silcske.h
- Author: Pekka Riikonen <priikone@poseidon.pspt.fi>
+ Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 2000 - 2001 Pekka Riikonen
+ Copyright (C) 2000 - 2007 Pekka Riikonen
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
+ the Free Software Foundation; version 2 of the License.
+
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
*/
+/****h* silcske/SILC SKE Interface
+ *
+ * DESCRIPTION
+ *
+ * The SILC Key Exchange (SKE) protocol interface. The SKE protocol
+ * is used to negotiate secret key material between two parties, to be used
+ * as session key or some other key. For example, when client connects to
+ * server SKE is performed to exchange public keys, and to generate the key
+ * that is then used as session key. Two clients can execute SKE as well
+ * two create secret key material for securing for example file transfer
+ * stream. This SKE implementation provides easy interface for application
+ * that wants to use SKE.
+ *
+ ***/
+
#ifndef SILCSKE_H
#define SILCSKE_H
-#include "silcske_status.h"
-
-/* Forward declaration for SKE object. */
+/* Forward declarations */
+typedef struct SilcSKECallbacksStruct *SilcSKECallbacks;
typedef struct SilcSKEStruct *SilcSKE;
-/* Forward declaration for security properties. */
-typedef struct SilcSKESecurityPropertiesStruct *SilcSKESecurityProperties;
+/****d* silcske/SilcSKEAPI/SilcSKEStatus
+ *
+ * NAME
+ *
+ * typedef enum { ... } SilcSKEStatus;
+ *
+ * DESCRIPTION
+ *
+ * Status types returned in SKE callbacks. This tell the status of
+ * the SKE session, and if an error occurred. Application can map the
+ * status to human readable string with silc_ske_map_status function.
+ *
+ * SOURCE
+ */
+typedef enum {
+ /* These are defined by the protocol */
+ SILC_SKE_STATUS_OK = 0, /* No error */
+ SILC_SKE_STATUS_ERROR = 1, /* Unknown error */
+ SILC_SKE_STATUS_BAD_PAYLOAD = 2, /* Malformed payload */
+ SILC_SKE_STATUS_UNKNOWN_GROUP = 3, /* Unsupported DH group */
+ SILC_SKE_STATUS_UNKNOWN_CIPHER = 4, /* Unsupported cipher */
+ SILC_SKE_STATUS_UNKNOWN_PKCS = 5, /* Unsupported PKCS algorithm */
+ SILC_SKE_STATUS_UNKNOWN_HASH_FUNCTION = 6, /* Unsupported hash function */
+ SILC_SKE_STATUS_UNKNOWN_HMAC = 7, /* Unsupported HMAC */
+ SILC_SKE_STATUS_UNSUPPORTED_PUBLIC_KEY = 8, /* Unsupported/not trusted PK */
+ SILC_SKE_STATUS_INCORRECT_SIGNATURE = 9, /* Incorrect signature */
+ SILC_SKE_STATUS_BAD_VERSION = 10, /* Unsupported version */
+ SILC_SKE_STATUS_INVALID_COOKIE = 11, /* Cookie was modified */
+
+ /* Implementation specific status types */
+ SILC_SKE_STATUS_PUBLIC_KEY_NOT_PROVIDED, /* Remote did not send PK */
+ SILC_SKE_STATUS_BAD_RESERVED_FIELD, /* Reserved field was not 0 */
+ SILC_SKE_STATUS_BAD_PAYLOAD_LENGTH, /* Payload includes garbage */
+ SILC_SKE_STATUS_SIGNATURE_ERROR, /* Error computing signature */
+ SILC_SKE_STATUS_OUT_OF_MEMORY, /* System out of memory */
+ SILC_SKE_STATUS_TIMEOUT, /* Timeout */
+} SilcSKEStatus;
+/***/
-/* Supported Public Key Types, defined by the protocol */
+#include "silcske_groups.h"
+#include "silcske_payload.h"
+
+/****d* silcske/SilcSKEAPI/SilcSKESecurityPropertyFlag
+ *
+ * NAME
+ *
+ * typedef enum { ... } SilcSKESecurityPropertyFlag
+ *
+ * DESCRIPTION
+ *
+ * SKE security property flags as defined by the SK protocol.
