1 /** @file 2 Provide IPsec Key Exchange (IKE) service general interfaces. 3 4 Copyright (c) 2010 - 2015, Intel Corporation. All rights reserved.<BR> 5 6 This program and the accompanying materials 7 are licensed and made available under the terms and conditions of the BSD License 8 which accompanies this distribution. The full text of the license may be found at 9 http://opensource.org/licenses/bsd-license.php. 10 11 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, 12 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. 13 14 **/ 15 16 #include "IkeService.h" 17 #include "IpSecConfigImpl.h" 18 19 IKE_EXCHANGE_INTERFACE *mIkeExchange[] = { 20 &mIkev1Exchange, 21 &mIkev2Exchange 22 }; 23 24 EFI_UDP4_CONFIG_DATA mUdp4Conf = { 25 FALSE, 26 FALSE, 27 FALSE, 28 TRUE, 29 // 30 // IO parameters 31 // 32 0, 33 64, 34 FALSE, 35 0, 36 1000000, 37 FALSE, 38 {{0,0,0,0}}, 39 {{0,0,0,0}}, 40 IKE_DEFAULT_PORT, 41 {{0,0,0,0}}, 42 0 43 }; 44 45 EFI_UDP6_CONFIG_DATA mUdp6Conf = { 46 FALSE, 47 FALSE, 48 TRUE, 49 // 50 // IO parameters 51 // 52 0, 53 128, 54 0, 55 1000000, 56 //Access Point 57 {{0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}}, 58 IKE_DEFAULT_PORT, 59 {{0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}}, 60 0 61 }; 62 63 /** 64 Check if the NIC handle is binded to a Udp service. 65 66 @param[in] Private Pointer of IPSEC_PRIVATE_DATA. 67 @param[in] Handle The Handle of the NIC card. 68 @param[in] IpVersion The version of the IP stack. 69 70 @return a pointer of IKE_UDP_SERVICE. 71 72 **/ 73 IKE_UDP_SERVICE * 74 IkeLookupUdp ( 75 IN IPSEC_PRIVATE_DATA *Private, 76 IN EFI_HANDLE Handle, 77 IN UINT8 IpVersion 78 ) 79 { 80 LIST_ENTRY *Head; 81 LIST_ENTRY *Entry; 82 LIST_ENTRY *Next; 83 IKE_UDP_SERVICE *Udp; 84 85 Udp = NULL; 86 Head = (IpVersion == IP_VERSION_4) ? &Private->Udp4List : &Private->Udp6List; 87 88 NET_LIST_FOR_EACH_SAFE (Entry, Next, Head) { 89 90 Udp = IPSEC_UDP_SERVICE_FROM_LIST (Entry); 91 // 92 // Find the right udp service which installed on the appointed NIC handle. 93 // 94 if (Handle == Udp->NicHandle) { 95 break; 96 } else { 97 Udp = NULL; 98 } 99 } 100 101 return Udp; 102 } 103 104 /** 105 Configure a UDPIO's UDP4 instance. 106 107 This fuction is called by the UdpIoCreateIo() to configures a 108 UDP4 instance. 109 110 @param[in] UdpIo The UDP_IO to be configured. 111 @param[in] Context User-defined data when calling UdpIoCreateIo(). 112 113 @retval EFI_SUCCESS The configuration succeeded. 114 @retval Others The UDP4 instance fails to configure. 115 116 **/ 117 EFI_STATUS 118 EFIAPI 119 IkeConfigUdp4 ( 120 IN UDP_IO *UdpIo, 121 IN VOID *Context 122 ) 123 { 124 EFI_UDP4_CONFIG_DATA Udp4Cfg; 125 EFI_UDP4_PROTOCOL *Udp4; 126 127 ZeroMem (&Udp4Cfg, sizeof (EFI_UDP4_CONFIG_DATA)); 128 129 Udp4 = UdpIo->Protocol.Udp4; 130 CopyMem ( 131 &Udp4Cfg, 132 &mUdp4Conf, 133 sizeof (EFI_UDP4_CONFIG_DATA) 134 ); 135 136 if (Context != NULL) { 137 // 138 // Configure udp4 io with local default address. 