1 /* 2 * Copyright (c) 2020, The OpenThread Authors. 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions are met: 7 * 1. Redistributions of source code must retain the above copyright 8 * notice, this list of conditions and the following disclaimer. 9 * 2. Redistributions in binary form must reproduce the above copyright 10 * notice, this list of conditions and the following disclaimer in the 11 * documentation and/or other materials provided with the distribution. 12 * 3. Neither the name of the copyright holder nor the 13 * names of its contributors may be used to endorse or promote products 14 * derived from this software without specific prior written permission. 15 * 16 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" 17 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 18 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 19 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE 20 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 21 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 22 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 23 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 24 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 25 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 26 * POSSIBILITY OF SUCH DAMAGE. 27 */ 28 29 #ifndef SRP_CLIENT_HPP_ 30 #define SRP_CLIENT_HPP_ 31 32 #include "openthread-core-config.h" 33 34 #if OPENTHREAD_CONFIG_SRP_CLIENT_ENABLE 35 36 #include <openthread/srp_client.h> 37 38 #include "common/as_core_type.hpp" 39 #include "common/callback.hpp" 40 #include "common/clearable.hpp" 41 #include "common/linked_list.hpp" 42 #include "common/locator.hpp" 43 #include "common/log.hpp" 44 #include "common/message.hpp" 45 #include "common/non_copyable.hpp" 46 #include "common/notifier.hpp" 47 #include "common/numeric_limits.hpp" 48 #include "common/timer.hpp" 49 #include "crypto/ecdsa.hpp" 50 #include "net/dns_types.hpp" 51 #include "net/ip6.hpp" 52 #include "net/udp6.hpp" 53 #include "thread/network_data_service.hpp" 54 55 /** 56 * @file 57 * This file includes definitions for the SRP (Service Registration Protocol) client. 58 */ 59 60 namespace ot { 61 namespace Srp { 62 63 #if !OPENTHREAD_CONFIG_ECDSA_ENABLE 64 #error "SRP Client feature requires ECDSA support (OPENTHREAD_CONFIG_ECDSA_ENABLE)." 65 #endif 66 67 /** 68 * Implements SRP client. 69 * 70 */ 71 class Client : public InstanceLocator, private NonCopyable 72 { 73 friend class ot::Notifier; 74 75 using DnsSrpUnicast = NetworkData::Service::DnsSrpUnicast; 76 using DnsSrpAnycast = NetworkData::Service::DnsSrpAnycast; 77 78 public: 79 /** 80 * Types represents an SRP client item (service or host info) state. 81 * 82 */ 83 enum ItemState : uint8_t 84 { 85 kToAdd = OT_SRP_CLIENT_ITEM_STATE_TO_ADD, ///< Item to be added/registered. 86 kAdding = OT_SRP_CLIENT_ITEM_STATE_ADDING, ///< Item is being added/registered. 87 kToRefresh = OT_SRP_CLIENT_ITEM_STATE_TO_REFRESH, ///< Item to be refreshed (renew lease). 88 kRefreshing = OT_SRP_CLIENT_ITEM_STATE_REFRESHING, ///< Item is being refreshed. 89 kToRemove = OT_SRP_CLIENT_ITEM_STATE_TO_REMOVE, ///< Item to be removed. 90 kRemoving = OT_SRP_CLIENT_ITEM_STATE_REMOVING, ///< Item is being removed. 91 kRegistered = OT_SRP_CLIENT_ITEM_STATE_REGISTERED, ///< Item is registered with server. 92 kRemoved = OT_SRP_CLIENT_ITEM_STATE_REMOVED, ///< Item is removed. 93 }; 94 95 /** 96 * Pointer type defines the callback used by SRP client to notify user of a changes/events/errors. 97 * 98 * Please see `otSrpClientCallback` for more details. 99 * 100 */ 101 typedef otSrpClientCallback ClientCallback; 102 103 /** 104 * Represents an SRP client host info. 105 * 106 */ 107 class HostInfo : public otSrpClientHostInfo, private Clearable<HostInfo> 108 { 109 friend class Client; 110 friend class Clearable<HostInfo>; 111 112 public: 113 /** 114 * Initializes the `HostInfo` object. 115 * 116 */ 117 void Init(void); 118 119 /** 120 * Clears the `HostInfo` object. 121 * 122 */ 123 void Clear(void); 124 125 /** 126 * Gets the host name (label) string. 127 * 128 * @returns The host name (label) string, or `nullptr` if not yet set. 129 * 130 */ GetName(void) const131 const char *GetName(void) const { return mName; } 132 133 /** 134 * Indicates whether or not the host auto address mode is enabled. 135 * 136 * @retval TRUE If the auto address mode is enabled. 137 * @retval FALSE If the auto address mode is disabled. 138 * 139 */ IsAutoAddressEnabled(void) const140 bool IsAutoAddressEnabled(void) const { return mAutoAddress; } 141 142 /** 143 * Gets the number of host IPv6 addresses. 144 * 145 * @returns The number of host IPv6 addresses. 146 * 147 */ GetNumAddresses(void) const148 uint8_t GetNumAddresses(void) const { return mNumAddresses; } 149 150 /** 151 * Gets the host IPv6 address at a given index. 152 * 153 * @param[in] aIndex The index to get (MUST be smaller than `GetNumAddresses()`). 154 * 155 * @returns The host IPv6 address at index @p aIndex. 156 * 157 */ GetAddress(uint8_t aIndex) const158 const Ip6::Address &GetAddress(uint8_t aIndex) const { return AsCoreType(&mAddresses[aIndex]); } 159 160 /** 161 * Gets the state of `HostInfo`. 162 * 163 * @returns The `HostInfo` state. 164 * 165 */ GetState(void) const166 ItemState GetState(void) const { return static_cast<ItemState>(mState); } 167 168 private: SetName(const char * aName)169 void SetName(const char *aName) { mName = aName; } 170 void SetState(ItemState aState); 171 void SetAddresses(const Ip6::Address *aAddresses, uint8_t aNumAddresses); 172 void EnableAutoAddress(void); 173 }; 174 175 /** 176 * Represents an SRP client service. 177 * 178 */ 179 class Service : public otSrpClientService, public LinkedListEntry<Service> 180 { 181 friend class Client; 182 friend class LinkedList<Service>; 183 184 public: 185 /** 186 * Initializes and validates the `Service` object and its fields. 187 * 188 * @retval kErrorNone Successfully initialized and validated the `Service` object. 