && i < cur_len; i++) {
if (cur[i] && 0 == strcmp(cur[i]->name, name)) {
rd = cur[i];
cur[i] = NULL;
break;
}
}
if (!rd) {
struct reftable_block_source src = { NULL };
stack_filename(&table_path, st, name);
err = reftable_block_source_from_file(&src,
table_path.buf);
if (err < 0)
goto done;
err = reftable_new_reader(&rd, &src, name);
if (err < 0)
goto done;
}
new_readers[new_readers_len] = rd;
reftable_table_from_reader(&new_tables[new_readers_len], rd);
new_readers_len++;
}
/* success! */
err = reftable_new_merged_table(&new_merged, new_tables,
new_readers_len, st->config.hash_id);
if (err < 0)
goto done;
new_tables = NULL;
st->readers_len = new_readers_len;
if (st->merged) {
merged_table_release(st->merged);
reftable_merged_table_free(st->merged);
}
if (st->readers) {
reftable_free(st->readers);
}
st->readers = new_readers;
new_readers = NULL;
new_readers_len = 0;
new_merged->suppress_deletions = 1;
st->merged = new_merged;
for (i = 0; i < cur_len; i++) {
if (cur[i]) {
const char *name = reader_name(cur[i]);
stack_filename(&table_path, st, name);
reader_close(cur[i]);
reftable_reader_free(cur[i]);
/* On Windows, can only unlink after closing. */
unlink(table_path.buf);
}
}
done:
for (i = 0; i < new_readers_len; i++) {
reader_close(new_readers[i]);
reftable_reader_free(new_readers[i]);
}
reftable_free(new_readers);
reftable_free(new_tables);
reftable_free(cur);
strbuf_release(&table_path);
return err;
}
/* return negative if a before b. */
static int tv_cmp(struct timeval *a, struct timeval *b)
{
time_t diff = a->tv_sec - b->tv_sec;
int udiff = a->tv_usec - b->tv_usec;
if (diff != 0)
return diff;
return udiff;
}
static int reftable_stack_reload_maybe_reuse(struct reftable_stack *st,
int reuse_open)
{
char **names = NULL, **names_after = NULL;
struct timeval deadline;
int64_t delay = 0;
int tries = 0, err;
int fd = -1;
err = gettimeofday(&deadline, NULL);
if (err < 0)
goto out;
deadline.tv_sec += 3;
while (1) {
struct timeval now;
err = gettimeofday(&now, NULL);
if (err < 0)
goto out;
/*
* Only look at deadlines after the first few times. This
* simplifies debugging in GDB.
*/
tries++;
if (tries > 3 && tv_cmp(&now, &deadline) >= 0)
goto out;
fd = open(st->list_file, O_RDONLY);
if (fd < 0) {
if (errno != ENOENT) {
err = REFTABLE_IO_ERROR;
goto out;
}
REFTABLE_CALLOC_ARRAY(names, 1);
} else {
err = fd_read_lines(fd, &names);
if (err < 0)
goto out;
}
err = reftable_stack_reload_once(st, names, reuse_open);
if (!err)
break;
if (err != REFTABLE_NOT_EXIST_ERROR)
goto out;
/*
* REFTABLE_NOT_EXIST_ERROR can be caused by a concurrent
* writer. Check if there was one by checking if the name list
* changed.
*/
err = read_lines(st->list_file, &names_after);
if (err < 0)
goto out;
if (names_equal(names_after, names)) {
err = REFTABLE_NOT_EXIST_ERROR;
goto out;
}
free_names(names);
names = NULL;
free_names(names_after);
names_after = NULL;
close(fd);
fd = -1;
delay = delay + (delay * rand()) / RAND_MAX + 1;
sleep_millisec(delay);
}
out:
/*
* Invalidate the stat cache. It is sufficient to only close the file
* descriptor and keep the cached stat info because we never use the
* latter when the former is negative.
*/
if (st->list_fd >= 0) {
close(st->list_fd);
st->list_fd = -1;
}
/*
* Cache stat information in case it provides a useful signal to us.
* According to POSIX, "The st_ino and st_dev fields taken together
* uniquely identify the file within the system." That being said,
* Windows is not POSIX compliant and we do not have these fields
* available. So the information we have there is insufficient to
* determine whether two file descriptors point to the same file.
