// (c) 2010 Thomas Schoebel-Theuer / 1&1 Internet AG // Client brick (just for demonstration) //#define BRICK_DEBUGGING //#define MARS_DEBUGGING //#define IO_DEBUGGING #include #include #include #include "mars.h" ///////////////////////// own type definitions //////////////////////// #include "mars_client.h" #define CLIENT_HASH_MAX (PAGE_SIZE / sizeof(struct list_head)) ///////////////////////// own helper functions //////////////////////// static int thread_count = 0; static void _kill_thread(struct client_threadinfo *ti, const char *name) { if (ti->thread) { MARS_DBG("stopping %s thread\n", name); brick_thread_stop(ti->thread); ti->thread = NULL; } } static void _kill_socket(struct client_output *output) { output->brick->connection_state = 1; if (mars_socket_is_alive(&output->socket)) { MARS_DBG("shutdown socket\n"); mars_shutdown_socket(&output->socket); } _kill_thread(&output->receiver, "receiver"); output->recv_error = 0; MARS_DBG("close socket\n"); mars_put_socket(&output->socket); } static int _request_info(struct client_output *output) { struct mars_cmd cmd = { .cmd_code = CMD_GETINFO, }; int status; MARS_DBG("\n"); status = mars_send_struct(&output->socket, &cmd, mars_cmd_meta); if (unlikely(status < 0)) { MARS_DBG("send of getinfo failed, status = %d\n", status); } return status; } static int receiver_thread(void *data); static int _connect(struct client_output *output, const char *str) { struct sockaddr_storage sockaddr = {}; int status; if (unlikely(!output->path)) { output->path = brick_strdup(str); status = -ENOMEM; if (!output->path) { MARS_DBG("no mem\n"); goto done; } status = -EINVAL; output->host = strchr(output->path, '@'); if (!output->host) { brick_string_free(output->path); output->path = NULL; MARS_ERR("parameter string '%s' contains no remote specifier with '@'-syntax\n", str); goto done; } *output->host++ = '\0'; } if (unlikely(output->receiver.thread)) { MARS_WRN("receiver thread unexpectedly not dead\n"); _kill_thread(&output->receiver, "receiver"); } status = mars_create_sockaddr(&sockaddr, output->host); if (unlikely(status < 0)) { MARS_DBG("no sockaddr, status = %d\n", status); goto done; } status = mars_create_socket(&output->socket, &sockaddr, false); if (unlikely(status < 0)) { MARS_DBG("no socket, status = %d\n", status); goto really_done; } output->socket.s_shutdown_on_err = true; output->receiver.thread = brick_thread_create(receiver_thread, output, "mars_receiver%d", thread_count++); if (unlikely(!output->receiver.thread)) { MARS_ERR("cannot start receiver thread, status = %d\n", status); status = -ENOENT; goto done; } { struct mars_cmd cmd = { .cmd_code = CMD_CONNECT, .cmd_str1 = output->path, }; status = mars_send_struct(&output->socket, &cmd, mars_cmd_meta); if (unlikely(status < 0)) { MARS_DBG("send of connect failed, status = %d\n", status); goto done; } } if (status >= 0) { status = _request_info(output); } done: if (status < 0) { MARS_INF("cannot connect to remote host '%s' (status = %d) -- retrying\n", output->host ? output->host : "NULL", status); _kill_socket(output); } really_done: return status; } ////////////////// own brick / input / output operations ////////////////// static int client_get_info(struct client_output *output, struct mars_info *info) { int status; output->got_info = false; output->get_info = true; wake_up_interruptible(&output->event); wait_event_interruptible_timeout(output->info_event, output->got_info, 60 * HZ); status = -EIO; if (output->got_info && info) { memcpy(info, &output->info, sizeof(*info)); status = 0; } //done: return status; } static int client_ref_get(struct client_output *output, struct mref_object *mref) { int maxlen; if (mref->ref_initialized) { _mref_get(mref); return mref->ref_len; } #if 1 /* Limit transfers to page boundaries. * Currently, this is more