+ *
+ * SOURCE
+ */
typedef enum {
- SILC_SKE_PK_TYPE_SILC = 1, /* Mandatory type */
- /* Optional types. These are not implemented currently */
- SILC_SKE_PK_TYPE_SSH2 = 2,
- SILC_SKE_PK_TYPE_X509V3 = 3,
- SILC_SKE_PK_TYPE_OPENPGP = 4,
- SILC_SKE_PK_TYPE_SPKI = 5
-} SilcSKEPKType;
+ SILC_SKE_SP_FLAG_NONE = 0x00, /* No flags */
+ SILC_SKE_SP_FLAG_IV_INCLUDED = 0x01, /* IV included in packet */
+ SILC_SKE_SP_FLAG_PFS = 0x02, /* Perfect Forward Secrecy */
+ SILC_SKE_SP_FLAG_MUTUAL = 0x04, /* Mutual authentication */
+} SilcSKESecurityPropertyFlag;
+/***/
+
+/****s* silcske/SilcSKEAPI/SilcSKESecurityProperties
+ *
+ * NAME
+ *
+ * typedef struct { ... } *SilcSKESecurityProperties;
+ *
+ * DESCRIPTION
+ *
+ * Security Properties negotiated between key exchange parties. This
+ * structure is filled from the Key Exchange Start Payload which is used
+ * to negotiate what security properties must be used in the
+ * communication.
+ *
+ * SOURCE
+ */
+typedef struct SilcSKESecurityPropertiesStruct {
+ SilcSKESecurityPropertyFlag flags; /* Flags */
+ SilcSKEDiffieHellmanGroup group; /* Selected Diffie Hellman group */
+ SilcCipher cipher; /* Selected cipher */
+ SilcHmac hmac; /* Selected HMAC */
+ SilcHash hash; /* Selected hash algorithm */
+ SilcPublicKey public_key; /* Remote public key */
+ SilcUInt16 remote_port; /* Remote port, set when IV Included
+ set and using UDP/IP */
+} *SilcSKESecurityProperties;
+/***/
-/* Packet sending callback. Caller of the SKE routines must provide
- a routine to send packets to negotiation parties. */
-typedef void (*SilcSKESendPacketCb)(SilcSKE ske, SilcBuffer packet,
- SilcPacketType type, void *context);
-
-/* Generic SKE callback function. This is called in various SKE
- routines. The SilcSKE object sent as argument provides all the data
- callers routine might need (payloads etc). */
-typedef void (*SilcSKECb)(SilcSKE ske, void *context);
-
-/* Callback function used to verify the received public key. */
-typedef SilcSKEStatus (*SilcSKEVerifyCb)(SilcSKE ske,
- unsigned char *pk_data,
- uint32 pk_len,
- SilcSKEPKType pk_type,
- void *context);
-
-/* Context passed to key material processing function. The function
- returns the processed key material into this structure. */
-typedef struct {
+/****s* silcske/SilcSKEAPI/SilcSKEKeyMaterial
+ *
+ * NAME
+ *
+ * typedef struct { ... } *SilcSKEKeyMaterial;
+ *
+ * DESCRIPTION
+ *
+ * This is the key material structure, and is passed as argument by the
+ * application to silc_ske_process_key_material_data function. It includes
+ * the processed key material which can be used as SILC session keys.
+ *
+ * SOURCE
+ */
+typedef struct SilcSKEKeyMaterialStruct {
unsigned char *send_iv;
unsigned char *receive_iv;
- uint32 iv_len;
+ SilcUInt32 iv_len;
unsigned char *send_enc_key;
unsigned char *receive_enc_key;
- uint32 enc_key_len;
- unsigned char *hmac_key;
- uint32 hmac_key_len;
-} SilcSKEKeyMaterial;
+ SilcUInt32 enc_key_len; /* Key length in bits */
+ unsigned char *send_hmac_key;
+ unsigned char *receive_hmac_key;
+ SilcUInt32 hmac_key_len; /* Key length in bytes */
+} *SilcSKEKeyMaterial;
+/***/
-/* Length of cookie in Start Payload */
-#define SILC_SKE_COOKIE_LEN 16
+/****s* silcske/SilcSKEAPI/SilcSKERekeyMaterial
+ *
+ * NAME
+ *
+ * typedef struct { ... } *SilcSKERekeyMaterial;
+ *
+ * DESCRIPTION
+ *
+ * This context is returned after key exchange protocol to application
+ * in the completion callback. Application may save it and use it later
+ * to perform the rekey with silc_ske_rekey_initiator and/or
+ * silc_ske_rekey_responder functions. If application does not
+ * need the context, it may free it with silc_ske_free_rekey_material
+ * function.
