v07i001: A tiny set of TCP routines (tinytcp)

sources-request at mirror.UUCP sources-request at mirror.UUCP
Tue Aug 26 06:22:35 AEST 1986


Submitted by: pyramid!decwrl!imagen!geof (Geof Cooper)
Mod.sources: Volume 7, Issue 1
Archive-name: tinytcp

[  I have not tried to use this code.  --r$  ]

#!/bin/sh
: "This is a shell archive, meaning:                              "
: "1. Remove everything above the #! /bin/sh line.                "
: "2. Save the resulting test in a file.                          "
: "3. Execute the file with /bin/sh (not csh) to create the files:"
: "	README"
: "	arp.c"
: "	sed.c"
: "	sed.h"
: "	tinyftp.c"
: "	tinytcp.c"
: "	tinytcp.h"
: "This archive created:  Tue Jul 22 09:59:35 PDT 1986 "
echo file: README
sed 's/^X//' >README << 'END-of-README'
X
X    TinyTcp Public Domain Release
X
XThe files in this release contain a simple implementation of TCP & FTP,
Xsuitable for burning into ROM.  It is, in effect, a big hack put together
Xin two or three days.  It works for us, though, and you might like it,
Xtoo.  We use it to boot our image processor by retrieving a load file
Xusing the standard FTP server.
X
XThe code is intended to use the buffers from the Ethernet interface,
Xalthough shadow buffers could be hidden in the driver with no problem.
XOn one home-brew board here and didn't support byte-mode access to it.
XHence, the code takes pains to fool our local compiler into never
Xgenerating byte- or bit-mode instructions.
X
XSince we have already burned the TCP into ROM, it is unlikely that
Xany further development will take place at IMAGEN.  I would be willing
Xto act as a clearinghouse for future improvements to the code.
X
XWarning: the code was intended for a 68000, and doesn't have
Xany byte swapping support in it.  Shouldn't be too hard to add
Xif you want to run it on a little-endian machine.
X
XPlease note (and honor) the copyright on each file:
X
X  Copyright (C) 1986, IMAGEN Corporation
X  "This code may be duplicated in whole or in part provided that [1] there
X   is no commercial gain involved in the duplication, and [2] that this
X   copyright notice is preserved on all copies.  Any other duplication
X   requires written notice of the author (Geoffrey H. Cooper)."
X
X...in other words, do what you want with the code, but don't sell it and
Xgive IMAGEN and me credit on whatever you produce.  If you develop a product
Xbased on this code and want to sell it, give me a call and I'll be reasonable.
X
XThis code is distributed "as is." Neither the author nor IMAGEN Corporation
Xguarantees that it works or meets any particular specifications.  The act
Xof distributing this software does not represent a commitment by either the
Xauthor nor IMAGEN Corporation to provide maintenance or consulting services
Xrelated to this software.
X
XBut feel free to ask me any questions that you can't answer for yourself.
X
X    - Geof Cooper
X      Imagen Corporation
X      (408)986 9400
X      [imagen!geof at decwrl.dec.com, {decwrl,saber}!imagen!geof]
X      April 16, 1986
X
XThe package requires some system support:
X
X    clock_ValueRough() - should be a procedure that returns the current
X        value of a millisecond clock.  The procedure is called frequently,
X        so that interrupts are not needed to service the clock.  Our
X        implementation polls the real time timer and assumes that it is
X        called frequently enough so that it doesn't miss clock ticks (Since
X        the timer is only used for network timeouts, it doesn't really matter
X        if it does miss clock ticks, of course).  Systems without a clock
X        could probably get by with a procedure that increments a static
X        variable and returns it, by adjusting the timeout constants in the
X        program.
X
X    Network driver - some network interface  driver is needed.  A driver for a
X        3Com multibus (ethernet) board is included; this board isn't made
X        anymore (at least not by 3Com, there are still compatible boards
X        being made, but I don't know of any being popularly distributed),
X        so you'll probably need to write a driver for the board in your system.
X
X
XGuide to source files:
X
X    sed.c - Simple Ethernet Driver - Driver for 3Com multibus card.  If you
X            have another type of Ethernet board, you can use this driver as
X            a template.
X
X    sed.h - header file for the above.
X
X    arp.c - Implementation of Address Resolution Protocol.  Note that there
X            is no arp "mapping" per se.  The higher level code (tcp, in this
X            case) is required to keep track of internet and ethernet addresses.
X
X    tinytcp.c - Implementation of TCP.
X
X    tinytcp.h - Header file for above, and for everything else.
X
X    tinyftp.c - Implementation of FTP, only allows files to be retrieved,
X                not sent.
END-of-README
echo file: arp.c
sed 's/^X//' >arp.c << 'END-of-arp.c'
X/* 
X * SAR: Simple Address Resolution Protocol Implementation
X * Written by Geoffrey Cooper, September 27, 1983
X * 
X * This package implements a very simple version of the Plummer Address
X * Resolution Protocol (RFC 826).  It allows clients to resolve Internet
X * addresses into Ethernet addresses, and knows how to respond to an
X * address resolution request (when the transmit buffer is free).
X * 
X * Routines:
X * 
X *  sar_CheckPacket( pb ) => 1, if ARP packet and processed, 0 otherwise
X *  sar_MapIn2Eth( ina, ethap ) => 1 if did it, 0 if couldn't.
X *
X * Copyright (C) 1983, 1986 IMAGEN Corporation
X *  "This code may be duplicated in whole or in part provided that [1] there
X *   is no commercial gain involved in the duplication, and [2] that this
X *   copyright notice is preserved on all copies.  Any other duplication
X *   requires written notice of the author (Geoffrey H. Cooper)."
X * 
X */
X#include "tinytcp.h"
X
Xsar_CheckPacket(ap)
X    register arp_Header *ap;
X{
X    register arp_Header *op;
X
X    if ( ap->hwType != arp_TypeEther || /* have ethernet hardware, */
X         ap->protType != 0x800 ||       /* and internet software, */
X         ap->opcode != ARP_REQUEST ||   /* and be a resolution req. */
X         ap->dstIPAddr != sin_lclINAddr /* for my addr. */
X       ) return ( 0 );                  /* .... or we ignore it. */
X
X    /* format response. */
X    op = (arp_Header *)sed_FormatPacket(ap->srcEthAddr, 0x806);
X    op->hwType = arp_TypeEther;
X    op->protType = 0x800;
X    op->hwProtAddrLen = (sizeof(eth_HwAddress) << 8) + sizeof(in_HwAddress);
X    op->opcode = ARP_REPLY;
X    op->srcIPAddr = sin_lclINAddr;
X    MoveW(sed_lclEthAddr, op->srcEthAddr, sizeof(eth_HwAddress));
X    ap->dstIPAddr = op->srcIPAddr;
X    MoveW(ap->srcEthAddr, op->dstEthAddr, sizeof(eth_HwAddress));
X
X    sed_Send(sizeof(arp_Header));
X    
X    return ( 1 );
X}
X
X/* 
X * Do an address resolution bit.
