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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [redboot/] [v2_0/] [src/] [net/] [tcp.c] - Rev 590
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//========================================================================== // // net/tcp.c // // Stand-alone TCP networking support for RedBoot // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): gthomas // Contributors: gthomas // Date: 2000-07-14 // Purpose: // Description: // // This code is part of RedBoot (tm). // //####DESCRIPTIONEND#### // //========================================================================== #include <net/net.h> #define MAX_TCP_SEGMENT (ETH_MAX_PKTLEN - (sizeof(eth_header_t) + sizeof(ip_header_t))) #define MAX_TCP_DATA (MAX_TCP_SEGMENT - sizeof(tcp_header_t)) /* sequence number comparison macros */ #define SEQ_LT(a,b) ((int)((a)-(b)) < 0) #define SEQ_LE(a,b) ((int)((a)-(b)) <= 0) #define SEQ_GT(a,b) ((int)((a)-(b)) > 0) #define SEQ_GE(a,b) ((int)((a)-(b)) >= 0) /* Set a timer which will send an RST and abort a connection. */ static timer_t abort_timer; static void do_retrans(void *p); static void do_close(void *p); #ifdef BSP_LOG static char * flags_to_str(octet f) { static char str[7], *p; p = str; if (f & TCP_FLAG_FIN) *p++ = 'F'; if (f & TCP_FLAG_SYN) *p++ = 'S'; if (f & TCP_FLAG_RST) *p++ = 'R'; if (f & TCP_FLAG_PSH) *p++ = 'P'; if (f & TCP_FLAG_ACK) *p++ = 'A'; if (f & TCP_FLAG_URG) *p++ = 'U'; *p = '\0'; return str; } #endif /* * A major assumption is that only a very small number of sockets will * active, so a simple linear search of those sockets is acceptible. */ static tcp_socket_t *tcp_list; /* * Format and send an outgoing segment. */ static void tcp_send(tcp_socket_t *s, int flags, int resend) { tcp_header_t *tcp; ip_header_t *ip; pktbuf_t *pkt = &s->pkt; unsigned short cksum; dword tcp_magic; int tcp_magic_size = sizeof(tcp_magic); ip = pkt->ip_hdr; tcp = pkt->tcp_hdr; if (flags & TCP_FLAG_SYN) { /* If SYN, assume no data and send MSS option in tcp header */ pkt->pkt_bytes = sizeof(tcp_header_t) + 4; tcp->hdr_len = 6; tcp_magic = htonl(0x02040000 | MAX_TCP_DATA); memcpy((unsigned char *)(tcp+1), &tcp_magic, tcp_magic_size); s->data_bytes = 0; } else { pkt->pkt_bytes = s->data_bytes + sizeof(tcp_header_t); tcp->hdr_len = 5; } /* tcp header */ tcp->reserved = 0; tcp->seqnum = htonl(s->seq); tcp->acknum = htonl(s->ack); tcp->checksum = 0; if (!resend) { tcp->src_port = htons(s->our_port); tcp->dest_port = htons(s->his_port); tcp->flags = flags; /* always set PUSH flag if sending data */ if (s->data_bytes) tcp->flags |= TCP_FLAG_PSH; tcp->window = htons(MAX_TCP_DATA); tcp->urgent = 0; /* fill in some pseudo-header fields */ memcpy(ip->source, __local_ip_addr, sizeof(ip_addr_t)); memcpy(ip->destination, s->his_addr.ip_addr, sizeof(ip_addr_t)); ip->protocol = IP_PROTO_TCP; } /* another pseudo-header field */ ip->length = htons(pkt->pkt_bytes); /* compute tcp checksum */ cksum = __sum((word *)tcp, pkt->pkt_bytes, __pseudo_sum(ip)); tcp->checksum = htons(cksum); __ip_send(pkt, IP_PROTO_TCP, &s->his_addr); BSPLOG(bsp_log("tcp_send: state[%d] flags[%s] ack[%x] data[%d].