mbed-os
Fork of mbed-os by
features/FEATURE_LWIP/lwip-interface/lwip_stack.c
- Committer:
- xuaner
- Date:
- 2017-07-20
- Revision:
- 1:3deb71413561
- Parent:
- 0:f269e3021894
File content as of revision 1:3deb71413561:
/* LWIP implementation of NetworkInterfaceAPI * Copyright (c) 2015 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "nsapi.h" #include "mbed_interface.h" #include <stdio.h> #include <stdbool.h> #include <string.h> #include "eth_arch.h" #include "lwip/opt.h" #include "lwip/api.h" #include "lwip/inet.h" #include "lwip/netif.h" #include "lwip/dhcp.h" #include "lwip/tcpip.h" #include "lwip/tcp.h" #include "lwip/ip.h" #include "lwip/mld6.h" #include "lwip/dns.h" #include "lwip/udp.h" #include "emac_api.h" #if DEVICE_EMAC #define MBED_NETIF_INIT_FN emac_lwip_if_init #else #define MBED_NETIF_INIT_FN eth_arch_enetif_init #endif #define DHCP_TIMEOUT 15000 /* Static arena of sockets */ static struct lwip_socket { bool in_use; struct netconn *conn; struct netbuf *buf; u16_t offset; void (*cb)(void *); void *data; } lwip_arena[MEMP_NUM_NETCONN]; static bool lwip_connected = false; static void mbed_lwip_arena_init(void) { memset(lwip_arena, 0, sizeof lwip_arena); } static struct lwip_socket *mbed_lwip_arena_alloc(void) { sys_prot_t prot = sys_arch_protect(); for (int i = 0; i < MEMP_NUM_NETCONN; i++) { if (!lwip_arena[i].in_use) { struct lwip_socket *s = &lwip_arena[i]; memset(s, 0, sizeof *s); s->in_use = true; sys_arch_unprotect(prot); return s; } } sys_arch_unprotect(prot); return 0; } static void mbed_lwip_arena_dealloc(struct lwip_socket *s) { s->in_use = false; } static void mbed_lwip_socket_callback(struct netconn *nc, enum netconn_evt eh, u16_t len) { sys_prot_t prot = sys_arch_protect(); for (int i = 0; i < MEMP_NUM_NETCONN; i++) { if (lwip_arena[i].in_use && lwip_arena[i].conn == nc && lwip_arena[i].cb) { lwip_arena[i].cb(lwip_arena[i].data); } } sys_arch_unprotect(prot); } /* TCP/IP and Network Interface Initialisation */ static struct netif lwip_netif; static bool lwip_dhcp = false; static char lwip_mac_address[NSAPI_MAC_SIZE] = "\0"; #if !LWIP_IPV4 || !LWIP_IPV6 static bool all_zeros(const uint8_t *p, int len) { for (int i = 0; i < len; i++) { if (p[i]) { return false; } } return true; } #endif static bool convert_mbed_addr_to_lwip(ip_addr_t *out, const nsapi_addr_t *in) { #if LWIP_IPV6 if (in->version == NSAPI_IPv6) { IP_SET_TYPE(out, IPADDR_TYPE_V6); MEMCPY(ip_2_ip6(out), in->bytes, sizeof(ip6_addr_t)); return true; } #if !LWIP_IPV4 /* For bind() and other purposes, need to accept "null" of other type */ /* (People use IPv4 0.0.0.0 as a general null) */ if (in->version == NSAPI_IPv4 && all_zeros(in->bytes, 4)) { ip_addr_set_zero_ip6(out); return true; } #endif #endif #if LWIP_IPV4 if (in->version == NSAPI_IPv4) { IP_SET_TYPE(out, IPADDR_TYPE_V4); MEMCPY(ip_2_ip4(out), in->bytes, sizeof(ip4_addr_t)); return true; } #if !LWIP_IPV6 /* For symmetry with above, accept IPv6 :: as a general null */ if (in->version == NSAPI_IPv6 && all_zeros(in->bytes, 16)) { ip_addr_set_zero_ip4(out); return true; } #endif #endif return false; } static bool convert_lwip_addr_to_mbed(nsapi_addr_t *out, const ip_addr_t *in) { #if LWIP_IPV6 if (IP_IS_V6(in)) { out->version = NSAPI_IPv6; MEMCPY(out->bytes, ip_2_ip6(in), sizeof(ip6_addr_t)); return true; } #endif #if LWIP_IPV4 if (IP_IS_V4(in)) { out->version = NSAPI_IPv4; MEMCPY(out->bytes, ip_2_ip4(in), sizeof(ip4_addr_t)); return true; } #endif return false; } static const ip_addr_t *mbed_lwip_get_ipv4_addr(const struct netif *netif) { #if LWIP_IPV4 if (!netif_is_up(netif)) { return NULL; } if (!ip4_addr_isany(netif_ip4_addr(netif))) { return netif_ip_addr4(netif); } #endif return NULL; } static const ip_addr_t *mbed_lwip_get_ipv6_addr(const struct netif *netif) { #if LWIP_IPV6 if (!netif_is_up(netif)) { return NULL; } for (int i = 0; i < LWIP_IPV6_NUM_ADDRESSES; i++) { if (ip6_addr_isvalid(netif_ip6_addr_state(netif, i)) && !ip6_addr_islinklocal(netif_ip6_addr(netif, i))) { return netif_ip_addr6(netif, i); } } #endif return NULL; } const ip_addr_t *mbed_lwip_get_ip_addr(bool any_addr, const struct netif *netif) { const ip_addr_t *pref_ip_addr = 0; const ip_addr_t *npref_ip_addr = 0; #if IP_VERSION_PREF == PREF_IPV4 pref_ip_addr = mbed_lwip_get_ipv4_addr(netif); npref_ip_addr = mbed_lwip_get_ipv6_addr(netif); #else pref_ip_addr = mbed_lwip_get_ipv6_addr(netif); npref_ip_addr = mbed_lwip_get_ipv4_addr(netif); #endif if (pref_ip_addr) { return pref_ip_addr; } else if (npref_ip_addr && any_addr) { return npref_ip_addr; } return NULL; } #if LWIP_IPV6 void add_dns_addr(struct netif *lwip_netif) { const ip_addr_t *ip_addr = mbed_lwip_get_ip_addr(true, lwip_netif); if (ip_addr) { if (IP_IS_V6(ip_addr)) { const ip_addr_t *dns_ip_addr; bool dns_addr_exists = false; for (char numdns = 0; numdns < DNS_MAX_SERVERS; numdns++) { dns_ip_addr = dns_getserver(numdns); if (!ip_addr_isany(dns_ip_addr)) { dns_addr_exists = true; break; } } if (!dns_addr_exists) { /* 2001:4860:4860::8888 google */ ip_addr_t ipv6_dns_addr = IPADDR6_INIT( PP_HTONL(0x20014860UL), PP_HTONL(0x48600000UL), PP_HTONL(0x00000000UL), PP_HTONL(0x00008888UL)); dns_setserver(0, &ipv6_dns_addr); } } } } #endif static sys_sem_t lwip_tcpip_inited; static void mbed_lwip_tcpip_init_irq(void *eh) { sys_sem_signal(&lwip_tcpip_inited); } static sys_sem_t lwip_netif_linked; static void mbed_lwip_netif_link_irq(struct netif *lwip_netif) { if (netif_is_link_up(lwip_netif)) { sys_sem_signal(&lwip_netif_linked); } } static sys_sem_t lwip_netif_has_addr; static void mbed_lwip_netif_status_irq(struct netif *lwip_netif) { static bool any_addr = true; // Indicates that has address if (any_addr == true && mbed_lwip_get_ip_addr(true, lwip_netif)) { sys_sem_signal(&lwip_netif_has_addr); any_addr = false; return; } // Indicates that has preferred address if (mbed_lwip_get_ip_addr(false, lwip_netif)) { sys_sem_signal(&lwip_netif_has_addr); } } static void mbed_lwip_set_mac_address(void) { #if (MBED_MAC_ADDRESS_SUM != MBED_MAC_ADDR_INTERFACE) snprintf(lwip_mac_address, 19, "%02x:%02x:%02x:%02x:%02x:%02x", MBED_MAC_ADDR_0, MBED_MAC_ADDR_1, MBED_MAC_ADDR_2, MBED_MAC_ADDR_3, MBED_MAC_ADDR_4, MBED_MAC_ADDR_5); #else char mac[6]; mbed_mac_address(mac); snprintf(lwip_mac_address, 19, "%02x:%02x:%02x:%02x:%02x:%02x", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]); #endif } /* LWIP interface implementation */ const char *mbed_lwip_get_mac_address(void) { return lwip_mac_address[0] ? lwip_mac_address : 0; } char *mbed_lwip_get_ip_address(char *buf, int buflen) { const ip_addr_t *addr = mbed_lwip_get_ip_addr(true, &lwip_netif); if (!addr) { return NULL; } #if LWIP_IPV6 if (IP_IS_V6(addr)) { return ip6addr_ntoa_r(ip_2_ip6(addr), buf, buflen); } #endif #if LWIP_IPV4 if (IP_IS_V4(addr)) { return ip4addr_ntoa_r(ip_2_ip4(addr), buf, buflen); } #endif return NULL; } const char *mbed_lwip_get_netmask(char *buf, int buflen) { #if LWIP_IPV4 const ip4_addr_t *addr = netif_ip4_netmask(&lwip_netif); if (!ip4_addr_isany(addr)) { return ip4addr_ntoa_r(addr, buf, buflen); } else { return NULL; } #else return NULL; #endif } char *mbed_lwip_get_gateway(char *buf, int buflen) { #if LWIP_IPV4 const ip4_addr_t *addr = netif_ip4_gw(&lwip_netif); if (!ip4_addr_isany(addr)) { return ip4addr_ntoa_r(addr, buf, buflen); } else { return NULL; } #else return NULL; #endif } int mbed_lwip_init(emac_interface_t *emac) { // Check if we've already brought up lwip if (!mbed_lwip_get_mac_address()) { // Set up network mbed_lwip_set_mac_address(); sys_sem_new(&lwip_tcpip_inited, 0); sys_sem_new(&lwip_netif_linked, 0); sys_sem_new(&lwip_netif_has_addr, 0); tcpip_init(mbed_lwip_tcpip_init_irq, NULL); sys_arch_sem_wait(&lwip_tcpip_inited, 0); memset(&lwip_netif, 0, sizeof lwip_netif); if (!netif_add(&lwip_netif, #if LWIP_IPV4 0, 0, 0, #endif emac, MBED_NETIF_INIT_FN, tcpip_input)) { return NSAPI_ERROR_DEVICE_ERROR; } netif_set_default(&lwip_netif); netif_set_link_callback(&lwip_netif, mbed_lwip_netif_link_irq); netif_set_status_callback(&lwip_netif, mbed_lwip_netif_status_irq); #if !DEVICE_EMAC eth_arch_enable_interrupts(); #endif } return NSAPI_ERROR_OK; } int mbed_lwip_bringup(bool dhcp, const char *ip, const char *netmask, const char *gw) { // Check if we've already connected if (lwip_connected) { return NSAPI_ERROR_PARAMETER; } if(mbed_lwip_init(NULL) != NSAPI_ERROR_OK) { return NSAPI_ERROR_DEVICE_ERROR; } // Zero out socket set mbed_lwip_arena_init(); #if LWIP_IPV6 netif_create_ip6_linklocal_address(&lwip_netif, 1/*from MAC*/); #if LWIP_IPV6_MLD /* * For hardware/netifs that implement MAC filtering. * All-nodes link-local is handled by default, so we must let the hardware know * to allow multicast packets in. * Should set mld_mac_filter previously. */ if (lwip_netif.mld_mac_filter != NULL) { ip6_addr_t ip6_allnodes_ll; ip6_addr_set_allnodes_linklocal(&ip6_allnodes_ll); lwip_netif.mld_mac_filter(&lwip_netif, &ip6_allnodes_ll, MLD6_ADD_MAC_FILTER); } #endif /* LWIP_IPV6_MLD */ #if LWIP_IPV6_AUTOCONFIG /* IPv6 address autoconfiguration not enabled by default */ lwip_netif.ip6_autoconfig_enabled = 1; #endif /* LWIP_IPV6_AUTOCONFIG */ #endif u32_t ret; if (!netif_is_link_up(&lwip_netif)) { ret = sys_arch_sem_wait(&lwip_netif_linked, 15000); if (ret == SYS_ARCH_TIMEOUT) { return NSAPI_ERROR_NO_CONNECTION; } } #if LWIP_IPV4 if (!dhcp) { ip4_addr_t ip_addr; ip4_addr_t netmask_addr; ip4_addr_t gw_addr; if (!inet_aton(ip, &ip_addr) || !inet_aton(netmask, &netmask_addr) || !inet_aton(gw, &gw_addr)) { return NSAPI_ERROR_PARAMETER; } netif_set_addr(&lwip_netif, &ip_addr, &netmask_addr, &gw_addr); } #endif