+ *
+ ***/
+typedef struct SilcSKERekeyMaterialStruct {
+ unsigned char *send_enc_key;
+ char *hash;
+ unsigned int enc_key_len : 23;
+ unsigned int ske_group : 8;
+ unsigned int pfs : 1;
+} *SilcSKERekeyMaterial;
+
+/****s* silcske/SilcSKEAPI/SilcSKEParams
+ *
+ * NAME
+ *
+ * typedef struct { ... } *SilcSKEParams, SilcSKEParamsStruct;
+ *
+ * DESCRIPTION
+ *
+ * SKE parameters structure. This structure is given as argument to
+ * silc_ske_initiator and silc_ske_responder functions.
+ *
+ * SOURCE
+ */
+typedef struct SilcSKEParamsObject {
+ /* The SKE version string that is sent to the remote end. This field
+ must be set. Caller must free the pointer. */
+ char *version;
+
+ /* Security property flags. When initiator sets these it requests them
+ from the responder. Responder may set here the flags it supports
+ and wants to enforce for the initiator. */
+ SilcSKESecurityPropertyFlag flags;
-#include "groups.h"
-#include "payload.h"
+ /* SILC Session port when using UDP/IP and SILC_SKE_SP_FLAG_IV_INCLUDED
+ flag. It is the port the remote will use as SILC session port after
+ the key exchange protocol. Ignored without SILC_SKE_SP_FLAG_IV_INCLUDED
+ flag. */
+ SilcUInt16 session_port;
-/* Security Property Flags. */
+ /* Key exchange timeout in seconds. If key exchange is not completed in
+ this time it will timeout. If not specified (zero), default value
+ (30 seconds) will be used. */
+ SilcUInt16 timeout_secs;
+} *SilcSKEParams, SilcSKEParamsStruct;
+/***/
+
+/****d* silcske/SilcSKEAPI/SilcSKEPKType
+ *
+ * NAME
+ *
+ * typedef enum { ... } SilcSKEPKType;
+ *
+ * DESCRIPTION
+ *
+ * Public key and certificate types defined by the SKE protocol.
+ *
+ * SOURCE
+ */
typedef enum {
- SILC_SKE_SP_FLAG_NONE = 0x00,
- SILC_SKE_SP_FLAG_NO_REPLY = 0x01,
- SILC_SKE_SP_FLAG_PFS = 0x02,
- SILC_SKE_SP_FLAG_MUTUAL = 0x04,
-} SilcSKESecurityPropertyFlag;
+ SILC_SKE_PK_TYPE_SILC = 1, /* SILC Public Key, mandatory */
+ SILC_SKE_PK_TYPE_SSH2 = 2, /* SSH2 Public key, not supported */
+ SILC_SKE_PK_TYPE_X509V3 = 3, /* X.509v3 certificate, not supported */
+ SILC_SKE_PK_TYPE_OPENPGP = 4, /* OpenPGP certificate, not supported */
+ SILC_SKE_PK_TYPE_SPKI = 5 /* SPKI certificate, not supported */
+} SilcSKEPKType;
+/***/
+
+/****f* silcske/SilcSKEAPI/SilcSKEVerifyCbCompletion
+ *
+ * SYNOPSIS
+ *
+ * typedef void (*SilcSKEVerifyCbCompletion)(SilcSKE ske,
+ * SilcSKEStatus status,
+ * void *context);
+ *
+ * DESCRIPTION
+ *
+ * Completion callback that will be called when the public key
+ * has been verified. The `status' will indicate whether the public
+ * key were trusted or not.
