/* * git gc builtin command * * Cleanup unreachable files and optimize the repository. * * Copyright (c) 2007 James Bowes * * Based on git-gc.sh, which is * * Copyright (c) 2006 Shawn O. Pearce */ #include "builtin.h" #include "repository.h" #include "config.h" #include "tempfile.h" #include "lockfile.h" #include "parse-options.h" #include "run-command.h" #include "sigchain.h" #include "strvec.h" #include "commit.h" #include "commit-graph.h" #include "packfile.h" #include "object-store.h" #include "pack.h" #include "pack-objects.h" #include "blob.h" #include "tree.h" #include "promisor-remote.h" #include "refs.h" #include "remote.h" #include "exec-cmd.h" #include "hook.h" #define FAILED_RUN "failed to run %s" static const char * const builtin_gc_usage[] = { N_("git gc []"), NULL }; static int pack_refs = 1; static int prune_reflogs = 1; static int cruft_packs = -1; static int aggressive_depth = 50; static int aggressive_window = 250; static int gc_auto_threshold = 6700; static int gc_auto_pack_limit = 50; static int detach_auto = 1; static timestamp_t gc_log_expire_time; static const char *gc_log_expire = "1.day.ago"; static const char *prune_expire = "2.weeks.ago"; static const char *prune_worktrees_expire = "3.months.ago"; static unsigned long big_pack_threshold; static unsigned long max_delta_cache_size = DEFAULT_DELTA_CACHE_SIZE; static struct strvec reflog = STRVEC_INIT; static struct strvec repack = STRVEC_INIT; static struct strvec prune = STRVEC_INIT; static struct strvec prune_worktrees = STRVEC_INIT; static struct strvec rerere = STRVEC_INIT; static struct tempfile *pidfile; static struct lock_file log_lock; static struct string_list pack_garbage = STRING_LIST_INIT_DUP; static void clean_pack_garbage(void) { int i; for (i = 0; i < pack_garbage.nr; i++) unlink_or_warn(pack_garbage.items[i].string); string_list_clear(&pack_garbage, 0); } static void report_pack_garbage(unsigned seen_bits, const char *path) { if (seen_bits == PACKDIR_FILE_IDX) string_list_append(&pack_garbage, path); } static void process_log_file(void) { struct stat st; if (fstat(get_lock_file_fd(&log_lock), &st)) { /* * Perhaps there was an i/o error or another * unlikely situation. Try to make a note of * this in gc.log along with any existing * messages. */ int saved_errno = errno; fprintf(stderr, _("Failed to fstat %s: %s"), get_lock_file_path(&log_lock), strerror(saved_errno)); fflush(stderr); commit_lock_file(&log_lock); errno = saved_errno; } else if (st.st_size) { /* There was some error recorded in the lock file */ commit_lock_file(&log_lock); } else { /* No error, clean up any old gc.log */ unlink(git_path("gc.log")); rollback_lock_file(&log_lock); } } static void process_log_file_at_exit(void) { fflush(stderr); process_log_file(); } static void process_log_file_on_signal(int signo) { process_log_file(); sigchain_pop(signo); raise(signo); } static int gc_config_is_timestamp_never(const char *var) { const char *value; timestamp_t expire; if (!git_config_get_value(var, &value) && value) { if (parse_expiry_date(value, &expire)) die(_("failed to parse '%s' value '%s'"), var, value); return expire == 0; } return 0; } static void gc_config(void) { const char *value; if (!git_config_get_value("gc.packrefs", &value)) { if (value && !strcmp(value, "notbare")) pack_refs = -1; else pack_refs = git_config_bool("gc.packrefs", value); } if (gc_config_is_timestamp_never("gc.reflogexpire") && gc_config_is_timestamp_never("gc.reflogexpireunreachable")) prune_reflogs = 0; git_config_get_int("gc.aggressivewindow", &aggressive_window); git_config_get_int("gc.aggressivedepth", &aggressive_depth); git_config_get_int("gc.auto", &gc_auto_threshold); git_config_get_int("gc.autopacklimit", &gc_auto_pack_limit); git_config_get_bool("gc.autodetach", &detach_auto); git_config_get_bool("gc.cruftpacks", &cruft_packs); git_config_get_expiry("gc.pruneexpire", &prune_expire); git_config_get_expiry("gc.worktreepruneexpire", &prune_worktrees_expire); git_config_get_expiry("gc.logexpiry", &gc_log_expire); git_config_get_ulong("gc.bigpackthreshold", &big_pack_threshold); git_config_get_ulong("pack.deltacachesize", &max_delta_cache_size); git_config(git_default_config, NULL); } struct maintenance_run_opts; static int maintenance_task_pack_refs(MAYBE_UNUSED struct maintenance_run_opts *opts) { struct child_process cmd = CHILD_PROCESS_INIT; cmd.git_cmd = 1; strvec_pushl(&cmd.args, "pack-refs", "--all", "--prune", NULL); return run_command(&cmd); } static int too_many_loose_objects(void) { /* * Quickly check if a "gc" is needed, by estimating how * many loose objects there are. Because SHA-1 is evenly * distributed, we can check only one and get a reasonable * estimate. */ DIR *dir; struct dirent *ent; int auto_threshold; int num_loose = 0; int needed = 0; const unsigned hexsz_loose = the_hash_algo->hexsz - 2; dir = opendir(git_path("objects/17")); if (!dir) return 0; auto_threshold = DIV_ROUND_UP(gc_auto_threshold, 256); while ((ent = readdir(dir)) != NULL) { if (strspn(ent->d_name, "0123456789abcdef") != hexsz_loose || ent->d_name[hexsz_loose] != '\0') continue; if (++num_loose > auto_threshold) { needed = 1; break; } } closedir(dir); return needed; } static struct packed_git *find_base_packs(struct string_list *packs, unsigned long limit) { struct packed_git *p, *base = NULL; for (p = get_all_packs(the_repository); p; p = p->next) { if (!p->pack_local) continue; if (limit) { if (p->pack_size >= limit) string_list_append(packs, p->pack_name); } else if (!base || base->pack_size < p->pack_size) { base = p; } } if (base) string_list_append(packs, base->pack_name); return base; } static int too_many_packs(void) { struct packed_git *p; int cnt; if (gc_auto_pack_limit <= 0) return 0; for (cnt = 0, p = get_all_packs(the_repository); p; p = p->next) { if (!p->pack_local) continue; if (p->pack_keep) continue; /* * Perhaps check the size of the pack and count only * very small ones here? */ cnt++; } return gc_auto_pack_limit < cnt; } static uint64_t total_ram(void) { #if defined(HAVE_SYSINFO) struct sysinfo si; if (!sysinfo(&si)) return si.totalram; #elif defined(HAVE_BSD_SYSCTL) && (defined(HW_MEMSIZE) || defined(HW_PHYSMEM)) int64_t physical_memory; int mib[2]; size_t length; mib[0] = CTL_HW; # if defined(HW_MEMSIZE) mib[1] = HW_MEMSIZE; # else mib[1] = HW_PHYSMEM; # endif length = sizeof(int64_t); if (!sysctl(mib, 2, &physical_memory, &length, NULL, 0)) return physical_memory; #elif defined(GIT_WINDOWS_NATIVE) MEMORYSTATUSEX memInfo; memInfo.dwLength = sizeof(MEMORYSTATUSEX); if (GlobalMemoryStatusEx(&memInfo)) return memInfo.ullTotalPhys; #endif return 0; } static uint64_t estimate_repack_memory(struct packed_git *pack) { unsigned long nr_objects = approximate_object_count(); size_t os_cache, heap; if (!pack || !nr_objects) return 0; /* * First we have to scan through at least one pack. * Assume enough room in OS file cache to keep the entire pack * or we may accidentally evict data of other processes from * the cache. */ os_cache = pack->pack_size + pack->index_size; /* then pack-objects needs lots more for book keeping */ heap = sizeof(struct object_entry) * nr_objects; /* * internal rev-list --all --objects takes up some memory too, * let's say half of it is for blobs */ heap += sizeof(struct blob) * nr_objects / 2; /* * and the other half is for trees (commits and tags are * usually insignificant) */ heap += sizeof(struct tree) * nr_objects / 2; /* and then obj_hash[], underestimated in fact */ heap += sizeof(struct object *) * nr_objects; /* revindex is used also */ heap += (sizeof(off_t) + sizeof(uint32_t)) * nr_objects; /* * read_sha1_file() (either at delta calculation phase, or * writing phase) also fills up