/** * @file * Sequential API External module * * @defgroup netconn Netconn API * @ingroup sequential_api * Thread-safe, to be called from non-TCPIP threads only. * TX/RX handling based on @ref netbuf (containing @ref pbuf) * to avoid copying data around. * * @defgroup netconn_common Common functions * @ingroup netconn * For use with TCP and UDP * * @defgroup netconn_tcp TCP only * @ingroup netconn * TCP only functions * * @defgroup netconn_udp UDP only * @ingroup netconn * UDP only functions */ /* * Copyright (c) 2001-2004 Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY * OF SUCH DAMAGE. * * This file is part of the lwIP TCP/IP stack. * * Author: Adam Dunkels */ /* This is the part of the API that is linked with the application */ #include "lwip/opt.h" #if LWIP_NETCONN /* don't build if not configured for use in lwipopts.h */ #include "lwip/api.h" #include "lwip/memp.h" #include "lwip/ip.h" #include "lwip/raw.h" #include "lwip/udp.h" #include "lwip/priv/api_msg.h" #include "lwip/priv/tcp_priv.h" #include "lwip/priv/tcpip_priv.h" #ifdef LWIP_HOOK_FILENAME #include LWIP_HOOK_FILENAME #endif #include #define API_MSG_VAR_REF(name) API_VAR_REF(name) #define API_MSG_VAR_DECLARE(name) API_VAR_DECLARE(struct api_msg, name) #define API_MSG_VAR_ALLOC(name) API_VAR_ALLOC(struct api_msg, MEMP_API_MSG, name, ERR_MEM) #define API_MSG_VAR_ALLOC_RETURN_NULL(name) API_VAR_ALLOC(struct api_msg, MEMP_API_MSG, name, NULL) #define API_MSG_VAR_FREE(name) API_VAR_FREE(MEMP_API_MSG, name) #if TCP_LISTEN_BACKLOG /* need to allocate API message for accept so empty message pool does not result in event loss * see bug #47512: MPU_COMPATIBLE may fail on empty pool */ #define API_MSG_VAR_ALLOC_ACCEPT(msg) API_MSG_VAR_ALLOC(msg) #define API_MSG_VAR_FREE_ACCEPT(msg) API_MSG_VAR_FREE(msg) #else /* TCP_LISTEN_BACKLOG */ #define API_MSG_VAR_ALLOC_ACCEPT(msg) #define API_MSG_VAR_FREE_ACCEPT(msg) #endif /* TCP_LISTEN_BACKLOG */ #if LWIP_NETCONN_FULLDUPLEX #define NETCONN_RECVMBOX_WAITABLE(conn) (sys_mbox_valid(&(conn)->recvmbox) && (((conn)->flags & NETCONN_FLAG_MBOXINVALID) == 0)) #define NETCONN_ACCEPTMBOX_WAITABLE(conn) (sys_mbox_valid(&(conn)->acceptmbox) && (((conn)->flags & (NETCONN_FLAG_MBOXCLOSED|NETCONN_FLAG_MBOXINVALID)) == 0)) #define NETCONN_MBOX_WAITING_INC(conn) SYS_ARCH_INC(conn->mbox_threads_waiting, 1) #define NETCONN_MBOX_WAITING_DEC(conn) SYS_ARCH_DEC(conn->mbox_threads_waiting, 1) #else /* LWIP_NETCONN_FULLDUPLEX */ #define NETCONN_RECVMBOX_WAITABLE(conn) sys_mbox_valid(&(conn)->recvmbox) #define NETCONN_ACCEPTMBOX_WAITABLE(conn) (sys_mbox_valid(&(conn)->acceptmbox) && (((conn)->flags & NETCONN_FLAG_MBOXCLOSED) == 0)) #define NETCONN_MBOX_WAITING_INC(conn) #define NETCONN_MBOX_WAITING_DEC(conn) #endif /* LWIP_NETCONN_FULLDUPLEX */ static err_t netconn_close_shutdown(struct netconn *conn, u8_t how); /** * Call the lower part of a netconn_* function * This function is then running in the thread context * of tcpip_thread and has exclusive access to lwIP core code. * * @param fn function to call * @param apimsg a struct containing the function to call and its parameters * @return ERR_OK if the function was called, another err_t if not */ static err_t netconn_apimsg(tcpip_callback_fn fn, struct api_msg *apimsg) { err_t err; #ifdef LWIP_DEBUG /* catch functions that don't set err */ apimsg->err = ERR_VAL; #endif /* LWIP_DEBUG */ #if LWIP_NETCONN_SEM_PER_THREAD apimsg->op_completed_sem = LWIP_NETCONN_THREAD_SEM_GET(); #endif /* LWIP_NETCONN_SEM_PER_THREAD */ err = tcpip_send_msg_wait_sem(fn, apimsg, LWIP_API_MSG_SEM(apimsg)); if (err == ERR_OK) { return apimsg->err; } return err; } /** * Create a new netconn (of a specific type) that has a callback function. * The corresponding pcb is also created. * * @param t the type of 'connection' to create (@see enum netconn_type) * @param proto the IP protocol for RAW IP pcbs * @param callback a function to call on status changes (RX available, TX'ed) * @return a newly allocated struct netconn or * NULL on memory error */ struct netconn * netconn_new_with_proto_and_callback(enum netconn_type t, u8_t proto, netconn_callback callback) { struct netconn *conn; API_MSG_VAR_DECLARE(msg); API_MSG_VAR_ALLOC_RETURN_NULL(msg); conn = netconn_alloc(t, callback); if (conn != NULL) { err_t err; API_MSG_VAR_REF(msg).msg.n.proto = proto; API_MSG_VAR_REF(msg).conn = conn; err = netconn_apimsg(lwip_netconn_do_newconn, &API_MSG_VAR_REF(msg)); if (err != ERR_OK) { LWIP_ASSERT("freeing conn without freeing pcb", conn->pcb.tcp == NULL); LWIP_ASSERT("conn has no recvmbox", sys_mbox_valid(&conn->recvmbox)); #if LWIP_TCP LWIP_ASSERT("conn->acceptmbox shouldn't exist", !sys_mbox_valid(&conn->acceptmbox)); #endif /* LWIP_TCP */ #if !LWIP_NETCONN_SEM_PER_THREAD LWIP_ASSERT("conn has no op_completed", sys_sem_valid(&conn->op_completed)); sys_sem_free(&conn->op_completed); #endif /* !LWIP_NETCONN_SEM_PER_THREAD */ sys_mbox_free(&conn->recvmbox); memp_free(MEMP_NETCONN, conn); API_MSG_VAR_FREE(msg); return