+ *
+ ***/
+typedef void (*SilcSKEVerifyCbCompletion)(SilcSKE ske,
+ SilcSKEStatus status,
+ void *context);
-/* Security Properties negotiated between key exchange parties. This
- structure is filled from the Key Exchange Start Payload which is used
- to negotiate what security properties should be used in the
- communication. */
-struct SilcSKESecurityPropertiesStruct {
- unsigned char flags;
- SilcSKEDiffieHellmanGroup group;
- SilcPKCS pkcs;
- SilcCipher cipher;
- SilcHash hash;
- SilcHmac hmac;
- /* XXX SilcZip comp; */
-};
-
-struct SilcSKEStruct {
- /* The connection object. This is initialized by the caller. */
- SilcSocketConnection sock;
-
- /* Security properties negotiated */
- SilcSKESecurityProperties prop;
-
- /* Key Exchange payloads filled during key negotiation with
- remote data. Responder may save local data here as well. */
- SilcSKEStartPayload *start_payload;
- SilcSKEKEPayload *ke1_payload;
- SilcSKEKEPayload *ke2_payload;
-
- /* Temporary copy of the KE Start Payload used in the
- HASH computation. */
- SilcBuffer start_payload_copy;
-
- /* If initiator, this is responders public key. If responder this
- is our own public key. */
- unsigned char *pk;
- uint32 pk_len;
-
- /* Random number x, 1 < x < q. This is the secret exponent
- used in Diffie Hellman computations. */
- SilcInt *x;
-
- /* The secret shared key */
- SilcInt *KEY;
-
- /* The hash value HASH of the key exchange */
- unsigned char *hash;
- uint32 hash_len;
-
- /* Random Number Generator. This is set by the caller and must
- be free'd by the caller. */
- SilcRng rng;
-
- /* Pointer to the what ever user data. This is set by the caller
- and is not touched by the SKE. The caller must also free this one. */
- void *user_data;
-
- /* Current status of SKE */
- SilcSKEStatus status;
-};
+/****f* silcske/SilcSKEAPI/SilcSKEVerifyCb
+ *
+ * SYNOPSIS
+ *
+ * typedef void (*SilcSKEVerifyCb)(SilcSKE ske,
+ * SilcPublicKey public_key,
+ * void *context,
+ * SilcSKEVerifyCbCompletion completion,
+ * void *completion_context);
+ *
+ * DESCRIPTION
+ *
+ * Callback function used to verify the received public key or certificate.
+ * The verification process is most likely asynchronous. That's why the
+ * application must call the `completion' callback when the verification
+ * process has been completed. The `context' is the context given as
+ * arugment to silc_ske_set_callbacks. See silc_ske_set_callbacks for
+ * more information.
+ *
+ * If the key repository was provided in silc_ske_alloc this callback
+ * is called only if the public key was not found from the repository.
+ *
+ ***/
+typedef void (*SilcSKEVerifyCb)(SilcSKE ske,
+ SilcPublicKey public_key,
+ void *context,
+ SilcSKEVerifyCbCompletion completion,
+ void *completion_context);
+
+/****f* silcske/SilcSKEAPI/SilcSKECompletionCb
+ *
+ * SYNOPSIS
+ *
+ * typedef void (*SilcSKECompletionCb)(SilcSKE ske,
+ * SilcSKEStatus status,
+ * const SilcSKESecurityProperties prop,
+ * const SilcSKEKeyMaterial keymat,
+ * SilcSKERekeyMaterial rekey,
+ * void *context);
+ *
+ * DESCRIPTION
+ *
+ * Completion callback. This is called after the key exchange protocol
+ * has been completed. It delivers the status of the protocol, and if
+ * successful the security properties `prop' that was negotiated in the
+ * protocol and the key material `keymat' that can be set into use by
+ * calling silc_ske_set_keys, and the rekey key material `rekey' which
+ * can be used later to start rekey protocol. The `prop' and `keymat'
+ * will remain valid as long as `ske' is valid. The `rekey' will remain
+ * valid until silc_ske_free_rekey_material is called. The application
+ * must call it to free the `rekey'.
+ *
+ * When doing rekey, this completion callback delivers the `keymat' and
+ * new `rekey'. The `prop' is ignored. The `keymat' has already been set
+ * to the packet stream associated with the `ske'. Thus, after this
+ * is called the new keys are in use.
+ *
+ ***/
+typedef void (*SilcSKECompletionCb)(SilcSKE ske,
+ SilcSKEStatus status,
+ const SilcSKESecurityProperties prop,
+ const SilcSKEKeyMaterial keymat,
+ SilcSKERekeyMaterial rekey,
+ void *context);
/* Prototypes */
-SilcSKE silc_ske_alloc();
+
+/****f* silcske/SilcSKEAPI/silc_ske_alloc
+ *
+ * SYNOPSIS
+ *
+ * SilcSKE silc_ske_alloc(SilcRng rng, SilcSchedule schedule,
+ * SilcSKR repository, SilcPublicKey public_key,
+ * SilcPrivateKey private_key, void *context);
+ *
+ * DESCRIPTION
+ *
+ * Allocates the SKE session context and returns it. The `rng' is
+ * the random number generator the SKE is going to use when it needs
+ * random number generation during the SKE session. The `context' is
+ * user context that the libary will not touch. Application can get the
+ * context by calling the fuction silc_ske_get_context function. The
+ * application is responsible of freeing the `context'. After the
+ * SKE session context is allocated application must call the
+ * silc_ske_set_callbacks.