X */
Xsar_MapIn2Eth(ina, ethap)
X    longword ina;
X    eth_HwAddress *ethap;
X{
X    register arp_Header *op;
X    extern in_HwAddress sin_lclINAddr;
X    register i;
X    longword endTime;
X    longword rxMitTime;
X
X    sed_Receive( 0 );
X    endTime = clock_ValueRough() + 2000;
X    while ( endTime > clock_ValueRough() ) {
X        op = (arp_Header *)sed_FormatPacket(&sed_ethBcastAddr[0], 0x806);
X        op->hwType = arp_TypeEther;
X        op->protType = 0x800;
X        op->hwProtAddrLen = (sizeof(eth_HwAddress) << 8) + sizeof(in_HwAddress);
X        op->opcode = ARP_REQUEST;
X        op->srcIPAddr = sin_lclINAddr;
X        MoveW(sed_lclEthAddr, op->srcEthAddr, sizeof(eth_HwAddress));
X        op->dstIPAddr = ina;
X
X        /* ...and send the packet */
X        sed_Send( sizeof(arp_Header) );
X
X        rxMitTime = clock_ValueRough() + 250;
X        while ( rxMitTime > clock_ValueRough() ) {
X            op = (arp_Header *)sed_IsPacket();
X            if ( op ) {
X                if ( sed_CheckPacket(op, 0x806) == 1 &&
X                    op->protType == 0x800 &&
X                    op->srcIPAddr == ina &&
X                    op->opcode == ARP_REPLY ) {
X                    MoveW(op->srcEthAddr, ethap, sizeof(eth_HwAddress));
X                    return ( 1 );
X                }
X                sed_Receive(op);
X            }
X        }
X    }
X    return ( 0 );
X}
END-of-arp.c
echo file: sed.c
sed 's/^X//' >sed.c << 'END-of-sed.c'
X/* 
X * Ethernet Driver.
X * A Very Simple set of ethernet driver primitives.  The ethernet (3com Mbus)
X * interface is controlled by busy-waiting, the application is handed the
X * location of on-board packet buffers, and allowed to fill in the
X * transmit buffer directly.  The interface is entirely blocking.
X * 
X * Written March, 1986 by Geoffrey Cooper
X *
X * Copyright (C) 1986, IMAGEN Corporation
X *  "This code may be duplicated in whole or in part provided that [1] there
X *   is no commercial gain involved in the duplication, and [2] that this
X *   copyright notice is preserved on all copies.  Any other duplication
X *   requires written notice of the author (Geoffrey H. Cooper)."
X * 
X * Primitives:
X *  sed_Init()  -- Initialize the package
X *  sed_FormatPacket( destEAddr ) => location of transmit buffer
X *  sed_Send( pkLength ) -- send the packet that is in the transmit buffer
X *  sed_Receive( recBufLocation ) -- enable receiving packets.
X *  sed_IsPacket() => location of packet in receive buffer
X *  sed_CheckPacket( recBufLocation, expectedType )
X *
X * Global Variables:
X *  sed_lclEthAddr -- Ethernet address of this host.
X *  sed_ethBcastAddr -- Ethernet broadcast address.
X */
X
X#include "tinytcp.h"
X#include "sed.h"
X
X#define en10pages        ((en10size) >> pageshift)
X
Xoctet *sed_va;                          /* virtual address of ethernet card */
Xeth_HwAddress sed_lclEthAddr;           /* local ethernet address */
Xeth_HwAddress sed_ethBcastAddr;         /* Ethernet broadcast address */
XBOOL sed_respondARPreq;                 /* controls responses to ARP req's */
Xchar bufAinUse, bufBinUse;              /* tell whether bufs are in use */
X
X/* 
X *  Initialize the Ethernet Interface, and this package.  Enable input on
X * both buffers.
X */
Xsed_Init()
X{
X    int recState;
X    register i, j;
X
X    recState = 7;                       /* == mine + broad - errors */
X
X    /* Map the Ethernet Interface in, and initialize sed_va */
X    sed_va = (octet *)SED3CVA;        /* our virtual addr */
X
X    /* Map memory for 3Com board (must be 8k boundary) */
X    /* INSERT CODE HERE */
X    map_ethernet_board();
X
X    /* Reset the Ethernet controller */
X    MECSR(sed_va) = RESET;
X    for (i=0; i<10; i++);           /* delay a bit... */
X
X    /* just copy on-board ROM to on-board RAM, to use std. address */
X    Move(MEAROM(sed_va), sed_lclEthAddr, 6);
X    Move(sed_lclEthAddr, MEARAM(sed_va), 6);
X    
X    MECSR(sed_va) |= AMSW;        /* and tell board we did it */
X
X    /*
X     * and initialize the exported variable which gives the Eth broadcast
X     * address, for everyone else to use. 
X     */
X    for (i=0; i<3; i++) sed_ethBcastAddr[i] = 0xFFFF;
X    
X    /* accept packets addressed for us and broadcast packets */
X
X    MECSR(sed_va) = (MECSR(sed_va)&~PA) | recState;
X
X    /* declare both buffers in use... */
X    bufAinUse = bufBinUse = TRUE;
X
X}
X
X/* 
X * Format an ethernet header in the transmit buffer, and say where it is.
X * Note that because of the way the 3Com interface works, we need to know
X * how long the packet is before we know where to put it.  The solution is
X * that we format the packet at the BEGINNING of the transmit buffer, and
X * later copy it (carefully) to where it belongs.  Another hack would be
X * to be inefficient about the size of the packet to be sent (always send
X * a larger ethernet packet than you need to, but copying should be ok for
X * now.
X */
Xoctet *
Xsed_FormatPacket( destEAddr, ethType )
X        register octet *destEAddr;
X{
X    register octet *xMitBuf;
X    
X    xMitBuf = &((octet *)MEXBUF(sed_va))[-0x800];
X    Move( destEAddr, xMitBuf, 6 );
X    Move( sed_lclEthAddr, xMitBuf + 6, 6 );
X    *((short *)(xMitBuf+12)) = ethType;
X    return ( xMitBuf+14 );
X}
X
X/*
X *  Send a packet out over the ethernet.  The packet is sitting at the
X * beginning of the transmit buffer.  The routine returns when the
X * packet has been successfully sent.
X */
Xsed_Send( pkLengthInOctets )
X    register int pkLengthInOctets;
X{
X    register octet *fromO, *toO;
X    register pkLength;
X    register csr;
X
X    pkLengthInOctets += 14;             /* account for Ethernet header */
X    pkLengthInOctets = (pkLengthInOctets + 1) & (~1);
X
X    if (pkLengthInOctets < E10P_MIN) 
X        pkLengthInOctets = E10P_MIN; /* and min. ethernet len */
X
X    /*  and copy the packet where it belongs */
X    pkLength = pkLengthInOctets;
X    fromO = &((octet *)MEXBUF(sed_va))[-0x800] + pkLength;
X    toO = ((octet *)MEXBUF(sed_va));
X
X    while ( pkLength-- ) *--toO = *--fromO;
X    
X    /* send the packet */
X    
X    MEXHDR(sed_va) = 2048 - pkLengthInOctets;
X    MECSR(sed_va) |= TBSW;
X
X    /* and wait until it has really been sent. */
X
X    for (pkLength=0; pkLength < 15; pkLength++) {
X        while ( (! ((csr = MECSR(sed_va)) & JAM)) && (csr & TBSW) )
X            ;
X        if (csr & JAM ) {
X            /* Ethernet Collision detected... */
X#ifdef DEBUG
X            printf("sed: JAM: MECSR=%x\n", csr);
X#endif
X            MEBACK(sed_va) = clock_ValueRough();
X            MECSR(sed_va) |= JAM;
X        } else break;
X    }
X    if ( pkLength == 15 ) SysBug("Go and Buy a New Ethernet Interface.");
X
X    /*  else we sent the packet ok. */
X}
X
X/* 
X *  Enable the Ethernet interface to receive packets from the network.  If
X * the argument is zero, enable both buffers.  If the argument is nonzero,
X * take it as the address of the buffer to be enabled.