189 * @retval kErrorInvalidArgs The info in `Service` object is not valid (e.g. null name or bad `TxtEntry`). 190 * 191 */ 192 Error Init(void); 193 194 /** 195 * Gets the service name labels string. 196 * 197 * @returns The service name label string (e.g., "_chip._udp", not the full domain name). 198 * 199 */ GetName(void) const200 const char *GetName(void) const { return mName; } 201 202 /** 203 * Gets the service instance name label (not the full name). 204 * 205 * @returns The service instance name label string. 206 * 207 */ GetInstanceName(void) const208 const char *GetInstanceName(void) const { return mInstanceName; } 209 210 /** 211 * Indicates whether or not the service has any subtypes. 212 * 213 * @retval TRUE The service has at least one subtype. 214 * @retval FALSE The service does not have any subtype. 215 * 216 */ HasSubType(void) const217 bool HasSubType(void) const { return (mSubTypeLabels != nullptr); } 218 219 /** 220 * Gets the subtype label at a given index. 221 * 222 * MUST be used only after `HasSubType()` indicates that service has a subtype. 223 * 224 * @param[in] aIndex The index into list of subtype labels. 225 * 226 * @returns A pointer to subtype label at @p aIndex, or `nullptr` if there is no label (@p aIndex is after the 227 * end of the subtype list). 228 * 229 */ GetSubTypeLabelAt(uint16_t aIndex) const230 const char *GetSubTypeLabelAt(uint16_t aIndex) const { return mSubTypeLabels[aIndex]; } 231 232 /** 233 * Gets the service port number. 234 * 235 * @returns The service port number. 236 * 237 */ GetPort(void) const238 uint16_t GetPort(void) const { return mPort; } 239 240 /** 241 * Gets the service priority. 242 * 243 * @returns The service priority. 244 * 245 */ GetPriority(void) const246 uint16_t GetPriority(void) const { return mPriority; } 247 248 /** 249 * Gets the service weight. 250 * 251 * @returns The service weight. 252 * 253 */ GetWeight(void) const254 uint16_t GetWeight(void) const { return mWeight; } 255 256 /** 257 * Gets the array of service TXT entries. 258 * 259 * @returns A pointer to an array of service TXT entries. 260 * 261 */ GetTxtEntries(void) const262 const Dns::TxtEntry *GetTxtEntries(void) const { return AsCoreTypePtr(mTxtEntries); } 263 264 /** 265 * Gets the number of entries in the service TXT entry array. 266 * 267 * @returns The number of entries in the service TXT entry array. 268 * 269 */ GetNumTxtEntries(void) const270 uint8_t GetNumTxtEntries(void) const { return mNumTxtEntries; } 271 272 /** 273 * Gets the state of service. 274 * 275 * @returns The service state. 276 * 277 */ GetState(void) const278 ItemState GetState(void) const { return static_cast<ItemState>(mState); } 279 280 /** 281 * Gets the desired lease interval to request when registering this service. 282 * 283 * @returns The desired lease interval in sec. Zero indicates to use default. 284 * 285 */ GetLease(void) const286 uint32_t GetLease(void) const { return (mLease & kLeaseMask); } 287 288 /** 289 * Gets the desired key lease interval to request when registering this service. 290 * 291 * @returns The desired lease interval in sec. Zero indicates to use default. 292 * 293 */ GetKeyLease(void) const294 uint32_t GetKeyLease(void) const { return mKeyLease; } 295 296 private: 297 // We use the high (MSB) bit of `mLease` as flag to indicate 298 // whether or not the service is appended in the message. 299 // This is then used when updating the service state. Note that 300 // we guarantee that `mLease` is not greater than `kMaxLease` 301 // which ensures that the last bit is unused. 302 303 static constexpr uint32_t kAppendedInMsgFlag = (1U << 31); 304 static constexpr uint32_t kLeaseMask = ~kAppendedInMsgFlag; 305 306 void SetState(ItemState aState); GetLeaseRenewTime(void) const307 TimeMilli GetLeaseRenewTime(void) const { return TimeMilli(mData); } SetLeaseRenewTime(TimeMilli aTime)308 void SetLeaseRenewTime(TimeMilli aTime) { mData = aTime.GetValue(); } IsAppendedInMessage(void) const309 bool IsAppendedInMessage(void) const { return mLease & kAppendedInMsgFlag; } MarkAsAppendedInMessage(void)310 void MarkAsAppendedInMessage(void) { mLease |= kAppendedInMsgFlag; } ClearAppendedInMessageFlag(void)311 void ClearAppendedInMessageFlag(void) { mLease &= ~kAppendedInMsgFlag; } 312 bool Matches(const Service &aOther) const; Matches(ItemState aState) const313 bool Matches(ItemState aState) const { return GetState() == aState; } 314 }; 315 316 /** 317 * Initializes the SRP `Client` object. 318 * 319 * @param[in] aInstance A reference to the OpenThread instance. 320 * 321 */ 322 explicit Client(Instance &aInstance); 323 324 /** 325 * Starts the SRP client operation. 326 * 327 * SRP client will prepare and send "SRP Update" message to the SRP server once all the following conditions are 328 * met: 329 * 330 * - The SRP client is started - `Start()` is called 331 * - Host name is set - `SetHostName()` is called. 332 * - At least one host IPv6 address is set - `SetHostAddresses()` is called. 333 * - At least one service is added - `AddService()` is called. 334 * 335 * It does not matter in which order these methods are called. When all conditions are met, the SRP client will 336 * wait for a short delay before preparing an "SRP Update" message and sending it to server. This delay allows for 337 * user to add multiple services and/or IPv6 addresses before the first SRP Update message is sent (ensuring a 338 * single SRP Update is sent containing all the info). 339 * 340 * @param[in] aServerSockAddr The socket address (IPv6 address and port number) of the SRP server. 341 * 342 * @retval kErrorNone SRP client operation started successfully or it is already running with same server 343 * socket address and callback. 344 * @retval kErrorBusy SRP client is busy running with a different socket address. 345 * @retval kErrorFailed Failed to open/connect the client's UDP socket. 