NULL; } } API_MSG_VAR_FREE(msg); return conn; } /** * @ingroup netconn_common * Close a netconn 'connection' and free all its resources but not the netconn itself. * UDP and RAW connection are completely closed, TCP pcbs might still be in a waitstate * after this returns. * * @param conn the netconn to delete * @return ERR_OK if the connection was deleted */ err_t netconn_prepare_delete(struct netconn *conn) { err_t err; API_MSG_VAR_DECLARE(msg); /* No ASSERT here because possible to get a (conn == NULL) if we got an accept error */ if (conn == NULL) { return ERR_OK; } API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; #if LWIP_TCP #if LWIP_SO_SNDTIMEO || LWIP_SO_LINGER /* get the time we started, which is later compared to sys_now() + conn->send_timeout */ API_MSG_VAR_REF(msg).msg.sd.time_started = sys_now(); #else /* LWIP_SO_SNDTIMEO || LWIP_SO_LINGER */ API_MSG_VAR_REF(msg).msg.sd.polls_left = ((LWIP_TCP_CLOSE_TIMEOUT_MS_DEFAULT + TCP_SLOW_INTERVAL - 1) / TCP_SLOW_INTERVAL) + 1; #endif /* LWIP_SO_SNDTIMEO || LWIP_SO_LINGER */ #endif /* LWIP_TCP */ err = netconn_apimsg(lwip_netconn_do_delconn, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); if (err != ERR_OK) { return err; } return ERR_OK; } /** * @ingroup netconn_common * Close a netconn 'connection' and free its resources. * UDP and RAW connection are completely closed, TCP pcbs might still be in a waitstate * after this returns. * * @param conn the netconn to delete * @return ERR_OK if the connection was deleted */ err_t netconn_delete(struct netconn *conn) { err_t err; /* No ASSERT here because possible to get a (conn == NULL) if we got an accept error */ if (conn == NULL) { return ERR_OK; } #if LWIP_NETCONN_FULLDUPLEX if (conn->flags & NETCONN_FLAG_MBOXINVALID) { /* Already called netconn_prepare_delete() before */ err = ERR_OK; } else #endif /* LWIP_NETCONN_FULLDUPLEX */ { err = netconn_prepare_delete(conn); } if (err == ERR_OK) { netconn_free(conn); } return err; } /** * Get the local or remote IP address and port of a netconn. * For RAW netconns, this returns the protocol instead of a port! * * @param conn the netconn to query * @param addr a pointer to which to save the IP address * @param port a pointer to which to save the port (or protocol for RAW) * @param local 1 to get the local IP address, 0 to get the remote one * @return ERR_CONN for invalid connections * ERR_OK if the information was retrieved */ err_t netconn_getaddr(struct netconn *conn, ip_addr_t *addr, u16_t *port, u8_t local) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_ERROR("netconn_getaddr: invalid conn", (conn != NULL), return ERR_ARG;); LWIP_ERROR("netconn_getaddr: invalid addr", (addr != NULL), return ERR_ARG;); LWIP_ERROR("netconn_getaddr: invalid port", (port != NULL), return ERR_ARG;); API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; API_MSG_VAR_REF(msg).msg.ad.local = local; #if LWIP_MPU_COMPATIBLE err = netconn_apimsg(lwip_netconn_do_getaddr, &API_MSG_VAR_REF(msg)); *addr = msg->msg.ad.ipaddr; *port = msg->msg.ad.port; #else /* LWIP_MPU_COMPATIBLE */ msg.msg.ad.ipaddr = addr; msg.msg.ad.port = port; err = netconn_apimsg(lwip_netconn_do_getaddr, &msg); #endif /* LWIP_MPU_COMPATIBLE */ API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_common * Bind a netconn to a specific local IP address and port. * Binding one netconn twice might not always be checked correctly! * * @param conn the netconn to bind * @param addr the local IP address to bind the netconn to * (use IP4_ADDR_ANY/IP6_ADDR_ANY to bind to all addresses) * @param port the local port to bind the netconn to (not used for RAW) * @return ERR_OK if bound, any other err_t on failure */ err_t netconn_bind(struct netconn *conn, const ip_addr_t *addr, u16_t port) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_ERROR("netconn_bind: invalid conn", (conn != NULL), return ERR_ARG;); #if LWIP_IPV4 /* Don't propagate NULL pointer (IP_ADDR_ANY alias) to subsequent functions */ if (addr == NULL) { addr = IP4_ADDR_ANY; } #endif /* LWIP_IPV4 */ #if LWIP_IPV4 && LWIP_IPV6 /* "Socket API like" dual-stack support: If IP to bind to is IP6_ADDR_ANY, * and NETCONN_FLAG_IPV6_V6ONLY is 0, use IP_ANY_TYPE to bind */ if ((netconn_get_ipv6only(conn) == 0) && ip_addr_eq(addr, IP6_ADDR_ANY)) { addr = IP_ANY_TYPE; } #endif /* LWIP_IPV4 && LWIP_IPV6 */ API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; API_MSG_VAR_REF(msg).msg.bc.ipaddr = API_MSG_VAR_REF(addr); API_MSG_VAR_REF(msg).msg.bc.port = port; err = netconn_apimsg(lwip_netconn_do_bind, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_common * Bind a netconn to a specific interface and port. * Binding one netconn twice might not always be checked correctly! * * @param conn the netconn to bind * @param if_idx the local interface index to bind the netconn to * @return ERR_OK if bound, any other err_t on failure */ err_t netconn_bind_if(struct netconn *conn, u8_t if_idx) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_ERROR("netconn_bind_if: invalid conn", (conn != NULL), return ERR_ARG;); API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; API_MSG_VAR_REF(msg).msg.bc.if_idx = if_idx; err = netconn_apimsg(lwip_netconn_do_bind_if, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_common * Connect a netconn to a specific remote IP address and port. * * @param conn the netconn to connect * @param addr the remote IP address to connect to * @param port the remote port to connect to (no used for RAW) * @return ERR_OK if connected, return value of tcp_/udp_/raw_connect otherwise */ err_t netconn_connect(struct netconn *conn, const ip_addr_t *addr, u16_t port) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_ERROR("netconn_connect: invalid conn", (conn != NULL), return ERR_ARG;); #if LWIP_IPV4 /* Don't propagate NULL pointer (IP_ADDR_ANY alias) to subsequent functions */ if (addr == NULL) { addr = IP4_ADDR_ANY; } #endif /* LWIP_IPV4 */ API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; API_MSG_VAR_REF(msg).msg.bc.ipaddr = API_MSG_VAR_REF(addr); API_MSG_VAR_REF(msg).msg.bc.port = port; err = netconn_apimsg(lwip_netconn_do_connect, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_udp * Disconnect a netconn from its current peer (only valid for UDP netconns). * * @param conn the netconn to disconnect * @return See @ref err_t */ err_t netconn_disconnect(struct netconn *conn) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_ERROR("netconn_disconnect: invalid conn", (conn != NULL), return ERR_ARG;); API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; err = netconn_apimsg(lwip_netconn_do_disconnect, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_tcp * Set a TCP netconn into listen mode * * @param conn the tcp netconn to set to listen mode * @param backlog the listen backlog, only used if TCP_LISTEN_BACKLOG==1 * @return ERR_OK if the netconn was set to listen (UDP and RAW netconns * don't return any error (yet?)) */ err_t netconn_listen_with_backlog(struct netconn *conn, u8_t backlog) { #if LWIP_TCP API_MSG_VAR_DECLARE(msg); err_t err; /* This does no harm. If TCP_LISTEN_BACKLOG is off, backlog is unused. */ LWIP_UNUSED_ARG(backlog); LWIP_ERROR("netconn_listen: invalid conn", (conn != NULL), return ERR_ARG;); API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; #if TCP_LISTEN_BACKLOG API_MSG_VAR_REF(msg).msg.lb.backlog = backlog; #endif /* TCP_LISTEN_BACKLOG */ err = netconn_apimsg(lwip_netconn_do_listen, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; #else /* LWIP_TCP */ LWIP_UNUSED_ARG(conn); LWIP_UNUSED_ARG(backlog); return ERR_ARG; #endif /* LWIP_TCP */ } /** * @ingroup netconn_tcp * Accept a new connection on a TCP listening netconn. * * @param conn the TCP listen netconn * @param new_conn pointer where the new connection is stored * @return ERR_OK if a new connection has been received or an error * code otherwise */ err_t netconn_accept(struct netconn *conn, struct netconn **new_conn) { #if LWIP_TCP err_t err; void *accept_ptr; struct netconn *newconn; #if TCP_LISTEN_BACKLOG API_MSG_VAR_DECLARE(msg); #endif /* TCP_LISTEN_BACKLOG */ LWIP_ERROR("netconn_accept: invalid pointer", (new_conn != NULL), return ERR_ARG;); *new_conn = NULL; LWIP_ERROR("netconn_accept: invalid conn", (conn != NULL), return ERR_ARG;); /* NOTE: Although the opengroup spec says a pending error shall be returned to send/recv/getsockopt(SO_ERROR) only, we return it for listening connections also, to handle embedded-system errors */ err = netconn_err(conn); if (err != ERR_OK) { /* return pending error */ return err; } if (!NETCONN_ACCEPTMBOX_WAITABLE(conn)) { /* don't accept if closed: this might block the application task waiting on acceptmbox forever! */ return ERR_CLSD; } API_MSG_VAR_ALLOC_ACCEPT(msg); NETCONN_MBOX_WAITING_INC(conn); if (netconn_is_nonblocking(conn)) { if (sys_arch_mbox_tryfetch(&conn->acceptmbox, &accept_ptr) == SYS_MBOX_EMPTY) { API_MSG_VAR_FREE_ACCEPT(msg); NETCONN_MBOX_WAITING_DEC(conn); return ERR_WOULDBLOCK; } } else { #if LWIP_SO_RCVTIMEO if (sys_arch_mbox_fetch(&conn->acceptmbox, &accept_ptr, conn->recv_timeout) == SYS_ARCH_TIMEOUT) { API_MSG_VAR_FREE_ACCEPT(msg); NETCONN_MBOX_WAITING_DEC(conn); return ERR_TIMEOUT; } #else sys_arch_mbox_fetch(&conn->acceptmbox, &accept_ptr, 0); #endif /* LWIP_SO_RCVTIMEO*/ } NETCONN_MBOX_WAITING_DEC(conn); #if LWIP_NETCONN_FULLDUPLEX if (conn->flags & NETCONN_FLAG_MBOXINVALID) { if (lwip_netconn_is_deallocated_msg(accept_ptr)) { /* the netconn has been closed from another thread */ API_MSG_VAR_FREE_ACCEPT(msg); return ERR_CONN; } } #endif /* Register event with callback */ API_EVENT(conn, NETCONN_EVT_RCVMINUS, 0); if (lwip_netconn_is_err_msg(accept_ptr, &err)) { /* a connection has been aborted: e.g. out of pcbs or out of netconns during accept */ API_MSG_VAR_FREE_ACCEPT(msg); return err; } if (accept_ptr == NULL) { /* connection has