/** * @file * Dynamic Host Configuration Protocol client * */ /* * * Copyright (c) 2001-2004 Leon Woestenberg * Copyright (c) 2001-2004 Axon Digital Design B.V., The Netherlands. * 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. 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. * * This file is a contribution to the lwIP TCP/IP stack. * The Swedish Institute of Computer Science and Adam Dunkels * are specifically granted permission to redistribute this * source code. * * Author: Leon Woestenberg * * This is a DHCP client for the lwIP TCP/IP stack. It aims to conform * with RFC 2131 and RFC 2132. * * TODO: * - Proper parsing of DHCP messages exploiting file/sname field overloading. * - Add JavaDoc style documentation (API, internals). * - Support for interfaces other than Ethernet (SLIP, PPP, ...) * * Please coordinate changes and requests with Leon Woestenberg * * * Integration with your code: * * In lwip/dhcp.h * #define DHCP_COARSE_TIMER_SECS (recommended 60 which is a minute) * #define DHCP_FINE_TIMER_MSECS (recommended 500 which equals TCP coarse timer) * * Then have your application call dhcp_coarse_tmr() and * dhcp_fine_tmr() on the defined intervals. * * dhcp_start(struct netif *netif); * starts a DHCP client instance which configures the interface by * obtaining an IP address lease and maintaining it. * * Use dhcp_release(netif) to end the lease and use dhcp_stop(netif) * to remove the DHCP client. * */ #include "lwip/opt.h" #if LWIP_DHCP /* don't build if not configured for use in lwipopts.h */ #include "lwip/stats.h" #include "lwip/mem.h" #include "lwip/udp.h" #include "lwip/ip_addr.h" #include "lwip/netif.h" #include "lwip/inet.h" #include "lwip/sys.h" #include "lwip/dhcp.h" #include "lwip/autoip.h" #include "lwip/dns.h" #include "netif/etharp.h" #include /** global transaction identifier, must be * unique for each DHCP request. We simply increment, starting * with this value (easy to match with a packet analyzer) */ static u32_t xid = 0xABCD0000; /* DHCP client state machine functions */ static void dhcp_handle_ack(struct netif *netif); static void dhcp_handle_nak(struct netif *netif); static void dhcp_handle_offer(struct netif *netif); static err_t dhcp_discover(struct netif *netif); static err_t dhcp_select(struct netif *netif); static void dhcp_check(struct netif *netif); static void dhcp_bind(struct netif *netif); static err_t dhcp_decline(struct netif *netif); static err_t dhcp_rebind(struct netif *netif); static void dhcp_set_state(struct dhcp *dhcp, u8_t new_state); /* receive, unfold, parse and free incoming messages */ static void dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, struct ip_addr *addr, u16_t port); static err_t dhcp_unfold_reply(struct dhcp *dhcp); static u8_t *dhcp_get_option_ptr(struct dhcp *dhcp, u8_t option_type); static u8_t dhcp_get_option_byte(u8_t *ptr); #if 0 static u16_t dhcp_get_option_short(u8_t *ptr); #endif static u32_t dhcp_get_option_long(u8_t *ptr); static void dhcp_free_reply(struct dhcp *dhcp); /* set the DHCP timers */ static void dhcp_timeout(struct netif *netif); static void dhcp_t1_timeout(struct netif *netif); static void dhcp_t2_timeout(struct netif *netif); /* build outgoing messages */ /* create a DHCP request, fill in common headers */ static err_t dhcp_create_request(struct netif *netif); /* free a DHCP request */ static void dhcp_delete_request(struct netif *netif); /* add a DHCP option (type, then length in bytes) */ static void dhcp_option(struct dhcp *dhcp, u8_t option_type, u8_t option_len); /* add option values */ static void dhcp_option_byte(struct dhcp *dhcp, u8_t value); static void dhcp_option_short(struct dhcp *dhcp, u16_t value); static void dhcp_option_long(struct dhcp *dhcp, u32_t value); /* always add the DHCP options trailer to end and pad */ static void dhcp_option_trailer(struct dhcp *dhcp); /** * Back-off the DHCP client (because of a received NAK response). * * Back-off the DHCP client because of a received NAK. Receiving a * NAK means the client asked for something non-sensible, for * example when it tries to renew a lease obtained on another network. * * We clear any existing set IP address and restart DHCP negotiation * afresh (as per RFC2131 3.2.3). * * @param netif the netif under DHCP control */ static void dhcp_handle_nak(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_handle_nak(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num)); /* Set the interface down since the address must no longer be used, as per RFC2131 */ netif_set_down(netif); /* remove IP address from interface */ netif_set_ipaddr(netif, IP_ADDR_ANY); netif_set_gw(netif, IP_ADDR_ANY); netif_set_netmask(netif, IP_ADDR_ANY); /* Change to a defined state */ dhcp_set_state(dhcp, DHCP_BACKING_OFF); /* We can immediately restart discovery */ dhcp_discover(netif); } /** * Checks if the offered IP address is already in use. * * It does so by sending an ARP request for the offered address and * entering CHECKING state. If no ARP reply is received within a small * interval, the address is assumed to be free for use by us. * * @param netif the netif under DHCP control */ static void dhcp_check(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; err_t result; u16_t msecs; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_check(netif=%p) %c%c\n", (void *)netif, (s16_t)netif->name[0], (s16_t)netif->name[1])); /* create an ARP query for the offered IP address, expecting that no host responds, as the IP address should not be in use. */ result = etharp_query(netif, &dhcp->offered_ip_addr, NULL); if (result != ERR_OK) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_check: could not perform ARP query\n")); } dhcp->tries++; msecs = 500; dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_check(): set request timeout %"U16_F" msecs\n", msecs)); dhcp_set_state(dhcp, DHCP_CHECKING); } /** * Remember the configuration offered by a DHCP server. * * @param netif the netif under DHCP control */ static void dhcp_handle_offer(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; /* obtain the server address */ u8_t *option_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_SERVER_ID); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_handle_offer(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num)); if (option_ptr != NULL) { dhcp->server_ip_addr.addr = htonl(dhcp_get_option_long(&option_ptr[2])); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_handle_offer(): server 0x%08"X32_F"\n", dhcp->server_ip_addr.addr)); /* remember offered address */ ip_addr_set(&dhcp->offered_ip_addr, (struct ip_addr *)&dhcp->msg_in->yiaddr); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_handle_offer(): offer for 0x%08"X32_F"\n", dhcp->offered_ip_addr.addr)); dhcp_select(netif); } } /** * Select a DHCP server offer out of all offers. * * Simply select the first offer received. * * @param netif the netif under DHCP control * @return lwIP specific error (see error.h) */ static err_t dhcp_select(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; err_t result; u16_t msecs; #if LWIP_NETIF_HOSTNAME const char *p; #endif /* LWIP_NETIF_HOSTNAME */ LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_select(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num)); /* create and initialize the DHCP message header */ result = dhcp_create_request(netif); if (result == ERR_OK) { dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN); dhcp_option_byte(dhcp, DHCP_REQUEST); dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN); dhcp_option_short(dhcp, 576); /* MUST request the offered IP address */ dhcp_option(dhcp, DHCP_OPTION_REQUESTED_IP, 4); dhcp_option_long(dhcp, ntohl(dhcp->offered_ip_addr.addr)); dhcp_option(dhcp, DHCP_OPTION_SERVER_ID, 4); dhcp_option_long(dhcp, ntohl(dhcp->server_ip_addr.addr)); dhcp_option(dhcp, DHCP_OPTION_PARAMETER_REQUEST_LIST, 4/*num options*/); dhcp_option_byte(dhcp, DHCP_OPTION_SUBNET_MASK); dhcp_option_byte(dhcp, DHCP_OPTION_ROUTER); dhcp_option_byte(dhcp, DHCP_OPTION_BROADCAST); dhcp_option_byte(dhcp, DHCP_OPTION_DNS_SERVER); #if LWIP_NETIF_HOSTNAME p = (const char*)netif->hostname; if (p!=NULL) { dhcp_option(dhcp, DHCP_OPTION_HOSTNAME, strlen(p)); while (*p) { dhcp_option_byte(dhcp, *p++); } } #endif /* LWIP_NETIF_HOSTNAME */ dhcp_option_trailer(dhcp); /* shrink the pbuf to the actual content length */ pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len); /* TODO: we really should bind to a specific local interface here but we cannot specify an unconfigured netif as it is addressless */ /* send broadcast to any DHCP server */ udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif); /* reconnect to any (or to server here?!) */ udp_connect(dhcp->pcb, IP_ADDR_ANY, DHCP_SERVER_PORT); dhcp_delete_request(netif); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_select: REQUESTING\n")); dhcp_set_state(dhcp, DHCP_REQUESTING); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_select: could not allocate DHCP request\n")); } dhcp->tries++; msecs = dhcp->tries < 4 ? dhcp->tries * 1000 : 4 * 1000; dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_select(): set request timeout %"U16_F" msecs\n", msecs)); return result; } /** * The DHCP timer that checks for lease renewal/rebind timeouts. * */ void dhcp_coarse_tmr() { struct netif *netif = netif_list; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_coarse_tmr()\n")); /* iterate through all network interfaces */ while (netif != NULL) { /* only act on DHCP configured interfaces */ if (netif->dhcp != NULL) { /* timer is active (non zero), and triggers (zeroes) now? */ if (netif->dhcp->t2_timeout-- == 1) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_coarse_tmr(): t2 timeout\n")); /* this clients' rebind timeout triggered */ dhcp_t2_timeout(netif); /* timer is active (non zero), and triggers (zeroes) now */ } else if (netif->dhcp->t1_timeout-- == 1) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_coarse_tmr(): t1 timeout\n")); /* this clients' renewal timeout triggered */ dhcp_t1_timeout(netif); } } /* proceed to next netif */ netif = netif->next; } } /** * DHCP transaction timeout handling * * A DHCP server is expected to respond within a short period of time. * This timer checks whether an outstanding DHCP request is timed out. * */ void dhcp_fine_tmr() { struct netif *netif = netif_list; /* loop through netif's */ while (netif != NULL) { /* only act on DHCP configured interfaces */ if (netif->dhcp != NULL) { /* timer is active (non zero), and is about to trigger now */ if (netif->dhcp->request_timeout > 1) { netif->dhcp->request_timeout--; } else if (netif->dhcp->request_timeout == 1) { netif->dhcp->request_timeout--; /* { netif->dhcp->request_timeout == 0 } */ LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_fine_tmr(): request timeout\n")); /* this clients' request timeout triggered */ dhcp_timeout(netif); } } /* proceed to next network interface */ netif = netif->next; } } /** * A DHCP negotiation transaction, or ARP request, has timed out. * * The timer that was started with the DHCP or ARP request has * timed out, indicating no response was received in time. * * @param netif the netif under DHCP control */ static void dhcp_timeout(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_timeout()\n")); /* back-off period has passed, or server selection timed out */ if ((dhcp->state == DHCP_BACKING_OFF) || (dhcp->state == DHCP_SELECTING)) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_timeout(): restarting discovery\n")); dhcp_discover(netif); /* receiving the requested lease timed out */ } else if (dhcp->state == DHCP_REQUESTING) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): REQUESTING, DHCP request timed out\n")); if (dhcp->tries <= 5) { dhcp_select(netif); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): REQUESTING, releasing, restarting\n")); dhcp_release(netif); dhcp_discover(netif); } /* received no ARP reply for the offered address (which is good) */ } else if (dhcp->state == DHCP_CHECKING) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): CHECKING, ARP request timed out\n")); if (dhcp->tries <= 1) { dhcp_check(netif); /* no ARP replies on the offered address, looks like the IP address is indeed free */ } else { /* bind the interface to the offered address */ dhcp_bind(netif); } } /* did not get response to renew request? */ else if (dhcp->state == DHCP_RENEWING) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): RENEWING, DHCP request timed out\n")); /* just retry renewal */ /* note that the rebind