Zephyr API Documentation 4.0.0
A Scalable Open Source RTOS
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dns_resolve.h
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1
7/*
8 * Copyright (c) 2017 Intel Corporation
9 *
10 * SPDX-License-Identifier: Apache-2.0
11 */
12
13#ifndef ZEPHYR_INCLUDE_NET_DNS_RESOLVE_H_
14#define ZEPHYR_INCLUDE_NET_DNS_RESOLVE_H_
15
16#include <zephyr/kernel.h>
17#include <zephyr/net/net_ip.h>
19#include <zephyr/net/net_core.h>
20
21#ifdef __cplusplus
22extern "C" {
23#endif
24
43
45#ifndef DNS_MAX_NAME_SIZE
46#define DNS_MAX_NAME_SIZE 20
47#endif
48
51#define DNS_BUF_TIMEOUT K_MSEC(500) /* ms */
52
53/* This value is recommended by RFC 1035 */
54#define DNS_RESOLVER_MAX_BUF_SIZE 512
55
56/* Make sure that we can compile things even if CONFIG_DNS_RESOLVER
57 * is not enabled.
58 */
59#if defined(CONFIG_DNS_RESOLVER_MAX_SERVERS)
60#define DNS_RESOLVER_MAX_SERVERS CONFIG_DNS_RESOLVER_MAX_SERVERS
61#else
62#define DNS_RESOLVER_MAX_SERVERS 0
63#endif
64
65#if defined(CONFIG_DNS_NUM_CONCUR_QUERIES)
66#define DNS_NUM_CONCUR_QUERIES CONFIG_DNS_NUM_CONCUR_QUERIES
67#else
68#define DNS_NUM_CONCUR_QUERIES 1
69#endif
70
71#if defined(CONFIG_NET_IF_MAX_IPV6_COUNT)
72#define MAX_IPV6_IFACE_COUNT CONFIG_NET_IF_MAX_IPV6_COUNT
73#else
74#define MAX_IPV6_IFACE_COUNT 1
75#endif
76
77#if defined(CONFIG_NET_IF_MAX_IPV4_COUNT)
78#define MAX_IPV4_IFACE_COUNT CONFIG_NET_IF_MAX_IPV4_COUNT
79#else
80#define MAX_IPV4_IFACE_COUNT 1
81#endif
82
83/* If mDNS is enabled, then add some extra well known multicast servers to the
84 * server list.
85 */
86#if defined(CONFIG_MDNS_RESOLVER)
87#if defined(CONFIG_NET_IPV6) && defined(CONFIG_NET_IPV4)
88#define MDNS_SERVER_COUNT 2
89#else
90#define MDNS_SERVER_COUNT 1
91#endif /* CONFIG_NET_IPV6 && CONFIG_NET_IPV4 */
92#else
93#define MDNS_SERVER_COUNT 0
94#endif /* CONFIG_MDNS_RESOLVER */
95
96/* If LLMNR is enabled, then add some extra well known multicast servers to the
97 * server list.