X */
Xsed_Receive( recBufLocation )
X    octet *recBufLocation;
X{
X    word enables = 0;
X
X    if (recBufLocation == 0) {
X        bufAinUse = FALSE;
X        bufBinUse = FALSE;
X        enables = (ABSW | BBSW);
X    }
X    recBufLocation -= 16;
X    if (recBufLocation == ((octet *)MEAHDR(sed_va))) {
X        bufAinUse = FALSE;
X        enables = ABSW;
X        }
X    if (recBufLocation == ((octet *)MEBHDR(sed_va))) {
X        bufBinUse = FALSE;
X        enables = BBSW;
X    }
X
X    MECSR (sed_va) |= enables;
X}
X
X/* 
X * Test for the arrival of a packet on the Ethernet interface.  The packet may
X * arrive in either buffer A or buffer B; the location of the packet is
X * returned.  If no packet is returned withing 'timeout' milliseconds,
X * then the routine returns zero.
X * 
X * Note: ignores ethernet errors.  may occasionally return something
X * which was received in error.
X */
X
Xoctet *
Xsed_IsPacket()
X{
X    register oldStatus;
X    register octet *pb;
X    
X    pb = 0;
X    if ( ! bufAinUse && (MECSR(sed_va)&ABSW) == 0 ) 
X        pb = (octet *)MEAHDR(sed_va);
X    if ( ! pb && ! bufBinUse && (MECSR(sed_va)&BBSW) == 0 )
X        pb = (octet *)MEBHDR(sed_va);
X
X    if ( pb ) {
X        if ( ((octet *)pb) == ((octet *)MEAHDR(sed_va)) ) bufAinUse = 1;
X        else bufBinUse = 1;
X        pb += 16;                       /* get past the ethernet header */
X    }
X
X    return ( pb );
X}
X
X/* 
X *  Check to make sure that the packet that you received was the one that
X * you expected to get.
X */
Xsed_CheckPacket( recBufLocation, expectedType )
X    word *recBufLocation;
X    word expectedType;
X{
X    register recHeader = recBufLocation[-8];
X    if ( (recHeader&R_ERROR) != 0 ||
X         (recHeader&R_OFFSET) < E10P_MIN ) {
X         return ( -1 );
X    }
X    if ( recBufLocation[-1] != expectedType ) {
X        return ( 0 );
X    }
X    return (1);
X}
END-of-sed.c
echo file: sed.h
sed 's/^X//' >sed.h << 'END-of-sed.h'
X/* 
X *  Header file for very simple ethernet driver, based on 3Com Multibus
X *  board.
X *
X * Copyright (C) 1986, IMAGEN Corporation
X *  "This code may be duplicated in whole or in part provided that [1] there
X *   is no commercial gain involved in the duplication, and [2] that this
X *   copyright notice is preserved on all copies.  Any other duplication
X *   requires written notice of the author (Geoffrey H. Cooper)."
X */
X
X#define	en10size        (8*1024)	/* size of interface memory */
X#define	en10pages	((en10size) >> pageshift)
X#define E10P_MIN	60              /* Minimum Ethernet packet size */
X
X/* 
X * The position of the 3Com interface in virtual memory.  If we're
X * Running the bootloader function, then it must be in the last 8k
X * of virtual addresses.
X */
X#ifdef BOOTLOADER
X#define SED3CVA vm_3ComAdr /* hack, only need pb68.h if bootloader */
X#endif
X#ifndef SED3CVA
X#define SED3CVA 0x1c000
X#endif
X
X/* 10Mb Ethernet interface addresses */
X
X#define	MECSR(eth_va)	*(word*)(((octet *) eth_va) + 0x0)
X#define	MEBACK(eth_va)	*(word*)(((octet *) eth_va) + 0x2)
X#define	MEAROM(eth_va)	(word*)(((octet *) eth_va) + 0x400)
X#define	MEARAM(eth_va)	(word*)(((octet *) eth_va) + 0x600)
X#define	MEXHDR(eth_va)	*(word*)(((octet *) eth_va) + 0x800)
X#define	MEXBUF(eth_va)	(word*)(((octet *) eth_va) + 0x1000)
X#define	MEAHDR(eth_va)	(word*)(((octet *) eth_va) + 0x1000)
X#define	MEBHDR(eth_va)	(word*)(((octet *) eth_va) + 0x1800)
X
X/* control/status register fields */
X
X#define	BBSW		0x8000	/* Buffer B belongs to Network */
X#define	ABSW		0x4000	/* Buffer A belongs to Network */
X#define	TBSW		0x2000	/* Transmit buffer belongs to Network */
X#define	JAM		0x1000	/* Set when transmit collision */
X#define	AMSW		0x0800	/* 
X#define	RBBA		0x0400	/* Oldest received packet is in B */
X/*#define	UNUSED		0x0200 */
X#define	RESET		0x0100	/* Reset the controller */
X#define	BINT		0x0080	/* Interrupt when BBSW=>0 (packet in B) */
X#define	AINT		0x0040	/* Interrupt when ABSW=>0 (packet in A) */
X#define	TINT		0x0020	/* Interrupt when TBSW=>0 (transmit done) */
X#define	JINT		0x0010	/* Enable interrupts when JAM=>1 */
X#define	PA		0x000F	/* Which packets should be received? */
X#define INTENABLS	0x00F0
X
X/*
X * Receiver Header Fields: 
X * The receiver header is the first (short) word of the receive buffer.  It
X * includes such information as how big the packet is, whether it was a
X * broadcast, whether there was an error in receiving it, etc.
X */
X
X#define	R_FCS		0x8000	/* fcs error */
X#define	R_BCAST		0x4000	/* packet was NOT a broadcast */
X#define	R_RANGE		0x2000	/* range error (size of pkt?) */
X#define	R_MATCH		0x1000	/* packet is multicast (i.e., address
X				   received is not that of the interface) */
X#define	R_FRAME		0x0800	/* framing error */
X#define	R_ERROR		0x8800	/* was there any error */
X#define	R_OFFSET	0x07FF	/* packet length + 1 word */
X
Xextern octet *sed_FormatPacket(), *sed_WaitPacket();
X
X#ifdef BOOTLOADER
X#define ConsPrintf printf
X#endif
END-of-sed.h
echo file: tinyftp.c
sed 's/^X//' >tinyftp.c << 'END-of-tinyftp.c'
X/*
X * tinyftp.c - user ftp built on tinytcp.c
X *
X * Written March 31, 1986 by Geoffrey Cooper
X *
X * Copyright (C) 1986, IMAGEN Corporation
X *  "This code may be duplicated in whole or in part provided that [1] there
X *   is no commercial gain involved in the duplication, and [2] that this
X *   copyright notice is preserved on all copies.  Any other duplication
X *   requires written notice of the author (Geoffrey H. Cooper)."