139 // 140 Udp4Cfg.UseDefaultAddress = TRUE; 141 } 142 143 return Udp4->Configure (Udp4, &Udp4Cfg); 144 } 145 146 /** 147 Configure a UDPIO's UDP6 instance. 148 149 This fuction is called by the UdpIoCreateIo()to configure a 150 UDP6 instance. 151 152 @param[in] UdpIo The UDP_IO to be configured. 153 @param[in] Context User-defined data when calling UdpIoCreateIo(). 154 155 @retval EFI_SUCCESS The configuration succeeded. 156 @retval Others The configuration fails. 157 158 **/ 159 EFI_STATUS 160 EFIAPI 161 IkeConfigUdp6 ( 162 IN UDP_IO *UdpIo, 163 IN VOID *Context 164 ) 165 { 166 EFI_UDP6_PROTOCOL *Udp6; 167 EFI_UDP6_CONFIG_DATA Udp6Cfg; 168 169 ZeroMem (&Udp6Cfg, sizeof (EFI_UDP6_CONFIG_DATA)); 170 171 Udp6 = UdpIo->Protocol.Udp6; 172 CopyMem ( 173 &Udp6Cfg, 174 &mUdp6Conf, 175 sizeof (EFI_UDP6_CONFIG_DATA) 176 ); 177 178 if (Context != NULL) { 179 // 180 // Configure instance with a destination address to start source address 181 // selection, and then get the configure data from the mode data to store 182 // the source address. 183 // 184 CopyMem ( 185 &Udp6Cfg.RemoteAddress, 186 Context, 187 sizeof (EFI_IPv6_ADDRESS) 188 ); 189 } 190 191 return Udp6->Configure (Udp6, &Udp6Cfg); 192 } 193 194 /** 195 Open and configure the related output UDPIO for IKE packet sending. 196 197 If the UdpService is not configured, this fuction calls UdpIoCreatIo() to 198 create UDPIO to bind this UdpService for IKE packet sending. If the UdpService 199 has already been configured, then return. 200 201 @param[in] UdpService The UDP_IO to be configured. 202 @param[in] RemoteIp User-defined data when calling UdpIoCreateIo(). 203 204 @retval EFI_SUCCESS The configuration is successful. 205 @retval Others The configuration fails. 206 207 **/ 208 EFI_STATUS 209 IkeOpenOutputUdp ( 210 IN IKE_UDP_SERVICE *UdpService, 211 IN EFI_IP_ADDRESS *RemoteIp 212 ) 213 { 214 EFI_STATUS Status; 215 EFI_IP4_CONFIG2_PROTOCOL *Ip4Cfg2; 216 EFI_IP4_CONFIG2_INTERFACE_INFO *IfInfo; 217 UINTN BufSize; 218 EFI_IP6_MODE_DATA Ip6ModeData; 219 EFI_UDP6_PROTOCOL *Udp6; 220 221 Status = EFI_SUCCESS; 222 IfInfo = NULL; 223 BufSize = 0; 224 225 // 226 // Check whether the input and output udp io are both configured. 227 // 228 if (UdpService->IsConfigured) { 229 goto ON_EXIT; 230 } 231 232 if (UdpService->IpVersion == UDP_IO_UDP4_VERSION) { 233 // 234 // Handle ip4config protocol to get local default address. 