/**************************************************************************** * net/tcp/tcp_send_buffered.c * * Copyright (C) 2007-2014, 2016-2017 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * Jason Jiang * * 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. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "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 * COPYRIGHT OWNER OR CONTRIBUTORS 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. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #if defined(CONFIG_NET) && defined(CONFIG_NET_TCP) && \ defined(CONFIG_NET_TCP_WRITE_BUFFERS) #if defined(CONFIG_DEBUG_FEATURES) && defined(CONFIG_NET_TCP_WRBUFFER_DEBUG) /* Force debug output (from this file only) */ # undef CONFIG_DEBUG_NET # define CONFIG_DEBUG_NET 1 #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "socket/socket.h" #include "netdev/netdev.h" #include "arp/arp.h" #include "icmpv6/icmpv6.h" #include "neighbor/neighbor.h" #include "tcp/tcp.h" #include "devif/devif.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* If both IPv4 and IPv6 support are both enabled, then we will need to build * in some additional domain selection support. */ #if defined(CONFIG_NET_IPv4) && defined(CONFIG_NET_IPv6) # define NEED_IPDOMAIN_SUPPORT 1 #endif #define TCPIPv4BUF ((struct tcp_hdr_s *)&dev->d_buf[NET_LL_HDRLEN(dev) + IPv4_HDRLEN]) #define TCPIPv6BUF ((struct tcp_hdr_s *)&dev->d_buf[NET_LL_HDRLEN(dev) + IPv6_HDRLEN]) /* Debug */ #ifdef CONFIG_NET_TCP_WRBUFFER_DUMP # define BUF_DUMP(msg,buf,len) lib_dumpbuffer(msg,buf,len) #else # define BUF_DUMP(msg,buf,len) # undef WRB_DUMP # define WRB_DUMP(msg,wrb,len,offset) #endif /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: psock_insert_segment * * Description: * Insert a new segment in a write buffer queue, keep the segment queue in * ascending order of sequence number. * * Parameters: * wrb The segment to be inserted * q The write buffer queue in which to insert the segment * * Returned Value: * None * * Assumptions: * Running at the interrupt level * ****************************************************************************/ static void psock_insert_segment(FAR struct tcp_wrbuffer_s *wrb, FAR sq_queue_t *q) { FAR sq_entry_t *entry = (FAR sq_entry_t *)wrb; FAR sq_entry_t *insert = NULL; FAR sq_entry_t *itr; for (itr = sq_peek(q); itr; itr = sq_next(itr)) { FAR struct tcp_wrbuffer_s *wrb0 = (FAR struct tcp_wrbuffer_s *)itr; if (WRB_SEQNO(wrb0) < WRB_SEQNO(wrb)) { insert = itr; } else { break; } } if (insert) { sq_addafter(insert, entry, q); } else { sq_addfirst(entry, q); } } /**************************************************************************** * Name: psock_lost_connection * * Description: * The TCP connection has been lost. Free all write buffers. * * Parameters: * psock The socket structure * conn The connection structure associated with the socket * * Returned Value: * None * ****************************************************************************/ static inline void psock_lost_connection(FAR struct socket *psock, FAR struct tcp_conn_s *conn) { FAR sq_entry_t *entry; FAR sq_entry_t *next; /* Do not allow any further callbacks */ if (psock->s_sndcb != NULL) { psock->s_sndcb->flags = 0; psock->s_sndcb->event = NULL; } /* Free all queued write buffers */ for (entry = sq_peek(&conn->unacked_q); entry; entry = next) { next = sq_next(entry); tcp_wrbuffer_release((FAR struct tcp_wrbuffer_s *)entry); } for (entry = sq_peek(&conn->write_q); entry; entry = next) { next = sq_next(entry); tcp_wrbuffer_release((FAR struct tcp_wrbuffer_s *)entry); } /* Reset write buffering variables */ sq_init(&conn->unacked_q); sq_init(&conn->write_q); conn->sent = 0; conn->sndseq_max = 0; } /**************************************************************************** * Name: send_ipselect * * Description: * If both IPv4 and IPv6 support are enabled, then we will need to select * which one to use when generating the outgoing packet. If only one * domain is selected, then the setup is already in place and we need do * nothing. * * Parameters: * dev - The structure of the network driver that caused the interrupt * psock - Socket state structure * * Returned Value: * None * * Assumptions: * Running at the interrupt level * ****************************************************************************/ #ifdef NEED_IPDOMAIN_SUPPORT static inline void send_ipselect(FAR struct net_driver_s *dev, FAR struct tcp_conn_s *conn) { /* Which domain the the socket support */ if (conn->domain == PF_INET) { /* Select the IPv4 domain */ tcp_ipv4_select(dev); } else /* if (conn->domain == PF_INET6) */ { /* Select the IPv6 domain */ DEBUGASSERT(conn->domain == PF_INET6); tcp_ipv4_select(dev); } } #endif /**************************************************************************** * Name: psock_send_addrchck * * Description: * Check if the destination IP address is in the IPv4 ARP or IPv6 Neighbor * tables. If not, then the send won't actually make it out... it will be * replaced with an ARP request (IPv4) or a Neighbor Solicitation (IPv6). * * NOTE 1: This could be an expensive check if there are a lot of * entries in the ARP or Neighbor tables. * * NOTE 2: If we are actually harvesting IP addresses on incoming IP * packets, then this check should not be necessary; the MAC mapping * should already be in the ARP table in many cases (IPv4 only). * * NOTE 3: If CONFIG_NET_ARP_SEND then we can be assured that the IP * address mapping is already in the ARP table. * * Parameters: * conn - The TCP connection structure * * Returned Value: * None * * Assumptions: * Running at the interrupt level * ****************************************************************************/ #ifdef CONFIG_NET_ETHERNET static inline bool psock_send_addrchck(FAR struct tcp_conn_s *conn) { #ifdef CONFIG_NET_IPv4 #ifdef CONFIG_NET_IPv6 if (conn->domain == PF_INET) #endif { #if !defined(CONFIG_NET_ARP_IPIN) && !defined(CONFIG_NET_ARP_SEND) return (arp_find(conn->u.ipv4.raddr) != NULL); #else return true; #endif } #endif /* CONFIG_NET_IPv4 */ #ifdef CONFIG_NET_IPv6 #ifdef CONFIG_NET_IPv4 else #endif { #if !defined(CONFIG_NET_ICMPv6_NEIGHBOR) return (neighbor_findentry(conn->u.ipv6.raddr) != NULL); #else return true; #endif } #endif /* CONFIG_NET_IPv6 */ } #else /* CONFIG_NET_ETHERNET */ # define psock_send_addrchck(r) (true) #endif /* CONFIG_NET_ETHERNET */ /**************************************************************************** * Name: psock_send_interrupt * * Description: * This function is called from the interrupt level to perform the actual * send operation when polled by the lower, device interfacing layer. * * Parameters: * dev The structure of the network driver that caused the interrupt * conn The connection structure associated with the socket * flags Set of events describing why the callback was invoked * * Returned Value: * None * * Assumptions: * Running at the interrupt level * ****************************************************************************/ static uint16_t psock_send_interrupt(FAR struct net_driver_s *dev, FAR void *pvconn, FAR void *pvpriv, uint16_t flags) { FAR struct tcp_conn_s *conn = (FAR struct tcp_conn_s *)pvconn; FAR struct socket *psock = (FAR struct socket *)pvpriv; #ifdef CONFIG_NETDEV_MULTINIC /* The TCP socket is connected and, hence, should be bound to a device. * Make sure that the polling device is the one that we are bound to. */ DEBUGASSERT(conn->dev != NULL); if (dev != conn->dev) { return flags; } #endif ninfo("flags: %04x\n", flags); /* If