*
* While we could fall back to using other signals like the file's
* mtime, those are not sufficient to avoid races. We thus refrain from
* using the stat cache on such systems and fall back to the secondary
* caching mechanism, which is to check whether contents of the file
* have changed.
*
* On other systems which are POSIX compliant we must keep the file
* descriptor open. This is to avoid a race condition where two
* processes access the reftable stack at the same point in time:
*
* 1. A reads the reftable stack and caches its stat info.
*
* 2. B updates the stack, appending a new table to "tables.list".
* This will both use a new inode and result in a different file
* size, thus invalidating A's cache in theory.
*
* 3. B decides to auto-compact the stack and merges two tables. The
* file size now matches what A has cached again. Furthermore, the
* filesystem may decide to recycle the inode number of the file
* we have replaced in (2) because it is not in use anymore.
*
* 4. A reloads the reftable stack. Neither the inode number nor the
* file size changed. If the timestamps did not change either then
* we think the cached copy of our stack is up-to-date.
*
* By keeping the file descriptor open the inode number cannot be
* recycled, mitigating the race.
*/
if (!err && fd >= 0 && !fstat(fd, &st->list_st) &&
st->list_st.st_dev && st->list_st.st_ino) {
st->list_fd = fd;
fd = -1;
}
if (fd >= 0)
close(fd);
free_names(names);
free_names(names_after);
return err;
}
/* -1 = error
0 = up to date
1 = changed. */
static int stack_uptodate(struct reftable_stack *st)
{
char **names = NULL;
int err;
int i = 0;
/*
* When we have cached stat information available then we use it to
* verify whether the file has been rewritten.
*
* Note that we explicitly do not want to use `stat_validity_check()`
* and friends here because they may end up not comparing the `st_dev`
* and `st_ino` fields. These functions thus cannot guarantee that we
* indeed still have the same file.
*/
if (st->list_fd >= 0) {
struct stat list_st;
if (stat(st->list_file, &list_st) < 0) {
/*
* It's fine for "tables.list" to not exist. In that
* case, we have to refresh when the loaded stack has
* any readers.
*/
if (errno == ENOENT)
return !!st->readers_len;
return REFTABLE_IO_ERROR;
}
/*
* When "tables.list" refers to the same file we can assume
* that it didn't change. This is because we always use
* rename(3P) to update the file and never write to it
* directly.
*/
if (st->list_st.st_dev == list_st.st_dev &&
st->list_st.st_ino == list_st.st_ino)
return 0;
}
err = read_lines(st->list_file, &names);
if (err < 0)
return err;
for (i = 0; i < st->readers_len; i++) {
if (!names[i]) {
err = 1;
goto done;
}
if (strcmp(st->readers[i]->name, names[i])) {
err = 1;
goto done;
}
}
if (names[st->merged->stack_len]) {
err = 1;
goto done;
}
done:
free_names(names);
return err;
}
int reftable_stack_reload(struct reftable_stack *st)
{
int err = stack_uptodate(st);
if (err > 0)
return reftable_stack_reload_maybe_reuse(st, 1);
return err;
}
int reftable_stack_add(struct reftable_stack *st,
int (*write)(struct reftable_writer *wr, void *arg),
void *arg)
{
int err = stack_try_add(st, write, arg);
if (err < 0) {
if (err == REFTABLE_OUTDATED_ERROR) {
/* Ignore error return, we want to propagate
REFTABLE_OUTDATED_ERROR.
