/** * @file * * @defgroup dhcp6 DHCPv6 * @ingroup ip6 * DHCPv6 client: IPv6 address autoconfiguration as per * RFC 3315 (stateful DHCPv6) and * RFC 3736 (stateless DHCPv6). * * For now, only stateless DHCPv6 is implemented! * * TODO: * - enable/disable API to not always start when RA is received * - stateful DHCPv6 (for now, only stateless DHCPv6 for DNS and NTP servers works) * - create Client Identifier? * - only start requests if a valid local address is available on the netif * - only start information requests if required (not for every RA) * * dhcp6_enable_stateful() enables stateful DHCPv6 for a netif (stateless disabled)
* dhcp6_enable_stateless() enables stateless DHCPv6 for a netif (stateful disabled)
* dhcp6_disable() disable DHCPv6 for a netif * * When enabled, requests are only issued after receipt of RA with the * corresponding bits set. */ /* * Copyright (c) 2018 Simon Goldschmidt * 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 part of the lwIP TCP/IP stack. * * Author: Simon Goldschmidt */ #include "lwip/opt.h" #if LWIP_IPV6 && LWIP_IPV6_DHCP6 /* don't build if not configured for use in lwipopts.h */ #include "lwip/dhcp6.h" #include "lwip/prot/dhcp6.h" #include "lwip/def.h" #include "lwip/udp.h" #include "lwip/dns.h" #include #ifdef LWIP_HOOK_FILENAME #include LWIP_HOOK_FILENAME #endif #ifndef LWIP_HOOK_DHCP6_APPEND_OPTIONS #define LWIP_HOOK_DHCP6_APPEND_OPTIONS(netif, dhcp6, state, msg, msg_type, options_len_ptr, max_len) #endif #ifndef LWIP_HOOK_DHCP6_PARSE_OPTION #define LWIP_HOOK_DHCP6_PARSE_OPTION(netif, dhcp6, state, msg, msg_type, option, len, pbuf, offset) do { LWIP_UNUSED_ARG(msg); } while(0) #endif #if LWIP_DNS && LWIP_DHCP6_MAX_DNS_SERVERS #if DNS_MAX_SERVERS > LWIP_DHCP6_MAX_DNS_SERVERS #define LWIP_DHCP6_PROVIDE_DNS_SERVERS LWIP_DHCP6_MAX_DNS_SERVERS #else #define LWIP_DHCP6_PROVIDE_DNS_SERVERS DNS_MAX_SERVERS #endif #else #define LWIP_DHCP6_PROVIDE_DNS_SERVERS 0 #endif /** Option handling: options are parsed in dhcp6_parse_reply * and saved in an array where other functions can load them from. * This might be moved into the struct dhcp6 (not necessarily since * lwIP is single-threaded and the array is only used while in recv * callback). */ enum dhcp6_option_idx { DHCP6_OPTION_IDX_CLI_ID = 0, DHCP6_OPTION_IDX_SERVER_ID, #if LWIP_DHCP6_PROVIDE_DNS_SERVERS DHCP6_OPTION_IDX_DNS_SERVER, DHCP6_OPTION_IDX_DOMAIN_LIST, #endif /* LWIP_DHCP_PROVIDE_DNS_SERVERS */ #if LWIP_DHCP6_GET_NTP_SRV DHCP6_OPTION_IDX_NTP_SERVER, #endif /* LWIP_DHCP_GET_NTP_SRV */ DHCP6_OPTION_IDX_MAX }; struct dhcp6_option_info { u8_t option_given; u16_t val_start; u16_t val_length; }; /** Holds the decoded option info, only valid while in dhcp6_recv. */ struct dhcp6_option_info dhcp6_rx_options[DHCP6_OPTION_IDX_MAX]; #define dhcp6_option_given(dhcp6, idx) (dhcp6_rx_options[idx].option_given != 0) #define dhcp6_got_option(dhcp6, idx) (dhcp6_rx_options[idx].option_given = 1) #define dhcp6_clear_option(dhcp6, idx) (dhcp6_rx_options[idx].option_given = 0) #define dhcp6_clear_all_options(dhcp6) (memset(dhcp6_rx_options, 