this packet contains an acknowledgement, then update the count of * acknowledged bytes. */ if ((flags & TCP_ACKDATA) != 0) { FAR struct tcp_wrbuffer_s *wrb; FAR struct tcp_hdr_s *tcp; FAR sq_entry_t *entry; FAR sq_entry_t *next; uint32_t ackno; /* Get the offset address of the TCP header */ #ifdef CONFIG_NET_IPv4 #ifdef CONFIG_NET_IPv6 if (conn->domain == PF_INET) #endif { DEBUGASSERT(IFF_IS_IPv4(dev->d_flags)); tcp = TCPIPv4BUF; } #endif /* CONFIG_NET_IPv4 */ #ifdef CONFIG_NET_IPv6 #ifdef CONFIG_NET_IPv4 else #endif { DEBUGASSERT(IFF_IS_IPv6(dev->d_flags)); tcp = TCPIPv6BUF; } #endif /* CONFIG_NET_IPv6 */ /* Get the ACK number from the TCP header */ ackno = tcp_getsequence(tcp->ackno); ninfo("ACK: ackno=%u flags=%04x\n", ackno, flags); /* Look at every write buffer in the unacked_q. The unacked_q * holds write buffers that have been entirely sent, but which * have not yet been ACKed. */ for (entry = sq_peek(&conn->unacked_q); entry; entry = next) { uint32_t lastseq; /* Check of some or all of this write buffer has been ACKed. */ next = sq_next(entry); wrb = (FAR struct tcp_wrbuffer_s *)entry; /* If the ACKed sequence number is greater than the start * sequence number of the write buffer, then some or all of * the write buffer has been ACKed. */ if (ackno > WRB_SEQNO(wrb)) { /* Get the sequence number at the end of the data */ lastseq = WRB_SEQNO(wrb) + WRB_PKTLEN(wrb); ninfo("ACK: wrb=%p seqno=%u lastseq=%u pktlen=%u ackno=%u\n", wrb, WRB_SEQNO(wrb), lastseq, WRB_PKTLEN(wrb), ackno); /* Has the entire buffer been ACKed? */ if (ackno >= lastseq) { ninfo("ACK: wrb=%p Freeing write buffer\n", wrb); /* Yes... Remove the write buffer from ACK waiting queue */ sq_rem(entry, &conn->unacked_q); /* And return the write buffer to the pool of free buffers */ tcp_wrbuffer_release(wrb); } else { unsigned int trimlen; /* No, then just trim the ACKed bytes from the beginning * of the write buffer. This will free up some I/O buffers * that can be reused while are still sending the last * buffers in the chain. */ trimlen = ackno - WRB_SEQNO(wrb); if (trimlen > WRB_SENT(wrb)) { /* More data has been ACKed then we have sent? */ trimlen = WRB_SENT(wrb); } ninfo("ACK: wrb=%p trim %u bytes\n", wrb, trimlen); WRB_TRIM(wrb, trimlen); WRB_SEQNO(wrb) = ackno; WRB_SENT(wrb) -= trimlen; /* Set the new sequence number for what remains */ ninfo("ACK: wrb=%p seqno=%u pktlen=%u\n", wrb, WRB_SEQNO(wrb), WRB_PKTLEN(wrb)); } } } /* A special case is the head of the write_q which may be partially * sent and so can still have un-ACKed bytes that could get ACKed * before the entire write buffer has even been sent. */ wrb = (FAR struct tcp_wrbuffer_s *)sq_peek(&conn->write_q); if (wrb && WRB_SENT(wrb) > 0 && ackno > WRB_SEQNO(wrb)) { uint32_t nacked; /* Number of bytes that were ACKed */ nacked = ackno - WRB_SEQNO(wrb); if (nacked > WRB_SENT(wrb)) { /* More data has been ACKed then we have sent? ASSERT? */ nacked = WRB_SENT(wrb); } ninfo("ACK: wrb=%p seqno=%u nacked=%u sent=%u ackno=%u\n", wrb, WRB_SEQNO(wrb), nacked, WRB_SENT(wrb), ackno); /* Trim the ACKed bytes from the beginning of the write buffer. */ WRB_TRIM(wrb, nacked); WRB_SEQNO(wrb) = ackno; WRB_SENT(wrb) -= nacked; ninfo("ACK: wrb=%p seqno=%u pktlen=%u sent=%u\n", wrb, WRB_SEQNO(wrb), WRB_PKTLEN(wrb), WRB_SENT(wrb)); } } /* Check for a loss of connection */ else if ((flags & TCP_DISCONN_EVENTS) != 0) { ninfo("Lost connection: %04x\n", flags); if (psock->s_conn != NULL) { /* Report not connected */ net_lostconnection(psock, flags); } /* Free write buffers and terminate polling */ psock_lost_connection(psock, conn); return flags; } /* Check if we are being asked to retransmit data */ else if ((flags & TCP_REXMIT) != 0) { FAR struct tcp_wrbuffer_s *wrb; FAR sq_entry_t *entry; ninfo("REXMIT: %04x\n", flags); /* If there is a partially sent write buffer at the head of the * write_q? Has anything been sent from that write buffer? */ wrb = (FAR struct tcp_wrbuffer_s *)sq_peek(&conn->write_q); ninfo("REXMIT: wrb=%p sent=%u\n", wrb, wrb ? WRB_SENT(wrb) : 0); if (wrb != NULL && WRB_SENT(wrb) > 0) { FAR struct tcp_wrbuffer_s *tmp; uint16_t sent; /* Yes.. Reset the number of bytes sent sent from the write buffer */ sent = WRB_SENT(wrb); if (conn->unacked > sent) { conn->unacked -= sent; } else { conn->unacked = 0; } if (conn->sent > sent) { conn->sent -= sent; } else { conn->sent = 0; } WRB_SENT(wrb) = 0; ninfo("REXMIT: wrb=%p sent=%u, conn unacked=%d sent=%d\n", wrb, WRB_SENT(wrb), conn->unacked, conn->sent); /* Increment the retransmit count on this write buffer. */ if (++WRB_NRTX(wrb) >= TCP_MAXRTX) { nwarn("WARNING: Expiring wrb=%p nrtx=%u\n", wrb, WRB_NRTX(wrb)); /* The maximum retry count as been exhausted. Remove the write * buffer at the head of the queue. */ tmp = (FAR struct tcp_wrbuffer_s *)sq_remfirst(&conn->write_q); DEBUGASSERT(tmp == wrb); UNUSED(tmp); /* And return the write buffer to the free list */ tcp_wrbuffer_release(wrb); /* NOTE expired is different from un-ACKed, it is designed to * represent the number of segments that have been sent, * retransmitted, and un-ACKed, if expired is not zero, the * connection will be closed. * * field expired can only be updated at TCP_ESTABLISHED state */ conn->expired++; } } /* Move all segments that have been sent but not ACKed to the write * queue again note, the un-ACKed segments are put at the head of the * write_q so they can be resent as soon as possible. */ while ((entry = sq_remlast(&conn->unacked_q)) != NULL) { wrb = (FAR struct tcp_wrbuffer_s *)entry; uint16_t sent; /* Reset the number of bytes sent sent from the write buffer */ sent = WRB_SENT(wrb); if (conn->unacked > sent) { conn->unacked -= sent; } else { conn->unacked = 0; } if (conn->sent > sent) { conn->sent -= sent; } else { conn->sent = 0; } WRB_SENT(wrb) = 0; ninfo("REXMIT: wrb=%p sent=%u, conn unacked=%d sent=%d\n", wrb, WRB_SENT(wrb), conn->unacked, conn->sent); /* Free any write buffers that have exceed the retry count */ if (++WRB_NRTX(wrb) >= TCP_MAXRTX) { nwarn("WARNING: Expiring wrb=%p nrtx=%u\n", wrb, WRB_NRTX(wrb)); /* Return the write buffer to the free list */ tcp_wrbuffer_release(wrb); /* NOTE expired is different from un-ACKed, it is designed to * represent the number of segments that have been sent, * retransmitted, and un-ACKed, if expired is not zero, the * connection will be closed. * * field expired can only be updated at TCP_ESTABLISHED state */ conn->expired++; continue; } else { /* Insert the write buffer into the write_q (in sequence * number order). The retransmission will occur below * when the write buffer with the lowest sequence number * is pulled from the write_q again. */ ninfo("REXMIT: Moving wrb=%p nrtx=%u\n", wrb, WRB_NRTX(wrb)); psock_insert_segment(wrb, &conn->write_q); } } } /* Check if the outgoing packet is available (it may have been claimed * by a sendto interrupt serving a different thread). */ if (dev->d_sndlen > 0) { /* Another thread has beat us sending data, wait for the next poll */ return flags; } /* We get here if (1) not all of the data has been ACKed, (2) we have been * asked to retransmit data, (3) the connection is still healthy, and (4) * the outgoing packet is available for our use. In this case, we are * now free to send more data to receiver -- UNLESS the buffer contains * unprocessed incoming data. In that event, we will have to wait for the * next polling cycle. */ if ((conn->tcpstateflags & TCP_ESTABLISHED) && (flags & (TCP_POLL | TCP_REXMIT)) && !