/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 1998 Brian Somers <brian@Awfulhak.org> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include <sys/param.h> #ifdef __FreeBSD__ #include <netinet/in.h> #endif #include <sys/un.h> #include <string.h> #include <termios.h> #include "layer.h" #include "defs.h" #include "log.h" #include "timer.h" #include "descriptor.h" #include "lqr.h" #include "mbuf.h" #include "fsm.h" #include "throughput.h" #include "hdlc.h" #include "lcp.h" #include "ccp.h" #include "link.h" #include "async.h" #include "physical.h" #include "proto.h" #include "cbcp.h" #include "mp.h" #include "chat.h" #include "auth.h" #include "chap.h" #include "datalink.h" void cbcp_Init(struct cbcp *cbcp, struct physical *p) { cbcp->required = 0; cbcp->fsm.state = CBCP_CLOSED; cbcp->fsm.id = 0; cbcp->fsm.delay = 0; *cbcp->fsm.phone = '\0'; memset(&cbcp->fsm.timer, '\0', sizeof cbcp->fsm.timer); cbcp->p = p; } static void cbcp_SendReq(struct cbcp *); static void cbcp_SendResponse(struct cbcp *); static void cbcp_SendAck(struct cbcp *); static void cbcp_Timeout(void *v) { struct cbcp *cbcp = (struct cbcp *)v; timer_Stop(&cbcp->fsm.timer); if (cbcp->fsm.restart) { switch (cbcp->fsm.state) { case CBCP_CLOSED: case CBCP_STOPPED: log_Printf(LogCBCP, "%s: Urk - unexpected CBCP timeout !\n", cbcp->p->dl->name); break; case CBCP_REQSENT: cbcp_SendReq(cbcp); break; case CBCP_RESPSENT: cbcp_SendResponse(cbcp); break; case CBCP_ACKSENT: cbcp_SendAck(cbcp); break; } } else { const char *missed; switch (cbcp->fsm.state) { case CBCP_STOPPED: missed = "REQ"; break; case CBCP_REQSENT: missed = "RESPONSE"; break; case CBCP_RESPSENT: missed = "ACK"; break; case CBCP_ACKSENT: missed = "Terminate REQ"; break; default: log_Printf(LogCBCP, "%s: Urk - unexpected CBCP timeout !\n", cbcp->p->dl->name); missed = NULL; break; } if (missed) log_Printf(LogCBCP, "%s: Timeout waiting for peer %s\n", cbcp->p->dl->name, missed); datalink_CBCPFailed(cbcp->p->dl); } } static void cbcp_StartTimer(struct cbcp *cbcp, int timeout) { timer_Stop(&cbcp->fsm.timer); cbcp->fsm.timer.func = cbcp_Timeout; cbcp->fsm.timer.name = "cbcp"; cbcp->fsm.timer.load = timeout * SECTICKS; cbcp->fsm.timer.arg = cbcp; timer_Start(&cbcp->fsm.timer); } #define CBCP_CLOSED (0) /* Not in use */ #define CBCP_STOPPED (1) /* Waiting for a REQ */ #define CBCP_REQSENT (2) /* Waiting for a RESP */ #define CBCP_RESPSENT (3) /* Waiting for an ACK */ #define CBCP_ACKSENT (4) /* Waiting for an LCP Term REQ */ static const char * const cbcpname[] = { "closed", "stopped", "req-sent", "resp-sent", "ack-sent" }; static const char * cbcpstate(unsigned s) { if (s < sizeof cbcpname / sizeof cbcpname[0]) return cbcpname[s]; return HexStr(s, NULL, 0); } static void cbcp_NewPhase(struct cbcp *cbcp, int new) { if (cbcp->fsm.state != new) { log_Printf(LogCBCP, "%s: State change %s --> %s\n", cbcp->p->dl->name, cbcpstate(cbcp->fsm.state), cbcpstate(new)); cbcp->fsm.state = new; } } struct cbcp_header { u_char code; u_char id; u_int16_t length; /* Network byte order */ }; /* cbcp_header::code values */ #define CBCP_REQ (1) #define CBCP_RESPONSE (2) #define CBCP_ACK (3) struct cbcp_data { u_char type; u_char length; u_char delay; char addr_start[253]; /* max cbcp_data length 255 + 1 for NULL */ }; /* cbcp_data::type values */ #define CBCP_NONUM (1) #define CBCP_CLIENTNUM (2) #define CBCP_SERVERNUM (3) #define CBCP_LISTNUM (4) static void cbcp_Output(struct cbcp *cbcp, u_char code, struct cbcp_data *data) { struct cbcp_header *head; struct mbuf *bp; bp = m_get(sizeof *head + data->length, MB_CBCPOUT); head = (struct cbcp_header *)MBUF_CTOP(bp); head->code = code; head->id = cbcp->fsm.id; head->length = htons(sizeof *head + data->length); memcpy(MBUF_CTOP(bp) + sizeof *head, data, data->length); log_DumpBp(LogDEBUG, "cbcp_Output", bp); link_PushPacket(&cbcp->p->link, bp, cbcp->p->dl->bundle, LINK_QUEUES(&cbcp->p->link) - 1, PROTO_CBCP); } static const char * cbcp_data_Type(unsigned type) { static const char * const types[] = { "No callback", "User-spec", "Server-spec", "list" }; if (type < 1 || type > sizeof types / sizeof types[0]) return HexStr(type, NULL, 0); return types[type-1]; } struct cbcp_addr { u_char type; char addr[sizeof ((struct cbcp_data *)0)->addr_start - 1]; /* ASCIIZ */ }; /* cbcp_data::type values */ #define CBCP_ADDR_PSTN (1) static void cbcp_data_Show(struct cbcp_data *data) { struct cbcp_addr *addr; char *end; addr = (struct cbcp_addr *)data->addr_start; end = (char *)data + data->length; *end = '\0'; log_Printf(LogCBCP, " TYPE %s\n", cbcp_data_Type(data->type)); if ((char *)&data->delay < end) { log_Printf(LogCBCP, " DELAY %d\n", data->delay); while (addr->addr < end) { if (addr->type == CBCP_ADDR_PSTN) log_Printf(LogCBCP, " ADDR %s\n", addr->addr); else log_Printf(LogCBCP, " ADDR type %d ??\n", (int)addr->type); addr = (struct cbcp_addr *)(addr->addr + strlen(addr->addr) + 1); } } } static void cbcp_SendReq(struct cbcp *cbcp) { struct cbcp_data data; struct cbcp_addr *addr; char list[sizeof cbcp->fsm.phone], *next; int len, max; /* Only callees send REQs */ log_Printf(LogCBCP, "%s: SendReq(%d) state = %s\n", cbcp->p->dl->name, cbcp->fsm.id, cbcpstate(cbcp->fsm.state)); data.type = cbcp->fsm.type; data.delay = 0; strncpy(list, cbcp->fsm.phone, sizeof list - 1); list[sizeof list - 1] = '\0'; switch (data.type) { case CBCP_CLIENTNUM: addr = (struct cbcp_addr *)data.addr_start; addr->type = CBCP_ADDR_PSTN; *addr->addr = '\0'; data.length = addr->addr - (char *)&data; break; case CBCP_LISTNUM: addr = (struct cbcp_addr *)data.addr_start; for (next = strtok(list, ","); next; next = strtok(NULL, ",")) { len = strlen(next); max = data.addr_start + sizeof data.addr_start - addr->addr - 1; if (len <= max) { addr->type = CBCP_ADDR_PSTN; strncpy(addr->addr, next, sizeof addr->addr - 1); addr->addr[sizeof addr->addr - 1] = '\0'; addr = (struct cbcp_addr *)((char *)addr + len + 2); } else log_Printf(LogWARN, "CBCP ADDR \"%s\" skipped - packet too large\n", next); } data.length = (char *)addr - (char *)&data; break; case CBCP_SERVERNUM: data.length = data.addr_start - (char *)&data; break; default: data.length = (char *)&data.delay - (char *)&data; break; } cbcp_data_Show(&data); cbcp_Output(cbcp, CBCP_REQ, &data); cbcp->fsm.restart--; cbcp_StartTimer(cbcp, cbcp->fsm.delay); cbcp_NewPhase(cbcp, CBCP_REQSENT); /* Wait for a RESPONSE */ } void cbcp_Up(struct cbcp *cbcp) { struct lcp *lcp = &cbcp->p->link.lcp; cbcp->fsm.delay = cbcp->p->dl->cfg.cbcp.delay; if (*cbcp->p->dl->peer.authname == '\0' || !auth_SetPhoneList(cbcp->p->dl->peer.authname, cbcp->fsm.phone, sizeof cbcp->fsm.phone)) { strncpy(cbcp->fsm.phone, cbcp->p->dl->cfg.cbcp.phone, sizeof cbcp->fsm.phone - 1); cbcp->fsm.phone[sizeof cbcp->fsm.phone - 1] = '\0'; } if (lcp->want_callback.opmask) { if (*cbcp->fsm.phone == '\0') cbcp->fsm.type = CBCP_NONUM; else if (!strcmp(cbcp->fsm.phone, "*")) { cbcp->fsm.type = CBCP_SERVERNUM; *cbcp->fsm.phone = '\0'; } else cbcp->fsm.type = CBCP_CLIENTNUM; cbcp_NewPhase(cbcp, CBCP_STOPPED); /* Wait for a REQ */ cbcp_StartTimer(cbcp, cbcp->fsm.delay * DEF_FSMTRIES); } else { if (*cbcp->fsm.phone == '\0') cbcp->fsm.type = CBCP_NONUM; else if (!strcmp(cbcp->fsm.phone, "*")) { cbcp->fsm.type = CBCP_CLIENTNUM; *cbcp->fsm.phone = '\0'; } else if (strchr(cbcp->fsm.phone, ',')) cbcp->fsm.type = CBCP_LISTNUM; else cbcp->fsm.type = CBCP_SERVERNUM; cbcp->fsm.restart = DEF_FSMTRIES; cbcp_SendReq(cbcp); } } static int cbcp_AdjustResponse(struct cbcp *cbcp, struct cbcp_data *data) { /* * We've received a REQ (data). Adjust our response (cbcp->fsm.*) * so that we (hopefully) agree with the peer */ struct cbcp_addr *addr; switch (data->type) { case CBCP_NONUM: if (cbcp->p->dl->cfg.callback.opmask & CALLBACK_BIT(CALLBACK_NONE)) /* * if ``none'' is a configured callback possibility * (ie, ``set callback cbcp none''), go along with the callees * request */ cbcp->fsm.type = CBCP_NONUM; /* * Otherwise, we send our desired response anyway. This seems to be * what Win95 does - although I can't find this behaviour documented * in the CBCP spec.... */ return 1; case CBCP_CLIENTNUM: if (cbcp->fsm.type == CBCP_CLIENTNUM) { char *ptr; if (data->length > data->addr_start - (char *)data) { /* * The peer has given us an address type spec - make sure we * understand ! */ addr = (struct cbcp_addr *)data->addr_start; if (addr->type != CBCP_ADDR_PSTN) { log_Printf(LogPHASE, "CBCP: Unrecognised address type %d !\n", (int)addr->type); return 0; } } /* we accept the REQ even if the peer didn't specify an addr->type */ ptr = strchr(cbcp->fsm.phone, ','); if (ptr) *ptr = '\0'; /* Just use the first number in our list */ return 1; } log_Printf(LogPHASE, "CBCP: no number to pass to the peer !\n"); return 0; case CBCP_SERVERNUM: if (cbcp->fsm.type == CBCP_SERVERNUM) { *cbcp->fsm.phone = '\0'; return 1; } if (data->length > data->addr_start - (char *)data) { /* * This violates the spec, but if the peer has told us the * number it wants to call back, take advantage of this fact * and allow things to proceed if we've specified the same * number */ addr = (struct cbcp_addr *)data->addr_start; if (addr->type != CBCP_ADDR_PSTN) { log_Printf(LogPHASE, "CBCP: Unrecognised address type %d !