/* * cbcp - Call Back Configuration Protocol. * * Copyright (c) 1995 Pedro Roque Marques * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * advertising materials, and other materials related to such * distribution and use acknowledge that the software was developed * by Pedro Roque Marques. The name of the author may not be used to * endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #define RCSID "$Id$" #include #include #include #include #include "pppd.h" #include "cbcp.h" #include "fsm.h" #include "lcp.h" static const char rcsid[] = RCSID; /* * Options. */ static int setcbcp __P((char **)); static option_t cbcp_option_list[] = { { "callback", o_special, setcbcp, "Ask for callback" }, { NULL } }; /* * Protocol entry points. */ static void cbcp_init __P((int unit)); static void cbcp_open __P((int unit)); static void cbcp_lowerup __P((int unit)); static void cbcp_input __P((int unit, u_char *pkt, int len)); static void cbcp_protrej __P((int unit)); static int cbcp_printpkt __P((u_char *pkt, int len, void (*printer) __P((void *, char *, ...)), void *arg)); struct protent cbcp_protent = { PPP_CBCP, cbcp_init, cbcp_input, cbcp_protrej, cbcp_lowerup, NULL, cbcp_open, NULL, cbcp_printpkt, NULL, 0, "CBCP", NULL, cbcp_option_list, NULL, NULL, NULL }; cbcp_state cbcp[NUM_PPP]; /* internal prototypes */ static void cbcp_recvreq __P((cbcp_state *us, char *pckt, int len)); static void cbcp_resp __P((cbcp_state *us)); static void cbcp_up __P((cbcp_state *us)); static void cbcp_recvack __P((cbcp_state *us, char *pckt, int len)); static void cbcp_send __P((cbcp_state *us, u_char code, u_char *buf, int len)); /* option processing */ static int setcbcp(argv) char **argv; { lcp_wantoptions[0].neg_cbcp = 1; cbcp_protent.enabled_flag = 1; cbcp[0].us_number = strdup(*argv); if (cbcp[0].us_number == 0) novm("callback number"); cbcp[0].us_type |= (1 << CB_CONF_USER); cbcp[0].us_type |= (1 << CB_CONF_ADMIN); return (1); } /* init state */ static void cbcp_init(iface) int iface; { cbcp_state *us; us = &cbcp[iface]; memset(us, 0, sizeof(cbcp_state)); us->us_unit = iface; us->us_type |= (1 << CB_CONF_NO); } /* lower layer is up */ static void cbcp_lowerup(iface) int iface; { cbcp_state *us = &cbcp[iface]; dbglog("cbcp_lowerup"); dbglog("want: %d", us->us_type); if (us->us_type == CB_CONF_USER) dbglog("phone no: %s", us->us_number); } static void cbcp_open(unit) int unit; { dbglog("cbcp_open"); } /* process an incomming packet */ static void cbcp_input(unit, inpacket, pktlen) int unit; u_char *inpacket; int pktlen; { u_char *inp; u_char code, id; u_short len; cbcp_state *us = &cbcp[unit]; inp = inpacket; if (pktlen < CBCP_MINLEN) { error("CBCP packet is too small"); return; } GETCHAR(code, inp); GETCHAR(id, inp); GETSHORT(len, inp); #if 0 if (len > pktlen) { error("CBCP packet: invalid length"); return; } #endif len -= CBCP_MINLEN; switch(code) { case CBCP_REQ: us->us_id = id; cbcp_recvreq(us, inp, len); break; case CBCP_RESP: dbglog("CBCP_RESP received"); break; case CBCP_ACK: if (id != us->us_id) dbglog("id doesn't match: expected %d recv %d", us->us_id, id); cbcp_recvack(us, inp, len); break; default: break; } } /* protocol was rejected by foe */ void cbcp_protrej(int iface) { } char *cbcp_codenames[] = { "Request", "Response", "Ack" }; char *cbcp_optionnames[] = { "NoCallback", "UserDefined", "AdminDefined", "List" }; /* pretty print a packet */ static int cbcp_printpkt(p, plen, printer, arg) u_char *p; int plen; void (*printer) __P((void *, char *, ...)); void *arg; { int code, opt, id, len, olen, delay; u_char *pstart; if (plen < HEADERLEN) return 0; pstart = p; GETCHAR(code, p); GETCHAR(id, p); GETSHORT(len, p); if (len < HEADERLEN || len > plen) return 0; if (code >= 1 && code <= sizeof(cbcp_codenames) / sizeof(char *)) printer(arg, " %s", cbcp_codenames[code-1]); else printer(arg, " code=0x%x", code); printer(arg, " id=0x%x", id); len -= HEADERLEN; switch (code) { case CBCP_REQ: case CBCP_RESP: case CBCP_ACK: while(len >= 2) { GETCHAR(opt, p); GETCHAR(olen, p); if (olen < 2 || olen > len) { break; } printer(arg, " <"); len -= olen; if (opt >= 1 && opt <= sizeof(cbcp_optionnames) / sizeof(char *)) printer(arg, " %s", cbcp_optionnames[opt-1]); else printer(arg, " option=0x%x", opt); if (olen > 2) { GETCHAR(delay, p); printer(arg, " delay = %d", delay); } if (olen > 3) { int addrt; char str[256]; GETCHAR(addrt, p); memcpy(str, p, olen - 4); str[olen - 4] = 0; printer(arg, " number = %s", str); } printer(arg, ">"); break; } default: break; } for (; len > 0; --len) { GETCHAR(code, p); printer(arg, " %.2x", code); } return p - pstart; } /* received CBCP request */ static void cbcp_recvreq(us, pckt, pcktlen) cbcp_state *us; char *pckt; int pcktlen; { u_char type, opt_len, delay, addr_type; char address[256]; int len = pcktlen; address[0] = 0; while (len) { dbglog("length: %d", len); GETCHAR(type, pckt); GETCHAR(opt_len, pckt); if (opt_len > 2) GETCHAR(delay, pckt); us->us_allowed |= (1 << type); switch(type) { case CB_CONF_NO: dbglog("no callback allowed"); break; case CB_CONF_USER: dbglog("user callback allowed"); if (opt_len > 4) { GETCHAR(addr_type, pckt); memcpy(address, pckt, opt_len - 4); address[opt_len - 4] = 0; if (address[0]) dbglog("address: %s", address); } break; case CB_CONF_ADMIN: dbglog("user admin defined allowed"); break; case CB_CONF_LIST: break; } len -= opt_len; } cbcp_resp(us); } static void cbcp_resp(us) cbcp_state *us; { u_char cb_type; u_char buf[256]; u_char *bufp = buf; int len = 0; cb_type = us->us_allowed & us->us_type; dbglog("cbcp_resp cb_type=%d", cb_type); #if 0 if (!cb_type) lcp_down(us->us_unit); #endif if (cb_type & ( 1 << CB_CONF_USER ) ) { dbglog("cbcp_resp CONF_USER"); PUTCHAR(CB_CONF_USER, bufp); len = 3 + 1 + strlen(us->us_number) + 1; PUTCHAR(len , bufp); PUTCHAR(5, bufp); /* delay */ PUTCHAR(1, bufp); BCOPY(us->us_number, bufp, strlen(us->us_number) + 1); cbcp_send(us, CBCP_RESP, buf, len); return; } if (cb_type & ( 1 << CB_CONF_ADMIN ) ) { dbglog("cbcp_resp CONF_ADMIN"); PUTCHAR(CB_CONF_ADMIN, bufp); len = 3; PUTCHAR(len, bufp); PUTCHAR(5, bufp); /* delay */ cbcp_send(us, CBCP_RESP, buf, len); return; } if (cb_type & ( 1 << CB_CONF_NO ) ) { dbglog("cbcp_resp CONF_NO"); PUTCHAR(CB_CONF_NO, bufp); len = 3; PUTCHAR(len , bufp); PUTCHAR(0, bufp); cbcp_send(us, CBCP_RESP, buf, len); start_networks(); return; } } static void cbcp_send(us, code, buf, len) cbcp_state *us; u_char code; u_char *buf; int len; { u_char *outp; int outlen; outp = outpacket_buf; outlen = 4 + len; MAKEHEADER(outp, PPP_CBCP); PUTCHAR(code, outp); PUTCHAR(us->us_id, outp); PUTSHORT(outlen, outp); if (len) BCOPY(buf, outp, len); output(us->us_unit, outpacket_buf, outlen + PPP_HDRLEN); } static void cbcp_recvack(us, pckt, len) cbcp_state *us; char *pckt; int len; { u_char type, delay, addr_type; int opt_len; char address[256]; if (len) { GETCHAR(type, pckt); GETCHAR(opt_len, pckt); if (opt_len > 2) GETCHAR(delay, pckt); if (opt_len > 4) { GETCHAR(addr_type, pckt); memcpy(address, pckt, opt_len - 4); address[opt_len - 4] = 0; if (address[0]) dbglog("peer will call: %s", address); } if (type == CB_CONF_NO) return; } cbcp_up(us); } /* ok peer will do callback */ static void cbcp_up(us) cbcp_state *us; { persist = 0; lcp_close(0, "Call me back, please"); status = EXIT_CALLBACK; }