/* * Copyright (c) 2018 Foundries.io * * SPDX-License-Identifier: Apache-2.0 */ #define SYS_LOG_DOMAIN "modem_wncm14a2a" #define SYS_LOG_LEVEL CONFIG_SYS_LOG_MODEM_LEVEL #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if defined(CONFIG_NET_UDP) #include #endif #if defined(CONFIG_NET_TCP) #include #endif #include /* Uncomment the #define below to enable a hexdump of all incoming * data from the modem receiver */ /* #define ENABLE_VERBOSE_MODEM_RECV_HEXDUMP 1 */ struct mdm_control_pinconfig { char *dev_name; u32_t pin; }; #define PINCONFIG(name_, pin_) { \ .dev_name = name_, \ .pin = pin_ \ } /* pin settings */ enum mdm_control_pins { MDM_BOOT_MODE_SEL = 0, MDM_POWER, MDM_KEEP_AWAKE, MDM_RESET, SHLD_3V3_1V8_SIG_TRANS_ENA, #ifdef CONFIG_WNCM14A2A_GPIO_MDM_SEND_OK_PIN MDM_SEND_OK, #endif MAX_MDM_CONTROL_PINS, }; static const struct mdm_control_pinconfig pinconfig[] = { /* MDM_BOOT_MODE_SEL */ PINCONFIG(CONFIG_WNCM14A2A_GPIO_MDM_BOOT_MODE_SEL_NAME, CONFIG_WNCM14A2A_GPIO_MDM_BOOT_MODE_SEL_PIN), /* MDM_POWER */ PINCONFIG(CONFIG_WNCM14A2A_GPIO_MDM_POWER_NAME, CONFIG_WNCM14A2A_GPIO_MDM_POWER_PIN), /* MDM_KEEP_AWAKE */ PINCONFIG(CONFIG_WNCM14A2A_GPIO_MDM_KEEP_AWAKE_NAME, CONFIG_WNCM14A2A_GPIO_MDM_KEEP_AWAKE_PIN), /* MDM_RESET */ PINCONFIG(CONFIG_WNCM14A2A_GPIO_MDM_RESET_NAME, CONFIG_WNCM14A2A_GPIO_MDM_RESET_PIN), /* SHLD_3V3_1V8_SIG_TRANS_ENA */ PINCONFIG(CONFIG_WNCM14A2A_GPIO_MDM_SHLD_TRANS_ENA_NAME, CONFIG_WNCM14A2A_GPIO_MDM_SHLD_TRANS_ENA_PIN), #ifdef CONFIG_WNCM14A2A_GPIO_MDM_SEND_OK_PIN /* MDM_SEND_OK */ PINCONFIG(CONFIG_WNCM14A2A_GPIO_MDM_SEND_OK_NAME, CONFIG_WNCM14A2A_GPIO_MDM_SEND_OK_PIN), #endif }; #define MDM_UART_DEV_NAME CONFIG_WNCM14A2A_UART_DRV_NAME #define MDM_BOOT_MODE_SPECIAL 0 #define MDM_BOOT_MODE_NORMAL 1 #define MDM_POWER_ENABLE 0 #define MDM_POWER_DISABLE 1 #define MDM_KEEP_AWAKE_DISABLED 0 #define MDM_KEEP_AWAKE_ENABLED 1 #define MDM_RESET_NOT_ASSERTED 0 #define MDM_RESET_ASSERTED 1 #define SHLD_3V3_1V8_SIG_TRANS_DISABLED 0 #define SHLD_3V3_1V8_SIG_TRANS_ENABLED 1 #define MDM_SEND_OK_ENABLED 0 #define MDM_SEND_OK_DISABLED 1 #define MDM_CMD_TIMEOUT K_SECONDS(5) #define MDM_CMD_SEND_TIMEOUT K_SECONDS(10) #define MDM_CMD_CONN_TIMEOUT K_SECONDS(31) #define MDM_MAX_DATA_LENGTH 1500 #define MDM_RECV_MAX_BUF 30 #define MDM_RECV_BUF_SIZE 128 #define MDM_MAX_SOCKETS 6 #define BUF_ALLOC_TIMEOUT K_SECONDS(1) #define CMD_HANDLER(cmd_, cb_) { \ .cmd = cmd_, \ .cmd_len = (u16_t)sizeof(cmd_)-1, \ .func = on_cmd_ ## cb_ \ } #define MDM_MANUFACTURER_LENGTH 10 #define MDM_MODEL_LENGTH 16 #define MDM_REVISION_LENGTH 64 #define MDM_IMEI_LENGTH 16 #define RSSI_TIMEOUT_SECS 30 NET_BUF_POOL_DEFINE(mdm_recv_pool, MDM_RECV_MAX_BUF, MDM_RECV_BUF_SIZE, 0, NULL); static u8_t mdm_recv_buf[MDM_MAX_DATA_LENGTH]; /* RX thread structures */ K_THREAD_STACK_DEFINE(wncm14a2a_rx_stack, CONFIG_MODEM_WNCM14A2A_RX_STACK_SIZE); struct k_thread wncm14a2a_rx_thread; /* RX thread work queue */ K_THREAD_STACK_DEFINE(wncm14a2a_workq_stack, CONFIG_MODEM_WNCM14A2A_RX_WORKQ_STACK_SIZE); static struct k_work_q wncm14a2a_workq; struct wncm14a2a_socket { struct net_context *context; sa_family_t family; enum net_sock_type type; enum net_ip_protocol ip_proto; struct sockaddr src; struct sockaddr dst; int socket_id; bool socket_reading; /** semaphore */ struct k_sem sock_send_sem; /** socket callbacks */ struct k_work recv_cb_work; net_context_recv_cb_t recv_cb; struct net_pkt *recv_pkt; void *recv_user_data; }; struct wncm14a2a_iface_ctx { struct net_if *iface; u8_t mac_addr[6]; /* GPIO PORT devices */ struct device *gpio_port_dev[MAX_MDM_CONTROL_PINS]; /* RX specific attributes */ struct mdm_receiver_context mdm_ctx; /* socket data */ struct wncm14a2a_socket sockets[MDM_MAX_SOCKETS]; int last_socket_id; int last_error; /* semaphores */ struct k_sem response_sem; /* RSSI work */ struct k_delayed_work rssi_query_work; /* modem data */ char mdm_manufacturer[MDM_MANUFACTURER_LENGTH]; char mdm_model[MDM_MODEL_LENGTH]; char mdm_revision[MDM_REVISION_LENGTH]; char mdm_imei[MDM_IMEI_LENGTH]; /* modem state */ int ev_csps; int ev_rrcstate; }; struct cmd_handler { const char *cmd; u16_t cmd_len; void (*func)(struct net_buf **buf, u16_t len); }; static struct wncm14a2a_iface_ctx ictx; static void wncm14a2a_read_rx(struct net_buf **buf); /*** Verbose Debugging Functions ***/ #if defined(ENABLE_VERBOSE_MODEM_RECV_HEXDUMP) static inline void _hexdump(const u8_t *packet, size_t length) { char output[sizeof("xxxxyyyy xxxxyyyy")]; int n = 0, k = 0; u8_t byte; while (length--) { if (n % 16 == 0) { printk(" %08X ", n); } byte = *packet++; printk("%02X ", byte); if (byte < 0x20 || byte > 0x7f) { output[k++] = '.'; } else { output[k++] = byte; } n++; if (n % 8 == 0) { if (n % 16 == 0) { output[k] = '\0'; printk(" [%s]\n", output); k = 0; } else { printk(" "); } } } if (n % 16) { int i; output[k] = '\0'; for (i = 0; i < (16 - (n % 16)); i++) { printk(" "); } if ((n % 16) < 8) { printk(" "); /* one extra delimiter after 8 chars */ } printk(" [%s]\n", output); } } #else #define _hexdump(...) #endif