*/
reftable_stack_reload(st);
}
return err;
}
return 0;
}
static void format_name(struct strbuf *dest, uint64_t min, uint64_t max)
{
char buf[100];
uint32_t rnd = (uint32_t)git_rand();
snprintf(buf, sizeof(buf), "0x%012" PRIx64 "-0x%012" PRIx64 "-%08x",
min, max, rnd);
strbuf_reset(dest);
strbuf_addstr(dest, buf);
}
struct reftable_addition {
struct tempfile *lock_file;
struct reftable_stack *stack;
char **new_tables;
size_t new_tables_len, new_tables_cap;
uint64_t next_update_index;
};
#define REFTABLE_ADDITION_INIT {0}
static int reftable_stack_init_addition(struct reftable_addition *add,
struct reftable_stack *st)
{
struct strbuf lock_file_name = STRBUF_INIT;
int err = 0;
add->stack = st;
strbuf_addf(&lock_file_name, "%s.lock", st->list_file);
add->lock_file = create_tempfile(lock_file_name.buf);
if (!add->lock_file) {
if (errno == EEXIST) {
err = REFTABLE_LOCK_ERROR;
} else {
err = REFTABLE_IO_ERROR;
}
goto done;
}
if (st->config.default_permissions) {
if (chmod(add->lock_file->filename.buf, st->config.default_permissions) < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
}
err = stack_uptodate(st);
if (err < 0)
goto done;
if (err > 0) {
err = REFTABLE_OUTDATED_ERROR;
goto done;
}
add->next_update_index = reftable_stack_next_update_index(st);
done:
if (err) {
reftable_addition_close(add);
}
strbuf_release(&lock_file_name);
return err;
}
static void reftable_addition_close(struct reftable_addition *add)
{
struct strbuf nm = STRBUF_INIT;
size_t i;
for (i = 0; i < add->new_tables_len; i++) {
stack_filename(&nm, add->stack, add->new_tables[i]);
unlink(nm.buf);
reftable_free(add->new_tables[i]);
add->new_tables[i] = NULL;
}
reftable_free(add->new_tables);
add->new_tables = NULL;
add->new_tables_len = 0;
add->new_tables_cap = 0;
delete_tempfile(&add->lock_file);
strbuf_release(&nm);
}
void reftable_addition_destroy(struct reftable_addition *add)
{
if (!add) {
return;
}
reftable_addition_close(add);
reftable_free(add);
}
int reftable_addition_commit(struct reftable_addition *add)
{
struct strbuf table_list = STRBUF_INIT;
int lock_file_fd = get_tempfile_fd(add->lock_file);
int err = 0;
size_t i;
if (add->new_tables_len == 0)
goto done;
for (i = 0; i < add->stack->merged->stack_len; i++) {
strbuf_addstr(&table_list, add->stack->readers[i]->name);
strbuf_addstr(&table_list, "\n");
}
for (i = 0; i < add->new_tables_len; i++) {
strbuf_addstr(&table_list, add->new_tables[i]);
strbuf_addstr(&table_list, "\n");
}
err = write_in_full(lock_file_fd, table_list.buf, table_list.len);
strbuf_release(&table_list);
if (err < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
fsync_component_or_die(FSYNC_COMPONENT_REFERENCE, lock_file_fd,
get_tempfile_path(add->lock_file));
err = rename_tempfile(&add->lock_file, add->stack->list_file);
if (err < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
/* success, no more state to clean up. */
for (i = 0; i < add->new_tables_len; i++)
reftable_free(add->new_tables[i]);
reftable_free(add->new_tables);
add->new_tables = NULL;
add->new_tables_len = 0;
add->new_tables_cap = 0;
err = reftable_stack_reload_maybe_reuse(add->stack, 1);
if (err)
goto done;
if (!add->stack->config.disable_auto_compact) {
/*
* Auto-compact the stack to keep the number of tables in
* control. It is possible that a concurrent writer is already
* trying to compact parts of the stack, which would lead to a
* `REFTABLE_LOCK_ERROR` because parts of the stack are locked
* already. This is a benign error though, so we ignore it.