0, sizeof(dhcp6_rx_options))) #define dhcp6_get_option_start(dhcp6, idx) (dhcp6_rx_options[idx].val_start) #define dhcp6_get_option_length(dhcp6, idx) (dhcp6_rx_options[idx].val_length) #define dhcp6_set_option(dhcp6, idx, start, len) do { dhcp6_rx_options[idx].val_start = (start); dhcp6_rx_options[idx].val_length = (len); }while(0) const ip_addr_t dhcp6_All_DHCP6_Relay_Agents_and_Servers = IPADDR6_INIT_HOST(0xFF020000, 0, 0, 0x00010002); const ip_addr_t dhcp6_All_DHCP6_Servers = IPADDR6_INIT_HOST(0xFF020000, 0, 0, 0x00010003); static struct udp_pcb *dhcp6_pcb; static u8_t dhcp6_pcb_refcount; /* receive, unfold, parse and free incoming messages */ static void dhcp6_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, const ip_addr_t *addr, u16_t port); /** Ensure DHCP PCB is allocated and bound */ static err_t dhcp6_inc_pcb_refcount(void) { if (dhcp6_pcb_refcount == 0) { LWIP_ASSERT("dhcp6_inc_pcb_refcount(): memory leak", dhcp6_pcb == NULL); /* allocate UDP PCB */ dhcp6_pcb = udp_new_ip6(); if (dhcp6_pcb == NULL) { return ERR_MEM; } ip_set_option(dhcp6_pcb, SOF_BROADCAST); /* set up local and remote port for the pcb -> listen on all interfaces on all src/dest IPs */ udp_bind(dhcp6_pcb, IP6_ADDR_ANY, DHCP6_CLIENT_PORT); udp_recv(dhcp6_pcb, dhcp6_recv, NULL); } dhcp6_pcb_refcount++; return ERR_OK; } /** Free DHCP PCB if the last netif stops using it */ static void dhcp6_dec_pcb_refcount(void) { LWIP_ASSERT("dhcp6_pcb_refcount(): refcount error", (dhcp6_pcb_refcount > 0)); dhcp6_pcb_refcount--; if (dhcp6_pcb_refcount == 0) { udp_remove(dhcp6_pcb); dhcp6_pcb = NULL; } } /** * @ingroup dhcp6 * Set a statically allocated struct dhcp6 to work with. * Using this prevents dhcp6_start to allocate it using mem_malloc. * * @param netif the netif for which to set the struct dhcp * @param dhcp6 (uninitialised) dhcp6 struct allocated by the application */ void dhcp6_set_struct(struct netif *netif, struct dhcp6 *dhcp6) { LWIP_ASSERT("netif != NULL", netif != NULL); LWIP_ASSERT("dhcp6 != NULL", dhcp6 != NULL); LWIP_ASSERT("netif already has a struct dhcp6 set", netif_dhcp6_data(netif) == NULL); /* clear data structure */ memset(dhcp6, 0, sizeof(struct dhcp6)); /* dhcp6_set_state(&dhcp, DHCP6_STATE_OFF); */ netif_set_client_data(netif, LWIP_NETIF_CLIENT_DATA_INDEX_DHCP6, dhcp6); } /** * @ingroup dhcp6 * Removes a struct dhcp6 from a netif. * * ATTENTION: Only use this when not using dhcp6_set_struct() to allocate the * struct dhcp6 since the memory is passed back to the heap. * * @param netif the netif from which to remove the struct dhcp */ void dhcp6_cleanup(struct netif *netif) { LWIP_ASSERT("netif != NULL", netif != NULL); if (netif_dhcp6_data(netif) != NULL) { mem_free(netif_dhcp6_data(netif)); netif_set_client_data(netif, LWIP_NETIF_CLIENT_DATA_INDEX_DHCP6, NULL); } } static struct dhcp6* dhcp6_get_struct(struct netif *netif, const char *dbg_requester) { struct dhcp6 *dhcp6 = netif_dhcp6_data(netif); if (dhcp6 == NULL) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("%s: mallocing new DHCPv6 client\n", dbg_requester)); dhcp6 = (struct dhcp6 *)mem_malloc(sizeof(struct dhcp6)); if (dhcp6 == NULL) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("%s: could not allocate dhcp6\n", dbg_requester)); return NULL; } /* clear data structure, this implies DHCP6_STATE_OFF */ memset(dhcp6, 0, sizeof(struct dhcp6)); /* store this dhcp6 client in the netif */ netif_set_client_data(netif, LWIP_NETIF_CLIENT_DATA_INDEX_DHCP6, dhcp6); } else { /* already has DHCP6 client attached */ LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("%s: using existing DHCPv6 client\n", dbg_requester)); } if (!dhcp6->pcb_allocated) { if (dhcp6_inc_pcb_refcount() != ERR_OK) { /* ensure DHCP6 PCB is allocated */ mem_free(dhcp6); netif_set_client_data(netif, LWIP_NETIF_CLIENT_DATA_INDEX_DHCP6, NULL); return NULL; } LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("%s: allocated dhcp6", dbg_requester)); dhcp6->pcb_allocated = 1; } return dhcp6; } /* * Set the DHCPv6 state * If the state changed, reset the number of tries. */ static void dhcp6_set_state(struct dhcp6 *dhcp6, u8_t new_state, const char *dbg_caller) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("DHCPv6 state: %d -> %d (%s)\n", dhcp6->state, new_state, dbg_caller)); if (new_state != dhcp6->state) { dhcp6->state = new_state; dhcp6->tries = 0; dhcp6->request_timeout = 0; } } static int dhcp6_stateless_enabled(struct dhcp6 *dhcp6) { if ((dhcp6->state == DHCP6_STATE_STATELESS_IDLE) || (dhcp6->state == DHCP6_STATE_REQUESTING_CONFIG)) { return 1; } return 0; } /*static int dhcp6_stateful_enabled(struct dhcp6 *dhcp6) { if (dhcp6->state == DHCP6_STATE_OFF) { return 0; } if (dhcp6_stateless_enabled(dhcp6)) { return 0; } return 1; }*/ /** * @ingroup dhcp6 * Enable stateful DHCPv6 on this netif * Requests are sent on receipt of an RA message with the * ND6_RA_FLAG_MANAGED_ADDR_CONFIG flag set. * * A struct dhcp6 will be allocated for this netif if not * set via @ref dhcp6_set_struct before. * * @todo: stateful DHCPv6 not supported, yet */ err_t dhcp6_enable_stateful(struct netif *netif) { LWIP_UNUSED_ARG(netif); LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("stateful dhcp6 not implemented yet")); return ERR_VAL; } /** * @ingroup dhcp6 * Enable stateless DHCPv6 on this netif * Requests are sent on receipt of an RA message with the * ND6_RA_FLAG_OTHER_CONFIG flag set. * * A struct dhcp6 will be allocated for this netif if not * set via @ref dhcp6_set_struct before. */ err_t dhcp6_enable_stateless(struct netif *netif) { struct dhcp6 *dhcp6; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp6_enable_stateless(netif=%p) %c%c%"U16_F"\n", (void *)netif, netif->name[0], netif->name[1], (u16_t)netif->num)); dhcp6 = dhcp6_get_struct(netif, "dhcp6_enable_stateless()"); if (dhcp6 == NULL) { return ERR_MEM; } if (dhcp6_stateless_enabled(dhcp6)) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp6_enable_stateless(): stateless DHCPv6 already enabled")); return ERR_OK; } else if (dhcp6->state != DHCP6_STATE_OFF) { /* stateful running */ /* @todo: stop stateful once it is implemented */ LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp6_enable_stateless(): switching