the delta base cache */ heap += delta_base_cache_limit; /* and of course pack-objects has its own delta cache */ heap += max_delta_cache_size; return os_cache + heap; } static int keep_one_pack(struct string_list_item *item, void *data UNUSED) { strvec_pushf(&repack, "--keep-pack=%s", basename(item->string)); return 0; } static void add_repack_all_option(struct string_list *keep_pack) { if (prune_expire && !strcmp(prune_expire, "now")) strvec_push(&repack, "-a"); else if (cruft_packs) { strvec_push(&repack, "--cruft"); if (prune_expire) strvec_pushf(&repack, "--cruft-expiration=%s", prune_expire); } else { strvec_push(&repack, "-A"); if (prune_expire) strvec_pushf(&repack, "--unpack-unreachable=%s", prune_expire); } if (keep_pack) for_each_string_list(keep_pack, keep_one_pack, NULL); } static void add_repack_incremental_option(void) { strvec_push(&repack, "--no-write-bitmap-index"); } static int need_to_gc(void) { /* * Setting gc.auto to 0 or negative can disable the * automatic gc. */ if (gc_auto_threshold <= 0) return 0; /* * If there are too many loose objects, but not too many * packs, we run "repack -d -l". If there are too many packs, * we run "repack -A -d -l". Otherwise we tell the caller * there is no need. */ if (too_many_packs()) { struct string_list keep_pack = STRING_LIST_INIT_NODUP; if (big_pack_threshold) { find_base_packs(&keep_pack, big_pack_threshold); if (keep_pack.nr >= gc_auto_pack_limit) { big_pack_threshold = 0; string_list_clear(&keep_pack, 0); find_base_packs(&keep_pack, 0); } } else { struct packed_git *p = find_base_packs(&keep_pack, 0); uint64_t mem_have, mem_want; mem_have = total_ram(); mem_want = estimate_repack_memory(p); /* * Only allow 1/2 of memory for pack-objects, leave * the rest for the OS and other processes in the * system. */ if (!mem_have || mem_want < mem_have / 2) string_list_clear(&keep_pack, 0); } add_repack_all_option(&keep_pack); string_list_clear(&keep_pack, 0); } else if (too_many_loose_objects()) add_repack_incremental_option(); else return 0; if (run_hooks("pre-auto-gc")) return 0; return 1; } /* return NULL on success, else hostname running the gc */ static const char *lock_repo_for_gc(int force, pid_t* ret_pid) { struct lock_file lock = LOCK_INIT; char my_host[HOST_NAME_MAX + 1]; struct strbuf sb = STRBUF_INIT; struct stat st; uintmax_t pid; FILE *fp; int fd; char *pidfile_path; if (is_tempfile_active(pidfile)) /* already locked */ return NULL; if (xgethostname(my_host, sizeof(my_host))) xsnprintf(my_host, sizeof(my_host), "unknown"); pidfile_path = git_pathdup("gc.pid"); fd = hold_lock_file_for_update(&lock, pidfile_path, LOCK_DIE_ON_ERROR); if (!force) { static char locking_host[HOST_NAME_MAX + 1]; static char *scan_fmt; int should_exit; if (!scan_fmt) scan_fmt = xstrfmt("%s %%%ds", "%"SCNuMAX, HOST_NAME_MAX); fp = fopen(pidfile_path, "r"); memset(locking_host, 0, sizeof(locking_host)); should_exit = fp != NULL && !fstat(fileno(fp), &st) && /* * 12 hour limit is very generous as gc should * never take that long. On the other hand we * don't really need a strict limit here, * running gc --auto one day late is not a big * problem. --force can be used in manual gc * after the user verifies that no gc is * running. */ time(NULL) - st.st_mtime <= 12 * 3600 && fscanf(fp, scan_fmt, &pid, locking_host) == 2 && /* be gentle to concurrent "gc" on remote hosts */ (strcmp(locking_host, my_host) || !kill(pid, 0) || errno == EPERM); if (fp) fclose(fp); if (should_exit) { if (fd >= 0) rollback_lock_file(&lock); *ret_pid = pid; free(pidfile_path); return locking_host; } } strbuf_addf(&sb, "%"PRIuMAX" %s", (uintmax_t) getpid(), my_host); write_in_full(fd, sb.buf, sb.len); strbuf_release(&sb); commit_lock_file(&lock); pidfile = register_tempfile(pidfile_path); free(pidfile_path); return NULL; } /* * Returns 0 if there was no previous error and gc can proceed, 1 if * gc should not proceed due to an error in the last run. Prints a * message and returns with a non-[01] status code if an error occurred * while reading gc.log */ static int report_last_gc_error(void) { struct strbuf sb = STRBUF_INIT; int ret = 0; ssize_t len; struct stat st; char *gc_log_path = git_pathdup("gc.log"); if (stat(gc_log_path, &st)) { if (errno == ENOENT) goto done; ret = die_message_errno(_("cannot stat '%s'"), gc_log_path); goto done; } if (st.st_mtime < gc_log_expire_time) goto done; len = strbuf_read_file(&sb, gc_log_path, 0); if (len < 0) ret = die_message_errno(_("cannot read '%s'"), gc_log_path); else if (len > 0) { /* * A previous gc failed. Report the error, and don't * bother with an automatic gc run since it is likely * to fail in the same way. */ warning(_("The last gc run reported the following. " "Please correct the root cause\n" "and remove %s\n" "Automatic cleanup will not be performed " "until the file is removed.\n\n" "%s"), gc_log_path, sb.buf); ret = 1; } strbuf_release(&sb); done: free(gc_log_path); return ret; } static void gc_before_repack(void) { /* * We may be called twice, as both the pre- and * post-daemonized phases will call us, but running these * commands more than once is pointless and wasteful. */ static int done = 0; if (done++) return; if (pack_refs && maintenance_task_pack_refs(NULL)) die(FAILED_RUN, "pack-refs"); if (prune_reflogs) { struct child_process cmd = CHILD_PROCESS_INIT; cmd.git_cmd = 1; strvec_pushv(&cmd.args, reflog.v); if (run_command(&cmd)) die(FAILED_RUN, reflog.v[0]); } } int cmd_gc(int argc, const char **argv, const char *prefix) { int aggressive = 0; int auto_gc = 0; int quiet = 0; int force = 0; const char *name; pid_t pid; int daemonized = 0; int keep_largest_pack = -1; timestamp_t dummy; struct child_process rerere_cmd = CHILD_PROCESS_INIT; struct option builtin_gc_options[] = { OPT__QUIET(&quiet, N_("suppress progress reporting")), { OPTION_STRING, 0, "prune", &prune_expire, N_("date"), N_("prune unreferenced objects"), PARSE_OPT_OPTARG, NULL, (intptr_t)prune_expire }, OPT_BOOL(0, "cruft", &cruft_packs, N_("pack unreferenced objects separately")), OPT_BOOL(0, "aggressive", &aggressive, N_("be more thorough (increased runtime)")), OPT_BOOL_F(0, "auto", &auto_gc, N_("enable auto-gc mode"), PARSE_OPT_NOCOMPLETE), OPT_BOOL_F(0, "force", &force, N_("force running gc even if there may be another gc running"), PARSE_OPT_NOCOMPLETE), OPT_BOOL(0, "keep-largest-pack", &keep_largest_pack, N_("repack all other packs except the largest pack")), OPT_END() }; if (argc == 2 && !strcmp(argv[1], "-h")) usage_with_options(builtin_gc_usage, builtin_gc_options); strvec_pushl(&reflog, "reflog", "expire", "--all", NULL); strvec_pushl(&repack, "repack", "-d", "-l", NULL); strvec_pushl(&prune, "prune", "--expire", NULL); strvec_pushl(&prune_worktrees, "worktree", "prune", "--expire", NULL); strvec_pushl(&rerere, "rerere", "gc", NULL); /* default expiry time, overwritten in gc_config */ gc_config(); if (parse_expiry_date(gc_log_expire, &gc_log_expire_time)) die(_("failed to parse gc.logExpiry value %s"), gc_log_expire); if (pack_refs < 0) pack_refs = !is_bare_repository(); argc = parse_options(argc, argv, prefix, builtin_gc_options, builtin_gc_usage, 0); if (argc > 0) usage_with_options(builtin_gc_usage, builtin_gc_options); if (prune_expire && parse_expiry_date(prune_expire, &dummy)) die(_("failed to parse prune expiry value %s"), prune_expire); prepare_repo_settings(the_repository); if (cruft_packs < 0) cruft_packs = the_repository->settings.gc_cruft_packs; if (aggressive) { strvec_push(&repack, "-f"); if (aggressive_depth > 0) strvec_pushf(&repack, "--depth=%d", aggressive_depth); if (aggressive_window > 0) strvec_pushf(&repack, "--window=%d", aggressive_window); } if (quiet) strvec_push(&repack, "-q"); if (auto_gc) { /* * Auto-gc should be least intrusive as possible. */ if (!need_to_gc()) return 0; if (!quiet) { if (detach_auto) fprintf(stderr, _("Auto packing the repository in background for optimum performance.