📄 tcp.c
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/* TCP functions for 'TCP/IP Lean' (c) Iosoft Ltd. 2000
This software is only licensed for distribution with the book 'TCP/IP Lean',
and may only be used for personal experimentation by the purchaser
of that book, on condition that this copyright notice is retained.
For commercial licensing, contact license@iosoft.co.uk
This is experimental software; use it entirely at your own risk. The author
offers no warranties of any kind, including its fitness for purpose. */
/*
** v0.01 JPB 27/1/00
** v0.02 JPB 31/1/00 Added timeout
** v0.03 JPB 2/2/00 Added TCP upcall, and active close
** v0.04 JPB 1/3/00 Fixed problem with SLIP node matching
** v0.05 JPB 23/3/00 Added function pointers to upcalls
** v0.06 JPB 11/4/00 Removed GENFRAME argument from close_tcp()
** v0.07 JPB 21/4/00 Fixed TCP problem receiving FIN + data
** v0.08 JPB 5/5/00 Minor cosmetic improvements to TCP code
** v0.09 JPB 23/5/00 Removed timer refresh on all Rx segments
** v0.10 JPB 3/7/00 Revised header for book CD
*/
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include "ether.h"
#include "netutil.h"
#include "net.h"
#include "ip.h"
#include "tcp.h"
#define TCP_RETRIES 3
#define TCP_TIMEOUT 2000
#define TCP_RXWIN 3000 /* Default Rx window */
int tcpdebug; /* Flag to enable TCP packet display */
int statedebug;
extern BYTE bcast[MACLEN];
char *tcflags[] = /* Text for TCP option flags */
{
"<???>","<FIN>","<SYN>","<RST>",
"<PSH>","<ACK>","<URG>","<???>"
};
char *tstates[] = {TSTATE_STRINGS};
/* Function pointers: upcalls to higher-level code (zero if unused) */
int (*server_upcall)(TSOCK *ts, CONN_STATE conn); /* TCP server action */
int (*client_upcall)(TSOCK *ts, CONN_STATE conn); /* TCP client action */
/* Open a TCP socket, given local & remote nodes. Return 0 if error */
int open_tcp(TSOCK *ts, GENFRAME *gfp, NODE *locp, NODE *remp)
{
int ok=0;
if ((ok = ts->state==TCP_CLOSED)!=0)
{
ts->loc = *locp;
ts->rem = *remp;
new_state(ts, TCP_AOPEN);
put_frame(gfp, tsock_rx(ts, gfp, 0));
}
return(ok);
}
/* Close a TCP socket. Return non-0 when closed */
int close_tcp(TSOCK *ts)
{
if (ts->state==TCP_EST || ts->state==TCP_SYNR)
new_state(ts, TCP_ACLOSE);
return(ts->state == TCP_CLOSED);
}
/* Reset a TCP socket */
void reset_tcp(TSOCK *ts, GENFRAME *gfp)
{
if (ts->state)
put_frame(gfp, make_sock_tcp(gfp, ts, TRST, 0));
}
/* Return TCP data length (excl. options, -1 if no data), 0 if not TCP */
int is_tcp(IPKT *ip, int len)
{
TCPKT *tcp;
WORD sum;
int dlen=0;
/* Check protocol & minimum length */
if (ip->i.pcol==PTCP && len>=sizeof(TCPHDR))
{
tcp = (TCPKT *)ip; /* Do checksum */
sum = check_tcp(tcp, swapl(ip->i.sip), swapl(ip->i.dip), len);
if (tcp->t.hlen < 0x50)
{
if (tcpdebug)
printf(" ERROR: TCP header len %u\n", (tcp->t.hlen&0xf0)>>2);
}