235 // 236 Status = gBS->HandleProtocol ( 237 UdpService->NicHandle, 238 &gEfiIp4Config2ProtocolGuid, 239 (VOID **) &Ip4Cfg2 240 ); 241 242 if (EFI_ERROR (Status)) { 243 goto ON_EXIT; 244 } 245 246 // 247 // Get the interface information size. 248 // 249 Status = Ip4Cfg2->GetData ( 250 Ip4Cfg2, 251 Ip4Config2DataTypeInterfaceInfo, 252 &BufSize, 253 NULL 254 ); 255 256 if (EFI_ERROR (Status) && Status != EFI_BUFFER_TOO_SMALL) { 257 goto ON_EXIT; 258 } 259 260 IfInfo = AllocateZeroPool (BufSize); 261 262 if (IfInfo == NULL) { 263 Status = EFI_OUT_OF_RESOURCES; 264 goto ON_EXIT; 265 } 266 267 // 268 // Get the interface info. 269 // 270 Status = Ip4Cfg2->GetData ( 271 Ip4Cfg2, 272 Ip4Config2DataTypeInterfaceInfo, 273 &BufSize, 274 IfInfo 275 ); 276 277 if (EFI_ERROR (Status)) { 278 goto ON_EXIT; 279 } 280 281 CopyMem ( 282 &UdpService->DefaultAddress.v4, 283 &IfInfo->StationAddress, 284 sizeof (EFI_IPv4_ADDRESS) 285 ); 286 287 // 288 // Create udp4 io for output with local default address. 289 // 290 UdpService->Output = UdpIoCreateIo ( 291 UdpService->NicHandle, 292 UdpService->ImageHandle, 293 IkeConfigUdp4, 294 UDP_IO_UDP4_VERSION, 295 &UdpService->DefaultAddress 296 ); 297 298 if (UdpService->Output == NULL) { 299 Status = EFI_OUT_OF_RESOURCES; 300 goto ON_EXIT; 301 } 302 303 } else { 304 // 305 // Create udp6 io for output with remote address. 306 // 307 UdpService->Output = UdpIoCreateIo ( 308 UdpService->NicHandle, 309 UdpService->ImageHandle, 310 IkeConfigUdp6, 311 UDP_IO_UDP6_VERSION, 312 RemoteIp 313 ); 314 315 if (UdpService->Output == NULL) { 316 Status = EFI_OUT_OF_RESOURCES; 317 goto ON_EXIT; 318 } 319 // 320 // Get ip6 mode data to get the result of source address selection. 321 // 322 ZeroMem (&Ip6ModeData, sizeof (EFI_IP6_MODE_DATA)); 323 324 Udp6 = UdpService->Output->Protocol.Udp6; 325 Status = Udp6->GetModeData (Udp6, NULL, &Ip6ModeData, NULL, NULL); 326 327 if (EFI_ERROR (Status)) { 328 UdpIoFreeIo (UdpService->Output); 329 goto ON_EXIT; 330 } 331 // 332 // Reconfigure udp6 io without remote address. 333 // 334 Udp6->Configure (Udp6, NULL); 335 Status = IkeConfigUdp6 (UdpService->Output, NULL); 336 337 // 338 // Record the selected source address for ipsec process later. 339 // 340 CopyMem ( 341 &UdpService->DefaultAddress.v6, 342 &Ip6ModeData.ConfigData.StationAddress, 343 sizeof (EFI_IPv6_ADDRESS) 344 ); 345 } 346 347 UdpService->IsConfigured = TRUE; 348 349 ON_EXIT: 350 if (IfInfo != NULL) { 351 FreePool (IfInfo); 352 } 353 354 return Status; 355 } 356 357 /** 358 Open and configure a UDPIO of Udp4 for IKE packet receiving. 359 360 This function is called at the IPsecDriverBinding start. IPsec create a UDP4 and 361 UDP4 IO for each NIC handle. 362 363 @param[in] Private Point to IPSEC_PRIVATE_DATA 364 @param[in] Controller Handler for NIC card. 365 @param[in] ImageHandle The handle that contains the EFI_DRIVER_BINDING_PROTOCOL instance. 366 367 @retval EFI_SUCCESS The Operation is successful. 368 @retval EFI_OUT_OF_RESOURCE The required system resource can't be allocated. 