346 * 347 */ Start(const Ip6::SockAddr & aServerSockAddr)348 Error Start(const Ip6::SockAddr &aServerSockAddr) { return Start(aServerSockAddr, kRequesterUser); } 349 350 /** 351 * Stops the SRP client operation. 352 * 353 * Stops any further interactions with the SRP server. Note that it does not remove or clear host info 354 * and/or list of services. It marks all services to be added/removed again once the client is started again. 355 * 356 * If `OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_API_ENABLE` (auto-start feature) is enabled, a call to this method 357 * also disables the auto-start mode. 358 * 359 */ Stop(void)360 void Stop(void) { Stop(kRequesterUser, kResetRetryInterval); } 361 362 #if OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_API_ENABLE 363 /** 364 * Pointer type defines the callback used by SRP client to notify user when it is auto-started or 365 * stopped. 366 * 367 */ 368 typedef otSrpClientAutoStartCallback AutoStartCallback; 369 370 /** 371 * Enables the auto-start mode. 372 * 373 * Config option `OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_DEFAULT_MODE` specifies the default auto-start mode 374 * (whether it is enabled or disabled at the start of OT stack). 375 * 376 * When auto-start is enabled, the SRP client will monitor the Thread Network Data to discover SRP servers and 377 * select the preferred server and automatically start and stop the client when an SRP server is detected. 378 * 379 * There are three categories of Network Data entries indicating presence of SRP sever. They are preferred in the 380 * following order: 381 * 382 * 1) Preferred unicast entries where server address is included in the service data. If there are multiple 383 * options, the one with numerically lowest IPv6 address is preferred. 384 * 385 * 2) Anycast entries each having a seq number. A larger sequence number in the sense specified by Serial Number 386 * Arithmetic logic in RFC-1982 is considered more recent and therefore preferred. The largest seq number 387 * using serial number arithmetic is preferred if it is well-defined (i.e., the seq number is larger than all 388 * other seq numbers). If it is not well-defined, then the numerically largest seq number is preferred. 389 * 390 * 3) Unicast entries where the server address info is included in server data. If there are multiple options, 391 * the one with numerically lowest IPv6 address is preferred. 392 * 393 * When there is a change in the Network Data entries, client will check that the currently selected server is 394 * still present in the Network Data and is still the preferred one. Otherwise the client will switch to the new 395 * preferred server or stop if there is none. 396 * 397 * When the SRP client is explicitly started through a successful call to `Start()`, the given SRP server address 398 * in `Start()` will continue to be used regardless of the state of auto-start mode and whether the same SRP 399 * server address is discovered or not in the Thread Network Data. In this case, only an explicit `Stop()` call 400 * will stop the client. 401 * 402 * @param[in] aCallback A callback to notify when client is auto-started/stopped. Can be `nullptr` if not needed. 403 * @param[in] aContext A context to be passed when invoking @p aCallback. 404 * 405 */ 406 void EnableAutoStartMode(AutoStartCallback aCallback, void *aContext); 407 408 /** 409 * Disables the auto-start mode. 410 * 411 * Disabling the auto-start mode will not stop the client if it is already running but the client stops monitoring 412 * the Thread Network Data to verify that the selected SRP server is still present in it. 413 * 414 * Note that a call to `Stop()` will also disable the auto-start mode. 415 * 416 */ DisableAutoStartMode(void)417 void DisableAutoStartMode(void) { mAutoStart.SetState(AutoStart::kDisabled); } 418 419 /** 420 * Indicates the current state of auto-start mode (enabled or disabled). 421 * 422 * @returns TRUE if the auto-start mode is enabled, FALSE otherwise. 423 * 424 */ IsAutoStartModeEnabled(void) const425 bool IsAutoStartModeEnabled(void) const { return mAutoStart.GetState() != AutoStart::kDisabled; } 426 427 /** 428 * Indicates whether or not the current SRP server's address is selected by auto-start. 429 * 430 * @returns TRUE if the SRP server's address is selected by auto-start, FALSE otherwise. 431 * 432 */ IsServerSelectedByAutoStart(void) const433 bool IsServerSelectedByAutoStart(void) const { return mAutoStart.HasSelectedServer(); } 434 #endif // OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_API_ENABLE 435 436 /** 437 * Indicates whether the SRP client is running or not. 438 * 439 * @returns TRUE if the SRP client is running, FALSE otherwise. 440 * 441 */ IsRunning(void) const442 bool IsRunning(void) const { return (mState != kStateStopped); } 443 444 /** 445 * Gets the socket address (IPv6 address and port number) of the SRP server which is being used by SRP 446 * client. 447 * 448 * If the client is not running, the address is unspecified (all zero) with zero port number. 449 * 450 * @returns The SRP server's socket address. 451 * 452 */ GetServerAddress(void) const453 const Ip6::SockAddr &GetServerAddress(void) const { return mSocket.GetPeerName(); } 454 455 /** 456 * Sets the callback used to notify caller of events/changes. 457 * 458 * The SRP client allows a single callback to be registered. So consecutive calls to this method will overwrite any 459 * previously set callback functions. 460 * 461 * @param[in] aCallback The callback to notify of events and changes. Can be `nullptr` if not needed. 462 * @param[in] aContext An arbitrary context used with @p aCallback. 463 * 464 */ SetCallback(ClientCallback aCallback,void * aContext)465 void SetCallback(ClientCallback aCallback, void *aContext) { mCallback.Set(aCallback, aContext); } 466 467 /** 468 * Gets the TTL used in SRP update requests. 