static struct wncm14a2a_socket *socket_get(void) { int i; struct wncm14a2a_socket *sock = NULL; for (i = 0; i < MDM_MAX_SOCKETS; i++) { if (!ictx.sockets[i].context) { sock = &ictx.sockets[i]; break; } } return sock; } static struct wncm14a2a_socket *socket_from_id(int socket_id) { int i; struct wncm14a2a_socket *sock = NULL; if (socket_id < 1) { return NULL; } for (i = 0; i < MDM_MAX_SOCKETS; i++) { if (ictx.sockets[i].socket_id == socket_id) { sock = &ictx.sockets[i]; break; } } return sock; } static void socket_put(struct wncm14a2a_socket *sock) { if (!sock) { return; } sock->context = NULL; sock->socket_id = 0; (void)memset(&sock->src, 0, sizeof(struct sockaddr)); (void)memset(&sock->dst, 0, sizeof(struct sockaddr)); } char *wncm14a2a_sprint_ip_addr(const struct sockaddr *addr) { static char buf[NET_IPV6_ADDR_LEN]; #if defined(CONFIG_NET_IPV6) if (addr->sa_family == AF_INET6) { return net_addr_ntop(AF_INET6, &net_sin6(addr)->sin6_addr, buf, sizeof(buf)); } else #endif #if defined(CONFIG_NET_IPV4) if (addr->sa_family == AF_INET) { return net_addr_ntop(AF_INET, &net_sin(addr)->sin_addr, buf, sizeof(buf)); } else #endif { SYS_LOG_ERR("Unknown IP address family:%d", addr->sa_family); return NULL; } } /* Send an AT command with a series of response handlers */ static int send_at_cmd(struct wncm14a2a_socket *sock, const u8_t *data, int timeout) { int ret; ictx.last_error = 0; SYS_LOG_DBG("OUT: [%s]", data); mdm_receiver_send(&ictx.mdm_ctx, data, strlen(data)); mdm_receiver_send(&ictx.mdm_ctx, "\r\n", 2); if (timeout == K_NO_WAIT) { return 0; } if (!sock) { k_sem_reset(&ictx.response_sem); ret = k_sem_take(&ictx.response_sem, timeout); } else { k_sem_reset(&sock->sock_send_sem); ret = k_sem_take(&sock->sock_send_sem, timeout); } if (ret == 0) { ret = ictx.last_error; } else if (ret == -EAGAIN) { ret = -ETIMEDOUT; } return ret; } static int send_data(struct wncm14a2a_socket *sock, struct net_pkt *pkt) { int ret; struct net_buf *frag; char buf[sizeof("AT@SOCKWRITE=#,####,1\r")]; if (!sock) { return -EINVAL; } ictx.last_error = 0; frag = pkt->frags; /* use SOCKWRITE with binary mode formatting */ snprintk(buf, sizeof(buf), "AT@SOCKWRITE=%d,%u,1\r", sock->socket_id, net_buf_frags_len(frag)); mdm_receiver_send(&ictx.mdm_ctx, buf, strlen(buf)); /* Loop through packet data and send */ while (frag) { mdm_receiver_send(&ictx.mdm_ctx, frag->data, frag->len); frag = frag->frags; } mdm_receiver_send(&ictx.mdm_ctx, "\r\n", 2); k_sem_reset(&sock->sock_send_sem); ret = k_sem_take(&sock->sock_send_sem, MDM_CMD_SEND_TIMEOUT); if (ret == 0) { ret = ictx.last_error; } else if (ret == -EAGAIN) { ret = -ETIMEDOUT; } return ret; } /*** NET_BUF HELPERS ***/ static bool is_crlf(u8_t c) { if (c == '\n' || c == '\r') { return true; } else { return false; } } static void net_buf_skipcrlf(struct net_buf **buf) { /* chop off any /n or /r */ while (*buf && is_crlf(*(*buf)->data)) { net_buf_pull_u8(*buf); if (!(*buf)->len) { *buf = net_buf_frag_del(NULL, *buf); } } } static u16_t net_buf_findcrlf(struct net_buf *buf, struct net_buf **frag, u16_t *offset) { u16_t len = 0, pos = 0; while (buf && !is_crlf(*(buf->data + pos))) { if (pos + 1 >= buf->len) { len += buf->len; buf = buf->frags; pos = 0; } else { pos++; } } if (buf && is_crlf(*(buf->data + pos))) { len += pos; *offset = pos; *frag = buf; return len; } return 0; } /*** UDP / TCP Helper Function ***/ /* Setup IP header data to be used by some network applications. * While much is dummy data, some fields such as dst, port and family are * important. * Return the IP + protocol header length. */ static int net_pkt_setup_ip_data(struct net_pkt *pkt, struct wncm14a2a_socket *sock) { int hdr_len = 0; u16_t src_port = 0, dst_port = 0; #if defined(CONFIG_NET_IPV6) if (net_pkt_family(pkt) == AF_INET6) { net_buf_add(pkt->frags, NET_IPV6H_LEN); /* set IPv6 data */ NET_IPV6_HDR(pkt)->vtc = 0x60; NET_IPV6_HDR(pkt)->tcflow = 0; NET_IPV6_HDR(pkt)->flow = 0; net_ipaddr_copy(&NET_IPV6_HDR(pkt)->src, &((struct sockaddr_in6 *)&sock->dst)->sin6_addr); net_ipaddr_copy(&NET_IPV6_HDR(pkt)->dst, &((struct sockaddr_in6 *)&sock->src)->sin6_addr); NET_IPV6_HDR(pkt)->nexthdr = sock->ip_proto; src_port = net_sin6(&sock->dst)->sin6_port; dst_port = net_sin6(&sock->src)->sin6_port; net_pkt_set_ip_hdr_len(pkt, sizeof(struct net_ipv6_hdr)); net_pkt_set_ipv6_ext_len(pkt, 0); hdr_len = sizeof(struct net_ipv6_hdr); } else #endif #if defined(CONFIG_NET_IPV4) if (net_pkt_family(pkt) == AF_INET) { net_buf_add(pkt->frags, NET_IPV4H_LEN); /* set IPv4 data */ NET_IPV4_HDR(pkt)->vhl = 0x45; NET_IPV4_HDR(pkt)->tos = 0x00; net_ipaddr_copy(&NET_IPV4_HDR(pkt)->src, &((struct sockaddr_in *)&sock->dst)->sin_addr); net_ipaddr_copy(&NET_IPV4_HDR(pkt)->dst, &((struct sockaddr_in *)&sock->src)->sin_addr); NET_IPV4_HDR(pkt)->proto = sock->ip_proto; src_port = net_sin(&sock->dst)->sin_port; dst_port = net_sin(&sock->src)->sin_port; net_pkt_set_ip_hdr_len(pkt, sizeof(struct net_ipv4_hdr)); hdr_len = sizeof(struct net_ipv4_hdr); } else #endif { /* no error here