*/
err = reftable_stack_auto_compact(add->stack);
if (err < 0 && err != REFTABLE_LOCK_ERROR)
goto done;
err = 0;
}
done:
reftable_addition_close(add);
return err;
}
int reftable_stack_new_addition(struct reftable_addition **dest,
struct reftable_stack *st)
{
int err = 0;
struct reftable_addition empty = REFTABLE_ADDITION_INIT;
REFTABLE_CALLOC_ARRAY(*dest, 1);
**dest = empty;
err = reftable_stack_init_addition(*dest, st);
if (err) {
reftable_free(*dest);
*dest = NULL;
}
return err;
}
static int stack_try_add(struct reftable_stack *st,
int (*write_table)(struct reftable_writer *wr,
void *arg),
void *arg)
{
struct reftable_addition add = REFTABLE_ADDITION_INIT;
int err = reftable_stack_init_addition(&add, st);
if (err < 0)
goto done;
err = reftable_addition_add(&add, write_table, arg);
if (err < 0)
goto done;
err = reftable_addition_commit(&add);
done:
reftable_addition_close(&add);
return err;
}
int reftable_addition_add(struct reftable_addition *add,
int (*write_table)(struct reftable_writer *wr,
void *arg),
void *arg)
{
struct strbuf temp_tab_file_name = STRBUF_INIT;
struct strbuf tab_file_name = STRBUF_INIT;
struct strbuf next_name = STRBUF_INIT;
struct reftable_writer *wr = NULL;
struct tempfile *tab_file = NULL;
int err = 0;
int tab_fd;
strbuf_reset(&next_name);
format_name(&next_name, add->next_update_index, add->next_update_index);
stack_filename(&temp_tab_file_name, add->stack, next_name.buf);
strbuf_addstr(&temp_tab_file_name, ".temp.XXXXXX");
tab_file = mks_tempfile(temp_tab_file_name.buf);
if (!tab_file) {
err = REFTABLE_IO_ERROR;
goto done;
}
if (add->stack->config.default_permissions) {
if (chmod(get_tempfile_path(tab_file),
add->stack->config.default_permissions)) {
err = REFTABLE_IO_ERROR;
goto done;
}
}
tab_fd = get_tempfile_fd(tab_file);
wr = reftable_new_writer(reftable_fd_write, reftable_fd_flush, &tab_fd,
&add->stack->config);
err = write_table(wr, arg);
if (err < 0)
goto done;
err = reftable_writer_close(wr);
if (err == REFTABLE_EMPTY_TABLE_ERROR) {
err = 0;
goto done;
}
if (err < 0)
goto done;
err = close_tempfile_gently(tab_file);
if (err < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
err = stack_check_addition(add->stack, get_tempfile_path(tab_file));
if (err < 0)
goto done;
if (wr->min_update_index < add->next_update_index) {
err = REFTABLE_API_ERROR;
goto done;
}
format_name(&next_name, wr->min_update_index, wr->max_update_index);
strbuf_addstr(&next_name, ".ref");
stack_filename(&tab_file_name, add->stack, next_name.buf);
/*
On windows, this relies on rand() picking a unique destination name.
Maybe we should do retry loop as well?
*/
err = rename_tempfile(&tab_file, tab_file_name.buf);
if (err < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
REFTABLE_ALLOC_GROW(add->new_tables, add->new_tables_len + 1,
add->new_tables_cap);
add->new_tables[add->new_tables_len++] = strbuf_detach(&next_name, NULL);
done:
delete_tempfile(&tab_file);
strbuf_release(&temp_tab_file_name);
strbuf_release(&tab_file_name);
strbuf_release(&next_name);
reftable_writer_free(wr);
return err;
}
uint64_t reftable_stack_next_update_index(struct reftable_stack *st)
{
int sz = st->merged->stack_len;
if (sz > 0)
return reftable_reader_max_update_index(st->readers[sz - 1]) +
1;
return 1;
}
static int stack_compact_locked(struct reftable_stack *st,
size_t first, size_t last,
struct reftable_log_expiry_config *config,
struct tempfile **tab_file_out)
{
struct strbuf next_name = STRBUF_INIT;
struct strbuf tab_file_path = STRBUF_INIT;
struct reftable_writer *wr = NULL;
struct tempfile *tab_file;
int tab_fd, err = 0;
format_name(&next_name,
reftable_reader_min_update_index(st->readers[first]),
reftable_reader_max_update_index(st->readers[last]));
stack_filename(&tab_file_path, st, next_name.buf);
strbuf_addstr(&tab_file_path, ".temp.XXXXXX");
tab_file = mks_tempfile(tab_file_path.buf);
if (!tab_file) {
err = REFTABLE_IO_ERROR;
goto done;
}
tab_fd = get_tempfile_fd(tab_file);
if (st->config.default_permissions &&
