blob: 54619ee69836268c03be1709be353df401b3f64c [file] [log] [blame]
Sean Edmonda0245812023-04-11 10:48:46 -07001// SPDX-License-Identifier: GPL-2.0+
2/*
3 * Copyright (C) Microsoft Corporation
4 * Author: Sean Edmond <seanedmond@microsoft.com>
5 *
6 */
7
8/* Simple DHCP6 network layer implementation. */
9
Sean Edmonda0245812023-04-11 10:48:46 -070010#include <net6.h>
11#include <malloc.h>
12#include <linux/delay.h>
13#include "net_rand.h"
14#include "dhcpv6.h"
15
16#define PORT_DHCP6_S 547 /* DHCP6 server UDP port */
17#define PORT_DHCP6_C 546 /* DHCP6 client UDP port */
18
19/* default timeout parameters (in ms) */
20#define SOL_MAX_DELAY_MS 1000
21#define SOL_TIMEOUT_MS 1000
22#define SOL_MAX_RT_MS 3600000
23#define REQ_TIMEOUT_MS 1000
24#define REQ_MAX_RT_MS 30000
25#define REQ_MAX_RC 10
26#define MAX_WAIT_TIME_MS 60000
27
28/* global variable to track any updates from DHCP6 server */
29int updated_sol_max_rt_ms = SOL_MAX_RT_MS;
30/* state machine parameters/variables */
31struct dhcp6_sm_params sm_params;
32
33static void dhcp6_state_machine(bool timeout, uchar *rx_pkt, unsigned int len);
34
35/* Handle DHCP received packets (set as UDP handler) */
36static void dhcp6_handler(uchar *pkt, unsigned int dest, struct in_addr sip,
37 unsigned int src, unsigned int len)
38{
39 /* return if ports don't match DHCPv6 ports */
40 if (dest != PORT_DHCP6_C || src != PORT_DHCP6_S)
41 return;
42
43 dhcp6_state_machine(false, pkt, len);
44}
45
46/**
47 * dhcp6_add_option() - Adds DHCP6 option to a packet
48 * @option_id: The option ID to add (See DHCP6_OPTION_* definitions)
49 * @pkt: A pointer to the current write location of the TX packet
50 *
51 * Return: The number of bytes written into "*pkt"
52 */
53static int dhcp6_add_option(int option_id, uchar *pkt)
54{
55 struct dhcp6_option_duid_ll *duid_opt;
56 struct dhcp6_option_elapsed_time *elapsed_time_opt;
57 struct dhcp6_option_ia_ta *ia_ta_opt;
58 struct dhcp6_option_ia_na *ia_na_opt;
59 struct dhcp6_option_oro *oro_opt;
60 struct dhcp6_option_client_arch *client_arch_opt;
61 struct dhcp6_option_vendor_class *vendor_class_opt;
62 int opt_len;
63 long elapsed_time;
64 size_t vci_strlen;
65 int num_oro = 0;
66 int num_client_arch = 0;
67 int num_vc_data = 0;
68 struct dhcp6_option_hdr *dhcp_option = (struct dhcp6_option_hdr *)pkt;
69 uchar *dhcp_option_start = pkt + sizeof(struct dhcp6_option_hdr);
70
71 dhcp_option->option_id = htons(option_id);
72
73 switch (option_id) {
74 case DHCP6_OPTION_CLIENTID:
75 /* Only support for DUID-LL in Client ID option for now */
76 duid_opt = (struct dhcp6_option_duid_ll *)dhcp_option_start;
77 duid_opt->duid_type = htons(DUID_TYPE_LL);
78 duid_opt->hw_type = htons(DUID_HW_TYPE_ENET);
79 memcpy(duid_opt->ll_addr, net_ethaddr, ETH_ALEN);
80 opt_len = sizeof(struct dhcp6_option_duid_ll) + ETH_ALEN;
81
82 /* Save DUID for comparison later */
83 memcpy(sm_params.duid, duid_opt, opt_len);
84 break;
85 case DHCP6_OPTION_ELAPSED_TIME:
86 /* calculate elapsed time in 1/100th of a second */
87 elapsed_time = (sm_params.dhcp6_retry_ms -
88 sm_params.dhcp6_start_ms) / 10;
89 if (elapsed_time > 0xFFFF)
90 elapsed_time = 0xFFFF;
91
92 elapsed_time_opt = (struct dhcp6_option_elapsed_time *)dhcp_option_start;
93 elapsed_time_opt->elapsed_time = htons(elapsed_time);
94
95 opt_len = sizeof(struct dhcp6_option_elapsed_time);
96 break;
97 case DHCP6_OPTION_IA_TA:
98 ia_ta_opt = (struct dhcp6_option_ia_ta *)dhcp_option_start;
99 ia_ta_opt->iaid = htonl(sm_params.ia_id);
100
101 opt_len = sizeof(struct dhcp6_option_ia_ta);
102 break;
103 case DHCP6_OPTION_IA_NA:
104 ia_na_opt = (struct dhcp6_option_ia_na *)dhcp_option_start;
105 ia_na_opt->iaid = htonl(sm_params.ia_id);
106 /* In a message sent by a client to a server,
107 * the T1 and T2 fields SHOULD be set to 0
108 */
109 ia_na_opt->t1 = 0;
110 ia_na_opt->t2 = 0;
111
112 opt_len = sizeof(struct dhcp6_option_ia_na);
113 break;
114 case DHCP6_OPTION_ORO:
115 oro_opt = (struct dhcp6_option_oro *)dhcp_option_start;
116 oro_opt->req_option_code[num_oro++] = htons(DHCP6_OPTION_OPT_BOOTFILE_URL);
117 oro_opt->req_option_code[num_oro++] = htons(DHCP6_OPTION_SOL_MAX_RT);
118 if (IS_ENABLED(CONFIG_DHCP6_PXE_DHCP_OPTION)) {
119 oro_opt->req_option_code[num_oro++] =
120 htons(DHCP6_OPTION_OPT_BOOTFILE_PARAM);
121 }
122
123 opt_len = sizeof(__be16) * num_oro;
124 break;
125 case DHCP6_OPTION_CLIENT_ARCH_TYPE:
126 client_arch_opt = (struct dhcp6_option_client_arch *)dhcp_option_start;
127 client_arch_opt->arch_type[num_client_arch++] = htons(CONFIG_DHCP6_PXE_CLIENTARCH);
128
129 opt_len = sizeof(__be16) * num_client_arch;
130 break;
131 case DHCP6_OPTION_VENDOR_CLASS:
132 vendor_class_opt = (struct dhcp6_option_vendor_class *)dhcp_option_start;
133 vendor_class_opt->enterprise_number = htonl(CONFIG_DHCP6_ENTERPRISE_ID);
134
135 vci_strlen = strlen(DHCP6_VCI_STRING);
136 vendor_class_opt->vendor_class_data[num_vc_data].vendor_class_len =
137 htons(vci_strlen);
138 memcpy(vendor_class_opt->vendor_class_data[num_vc_data].opaque_data,
139 DHCP6_VCI_STRING, vci_strlen);
140 num_vc_data++;
141
142 opt_len = sizeof(struct dhcp6_option_vendor_class) +
143 sizeof(struct vendor_class_data) * num_vc_data +
144 vci_strlen;
145 break;
146 case DHCP6_OPTION_NII:
147 dhcp_option_start[0] = 1;
148 dhcp_option_start[1] = 0;
149 dhcp_option_start[2] = 0;
150
151 opt_len = 3;
152 break;
153 default:
154 printf("***Warning unknown DHCP6 option %d. Not adding to message\n", option_id);
155 return 0;
156 }
157 dhcp_option->option_len = htons(opt_len);
158
159 return opt_len + sizeof(struct dhcp6_option_hdr);
160}
161
162/**
163 * dhcp6_send_solicit_packet() - Send a SOLICIT packet
164 *
165 * Implements RFC 8415:
166 * - 16.2. Solicit Message
167 * - 18.2.1. Creation and Transmission of Solicit Messages
168 *
169 * Adds DHCP6 header and DHCP6 options. Sends the UDP packet
170 * and sets the UDP handler.
