/**************************************************************************** * netutils/pppd/ppp.c * PPP Processor/Handler * * Version: 0.1 Original Version Jun 3, 2000 * Copyright (c) 2003, Mike Johnson, Mycal Labs, www.mycal.net * 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. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Mike Johnson/Mycal Labs * www.mycal.net. * 4. 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 BY THE AUTHOR ``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 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. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include "ppp_conf.h" #include "ppp_arch.h" #include "ppp.h" #include "ahdlc.h" #include "ipcp.h" #include "lcp.h" #ifdef CONFIG_NETUTILS_PPPD_PAP #include "pap.h" #endif /* CONFIG_NETUTILS_PPPD_PAP */ /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ #if PPP_DEBUG # define DEBUG1(x) debug_printf x #else # define DEBUG1(x) #endif /* Set the debug message level */ #define PACKET_RX_DEBUG 1 /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Unknown Protocol Handler, sends reject * ****************************************************************************/ static void ppp_reject_protocol(struct ppp_context_s *ctx, u16_t protocol, u8_t *buffer, u16_t count) { u16_t i; u8_t *dptr, *sptr; LCPPKT *pkt; /* first copy rejected packet back, start from end and work forward, +++ Pay attention to buffer management when updated. Assumes fixed PPP blocks. */ DEBUG1(("Rejecting Protocol\n")); if ((count + 6) > PPP_RX_BUFFER_SIZE) { /* This is a fatal error +++ do something about it. */ DEBUG1(("Cannot Reject Protocol, PKT to big\n")); return; } dptr = buffer + count + 6; sptr = buffer + count; for (i = 0; i < count; ++i) { *dptr-- = *sptr--; } pkt = (LCPPKT *)buffer; pkt->code = PROT_REJ; /* Write Conf_rej */ /*pkt->id = tid++;*/ /* write tid */ pkt->len = htons(count + 6); *((u16_t *)(&pkt->data[0])) = htons(protocol); ahdlc_tx(ctx, LCP, buffer, 0, (u16_t)(count + 6), 0); } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: dump_ppp_packet ****************************************************************************/ #if PACKET_RX_DEBUG void dump_ppp_packet(u8_t *buffer, u16_t len) { int i; DEBUG1(("\n")); for (i = 0;i < len; ++i) { if ((i & 0x1f) == 0x10) { DEBUG1(("\n")); } DEBUG1(("0x%02x ",buffer[i])); } DEBUG1(("\n\n")); } #endif /**************************************************************************** * Initialize and start PPP engine. This just sets things up to * starting values. This can stay a private method. * ****************************************************************************/ void ppp_init(struct ppp_context_s *ctx) { #ifdef PPP_STATISTICS ctx->ppp_rx_frame_count = 0; #endif ctx->ppp_flags = 0; ctx->ip_no_data_time = 0; ctx->ppp_id = 0; #ifdef CONFIG_NETUTILS_PPPD_PAP pap_init(ctx); #endif /* CONFIG_NETUTILS_PPPD_PAP */ ipcp_init(ctx); lcp_init(ctx); ahdlc_init(ctx); ahdlc_rx_ready(ctx); } /**************************************************************************** * raise_ppp() - This routine will try to bring up a PPP connection, * It is blocking. In the future we probably want to pass a * structure with all the options on bringing up a PPP link, like * server/client, DSN server, username password for PAP... +++ for * now just use config and bit defines * ****************************************************************************/ #if 0 u16_t ppp_raise(u8_t config, u8_t *username, u8_t *password) { u16_t status = 0; /* Initialize PPP engine */ /* init_ppp(); */ pap_init(); ipcp_init(); lcp_init(); /* Enable PPP */ ppp_flags = PPP_RX_READY; /* Try to bring up the layers */ while (status == 0) { #ifdef SYSTEM_POLLER /* If the the serial interrupt is not hooked to ahdlc_rx, or the system needs to handle other stuff while were blocking, call the system poller.*/ system_poller(); #endif /* Call the lcp task to bring up the LCP layer */ lcp_task(ppp_tx_buffer); /* If LCP is up, neg next layer */ if (lcp_state & LCP_TX_UP) { /* If LCP wants PAP, try to authenticate, else bring up IPCP */ if ((lcp_state & LCP_RX_AUTH) && (!(pap_state & PAP_TX_UP))) { pap_task(ppp_tx_buffer,username,password); } else { ipcp_task(ppp_tx_buffer); } } /* If IPCP came up then our link should be up. */ if ((ipcp_state & IPCP_TX_UP) && (ipcp_state & IPCP_RX_UP)) { break; } status = check_ppp_errors(); } return status; } #endif /**************************************************************************** * Name: ppp_connect ****************************************************************************/ void ppp_connect(struct ppp_context_s *ctx) { /* Initialize PPP engine */ /* init_ppp(); */ #ifdef CONFIG_NETUTILS_PPPD_PAP pap_init(ctx); #endif /* CONFIG_NETUTILS_PPPD_PAP */ ipcp_init(ctx); lcp_init(ctx); /* Enable PPP */ ctx->ppp_flags = PPP_RX_READY; } /**************************************************************************** * Name: ppp_send ****************************************************************************/ void ppp_send(struct ppp_context_s *ctx) { /* If IPCP came up then our link should be up. */ if ((ctx->ipcp_state & IPCP_TX_UP) && (ctx->ipcp_state & IPCP_RX_UP)) { ahdlc_tx(ctx, IPV4, 0, ctx->ip_buf, 0, ctx->ip_len); } } /**************************************************************************** * Name: ppp_poll ****************************************************************************/ void ppp_poll(struct ppp_context_s *ctx) { u8_t c; ctx->ip_len = 0; ++ctx->ip_no_data_time; if (ctx->ip_no_data_time > PPP_IP_TIMEOUT) { ppp_reconnect(ctx); return; } if (!