chmod(get_tempfile_path(tab_file), st->config.default_permissions) < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
wr = reftable_new_writer(reftable_fd_write, reftable_fd_flush,
&tab_fd, &st->config);
err = stack_write_compact(st, wr, first, last, config);
if (err < 0)
goto done;
err = reftable_writer_close(wr);
if (err < 0)
goto done;
err = close_tempfile_gently(tab_file);
if (err < 0)
goto done;
*tab_file_out = tab_file;
tab_file = NULL;
done:
delete_tempfile(&tab_file);
reftable_writer_free(wr);
strbuf_release(&next_name);
strbuf_release(&tab_file_path);
return err;
}
static int stack_write_compact(struct reftable_stack *st,
struct reftable_writer *wr,
size_t first, size_t last,
struct reftable_log_expiry_config *config)
{
size_t subtabs_len = last - first + 1;
struct reftable_table *subtabs = reftable_calloc(
last - first + 1, sizeof(*subtabs));
struct reftable_merged_table *mt = NULL;
struct reftable_iterator it = { NULL };
struct reftable_ref_record ref = { NULL };
struct reftable_log_record log = { NULL };
uint64_t entries = 0;
int err = 0;
for (size_t i = first, j = 0; i <= last; i++) {
struct reftable_reader *t = st->readers[i];
reftable_table_from_reader(&subtabs[j++], t);
st->stats.bytes += t->size;
}
reftable_writer_set_limits(wr, st->readers[first]->min_update_index,
st->readers[last]->max_update_index);
err = reftable_new_merged_table(&mt, subtabs, subtabs_len,
st->config.hash_id);
if (err < 0) {
reftable_free(subtabs);
goto done;
}
err = reftable_merged_table_seek_ref(mt, &it, "");
if (err < 0)
goto done;
while (1) {
err = reftable_iterator_next_ref(&it, &ref);
if (err > 0) {
err = 0;
break;
}
if (err < 0)
goto done;
if (first == 0 && reftable_ref_record_is_deletion(&ref)) {
continue;
}
err = reftable_writer_add_ref(wr, &ref);
if (err < 0)
goto done;
entries++;
}
reftable_iterator_destroy(&it);
err = reftable_merged_table_seek_log(mt, &it, "");
if (err < 0)
goto done;
while (1) {
err = reftable_iterator_next_log(&it, &log);
if (err > 0) {
err = 0;
break;
}
if (err < 0)
goto done;
if (first == 0 && reftable_log_record_is_deletion(&log)) {
continue;
}
if (config && config->min_update_index > 0 &&
log.update_index < config->min_update_index) {
continue;
}
if (config && config->time > 0 &&
log.value.update.time < config->time) {
continue;
}
err = reftable_writer_add_log(wr, &log);
if (err < 0)
goto done;
entries++;
}
done:
reftable_iterator_destroy(&it);
if (mt) {
merged_table_release(mt);
reftable_merged_table_free(mt);
}
reftable_ref_record_release(&ref);
reftable_log_record_release(&log);
st->stats.entries_written += entries;
return err;
}
/*
* Compact all tables in the range `[first, last)` into a single new table.
*
* This function returns `0` on success or a code `< 0` on failure. When the
* stack or any of the tables in the specified range are already locked then
* this function returns `REFTABLE_LOCK_ERROR`. This is a benign error that
* callers can either ignore, or they may choose to retry compaction after some
* amount of time.
*/
static int stack_compact_range(struct reftable_stack *st,
size_t first, size_t last,
struct reftable_log_expiry_config *expiry)
{
struct strbuf tables_list_buf = STRBUF_INIT;
struct strbuf new_table_name = STRBUF_INIT;
struct strbuf new_table_path = STRBUF_INIT;
struct strbuf table_name = STRBUF_INIT;
struct lock_file tables_list_lock = LOCK_INIT;
struct lock_file *table_locks = NULL;
struct tempfile *new_table = NULL;
int is_empty_table = 0, err = 0;
size_t i;
if (first > last || (!expiry && first == last)) {
err = 0;
goto done;
}
st->stats.attempts++;
/*
* Hold the lock so that we can read "tables.list" and lock all tables
* which are part of the user-specified range.
*/
err = hold_lock_file_for_update(&tables_list_lock, st->list_file,
LOCK_NO_DEREF);
if (err < 0) {
if (errno == EEXIST)
err = REFTABLE_LOCK_ERROR;
else
err = REFTABLE_IO_ERROR;
goto done;
}
err = stack_uptodate(st);
if (err)
goto done;
/*
* Lock all tables in the user-provided range. This is the slice of our
* stack which we'll compact.