been aborted */ API_MSG_VAR_FREE_ACCEPT(msg); return ERR_CLSD; } newconn = (struct netconn *)accept_ptr; #if TCP_LISTEN_BACKLOG /* Let the stack know that we have accepted the connection. */ API_MSG_VAR_REF(msg).conn = newconn; /* don't care for the return value of lwip_netconn_do_recv */ netconn_apimsg(lwip_netconn_do_accepted, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); #endif /* TCP_LISTEN_BACKLOG */ *new_conn = newconn; /* don't set conn->last_err: it's only ERR_OK, anyway */ return ERR_OK; #else /* LWIP_TCP */ LWIP_UNUSED_ARG(conn); LWIP_UNUSED_ARG(new_conn); return ERR_ARG; #endif /* LWIP_TCP */ } /** * @ingroup netconn_common * Receive data: actual implementation that doesn't care whether pbuf or netbuf * is received (this is internal, it's just here for describing common errors) * * @param conn the netconn from which to receive data * @param new_buf pointer where a new pbuf/netbuf is stored when received data * @param apiflags flags that control function behaviour. For now only: * - NETCONN_DONTBLOCK: only read data that is available now, don't wait for more data * @return ERR_OK if data has been received, an error code otherwise (timeout, * memory error or another error) * ERR_CONN if not connected * ERR_CLSD if TCP connection has been closed * ERR_WOULDBLOCK if the netconn is nonblocking but would block to wait for data * ERR_TIMEOUT if the netconn has a receive timeout and no data was received */ static err_t netconn_recv_data(struct netconn *conn, void **new_buf, u8_t apiflags) { void *buf = NULL; u16_t len; LWIP_ERROR("netconn_recv: invalid pointer", (new_buf != NULL), return ERR_ARG;); *new_buf = NULL; LWIP_ERROR("netconn_recv: invalid conn", (conn != NULL), return ERR_ARG;); if (!NETCONN_RECVMBOX_WAITABLE(conn)) { err_t err = netconn_err(conn); if (err != ERR_OK) { /* return pending error */ return err; } return ERR_CONN; } NETCONN_MBOX_WAITING_INC(conn); if (netconn_is_nonblocking(conn) || (apiflags & NETCONN_DONTBLOCK) || (conn->flags & NETCONN_FLAG_MBOXCLOSED) || (conn->pending_err != ERR_OK)) { if (sys_arch_mbox_tryfetch(&conn->recvmbox, &buf) == SYS_MBOX_EMPTY) { err_t err; NETCONN_MBOX_WAITING_DEC(conn); err = netconn_err(conn); if (err != ERR_OK) { /* return pending error */ return err; } if (conn->flags & NETCONN_FLAG_MBOXCLOSED) { return ERR_CONN; } return ERR_WOULDBLOCK; } } else { #if LWIP_SO_RCVTIMEO if (sys_arch_mbox_fetch(&conn->recvmbox, &buf, conn->recv_timeout) == SYS_ARCH_TIMEOUT) { NETCONN_MBOX_WAITING_DEC(conn); return ERR_TIMEOUT; } #else sys_arch_mbox_fetch(&conn->recvmbox, &buf, 0); #endif /* LWIP_SO_RCVTIMEO*/ } NETCONN_MBOX_WAITING_DEC(conn); #if LWIP_NETCONN_FULLDUPLEX if (conn->flags & NETCONN_FLAG_MBOXINVALID) { if (lwip_netconn_is_deallocated_msg(buf)) { /* the netconn has been closed from another thread */ API_MSG_VAR_FREE_ACCEPT(msg); return ERR_CONN; } } #endif #if LWIP_TCP #if (LWIP_UDP || LWIP_RAW) if (NETCONNTYPE_GROUP(conn->type) == NETCONN_TCP) #endif /* (LWIP_UDP || LWIP_RAW) */ { err_t err; /* Check if this is an error message or a pbuf */ if (lwip_netconn_is_err_msg(buf, &err)) { /* new_buf has been zeroed above already */ if (err == ERR_CLSD) { /* connection closed translates to ERR_OK with *new_buf == NULL */ return ERR_OK; } return err; } len = ((struct pbuf *)buf)->tot_len; } #endif /* LWIP_TCP */ #if LWIP_TCP && (LWIP_UDP || LWIP_RAW) else #endif /* LWIP_TCP && (LWIP_UDP || LWIP_RAW) */ #if (LWIP_UDP || LWIP_RAW) { LWIP_ASSERT("buf != NULL", buf != NULL); len = netbuf_len((struct netbuf *)buf); } #endif /* (LWIP_UDP || LWIP_RAW) */ #if LWIP_SO_RCVBUF SYS_ARCH_DEC(conn->recv_avail, len); #endif /* LWIP_SO_RCVBUF */ /* Register event with callback */ API_EVENT(conn, NETCONN_EVT_RCVMINUS, len); LWIP_DEBUGF(API_LIB_DEBUG, ("netconn_recv_data: received %p, len=%"U16_F"\n", buf, len)); *new_buf = buf; /* don't set conn->last_err: it's only ERR_OK, anyway */ return ERR_OK; } #if LWIP_TCP static err_t netconn_tcp_recvd_msg(struct netconn *conn, size_t len, struct api_msg *msg) { LWIP_ERROR("netconn_recv_tcp_pbuf: invalid conn", (conn != NULL) && NETCONNTYPE_GROUP(netconn_type(conn)) == NETCONN_TCP, return ERR_ARG;); msg->conn = conn; msg->msg.r.len = len; return netconn_apimsg(lwip_netconn_do_recv, msg); } err_t netconn_tcp_recvd(struct netconn *conn, size_t len) { err_t err; API_MSG_VAR_DECLARE(msg); LWIP_ERROR("netconn_recv_tcp_pbuf: invalid conn", (conn != NULL) && NETCONNTYPE_GROUP(netconn_type(conn)) == NETCONN_TCP, return ERR_ARG;); API_MSG_VAR_ALLOC(msg); err = netconn_tcp_recvd_msg(conn, len, &API_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } static err_t netconn_recv_data_tcp(struct netconn *conn, struct pbuf **new_buf, u8_t apiflags) { err_t err; struct pbuf *buf; API_MSG_VAR_DECLARE(msg); #if LWIP_MPU_COMPATIBLE msg = NULL; #endif if (!NETCONN_RECVMBOX_WAITABLE(conn)) { /* This only happens when calling this function more than once *after* receiving FIN */ return ERR_CONN; } if (netconn_is_flag_set(conn, NETCONN_FIN_RX_PENDING)) { netconn_clear_flags(conn, NETCONN_FIN_RX_PENDING); goto handle_fin; } if (!