171 */
172static void dhcp6_send_solicit_packet(void)
173{
174 struct in6_addr dhcp_bcast_ip6;
175 int len = 0;
176 uchar *pkt;
177 uchar *dhcp_pkt_start_ptr;
178 struct dhcp6_hdr *dhcp_hdr;
179
180 pkt = net_tx_packet + net_eth_hdr_size() + IP6_HDR_SIZE + UDP_HDR_SIZE;
181 dhcp_pkt_start_ptr = pkt;
182
183 /* Add the DHCP6 header */
184 dhcp_hdr = (struct dhcp6_hdr *)pkt;
185 dhcp_hdr->msg_type = DHCP6_MSG_SOLICIT;
186 dhcp_hdr->trans_id = htons(sm_params.trans_id);
187 pkt += sizeof(struct dhcp6_hdr);
188
189 /* Add the options */
190 pkt += dhcp6_add_option(DHCP6_OPTION_CLIENTID, pkt);
191 pkt += dhcp6_add_option(DHCP6_OPTION_ELAPSED_TIME, pkt);
192 pkt += dhcp6_add_option(DHCP6_OPTION_IA_NA, pkt);
193 pkt += dhcp6_add_option(DHCP6_OPTION_ORO, pkt);
194 if (CONFIG_DHCP6_PXE_CLIENTARCH != 0xFF)
195 pkt += dhcp6_add_option(DHCP6_OPTION_CLIENT_ARCH_TYPE, pkt);
196 pkt += dhcp6_add_option(DHCP6_OPTION_VENDOR_CLASS, pkt);
197 pkt += dhcp6_add_option(DHCP6_OPTION_NII, pkt);
198
199 /* calculate packet length */
200 len = pkt - dhcp_pkt_start_ptr;
201
202 /* send UDP packet to DHCP6 multicast address */
203 string_to_ip6(DHCP6_MULTICAST_ADDR, sizeof(DHCP6_MULTICAST_ADDR), &dhcp_bcast_ip6);
204 net_set_udp_handler(dhcp6_handler);
205 net_send_udp_packet6((uchar *)net_bcast_ethaddr, &dhcp_bcast_ip6,
206 PORT_DHCP6_S, PORT_DHCP6_C, len);
207}
208
209/**
210 * dhcp6_send_request_packet() - Send a REQUEST packet
211 *
212 * * Implements RFC 8415:
213 * - 16.4. Request Message
214 * - 18.2.2. Creation and Transmission of Request Messages
215 *
216 * Adds DHCP6 header and DHCP6 options. Sends the UDP packet
217 * and sets the UDP handler.
218 */
219static void dhcp6_send_request_packet(void)
220{
221 struct in6_addr dhcp_bcast_ip6;
222 int len = 0;
223 uchar *pkt;
224 uchar *dhcp_pkt_start_ptr;
225 struct dhcp6_hdr *dhcp_hdr;
226
227 pkt = net_tx_packet + net_eth_hdr_size() + IP6_HDR_SIZE + UDP_HDR_SIZE;
228 dhcp_pkt_start_ptr = pkt;
229
230 /* Add the DHCP6 header */
231 dhcp_hdr = (struct dhcp6_hdr *)pkt;
232 dhcp_hdr->msg_type = DHCP6_MSG_REQUEST;
233 dhcp_hdr->trans_id = htons(sm_params.trans_id);
234 pkt += sizeof(struct dhcp6_hdr);
235
236 /* add the options */
237 pkt += dhcp6_add_option(DHCP6_OPTION_CLIENTID, pkt);
238 pkt += dhcp6_add_option(DHCP6_OPTION_ELAPSED_TIME, pkt);
239 pkt += dhcp6_add_option(DHCP6_OPTION_IA_NA, pkt);
240 pkt += dhcp6_add_option(DHCP6_OPTION_ORO, pkt);
241 /* copy received IA_TA/IA_NA into the REQUEST packet */
242 if (sm_params.server_uid.uid_ptr) {
243 memcpy(pkt, sm_params.server_uid.uid_ptr, sm_params.server_uid.uid_size);
244 pkt += sm_params.server_uid.uid_size;
245 }
246 if (CONFIG_DHCP6_PXE_CLIENTARCH != 0xFF)
247 pkt += dhcp6_add_option(DHCP6_OPTION_CLIENT_ARCH_TYPE, pkt);
248 pkt += dhcp6_add_option(DHCP6_OPTION_VENDOR_CLASS, pkt);
249 pkt += dhcp6_add_option(DHCP6_OPTION_NII, pkt);
250
251 /* calculate packet length */
252 len = pkt - dhcp_pkt_start_ptr;
253
254 /* send UDP packet to DHCP6 multicast address */
255 string_to_ip6(DHCP6_MULTICAST_ADDR, strlen(DHCP6_MULTICAST_ADDR), &dhcp_bcast_ip6);
256 net_set_udp_handler(dhcp6_handler);
257 net_send_udp_packet6((uchar *)net_bcast_ethaddr, &dhcp_bcast_ip6,
258 PORT_DHCP6_S, PORT_DHCP6_C, len);
