/* * Ouroboros - Copyright (C) 2016 - 2017 * * Local IPC process * * Dimitri Staessens * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #define OUROBOROS_PREFIX "ipcpd-local" #include #include #include #include #include #include #include #include "ipcp.h" #include #include #include #include #include #include #define EVENT_WAIT_TIMEOUT 100 /* us */ #define THIS_TYPE IPCP_LOCAL struct { int in_out[IRMD_MAX_FLOWS]; flow_set_t * flows; fqueue_t * fq; pthread_rwlock_t lock; pthread_t sduloop; } local_data; static int local_data_init(void) { int i; for (i = 0; i < IRMD_MAX_FLOWS; ++i) local_data.in_out[i] = -1; local_data.flows = flow_set_create(); if (local_data.flows == NULL) return -ENFILE; local_data.fq = fqueue_create(); if (local_data.fq == NULL) { flow_set_destroy(local_data.flows); return -ENOMEM; } pthread_rwlock_init(&local_data.lock, NULL); return 0; } static void local_data_fini(void) { flow_set_destroy(local_data.flows); fqueue_destroy(local_data.fq); pthread_rwlock_destroy(&local_data.lock); } static void * ipcp_local_sdu_loop(void * o) { struct timespec timeout = {0, EVENT_WAIT_TIMEOUT * 1000}; (void) o; while (flow_event_wait(local_data.flows, local_data.fq, &timeout)) { int fd; ssize_t idx; pthread_rwlock_rdlock(&ipcpi.state_lock); if (ipcp_get_state() != IPCP_OPERATIONAL) { pthread_rwlock_unlock(&ipcpi.state_lock); return (void *) 1; /* -ENOTENROLLED */ } pthread_rwlock_rdlock(&local_data.lock); while ((fd = fqueue_next(local_data.fq)) >= 0) { idx = local_flow_read(fd); assert(idx < (SHM_BUFFER_SIZE)); fd = local_data.in_out[fd]; if (fd != -1) local_flow_write(fd, idx); } pthread_rwlock_unlock(&local_data.lock); pthread_rwlock_unlock(&ipcpi.state_lock); } return (void *) 0; } void ipcp_sig_handler(int sig, siginfo_t * info, void * c) { (void) c; switch(sig) { case SIGINT: case SIGTERM: case SIGHUP: case SIGQUIT: if (info->si_pid == ipcpi.irmd_api) { pthread_rwlock_wrlock(&ipcpi.state_lock); if (ipcp_get_state() == IPCP_INIT) ipcp_set_state(IPCP_NULL); if (ipcp_get_state() == IPCP_OPERATIONAL) ipcp_set_state(IPCP_SHUTDOWN); pthread_rwlock_unlock(&ipcpi.state_lock); } default: return; } } static int ipcp_local_bootstrap(struct dif_config * conf) { (void) conf; assert(conf); assert(conf->type == THIS_TYPE); pthread_rwlock_wrlock(&ipcpi.state_lock); if (ipcp_get_state() != IPCP_INIT) { pthread_rwlock_unlock(&ipcpi.state_lock); log_err("IPCP in wrong state."); return -1; } ipcp_set_state(IPCP_OPERATIONAL); pthread_create(&local_data.sduloop, NULL, ipcp_local_sdu_loop, NULL); pthread_rwlock_unlock(&ipcpi.state_lock); log_info("Bootstrapped local IPCP with api %d.", getpid()); return 0; } static int ipcp_local_name_reg(char * name) { char * name_dup = strdup(name); if (name_dup == NULL) { log_err("Failed to duplicate name."); return -ENOMEM; } pthread_rwlock_rdlock(&ipcpi.state_lock); if (shim_data_reg_add_entry(ipcpi.shim_data, name_dup)) { pthread_rwlock_unlock(&ipcpi.state_lock); log_dbg("Failed to add %s to local registry.", name); free(name_dup); return -1; } pthread_rwlock_unlock(&ipcpi.state_lock); log_info("Registered %s.", name); return 0; } static int ipcp_local_name_unreg(char * name) { pthread_rwlock_rdlock(&ipcpi.state_lock); shim_data_reg_del_entry(ipcpi.shim_data, name); pthread_rwlock_unlock(&ipcpi.state_lock); log_info("Unregistered %s.", name); return 0; } static int ipcp_local_name_query(char * name) { int ret; pthread_rwlock_rdlock(&ipcpi.state_lock); ret = (shim_data_reg_has(ipcpi.shim_data, name) ? 