/*********************************************************************** * * discovery.c * * Perform PPPoE discovery * * Copyright (C) 1999 by Roaring Penguin Software Inc. * ***********************************************************************/ static char const RCSID[] = "$Id: discovery.c,v 1.3 2004/11/04 10:07:37 paulus Exp $"; #include "pppoe.h" #ifdef HAVE_SYSLOG_H #include #endif #include #include #include #ifdef HAVE_SYS_TIME_H #include #endif #ifdef HAVE_SYS_UIO_H #include #endif #ifdef HAVE_UNISTD_H #include #endif #ifdef USE_LINUX_PACKET #include #include #endif #include /********************************************************************** *%FUNCTION: parseForHostUniq *%ARGUMENTS: * type -- tag type * len -- tag length * data -- tag data. * extra -- user-supplied pointer. This is assumed to be a pointer to int. *%RETURNS: * Nothing *%DESCRIPTION: * If a HostUnique tag is found which matches our PID, sets *extra to 1. ***********************************************************************/ void parseForHostUniq(UINT16_t type, UINT16_t len, unsigned char *data, void *extra) { int *val = (int *) extra; if (type == TAG_HOST_UNIQ && len == sizeof(pid_t)) { pid_t tmp; memcpy(&tmp, data, len); if (tmp == getpid()) { *val = 1; } } } /********************************************************************** *%FUNCTION: packetIsForMe *%ARGUMENTS: * conn -- PPPoE connection info * packet -- a received PPPoE packet *%RETURNS: * 1 if packet is for this PPPoE daemon; 0 otherwise. *%DESCRIPTION: * If we are using the Host-Unique tag, verifies that packet contains * our unique identifier. ***********************************************************************/ int packetIsForMe(PPPoEConnection *conn, PPPoEPacket *packet) { int forMe = 0; /* If packet is not directed to our MAC address, forget it */ if (memcmp(packet->ethHdr.h_dest, conn->myEth, ETH_ALEN)) return 0; /* If we're not using the Host-Unique tag, then accept the packet */ if (!conn->useHostUniq) return 1; parsePacket(packet, parseForHostUniq, &forMe); return forMe; } /********************************************************************** *%FUNCTION: parsePADOTags *%ARGUMENTS: * type -- tag type * len -- tag length * data -- tag data * extra -- extra user data. Should point to a PacketCriteria structure * which gets filled in according to selected AC name and service * name. *%RETURNS: * Nothing *%DESCRIPTION: * Picks interesting tags out of a PADO packet ***********************************************************************/ void parsePADOTags(UINT16_t type, UINT16_t len, unsigned char *data, void *extra) { struct PacketCriteria *pc = (struct PacketCriteria *) extra; PPPoEConnection *conn = pc->conn; int i; switch(type) { case TAG_AC_NAME: pc->seenACName = 1; if (conn->printACNames) { printf("Access-Concentrator: %.*s\n", (int) len, data); } if (conn->acName && len == strlen(conn->acName) && !strncmp((char *) data, conn->acName, len)) { pc->acNameOK = 1; } break; case TAG_SERVICE_NAME: pc->seenServiceName = 1; if (conn->printACNames && len > 0) { printf(" Service-Name: %.*s\n", (int) len, data); } if (conn->serviceName && len == strlen(conn->serviceName) && !strncmp((char *) data, conn->serviceName, len)) { pc->serviceNameOK = 1; } break; case TAG_AC_COOKIE: if (conn->printACNames) { printf("Got a cookie:"); /* Print first 20 bytes of cookie */ for (i=0; icookie.type = htons(type); conn->cookie.length = htons(len); memcpy(conn->cookie.payload, data, len); break; case TAG_RELAY_SESSION_ID: if (conn->printACNames) { printf("Got a Relay-ID:"); /* Print first 20 bytes of relay ID */ for (i=0; irelayId.type = htons(type); conn->relayId.length = htons(len); memcpy(conn->relayId.payload, data, len); break; case TAG_SERVICE_NAME_ERROR: if (conn->printACNames) { printf("Got a Service-Name-Error tag: %.*s\n", (int) len, data); } else { syslog(LOG_ERR, "PADO: Service-Name-Error: %.*s", (int) len, data); exit(1); } break; case TAG_AC_SYSTEM_ERROR: if (conn->printACNames) { printf("Got a System-Error tag: %.