259}
260
261static void dhcp6_parse_ia_options(struct dhcp6_option_hdr *ia_ptr, uchar *ia_option_ptr)
262{
263 struct dhcp6_option_hdr *ia_option_hdr;
264
265 ia_option_hdr = (struct dhcp6_option_hdr *)ia_option_ptr;
266
267 /* Search for options encapsulated in IA_NA/IA_TA (DHCP6_OPTION_IAADDR
268 * or DHCP6_OPTION_STATUS_CODE)
269 */
270 while (ia_option_ptr < ((uchar *)ia_ptr + ntohs(ia_ptr->option_len))) {
271 switch (ntohs(ia_option_hdr->option_id)) {
272 case DHCP6_OPTION_IAADDR:
273 sm_params.rx_status.ia_addr_found = true;
274 net_copy_ip6(&sm_params.rx_status.ia_addr_ipv6,
275 (ia_option_ptr + sizeof(struct dhcp6_hdr)));
276 debug("DHCP6_OPTION_IAADDR FOUND\n");
277 break;
278 case DHCP6_OPTION_STATUS_CODE:
279 sm_params.rx_status.ia_status_code =
280 ntohs(*((u16 *)(ia_option_ptr + sizeof(struct dhcp6_hdr))));
281 printf("ERROR : IA STATUS %d\n", sm_params.rx_status.ia_status_code);
282 break;
283 default:
284 debug("Unknown Option in IA, skipping\n");
285 break;
286 }
287
288 ia_option_ptr += ntohs(((struct dhcp6_option_hdr *)ia_option_ptr)->option_len);
289 }
290}
291
292/**
293 * dhcp6_parse_options() - Parse the DHCP6 options
294 *
295 * @rx_pkt: pointer to beginning of received DHCP6 packet
296 * @len: Total length of the DHCP6 packet
297 *
298 * Parses the DHCP options from a received DHCP packet. Perform error checking
299 * on the options received. Any relevant status is available in:
300 * "sm_params.rx_status"
301 *
302 */
303static void dhcp6_parse_options(uchar *rx_pkt, unsigned int len)
304{
305 uchar *option_ptr;
Sean Edmondb2369a12023-07-25 16:13:29 -0700306 int sol_max_rt_sec, option_len, param_len_1;
Sean Edmonda0245812023-04-11 10:48:46 -0700307 char *s, *e;
308 struct dhcp6_option_hdr *option_hdr;
309
310 memset(&sm_params.rx_status, 0, sizeof(struct dhcp6_rx_pkt_status));
311
312 option_hdr = (struct dhcp6_option_hdr *)(rx_pkt + sizeof(struct dhcp6_hdr));
313 /* check that required options exist */
314 while (option_hdr < (struct dhcp6_option_hdr *)(rx_pkt + len)) {
315 option_ptr = ((uchar *)option_hdr) + sizeof(struct dhcp6_hdr);
316 option_len = ntohs(option_hdr->option_len);
317
Sean Edmond1b3117d2023-05-18 12:35:40 -0700318 if (option_ptr + option_len > rx_pkt + len) {
319 debug("Invalid option length\n");
320 return;
321 }
322
Sean Edmonda0245812023-04-11 10:48:46 -0700323 switch (ntohs(option_hdr->option_id)) {
324 case DHCP6_OPTION_CLIENTID:
325 if (memcmp(option_ptr, sm_params.duid, option_len)
326 != 0) {
327 debug("CLIENT ID DOESN'T MATCH\n");
328 } else {
329 debug("CLIENT ID FOUND and MATCHES\n");
330 sm_params.rx_status.client_id_match = true;
331 }
332 break;
333 case DHCP6_OPTION_SERVERID:
334 sm_params.rx_status.server_id_found = true;
335 sm_params.rx_status.server_uid_ptr = (uchar *)option_hdr;
336 sm_params.rx_status.server_uid_size = option_len +
337 sizeof(struct dhcp6_option_hdr);
338 debug("SERVER ID FOUND\n");
339 break;
340 case DHCP6_OPTION_IA_TA:
341 case DHCP6_OPTION_IA_NA:
342 /* check the IA_ID */
343 if (*((u32 *)option_ptr) != htonl(sm_params.ia_id)) {
344 debug("IA_ID mismatch 0x%08x 0x%08x\n",
345 *((u32 *)option_ptr), htonl(sm_params.ia_id));
346 break;
347 }
348
349 if (ntohs(option_hdr->option_id) == DHCP6_OPTION_IA_NA) {