*/
REFTABLE_CALLOC_ARRAY(table_locks, last - first + 1);
for (i = first; i <= last; i++) {
stack_filename(&table_name, st, reader_name(st->readers[i]));
err = hold_lock_file_for_update(&table_locks[i - first],
table_name.buf, LOCK_NO_DEREF);
if (err < 0) {
if (errno == EEXIST)
err = REFTABLE_LOCK_ERROR;
else
err = REFTABLE_IO_ERROR;
goto done;
}
/*
* We need to close the lockfiles as we might otherwise easily
* run into file descriptor exhaustion when we compress a lot
* of tables.
*/
err = close_lock_file_gently(&table_locks[i - first]);
if (err < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
}
/*
* We have locked all tables in our range and can thus release the
* "tables.list" lock while compacting the locked tables. This allows
* concurrent updates to the stack to proceed.
*/
err = rollback_lock_file(&tables_list_lock);
if (err < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
/*
* Compact the now-locked tables into a new table. Note that compacting
* these tables may end up with an empty new table in case tombstones
* end up cancelling out all refs in that range.
*/
err = stack_compact_locked(st, first, last, expiry, &new_table);
if (err < 0) {
if (err != REFTABLE_EMPTY_TABLE_ERROR)
goto done;
is_empty_table = 1;
}
/*
* Now that we have written the new, compacted table we need to re-lock
* "tables.list". We'll then replace the compacted range of tables with
* the new table.
*/
err = hold_lock_file_for_update(&tables_list_lock, st->list_file,
LOCK_NO_DEREF);
if (err < 0) {
if (errno == EEXIST)
err = REFTABLE_LOCK_ERROR;
else
err = REFTABLE_IO_ERROR;
goto done;
}
if (st->config.default_permissions) {
if (chmod(get_lock_file_path(&tables_list_lock),
st->config.default_permissions) < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
}
/*
* If the resulting compacted table is not empty, then we need to move
* it into place now.
*/
if (!is_empty_table) {
format_name(&new_table_name, st->readers[first]->min_update_index,
st->readers[last]->max_update_index);
strbuf_addstr(&new_table_name, ".ref");
stack_filename(&new_table_path, st, new_table_name.buf);
err = rename_tempfile(&new_table, new_table_path.buf);
if (err < 0) {
err = REFTABLE_IO_ERROR;
goto done;
}
}
/*
* Write the new "tables.list" contents with the compacted table we
* have just written. In case the compacted table became empty we
* simply skip writing it.
*/
for (i = 0; i < first; i++)
strbuf_addf(&tables_list_buf, "%s\n", st->readers[i]->name);
if (!is_empty_table)
strbuf_addf(&tables_list_buf, "%s\n", new_table_name.buf);
for (i = last + 1; i < st->merged->stack_len; i++)
strbuf_addf(&tables_list_buf, "%s\n", st->readers[i]->name);
err = write_in_full(get_lock_file_fd(&tables_list_lock),
tables_list_buf.buf, tables_list_buf.len);
if (err < 0) {
err = REFTABLE_IO_ERROR;
unlink(new_table_path.buf);
goto done;
}
err = fsync_component(FSYNC_COMPONENT_REFERENCE, get_lock_file_fd(&tables_list_lock));
if (err < 0) {
err = REFTABLE_IO_ERROR;
unlink(new_table_path.buf);
goto done;
}
err = commit_lock_file(&tables_list_lock);
if (err < 0) {
err = REFTABLE_IO_ERROR;
unlink(new_table_path.buf);
goto done;
}
/*
* Reload the stack before deleting the compacted tables. We can only
* delete the files after we closed them on Windows, so this needs to
* happen first.
*/
err = reftable_stack_reload_maybe_reuse(st, first < last);
if (err < 0)
goto done;
/*
* Delete the old tables. They may still be in use by concurrent
* readers, so it is expected that unlinking tables may fail.
