/* * MARS Long Distance Replication Software * * This file is part of MARS project: http://schoebel.github.io/mars/ * * Copyright (C) 2010-2014 Thomas Schoebel-Theuer * Copyright (C) 2011-2014 1&1 Internet AG * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ // Server brick (just for demonstration) //#define BRICK_DEBUGGING //#define MARS_DEBUGGING //#define IO_DEBUGGING #include #include #include #define _STRATEGY #include "mars.h" #include "mars_bio.h" #include "mars_aio.h" #include "mars_sio.h" ///////////////////////// own type definitions //////////////////////// #include "mars_server.h" struct server_cookie { struct mars_socket server_socket; struct mars_tcp_params *server_params; }; static struct server_cookie server_cookie[MARS_TRAFFIC_MAX] = { [MARS_TRAFFIC_META] = { .server_params = &mars_tcp_params[MARS_TRAFFIC_META], }, [MARS_TRAFFIC_REPLICATION] = { .server_params = &mars_tcp_params[MARS_TRAFFIC_REPLICATION], }, [MARS_TRAFFIC_SYNC] = { .server_params = &mars_tcp_params[MARS_TRAFFIC_SYNC], }, }; static struct task_struct *server_thread[MARS_TRAFFIC_MAX] = {}; atomic_t server_handler_count = ATOMIC_INIT(0); EXPORT_SYMBOL_GPL(server_handler_count); ///////////////////////// own helper functions //////////////////////// #define HANDLER_LIMIT 1024 int handler_limit = HANDLER_LIMIT; int handler_nr = HANDLER_LIMIT; static struct semaphore handler_limit_sem = __SEMAPHORE_INITIALIZER(handler_limit_sem, HANDLER_LIMIT); #define DENT_LIMIT 2 #define DENT_RETRY 5 int dent_limit = DENT_LIMIT; int dent_nr = DENT_LIMIT; static struct semaphore dent_limit_sem = __SEMAPHORE_INITIALIZER(dent_limit_sem, DENT_LIMIT); int dent_retry = DENT_RETRY; static void change_sem(struct semaphore *sem, int *limit, int *nr) { if (unlikely(*nr < *limit)) { up(sem); (*nr)++; } else if (unlikely(*nr > *limit)) { if (!down_trylock(sem)) (*nr)--; } } static int cb_thread(void *data) { struct server_brick *brick = data; struct mars_socket *sock = &brick->handler_socket; bool aborted = false; bool ok = mars_get_socket(sock); int status = -EINVAL; MARS_DBG("--------------- cb_thread starting on socket #%d, ok = %d\n", sock->s_debug_nr, ok); if (!ok) goto done; brick->cb_running = true; wake_up_interruptible(&brick->startup_event); while (!brick_thread_should_stop() || !list_empty(&brick->cb_read_list) || !list_empty(&brick->cb_write_list) || atomic_read(&brick->in_flight) > 0) { struct server_mref_aspect *mref_a; struct mref_object *mref; struct list_head *tmp; bool cork; unsigned long flags; wait_event_interruptible_timeout( brick->cb_event, !list_empty(&brick->cb_read_list) || !list_empty(&brick->cb_write_list), 1 * HZ); traced_lock(&brick->cb_lock, flags); tmp = brick->cb_write_list.next; if (tmp == &brick->cb_write_list) { tmp = brick->cb_read_list.next; if (tmp == &brick->cb_read_list) { traced_unlock(&brick->cb_lock, flags); brick_msleep(1000 / HZ); continue; } } list_del_init(tmp); cork = !list_empty(&brick->cb_write_list); traced_unlock(&brick->cb_lock, flags); mref_a = container_of(tmp, struct server_mref_aspect, cb_head); mref = mref_a->object; status = -EINVAL; CHECK_PTR(mref, err); status = 0; /* Report a remote error when consistency cannot be guaranteed, * e.g. emergency mode during sync. */ if (brick->conn_brick && brick->conn_brick->mode_ptr && *brick->conn_brick->mode_ptr < 0 && mref->object_cb) mref->object_cb->cb_error = *brick->conn_brick->mode_ptr; if (!aborted) { mref->ref_flags |= enabled_net_compressions; down(&brick->socket_sem); status = mars_send_cb(sock, mref, cork); up(&brick->socket_sem); } err: if (unlikely(status < 0) && !aborted) { aborted = true; MARS_WRN("cannot send response, status = %d\n", status); /* Just shutdown the socket and forget all pending * requests. * The _client_ is responsible for resending * any lost operations. */ mars_shutdown_socket(sock); } if (mref_a->data) { brick_block_free(mref_a->data, mref_a->len); mref->ref_data = NULL; } if (mref_a->do_put) { GENERIC_INPUT_CALL(brick->inputs[0], mref_put, mref); atomic_dec(&brick->in_flight); } else { mars_free_mref(mref); } } mars_shutdown_socket(sock); mars_put_socket(sock); done: MARS_DBG("---------- cb_thread terminating, status = %d\n", status); wake_up_interruptible(&brick->startup_event); return status; } static void server_endio(struct generic_callback *cb) { struct server_mref_aspect *mref_a; struct mref_object *mref; struct server_brick *brick; unsigned long flags; mref_a = cb->cb_private; CHECK_PTR(mref_a, err); mref = mref_a->object; CHECK_PTR(mref, err); LAST_CALLBACK(cb); if (unlikely(cb != &mref->_object_cb)) { MARS_ERR("bad cb pointer %p != %p\n", cb, &mref->_object_cb); } brick = mref_a->brick; if (unlikely(!brick)) { MARS_WRN("late IO callback -- cannot do anything\n"); return; } traced_lock(&brick->cb_lock, flags); if (mref->ref_flags & MREF_WRITE) { list_add_tail(&mref_a->cb_head, &brick->cb_write_list); } else { list_add_tail(&mref_a->cb_head, &brick->cb_read_list); } traced_unlock(&brick->cb_lock, flags); wake_up_interruptible(&brick->cb_event); return; err: MARS_FAT("cannot handle callback - giving up\n"); } static int server_io(struct server_brick *brick, struct mars_socket *sock, struct mars_cmd *cmd) { struct mref_object *mref; struct server_mref_aspect *mref_a; int amount; int status = -ENOTRECOVERABLE; if (!brick->cb_running || !brick->handler_running || !mars_socket_is_alive(sock)) goto done; mref = server_alloc_mref(brick); status = -ENOMEM; if (!mref) goto done; mref_a = server_mref_get_aspect(brick, mref); if (unlikely(!mref_a)) { mars_free_mref(mref); goto done; } status = mars_recv_mref(sock, mref, cmd); if (status < 0) { mars_free_mref(mref); goto done; } mref_a->brick = brick; mref_a->data = mref->ref_data; mref_a->len = mref->ref_len; SETUP_CALLBACK(mref, server_endio, mref_a); amount = 0; if (!(mref->ref_flags & MREF_NODATA)) amount = (mref->ref_len - 1) / 1024 + 1; mars_limit_sleep(&server_limiter, amount); status = GENERIC_INPUT_CALL(brick->inputs[0], mref_get, mref); if (unlikely(status < 0)) { MARS_WRN("mref_get execution error = %d\n", status); SIMPLE_CALLBACK(mref, status); status = 0; // continue serving requests goto done; } mref_a->do_put = true; atomic_inc(&brick->in_flight); GENERIC_INPUT_CALL(brick->inputs[0], mref_io, mref); done: return status; } static void _clean_list(struct server_brick *brick, struct list_head *start) { for (;;) { struct server_mref_aspect *mref_a; struct mref_object *mref; struct list_head *tmp = start->next; if (tmp == start) break; list_del_init(tmp); mref_a = container_of(tmp, struct server_mref_aspect, cb_head); mref_a->brick = NULL; mref = mref_a->object; if (!mref) continue; if (mref_a->do_put) { GENERIC_INPUT_CALL(brick->inputs[0], mref_put, mref); atomic_dec(&brick->in_flight); } else { mars_free_mref(mref); } } } static int _set_server_sio_params(struct mars_brick *_brick, void *private) { struct sio_brick *sio_brick = (void*)_brick; if (_brick->type != (void*)_sio_brick_type) { MARS_ERR("bad brick type\n"); return -EINVAL; } sio_brick->o_direct = false; sio_brick->o_fdsync = false; MARS_INF("name = '%s' path = '%s'\n", _brick->brick_name, _brick->brick_path); return 1; } static int _set_server_aio_params(struct mars_brick *_brick, void *private) { struct aio_brick *aio_brick = (void*)_brick; if (_brick->type == (void*)_sio_brick_type) { return _set_server_sio_params(_brick, private); } if (_brick->type != (void*)_aio_brick_type) { MARS_ERR("bad brick type\n"); return -EINVAL; } aio_brick->o_creat = false; aio_brick->o_direct = false; aio_brick->o_fdsync = false; MARS_INF("name = '%s' path = '%s'\n", _brick->brick_name, _brick->brick_path); return 1; } static int _set_server_bio_params(struct mars_brick *_brick, void *private) { struct bio_brick *bio_brick; if (_brick->type == (void*)_aio_brick_type) { return _set_server_aio_params(_brick, private); } if (_brick->type == (void*)_sio_brick_type) { return _set_server_sio_params(_brick, private); } if (_brick->type != (void*)_bio_brick_type) { MARS_ERR("bad brick type\n"); return -EINVAL; } bio_brick = (void*)_brick; bio_brick->ra_pages = 0; bio_brick->do_sync = true; bio_brick->do_unplug = true; MARS_INF("name = '%s' path = '%s'\n", _brick->brick_name, _brick->brick_path); return 1; } static int handler_thread(void *data) { struct mars_global *handler_global = alloc_mars_global(); struct task_struct *thread = NULL; struct server_brick *brick = data; struct mars_socket *sock = &brick->handler_socket; bool ok = mars_get_socket(sock); unsigned long statist_jiffies = jiffies; int debug_nr; int old_proto_level = 0; int status = -EINVAL; MARS_DBG("#%d --------------- handler_thread starting on socket %p\n", sock->s_debug_nr, sock); if (!ok) goto done; thread = brick_thread_create(cb_thread, brick, "mars_cb%d", brick->version); if (unlikely(!thread)) { MARS_ERR("cannot create cb thread\n"); status = -ENOENT; goto done; } brick->cb_thread = thread; brick->handler_running = true; wake_up_interruptible(&brick->startup_event); while (!list_empty(&handler_global->brick_anchor) || mars_socket_is_alive(sock)) { struct mars_cmd cmd = {}; handler_global->global_version++; if (!list_empty(&handler_global->brick_anchor)) { if (server_show_statist && !time_is_before_jiffies(statist_jiffies + 10 * HZ)) { show_statistics(handler_global, "handler"); statist_jiffies = jiffies; } if (!mars_socket_is_alive(sock) && atomic_read(&brick->in_flight) <= 0 && brick->conn_brick) { if (mars_disconnect((void*)brick->inputs[0]) >= 0) brick->conn_brick = NULL; } status = mars_kill_brick_when_possible(handler_global, NULL, true); MARS_DBG("kill handler bricks (when possible) = %d\n", status); } status = -EINTR; if (unlikely(!mars_global || !mars_global->global_power.button)) { MARS_DBG("system is not alive\n"); goto clean; } if (unlikely(brick_thread_should_stop())) { goto clean; } if (unlikely(!mars_socket_is_alive(sock))) { /* Dont read any data anymore, the protocol * may be screwed up completely. */ MARS_DBG("#%d is dead\n", sock->s_debug_nr); goto clean; } if (down_trylock(&handler_limit_sem)) { MARS_DBG("#%d handler limit reached\n", sock->s_debug_nr); status = -EUSERS; goto clean; } status = mars_recv_cmd(sock, &cmd); if (unlikely(status < 0)) { MARS_WRN("#%d recv cmd status = %d\n", sock->s_debug_nr, status); goto clean_unlock; } MARS_IO("#%d cmd = %d\n", sock->s_debug_nr, cmd.cmd_code); if (unlikely(!brick->global || !mars_global || !mars_global->global_power.button)) { MARS_WRN("#%d system is not alive\n", sock->s_debug_nr); status = -EINTR; goto clean_unlock; } status = -EPROTO; switch (cmd.cmd_code & CMD_FLAG_MASK) { case CMD_NOP: status = 0; MARS_DBG("#%d got NOP operation\n", sock->s_debug_nr); break; case CMD_NOTIFY: status = 0; from_remote_trigger(); break; case CMD_GETINFO: { struct mars_info info = {}; status = GENERIC_INPUT_CALL(brick->inputs[0], mars_get_info, &info); if (status < 0) { break; } down(&brick->socket_sem); status = mars_send_cmd(sock, &cmd, true); old_proto_level = sock->s_common_proto_level; if (status >= 0) { status = mars_send_struct(sock, &info, mars_info_meta, false); } up(&brick->socket_sem); break; } case CMD_GETENTS: { char *path = cmd.cmd_str1 ? cmd.cmd_str1 : "/mars"; int max_retry = dent_retry; while (down_trylock(&dent_limit_sem)) { if (max_retry-- <= 0) { MARS_DBG("#%d dent limit reached\n", sock->s_debug_nr); status = -EUSERS; goto clean_unlock; } brick_msleep(1000); } /* New protocol. * We cannot send/recv intermediate cmds at the * old protocol. * For compatibility, the old protocol must be * used until the fist cmd response has been sent. */ if (sock->s_common_proto_level > 0 && old_proto_level > 0) { down(&brick->socket_sem); status = mars_send_cmd(sock, &cmd, true); old_proto_level = sock->s_common_proto_level; if (unlikely(status < 0)) { MARS_WRN("#%d could not send inter_cmd, status = %d\n", sock->s_debug_nr, status); } up(&brick->socket_sem); } status = mars_get_dent_list( handler_global, path, sizeof(struct mars_dent), main_checker, 3); up(&dent_limit_sem); down(&brick->socket_sem); status = mars_send_dent_list(sock, &handler_global->dent_anchor); up(&brick->socket_sem); if (status < 0) { MARS_WRN("#%d could not send dentry information, status = %d\n", sock->s_debug_nr, status); } mars_free_dent_all(handler_global, &handler_global->dent_anchor); break; } case CMD_CONNECT: { struct mars_brick *prev; const char *path = cmd.cmd_str1; status = -EINVAL; CHECK_PTR(path, err); CHECK_PTR_NULL(_bio_brick_type, err); prev = make_brick_all( handler_global, NULL, _set_server_bio_params, NULL, path, (const struct generic_brick_type*)_bio_brick_type, (const struct generic_brick_type*[]){}, 2, // start always path, (const char *[]){}, 0); if (likely(prev)) { status = mars_connect((void *)brick->inputs[0], prev->outputs[0]); if (unlikely(status < 0)) { MARS_ERR("#%d cannot connect to '%s'\n", sock->s_debug_nr, path); } prev->killme = true; brick->conn_brick = prev; } else { MARS_ERR("#%d cannot find brick '%s'\n", sock->s_debug_nr, path); } err: cmd.cmd_int1 = status; down(&brick->socket_sem); status = mars_send_cmd(sock, &cmd, false); old_proto_level = sock->s_common_proto_level; up(&brick->socket_sem); break; } case CMD_MREF: { status = server_io(brick, sock, &cmd); break; } case CMD_CB: MARS_ERR("#%d oops, as a server I should never get CMD_CB; something is wrong here - attack attempt??\n", sock->s_debug_nr); break; default: MARS_ERR("#%d unknown command %d\n", sock->s_debug_nr, cmd.cmd_code); } clean_unlock: up(&handler_limit_sem); clean: brick_string_free(cmd.cmd_str1); if (unlikely(status < 0)) { mars_shutdown_socket(sock); brick_msleep(1000); } } mars_shutdown_socket(sock); mars_put_socket(sock); done: MARS_DBG("#%d handler_thread terminating, status = %d\n", sock->s_debug_nr, status); mars_kill_brick_all(handler_global, &handler_global->brick_anchor, false); if (thread) { brick->cb_thread = NULL; brick->cb_running = false; MARS_DBG("#%d stopping callback thread....\n", sock->s_debug_nr); brick_thread_stop(thread); } debug_nr = sock->s_debug_nr; MARS_DBG("#%d done.\n", debug_nr); atomic_dec(&server_handler_count); brick->killme = true; brick_mem_free(handler_global); return status; } ////////////////// own brick / input / output operations ////////////////// static int server_get_info(struct server_output *output, struct mars_info *info) { struct server_input *input = output->brick->inputs[0]; return GENERIC_INPUT_CALL(input, mars_get_info, info); } static int server_ref_get(struct server_output *output, struct mref_object *mref) { struct server_input *input = output->brick->inputs[0]; return GENERIC_INPUT_CALL(input, mref_get, mref); } static void server_ref_put(struct server_output *output, struct mref_object *mref) { struct server_input *input = output->brick->inputs[0]; GENERIC_INPUT_CALL(input, mref_put, mref); } static void server_ref_io(struct server_output *output, struct mref_object *mref) { struct server_input *input = output->brick->inputs[0]; GENERIC_INPUT_CALL(input, mref_io, mref); } static int server_switch(struct server_brick *brick) { struct mars_socket *sock = &brick->handler_socket; int status = 0; if (brick->power.button) { static int version = 0; bool ok; if (brick->power.led_on) goto done; ok = mars_get_socket(sock); if (unlikely(!ok)) { status = -ENOENT; goto err; } mars_power_led_off((void*)brick, false); brick->version = version++; brick->handler_thread = brick_thread_create(handler_thread, brick, "mars_handler%d", brick->version); if (unlikely(!brick->handler_thread)) { MARS_ERR("cannot create handler thread\n"); status = -ENOENT; goto err; } mars_power_led_on((void*)brick, true); } else if (!brick->power.led_off) { struct task_struct *thread; mars_power_led_on((void*)brick, false); mars_shutdown_socket(sock); thread = brick->handler_thread; if (thread) { brick->handler_thread = NULL; brick->handler_running = false; MARS_DBG("#%d stopping handler thread....