(apiflags & NETCONN_NOAUTORCVD)) { /* need to allocate API message here so empty message pool does not result in event loss * see bug #47512: MPU_COMPATIBLE may fail on empty pool */ API_MSG_VAR_ALLOC(msg); } err = netconn_recv_data(conn, (void **)new_buf, apiflags); if (err != ERR_OK) { if (!(apiflags & NETCONN_NOAUTORCVD)) { API_MSG_VAR_FREE(msg); } return err; } buf = *new_buf; if (!(apiflags & NETCONN_NOAUTORCVD)) { /* Let the stack know that we have taken the data. */ u16_t len = buf ? buf->tot_len : 1; /* don't care for the return value of lwip_netconn_do_recv */ /* @todo: this should really be fixed, e.g. by retrying in poll on error */ netconn_tcp_recvd_msg(conn, len, &API_VAR_REF(msg)); API_MSG_VAR_FREE(msg); } /* If we are closed, we indicate that we no longer wish to use the socket */ if (buf == NULL) { if (apiflags & NETCONN_NOFIN) { /* received a FIN but the caller cannot handle it right now: re-enqueue it and return "no data" */ netconn_set_flags(conn, NETCONN_FIN_RX_PENDING); return ERR_WOULDBLOCK; } else { handle_fin: API_EVENT(conn, NETCONN_EVT_RCVMINUS, 0); if (conn->pcb.ip == NULL) { /* race condition: RST during recv */ err = netconn_err(conn); if (err != ERR_OK) { return err; } return ERR_RST; } /* RX side is closed, so deallocate the recvmbox */ netconn_close_shutdown(conn, NETCONN_SHUT_RD); /* Don' store ERR_CLSD as conn->err since we are only half-closed */ return ERR_CLSD; } } return err; } /** * @ingroup netconn_tcp * Receive data (in form of a pbuf) from a TCP netconn * * @param conn the netconn from which to receive data * @param new_buf pointer where a new pbuf is stored when received data * @return ERR_OK if data has been received, an error code otherwise (timeout, * memory error or another error, @see netconn_recv_data) * ERR_ARG if conn is not a TCP netconn */ err_t netconn_recv_tcp_pbuf(struct netconn *conn, struct pbuf **new_buf) { LWIP_ERROR("netconn_recv_tcp_pbuf: invalid conn", (conn != NULL) && NETCONNTYPE_GROUP(netconn_type(conn)) == NETCONN_TCP, return ERR_ARG;); return netconn_recv_data_tcp(conn, new_buf, 0); } /** * @ingroup netconn_tcp * Receive data (in form of a pbuf) from a TCP netconn * * @param conn the netconn from which to receive data * @param new_buf pointer where a new pbuf is stored when received data * @param apiflags flags that control function behaviour. For now only: * - NETCONN_DONTBLOCK: only read data that is available now, don't wait for more data * @return ERR_OK if data has been received, an error code otherwise (timeout, * memory error or another error, @see netconn_recv_data) * ERR_ARG if conn is not a TCP netconn */ err_t netconn_recv_tcp_pbuf_flags(struct netconn *conn, struct pbuf **new_buf, u8_t apiflags) { LWIP_ERROR("netconn_recv_tcp_pbuf: invalid conn", (conn != NULL) && NETCONNTYPE_GROUP(netconn_type(conn)) == NETCONN_TCP, return ERR_ARG;); return netconn_recv_data_tcp(conn, new_buf, apiflags); } #endif /* LWIP_TCP */ /** * Receive data (in form of a netbuf) from a UDP or RAW netconn * * @param conn the netconn from which to receive data * @param new_buf pointer where a new netbuf is stored when received data * @return ERR_OK if data has been received, an error code otherwise (timeout, * memory error or another error) * ERR_ARG if conn is not a UDP/RAW netconn */ err_t netconn_recv_udp_raw_netbuf(struct netconn *conn, struct netbuf **new_buf) { LWIP_ERROR("netconn_recv_udp_raw_netbuf: invalid conn", (conn != NULL) && NETCONNTYPE_GROUP(netconn_type(conn)) != NETCONN_TCP, return ERR_ARG;); return netconn_recv_data(conn, (void **)new_buf, 0); } /** * Receive data (in form of a netbuf) from a UDP or RAW netconn * * @param conn the netconn from which to receive data * @param new_buf pointer where a new netbuf is stored when received data * @param apiflags flags that control function behaviour. For now only: * - NETCONN_DONTBLOCK: only read data that is available now, don't wait for more data * @return ERR_OK if data has been received, an error code otherwise (timeout, * memory error or another error) * ERR_ARG if conn is not a UDP/RAW netconn */ err_t netconn_recv_udp_raw_netbuf_flags(struct netconn *conn, struct netbuf **new_buf, u8_t apiflags) { LWIP_ERROR("netconn_recv_udp_raw_netbuf: invalid conn", (conn != NULL) && NETCONNTYPE_GROUP(netconn_type(conn)) != NETCONN_TCP, return ERR_ARG;); return netconn_recv_data(conn, (void **)new_buf, apiflags); } /** * @ingroup netconn_common * Receive data (in form of a netbuf containing a packet buffer) from a netconn * * @param conn the netconn from which to receive data * @param new_buf pointer where a new netbuf is stored when received data * @return ERR_OK if data has been received, an error code otherwise (timeout, * memory error or another error) */ err_t netconn_recv(struct netconn *conn, struct netbuf **new_buf) { #if