\n", s->state, flags_to_str(tcp->flags), s->ack, s->data_bytes)); if (s->state == _TIME_WAIT) { // If 'reuse' is set on socket, close after 1 second, otherwise 2 minutes __timer_set(&s->timer, s->reuse ? 1000 : 120000, do_close, s); } else if ((tcp->flags & (TCP_FLAG_FIN | TCP_FLAG_SYN)) || s->data_bytes) __timer_set(&s->timer, 1000, do_retrans, s); } static pktbuf_t ack_pkt; static word ack_buf[ETH_MIN_PKTLEN/sizeof(word)]; /* * Send an ack. */ static void send_ack(tcp_socket_t *s) { tcp_header_t *tcp; ip_header_t *ip; unsigned short cksum; ack_pkt.buf = ack_buf; ack_pkt.bufsize = sizeof(ack_buf); ack_pkt.ip_hdr = ip = (ip_header_t *)ack_buf; ack_pkt.tcp_hdr = tcp = (tcp_header_t *)(ip + 1); ack_pkt.pkt_bytes = sizeof(tcp_header_t); /* tcp header */ tcp->hdr_len = 5; tcp->reserved = 0; tcp->seqnum = htonl(s->seq); tcp->acknum = htonl(s->ack); tcp->checksum = 0; tcp->src_port = htons(s->our_port); tcp->dest_port = htons(s->his_port); tcp->flags = TCP_FLAG_ACK; tcp->window = htons(MAX_TCP_DATA); tcp->urgent = 0; /* fill in some pseudo-header fields */ memcpy(ip->source, __local_ip_addr, sizeof(ip_addr_t)); memcpy(ip->destination, s->his_addr.ip_addr, sizeof(ip_addr_t)); ip->protocol = IP_PROTO_TCP; /* another pseudo-header field */ ip->length = htons(sizeof(tcp_header_t)); /* compute tcp checksum */ cksum = __sum((word *)tcp, sizeof(*tcp), __pseudo_sum(ip)); tcp->checksum = htons(cksum); __ip_send(&ack_pkt, IP_PROTO_TCP, &s->his_addr); } /* * Send a reset for a bogus incoming segment. */ static void send_reset(pktbuf_t *pkt, ip_route_t *r) { ip_header_t *ip = pkt->ip_hdr; tcp_header_t *tcp = pkt->tcp_hdr; dword seq, ack; word src, dest; word cksum; seq = ntohl(tcp->acknum); ack = ntohl(tcp->seqnum); src = ntohs(tcp->dest_port); dest = ntohs(tcp->src_port); tcp = (tcp_header_t *)(ip + 1); pkt->pkt_bytes = sizeof(tcp_header_t); /* tcp header */ tcp->hdr_len = 5; tcp->reserved = 0; tcp->seqnum = htonl(seq); tcp->acknum = htonl(ack); tcp->window = htons(1024); tcp->urgent = 0; tcp->checksum = 0; tcp->src_port = htons(src); tcp->dest_port = htons(dest); tcp->flags = TCP_FLAG_RST | TCP_FLAG_ACK; /* fill in some pseudo-header fields */ memcpy(ip->source, __local_ip_addr, sizeof(ip_addr_t)); memcpy(ip->destination, r->ip_addr, sizeof(ip_addr_t)); ip->protocol = IP_PROTO_TCP; ip->length = htons(pkt->pkt_bytes); /* compute tcp checksum */ cksum = __sum((word *)tcp, pkt->pkt_bytes, __pseudo_sum(ip)); tcp->checksum = htons(cksum); __ip_send(pkt, IP_PROTO_TCP, r); } /* * Remove given socket from socket list. */ static void unlink_socket(tcp_socket_t *s) { tcp_socket_t *prev, *tp; for (prev = NULL, tp = tcp_list; tp; prev = tp, tp = tp->next) if (tp == s) { BSPLOG(bsp_log("unlink tcp socket.\n")); if (prev) prev->next = s->next; else tcp_list = s->next; } } /* * Retransmit last packet. */ static void do_retrans(void *p) { BSPLOG(bsp_log("tcp do_retrans.