from stateful to stateless DHCPv6")); } LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp6_enable_stateless(): stateless DHCPv6 enabled\n")); dhcp6_set_state(dhcp6, DHCP6_STATE_STATELESS_IDLE, "dhcp6_enable_stateless"); return ERR_OK; } /** * @ingroup dhcp6 * Disable stateful or stateless DHCPv6 on this netif * Requests are sent on receipt of an RA message with the * ND6_RA_FLAG_OTHER_CONFIG flag set. */ void dhcp6_disable(struct netif *netif) { struct dhcp6 *dhcp6; LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp6_disable(netif=%p) %c%c%"U16_F"\n", (void *)netif, netif->name[0], netif->name[1], (u16_t)netif->num)); dhcp6 = netif_dhcp6_data(netif); if (dhcp6 != NULL) { if (dhcp6->state != DHCP6_STATE_OFF) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("dhcp6_disable(): DHCPv6 disabled (old state: %s)\n", (dhcp6_stateless_enabled(dhcp6) ? "stateless" : "stateful"))); dhcp6_set_state(dhcp6, DHCP6_STATE_OFF, "dhcp6_disable"); if (dhcp6->pcb_allocated != 0) { dhcp6_dec_pcb_refcount(); /* free DHCPv6 PCB if not needed any more */ dhcp6->pcb_allocated = 0; } } } } /** * Create a DHCPv6 request, fill in common headers * * @param netif the netif under DHCPv6 control * @param dhcp6 dhcp6 control struct * @param message_type message type of the request * @param opt_len_alloc option length to allocate * @param options_out_len option length on exit * @return a pbuf for the message */ static struct pbuf * dhcp6_create_msg(struct netif *netif, struct dhcp6 *dhcp6, u8_t message_type, u16_t opt_len_alloc, u16_t *options_out_len) { struct pbuf *p_out; struct dhcp6_msg *msg_out; LWIP_ERROR("dhcp6_create_msg: netif != NULL", (netif != NULL), return NULL;); LWIP_ERROR("dhcp6_create_msg: dhcp6 != NULL", (dhcp6 != NULL), return NULL;); p_out = pbuf_alloc(PBUF_TRANSPORT, sizeof(struct dhcp6_msg) + opt_len_alloc, PBUF_RAM); if (p_out == NULL) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp6_create_msg(): could not allocate pbuf\n")); return NULL; } LWIP_ASSERT("dhcp6_create_msg: check that first pbuf can hold struct dhcp6_msg", (p_out->len >= sizeof(struct dhcp6_msg) + opt_len_alloc)); /* @todo: limit new xid for certain message types? */ /* reuse transaction identifier in retransmissions */ if (dhcp6->tries == 0) { dhcp6->xid = LWIP_RAND() & 0xFFFFFF; } LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("transaction id xid(%"X32_F")\n", dhcp6->xid)); msg_out = (struct dhcp6_msg *)p_out->payload; memset(msg_out, 0, sizeof(struct dhcp6_msg) + opt_len_alloc); msg_out->msgtype = message_type; msg_out->transaction_id[0] = (u8_t)(dhcp6->xid >> 16); msg_out->transaction_id[1] = (u8_t)(dhcp6->xid >> 8); msg_out->transaction_id[2] = (u8_t)dhcp6->xid; *options_out_len = 0; return p_out; } static u16_t dhcp6_option_short(u16_t options_out_len, u8_t *options, u16_t value) { options[options_out_len++] = (u8_t)((value & 0xff00U) >> 8); options[options_out_len++] = (u8_t) (value & 0x00ffU); return options_out_len; } static u16_t dhcp6_option_optionrequest(u16_t options_out_len, u8_t *options, const u16_t *req_options, u16_t