if (sum == 0xffff) /* If correct.. */
{
swap_tcp(tcp); /* Do byte-swaps */
len -= sizeof(TCPHDR); /* Subtract header len */
if (tcpdebug) /* Display segment if in debug mode */
disp_tcp(tcp, len, 0);
len -= gettcp_opt(tcp, 0); /* Subtract options len */
dlen = len>0 ? len : -1; /* Return -1 if data len=0 */
}
else if (tcpdebug) /* Display error */
printf(" ERROR: TCP checksum %04X\n", sum);
}
return(dlen);
}
/* Make a TCP segment given the socket state, flags, data len */
int make_sock_tcp(GENFRAME *gfp, TSOCK *ts, BYTE flags, WORD dlen)
{
WORD len;
BYTE st;
TCPKT *tcp;
LWORD tseq, tack;
tcp = getframe_datap(gfp);
tseq = ts->txb.trial; /* Seq and ack values if connected */
tack = ts->rxb.in;
ts->txflags = flags;
ts->txdlen = dlen;
if ((st=ts->state)==TCP_SYNR || st==TCP_SYNS)
tseq--; /* Decrement SEQ if sending SYN */
else if (st==TCP_CLING || st==TCP_FINWT2 || st==TCP_TWAIT)
tseq++; /* ..or increment if sending FIN */
if (st==TCP_LASTACK || st==TCP_CLWAIT || st==TCP_CLING || st==TCP_TWAIT)
tack++; /* Increment ACK if FIN received */
if (dlen > 0) /* Get the Tx data */
dlen = buff_try(&ts->txb, tcp->data, dlen);
len = make_tcp(gfp, &ts->loc, &ts->rem, flags, tseq, tack, ts->rxwin, dlen);
return(len);
}
/* Make a TCP segment given the socket, flags, data len */
int make_tcp(GENFRAME *gfp, NODE *srcep, NODE *destp, BYTE flags,
LWORD seq, LWORD ack, WORD window, WORD dlen)
{
TCPKT *tcp;
int hlen, tlen, ilen, olen=0;
tcp = getframe_datap(gfp);
tcp->t.seq = seq; /* Set seq and ack values */
tcp->t.ack = ack;
tcp->t.window = window; /* Window size, srce & dest port nums */
tcp->t.sport = srcep->port;
tcp->t.dport = destp->port;
hlen = sizeof(TCPHDR); /* TCP header len */
if (flags&TSYN && dlen==0) /* Add 4 bytes for options if SYN.. */
{
hlen += (olen = 4);
tcp->data[0] = 2; /* ..and send max seg size */
tcp->data[1] = 4;
*(WORD*)&tcp->data[2] = swapw((WORD)tcp_maxdata(gfp));
}
tcp->t.hlen = (BYTE)(hlen<<2); /* Set TCP header len, and flags */
tcp->t.flags = flags;
tcp->t.urgent = tcp->t.check = 0;
if (tcpdebug) /* Display segment if in debug mode */
disp_tcp(tcp, dlen+olen, 1);
swap_tcp(tcp); /* Do byte-swaps, encapsulate in IP */
tlen = hlen + dlen;
ilen = make_ip(gfp, srcep, destp, PTCP, (WORD)(tlen));
tcp->t.check = ~check_tcp(tcp, tcp->i.sip, tcp->i.dip, tlen);
return(ilen); /* Checksum final packet */
}
/* Make a TCP RESET response to incoming segment */
int make_reset_resp(GENFRAME *gfp, int rdlen)
{
TCPKT *tcp;
NODE loc, rem;
LWORD ack;
gettcp_srce(gfp, &rem); /* Get source & dest nodes */
gettcp_locdest(gfp, &loc); /* (including port numbers) */
tcp = getframe_datap(gfp);
ack = tcp->t.seq + maxi(rdlen, 0);
if (tcp->t.flags & (TSYN+TFIN))
ack++;
return(make_tcp(gfp, &loc, &rem, TRST+TACK, tcp->t.ack, ack, 0, 0));
}
/* Return TCP checksum, given segment (TCP header + data) length.