98 */
99#if defined(CONFIG_LLMNR_RESOLVER)
100#if defined(CONFIG_NET_IPV6) && defined(CONFIG_NET_IPV4)
101#define LLMNR_SERVER_COUNT 2
102#else
103#define LLMNR_SERVER_COUNT 1
104#endif /* CONFIG_NET_IPV6 && CONFIG_NET_IPV4 */
105#else
106#define LLMNR_SERVER_COUNT 0
107#endif /* CONFIG_MDNS_RESOLVER */
108
109#define DNS_MAX_MCAST_SERVERS (MDNS_SERVER_COUNT + LLMNR_SERVER_COUNT)
110
111#if defined(CONFIG_MDNS_RESPONDER)
112#if defined(CONFIG_NET_IPV6)
113#define MDNS_MAX_IPV6_IFACE_COUNT CONFIG_NET_IF_MAX_IPV6_COUNT
114#else
115#define MDNS_MAX_IPV6_IFACE_COUNT 0
116#endif /* CONFIG_NET_IPV6 */
117
118#if defined(CONFIG_NET_IPV4)
119#define MDNS_MAX_IPV4_IFACE_COUNT CONFIG_NET_IF_MAX_IPV4_COUNT
120#else
121#define MDNS_MAX_IPV4_IFACE_COUNT 0
122#endif /* CONFIG_NET_IPV4 */
123
124#define MDNS_MAX_POLL (MDNS_MAX_IPV4_IFACE_COUNT + MDNS_MAX_IPV6_IFACE_COUNT)
125#else
126#define MDNS_MAX_POLL 0
127#endif /* CONFIG_MDNS_RESPONDER */
128
129#if defined(CONFIG_LLMNR_RESPONDER)
130#if defined(CONFIG_NET_IPV6) && defined(CONFIG_NET_IPV4)
131#define LLMNR_MAX_POLL 2
132#else
133#define LLMNR_MAX_POLL 1
134#endif
135#else
136#define LLMNR_MAX_POLL 0
137#endif /* CONFIG_LLMNR_RESPONDER */
138
139#define DNS_RESOLVER_MAX_POLL (DNS_RESOLVER_MAX_SERVERS + DNS_MAX_MCAST_SERVERS)
140
142#define DNS_DISPATCHER_MAX_POLL (DNS_RESOLVER_MAX_POLL + MDNS_MAX_POLL + LLMNR_MAX_POLL)
143
144#if defined(CONFIG_ZVFS_POLL_MAX)
145BUILD_ASSERT(CONFIG_ZVFS_POLL_MAX >= DNS_DISPATCHER_MAX_POLL,
146 "CONFIG_ZVFS_POLL_MAX must be larger than " STRINGIFY(DNS_DISPATCHER_MAX_POLL));
147#endif
148
152enum dns_socket_type {
153 DNS_SOCKET_RESOLVER = 1,
154 DNS_SOCKET_RESPONDER = 2
155};
156
158struct mdns_responder_context;
159
174typedef int (*dns_socket_dispatcher_cb)(void *ctx, int sock,
175 struct sockaddr *addr, size_t addrlen,
176 struct net_buf *buf, size_t data_len);
177
179struct dns_socket_dispatcher {
181 sys_snode_t node;
183 const struct net_socket_service_desc *svc;
187 union {
188 void *ctx;
189 struct dns_resolve_context *resolve_ctx;
190 struct mdns_responder_context *mdns_ctx;
191 };
192
194 enum dns_socket_type type;
196 struct sockaddr local_addr;
198 dns_socket_dispatcher_cb cb;
200 struct zsock_pollfd *fds;
202 int fds_len;
204 int sock;
206 int ifindex;
210 struct dns_socket_dispatcher *pair;
212 struct k_mutex lock;
214 k_timeout_t buf_timeout;
215};
216
217struct mdns_responder_context {
218 struct sockaddr server_addr;
219 struct dns_socket_dispatcher dispatcher;
220 struct zsock_pollfd fds[1];
221 int sock;
222};
223
233int dns_dispatcher_register(struct dns_socket_dispatcher *ctx);
234
244int dns_dispatcher_unregister(struct dns_socket_dispatcher *ctx);
245
261
301
321typedef void (*dns_resolve_cb_t)(enum dns_resolve_status status,
322 struct dns_addrinfo *info,
323 void *user_data);
324
327enum dns_resolve_context_state {
328 DNS_RESOLVE_CONTEXT_ACTIVE,
329 DNS_RESOLVE_CONTEXT_DEACTIVATING,
330 DNS_RESOLVE_CONTEXT_INACTIVE,
331};
332
340 struct dns_server {
343
345 int sock;
346
349
352
355 struct dns_socket_dispatcher dispatcher;
357 } servers[DNS_RESOLVER_MAX_POLL];
358
361 struct zsock_pollfd fds[DNS_RESOLVER_MAX_POLL];
365 struct k_mutex lock;
366
371
424
426 enum dns_resolve_context_state state;
427};
428
457 const char *dns_servers_str[],
458 const struct sockaddr *dns_servers_sa[]);
459
468
480
501 const char *servers_str[],
502 const struct sockaddr *servers_sa[]);
503
515 uint16_t dns_id);
516
530 uint16_t dns_id,
531 const char *query_name,
532 enum dns_query_type query_type);
533
562 const char *query,
563 enum dns_query_type type,
564 uint16_t *dns_id,
566 void *user_data,
567 int32_t timeout);
568
580
608static inline int dns_get_addr_info(const char *query,
609 enum dns_query_type type,
610 uint16_t *dns_id,
612 void *user_data,
613 int32_t timeout)
614{
616 query,
617 type,
618 dns_id,
619 cb,
620 user_data,
621 timeout);
622}
623
633static inline int dns_cancel_addr_info(uint16_t dns_id)
634{
636}
637
647#if defined(CONFIG_DNS_RESOLVER_AUTO_INIT)
648void dns_init_resolver(void);
649
650#else
651#define dns_init_resolver(...)
