/* * Copyright (c) 2019 Intel Corporation. * Copyright (c) 2020 Endian Technologies AB * * SPDX-License-Identifier: Apache-2.0 */ #include LOG_MODULE_DECLARE(net_l2_ppp, CONFIG_NET_L2_PPP_LOG_LEVEL); #include #include #include #include #include "net_private.h" #include "ppp_internal.h" static enum net_verdict ipcp_handle(struct ppp_context *ctx, struct net_if *iface, struct net_pkt *pkt) { return ppp_fsm_input(&ctx->ipcp.fsm, PPP_IPCP, pkt); } /* Length is (6): code + id + IPv4 address length. RFC 1332 and also * DNS in RFC 1877. */ #define IP_ADDRESS_OPTION_LEN (1 + 1 + 4) static int ipcp_add_address(struct ppp_context *ctx, struct net_pkt *pkt, struct in_addr *addr) { net_pkt_write_u8(pkt, 1 + 1 + sizeof(addr->s_addr)); return net_pkt_write(pkt, &addr->s_addr, sizeof(addr->s_addr)); } static int ipcp_add_ip_address(struct ppp_context *ctx, struct net_pkt *pkt) { return ipcp_add_address(ctx, pkt, &ctx->ipcp.my_options.address); } static int ipcp_add_dns1(struct ppp_context *ctx, struct net_pkt *pkt) { return ipcp_add_address(ctx, pkt, &ctx->ipcp.my_options.dns1_address); } static int ipcp_add_dns2(struct ppp_context *ctx, struct net_pkt *pkt) { return ipcp_add_address(ctx, pkt, &ctx->ipcp.my_options.dns2_address); } static int ipcp_ack_check_address(struct net_pkt *pkt, size_t oplen, struct in_addr *addr) { struct in_addr ack_addr; int ret; if (oplen != sizeof(ack_addr)) { return -EINVAL; } ret = net_pkt_read(pkt, &ack_addr, sizeof(ack_addr)); if (ret) { return ret; } if (memcmp(&ack_addr, addr, sizeof(ack_addr)) != 0) { return -EINVAL; } return 0; } static int ipcp_ack_ip_address(struct ppp_context *ctx, struct net_pkt *pkt, uint8_t oplen) { return ipcp_ack_check_address(pkt, oplen, &ctx->ipcp.my_options.address); } static int ipcp_ack_dns1(struct ppp_context *ctx, struct net_pkt *pkt, uint8_t oplen) { return ipcp_ack_check_address(pkt, oplen, &ctx->ipcp.my_options.dns1_address); } static int ipcp_ack_dns2(struct ppp_context *ctx, struct net_pkt *pkt, uint8_t oplen) { return ipcp_ack_check_address(pkt, oplen, &ctx->ipcp.my_options.dns2_address); } static int ipcp_nak_override_address(struct net_pkt *pkt, size_t oplen, struct in_addr *addr) { if (oplen != sizeof(*addr)) { return -EINVAL; } return net_pkt_read(pkt, addr, sizeof(*addr)); } static int ipcp_nak_ip_address(struct ppp_context *ctx, struct net_pkt *pkt, uint8_t oplen) { return ipcp_nak_override_address(pkt, oplen, &ctx->ipcp.my_options.address); } static int ipcp_nak_dns1(struct ppp_context *ctx, struct net_pkt *pkt, uint8_t oplen) { return ipcp_nak_override_address(pkt, oplen, &ctx->ipcp.my_options.dns1_address); } static int ipcp_nak_dns2(struct ppp_context *ctx, struct net_pkt *pkt, uint8_t oplen) { return ipcp_nak_override_address(pkt, oplen, &ctx->ipcp.my_options.dns2_address); } static const struct ppp_my_option_info ipcp_my_options[] = { PPP_MY_OPTION(IPCP_OPTION_IP_ADDRESS, ipcp_add_ip_address, ipcp_ack_ip_address, ipcp_nak_ip_address), PPP_MY_OPTION(IPCP_OPTION_DNS1, ipcp_add_dns1, ipcp_ack_dns1, ipcp_nak_dns1), PPP_MY_OPTION(IPCP_OPTION_DNS2, ipcp_add_dns2, ipcp_ack_dns2, ipcp_nak_dns2), }; BUILD_ASSERT(ARRAY_SIZE(ipcp_my_options) == IPCP_NUM_MY_OPTIONS); static struct net_pkt *ipcp_config_info_add(struct ppp_fsm *fsm) { return ppp_my_options_add(fsm, 3 * IP_ADDRESS_OPTION_LEN); } struct ipcp_peer_option_data { bool addr_present; struct in_addr addr; }; #if defined(CONFIG_NET_L2_PPP_OPTION_SERVE_DNS) static int ipcp_dns_address_parse(struct ppp_fsm *fsm, struct net_pkt *pkt, void *user_data) { struct ipcp_peer_option_data *data = user_data; int ret; ret = net_pkt_read(pkt, &data->addr, sizeof(data->addr)); if (ret < 0) { /* Should not happen, is the pkt corrupt? */ return -EMSGSIZE; } /* Request is zeros? Give our dns address in ConfNak */ if (data->addr.s_addr == INADDR_ANY) { NET_DBG("[IPCP] zeroes rcvd as %s addr, sending NAK with our %s addr", "DNS", "DNS"); return -EINVAL; } data->addr_present = true; return 0; } #endif static int ipcp_ip_address_parse(struct ppp_fsm *fsm, struct net_pkt *pkt, void *user_data) { struct ipcp_peer_option_data *data = user_data; int ret; ret = net_pkt_read(pkt, &data->addr, sizeof(data->addr)); if (ret < 0) { /* Should not happen, is the pkt corrupt? */ return -EMSGSIZE; } #if defined(CONFIG_NET_L2_PPP_OPTION_SERVE_IP) /* Request is zeros? Give our IP address in ConfNak */ if (data->addr.s_addr == INADDR_ANY) { NET_DBG("[IPCP] zeroes rcvd as %s addr, sending NAK with our %s addr", "IP", "IP"); return -EINVAL; } #endif if (CONFIG_NET_L2_PPP_LOG_LEVEL >= LOG_LEVEL_DBG) { char dst[INET_ADDRSTRLEN]; char *addr_str; addr_str = net_addr_ntop(AF_INET, &data->addr, dst, sizeof(dst)); NET_DBG("[IPCP] Received peer address %s", addr_str); } data->addr_present = true; return 0; } #if defined(CONFIG_NET_L2_PPP_OPTION_SERVE_IP) static int ipcp_server_nak_ip_address(struct ppp_fsm *fsm, struct net_pkt *ret_pkt, void *user_data) { struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); (void)net_pkt_write_u8(ret_pkt, IPCP_OPTION_IP_ADDRESS); ipcp_add_ip_address(ctx, ret_pkt); return 0; } #endif #if defined(CONFIG_NET_L2_PPP_OPTION_SERVE_DNS) static int ipcp_server_nak_dns1_address(struct ppp_fsm *fsm, struct net_pkt *ret_pkt, void *user_data) { struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); (void)net_pkt_write_u8(ret_pkt, IPCP_OPTION_DNS1); ipcp_add_dns1(ctx, ret_pkt); return 0; } static int ipcp_server_nak_dns2_address(struct ppp_fsm *fsm, struct net_pkt *ret_pkt, void *user_data) { struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); (void)net_pkt_write_u8(ret_pkt, IPCP_OPTION_DNS2); ipcp_add_dns2(ctx, ret_pkt); return 0; } #endif static const struct ppp_peer_option_info ipcp_peer_options[] = { #if defined(CONFIG_NET_L2_PPP_OPTION_SERVE_IP) PPP_PEER_OPTION(IPCP_OPTION_IP_ADDRESS, ipcp_ip_address_parse, ipcp_server_nak_ip_address), #else PPP_PEER_OPTION(IPCP_OPTION_IP_ADDRESS, ipcp_ip_address_parse, NULL), #endif #if defined(CONFIG_NET_L2_PPP_OPTION_SERVE_DNS) PPP_PEER_OPTION(IPCP_OPTION_DNS1, ipcp_dns_address_parse, ipcp_server_nak_dns1_address), PPP_PEER_OPTION(IPCP_OPTION_DNS2, ipcp_dns_address_parse, ipcp_server_nak_dns2_address), #endif }; static int ipcp_config_info_req(struct ppp_fsm *fsm, struct net_pkt *pkt, uint16_t length, struct net_pkt *ret_pkt) { struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); struct ipcp_peer_option_data data = { .addr_present = false, }; int ret; ret = ppp_config_info_req(fsm, pkt, length, ret_pkt, PPP_IPCP, ipcp_peer_options, ARRAY_SIZE(ipcp_peer_options), &data); if (ret != PPP_CONFIGURE_ACK) { /* There are some issues with configuration still */ return ret; } if (!data.addr_present) { NET_DBG("[%s/%p] No %saddress provided", fsm->name, fsm, "peer "); return PPP_CONFIGURE_ACK; } /* The address is the remote address, we then need * to figure out what our address should be. * * TODO: * - check that the IP address can be accepted */ memcpy(&ctx->ipcp.peer_options.address, &data.addr, sizeof(data.addr)); return PPP_CONFIGURE_ACK; } static void ipcp_set_dns_servers(struct ppp_fsm *fsm) { #if defined(CONFIG_NET_L2_PPP_OPTION_DNS_USE) struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); struct dns_resolve_context *dnsctx; struct sockaddr_in dns1 = { .sin_family = AF_INET, .sin_port = htons(53), .sin_addr = ctx->ipcp.my_options.dns1_address }; struct sockaddr_in dns2 = { .sin_family = AF_INET, .sin_port = htons(53), .sin_addr = ctx->ipcp.my_options.dns2_address }; const struct sockaddr *dns_servers[] = { (struct sockaddr *) &dns1, (struct sockaddr *) &dns2, NULL }; int ret; if (!dns1.sin_addr.s_addr) { return; } if (!dns2.sin_addr.s_addr) { dns_servers[1] = NULL; } dnsctx = dns_resolve_get_default(); ret = dns_resolve_reconfigure(dnsctx, NULL, dns_servers); if (ret < 0) { NET_ERR("Could not set DNS servers"); return; } #endif } static int ipcp_config_info_nack(struct ppp_fsm *fsm, struct net_pkt *pkt, uint16_t length, bool rejected) { struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); int ret; ret = ppp_my_options_parse_conf_nak(fsm, pkt, length); if (ret) { return ret; } if (!ctx->ipcp.my_options.address.s_addr) { return -EINVAL; } ipcp_set_dns_servers(fsm); return 0; } static void ipcp_lower_down(struct ppp_context *ctx) { ppp_fsm_lower_down(&ctx->ipcp.fsm); } static void ipcp_lower_up(struct ppp_context *ctx) { ppp_fsm_lower_up(&ctx->ipcp.fsm); } static void ipcp_open(struct ppp_context *ctx) { ppp_fsm_open(&ctx->ipcp.fsm); } static void ipcp_close(struct ppp_context *ctx, const uint8_t *reason) { ppp_fsm_close(&ctx->ipcp.fsm, reason); } static void ipcp_up(struct ppp_fsm *fsm) { struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); struct net_if_addr *addr; char dst[INET_ADDRSTRLEN]; char *addr_str; if (ctx->is_ipcp_up) { return; } addr_str = net_addr_ntop(AF_INET, &ctx->ipcp.my_options.address, dst, sizeof(dst)); addr = net_if_ipv4_addr_add(ctx->iface, &ctx->ipcp.my_options.address, NET_ADDR_MANUAL, 0); if (addr == NULL) { NET_ERR("Could not set IP address %s", addr_str); return; } NET_DBG("PPP up with address %s", addr_str); ppp_network_up(ctx, PPP_IP); ctx->is_ipcp_up = true; NET_DBG("[%s/%p] Current state %s (%d)", fsm->name, fsm, ppp_state_str(fsm->state), fsm->state); } static void ipcp_down(struct ppp_fsm *fsm) { struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); /* Ensure address is always removed if it exists */ if (ctx->ipcp.my_options.address.s_addr) { (void)net_if_ipv4_addr_rm( ctx->iface, &ctx->ipcp.my_options.address); } memset(&ctx->ipcp.my_options.address, 0, sizeof(ctx->ipcp.my_options.address)); memset(&ctx->ipcp.my_options.dns1_address, 0, sizeof(ctx->ipcp.my_options.dns1_address)); memset(&ctx->ipcp.my_options.dns2_address, 0, sizeof(ctx->ipcp.my_options.dns2_address)); if (!ctx->is_ipcp_up) { return; } ctx->is_ipcp_up = false; ppp_network_down(ctx, PPP_IP); } static void ipcp_finished(struct ppp_fsm *fsm) { struct ppp_context *ctx = CONTAINER_OF(fsm, struct ppp_context, ipcp.fsm); if (!ctx->is_ipcp_open) { return; } ctx->is_ipcp_open = false; ppp_network_done(ctx, PPP_IP); } static void ipcp_proto_reject(struct ppp_fsm *fsm) { ppp_fsm_lower_down(fsm); } static void ipcp_init(struct ppp_context *ctx) { NET_DBG("proto %s (0x%04x) fsm %p", ppp_proto2str(PPP_IPCP), PPP_IPCP, &ctx->ipcp.fsm); memset(&ctx->ipcp.fsm, 0, sizeof(ctx->ipcp.fsm)); ppp_fsm_init(&ctx->ipcp.fsm, PPP_IPCP); ppp_fsm_name_set(&ctx->ipcp.fsm, ppp_proto2str(PPP_IPCP)); ctx->ipcp.fsm.my_options.info = ipcp_my_options; ctx->ipcp.fsm.my_options.data = ctx->ipcp.my_options_data; ctx->ipcp.fsm.my_options.count = ARRAY_SIZE(ipcp_my_options); ctx->ipcp.fsm.cb.up = ipcp_up; ctx->ipcp.fsm.cb.down = ipcp_down; ctx->ipcp.fsm.cb.finished = ipcp_finished; ctx->ipcp.fsm.cb.proto_reject = ipcp_proto_reject; ctx->ipcp.fsm.cb.config_info_add = ipcp_config_info_add; ctx->ipcp.fsm.cb.config_info_req = ipcp_config_info_req; ctx->ipcp.fsm.cb.config_info_nack = ipcp_config_info_nack; ctx->ipcp.fsm.cb.config_info_rej = ppp_my_options_parse_conf_rej; } PPP_PROTOCOL_REGISTER(IPCP, PPP_IPCP, ipcp_init, ipcp_handle, ipcp_lower_up, ipcp_lower_down, ipcp_open, ipcp_close);