+ *
+ * If the `repository' is non-NULL then the remote's public key will be
+ * verified from the repository. If it is not provided then the
+ * SilcSKEVerifyCb callback must be set, and it will be called to
+ * verify the key. If both `repository' and the callback is provided the
+ * callback is called only if the key is not found from the repository.
+ *
+ * The `public_key' and `private_key' is the caller's identity used
+ * during the key exchange. Giving `private_key' is optional if the
+ * SILC_SKE_SP_FLAG_MUTUAL is not set and you are initiator. For
+ * responder both `public_key' and `private_key' must be set.
+ *
+ * When allocating SKE session for rekey, the `repository' and `private_key'
+ * pointers must be NULL and the SilcSKEVerifyCb callback must not be
+ * set with silc_ske_set_callbacks.
+ *
+ * EXMPALE
+ *
+ * // Initiator example
+ * params.version = version;
+ * params.flags = SILC_SKE_SP_FLAG_PFS | SILC_SKE_SP_FLAG_MUTUAL;
+ * ske = silc_ske_alloc(rng, scheduler, NULL, pk, prv, app);
+ * silc_ske_set_callbacks(ske, verify_public_key, completion, app);
+ * silc_ske_initiator(ske, stream, ¶ms, NULL);
+ *
+ ***/
+SilcSKE silc_ske_alloc(SilcRng rng, SilcSchedule schedule,
+ SilcSKR repository, SilcPublicKey public_key,
+ SilcPrivateKey private_key, void *context);
+
+/****f* silcske/SilcSKEAPI/silc_ske_free
+ *
+ * SYNOPSIS
+ *
+ * void silc_ske_free(SilcSKE ske);
+ *
+ * DESCRIPTION
+ *
+ * Frees the SKE session context and all allocated resources.
+ *
+ ***/
void silc_ske_free(SilcSKE ske);
-SilcSKEStatus silc_ske_initiator_start(SilcSKE ske, SilcRng rng,
- SilcSocketConnection sock,
- SilcSKEStartPayload *start_payload,
- SilcSKESendPacketCb send_packet,
- void *context);
-SilcSKEStatus silc_ske_initiator_phase_1(SilcSKE ske,
- SilcBuffer start_payload,
- SilcSKECb callback,
- void *context);
-SilcSKEStatus silc_ske_initiator_phase_2(SilcSKE ske,
- SilcPublicKey public_key,
- SilcPrivateKey private_key,
- SilcSKESendPacketCb send_packet,
- void *context);
-SilcSKEStatus silc_ske_initiator_finish(SilcSKE ske,
- SilcBuffer ke_payload,
- SilcSKEVerifyCb verify_key,
- void *verify_context,
- SilcSKECb callback,
- void *context);
-SilcSKEStatus silc_ske_responder_start(SilcSKE ske, SilcRng rng,
- SilcSocketConnection sock,
- char *version,
- SilcBuffer start_payload,
- int mutual_auth,
- SilcSKECb callback,
- void *context);
-SilcSKEStatus silc_ske_responder_phase_1(SilcSKE ske,
- SilcSKEStartPayload *start_payload,
- SilcSKESendPacketCb send_packet,
- void *context);
-SilcSKEStatus silc_ske_responder_phase_2(SilcSKE ske,
- SilcBuffer ke_payload,
- SilcSKEVerifyCb verify_key,
- void *verify_context,
- SilcSKECb callback,
- void *context);
-SilcSKEStatus silc_ske_responder_finish(SilcSKE ske,
- SilcPublicKey public_key,
- SilcPrivateKey private_key,
- SilcSKEPKType pk_type,
- SilcSKESendPacketCb send_packet,
- void *context);
-SilcSKEStatus silc_ske_end(SilcSKE ske,
- SilcSKESendPacketCb send_packet,
- void *context);
-SilcSKEStatus silc_ske_abort(SilcSKE ske, SilcSKEStatus status,
- SilcSKESendPacketCb send_packet,
- void *context);
-SilcSKEStatus
-silc_ske_assemble_security_properties(SilcSKE ske,
- unsigned char flags,
- char *version,
- SilcSKEStartPayload **return_payload);
-SilcSKEStatus
-silc_ske_select_security_properties(SilcSKE ske,
- char *version,
- SilcSKEStartPayload *payload,
- SilcSKEStartPayload *remote_payload);
-SilcSKEStatus silc_ske_create_rnd(SilcSKE ske, SilcInt n,
- uint32 len,
- SilcInt *rnd);
-SilcSKEStatus silc_ske_make_hash(SilcSKE ske,
- unsigned char *return_hash,
- uint32 *return_hash_len,
- int initiator);
-SilcSKEStatus
+
+/****f* silcske/SilcSKEAPI/silc_ske_get_context
+ *
+ * SYNOPSIS
+ *
+ * void *silc_ske_get_context(SilcSKE ske);
+ *
+ * DESCRIPTION
+ *
+ * Returns the context that was given as argument to silc_ske_alloc.