timer will eventually time-out if renew does not work */ dhcp_renew(netif); /* did not get response to rebind request? */ } else if (dhcp->state == DHCP_REBINDING) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): REBINDING, DHCP request timed out\n")); if (dhcp->tries <= 8) { dhcp_rebind(netif); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): RELEASING, DISCOVERING\n")); dhcp_release(netif); dhcp_discover(netif); } } } /** * The renewal period has timed out. * * @param netif the netif under DHCP control */ static void dhcp_t1_timeout(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_t1_timeout()\n")); if ((dhcp->state == DHCP_REQUESTING) || (dhcp->state == DHCP_BOUND) || (dhcp->state == DHCP_RENEWING)) { /* just retry to renew - note that the rebind timer (t2) will * eventually time-out if renew tries fail. */ LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_t1_timeout(): must renew\n")); dhcp_renew(netif); } } /** * The rebind period has timed out. * * @param netif the netif under DHCP control */ static void dhcp_t2_timeout(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_t2_timeout()\n")); if ((dhcp->state == DHCP_REQUESTING) || (dhcp->state == DHCP_BOUND) || (dhcp->state == DHCP_RENEWING)) { /* just retry to rebind */ LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_t2_timeout(): must rebind\n")); dhcp_rebind(netif); } } /** * Handle a DHCP ACK packet * * @param netif the netif under DHCP control */ static void dhcp_handle_ack(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; u8_t *option_ptr; /* clear options we might not get from the ACK */ dhcp->offered_sn_mask.addr = 0; dhcp->offered_gw_addr.addr = 0; dhcp->offered_bc_addr.addr = 0; /* lease time given? */ option_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_LEASE_TIME); if (option_ptr != NULL) { /* remember offered lease time */ dhcp->offered_t0_lease = dhcp_get_option_long(option_ptr + 2); } /* renewal period given? */ option_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_T1); if (option_ptr != NULL) { /* remember given renewal period */ dhcp->offered_t1_renew = dhcp_get_option_long(option_ptr + 2); } else { /* calculate safe periods for renewal */ dhcp->offered_t1_renew = dhcp->offered_t0_lease / 2; } /* renewal period given? */ option_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_T2); if (option_ptr != NULL) { /* remember given rebind period */ dhcp->offered_t2_rebind = dhcp_get_option_long(option_ptr + 2); } else { /* calculate safe periods for rebinding */ dhcp->offered_t2_rebind = dhcp->offered_t0_lease; } /* (y)our internet address */ ip_addr_set(&dhcp->offered_ip_addr, &dhcp->msg_in->yiaddr); /** * Patch #1308 * TODO: we must check if the file field is not overloaded by DHCP options! */ #if 0 /* boot server address */ ip_addr_set(&dhcp->offered_si_addr, &dhcp->msg_in->siaddr); /* boot file name */ if (dhcp->msg_in->file[0]) { dhcp->boot_file_name = mem_malloc(strlen(dhcp->msg_in->file) + 1); strcpy(dhcp->boot_file_name, dhcp->msg_in->file); } #endif /* subnet mask */ option_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_SUBNET_MASK); /* subnet mask given? */ if (option_ptr != NULL) { dhcp->offered_sn_mask.addr = htonl(dhcp_get_option_long(&option_ptr[2])); } /* gateway router */ option_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_ROUTER); if (option_ptr != NULL) { dhcp->offered_gw_addr.addr = htonl(dhcp_get_option_long(&option_ptr[2])); } /* broadcast address */ option_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_BROADCAST); if (option_ptr != NULL) { dhcp->offered_bc_addr.addr = htonl(dhcp_get_option_long(&option_ptr[2])); } /* DNS servers */ option_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_DNS_SERVER); if (option_ptr != NULL) { u8_t n; dhcp->dns_count = dhcp_get_option_byte(&option_ptr[1]) / (u32_t)sizeof(struct ip_addr); /* limit to at most DHCP_MAX_DNS DNS servers */ if (dhcp->dns_count > DHCP_MAX_DNS) dhcp->dns_count = DHCP_MAX_DNS; for (n = 0; n < dhcp->dns_count; n++) { dhcp->offered_dns_addr[n].addr = htonl(dhcp_get_option_long(&option_ptr[2 + n * 4])); #if LWIP_DNS dns_setserver( n, (struct ip_addr *)(&(dhcp->offered_dns_addr[n].addr))); #endif /* LWIP_DNS */ } #if LWIP_DNS dns_setserver( n, (struct ip_addr *)(&ip_addr_any)); #endif /* LWIP_DNS */ } } /** * Start DHCP negotiation for a network interface. * * If no DHCP client instance was attached to this interface, * a new client is created first. If a DHCP client instance * was already present, it restarts negotiation. * * @param netif The lwIP network interface * @return lwIP error code * - ERR_OK - No error * - ERR_MEM - Out of memory */ err_t dhcp_start(struct netif *netif) { struct dhcp *dhcp; err_t result = ERR_OK; LWIP_ERROR("netif != NULL", (netif != NULL), return ERR_ARG;); dhcp = netif->dhcp; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_start(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num)); netif->flags &= ~NETIF_FLAG_DHCP; /* no DHCP client attached yet? */ if (dhcp == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): starting new DHCP client\n")); dhcp = mem_malloc(sizeof(struct dhcp)); if (dhcp == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): could not allocate dhcp\n")); return ERR_MEM; } /* store this dhcp client in the netif */ netif->dhcp = dhcp; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): allocated dhcp")); /* already has DHCP client attached */ } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE | 3, ("dhcp_start(): restarting DHCP configuration\n")); } /* clear data structure */ memset(dhcp, 0, sizeof(struct dhcp)); /* allocate UDP PCB */ dhcp->pcb = udp_new(); if (dhcp->pcb == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): could not obtain pcb\n")); mem_free((void *)dhcp); netif->dhcp = dhcp = NULL; return ERR_MEM; } /* set up local and remote port for the pcb */ udp_bind(dhcp->pcb, IP_ADDR_ANY, DHCP_CLIENT_PORT); udp_connect(dhcp->pcb, IP_ADDR_ANY, DHCP_SERVER_PORT); /* set up the recv callback and argument */ udp_recv(dhcp->pcb, dhcp_recv, netif); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): starting DHCP configuration\n")); /* (re)start the DHCP negotiation */ result = dhcp_discover(netif); if (result != ERR_OK) { /* free resources allocated above */ dhcp_stop(netif); return ERR_MEM; } netif->flags |= NETIF_FLAG_DHCP; return result; } /** * Inform a DHCP server of our manual configuration. * * This informs DHCP servers of our fixed IP address configuration * by sending an INFORM message. It does not involve DHCP address * configuration, it is just here to be nice to the network. * * @param netif The lwIP network interface */ void dhcp_inform(struct netif *netif) { struct dhcp *dhcp, *old_dhcp = netif->dhcp; err_t result = ERR_OK; dhcp = mem_malloc(sizeof(struct dhcp)); if (dhcp == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_inform(): could not allocate dhcp\n")); return; } netif->dhcp = dhcp; memset(dhcp, 0, sizeof(struct dhcp)); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_inform(): allocated dhcp\n")); dhcp->pcb = udp_new(); if (dhcp->pcb == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_inform(): could not obtain pcb")); mem_free((void *)dhcp); return; } LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_inform(): created new udp pcb\n")); /* create and initialize the DHCP message header */ result = dhcp_create_request(netif); if (result == ERR_OK) { dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN); dhcp_option_byte(dhcp, DHCP_INFORM); dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN); /* TODO: use netif->mtu ?! */ dhcp_option_short(dhcp, 576); dhcp_option_trailer(dhcp); pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len); udp_bind(dhcp->pcb, IP_ADDR_ANY, DHCP_CLIENT_PORT); udp_connect(dhcp->pcb, IP_ADDR_BROADCAST, DHCP_SERVER_PORT); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_inform: INFORMING\n")); udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif); udp_connect(dhcp->pcb, IP_ADDR_ANY, DHCP_SERVER_PORT); dhcp_delete_request(netif); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_inform: could not allocate DHCP request\n")); } if (dhcp != NULL) { if (dhcp->pcb != NULL) { udp_remove(dhcp->pcb); } dhcp->pcb = NULL; mem_free((void *)dhcp); netif->dhcp = old_dhcp; } } #if DHCP_DOES_ARP_CHECK /** * Match an ARP reply with the offered IP address. * * @param netif the network interface on which the reply was received * @param addr The IP address we received a reply from */ void dhcp_arp_reply(struct netif *netif, struct ip_addr *addr) { LWIP_ERROR("netif != NULL", (netif != NULL), return;); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_arp_reply()\n")); /* is a DHCP client doing an ARP check? */ if ((netif->dhcp != NULL) && (netif->dhcp->state == DHCP_CHECKING)) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_arp_reply(): CHECKING, arp reply for 0x%08"X32_F"\n", addr->addr)); /* did a host respond with the address we were offered by the DHCP server? */ if (ip_addr_cmp(addr, &netif->dhcp->offered_ip_addr)) { /* we will not accept the offered address */ LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE | 1, ("dhcp_arp_reply(): arp reply matched with offered address, declining\n")); dhcp_decline(netif); } } } /** * Decline an offered lease. * * Tell the DHCP server we do not accept the offered address. * One reason to decline the lease is when we find out the address * is already in use by another host (through ARP). * * @param netif the netif under DHCP control */ static err_t dhcp_decline(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; err_t result = ERR_OK; u16_t msecs; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_decline()\n")); dhcp_set_state(dhcp, DHCP_BACKING_OFF); /* create and initialize the DHCP message header */ result = dhcp_create_request(netif); if (result == ERR_OK) { dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN); dhcp_option_byte(dhcp, DHCP_DECLINE); dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN); dhcp_option_short(dhcp, 576); dhcp_option(dhcp, DHCP_OPTION_REQUESTED_IP, 4); dhcp_option_long(dhcp, ntohl(dhcp->offered_ip_addr.addr)); dhcp_option_trailer(dhcp); /* resize pbuf to reflect true size of options */ pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len); /* @todo: should we really connect here? we are performing sendto() */ udp_connect(dhcp->pcb, IP_ADDR_ANY, DHCP_SERVER_PORT); /* per section 4.4.4, broadcast DECLINE messages */ udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif); dhcp_delete_request(netif); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_decline: BACKING OFF\n")); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_decline: could not allocate DHCP request\n")); } dhcp->tries++; msecs = 10*1000; dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_decline(): set request timeout %"U16_F" msecs\n", msecs)); return result; } #endif /** * Start the DHCP process, discover a DHCP server. * * @param netif the netif under DHCP control */ static err_t dhcp_discover(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; err_t result = ERR_OK; u16_t msecs; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_discover()\n")); ip_addr_set(&dhcp->offered_ip_addr, IP_ADDR_ANY); /* create and initialize the DHCP message header */ result = dhcp_create_request(netif); if (result == ERR_OK) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover: making request\n")); dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN); dhcp_option_byte(dhcp, DHCP_DISCOVER); dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN); dhcp_option_short(dhcp, 576); dhcp_option(dhcp, DHCP_OPTION_PARAMETER_REQUEST_LIST, 4/*num options*/); dhcp_option_byte(dhcp, DHCP_OPTION_SUBNET_MASK); dhcp_option_byte(dhcp, DHCP_OPTION_ROUTER); dhcp_option_byte(dhcp, DHCP_OPTION_BROADCAST); dhcp_option_byte(dhcp, DHCP_OPTION_DNS_SERVER); dhcp_option_trailer(dhcp); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover: realloc()ing\n")); pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len); udp_connect(dhcp->pcb, IP_ADDR_ANY, DHCP_SERVER_PORT); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover: sendto(DISCOVER, IP_ADDR_BROADCAST, DHCP_SERVER_PORT)\n")); udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover: deleting()ing\n")); dhcp_delete_request(netif); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_discover: SELECTING\n")); dhcp_set_state(dhcp, DHCP_SELECTING); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_discover: could not allocate DHCP