369 370 **/ 371 EFI_STATUS 372 IkeOpenInputUdp4 ( 373 IN IPSEC_PRIVATE_DATA *Private, 374 IN EFI_HANDLE Controller, 375 IN EFI_HANDLE ImageHandle 376 ) 377 { 378 IKE_UDP_SERVICE *Udp4Srv; 379 380 // 381 // Check whether udp4 io of the controller has already been opened. 382 // 383 Udp4Srv = IkeLookupUdp (Private, Controller, IP_VERSION_4); 384 385 if (Udp4Srv != NULL) { 386 return EFI_ALREADY_STARTED; 387 } 388 389 Udp4Srv = AllocateZeroPool (sizeof (IKE_UDP_SERVICE)); 390 391 if (Udp4Srv == NULL) { 392 return EFI_OUT_OF_RESOURCES; 393 } 394 // 395 // Create udp4 io for iutput. 396 // 397 Udp4Srv->Input = UdpIoCreateIo ( 398 Controller, 399 ImageHandle, 400 IkeConfigUdp4, 401 UDP_IO_UDP4_VERSION, 402 NULL 403 ); 404 405 if (Udp4Srv->Input == NULL) { 406 FreePool (Udp4Srv); 407 return EFI_OUT_OF_RESOURCES; 408 } 409 410 Udp4Srv->NicHandle = Controller; 411 Udp4Srv->ImageHandle = ImageHandle; 412 Udp4Srv->ListHead = &(Private->Udp4List); 413 Udp4Srv->IpVersion = UDP_IO_UDP4_VERSION; 414 Udp4Srv->IsConfigured = FALSE; 415 416 ZeroMem (&Udp4Srv->DefaultAddress, sizeof (EFI_IP_ADDRESS)); 417 418 // 419 // Insert the udp4 io into the list and increase the count. 420 // 421 InsertTailList (&Private->Udp4List, &Udp4Srv->List); 422 423 Private->Udp4Num++; 424 425 UdpIoRecvDatagram (Udp4Srv->Input, IkeDispatch, Udp4Srv, 0); 426 427 return EFI_SUCCESS; 428 } 429 430 /** 431 Open and configure a UDPIO of Udp6 for IKE packet receiving. 432 433 This function is called at the IPsecDriverBinding start. IPsec create a UDP6 and UDP6 434 IO for each NIC handle. 435 436 @param[in] Private Point to IPSEC_PRIVATE_DATA 437 @param[in] Controller Handler for NIC card. 438 @param[in] ImageHandle The handle that contains the EFI_DRIVER_BINDING_PROTOCOL instance. 439 440 @retval EFI_SUCCESS The Operation is successful. 441 @retval EFI_OUT_OF_RESOURCE The required system resource can't be allocated. 442 443 **/ 444 EFI_STATUS 445 IkeOpenInputUdp6 ( 446 IN IPSEC_PRIVATE_DATA *Private, 447 IN EFI_HANDLE Controller, 448 IN EFI_HANDLE ImageHandle 449 ) 450 { 451 IKE_UDP_SERVICE *Udp6Srv; 452 453 Udp6Srv = IkeLookupUdp (Private, Controller, IP_VERSION_6); 454 455 if (Udp6Srv != NULL) { 456 return EFI_ALREADY_STARTED; 457 } 458 459 Udp6Srv = AllocateZeroPool (sizeof (IKE_UDP_SERVICE)); 460 461 if (Udp6Srv == NULL) { 462 return EFI_OUT_OF_RESOURCES; 463 } 464 // 465 // Create udp6 io for input. 466 // 467 Udp6Srv->Input = UdpIoCreateIo ( 468 Controller, 469 ImageHandle, 470 IkeConfigUdp6, 471 UDP_IO_UDP6_VERSION, 472 NULL 473 ); 474 475 if (Udp6Srv->Input == NULL) { 476 FreePool (Udp6Srv); 477 return EFI_OUT_OF_RESOURCES; 478 } 479 480 Udp6Srv->NicHandle = Controller; 481 Udp6Srv->ImageHandle = ImageHandle; 482 Udp6Srv->ListHead = &(Private->Udp6List); 483 Udp6Srv->IpVersion = UDP_IO_UDP6_VERSION; 484 Udp6Srv->IsConfigured = FALSE; 485 486 ZeroMem (&Udp6Srv->DefaultAddress, sizeof (EFI_IP_ADDRESS)); 487 488 // 489 // Insert the udp6 io into the list and increase the count. 