*s\n", (int) len, data); } else { syslog(LOG_ERR, "PADO: System-Error: %.*s", (int) len, data); exit(1); } break; case TAG_GENERIC_ERROR: if (conn->printACNames) { printf("Got a Generic-Error tag: %.*s\n", (int) len, data); } else { syslog(LOG_ERR, "PADO: Generic-Error: %.*s", (int) len, data); exit(1); } break; } } /********************************************************************** *%FUNCTION: parsePADSTags *%ARGUMENTS: * type -- tag type * len -- tag length * data -- tag data * extra -- extra user data (pointer to PPPoEConnection structure) *%RETURNS: * Nothing *%DESCRIPTION: * Picks interesting tags out of a PADS packet ***********************************************************************/ void parsePADSTags(UINT16_t type, UINT16_t len, unsigned char *data, void *extra) { PPPoEConnection *conn = (PPPoEConnection *) extra; switch(type) { case TAG_SERVICE_NAME: syslog(LOG_DEBUG, "PADS: Service-Name: '%.*s'", (int) len, data); break; case TAG_SERVICE_NAME_ERROR: syslog(LOG_ERR, "PADS: Service-Name-Error: %.*s", (int) len, data); fprintf(stderr, "PADS: Service-Name-Error: %.*s\n", (int) len, data); exit(1); case TAG_AC_SYSTEM_ERROR: syslog(LOG_ERR, "PADS: System-Error: %.*s", (int) len, data); fprintf(stderr, "PADS: System-Error: %.*s\n", (int) len, data); exit(1); case TAG_GENERIC_ERROR: syslog(LOG_ERR, "PADS: Generic-Error: %.*s", (int) len, data); fprintf(stderr, "PADS: Generic-Error: %.*s\n", (int) len, data); exit(1); case TAG_RELAY_SESSION_ID: conn->relayId.type = htons(type); conn->relayId.length = htons(len); memcpy(conn->relayId.payload, data, len); break; } } /*********************************************************************** *%FUNCTION: sendPADI *%ARGUMENTS: * conn -- PPPoEConnection structure *%RETURNS: * Nothing *%DESCRIPTION: * Sends a PADI packet ***********************************************************************/ void sendPADI(PPPoEConnection *conn) { PPPoEPacket packet; unsigned char *cursor = packet.payload; PPPoETag *svc = (PPPoETag *) (&packet.payload); UINT16_t namelen = 0; UINT16_t plen; if (conn->serviceName) { namelen = (UINT16_t) strlen(conn->serviceName); } plen = TAG_HDR_SIZE + namelen; CHECK_ROOM(cursor, packet.payload, plen); /* Set destination to Ethernet broadcast address */ memset(packet.ethHdr.h_dest, 0xFF, ETH_ALEN); memcpy(packet.ethHdr.h_source, conn->myEth, ETH_ALEN); packet.ethHdr.h_proto = htons(Eth_PPPOE_Discovery); packet.ver = 1; packet.type = 1; packet.code = CODE_PADI; packet.session = 0; svc->type = TAG_SERVICE_NAME; svc->length = htons(namelen); CHECK_ROOM(cursor, packet.payload, namelen+TAG_HDR_SIZE); if (conn->serviceName) { memcpy(svc->payload, conn->serviceName, strlen(conn->serviceName)); } cursor += namelen + TAG_HDR_SIZE; /* If we're using Host-Uniq, copy it over */ if (conn->useHostUniq) { PPPoETag hostUniq; pid_t pid = getpid(); hostUniq.type = htons(TAG_HOST_UNIQ); hostUniq.length = htons(sizeof(pid)); memcpy(hostUniq.payload, &pid, sizeof(pid)); CHECK_ROOM(cursor, packet.payload, sizeof(pid) + TAG_HDR_SIZE); memcpy(cursor, &hostUniq, sizeof(pid) + TAG_HDR_SIZE); cursor += sizeof(pid) + TAG_HDR_SIZE; plen += sizeof(pid) + TAG_HDR_SIZE; } packet.length = htons(plen); sendPacket(conn, conn->discoverySocket, &packet, (int) (plen + HDR_SIZE)); if (conn->debugFile) { dumpPacket(conn->debugFile, &packet, "SENT"); fprintf(conn->debugFile, "\n"); fflush(conn->debugFile); } } /********************************************************************** *%FUNCTION: waitForPADO *%ARGUMENTS: * conn -- PPPoEConnection structure * timeout -- how long to wait (in seconds) *%RETURNS: * Nothing *%DESCRIPTION: * Waits for a PADO packet and copies useful information ***********************************************************************/ void waitForPADO(PPPoEConnection *conn, int timeout) { fd_set readable; int r; struct timeval tv; PPPoEPacket packet; int len; struct PacketCriteria pc; pc.conn = conn; pc.acNameOK = (conn->acName) ? 0 : 1; pc.serviceNameOK = (conn->serviceName) ? 