350 /* skip past IA_ID/T1/T2 */
351 option_ptr += 3 * sizeof(u32);
352 } else if (ntohs(option_hdr->option_id) == DHCP6_OPTION_IA_TA) {
353 /* skip past IA_ID */
354 option_ptr += sizeof(u32);
355 }
356 /* parse the IA_NA/IA_TA encapsulated options */
357 dhcp6_parse_ia_options(option_hdr, option_ptr);
358 break;
359 case DHCP6_OPTION_STATUS_CODE:
360 debug("DHCP6_OPTION_STATUS_CODE FOUND\n");
361 sm_params.rx_status.status_code = ntohs(*((u16 *)option_ptr));
362 debug("DHCP6 top-level status code %d\n", sm_params.rx_status.status_code);
363 debug("DHCP6 status message: %.*s\n", len, option_ptr + 2);
364 break;
365 case DHCP6_OPTION_SOL_MAX_RT:
366 debug("DHCP6_OPTION_SOL_MAX_RT FOUND\n");
367 sol_max_rt_sec = ntohl(*((u32 *)option_ptr));
368
369 /* A DHCP client MUST ignore any SOL_MAX_RT option values that are less
370 * than 60 or more than 86400
371 */
372 if (sol_max_rt_sec >= 60 && sol_max_rt_sec <= 86400) {
373 updated_sol_max_rt_ms = sol_max_rt_sec * 1000;
374 if (sm_params.curr_state == DHCP6_SOLICIT)
375 sm_params.mrt_ms = updated_sol_max_rt_ms;
376 }
377 break;
378 case DHCP6_OPTION_OPT_BOOTFILE_URL:
379 debug("DHCP6_OPTION_OPT_BOOTFILE_URL FOUND\n");
380 copy_filename(net_boot_file_name, option_ptr, option_len + 1);
381 debug("net_boot_file_name: %s\n", net_boot_file_name);
382
383 /* copy server_ip6 (required for PXE) */
384 s = strchr(net_boot_file_name, '[');
385 e = strchr(net_boot_file_name, ']');
386 if (s && e && e > s)
387 string_to_ip6(s + 1, e - s - 1, &net_server_ip6);
388 break;
389 case DHCP6_OPTION_OPT_BOOTFILE_PARAM:
390 if (IS_ENABLED(CONFIG_DHCP6_PXE_DHCP_OPTION)) {
391 debug("DHCP6_OPTION_OPT_BOOTFILE_PARAM FOUND\n");
Sean Edmondb2369a12023-07-25 16:13:29 -0700392 /* if CONFIG_DHCP6_PXE_DHCP_OPTION is set the PXE config file path
393 * is contained in the first OPT_BOOTFILE_PARAM argument
394 */
395 param_len_1 = ntohs(*((u16 *)option_ptr));
396 option_ptr += sizeof(u16);
397 if (param_len_1 + sizeof(u16) > option_len) {
398 debug("Invalid BOOTFILE_PARAM param_len_1. Skipping\n");
399 break;
400 }
Sean Edmonda0245812023-04-11 10:48:46 -0700401
402 if (pxelinux_configfile)
403 free(pxelinux_configfile);
404
Sean Edmondb2369a12023-07-25 16:13:29 -0700405 pxelinux_configfile = (char *)malloc((param_len_1 + 1) *
Sean Edmonda0245812023-04-11 10:48:46 -0700406 sizeof(char));
407 if (pxelinux_configfile)
Sean Edmondb2369a12023-07-25 16:13:29 -0700408 strlcpy(pxelinux_configfile, option_ptr, param_len_1 + 1);
Sean Edmonda0245812023-04-11 10:48:46 -0700409 else
410 printf("Error: Failed to allocate pxelinux_configfile\n");
411
412 debug("PXE CONFIG FILE %s\n", pxelinux_configfile);
413 }
414 break;
415 case DHCP6_OPTION_PREFERENCE:
416 debug("DHCP6_OPTION_PREFERENCE FOUND\n");
417 sm_params.rx_status.preference = *option_ptr;
418 break;
419 default:
420 debug("Unknown Option ID: %d, skipping parsing\n",
421 ntohs(option_hdr->option_id));
422 break;
423 }
424 /* Increment to next option header */
425 option_hdr = (struct dhcp6_option_hdr *)(((uchar *)option_hdr) +
426 sizeof(struct dhcp6_option_hdr) + option_len);
427 }
428}
429
430/**
431 * dhcp6_check_advertise_packet() - Perform error checking on an expected
432 * ADVERTISE packet.