restrictive than necessary. * TODO: improve performance by doing better when possible. * This needs help from the server in some efficient way. */ maxlen = PAGE_SIZE - (mref->ref_pos & (PAGE_SIZE-1)); if (mref->ref_len > maxlen) mref->ref_len = maxlen; #endif if (!mref->ref_data) { // buffered IO struct client_mref_aspect *mref_a = client_mref_get_aspect(output->brick, mref); if (!mref_a) return -EILSEQ; mref->ref_data = brick_block_alloc(mref->ref_pos, (mref_a->alloc_len = mref->ref_len)); if (!mref->ref_data) return -ENOMEM; mref_a->do_dealloc = true; mref->ref_flags = 0; } _mref_get_first(mref); return 0; } static void client_ref_put(struct client_output *output, struct mref_object *mref) { struct client_mref_aspect *mref_a; if (!_mref_put(mref)) return; mref_a = client_mref_get_aspect(output->brick, mref); if (mref_a && mref_a->do_dealloc) { brick_block_free(mref->ref_data, mref_a->alloc_len); } client_free_mref(mref); } static void _hash_insert(struct client_output *output, struct client_mref_aspect *mref_a) { struct mref_object *mref = mref_a->object; unsigned long flags; int hash_index; traced_lock(&output->lock, flags); list_del(&mref_a->io_head); list_add_tail(&mref_a->io_head, &output->mref_list); list_del(&mref_a->hash_head); mref->ref_id = ++output->last_id; hash_index = mref->ref_id % CLIENT_HASH_MAX; list_add_tail(&mref_a->hash_head, &output->hash_table[hash_index]); traced_unlock(&output->lock, flags); } static void client_ref_io(struct client_output *output, struct mref_object *mref) { struct client_mref_aspect *mref_a; int error = -EINVAL; mref_a = client_mref_get_aspect(output->brick, mref); if (unlikely(!mref_a)) { goto error; } while (output->brick->max_flying > 0 && atomic_read(&output->fly_count) > output->brick->max_flying) { MARS_IO("sleeping request pos = %lld len = %d rw = %d (flying = %d)\n", mref->ref_pos, mref->ref_len, mref->ref_rw, atomic_read(&output->fly_count)); #ifdef IO_DEBUGGING brick_msleep(3000); #else brick_msleep(1000 * 2 / HZ); #endif } atomic_inc(&mars_global_io_flying); atomic_inc(&output->fly_count); _mref_get(mref); mref_a->submit_jiffies = jiffies; _hash_insert(output, mref_a); MARS_IO("added request id = %d pos = %lld len = %d rw = %d (flying = %d)\n", mref->ref_id, mref->ref_pos, mref->ref_len, mref->ref_rw, atomic_read(&output->fly_count)); wake_up_interruptible(&output->event); return; error: MARS_ERR("IO error = %d\n", error); SIMPLE_CALLBACK(mref, error); client_ref_put(output, mref); } static int receiver_thread(void *data) { struct client_output *output = data; int status = 0; while (!brick_thread_should_stop()) { struct mars_cmd cmd = {}; struct list_head *tmp; struct client_mref_aspect *mref_a = NULL; struct mref_object *mref = NULL; unsigned long flags; status = mars_recv_struct(&output->socket, &cmd, mars_cmd_meta); MARS_IO("got cmd = %d status = %d\n", cmd.cmd_code, status); if (status < 0) goto done; switch (cmd.cmd_code & CMD_FLAG_MASK) { case CMD_NOTIFY: mars_trigger(); break; case CMD_CONNECT: if (cmd.cmd_int1 < 0) { status = cmd.cmd_int1; MARS_ERR("at remote side: brick connect failed, remote status = %d\n", status); goto done; } break; case CMD_CB: { int hash_index = cmd.cmd_int1 % CLIENT_HASH_MAX; traced_lock(&output->lock, flags); for (tmp = output->hash_table[hash_index].next; tmp != &output->hash_table[hash_index]; tmp = tmp->next) { struct mref_object *tmp_mref; mref_a = container_of(tmp, struct client_mref_aspect, hash_head); tmp_mref = mref_a->object; if (unlikely(!tmp_mref)) { traced_unlock(&output->lock, flags); MARS_ERR("bad internal mref pointer\n"); status = -EBADR; goto done; } if (tmp_mref->ref_id == cmd.cmd_int1) { mref = tmp_mref; list_del_init(&mref_a->hash_head); list_del_init(&mref_a->io_head); break; } } traced_unlock(&output->lock, flags); if (unlikely(!mref)) { MARS_WRN("got unknown id = %d for callback\n", cmd.cmd_int1); status = -EBADR; goto done; } MARS_IO("got callback id = %d, old pos = %lld len = %d rw = %d\n", mref->ref_id, mref->ref_pos, mref->ref_len, mref->ref_rw); status = mars_recv_cb(&output->socket, mref, &cmd); MARS_IO("new status = %d, pos = %lld len = %d rw = %d\n", status, mref->ref_pos, mref->ref_len, mref->ref_rw); if (unlikely(status < 0)) { MARS_WRN("interrupted data transfer during callback, status = %d\n", status); _hash_insert(output, mref_a); goto done; } SIMPLE_CALLBACK(mref, 0); client_ref_put(output, mref); atomic_dec(&output->fly_count); atomic_dec(&mars_global_io_flying); break; } case CMD_GETINFO: status = mars_recv_struct(&output->socket, &output->info, mars_info_meta); if (status < 0) { MARS_WRN("got bad info from remote side, status = %d\n", status); goto done; } output->got_info = true; wake_up_interruptible(&output->info_event); break; default: MARS_ERR("got bad command %d from remote side, terminating.\n", cmd.cmd_code); status = -EBADR; goto done; } done: brick_string_free(cmd.cmd_str1); if (unlikely(status < 0)) { if (!output->recv_error) { MARS_DBG("signalling status = %d\n", status); output->recv_error = status; } wake_up_interruptible(&output->event); brick_msleep(100); } } if (status < 0) { MARS_WRN("receiver thread terminated with status = %d, recv_error = %d\n", status, output->recv_error); } mars_shutdown_socket(&output->socket); wake_up_interruptible(&output->receiver.run_event); return status; } static void _do_resubmit(struct client_output *output) { unsigned long flags; traced_lock(&output->lock, flags); if (!list_empty(&output->wait_list)) { struct list_head *first = output->wait_list.next; struct list_head *last = output->wait_list.prev; struct list_head *old_start = output->mref_list.next; #define list_connect __list_del // the original routine has a misleading name: in reality it is more general list_connect(&output->mref_list, first); list_connect(last, old_start); INIT_LIST_HEAD(&output->wait_list); MARS_IO("done re-submit %p %p\n", first, last); } traced_unlock(&output->lock, flags); } static void _do_timeout(struct client_output *output, struct list_head *anchor, bool force) { struct client_brick *brick = output->brick; struct list_head *tmp; struct list_head *next; LIST_HEAD(tmp_list); int rounds = 0; long io_timeout = brick->io_timeout; unsigned long flags; if (io_timeout <= 0) io_timeout = global_net_io_timeout; if (!mars_net_is_alive) force = true; if (!force && io_timeout <= 0) return; io_timeout *= HZ; traced_lock(&output->lock, flags); for (tmp = anchor->next, next = tmp->next; tmp != anchor; tmp = next, next = tmp->next) { struct client_mref_aspect *mref_a; mref_a = container_of(tmp, struct client_mref_aspect, io_head); if (!force && !time_is_before_jiffies(mref_a->submit_jiffies + io_timeout)) { continue; } list_del_init(&mref_a->hash_head); list_del_init(&mref_a->io_head); list_add_tail(&mref_a->tmp_head, &tmp_list); } traced_unlock(&output->lock, flags); while (!list_empty(&tmp_list)) { struct client_mref_aspect *mref_a; struct mref_object *mref; tmp = tmp_list.next; list_del_init(tmp); mref_a = container_of(tmp, struct client_mref_aspect, tmp_head); mref = mref_a->object; if (!rounds++) { MARS_WRN("timeout after %ld: signalling IO error at pos = %lld len = %d\n", io_timeout, mref->ref_pos, mref->ref_len); } atomic_inc(&output->timeout_count); SIMPLE_CALLBACK(mref, -ENOTCONN); client_ref_put(output, mref); atomic_dec(&output->fly_count); atomic_dec(&mars_global_io_flying); } } static int sender_thread(void *data) { struct client_output *output = data; struct client_brick *brick = output->brick; unsigned long flags; bool do_kill = false; int status = 0; output->receiver.restart_count = 0; while (!brick_thread_should_stop()) { struct