*/
for (i = first; i <= last; i++) {
struct lock_file *table_lock = &table_locks[i - first];
char *table_path = get_locked_file_path(table_lock);
unlink(table_path);
free(table_path);
}
done:
rollback_lock_file(&tables_list_lock);
for (i = first; table_locks && i <= last; i++)
rollback_lock_file(&table_locks[i - first]);
reftable_free(table_locks);
delete_tempfile(&new_table);
strbuf_release(&new_table_name);
strbuf_release(&new_table_path);
strbuf_release(&tables_list_buf);
strbuf_release(&table_name);
return err;
}
int reftable_stack_compact_all(struct reftable_stack *st,
struct reftable_log_expiry_config *config)
{
return stack_compact_range(st, 0, st->merged->stack_len ?
st->merged->stack_len - 1 : 0, config);
}
static int stack_compact_range_stats(struct reftable_stack *st,
size_t first, size_t last,
struct reftable_log_expiry_config *config)
{
int err = stack_compact_range(st, first, last, config);
if (err == REFTABLE_LOCK_ERROR)
st->stats.failures++;
return err;
}
static int segment_size(struct segment *s)
{
return s->end - s->start;
}
struct segment suggest_compaction_segment(uint64_t *sizes, size_t n)
{
struct segment seg = { 0 };
uint64_t bytes;
size_t i;
/*
* If there are no tables or only a single one then we don't have to
* compact anything. The sequence is geometric by definition already.
*/
if (n <= 1)
return seg;
/*
* Find the ending table of the compaction segment needed to restore the
* geometric sequence. Note that the segment end is exclusive.
*
* To do so, we iterate backwards starting from the most recent table
* until a valid segment end is found. If the preceding table is smaller
* than the current table multiplied by the geometric factor (2), the
* compaction segment end has been identified.
*
* Tables after the ending point are not added to the byte count because
* they are already valid members of the geometric sequence. Due to the
* properties of a geometric sequence, it is not possible for the sum of
* these tables to exceed the value of the ending point table.
*
* Example table size sequence requiring no compaction:
* 64, 32, 16, 8, 4, 2, 1
*
* Example table size sequence where compaction segment end is set to
* the last table. Since the segment end is exclusive, the last table is
* excluded during subsequent compaction and the table with size 3 is
* the final table included:
* 64, 32, 16, 8, 4, 3, 1
*/
for (i = n - 1; i > 0; i--) {
if (sizes[i - 1] < sizes[i] * 2) {
seg.end = i + 1;
bytes = sizes[i];
break;
}
}
/*
* Find the starting table of the compaction segment by iterating
* through the remaining tables and keeping track of the accumulated
* size of all tables seen from the segment end table. The previous
* table is compared to the accumulated size because the tables from the
* segment end are merged backwards recursively.
*
* Note that we keep iterating even after we have found the first
* starting point. This is because there may be tables in the stack
* preceding that first starting point which violate the geometric
* sequence.
*
* Example compaction segment start set to table with size 32:
* 128, 32, 16, 8, 4, 3, 1
*/
for (; i > 0; i--) {
uint64_t curr = bytes;
bytes += sizes[i - 1];
if (sizes[i - 1] < curr * 2) {
seg.start = i - 1;
seg.bytes = bytes;
}
}
return seg;
}
static uint64_t *stack_table_sizes_for_compaction(struct reftable_stack *st)
{
uint64_t *sizes =
reftable_calloc(st->merged->stack_len, sizeof(*sizes));
int version = (st->config.hash_id == GIT_SHA1_FORMAT_ID) ? 1 : 2;
int overhead = header_size(version) - 1;
int i = 0;
for (i = 0; i < st->merged->stack_len; i++) {
sizes[i] = st->readers[i]->size - overhead;
}
return sizes;
}
int reftable_stack_auto_compact(struct reftable_stack *st)
{
uint64_t *sizes = stack_table_sizes_for_compaction(st);
struct segment seg =
suggest_compaction_segment(sizes, st->merged->stack_len);
reftable_free(sizes);
if (segment_size(&seg) > 0)
return stack_compact_range_stats(st, seg.start, seg.end - 1,
NULL);
return 0;
}
struct reftable_compaction_stats *
reftable_stack_compaction_stats(struct reftable_stack *st)
{
return &st->stats;
}