433 *
434 * @rx_pkt: pointer to beginning of received DHCP6 packet
435 * @len: Total length of the DHCP6 packet
436 *
437 * Implements RFC 8415:
438 * - 16.3. Advertise Message
439 * - 18.2.10. Receipt of Reply Messages
440 *
441 * Return : 0 : ADVERTISE packet was received with no errors.
442 * State machine can progress
443 * 1 : - packet received is not an ADVERTISE packet
444 * - there were errors in the packet received,
445 * - this is the first SOLICIT packet, but
446 * received preference is not 255, so we have
447 * to wait for more server responses.
448 */
449static int dhcp6_check_advertise_packet(uchar *rx_pkt, unsigned int len)
450{
451 u16 rx_uid_size;
452 struct dhcp6_hdr *dhcp6_hdr = (struct dhcp6_hdr *)rx_pkt;
453
454 /* Ignore message if msg-type != advertise */
455 if (dhcp6_hdr->msg_type != DHCP6_MSG_ADVERTISE)
456 return 1;
457 /* Ignore message if transaction ID doesn't match */
458 if (dhcp6_hdr->trans_id != htons(sm_params.trans_id))
459 return 1;
460
461 dhcp6_parse_options(rx_pkt, len);
462
463 /* Ignore advertise if any of these conditions met */
464 if (!sm_params.rx_status.server_id_found ||
465 !sm_params.rx_status.client_id_match ||
466 sm_params.rx_status.status_code != DHCP6_SUCCESS) {
467 return 1;
468 }
469
470 if (sm_params.rx_status.server_id_found) {
471 /* if no server UID has been received yet, or if the server UID
472 * received has a higher preference value than the currently saved
473 * server UID, save the new server UID and preference
474 */
475 if (!sm_params.server_uid.uid_ptr ||
476 (sm_params.server_uid.uid_ptr &&
477 sm_params.server_uid.preference < sm_params.rx_status.preference)) {
478 rx_uid_size = sm_params.rx_status.server_uid_size;
479 if (sm_params.server_uid.uid_ptr)
480 free(sm_params.server_uid.uid_ptr);
481 sm_params.server_uid.uid_ptr = malloc(rx_uid_size * sizeof(uchar));
482 if (sm_params.server_uid.uid_ptr)
483 memcpy(sm_params.server_uid.uid_ptr,
484 sm_params.rx_status.server_uid_ptr, rx_uid_size);
485
486 sm_params.server_uid.uid_size = rx_uid_size;
487 sm_params.server_uid.preference = sm_params.rx_status.preference;
488 }
489
490 /* If the first SOLICIT and preference code is 255, use right away.
491 * Otherwise, wait for the first SOLICIT period for more
492 * DHCP6 servers to respond.
493 */
494 if (sm_params.retry_cnt == 1 &&
495 sm_params.server_uid.preference != 255) {
496 debug("valid ADVERTISE, waiting for first SOLICIT period\n");
497 return 1;
498 }
499 }
500
501 return 0;
502}
503
504/**
505 * dhcp6_check_reply_packet() - Perform error checking on an expected
506 * REPLY packet.