\n")); tcp_send((tcp_socket_t *)p, 0, 1); } static void do_close(void *p) { BSPLOG(bsp_log("tcp do_close.\n")); /* close connection */ ((tcp_socket_t *)p)->state = _CLOSED; unlink_socket(p); } static void free_rxlist(tcp_socket_t *s) { pktbuf_t *p; BSPLOG(bsp_log("tcp free_rxlist.\n")); while ((p = s->rxlist) != NULL) { s->rxlist = p->next; __pktbuf_free(p); } } /* * Handle a conection reset. */ static void do_reset(tcp_socket_t *s) { /* close connection */ s->state = _CLOSED; __timer_cancel(&s->timer); free_rxlist(s); unlink_socket(s); } /* * Extract data from incoming tcp segment. * Returns true if packet is queued on rxlist, false otherwise. */ static int handle_data(tcp_socket_t *s, pktbuf_t *pkt) { tcp_header_t *tcp = pkt->tcp_hdr; unsigned int diff, seq; int data_len; char *data_ptr; pktbuf_t *p; data_len = pkt->pkt_bytes - (tcp->hdr_len << 2); data_ptr = ((char *)tcp) + (tcp->hdr_len << 2); seq = ntohl(tcp->seqnum); BSPLOG(bsp_log("tcp data: seq[%x] len[%d].\n", seq, data_len)); if (SEQ_LE(seq, s->ack)) { /* * Figure difference between which byte we're expecting and which byte * is sent first. Adjust data length and data pointer accordingly. */ diff = s->ack - seq; data_len -= diff; data_ptr += diff; if (data_len > 0) { /* queue the new data */ s->ack += data_len; pkt->next = NULL; if ((p = s->rxlist) != NULL) { while (p->next) p = p->next; p->next = pkt; BSPLOG(bsp_log("tcp data: Add pkt[%x] len[%d].\n", pkt, data_len)); } else { s->rxlist = pkt; s->rxcnt = data_len; s->rxptr = data_ptr; BSPLOG(bsp_log("tcp data: pkt[%x] len[%d].\n", pkt, data_len)); } return 1; } } return 0; } static void handle_ack(tcp_socket_t *s, pktbuf_t *pkt) { tcp_header_t *tcp = pkt->tcp_hdr; dword ack; int advance; char *dp; /* process ack value in packet */ ack = ntohl(tcp->acknum); BSPLOG(bsp_log("Rcvd tcp ACK %x\n", ack)); if (SEQ_GT(ack, s->seq)) { __timer_cancel(&s->timer); advance = ack - s->seq; if (advance > s->data_bytes) advance = s->data_bytes; BSPLOG(bsp_log("seq advance %d", advance)); if (advance > 0) { s->seq += advance; s->data_bytes -= advance; if (s->data_bytes) { /* other end ack'd only part of the pkt */ BSPLOG(bsp_log(" %d bytes left", s->data_bytes)); dp = (char *)(s->pkt.tcp_hdr + 1); memcpy(dp, dp + advance, s->data_bytes); } } } BSPLOG(bsp_log("\n")); } /* * Handle incoming TCP packets. */ void __tcp_handler(pktbuf_t *pkt, ip_route_t *r) { tcp_header_t *tcp = pkt->tcp_hdr; ip_header_t *ip = pkt->ip_hdr; tcp_socket_t *prev,*s; dword ack; int queued = 0; /* set length for pseudo sum calculation */ ip->length = htons(pkt->pkt_bytes); if (__sum((word *)tcp, pkt->pkt_bytes, __pseudo_sum(ip)) == 0) { for (prev = NULL, s = tcp_list; s; prev = s, s = s->next) { if (s->our_port == ntohs(tcp->dest_port)) { if (s->his_port == 0) break; if (s->his_port == ntohs(tcp->src_port) && !memcmp(r->ip_addr, s->his_addr.ip_addr, sizeof(ip_addr_t))) break; } } if (s) { /* found the socket this packet belongs to */ /* refresh his ethernet address */ memcpy(s->his_addr.enet_addr, r->enet_addr, sizeof(enet_addr_t)); if (s->state != _SYN_RCVD && tcp->flags & TCP_FLAG_RST) { BSPLOG(bsp_log("TCP_FLAG_RST rcvd\n")); do_reset(s); __pktbuf_free(pkt); return; } switch (s->state) { case _SYN_SENT: /* active open not supported */ if (tcp->flags != (TCP_FLAG_SYN | TCP_FLAG_ACK)) { do_reset(s); __pktbuf_free(pkt); return; } s->state = _ESTABLISHED; s->ack = ntohl(tcp->seqnum) + 1; s->seq = ntohl(tcp->acknum); send_ack(s); break; case _LISTEN: if (tcp->flags & TCP_FLAG_SYN) { s->state = _SYN_RCVD; s->ack = ntohl(tcp->seqnum) + 1; s->his_port = ntohs(tcp->src_port); memcpy(s->his_addr.ip_addr, r->ip_addr, sizeof(ip_addr_t)); s->data_bytes = 0; BSPLOG(bsp_log("SYN from %d.%d.%d.%d:%d (seq %x)\n", s->his_addr.ip_addr[0],s->his_addr.ip_addr[1], s->his_addr.ip_addr[2],s->his_addr.ip_addr[3], s->his_port, ntohl(tcp->seqnum))); tcp_send(s, TCP_FLAG_SYN | TCP_FLAG_ACK, 0); } else send_reset(pkt, r); break; case _SYN_RCVD: BSPLOG(bsp_log("_SYN_RCVD timer cancel.\n")); __timer_cancel(&s->timer); /* go back to _LISTEN state if reset */ if (tcp->flags & TCP_FLAG_RST) { s->state = _LISTEN; BSPLOG(bsp_log("_SYN_RCVD --> _LISTEN\n")); } else if (tcp->flags & TCP_FLAG_SYN) { /* apparently our SYN/ACK was lost? */ tcp_send(s, 0, 1); BSPLOG(bsp_log("retransmitting SYN/ACK\n")); } else if ((tcp->flags & TCP_FLAG_ACK) && ntohl(tcp->acknum) == (s->seq + 1)) { /* we've established the connection */ s->state = _ESTABLISHED; s->seq++; BSPLOG(bsp_log("ACK received - connection established\n")); } break; case _ESTABLISHED: case _CLOSE_WAIT: ack = s->ack; /* save original ack */ if (tcp->flags & TCP_FLAG_ACK) handle_ack(s, pkt); queued = handle_data(s, pkt); if ((tcp->flags & TCP_FLAG_FIN) && ntohl(tcp->seqnum) == s->ack) { BSPLOG(bsp_log("FIN received - going to _CLOSE_WAIT\n")); s->ack++; s->state = _CLOSE_WAIT; } /* * Send an ack if neccessary. */ if (s->ack != ack || pkt->pkt_bytes > (tcp->hdr_len << 2)) send_ack(s); break; case _LAST_ACK: if (tcp->flags & TCP_FLAG_ACK) { handle_ack(s, pkt); if (ntohl(tcp->acknum) == (s->seq + 1)) { BSPLOG(bsp_log("_LAST_ACK --> _CLOSED\n")); s->state = _CLOSED; unlink_socket(s); } } break; case _FIN_WAIT_1: if (tcp->flags & TCP_FLAG_ACK) { handle_ack(s, pkt); if (ntohl(tcp->acknum) == (s->seq + 1)) { /* got ACK for FIN packet */ s->seq++; if (tcp->flags & TCP_FLAG_FIN) { BSPLOG(bsp_log("_FIN_WAIT_1 --> _TIME_WAIT\n")); s->ack++; s->state = _TIME_WAIT; send_ack(s); } else { s->state = _FIN_WAIT_2; BSPLOG(bsp_log("_FIN_WAIT_1 --> _FIN_WAIT_2\n")); } break; /* All done for now */ } } /* At this point, no ACK for FIN has been seen, so check for simultaneous close */ if (tcp->flags & TCP_FLAG_FIN) { BSPLOG(bsp_log("_FIN_WAIT_1 --> _CLOSING\n")); __timer_cancel(&s->timer); s->ack++; s->state = _CLOSING; /* FIN is resent so the timeout and retry for this packet will also take care of timeout and resend of the previously sent FIN (which got us to FIN_WAIT_1). While not technically correct, resending FIN only causes a duplicate FIN (same sequence number) which should