netif_set_up(&lwip_netif); #if LWIP_IPV4 // Connect to the network lwip_dhcp = dhcp; if (lwip_dhcp) { err_t err = dhcp_start(&lwip_netif); if (err) { return NSAPI_ERROR_DHCP_FAILURE; } } #endif // If doesn't have address if (!mbed_lwip_get_ip_addr(true, &lwip_netif)) { ret = sys_arch_sem_wait(&lwip_netif_has_addr, 15000); if (ret == SYS_ARCH_TIMEOUT) { return NSAPI_ERROR_DHCP_FAILURE; } lwip_connected = true; } #if ADDR_TIMEOUT // If address is not for preferred stack waits a while to see // if preferred stack address is acquired if (!mbed_lwip_get_ip_addr(false, &lwip_netif)) { ret = sys_arch_sem_wait(&lwip_netif_has_addr, ADDR_TIMEOUT * 1000); } #endif #if LWIP_IPV6 add_dns_addr(&lwip_netif); #endif return 0; } int mbed_lwip_bringdown(void) { // Check if we've connected if (!lwip_connected) { return NSAPI_ERROR_PARAMETER; } #if LWIP_IPV4 // Disconnect from the network if (lwip_dhcp) { dhcp_release(&lwip_netif); dhcp_stop(&lwip_netif); lwip_dhcp = false; } else { netif_set_down(&lwip_netif); } #endif lwip_connected = false; // TO DO - actually remove addresses from stack, and shut down properly return 0; } /* LWIP error remapping */ static int mbed_lwip_err_remap(err_t err) { switch (err) { case ERR_OK: case ERR_CLSD: case ERR_RST: return 0; case ERR_MEM: return NSAPI_ERROR_NO_MEMORY; case ERR_CONN: return NSAPI_ERROR_NO_CONNECTION; case ERR_TIMEOUT: case ERR_RTE: case ERR_INPROGRESS: case ERR_WOULDBLOCK: return NSAPI_ERROR_WOULD_BLOCK; case ERR_VAL: case ERR_USE: case ERR_ISCONN: case ERR_ARG: return NSAPI_ERROR_PARAMETER; default: return NSAPI_ERROR_DEVICE_ERROR; } } /* LWIP network stack implementation */ static int mbed_lwip_gethostbyname(nsapi_stack_t *stack, const char *host, nsapi_addr_t *addr, nsapi_version_t version) { ip_addr_t lwip_addr; #if LWIP_IPV4 && LWIP_IPV6 u8_t addr_type; if (version == NSAPI_UNSPEC) { const ip_addr_t *ip_addr; ip_addr = mbed_lwip_get_ip_addr(true, &lwip_netif); if (IP_IS_V6(ip_addr)) { addr_type = NETCONN_DNS_IPV6; } else { addr_type = NETCONN_DNS_IPV4; } } else if (version == NSAPI_IPv4) { addr_type = NETCONN_DNS_IPV4; } else if (version == NSAPI_IPv6) { addr_type = NETCONN_DNS_IPV6; } err_t err = netconn_gethostbyname_addrtype(host, &lwip_addr, addr_type); #elif LWIP_IPV4 if (version != NSAPI_IPv4 && version != NSAPI_UNSPEC) { return NSAPI_ERROR_DNS_FAILURE; } err_t err = netconn_gethostbyname(host, &lwip_addr); #elif LWIP_IPV6 if (version != NSAPI_IPv6 && version != NSAPI_UNSPEC) { return NSAPI_ERROR_DNS_FAILURE; } err_t err = netconn_gethostbyname(host, &lwip_addr); #endif if (err != ERR_OK) { return NSAPI_ERROR_DNS_FAILURE; } convert_lwip_addr_to_mbed(addr, &lwip_addr); return 0; } static int mbed_lwip_socket_open(nsapi_stack_t *stack, nsapi_socket_t *handle, nsapi_protocol_t proto) { // check if network is connected if (!lwip_connected) { return NSAPI_ERROR_NO_CONNECTION; } // allocate a socket struct lwip_socket *s = mbed_lwip_arena_alloc(); if (!s) { return NSAPI_ERROR_NO_SOCKET; } u8_t lwip_proto = proto == NSAPI_TCP ? NETCONN_TCP : NETCONN_UDP; #if LWIP_IPV6 && LWIP_IPV4 const ip_addr_t *ip_addr; ip_addr = mbed_lwip_get_ip_addr(true, &lwip_netif); if (IP_IS_V6(ip_addr)) { // Enable IPv6 (or dual-stack). LWIP dual-stack