X */
X#include "tinytcp.h"
X
Xtcp_Socket ftp_ctl, ftp_data, ftp_data2;
Xbyte ftp_cmdbuf[120];
Xint ftp_cmdbufi;
X
Xbyte ftp_outbuf[80];
Xint ftp_outbufix, ftp_outbuflen;
X    
Xshort ftp_rcvState;
X#define ftp_StateGETCMD     0       /* get a command from the user */
X#define ftp_StateIDLE       1       /* idle connection */
X#define ftp_StateINCOMMAND  2       /* command sent, awaiting response */
X#define ftp_StateRCVRESP    3       /* received response, need more data */
X
Xchar *ftp_script[7];
Xint ftp_scriptline;
Xchar ftp_retrfile[80];
XBOOL ftp_echoMode;
X
Xftp_ctlHandler(s, dp, len)
X    tcp_Socket *s;
X    byte *dp;
X    int len;
X{
X    byte c, *bp, data[80];
X    int i;
X
X    if ( dp == 0 ) {
X        tcp_Abort(&ftp_data);
X        return;
X    }
X
X    do {
X        i = len;
X        if ( i > sizeof data ) i = sizeof data;
X        MoveW(dp, data, i);
X        len -= i;
X        bp = data;
X        while ( i-- > 0 ) {
X            c = *bp++;
X            if ( c != '\r' ) {
X                if ( c == '\n' ) {
X                    ftp_cmdbuf[ftp_cmdbufi] = 0;
X                    ftp_commandLine();
X                    ftp_cmdbufi = 0;
X                } else if ( ftp_cmdbufi < (sizeof ftp_cmdbuf)-1 ) {
X                    ftp_cmdbuf[ftp_cmdbufi++] = c;
X                }
X            }
X        }
X    } while ( len > 0 );
X}
X
Xftp_commandLine()
X{
X    printf("> %s\n", ftp_cmdbuf);
X    switch(ftp_rcvState) {
X     case ftp_StateIDLE:
X        if ( ftp_cmdbuf[3] == '-' )
X            ftp_rcvState = ftp_StateRCVRESP;
X        break;
X
X     case ftp_StateINCOMMAND:
X        if ( ftp_cmdbuf[3] == '-' )
X            ftp_rcvState = ftp_StateRCVRESP;
X     case ftp_StateRCVRESP:
X        if ( ftp_cmdbuf[3] == ' ' )
X            ftp_rcvState = ftp_StateIDLE;
X        break;
X    }
X}
X
Xftp_Abort()
X{
X    tcp_Abort(&ftp_ctl);
X    tcp_Abort(&ftp_data);
X}
X
X
Xftp_application()
X{
X    char *s;
X    char *dp;
X    int i;
X
X    i = -1;
X    if ( isina() ) {
X        i = busyina() & 0177;
X#ifdef DEBUG
X        if ( i == ('D' & 037) ) SysBug("Pause to DDT");
X#endif
X        if ( i == ('C' & 037) ) {
X            printf("Closing...\n");
X            tcp_Close(&ftp_ctl);
X        }
X    }
X
X    switch (ftp_rcvState) {
X      case ftp_StateGETCMD:
X getcmd:if ( i != -1 ) {
X            ftp_outbuf[ftp_outbuflen] = 0;
X            switch (i) {
X                case 'H' & 037:
X                case 0177:
X                    if ( ftp_outbuflen > 0 ) {
X                        ftp_outbuflen--;
X                        printf("\010 \010");
X                    }
X                    break;
X
X                case 'R' & 037:
X                    if ( ftp_echoMode )
X                        printf("\nFtpCmd> %s", ftp_outbuf);
X                    break;
X
X                case 033:
X                    ftp_echoMode = ! ftp_echoMode;
X                    break;
X
X                case '\r':
X                case '\n':
X                    busyouta('\n');
X                    dp = &ftp_outbuf[ftp_outbuflen];
X                    goto docmd;
X
X                default:
X                    if ( i >= ' ' && ftp_outbuflen < sizeof ftp_outbuf ) {
X                        ftp_outbuf[ftp_outbuflen++] = i;
X                        if ( ftp_echoMode ) busyouta(i);
X                    }
X            }
X        }
X        break;
X
X      case ftp_StateIDLE:
X        if ( ftp_scriptline < 0 ) {
X            ftp_rcvState = ftp_StateGETCMD;
X            ftp_echoMode = true;
X            ftp_outbuflen = 0;
X            printf("FtpCmd> ");
X            goto getcmd;
X        }
X        s = ftp_script[ftp_scriptline];
X        if ( s == NIL )
X            break;
X        ftp_scriptline++;
X        printf("%s\n", s);
X        dp = ftp_outbuf;
X        while ( *dp++ = *s++ ) ;
X        dp--;
X docmd: *dp++ = '\r';
X        *dp++ = '\n';
X        ftp_outbuflen = dp - ftp_outbuf;
X        ftp_outbufix = 0;
X        ftp_rcvState = ftp_StateINCOMMAND;
X        /* fall through */
X    case ftp_StateINCOMMAND:
X        i = ftp_outbuflen - ftp_outbufix;
X        if ( i > 0 ) {
X            i = tcp_Write(&ftp_ctl, &ftp_outbuf[ftp_outbufix], i);
X            ftp_outbufix += i;
X            tcp_Flush(&ftp_ctl);
X        }
X        /* fall through */
X    case ftp_StateRCVRESP:
X        break;
X    }
X
X}
X
Xftp(host, fn, dataHandler)
X    in_HwAddress host;
X    char *fn;
X    procref dataHandler;
X{
X    word port;
X    char filecmd[80];
X
X    port = (sed_lclEthAddr[2] + clock_ValueRough()) | 0x8000;
X
X    if ( fn ) {
X        /* set up the script for this session */
X        ftp_script[0] = "user foo";
X        ftp_script[1] = "pass foo";
X        ftp_script[2] = "type i";
X        sprintf(filecmd, "retr %s", fn);
X        ftp_script[3] = filecmd;
X        ftp_script[4] = "quit";
X        ftp_script[5] = 0;
X        ftp_scriptline = 0;
X    } else {
X        ftp_scriptline = -1;        /* interactive mode */
X        ftp_echoMode = true;
X    }
X
X    /* set up state variables */
X    ftp_rcvState = ftp_StateRCVRESP;
X    ftp_cmdbufi = 0;
X    tcp_Listen(&ftp_data, port, dataHandler, 0);
X    tcp_Open(&ftp_ctl, port, host, 21, ftp_ctlHandler);
X    tcp(ftp_application);
X}
END-of-tinyftp.c
echo file: tinytcp.c
sed 's/^X//' >tinytcp.c << 'END-of-tinytcp.c'
X/*
X * tinytcp.c - Tiny Implementation of the Transmission Control Protocol
X *
X * Written March 28, 1986 by Geoffrey Cooper, IMAGEN Corporation.