+ *
+ ***/
+void *silc_ske_get_context(SilcSKE ske);
+
+/****f* silcske/SilcSKEAPI/silc_ske_set_callbacks
+ *
+ * SYNOPSIS
+ *
+ * void silc_ske_set_callbacks(SilcSKE ske,
+ * SilcSKEVerifyCb verify_key,
+ * SilcSKECompletion completed,
+ * void *context);
+ *
+ * DESCRIPTION
+ *
+ * Sets the callback functions for the SKE session.
+ *
+ * The `verify_key' callback is called to verify the received public key
+ * or certificate. The verification process is most likely asynchronous.
+ * That is why the application must call the completion callback when the
+ * verification process has been completed. If this SKE session context
+ * is used to perform rekey, this callback usually is not provided as
+ * argument since sending public key in rekey is not mandatory. Setting
+ * this callback implies that remote end MUST send its public key.
+ *
+ * The `completed' callback will be called once the protocol has completed,
+ * either successfully or with an error. The status of the protocol is
+ * delivered to application with the callback.
+ *
+ * The `context' is passed as argument to all of the above callback
+ * functions.
+ *
+ ***/
+void silc_ske_set_callbacks(SilcSKE ske,
+ SilcSKEVerifyCb verify_key,
+ SilcSKECompletionCb completed,
+ void *context);
+
+/****f* silcske/SilcSKEAPI/silc_ske_initiator
+ *
+ * SYNOPSIS
+ *
+ * SilcAsyncOperation
+ * silc_ske_initiator(SilcSKE ske,
+ * SilcPacketStream stream,
+ * SilcSKEParams params,
+ * SilcSKEStartPayload start_payload);
+ *
+ * DESCRIPTION
+ *
+ * Starts the SILC Key Exchange protocol as initiator. The completion
+ * callback that was set in silc_ske_set_callbacks will be called once
+ * the protocol has completed. The `stream' is the network connection
+ * to the remote host. The SKE library will handle all key exchange
+ * packets sent and received in the `stream' connection. The library will
+ * also set the remote host's ID automatically to the `stream' if it is
+ * present in the exchanged packets. The `params' include SKE parameters,
+ * and it must be provided.
+ *
+ * If the `start_payload' is NULL the library will generate it
+ * automatically. Caller may provide it if it wants to send its own
+ * security properties instead of using the default ones library
+ * generates. If caller provides it, it must not free it once it has
+ * been given as argument to this function.
+ *
+ * This function returns SilcAsyncOperation operation context which can
+ * be used to control the protocol from the application. Application may
+ * for example safely abort the protocol at any point, if needed. Returns
+ * NULL on error.
+ *
+ ***/
+SilcAsyncOperation silc_ske_initiator(SilcSKE ske,
+ SilcPacketStream stream,
+ SilcSKEParams params,
+ SilcSKEStartPayload start_payload);
+
+/****f* silcske/SilcSKEAPI/silc_ske_responder
+ *
+ * SYNOPSIS
+ *
+ * SilcAsyncOperation
+ * silc_ske_responder(SilcSKE ske,
+ * SilcPacketStream stream,
+ * SilcSKEParams params);
+ *
+ * DESCRIPTION
+ *
+ * Starts SILC Key Exchange protocol as responder. The completion
+ * callback that was set in silc_ske_set_callbacks will be called once
+ * the protocol has completed. The `stream' is the network connection
+ * to the remote host. The SKE library will handle all key exchange
+ * packets sent and received in the `stream' connection. The library will
+ * also set the remote hosts's ID automatically to the `stream' if it is
+ * present in the exchanged packets. The `params' include SKE parameters,
+ * and must be provided.
+ *
+ * This function returns SilcAsyncOperation operation context which can
+ * be used to control the protocol from the application. Application may
+ * for example safely abort the protocol at any point, if needed. Returns
+ * NULL on error.