support is // currently incomplete as of 2.0.0rc2 - eg we will only be able // to do a UDP sendto to an address matching the type selected // here. Matching "get_ip_addr" and DNS logic, use v4 if // available. lwip_proto |= NETCONN_TYPE_IPV6; } #elif LWIP_IPV6 lwip_proto |= NETCONN_TYPE_IPV6; #endif s->conn = netconn_new_with_callback(lwip_proto, mbed_lwip_socket_callback); if (!s->conn) { mbed_lwip_arena_dealloc(s); return NSAPI_ERROR_NO_SOCKET; } netconn_set_recvtimeout(s->conn, 1); *(struct lwip_socket **)handle = s; return 0; } static int mbed_lwip_socket_close(nsapi_stack_t *stack, nsapi_socket_t handle) { struct lwip_socket *s = (struct lwip_socket *)handle; err_t err = netconn_delete(s->conn); mbed_lwip_arena_dealloc(s); return mbed_lwip_err_remap(err); } static int mbed_lwip_socket_bind(nsapi_stack_t *stack, nsapi_socket_t handle, nsapi_addr_t addr, uint16_t port) { struct lwip_socket *s = (struct lwip_socket *)handle; ip_addr_t ip_addr; if ((s->conn->type == NETCONN_TCP && s->conn->pcb.tcp->local_port != 0) || (s->conn->type == NETCONN_UDP && s->conn->pcb.udp->local_port != 0)) { return NSAPI_ERROR_PARAMETER; } if (!convert_mbed_addr_to_lwip(&ip_addr, &addr)) { return NSAPI_ERROR_PARAMETER; } err_t err = netconn_bind(s->conn, &ip_addr, port); return mbed_lwip_err_remap(err); } static int mbed_lwip_socket_listen(nsapi_stack_t *stack, nsapi_socket_t handle, int backlog) { struct lwip_socket *s = (struct lwip_socket *)handle; err_t err = netconn_listen_with_backlog(s->conn, backlog); return mbed_lwip_err_remap(err); } static int mbed_lwip_socket_connect(nsapi_stack_t *stack, nsapi_socket_t handle, nsapi_addr_t addr, uint16_t port) { struct lwip_socket *s = (struct lwip_socket *)handle; ip_addr_t ip_addr; if (!convert_mbed_addr_to_lwip(&ip_addr, &addr)) { return NSAPI_ERROR_PARAMETER; } netconn_set_nonblocking(s->conn, false); err_t err = netconn_connect(s->conn, &ip_addr, port); netconn_set_nonblocking(s->conn, true); return mbed_lwip_err_remap(err); } static int mbed_lwip_socket_accept(nsapi_stack_t *stack, nsapi_socket_t server, nsapi_socket_t *handle, nsapi_addr_t *addr, uint16_t *port) { struct lwip_socket *s = (struct lwip_socket *)server; struct lwip_socket *ns = mbed_lwip_arena_alloc(); if (!ns) { return NSAPI_ERROR_NO_SOCKET; } err_t err = netconn_accept(s->conn, &ns->conn); if (err != ERR_OK) { mbed_lwip_arena_dealloc(ns); return mbed_lwip_err_remap(err); } netconn_set_recvtimeout(ns->conn, 1); *(struct lwip_socket **)handle = ns; ip_addr_t peer_addr; (void) netconn_peer(ns->conn, &peer_addr, port); convert_lwip_addr_to_mbed(addr, &peer_addr); return 0; } static int mbed_lwip_socket_send(nsapi_stack_t *stack, nsapi_socket_t handle, const void *data, unsigned size) { struct lwip_socket *s = (struct lwip_socket *)handle; size_t bytes_written = 0; err_t err = netconn_write_partly(s->conn, data, size, NETCONN_COPY, &bytes_written); if (err != ERR_OK) { return mbed_lwip_err_remap(err); } return (int)bytes_written; } static int mbed_lwip_socket_recv(nsapi_stack_t *stack, nsapi_socket_t handle, void *data, unsigned size) { struct lwip_socket *s = (struct lwip_socket *)handle; if (!s->buf) { err_t err = netconn_recv(s->conn, &s->buf); s->offset = 0; if (err != ERR_OK) { return mbed_lwip_err_remap(err); } } u16_t recv = netbuf_copy_partial(s->buf, data, (u16_t)size, s->offset); s->offset += recv; if (s->offset >= netbuf_len(s->buf)) { netbuf_delete(s->buf); s->buf = 0; } return recv; } static int mbed_lwip_socket_sendto(nsapi_stack_t *stack, nsapi_socket_t handle, nsapi_addr_t addr, uint16_t port, const void *data, unsigned size) { struct lwip_socket *s = (struct lwip_socket *)handle; ip_addr_t ip_addr; if (!convert_mbed_addr_to_lwip(&ip_addr, &addr)) { return NSAPI_ERROR_PARAMETER; } struct netbuf *buf = netbuf_new(); err_t err = netbuf_ref(buf, data, (u16_t)size); if (err != ERR_OK) { netbuf_free(buf); return mbed_lwip_err_remap(err); } err = netconn_sendto(s->conn, buf, &ip_addr, port); netbuf_delete(buf); if (err != ERR_OK) { return mbed_lwip_err_remap(err); } return size; } static int mbed_lwip_socket_recvfrom(nsapi_stack_t *stack, nsapi_socket_t handle, nsapi_addr_t *addr, uint16_t *port, void *data, unsigned size) { struct lwip_socket *s = (struct lwip_socket *)handle; struct netbuf *buf; err_t err = netconn_recv(s->conn, &buf); if (err != ERR_OK) { return mbed_lwip_err_remap(err); } convert_lwip_addr_to_mbed(addr, netbuf_fromaddr(buf)); *port = netbuf_fromport(buf); u16_t recv = netbuf_copy(buf, data, (u16_t)size); netbuf_delete(buf); return recv; } static int mbed_lwip_setsockopt(nsapi_stack_t *stack, nsapi_socket_t handle, int level, int optname, const void *optval, unsigned optlen) { struct lwip_socket *s = (struct lwip_socket *)handle; switch (optname) { case NSAPI_KEEPALIVE: if (optlen != sizeof(int) || s->conn->type != NETCONN_TCP) { return NSAPI_ERROR_UNSUPPORTED; } s->conn->pcb.tcp->so_options |= SOF_KEEPALIVE; return 0; case NSAPI_KEEPIDLE: if (optlen != sizeof(int) || s->conn->type != NETCONN_TCP) { return NSAPI_ERROR_UNSUPPORTED; } s->conn->pcb.tcp->keep_idle = *(int*)optval; return 0; case NSAPI_KEEPINTVL: if (optlen != sizeof(int) || s->conn->type != NETCONN_TCP) { return NSAPI_ERROR_UNSUPPORTED; } s->conn->pcb.tcp->keep_intvl = *(int*)optval; return 0; case NSAPI_REUSEADDR: if (optlen != sizeof(int)) { return NSAPI_ERROR_UNSUPPORTED; } if (*(int *)optval) { s->conn->pcb.tcp->so_options |= SOF_REUSEADDR; } else { s->conn->pcb.tcp->so_options &= ~SOF_REUSEADDR; } return 0; default: return NSAPI_ERROR_UNSUPPORTED; } } static void mbed_lwip_socket_attach(nsapi_stack_t *stack, nsapi_socket_t handle, void (*callback)(void *), void *data) { struct lwip_socket *s = (struct lwip_socket *)handle; s->cb = callback; s->data = data; } /* LWIP network stack */ const nsapi_stack_api_t lwip_stack_api = { .gethostbyname = mbed_lwip_gethostbyname, .socket_open = mbed_lwip_socket_open, .socket_close = mbed_lwip_socket_close, .socket_bind = mbed_lwip_socket_bind, .socket_listen = mbed_lwip_socket_listen, .socket_connect = mbed_lwip_socket_connect, .socket_accept = mbed_lwip_socket_accept, .socket_send = mbed_lwip_socket_send, .socket_recv = mbed_lwip_socket_recv, .socket_sendto = mbed_lwip_socket_sendto, .socket_recvfrom = mbed_lwip_socket_recvfrom, .setsockopt = mbed_lwip_setsockopt, .socket_attach = mbed_lwip_socket_attach, }; nsapi_stack_t lwip_stack = { .stack_api = &lwip_stack_api, };