652#endif /* CONFIG_DNS_RESOLVER_AUTO_INIT */
653
656#ifdef __cplusplus
657}
658#endif
659
660#endif /* ZEPHYR_INCLUDE_NET_DNS_RESOLVE_H_ */
int dns_resolve_name(struct dns_resolve_context *ctx, const char *query, enum dns_query_type type, uint16_t *dns_id, dns_resolve_cb_t cb, void *user_data, int32_t timeout)
Resolve DNS name.
static int dns_cancel_addr_info(uint16_t dns_id)
Cancel a pending DNS query.
Definition dns_resolve.h:633
dns_resolve_status
Status values for the callback.
Definition dns_resolve.h:265
dns_query_type
DNS query type enum.
Definition dns_resolve.h:37
int dns_resolve_init_default(struct dns_resolve_context *ctx)
Init DNS resolving context with default Kconfig options.
int dns_resolve_init(struct dns_resolve_context *ctx, const char *dns_servers_str[], const struct sockaddr *dns_servers_sa[])
Init DNS resolving context.
int dns_resolve_cancel(struct dns_resolve_context *ctx, uint16_t dns_id)
Cancel a pending DNS query.
int dns_resolve_reconfigure(struct dns_resolve_context *ctx, const char *servers_str[], const struct sockaddr *servers_sa[])
Reconfigure DNS resolving context.
int dns_resolve_close(struct dns_resolve_context *ctx)
Close DNS resolving context.
#define DNS_MAX_NAME_SIZE
Max size of the resolved name.
Definition dns_resolve.h:46
struct dns_resolve_context * dns_resolve_get_default(void)
Get default DNS context.
int dns_resolve_cancel_with_name(struct dns_resolve_context *ctx, uint16_t dns_id, const char *query_name, enum dns_query_type query_type)
Cancel a pending DNS query using id, name and type.
static int dns_get_addr_info(const char *query, enum dns_query_type type, uint16_t *dns_id, dns_resolve_cb_t cb, void *user_data, int32_t timeout)
Get IP address info from DNS.
Definition dns_resolve.h:608
void(* dns_resolve_cb_t)(enum dns_resolve_status status, struct dns_addrinfo *info, void *user_data)
DNS resolve callback.
Definition dns_resolve.h:321
@ DNS_EAI_MEMORY
Memory allocation failure.
Definition dns_resolve.h:285
@ DNS_EAI_NOTCANCELED
Request not canceled.
Definition dns_resolve.h:295
@ DNS_EAI_IDN_ENCODE
IDN encoding failed.
Definition dns_resolve.h:299
@ DNS_EAI_ADDRFAMILY
Address family for NAME not supported.
Definition dns_resolve.h:283
@ DNS_EAI_INPROGRESS
Processing request in progress.
Definition dns_resolve.h:291
@ DNS_EAI_FAIL
Non-recoverable failure in name res.
Definition dns_resolve.h:273
@ DNS_EAI_AGAIN
Temporary failure in name resolution.
Definition dns_resolve.h:271
@ DNS_EAI_NODATA
No address associated with NAME.
Definition dns_resolve.h:275
@ DNS_EAI_NONAME
NAME or SERVICE is unknown.
Definition dns_resolve.h:269
@ DNS_EAI_FAMILY
‘ai_family’ not supported
Definition dns_resolve.h:277
@ DNS_EAI_OVERFLOW
Argument buffer overflow.
