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view src/sockio.c @ 18:1424868939a8
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author | darius |
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date | Wed, 24 Dec 1997 12:38:35 +0000 |
parents | 0836fb919dfa |
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/*-------------------------------------------------------------------------- NETREK II -- Paradise Permission to use, copy, modify, and distribute this software and its documentation, or any derivative works thereof, for any NON-COMMERCIAL purpose and without fee is hereby granted, provided that this copyright notice appear in all copies. No representations are made about the suitability of this software for any purpose. This software is provided "as is" without express or implied warranty. Xtrek Copyright 1986 Chris Guthrie Netrek (Xtrek II) Copyright 1989 Kevin P. Smith Scott Silvey Paradise II (Netrek II) Copyright 1993 Larry Denys Kurt Olsen Brandon Gillespie --------------------------------------------------------------------------*/ #include "config.h" #include <errno.h> #include <stdio.h> #include <sys/types.h> #include <sys/time.h> #include <netinet/in.h> #include "data.h" #include "packets.h" #include "shmem.h" #define BUFSIZE 16738 static char buf[BUFSIZE]; /* Socket buffer */ static char *bufptr = buf; #define UDPBUFSIZE 960 /* (tweakable; should be under 1300) */ static char udpbuf[UDPBUFSIZE]; /* UDP socket buffer */ static char *udpbufptr = udpbuf; #ifdef DOUBLE_UDP static char scbuf[UDPBUFSIZE]; /* semi-critical UDP socket buffer */ static char *scbufptr = scbuf; /* (only used for double UDP) */ #endif static long sequence; /* the holy sequence number */ #define FAT_THRESH 500 /* if more than this, don't add fat */ extern int udpMode; extern int clientDead; int buffersEmpty() { return bufptr == buf && (commMode != COMM_UDP || udpbufptr == buf); } void resetUDPbuffer() { if (udpbufptr != udpbuf) { udpbufptr = udpbuf; /* clear out any old data */ sequence--; /* we just killed a sequence packet */ } } void resetUDPsequence() { sequence = 1; } /* * If we're in UDP mode, add a sequence number to the transmission buffer. * Returns the #of bytes inserted. * * This will add a sequence # to transmissions on either channel. However, the * current implementation doesn't put sequences on TCP transmissions because * mixed TCP packets and UDP packets rarely arrive in the order in which they * were sent. */ int addSequence(outbuf) char *outbuf; { struct sequence_spacket *ssp; if (commMode != COMM_UDP || udpMode == MODE_TCP) return (0); packets_sent++; ssp = (struct sequence_spacket *) outbuf; ssp->type = SP_SEQUENCE; ssp->sequence = htons((unsigned short) sequence); sequence++; return (sizeof(struct sequence_spacket)); } /* Flush the socket buffer */ void flushSockBuf() { int cc; if (clientDead) return; if (bufptr != buf) { if ((cc = gwrite(sock, buf, bufptr - buf)) != bufptr - buf) { fprintf(stderr, "std flush gwrite failed (%d, error %d)\n", cc, errno); clientDead = 1; } bufptr = buf /* + addSequence(buf) */ ; } /* * This is where we try to add fat. There's no point in checking at the * other places which call gwrite(), because they only call it when the * buffer is already full. */ if (udpSock >= 0 && udpMode == MODE_FAT && (udpbufptr - udpbuf) < FAT_THRESH) fatten(); if (udpSock >= 0 && udpbufptr != udpbuf) { #ifdef BROKEN /* debugging only!! */ if (sequence % 5 == 0) { /* act as if we did the gwrite(), but don't */ udpbufptr = udpbuf + addSequence(udpbuf); goto foo; } #endif if ((cc = gwrite(udpSock, udpbuf, udpbufptr - udpbuf)) != udpbufptr - udpbuf) { fprintf(stderr, "UDP flush gwrite failed (%d, error %d)\n", cc, errno); /* clientDead=1; */ UDPDIAG(("*** UDP disconnected for %s\n", me->p_name)); printUdpInfo(); closeUdpConn(); commMode = COMM_TCP; } #ifdef DOUBLE_UDP sendSC(); #endif udpbufptr = udpbuf + addSequence(udpbuf); } #ifdef BROKEN foo: #endif if (udpMode == MODE_FAT) fatMerge(); } void build_select_masks(readfds, writefds) fd_set *readfds, *writefds; { if (readfds) { FD_ZERO(readfds); FD_SET(sock, readfds); if (udpSock >= 0) FD_SET(udpSock, readfds); } if (writefds) { FD_ZERO(writefds); if (haveDeferredPackets()) FD_SET(sock, writefds); } } int socketPause() { struct timeval timeout; fd_set readfds, writefds; timeout.tv_sec = 1; timeout.tv_usec = 0; build_select_masks(&readfds, &writefds); return select(32, (fd_set *) & readfds, &writefds, 0, &timeout); } int socketWait() { fd_set readfds, writefds; build_select_masks(&readfds, &writefds); return select(32, &readfds, &writefds, 0, (struct timeval *) 0); } int gwrite(fd, wbuf, bytes) int fd; char *wbuf; int bytes; { int orig = bytes; int n; char tempbuf[80]; struct timeval to; while (bytes) { n = write(fd, wbuf, bytes); if (n < 0) { if (errno == ENOBUFS) { /* * The man pages don't mention this as a possibility. Yet, it * happens. I guess I just wait for 1/10 sec, and continue? */ /* * I would use usleep() to do this, but this system ain't got it... */ /* note: changed from 100 ms to 20 ms. (HAK) */ to.tv_sec = 0; to.tv_usec = 20000; select(0, NULL, NULL, NULL, &to); continue; } if (errno == EINTR) /* interrupted by signal, restart */ continue; if (fd == udpSock) { /* do we want Hiccup code here? */ UDPDIAG(("Tried to write %d, 0x%lx, %d (error %d)\n", fd, (unsigned long) wbuf, bytes, errno)); printUdpInfo(); logmessage("UDP gwrite failed:"); } sprintf(tempbuf, "Died in gwrite, n=%d, errno=%d <%s@%s>", n, errno, me->p_login, me->p_full_hostname); logmessage(tempbuf); return (-1); } bytes -= n; wbuf += n; } return (orig); } void sendUDPbuffered(issc, packet, size) int issc; /* is semi-critical */ void *packet; int size; { if (udpbufptr - udpbuf + size >= UDPBUFSIZE) { int cc; if ((cc = gwrite(udpSock, udpbuf, udpbufptr - udpbuf)) != udpbufptr - udpbuf) { fprintf(stderr, "UDP gwrite failed (%d, error %d)\n", cc, errno); /* clientDead=1; */ UDPDIAG(("*** UDP disconnected for %s\n", me->p_name)); printUdpInfo(); closeUdpConn(); commMode = COMM_TCP; } #ifdef DOUBLE_UDP sendSC(); /* send semi-critical info, if needed */ #endif udpbufptr = udpbuf + addSequence(udpbuf); } memcpy(udpbufptr, packet, size); udpbufptr += size; #ifdef DOUBLE_UDP if (issc && udpMode == MODE_DOUBLE) { memcpy(scbufptr, packet, size); scbufptr += size; V_UDPDIAG((" adding SC\n")); } #endif if (issc && udpMode == MODE_FAT) { updateFat(packet); } } void sendTCPbuffered(packet, size) void *packet; int size; { int cc; /* these are critical packets; send them via TCP */ #ifdef FEATURE_DIAG /* check the packet & see if we're adding packet type 60 to the buffer */ if (*((char *) packet) == SP_FEATURE) { fprintf(stderr, "Sending SP_FEATURE packet\n"); } #endif if (bufptr - buf + size >= BUFSIZE) { #ifdef FEATURE_DIAG if (*((char *) packet) == SP_FEATURE) { fprintf(stderr, "Sending TCP buffer, delaying write.\n"); } #endif if ((cc = gwrite(sock, buf, bufptr - buf)) != bufptr - buf) { fprintf(stderr, "TCP gwrite failed (%d, error %d)\n", cc, errno); clientDead = 1; } bufptr = buf /* + addSequence(buf) */ ; } #ifdef FEATURE_DIAG if (*((char *) packet) == SP_FEATURE) { fprintf(stderr, "Adding SP_FEATURE packet to buffer.\n"); } #endif memcpy(bufptr, packet, size); bufptr += size; } /* Transmission of some packets can be delayed indefinitely */ struct deferred_packet { void *data; int size; struct deferred_packet *next; }; struct deferred_packet *df_head, *df_tail; int haveDeferredPackets() { return df_head != 0; } /* Put a packet on the deferred queue. */ void sendTCPdeferred(packet, size) void *packet; int size; { #if 1 /* I'm having problems with UDP connection packet */ sendTCPbuffered(packet, size); #else struct deferred_packet *pkt; pkt = (struct deferred_packet *) malloc(sizeof(*pkt)); pkt->data = malloc(size); pkt->size = size; memcpy(pkt->data, packet, size); pkt->next = 0; if (df_tail) { df_tail->next = pkt; } else { df_head = pkt; } df_tail = pkt; #endif } /* * When the socket is ready for write, toss a packet through the pipe * Hopefully it won't block... */ void flushDeferred() { int rval; if (df_head == 0) return; /* could block, oh well */ rval = gwrite(sock, df_head->data, df_head->size); if (rval != df_head->size) { fprintf(stderr, "TCP gwrite (deferred) failed (%d, error %d)\n", rval, errno); clientDead = 1; } { struct deferred_packet *temp = df_head; df_head = temp->next; free(temp->data); free(temp); } if (!df_head) df_tail = 0; /* queue is empty */ } /* sends all the deferred packets through the TCP buffer */ void undeferDeferred() { while (df_head) { sendTCPbuffered(df_head->data, df_head->size); { struct deferred_packet *temp = df_head; df_head = temp->next; free(temp->data); free(temp); } } df_tail = 0; }