X *
X * This code is a small implementation of the TCP and IP protocols, suitable
X * for burning into ROM.  The implementation is bare-bones and represents
X * two days' coding efforts.  A timer and an ethernet board are assumed.  The
X * implementation is based on busy-waiting, but the tcp_handler procedure
X * could easily be integrated into an interrupt driven scheme.
X *
X * IP routing is accomplished on active opens by broadcasting the tcp SYN
X * packet when ARP mapping fails.  If anyone answers, the ethernet address
X * used is saved for future use.  This also allows IP routing on incoming
X * connections.
X * 
X * The TCP does not implement urgent pointers (easy to add), and discards
X * segments that are received out of order.  It ignores the received window
X * and always offers a fixed window size on input (i.e., it is not flow
X * controlled).
X *
X * Special care is taken to access the ethernet buffers only in word
X * mode.  This is to support boards that only allow word accesses.
X *
X * Copyright (C) 1986, IMAGEN Corporation
X *  "This code may be duplicated in whole or in part provided that [1] there
X *   is no commercial gain involved in the duplication, and [2] that this
X *   copyright notice is preserved on all copies.  Any other duplication
X *   requires written notice of the author (Geoffrey H. Cooper)."
X */
X
X#include "tinytcp.h"
X
X/*
X * Local IP address
X */
Xin_HwAddress sin_lclINAddr;
X
X/*
X * IP identification numbers
X */
Xint tcp_id;
X
Xtcp_Socket *tcp_allsocs;
X
X/* Timer definitions */
X#define tcp_RETRANSMITTIME 1000     /* interval at which retransmitter is called */
X#define tcp_LONGTIMEOUT 31000       /* timeout for opens */
X#define tcp_TIMEOUT 10000           /* timeout during a connection */
X
X#ifdef DEBUG
X/* 
X * Primitive logging facility
X */
X#define tcp_LOGPACKETS 1        /* log packet headers */
Xword tcp_logState;
X#endif
X
X/*
X * Initialize the tcp implementation
X */
Xtcp_Init()
X{
X    extern eth_HwAddress sed_lclEthAddr;
X
X    /* initialize ethernet interface */
X    sed_Init();
X
X    tcp_allsocs = NIL;
X#ifdef DEBUG
X    tcp_logState = 0;
X#endif
X    tcp_id = 0;
X
X    /* hack - assume the network number */
X    sin_lclINAddr = 0x7d000000 + (*((longword *)&sed_lclEthAddr[1]) & 0xFFFFFF);
X}
X
X/*
X * Actively open a TCP connection to a particular destination.
X */
Xtcp_Open(s, lport, ina, port, datahandler)
X    tcp_Socket *s;
X    in_HwAddress ina;
X    word lport, port;
X    procref datahandler;
X{
X    extern eth_HwAddress sed_ethBcastAddr;
X
X    s->state = tcp_StateSYNSENT;
X    s->timeout = tcp_LONGTIMEOUT;
X    if ( lport == 0 ) lport = clock_ValueRough();
X    s->myport = lport;
X    if ( ! sar_MapIn2Eth(ina, &s->hisethaddr[0]) ) {
X        printf("tcp_Open of 0x%x: defaulting ethernet address to broadcast\n", ina);
X        Move(&sed_ethBcastAddr[0], &s->hisethaddr[0], sizeof(eth_HwAddress));
X    }
X    s->hisaddr = ina;
X    s->hisport = port;
X    s->seqnum = 0;
X    s->dataSize = 0;
X    s->flags = tcp_FlagSYN;
X    s->unhappy = true;
X    s->dataHandler = datahandler;
X    s->next = tcp_allsocs;
X    tcp_allsocs = s;
X    tcp_Send(s);
X}
X
X/*
X * Passive open: listen for a connection on a particular port
X */
Xtcp_Listen(s, port, datahandler, timeout)
X    tcp_Socket *s;
X    word port;
X    procref datahandler;
X{
X    s->state = tcp_StateLISTEN;
X    if ( timeout == 0 ) s->timeout = 0x7ffffff; /* forever... */
X    else s->timeout = timeout;
X    s->myport = port;
X    s->hisport = 0;
X    s->seqnum = 0;
X    s->dataSize = 0;
X    s->flags = 0;
X    s->unhappy = 0;
X    s->dataHandler = datahandler;
X    s->next = tcp_allsocs;
X    tcp_allsocs = s;
X}
X
X/*
X * Send a FIN on a particular port -- only works if it is open
X */
Xtcp_Close(s)
X    tcp_Socket *s;
X{
X    if ( s->state == tcp_StateESTAB || s->state == tcp_StateSYNREC ) {
X        s->flags = tcp_FlagACK | tcp_FlagFIN;
X        s->state = tcp_StateFINWT1;
X        s->unhappy = true;
X    }
X}
X
X/*
X * Abort a tcp connection
X */
Xtcp_Abort(s)
X    tcp_Socket *s;
X{
X    if ( s->state != tcp_StateLISTEN && s->state != tcp_StateCLOSED ) {
X        s->flags = tcp_FlagRST | tcp_FlagACK;
X        tcp_Send(s);
X    }
X    s->unhappy = 0;
X    s->dataSize = 0;
X    s->state = tcp_StateCLOSED;
X    s->dataHandler(s, 0, -1);
X    tcp_Unthread(s);
X}
X
X/*
X * Retransmitter - called periodically to perform tcp retransmissions
X */
Xtcp_Retransmitter()
X{
X    tcp_Socket *s;
X    BOOL x;
X
X    for ( s = tcp_allsocs; s; s = s->next ) {
X        x = false;
X        if ( s->dataSize > 0 || s->unhappy ) {
X            tcp_Send(s);
X            x = true;
X        }
X        if ( x || s->state != tcp_StateESTAB )
X            s->timeout -= tcp_RETRANSMITTIME;
X        if ( s->timeout <= 0 ) {
X            if ( s->state == tcp_StateTIMEWT ) {
X                printf("Closed.    \n");
X                s->state = tcp_StateCLOSED;
X                s->dataHandler(s, 0, 0);
X                tcp_Unthread(s);
X            } else {
X                printf("Timeout, aborting\n");
X                tcp_Abort(s);
X            }
X        }
X    }
X}
X
X/*
X * Unthread a socket from the socket list, if it's there 
X */
Xtcp_Unthread(ds)
X    tcp_Socket *ds;
X{
X    tcp_Socket *s, **sp;
X
X    sp = &tcp_allsocs;
X    for (;;) {
X        s = *sp;
X        if ( s == ds ) {
X            *sp = s->next;
X            break;
X        }
X        if ( s == NIL ) break;
X        sp = &s->next;
X    }
X}
X
X/*
X * busy-wait loop for tcp.  Also calls an "application proc"
X */
Xtcp(application)
X    procref application;
X{
X    in_Header *ip;
X    longword timeout, start;
X    int x;
X
X    sed_Receive(0);
X
X    timeout = 0;
X    while ( tcp_allsocs ) {
X        start = clock_ValueRough();
X        ip = sed_IsPacket();
X        if ( ip == NIL ) {
X            if ( clock_ValueRough() > timeout ) {
X                tcp_Retransmitter();
X                timeout = clock_ValueRough() + tcp_RETRANSMITTIME;
X            }
X
X            application();
X
X            continue;
X        }
X
X        if ( sed_CheckPacket(ip, 0x806) == 1 ) {
X            /* do arp */
X            sar_CheckPacket(ip);
X
X        } else if ( sed_CheckPacket(ip, 0x800) == 1 ) {
X            /* do IP */
X            if ( ip->destination == sin_lclINAddr &&
X                 in_GetProtocol(ip) == 6 &&
X                 checksum(ip, in_GetHdrlenBytes(ip)) == 0xFFFF ) {
X                tcp_Handler(ip);
X            }
X        }
X        /* recycle buffer */
X        sed_Receive(ip);
X
X        x = clock_ValueRough() - start;
X        timeout -= x;
X    }
X
X    return ( 1 );
X}
X
X/*
X * Write data to a connection.