490 // 491 InsertTailList (&Private->Udp6List, &Udp6Srv->List); 492 493 Private->Udp6Num++; 494 495 UdpIoRecvDatagram (Udp6Srv->Input, IkeDispatch, Udp6Srv, 0); 496 497 return EFI_SUCCESS; 498 } 499 500 /** 501 The general interface of starting IPsec Key Exchange. 502 503 This function is called when a IKE negotiation to start getting a Key. 504 505 @param[in] UdpService Point to IKE_UDP_SERVICE which will be used for 506 IKE packet sending. 507 @param[in] SpdEntry Point to the SPD entry related to the IKE negotiation. 508 @param[in] RemoteIp Point to EFI_IP_ADDRESS related to the IKE negotiation. 509 510 @retval EFI_SUCCESS The Operation is successful. 511 @retval EFI_ACCESS_DENIED No related PAD entry was found. 512 @retval EFI_INVALID_PARAMETER The IKE version is not supported. 513 514 **/ 515 EFI_STATUS 516 IkeNegotiate ( 517 IN IKE_UDP_SERVICE *UdpService, 518 IN IPSEC_SPD_ENTRY *SpdEntry, 519 IN EFI_IP_ADDRESS *RemoteIp 520 ) 521 { 522 EFI_STATUS Status; 523 UINT8 *IkeSaSession; 524 IKE_EXCHANGE_INTERFACE *Exchange; 525 IPSEC_PRIVATE_DATA *Private; 526 IPSEC_PAD_ENTRY *PadEntry; 527 UINT8 IkeVersion; 528 529 Private = (UdpService->IpVersion == IP_VERSION_4) ? 530 IPSEC_PRIVATE_DATA_FROM_UDP4LIST(UdpService->ListHead) : 531 IPSEC_PRIVATE_DATA_FROM_UDP6LIST(UdpService->ListHead); 532 533 // 534 // Try to open udp io for output if it hasn't. 535 // 536 Status = IkeOpenOutputUdp (UdpService, RemoteIp); 537 if (EFI_ERROR (Status)) { 538 return Status; 539 } 540 // 541 // Try to find the IKE SA session in the IKEv1 and IKEv2 established SA session list. 542 // 543 IkeSaSession = (UINT8 *) Ikev2SaSessionLookup (&Private->Ikev2EstablishedList, RemoteIp); 544 545 546 if (IkeSaSession == NULL) { 547 // 548 // Find the pad entry by the remote ip address. 549 // 550 PadEntry = IpSecLookupPadEntry (UdpService->IpVersion, RemoteIp); 551 if (PadEntry == NULL) { 552 return EFI_ACCESS_DENIED; 553 } 554 // 555 // Determine the IKE exchange instance by the auth protocol in pad entry. 556 // 557 ASSERT (PadEntry->Data->AuthProtocol < EfiIPsecAuthProtocolMaximum); 558 if (PadEntry->Data->AuthProtocol == EfiIPsecAuthProtocolIKEv1) { 559 return EFI_INVALID_PARAMETER; 560 } 561 Exchange = mIkeExchange[PadEntry->Data->AuthProtocol]; 562 // 563 // Start the main mode stage to negotiate IKE SA. 564 // 565 Status = Exchange->NegotiateSa (UdpService, SpdEntry, PadEntry, RemoteIp); 566 } else { 567 // 568 // Determine the IKE exchange instance by the IKE version in IKE SA session. 