// SoftEther VPN Source Code // Cedar Communication Module // // SoftEther VPN Server, Client and Bridge are free software under GPLv2. // // Copyright (c) 2012-2014 Daiyuu Nobori. // Copyright (c) 2012-2014 SoftEther VPN Project, University of Tsukuba, Japan. // Copyright (c) 2012-2014 SoftEther Corporation. // // All Rights Reserved. // // http://www.softether.org/ // // Author: Daiyuu Nobori // Comments: Tetsuo Sugiyama, Ph.D. // // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License // version 2 as published by the Free Software Foundation. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License version 2 // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. // IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY // CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, // TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE // SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // // THE LICENSE AGREEMENT IS ATTACHED ON THE SOURCE-CODE PACKAGE // AS "LICENSE.TXT" FILE. READ THE TEXT FILE IN ADVANCE TO USE THE SOFTWARE. // // // THIS SOFTWARE IS DEVELOPED IN JAPAN, AND DISTRIBUTED FROM JAPAN, // UNDER JAPANESE LAWS. YOU MUST AGREE IN ADVANCE TO USE, COPY, MODIFY, // MERGE, PUBLISH, DISTRIBUTE, SUBLICENSE, AND/OR SELL COPIES OF THIS // SOFTWARE, THAT ANY JURIDICAL DISPUTES WHICH ARE CONCERNED TO THIS // SOFTWARE OR ITS CONTENTS, AGAINST US (SOFTETHER PROJECT, SOFTETHER // CORPORATION, DAIYUU NOBORI OR OTHER SUPPLIERS), OR ANY JURIDICAL // DISPUTES AGAINST US WHICH ARE CAUSED BY ANY KIND OF USING, COPYING, // MODIFYING, MERGING, PUBLISHING, DISTRIBUTING, SUBLICENSING, AND/OR // SELLING COPIES OF THIS SOFTWARE SHALL BE REGARDED AS BE CONSTRUED AND // CONTROLLED BY JAPANESE LAWS, AND YOU MUST FURTHER CONSENT TO // EXCLUSIVE JURISDICTION AND VENUE IN THE COURTS SITTING IN TOKYO, // JAPAN. YOU MUST WAIVE ALL DEFENSES OF LACK OF PERSONAL JURISDICTION // AND FORUM NON CONVENIENS. PROCESS MAY BE SERVED ON EITHER PARTY IN // THE MANNER AUTHORIZED BY APPLICABLE LAW OR COURT RULE. // // USE ONLY IN JAPAN. DO NOT USE IT IN OTHER COUNTRIES. IMPORTING THIS // SOFTWARE INTO OTHER COUNTRIES IS AT YOUR OWN RISK. SOME COUNTRIES // PROHIBIT ENCRYPTED COMMUNICATIONS. USING THIS SOFTWARE IN OTHER // COUNTRIES MIGHT BE RESTRICTED. // // // DEAR SECURITY EXPERTS // --------------------- // // If you find a bug or a security vulnerability please kindly inform us // about the problem immediately so that we can fix the security problem // to protect a lot of users around the world as soon as possible. // // Our e-mail address for security reports is: // softether-vpn-security [at] softether.org // // Please note that the above e-mail address is not a technical support // inquiry address. If you need technical assistance, please visit // http://www.softether.org/ and ask your question on the users forum. // // Thank you for your cooperation. // IPsec_IkePacket.h // Header of IPsec_IkePacket.c #ifndef IPSEC_PACKET_H #define IPSEC_PACKET_H // Constants #ifdef OS_WIN32 #pragma pack(push, 1) #endif // OS_WIN32 // Maximum hash size #define IKE_MAX_HASH_SIZE 20 // Size of SHA-1 is the maximum for now // Maximum block size #define IKE_MAX_BLOCK_SIZE 16 // Size of AES is maximum at the moment // Maximum key size #define IKE_MAX_KEY_SIZE 32 // Size of AES-256 is the maximum for now // IKE version #define IKE_VERSION 0x10 // 1.0 // IKE payload type #define IKE_PAYLOAD_NONE 0 // No payload #define IKE_PAYLOAD_SA 1 // SA payload #define IKE_PAYLOAD_PROPOSAL 2 // Proposal payload #define IKE_PAYLOAD_TRANSFORM 3 // Transform payload #define IKE_PAYLOAD_KEY_EXCHANGE 4 // Key exchange payload #define IKE_PAYLOAD_ID 5 // ID payload #define IKE_PAYLOAD_CERT 6 // Certificate payload #define IKE_PAYLOAD_CERT_REQUEST 7 // Certificate request payload #define IKE_PAYLOAD_HASH 8 // Hash payload #define IKE_PAYLOAD_SIGN 9 // Signature payload #define IKE_PAYLOAD_RAND 10 // Random number payload #define IKE_PAYLOAD_NOTICE 11 // Notification Payload #define IKE_PAYLOAD_DELETE 12 // Deletion payload #define IKE_PAYLOAD_VENDOR_ID 13 // Vendor ID payload #define IKE_PAYLOAD_NAT_D 20 // NAT-D payload #define IKE_PAYLOAD_NAT_OA 21 // NAT-OA payload #define IKE_PAYLOAD_NAT_D_DRAFT 130 // NAT-D payload draft #define IKE_PAYLOAD_NAT_OA_DRAFT 16 // NAT-OA payload draft #define IKE_PAYLOAD_NAT_OA_DRAFT_2 131 // NAT-OA payload draft 2 // Macro to check whether the payload type is supported #define IKE_IS_SUPPORTED_PAYLOAD_TYPE(i) ((((i) >= IKE_PAYLOAD_SA) && ((i) <= IKE_PAYLOAD_VENDOR_ID)) || ((i) == IKE_PAYLOAD_NAT_D) || ((i) == IKE_PAYLOAD_NAT_OA) || ((i) == IKE_PAYLOAD_NAT_OA_DRAFT) || ((i) == IKE_PAYLOAD_NAT_OA_DRAFT_2) || ((i) == IKE_PAYLOAD_NAT_D_DRAFT)) // IKE header flag #define IKE_HEADER_FLAG_ENCRYPTED 1 // Encryption #define IKE_HEADER_FLAG_COMMIT 2 // Commit #define IKE_HEADER_FLAG_AUTH_ONLY 4 // Only authentication // IKE payload common header struct IKE_COMMON_HEADER { UCHAR NextPayload; UCHAR Reserved; USHORT PayloadSize; } GCC_PACKED; // IKE SA payload header struct IKE_SA_HEADER { UINT DoI; // DOI value UINT Situation; // Situation value } GCC_PACKED; // DOI value in the IKE SA payload #define IKE_SA_DOI_IPSEC 1 // IPsec // Situation value in the IKE SA payload #define IKE_SA_SITUATION_IDENTITY 1 // Only authentication // IKE proposal payload header struct IKE_PROPOSAL_HEADER { UCHAR Number; // Number UCHAR ProtocolId; // Protocol ID UCHAR SpiSize; // Length of SPI UCHAR NumTransforms; // Transform number } GCC_PACKED; // Protocol ID in the IKE proposal payload header #define IKE_PROTOCOL_ID_IKE 1 // IKE #define IKE_PROTOCOL_ID_IPSEC_AH 2 // AH #define IKE_PROTOCOL_ID_IPSEC_ESP 3 // ESP #define IKE_PROTOCOL_ID_IPV4 4 // IP #define IKE_PROTOCOL_ID_IPV6 41 // IPv6 // IKE transform payload header struct IKE_TRANSFORM_HEADER { UCHAR Number; // Number UCHAR TransformId; // Transform ID USHORT Reserved; // Reserved } GCC_PACKED; // Transform ID (Phase 1) in IKE transform payload header #define IKE_TRANSFORM_ID_P1_KEY_IKE 1 // IKE // Transform ID (Phase 2) in IKE transform payload header #define IKE_TRANSFORM_ID_P2_ESP_DES 2 // DES-CBC #define IKE_TRANSFORM_ID_P2_ESP_3DES 3 // 3DES-CBC #define IKE_TRANSFORM_ID_P2_ESP_CAST 6 // CAST #define IKE_TRANSFORM_ID_P2_ESP_BLOWFISH 7 // BLOWFISH #define IKE_TRANSFORM_ID_P2_ESP_AES 12 // AES // IKE transform value (fixed length) struct IKE_TRANSFORM_VALUE { UCHAR AfBit; // AF bit (0: Fixed length, 1: Variable length) UCHAR Type; // Type USHORT Value; // Value data (16bit) } GCC_PACKED; // The Type value in IKE transform value (Phase 1) #define IKE_TRANSFORM_VALUE_P1_CRYPTO 1 // Encryption algorithm #define IKE_TRANSFORM_VALUE_P1_HASH 2 // Hash algorithm #define IKE_TRANSFORM_VALUE_P1_AUTH_METHOD 3 // Authentication method #define IKE_TRANSFORM_VALUE_P1_DH_GROUP 4 // DH group number #define IKE_TRANSFORM_VALUE_P1_LIFE_TYPE 11 // Expiration date type #define IKE_TRANSFORM_VALUE_P1_LIFE_VALUE 12 // Expiration date #define IKE_TRANSFORM_VALUE_P1_KET_SIZE 14 // Key size // The Type value in IKE transform values (Phase 2) #define IKE_TRANSFORM_VALUE_P2_LIFE_TYPE 1 // Expiration date type #define IKE_TRANSFORM_VALUE_P2_LIFE_VALUE 2 // Expiration date #define IKE_TRANSFORM_VALUE_P2_DH_GROUP 3 // DH group number #define IKE_TRANSFORM_VALUE_P2_CAPSULE 4 // Encapsulation mode #define IKE_TRANSFORM_VALUE_P2_HMAC 5 // HMAC algorithm #define IKE_TRANSFORM_VALUE_P2_KEY_SIZE 6 // Key size // Phase 1: The encryption algorithm in the IKE transform value #define IKE_P1_CRYPTO_DES_CBC 1 #define IKE_P1_CRYPTO_BLOWFISH 3 #define IKE_P1_CRYPTO_3DES_CBC 5 #define IKE_P1_CRYPTO_CAST_CBC 6 #define IKE_P1_CRYPTO_AES_CBC 7 // Phase 1: The hash algorithm in IKE transform value #define IKE_P1_HASH_MD5 1 #define IKE_P1_HASH_SHA1 2 // Phase 1: The authentication method in the IKE transform value #define IKE_P1_AUTH_METHOD_PRESHAREDKEY 1 #define IKE_P1_AUTH_METHOD_RSA_SIGN 3 // Phase 1: The DH group number in the IKE transform value #define IKE_P1_DH_GROUP_768_MODP 1 #define IKE_P1_DH_GROUP_1024_MODP 2 #define IKE_P1_DH_GROUP_1536_MODP 5 // Phase 1: The expiration date type in IKE transform value #define IKE_P1_LIFE_TYPE_SECONDS 1 #define IKE_P1_LIFE_TYPE_KILOBYTES 2 // Phase 2: The HMAC algorithm in IPsec transform value #define IKE_P2_HMAC_MD5_96 1 #define IKE_P2_HMAC_SHA1_96 2 // Phase 2: The DH group number in the IPsec transform value #define IKE_P2_DH_GROUP_768_MODP 1 #define IKE_P2_DH_GROUP_1024_MODP 2 #define IKE_P2_DH_GROUP_1536_MODP 5 // Phase 2: The encapsulation mode in IPsec transform value #define IKE_P2_CAPSULE_TUNNEL 1 #define IKE_P2_CAPSULE_TRANSPORT 2 #define IKE_P2_CAPSULE_NAT_TUNNEL_1 3 #define IKE_P2_CAPSULE_NAT_TUNNEL_2 61443 #define IKE_P2_CAPSULE_NAT_TRANSPORT_1 4 #define IKE_P2_CAPSULE_NAT_TRANSPORT_2 61444 // Phase 2: The expiration date type in IPsec transform value #define IKE_P2_LIFE_TYPE_SECONDS 1 #define IKE_P2_LIFE_TYPE_KILOBYTES 2 // IKE ID payload header struct IKE_ID_HEADER { UCHAR IdType; // Type of ID UCHAR ProtocolId; // Protocol ID USHORT Port; // Port } GCC_PACKED; // Type of ID in the IKE ID payload header #define IKE_ID_IPV4_ADDR 1 // IPv4 address (32 bit) #define IKE_ID_FQDN 2 // FQDN #define IKE_ID_USER_FQDN 3 // User FQDN #define IKE_ID_IPV4_ADDR_SUBNET 4 // IPv4 + subnet (64 bit) #define IKE_ID_IPV6_ADDR 5 // IPv6 address (128 bit) #define IKE_ID_IPV6_ADDR_SUBNET 6 // IPv6 + subnet (256 bit) #define IKE_ID_DER_ASN1_DN 9 // X.500 Distinguished Name #define IKE_ID_DER_ASN1_GN 10 // X.500 General Name #define IKE_ID_KEY_ID 11 // Key // The protocol ID in the IKE ID payload #define IKE_ID_PROTOCOL_UDP IP_PROTO_UDP // UDP // IKE certificate payload header struct IKE_CERT_HEADER { UCHAR CertType; // Certificate Type } GCC_PACKED; // The certificate type in IKE certificate payload header #define IKE_CERT_TYPE_X509 4 // X.509 certificate (for digital signature) // IKE certificate payload header struct IKE_CERT_REQUEST_HEADER { UCHAR CertType; // Certificate Type } GCC_PACKED; // IKE notification payload header struct IKE_NOTICE_HEADER { UINT DoI; // DOI value UCHAR ProtocolId; // Protocol ID // Same to the protocol ID in the IKE proposal payload header UCHAR SpiSize; // SPI size USHORT MessageType; // Message type } GCC_PACKED; // IKE Deletion payload header struct IKE_DELETE_HEADER { UINT DoI; // DOI value UCHAR ProtocolId; // Protocol ID // Same to the protocol ID in the IKE proposal payload header UCHAR SpiSize; // SPI size USHORT NumSpis; // SPI number } GCC_PACKED; // IKE NAT-OA payload header struct IKE_NAT_OA_HEADER { UCHAR IdType; // Type of ID UCHAR Reserved1; USHORT Reserved2; } GCC_PACKED; #ifdef OS_WIN32 #pragma pack(pop) #endif // OS_WIN32 // // IKE internal data structure // // IKE packet SA payload struct IKE_PACKET_SA_PAYLOAD { LIST *PayloadList; // Proposal payload list }; // IKE proposal packet payload struct IKE_PACKET_PROPOSAL_PAYLOAD { UCHAR Number; // Number UCHAR ProtocolId; // Protocol ID BUF *Spi; // SPI data LIST *PayloadList; // Payload list }; // IKE packet transform payload struct IKE_PACKET_TRANSFORM_PAYLOAD { UCHAR Number; // Number UCHAR TransformId; // Transform ID LIST *ValueList; // Value list }; // IKE packet transform value struct IKE_PACKET_TRANSFORM_VALUE { UCHAR Type; // Type UINT Value; // Value }; // IKE generic data payload struct IKE_PACKET_DATA_PAYLOAD { BUF *Data; // Generic data }; // IKE packet ID payload struct IKE_PACKET_ID_PAYLOAD { UCHAR Type; // Type UCHAR ProtocolId; // Protocol ID USHORT Port; // Port number BUF *IdData; // ID data char StrData[128]; // Data of the result of converting to a string }; // IKE packet certificate payload struct IKE_PACKET_CERT_PAYLOAD { UCHAR CertType; // Certificate type BUF *CertData; // Certificate data }; // IKE packet certificate request payload struct