(sq_empty(&conn->write_q))) { /* Check if the destination IP address is in the ARP or Neighbor * table. If not, then the send won't actually make it out... it * will be replaced with an ARP request or Neighbor Solicitation. */ if (psock_send_addrchck(conn)) { FAR struct tcp_wrbuffer_s *wrb; uint32_t predicted_seqno; size_t sndlen; /* Peek at the head of the write queue (but don't remove anything * from the write queue yet). We know from the above test that * the write_q is not empty. */ wrb = (FAR struct tcp_wrbuffer_s *)sq_peek(&conn->write_q); DEBUGASSERT(wrb); /* Get the amount of data that we can send in the next packet. * We will send either the remaining data in the buffer I/O * buffer chain, or as much as will fit given the MSS and current * window size. */ sndlen = WRB_PKTLEN(wrb) - WRB_SENT(wrb); if (sndlen > conn->mss) { sndlen = conn->mss; } if (sndlen > conn->winsize) { sndlen = conn->winsize; } ninfo("SEND: wrb=%p pktlen=%u sent=%u sndlen=%u\n", wrb, WRB_PKTLEN(wrb), WRB_SENT(wrb), sndlen); /* Set the sequence number for this segment. If we are * retransmitting, then the sequence number will already * be set for this write buffer. */ if (WRB_SEQNO(wrb) == (unsigned)-1) { WRB_SEQNO(wrb) = conn->isn + conn->sent; } /* The TCP stack updates sndseq on receipt of ACK *before* * this function is called. In that case sndseq will point * to the next unacknowledged byte (which might have already * been sent). We will overwrite the value of sndseq here * before the packet is sent. */ tcp_setsequence(conn->sndseq, WRB_SEQNO(wrb) + WRB_SENT(wrb)); #ifdef NEED_IPDOMAIN_SUPPORT /* If both IPv4 and IPv6 support are enabled, then we will need to * select which one to use when generating the outgoing packet. * If only one domain is selected, then the setup is already in * place and we need do nothing. */ send_ipselect(dev, conn); #endif /* Then set-up to send that amount of data with the offset * corresponding to the amount of data already sent. (this * won't actually happen until the polling cycle completes). */ devif_iob_send(dev, WRB_IOB(wrb), sndlen, WRB_SENT(wrb)); /* Remember how much data we send out now so that we know * when everything has been acknowledged. Just increment * the amount of data sent. This will be needed in sequence * number calculations. */ conn->unacked += sndlen; conn->sent += sndlen; /* Below prediction will become true, unless retransmission occurrence */ predicted_seqno = tcp_getsequence(conn->sndseq) + sndlen; if ((predicted_seqno > conn->sndseq_max) || (tcp_getsequence(conn->sndseq) > predicted_seqno)) /* overflow */ { conn->sndseq_max = predicted_seqno; } ninfo("SEND: wrb=%p nrtx=%u unacked=%u sent=%u\n", wrb, WRB_NRTX(wrb), conn->unacked, conn->sent); /* Increment the count of bytes sent from this write buffer */ WRB_SENT(wrb) += sndlen; ninfo("SEND: wrb=%p sent=%u pktlen=%u\n", wrb, WRB_SENT(wrb), WRB_PKTLEN(wrb)); /* Remove the write buffer from the write queue if the * last of the data has been sent from the buffer. */ DEBUGASSERT(WRB_SENT(wrb) <= WRB_PKTLEN(wrb)); if (WRB_SENT(wrb) >= WRB_PKTLEN(wrb)) { FAR struct tcp_wrbuffer_s *tmp; ninfo("SEND: wrb=%p Move to unacked_q\n", wrb); tmp = (FAR struct tcp_wrbuffer_s *)sq_remfirst(&conn->write_q); DEBUGASSERT(tmp == wrb); UNUSED(tmp); /* Put the I/O buffer chain in the un-acked queue; the * segment is waiting for ACK again */ psock_insert_segment(wrb, &conn->unacked_q); } /* Only one data can be sent by low level driver at once, * tell the caller stop polling the other connection. */ flags &= ~TCP_POLL; } } /* Continue waiting */ return flags; } /**************************************************************************** * Name: send_txnotify * * Description: * Notify the appropriate device driver that we are have data ready to * be send (TCP) * * Parameters: * psock - Socket