0 : -1); pthread_rwlock_unlock(&ipcpi.state_lock); return ret; } static int ipcp_local_flow_alloc(int fd, char * dst_name, char * src_ae_name, qoscube_t cube) { int out_fd = -1; log_dbg("Allocating flow to %s on fd %d.", dst_name, fd); assert(dst_name); assert(src_ae_name); pthread_rwlock_rdlock(&ipcpi.state_lock); if (ipcp_get_state() != IPCP_OPERATIONAL) { pthread_rwlock_unlock(&ipcpi.state_lock); log_dbg("Won't register with non-enrolled IPCP."); return -1; /* -ENOTENROLLED */ } pthread_rwlock_wrlock(&local_data.lock); out_fd = ipcp_flow_req_arr(getpid(), dst_name, src_ae_name, cube); local_data.in_out[fd] = out_fd; local_data.in_out[out_fd] = fd; flow_set_add(local_data.flows, fd); pthread_rwlock_unlock(&local_data.lock); pthread_rwlock_unlock(&ipcpi.state_lock); log_info("Pending local allocation request on fd %d.", fd); return 0; } static int ipcp_local_flow_alloc_resp(int fd, int response) { int out_fd = -1; int ret = -1; if (response) return 0; pthread_rwlock_rdlock(&ipcpi.state_lock); pthread_rwlock_rdlock(&local_data.lock); out_fd = local_data.in_out[fd]; if (out_fd < 0) { pthread_rwlock_unlock(&local_data.lock); pthread_rwlock_unlock(&ipcpi.state_lock); return -1; } flow_set_add(local_data.flows, fd); pthread_rwlock_unlock(&local_data.lock); pthread_rwlock_unlock(&ipcpi.state_lock); if ((ret = ipcp_flow_alloc_reply(out_fd, response)) < 0) return -1; log_info("Flow allocation completed, fds (%d, %d).", out_fd, fd); return ret; } static int ipcp_local_flow_dealloc(int fd) { assert(!(fd < 0)); ipcp_flow_fini(fd); pthread_rwlock_rdlock(&ipcpi.state_lock); if (ipcp_get_state() != IPCP_OPERATIONAL) { pthread_rwlock_unlock(&ipcpi.state_lock); log_dbg("Won't register with non-enrolled IPCP."); return -1; /* -ENOTENROLLED */ } pthread_rwlock_wrlock(&local_data.lock); flow_set_del(local_data.flows, fd); local_data.in_out[fd] = -1; flow_dealloc(fd); pthread_rwlock_unlock(&local_data.lock); pthread_rwlock_unlock(&ipcpi.state_lock); log_info("Flow with fd %d deallocated.", fd); return 0; } static struct ipcp_ops local_ops = { .ipcp_bootstrap = ipcp_local_bootstrap, .ipcp_enroll = NULL, /* shim */ .ipcp_name_reg = ipcp_local_name_reg, .ipcp_name_unreg = ipcp_local_name_unreg, .ipcp_name_query = ipcp_local_name_query, .ipcp_flow_alloc = ipcp_local_flow_alloc, .ipcp_flow_alloc_resp = ipcp_local_flow_alloc_resp, .ipcp_flow_dealloc = ipcp_local_flow_dealloc }; int main(int argc, char * argv[]) { struct sigaction sig_act; sigset_t sigset; sigemptyset(&sigset); sigaddset(&sigset, SIGINT); sigaddset(&sigset, SIGQUIT); sigaddset(&sigset, SIGHUP); sigaddset(&sigset, SIGPIPE); /* init sig_act */ memset(&sig_act, 0, sizeof(sig_act)); /* install signal traps */ sig_act.sa_sigaction = &ipcp_sig_handler; sig_act.sa_flags = SA_SIGINFO; sigaction(SIGINT, &sig_act, NULL); sigaction(SIGTERM, &sig_act, NULL); sigaction(SIGHUP, &sig_act, NULL); sigaction(SIGPIPE, &sig_act, NULL); if (ipcp_init(argc, argv, THIS_TYPE, &local_ops) < 0) { log_err("Failed to init IPCP."); exit(EXIT_FAILURE); } if (local_data_init() < 0) { log_err("Failed to init local data."); ipcp_fini(); exit(EXIT_FAILURE); } pthread_sigmask(SIG_BLOCK, &sigset, NULL); if (ipcp_boot() < 0) { log_err("Failed to boot IPCP."); local_data_fini(); ipcp_fini(); exit(EXIT_FAILURE); } pthread_sigmask(SIG_UNBLOCK, &sigset, NULL); if (ipcp_create_r(getpid())) { log_err("Failed to notify IRMd we are initialized."); ipcp_set_state(IPCP_NULL); ipcp_shutdown(); local_data_fini(); ipcp_fini(); exit(EXIT_FAILURE); } ipcp_shutdown(); if (ipcp_get_state() == IPCP_SHUTDOWN) { pthread_cancel(local_data.sduloop); pthread_join(local_data.sduloop, NULL); } local_data_fini(); ipcp_fini(); exit(EXIT_SUCCESS); }