X * Returns number of bytes written, == 0 when connection is not in
X * established state.
X */
Xtcp_Write(s, dp, len)
X    tcp_Socket *s;
X    byte *dp;
X    int len;
X{
X    int x;
X
X    if ( s->state != tcp_StateESTAB ) len = 0;
X    if ( len > (x = tcp_MaxData - s->dataSize) ) len = x;
X    if ( len > 0 ) {
X        Move(dp, &s->data[s->dataSize], len);
X        s->dataSize += len;
X        tcp_Flush(s);
X    }
X
X    return ( len );
X}
X
X/*
X * Send pending data
X */
Xtcp_Flush(s)
X    tcp_Socket *s;
X{
X    if ( s->dataSize > 0 ) {
X        s->flags |= tcp_FlagPUSH;
X        tcp_Send(s);
X    }
X}
X
X/*
X * Handler for incoming packets.
X */
Xtcp_Handler(ip)
X    in_Header *ip;
X{
X    tcp_Header *tp;
X    tcp_PseudoHeader ph;
X    int len;
X    byte *dp;
X    int x, diff;
X    tcp_Socket *s;
X    word flags;
X
X    len = in_GetHdrlenBytes(ip);
X    tp = (tcp_Header *)((byte *)ip + len);
X    len = ip->length - len;
X
X    /* demux to active sockets */
X    for ( s = tcp_allsocs; s; s = s->next )
X        if ( s->hisport != 0 &&
X             tp->dstPort == s->myport &&
X             tp->srcPort == s->hisport &&
X             ip->source == s->hisaddr ) break;
X    if ( s == NIL ) {
X        /* demux to passive sockets */
X        for ( s = tcp_allsocs; s; s = s->next )
X            if ( s->hisport == 0 && tp->dstPort == s->myport ) break;
X    }
X    if ( s == NIL ) {
X#ifdef DEBUG
X        if ( tcp_logState & tcp_LOGPACKETS ) tcp_DumpHeader(ip, tp, "Discarding");
X#endif
X        return;
X    }
X
X#ifdef DEBUG
X    if ( tcp_logState & tcp_LOGPACKETS )
X        tcp_DumpHeader(ip, tp, "Received");
X#endif
X
X    /* save his ethernet address */
X    MoveW(&((((eth_Header *)ip) - 1)->source[0]), &s->hisethaddr[0], sizeof(eth_HwAddress));
X
X    ph.src = ip->source;
X    ph.dst = ip->destination;
X    ph.mbz = 0;
X    ph.protocol = 6;
X    ph.length = len;
X    ph.checksum = checksum(tp, len);
X    if ( checksum(&ph, sizeof ph) != 0xffff )
X         printf("bad tcp checksum, received anyway\n");
X
X    flags = tp->flags;
X    if ( flags & tcp_FlagRST ) {
X        printf("connection reset\n");
X        s->state = tcp_StateCLOSED;
X        s->dataHandler(s, 0, -1);
X        tcp_Unthread(s);
X        return;
X    }
X
X    switch ( s->state ) {
X
X    case tcp_StateLISTEN:
X        if ( flags & tcp_FlagSYN ) {
X            s->acknum = tp->seqnum + 1;
X            s->hisport = tp->srcPort;
X            s->hisaddr = ip->source;
X            s->flags = tcp_FlagSYN | tcp_FlagACK;
X            tcp_Send(s);
X            s->state = tcp_StateSYNREC;
X            s->unhappy = true;
X            s->timeout = tcp_TIMEOUT;
X            printf("Syn from 0x%x#%d (seq 0x%x)\n", s->hisaddr, s->hisport, tp->seqnum);
X        }
X        break;
X
X    case tcp_StateSYNSENT:
X        if ( flags & tcp_FlagSYN ) {
X            s->acknum++;
X            s->flags = tcp_FlagACK;
X            s->timeout = tcp_TIMEOUT;
X            if ( (flags & tcp_FlagACK) && tp->acknum == (s->seqnum + 1) ) {
X                printf("Open\n");
X                s->state = tcp_StateESTAB;
X                s->seqnum++;
X                s->acknum = tp->seqnum + 1;
X                s->unhappy = false;
X            } else {
X                s->state = tcp_StateSYNREC;
X            }
X        }
X        break;
X
X    case tcp_StateSYNREC:
X        if ( flags & tcp_FlagSYN ) {
X            s->flags = tcp_FlagSYN | tcp_FlagACK;
X            tcp_Send(s);
X            s->timeout = tcp_TIMEOUT;
X            printf(" retransmit of original syn\n");
X        }
X        if ( (flags & tcp_FlagACK) && tp->acknum == (s->seqnum + 1) ) {
X            s->flags = tcp_FlagACK;
X            tcp_Send(s);
X            s->seqnum++;
X            s->unhappy = false;
X            s->state = tcp_StateESTAB;
X            s->timeout = tcp_TIMEOUT;
X            printf("Synack received - connection established\n");
X        }
X        break;
X
X    case tcp_StateESTAB:
X        if ( (flags & tcp_FlagACK) == 0 ) return;
X        /* process ack value in packet */
X        diff = tp->acknum - s->seqnum;
X        if ( diff > 0 ) {
X            Move(&s->data[diff], &s->data[0], diff);
X            s->dataSize -= diff;
X            s->seqnum += diff;
X        }
X        s->flags = tcp_FlagACK;
X        tcp_ProcessData(s, tp, len);
X        break;
X
X    case tcp_StateFINWT1:
X        if ( (flags & tcp_FlagACK) == 0 ) return;
X        diff = tp->acknum - s->seqnum - 1;
X        s->flags = tcp_FlagACK | tcp_FlagFIN;
X        if ( diff == 0 ) {
X            s->state = tcp_StateFINWT2;
X            s->flags = tcp_FlagACK;
X            printf("finack received.\n");
X        }
X        tcp_ProcessData(s, tp, len);
X        break;
X
X    case tcp_StateFINWT2:
X        s->flags = tcp_FlagACK;
X        tcp_ProcessData(s, tp, len);
X        break;
X
X    case tcp_StateCLOSING:
X        if ( tp->acknum == (s->seqnum + 1) ) {
X            s->state = tcp_StateTIMEWT;
X            s->timeout = tcp_TIMEOUT;
X        }
X        break;
X
X    case tcp_StateLASTACK:
X        if ( tp->acknum == (s->seqnum + 1) ) {
X            s->state = tcp_StateCLOSED;
X            s->unhappy = false;
X            s->dataSize = 0;
X            s->dataHandler(s, 0, 0);
X            tcp_Unthread(s);
X            printf("Closed.    \n");
X        } else {
X            s->flags = tcp_FlagACK | tcp_FlagFIN;
X            tcp_Send(s);
X            s->timeout = tcp_TIMEOUT;
X            printf("retransmitting FIN\n");
X        }
X        break;
X
X    case tcp_StateTIMEWT:
X        s->flags = tcp_FlagACK;
X        tcp_Send(s);
X    }
X}
X
X/*
X * Process the data in an incoming packet.