as hdr_len is checked later for 0 value */ } #if defined(CONFIG_NET_UDP) if (sock->ip_proto == IPPROTO_UDP) { struct net_udp_hdr hdr, *udp; net_buf_add(pkt->frags, NET_UDPH_LEN); udp = net_udp_get_hdr(pkt, &hdr); (void)memset(udp, 0, NET_UDPH_LEN); /* Setup UDP header */ udp->src_port = src_port; udp->dst_port = dst_port; net_udp_set_hdr(pkt, udp); hdr_len += NET_UDPH_LEN; } else #endif #if defined(CONFIG_NET_TCP) if (sock->ip_proto == IPPROTO_TCP) { struct net_tcp_hdr hdr, *tcp; net_buf_add(pkt->frags, NET_TCPH_LEN); tcp = net_tcp_get_hdr(pkt, &hdr); (void)memset(tcp, 0, NET_TCPH_LEN); /* Setup TCP header */ tcp->src_port = src_port; tcp->dst_port = dst_port; net_tcp_set_hdr(pkt, tcp); hdr_len += NET_TCPH_LEN; } else #endif /* CONFIG_NET_TCP */ { /* no error here as hdr_len is checked later for 0 value */ } return hdr_len; } /*** MODEM RESPONSE HANDLERS ***/ /* Last Socket ID Handler */ static void on_cmd_atcmdecho(struct net_buf **buf, u16_t len) { char value[2]; /* make sure only a single digit is picked up for socket_id */ value[0] = net_buf_pull_u8(*buf); ictx.last_socket_id = atoi(value); } /* Echo Handler for commands without related sockets */ static void on_cmd_atcmdecho_nosock(struct net_buf **buf, u16_t len) { /* clear last_socket_id */ ictx.last_socket_id = 0; } static void on_cmd_atcmdinfo_manufacturer(struct net_buf **buf, u16_t len) { net_buf_linearize(ictx.mdm_manufacturer, sizeof(ictx.mdm_manufacturer), *buf, 0, len); SYS_LOG_INF("Manufacturer: %s", ictx.mdm_manufacturer); } static void on_cmd_atcmdinfo_model(struct net_buf **buf, u16_t len) { net_buf_linearize(ictx.mdm_model, sizeof(ictx.mdm_model), *buf, 0, len); SYS_LOG_INF("Model: %s", ictx.mdm_model); } static void on_cmd_atcmdinfo_revision(struct net_buf **buf, u16_t len) { net_buf_linearize(ictx.mdm_revision, sizeof(ictx.mdm_revision), *buf, 0, len); SYS_LOG_INF("Revision: %s", ictx.mdm_revision); } static void on_cmd_atcmdecho_nosock_imei(struct net_buf **buf, u16_t len) { struct net_buf *frag = NULL; u16_t offset; /* make sure IMEI data is received */ if (len < MDM_IMEI_LENGTH) { SYS_LOG_DBG("Waiting for data"); /* wait for more data */ k_sleep(K_MSEC(100)); wncm14a2a_read_rx(buf); } net_buf_skipcrlf(buf); if (!*buf) { SYS_LOG_DBG("Unable to find IMEI (net_buf_skipcrlf)"); return; } frag = NULL; len = net_buf_findcrlf(*buf, &frag, &offset); if (!frag) { SYS_LOG_DBG("Unable to find IMEI (net_buf_findcrlf)"); return; } net_buf_linearize(ictx.mdm_imei, sizeof(ictx.mdm_imei), *buf, 0, len); SYS_LOG_INF("IMEI: %s", ictx.mdm_imei); } /* Handler: %MEAS: RSSI:Reported= -68, Ant0= -63, Ant1= -251 */ static void on_cmd_atcmdinfo_rssi(struct net_buf **buf, u16_t len) { int start = 0, i = 0; size_t value_size; char value[64]; value_size = sizeof(value); (void)memset(value, 0, value_size); while (*buf && len > 0 && i < value_size) { value[i] = net_buf_pull_u8(*buf); if (!(*buf)->len) { *buf = net_buf_frag_del(NULL, *buf); } /* 2nd "=" marks the beginning of the RSSI value */ if (start < 2) { if (value[i] == '=') { start++; } continue; } /* "," marks the end of the RSSI value */ if (value[i] == ',') { value[i] = '\0'; break; } i++; } if (i > 0) { ictx.mdm_ctx.data_rssi = atoi(value); SYS_LOG_INF("RSSI: %d", ictx.mdm_ctx.data_rssi); } else { SYS_LOG_WRN("Bad format found for RSSI"); } } /* Handler: OK */ static void on_cmd_sockok(struct net_buf **buf, u16_t len) { struct wncm14a2a_socket *sock = NULL; ictx.last_error = 0; sock = socket_from_id(ictx.last_socket_id); if (!sock) { k_sem_give(&ictx.response_sem); } else { k_sem_give(&sock->sock_send_sem); } } /* Handler: ERROR */ static void on_cmd_sockerror(struct net_buf **buf, u16_t len) { struct wncm14a2a_socket *sock = NULL; ictx.last_error = -EIO; sock = socket_from_id(ictx.last_socket_id); if (!sock) { k_sem_give(&ictx.response_sem); } else { k_sem_give(&sock->sock_send_sem); } } /* Handler: @EXTERR: */ static void on_cmd_sockexterror(struct net_buf **buf, u16_t len) { char value[8]; struct wncm14a2a_socket *sock = NULL; net_buf_linearize(value, sizeof(value), *buf, 0, len); ictx.last_error = -atoi(value); SYS_LOG_ERR("@EXTERR:%d", ictx.last_error); sock = socket_from_id(ictx.last_socket_id); if (!sock) { k_sem_give(&ictx.response_sem); } else { k_sem_give(&sock->sock_send_sem); } } /* Handler: @SOCKDIAL: */ static void on_cmd_sockdial(struct net_buf **buf, u16_t len) { char value[8]; net_buf_linearize(value, sizeof(value), *buf, 0, len); ictx.last_error = atoi(value); k_sem_give(&ictx.response_sem); } /* Handler: @SOCKCREAT: */ static void on_cmd_sockcreat(struct net_buf **buf, u16_t len) { char value[2]; struct wncm14a2a_socket *sock = NULL; /* look up new socket by special id */ sock = socket_from_id(MDM_MAX_SOCKETS + 1); if (sock) { /* make sure only a single digit is picked up for socket_id */ value[0] = net_buf_pull_u8(*buf); sock->socket_id = atoi(value); } /* don't give back semaphore -- OK to follow */ } /* Handler: @SOCKWRITE: */ static void on_cmd_sockwrite(struct net_buf **buf, u16_t len) { char value[8]; int