list_head *tmp = NULL; struct client_mref_aspect *mref_a; struct mref_object *mref; if (unlikely(output->recv_error != 0 || !mars_socket_is_alive(&output->socket))) { MARS_DBG("recv_error = %d do_kill = %d\n", output->recv_error, do_kill); if (do_kill) { do_kill = false; _kill_socket(output); brick_msleep(3000); } status = _connect(output, brick->brick_name); MARS_IO("connect status = %d\n", status); if (unlikely(status < 0)) { brick_msleep(3000); _do_timeout(output, &output->wait_list, false); _do_timeout(output, &output->mref_list, false); continue; } brick->connection_state = 2; do_kill = true; /* Re-Submit any waiting requests */ MARS_IO("re-submit\n"); _do_resubmit(output); } wait_event_interruptible_timeout(output->event, !list_empty(&output->mref_list) || output->get_info || output->recv_error != 0 || brick_thread_should_stop(), 1 * HZ); if (unlikely(output->recv_error != 0)) { MARS_DBG("recv_error = %d\n", output->recv_error); brick_msleep(1000); continue; } if (output->get_info) { status = _request_info(output); if (status >= 0) { output->get_info = false; } else { MARS_WRN("cannot get info, status = %d\n", status); brick_msleep(1000); } } /* Grab the next mref from the queue */ traced_lock(&output->lock, flags); if (list_empty(&output->mref_list)) { traced_unlock(&output->lock, flags); continue; } tmp = output->mref_list.next; list_del(tmp); list_add(tmp, &output->wait_list); mref_a = container_of(tmp, struct client_mref_aspect, io_head); traced_unlock(&output->lock, flags); mref = mref_a->object; if (brick->limit_mode) { int amount = 0; if (mref->ref_cs_mode < 2) amount = (mref->ref_len - 1) / 1024 + 1; mars_limit_sleep(&client_limiter, amount); } MARS_IO("sending mref, id = %d pos = %lld len = %d rw = %d\n", mref->ref_id, mref->ref_pos, mref->ref_len, mref->ref_rw); status = mars_send_mref(&output->socket, mref); MARS_IO("status = %d\n", status); if (unlikely(status < 0)) { // retry submission on next occasion.. MARS_WRN("sending failed, status = %d\n", status); if (do_kill) { do_kill = false; _kill_socket(output); } _hash_insert(output, mref_a); brick_msleep(1000); continue; } } //done: if (status < 0) { MARS_WRN("sender thread terminated with status = %d\n", status); } if (do_kill) { _kill_socket(output); } /* Signal error on all pending IO requests. * We have no other chance (except probably delaying * this until destruction which is probably not what * we want). */ _do_timeout(output, &output->wait_list, true); _do_timeout(output, &output->mref_list, true); wake_up_interruptible(&output->sender.run_event); MARS_DBG("sender terminated\n"); return status; } static int client_switch(struct client_brick *brick) { struct client_output *output = brick->outputs[0]; int status = 0; if (brick->power.button) { mars_power_led_off((void*)brick, false); if (!output->sender.thread) { brick->connection_state = 1; output->sender.thread = brick_thread_create(sender_thread, output, "mars_sender%d", thread_count++); if (unlikely(!output->sender.thread)) { MARS_ERR("cannot start sender thread\n"); status = -ENOENT; goto done; } } if (output->sender.thread) { mars_power_led_on((void*)brick, true); } } else { mars_power_led_on((void*)brick, false); _kill_thread(&output->sender, "sender"); brick->connection_state = 0; if (!output->sender.thread) { mars_power_led_off((void*)brick, !output->sender.thread); } } done: return status; } //////////////// informational / statistics /////////////// static char *client_statistics(struct client_brick *brick, int verbose) { struct client_output *output = brick->outputs[0]; char *res = brick_string_alloc(1024); if (!res) return NULL; snprintf(res, 1024, "#%d socket " "max_flying = %d " "io_timeout = %d | " "timeout_count = %d " "fly_count = %d\n", output->socket.s_debug_nr, brick->max_flying, brick->io_timeout, atomic_read(&output->timeout_count), atomic_read(&output->fly_count)); return res; } static void client_reset_statistics(struct client_brick *brick) { struct client_output *output = brick->outputs[0]; atomic_set(&output->timeout_count, 0); } //////////////// object / aspect constructors / destructors /////////////// static int client_mref_aspect_init_fn(struct generic_aspect *_ini) { struct client_mref_aspect *ini = (void*)_ini; INIT_LIST_HEAD(&ini->io_head); INIT_LIST_HEAD(&ini->hash_head); INIT_LIST_HEAD(&ini->tmp_head); return 0; } static void client_mref_aspect_exit_fn(struct generic_aspect *_ini) { struct client_mref_aspect *ini = (void*)_ini; CHECK_HEAD_EMPTY(&ini->io_head); CHECK_HEAD_EMPTY(&ini->hash_head); } MARS_MAKE_STATICS(client); ////////////////////// brick constructors / destructors //////////////////// static int client_brick_construct(struct client_brick *brick) { return 0; } static int client_output_construct(struct client_output *output) { int i; output->hash_table = brick_block_alloc(0, PAGE_SIZE); if (unlikely(!output->hash_table)) { MARS_ERR("cannot allocate hash table\n"); return -ENOMEM; } for (i = 0; i < CLIENT_HASH_MAX; i++) { INIT_LIST_HEAD(&output->hash_table[i]); } spin_lock_init(&output->lock); INIT_LIST_HEAD(&output->mref_list); INIT_LIST_HEAD(&output->wait_list); init_waitqueue_head(&output->event); init_waitqueue_head(&output->sender.run_event); init_waitqueue_head(&output->receiver.run_event); init_waitqueue_head(&output->info_event); return 0; } static int client_output_destruct(struct client_output *output) { if (output->path) { brick_string_free(output->path); output->path = NULL; } brick_block_free(output->hash_table, PAGE_SIZE); return 0; } ///////////////////////// static structs //////////////////////// static struct client_brick_ops client_brick_ops = { .brick_switch = client_switch, .brick_statistics = client_statistics, .reset_statistics = client_reset_statistics, }; static struct client_output_ops client_output_ops = { .mars_get_info = client_get_info, .mref_get = client_ref_get, .mref_put = client_ref_put, .mref_io = client_ref_io, }; const struct client_input_type client_input_type = { .type_name = "client_input", .input_size = sizeof(struct client_input), }; static const struct client_input_type *client_input_types[] = { &client_input_type, }; const struct client_output_type client_output_type = { .type_name = "client_output", .output_size = sizeof(struct client_output), .master_ops = &client_output_ops, .output_construct = &client_output_construct, .output_destruct = &client_output_destruct, }; static const struct client_output_type *client_output_types[] = { &client_output_type, }; const struct client_brick_type client_brick_type = { .type_name = "client_brick", .brick_size = sizeof(struct client_brick), .max_inputs = 0, .max_outputs = 1, .master_ops = &client_brick_ops, .aspect_types = client_aspect_types, .default_input_types = client_input_types, .default_output_types = client_output_types, .brick_construct = &client_brick_construct, }; EXPORT_SYMBOL_GPL(client_brick_type); ////////////////// module init stuff ///////////////////////// struct mars_limiter client_limiter = { .lim_max_rate = 0, }; EXPORT_SYMBOL_GPL(client_limiter); int global_net_io_timeout = CONFIG_MARS_NETIO_TIMEOUT; EXPORT_SYMBOL_GPL(global_net_io_timeout); int __init init_mars_client(void) { MARS_INF("init_client()\n"); _client_brick_type = (void*)&client_brick_type; return client_register_brick_type(); } void __exit exit_mars_client(void) { MARS_INF("exit_client()\n"); client_unregister_brick_type(); } #ifndef CONFIG_MARS_HAVE_BIGMODULE MODULE_DESCRIPTION("MARS client brick"); MODULE_AUTHOR("Thomas Schoebel-Theuer "); MODULE_LICENSE("GPL"); module_init(init_mars_client); module_exit(exit_mars_client); #endif