\n")); else fprintf(stderr, _("Auto packing the repository for optimum performance.\n")); fprintf(stderr, _("See \"git help gc\" for manual housekeeping.\n")); } if (detach_auto) { int ret = report_last_gc_error(); if (ret == 1) /* Last gc --auto failed. Skip this one. */ return 0; else if (ret) /* an I/O error occurred, already reported */ return ret; if (lock_repo_for_gc(force, &pid)) return 0; gc_before_repack(); /* dies on failure */ delete_tempfile(&pidfile); /* * failure to daemonize is ok, we'll continue * in foreground */ daemonized = !daemonize(); } } else { struct string_list keep_pack = STRING_LIST_INIT_NODUP; if (keep_largest_pack != -1) { if (keep_largest_pack) find_base_packs(&keep_pack, 0); } else if (big_pack_threshold) { find_base_packs(&keep_pack, big_pack_threshold); } add_repack_all_option(&keep_pack); string_list_clear(&keep_pack, 0); } name = lock_repo_for_gc(force, &pid); if (name) { if (auto_gc) return 0; /* be quiet on --auto */ die(_("gc is already running on machine '%s' pid %"PRIuMAX" (use --force if not)"), name, (uintmax_t)pid); } if (daemonized) { hold_lock_file_for_update(&log_lock, git_path("gc.log"), LOCK_DIE_ON_ERROR); dup2(get_lock_file_fd(&log_lock), 2); sigchain_push_common(process_log_file_on_signal); atexit(process_log_file_at_exit); } gc_before_repack(); if (!repository_format_precious_objects) { struct child_process repack_cmd = CHILD_PROCESS_INIT; repack_cmd.git_cmd = 1; repack_cmd.close_object_store = 1; strvec_pushv(&repack_cmd.args, repack.v); if (run_command(&repack_cmd)) die(FAILED_RUN, repack.v[0]); if (prune_expire) { struct child_process prune_cmd = CHILD_PROCESS_INIT; /* run `git prune` even if using cruft packs */ strvec_push(&prune, prune_expire); if (quiet) strvec_push(&prune, "--no-progress"); if (has_promisor_remote()) strvec_push(&prune, "--exclude-promisor-objects"); prune_cmd.git_cmd = 1; strvec_pushv(&prune_cmd.args, prune.v); if (run_command(&prune_cmd)) die(FAILED_RUN, prune.v[0]); } } if (prune_worktrees_expire) { struct child_process prune_worktrees_cmd = CHILD_PROCESS_INIT; strvec_push(&prune_worktrees, prune_worktrees_expire); prune_worktrees_cmd.git_cmd = 1; strvec_pushv(&prune_worktrees_cmd.args, prune_worktrees.v); if (run_command(&prune_worktrees_cmd)) die(FAILED_RUN, prune_worktrees.v[0]); } rerere_cmd.git_cmd = 1; strvec_pushv(&rerere_cmd.args, rerere.v); if (run_command(&rerere_cmd)) die(FAILED_RUN, rerere.v[0]); report_garbage = report_pack_garbage; reprepare_packed_git(the_repository); if (pack_garbage.nr > 0) { close_object_store(the_repository->objects); clean_pack_garbage(); } if (the_repository->settings.gc_write_commit_graph == 1) write_commit_graph_reachable(the_repository->objects->odb, !quiet && !daemonized ? COMMIT_GRAPH_WRITE_PROGRESS : 0, NULL); if (auto_gc && too_many_loose_objects()) warning(_("There are too many unreachable loose objects; " "run 'git prune' to remove them.")); if (!daemonized) unlink(git_path("gc.log")); return 0; } static const char *const builtin_maintenance_run_usage[] = { N_("git maintenance run [--auto] [--[no-]quiet] [--task=] [--schedule]"), NULL }; enum schedule_priority { SCHEDULE_NONE = 0, SCHEDULE_WEEKLY = 1, SCHEDULE_DAILY = 2, SCHEDULE_HOURLY = 3, }; static enum schedule_priority parse_schedule(const char *value) { if (!value) return SCHEDULE_NONE; if (!strcasecmp(value, "hourly")) return SCHEDULE_HOURLY; if (!strcasecmp(value, "daily")) return SCHEDULE_DAILY; if (!strcasecmp(value, "weekly")) return SCHEDULE_WEEKLY; return SCHEDULE_NONE; } static int maintenance_opt_schedule(const struct option *opt, const char *arg, int unset) { enum schedule_priority *priority = opt->value; if (unset) die(_("--no-schedule is not allowed")); *priority = parse_schedule(arg); if (!*priority) die(_("unrecognized --schedule argument '%s'"), arg); return 0; } struct maintenance_run_opts { int auto_flag; int quiet; enum schedule_priority schedule; }; /* Remember to update object flag allocation in object.h */ #define SEEN (1u<<0) struct cg_auto_data { int num_not_in_graph; int limit; }; static int dfs_on_ref(const char *refname UNUSED, const struct object_id *oid, int flags UNUSED, void *cb_data) { struct cg_auto_data *data = (struct cg_auto_data *)cb_data; int result = 0; struct object_id peeled; struct commit_list *stack = NULL; struct commit *commit; if (!peel_iterated_oid(oid, &peeled)) oid = &peeled; if (oid_object_info(the_repository, oid, NULL) != OBJ_COMMIT) return 0; commit = lookup_commit(the_repository, oid); if (!commit) return 0; if (parse_commit(commit) || commit_graph_position(commit) != COMMIT_NOT_FROM_GRAPH) return 0; data->num_not_in_graph++; if (data->num_not_in_graph >= data->limit) return 1; commit_list_append(commit, &stack); while (!result && stack) { struct commit_list *parent; commit = pop_commit(&stack); for (parent = commit->parents; parent; parent = parent->next) { if (parse_commit(parent->item) || commit_graph_position(parent->item) != COMMIT_NOT_FROM_GRAPH || parent->item->object.flags & SEEN) continue; parent->item->object.flags |= SEEN; data->num_not_in_graph++; if (data->num_not_in_graph >= data->limit) { result = 1; break; } commit_list_append(parent->item, &stack); } } free_commit_list(stack); return result; } static int should_write_commit_graph(void) { int result; struct cg_auto_data data; data.num_not_in_graph = 0; data.limit = 100; git_config_get_int("maintenance.commit-graph.auto", &data.limit); if (!data.limit) return 0; if (data.limit < 0) return 1; result = for_each_ref(dfs_on_ref, &data); repo_clear_commit_marks(the_repository, SEEN); return result; } static int run_write_commit_graph(struct maintenance_run_opts *opts) { struct child_process child = CHILD_PROCESS_INIT; child.git_cmd = child.close_object_store = 1; strvec_pushl(&child.args, "commit-graph", "write", "--split", "--reachable", NULL); if (opts->quiet) strvec_push(&child.args, "--no-progress"); return !!run_command(&child); } static int maintenance_task_commit_graph(struct maintenance_run_opts *opts) { prepare_repo_settings(the_repository); if (!the_repository->settings.core_commit_graph) return 0; if (run_write_commit_graph(opts)) { error(_("failed to write commit-graph")); return 1; } return 0; } static int fetch_remote(struct remote *remote, void *cbdata) { struct maintenance_run_opts *opts = cbdata; struct child_process child = CHILD_PROCESS_INIT; if (remote->skip_default_update) return 0; child.git_cmd = 1; strvec_pushl(&child.args, "fetch", remote->name, "--prefetch", "--prune", "--no-tags", "--no-write-fetch-head", "--recurse-submodules=no", NULL); if (opts->quiet) strvec_push(&child.args, "--quiet"); return !!run_command(&child); } static int maintenance_task_prefetch(struct maintenance_run_opts *opts) { if (for_each_remote(fetch_remote, opts)) { error(_("failed to prefetch remotes")); return 1; } return 0; } static int maintenance_task_gc(struct maintenance_run_opts *opts) { struct child_process child = CHILD_PROCESS_INIT; child.git_cmd = child.close_object_store = 1; strvec_push(&child.args, "gc"); if (opts->auto_flag) strvec_push(&child.args, "--auto"); if (opts->quiet) strvec_push(&child.args, "--quiet"); else strvec_push(&child.args, "--no-quiet"); return run_command(&child); } static int prune_packed(struct maintenance_run_opts *opts) { struct child_process child = CHILD_PROCESS_INIT; child.git_cmd = 1; strvec_push(&child.args, "prune-packed"); if (opts->quiet) strvec_push(&child.args, "--quiet"); return !!run_command(&child); } struct