write_len; struct wncm14a2a_socket *sock = NULL; /* TODO: check against what we wanted to send */ net_buf_linearize(value, sizeof(value), *buf, 0, len); write_len = atoi(value); if (write_len <= 0) { return; } sock = socket_from_id(ictx.last_socket_id); if (sock) { k_sem_give(&sock->sock_send_sem); } } static void sockreadrecv_cb_work(struct k_work *work) { struct wncm14a2a_socket *sock = NULL; struct net_pkt *pkt; sock = CONTAINER_OF(work, struct wncm14a2a_socket, recv_cb_work); /* return data */ pkt = sock->recv_pkt; sock->recv_pkt = NULL; if (sock->recv_cb) { sock->recv_cb(sock->context, pkt, 0, sock->recv_user_data); } else { net_pkt_unref(pkt); } } /* Handler: @SOCKREAD:,"" */ static void on_cmd_sockread(struct net_buf **buf, u16_t len) { struct wncm14a2a_socket *sock = NULL; struct net_buf *frag; u8_t c = 0; u16_t pos; int i, actual_length, hdr_len = 0; size_t value_size; char value[10]; /* first comma marks the end of actual_length */ i = 0; value_size = sizeof(value); (void)memset(value, 0, value_size); while (*buf && i < value_size) { value[i++] = net_buf_pull_u8(*buf); len--; if (!(*buf)->len) { *buf = net_buf_frag_del(NULL, *buf); } if (value[i-1] == ',') { i--; break; } } /* make sure we still have buf data, the last pulled character was * a comma and that the next char in the buffer is a quote. */ if (!*buf || value[i] != ',' || *(*buf)->data != '\"') { SYS_LOG_ERR("Incorrect format! Ignoring data!"); return; } /* clear the comma */ value[i] = '\0'; actual_length = atoi(value); /* skip quote */ len--; net_buf_pull_u8(*buf); if (!(*buf)->len) { *buf = net_buf_frag_del(NULL, *buf); } /* check that we have enough data */ if (!*buf || len > (actual_length * 2) + 1) { SYS_LOG_ERR("Incorrect format! Ignoring data!"); return; } sock = socket_from_id(ictx.last_socket_id); if (!sock) { SYS_LOG_ERR("Socket not found! (%d)", ictx.last_socket_id); return; } /* allocate an RX pkt */ sock->recv_pkt = net_pkt_get_rx(sock->context, BUF_ALLOC_TIMEOUT); if (!sock->recv_pkt) { SYS_LOG_ERR("Failed net_pkt_get_reserve_rx!"); goto cleanup; } /* set pkt data */ net_pkt_set_context(sock->recv_pkt, sock->context); net_pkt_set_family(sock->recv_pkt, sock->family); /* add a data buffer */ frag = net_pkt_get_frag(sock->recv_pkt, BUF_ALLOC_TIMEOUT); if (!frag) { SYS_LOG_ERR("Failed net_pkt_get_frag!"); net_pkt_unref(sock->recv_pkt); sock->recv_pkt = NULL; goto cleanup; } net_pkt_frag_add(sock->recv_pkt, frag); /* add IP / protocol headers */ hdr_len = net_pkt_setup_ip_data(sock->recv_pkt, sock); /* move hex encoded data from the buffer to the recv_pkt */ for (i = 0; i < actual_length * 2; i++) { char c2 = *(*buf)->data; if (isdigit(c2)) { c += c2 - '0'; } else if (isalpha(c2)) { c += c2 - (isupper(c2) ? 'A' - 10 : 'a' - 10); } else { /* TODO: unexpected input! skip? */ } if (i % 2) { pos = net_pkt_append(sock->recv_pkt, 1, &c, BUF_ALLOC_TIMEOUT); if (pos != 1) { SYS_LOG_ERR("Unable to add data! Aborting!"); net_pkt_unref(sock->recv_pkt); sock->recv_pkt = NULL; goto cleanup; } c = 0; } else { c = c << 4; } /* pull data from buf and advance to the next frag if needed */ net_buf_pull_u8(*buf); if (!(*buf)->len) { *buf = net_buf_frag_del(NULL, *buf); } } net_pkt_set_appdatalen(sock->recv_pkt, actual_length); if (hdr_len > 0) { frag = net_frag_get_pos(sock->recv_pkt, hdr_len, &pos); NET_ASSERT(frag); net_pkt_set_appdata(sock->recv_pkt, frag->data + pos); } else { net_pkt_set_appdata(sock->recv_pkt, sock->recv_pkt->frags->data); } /* Let's do the callback processing in a different work queue in * case the app takes a long time. */ k_work_submit_to_queue(&wncm14a2a_workq, &sock->recv_cb_work); cleanup: sock->socket_reading = false; } /* Handler: @SOCKDATAIND: ,, */ static void on_cmd_sockdataind(struct net_buf **buf, u16_t len) { int socket_id, session_status, left_bytes; char *delim1, *delim2; char value[sizeof("#,#,#####\r")]; char sendbuf[sizeof("AT@SOCKREAD=#,#####\r")]; struct wncm14a2a_socket *sock = NULL; net_buf_linearize(value, sizeof(value), *buf, 0, len); /* First comma separator marks the end of socket_id */ delim1 = strchr(value, ','); if (!delim1) { SYS_LOG_ERR("Missing 1st comma"); return; } *delim1++ = '\0'; socket_id = atoi(value); /* Second comma separator marks the end of session_status */ /* TODO: ignore for now, but maybe this is useful? */ delim2 = strchr(delim1, ','); if (!delim2) { SYS_LOG_ERR("Missing 2nd comma"); return; } *delim2++ = '\0'; session_status = atoi(delim1); /* Third param is for left_bytes */ /* TODO: ignore for now because we ask for max data len * but maybe this is useful in the future? */ left_bytes = atoi(delim2); sock = socket_from_id(socket_id); if (!sock) { SYS_LOG_ERR("Unable to find socket_id:%d", socket_id); return; } if (left_bytes > 0) { if (!sock->socket_reading) { SYS_LOG_DBG("socket_id:%d left_bytes:%d", socket_id, left_bytes); /* TODO: add a timeout to unset this */ sock->socket_reading = true; snprintk(sendbuf, sizeof(sendbuf), "AT@SOCKREAD=%d,%d", sock->socket_id, left_bytes); /* We still have a lock