\n", (int)addr->type); return 0; } else if (cbcp->fsm.type == CBCP_CLIENTNUM) { /* * If the peer's insisting on deciding the number, make sure * it's one of the ones in our list. If it is, let the peer * think it's in control :-) */ char list[sizeof cbcp->fsm.phone], *next; strncpy(list, cbcp->fsm.phone, sizeof list - 1); list[sizeof list - 1] = '\0'; for (next = strtok(list, ","); next; next = strtok(NULL, ",")) if (!strcmp(next, addr->addr)) { cbcp->fsm.type = CBCP_SERVERNUM; strcpy(cbcp->fsm.phone, next); return 1; } } } log_Printf(LogPHASE, "CBCP: Peer won't allow local decision !\n"); return 0; case CBCP_LISTNUM: if (cbcp->fsm.type == CBCP_CLIENTNUM || cbcp->fsm.type == CBCP_LISTNUM) { /* * Search through ``data''s addresses and see if cbcp->fsm.phone * contains any of them */ char list[sizeof cbcp->fsm.phone], *next, *end; addr = (struct cbcp_addr *)data->addr_start; end = (char *)data + data->length; while (addr->addr < end) { if (addr->type == CBCP_ADDR_PSTN) { strncpy(list, cbcp->fsm.phone, sizeof list - 1); list[sizeof list - 1] = '\0'; for (next = strtok(list, ","); next; next = strtok(NULL, ",")) if (!strcmp(next, addr->addr)) { cbcp->fsm.type = CBCP_LISTNUM; strcpy(cbcp->fsm.phone, next); return 1; } } else log_Printf(LogCBCP, "Warning: Unrecognised address type %d !\n", (int)addr->type); addr = (struct cbcp_addr *)(addr->addr + strlen(addr->addr) + 1); } } log_Printf(LogPHASE, "CBCP: no good number to pass to the peer !\n"); return 0; } log_Printf(LogCBCP, "Unrecognised REQ type %d !\n", (int)data->type); return 0; } static void cbcp_SendResponse(struct cbcp *cbcp) { struct cbcp_data data; struct cbcp_addr *addr; /* Only callers send RESPONSEs */ log_Printf(LogCBCP, "%s: SendResponse(%d) state = %s\n", cbcp->p->dl->name, cbcp->fsm.id, cbcpstate(cbcp->fsm.state)); data.type = cbcp->fsm.type; data.delay = cbcp->fsm.delay; addr = (struct cbcp_addr *)data.addr_start; if (data.type == CBCP_NONUM) data.length = (char *)&data.delay - (char *)&data; else if (*cbcp->fsm.phone) { addr->type = CBCP_ADDR_PSTN; strncpy(addr->addr, cbcp->fsm.phone, sizeof addr->addr - 1); addr->addr[sizeof addr->addr - 1] = '\0'; data.length = (addr->addr + strlen(addr->addr) + 1) - (char *)&data; } else data.length = data.addr_start - (char *)&data; cbcp_data_Show(&data); cbcp_Output(cbcp, CBCP_RESPONSE, &data); cbcp->fsm.restart--; cbcp_StartTimer(cbcp, cbcp->fsm.delay); cbcp_NewPhase(cbcp, CBCP_RESPSENT); /* Wait for an ACK */ } /* What to do after checking an incoming response */ #define CBCP_ACTION_DOWN (0) #define CBCP_ACTION_REQ (1) #define CBCP_ACTION_ACK (2) static int cbcp_CheckResponse(struct cbcp *cbcp, struct cbcp_data *data) { /* * We've received a RESPONSE (data). Check if it agrees with * our REQ (cbcp->fsm) */ struct cbcp_addr *addr; addr = (struct cbcp_addr *)data->addr_start; if (data->type == cbcp->fsm.type) { switch (cbcp->fsm.type) { case CBCP_NONUM: return CBCP_ACTION_ACK; case CBCP_CLIENTNUM: if ((char *)data + data->length <= addr->addr) log_Printf(LogPHASE, "CBCP: peer didn't respond with a number !