/* 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 "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" 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, int first, int 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(*fdp, data, sz); } int reftable_new_stack(struct reftable_stack **dest, const char *dir, struct reftable_write_options config) { struct reftable_stack *p = reftable_calloc(sizeof(struct reftable_stack)); 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->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; } buf = reftable_malloc(size + 1); if (read(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) { *namesp = reftable_calloc(sizeof(char *)); 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); } 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(sizeof(struct reftable_reader *) * cur_len); 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) { int cur_len = !st->merged ? 0 : st->merged->stack_len; struct reftable_reader **cur = stack_copy_readers(st, cur_len); int err = 0; int names_len = names_length(names); struct reftable_reader **new_readers = reftable_calloc(sizeof(struct reftable_reader *) * names_len); struct reftable_table *new_tables = reftable_calloc(sizeof(struct reftable_table) * names_len); int new_readers_len = 0; struct reftable_merged_table *new_merged = NULL; int 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. */ int j = 0; for (j = 0; reuse_open && j < cur_len; j++) { if (cur[j] && 0 == strcmp(cur[j]->name, name)) { rd = cur[j]; cur[j] = NULL; break; } } if (!rd) { struct reftable_block_source src = { NULL }; struct strbuf table_path = STRBUF_INIT; stack_filename(&table_path, st, name); err = reftable_block_source_from_file(&src, table_path.buf); strbuf_release(&table_path); 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]); struct strbuf filename = STRBUF_INIT; stack_filename(&filename, st, name); reader_close(cur[i]); reftable_reader_free(cur[i]); /* On Windows, can only unlink after closing. */ unlink(filename.buf); strbuf_release(&filename); } } 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); 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) { struct timeval deadline = { 0 }; int err = gettimeofday(&deadline, NULL); int64_t delay = 0; int tries = 0; if (err < 0) return err; deadline.tv_sec += 3; while (1) { char **names = NULL; char **names_after = NULL; struct timeval now = { 0 }; int err = gettimeofday(&now, NULL); int err2 = 0; if (err < 0) { return err; } /* Only look at deadlines after the first few times. This simplifies debugging in GDB */ tries++; if (tries > 3 && tv_cmp(&now, &deadline) >= 0) { break; } err = read_lines(st->list_file, &names); if (err < 0) { free_names(names); return err; } err = reftable_stack_reload_once(st, names, reuse_open); if (err == 0) { free_names(names); break; } if (err != REFTABLE_NOT_EXIST_ERROR) { free_names(names); return err; } /* err == REFTABLE_NOT_EXIST_ERROR can be caused by a concurrent writer. Check if there was one by checking if the name list changed. */ err2 = read_lines(st->list_file, &names_after); if (err2 < 0) { free_names(names); return err2; } if (names_equal(names_after, names)) { free_names(names); free_names(names_after); return err; } free_names(names); free_names(names_after); delay = delay + (delay * rand()) / RAND_MAX + 1; sleep_millisec(delay); } return 0; } /* -1 = error 0 = up to date 1 = changed. */ static int stack_uptodate(struct reftable_stack *st) { char **names = NULL; int err = read_lines(st->list_file, &names); int i = 0; 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_LOCK_ERROR) { /* Ignore error return, we want to propagate REFTABLE_LOCK_ERROR. */ reftable_stack_reload(st); } return