from hitting this cmd trigger, * so don't hold one when we send the new command */ send_at_cmd(sock, sendbuf, K_NO_WAIT); } else { SYS_LOG_DBG("SKIPPING socket_id:%d left_bytes:%d", socket_id, left_bytes); } } } static void on_cmd_socknotifyev(struct net_buf **buf, u16_t len) { char value[40]; int p1 = 0, p2 = 0; net_buf_linearize(value, sizeof(value), *buf, 0, len); /* walk value till 1st quote */ while (p1 < len && value[p1] != '\"') { p1++; } if (value[p1] != '\"') { /* 1st quote not found */ return; } p1++; p2 = p1; while (p2 < len && value[p2] != '\"') { p2++; } if (value[p2] != '\"') { /* 2nd quote not found */ return; } /* clear quote */ value[p2] = '\0'; p2++; /* skip comma if present */ if (value[p2] == ',') { p2++; } /* CSPS: 0: Moved to PS mode, 1: Moved to CS/PS mode */ if (!strncmp(&value[p1], "CSPS", 4)) { ictx.ev_csps = atoi(&value[p2]); /* This also signifies that RRCSTATE = 1 */ ictx.ev_rrcstate = 1; SYS_LOG_DBG("CSPS:%d", ictx.ev_csps); /* RRCSTATE: 0: RRC Idle, 1: RRC Connected, 2: RRC Unknown */ } else if (!strncmp(&value[p1], "RRCSTATE", 8)) { ictx.ev_rrcstate = atoi(&value[p2]); SYS_LOG_DBG("RRCSTATE:%d", ictx.ev_rrcstate); } else if (!strncmp(&value[p1], "LTIME", 5)) { /* local time from network */ SYS_LOG_INF("LTIME:%s", &value[p2]); } else if (!strncmp(&value[p1], "SIB1", 4)) { /* do nothing? */ SYS_LOG_DBG("SIB1"); } else { SYS_LOG_DBG("UNHANDLED: [%s:%s]", &value[p1], &value[p2]); } } static int net_buf_ncmp(struct net_buf *buf, const u8_t *s2, size_t n) { struct net_buf *frag = buf; u16_t offset = 0; while ((n > 0) && (*(frag->data + offset) == *s2) && (*s2 != '\0')) { if (offset == frag->len) { if (!frag->frags) { break; } frag = frag->frags; offset = 0; } else { offset++; } s2++; n--; } return (n == 0) ? 0 : (*(frag->data + offset) - *s2); } static inline struct net_buf *read_rx_allocator(s32_t timeout, void *user_data) { return net_buf_alloc((struct net_buf_pool *)user_data, timeout); } static void wncm14a2a_read_rx(struct net_buf **buf) { u8_t uart_buffer[MDM_RECV_BUF_SIZE]; size_t bytes_read = 0; int ret; u16_t rx_len; /* read all of the data from mdm_receiver */ while (true) { ret = mdm_receiver_recv(&ictx.mdm_ctx, uart_buffer, sizeof(uart_buffer), &bytes_read); if (ret < 0) { /* mdm_receiver buffer is empty */ break; } _hexdump(uart_buffer, bytes_read); /* make sure we have storage */ if (!*buf) { *buf = net_buf_alloc(&mdm_recv_pool, BUF_ALLOC_TIMEOUT); if (!*buf) { SYS_LOG_ERR("Can't allocate RX data! " "Skipping data!"); break; } } rx_len = net_buf_append_bytes(*buf, bytes_read, uart_buffer, BUF_ALLOC_TIMEOUT, read_rx_allocator, &mdm_recv_pool); if (rx_len < bytes_read) { SYS_LOG_ERR("Data was lost! read %u of %u!", rx_len, bytes_read); } } } /* RX thread */ static void wncm14a2a_rx(void) { struct net_buf *rx_buf = NULL; struct net_buf *frag = NULL; int i; u16_t offset, len; static const struct cmd_handler handlers[] = { /* NON-SOCKET COMMAND ECHOES to clear last_socket_id */ CMD_HANDLER("ATE1", atcmdecho_nosock), CMD_HANDLER("AT%PDNSET=", atcmdecho_nosock), CMD_HANDLER("ATI", atcmdecho_nosock), CMD_HANDLER("AT+CGSN", atcmdecho_nosock_imei), CMD_HANDLER("AT%MEAS=", atcmdecho_nosock), CMD_HANDLER("AT@INTERNET=", atcmdecho_nosock), CMD_HANDLER("AT@SOCKDIAL=", atcmdecho_nosock), CMD_HANDLER("AT@SOCKCREAT=", atcmdecho_nosock), /* SOCKET COMMAND ECHOES for last_socket_id processing */ CMD_HANDLER("AT@SOCKCONN=", atcmdecho), CMD_HANDLER("AT@SOCKWRITE=", atcmdecho), CMD_HANDLER("AT@SOCKREAD=", atcmdecho), CMD_HANDLER("AT@SOCKCLOSE=", atcmdecho), /* MODEM Information */ CMD_HANDLER("Manufacturer: ", atcmdinfo_manufacturer), CMD_HANDLER("Model: ", atcmdinfo_model), CMD_HANDLER("Revision: ", atcmdinfo_revision), CMD_HANDLER("%MEAS: RSSI:", atcmdinfo_rssi), /* SOLICITED SOCKET RESPONSES */ CMD_HANDLER("OK", sockok), CMD_HANDLER("ERROR", sockerror), CMD_HANDLER("@EXTERR:", sockexterror), CMD_HANDLER("@SOCKDIAL:", sockdial), CMD_HANDLER("@SOCKCREAT:", sockcreat), CMD_HANDLER("@OCKCREAT:", sockcreat), /* seeing this a lot */ CMD_HANDLER("@SOCKWRITE:", sockwrite), CMD_HANDLER("@SOCKREAD:", sockread), /* UNSOLICITED SOCKET RESPONSES */ CMD_HANDLER("@SOCKDATAIND:", sockdataind), CMD_HANDLER("%NOTIFYEV:", socknotifyev), }; while (true) { /* wait for incoming data */ k_sem_take(&ictx.mdm_ctx.rx_sem, K_FOREVER); wncm14a2a_read_rx(&rx_buf); while (rx_buf) { net_buf_skipcrlf(&rx_buf); if (!rx_buf) { break; } frag = NULL; len = net_buf_findcrlf(rx_buf, &frag, &offset); if (!frag) { break; } /* look for matching data handlers */ i = -1; for (i = 0; i < ARRAY_SIZE(handlers); i++) { if (net_buf_ncmp(rx_buf, handlers[i].cmd, handlers[i].cmd_len) == 0) { /* found a matching handler */ SYS_LOG_DBG("MATCH %s (len:%u)", handlers[i].cmd, len); /* skip cmd_len */ rx_buf = net_buf_skip(rx_buf, handlers[i].cmd_len); /* locate next cr/lf */ frag = NULL; len = net_buf_findcrlf(rx_buf, &frag, &offset); if (!frag) { break; } /* call handler */ if (handlers[i].func) { handlers[i].func(&rx_buf, len); } frag = NULL; /* make sure buf still has