/* * Ouroboros - Copyright (C) 2016 * * API for applications * * Sander Vrijders * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #define OUROBOROS_PREFIX "libouroboros-dev" #include #include #include #include #include #include #include #include #include #include #include struct flow { struct shm_ap_rbuff * rb; int port_id; int oflags; pid_t api; }; struct ap_data { char * ap_name; pid_t api; struct shm_du_map * dum; struct bmp * fds; struct shm_ap_rbuff * rb; pthread_rwlock_t data_lock; struct flow flows[AP_MAX_FLOWS]; pthread_rwlock_t flows_lock; } * _ap_instance; int ap_init(char * ap_name) { int i = 0; ap_name = path_strip(ap_name); _ap_instance = malloc(sizeof(struct ap_data)); if (_ap_instance == NULL) { return -ENOMEM; } _ap_instance->api = getpid(); _ap_instance->ap_name = ap_name; _ap_instance->fds = bmp_create(AP_MAX_FLOWS, 0); if (_ap_instance->fds == NULL) { free(_ap_instance); return -ENOMEM; } _ap_instance->dum = shm_du_map_open(); if (_ap_instance->dum == NULL) { bmp_destroy(_ap_instance->fds); free(_ap_instance); return -1; } _ap_instance->rb = shm_ap_rbuff_create(); if (_ap_instance->rb == NULL) { shm_du_map_close(_ap_instance->dum); bmp_destroy(_ap_instance->fds); free(_ap_instance); return -1; } for (i = 0; i < AP_MAX_FLOWS; ++i) { _ap_instance->flows[i].rb = NULL; _ap_instance->flows[i].port_id = -1; _ap_instance->flows[i].api = 0; /* API_INVALID */ } pthread_rwlock_init(&_ap_instance->flows_lock, NULL); pthread_rwlock_init(&_ap_instance->data_lock, NULL); return 0; } void ap_fini(void) { int i = 0; if (_ap_instance == NULL) return; pthread_rwlock_wrlock(&_ap_instance->data_lock); if (_ap_instance->fds != NULL) bmp_destroy(_ap_instance->fds); if (_ap_instance->dum != NULL) shm_du_map_close(_ap_instance->dum); if (_ap_instance->rb != NULL) shm_ap_rbuff_destroy(_ap_instance->rb); pthread_rwlock_rdlock(&_ap_instance->flows_lock); for (i = 0; i < AP_MAX_FLOWS; ++i) if (_ap_instance->flows[i].rb != NULL) shm_ap_rbuff_close(_ap_instance->flows[i].rb); pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); free(_ap_instance); } #if 0 static int port_id_to_fd(int port_id) { int i; for (i = 0; i < AP_MAX_FLOWS; ++i) if (_ap_instance->flows[i].port_id == port_id && _ap_instance->flows[i].state != FLOW_NULL) return i; return -1; } #endif int flow_accept(char ** ae_name) { irm_msg_t msg = IRM_MSG__INIT; irm_msg_t * recv_msg = NULL; int cfd = -1; msg.code = IRM_MSG_CODE__IRM_FLOW_ACCEPT; msg.has_api = true; pthread_rwlock_rdlock(&_ap_instance->data_lock); msg.ap_name = _ap_instance->ap_name; msg.api = _ap_instance->api; pthread_rwlock_unlock(&_ap_instance->data_lock); recv_msg = send_recv_irm_msg(&msg); if (recv_msg == NULL) { return -1; } if (!recv_msg->has_api || !recv_msg->has_port_id) { irm_msg__free_unpacked(recv_msg, NULL); return -1; } pthread_rwlock_rdlock(&_ap_instance->data_lock); pthread_rwlock_wrlock(&_ap_instance->flows_lock); cfd = bmp_allocate(_ap_instance->fds); if (!bmp_is_id_valid(_ap_instance->fds, cfd)) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return -1; } _ap_instance->flows[cfd].rb = shm_ap_rbuff_open(recv_msg->api); if (_ap_instance->flows[cfd].rb == NULL) { bmp_release(_ap_instance->fds, cfd); pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return -1; } if (ae_name != NULL) { *ae_name = strdup(recv_msg->ae_name); if (*ae_name == NULL) { shm_ap_rbuff_close(_ap_instance->flows[cfd].rb); bmp_release(_ap_instance->fds, cfd); pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return -ENOMEM; } } _ap_instance->flows[cfd].port_id = recv_msg->port_id; _ap_instance->flows[cfd].oflags = FLOW_O_DEFAULT; pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return cfd; } int flow_alloc_resp(int fd, int response) { irm_msg_t msg = IRM_MSG__INIT; irm_msg_t * recv_msg = NULL; int ret = -1; if (fd < 0 || fd >= AP_MAX_FLOWS) return -EBADF; msg.code = IRM_MSG_CODE__IRM_FLOW_ALLOC_RESP; msg.has_api = true; msg.api = _ap_instance->api; msg.has_port_id = true; pthread_rwlock_rdlock(&_ap_instance->data_lock); pthread_rwlock_rdlock(&_ap_instance->flows_lock); if (_ap_instance->flows[fd].port_id < 0) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return -ENOTALLOC; } msg.port_id = _ap_instance->flows[fd].port_id; pthread_rwlock_unlock(&_ap_instance->flows_lock); msg.has_response = true; msg.response = response; recv_msg = send_recv_irm_msg(&msg); if (recv_msg == NULL) { pthread_rwlock_unlock(&_ap_instance->data_lock); return -1; } if (!recv_msg->has_result) { pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return -1; } ret = recv_msg->result; pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return ret; } int flow_alloc(char * dst_name, char * src_ae_name, struct qos_spec * qos) { irm_msg_t msg = IRM_MSG__INIT; irm_msg_t * recv_msg = NULL; int fd = -1; if (dst_name == NULL) return -EINVAL; if (src_ae_name == NULL) src_ae_name = UNKNOWN_AE; msg.code = IRM_MSG_CODE__IRM_FLOW_ALLOC; msg.dst_name = dst_name; msg.ae_name = src_ae_name; msg.has_api = true; pthread_rwlock_rdlock(&_ap_instance->data_lock); msg.api = _ap_instance->api; pthread_rwlock_unlock(&_ap_instance->data_lock); recv_msg = send_recv_irm_msg(&msg); if (recv_msg == NULL) { return -1; } if (!recv_msg->has_api || !recv_msg->has_port_id) { irm_msg__free_unpacked(recv_msg, NULL); return -1; } pthread_rwlock_rdlock(&_ap_instance->data_lock); pthread_rwlock_wrlock(&_ap_instance->flows_lock); fd = bmp_allocate(_ap_instance->fds); if (!bmp_is_id_valid(_ap_instance->fds, fd)) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return -1; } _ap_instance->flows[fd].rb = shm_ap_rbuff_open(recv_msg->api); if (_ap_instance->flows[fd].rb == NULL) { bmp_release(_ap_instance->fds, fd); pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return -1; } _ap_instance->flows[fd].port_id = recv_msg->port_id; _ap_instance->flows[fd].oflags = FLOW_O_DEFAULT; _ap_instance->flows[fd].api = shm_ap_rbuff_get_api(_ap_instance->flows[fd].rb); pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return fd; } int flow_alloc_res(int fd) { irm_msg_t msg = IRM_MSG__INIT; irm_msg_t * recv_msg = NULL; int result = 0; if (fd < 0 || fd >= AP_MAX_FLOWS) return -EBADF; msg.code = IRM_MSG_CODE__IRM_FLOW_ALLOC_RES; msg.has_port_id = true; pthread_rwlock_rdlock(&_ap_instance->data_lock); pthread_rwlock_rdlock(&_ap_instance->flows_lock); if (_ap_instance->flows[fd].port_id < 0) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return -ENOTALLOC; } msg.port_id = _ap_instance->flows[fd].port_id; pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); recv_msg = send_recv_irm_msg(&msg); if (recv_msg == NULL) { return -1; } if (!recv_msg->has_result) { irm_msg__free_unpacked(recv_msg, NULL); return -1; } result = recv_msg->result; irm_msg__free_unpacked(recv_msg, NULL); return result; } int flow_dealloc(int fd) { irm_msg_t msg = IRM_MSG__INIT; irm_msg_t * recv_msg = NULL; int ret = -1; msg.code = IRM_MSG_CODE__IRM_FLOW_DEALLOC; msg.has_port_id = true; pthread_rwlock_rdlock(&_ap_instance->data_lock); pthread_rwlock_wrlock(&_ap_instance->flows_lock); if (_ap_instance->flows[fd].port_id < 0) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return -ENOTALLOC; } msg.port_id = _ap_instance->flows[fd].port_id; _ap_instance->flows[fd].port_id = -1; shm_ap_rbuff_close(_ap_instance->flows[fd].rb); _ap_instance->flows[fd].rb = NULL; _ap_instance->flows[fd].api = 0; bmp_release(_ap_instance->fds, fd); pthread_rwlock_unlock(&_ap_instance->flows_lock); recv_msg = send_recv_irm_msg(&msg); if (recv_msg == NULL) { pthread_rwlock_unlock(&_ap_instance->data_lock); return -1; } if (!recv_msg->has_result) { pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return -1; } ret = recv_msg->result; pthread_rwlock_unlock(&_ap_instance->data_lock); irm_msg__free_unpacked(recv_msg, NULL); return ret; } int flow_cntl(int fd, int cmd, int oflags) { int old; if (fd < 0 || fd >= AP_MAX_FLOWS) return -EBADF; pthread_rwlock_rdlock(&_ap_instance->data_lock); pthread_rwlock_wrlock(&_ap_instance->flows_lock); if (_ap_instance->flows[fd].port_id < 0) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return -ENOTALLOC; } old = _ap_instance->flows[fd].oflags; switch (cmd) { case FLOW_F_GETFL: /* GET FLOW FLAGS */ pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return old; case FLOW_F_SETFL: /* SET FLOW FLAGS */ _ap_instance->flows[fd].oflags = oflags; pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return old; default: pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return FLOW_O_INVALID; /* unknown command */ } } ssize_t flow_write(int fd, void * buf, size_t count) { ssize_t index; struct rb_entry e; if (buf == NULL) return 0; if (fd < 0 || fd >= AP_MAX_FLOWS) return -EBADF; pthread_rwlock_rdlock(&_ap_instance->data_lock); pthread_rwlock_rdlock(&_ap_instance->flows_lock); if (_ap_instance->flows[fd].port_id < 0) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return -ENOTALLOC; } if (_ap_instance->flows[fd].oflags & FLOW_O_NONBLOCK) { index = shm_du_map_write(_ap_instance->dum, _ap_instance->flows[fd].api, DU_BUFF_HEADSPACE, DU_BUFF_TAILSPACE, (uint8_t *) buf, count); if (index == -1) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return -EAGAIN; } e.index = index; e.port_id = _ap_instance->flows[fd].port_id; if (shm_ap_rbuff_write(_ap_instance->flows[fd].rb, &e) < 0) { shm_du_map_remove(_ap_instance->dum, index); pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return -1; } } else { /* blocking */ while ((index = shm_du_map_write(_ap_instance->dum, _ap_instance->flows[fd].api, DU_BUFF_HEADSPACE, DU_BUFF_TAILSPACE, (uint8_t *) buf, count)) < 0) ; e.index = index; e.port_id = _ap_instance->flows[fd].port_id; while (shm_ap_rbuff_write(_ap_instance->flows[fd].rb, &e) < 0) ; } pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return 0; } ssize_t flow_read(int fd, void * buf, size_t count) { int idx = -1; int n; uint8_t * sdu; if (fd < 0 || fd >= AP_MAX_FLOWS) return -EBADF; pthread_rwlock_rdlock(&_ap_instance->data_lock); pthread_rwlock_rdlock(&_ap_instance->flows_lock); if (_ap_instance->flows[fd].port_id < 0) { pthread_rwlock_unlock(&_ap_instance->flows_lock); pthread_rwlock_unlock(&_ap_instance->data_lock); return -ENOTALLOC; } if (_ap_instance->flows[fd].oflags & FLOW_O_NONBLOCK) { idx = shm_ap_rbuff_read_port(_ap_instance->rb, _ap_instance->flows[fd].port_id); } else { /* block */ while ((idx = shm_ap_rbuff_read_port(_ap_instance->rb, _ap_instance-> flows[fd].port_id)) < 0) ; } pthread_rwlock_unlock(&_ap_instance->flows_lock); if (idx < 0) { pthread_rwlock_unlock(&_ap_instance->data_lock); return -EAGAIN; } n = shm_du_map_read(&sdu, _ap_instance->dum, idx); if (n < 0) { pthread_rwlock_unlock(&_ap_instance->data_lock); return -1; } memcpy(buf, sdu, MIN(n, count)); shm_du_map_remove(_ap_instance->dum, idx); pthread_rwlock_unlock(&_ap_instance->data_lock); return n; }