request\n")); } dhcp->tries++; #if LWIP_DHCP_AUTOIP_COOP /* that means we waited 57 seconds */ if(dhcp->tries >= 9 && dhcp->autoip_coop_state == DHCP_AUTOIP_COOP_STATE_OFF) { dhcp->autoip_coop_state = DHCP_AUTOIP_COOP_STATE_ON; autoip_start(netif); } #endif /* LWIP_DHCP_AUTOIP_COOP */ msecs = dhcp->tries < 4 ? (dhcp->tries + 1) * 1000 : 10 * 1000; dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_discover(): set request timeout %"U16_F" msecs\n", msecs)); return result; } /** * Bind the interface to the offered IP address. * * @param netif network interface to bind to the offered address */ static void dhcp_bind(struct netif *netif) { u32_t timeout; struct dhcp *dhcp; struct ip_addr sn_mask, gw_addr; LWIP_ERROR("dhcp_bind: netif != NULL", (netif != NULL), return;); dhcp = netif->dhcp; LWIP_ERROR("dhcp_bind: dhcp != NULL", (dhcp != NULL), return;); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_bind(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num)); /* temporary DHCP lease? */ if (dhcp->offered_t1_renew != 0xffffffffUL) { /* set renewal period timer */ LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_bind(): t1 renewal timer %"U32_F" secs\n", dhcp->offered_t1_renew)); timeout = (dhcp->offered_t1_renew + DHCP_COARSE_TIMER_SECS / 2) / DHCP_COARSE_TIMER_SECS; if(timeout > 0xffff) { timeout = 0xffff; } dhcp->t1_timeout = (u16_t)timeout; if (dhcp->t1_timeout == 0) { dhcp->t1_timeout = 1; } LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_bind(): set request timeout %"U32_F" msecs\n", dhcp->offered_t1_renew*1000)); } /* set renewal period timer */ if (dhcp->offered_t2_rebind != 0xffffffffUL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_bind(): t2 rebind timer %"U32_F" secs\n", dhcp->offered_t2_rebind)); timeout = (dhcp->offered_t2_rebind + DHCP_COARSE_TIMER_SECS / 2) / DHCP_COARSE_TIMER_SECS; if(timeout > 0xffff) { timeout = 0xffff; } dhcp->t2_timeout = (u16_t)timeout; if (dhcp->t2_timeout == 0) { dhcp->t2_timeout = 1; } LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_bind(): set request timeout %"U32_F" msecs\n", dhcp->offered_t2_rebind*1000)); } /* copy offered network mask */ ip_addr_set(&sn_mask, &dhcp->offered_sn_mask); /* subnet mask not given? */ /* TODO: this is not a valid check. what if the network mask is 0? */ if (sn_mask.addr == 0) { /* choose a safe subnet mask given the network class */ u8_t first_octet = ip4_addr1(&sn_mask); if (first_octet <= 127) { sn_mask.addr = htonl(0xff000000); } else if (first_octet >= 192) { sn_mask.addr = htonl(0xffffff00); } else { sn_mask.addr = htonl(0xffff0000); } } ip_addr_set(&gw_addr, &dhcp->offered_gw_addr); /* gateway address not given? */ if (gw_addr.addr == 0) { /* copy network address */ gw_addr.addr = (dhcp->offered_ip_addr.addr & sn_mask.addr); /* use first host address on network as gateway */ gw_addr.addr |= htonl(0x00000001); } LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_bind(): IP: 0x%08"X32_F"\n", dhcp->offered_ip_addr.addr)); netif_set_ipaddr(netif, &dhcp->offered_ip_addr); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_bind(): SN: 0x%08"X32_F"\n", sn_mask.addr)); netif_set_netmask(netif, &sn_mask); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_bind(): GW: 0x%08"X32_F"\n", gw_addr.addr)); netif_set_gw(netif, &gw_addr); /* bring the interface up */ netif_set_up(netif); /* netif is now bound to DHCP leased address */ dhcp_set_state(dhcp, DHCP_BOUND); } /** * Renew an existing DHCP lease at the involved DHCP server. * * @param netif network interface which must renew its lease */ err_t dhcp_renew(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; err_t result; u16_t msecs; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_renew()\n")); dhcp_set_state(dhcp, DHCP_RENEWING); /* create and initialize the DHCP message header */ result = dhcp_create_request(netif); if (result == ERR_OK) { dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN); dhcp_option_byte(dhcp, DHCP_REQUEST); dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN); /* TODO: use netif->mtu in some way */ dhcp_option_short(dhcp, 576); #if 0 dhcp_option(dhcp, DHCP_OPTION_REQUESTED_IP, 4); dhcp_option_long(dhcp, ntohl(dhcp->offered_ip_addr.addr)); #endif #if 0 dhcp_option(dhcp, DHCP_OPTION_SERVER_ID, 4); dhcp_option_long(dhcp, ntohl(dhcp->server_ip_addr.addr)); #endif /* append DHCP message trailer */ dhcp_option_trailer(dhcp); pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len); udp_connect(dhcp->pcb, &dhcp->server_ip_addr, DHCP_SERVER_PORT); udp_sendto_if(dhcp->pcb, dhcp->p_out, &dhcp->server_ip_addr, DHCP_SERVER_PORT, netif); dhcp_delete_request(netif); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_renew: RENEWING\n")); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_renew: could not allocate DHCP request\n")); } dhcp->tries++; /* back-off on retries, but to a maximum of 20 seconds */ msecs = dhcp->tries < 10 ? dhcp->tries * 2000 : 20 * 1000; dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_renew(): set request timeout %"U16_F" msecs\n", msecs)); return result; } /** * Rebind with a DHCP server for an existing DHCP lease. * * @param netif network interface which must rebind with a DHCP server */ static err_t dhcp_rebind(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; err_t result; u16_t msecs; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_rebind()\n")); dhcp_set_state(dhcp, DHCP_REBINDING); /* create and initialize the DHCP message header */ result = dhcp_create_request(netif); if (result == ERR_OK) { dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN); dhcp_option_byte(dhcp, DHCP_REQUEST); dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN); dhcp_option_short(dhcp, 576); #if 0 dhcp_option(dhcp, DHCP_OPTION_REQUESTED_IP, 4); dhcp_option_long(dhcp, ntohl(dhcp->offered_ip_addr.addr)); dhcp_option(dhcp, DHCP_OPTION_SERVER_ID, 4); dhcp_option_long(dhcp, ntohl(dhcp->server_ip_addr.addr)); #endif dhcp_option_trailer(dhcp); pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len); /* broadcast to server */ udp_connect(dhcp->pcb, IP_ADDR_ANY, DHCP_SERVER_PORT); udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif); dhcp_delete_request(netif); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_rebind: REBINDING\n")); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_rebind: could not allocate DHCP request\n")); } dhcp->tries++; msecs = dhcp->tries < 10 ? dhcp->tries * 1000 : 10 * 1000; dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_rebind(): set request timeout %"U16_F" msecs\n", msecs)); return result; } /** * Release a DHCP lease. * * @param netif network interface which must release its lease */ err_t dhcp_release(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; err_t result; u16_t msecs; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_release()\n")); /* idle DHCP client */ dhcp_set_state(dhcp, DHCP_OFF); /* clean old DHCP offer */ dhcp->server_ip_addr.addr = 0; dhcp->offered_ip_addr.addr = dhcp->offered_sn_mask.addr = 0; dhcp->offered_gw_addr.addr = dhcp->offered_bc_addr.addr = 0; dhcp->offered_t0_lease = dhcp->offered_t1_renew = dhcp->offered_t2_rebind = 0; dhcp->dns_count = 0; /* create and initialize the DHCP message header */ result = dhcp_create_request(netif); if (result == ERR_OK) { dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN); dhcp_option_byte(dhcp, DHCP_RELEASE); dhcp_option_trailer(dhcp); pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len); udp_connect(dhcp->pcb, &dhcp->server_ip_addr, DHCP_SERVER_PORT); udp_sendto_if(dhcp->pcb, dhcp->p_out, &dhcp->server_ip_addr, DHCP_SERVER_PORT, netif); dhcp_delete_request(netif); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_release: RELEASED, DHCP_OFF\n")); } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_release: could not allocate DHCP request\n")); } dhcp->tries++; msecs = dhcp->tries < 10 ? dhcp->tries * 1000 : 10 * 1000; dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_release(): set request timeout %"U16_F" msecs\n", msecs)); /* bring the interface down */ netif_set_down(netif); /* remove IP address from interface */ netif_set_ipaddr(netif, IP_ADDR_ANY); netif_set_gw(netif, IP_ADDR_ANY); netif_set_netmask(netif, IP_ADDR_ANY); /* TODO: netif_down(netif); */ return result; } /** * Remove the DHCP client from the interface. * * @param netif The network interface to stop DHCP on */ void dhcp_stop(struct netif *netif) { struct dhcp *dhcp = netif->dhcp; LWIP_ERROR("dhcp_stop: netif != NULL", (netif != NULL), return;); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_stop()\n")); /* netif is DHCP configured? */ if (dhcp != NULL) { if (dhcp->pcb != NULL) { udp_remove(dhcp->pcb); dhcp->pcb = NULL; } if (dhcp->p != NULL) { pbuf_free(dhcp->p); dhcp->p = NULL; } /* free unfolded reply */ dhcp_free_reply(dhcp); mem_free((void *)dhcp); netif->dhcp = NULL; } } /* * Set the DHCP state of a DHCP client. * * If the state changed, reset the number of tries. * * TODO: we might also want to reset the timeout here? */ static void dhcp_set_state(struct dhcp *dhcp, u8_t new_state) { if (new_state != dhcp->state) { dhcp->state = new_state; dhcp->tries = 0; } } /* * Concatenate an option type and length field to the outgoing * DHCP message. * */ static void dhcp_option(struct dhcp *dhcp, u8_t option_type, u8_t option_len) { LWIP_ASSERT("dhcp_option: dhcp->options_out_len + 2 + option_len <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 2U + option_len <= DHCP_OPTIONS_LEN); dhcp->msg_out->options[dhcp->options_out_len++] = option_type; dhcp->msg_out->options[dhcp->options_out_len++] = option_len; } /* * Concatenate a single byte to the outgoing DHCP message. * */ static void dhcp_option_byte(struct dhcp *dhcp, u8_t value) { LWIP_ASSERT("dhcp_option_byte: dhcp->options_out_len < DHCP_OPTIONS_LEN", dhcp->options_out_len < DHCP_OPTIONS_LEN); dhcp->msg_out->options[dhcp->options_out_len++] = value; } static void dhcp_option_short(struct dhcp *dhcp, u16_t value) { LWIP_ASSERT("dhcp_option_short: dhcp->options_out_len + 2 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 2U <= DHCP_OPTIONS_LEN); dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff00U) >> 8); dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t) (value & 0x00ffU); } static void dhcp_option_long(struct dhcp *dhcp, u32_t value) { LWIP_ASSERT("dhcp_option_long: dhcp->options_out_len + 4 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 4U <= DHCP_OPTIONS_LEN); dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff000000UL) >> 24); dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x00ff0000UL) >> 16); dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x0000ff00UL) >> 8); dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x000000ffUL)); } /** * Extract the DHCP message and the DHCP options. * * Extract the DHCP message and the DHCP options, each into a contiguous * piece of memory. As a DHCP message is variable sized by its options, * and also allows overriding some fields for options, the easy approach * is to first unfold the options into a conitguous piece of memory, and * use that further on. * */ static err_t dhcp_unfold_reply(struct dhcp *dhcp) { u16_t ret; LWIP_ERROR("dhcp != NULL", (dhcp != NULL), return ERR_ARG;); LWIP_ERROR("dhcp->p != NULL", (dhcp->p != NULL), return ERR_VAL;); /* free any left-overs from previous unfolds */ dhcp_free_reply(dhcp); /* options present? */ if (dhcp->p->tot_len > (sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN)) { dhcp->options_in_len = dhcp->p->tot_len - (sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN); dhcp->options_in = mem_malloc(dhcp->options_in_len); if (dhcp->options_in == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_unfold_reply(): could not allocate dhcp->options\n")); return ERR_MEM; } } dhcp->msg_in = mem_malloc(sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN); if (dhcp->msg_in == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_unfold_reply(): could not allocate dhcp->msg_in\n")); mem_free((void *)dhcp->options_in); dhcp->options_in = NULL; return ERR_MEM; } /** copy the DHCP message without options */ ret = pbuf_copy_partial(dhcp->p, dhcp->msg_in, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN, 0); LWIP_ASSERT("ret == sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN", ret == sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_unfold_reply(): copied %"U16_F" bytes into dhcp->msg_in[]\n", sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN)); if (dhcp->options_in != NULL) { /** copy