data */ if (!rx_buf) { break; } /* locate next cr/lf */ len = net_buf_findcrlf(rx_buf, &frag, &offset); if (!frag) { break; } break; } } if (frag && rx_buf) { /* clear out processed line (buffers) */ while (frag && rx_buf != frag) { rx_buf = net_buf_frag_del(NULL, rx_buf); } net_buf_pull(rx_buf, offset); } } /* give up time if we have a solid stream of data */ k_yield(); } } static int modem_pin_init(void) { SYS_LOG_INF("Setting Modem Pins"); /* Hard reset the modem (>5 seconds required) * (doesn't go through the signal level translator) */ SYS_LOG_DBG("MDM_RESET_PIN -> ASSERTED"); gpio_pin_write(ictx.gpio_port_dev[MDM_RESET], pinconfig[MDM_RESET].pin, MDM_RESET_ASSERTED); k_sleep(K_SECONDS(7)); SYS_LOG_DBG("MDM_RESET_PIN -> NOT_ASSERTED"); gpio_pin_write(ictx.gpio_port_dev[MDM_RESET], pinconfig[MDM_RESET].pin, MDM_RESET_NOT_ASSERTED); /* disable signal level translator (necessary * for the modem to boot properly). All signals * except mdm_reset go through the level translator * and have internal pull-up/down in the module. While * the level translator is disabled, these pins will * be in the correct state. */ SYS_LOG_DBG("SIG_TRANS_ENA_PIN -> DISABLED"); gpio_pin_write(ictx.gpio_port_dev[SHLD_3V3_1V8_SIG_TRANS_ENA], pinconfig[SHLD_3V3_1V8_SIG_TRANS_ENA].pin, SHLD_3V3_1V8_SIG_TRANS_DISABLED); /* While the level translator is disabled and ouptut pins * are tristated, make sure the inputs are in the same state * as the WNC Module pins so that when the level translator is * enabled, there are no differences. */ SYS_LOG_DBG("MDM_BOOT_MODE_SEL_PIN -> NORMAL"); gpio_pin_write(ictx.gpio_port_dev[MDM_BOOT_MODE_SEL], pinconfig[MDM_BOOT_MODE_SEL].pin, MDM_BOOT_MODE_NORMAL); SYS_LOG_DBG("MDM_POWER_PIN -> ENABLE"); gpio_pin_write(ictx.gpio_port_dev[MDM_POWER], pinconfig[MDM_POWER].pin, MDM_POWER_ENABLE); SYS_LOG_DBG("MDM_KEEP_AWAKE_PIN -> ENABLED"); gpio_pin_write(ictx.gpio_port_dev[MDM_KEEP_AWAKE], pinconfig[MDM_KEEP_AWAKE].pin, MDM_KEEP_AWAKE_ENABLED); #ifdef CONFIG_WNCM14A2A_GPIO_MDM_SEND_OK_PIN SYS_LOG_DBG("MDM_SEND_OK_PIN -> ENABLED"); gpio_pin_write(ictx.gpio_port_dev[MDM_SEND_OK], pinconfig[MDM_SEND_OK].pin, MDM_SEND_OK_ENABLED); #endif /* wait for the WNC Module to perform its initial boot correctly */ k_sleep(K_SECONDS(1)); /* Enable the level translator. * The input pins should now be the same as how the M14A module is * driving them with internal pull ups/downs. * When enabled, there will be no changes in the above 4 pins... */ SYS_LOG_DBG("SIG_TRANS_ENA_PIN -> ENABLED"); gpio_pin_write(ictx.gpio_port_dev[SHLD_3V3_1V8_SIG_TRANS_ENA], pinconfig[SHLD_3V3_1V8_SIG_TRANS_ENA].pin, SHLD_3V3_1V8_SIG_TRANS_ENABLED); SYS_LOG_INF("... Done!"); return 0; } static void modem_wakeup_pin_fix(void) { /* AT&T recommend toggling the KEEP_AWAKE signal to reduce missed * UART characters. */ SYS_LOG_DBG("Toggling MDM_KEEP_AWAKE_PIN to avoid missed characters"); k_sleep(K_MSEC(20)); SYS_LOG_DBG("MDM_KEEP_AWAKE_PIN -> DISABLED"); gpio_pin_write(ictx.gpio_port_dev[MDM_KEEP_AWAKE], pinconfig[MDM_KEEP_AWAKE].pin, MDM_KEEP_AWAKE_DISABLED); k_sleep(K_SECONDS(2)); SYS_LOG_DBG("MDM_KEEP_AWAKE_PIN -> ENABLED"); gpio_pin_write(ictx.gpio_port_dev[MDM_KEEP_AWAKE], pinconfig[MDM_KEEP_AWAKE].pin, MDM_KEEP_AWAKE_ENABLED); k_sleep(K_MSEC(20)); } static void wncm14a2a_rssi_query_work(struct k_work *work) { int ret; /* query modem RSSI */ ret = send_at_cmd(NULL, "AT%MEAS=\"23\"", MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("AT%%MEAS ret:%d", ret); return; } /* re-start RSSI query work */ k_delayed_work_submit_to_queue(&wncm14a2a_workq, &ictx.rssi_query_work, K_SECONDS(RSSI_TIMEOUT_SECS)); } static void wncm14a2a_modem_reset(void) { int ret = 0, retry_count = 0, counter = 0; /* bring down network interface */ atomic_clear_bit(ictx.iface->if_dev->flags, NET_IF_UP); restart: /* stop RSSI delay work */ k_delayed_work_cancel(&ictx.rssi_query_work); modem_pin_init(); SYS_LOG_INF("Waiting for modem to respond"); /* Give the modem a while to start responding to simple 'AT' commands. * Also wait for CSPS=1 or RRCSTATE=1 notification */ ret = -1; while (counter++ < 50 && ret < 0) { k_sleep(K_SECONDS(2)); ret = send_at_cmd(NULL, "AT", MDM_CMD_TIMEOUT); if (ret < 0 && ret != -ETIMEDOUT) { break; } } if (ret < 0) { SYS_LOG_ERR("MODEM WAIT LOOP ERROR: %d", ret); goto error; } SYS_LOG_INF("Setting modem to always stay awake"); modem_wakeup_pin_fix(); ret = send_at_cmd(NULL, "ATE1", MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("ATE1 ret:%d", ret); goto error; } ret = send_at_cmd(NULL, "AT%PDNSET=1,\"" CONFIG_MODEM_WNCM14A2A_APN_NAME "\",\"IPV4V6\"", MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("AT%%PDNSET ret:%d", ret); goto error; } /* query modem info */ SYS_LOG_INF("Querying modem information"); ret = send_at_cmd(NULL, "ATI", MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("ATI ret:%d", ret); goto error; } /* query modem IMEI */ ret = send_at_cmd(NULL, "AT+CGSN", MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("AT+CGSN ret:%d", ret); goto