be ignored by the other end. */ tcp_send(s, TCP_FLAG_FIN | TCP_FLAG_ACK, 0); } break; case _FIN_WAIT_2: queued = handle_data(s, pkt); if (tcp->flags & TCP_FLAG_FIN) { BSPLOG(bsp_log("_FIN_WAIT_2 --> _TIME_WAIT\n")); s->ack++; s->state = _TIME_WAIT; send_ack(s); } break; case _CLOSING: if (tcp->flags & TCP_FLAG_ACK) { handle_ack(s, pkt); if (ntohl(tcp->acknum) == (s->seq + 1)) { /* got ACK for FIN packet */ BSPLOG(bsp_log("_CLOSING --> _TIME_WAIT\n")); __timer_cancel(&s->timer); s->state = _TIME_WAIT; } } break; case _TIME_WAIT: BSPLOG(bsp_log("_TIME_WAIT resend.\n")); if (tcp->flags & TCP_FLAG_FIN) tcp_send(s, 0, 1); /* just resend ack */ break; } } else { BSPLOG(bsp_log("Unexpected segment from: %d.%d.%d.%d:%d\n", r->ip_addr[0], r->ip_addr[1], r->ip_addr[3], r->ip_addr[4], ntohs(tcp->src_port))); send_reset(pkt, r); } } if (!queued) __pktbuf_free(pkt); } void __tcp_poll(void) { __enet_poll(); MS_TICKS_DELAY(); __timer_poll(); } int __tcp_listen(tcp_socket_t *s, word port) { BSPLOG(bsp_log("tcp_listen: s[%p] port[%x]\n", s, port)); memset(s, 0, sizeof(tcp_socket_t)); s->state = _LISTEN; s->our_port = port; s->pkt.buf = (word *)s->pktbuf; s->pkt.bufsize = ETH_MAX_PKTLEN; s->pkt.ip_hdr = (ip_header_t *)s->pkt.buf; s->pkt.tcp_hdr = (tcp_header_t *)(s->pkt.ip_hdr + 1); s->next = tcp_list; #if 0 /* limit to one open socket at a time */ if (s->next) { BSPLOG(bsp_log("tcp_listen: recursion error\n")); BSPLOG(while(1)); } #endif tcp_list = s; return 0; } /* * SO_REUSEADDR, no 2MSL. */ void __tcp_so_reuseaddr(tcp_socket_t *s) { // BSPLOG(bsp_log("__tcp_so_reuseaddr.\n")); s->reuse = 0x01; } /* * Block while waiting for all data to be transmitted. */ void __tcp_drain(tcp_socket_t *s) { // BSPLOG(bsp_log("__tcp_drain.\n")); while (s->state != _CLOSED && s->data_bytes) __tcp_poll(); // BSPLOG(bsp_log("__tcp_drain done.\n")); } /* * Close the tcp connection. */ static void do_abort(void *s) { BSPLOG(bsp_log("do_abort: send RST\n")); tcp_send((tcp_socket_t *)s, TCP_FLAG_ACK | TCP_FLAG_RST, 0); __timer_cancel(&abort_timer); ((tcp_socket_t *)s)->state = _CLOSED; free_rxlist((tcp_socket_t *)s); unlink_socket((tcp_socket_t *)s); } void __tcp_abort(tcp_socket_t *s, unsigned long delay) { __timer_set(&abort_timer, delay, do_abort, s); } /* * Close the tcp connection. */ void __tcp_close(tcp_socket_t *s) { __tcp_drain(s); if (s->state == _ESTABLISHED || s->state == _SYN_RCVD) { BSPLOG(bsp_log("__tcp_close: going to _FIN_WAIT_1\n")); s->state = _FIN_WAIT_1; tcp_send(s, TCP_FLAG_ACK | TCP_FLAG_FIN, 0); } else if (s->state == _CLOSE_WAIT) { BSPLOG(bsp_log("__tcp_close: going to _LAST_ACK\n")); s->state = _LAST_ACK; tcp_send(s, TCP_FLAG_ACK | TCP_FLAG_FIN, 0); } free_rxlist(s); } /* * Wait for connection to be fully closed. */ void __tcp_close_wait(tcp_socket_t *s) { BSPLOG(bsp_log("__tcp_close_wait.\n")); while (s->state != _CLOSED) __tcp_poll(); BSPLOG(bsp_log("__tcp_close_wait done.