int reftable_stack_read_ref(struct reftable_stack *st, const char *refname,
struct reftable_ref_record *ref)
{
struct reftable_table tab = { NULL };
reftable_table_from_merged_table(&tab, reftable_stack_merged_table(st));
return reftable_table_read_ref(&tab, refname, ref);
}
int reftable_stack_read_log(struct reftable_stack *st, const char *refname,
struct reftable_log_record *log)
{
struct reftable_iterator it = { NULL };
struct reftable_merged_table *mt = reftable_stack_merged_table(st);
int err = reftable_merged_table_seek_log(mt, &it, refname);
if (err)
goto done;
err = reftable_iterator_next_log(&it, log);
if (err)
goto done;
if (strcmp(log->refname, refname) ||
reftable_log_record_is_deletion(log)) {
err = 1;
goto done;
}
done:
if (err) {
reftable_log_record_release(log);
}
reftable_iterator_destroy(&it);
return err;
}
static int stack_check_addition(struct reftable_stack *st,
const char *new_tab_name)
{
int err = 0;
struct reftable_block_source src = { NULL };
struct reftable_reader *rd = NULL;
struct reftable_table tab = { NULL };
struct reftable_ref_record *refs = NULL;
struct reftable_iterator it = { NULL };
int cap = 0;
int len = 0;
int i = 0;
if (st->config.skip_name_check)
return 0;
err = reftable_block_source_from_file(&src, new_tab_name);
if (err < 0)
goto done;
err = reftable_new_reader(&rd, &src, new_tab_name);
if (err < 0)
goto done;
err = reftable_reader_seek_ref(rd, &it, "");
if (err > 0) {
err = 0;
goto done;
}
if (err < 0)
goto done;
while (1) {
struct reftable_ref_record ref = { NULL };
err = reftable_iterator_next_ref(&it, &ref);
if (err > 0)
break;
if (err < 0)
goto done;
REFTABLE_ALLOC_GROW(refs, len + 1, cap);
refs[len++] = ref;
}
reftable_table_from_merged_table(&tab, reftable_stack_merged_table(st));
err = validate_ref_record_addition(tab, refs, len);
done:
for (i = 0; i < len; i++) {
reftable_ref_record_release(&refs[i]);
}
free(refs);
reftable_iterator_destroy(&it);
reftable_reader_free(rd);
return err;
}
static int is_table_name(const char *s)
{
const char *dot = strrchr(s, '.');
return dot && !strcmp(dot, ".ref");
}
static void remove_maybe_stale_table(struct reftable_stack *st, uint64_t max,
const char *name)
{
int err = 0;
uint64_t update_idx = 0;
struct reftable_block_source src = { NULL };
struct reftable_reader *rd = NULL;
struct strbuf table_path = STRBUF_INIT;
stack_filename(&table_path, st, name);
err = reftable_block_source_from_file(&src, table_path.buf);
if (err < 0)
goto done;
err = reftable_new_reader(&rd, &src, name);
if (err < 0)
goto done;
update_idx = reftable_reader_max_update_index(rd);
reftable_reader_free(rd);
if (update_idx <= max) {
unlink(table_path.buf);
}
done:
strbuf_release(&table_path);
}
static int reftable_stack_clean_locked(struct reftable_stack *st)
{
uint64_t max = reftable_merged_table_max_update_index(
reftable_stack_merged_table(st));
DIR *dir = opendir(st->reftable_dir);
struct dirent *d = NULL;
if (!dir) {
return REFTABLE_IO_ERROR;
}
while ((d = readdir(dir))) {
int i = 0;
int found = 0;
if (!is_table_name(d->d_name))
continue;
for (i = 0; !found && i < st->readers_len; i++) {
found = !strcmp(reader_name(st->readers[i]), d->d_name);
}
if (found)
continue;
remove_maybe_stale_table(st, max, d->d_name);
}
closedir(dir);
return 0;
}
int reftable_stack_clean(struct reftable_stack *st)
{
struct reftable_addition *add = NULL;
int err = reftable_stack_new_addition(&add, st);
if (err < 0) {
goto done;
}
err = reftable_stack_reload(st);
if (err < 0) {
goto done;
}
err = reftable_stack_clean_locked(st);
done:
reftable_addition_destroy(add);
return err;
}
int reftable_stack_print_directory(const char *stackdir, uint32_t hash_id)
{
struct reftable_stack *stack = NULL;
struct reftable_write_options cfg = { .hash_id = hash_id };
struct reftable_merged_table *merged = NULL;
struct reftable_table table = { NULL };
int err = reftable_new_stack(&stack, stackdir, cfg);
if (err < 0)
goto done;
merged = reftable_stack_merged_table(stack);
reftable_table_from_merged_table(&table, merged);
err = reftable_table_print(&table);
done:
if (stack)
reftable_stack_destroy(stack);
return err;
}
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