error; } SYS_LOG_INF("Waiting for network"); /* query modem RSSI */ wncm14a2a_rssi_query_work(NULL); k_sleep(K_SECONDS(2)); counter = 0; /* wait for RSSI > -1000 and != 0 */ while (counter++ < 15 && (ictx.mdm_ctx.data_rssi <= -1000 || ictx.mdm_ctx.data_rssi == 0)) { /* stop RSSI delay work */ k_delayed_work_cancel(&ictx.rssi_query_work); wncm14a2a_rssi_query_work(NULL); k_sleep(K_SECONDS(2)); } if (ictx.mdm_ctx.data_rssi <= -1000 || ictx.mdm_ctx.data_rssi == 0) { retry_count++; if (retry_count > 3) { SYS_LOG_ERR("Failed network init. Too many attempts!"); ret = -ENETUNREACH; goto error; } SYS_LOG_ERR("Failed network init. Restarting process."); goto restart; } SYS_LOG_INF("Network is ready."); ret = send_at_cmd(NULL, "AT@INTERNET=1", MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("AT@INTERNET ret:%d", ret); goto error; } ret = send_at_cmd(NULL, "AT@SOCKDIAL=1", MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("SOCKDIAL=1 CHECK ret:%d", ret); /* don't report this as an error, we retry later */ ret = 0; } /* Set iface up */ net_if_up(ictx.iface); error: return; } static void wncm14a2a_modem_reset_work(struct k_work *work) { wncm14a2a_modem_reset(); } static int wncm14a2a_init(struct device *dev) { static struct k_delayed_work reset_work; int i, ret = 0; ARG_UNUSED(dev); /* check for valid pinconfig */ __ASSERT(sizeof(pinconfig) == MAX_MDM_CONTROL_PINS, "Incorrect modem pinconfig!"); (void)memset(&ictx, 0, sizeof(ictx)); for (i = 0; i < MDM_MAX_SOCKETS; i++) { k_work_init(&ictx.sockets[i].recv_cb_work, sockreadrecv_cb_work); k_sem_init(&ictx.sockets[i].sock_send_sem, 0, 1); } k_sem_init(&ictx.response_sem, 0, 1); /* initialize the work queue */ k_work_q_start(&wncm14a2a_workq, wncm14a2a_workq_stack, K_THREAD_STACK_SIZEOF(wncm14a2a_workq_stack), K_PRIO_COOP(7)); ictx.last_socket_id = 0; /* setup port devices and pin directions */ for (i = 0; i < MAX_MDM_CONTROL_PINS; i++) { ictx.gpio_port_dev[i] = device_get_binding(pinconfig[i].dev_name); if (!ictx.gpio_port_dev[i]) { SYS_LOG_ERR("gpio port (%s) not found!", pinconfig[i].dev_name); return -ENODEV; } gpio_pin_configure(ictx.gpio_port_dev[i], pinconfig[i].pin, GPIO_DIR_OUT); } /* Set modem data storage */ ictx.mdm_ctx.data_manufacturer = ictx.mdm_manufacturer; ictx.mdm_ctx.data_model = ictx.mdm_model; ictx.mdm_ctx.data_revision = ictx.mdm_revision; ictx.mdm_ctx.data_imei = ictx.mdm_imei; ret = mdm_receiver_register(&ictx.mdm_ctx, MDM_UART_DEV_NAME, mdm_recv_buf, sizeof(mdm_recv_buf)); if (ret < 0) { SYS_LOG_ERR("Error registering modem receiver (%d)!", ret); goto error; } /* start RX thread */ k_thread_create(&wncm14a2a_rx_thread, wncm14a2a_rx_stack, K_THREAD_STACK_SIZEOF(wncm14a2a_rx_stack), (k_thread_entry_t) wncm14a2a_rx, NULL, NULL, NULL, K_PRIO_COOP(7), 0, K_NO_WAIT); /* init RSSI query */ k_delayed_work_init(&ictx.rssi_query_work, wncm14a2a_rssi_query_work); /* Let's start the modem reset in a workq so that init can proceed */ k_delayed_work_init(&reset_work, wncm14a2a_modem_reset_work); ret = k_delayed_work_submit_to_queue(&wncm14a2a_workq, &reset_work, K_MSEC(10)); error: return ret; } /*** OFFLOAD FUNCTIONS ***/ static int offload_get(sa_family_t family, enum net_sock_type type, enum net_ip_protocol ip_proto, struct net_context **context) { int ret; char buf[sizeof("AT@SOCKCREAT=#,#\r")]; struct wncm14a2a_socket *sock = NULL; /* new socket */ sock = socket_get(); if (!sock) { return -ENOMEM; } (*context)->offload_context = sock; sock->family = family; sock->type = type; sock->ip_proto = ip_proto; sock->context = *context; sock->socket_id = MDM_MAX_SOCKETS + 1; /* socket # needs assigning */ snprintk(buf, sizeof(buf), "AT@SOCKCREAT=%d,%d", type, family == AF_INET ? 0 : 1); ret = send_at_cmd(NULL, buf, MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("AT@SOCKCREAT ret:%d", ret); socket_put(sock); } return ret; } static int offload_bind(struct net_context *context, const struct sockaddr *addr, socklen_t addrlen) { struct wncm14a2a_socket *sock = NULL; if (!context) { return -EINVAL; } sock = (struct wncm14a2a_socket *)context->offload_context; if (!sock) { SYS_LOG_ERR("Can't locate socket for net_ctx:%p!", context); return -EINVAL; } /* save bind address information */ sock->src.sa_family = addr->sa_family; #if defined(CONFIG_NET_IPV6) if (addr->sa_family == AF_INET6) { net_ipaddr_copy(&net_sin6(&sock->src)->sin6_addr, &net_sin6(addr)->sin6_addr); net_sin6(&sock->src)->sin6_port = net_sin6(addr)->sin6_port; } else #endif #if defined(CONFIG_NET_IPV4) if (addr->sa_family == AF_INET) { net_ipaddr_copy(&net_sin(&sock->src)->sin_addr, &net_sin(addr)->sin_addr); net_sin(&sock->src)->sin_port = net_sin(addr)->sin_port; } else #endif { return -EPFNOSUPPORT; } return 0; } static int offload_listen(struct net_context *context, int backlog) { /* NOT IMPLEMENTED */ return -ENOTSUP; } static int offload_connect(struct net_context *context, const struct sockaddr *addr, socklen_t addrlen, net_context_connect_cb_t cb, s32_t timeout, void *user_data) { int ret, dst_port = -1; s32_t timeout_sec = timeout / MSEC_PER_SEC; char buf[sizeof("AT@SOCKCONN=#,###.