state structure * conn - The TCP connection structure * * Returned Value: * None * ****************************************************************************/ static inline void send_txnotify(FAR struct socket *psock, FAR struct tcp_conn_s *conn) { #ifdef CONFIG_NET_IPv4 #ifdef CONFIG_NET_IPv6 /* If both IPv4 and IPv6 support are enabled, then we will need to select * the device driver using the appropriate IP domain. */ if (psock->s_domain == PF_INET) #endif { /* Notify the device driver that send data is available */ #ifdef CONFIG_NETDEV_MULTINIC netdev_ipv4_txnotify(conn->u.ipv4.laddr, conn->u.ipv4.raddr); #else netdev_ipv4_txnotify(conn->u.ipv4.raddr); #endif } #endif /* CONFIG_NET_IPv4 */ #ifdef CONFIG_NET_IPv6 #ifdef CONFIG_NET_IPv4 else /* if (psock->s_domain == PF_INET6) */ #endif /* CONFIG_NET_IPv4 */ { /* Notify the device driver that send data is available */ DEBUGASSERT(psock->s_domain == PF_INET6); #ifdef CONFIG_NETDEV_MULTINIC netdev_ipv6_txnotify(conn->u.ipv6.laddr, conn->u.ipv6.raddr); #else netdev_ipv6_txnotify(conn->u.ipv6.raddr); #endif } #endif /* CONFIG_NET_IPv6 */ } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: psock_tcp_send * * Description: * psock_tcp_send() call may be used only when the TCP socket is in a * connected state (so that the intended recipient is known). * * Parameters: * psock An instance of the internal socket structure. * buf Data to send * len Length of data to send * * Returned Value: * On success, returns the number of characters sent. On error, * -1 is returned, and errno is set appropriately: * * EAGAIN or EWOULDBLOCK * The socket is marked non-blocking and the requested operation * would block. * EBADF * An invalid descriptor was specified. * ECONNRESET * Connection reset by peer. * EDESTADDRREQ * The socket is not connection-mode, and no peer address is set. * EFAULT * An invalid user space address was specified for a parameter. * EINTR * A signal occurred before any data was transmitted. * EINVAL * Invalid argument passed. * EISCONN * The connection-mode socket was connected already but a recipient * was specified. (Now either this error is returned, or the recipient * specification is ignored.) * EMSGSIZE * The socket type requires that message be sent atomically, and the * size of the message to be sent made this impossible. * ENOBUFS * The output queue for a network interface was full. This generally * indicates that the interface has stopped sending, but may be * caused by transient congestion. * ENOMEM * No memory available. * ENOTCONN * The socket is not connected, and no target has been given. * ENOTSOCK * The argument s is not a socket. * EPIPE * The local end has been shut down on a connection oriented socket. * In this case the process will also receive a SIGPIPE unless * MSG_NOSIGNAL is set. * * Assumptions: * ****************************************************************************/ ssize_t psock_tcp_send(FAR struct socket *psock, FAR const void *buf, size_t len) { FAR struct tcp_conn_s *conn; FAR struct tcp_wrbuffer_s *wrb; ssize_t result = 0; int errcode; int ret = OK; if (psock == NULL || psock->s_crefs <= 0) { nerr("ERROR: Invalid socket\n"); errcode = EBADF; goto errout; } if (psock->s_type != SOCK_STREAM || !