/** @file * @brief Modem socket / packet size handler * * Generic modem socket and packet size implementation for modem context */ /* * Copyright (c) 2019-2020 Foundries.io * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include "modem_socket.h" /* * Packet Size Support Functions */ uint16_t modem_socket_next_packet_size(struct modem_socket_config *cfg, struct modem_socket *sock) { uint16_t total = 0U; k_sem_take(&cfg->sem_lock, K_FOREVER); if (!sock || !sock->packet_count) { goto exit; } total = sock->packet_sizes[0]; exit: k_sem_give(&cfg->sem_lock); return total; } static uint16_t modem_socket_packet_get_total(struct modem_socket *sock) { int i; uint16_t total = 0U; if (!sock || !sock->packet_count) { return 0U; } for (i = 0; i < sock->packet_count; i++) { total += sock->packet_sizes[i]; } return total; } static int modem_socket_packet_drop_first(struct modem_socket *sock) { int i; if (!sock || !sock->packet_count) { return -EINVAL; } sock->packet_count--; for (i = 0; i < sock->packet_count; i++) { sock->packet_sizes[i] = sock->packet_sizes[i + 1]; } sock->packet_sizes[sock->packet_count] = 0U; return 0; } int modem_socket_packet_size_update(struct modem_socket_config *cfg, struct modem_socket *sock, int new_total) { uint16_t old_total = 0U; if (!sock) { return -EINVAL; } k_sem_take(&cfg->sem_lock, K_FOREVER); if (new_total < 0) { new_total += modem_socket_packet_get_total(sock); } if (new_total <= 0) { /* reset outstanding value here */ sock->packet_count = 0U; sock->packet_sizes[0] = 0U; k_sem_give(&cfg->sem_lock); return 0; } old_total = modem_socket_packet_get_total(sock); if (new_total == old_total) { goto data_ready; } /* remove sent packets */ if (new_total < old_total) { /* remove packets that are not included in new_size */ while (old_total > new_total && sock->packet_count > 0) { /* handle partial read */ if (old_total - new_total < sock->packet_sizes[0]) { sock->packet_sizes[0] -= old_total - new_total; break; } old_total -= sock->packet_sizes[0]; modem_socket_packet_drop_first(sock); } goto data_ready; } /* new packet to add */ if (sock->packet_count >= CONFIG_MODEM_SOCKET_PACKET_COUNT) { k_sem_give(&cfg->sem_lock); return -ENOMEM; } if (new_total - old_total > 0) { sock->packet_sizes[sock->packet_count] = new_total - old_total; sock->packet_count++; } else { k_sem_give(&cfg->sem_lock); return -EINVAL; } data_ready: k_sem_give(&cfg->sem_lock); return new_total; } /* * Socket Support Functions */ int modem_socket_get(struct modem_socket_config *cfg, int family, int type, int proto) { int i; k_sem_take(&cfg->sem_lock, K_FOREVER); for (i = 0; i < cfg->sockets_len; i++) { if (cfg->sockets[i].id < cfg->base_socket_num) { break; } } if (i >= cfg->sockets_len) { k_sem_give(&cfg->sem_lock); return -ENOMEM; } /* FIXME: 4 fds max now due to POSIX_OS conflict */ cfg->sockets[i].sock_fd = z_reserve_fd(); if (cfg->sockets[i].sock_fd < 0) { k_sem_give(&cfg->sem_lock); return -errno; } cfg->sockets[i].family = family; cfg->sockets[i].type = type; cfg->sockets[i].ip_proto = proto; /* socket # needs assigning */ cfg->sockets[i].id = cfg->sockets_len + 1; z_finalize_fd(cfg->sockets[i].sock_fd, &cfg->sockets[i], (const struct fd_op_vtable *)cfg->vtable); k_sem_give(&cfg->sem_lock); return cfg->sockets[i].sock_fd; } struct modem_socket *modem_socket_from_fd(struct modem_socket_config *cfg, int sock_fd) { int i; k_sem_take(&cfg->sem_lock, K_FOREVER); for (i = 0; i < cfg->sockets_len; i++) { if (cfg->sockets[i].sock_fd == sock_fd) { k_sem_give(&cfg->sem_lock); return &cfg->sockets[i]; } } k_sem_give(&cfg->sem_lock); return NULL; } struct modem_socket *modem_socket_from_id(struct modem_socket_config *cfg, int id) { int i; if (id < cfg->base_socket_num) { return NULL; } k_sem_take(&cfg->sem_lock, K_FOREVER); for (i = 0; i < cfg->sockets_len; i++) { if (cfg->sockets[i].id == id) { k_sem_give(&cfg->sem_lock); return &cfg->sockets[i]; } } k_sem_give(&cfg->sem_lock); return NULL; } struct modem_socket *modem_socket_from_newid(struct modem_socket_config *cfg) { return modem_socket_from_id(cfg, cfg->sockets_len + 1); } void modem_socket_put(struct modem_socket_config *cfg, int sock_fd) { struct modem_socket *sock = modem_socket_from_fd(cfg, sock_fd); if (!sock) { return; } k_sem_take(&cfg->sem_lock, K_FOREVER); sock->id = cfg->base_socket_num - 1; sock->sock_fd = -1; sock->is_waiting = false; sock->is_polled = false; sock->is_connected = false; (void)memset(&sock->src, 0, sizeof(struct sockaddr)); (void)memset(&sock->dst, 0, sizeof(struct sockaddr)); memset(&sock->packet_sizes, 0, sizeof(sock->packet_sizes)); sock->packet_count = 0; k_sem_reset(&sock->sem_data_ready); k_sem_give(&cfg->sem_lock); } /* * Generic Poll Function */ /* * FIXME: The design here makes the poll function non-reentrant. If two * different threads poll on two different sockets we'll end up with unexpected * behavior - the higher priority thread will be unblocked, regardless on which * socket it polled. I think we could live with such limitation though in the * initial implementation, but this should be improved in the future. */ int modem_socket_poll(struct modem_socket_config *cfg, struct zsock_pollfd *fds, int nfds, int msecs) { struct modem_socket *sock; int ret, i; uint8_t found_count = 0; if (!cfg) { return -EINVAL; } k_sem_reset(&cfg->sem_poll); for (i = 0; i < nfds; i++) { sock = modem_socket_from_fd(cfg, fds[i].fd); if (sock) { /* * Handle user check for POLLOUT events: * we consider the socket to always be writable. */ if (fds[i].events & ZSOCK_POLLOUT) { found_count++; break; } else if (fds[i].events & ZSOCK_POLLIN) { sock->is_polled = true; /* * Handle check done after data reception on * the socket. In this case that was received * but as the socket wasn't polled, no sem_poll * semaphore was given at that time. Therefore * if there is a polled socket with data, * increment found_count to escape the * k_sem_take(). */ if (sock->packet_sizes[0] > 0U) { found_count++; break; } } } } /* Avoid waiting on semaphore if we have already found an event */ ret = 0; if (!found_count) { ret = k_sem_take(&cfg->sem_poll, K_MSEC(msecs)); } /* Reset counter as we reiterate on all polled sockets */ found_count = 0; for (i = 0; i < nfds; i++) { sock = modem_socket_from_fd(cfg, fds[i].fd); if (!sock) { continue; } /* * Handle user check for ZSOCK_POLLOUT events: * we consider the socket to always be writable. */ if (fds[i].events & ZSOCK_POLLOUT) { fds[i].revents |= ZSOCK_POLLOUT; found_count++; } else if ((fds[i].events & ZSOCK_POLLIN) && (sock->packet_sizes[0] > 0U)) { fds[i].revents |= ZSOCK_POLLIN; found_count++; } sock->is_polled = false; } /* EBUSY, EAGAIN and ETIMEDOUT aren't true errors */ if (ret < 0 && ret != -EBUSY && ret != -EAGAIN && ret != -ETIMEDOUT) { errno = ret; return -1; } errno = 0; return found_count; } void modem_socket_wait_data(struct modem_socket_config *cfg, struct modem_socket *sock) { k_sem_take(&cfg->sem_lock, K_FOREVER); sock->is_waiting = true; k_sem_give(&cfg->sem_lock); k_sem_take(&sock->sem_data_ready, K_FOREVER); } void modem_socket_data_ready(struct modem_socket_config *cfg, struct modem_socket *sock) { k_sem_take(&cfg->sem_lock, K_FOREVER); if (sock->is_waiting) { /* unblock sockets waiting on recv() */ sock->is_waiting = false; k_sem_give(&sock->sem_data_ready); } if (sock->is_polled) { /* unblock poll() */ k_sem_give(&cfg->sem_poll); } k_sem_give(&cfg->sem_lock); } int modem_socket_init(struct modem_socket_config *cfg, const struct socket_op_vtable *vtable) { int i; k_sem_init(&cfg->sem_poll, 0, 1); k_sem_init(&cfg->sem_lock, 1, 1); for (i = 0; i < cfg->sockets_len; i++) { k_sem_init(&cfg->sockets[i].sem_data_ready, 0, 1); cfg->sockets[i].id = cfg->base_socket_num - 1; } cfg->vtable = vtable; return 0; }