IKE_PACKET_CERT_REQUEST_PAYLOAD { UCHAR CertType; // Certificate type BUF *Data; // Request data }; // IKE packet notification payload struct IKE_PACKET_NOTICE_PAYLOAD { UCHAR ProtocolId; // Protocol ID USHORT MessageType; // Message type BUF *Spi; // SPI data BUF *MessageData; // Message data }; // IKE notification message type // Error #define IKE_NOTICE_ERROR_INVALID_COOKIE 4 // Invalid cookie #define IKE_NOTICE_ERROR_INVALID_EXCHANGE_TYPE 7 // Invalid exchange type #define IKE_NOTICE_ERROR_INVALID_SPI 11 // Invalid SPI #define IKE_NOTICE_ERROR_NO_PROPOSAL_CHOSEN 14 // There is nothing worth mentioning in the presented proposal // DPD #define IKE_NOTICE_DPD_REQUEST 36136 // R-U-THERE #define IKE_NOTICE_DPD_RESPONSE 36137 // R-U-THERE-ACK // IKE packet deletion payload struct IKE_PACKET_DELETE_PAYLOAD { UCHAR ProtocolId; // Protocol ID LIST *SpiList; // SPI list }; // IKE NAT-OA payload struct IKE_PACKET_NAT_OA_PAYLOAD { IP IpAddress; // IP address }; // IKE packet payload struct IKE_PACKET_PAYLOAD { UCHAR PayloadType; // Payload type UCHAR Padding[3]; BUF *BitArray; // Bit array union { IKE_PACKET_SA_PAYLOAD Sa; // SA payload IKE_PACKET_PROPOSAL_PAYLOAD Proposal; // Proposal payload IKE_PACKET_TRANSFORM_PAYLOAD Transform; // Transform payload IKE_PACKET_DATA_PAYLOAD KeyExchange; // Key exchange payload IKE_PACKET_ID_PAYLOAD Id; // ID payload IKE_PACKET_CERT_PAYLOAD Cert; // Certificate payload IKE_PACKET_CERT_REQUEST_PAYLOAD CertRequest; // Certificate request payload IKE_PACKET_DATA_PAYLOAD Hash; // Hash payload IKE_PACKET_DATA_PAYLOAD Sign; // Signature payload IKE_PACKET_DATA_PAYLOAD Rand; // Random number payload IKE_PACKET_NOTICE_PAYLOAD Notice; // Notification Payload IKE_PACKET_DELETE_PAYLOAD Delete; // Deletion payload IKE_PACKET_DATA_PAYLOAD VendorId; // Vendor ID payload IKE_PACKET_NAT_OA_PAYLOAD NatOa; // NAT-OA payload IKE_PACKET_DATA_PAYLOAD GeneralData; // Generic data payload } Payload; }; struct IKE_PACKET { UINT64 InitiatorCookie; // Initiator cookie UINT64 ResponderCookie; // Responder cookie UCHAR ExchangeType; // Exchange type bool FlagEncrypted; // Encryption flag bool FlagCommit; // Commit flag bool FlagAuthOnly; // Flag only authentication UINT MessageId; // Message ID LIST *PayloadList; // Payload list BUF *DecryptedPayload; // Decrypted payload UINT MessageSize; // Original size }; // IKE P1 key set struct IKE_P1_KEYSET { BUF *SKEYID_d; // IPsec SA key BUF *SKEYID_a; // IKE SA authentication key BUF *SKEYID_e; // IKE SA encryption key }; // Number and name of the encryption algorithm for IKE #define IKE_CRYPTO_DES_ID 0 #define IKE_CRYPTO_DES_STRING "DES-CBC" #define IKE_CRYPTO_3DES_ID 1 #define IKE_CRYPTO_3DES_STRING "3DES-CBC" #define IKE_CRYPTO_AES_ID 2 #define IKE_CRYPTO_AES_STRING "AES-CBC" #define IKE_CRYPTO_BLOWFISH_ID 3 #define IKE_CRYPTO_BLOWFISH_STRING "Blowfish-CBC" #define IKE_CRYPTO_CAST_ID 4 #define IKE_CRYPTO_CAST_STRING "CAST-128-CBC" // Number and name of