err; } if (!st->disable_auto_compact) return reftable_stack_auto_compact(st); return 0; } static void format_name(struct strbuf *dest, uint64_t min, uint64_t max) { char buf[100]; uint32_t rnd = (uint32_t)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 { int lock_file_fd; struct strbuf lock_file_name; struct reftable_stack *stack; char **new_tables; int new_tables_len; uint64_t next_update_index; }; #define REFTABLE_ADDITION_INIT \ { \ .lock_file_name = STRBUF_INIT \ } static int reftable_stack_init_addition(struct reftable_addition *add, struct reftable_stack *st) { int err = 0; add->stack = st; strbuf_reset(&add->lock_file_name); strbuf_addstr(&add->lock_file_name, st->list_file); strbuf_addstr(&add->lock_file_name, ".lock"); add->lock_file_fd = open(add->lock_file_name.buf, O_EXCL | O_CREAT | O_WRONLY, 0644); if (add->lock_file_fd < 0) { if (errno == EEXIST) { err = REFTABLE_LOCK_ERROR; } else { err = REFTABLE_IO_ERROR; } goto done; } err = stack_uptodate(st); if (err < 0) goto done; if (err > 1) { err = REFTABLE_LOCK_ERROR; goto done; } add->next_update_index = reftable_stack_next_update_index(st); done: if (err) { reftable_addition_close(add); } return err; } static void reftable_addition_close(struct reftable_addition *add) { int i = 0; struct strbuf nm = STRBUF_INIT; 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; if (add->lock_file_fd > 0) { close(add->lock_file_fd); add->lock_file_fd = 0; } if (add->lock_file_name.len > 0) { unlink(add->lock_file_name.buf); strbuf_release(&add->lock_file_name); } 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 i = 0; int err = 0; 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(add->lock_file_fd, table_list.buf, table_list.len); strbuf_release(&table_list); if (err < 0) { err = REFTABLE_IO_ERROR; goto done; } err = close(add->lock_file_fd); add->lock_file_fd = 0; if (err < 0) { err = REFTABLE_IO_ERROR; goto done; } err = rename(add->lock_file_name.buf, add->stack->list_file); if (err < 0) { err = REFTABLE_IO_ERROR; goto done; } /* success, no more state to clean up. */ strbuf_release(&add->lock_file_name); 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; err = reftable_stack_reload(add->stack); 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; *dest = reftable_calloc(sizeof(**dest)); **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; if (err > 0) { err = REFTABLE_LOCK_ERROR; 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; int err = 0; int tab_fd = 0; 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_fd = mkstemp(temp_tab_file_name.buf); if (tab_fd < 0) { err = REFTABLE_IO_ERROR; goto done; } wr = reftable_new_writer(reftable_fd_write, &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(tab_fd); tab_fd = 0; if (err < 0) { err = REFTABLE_IO_ERROR; goto done; } err = stack_check_addition(add->stack, temp_tab_file_name.buf); 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(temp_tab_file_name.buf, tab_file_name.buf); if (err < 0) { err = REFTABLE_IO_ERROR; goto done; } add->new_tables = reftable_realloc(add->new_tables, sizeof(*add->new_tables) * (add->new_tables_len + 1)); add->new_tables[add->new_tables_len] = strbuf_detach(&next_name, NULL); add->new_tables_len++; done: if (tab_fd > 0) { close(tab_fd); tab_fd = 0; } if (temp_tab_file_name.len > 0) { unlink(temp_tab_file_name.buf); } 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, int first, int last, struct strbuf *temp_tab, struct reftable_log_expiry_config *config) { struct strbuf next_name = STRBUF_INIT; int tab_fd = -1; struct reftable_writer *wr = NULL; int err = 0; format_name(&next_name, reftable_reader_min_update_index(st->readers[first]), reftable_reader_max_update_index(st->readers[last])); stack_filename(temp_tab, st, next_name.buf); strbuf_addstr(temp_tab, ".temp.XXXXXX"); tab_fd = mkstemp(temp_tab->buf); wr = reftable_new_writer(reftable_fd_write, &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(tab_fd); tab_fd = 0; done: reftable_writer_free(wr); if (tab_fd > 0) { close(tab_fd); tab_fd = 0; } if (err != 0 && temp_tab->len > 0) { unlink(temp_tab->buf); strbuf_release(temp_tab); } strbuf_release(&next_name); return err; } static int stack_write_compact(struct reftable_stack *st, struct reftable_writer *wr, int first, int last, struct reftable_log_expiry_config *config) { int subtabs_len = last - first + 1; struct reftable_table *subtabs = reftable_calloc( sizeof(struct reftable_table) * (last - first + 1)); struct reftable_merged_table *mt = NULL; int err = 0; struct reftable_iterator it = { NULL }; struct reftable_ref_record ref = { NULL }; struct reftable_log_record log = { NULL }; uint64_t entries = 0; int i = 0, j = 0; for (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) { break; } if (first == 0 && reftable_ref_record_is_deletion(&ref)) { continue; } err = reftable_writer_add_ref(wr, &ref); if (err < 0) { break; } 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) { break; } 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) { break; } 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; } /* < 0: error. 0 == OK, > 0 attempt failed; could retry. */ static int stack_compact_range(struct reftable_stack *st, int first, int last, struct reftable_log_expiry_config *expiry) { struct strbuf temp_tab_file_name = STRBUF_INIT; struct strbuf new_table_name = STRBUF_INIT; struct strbuf lock_file_name = STRBUF_INIT; struct strbuf ref_list_contents = STRBUF_INIT; struct strbuf new_table_path = STRBUF_INIT; int err = 0; int have_lock = 0; int lock_file_fd = 0; int compact_count = last - first + 1; char **listp = NULL; char **delete_on_success = reftable_calloc(sizeof(char *) * (compact_count + 1)); char **subtable_locks = reftable_calloc(sizeof(char *) * (compact_count + 1)); int i = 0; int j = 0; int is_empty_table = 0; if (first > last || (!expiry && first == last)) { err = 0; goto done; } st->stats.attempts++; strbuf_reset(&lock_file_name); strbuf_addstr(&lock_file_name, st->list_file); strbuf_addstr(&lock_file_name, ".lock"); lock_file_fd = open(lock_file_name.buf, O_EXCL | O_CREAT | O_WRONLY, 0644); if (lock_file_fd < 0) { if (errno == EEXIST) { err = 1; } else { err = REFTABLE_IO_ERROR; } goto done; } /* Don't want to write to the lock for now. */ close(lock_file_fd); lock_file_fd = 0; have_lock = 1; err = stack_uptodate(st); if (err != 0) goto done; for (i = first, j = 0; i <= last; i++) { struct strbuf subtab_file_name = STRBUF_INIT; struct strbuf subtab_lock = STRBUF_INIT; int sublock_file_fd = -1; stack_filename(&subtab_file_name, st, reader_name(st->readers[i])); strbuf_reset(&subtab_lock); strbuf_addbuf(&subtab_lock, &subtab_file_name); strbuf_addstr(&subtab_lock, ".lock"); sublock_file_fd = open(subtab_lock.buf, O_EXCL | O_CREAT | O_WRONLY, 0644); if (sublock_file_fd > 0) { close(sublock_file_fd); } else if (sublock_file_fd < 0) { if (errno == EEXIST) { err = 1; } else { err = REFTABLE_IO_ERROR; } } subtable_locks[j] = subtab_lock.buf; delete_on_success[j] = subtab_file_name.buf; j++; if (err != 0) goto done; } err = unlink(lock_file_name.buf); if (err < 0) goto done; have_lock = 0; err = stack_compact_locked(st, first, last, &temp_tab_file_name, expiry); /* Compaction + tombstones can create an empty table out of non-empty * tables. */ is_empty_table = (err == REFTABLE_EMPTY_TABLE_ERROR); if (is_empty_table) { err = 0; } if (err < 0) goto done; lock_file_fd = open(lock_file_name.buf, O_EXCL | O_CREAT | O_WRONLY, 0644); if (lock_file_fd < 0) { if (errno == EEXIST) { err = 1; } else { err = REFTABLE_IO_ERROR; } goto done; } have_lock = 1; 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); if (!is_empty_table) { /* retry? */ err = rename(temp_tab_file_name.buf, new_table_path.buf); if (err < 0) { err = REFTABLE_IO_ERROR; goto done; } } for (i = 0; i < first; i++) { strbuf_addstr(&ref_list_contents, st->readers[i]->name); strbuf_addstr(&ref_list_contents, "\n"); } if (!is_empty_table) { strbuf_addbuf(&ref_list_contents, &new_table_name); strbuf_addstr(&ref_list_contents, "\n"); } for (i = last + 1; i < st->merged->stack_len; i++) { strbuf_addstr(&ref_list_contents, st->readers[i]->name); strbuf_addstr(&ref_list_contents, "\n"); } err = write(lock_file_fd, ref_list_contents.buf, ref_list_contents.len); if (err < 0) { err = REFTABLE_IO_ERROR; unlink(new_table_path.buf); goto done; } err = close(lock_file_fd); lock_file_fd = 0; if (err < 0) { err = REFTABLE_IO_ERROR; unlink(new_table_path.buf); goto done; } err = rename(lock_file_name.buf, st->list_file); if (err < 0) { err = REFTABLE_IO_ERROR; unlink(new_table_path.buf); goto done; } have_lock = 0; /* Reload the stack before deleting. On windows, we can only delete the files after we closed them. */ err = reftable_stack_reload_maybe_reuse(st, first < last); listp = delete_on_success; while (*listp) { if (strcmp(*listp, new_table_path.buf)) { unlink(*listp); } listp++; } done: free_names(delete_on_success); listp = subtable_locks; while (*listp) { unlink(*listp); listp++; } free_names(subtable_locks); if (lock_file_fd > 0) { close(lock_file_fd); lock_file_fd = 0; } if (have_lock) { unlink(lock_file_name.buf); } strbuf_release(&new_table_name); strbuf_release(&new_table_path); strbuf_release(&ref_list_contents); strbuf_release(&temp_tab_file_name); strbuf_release(&lock_file_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 - 1, config); } static int stack_compact_range_stats(struct reftable_stack *st, int first, int last, struct reftable_log_expiry_config *config) { int err = stack_compact_range(st, first, last, config); if (err > 0) { st->stats.failures++; } return err; } static int segment_size(struct segment *s) { return s->end - s->start; } int fastlog2(uint64_t sz) { int l = 0; if (sz == 0) return 0; for (; sz; sz /= 2) { l++; } return l - 1; } struct segment *sizes_to_segments(int *seglen, uint64_t *sizes, int n) { struct segment *segs = reftable_calloc(sizeof(struct segment) * n); int next = 0; struct segment cur = { 0 }; int i = 0; if (n == 0) { *seglen = 0; return segs; } for (i = 0; i < n; i++) { int log = fastlog2(sizes[i]); if (cur.log != log && cur.bytes > 0) { struct segment fresh = { .start = i, }; segs[next++] = cur; cur = fresh; } cur.log = log; cur.end = i + 1; cur.bytes += sizes[i]; } segs[next++] = cur; *seglen = next; return segs; } struct segment suggest_compaction_segment(uint64_t *sizes, int n) { int seglen = 0; struct segment *segs = sizes_to_segments(&seglen, sizes, n); struct segment min_seg = { .log = 64, }; int i = 0; for (i = 0; i < seglen; i++) { if (segment_size(&segs[i]) == 1) { continue; } if (segs[i].log < min_seg.log) { min_seg = segs[i]; } } while (min_seg.start > 0) { int prev = min_seg.start - 1; if (fastlog2(min_seg.bytes) < fastlog2(sizes[prev])) { break; } min_seg.start = prev; min_seg.bytes += sizes[prev]; } reftable_free(segs); return min_seg; } static uint64_t *stack_table_sizes_for_compaction(struct reftable_stack *st) { uint64_t *sizes = reftable_calloc(sizeof(uint64_t) * st->merged->stack_len); 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; if (len >= cap) { cap = 2 * cap + 1; refs = reftable_realloc(refs, cap * sizeof(refs[0])); } 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; }