(ctx->ppp_flags & PPP_RX_READY)) { return; } while (ctx->ip_len == 0 && ppp_arch_getchar(ctx, &c)) { ahdlc_rx(ctx, c); } /* If IPCP came up then our link should be up. */ if ((ctx->ipcp_state & IPCP_TX_UP) && (ctx->ipcp_state & IPCP_RX_UP)) { lcp_echo_request(ctx, ctx->ip_buf); return; } /* Call the lcp task to bring up the LCP layer */ lcp_task(ctx, ctx->ip_buf); /* If LCP is up, neg next layer */ if ((ctx->lcp_state & LCP_TX_UP) && (ctx->lcp_state & LCP_RX_UP)) { /* If LCP wants PAP, try to authenticate, else bring up IPCP */ #ifdef CONFIG_NETUTILS_PPPD_PAP if ((ctx->lcp_state & LCP_RX_AUTH) && (!(ctx->pap_state & PAP_TX_UP))) { pap_task(ctx, ctx->ip_buf); } else { ipcp_task(ctx, ctx->ip_buf); } #else if (ctx->lcp_state & LCP_RX_AUTH) { /* lcp is asking for authentication but we do not support this. * This should be communicated upstream but we do not have an * interface for that right now, so just ignore it; nothing can be * done. This also should not have been hit because upcall does * not know about the pap message type. */ DEBUG1(("Asking for PAP, but we do not know PAP\n")); } else { ipcp_task(ctx, ctx->ip_buf); } #endif /* CONFIG_NETUTILS_PPPD_PAP */ } } /**************************************************************************** * Name: ppp_upcall * * Description: * This is where valid PPP frames from the ahdlc layer are sent to be * processed and demuxed. * ****************************************************************************/ void ppp_upcall(struct ppp_context_s *ctx, u16_t protocol, u8_t *buffer, u16_t len) { #ifdef PPP_STATISTICS ++ctx->ppp_rx_frame_count; #ifdef PPP_DEBUG dump_ppp_packet(buffer, len); #endif #endif /* PPP_STATISTICS */ /* Check to see if we have a packet waiting to be processed */ if (ctx->ppp_flags & PPP_RX_READY) { /* Demux on protocol field */ switch (protocol) { case LCP: /* We must support some level of LCP */ DEBUG1(("LCP Packet - ")); lcp_rx(ctx, buffer, len); DEBUG1(("\n")); break; #ifdef CONFIG_NETUTILS_PPPD_PAP case PAP: /* PAP should be compile in optional */ DEBUG1(("PAP Packet - ")); pap_rx(ctx, buffer, len); DEBUG1(("\n")); break; #endif /* CONFIG_NETUTILS_PPPD_PAP */ case IPCP: /* IPCP should be compile in optional. */ DEBUG1(("IPCP Packet - ")); ipcp_rx(ctx, buffer, len); DEBUG1(("\n")); break; case IPV4: /* We must support IPV4 */ DEBUG1(("IPV4 Packet---\n")); memcpy(ctx->ip_buf, buffer, len); ctx->ip_len = len; ctx->ip_no_data_time = 0; DEBUG1(("\n")); break; default: DEBUG1(("Unknown PPP Packet Type 0x%04x - ",protocol)); ppp_reject_protocol(ctx, protocol, buffer, len); DEBUG1(("\n")); break; } } } /**************************************************************************** * scan_packet(list,buffer,len) * * list = list of supported ID's * *buffer pointer to the first code in the packet * length of the codespace * ****************************************************************************/ u16_t scan_packet(struct ppp_context_s *ctx, u16_t protocol, const u8_t *list, u8_t *buffer, u8_t *options, u16_t len) { const u8_t *tlist; u8_t *bptr; u8_t *tptr; u8_t bad = 0; u8_t i, j, good; bptr = tptr = options; /* Scan through the packet and see if it has any unsupported codes */ while (bptr < options + len) { /* Get code and see if it matches somwhere in the list, if not we don't support it */ i = *bptr++; /* DEBUG2("%x - ",i); */ tlist = list; good = 0; while (*tlist) { /* DEBUG2("%x ",*tlist); */ if (i == *tlist++) { good = 1; break; } } if (!good) { /* We don't understand it, write it back */ DEBUG1(("We don't understand option 0x%02x\n",i)); bad = 1; *tptr++ = i; j = *tptr++ = *bptr++; for (i = 0; i < j - 2; ++i) { *tptr++ = *bptr++; } } else { /* Advance over to next option */ bptr += *bptr - 1; } } /* Bad? if we we need to send a config Reject */ if (bad) { /* Write the config Rej packet we've built above, take on the header */ bptr = buffer; *bptr++ = CONF_REJ; /* Write Conf_rej */ bptr++; /* skip over ID */ *bptr++ = 0; *bptr = tptr - buffer; /* Length right here? */ /* Write the reject frame */ DEBUG1(("Writing Reject frame --\n")); ahdlc_tx(ctx, protocol, buffer, 0, (u16_t)(tptr - buffer), 0); DEBUG1(("\nEnd writing reject \n")); } return bad; }