X * Called from all states where incoming data can be received: established,
X * fin-wait-1, fin-wait-2
X */
Xtcp_ProcessData(s, tp, len)
X    tcp_Socket *s;
X    tcp_Header *tp;
X    int len;
X{
X    int diff, x;
X    word flags;
X    byte *dp;
X
X    flags = tp->flags;
X    diff = s->acknum - tp->seqnum;
X    if ( flags & tcp_FlagSYN ) diff--;
X    x = tcp_GetDataOffset(tp) << 2;
X    dp = (byte *)tp + x;
X    len -= x;
X    if ( diff >= 0 ) {
X        dp += diff;
X        len -= diff;
X        s->acknum += len;
X        s->dataHandler(s, dp, len);
X        if ( flags & tcp_FlagFIN ) {
X            s->acknum++;
X#ifdef DEBUG
X            printf("consumed fin.\n");
X#endif
X            switch(s->state) {
X              case tcp_StateESTAB:
X                /* note: skip state CLOSEWT by automatically closing conn */
X                x = tcp_StateLASTACK;
X                s->flags |= tcp_FlagFIN;
X                s->unhappy = true;
X#ifdef DEBUG
X                printf("sending fin.\n");
X#endif
X                break;
X              case tcp_StateFINWT1:
X                x = tcp_StateCLOSING;
X                break;
X              case tcp_StateFINWT2:
X                x = tcp_StateTIMEWT;
X                break;
X            }
X            s->state = x;
X        }
X    }
X    s->timeout = tcp_TIMEOUT;
X    tcp_Send(s);
X}
X
X/*
X * Format and send an outgoing segment
X */
Xtcp_Send(s)
X    tcp_Socket *s;
X{
X    tcp_PseudoHeader ph;
X    struct _pkt {
X        in_Header in;
X        tcp_Header tcp;
X        longword maxsegopt;
X    } *pkt;
X    byte *dp;
X
X    pkt = (struct _pkt *)sed_FormatPacket(&s->hisethaddr[0], 0x800);
X    dp = &pkt->maxsegopt;
X
X    pkt->in.length = sizeof(in_Header) + sizeof(tcp_Header) + s->dataSize;
X
X    /* tcp header */
X    pkt->tcp.srcPort = s->myport;
X    pkt->tcp.dstPort = s->hisport;
X    pkt->tcp.seqnum = s->seqnum;
X    pkt->tcp.acknum = s->acknum;
X    pkt->tcp.window = 1024;
X    pkt->tcp.flags = s->flags | 0x5000;
X    pkt->tcp.checksum = 0;
X    pkt->tcp.urgentPointer = 0;
X    if ( s->flags & tcp_FlagSYN ) {
X        pkt->tcp.flags += 0x1000;
X        pkt->in.length += 4;
X        pkt->maxsegopt = 0x02040578; /* 1400 bytes */
X        dp += 4;
X    }
X    MoveW(s->data, dp, s->dataSize);
X
X    /* internet header */
X    pkt->in.vht = 0x4500;   /* version 4, hdrlen 5, tos 0 */
X    pkt->in.identification = tcp_id++;
X    pkt->in.frag = 0;
X    pkt->in.ttlProtocol = (250<<8) + 6;
X    pkt->in.checksum = 0;
X    pkt->in.source = sin_lclINAddr;
X    pkt->in.destination = s->hisaddr;
X    pkt->in.checksum = ~checksum(&pkt->in, sizeof(in_Header));
X
X    /* compute tcp checksum */
X    ph.src = pkt->in.source;
X    ph.dst = pkt->in.destination;
X    ph.mbz = 0;
X    ph.protocol = 6;
X    ph.length = pkt->in.length - sizeof(in_Header);
X    ph.checksum = checksum(&pkt->tcp, ph.length);
X    pkt->tcp.checksum = ~checksum(&ph, sizeof ph);
X
X#ifdef DEBUG
X    if ( tcp_logState & tcp_LOGPACKETS )
X        tcp_DumpHeader(&pkt->in, &pkt->tcp, "Sending");
X#endif
X
X    sed_Send(pkt->in.length);
X}
X
X/*
X * Do a one's complement checksum
X */
Xchecksum(dp, length)
X    word *dp;
X    int length;
X{
X    int len;
X    longword sum;
X
X    len = length >> 1;
X    sum = 0;
X    while ( len-- > 0 ) sum += *dp++;
X    if ( length & 1 ) sum += (*dp & 0xFF00);
X    sum = (sum & 0xFFFF) + ((sum >> 16) & 0xFFFF);
X    sum = (sum & 0xFFFF) + ((sum >> 16) & 0xFFFF);
X
X    return ( sum );
X}
X
X/*
X * Dump the tcp protocol header of a packet
X */
Xtcp_DumpHeader( ip, tp, mesg )
X    in_Header *ip;
X    char *mesg;
X{
X    register tcp_Header *tp = (tcp_Header *)((byte *)ip + in_GetHdrlenBytes(ip));
X    static char *flags[] = { "FIN", "SYN", "RST", "PUSH", "ACK", "URG" };
X    int len;
X    word f;
X
X    len =  ip->length - ((tcp_GetDataOffset(tp) + in_GetHdrlen(ip)) << 2);
X    printf("TCP: %s packet:\nS: %x; D: %x; SN=%x ACK=%x W=%d DLen=%d\n",
X           mesg, tp->srcPort, tp->dstPort, tp->seqnum, tp->acknum,
X           tp->window, len);
X    printf("DO=%d, C=%x U=%d",
X           tcp_GetDataOffset(tp), tp->checksum, tp->urgentPointer);
X    /* output flags */
X    f = tp->flags;
X    for ( len = 0; len < 6; len++ )
X        if ( f & (1 << len) ) printf(" %s", flags[len]);
X    printf("\n");
X}
X
X/*
X * Move bytes from hither to yon
X */
XMove( src, dest, numbytes )
X    register byte *src, *dest;
X    register numbytes;
X{
X    if ( numbytes <= 0 ) return;
X    if ( src < dest ) {
X        src += numbytes;
X        dest += numbytes;
X        do {
X            *--dest = *--src;
X        } while ( --numbytes > 0 );
X    } else
X        do {
X             *dest++ = *src++;
X        } while ( --numbytes > 0 );
X}
END-of-tinytcp.c
echo file: tinytcp.h
sed 's/^X//' >tinytcp.h << 'END-of-tinytcp.h'
X/*
X * tinytcp.h - header file for tinytcp.c
X *
X * Copyright (C) 1986, IMAGEN Corporation
X *  "This code may be duplicated in whole or in part provided that [1] there
X *   is no commercial gain involved in the duplication, and [2] that this
X *   copyright notice is preserved on all copies.  Any other duplication
X *   requires written notice of the author (Geoffrey H. Cooper)."