469 * 470 * Note that this is the TTL requested by the SRP client. The server may choose to accept a different TTL. 471 * 472 * By default, the TTL will equal the lease interval. Passing 0 or a value larger than the lease interval via 473 * `otSrpClientSetTtl()` will also cause the TTL to equal the lease interval. 474 * 475 * @returns The TTL (in seconds). 476 * 477 */ GetTtl(void) const478 uint32_t GetTtl(void) const { return mTtl; } 479 480 /** 481 * Sets the TTL used in SRP update requests. 482 * 483 * Changing the TTL does not impact the TTL of already registered services/host-info. 484 * It only changes any future SRP update messages (i.e adding new services and/or refreshes of existing services). 485 * 486 * @param[in] aTtl The TTL (in seconds). If value is zero or greater than lease interval, the TTL is set to the 487 * lease interval. 488 * 489 */ SetTtl(uint32_t aTtl)490 void SetTtl(uint32_t aTtl) { mTtl = aTtl; } 491 492 /** 493 * Gets the lease interval used in SRP update requests. 494 * 495 * Note that this is lease duration that would be requested by the SRP client. Server may choose to accept a 496 * different lease interval. 497 * 498 * @returns The lease interval (in seconds). 499 * 500 */ GetLeaseInterval(void) const501 uint32_t GetLeaseInterval(void) const { return mDefaultLease; } 502 503 /** 504 * Sets the lease interval used in SRP update requests. 505 * 506 * Changing the lease interval does not impact the accepted lease interval of already registered services/host-info. 507 * It only changes any future SRP update messages (i.e adding new services and/or refreshes of existing services). 508 * 509 * @param[in] aInterval The lease interval (in seconds). If zero, the default value `kDefaultLease` would be used. 510 * 511 */ SetLeaseInterval(uint32_t aInterval)512 void SetLeaseInterval(uint32_t aInterval) { mDefaultLease = DetermineLeaseInterval(aInterval, kDefaultLease); } 513 514 /** 515 * Gets the key lease interval used in SRP update requests. 516 * 517 * @returns The key lease interval (in seconds). 518 * 519 */ GetKeyLeaseInterval(void) const520 uint32_t GetKeyLeaseInterval(void) const { return mDefaultKeyLease; } 521 522 /** 523 * Sets the key lease interval used in SRP update requests. 524 * 525 * Changing the lease interval does not impact the accepted lease interval of already registered services/host-info. 526 * It only changes any future SRP update messages (i.e adding new services and/or refreshes of existing services). 527 * 528 * @param[in] aInterval The key lease interval (in seconds). If zero, the default value `kDefaultKeyLease` would be 529 * used. 530 * 531 */ SetKeyLeaseInterval(uint32_t aInterval)532 void SetKeyLeaseInterval(uint32_t aInterval) 533 { 534 mDefaultKeyLease = DetermineLeaseInterval(aInterval, kDefaultKeyLease); 535 } 536 537 /** 538 * Gets the host info. 539 * 540 * @returns A reference to host info structure. 541 * 542 */ GetHostInfo(void) const543 const HostInfo &GetHostInfo(void) const { return mHostInfo; } 544 545 /** 546 * Sets the host name label. 547 * 548 * After a successful call to this method, `Callback` will be called to report the status of host info 549 * registration with SRP server. 550 * 551 * The host name can be set before client is started or after start but before host info is registered with server 552 * (host info should be in either `kToAdd` or `kRemoved`). 553 * 554 * @param[in] aName A pointer to host name label string (MUST NOT be NULL). Pointer the string buffer MUST 555 * persist and remain valid and constant after return from this method. 556 * 557 * @retval kErrorNone The host name label was set successfully. 558 * @retval kErrorInvalidArgs The @p aName is NULL. 559 * @retval kErrorInvalidState The host name is already set and registered with the server. 560 * 561 */ 562 Error SetHostName(const char *aName); 563 564 /** 565 * Enables auto host address mode. 566 * 567 * When enabled host IPv6 addresses are automatically set by SRP client using all the unicast addresses on Thread 568 * netif excluding the link-local and mesh-local addresses. If there is no valid address, then Mesh Local EID 569 * address is added. The SRP client will automatically re-register when/if addresses on Thread netif are updated 570 * (new addresses are added or existing addresses are removed). 571 * 572 * The auto host address mode can be enabled before start or during operation of SRP client except when the host 573 * info is being removed (client is busy handling a remove request from an call to `RemoveHostAndServices()` and 574 * host info still being in either `kStateToRemove` or `kStateRemoving` states). 575 * 576 * After auto host address mode is enabled, it can be disabled by a call to `SetHostAddresses()` which then 577 * explicitly sets the host addresses. 578 * 579 * @retval kErrorNone Successfully enabled auto host address mode. 580 * @retval kErrorInvalidState Host is being removed and therefore cannot enable auto host address mode. 581 * 582 */ 583 Error EnableAutoHostAddress(void); 584 585 /** 586 * Sets/updates the list of host IPv6 address. 587 * 588 * Host IPv6 addresses can be set/changed before start or even during operation of SRP client (e.g. to add/remove 589 * or change a previously registered host address), except when the host info is being removed (client is busy 590 * handling a remove request from an earlier call to `RemoveHostAndServices()` and host info still being in either 591 * `kStateToRemove` or `kStateRemoving` states). 592 * 593 * After a successful call to this method, `Callback` will be called to report the status of the address 594 * registration with SRP server. 595 * 596 * Calling this method disables auto host address mode if it was previously enabled from a successful call to 597 * `EnableAutoHostAddress()`. 598 * 599 * @param[in] aAddresses A pointer to the an array containing the host IPv6 addresses. 600 * @param[in] aNumAddresses The number of addresses in the @p aAddresses array. 