\n"); else if (addr->type != CBCP_ADDR_PSTN) log_Printf(LogPHASE, "CBCP: Unrecognised address type %d !\n", addr->type); else { strncpy(cbcp->fsm.phone, addr->addr, sizeof cbcp->fsm.phone - 1); cbcp->fsm.phone[sizeof cbcp->fsm.phone - 1] = '\0'; cbcp->fsm.delay = data->delay; return CBCP_ACTION_ACK; } return CBCP_ACTION_DOWN; case CBCP_SERVERNUM: cbcp->fsm.delay = data->delay; return CBCP_ACTION_ACK; case CBCP_LISTNUM: if ((char *)data + data->length <= addr->addr) log_Printf(LogPHASE, "CBCP: peer didn't respond with a number !\n"); else if (addr->type != CBCP_ADDR_PSTN) log_Printf(LogPHASE, "CBCP: Unrecognised address type %d !\n", addr->type); else { char list[sizeof cbcp->fsm.phone], *next; strncpy(list, cbcp->fsm.phone, sizeof list - 1); list[sizeof list - 1] = '\0'; for (next = strtok(list, ","); next; next = strtok(NULL, ",")) if (!strcmp(addr->addr, next)) { strcpy(cbcp->fsm.phone, next); cbcp->fsm.delay = data->delay; return CBCP_ACTION_ACK; } log_Printf(LogPHASE, "CBCP: peer didn't respond with a " "valid number !\n"); } return CBCP_ACTION_DOWN; } log_Printf(LogPHASE, "Internal CBCP error - agreed on %d !\n", (int)cbcp->fsm.type); return CBCP_ACTION_DOWN; } else if (data->type == CBCP_NONUM && cbcp->fsm.type == CBCP_CLIENTNUM) { /* * Client doesn't want CBCP after all.... * We only allow this when ``set cbcp *'' has been specified. */ cbcp->fsm.type = CBCP_NONUM; return CBCP_ACTION_ACK; } log_Printf(LogCBCP, "Invalid peer RESPONSE\n"); return CBCP_ACTION_REQ; } static void cbcp_SendAck(struct cbcp *cbcp) { struct cbcp_data data; struct cbcp_addr *addr; /* Only callees send ACKs */ log_Printf(LogCBCP, "%s: SendAck(%d) state = %s\n", cbcp->p->dl->name, cbcp->fsm.id, cbcpstate(cbcp->fsm.state)); data.type = cbcp->fsm.type; switch (data.type) { case CBCP_NONUM: data.length = (char *)&data.delay - (char *)&data; break; case CBCP_CLIENTNUM: addr = (struct cbcp_addr *)data.addr_start; addr->type = CBCP_ADDR_PSTN; strncpy(addr->addr, cbcp->fsm.phone, sizeof addr->addr - 1); addr->addr[sizeof addr->addr - 1] = '\0'; data.delay = cbcp->fsm.delay; data.length = addr->addr + strlen(addr->addr) + 1 - (char *)&data; break; default: data.delay = cbcp->fsm.delay; data.length = data.addr_start - (char *)&data; break; } cbcp_data_Show(&data); cbcp_Output(cbcp, CBCP_ACK, &data); cbcp->fsm.restart--; cbcp_StartTimer(cbcp, cbcp->fsm.delay); cbcp_NewPhase(cbcp, CBCP_ACKSENT); /* Wait for an ACK */ } extern struct mbuf * cbcp_Input(struct bundle *bundle __unused, struct link *l, struct mbuf *bp) { struct physical *p = link2physical(l); struct cbcp_header *head; struct cbcp_data *data; struct cbcp *cbcp = &p->dl->cbcp; size_t len; if (p == NULL) { log_Printf(LogERROR, "cbcp_Input: Not a physical link - dropped\n"); m_freem(bp); return NULL; } bp = m_pullup(bp); len = m_length(bp); if (len < sizeof(struct cbcp_header)) { m_freem(bp); return NULL; } head = (struct cbcp_header *)MBUF_CTOP(bp); if (ntohs(head->length) != len) { log_Printf(LogWARN, "Corrupt