0 : 1; pc.seenACName = 0; pc.seenServiceName = 0; do { if (BPF_BUFFER_IS_EMPTY) { tv.tv_sec = timeout; tv.tv_usec = 0; FD_ZERO(&readable); FD_SET(conn->discoverySocket, &readable); while(1) { r = select(conn->discoverySocket+1, &readable, NULL, NULL, &tv); if (r >= 0 || errno != EINTR) break; } if (r < 0) { fatalSys("select (waitForPADO)"); } if (r == 0) return; /* Timed out */ } /* Get the packet */ receivePacket(conn->discoverySocket, &packet, &len); /* Check length */ if (ntohs(packet.length) + HDR_SIZE > len) { syslog(LOG_ERR, "Bogus PPPoE length field (%u)", (unsigned int) ntohs(packet.length)); continue; } #ifdef USE_BPF /* If it's not a Discovery packet, loop again */ if (etherType(&packet) != Eth_PPPOE_Discovery) continue; #endif if (conn->debugFile) { dumpPacket(conn->debugFile, &packet, "RCVD"); fprintf(conn->debugFile, "\n"); fflush(conn->debugFile); } /* If it's not for us, loop again */ if (!packetIsForMe(conn, &packet)) continue; if (packet.code == CODE_PADO) { if (NOT_UNICAST(packet.ethHdr.h_source)) { printErr("Ignoring PADO packet from non-unicast MAC address"); continue; } parsePacket(&packet, parsePADOTags, &pc); if (!pc.seenACName) { printErr("Ignoring PADO packet with no AC-Name tag"); continue; } if (!pc.seenServiceName) { printErr("Ignoring PADO packet with no Service-Name tag"); continue; } conn->numPADOs++; if (conn->printACNames) { printf("--------------------------------------------------\n"); } if (pc.acNameOK && pc.serviceNameOK) { memcpy(conn->peerEth, packet.ethHdr.h_source, ETH_ALEN); if (conn->printACNames) { printf("AC-Ethernet-Address: %02x:%02x:%02x:%02x:%02x:%02x\n", (unsigned) conn->peerEth[0], (unsigned) conn->peerEth[1], (unsigned) conn->peerEth[2], (unsigned) conn->peerEth[3], (unsigned) conn->peerEth[4], (unsigned) conn->peerEth[5]); continue; } conn->discoveryState = STATE_RECEIVED_PADO; break; } } } while (conn->discoveryState != STATE_RECEIVED_PADO); } /*********************************************************************** *%FUNCTION: sendPADR *%ARGUMENTS: * conn -- PPPoE connection structur *%RETURNS: * Nothing *%DESCRIPTION: * Sends a PADR packet ***********************************************************************/ void sendPADR(PPPoEConnection *conn) { PPPoEPacket packet; PPPoETag *svc = (PPPoETag *) packet.payload; unsigned char *cursor = packet.payload; UINT16_t namelen = 0; UINT16_t plen; if (conn->serviceName) { namelen = (UINT16_t) strlen(conn->serviceName); } plen = TAG_HDR_SIZE + namelen; CHECK_ROOM(cursor, packet.payload, plen); memcpy(packet.ethHdr.h_dest, conn->peerEth, ETH_ALEN); memcpy(packet.ethHdr.h_source, conn->myEth, ETH_ALEN); packet.ethHdr.h_proto = htons(Eth_PPPOE_Discovery); packet.ver = 1; packet.type = 1; packet.code = CODE_PADR; packet.session = 0; svc->type = TAG_SERVICE_NAME; svc->length = htons(namelen); if (conn->serviceName) { memcpy(svc->payload, conn->serviceName, namelen); } cursor += namelen + TAG_HDR_SIZE; /* If we're using Host-Uniq, copy it over */ if (conn->useHostUniq) { PPPoETag hostUniq; pid_t pid = getpid(); hostUniq.type = htons(TAG_HOST_UNIQ); hostUniq.length = htons(sizeof(pid)); memcpy(hostUniq.payload, &pid, sizeof(pid)); CHECK_ROOM(cursor, packet.payload, sizeof(pid)+TAG_HDR_SIZE); memcpy(cursor, &hostUniq, sizeof(pid) + TAG_HDR_SIZE); cursor += sizeof(pid) + TAG_HDR_SIZE; plen += sizeof(pid) + TAG_HDR_SIZE; } /* Copy cookie and relay-ID if needed */ if (conn->cookie.type) { CHECK_ROOM(cursor, packet.payload, ntohs(conn->cookie.length) + TAG_HDR_SIZE); memcpy(cursor, &conn->cookie, ntohs(conn->cookie.length) + TAG_HDR_SIZE); cursor += ntohs(conn->cookie.length) + TAG_HDR_SIZE; plen += ntohs(conn->cookie.length) + TAG_HDR_SIZE; } if (conn->relayId.type) { CHECK_ROOM(cursor, packet.payload, ntohs(conn->relayId.length) + TAG_HDR_SIZE); memcpy(cursor, &conn->relayId, ntohs(conn->relayId.length) + TAG_HDR_SIZE); cursor += ntohs(conn->relayId.length) + TAG_HDR_SIZE; plen += ntohs(conn->relayId.length) + TAG_HDR_SIZE; } packet.length = htons(plen); sendPacket(conn, conn->discoverySocket, &packet, (int) (plen + HDR_SIZE)); if (conn->debugFile) { dumpPacket(conn->debugFile, &packet, "SENT"); fprintf(conn->debugFile, "\n"); fflush(conn->debugFile); } } /********************************************************************** *%FUNCTION: waitForPADS *%ARGUMENTS: * conn -- PPPoE connection info * timeout -- how long to wait (in seconds) *%RETURNS: * Nothing *%DESCRIPTION: * Waits for a PADS packet and copies useful information ***********************************************************************/ void waitForPADS(PPPoEConnection *conn, int timeout) { fd_set readable; int r; struct timeval tv; PPPoEPacket packet; int len; do { if (BPF_BUFFER_IS_EMPTY) { tv.tv_sec = timeout; tv.tv_usec = 0; FD_ZERO(&readable); FD_SET(conn->discoverySocket, &readable); while(1) { r = select(conn->discoverySocket+1, &readable, NULL, NULL, &tv); if (r >= 0 || errno != EINTR) break; } if (r < 0) { fatalSys("select (waitForPADS)"); } if (r == 0) return; } /* Get the packet */ receivePacket(conn->discoverySocket, &packet, &len); /* Check length */ if (ntohs(packet.length) + HDR_SIZE > len) { syslog(LOG_ERR, "Bogus PPPoE length field (%u)", (unsigned int) ntohs(packet.length)); continue; } #ifdef USE_BPF /* If it's not a Discovery packet, loop again */ if (etherType(&packet) != Eth_PPPOE_Discovery) continue; #endif if (conn->debugFile) { dumpPacket(conn->debugFile, &packet, "RCVD"); fprintf(conn->debugFile, "\n"); fflush(conn->debugFile); } /* If it's not from the AC, it's not for me */ if (memcmp(packet.ethHdr.h_source, conn->peerEth, ETH_ALEN)) continue; /* If it's not for us, loop again */ if (!packetIsForMe(conn, &packet)) continue; /* Is it PADS? */ if (packet.code == CODE_PADS) { /* Parse for goodies */ parsePacket(&packet, parsePADSTags, conn); conn->discoveryState = STATE_SESSION; break; } } while (conn->discoveryState != STATE_SESSION); /* Don't bother with ntohs; we'll just end up converting it back... */ conn->session = packet.session; syslog(LOG_INFO, "PPP session is %d", (int) ntohs(conn->session)); /* RFC 2516 says session id MUST NOT be zero or 0xFFFF */ if (ntohs(conn->session) == 0 || ntohs(conn->session) == 0xFFFF) { syslog(LOG_ERR, "Access concentrator used a session value of %x -- the AC is violating RFC 2516", (unsigned int) ntohs(conn->session)); } } /********************************************************************** *%FUNCTION: discovery *%ARGUMENTS: * conn -- PPPoE connection info structure *%RETURNS: * Nothing *%DESCRIPTION: * Performs the PPPoE discovery phase ***********************************************************************/ void discovery(PPPoEConnection *conn) { int padiAttempts = 0; int padrAttempts = 0; int timeout = PADI_TIMEOUT; /* Skip discovery and don't open discovery socket? */ if (conn->skipDiscovery && conn->noDiscoverySocket) { conn->discoveryState = STATE_SESSION; return; } conn->discoverySocket = openInterface(conn->ifName, Eth_PPPOE_Discovery, conn->myEth); /* Skip discovery? */ if (conn->skipDiscovery) { conn->discoveryState = STATE_SESSION; return; } do { padiAttempts++; if (padiAttempts > MAX_PADI_ATTEMPTS) { warn("Timeout waiting for PADO packets"); close(conn->discoverySocket); conn->discoverySocket = -1; return; } sendPADI(conn); conn->discoveryState = STATE_SENT_PADI; waitForPADO(conn, timeout); /* If we're just probing for access concentrators, don't do exponential backoff. This reduces the time for an unsuccessful probe to 15 seconds. */ if (!conn->printACNames) { timeout *= 2; } if (conn->printACNames && conn->numPADOs) { break; } } while (conn->discoveryState == STATE_SENT_PADI); /* If we're only printing access concentrator names, we're done */ if (conn->printACNames) { die(0); } timeout = PADI_TIMEOUT; do { padrAttempts++; if (padrAttempts > MAX_PADI_ATTEMPTS) { warn("Timeout waiting for PADS packets"); close(conn->discoverySocket); conn->discoverySocket = -1; return; } sendPADR(conn); conn->discoveryState = STATE_SENT_PADR; waitForPADS(conn, timeout); timeout *= 2; } while (conn->discoveryState == STATE_SENT_PADR); /* We're done. */ conn->discoveryState = STATE_SESSION; return; }