\n", sock->s_debug_nr); brick_thread_stop(thread); } mars_put_socket(sock); MARS_DBG("#%d socket s_count = %d\n", sock->s_debug_nr, atomic_read(&sock->s_count)); // do this only after _both_ threads have stopped... _clean_list(brick, &brick->cb_read_list); _clean_list(brick, &brick->cb_write_list); mars_power_led_off((void*)brick, true); } err: if (unlikely(status < 0)) { mars_power_led_off((void*)brick, true); mars_shutdown_socket(sock); mars_put_socket(sock); } done: return status; } //////////////// informational / statistics /////////////// static char *server_statistics(struct server_brick *brick, int verbose) { char *res = brick_string_alloc(1024); if (!res) return NULL; snprintf(res, 1024, "cb_running = %d " "handler_running = %d " "in_flight = %d\n", brick->cb_running, brick->handler_running, atomic_read(&brick->in_flight)); return res; } static void server_reset_statistics(struct server_brick *brick) { } //////////////// object / aspect constructors / destructors /////////////// static int server_mref_aspect_init_fn(struct generic_aspect *_ini) { struct server_mref_aspect *ini = (void*)_ini; INIT_LIST_HEAD(&ini->cb_head); return 0; } static void server_mref_aspect_exit_fn(struct generic_aspect *_ini) { struct server_mref_aspect *ini = (void*)_ini; CHECK_HEAD_EMPTY(&ini->cb_head); } MARS_MAKE_STATICS(server); ////////////////////// brick constructors / destructors //////////////////// static int server_brick_construct(struct server_brick *brick) { init_waitqueue_head(&brick->startup_event); init_waitqueue_head(&brick->cb_event); sema_init(&brick->socket_sem, 1); spin_lock_init(&brick->cb_lock); INIT_LIST_HEAD(&brick->cb_read_list); INIT_LIST_HEAD(&brick->cb_write_list); return 0; } static int server_brick_destruct(struct server_brick *brick) { CHECK_HEAD_EMPTY(&brick->cb_read_list); CHECK_HEAD_EMPTY(&brick->cb_write_list); return 0; } static int server_output_construct(struct server_output *output) { return 0; } ///////////////////////// static structs //////////////////////// static struct server_brick_ops server_brick_ops = { .brick_switch = server_switch, .brick_statistics = server_statistics, .reset_statistics = server_reset_statistics, }; static struct server_output_ops server_output_ops = { .mars_get_info = server_get_info, .mref_get = server_ref_get, .mref_put = server_ref_put, .mref_io = server_ref_io, }; const struct server_input_type server_input_type = { .type_name = "server_input", .input_size = sizeof(struct server_input), }; static const struct server_input_type *server_input_types[] = { &server_input_type, }; const struct server_output_type server_output_type = { .type_name = "server_output", .output_size = sizeof(struct server_output), .master_ops = &server_output_ops, .output_construct = &server_output_construct, }; static const struct server_output_type *server_output_types[] = { &server_output_type, }; const struct server_brick_type server_brick_type = { .type_name = "server_brick", .brick_size = sizeof(struct server_brick), .max_inputs = 1, .max_outputs = 0, .master_ops = &server_brick_ops, .aspect_types = server_aspect_types, .default_input_types = server_input_types, .default_output_types = server_output_types, .brick_construct = &server_brick_construct, .brick_destruct = &server_brick_destruct, }; EXPORT_SYMBOL_GPL(server_brick_type); /////////////////////////////////////////////////////////////////////// // strategy layer int server_show_statist = 0; EXPORT_SYMBOL_GPL(server_show_statist); static int _server_thread(void *data) { struct mars_global *server_global = alloc_mars_global(); struct server_cookie *cookie = data; struct mars_socket *my_socket = &cookie->server_socket; struct mars_tcp_params *my_params = cookie->server_params; char *id = my_id(); int status = 0; MARS_INF("-------- server starting on host '%s' ----------\n", id); while (!brick_thread_should_stop() && (!mars_global || !mars_global->global_power.button)) { MARS_DBG("system did not start up\n"); brick_msleep(5000); } MARS_INF("-------- server now working on host '%s' ----------\n", id); while (!brick_thread_should_stop() || !list_empty(&server_global->brick_anchor)) { struct server_brick *brick = NULL; struct mars_socket handler_socket = {}; change_sem(&handler_limit_sem, &handler_limit, &handler_nr); change_sem(&dent_limit_sem, &dent_limit, &dent_nr); server_global->global_version++; mars_limit(&server_limiter, 0); if (server_show_statist) show_statistics(server_global, "server"); status = mars_kill_brick_when_possible(server_global, NULL, true); MARS_DBG("kill server bricks (when possible) = %d\n", status); if (!mars_global || !mars_global->global_power.button) { brick_msleep(1000); continue; } status = mars_accept_socket(&handler_socket, my_socket, my_params); if (unlikely(status < 0 || !mars_socket_is_alive(&handler_socket))) { brick_msleep(500); if (status == -EAGAIN) continue; // without error message MARS_WRN("accept status = %d\n", status); brick_msleep(1000); continue; } handler_socket.s_shutdown_on_err = true; MARS_DBG("got new connection #%d\n", handler_socket.s_debug_nr); brick = (void*)mars_make_brick(server_global, NULL, &server_brick_type, "handler", "handler"); if (!brick) { MARS_ERR("cannot create server instance\n"); mars_shutdown_socket(&handler_socket); mars_put_socket(&handler_socket); brick_msleep(2000); continue; } memcpy(&brick->handler_socket, &handler_socket, sizeof(struct mars_socket)); atomic_inc(&server_handler_count); /* TODO: check authorization. */ brick->power.button = true; status = server_switch(brick); if (unlikely(status < 0)) { MARS_ERR("cannot switch on server brick, status = %d\n", status); goto err; } // further references are usually held by the threads mars_put_socket(&brick->handler_socket); /* fire and forget.... * the new instance is now responsible for itself. */ brick = NULL; brick_msleep(100); continue; err: if (brick) { mars_shutdown_socket(&brick->handler_socket); mars_put_socket(&brick->handler_socket); status = mars_kill_brick((void*)brick); if (status < 0) { BRICK_ERR("kill status = %d, giving up\n", status); } brick = NULL; atomic_dec(&server_handler_count); } brick_msleep(2000); } MARS_INF("-------- cleaning up ----------\n"); mars_kill_brick_all(server_global, &server_global->brick_anchor, false); //cleanup_mm(); MARS_INF("-------- done status = %d ----------\n", status); brick_mem_free(server_global); return status; } ////////////////// module init stuff ///////////////////////// struct mars_limiter server_limiter = { /* Let all be zero */ }; EXPORT_SYMBOL_GPL(server_limiter); void exit_mars_server(void) { int i; MARS_INF("exit_server()\n"); server_unregister_brick_type(); for (i = 0; i < MARS_TRAFFIC_MAX; i++) { if (server_thread[i]) { MARS_INF("stopping server thread %d...\n", i); brick_thread_stop(server_thread[i]); } MARS_INF("closing server socket %d...\n", i); mars_put_socket(&server_cookie[i].server_socket); } } int __init init_mars_server(void) { int i; MARS_INF("init_server()\n"); for (i = 0; i < MARS_TRAFFIC_MAX; i++) { struct sockaddr_storage sockaddr = {}; char tmp[16]; int status; sprintf(tmp, ":%d", mars_net_default_port + i); status = mars_create_sockaddr(&sockaddr, tmp); if (unlikely(status < 0)) { exit_mars_server(); return status; } status = mars_create_socket(&server_cookie[i].server_socket, &sockaddr, server_cookie[i].server_params, true); if (unlikely(status < 0)) { MARS_ERR("could not create server socket %d, status = %d\n", i, status); exit_mars_server(); return status; } server_thread[i] = brick_thread_create(_server_thread, &server_cookie[i], "mars_server_%d", i); if (unlikely(!server_thread[i] || IS_ERR(server_thread[i]))) { MARS_ERR("could not create server thread %d\n", i); exit_mars_server(); return -ENOENT; } } return server_register_brick_type(); }