** The TCP segment and both IP addrs must be in network byte-order */
WORD check_tcp(TCPKT *tcp, LWORD sip, LWORD dip, int tlen)
{
PHDR tph;
LWORD sum;
sum = csum(&tcp->t, (WORD)tlen); /* Checksum TCP segment */
tph.len = swapw((WORD)tlen); /* Make pseudo-header */
tph.srce = sip;
tph.dest = dip;
tph.z = 0;
tph.pcol = tcp->i.pcol;
sum += csum(&tph, sizeof(tph)); /* Checksum pseudo-header */
return(WORD)(sum + (sum>>16)); /* Return total plus carry */
}
/* Swap byte order of ints in TCP header */
void swap_tcp(TCPKT *tcp)
{
tcp->t.sport = swapw(tcp->t.sport);
tcp->t.dport = swapw(tcp->t.dport);
tcp->t.window = swapw(tcp->t.window);
tcp->t.urgent = swapw(tcp->t.urgent);
tcp->t.seq = swapl(tcp->t.seq);
tcp->t.ack = swapl(tcp->t.ack);
}
/* Return the max TCP seg (data) size for a given frame without fragmentation */
int tcp_maxdata(GENFRAME *gfp)
{
return(maxi(ip_maxdata(gfp)-sizeof(TCPHDR), 0));
}
/* Get the frame driver type, source port, IP and Ethernet addrs */
void gettcp_srce(GENFRAME *gfp, NODE *np)
{
TCPKT *tcp;
memset(np, 0, sizeof(NODE)); /* Clear unused fields */
getip_srce(gfp, np); /* Get dtype, srce IP and Ether addrs */
tcp = getframe_datap(gfp);
np->port = tcp->t.sport; /* Get source port */
}
/* Get the frame driver type, destination port, IP and Ethernet addrs */
void gettcp_dest(GENFRAME *gfp, NODE *np)
{
TCPKT *tcp;
memset(np, 0, sizeof(NODE)); /* Clear unused fields */
getip_dest(gfp, np); /* Get dtype, dest IP and Ether addrs */
tcp = getframe_datap(gfp);
np->port = tcp->t.dport; /* Get dest port */
}
/* Get complete TCP local node data corresponding to frame dest IP address
** Return 0 if no matching node */
int gettcp_locdest(GENFRAME *gfp, NODE *np)
{
TCPKT *tcp;
int ok;
ok = getip_locdest(gfp, np); /* Get addresses, dtype & netmask */
tcp = getframe_datap(gfp); /* Get dest port */
np->port = tcp->t.dport;
return(ok);
}
/* Return TCP options field length; if Max Seg Size option, get value */
WORD gettcp_opt(TCPKT *tcp, WORD *mssp)
{
int olen;
olen = ((tcp->t.hlen & 0xf0) >> 2) - sizeof(TCPHDR);
if (mssp && olen>=4 && tcp->data[0]==2 && tcp->data[1]==4)
*mssp = swapw(*(WORD *)&tcp->data[2]);
return(olen);
}
/* Display TCP segment */
void disp_tcp(TCPKT *tcp, int dlen, int tx)
{
int i, msk;
WORD olen, mss=0;
if (tx)
{
printf(" /ack %08lx seq %08lx", tcp->t.ack, tcp->t.seq);
printf(" port %u->%u ", tcp->t.sport, tcp->t.dport);
}
else
{
printf(" \\seq %08lx ack %08lx", tcp->t.seq, tcp->t.ack);
printf(" port %u<-%u ", tcp->t.dport, tcp->t.sport);
}
for (i=msk=1; i<8; i++,msk<<=1)
printf("%s", tcp->t.flags&msk ? tcflags[i] : "");
olen = gettcp_opt(tcp, &mss);
if (olen>0 && mss>0)
printf(" MSS %u", mss);
printf(" dlen %Xh\n", dlen-olen);
}
/* Find socket(s) for incoming ARP response */
void arp_receive(TSOCK tss[], int nsocks, GENFRAME *gfp)
{
ARPKT *arp;
TSOCK *ts;
int n, txlen;
arp = getframe_datap(gfp);
for (n=0; n<nsocks; n++) /* Try matching to socket */
{
ts = &tss[n];
if (ts->state==TCP_ARPS && arp->sip==ts->rem.ip)
{ /* If matched, change state */
memcpy(ts->rem.mac, arp->smac, MACLEN); /* ..copy Ethernet addr */
new_state(ts, TCP_ARPR); /* Send SYN */
if ((txlen = tsock_rx(ts, gfp, 0))>0)
put_frame(gfp, txlen);
}
}
}
/* Find socket for incoming segment; send TCP RESET if none found
** Receive length is non-zero if segment received (-1 if segment has no data) */
void tcp_receive(TSOCK tss[], int nsocks, GENFRAME *gfp, int dlen)
{
int n, ok=0, txlen=0;
TSOCK *ts;
NODE loc, rem;
if (gettcp_locdest(gfp, &loc)) /* Get local node */
{
gettcp_srce(gfp, &rem); /* Get remote node */
for (n=0; n<nsocks && !ok; n++) /* Try matching to existing socket */
{
ts = &tss[n];
ok = loc.ip==ts->loc.ip && loc.port==ts->loc.port &&
rem.ip==ts->rem.ip && rem.port==ts->rem.port;
}
for (n=0; n<nsocks && !ok; n++) /* If not, pick the first idle socket */
{
ts = &tss[n];
if ((ok = ts->state==TCP_CLOSED)!=0)
{
ts->loc = loc;
ts->rem = rem;
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