\n")); } /* * Read up to 'len' bytes without blocking. */ int __tcp_read(tcp_socket_t *s, char *buf, int len) { int nread; pktbuf_t *pkt; tcp_header_t *tcp; if (len <= 0 || s->rxcnt == 0) return 0; if (s->state != _ESTABLISHED && s->rxcnt == 0) return -1; nread = 0; while (len) { if (len < s->rxcnt) { memcpy(buf, s->rxptr, len); BSPLOG(bsp_log("tcp_read: read %d bytes.\n", len)); s->rxptr += len; s->rxcnt -= len; nread += len; BSPLOG(bsp_log("tcp_read: %d bytes left in rxlist head.\n", s->rxcnt)); break; } else { memcpy(buf, s->rxptr, s->rxcnt); BSPLOG(bsp_log("tcp_read: read %d bytes. pkt[%x] freed.\n", s->rxcnt, s->rxlist)); nread += s->rxcnt; buf += s->rxcnt; len -= s->rxcnt; /* setup for next packet in list */ pkt = s->rxlist; s->rxlist = pkt->next; __pktbuf_free(pkt); if ((pkt = s->rxlist) != NULL) { tcp = pkt->tcp_hdr; s->rxcnt = pkt->pkt_bytes - (tcp->hdr_len << 2); s->rxptr = ((char *)tcp) + (tcp->hdr_len << 2); BSPLOG(bsp_log("tcp_read: next pkt[%x] has %d bytes.\n", s->rxlist, s->rxcnt)); } else { BSPLOG(bsp_log("tcp_read: no more data.\n")); s->rxcnt = 0; break; } } } return nread; } /* * Write up to 'len' bytes without blocking */ int __tcp_write(tcp_socket_t *s, char *buf, int len) { tcp_header_t *tcp = s->pkt.tcp_hdr; if (len <= 0) return 0; if (s->state != _ESTABLISHED && s->state != _CLOSE_WAIT) return -1; if (s->data_bytes) return 0; if (len > MAX_TCP_DATA) len = MAX_TCP_DATA; memcpy(tcp + 1, buf, len); s->data_bytes = len; tcp_send(s, TCP_FLAG_ACK, 0); return len; } /* * Write 'len' bytes from 'buf', blocking until sent. * If connection collapses, return -1 */ int __tcp_write_block(tcp_socket_t *s, char *buf, int len) { int total = 0; int n; while (len) { if (s->state == _CLOSE_WAIT) { // This connection is tring to close // This connection is breaking if (s->data_bytes == 0 && s->rxcnt == 0) __tcp_close(s); } if (s->state == _CLOSED) { // The connection is gone! return -1; } n = __tcp_write(s, buf, len); if (n > 0) { len -= n; buf += n; } __tcp_poll(); } __tcp_drain(s); return total; } /* * Establish a new [outgoing] connection, with a timeout. */ int __tcp_open(tcp_socket_t *s, struct sockaddr_in *host, word port, int timeout, int *err) { // Fill in socket details memset(s, 0, sizeof(tcp_socket_t)); s->state = _SYN_SENT; s->our_port = port; s->his_port = host->sin_port; s->pkt.buf = (word *)s->pktbuf; s->pkt.bufsize = ETH_MAX_PKTLEN; s->pkt.ip_hdr = (ip_header_t *)s->pkt.buf; s->pkt.tcp_hdr = (tcp_header_t *)(s->pkt.ip_hdr + 1); s->seq = (port << 16) | 0xDE77; s->ack = 0; if (__arp_lookup((ip_addr_t *)&host->sin_addr, &s->his_addr) < 0) { diag_printf("%s: Can't find address of server\n", __FUNCTION__); return -1; } s->next = tcp_list; tcp_list = s; // Send off the SYN packet to open the connection tcp_send(s, TCP_FLAG_SYN, 0); // Wait for connection to establish while (s->state != _ESTABLISHED) { if (s->state == _CLOSED) { diag_printf("TCP open - host closed connection\n"); return -1; } if (--timeout <= 0) { diag_printf("TCP open - connection timed out\n"); return -1; } MS_TICKS_DELAY(); __tcp_poll(); } return 0; }
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