_SS_ISCONNECTED(psock->s_flags)) { nerr("ERROR: Not connected\n"); errcode = ENOTCONN; goto errout; } /* Make sure that we have the IP address mapping */ conn = (FAR struct tcp_conn_s *)psock->s_conn; DEBUGASSERT(conn); #if defined(CONFIG_NET_ARP_SEND) || defined(CONFIG_NET_ICMPv6_NEIGHBOR) #ifdef CONFIG_NET_ARP_SEND #ifdef CONFIG_NET_ICMPv6_NEIGHBOR if (psock->s_domain == PF_INET) #endif { /* Make sure that the IP address mapping is in the ARP table */ ret = arp_send(conn->u.ipv4.raddr); } #endif /* CONFIG_NET_ARP_SEND */ #ifdef CONFIG_NET_ICMPv6_NEIGHBOR #ifdef CONFIG_NET_ARP_SEND else #endif { /* Make sure that the IP address mapping is in the Neighbor Table */ ret = icmpv6_neighbor(conn->u.ipv6.raddr); } #endif /* CONFIG_NET_ICMPv6_NEIGHBOR */ /* Did we successfully get the address mapping? */ if (ret < 0) { nerr("ERROR: Not reachable\n"); errcode = ENETUNREACH; goto errout; } #endif /* CONFIG_NET_ARP_SEND || CONFIG_NET_ICMPv6_NEIGHBOR */ /* Dump the incoming buffer */ BUF_DUMP("psock_tcp_send", buf, len); /* Set the socket state to sending */ psock->s_flags = _SS_SETSTATE(psock->s_flags, _SF_SEND); if (len > 0) { /* Allocate a write buffer. Careful, the network will be momentarily * unlocked here. */ net_lock(); wrb = tcp_wrbuffer_alloc(); if (!wrb) { /* A buffer allocation error occurred */ nerr("ERROR: Failed to allocate write buffer\n"); errcode = ENOMEM; goto errout_with_lock; } /* Allocate resources to receive a callback */ if (!psock->s_sndcb) { psock->s_sndcb = tcp_callback_alloc(conn); } /* Test if the callback has been allocated */ if (!psock->s_sndcb) { /* A buffer allocation error occurred */ nerr("ERROR: Failed to allocate callback\n"); errcode = ENOMEM; goto errout_with_wrb; } /* Set up the callback in the connection */ psock->s_sndcb->flags = (TCP_ACKDATA | TCP_REXMIT | TCP_POLL | TCP_DISCONN_EVENTS); psock->s_sndcb->priv = (FAR void *)psock; psock->s_sndcb->event = psock_send_interrupt; /* Initialize the write buffer */ WRB_SEQNO(wrb) = (unsigned)-1; WRB_NRTX(wrb) = 0; result = WRB_COPYIN(wrb, (FAR uint8_t *)buf, len); /* Dump I/O buffer chain */ WRB_DUMP("I/O buffer chain", wrb, WRB_PKTLEN(wrb), 0); /* psock_send_interrupt() will send data in FIFO order from the * conn->write_q */ sq_addlast(&wrb->wb_node, &conn->write_q); ninfo("Queued WRB=%p pktlen=%u write_q(%p,%p)\n", wrb, WRB_PKTLEN(wrb), conn->write_q.head, conn->write_q.tail); /* Notify the device driver of the availability of TX data */ send_txnotify(psock, conn); net_unlock(); } /* Set the socket state to idle */ psock->s_flags = _SS_SETSTATE(psock->s_flags, _SF_IDLE); /* Check for errors. Errors are signalled by negative errno values * for the send length */ if (result < 0) { errcode = result; goto errout; } /* If net_lockedwait failed, then we were probably reawakened by a signal. * In this case, net_lockedwait will have set errno appropriately. */ if (ret < 0) { errcode = -ret; goto errout; } /* Return the number of bytes actually sent */ return result; errout_with_wrb: tcp_wrbuffer_release(wrb); errout_with_lock: net_unlock(); errout: set_errno(errcode); return ERROR; } /**************************************************************************** * Name: psock_tcp_cansend * * Description: * psock_tcp_cansend() returns a value indicating if a write to the socket * would block. No space in the buffer is actually reserved, so it is * possible that the write may still block if the buffer is filled by * another means. * * Parameters: * psock An instance of the internal socket structure. * * Returned Value: * OK * At least one byte of data could be succesfully written. * -EWOULDBLOCK * There is no room in the output buffer. * -EBADF * An invalid descriptor was specified. * -ENOTCONN * The socket is not connected. * * Assumptions: * Not running at the interrupt level * ****************************************************************************/ int psock_tcp_cansend(FAR struct socket *psock) { if (!psock || psock->s_crefs <= 0) { nerr("ERROR: Invalid socket\n"); return -EBADF; } if (psock->s_type != SOCK_STREAM || !_SS_ISCONNECTED(psock->s_flags)) { nerr("ERROR: Not connected\n"); return -ENOTCONN; } if (tcp_wrbuffer_test()) { return -EWOULDBLOCK; } return OK; } #endif /* CONFIG_NET && CONFIG_NET_TCP && CONFIG_NET_TCP_WRITE_BUFFERS */