601 * 602 * @retval kErrorNone The host IPv6 address list change started successfully. The `Callback` will be 603 * called to report the status of registering addresses with server. 604 * @retval kErrorInvalidArgs The address list is invalid (e.g., must contain at least one address). 605 * @retval kErrorInvalidState Host is being removed and therefore cannot change host address. 606 * 607 */ 608 Error SetHostAddresses(const Ip6::Address *aAddresses, uint8_t aNumAddresses); 609 610 /** 611 * Adds a service to be registered with server. 612 * 613 * After a successful call to this method, `Callback` will be called to report the status of the service 614 * addition/registration with SRP server. 615 * 616 * @param[in] aService A `Service` to add (the instance must persist and remain unchanged after 617 * successful return from this method). 618 * 619 * @retval kErrorNone The addition of service started successfully. The `Callback` will be called to 620 * report the status. 621 * @retval kErrorAlready A service with the same service and instance names is already in the list. 622 * @retval kErrorInvalidArgs The service structure is invalid (e.g., bad service name or `TxEntry`). 623 * 624 */ 625 Error AddService(Service &aService); 626 627 /** 628 * Removes a service to be unregistered with server. 629 * 630 * @param[in] aService A `Service` to remove (the instance must persist and remain unchanged after 631 * successful return from this method). 632 * 633 * @retval kErrorNone The removal of service started successfully. The `Callback` will be called to report 634 * the status. 635 * @retval kErrorNotFound The service could not be found in the list. 636 * 637 */ 638 639 Error RemoveService(Service &aService); 640 641 /** 642 * Clears a service, immediately removing it from the client service list. 643 * 644 * Unlike `RemoveService()` which sends an update message to the server to remove the service, this method clears 645 * the service from the client's service list without any interaction with the server. On a successful call 646 * to this method, the `Callback` will NOT be called and the @p aService entry can be reclaimed and re-used by the 647 * caller immediately. 648 * 649 * @param[in] aService A service to delete from the list. 650 * 651 * @retval kErrorNone The @p aService is cleared successfully. It can be reclaimed and re-used immediately. 652 * @retval kErrorNotFound The service could not be found in the list. 653 * 654 */ 655 Error ClearService(Service &aService); 656 657 /** 658 * Gets the list of services being managed by client. 659 * 660 * @returns The list of services. 661 * 662 */ GetServices(void) const663 const LinkedList<Service> &GetServices(void) const { return mServices; } 664 665 /** 666 * Starts the remove process of the host info and all services. 667 * 668 * After returning from this method, `Callback` will be called to report the status of remove request with 669 * SRP server. 670 * 671 * If the host info is to be permanently removed from server, @p aRemoveKeyLease should be set to `true` which 672 * removes the key lease associated with host on server. Otherwise, the key lease record is kept as before, which 673 * ensures that the server holds the host name in reserve for when the client once again able to provide and 674 * register its service(s). 675 * 676 * The @p aSendUnregToServer determines the behavior when the host info is not yet registered with the server. If 677 * @p aSendUnregToServer is set to `false` (which is the default/expected value) then the SRP client will 678 * immediately remove the host info and services without sending an update message to server (no need to update the 679 * server if nothing is yet registered with it). If @p aSendUnregToServer is set to `true` then the SRP client will 680 * send an update message to the server. Note that if the host info is registered then the value of 681 * @p aSendUnregToServer does not matter and the SRP client will always send an update message to server requesting 682 * removal of all info. 683 * 684 * One situation where @p aSendUnregToServer can be useful is on a device reset/reboot, caller may want to remove 685 * any previously registered services with the server. In this case, caller can `SetHostName()` and then request 686 * `RemoveHostAndServices()` with `aSendUnregToServer` as `true`. 687 * 688 * @param[in] aShouldRemoveKeyLease A boolean indicating whether or not the host key lease should also be removed. 689 * @param[in] aSendUnregToServer A boolean indicating whether to send update to server when host info is not 690 * registered. 691 * 692 * @retval kErrorNone The removal of host and services started successfully. The `Callback` will be called 693 * to report the status. 694 * @retval kErrorAlready The host is already removed. 695 * 696 */ 697 Error RemoveHostAndServices(bool aShouldRemoveKeyLease, bool aSendUnregToServer = false); 698 699 /** 700 * Clears all host info and all the services. 701 * 702 * Unlike `RemoveHostAndServices()` which sends an update message to the server to remove all the info, this method 703 * clears all the info immediately without any interaction with the server. 704 * 705 */ 706 void ClearHostAndServices(void); 707 708 #if OPENTHREAD_CONFIG_SRP_CLIENT_DOMAIN_NAME_API_ENABLE 709 /** 710 * Gets the domain name being used by SRP client. 711 * 712 * If domain name is not set, "default.service.arpa" will be used. 713 * 714 * @returns The domain name string. 715 * 716 */ GetDomainName(void) const717 const char *GetDomainName(void) const { return mDomainName; } 718 719 /** 720 * Sets the domain name to be used by SRP client. 721 * 722 * This is an optional method. If not set "default.service.arpa" will be used. 723 * 724 * The domain name can be set before client is started or after start but before host info is registered with server 725 * (host info should be in either `kToAdd` or `kToRemove`). 726 * 727 * @param[in] aName A pointer to the domain name string. If NULL sets it to default "default.service.arpa". 