write_loose_object_data { FILE *in; int count; int batch_size; }; static int loose_object_auto_limit = 100; static int loose_object_count(const struct object_id *oid, const char *path, void *data) { int *count = (int*)data; if (++(*count) >= loose_object_auto_limit) return 1; return 0; } static int loose_object_auto_condition(void) { int count = 0; git_config_get_int("maintenance.loose-objects.auto", &loose_object_auto_limit); if (!loose_object_auto_limit) return 0; if (loose_object_auto_limit < 0) return 1; return for_each_loose_file_in_objdir(the_repository->objects->odb->path, loose_object_count, NULL, NULL, &count); } static int bail_on_loose(const struct object_id *oid, const char *path, void *data) { return 1; } static int write_loose_object_to_stdin(const struct object_id *oid, const char *path, void *data) { struct write_loose_object_data *d = (struct write_loose_object_data *)data; fprintf(d->in, "%s\n", oid_to_hex(oid)); return ++(d->count) > d->batch_size; } static int pack_loose(struct maintenance_run_opts *opts) { struct repository *r = the_repository; int result = 0; struct write_loose_object_data data; struct child_process pack_proc = CHILD_PROCESS_INIT; /* * Do not start pack-objects process * if there are no loose objects. */ if (!for_each_loose_file_in_objdir(r->objects->odb->path, bail_on_loose, NULL, NULL, NULL)) return 0; pack_proc.git_cmd = 1; strvec_push(&pack_proc.args, "pack-objects"); if (opts->quiet) strvec_push(&pack_proc.args, "--quiet"); strvec_pushf(&pack_proc.args, "%s/pack/loose", r->objects->odb->path); pack_proc.in = -1; if (start_command(&pack_proc)) { error(_("failed to start 'git pack-objects' process")); return 1; } data.in = xfdopen(pack_proc.in, "w"); data.count = 0; data.batch_size = 50000; for_each_loose_file_in_objdir(r->objects->odb->path, write_loose_object_to_stdin, NULL, NULL, &data); fclose(data.in); if (finish_command(&pack_proc)) { error(_("failed to finish 'git pack-objects' process")); result = 1; } return result; } static int maintenance_task_loose_objects(struct maintenance_run_opts *opts) { return prune_packed(opts) || pack_loose(opts); } static int incremental_repack_auto_condition(void) { struct packed_git *p; int incremental_repack_auto_limit = 10; int count = 0; prepare_repo_settings(the_repository); if (!the_repository->settings.core_multi_pack_index) return 0; git_config_get_int("maintenance.incremental-repack.auto", &incremental_repack_auto_limit); if (!incremental_repack_auto_limit) return 0; if (incremental_repack_auto_limit < 0) return 1; for (p = get_packed_git(the_repository); count < incremental_repack_auto_limit && p; p = p->next) { if (!p->multi_pack_index) count++; } return count >= incremental_repack_auto_limit; } static int multi_pack_index_write(struct maintenance_run_opts *opts) { struct child_process child = CHILD_PROCESS_INIT; child.git_cmd = 1; strvec_pushl(&child.args, "multi-pack-index", "write", NULL); if (opts->quiet) strvec_push(&child.args, "--no-progress"); if (run_command(&child)) return error(_("failed to write multi-pack-index")); return 0; } static int multi_pack_index_expire(struct maintenance_run_opts *opts) { struct child_process child = CHILD_PROCESS_INIT; child.git_cmd = child.close_object_store = 1; strvec_pushl(&child.args, "multi-pack-index", "expire", NULL); if (opts->quiet) strvec_push(&child.args, "--no-progress"); if (run_command(&child)) return error(_("'git multi-pack-index expire' failed")); return 0; } #define TWO_GIGABYTES (INT32_MAX) static off_t get_auto_pack_size(void) { /* * The "auto" value is special: we optimize for * one large pack-file (i.e. from a clone) and * expect the rest to be small and they can be * repacked quickly. * * The strategy we select here is to select a * size that is one more than the second largest * pack-file. This ensures that we will repack * at least two packs if there are three or more * packs. */ off_t max_size = 0; off_t second_largest_size = 0; off_t result_size; struct packed_git *p; struct repository *r = the_repository; reprepare_packed_git(r); for (p = get_all_packs(r); p; p = p->next) { if (p->pack_size > max_size) { second_largest_size = max_size; max_size = p->pack_size; } else if (p->pack_size > second_largest_size) second_largest_size = p->pack_size; } result_size = second_largest_size + 1; /* But limit ourselves to a batch size of 2g */ if (result_size > TWO_GIGABYTES) result_size = TWO_GIGABYTES; return result_size; } static int multi_pack_index_repack(struct maintenance_run_opts *opts) { struct child_process child = CHILD_PROCESS_INIT; child.git_cmd = child.close_object_store = 1; strvec_pushl(&child.args, "multi-pack-index", "repack", NULL); if (opts->quiet) strvec_push(&child.args, "--no-progress"); strvec_pushf(&child.args, "--batch-size=%"PRIuMAX, (uintmax_t)get_auto_pack_size()); if (run_command(&child)) return error(_("'git multi-pack-index repack' failed")); return 0; } static int maintenance_task_incremental_repack(struct maintenance_run_opts *opts) { prepare_repo_settings(the_repository); if (!the_repository->settings.core_multi_pack_index) { warning(_("skipping incremental-repack task because core.multiPackIndex is disabled")); return 0; } if (multi_pack_index_write(opts)) return 1; if (multi_pack_index_expire(opts)) return 1; if (multi_pack_index_repack(opts)) return 1; return 0; } typedef int maintenance_task_fn(struct maintenance_run_opts *opts); /* * An auto condition function returns 1 if the task should run * and 0 if the task should NOT run. See needs_to_gc() for an * example. */ typedef int maintenance_auto_fn(void); struct maintenance_task { const char *name; maintenance_task_fn *fn; maintenance_auto_fn *auto_condition; unsigned enabled:1; enum schedule_priority schedule; /* -1 if not selected. */ int selected_order; }; enum maintenance_task_label { TASK_PREFETCH, TASK_LOOSE_OBJECTS, TASK_INCREMENTAL_REPACK, TASK_GC, TASK_COMMIT_GRAPH, TASK_PACK_REFS, /* Leave as final value */ TASK__COUNT }; static struct maintenance_task tasks[] = { [TASK_PREFETCH] = { "prefetch", maintenance_task_prefetch, }, [TASK_LOOSE_OBJECTS] = { "loose-objects", maintenance_task_loose_objects, loose_object_auto_condition, }, [TASK_INCREMENTAL_REPACK] = { "incremental-repack", maintenance_task_incremental_repack, incremental_repack_auto_condition, }, [TASK_GC] = { "gc", maintenance_task_gc, need_to_gc, 1, }, [TASK_COMMIT_GRAPH] = { "commit-graph", maintenance_task_commit_graph, should_write_commit_graph, }, [TASK_PACK_REFS] = { "pack-refs", maintenance_task_pack_refs, NULL, }, }; static int compare_tasks_by_selection(const void *a_, const void *b_) { const struct maintenance_task *a = a_; const struct maintenance_task *b = b_; return b->selected_order - a->selected_order; } static int maintenance_run_tasks(struct maintenance_run_opts *opts) { int i, found_selected = 0; int result = 0; struct lock_file lk; struct repository *r = the_repository; char *lock_path = xstrfmt("%s/maintenance", r->objects->odb->path); if (hold_lock_file_for_update(&lk, lock_path, LOCK_NO_DEREF) < 0) { /* * Another maintenance command is running. * * If --auto was provided, then it is likely due to a * recursive process stack. Do not report an error in * that case. */ if (!opts->auto_flag && !opts->quiet) warning(_("lock file '%s' exists, skipping maintenance"), lock_path); free(lock_path); return 0; } free(lock_path); for (i = 0; !found_selected && i < TASK__COUNT; i++) found_selected = tasks[i].selected_order >= 0; if (found_selected) QSORT(tasks, TASK__COUNT, compare_tasks_by_selection); for (i = 0; i < TASK__COUNT; i++) { if (found_selected && tasks[i].selected_order < 0) continue; if (!found_selected && !tasks[i].enabled) continue; if (opts->auto_flag && (!tasks[i].auto_condition || !tasks[i].auto_condition())) continue; if (opts->schedule && tasks[i].schedule < opts->schedule) continue; trace2_region_enter("maintenance", tasks[i].name, r); if (tasks[i].fn(opts)) { error(_("task '%s' failed"), tasks[i].name); result = 1; } trace2_region_leave("maintenance", tasks[i].name, r); } rollback_lock_file(&lk); return result; } static void initialize_maintenance_strategy(void) { char *config_str; if (git_config_get_string("maintenance.strategy", &config_str)) return; if (!strcasecmp(config_str, "incremental")) { tasks[TASK_GC].schedule = SCHEDULE_NONE; tasks[TASK_COMMIT_GRAPH].enabled = 1; tasks[TASK_COMMIT_GRAPH].schedule = SCHEDULE_HOURLY; tasks[TASK_PREFETCH].enabled = 1; tasks[TASK_PREFETCH].schedule = SCHEDULE_HOURLY; tasks[TASK_INCREMENTAL_REPACK].enabled = 1; tasks[TASK_INCREMENTAL_REPACK].schedule = SCHEDULE_DAILY; tasks[TASK_LOOSE_OBJECTS].enabled = 1; tasks[TASK_LOOSE_OBJECTS].schedule = SCHEDULE_DAILY; tasks[TASK_PACK_REFS].enabled = 1; tasks[TASK_PACK_REFS].schedule = SCHEDULE_WEEKLY; } } static void initialize_task_config(int schedule) { int i; struct strbuf config_name = STRBUF_INIT; gc_config(); if (schedule) initialize_maintenance_strategy(); for (i = 0; i < TASK__COUNT; i++) { int config_value; char *config_str; strbuf_reset(&config_name); strbuf_addf(&config_name, "maintenance.%s.enabled", tasks[i].name); if (!git_config_get_bool(config_name.buf, &config_value)) tasks[i].enabled = config_value; strbuf_reset(&config_name); strbuf_addf(&config_name, "maintenance.%s.schedule", tasks[i].name); if (!git_config_get_string(config_name.buf, &config_str)) { tasks[i].schedule = parse_schedule(config_str); free(config_str); } } strbuf_release(&config_name); } static int task_option_parse(const struct option *opt, const char *arg, int unset) { int i, num_selected = 0; struct maintenance_task *task = NULL; BUG_ON_OPT_NEG(unset); for (i = 0; i < TASK__COUNT; i++) { if (tasks[i].selected_order >= 0) num_selected++; if (!strcasecmp(tasks[i].name, arg)) { task = &tasks[i]; } } if (!task) { error(_("'%s' is not a valid task"), arg); return 1; } if (task->selected_order >= 0) { error(_("task '%s' cannot be selected multiple times"), arg); return 1; } task->selected_order = num_selected + 1; return 0; } static int maintenance_run(int argc, const char **argv, const char *prefix) { int i; struct maintenance_run_opts opts; struct option builtin_maintenance_run_options[] = { OPT_BOOL(0, "auto", &opts.auto_flag, N_("run tasks based on the state of the repository")), OPT_CALLBACK(0, "schedule", &opts.schedule, N_("frequency"), N_("run tasks based on frequency"), maintenance_opt_schedule), OPT_BOOL(0, "quiet", &opts.quiet, N_("do not report progress or other information over stderr")), OPT_CALLBACK_F(0, "task", NULL, N_("task"), N_("run a specific task"), PARSE_OPT_NONEG, task_option_parse), OPT_END() }; memset(&opts, 0, sizeof(opts)); opts.quiet = !isatty(2); for (i = 0; i < TASK__COUNT; i++) tasks[i].selected_order = -1; argc = parse_options(argc, argv, prefix, builtin_maintenance_run_options, builtin_maintenance_run_usage, PARSE_OPT_STOP_AT_NON_OPTION); if (opts.auto_flag && opts.schedule) die(_("use at most one of --auto and --schedule=")); initialize_task_config(opts.schedule); if (argc != 0) usage_with_options(builtin_maintenance_run_usage, builtin_maintenance_run_options); return maintenance_run_tasks(&opts); } static char *get_maintpath(void) { struct strbuf sb = STRBUF_INIT; const char *p = the_repository->worktree ? the_repository->worktree : the_repository->gitdir; strbuf_realpath(&sb, p, 1); return strbuf_detach(&sb, NULL); } static char const * const builtin_maintenance_register_usage[] = { "git maintenance register", NULL }; static int maintenance_register(int argc, const char **argv, const char *prefix) { struct option options[] = { OPT_END(), }; int found = 0; const char *key = "maintenance.repo"; char *config_value; char *maintpath = get_maintpath(); struct string_list_item *item; const struct string_list *list; argc = parse_options(argc, argv, prefix, options, builtin_maintenance_register_usage, 0); if (argc) usage_with_options(builtin_maintenance_register_usage, options); /* Disable foreground maintenance */ git_config_set("maintenance.auto", "false"); /* Set maintenance strategy, if unset */ if (!git_config_get_string("maintenance.strategy", &config_value)) free(config_value); else git_config_set("maintenance.strategy", "incremental"); list = git_config_get_value_multi(key); if (list) { for_each_string_list_item(item, list) { if (!strcmp(maintpath, item->string)) { found = 1; break; } } } if (!found) { int rc; char *user_config, *xdg_config; git_global_config(&user_config, &xdg_config); if (!user_config) die(_("$HOME not set")); rc = git_config_set_multivar_in_file_gently( user_config, "maintenance.repo", maintpath, CONFIG_REGEX_NONE, 0); free(user_config); free(xdg_config); if (rc) die(_("unable to add '%s' value of '%s'"), key, maintpath); } free(maintpath); return 0; } static char const * const builtin_maintenance_unregister_usage[] = { "git maintenance unregister [--force]", NULL }; static int maintenance_unregister(int argc, const char **argv, const char *prefix) { int force = 0; struct option options[] = { OPT__FORCE(&force, N_("return success even if repository was not registered"), PARSE_OPT_NOCOMPLETE), OPT_END(), }; const char *key = "maintenance.repo"; char *maintpath = get_maintpath(); int found = 0; struct string_list_item *item; const struct string_list *list; argc = parse_options(argc, argv, prefix, options, builtin_maintenance_unregister_usage, 0); if (argc) usage_with_options(builtin_maintenance_unregister_usage, options); list = git_config_get_value_multi(key); if (list) { for_each_string_list_item(item, list) { if (!strcmp(maintpath, item->string)) { found = 1; break; } } } if (found) { int rc; char *user_config, *xdg_config; git_global_config(&user_config, &xdg_config); if (!user_config) die(_("$HOME not set")); rc = git_config_set_multivar_in_file_gently( user_config, key, NULL, maintpath, CONFIG_FLAGS_MULTI_REPLACE | CONFIG_FLAGS_FIXED_VALUE); free(user_config); free(xdg_config); if (rc && (!force || rc == CONFIG_NOTHING_SET)) die(_("unable to unset '%s' value of '%s'"), key, maintpath); } else if (!force) { die(_("repository '%s' is not registered"), maintpath); } free(maintpath); return 0; } static const char *get_frequency(enum schedule_priority schedule) { switch (schedule) { case SCHEDULE_HOURLY: return "hourly"; case SCHEDULE_DAILY: return "daily"; case SCHEDULE_WEEKLY: return "weekly"; default: BUG("invalid schedule %d", schedule); } } /* * get_schedule_cmd` reads the GIT_TEST_MAINT_SCHEDULER environment variable * to mock the schedulers that `git maintenance start` rely on. * * For test purpose, GIT_TEST_MAINT_SCHEDULER can be set to a comma-separated * list of colon-separated key/value pairs where each pair contains a scheduler * and its corresponding mock. * * * If $GIT_TEST_MAINT_SCHEDULER is not set, return false and leave the * arguments unmodified. * * * If $GIT_TEST_MAINT_SCHEDULER is set, return true. * In this case, the *cmd value is read as input. * * * if the input value *cmd is the key of one of the comma-separated list * item, then *is_available is set to true and *cmd is modified and becomes * the mock command. * * * if the input value *cmd isn’t the key of any of the comma-separated list * item, then *is_available is set to false. * * Ex.: * GIT_TEST_MAINT_SCHEDULER not set * +-------+-------------------------------------------------+ * | Input | Output | * | *cmd | return code | *cmd | *is_available | * +-------+-------------+-------------------+---------------+ * | "foo" | false | "foo" (unchanged) | (unchanged) | * +-------+-------------+-------------------+---------------+ * * GIT_TEST_MAINT_SCHEDULER set to “foo:./mock_foo.sh,bar:./mock_bar.sh” * +-------+-------------------------------------------------+ * | Input | Output | * | *cmd | return code | *cmd | *is_available | * +-------+-------------+-------------------+---------------+ * | "foo" | true | "./mock.foo.sh" | true | * | "qux" | true | "qux" (unchanged) | false | * +-------+-------------+-------------------+---------------+ */ static int get_schedule_cmd(const char **cmd, int *is_available) { char *testing = xstrdup_or_null(getenv("GIT_TEST_MAINT_SCHEDULER")); struct string_list_item *item; struct string_list list = STRING_LIST_INIT_NODUP; if (!testing) return 0; if (is_available) *is_available = 0; string_list_split_in_place(&list, testing, ',', -1); for_each_string_list_item(item, &list) { struct string_list pair = STRING_LIST_INIT_NODUP; if (string_list_split_in_place(&pair, item->string, ':', 2) != 2) continue; if (!strcmp(*cmd, pair.items[0].string)) { *cmd = pair.items[1].string; if (is_available) *is_available = 1; string_list_clear(&list, 0); UNLEAK(testing); return 1; } } string_list_clear(&list, 0); free(testing); return 1; } static int is_launchctl_available(void) { const char *cmd = "launchctl"; int is_available; if (get_schedule_cmd(&cmd, &is_available)) return is_available; #ifdef __APPLE__ return 1; #else return 0; #endif } static char *launchctl_service_name(const char *frequency) { struct strbuf label = STRBUF_INIT; strbuf_addf(&label, "org.git-scm.git.%s", frequency); return strbuf_detach(&label, NULL); } static char *launchctl_service_filename(const char *name) { char *expanded; struct strbuf filename = STRBUF_INIT; strbuf_addf(&filename, "~/Library/LaunchAgents/%s.plist", name); expanded = interpolate_path(filename.buf, 1); if (!expanded) die(_("failed to expand path '%s'"), filename.buf); strbuf_release(&filename); return expanded; } static char *launchctl_get_uid(void) { return xstrfmt("gui/%d", getuid()); } static int launchctl_boot_plist(int enable, const char *filename) { const char *cmd = "launchctl"; int result; struct child_process child = CHILD_PROCESS_INIT; char *uid = launchctl_get_uid(); get_schedule_cmd(&cmd, NULL); strvec_split(&child.args, cmd); strvec_pushl(&child.args, enable ? "bootstrap" : "bootout", uid, filename, NULL); child.no_stderr = 1; child.no_stdout = 1; if (start_command(&child)) die(_("failed to start launchctl")); result = finish_command(&child); free(uid); return result; } static int launchctl_remove_plist(enum schedule_priority schedule) { const char *frequency = get_frequency(schedule); char *name = launchctl_service_name(frequency); char *filename = launchctl_service_filename(name); int result = launchctl_boot_plist(0, filename); unlink(filename); free(filename); free(name); return result; } static int launchctl_remove_plists(void) { return launchctl_remove_plist(SCHEDULE_HOURLY) || launchctl_remove_plist(SCHEDULE_DAILY) || launchctl_remove_plist(SCHEDULE_WEEKLY); } static int launchctl_list_contains_plist(const char *name, const char *cmd) { struct child_process child = CHILD_PROCESS_INIT; strvec_split(&child.args, cmd); strvec_pushl(&child.args, "list", name, NULL); child.no_stderr = 1; child.no_stdout = 1; if (start_command(&child)) die(_("failed to start launchctl")); /* Returns failure if 'name' doesn't exist. */ return !finish_command(&child); } static int launchctl_schedule_plist(const char *exec_path, enum schedule_priority schedule) { int i, fd; const char *preamble, *repeat; const char *frequency = get_frequency(schedule); char *name = launchctl_service_name(frequency); char *filename = launchctl_service_filename(name); struct lock_file lk = LOCK_INIT; static unsigned long lock_file_timeout_ms = ULONG_MAX; struct strbuf plist = STRBUF_INIT, plist2 = STRBUF_INIT; struct stat st; const char *cmd = "launchctl"; get_schedule_cmd(&cmd, NULL); preamble = "\n" "\n" "" "\n" "Label%s\n" "ProgramArguments\n" "\n" "%s/git\n" "--exec-path=%s\n" "for-each-repo\n" "--config=maintenance.repo\n" "maintenance\n" "run\n" "--schedule=%s\n" "\n" "StartCalendarInterval\n" "\n"; strbuf_addf(&plist, preamble, name, exec_path, exec_path, frequency); switch (schedule) { case SCHEDULE_HOURLY: repeat = "\n" "Hour%d\n" "Minute0\n" "\n"; for (i = 1; i <= 23; i++) strbuf_addf(&plist, repeat, i); break; case SCHEDULE_DAILY: repeat = "\n" "Day%d\n" "Hour0\n" "Minute0\n" "\n"; for (i = 1; i <= 6; i++) strbuf_addf(&plist, repeat, i); break; case SCHEDULE_WEEKLY: strbuf_addstr(&plist, "\n" "Day0\n" "Hour0\n" "Minute0\n" "\n"); break; default: /* unreachable */ break; } strbuf_addstr(&plist, "\n\n\n"); if (safe_create_leading_directories(filename)) die(_("failed to create directories for '%s'"), filename); if ((long)lock_file_timeout_ms < 0 && git_config_get_ulong("gc.launchctlplistlocktimeoutms", &lock_file_timeout_ms)) lock_file_timeout_ms = 150; fd = hold_lock_file_for_update_timeout(&lk, filename, LOCK_DIE_ON_ERROR, lock_file_timeout_ms); /* * Does this file already exist? With the intended contents? Is it * registered already? Then it does not need to be re-registered. */ if (!stat(filename, &st) && st.st_size == plist.len && strbuf_read_file(&plist2, filename, plist.len) == plist.len && !strbuf_cmp(&plist, &plist2) && launchctl_list_contains_plist(name, cmd)) rollback_lock_file(&lk); else { if (write_in_full(fd, plist.buf, plist.len) < 0 || commit_lock_file(&lk)) die_errno(_("could not write '%s'"), filename); /* bootout might fail if not already running, so ignore */ launchctl_boot_plist(0, filename); if (launchctl_boot_plist(1, filename)) die(_("failed to bootstrap service %s"), filename); } free(filename); free(name); strbuf_release(&plist); strbuf_release(&plist2); return 0; } static int launchctl_add_plists(void) { const char *exec_path = git_exec_path(); return launchctl_schedule_plist(exec_path, SCHEDULE_HOURLY) || launchctl_schedule_plist(exec_path, SCHEDULE_DAILY) || launchctl_schedule_plist(exec_path, SCHEDULE_WEEKLY); } static int launchctl_update_schedule(int run_maintenance, int fd) { if (run_maintenance) return launchctl_add_plists(); else return launchctl_remove_plists(); } static int is_schtasks_available(void) { const char *cmd = "schtasks"; int is_available; if (get_schedule_cmd(&cmd, &is_available)) return is_available; #ifdef GIT_WINDOWS_NATIVE return 1; #else return 0; #endif } static char *schtasks_task_name(const char *frequency) { struct strbuf label = STRBUF_INIT; strbuf_addf(&label, "Git Maintenance (%s)", frequency); return strbuf_detach(&label, NULL); } static int schtasks_remove_task(enum schedule_priority schedule) { const char *cmd = "schtasks"; struct child_process child = CHILD_PROCESS_INIT; const char *frequency = get_frequency(schedule); char *name = schtasks_task_name(frequency); get_schedule_cmd(&cmd, NULL); strvec_split(&child.args, cmd); strvec_pushl(&child.args, "/delete", "/tn", name, "/f", NULL); free(name); return run_command(&child); } static int schtasks_remove_tasks(void) { return schtasks_remove_task(SCHEDULE_HOURLY) || schtasks_remove_task(SCHEDULE_DAILY) || schtasks_remove_task(SCHEDULE_WEEKLY); } static int schtasks_schedule_task(const char *exec_path, enum schedule_priority schedule) { const char *cmd = "schtasks"; int result; struct child_process child = CHILD_PROCESS_INIT; const char *xml; struct tempfile *tfile; const char *frequency = get_frequency(schedule); char *name = schtasks_task_name(frequency); struct strbuf tfilename = STRBUF_INIT; get_schedule_cmd(&cmd, NULL); strbuf_addf(&tfilename, "%s/schedule_%s_XXXXXX", get_git_common_dir(), frequency); tfile = xmks_tempfile(tfilename.buf); strbuf_release(&tfilename); if (!fdopen_tempfile(tfile, "w")) die(_("failed to create temp xml file")); xml = "\n" "\n" "\n" "\n"; fputs(xml, tfile->fp); switch (schedule) { case SCHEDULE_HOURLY: fprintf(tfile->fp, "2020-01-01T01:00:00\n" "true\n" "\n" "1\n" "\n" "\n" "PT1H\n" "PT23H\n" "false\n" "\n"); break; case SCHEDULE_DAILY: fprintf(tfile->fp, "2020-01-01T00:00:00\n" "true\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "1\n" "\n"); break; case SCHEDULE_WEEKLY: fprintf(tfile->fp, "2020-01-01T00:00:00\n" "true\n" "\n" "\n" "\n" "\n" "1\n" "\n"); break; default: break; } xml = "\n" "\n" "\n" "\n" "InteractiveToken\n" "LeastPrivilege\n" "\n" "\n" "\n" "IgnoreNew\n" "true\n" "true\n" "true\n" "false\n" "PT72H\n" "7\n" "\n" "\n" "\n" "\"%s\\git.exe\"\n" "--exec-path=\"%s\" for-each-repo --config=maintenance.repo maintenance run --schedule=%s\n" "\n" "\n" "\n"; fprintf(tfile->fp, xml, exec_path, exec_path, frequency); strvec_split(&child.args, cmd); strvec_pushl(&child.args, "/create", "/tn", name, "/f", "/xml", get_tempfile_path(tfile), NULL); close_tempfile_gently(tfile); child.no_stdout = 1; child.no_stderr = 1; if (start_command(&child)) die(_("failed to start schtasks")); result = finish_command(&child); delete_tempfile(&tfile); free(name); return result; } static int schtasks_schedule_tasks(void) { const char *exec_path = git_exec_path(); return schtasks_schedule_task(exec_path, SCHEDULE_HOURLY) || schtasks_schedule_task(exec_path, SCHEDULE_DAILY) || schtasks_schedule_task(exec_path, SCHEDULE_WEEKLY); } static int schtasks_update_schedule(int run_maintenance, int fd) { if (run_maintenance) return schtasks_schedule_tasks(); else return schtasks_remove_tasks(); } MAYBE_UNUSED static int check_crontab_process(const char *cmd) { struct child_process child = CHILD_PROCESS_INIT; strvec_split(&child.args, cmd); strvec_push(&child.args, "-l"); child.no_stdin = 1; child.no_stdout = 1; child.no_stderr = 1; child.silent_exec_failure = 1; if (start_command(&child)) return 0; /* Ignore exit code, as an empty crontab will return error. */ finish_command(&child); return 1; } static int is_crontab_available(void) { const char *cmd = "crontab"; int is_available; if (get_schedule_cmd(&cmd, &is_available)) return is_available; #ifdef __APPLE__ /* * macOS has cron, but it requires special permissions and will * create a UI alert when attempting to run this command. */ return 0; #else return check_crontab_process(cmd); #endif } #define BEGIN_LINE "# BEGIN GIT MAINTENANCE SCHEDULE" #define END_LINE "# END GIT MAINTENANCE SCHEDULE" static int crontab_update_schedule(int run_maintenance, int fd) { const char *cmd = "crontab"; int result = 0; int in_old_region = 0; struct child_process crontab_list = CHILD_PROCESS_INIT; struct child_process crontab_edit = CHILD_PROCESS_INIT; FILE *cron_list, *cron_in; struct strbuf line = STRBUF_INIT; struct tempfile *tmpedit = NULL; get_schedule_cmd(&cmd, NULL); strvec_split(&crontab_list.args, cmd); strvec_push(&crontab_list.args, "-l"); crontab_list.in = -1; crontab_list.out = dup(fd); crontab_list.git_cmd = 0; if (start_command(&crontab_list)) return error(_("failed to run 'crontab -l'; your system might not support 'cron'")); /* Ignore exit code, as an empty crontab will return error. */ finish_command(&crontab_list); tmpedit = mks_tempfile_t(".git_cron_edit_tmpXXXXXX"); if (!tmpedit) { result = error(_("failed to create crontab temporary file")); goto out; } cron_in = fdopen_tempfile(tmpedit, "w"); if (!cron_in) { result = error(_("failed to open temporary file")); goto out; } /* * Read from the .lock file, filtering out the old * schedule while appending the new schedule. */ cron_list = fdopen(fd, "r"); rewind(cron_list); while (!strbuf_getline_lf(&line, cron_list)) { if (!in_old_region && !strcmp(line.buf, BEGIN_LINE)) in_old_region = 1; else if (in_old_region && !strcmp(line.buf, END_LINE)) in_old_region = 0; else if (!in_old_region) fprintf(cron_in, "%s\n", line.buf); } strbuf_release(&line); if (run_maintenance) { struct strbuf line_format = STRBUF_INIT; const char *exec_path = git_exec_path(); fprintf(cron_in, "%s\n", BEGIN_LINE); fprintf(cron_in, "# The following schedule was created by Git\n"); fprintf(cron_in, "# Any edits made in this region might be\n"); fprintf(cron_in, "# replaced in the future by a Git command.\n\n"); strbuf_addf(&line_format, "%%s %%s * * %%s \"%s/git\" --exec-path=\"%s\" for-each-repo --config=maintenance.repo maintenance run --schedule=%%s\n", exec_path, exec_path); fprintf(cron_in, line_format.buf, "0", "1-23", "*", "hourly"); fprintf(cron_in, line_format.buf, "0", "0", "1-6", "daily"); fprintf(cron_in, line_format.buf, "0", "0", "0", "weekly"); strbuf_release(&line_format); fprintf(cron_in, "\n%s\n", END_LINE); } fflush(cron_in); strvec_split(&crontab_edit.args, cmd); strvec_push(&crontab_edit.args, get_tempfile_path(tmpedit)); crontab_edit.git_cmd = 0; if (start_command(&crontab_edit)) { result = error(_("failed to run 'crontab'; your system might not support 'cron'")); goto out; } if (finish_command(&crontab_edit)) result = error(_("'crontab' died")); else fclose(cron_list); out: delete_tempfile(&tmpedit); return result; } static int real_is_systemd_timer_available(void) { struct child_process child = CHILD_PROCESS_INIT; strvec_pushl(&child.args, "systemctl", "--user", "list-timers", NULL); child.no_stdin = 1; child.no_stdout = 1; child.no_stderr = 1; child.silent_exec_failure = 1; if (start_command(&child)) return 0; if (finish_command(&child)) return 0; return 1; } static int is_systemd_timer_available(void) { const char *cmd = "systemctl"; int is_available; if (get_schedule_cmd(&cmd, &is_available)) return is_available; return real_is_systemd_timer_available(); } static char *xdg_config_home_systemd(const char *filename) { return xdg_config_home_for("systemd/user", filename); } static int systemd_timer_enable_unit(int enable, enum schedule_priority schedule) { const char *cmd = "systemctl"; struct child_process child = CHILD_PROCESS_INIT; const char *frequency = get_frequency(schedule); /* * Disabling the systemd unit while it is already disabled makes * systemctl print an error. * Let's ignore it since it means we already are in the expected state: * the unit is disabled. * * On the other hand, enabling a systemd unit which is already enabled * produces no error. */ if (!enable) child.no_stderr = 1; get_schedule_cmd(&cmd, NULL); strvec_split(&child.args, cmd); strvec_pushl(&child.args, "--user", enable ? "enable" : "disable", "--now", NULL); strvec_pushf(&child.args, "git-maintenance@%s.timer", frequency); if (start_command(&child)) return error(_("failed to start systemctl")); if (finish_command(&child)) /* * Disabling an already disabled systemd unit makes * systemctl fail. * Let's ignore this failure. * * Enabling an enabled systemd unit doesn't fail. */ if (enable) return error(_("failed to run systemctl")); return 0; } static int systemd_timer_delete_unit_templates(void) { int ret = 0; char *filename = xdg_config_home_systemd("git-maintenance@.timer"); if (unlink(filename) && !is_missing_file_error(errno)) ret = error_errno(_("failed to delete '%s'"), filename); FREE_AND_NULL(filename); filename = xdg_config_home_systemd("git-maintenance@.service"); if (unlink(filename) && !is_missing_file_error(errno)) ret = error_errno(_("failed to delete '%s'"), filename); free(filename); return ret; } static int systemd_timer_delete_units(void) { return systemd_timer_enable_unit(0, SCHEDULE_HOURLY) || systemd_timer_enable_unit(0, SCHEDULE_DAILY) || systemd_timer_enable_unit(0, SCHEDULE_WEEKLY) || systemd_timer_delete_unit_templates(); } static int systemd_timer_write_unit_templates(const char *exec_path) { char *filename; FILE *file; const char *unit; filename = xdg_config_home_systemd("git-maintenance@.timer"); if (safe_create_leading_directories(filename)) { error(_("failed to create directories for '%s'"), filename); goto error; } file = fopen_or_warn(filename, "w"); if (!file) goto error; unit = "# This file was created and is maintained by Git.