Definition dns_resolve.h:289
@ DNS_EAI_CANCELED
Request canceled.
Definition dns_resolve.h:293
@ DNS_EAI_BADFLAGS
Invalid value for ‘ai_flags’ field.
Definition dns_resolve.h:267
@ DNS_EAI_SOCKTYPE
‘ai_socktype’ not supported
Definition dns_resolve.h:279
@ DNS_EAI_ALLDONE
All requests done.
Definition dns_resolve.h:297
@ DNS_EAI_SYSTEM
System error returned in ‘errno’.
Definition dns_resolve.h:287
@ DNS_EAI_SERVICE
SRV not supported for ‘ai_socktype’.
Definition dns_resolve.h:281
@ DNS_QUERY_TYPE_A
IPv4 query.
Definition dns_resolve.h:39
@ DNS_QUERY_TYPE_AAAA
IPv6 query.
Definition dns_resolve.h:41
size_t socklen_t
Length of a socket address.
Definition net_ip.h:171
struct _snode sys_snode_t
Single-linked list node structure.
Definition slist.h:39
#define STRINGIFY(s)
Definition common.h:134
Public kernel APIs.
Network core definitions.
IPv6 and IPv4 definitions.
__INT32_TYPE__ int32_t
Definition stdint.h:74
__UINT8_TYPE__ uint8_t
Definition stdint.h:88
__UINT16_TYPE__ uint16_t
Definition stdint.h:89
Address info struct is passed to callback that gets all the results.
Definition dns_resolve.h:251
char ai_canonname[20+1]
Canonical name of the address.
Definition dns_resolve.h:259
struct sockaddr ai_addr
IP address information.
Definition dns_resolve.h:253
socklen_t ai_addrlen
Length of the ai_addr field.
Definition dns_resolve.h:255
uint8_t ai_family
Address family of the address information.
Definition dns_resolve.h:257
Result callbacks.
Definition dns_resolve.h:378
const char * query
String containing the thing to resolve like www.example.com.
Definition dns_resolve.h:408
uint16_t query_hash
Hash of the DNS name + query type we are querying.
Definition dns_resolve.h:422
struct dns_resolve_context * ctx
Back pointer to ctx, needed in timeout handler.
Definition dns_resolve.h:383
void * user_data
User data.
Definition dns_resolve.h:392
struct k_work_delayable timer
Timeout timer.
Definition dns_resolve.h:380
uint16_t id
DNS id of this query.
Definition dns_resolve.h:414
k_timeout_t timeout
TX timeout.
Definition dns_resolve.h:395
dns_resolve_cb_t cb
Result callback.
Definition dns_resolve.h:389
enum dns_query_type query_type
Query type.
Definition dns_resolve.h:411
List of configured DNS servers.
Definition dns_resolve.h:340
int sock
Connection to the DNS server.
Definition dns_resolve.h:345
uint8_t is_mdns
Is this server mDNS one.
Definition dns_resolve.h:348
uint8_t is_llmnr
Is this server LLMNR one.
Definition dns_resolve.h:351
DNS resolve context structure.
Definition dns_resolve.h:338
k_timeout_t buf_timeout
This timeout is also used when a buffer is required from the buffer pools.
Definition dns_resolve.h:370
struct dns_resolve_context::dns_pending_query queries[DNS_NUM_CONCUR_QUERIES]
struct dns_resolve_context::dns_server servers[DNS_RESOLVER_MAX_POLL]
enum dns_resolve_context_state state
Is this context in use.
Definition dns_resolve.h:426
struct k_mutex lock
Prevent concurrent access.
Definition dns_resolve.h:365
Mutex Structure.
Definition kernel.h:2994
Kernel timeout type.
Definition sys_clock.h:65
A structure used to submit work after a delay.
Definition kernel.h:3985
Network buffer representation.
Definition net_buf.h:1006
Main structure holding socket service configuration information.
Definition socket_service.h:70
Generic sockaddr struct.
Definition net_ip.h:388
Definition of the monitored socket/file descriptor.
Definition socket_poll.h:31