X *
X * Note: the structures herein must guarantee that the
X *       code only performs word fetches, since the
X *       imagenether card doesn't accept byte accesses.
X */
X
X#define TRUE        1
X#define true        1
X#define FALSE       0
X#define false       0
X#define NULL        0               /* An empty value */
X#define NIL         0               /* The distinguished empty pointer */
X
X/* Useful type definitions */
Xtypedef int (*procref)();
Xtypedef short BOOL;                  /* boolean type */
X
X/* Canonically-sized data */
Xtypedef unsigned long longword;     /* 32 bits */
Xtypedef unsigned short word;        /* 16 bits */
Xtypedef unsigned char byte;         /*  8 bits */
Xtypedef byte octet;                 /*  8 bits, for TCP */
X
X#ifdef DDT
Xextern longword MsecClock();
X#define clock_ValueRough() MsecClock()
X#else
Xextern longword clock_MS;
X#define clock_ValueRough() clock_MS
X#endif
X
X/* protocol address definitions */
Xtypedef longword in_HwAddress;
Xtypedef word eth_HwAddress[3];
X
X/* The Ethernet header */
Xtypedef struct {
X    eth_HwAddress   destination;
X    eth_HwAddress   source;
X    word            type;
X} eth_Header;
X
X/* The Internet Header: */
Xtypedef struct {
X    word            vht;    /* version, hdrlen, tos */
X    word            length;
X    word            identification;
X    word            frag;
X    word            ttlProtocol;
X    word            checksum;
X    in_HwAddress    source;
X    in_HwAddress    destination;
X} in_Header;
X#define in_GetVersion(ip) (((ip)->vht >> 12) & 0xf)
X#define in_GetHdrlen(ip)  (((ip)->vht >> 8) & 0xf)
X#define in_GetHdrlenBytes(ip)  (((ip)->vht >> 6) & 0x3c)
X#define in_GetTos(ip)      ((ip)->vht & 0xff)
X
X#define in_GetTTL(ip)      ((ip)->ttlProtocol >> 8)
X#define in_GetProtocol(ip) ((ip)->ttlProtocol & 0xff)
X
X
Xtypedef struct {
X    word            srcPort;
X    word            dstPort;
X    longword        seqnum;
X    longword        acknum;
X    word            flags;
X    word            window;
X    word            checksum;
X    word            urgentPointer;
X} tcp_Header;
X
X
X#define tcp_FlagFIN     0x0001
X#define tcp_FlagSYN     0x0002
X#define tcp_FlagRST     0x0004
X#define tcp_FlagPUSH    0x0008
X#define tcp_FlagACK     0x0010
X#define tcp_FlagURG     0x0020
X#define tcp_FlagDO      0xF000
X#define tcp_GetDataOffset(tp) ((tp)->flags >> 12)
X
X/* The TCP/UDP Pseudo Header */
Xtypedef struct {
X    in_HwAddress    src;
X    in_HwAddress    dst;
X    octet           mbz;
X    octet           protocol;
X    word            length;
X    word            checksum;
X} tcp_PseudoHeader;
X
X/*
X * TCP states, from tcp manual.
X * Note: close-wait state is bypassed by automatically closing a connection
X *       when a FIN is received.  This is easy to undo.
X */
X#define tcp_StateLISTEN  0      /* listening for connection */
X#define tcp_StateSYNSENT 1      /* syn sent, active open */
X#define tcp_StateSYNREC  2      /* syn received, synack+syn sent. */
X#define tcp_StateESTAB   3      /* established */
X#define tcp_StateFINWT1  4      /* sent FIN */
X#define tcp_StateFINWT2  5      /* sent FIN, received FINACK */
X/*#define tcp_StateCLOSEWT 6    /* received FIN waiting for close */
X#define tcp_StateCLOSING 6      /* sent FIN, received FIN (waiting for FINACK) */
X#define tcp_StateLASTACK 7      /* fin received, finack+fin sent */
X#define tcp_StateTIMEWT  8      /* dally after sending final FINACK */
X#define tcp_StateCLOSED  9      /* finack received */
X
X/*
X * TCP Socket definition
X */
X#define tcp_MaxData 32              /* maximum bytes to buffer on output */
X
Xtypedef struct _tcp_socket {
X    struct _tcp_socket *next;
X    short           state;          /* connection state */
X    procref         dataHandler;    /* called with incoming data */
X    eth_HwAddress   hisethaddr;     /* ethernet address of peer */
X    in_HwAddress    hisaddr;        /* internet address of peer */
X    word            myport, hisport;/* tcp ports for this connection */
X    longword        acknum, seqnum; /* data ack'd and sequence num */
X    int             timeout;        /* timeout, in milliseconds */
X    BOOL            unhappy;        /* flag, indicates retransmitting segt's */
X    word            flags;          /* tcp flags word for last packet sent */
X    short           dataSize;       /* number of bytes of data to send */
X    byte            data[tcp_MaxData]; /* data to send */
X} tcp_Socket;
X
Xextern eth_HwAddress sed_lclEthAddr;
Xextern eth_HwAddress sed_ethBcastAddr;
Xextern in_HwAddress  sin_lclINAddr;
X
X/*
X * ARP definitions
X */
X#define arp_TypeEther  1        /* ARP type of Ethernet address *
X
X/* harp op codes */
X#define ARP_REQUEST 1
X#define ARP_REPLY   2
X
X/*
X * Arp header
X */
Xtypedef struct {
X    word            hwType;
X    word            protType;
X    word            hwProtAddrLen;  /* hw and prot addr len */
X    word            opcode;
X    eth_HwAddress   srcEthAddr;
X    in_HwAddress    srcIPAddr;
X    eth_HwAddress   dstEthAddr;
X    in_HwAddress    dstIPAddr;
X} arp_Header;
X
X/*
X * Ethernet interface:
X *   sed_WaitPacket(0) => ptr to packet (beyond eth header)
X *                          or NIL if no packet ready.
X *   sed_Receive(ptr) - reenables receive on input buffer
X *   sed_FormatPacket(&ethdest, ethtype) => ptr to packet buffer
X *   sed_Send(packet_length) - send the buffer last formatted.
X */
Xbyte *sed_IsPacket(), *sed_FormatPacket();
END-of-tinytcp.h
exit



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