\n" "# Any edits made in this file might be replaced in the future\n" "# by a Git command.\n" "\n" "[Unit]\n" "Description=Optimize Git repositories data\n" "\n" "[Timer]\n" "OnCalendar=%i\n" "Persistent=true\n" "\n" "[Install]\n" "WantedBy=timers.target\n"; if (fputs(unit, file) == EOF) { error(_("failed to write to '%s'"), filename); fclose(file); goto error; } if (fclose(file) == EOF) { error_errno(_("failed to flush '%s'"), filename); goto error; } free(filename); filename = xdg_config_home_systemd("git-maintenance@.service"); file = fopen_or_warn(filename, "w"); if (!file) goto error; unit = "# This file was created and is maintained by Git.\n" "# Any edits made in this file might be replaced in the future\n" "# by a Git command.\n" "\n" "[Unit]\n" "Description=Optimize Git repositories data\n" "\n" "[Service]\n" "Type=oneshot\n" "ExecStart=\"%s/git\" --exec-path=\"%s\" for-each-repo --config=maintenance.repo maintenance run --schedule=%%i\n" "LockPersonality=yes\n" "MemoryDenyWriteExecute=yes\n" "NoNewPrivileges=yes\n" "RestrictAddressFamilies=AF_UNIX AF_INET AF_INET6\n" "RestrictNamespaces=yes\n" "RestrictRealtime=yes\n" "RestrictSUIDSGID=yes\n" "SystemCallArchitectures=native\n" "SystemCallFilter=@system-service\n"; if (fprintf(file, unit, exec_path, exec_path) < 0) { error(_("failed to write to '%s'"), filename); fclose(file); goto error; } if (fclose(file) == EOF) { error_errno(_("failed to flush '%s'"), filename); goto error; } free(filename); return 0; error: free(filename); systemd_timer_delete_unit_templates(); return -1; } static int systemd_timer_setup_units(void) { const char *exec_path = git_exec_path(); int ret = systemd_timer_write_unit_templates(exec_path) || systemd_timer_enable_unit(1, SCHEDULE_HOURLY) || systemd_timer_enable_unit(1, SCHEDULE_DAILY) || systemd_timer_enable_unit(1, SCHEDULE_WEEKLY); if (ret) systemd_timer_delete_units(); return ret; } static int systemd_timer_update_schedule(int run_maintenance, int fd) { if (run_maintenance) return systemd_timer_setup_units(); else return systemd_timer_delete_units(); } enum scheduler { SCHEDULER_INVALID = -1, SCHEDULER_AUTO, SCHEDULER_CRON, SCHEDULER_SYSTEMD, SCHEDULER_LAUNCHCTL, SCHEDULER_SCHTASKS, }; static const struct { const char *name; int (*is_available)(void); int (*update_schedule)(int run_maintenance, int fd); } scheduler_fn[] = { [SCHEDULER_CRON] = { .name = "crontab", .is_available = is_crontab_available, .update_schedule = crontab_update_schedule, }, [SCHEDULER_SYSTEMD] = { .name = "systemctl", .is_available = is_systemd_timer_available, .update_schedule = systemd_timer_update_schedule, }, [SCHEDULER_LAUNCHCTL] = { .name = "launchctl", .is_available = is_launchctl_available, .update_schedule = launchctl_update_schedule, }, [SCHEDULER_SCHTASKS] = { .name = "schtasks", .is_available = is_schtasks_available, .update_schedule = schtasks_update_schedule, }, }; static enum scheduler parse_scheduler(const char *value) { if (!value) return SCHEDULER_INVALID; else if (!strcasecmp(value, "auto")) return SCHEDULER_AUTO; else if (!strcasecmp(value, "cron") || !strcasecmp(value, "crontab")) return SCHEDULER_CRON; else if (!strcasecmp(value, "systemd") || !strcasecmp(value, "systemd-timer")) return SCHEDULER_SYSTEMD; else if (!strcasecmp(value, "launchctl")) return SCHEDULER_LAUNCHCTL; else if (!strcasecmp(value, "schtasks")) return SCHEDULER_SCHTASKS; else return SCHEDULER_INVALID; } static int maintenance_opt_scheduler(const struct option *opt, const char *arg, int unset) { enum scheduler *scheduler = opt->value; BUG_ON_OPT_NEG(unset); *scheduler = parse_scheduler(arg); if (*scheduler == SCHEDULER_INVALID) return error(_("unrecognized --scheduler argument '%s'"), arg); return 0; } struct maintenance_start_opts { enum scheduler scheduler; }; static enum scheduler resolve_scheduler(enum scheduler scheduler) { if (scheduler != SCHEDULER_AUTO) return scheduler; #if defined(__APPLE__) return SCHEDULER_LAUNCHCTL; #elif defined(GIT_WINDOWS_NATIVE) return SCHEDULER_SCHTASKS; #elif defined(__linux__) if (is_systemd_timer_available()) return SCHEDULER_SYSTEMD; else if (is_crontab_available()) return SCHEDULER_CRON; else die(_("neither systemd timers nor crontab are available")); #else return SCHEDULER_CRON; #endif } static void validate_scheduler(enum scheduler scheduler) { if (scheduler == SCHEDULER_INVALID) BUG("invalid scheduler"); if (scheduler == SCHEDULER_AUTO) BUG("resolve_scheduler should have been called before"); if (!scheduler_fn[scheduler].is_available()) die(_("%s scheduler is not available"), scheduler_fn[scheduler].name); } static int update_background_schedule(const struct maintenance_start_opts *opts, int enable) { unsigned int i; int result = 0; struct lock_file lk; char *lock_path = xstrfmt("%s/schedule", the_repository->objects->odb->path); if (hold_lock_file_for_update(&lk, lock_path, LOCK_NO_DEREF) < 0) { free(lock_path); return error(_("another process is scheduling background maintenance")); } for (i = 1; i < ARRAY_SIZE(scheduler_fn); i++) { if (enable && opts->scheduler == i) continue; if (!scheduler_fn[i].is_available()) continue; scheduler_fn[i].update_schedule(0, get_lock_file_fd(&lk)); } if (enable) result = scheduler_fn[opts->scheduler].update_schedule( 1, get_lock_file_fd(&lk)); rollback_lock_file(&lk); free(lock_path); return result; } static const char *const builtin_maintenance_start_usage[] = { N_("git maintenance start [--scheduler=]"), NULL }; static int maintenance_start(int argc, const char **argv, const char *prefix) { struct maintenance_start_opts opts = { 0 }; struct option options[] = { OPT_CALLBACK_F( 0, "scheduler", &opts.scheduler, N_("scheduler"), N_("scheduler to trigger git maintenance run"), PARSE_OPT_NONEG, maintenance_opt_scheduler), OPT_END() }; const char *register_args[] = { "register", NULL }; argc = parse_options(argc, argv, prefix, options, builtin_maintenance_start_usage, 0); if (argc) usage_with_options(builtin_maintenance_start_usage, options); opts.scheduler = resolve_scheduler(opts.scheduler); validate_scheduler(opts.scheduler); if (maintenance_register(ARRAY_SIZE(register_args)-1, register_args, NULL)) warning(_("failed to add repo to global config")); return update_background_schedule(&opts, 1); } static const char *const builtin_maintenance_stop_usage[] = { "git maintenance stop", NULL }; static int maintenance_stop(int argc, const char **argv, const char *prefix) { struct option options[] = { OPT_END() }; argc = parse_options(argc, argv, prefix, options, builtin_maintenance_stop_usage, 0); if (argc) usage_with_options(builtin_maintenance_stop_usage, options); return update_background_schedule(NULL, 0); } static const char * const builtin_maintenance_usage[] = { N_("git maintenance []"), NULL, }; int cmd_maintenance(int argc, const char **argv, const char *prefix) { parse_opt_subcommand_fn *fn = NULL; struct option builtin_maintenance_options[] = { OPT_SUBCOMMAND("run", &fn, maintenance_run), OPT_SUBCOMMAND("start", &fn, maintenance_start), OPT_SUBCOMMAND("stop", &fn, maintenance_stop), OPT_SUBCOMMAND("register", &fn, maintenance_register), OPT_SUBCOMMAND("unregister", &fn, maintenance_unregister), OPT_END(), }; argc = parse_options(argc, argv, prefix, builtin_maintenance_options, builtin_maintenance_usage, 0); return fn(argc, argv, prefix); }