CBCP packet (code %d, length %u not %zu)" " - ignored\n", head->code, ntohs(head->length), len); m_freem(bp); return NULL; } m_settype(bp, MB_CBCPIN); /* XXX check the id */ bp->m_offset += sizeof(struct cbcp_header); bp->m_len -= sizeof(struct cbcp_header); data = (struct cbcp_data *)MBUF_CTOP(bp); switch (head->code) { case CBCP_REQ: log_Printf(LogCBCP, "%s: RecvReq(%d) state = %s\n", p->dl->name, head->id, cbcpstate(cbcp->fsm.state)); cbcp_data_Show(data); if (cbcp->fsm.state == CBCP_STOPPED || cbcp->fsm.state == CBCP_RESPSENT) { timer_Stop(&cbcp->fsm.timer); if (cbcp_AdjustResponse(cbcp, data)) { cbcp->fsm.restart = DEF_FSMTRIES; cbcp->fsm.id = head->id; cbcp_SendResponse(cbcp); } else datalink_CBCPFailed(cbcp->p->dl); } else log_Printf(LogCBCP, "%s: unexpected REQ dropped\n", p->dl->name); break; case CBCP_RESPONSE: log_Printf(LogCBCP, "%s: RecvResponse(%d) state = %s\n", p->dl->name, head->id, cbcpstate(cbcp->fsm.state)); cbcp_data_Show(data); if (cbcp->fsm.id != head->id) { log_Printf(LogCBCP, "Warning: Expected id was %d, not %d\n", cbcp->fsm.id, head->id); cbcp->fsm.id = head->id; } if (cbcp->fsm.state == CBCP_REQSENT || cbcp->fsm.state == CBCP_ACKSENT) { timer_Stop(&cbcp->fsm.timer); switch (cbcp_CheckResponse(cbcp, data)) { case CBCP_ACTION_REQ: cbcp_SendReq(cbcp); break; case CBCP_ACTION_ACK: cbcp->fsm.restart = DEF_FSMTRIES; cbcp_SendAck(cbcp); if (cbcp->fsm.type == CBCP_NONUM) { /* * Don't change state in case the peer doesn't get our ACK, * just bring the layer up. */ timer_Stop(&cbcp->fsm.timer); datalink_NCPUp(cbcp->p->dl); } break; default: datalink_CBCPFailed(cbcp->p->dl); break; } } else log_Printf(LogCBCP, "%s: unexpected RESPONSE dropped\n", p->dl->name); break; case CBCP_ACK: log_Printf(LogCBCP, "%s: RecvAck(%d) state = %s\n", p->dl->name, head->id, cbcpstate(cbcp->fsm.state)); cbcp_data_Show(data); if (cbcp->fsm.id != head->id) { log_Printf(LogCBCP, "Warning: Expected id was %d, not %d\n", cbcp->fsm.id, head->id); cbcp->fsm.id = head->id; } if (cbcp->fsm.type == CBCP_NONUM) { /* * Don't change state in case the peer doesn't get our ACK, * just bring the layer up. */ timer_Stop(&cbcp->fsm.timer); datalink_NCPUp(cbcp->p->dl); } else if (cbcp->fsm.state == CBCP_RESPSENT) { timer_Stop(&cbcp->fsm.timer); datalink_CBCPComplete(cbcp->p->dl); log_Printf(LogPHASE, "%s: CBCP: Peer will dial back\n", p->dl->name); } else log_Printf(LogCBCP, "%s: unexpected ACK dropped\n", p->dl->name); break; default: log_Printf(LogWARN, "Unrecognised CBCP packet (code %d, length %zd)\n", head->code, len); break; } m_freem(bp); return NULL; } void cbcp_Down(struct cbcp *cbcp) { timer_Stop(&cbcp->fsm.timer); cbcp_NewPhase(cbcp, CBCP_CLOSED); cbcp->required = 0; } void cbcp_ReceiveTerminateReq(struct physical *p) { if (p->dl->cbcp.fsm.state == CBCP_ACKSENT) { /* Don't change our state in case the peer doesn't get the ACK */ p->dl->cbcp.required = 1; log_Printf(LogPHASE, "%s: CBCP: Will dial back on %s\n", p->dl->name, p->dl->cbcp.fsm.phone); } else cbcp_NewPhase(&p->dl->cbcp, CBCP_CLOSED); }