the IKE hash algorithm #define IKE_HASH_MD5_ID 0 #define IKE_HASH_MD5_STRING "MD5" #define IKE_HASH_SHA1_ID 1 #define IKE_HASH_SHA1_STRING "SHA-1" // Number and name of DH algorithm for IKE #define IKE_DH_1_ID 0 #define IKE_DH_1_STRING "MODP 768 (Group 1)" #define IKE_DH_2_ID 1 #define IKE_DH_2_STRING "MODP 1024 (Group 2)" #define IKE_DH_5_ID 2 #define IKE_DH_5_STRING "MODP 1536 (Group 5)" // Encryption algorithm for IKE struct IKE_CRYPTO { UINT CryptoId; // ID char *Name; // Name UINT KeySizes[16]; // Key size candidate UINT BlockSize; // Block size bool VariableKeySize; // Whether the key size is variable }; // IKE encryption key struct IKE_CRYPTO_KEY { IKE_CRYPTO *Crypto; void *Data; // Key data UINT Size; // Key size DES_KEY_VALUE *DesKey1, *DesKey2, *DesKey3; // DES key AES_KEY_VALUE *AesKey; // AES key }; // IKE hash algorithm struct IKE_HASH { UINT HashId; // ID char *Name; // Name UINT HashSize; // Output size }; // DH algorithm for IKE struct IKE_DH { UINT DhId; // ID char *Name; // Name UINT KeySize; // Key size }; #define MAX_IKE_ENGINE_ELEMENTS 16 // Encryption engine for IKE struct IKE_ENGINE { IKE_CRYPTO *IkeCryptos[MAX_IKE_ENGINE_ELEMENTS]; // Encryption algorithm list that is used in the IKE IKE_HASH *IkeHashes[MAX_IKE_ENGINE_ELEMENTS]; // Hash algorithm list that is used in the IKE IKE_DH *IkeDhs[MAX_IKE_ENGINE_ELEMENTS]; // DH algorithm list that is used in the IKE IKE_CRYPTO *EspCryptos[MAX_IKE_ENGINE_ELEMENTS]; // Encryption algorithm list that is used by ESP IKE_HASH *EspHashes[MAX_IKE_ENGINE_ELEMENTS]; // Hash algorithm list that is used by ESP IKE_DH *EspDhs[MAX_IKE_ENGINE_ELEMENTS]; // DH algorithm list that is used by ESP LIST *CryptosList; LIST *HashesList; LIST *DhsList; }; // IKE encryption parameters struct IKE_CRYPTO_PARAM { IKE_CRYPTO_KEY *Key; // Key UCHAR Iv[IKE_MAX_BLOCK_SIZE]; // IV UCHAR NextIv[IKE_MAX_BLOCK_SIZE]; // IV to be used next }; // Function prototype IKE_PACKET *IkeParseHeader(void *data, UINT size, IKE_CRYPTO_PARAM *cparam); IKE_PACKET *IkeParse(void *data, UINT size, IKE_CRYPTO_PARAM *cparam); IKE_PACKET *IkeParseEx(void *data, UINT size, IKE_CRYPTO_PARAM *cparam, bool header_only); void IkeFree(IKE_PACKET *p); IKE_PACKET *IkeNew(UINT64 init_cookie, UINT64 resp_cookie, UCHAR exchange_type, bool encrypted, bool commit, bool auth_only, UINT msg_id, LIST *payload_list); void IkeDebugPrintPayloads(LIST *o, UINT depth); void IkeDebugUdpSendRawPacket(IKE_PACKET *p); BUF *IkeEncrypt(void *data, UINT size, IKE_CRYPTO_PARAM *cparam); BUF *IkeEncryptWithPadding(void *data, UINT size, IKE_CRYPTO_PARAM *cparam); BUF *IkeDecrypt(void *data, UINT size, IKE_CRYPTO_PARAM *cparam); LIST *IkeParsePayloadList(void *data, UINT size, UCHAR first_payload); LIST *IkeParsePayloadListEx(void *data, UINT size, UCHAR first_payload, UINT *total_read_size); void IkeFreePayloadList(LIST *o); UINT IkeGetPayloadNum(LIST *o, UINT payload_type); IKE_PACKET_PAYLOAD *IkeGetPayload(LIST *o, UINT payload_type, UINT index); IKE_PACKET_PAYLOAD *IkeParsePayload(UINT payload_type, BUF *b); void IkeFreePayload(IKE_PACKET_PAYLOAD *p); bool IkeParseDataPayload(IKE_PACKET_DATA_PAYLOAD *t, BUF *b); void IkeFreeDataPayload(IKE_PACKET_DATA_PAYLOAD *t); bool IkeParseSaPayload(IKE_PACKET_SA_PAYLOAD *t, BUF *b); void IkeFreeSaPayload(IKE_PACKET_SA_PAYLOAD *t); bool IkeParseProposalPayload(IKE_PACKET_PROPOSAL_PAYLOAD *t, BUF *b); void IkeFreeProposalPayload(IKE_PACKET_PROPOSAL_PAYLOAD *t); bool IkeParseTransformPayload(IKE_PACKET_TRANSFORM_PAYLOAD *t, BUF *b); void IkeFreeTransformPayload(IKE_PACKET_TRANSFORM_PAYLOAD *t); LIST *IkeParseTransformValueList(BUF *b); void IkeFreeTransformValueList(LIST *o); bool IkeParseIdPayload(IKE_PACKET_ID_PAYLOAD *t, BUF *b); void IkeFreeIdPayload(IKE_PACKET_ID_PAYLOAD *t); bool IkeParseCertPayload(IKE_PACKET_CERT_PAYLOAD *t, BUF *b); void IkeFreeCertPayload(IKE_PACKET_CERT_PAYLOAD *t); bool IkeParseCertRequestPayload(IKE_PACKET_CERT_REQUEST_PAYLOAD *t, BUF *b); void IkeFreeCertRequestPayload(IKE_PACKET_CERT_REQUEST_PAYLOAD *t); bool IkeParseNoticePayload(IKE_PACKET_NOTICE_PAYLOAD *t, BUF *b); void IkeFreeNoticePayload(IKE_PACKET_NOTICE_PAYLOAD *t); bool IkeParseDeletePayload(IKE_PACKET_DELETE_PAYLOAD *t, BUF *b); void IkeFreeDeletePayload(IKE_PACKET_DELETE_PAYLOAD *t); bool IkeParseNatOaPayload(IKE_PACKET_NAT_OA_PAYLOAD *t, BUF *b); bool IkeCompareHash(IKE_PACKET_PAYLOAD *hash_payload, void *hash_data, UINT hash_size); IKE_PACKET_PAYLOAD *IkeNewPayload(UINT payload_type); IKE_PACKET_PAYLOAD *IkeNewDataPayload(UCHAR payload_type, void *data, UINT size); IKE_PACKET_PAYLOAD *IkeNewNatOaPayload(UCHAR payload_type, IP *ip); IKE_PACKET_PAYLOAD *IkeNewSaPayload(LIST *payload_list); IKE_PACKET_PAYLOAD *IkeNewProposalPayload(UCHAR number, UCHAR protocol_id, void *spi, UINT spi_size, LIST *payload_list); IKE_PACKET_PAYLOAD *IkeNewTransformPayload(UCHAR number, UCHAR transform_id, LIST *value_list); IKE_PACKET_TRANSFORM_VALUE *IkeNewTransformValue(UCHAR type, UINT value); IKE_PACKET_PAYLOAD *IkeNewIdPayload(UCHAR id_type, UCHAR protocol_id, USHORT port, void *id_data, UINT id_size); IKE_PACKET_PAYLOAD *IkeNewCertPayload(UCHAR cert_type, void *cert_data, UINT cert_size); IKE_PACKET_PAYLOAD *IkeNewCertRequestPayload(UCHAR cert_type, void *data, UINT size); IKE_PACKET_PAYLOAD *IkeNewNoticePayload(UCHAR protocol_id, USHORT message_type, void *spi, UINT spi_size, void *message, UINT message_size); IKE_PACKET_PAYLOAD *IkeNewDeletePayload(UCHAR protocol_id, LIST *spi_list); IKE_PACKET_PAYLOAD *IkeNewNoticeErrorInvalidCookiePayload(UINT64 init_cookie, UINT64 resp_cookie); IKE_PACKET_PAYLOAD *IkeNewNoticeErrorInvalidExchangeTypePayload(UINT64 init_cookie, UINT64 resp_cookie, UCHAR exchange_type); IKE_PACKET_PAYLOAD *IkeNewNoticeErrorInvalidSpiPayload(UINT spi); IKE_PACKET_PAYLOAD *IkeNewNoticeErrorNoProposalChosenPayload(bool quick_mode, UINT64 init_cookie, UINT64 