728 * 729 * @retval kErrorNone The domain name label was set successfully. 730 * @retval kErrorInvalidState The host info is already registered with server. 731 * 732 */ 733 Error SetDomainName(const char *aName); 734 #endif // OPENTHREAD_CONFIG_SRP_CLIENT_DOMAIN_NAME_API_ENABLE 735 736 /** 737 * Converts a `ItemState` to a string. 738 * 739 * @param[in] aState An `ItemState`. 740 * 741 * @returns A string representation of @p aState. 742 * 743 */ 744 static const char *ItemStateToString(ItemState aState); 745 746 #if OPENTHREAD_CONFIG_REFERENCE_DEVICE_ENABLE 747 /** 748 * Enables/disables "service key record inclusion" mode. 749 * 750 * When enabled, SRP client will include KEY record in Service Description Instructions in the SRP update messages 751 * that it sends. 752 * 753 * @note KEY record is optional in Service Description Instruction (it is required and always included in the Host 754 * Description Instruction). The default behavior of SRP client is to not include it. This method is added under 755 * `REFERENCE_DEVICE` config and is intended to override the default behavior for testing only. 756 * 757 * @param[in] aEnabled TRUE to enable, FALSE to disable the "service key record inclusion" mode. 758 * 759 */ SetServiceKeyRecordEnabled(bool aEnabled)760 void SetServiceKeyRecordEnabled(bool aEnabled) { mServiceKeyRecordEnabled = aEnabled; } 761 762 /** 763 * Indicates whether the "service key record inclusion" mode is enabled or disabled. 764 * 765 * @returns TRUE if "service key record inclusion" mode is enabled, FALSE otherwise. 766 * 767 */ IsServiceKeyRecordEnabled(void) const768 bool IsServiceKeyRecordEnabled(void) const { return mServiceKeyRecordEnabled; } 769 770 /** 771 * Enables/disables "use short Update Lease Option" behavior. 772 * 773 * When enabled, the SRP client will use the short variant format of Update Lease Option in its message. The short 774 * format only includes the lease interval. 775 * 776 * Is added under `REFERENCE_DEVICE` config and is intended to override the default behavior for 777 * testing only. 778 * 779 * @param[in] aUseShort TRUE to enable, FALSE to disable the "use short Update Lease Option" mode. 780 * 781 */ SetUseShortLeaseOption(bool aUseShort)782 void SetUseShortLeaseOption(bool aUseShort) { mUseShortLeaseOption = aUseShort; } 783 784 /** 785 * Gets the current "use short Update Lease Option" mode. 786 * 787 * @returns TRUE if "use short Update Lease Option" mode is enabled, FALSE otherwise. 788 * 789 */ GetUseShortLeaseOption(void) const790 bool GetUseShortLeaseOption(void) const { return mUseShortLeaseOption; } 791 #endif // OPENTHREAD_CONFIG_REFERENCE_DEVICE_ENABLE 792 793 private: 794 // Number of fast data polls after SRP Update tx (11x 188ms = ~2 seconds) 795 static constexpr uint8_t kFastPollsAfterUpdateTx = 11; 796 797 #if OPENTHREAD_CONFIG_PLATFORM_KEY_REFERENCES_ENABLE 798 static constexpr uint32_t kSrpEcdsaKeyRef = Crypto::Storage::kEcdsaRef; 799 #endif 800 801 #if OPENTHREAD_CONFIG_SRP_CLIENT_SWITCH_SERVER_ON_FAILURE 802 static constexpr uint8_t kMaxTimeoutFailuresToSwitchServer = 803 OPENTHREAD_CONFIG_SRP_CLIENT_MAX_TIMEOUT_FAILURES_TO_SWITCH_SERVER; 804 #endif 805 806 static constexpr uint16_t kUdpPayloadSize = Ip6::kMaxDatagramLength - sizeof(Ip6::Udp::Header); 807 808 // ------------------------------- 809 // Lease related constants 810 811 static constexpr uint32_t kDefaultLease = OPENTHREAD_CONFIG_SRP_CLIENT_DEFAULT_LEASE; // in seconds. 812 static constexpr uint32_t kDefaultKeyLease = OPENTHREAD_CONFIG_SRP_CLIENT_DEFAULT_KEY_LEASE; // in seconds. 813 814 // The guard interval determines how much earlier (relative to 815 // the lease expiration time) the client will send an update 816 // to renew the lease. Value is in seconds. 817 static constexpr uint32_t kLeaseRenewGuardInterval = OPENTHREAD_CONFIG_SRP_CLIENT_LEASE_RENEW_GUARD_INTERVAL; 818 819 // Max allowed lease time to avoid timer roll-over (~24.8 days). 820 static constexpr uint32_t kMaxLease = (Timer::kMaxDelay / 1000) - 1; 821 822 // Opportunistic early refresh: When sending an SRP update, the 823 // services that are not yet expired but are close, are allowed 824 // to refresh early and are included in the SRP update. This 825 // helps place more services on the same lease refresh schedule 826 // reducing number of messages sent to the SRP server. The 827 // "early lease renewal interval" is used to determine if a 828 // service can renew early. The interval is calculated by 829 // multiplying the accepted lease interval by the"early lease 830 // renewal factor" which is given as a fraction (numerator and 831 // denominator). 832 // 833 // If the factor is set to zero (numerator=0, denominator=1), 834 // the opportunistic early refresh behavior is disabled. If 835 // denominator is set to zero (the factor is set to infinity), 836 // then all services (including previously registered ones) 837 // are always included in SRP update message. 838 839 static constexpr uint32_t kEarlyLeaseRenewFactorNumerator = 840 OPENTHREAD_CONFIG_SRP_CLIENT_EARLY_LEASE_RENEW_FACTOR_NUMERATOR; 841 static constexpr uint32_t kEarlyLeaseRenewFactorDenominator = 842 OPENTHREAD_CONFIG_SRP_CLIENT_EARLY_LEASE_RENEW_FACTOR_DENOMINATOR; 843 844 // ------------------------------- 845 // When there is a change (e.g., a new service is added/removed) 846 // that requires an update, the SRP client will wait for a short 847 // delay as specified by `kUpdateTxDelay` before sending an SRP 848 // update to server. This allows the user to provide more change 849 // that are then all sent in same update message. 