507 *
508 * @rx_pkt: pointer to beginning of received DHCP6 packet
509 * @len: Total length of the DHCP6 packet
510 *
511 * Implements RFC 8415:
512 * - 16.10. Reply Message
513 * - 18.2.10. Receipt of Reply Messages
514 *
515 * Return : 0 - REPLY packet was received with no errors
516 * 1 - packet received is not an REPLY packet,
517 * or there were errors in the packet received
518 */
519static int dhcp6_check_reply_packet(uchar *rx_pkt, unsigned int len)
520{
521 struct dhcp6_hdr *dhcp6_hdr = (struct dhcp6_hdr *)rx_pkt;
522
523 /* Ignore message if msg-type != reply */
524 if (dhcp6_hdr->msg_type != DHCP6_MSG_REPLY)
525 return 1;
526 /* check that transaction ID matches */
527 if (dhcp6_hdr->trans_id != htons(sm_params.trans_id))
528 return 1;
529
530 dhcp6_parse_options(rx_pkt, len);
531
532 /* if no addresses found, restart DHCP */
533 if (!sm_params.rx_status.ia_addr_found ||
534 sm_params.rx_status.ia_status_code == DHCP6_NO_ADDRS_AVAIL ||
535 sm_params.rx_status.status_code == DHCP6_NOT_ON_LINK) {
536 /* restart DHCP */
537 debug("No address found in reply. Restarting DHCP\n");
538 dhcp6_start();
539 }
540
541 /* ignore reply if any of these conditions met */
542 if (!sm_params.rx_status.server_id_found ||
543 !sm_params.rx_status.client_id_match ||
544 sm_params.rx_status.status_code == DHCP6_UNSPEC_FAIL) {
545 return 1;
546 }
547
548 return 0;
549}
550
551/* Timeout for DHCP6 SOLICIT/REQUEST */
552static void dhcp6_timeout_handler(void)
553{
554 /* call state machine with the timeout flag */
555 dhcp6_state_machine(true, NULL, 0);
556}
557
558/**
559 * dhcp6_state_machine() - DHCP6 state machine
560 *
561 * @timeout: TRUE : timeout waiting for response from
562 * DHCP6 server
563 * FALSE : init or received response from DHCP6 server
564 * @rx_pkt: Pointer to the beginning of received DHCP6 packet.
565 * Will be NULL if called as part of init
566 * or timeout==TRUE
567 * @len: Total length of the DHCP6 packet if rx_pkt != NULL
568 *
569 * Implements RFC 8415:
570 * - 5.2. Client/Server Exchanges Involving Four Messages
571 * - 15. Reliability of Client-Initiated Message Exchanges
572 *
573 * Handles:
574 * - transmission of SOLICIT and REQUEST packets
575 * - retransmission of SOLICIT and REQUEST packets if no
576 * response is received within the timeout window
577 * - checking received ADVERTISE and REPLY packets to
578 * assess if the DHCP state machine can progress
579 */
580static void dhcp6_state_machine(bool timeout, uchar *rx_pkt, unsigned int len)
581{
582 int rand_minus_plus_100;
583
584 switch (sm_params.curr_state) {
585 case DHCP6_INIT:
586 sm_params.next_state = DHCP6_SOLICIT;
587 break;
588 case DHCP6_SOLICIT:
589 if (!timeout) {
590 /* check the rx packet and determine if we can transition to next
591 * state.
592 */
593 if (dhcp6_check_advertise_packet(rx_pkt, len))
594 return;
595
596 debug("ADVERTISE good, transition to REQUEST\n");
597 sm_params.next_state = DHCP6_REQUEST;
598 } else if (sm_params.retry_cnt == 1) {
599 /* If a server UID was received in the first SOLICIT period
600 * transition to REQUEST
601 */
602 if (sm_params.server_uid.uid_ptr)
603 sm_params.next_state = DHCP6_REQUEST;
604 }
605 break;
606 case DHCP6_REQUEST:
607 if (!timeout) {
608 /* check the rx packet and determine if we can transition to next state */
609 if (dhcp6_check_reply_packet(rx_pkt, len))
610 return;
611
612 debug("REPLY good, transition to DONE\n");
613 sm_params.next_state = DHCP6_DONE;
614 }
615 break;
616 case DHCP6_DONE:
617 case DHCP6_FAIL:
618 /* Shouldn't get here, as state machine should exit
619 * immediately when DHCP6_DONE or DHCP6_FAIL is entered.