num_req_options, u16_t max_len) { size_t i; u16_t ret; LWIP_ASSERT("dhcp6_option_optionrequest: options_out_len + sizeof(struct dhcp6_msg) + addlen <= max_len", sizeof(struct dhcp6_msg) + options_out_len + 4U + (2U * num_req_options) <= max_len); LWIP_UNUSED_ARG(max_len); ret = dhcp6_option_short(options_out_len, options, DHCP6_OPTION_ORO); ret = dhcp6_option_short(ret, options, 2 * num_req_options); for (i = 0; i < num_req_options; i++) { ret = dhcp6_option_short(ret, options, req_options[i]); } return ret; } /* All options are added, shrink the pbuf to the required size */ static void dhcp6_msg_finalize(u16_t options_out_len, struct pbuf *p_out) { /* shrink the pbuf to the actual content length */ pbuf_realloc(p_out, (u16_t)(sizeof(struct dhcp6_msg) + options_out_len)); } #if LWIP_IPV6_DHCP6_STATELESS static void dhcp6_information_request(struct netif *netif, struct dhcp6 *dhcp6) { const u16_t requested_options[] = { #if LWIP_DHCP6_PROVIDE_DNS_SERVERS DHCP6_OPTION_DNS_SERVERS, DHCP6_OPTION_DOMAIN_LIST #endif #if LWIP_DHCP6_GET_NTP_SRV , DHCP6_OPTION_SNTP_SERVERS #endif }; u16_t msecs; struct pbuf *p_out; u16_t options_out_len; LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("dhcp6_information_request()\n")); /* create and initialize the DHCP message header */ p_out = dhcp6_create_msg(netif, dhcp6, DHCP6_INFOREQUEST, 4 + sizeof(requested_options), &options_out_len); if (p_out != NULL) { err_t err; struct dhcp6_msg *msg_out = (struct dhcp6_msg *)p_out->payload; u8_t *options = (u8_t *)(msg_out + 1); LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("dhcp6_information_request: making request\n")); options_out_len = dhcp6_option_optionrequest(options_out_len, options, requested_options, LWIP_ARRAYSIZE(requested_options), p_out->len); LWIP_HOOK_DHCP6_APPEND_OPTIONS(netif, dhcp6, DHCP6_STATE_REQUESTING_CONFIG, msg_out, DHCP6_INFOREQUEST, options_out_len, p_out->len); dhcp6_msg_finalize(options_out_len, p_out); err = udp_sendto_if(dhcp6_pcb, p_out, &dhcp6_All_DHCP6_Relay_Agents_and_Servers, DHCP6_SERVER_PORT, netif); pbuf_free(p_out); LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp6_information_request: INFOREQUESTING -> %d\n", (int)err)); LWIP_UNUSED_ARG(err); } else { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp6_information_request: could not allocate DHCP6 request\n")); } dhcp6_set_state(dhcp6, DHCP6_STATE_REQUESTING_CONFIG, "dhcp6_information_request"); if (dhcp6->tries < 255) { dhcp6->tries++; } msecs = (u16_t)((dhcp6->tries < 6 ? 1 << dhcp6->tries : 60) * 1000); dhcp6->request_timeout = (u16_t)((msecs + DHCP6_TIMER_MSECS - 1) / DHCP6_TIMER_MSECS); LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp6_information_request(): set request timeout %"U16_F" msecs\n", msecs)); } static err_t dhcp6_request_config(struct netif *netif, struct dhcp6 *dhcp6) { /* stateless mode enabled and no request running? */ if (dhcp6->state == DHCP6_STATE_STATELESS_IDLE) { /* send Information-request and wait for answer; setup receive timeout */ dhcp6_information_request(netif, dhcp6); } return ERR_OK; } static