+ *
+ ***/
+SilcAsyncOperation silc_ske_responder(SilcSKE ske,
+ SilcPacketStream stream,
+ SilcSKEParams params);
+
+/****f* silcske/SilcSKEAPI/silc_ske_rekey_initiator
+ *
+ * SYNOPSIS
+ *
+ * SilcAsyncOperation
+ * silc_ske_rekey_initiator(SilcSKE ske,
+ * SilcPacketStream stream,
+ * SilcSKERekeyMaterial rekey);
+ *
+ * DESCRIPTION
+ *
+ * Starts SILC Key Exchange key regeneration (rekey) protocol. The `rekey'
+ * is the rekey material received earlier in SilcSKECompletionCb. That
+ * same callback is called after the rekey protocol is over to deliver new
+ * key material and new rekey material. When the rekey is completed the
+ * SKE library will automatically update the new keys into `stream'. The
+ * completion callback is called after the new keys has been taken into
+ * use.
+ *
+ * This function returns SilcAsyncOperation operation context which can
+ * be used to control the protocol from the application. Application may
+ * for example safely abort the protocol at any point, if needed. Returns
+ * NULL on error.
+ *
+ ***/
+SilcAsyncOperation silc_ske_rekey_initiator(SilcSKE ske,
+ SilcPacketStream stream,
+ SilcSKERekeyMaterial rekey);
+
+/****f* silcske/SilcSKEAPI/silc_ske_rekey_responder
+ *
+ * SYNOPSIS
+ *
+ * SilcAsyncOperation
+ * silc_ske_rekey_responder(SilcSKE ske,
+ * SilcPacketStream stream,
+ * SilcSKERekeyMaterial rekey,
+ * SilcPacket packet);
+ *
+ * DESCRIPTION
+ *
+ * Starts SILC Key Exchange key regeneration (rekey) protocol as responder.
+ * The `rekey' is the rekey material received earlier in
+ * SilcSKECompletionCb. That same callback is called after the rekey
+ * protocol is over to deliver new key material and new rekey material.
+ * When the rekey is completed the SKE library will automatically update
+ * the new keys into `stream'. The completion callback is called after
+ * the new keys has been taken into use.
+ *
+ * The `packet' is the SILC_PACKET_REKEY received to start the rekey
+ * protocol. If `packet' is NULL it is assumed that the packet will be
+ * received from the `stream'.
+ *
+ * This function returns SilcAsyncOperation operation context which can
+ * be used to control the protocol from the application. Application may
+ * for example safely abort the protocol at any point, if needed. Returns
+ * NULL on error.
+ *
+ ***/
+SilcAsyncOperation silc_ske_rekey_responder(SilcSKE ske,
+ SilcPacketStream stream,
+ SilcSKERekeyMaterial rekey,
+ SilcPacket packet);
+
+/****f* silcske/SilcSKEAPI/silc_ske_set_keys
+ *
+ * SYNOPSIS
+ *
+ * SilcBool silc_ske_set_keys(SilcSKE ske,
+ * SilcSKEKeyMaterial keymat,
+ * SilcSKESecurityProperties prop,
+ * SilcCipher *ret_send_key,
+ * SilcCipher *ret_receive_key,
+ * SilcHmac *ret_hmac_send,
+ * SilcHmac *ret_hmac_receive,
+ * SilcHash *ret_hash);
+ *
+ * DESCRIPTION
+ *
+ * This function can be used after successful key exchange to take the
+ * key material `keymat' with security properties `prop' into use.
+ * This will allocate send and receive ciphers, HMACs and hash for the
+ * application. Caller must free the returned contexts. This is an
+ * utility function.
+ *
+ ***/
+SilcBool silc_ske_set_keys(SilcSKE ske,
+ SilcSKEKeyMaterial keymat,
+ SilcSKESecurityProperties prop,
+ SilcCipher *ret_send_key,
+ SilcCipher *ret_receive_key,
+ SilcHmac *ret_hmac_send,
+ SilcHmac *ret_hmac_receive,
+ SilcHash *ret_hash);
+
+/****f* silcske/SilcSKEAPI/silc_ske_parse_version
+ *
+ * SYNOPSIS
+ *
+ * SilcBool silc_ske_parse_version(SilcSKE ske,
+ * SilcUInt32 *protocol_version,
+ * char **protocol_version_string,
+ * SilcUInt32 *software_version,
+ * char **software_version_string,
+ * char **vendor_version);
+ *
+ * DESCRIPTION
+ *
+ * Utility function to parse the remote host's version string. This can
+ * be called after the key exchange has been completed.