850 static constexpr uint32_t kUpdateTxMinDelay = OPENTHREAD_CONFIG_SRP_CLIENT_UPDATE_TX_MIN_DELAY; // in msec. 851 static constexpr uint32_t kUpdateTxMaxDelay = OPENTHREAD_CONFIG_SRP_CLIENT_UPDATE_TX_MAX_DELAY; // in msec. 852 853 // ------------------------------- 854 // Retry related constants 855 // 856 // If the preparation or transmission of an SRP update message 857 // fails (e.g., no buffer to allocate the message), SRP client 858 // will retry after a short interval `kTxFailureRetryInterval` 859 // up to `kMaxTxFailureRetries` attempts. After this, the retry 860 // wait interval will be used (which keeps growing on each failure 861 // - please see below). 862 // 863 // If the update message is sent successfully but there is no 864 // response from server or if server rejects the update, the 865 // client will retransmit the update message after some wait 866 // interval. The wait interval starts from the minimum value and 867 // is increased by the growth factor on back-to-back failures up 868 // to the max value. The growth factor is given as a fraction 869 // (e.g., for 1.5, we can use 15 as the numerator and 10 as the 870 // denominator). A random jitter is added to the retry interval. 871 // If the current wait interval value is smaller than the jitter 872 // interval, then wait interval value itself is used as the 873 // jitter value. For example, with jitter interval of 2 seconds 874 // if the current retry interval is 800ms, then a random wait 875 // interval in [0,2*800] ms will be used. 876 877 static constexpr uint32_t kTxFailureRetryInterval = 250; // in ms 878 static constexpr uint32_t kMaxTxFailureRetries = 8; // num of quick retries after tx failure 879 static constexpr uint32_t kMinRetryWaitInterval = OPENTHREAD_CONFIG_SRP_CLIENT_MIN_RETRY_WAIT_INTERVAL; // in ms 880 static constexpr uint32_t kMaxRetryWaitInterval = OPENTHREAD_CONFIG_SRP_CLIENT_MAX_RETRY_WAIT_INTERVAL; // in ms 881 static constexpr uint32_t kRetryIntervalGrowthFactorNumerator = 882 OPENTHREAD_CONFIG_SRP_CLIENT_RETRY_INTERVAL_GROWTH_FACTOR_NUMERATOR; 883 static constexpr uint32_t kRetryIntervalGrowthFactorDenominator = 884 OPENTHREAD_CONFIG_SRP_CLIENT_RETRY_INTERVAL_GROWTH_FACTOR_DENOMINATOR; 885 886 static constexpr uint16_t kTxFailureRetryJitter = 10; // in ms 887 static constexpr uint16_t kRetryIntervalJitter = OPENTHREAD_CONFIG_SRP_CLIENT_RETRY_WAIT_INTERVAL_JITTER; // in ms 888 889 static_assert(kDefaultLease <= static_cast<uint32_t>(kMaxLease), "kDefaultLease is larger than max"); 890 static_assert(kDefaultKeyLease <= static_cast<uint32_t>(kMaxLease), "kDefaultKeyLease is larger than max"); 891 892 enum State : uint8_t 893 { 894 kStateStopped, // Client is stopped. 895 kStatePaused, // Client is paused (due to device being detached). 896 kStateToUpdate, // Waiting to send SRP update 897 kStateUpdating, // SRP update is sent, waiting for response from server. 898 kStateUpdated, // SRP update response received from server. 899 kStateToRetry, // SRP update tx failed, waiting to retry. 900 }; 901 902 static constexpr bool kAutoStartDefaultMode = OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_DEFAULT_MODE; 903 static constexpr bool kDisallowSwitchOnRegisteredHost = 904 OPENTHREAD_CONFIG_SRP_CLIENT_DISALLOW_SERVER_SWITCH_WITH_REGISTERED_HOST; 905 906 // Port number to use when server is discovered using "network data anycast service". 907 static constexpr uint16_t kAnycastServerPort = 53; 908 909 static constexpr uint32_t kUnspecifiedInterval = 0; // Used for lease/key-lease intervals. 910 911 // This enumeration type is used by the private `Start()` and 912 // `Stop()` methods to indicate whether it is being requested by the 913 // user or by the auto-start feature. 914 enum Requester : uint8_t 915 { 916 kRequesterUser, 917 #if OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_API_ENABLE 918 kRequesterAuto, 919 #endif 920 }; 921 922 // This enumeration is used as an input to private `Stop()` to 923 // indicate whether to reset the retry interval or keep it as is. 924 enum StopMode : uint8_t 925 { 926 kResetRetryInterval, 927 kKeepRetryInterval, 928 }; 929 930 // Used in `ChangeHostAndServiceStates()` 931 enum ServiceStateChangeMode : uint8_t 932 { 933 kForAllServices, 934 kForServicesAppendedInMessage, 935 }; 936 937 #if OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_API_ENABLE 938 class AutoStart : public Clearable<AutoStart> 939 { 940 public: 941 enum State : uint8_t{ 942 kDisabled, // AutoStart is disabled. 943 kSelectedNone, // AutoStart is enabled but not yet selected any servers. 944 kSelectedUnicastPreferred, // AutoStart selected a preferred unicast entry (address in service data). 945 kSelectedAnycast, // AutoStart selected an anycast entry with `mAnycastSeqNum`. 946 kSelectedUnicast, // AutoStart selected a unicast entry (address in server data). 947 }; 948 949 AutoStart(void); 950 bool HasSelectedServer(void) const; GetState(void) const951 State GetState(void) const { return mState; } 952 void SetState(State aState); GetAnycastSeqNum(void) const953 uint8_t GetAnycastSeqNum(void) const { return mAnycastSeqNum; } SetAnycastSeqNum(uint8_t aAnycastSeqNum)954 void SetAnycastSeqNum(uint8_t aAnycastSeqNum) { mAnycastSeqNum = aAnycastSeqNum; } SetCallback(AutoStartCallback aCallback,void * aContext)955 void SetCallback(AutoStartCallback aCallback, void *aContext) { mCallback.Set(aCallback, aContext); } 956 void InvokeCallback(const Ip6::SockAddr *aServerSockAddr) const; 957 958 #if OPENTHREAD_CONFIG_SRP_CLIENT_SWITCH_SERVER_ON_FAILURE GetTimeoutFailureCount(void) const959 uint8_t GetTimeoutFailureCount(void) const { return mTimeoutFailureCount; } ResetTimeoutFailureCount(void)960 void ResetTimeoutFailureCount(void) { mTimeoutFailureCount = 0; } IncrementTimeoutFailureCount(void)961 void IncrementTimeoutFailureCount(void) 962 { 963 if (mTimeoutFailureCount < NumericLimits<uint8_t>::kMax) 964 { 965 mTimeoutFailureCount++; 966 } 967 } 968 #endif 969 970 private: 971 static constexpr bool kDefaultMode = OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_DEFAULT_MODE; 972 973 static const char *StateToString(State aState); 974 975 Callback<AutoStartCallback> mCallback; 976 State mState; 977 uint8_t mAnycastSeqNum; 978 #if OPENTHREAD_CONFIG_SRP_CLIENT_SWITCH_SERVER_ON_FAILURE 979 uint8_t mTimeoutFailureCount; // Number of no-response timeout failures with the currently selected server. 