###.###.###,#####,#####\r")]; struct wncm14a2a_socket *sock; if (!context || !addr) { return -EINVAL; } sock = (struct wncm14a2a_socket *)context->offload_context; if (!sock) { SYS_LOG_ERR("Can't locate socket for net_ctx:%p!", context); return -EINVAL; } if (sock->socket_id < 1) { SYS_LOG_ERR("Invalid socket_id(%d) for net_ctx:%p!", sock->socket_id, context); return -EINVAL; } sock->dst.sa_family = addr->sa_family; #if defined(CONFIG_NET_IPV6) if (addr->sa_family == AF_INET6) { net_ipaddr_copy(&net_sin6(&sock->dst)->sin6_addr, &net_sin6(addr)->sin6_addr); dst_port = ntohs(net_sin6(addr)->sin6_port); net_sin6(&sock->dst)->sin6_port = dst_port; } else #endif #if defined(CONFIG_NET_IPV4) if (addr->sa_family == AF_INET) { net_ipaddr_copy(&net_sin(&sock->dst)->sin_addr, &net_sin(addr)->sin_addr); dst_port = ntohs(net_sin(addr)->sin_port); net_sin(&sock->dst)->sin_port = dst_port; } else #endif { return -EINVAL; } if (dst_port < 0) { SYS_LOG_ERR("Invalid port: %d", dst_port); return -EINVAL; } /* minimum timeout in seconds is 30 */ if (timeout_sec < 30) { timeout_sec = 30; } snprintk(buf, sizeof(buf), "AT@SOCKCONN=%d,\"%s\",%d,%d", sock->socket_id, wncm14a2a_sprint_ip_addr(addr), dst_port, timeout_sec); ret = send_at_cmd(sock, buf, MDM_CMD_CONN_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("AT@SOCKCONN ret:%d", ret); } if (cb) { cb(context, ret, user_data); } return ret; } static int offload_accept(struct net_context *context, net_tcp_accept_cb_t cb, s32_t timeout, void *user_data) { /* NOT IMPLEMENTED */ return -ENOTSUP; } static int offload_sendto(struct net_pkt *pkt, const struct sockaddr *dst_addr, socklen_t addrlen, net_context_send_cb_t cb, s32_t timeout, void *token, void *user_data) { struct net_context *context = net_pkt_context(pkt); struct wncm14a2a_socket *sock; int ret = 0; if (!context) { return -EINVAL; } sock = (struct wncm14a2a_socket *)context->offload_context; if (!sock) { SYS_LOG_ERR("Can't locate socket for net_ctx:%p!", context); return -EINVAL; } ret = send_data(sock, pkt); if (ret < 0) { SYS_LOG_ERR("send_data error: %d", ret); } net_pkt_unref(pkt); if (cb) { cb(context, ret, token, user_data); } return ret; } static int offload_send(struct net_pkt *pkt, net_context_send_cb_t cb, s32_t timeout, void *token, void *user_data) { struct net_context *context = net_pkt_context(pkt); socklen_t addrlen; addrlen = 0; #if defined(CONFIG_NET_IPV6) if (net_pkt_family(pkt) == AF_INET6) { addrlen = sizeof(struct sockaddr_in6); } else #endif /* CONFIG_NET_IPV6 */ #if defined(CONFIG_NET_IPV4) if (net_pkt_family(pkt) == AF_INET) { addrlen = sizeof(struct sockaddr_in); } else #endif /* CONFIG_NET_IPV4 */ { return -EPFNOSUPPORT; } return offload_sendto(pkt, &context->remote, addrlen, cb, timeout, token, user_data); } static int offload_recv(struct net_context *context, net_context_recv_cb_t cb, s32_t timeout, void *user_data) { struct wncm14a2a_socket *sock; if (!context) { return -EINVAL; } sock = (struct wncm14a2a_socket *)context->offload_context; if (!sock) { SYS_LOG_ERR("Can't locate socket for net_ctx:%p!", context); return -EINVAL; } sock->recv_cb = cb; sock->recv_user_data = user_data; return 0; } static int offload_put(struct net_context *context) { struct wncm14a2a_socket *sock; char buf[sizeof("AT@SOCKCLOSE=#\r")]; int ret; if (!context) { return -EINVAL; } sock = (struct wncm14a2a_socket *)context->offload_context; if (!sock) { /* socket was already closed? Exit quietly here. */ return 0; } snprintk(buf, sizeof(buf), "AT@SOCKCLOSE=%d", sock->socket_id); ret = send_at_cmd(sock, buf, MDM_CMD_TIMEOUT); if (ret < 0) { SYS_LOG_ERR("AT@SOCKCLOSE ret:%d", ret); } /* clear last_socket_id */ ictx.last_socket_id = 0; sock->context->connect_cb = NULL; sock->context->recv_cb = NULL; sock->context->send_cb = NULL; socket_put(sock); net_context_unref(context); return 0; } static struct net_offload offload_funcs = { .get = offload_get, .bind = offload_bind, .listen = offload_listen, /* TODO */ .connect = offload_connect, .accept = offload_accept, /* TODO */ .send = offload_send, .sendto = offload_sendto, .recv = offload_recv, .put = offload_put, }; static inline u8_t *wncm14a2a_get_mac(struct device *dev) { struct wncm14a2a_iface_ctx *ctx = dev->driver_data; ctx->mac_addr[0] = 0x00; ctx->mac_addr[1] = 0x10; UNALIGNED_PUT(sys_cpu_to_be32(sys_rand32_get()), (u32_t *) ((void *)ctx->mac_addr+2)); return ctx->mac_addr; } static void offload_iface_init(struct net_if *iface) { struct device *dev = net_if_get_device(iface); struct wncm14a2a_iface_ctx *ctx = dev->driver_data; iface->if_dev->offload = &offload_funcs; net_if_set_link_addr(iface, wncm14a2a_get_mac(dev), sizeof(ctx->mac_addr), NET_LINK_ETHERNET); ctx->iface = iface; } static struct net_if_api api_funcs = { .init = offload_iface_init, .send = NULL, }; NET_DEVICE_OFFLOAD_INIT(modem_wncm14a2a, "MODEM_WNCM14A2A", wncm14a2a_init, &ictx, NULL, CONFIG_MODEM_WNCM14A2A_INIT_PRIORITY, &api_funcs, MDM_MAX_DATA_LENGTH);