the DHCP options */ ret = pbuf_copy_partial(dhcp->p, dhcp->options_in, dhcp->options_in_len, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN); LWIP_ASSERT("ret == dhcp->options_in_len", ret == dhcp->options_in_len); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_unfold_reply(): copied %"U16_F" bytes to dhcp->options_in[]\n", dhcp->options_in_len)); } LWIP_UNUSED_ARG(ret); return ERR_OK; } /** * Free the incoming DHCP message including contiguous copy of * its DHCP options. * */ static void dhcp_free_reply(struct dhcp *dhcp) { if (dhcp->msg_in != NULL) { mem_free((void *)dhcp->msg_in); dhcp->msg_in = NULL; } if (dhcp->options_in) { mem_free((void *)dhcp->options_in); dhcp->options_in = NULL; dhcp->options_in_len = 0; } LWIP_DEBUGF(DHCP_DEBUG, ("dhcp_free_reply(): free'd\n")); } /** * If an incoming DHCP message is in response to us, then trigger the state machine */ static void dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, struct ip_addr *addr, u16_t port) { struct netif *netif = (struct netif *)arg; struct dhcp *dhcp = netif->dhcp; struct dhcp_msg *reply_msg = (struct dhcp_msg *)p->payload; u8_t *options_ptr; u8_t msg_type; u8_t i; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 3, ("dhcp_recv(pbuf = %p) from DHCP server %"U16_F".%"U16_F".%"U16_F".%"U16_F" port %"U16_F"\n", (void*)p, (u16_t)(ntohl(addr->addr) >> 24 & 0xff), (u16_t)(ntohl(addr->addr) >> 16 & 0xff), (u16_t)(ntohl(addr->addr) >> 8 & 0xff), (u16_t)(ntohl(addr->addr) & 0xff), port)); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("pbuf->len = %"U16_F"\n", p->len)); LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("pbuf->tot_len = %"U16_F"\n", p->tot_len)); /* prevent warnings about unused arguments */ LWIP_UNUSED_ARG(pcb); LWIP_UNUSED_ARG(addr); LWIP_UNUSED_ARG(port); dhcp->p = p; /* TODO: check packet length before reading them */ if (reply_msg->op != DHCP_BOOTREPLY) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 1, ("not a DHCP reply message, but type %"U16_F"\n", (u16_t)reply_msg->op)); goto free_pbuf_and_return; } /* iterate through hardware address and match against DHCP message */ for (i = 0; i < netif->hwaddr_len; i++) { if (netif->hwaddr[i] != reply_msg->chaddr[i]) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("netif->hwaddr[%"U16_F"]==%02"X16_F" != reply_msg->chaddr[%"U16_F"]==%02"X16_F"\n", (u16_t)i, (u16_t)netif->hwaddr[i], (u16_t)i, (u16_t)reply_msg->chaddr[i])); goto free_pbuf_and_return; } } /* match transaction ID against what we expected */ if (ntohl(reply_msg->xid) != dhcp->xid) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("transaction id mismatch reply_msg->xid(%"X32_F")!=dhcp->xid(%"X32_F")\n",ntohl(reply_msg->xid),dhcp->xid)); goto free_pbuf_and_return; } /* option fields could be unfold? */ if (dhcp_unfold_reply(dhcp) != ERR_OK) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("problem unfolding DHCP message - too short on memory?\n")); goto free_pbuf_and_return; } LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("searching DHCP_OPTION_MESSAGE_TYPE\n")); /* obtain pointer to DHCP message type */ options_ptr = dhcp_get_option_ptr(dhcp, DHCP_OPTION_MESSAGE_TYPE); if (options_ptr == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 1, ("DHCP_OPTION_MESSAGE_TYPE option not found\n")); goto free_pbuf_and_return; } /* read DHCP message type */ msg_type = dhcp_get_option_byte(options_ptr + 2); /* message type is DHCP ACK? */ if (msg_type == DHCP_ACK) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 1, ("DHCP_ACK received\n")); /* in requesting state? */ if (dhcp->state == DHCP_REQUESTING) { dhcp_handle_ack(netif); dhcp->request_timeout = 0; #if DHCP_DOES_ARP_CHECK /* check if the acknowledged lease address is already in use */ dhcp_check(netif); #else /* bind interface to the acknowledged lease address */ dhcp_bind(netif); #endif } /* already bound to the given lease address? */ else if ((dhcp->state == DHCP_REBOOTING) || (dhcp->state == DHCP_REBINDING) || (dhcp->state == DHCP_RENEWING)) { dhcp->request_timeout = 0; dhcp_bind(netif); } } /* received a DHCP_NAK in appropriate state? */ else if ((msg_type == DHCP_NAK) && ((dhcp->state == DHCP_REBOOTING) || (dhcp->state == DHCP_REQUESTING) || (dhcp->state == DHCP_REBINDING) || (dhcp->state == DHCP_RENEWING ))) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 1, ("DHCP_NAK received\n")); dhcp->request_timeout = 0; dhcp_handle_nak(netif); } /* received a DHCP_OFFER in DHCP_SELECTING state? */ else if ((msg_type == DHCP_OFFER) && (dhcp->state == DHCP_SELECTING)) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 1, ("DHCP_OFFER received in DHCP_SELECTING state\n")); dhcp->request_timeout = 0; /* remember offered lease */ dhcp_handle_offer(netif); } free_pbuf_and_return: pbuf_free(p); dhcp->p = NULL; } /** * Create a DHCP request, fill in common headers * * @param netif the netif under DHCP control */ static err_t dhcp_create_request(struct netif *netif) { struct dhcp *dhcp; u16_t i; LWIP_ERROR("dhcp_create_request: netif != NULL", (netif != NULL), return ERR_ARG;); dhcp = netif->dhcp; LWIP_ERROR("dhcp_create_request: dhcp != NULL", (dhcp != NULL), return ERR_VAL;); LWIP_ASSERT("dhcp_create_request: dhcp->p_out == NULL", dhcp->p_out == NULL); LWIP_ASSERT("dhcp_create_request: dhcp->msg_out == NULL", dhcp->msg_out == NULL); dhcp->p_out = pbuf_alloc(PBUF_TRANSPORT, sizeof(struct dhcp_msg), PBUF_RAM); if (dhcp->p_out == NULL) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("dhcp_create_request(): could not allocate pbuf\n")); return ERR_MEM; } LWIP_ASSERT("dhcp_create_request: check that first pbuf can hold struct dhcp_msg", (dhcp->p_out->len >= sizeof(struct dhcp_msg))); /* give unique transaction identifier to this request */ dhcp->xid = xid++; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("transaction id xid++(%"X32_F") dhcp->xid(%"U32_F")\n",xid,dhcp->xid)); dhcp->msg_out = (struct dhcp_msg *)dhcp->p_out->payload; dhcp->msg_out->op = DHCP_BOOTREQUEST; /* TODO: make link layer independent */ dhcp->msg_out->htype = DHCP_HTYPE_ETH; /* TODO: make link layer independent */ dhcp->msg_out->hlen = DHCP_HLEN_ETH; dhcp->msg_out->hops = 0; dhcp->msg_out->xid = htonl(dhcp->xid); dhcp->msg_out->secs = 0; dhcp->msg_out->flags = 0; dhcp->msg_out->ciaddr.addr = netif->ip_addr.addr; dhcp->msg_out->yiaddr.addr = 0; dhcp->msg_out->siaddr.addr = 0; dhcp->msg_out->giaddr.addr = 0; for (i = 0; i < DHCP_CHADDR_LEN; i++) { /* copy netif hardware address, pad with zeroes */ dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/; } for (i = 0; i < DHCP_SNAME_LEN; i++) { dhcp->msg_out->sname[i] = 0; } for (i = 0; i < DHCP_FILE_LEN; i++) { dhcp->msg_out->file[i] = 0; } dhcp->msg_out->cookie = htonl(0x63825363UL); dhcp->options_out_len = 0; /* fill options field with an incrementing array (for debugging purposes) */ for (i = 0; i < DHCP_OPTIONS_LEN; i++) { dhcp->msg_out->options[i] = (u8_t)i; /* for debugging only, no matter if truncated */ } return ERR_OK; } /** * Free previously allocated memory used to send a DHCP request. * * @param netif the netif under DHCP control */ static void dhcp_delete_request(struct netif *netif) { struct dhcp *dhcp; LWIP_ERROR("dhcp_delete_request: netif != NULL", (netif != NULL), return;); dhcp = netif->dhcp; LWIP_ERROR("dhcp_delete_request: dhcp != NULL", (dhcp != NULL), return;); LWIP_ASSERT("dhcp_delete_request: dhcp->p_out != NULL", dhcp->p_out != NULL); LWIP_ASSERT("dhcp_delete_request: dhcp->msg_out != NULL", dhcp->msg_out != NULL); if (dhcp->p_out != NULL) { pbuf_free(dhcp->p_out); } dhcp->p_out = NULL; dhcp->msg_out = NULL; } /** * Add a DHCP message trailer * * Adds the END option to the DHCP message, and if * necessary, up to three padding bytes. * * @param dhcp DHCP state structure */ static void dhcp_option_trailer(struct dhcp *dhcp) { LWIP_ERROR("dhcp_option_trailer: dhcp != NULL", (dhcp != NULL), return;); LWIP_ASSERT("dhcp_option_trailer: dhcp->msg_out != NULL\n", dhcp->msg_out != NULL); LWIP_ASSERT("dhcp_option_trailer: dhcp->options_out_len < DHCP_OPTIONS_LEN\n", dhcp->options_out_len < DHCP_OPTIONS_LEN); dhcp->msg_out->options[dhcp->options_out_len++] = DHCP_OPTION_END; /* packet is too small, or not 4 byte aligned? */ while ((dhcp->options_out_len < DHCP_MIN_OPTIONS_LEN) || (dhcp->options_out_len & 3)) { /* LWIP_DEBUGF(DHCP_DEBUG,("dhcp_option_trailer:dhcp->options_out_len=%"U16_F", DHCP_OPTIONS_LEN=%"U16_F, dhcp->options_out_len, DHCP_OPTIONS_LEN)); */ LWIP_ASSERT("dhcp_option_trailer: dhcp->options_out_len < DHCP_OPTIONS_LEN\n", dhcp->options_out_len < DHCP_OPTIONS_LEN); /* add a fill/padding byte */ dhcp->msg_out->options[dhcp->options_out_len++] = 0; } } /** * Find the offset of a DHCP option inside the DHCP message. * * @param dhcp DHCP client * @param option_type * * @return a byte offset into the UDP message where the option was found, or * zero if the given option was not found. */ static u8_t *dhcp_get_option_ptr(struct dhcp *dhcp, u8_t option_type) { u8_t overload = DHCP_OVERLOAD_NONE; /* options available? */ if ((dhcp->options_in != NULL) && (dhcp->options_in_len > 0)) { /* start with options field */ u8_t *options = (u8_t *)dhcp->options_in; u16_t offset = 0; /* at least 1 byte to read and no end marker, then at least 3 bytes to read? */ while ((offset < dhcp->options_in_len) && (options[offset] != DHCP_OPTION_END)) { /* LWIP_DEBUGF(DHCP_DEBUG, ("msg_offset=%"U16_F", q->len=%"U16_F, msg_offset, q->len)); */ /* are the sname and/or file field overloaded with options? */ if (options[offset] == DHCP_OPTION_OVERLOAD) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 2, ("overloaded message detected\n")); /* skip option type and length */ offset += 2; overload = options[offset++]; } /* requested option found */ else if (options[offset] == option_type) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("option found at offset %"U16_F" in options\n", offset)); return &options[offset]; /* skip option */ } else { LWIP_DEBUGF(DHCP_DEBUG, ("skipping option %"U16_F" in options\n", options[offset])); /* skip option type */ offset++; /* skip option length, and then length bytes */ offset += 1 + options[offset]; } } /* is this an overloaded message? */ if (overload != DHCP_OVERLOAD_NONE) { u16_t field_len; if (overload == DHCP_OVERLOAD_FILE) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 1, ("overloaded file field\n")); options = (u8_t *)&dhcp->msg_in->file; field_len = DHCP_FILE_LEN; } else if (overload == DHCP_OVERLOAD_SNAME) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 1, ("overloaded sname field\n")); options = (u8_t *)&dhcp->msg_in->sname; field_len = DHCP_SNAME_LEN; /* TODO: check if else if () is necessary */ } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | 1, ("overloaded sname and file field\n")); options = (u8_t *)&dhcp->msg_in->sname; field_len = DHCP_FILE_LEN + DHCP_SNAME_LEN; } offset = 0; /* at least 1 byte to read and no end marker */ while ((offset < field_len) && (options[offset] != DHCP_OPTION_END)) { if (options[offset] == option_type) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("option found at offset=%"U16_F"\n", offset)); return &options[offset]; /* skip option */ } else { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("skipping option %"U16_F"\n", options[offset])); /* skip option type */ offset++; offset += 1 + options[offset]; } } } } return NULL; } /** * Return the byte of DHCP option data. * * @param client DHCP client. * @param ptr pointer obtained by dhcp_get_option_ptr(). * * @return byte value at the given address. */ static u8_t dhcp_get_option_byte(u8_t *ptr) { LWIP_DEBUGF(DHCP_DEBUG, ("option byte value=%"U16_F"\n", (u16_t)(*ptr))); return *ptr; } #if 0 /* currently unused */ /** * Return the 16-bit value of DHCP option data. * * @param client DHCP client. * @param ptr pointer obtained by dhcp_get_option_ptr(). * * @return byte value at the given address. */ static u16_t dhcp_get_option_short(u8_t *ptr) { u16_t value; value = *ptr++ << 8; value |= *ptr; LWIP_DEBUGF(DHCP_DEBUG, ("option short value=%"U16_F"\n", value)); return value; } #endif /** * Return the 32-bit value of DHCP option data. * * @param client DHCP client. * @param ptr pointer obtained by dhcp_get_option_ptr(). * * @return byte value at the given address. */ static u32_t dhcp_get_option_long(u8_t *ptr) { u32_t value; value = (u32_t)(*ptr++) << 24; value |= (u32_t)(*ptr++) << 16; value |= (u32_t)(*ptr++) << 8; value |= (u32_t)(*ptr++); LWIP_DEBUGF(DHCP_DEBUG, ("option long value=%"U32_F"\n", value)); return value; } #endif /* LWIP_DHCP */