/* * Copyright (C) Max Romanov * Copyright (C) NGINX, Inc. */ #include #include #include static nxt_int_t nxt_external_start(nxt_task_t *task, nxt_process_data_t *data); nxt_app_module_t nxt_external_module = { 0, NULL, nxt_string("external"), "*", NULL, 0, NULL, nxt_external_start, }; extern char **environ; nxt_inline nxt_int_t nxt_external_fd_no_cloexec(nxt_task_t *task, nxt_socket_t fd) { int res, flags; if (fd == -1) { return NXT_OK; } flags = fcntl(fd, F_GETFD); if (nxt_slow_path(flags == -1)) { nxt_alert(task, "fcntl(%d, F_GETFD) failed %E", fd, nxt_errno); return NXT_ERROR; } flags &= ~FD_CLOEXEC; res = fcntl(fd, F_SETFD, flags); if (nxt_slow_path(res == -1)) { nxt_alert(task, "fcntl(%d, F_SETFD) failed %E", fd, nxt_errno); return NXT_ERROR; } return NXT_OK; } static nxt_int_t nxt_external_start(nxt_task_t *task, nxt_process_data_t *data) { char **argv; u_char buf[256]; u_char *p, *end; uint32_t index; size_t size; nxt_str_t str; nxt_int_t rc; nxt_uint_t i, argc; nxt_port_t *my_port, *proto_port, *router_port; nxt_runtime_t *rt; nxt_conf_value_t *value; nxt_common_app_conf_t *conf; nxt_external_app_conf_t *c; rt = task->thread->runtime; conf = data->app; proto_port = rt->port_by_type[NXT_PROCESS_PROTOTYPE]; router_port = rt->port_by_type[NXT_PROCESS_ROUTER]; my_port = nxt_runtime_port_find(rt, nxt_pid, 0); if (nxt_slow_path(proto_port == NULL || my_port == NULL || router_port == NULL)) { return NXT_ERROR; } rc = nxt_external_fd_no_cloexec(task, proto_port->pair[1]); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } rc = nxt_external_fd_no_cloexec(task, router_port->pair[1]); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } rc = nxt_external_fd_no_cloexec(task, my_port->pair[0]); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } rc = nxt_external_fd_no_cloexec(task, my_port->pair[1]); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } end = buf + sizeof(buf); p = nxt_sprintf(buf, end, "%s;%uD;" "%PI,%ud,%d;" "%PI,%ud,%d;" "%PI,%ud,%d,%d;" "%d,%z,%uD,%Z", NXT_VERSION, my_port->process->stream, proto_port->pid, proto_port->id, proto_port->pair[1], router_port->pid, router_port->id, router_port->pair[1], my_port->pid, my_port->id, my_port->pair[0], my_port->pair[1], 2, conf->shm_limit, conf->request_limit); if (nxt_slow_path(p == end)) { nxt_alert(task, "internal error: buffer too small for NXT_UNIT_INIT"); return NXT_ERROR; } nxt_debug(task, "update "NXT_UNIT_INIT_ENV"=%s", buf); rc = setenv(NXT_UNIT_INIT_ENV, (char *) buf, 1); if (nxt_slow_path(rc == -1)) { nxt_alert(task, "setenv("NXT_UNIT_INIT_ENV", %s) failed %E", buf, nxt_errno); return NXT_ERROR; } c = &conf->u.external; argc = 2; size = 0; if (c->arguments != NULL) { for (index = 0; /* void */ ; index++) { value = nxt_conf_get_array_element(c->arguments, index); if (value == NULL) { break; } nxt_conf_get_string(value, &str); size += str.length + 1; argc++; } } argv = nxt_malloc(argc * sizeof(argv[0]) + size); if (nxt_slow_path(argv == NULL)) { nxt_alert(task, "failed to allocate arguments"); return NXT_ERROR; } argv[0] = c->executable; i = 1; if (c->arguments != NULL) { p = (u_char *) &argv[argc]; for (index = 0; /* void */ ; index++) { value = nxt_conf_get_array_element(c->arguments, index); if (value == NULL) { break; } argv[i++] = (char *) p; nxt_conf_get_string(value, &str); p = nxt_cpymem(p, str.start, str.length); *p++ = '\0'; } } argv[i] = NULL; (void) execve(c->executable, argv, environ); nxt_alert(task, "execve(%s) failed %E", c->executable, nxt_errno); nxt_free(argv); return NXT_ERROR; }