void dhcp6_abort_config_request(struct dhcp6 *dhcp6) { if (dhcp6->state == DHCP6_STATE_REQUESTING_CONFIG) { /* abort running request */ dhcp6_set_state(dhcp6, DHCP6_STATE_STATELESS_IDLE, "dhcp6_abort_config_request"); } } /* Handle a REPLY to INFOREQUEST * This parses DNS and NTP server addresses from the reply. */ static void dhcp6_handle_config_reply(struct netif *netif, struct pbuf *p_msg_in) { struct dhcp6 *dhcp6 = netif_dhcp6_data(netif); LWIP_UNUSED_ARG(dhcp6); LWIP_UNUSED_ARG(p_msg_in); #if LWIP_DHCP6_PROVIDE_DNS_SERVERS if (dhcp6_option_given(dhcp6, DHCP6_OPTION_IDX_DNS_SERVER)) { ip_addr_t dns_addr; ip6_addr_t *dns_addr6; u16_t op_start = dhcp6_get_option_start(dhcp6, DHCP6_OPTION_IDX_DNS_SERVER); u16_t op_len = dhcp6_get_option_length(dhcp6, DHCP6_OPTION_IDX_DNS_SERVER); u16_t idx; u8_t n; ip_addr_set_zero_ip6(&dns_addr); dns_addr6 = ip_2_ip6(&dns_addr); for (n = 0, idx = op_start; (idx < op_start + op_len) && (n < LWIP_DHCP6_PROVIDE_DNS_SERVERS); n++, idx += sizeof(struct ip6_addr_packed)) { u16_t copied = pbuf_copy_partial(p_msg_in, dns_addr6, sizeof(struct ip6_addr_packed), idx); if (copied != sizeof(struct ip6_addr_packed)) { /* pbuf length mismatch */ return; } ip6_addr_assign_zone(dns_addr6, IP6_UNKNOWN, netif); /* @todo: do we need a different offset than DHCP(v4)? */ dns_setserver(n, &dns_addr); } } /* @ todo: parse and set Domain Search List */ #endif /* LWIP_DHCP6_PROVIDE_DNS_SERVERS */ #if LWIP_DHCP6_GET_NTP_SRV if (dhcp6_option_given(dhcp6, DHCP6_OPTION_IDX_NTP_SERVER)) { ip_addr_t ntp_server_addrs[LWIP_DHCP6_MAX_NTP_SERVERS]; u16_t op_start = dhcp6_get_option_start(dhcp6, DHCP6_OPTION_IDX_NTP_SERVER); u16_t op_len = dhcp6_get_option_length(dhcp6, DHCP6_OPTION_IDX_NTP_SERVER); u16_t idx; u8_t n; for (n = 0, idx = op_start; (idx < op_start + op_len) && (n < LWIP_DHCP6_MAX_NTP_SERVERS); n++, idx += sizeof(struct ip6_addr_packed)) { u16_t copied; ip6_addr_t *ntp_addr6 = ip_2_ip6(&ntp_server_addrs[n]); ip_addr_set_zero_ip6(&ntp_server_addrs[n]); copied = pbuf_copy_partial(p_msg_in, ntp_addr6, sizeof(struct ip6_addr_packed), idx); if (copied != sizeof(struct ip6_addr_packed)) { /* pbuf length mismatch */ return; } ip6_addr_assign_zone(ntp_addr6, IP6_UNKNOWN, netif); } dhcp6_set_ntp_servers(n, ntp_server_addrs); } #endif /* LWIP_DHCP6_GET_NTP_SRV */ } #endif /* LWIP_IPV6_DHCP6_STATELESS */ /** This function is called from nd6 module when an RA message is received * It triggers DHCPv6 requests (if enabled). */ void dhcp6_nd6_ra_trigger(struct netif *netif, u8_t managed_addr_config, u8_t other_config) { struct dhcp6 *dhcp6; LWIP_ASSERT("netif != NULL", netif != NULL); dhcp6 = netif_dhcp6_data(netif); LWIP_UNUSED_ARG(managed_addr_config); LWIP_UNUSED_ARG(other_config); LWIP_UNUSED_ARG(dhcp6); #if LWIP_IPV6_DHCP6_STATELESS if (dhcp6 != NULL) { if (dhcp6_stateless_enabled(dhcp6)) { if (other_config) { dhcp6_request_config(netif, dhcp6); } else { dhcp6_abort_config_request(dhcp6); } } } #endif /* LWIP_IPV6_DHCP6_STATELESS */ } /** * Parse the DHCPv6 message and extract the DHCPv6 options. * * Extract the DHCPv6 options (offset + length) so that we can later easily * check for them or extract the contents. */ static err_t dhcp6_parse_reply(struct pbuf *p, struct dhcp6 *dhcp6) { u16_t offset; u16_t offset_max; u16_t options_idx; struct dhcp6_msg *msg_in; LWIP_UNUSED_ARG(dhcp6); /* clear received options */ dhcp6_clear_all_options(dhcp6); msg_in = (struct dhcp6_msg *)p->payload; /* parse options */ options_idx = sizeof(struct dhcp6_msg); /* parse options to the end of the received packet */ offset_max = p->tot_len; offset = options_idx; /* at least 4 byte to read? */ while ((offset + 4 <= offset_max)) { u8_t op_len_buf[4]; u8_t *op_len; u16_t op; u16_t len; u16_t val_offset = (u16_t)(offset + 4); if (val_offset < offset) { /* overflow */ return ERR_BUF; } /* copy option + length, might be split across pbufs */ op_len = (u8_t *)pbuf_get_contiguous(p, op_len_buf, 4, 4, offset); if (op_len == NULL) { /* failed to get option and length */ return ERR_VAL; } op = (op_len[0] << 8) | op_len[1]; len = (op_len[2] << 8) | op_len[3]; offset = val_offset + len; if (offset < val_offset) { /* overflow */ return ERR_BUF; } switch (op) { case (DHCP6_OPTION_CLIENTID): dhcp6_got_option(dhcp6, DHCP6_OPTION_IDX_CLI_ID); dhcp6_set_option(dhcp6, DHCP6_OPTION_IDX_CLI_ID, val_offset, len); break; case (DHCP6_OPTION_SERVERID): dhcp6_got_option(dhcp6, DHCP6_OPTION_IDX_SERVER_ID); dhcp6_set_option(dhcp6, DHCP6_OPTION_IDX_SERVER_ID, val_offset, len); break; #if LWIP_DHCP6_PROVIDE_DNS_SERVERS case (DHCP6_OPTION_DNS_SERVERS): dhcp6_got_option(dhcp6, DHCP6_OPTION_IDX_DNS_SERVER); dhcp6_set_option(dhcp6, DHCP6_OPTION_IDX_DNS_SERVER, val_offset, len); break; case (DHCP6_OPTION_DOMAIN_LIST): dhcp6_got_option(dhcp6, DHCP6_OPTION_IDX_DOMAIN_LIST); dhcp6_set_option(dhcp6, DHCP6_OPTION_IDX_DOMAIN_LIST, val_offset, len); break; #endif /* LWIP_DHCP6_PROVIDE_DNS_SERVERS */ #if LWIP_DHCP6_GET_NTP_SRV case (DHCP6_OPTION_SNTP_SERVERS): dhcp6_got_option(dhcp6, DHCP6_OPTION_IDX_NTP_SERVER); dhcp6_set_option(dhcp6, DHCP6_OPTION_IDX_NTP_SERVER, val_offset, len); break; #endif /* LWIP_DHCP6_GET_NTP_SRV*/ default: LWIP_DEBUGF(DHCP6_DEBUG, ("skipping option %"U16_F" in options\n", op)); LWIP_HOOK_DHCP6_PARSE_OPTION(ip_current_netif(), dhcp6, dhcp6->state, msg_in, msg_in->msgtype, op, len, q, val_offset); break; } } return ERR_OK; } static void dhcp6_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, const ip_addr_t *addr, u16_t port) { struct netif *netif = ip_current_input_netif(); struct dhcp6 *dhcp6 = netif_dhcp6_data(netif); struct dhcp6_msg *reply_msg = (struct dhcp6_msg *)p->payload; u8_t msg_type; u32_t xid; LWIP_UNUSED_ARG(arg); /* Caught DHCPv6 message from netif that does not have DHCPv6 enabled? -> not interested */ if ((dhcp6 == NULL) || (dhcp6->pcb_allocated == 0)) { goto free_pbuf_and_return; } LWIP_ERROR("invalid server address type", IP_IS_V6(addr), goto free_pbuf_and_return;); LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("dhcp6_recv(pbuf = %p) from DHCPv6 server %s port %"U16_F"\n", (void *)p, ipaddr_ntoa(addr), port)); LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("pbuf->len = %"U16_F"\n", p->len)); LWIP_DEBUGF(DHCP6_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); if (p->len < sizeof(struct dhcp6_msg)) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("DHCPv6 reply message or pbuf too short\n")); goto free_pbuf_and_return; } /* match transaction ID against what we expected */ xid = reply_msg->transaction_id[0] << 16; xid |= reply_msg->transaction_id[1] << 8; xid |= reply_msg->transaction_id[2]; if (xid != dhcp6->xid) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("transaction id mismatch reply_msg->xid(%"X32_F")!= dhcp6->xid(%"X32_F")\n", xid, dhcp6->xid)); goto free_pbuf_and_return; } /* option fields could be unfold? */ if (dhcp6_parse_reply(p, dhcp6) != ERR_OK) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("problem unfolding DHCPv6 message - too short on memory?\n")); goto free_pbuf_and_return; } /* read DHCP message type */ msg_type = reply_msg->msgtype; /* message type is DHCP6 REPLY? */ if (msg_type == DHCP6_REPLY) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("DHCP6_REPLY received\n")); #if LWIP_IPV6_DHCP6_STATELESS /* in info-requesting state? */ if (dhcp6->state == DHCP6_STATE_REQUESTING_CONFIG) { dhcp6_set_state(dhcp6, DHCP6_STATE_STATELESS_IDLE, "dhcp6_recv"); dhcp6_handle_config_reply(netif, p); } else #endif /* LWIP_IPV6_DHCP6_STATELESS */ { /* @todo: handle reply in other states? */ } } else { /* @todo: handle other message types */ } free_pbuf_and_return: pbuf_free(p); } /** * A DHCPv6 request has timed out. * * The timer that was started with the DHCPv6 request has * timed out, indicating no response was received in time. */ static void dhcp6_timeout(struct netif *netif, struct dhcp6 *dhcp6) { LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp6_timeout()\n")); LWIP_UNUSED_ARG(netif); LWIP_UNUSED_ARG(dhcp6); #if LWIP_IPV6_DHCP6_STATELESS /* back-off period has passed, or server selection timed out */ if (dhcp6->state == DHCP6_STATE_REQUESTING_CONFIG) { LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE, ("dhcp6_timeout(): retrying information request\n")); dhcp6_information_request(netif, dhcp6); } #endif /* LWIP_IPV6_DHCP6_STATELESS */ } /** * DHCPv6 timeout handling (this function must be called every 500ms, * see @ref DHCP6_TIMER_MSECS). * * A DHCPv6 server is expected to respond within a short period of time. * This timer checks whether an outstanding DHCPv6 request is timed out. */ void dhcp6_tmr(void) { struct netif *netif; /* loop through netif's */ NETIF_FOREACH(netif) { struct dhcp6 *dhcp6 = netif_dhcp6_data(netif); /* only act on DHCPv6 configured interfaces */ if (dhcp6 != NULL) { /* timer is active (non zero), and is about to trigger now */ if (dhcp6->request_timeout > 1) { dhcp6->request_timeout--; } else if (dhcp6->request_timeout == 1) { dhcp6->request_timeout--; /* { dhcp6->request_timeout == 0 } */ LWIP_DEBUGF(DHCP6_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp6_tmr(): request timeout\n")); /* this client's request timeout triggered */ dhcp6_timeout(netif, dhcp6); } } } } #endif /* LWIP_IPV6 && LWIP_IPV6_DHCP6 */