resp_cookie); IKE_PACKET_PAYLOAD *IkeNewNoticeDpdPayload(bool ack, UINT64 init_cookie, UINT64 resp_cookie, UINT seq_no); UCHAR IkeGetFirstPayloadType(LIST *o); BUF *IkeBuild(IKE_PACKET *p, IKE_CRYPTO_PARAM *cparam); BUF *IkeBuildEx(IKE_PACKET *p, IKE_CRYPTO_PARAM *cparam, bool use_original_decrypted); BUF *IkeBuildPayloadList(LIST *o); BUF *IkeBuildPayload(IKE_PACKET_PAYLOAD *p); BUF *IkeBuildDataPayload(IKE_PACKET_DATA_PAYLOAD *t); BUF *IkeBuildSaPayload(IKE_PACKET_SA_PAYLOAD *t); BUF *IkeBuildProposalPayload(IKE_PACKET_PROPOSAL_PAYLOAD *t); BUF *IkeBuildTransformPayload(IKE_PACKET_TRANSFORM_PAYLOAD *t); BUF *IkeBuildTransformValue(IKE_PACKET_TRANSFORM_VALUE *v); BUF *IkeBuildTransformValueList(LIST *o); BUF *IkeBuildIdPayload(IKE_PACKET_ID_PAYLOAD *t); BUF *IkeBuildCertPayload(IKE_PACKET_CERT_PAYLOAD *t); BUF *IkeBuildCertRequestPayload(IKE_PACKET_CERT_REQUEST_PAYLOAD *t); BUF *IkeBuildNoticePayload(IKE_PACKET_NOTICE_PAYLOAD *t); BUF *IkeBuildDeletePayload(IKE_PACKET_DELETE_PAYLOAD *t); BUF *IkeBuildTransformPayload(IKE_PACKET_TRANSFORM_PAYLOAD *t); UINT IkeGetTransformValue(IKE_PACKET_TRANSFORM_PAYLOAD *t, UINT type, UINT index); UINT IkeGetTransformValueNum(IKE_PACKET_TRANSFORM_PAYLOAD *t, UINT type); UCHAR IkeStrToPhase1CryptId(char *name); UCHAR IkeStrToPhase1HashId(char *name); UCHAR IkeStrToPhase2CryptId(char *name); UCHAR IkeStrToPhase2HashId(char *name); BUF *IkeStrToPassword(char *str); UINT IkePhase1CryptIdToKeySize(UCHAR id); UINT IkePhase2CryptIdToKeySize(UCHAR id); UINT IkeNewSpi(); IKE_ENGINE *NewIkeEngine(); IKE_CRYPTO *NewIkeCrypto(IKE_ENGINE *e, UINT crypto_id, char *name, UINT *key_sizes, UINT num_key_sizes, UINT block_size); IKE_HASH *NewIkeHash(IKE_ENGINE *e, UINT hash_id, char *name, UINT size); IKE_DH *NewIkeDh(IKE_ENGINE *e, UINT dh_id, char *name, UINT key_size); void FreeIkeEngine(IKE_ENGINE *e); void FreeIkeCrypto(IKE_CRYPTO *c); void FreeIkeHash(IKE_HASH *h); void FreeIkeDh(IKE_DH *d); IKE_CRYPTO *GetIkeCrypto(IKE_ENGINE *e, bool for_esp, UINT i); IKE_HASH *GetIkeHash(IKE_ENGINE *e, bool for_esp, UINT i); IKE_DH *GetIkeDh(IKE_ENGINE *e, bool for_esp, UINT i); void IkeHash(IKE_HASH *h, void *dst, void *src, UINT size); void IkeHMac(IKE_HASH *h, void *dst, void *key, UINT key_size, void *data, UINT data_size); void IkeHMacBuf(IKE_HASH *h, void *dst, BUF *key, BUF *data); IKE_CRYPTO_KEY *IkeNewKey(IKE_CRYPTO *c, void *data, UINT size); bool IkeCheckKeySize(IKE_CRYPTO *c, UINT size); void IkeFreeKey(IKE_CRYPTO_KEY *k); void IkeCryptoEncrypt(IKE_CRYPTO_KEY *k, void *dst, void *src, UINT size, void *ivec); void IkeCryptoDecrypt(IKE_CRYPTO_KEY *k, void *dst, void *src, UINT size, void *ivec); DH_CTX *IkeDhNewCtx(IKE_DH *d); void IkeDhFreeCtx(DH_CTX *dh); #endif // IPSEC_PACKET_H // Developed by SoftEther VPN Project at University of Tsukuba in Japan. // Department of Computer Science has dozens of overly-enthusiastic geeks. // Join us: http://www.tsukuba.ac.jp/english/admission/