980 #endif 981 }; 982 #endif // OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_API_ENABLE 983 984 struct Info : public Clearable<Info> 985 { 986 static constexpr uint16_t kUnknownOffset = 0; // Unknown offset value (used when offset is not yet set). 987 988 uint16_t mDomainNameOffset; // Offset of domain name serialization 989 uint16_t mHostNameOffset; // Offset of host name serialization. 990 uint16_t mRecordCount; // Number of resource records in Update section. 991 #if OPENTHREAD_CONFIG_PLATFORM_KEY_REFERENCES_ENABLE 992 Crypto::Ecdsa::P256::KeyPairAsRef mKeyRef; // The ECDSA key ref for key-pair. 993 #else 994 Crypto::Ecdsa::P256::KeyPair mKeyPair; // The ECDSA key pair. 995 #endif 996 }; 997 998 Error Start(const Ip6::SockAddr &aServerSockAddr, Requester aRequester); 999 void Stop(Requester aRequester, StopMode aMode); 1000 void Resume(void); 1001 void Pause(void); 1002 void HandleNotifierEvents(Events aEvents); 1003 void HandleRoleChanged(void); 1004 bool ShouldUpdateHostAutoAddresses(void) const; 1005 bool ShouldHostAutoAddressRegister(const Ip6::Netif::UnicastAddress &aUnicastAddress) const; 1006 Error UpdateHostInfoStateOnAddressChange(void); 1007 void UpdateServiceStateToRemove(Service &aService); GetState(void) const1008 State GetState(void) const { return mState; } 1009 void SetState(State aState); 1010 void ChangeHostAndServiceStates(const ItemState *aNewStates, ServiceStateChangeMode aMode); 1011 void InvokeCallback(Error aError) const; 1012 void InvokeCallback(Error aError, const HostInfo &aHostInfo, const Service *aRemovedServices) const; 1013 void HandleHostInfoOrServiceChange(void); 1014 void SendUpdate(void); 1015 Error PrepareUpdateMessage(Message &aMessage); 1016 #if OPENTHREAD_CONFIG_PLATFORM_KEY_REFERENCES_ENABLE 1017 Error ReadOrGenerateKey(Crypto::Ecdsa::P256::KeyPairAsRef &aKeyRef); 1018 #else 1019 Error ReadOrGenerateKey(Crypto::Ecdsa::P256::KeyPair &aKeyPair); 1020 #endif 1021 Error AppendServiceInstructions(Message &aMessage, Info &aInfo); 1022 bool CanAppendService(const Service &aService); 1023 Error AppendServiceInstruction(Service &aService, Message &aMessage, Info &aInfo); 1024 Error AppendHostDescriptionInstruction(Message &aMessage, Info &aInfo); 1025 Error AppendKeyRecord(Message &aMessage, Info &aInfo) const; 1026 Error AppendDeleteAllRrsets(Message &aMessage) const; 1027 Error AppendHostName(Message &aMessage, Info &aInfo, bool aDoNotCompress = false) const; 1028 Error AppendAaaaRecord(const Ip6::Address &aAddress, Message &aMessage, Info &aInfo) const; 1029 Error AppendUpdateLeaseOptRecord(Message &aMessage); 1030 Error AppendSignature(Message &aMessage, Info &aInfo); 1031 void UpdateRecordLengthInMessage(Dns::ResourceRecord &aRecord, uint16_t aOffset, Message &aMessage) const; 1032 static void HandleUdpReceive(void *aContext, otMessage *aMessage, const otMessageInfo *aMessageInfo); 1033 void ProcessResponse(Message &aMessage); 1034 void HandleUpdateDone(void); 1035 void GetRemovedServices(LinkedList<Service> &aRemovedServices); 1036 static Error ReadResourceRecord(const Message &aMessage, uint16_t &aOffset, Dns::ResourceRecord &aRecord); 1037 Error ProcessOptRecord(const Message &aMessage, uint16_t aOffset, const Dns::OptRecord &aOptRecord); 1038 void UpdateState(void); GetRetryWaitInterval(void) const1039 uint32_t GetRetryWaitInterval(void) const { return mRetryWaitInterval; } ResetRetryWaitInterval(void)1040 void ResetRetryWaitInterval(void) { mRetryWaitInterval = kMinRetryWaitInterval; } 1041 void GrowRetryWaitInterval(void); 1042 uint32_t DetermineLeaseInterval(uint32_t aInterval, uint32_t aDefaultInterval) const; 1043 uint32_t DetermineTtl(void) const; 1044 bool ShouldRenewEarly(const Service &aService) const; 1045 void HandleTimer(void); 1046 #if OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_API_ENABLE 1047 void ProcessAutoStart(void); 1048 Error SelectUnicastEntry(DnsSrpUnicast::Origin aOrigin, DnsSrpUnicast::Info &aInfo) const; 1049 #if OPENTHREAD_CONFIG_SRP_CLIENT_SWITCH_SERVER_ON_FAILURE 1050 void SelectNextServer(bool aDisallowSwitchOnRegisteredHost); 1051 #endif 1052 #endif 1053 1054 #if OT_SHOULD_LOG_AT(OT_LOG_LEVEL_INFO) 1055 static const char *StateToString(State aState); 1056 void LogRetryWaitInterval(void) const; 1057 #else LogRetryWaitInterval(void) const1058 void LogRetryWaitInterval(void) const {} 1059 #endif 1060 1061 static const char kDefaultDomainName[]; 1062 1063 static_assert(kMaxTxFailureRetries < 16, "kMaxTxFailureRetries exceed the range of mTxFailureRetryCount (4-bit)"); 1064 1065 using DelayTimer = TimerMilliIn<Client, &Client::HandleTimer>; 1066 1067 State mState; 1068 uint8_t mTxFailureRetryCount : 4; 1069 bool mShouldRemoveKeyLease : 1; 1070 bool mSingleServiceMode : 1; 1071 #if OPENTHREAD_CONFIG_REFERENCE_DEVICE_ENABLE 1072 bool mServiceKeyRecordEnabled : 1; 1073 bool mUseShortLeaseOption : 1; 1074 #endif 1075 1076 uint16_t mUpdateMessageId; 1077 uint16_t mAutoHostAddressCount; 1078 uint32_t mRetryWaitInterval; 1079 1080 TimeMilli mLeaseRenewTime; 1081 uint32_t mTtl; 1082 uint32_t mLease; 1083 uint32_t mKeyLease; 1084 uint32_t mDefaultLease; 1085 uint32_t mDefaultKeyLease; 1086 1087 Ip6::Udp::Socket mSocket; 1088 1089 Callback<ClientCallback> mCallback; 1090 const char *mDomainName; 1091 HostInfo mHostInfo; 1092 LinkedList<Service> mServices; 1093 DelayTimer mTimer; 1094 #if OPENTHREAD_CONFIG_SRP_CLIENT_AUTO_START_API_ENABLE 1095 AutoStart mAutoStart; 1096 #endif 1097 }; 1098 1099 } // namespace Srp 1100 1101 DefineCoreType(otSrpClientHostInfo, Srp::Client::HostInfo); 1102 DefineCoreType(otSrpClientService, Srp::Client::Service); 1103 DefineMapEnum(otSrpClientItemState, Srp::Client::ItemState); 1104 1105 } // namespace ot 1106 1107 #endif // OPENTHREAD_CONFIG_SRP_CLIENT_ENABLE 1108 1109 #endif // SRP_CLIENT_HPP_ 1110