+ *
+ ***/
+SilcBool silc_ske_parse_version(SilcSKE ske,
+ SilcUInt32 *protocol_version,
+ char **protocol_version_string,
+ SilcUInt32 *software_version,
+ char **software_version_string,
+ char **vendor_version);
+
+/****f* silcske/SilcSKEAPI/silc_ske_get_security_properties
+ *
+ * SYNOPSIS
+ *
+ * SilcSKESecurityProperties silc_ske_get_security_properties(SilcSKE ske);
+ *
+ * DESCRIPTION
+ *
+ * Returns negotiated security properties from the `ske' or NULL if they
+ * have not yet been negotiated. This may be called to retrieve the
+ * security properties after the SilcSKECompletionCb has been called.
+ *
+ ***/
+SilcSKESecurityProperties silc_ske_get_security_properties(SilcSKE ske);
+
+/****f* silcske/SilcSKEAPI/silc_ske_get_key_material
+ *
+ * SYNOPSIS
+ *
+ * SilcSKEKeyMaterial silc_ske_get_key_material(SilcSKE ske);
+ *
+ * DESCRIPTION
+ *
+ * Returns the negotiated key material from the `ske' or NULL if the
+ * key material does not exist. The caller must not free the returned
+ * pointer.
+ *
+ ***/
+SilcSKEKeyMaterial silc_ske_get_key_material(SilcSKE ske);
+
+/****f* silcske/SilcSKEAPI/silc_ske_process_key_material_data
+ *
+ * SYNOPSIS
+ *
+ * const char *silc_ske_map_status(SilcSKEStatus status);
+ *
+ * DESCRIPTION
+ *
+ * Utility function to process key data `data' in the way specified
+ * by the SILC Key Exchange protocol. This returns the processed key
+ * material or NULL on error. Caller must free the returned key
+ * material context by calling silc_ske_free_key_material.
+ *
+ ***/
+SilcSKEKeyMaterial
silc_ske_process_key_material_data(unsigned char *data,
- uint32 data_len,
- uint32 req_iv_len,
- uint32 req_enc_key_len,
- uint32 req_hmac_key_len,
- SilcHash hash,
- SilcSKEKeyMaterial *key);
-SilcSKEStatus silc_ske_process_key_material(SilcSKE ske,
- uint32 req_iv_len,
- uint32 req_enc_key_len,
- uint32 req_hmac_key_len,
- SilcSKEKeyMaterial *key);
-SilcSKEStatus silc_ske_check_version(SilcSKE ske,
- unsigned char *version,
- uint32 version_len);
-void silc_ske_free_key_material(SilcSKEKeyMaterial *key);
-
-#endif
+ SilcUInt32 data_len,
+ SilcUInt32 req_iv_len,
+ SilcUInt32 req_enc_key_len,
+ SilcUInt32 req_hmac_key_len,
+ SilcHash hash);
+
+/****f* silcske/SilcSKEAPI/silc_ske_free_key_material
+ *
+ * SYNOPSIS
+ *
+ * void silc_ske_free_key_material(SilcSKEKeyMaterial key)
+ *
+ * DESCRIPTION
+ *
+ * Utility function to free the key material created by calling
+ * silc_ske_process_key_material_data.
+ *
+ ***/
+void silc_ske_free_key_material(SilcSKEKeyMaterial key);
+
+/****f* silcske/SilcSKEAPI/silc_ske_free_rekey_material
+ *
+ * SYNOPSIS
+ *
+ * void silc_ske_free_rekey_material(SilcSKERekeyMaterial rekey);
+ *
+ * DESCRIPTION
+ *
+ * Utility function to free the rekey material returned in the
+ * SilcSKECompletionCb callback.
+ *
+ ***/
+void silc_ske_free_rekey_material(SilcSKERekeyMaterial rekey);
+
+/****f* silcske/SilcSKEAPI/silc_ske_map_status
+ *
+ * SYNOPSIS
+ *
+ * const char *silc_ske_map_status(SilcSKEStatus status);
+ *
+ * DESCRIPTION
+ *
+ * Utility function to map the `status' into human readable message.
+ *
+ ***/
+const char *silc_ske_map_status(SilcSKEStatus status);
+
+#include "silcske_i.h"
+
+#endif /* !SILCSKE_H */