LWIP_TCP struct netbuf *buf = NULL; err_t err; #endif /* LWIP_TCP */ LWIP_ERROR("netconn_recv: invalid pointer", (new_buf != NULL), return ERR_ARG;); *new_buf = NULL; LWIP_ERROR("netconn_recv: invalid conn", (conn != NULL), return ERR_ARG;); #if LWIP_TCP #if (LWIP_UDP || LWIP_RAW) if (NETCONNTYPE_GROUP(conn->type) == NETCONN_TCP) #endif /* (LWIP_UDP || LWIP_RAW) */ { struct pbuf *p = NULL; /* This is not a listening netconn, since recvmbox is set */ buf = (struct netbuf *)memp_malloc(MEMP_NETBUF); if (buf == NULL) { return ERR_MEM; } err = netconn_recv_data_tcp(conn, &p, 0); if (err != ERR_OK) { memp_free(MEMP_NETBUF, buf); return err; } LWIP_ASSERT("p != NULL", p != NULL); buf->p = p; buf->ptr = p; buf->port = 0; ip_addr_set_zero(&buf->addr); *new_buf = buf; /* don't set conn->last_err: it's only ERR_OK, anyway */ return ERR_OK; } #endif /* LWIP_TCP */ #if LWIP_TCP && (LWIP_UDP || LWIP_RAW) else #endif /* LWIP_TCP && (LWIP_UDP || LWIP_RAW) */ { #if (LWIP_UDP || LWIP_RAW) return netconn_recv_data(conn, (void **)new_buf, 0); #endif /* (LWIP_UDP || LWIP_RAW) */ } } /** * @ingroup netconn_udp * Send data (in form of a netbuf) to a specific remote IP address and port. * Only to be used for UDP and RAW netconns (not TCP). * * @param conn the netconn over which to send data * @param buf a netbuf containing the data to send * @param addr the remote IP address to which to send the data * @param port the remote port to which to send the data * @return ERR_OK if data was sent, any other err_t on error */ err_t netconn_sendto(struct netconn *conn, struct netbuf *buf, const ip_addr_t *addr, u16_t port) { if (buf != NULL) { ip_addr_set(&buf->addr, addr); buf->port = port; return netconn_send(conn, buf); } return ERR_VAL; } /** * @ingroup netconn_udp * Send data over a UDP or RAW netconn (that is already connected). * * @param conn the UDP or RAW netconn over which to send data * @param buf a netbuf containing the data to send * @return ERR_OK if data was sent, any other err_t on error */ err_t netconn_send(struct netconn *conn, struct netbuf *buf) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_ERROR("netconn_send: invalid conn", (conn != NULL), return ERR_ARG;); LWIP_DEBUGF(API_LIB_DEBUG, ("netconn_send: sending %"U16_F" bytes\n", buf->p->tot_len)); API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; API_MSG_VAR_REF(msg).msg.b = buf; err = netconn_apimsg(lwip_netconn_do_send, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_tcp * Send data over a TCP netconn. * * @param conn the TCP netconn over which to send data * @param dataptr pointer to the application buffer that contains the data to send * @param size size of the application data to send * @param apiflags combination of following flags : * - NETCONN_COPY: data will be copied into memory belonging to the stack * - NETCONN_MORE: for TCP connection, PSH flag will be set on last segment sent * - NETCONN_DONTBLOCK: only write the data if all data can be written at once * @param bytes_written pointer to a location that receives the number of written bytes * @return ERR_OK if data was sent, any other err_t on error */ err_t netconn_write_partly(struct netconn *conn, const void *dataptr, size_t size, u8_t apiflags, size_t *bytes_written) { struct netvector vector; vector.ptr = dataptr; vector.len = size; return netconn_write_vectors_partly(conn, &vector, 1, apiflags, bytes_written); } /** * Send vectorized data atomically over a TCP netconn. * * @param conn the TCP netconn over which to send data * @param vectors array of vectors containing data to send * @param vectorcnt number of vectors in the array * @param apiflags combination of following flags : * - NETCONN_COPY: data will be copied into memory belonging to the stack * - NETCONN_MORE: for TCP connection, PSH flag will be set on last segment sent * - NETCONN_DONTBLOCK: only write the data if all data can be written at once * @param bytes_written pointer to a location that receives the number of written bytes * @return ERR_OK if data was sent, any other err_t on error */ err_t netconn_write_vectors_partly(struct netconn *conn, struct netvector *vectors, u16_t vectorcnt, u8_t apiflags, size_t *bytes_written) { API_MSG_VAR_DECLARE(msg); err_t err; u8_t dontblock; size_t size; int i; LWIP_ERROR("netconn_write: invalid conn", (conn != NULL), return ERR_ARG;); LWIP_ERROR("netconn_write: invalid conn->type", (NETCONNTYPE_GROUP(conn->type) == NETCONN_TCP), return ERR_VAL;); dontblock = netconn_is_nonblocking(conn) || (apiflags & NETCONN_DONTBLOCK); #if LWIP_SO_SNDTIMEO if (conn->send_timeout != 0) { dontblock = 1; } #endif /* LWIP_SO_SNDTIMEO */ if (dontblock && !bytes_written) { /* This implies netconn_write() cannot be used for non-blocking send, since it has no way to return the number of bytes written. */ return ERR_VAL; } /* sum up the total size */ size = 0; for (i = 0; i < vectorcnt; i++) { size += vectors[i].len; if (size < vectors[i].len) { /* overflow */ return ERR_VAL; } } if (size == 0) { return ERR_OK; } else if (size > SSIZE_MAX) { ssize_t limited; /* this is required by the socket layer (cannot send full size_t range) */ if (!bytes_written) { return ERR_VAL; } /* limit the amount of data to send */ limited = SSIZE_MAX; size = (size_t)limited; } API_MSG_VAR_ALLOC(msg); /* non-blocking write sends as much */ API_MSG_VAR_REF(msg).conn = conn; API_MSG_VAR_REF(msg).msg.w.vector = vectors; API_MSG_VAR_REF(msg).msg.w.vector_cnt = vectorcnt; API_MSG_VAR_REF(msg).msg.w.vector_off = 0; API_MSG_VAR_REF(msg).msg.w.apiflags = apiflags; API_MSG_VAR_REF(msg).msg.w.len = size; API_MSG_VAR_REF(msg).msg.w.offset = 0; API_MSG_VAR_REF(msg).msg.w.confirmed = 0; #if LWIP_SO_SNDTIMEO if (conn->send_timeout != 0) { /* get the time we started, which is later compared to sys_now() + conn->send_timeout */ API_MSG_VAR_REF(msg).msg.w.time_started = sys_now(); } else { API_MSG_VAR_REF(msg).msg.w.time_started = 0; } #endif /* LWIP_SO_SNDTIMEO */ /* For locking the core: this _can_ be delayed on low memory/low send buffer, but if it is, this is done inside api_msg.c:do_write(), so we can use the non-blocking version here. */ err = netconn_apimsg(lwip_netconn_do_write, &API_MSG_VAR_REF(msg)); if (err == ERR_OK) { if (bytes_written != NULL) { *bytes_written = API_MSG_VAR_REF(msg).msg.w.offset; } /* for blocking, check all requested bytes were written, NOTE: send_timeout is treated as dontblock (see dontblock assignment above) */ if (!dontblock) { LWIP_ASSERT("do_write failed to write all bytes", API_MSG_VAR_REF(msg).msg.w.offset == size); } } API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_tcp * Close or shutdown a TCP netconn (doesn't delete it). * * @param conn the TCP netconn to close or shutdown * @param how fully close or only shutdown one side? * @return ERR_OK if the netconn was closed, any other err_t on error */ static err_t netconn_close_shutdown(struct netconn *conn, u8_t how) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_UNUSED_ARG(how); LWIP_ERROR("netconn_close: invalid conn", (conn != NULL), return ERR_ARG;); API_MSG_VAR_ALLOC(msg); API_MSG_VAR_REF(msg).conn = conn; #if LWIP_TCP /* shutting down both ends is the same as closing */ API_MSG_VAR_REF(msg).msg.sd.shut = how; #if LWIP_SO_SNDTIMEO || LWIP_SO_LINGER /* get the time we started, which is later compared to sys_now() + conn->send_timeout */ API_MSG_VAR_REF(msg).msg.sd.time_started = sys_now(); #else /* LWIP_SO_SNDTIMEO || LWIP_SO_LINGER */ API_MSG_VAR_REF(msg).msg.sd.polls_left = ((LWIP_TCP_CLOSE_TIMEOUT_MS_DEFAULT + TCP_SLOW_INTERVAL - 1) / TCP_SLOW_INTERVAL) + 1; #endif /* LWIP_SO_SNDTIMEO || LWIP_SO_LINGER */ #endif /* LWIP_TCP */ err = netconn_apimsg(lwip_netconn_do_close, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_tcp * Close a TCP netconn (doesn't delete it). * * @param conn the TCP netconn to close * @return ERR_OK if the netconn was closed, any other err_t on error */ err_t netconn_close(struct netconn *conn) { /* shutting down both ends is the same as closing */ return netconn_close_shutdown(conn, NETCONN_SHUT_RDWR); } /** * @ingroup netconn_common * Get and reset pending error on a netconn * * @param conn the netconn to get the error from * @return and pending error or ERR_OK if no error was pending */ err_t netconn_err(struct netconn *conn) { err_t err; SYS_ARCH_DECL_PROTECT(lev); if (conn == NULL) { return ERR_OK; } SYS_ARCH_PROTECT(lev); err = conn->pending_err; conn->pending_err = ERR_OK; SYS_ARCH_UNPROTECT(lev); return err; } /** * @ingroup netconn_tcp * Shut down one or both sides of a TCP netconn (doesn't delete it). * * @param conn the TCP netconn to shut down * @param shut_rx shut down the RX side (no more read possible after this) * @param shut_tx shut down the TX side (no more write possible after this) * @return ERR_OK if the netconn was closed, any other err_t on error */ err_t netconn_shutdown(struct netconn *conn, u8_t shut_rx, u8_t shut_tx) { return netconn_close_shutdown(conn, (u8_t)((shut_rx ? NETCONN_SHUT_RD : 0) | (shut_tx ? NETCONN_SHUT_WR : 0))); } #if LWIP_IGMP || (LWIP_IPV6 && LWIP_IPV6_MLD) /** * @ingroup netconn_udp * Join multicast groups for UDP netconns. * * @param conn the UDP netconn for which to change multicast addresses * @param multiaddr IP address of the multicast group to join or leave * @param netif_addr the IP address of the network interface on which to send * the igmp message * @param join_or_leave flag whether to send a join- or leave-message * @return ERR_OK if the action was taken, any err_t on error */ err_t netconn_join_leave_group(struct netconn *conn, const ip_addr_t *multiaddr, const ip_addr_t *netif_addr, enum netconn_igmp join_or_leave) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_ERROR("netconn_join_leave_group: invalid conn", (conn != NULL), return ERR_ARG;); API_MSG_VAR_ALLOC(msg); #if LWIP_IPV4 /* Don't propagate NULL pointer (IP_ADDR_ANY alias) to subsequent functions */ if (multiaddr == NULL) { multiaddr = IP4_ADDR_ANY; } if (netif_addr == NULL) { netif_addr = IP4_ADDR_ANY; } #endif /* LWIP_IPV4 */ API_MSG_VAR_REF(msg).conn = conn; API_MSG_VAR_REF(msg).msg.jl.multiaddr = API_MSG_VAR_REF(multiaddr); API_MSG_VAR_REF(msg).msg.jl.netif_addr = API_MSG_VAR_REF(netif_addr); API_MSG_VAR_REF(msg).msg.jl.join_or_leave = join_or_leave; err = netconn_apimsg(lwip_netconn_do_join_leave_group, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } /** * @ingroup netconn_udp * Join multicast groups for UDP netconns. * * @param conn the UDP netconn for which to change multicast addresses * @param multiaddr IP address of the multicast group to join or leave * @param if_idx the index of the netif * @param join_or_leave flag whether to send a join- or leave-message * @return ERR_OK if the action was taken, any err_t on error */ err_t netconn_join_leave_group_netif(struct netconn *conn, const ip_addr_t *multiaddr, u8_t if_idx, enum netconn_igmp join_or_leave) { API_MSG_VAR_DECLARE(msg); err_t err; LWIP_ERROR("netconn_join_leave_group: invalid conn", (conn != NULL), return ERR_ARG;); API_MSG_VAR_ALLOC(msg); #if LWIP_IPV4 /* Don't propagate NULL pointer (IP_ADDR_ANY alias) to subsequent functions */ if (multiaddr == NULL) { multiaddr = IP4_ADDR_ANY; } if (if_idx == NETIF_NO_INDEX) { return ERR_IF; } #endif /* LWIP_IPV4 */ API_MSG_VAR_REF(msg).conn = conn; API_MSG_VAR_REF(msg).msg.jl.multiaddr = API_MSG_VAR_REF(multiaddr); API_MSG_VAR_REF(msg).msg.jl.if_idx = if_idx; API_MSG_VAR_REF(msg).msg.jl.join_or_leave = join_or_leave; err = netconn_apimsg(lwip_netconn_do_join_leave_group_netif, &API_MSG_VAR_REF(msg)); API_MSG_VAR_FREE(msg); return err; } #endif /* LWIP_IGMP || (LWIP_IPV6 && LWIP_IPV6_MLD) */ #if LWIP_DNS /** * @ingroup netconn_common * Execute a DNS query, only one IP address is returned * * @param name a string representation of the DNS host name to query * @param addr a preallocated ip_addr_t where to store the resolved IP address * @param dns_addrtype IP address type (IPv4 / IPv6) * @return ERR_OK: resolving succeeded * ERR_MEM: memory error, try again later * ERR_ARG: dns client not initialized or invalid hostname * ERR_VAL: dns server response was invalid */ #if LWIP_IPV4 && LWIP_IPV6 err_t netconn_gethostbyname_addrtype(const char *name, ip_addr_t *addr, u8_t dns_addrtype) #else err_t netconn_gethostbyname(const char *name, ip_addr_t *addr) #endif { API_VAR_DECLARE(struct dns_api_msg, msg); #if !LWIP_MPU_COMPATIBLE sys_sem_t sem; #endif /* LWIP_MPU_COMPATIBLE */ err_t err; err_t cberr; LWIP_ERROR("netconn_gethostbyname: invalid name", (name != NULL), return ERR_ARG;); LWIP_ERROR("netconn_gethostbyname: invalid addr", (addr != NULL), return ERR_ARG;); #if LWIP_MPU_COMPATIBLE if (strlen(name) >= DNS_MAX_NAME_LENGTH) { return ERR_ARG; } #endif #ifdef LWIP_HOOK_NETCONN_EXTERNAL_RESOLVE #if LWIP_IPV4 && LWIP_IPV6 if (LWIP_HOOK_NETCONN_EXTERNAL_RESOLVE(name, addr, dns_addrtype, &err)) { #else if (LWIP_HOOK_NETCONN_EXTERNAL_RESOLVE(name, addr, NETCONN_DNS_DEFAULT, &err)) { #endif /* LWIP_IPV4 && LWIP_IPV6 */ return err; } #endif /* LWIP_HOOK_NETCONN_EXTERNAL_RESOLVE */ API_VAR_ALLOC(struct dns_api_msg, MEMP_DNS_API_MSG, msg, ERR_MEM); #if LWIP_MPU_COMPATIBLE strncpy(API_VAR_REF(msg).name, name, DNS_MAX_NAME_LENGTH - 1); API_VAR_REF(msg).name[DNS_MAX_NAME_LENGTH - 1] = 0; #else /* LWIP_MPU_COMPATIBLE */ msg.err = &err; msg.sem = &sem; API_VAR_REF(msg).addr = API_VAR_REF(addr); API_VAR_REF(msg).name = name; #endif /* LWIP_MPU_COMPATIBLE */ #if LWIP_IPV4 && LWIP_IPV6 API_VAR_REF(msg).dns_addrtype = dns_addrtype; #endif /* LWIP_IPV4 && LWIP_IPV6 */ #if LWIP_NETCONN_SEM_PER_THREAD API_VAR_REF(msg).sem = LWIP_NETCONN_THREAD_SEM_GET(); #else /* LWIP_NETCONN_SEM_PER_THREAD*/ err = sys_sem_new(API_EXPR_REF(API_VAR_REF(msg).sem), 0); if (err != ERR_OK) { API_VAR_FREE(MEMP_DNS_API_MSG, msg); return err; } #endif /* LWIP_NETCONN_SEM_PER_THREAD */ cberr = tcpip_send_msg_wait_sem(lwip_netconn_do_gethostbyname, &API_VAR_REF(msg), API_EXPR_REF(API_VAR_REF(msg).sem)); #if !LWIP_NETCONN_SEM_PER_THREAD sys_sem_free(API_EXPR_REF(API_VAR_REF(msg).sem)); #endif /* !LWIP_NETCONN_SEM_PER_THREAD */ if (cberr != ERR_OK) { API_VAR_FREE(MEMP_DNS_API_MSG, msg); return cberr; } #if LWIP_MPU_COMPATIBLE *addr = msg->addr; err = msg->err; #endif /* LWIP_MPU_COMPATIBLE */ API_VAR_FREE(MEMP_DNS_API_MSG, msg); return err; } #endif /* LWIP_DNS*/ #if LWIP_NETCONN_SEM_PER_THREAD void netconn_thread_init(void) { sys_sem_t *sem = LWIP_NETCONN_THREAD_SEM_GET(); if (!sys_sem_valid(sem)) { /* call alloc only once */ LWIP_NETCONN_THREAD_SEM_ALLOC(); LWIP_ASSERT("LWIP_NETCONN_THREAD_SEM_ALLOC() failed", sys_sem_valid(LWIP_NETCONN_THREAD_SEM_GET())); } } void netconn_thread_cleanup(void) { sys_sem_t *sem = LWIP_NETCONN_THREAD_SEM_GET(); if (sys_sem_valid(sem)) { /* call free only once */ LWIP_NETCONN_THREAD_SEM_FREE(); } } #endif /* LWIP_NETCONN_SEM_PER_THREAD */ #endif /* LWIP_NETCONN */