569 // 570 IkeVersion = IkeGetVersionFromSession (IkeSaSession); 571 if (IkeVersion != 2) { 572 return EFI_INVALID_PARAMETER; 573 } 574 575 Exchange = mIkeExchange[IkeVersion - 1]; 576 // 577 // Start the quick mode stage to negotiate child SA. 578 // 579 Status = Exchange->NegotiateChildSa (IkeSaSession, SpdEntry, NULL); 580 } 581 582 return Status; 583 } 584 585 /** 586 The generic interface when receive a IKE packet. 587 588 This function is called when UDP IO receives a IKE packet. 589 590 @param[in] Packet Point to received IKE packet. 591 @param[in] EndPoint Point to UDP_END_POINT which contains the information of 592 Remote IP and Port. 593 @param[in] IoStatus The Status of Recieve Token. 594 @param[in] Context Point to data passed from the caller. 595 596 **/ 597 VOID 598 EFIAPI 599 IkeDispatch ( 600 IN NET_BUF *Packet, 601 IN UDP_END_POINT *EndPoint, 602 IN EFI_STATUS IoStatus, 603 IN VOID *Context 604 ) 605 { 606 IPSEC_PRIVATE_DATA *Private; 607 IKE_PACKET *IkePacket; 608 IKE_HEADER *IkeHdr; 609 IKE_UDP_SERVICE *UdpService; 610 IKE_EXCHANGE_INTERFACE *Exchange; 611 EFI_STATUS Status; 612 613 UdpService = (IKE_UDP_SERVICE *) Context; 614 IkePacket = NULL; 615 Private = (UdpService->IpVersion == IP_VERSION_4) ? 616 IPSEC_PRIVATE_DATA_FROM_UDP4LIST(UdpService->ListHead) : 617 IPSEC_PRIVATE_DATA_FROM_UDP6LIST(UdpService->ListHead); 618 619 if (EFI_ERROR (IoStatus)) { 620 goto ON_EXIT; 621 } 622 // 623 // Check whether the ipsec is enabled or not. 624 // 625 if (Private->IpSec.DisabledFlag == TRUE) { 626 goto ON_EXIT; 627 } 628 629 if (EndPoint->RemotePort != IKE_DEFAULT_PORT) { 630 goto ON_EXIT; 631 } 632 633 // 634 // Build IKE packet from the received netbuf. 635 // 636 IkePacket = IkePacketFromNetbuf (Packet); 637 638 if (IkePacket == NULL) { 639 goto ON_EXIT; 640 } 641 // 642 // Get the remote address from the IKE packet. 643 // 644 if (UdpService->IpVersion == IP_VERSION_4) { 645 *(UINT32 *) IkePacket->RemotePeerIp.Addr = HTONL ((*(UINT32 *) EndPoint->RemoteAddr.Addr)); 646 } else { 647 CopyMem ( 648 &IkePacket->RemotePeerIp, 649 NTOHLLL (&EndPoint->RemoteAddr.v6), 650 sizeof (EFI_IPv6_ADDRESS) 651 ); 652 } 653 // 654 // Try to open udp io for output if hasn't. 655 // 656 Status = IkeOpenOutputUdp (UdpService, &IkePacket->RemotePeerIp); 657 658 if (EFI_ERROR (Status)) { 659 goto ON_EXIT; 660 } 661 662 IkeHdr = IkePacket->Header; 663 664 // 665 // Determine the IKE exchange instance by the IKE version in IKE header. 666 // 667 if (IKE_MAJOR_VERSION (IkeHdr->Version) == 2) { 668 Exchange = mIkeExchange[IKE_MAJOR_VERSION (IkeHdr->Version) - 1]; 669 } else { 670 goto ON_EXIT; 671 } 672 673 switch (IkeHdr->ExchangeType) { 674 case IKE_XCG_TYPE_IDENTITY_PROTECT: 675 case IKE_XCG_TYPE_SA_INIT: 676 case IKE_XCG_TYPE_AUTH: 677 Exchange->HandleSa (UdpService, IkePacket); 678 break; 679 680 case IKE_XCG_TYPE_QM: 681 case IKE_XCG_TYPE_CREATE_CHILD_SA: 682 Exchange->HandleChildSa (UdpService, IkePacket); 683 break; 684 685 case