620 * Proceed anyway to proceed DONE/FAIL actions
621 */
622 debug("Unexpected DHCP6 state : %d\n", sm_params.curr_state);
623 break;
624 }
625 /* re-seed the RNG */
626 srand(get_ticks() + rand());
627
628 /* handle state machine entry conditions */
629 if (sm_params.curr_state != sm_params.next_state) {
630 sm_params.retry_cnt = 0;
631
632 if (sm_params.next_state == DHCP6_SOLICIT) {
633 /* delay a random ammount (special for SOLICIT) */
634 udelay((rand() % SOL_MAX_DELAY_MS) * 1000);
635 /* init timestamp variables after SOLICIT delay */
636 sm_params.dhcp6_start_ms = get_timer(0);
637 sm_params.dhcp6_retry_start_ms = sm_params.dhcp6_start_ms;
638 sm_params.dhcp6_retry_ms = sm_params.dhcp6_start_ms;
639 /* init transaction and ia_id */
640 sm_params.trans_id = rand() & 0xFFFFFF;
641 sm_params.ia_id = rand();
642 /* initialize retransmission parameters */
643 sm_params.irt_ms = SOL_TIMEOUT_MS;
644 sm_params.mrt_ms = updated_sol_max_rt_ms;
645 /* RFCs default MRC is be 0 (try infinitely)
646 * give up after CONFIG_NET_RETRY_COUNT number of tries (same as DHCPv4)
647 */
648 sm_params.mrc = CONFIG_NET_RETRY_COUNT;
649 sm_params.mrd_ms = 0;
650
651 } else if (sm_params.next_state == DHCP6_REQUEST) {
652 /* init timestamp variables */
653 sm_params.dhcp6_retry_start_ms = get_timer(0);
654 sm_params.dhcp6_retry_ms = sm_params.dhcp6_start_ms;
655 /* initialize retransmission parameters */
656 sm_params.irt_ms = REQ_TIMEOUT_MS;
657 sm_params.mrt_ms = REQ_MAX_RT_MS;
658 sm_params.mrc = REQ_MAX_RC;
659 sm_params.mrd_ms = 0;
660 }
661 }
662
663 if (timeout)
664 sm_params.dhcp6_retry_ms = get_timer(0);
665
666 /* Check if MRC or MRD have been passed */
667 if ((sm_params.mrc != 0 &&
668 sm_params.retry_cnt >= sm_params.mrc) ||
669 (sm_params.mrd_ms != 0 &&
670 ((sm_params.dhcp6_retry_ms - sm_params.dhcp6_retry_start_ms) >= sm_params.mrd_ms))) {
671 sm_params.next_state = DHCP6_FAIL;
672 }
673
674 /* calculate retransmission timeout (RT) */
675 rand_minus_plus_100 = ((rand() % 200) - 100);
676 if (sm_params.retry_cnt == 0) {
677 sm_params.rt_ms = sm_params.irt_ms +
678 ((sm_params.irt_ms * rand_minus_plus_100) / 1000);
679 } else {
680 sm_params.rt_ms = (2 * sm_params.rt_prev_ms) +
681 ((sm_params.rt_prev_ms * rand_minus_plus_100) / 1000);
682 }
683
684 if (sm_params.rt_ms > sm_params.mrt_ms) {
685 sm_params.rt_ms = sm_params.mrt_ms +
686 ((sm_params.mrt_ms * rand_minus_plus_100) / 1000);
687 }
688
689 sm_params.rt_prev_ms = sm_params.rt_ms;
690
691 net_set_timeout_handler(sm_params.rt_ms, dhcp6_timeout_handler);
692
693 /* send transmit/retransmit message or fail */
694 sm_params.curr_state = sm_params.next_state;
695
696 if (sm_params.curr_state == DHCP6_SOLICIT) {
697 /* send solicit packet */
698 dhcp6_send_solicit_packet();
699 printf("DHCP6 SOLICIT %d\n", sm_params.retry_cnt);
700 } else if (sm_params.curr_state == DHCP6_REQUEST) {
701 /* send request packet */
702 dhcp6_send_request_packet();
703 printf("DHCP6 REQUEST %d\n", sm_params.retry_cnt);
704 } else if (sm_params.curr_state == DHCP6_DONE) {
705 net_set_timeout_handler(0, NULL);
706
707 /* Duplicate address detection (DAD) should be
708 * performed here before setting net_ip6
709 * (enhancement should be considered)
710 */
711 net_copy_ip6(&net_ip6, &sm_params.rx_status.ia_addr_ipv6);
712 printf("DHCP6 client bound to %pI6c\n", &net_ip6);
713 /* will load with TFTP6 */
714 net_auto_load();
715 } else if (sm_params.curr_state == DHCP6_FAIL) {
716 printf("DHCP6 FAILED, TERMINATING\n");
717 net_set_state(NETLOOP_FAIL);
718 }
719 sm_params.retry_cnt++;
720}
721
722/* Start or restart DHCP6 */
723void dhcp6_start(void)
724{
725 memset(&sm_params, 0, sizeof(struct dhcp6_sm_params));
726
727 /* seed the RNG with MAC address */
728 srand_mac();
729
730 sm_params.curr_state = DHCP6_INIT;
731 dhcp6_state_machine(false, NULL, 0);
732}