IKE_XCG_TYPE_INFO: 686 case IKE_XCG_TYPE_INFO2: 687 Exchange->HandleInfo (UdpService, IkePacket); 688 break; 689 690 default: 691 break; 692 } 693 694 ON_EXIT: 695 if (IkePacket != NULL) { 696 IkePacketFree (IkePacket); 697 } 698 699 if (Packet != NULL) { 700 NetbufFree (Packet); 701 } 702 703 UdpIoRecvDatagram (UdpService->Input, IkeDispatch, UdpService, 0); 704 705 return ; 706 } 707 708 /** 709 Delete all established IKE SAs and related Child SAs. 710 711 This function is the subfunction of the IpSecCleanupAllSa(). It first calls 712 IkeDeleteChildSa() to delete all Child SAs then send out the related 713 Information packet. 714 715 @param[in] Private Pointer of the IPSEC_PRIVATE_DATA 716 @param[in] IsDisableIpsec Indicate whether needs to disable IPsec. 717 718 **/ 719 VOID 720 IkeDeleteAllSas ( 721 IN IPSEC_PRIVATE_DATA *Private, 722 IN BOOLEAN IsDisableIpsec 723 ) 724 { 725 LIST_ENTRY *Entry; 726 LIST_ENTRY *NextEntry; 727 IKEV2_SA_SESSION *Ikev2SaSession; 728 UINT8 Value; 729 EFI_STATUS Status; 730 IKE_EXCHANGE_INTERFACE *Exchange; 731 UINT8 IkeVersion; 732 733 Exchange = NULL; 734 735 // 736 // If the IKEv1 is supported, first deal with the Ikev1Estatblished list. 737 // 738 739 // 740 // If IKEv2 SAs are under establishing, delete it directly. 741 // 742 if (!IsListEmpty (&Private->Ikev2SessionList)) { 743 NET_LIST_FOR_EACH_SAFE (Entry, NextEntry, &Private->Ikev2SessionList) { 744 Ikev2SaSession = IKEV2_SA_SESSION_BY_SESSION (Entry); 745 RemoveEntryList (Entry); 746 Ikev2SaSessionFree (Ikev2SaSession); 747 } 748 } 749 750 // 751 // If there is no existing established IKE SA, set the Ipsec DisableFlag to TRUE 752 // and turn off the IsIPsecDisabling flag. 753 // 754 if (IsListEmpty (&Private->Ikev2EstablishedList) && IsDisableIpsec) { 755 Value = IPSEC_STATUS_DISABLED; 756 Status = gRT->SetVariable ( 757 IPSECCONFIG_STATUS_NAME, 758 &gEfiIpSecConfigProtocolGuid, 759 EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_NON_VOLATILE, 760 sizeof (Value), 761 &Value 762 ); 763 if (!EFI_ERROR (Status)) { 764 Private->IpSec.DisabledFlag = TRUE; 765 Private->IsIPsecDisabling = FALSE; 766 return ; 767 } 768 } 769 770 // 771 // Delete established IKEv2 SAs. 772 // 773 if (!IsListEmpty (&Private->Ikev2EstablishedList)) { 774 for (Entry = Private->Ikev2EstablishedList.ForwardLink; Entry != &Private->Ikev2EstablishedList;) { 775 Ikev2SaSession = IKEV2_SA_SESSION_BY_SESSION (Entry); 776 Entry = Entry->ForwardLink; 777 778 Ikev2SaSession->SessionCommon.State = IkeStateSaDeleting; 779 780 // 781 // Call for Information Exchange. 782 // 783 IkeVersion = IkeGetVersionFromSession ((UINT8*)Ikev2SaSession); 784 if (IkeVersion == 2) { 785 Exchange = mIkeExchange[IkeVersion - 1]; 786 Exchange->NegotiateInfo((UINT8*)Ikev2SaSession, NULL); 787 } 788 } 789 } 790 791 } 792 793 794 795