5 Author: Pekka Riikonen <priikone@silcnet.org>
7 Copyright (C) 2000 - 2006 Pekka Riikonen
9 This program is free software; you can redistribute it and/or modify
10 it under the terms of the GNU General Public License as published by
11 the Free Software Foundation; version 2 of the License.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
20 /****h* silcclient/Client Library Interface
24 * This interface defines the SILC Client Library API for the application.
25 * The client operations are defined first. These are callback functions that
26 * the application MUST implement since the library may call the functions
27 * at any time. At the end of file is the API for the application that
28 * it can use from the library. This is the only file that the application
29 * may include from the SIlC Client Library.
31 * o SILC Client Operations
33 * These functions must be implemented by the application calling the SILC
34 * client library. The client library can call these functions at any time.
36 * To use this structure: define a static SilcClientOperations variable,
37 * fill it and pass its pointer to silc_client_alloc function.
39 * o SILC Client Library API
41 * This is the API that is published by the SILC Client Library for the
42 * applications. These functions are implemented in the SILC Client Library.
43 * Application may freely call these functions from the library.
55 #include "silcclient_entry.h"
57 /* General definitions */
59 /****d* silcclient/SilcClientAPI/SilcClientConnectionStatus
63 * typedef enum { ... } SilcClientConnectionStatus
67 * This type is returned to the `connect' client operation to indicate
68 * the status of the created connection. It can indicate if it was
69 * successful or whether an error occurred.
74 SILC_CLIENT_CONN_SUCCESS, /* Successfully connected */
75 SILC_CLIENT_CONN_SUCCESS_RESUME, /* Successfully connected and
76 resumed old detached session */
77 SILC_CLIENT_CONN_DISCONNECTED, /* Remote host disconnected */
78 SILC_CLIENT_CONN_ERROR, /* Error occurred during connecting */
79 SILC_CLIENT_CONN_ERROR_KE, /* Key Exchange failed */
80 SILC_CLIENT_CONN_ERROR_AUTH, /* Authentication failed */
81 SILC_CLIENT_CONN_ERROR_RESUME, /* Resuming failed */
82 SILC_CLIENT_CONN_ERROR_TIMEOUT, /* Timeout during connecting */
83 } SilcClientConnectionStatus;
86 /****f* silcclient/SilcClientAPI/SilcClientRunning
90 * typedef void (*SilcClientRunning)(SilcClient client, void *context);
94 * The callback given as argument to silc_client_init function. Once
95 * this is called the client library is running and application may
96 * start using the Client library API.
99 typedef void (*SilcClientRunning)(SilcClient client, void *context);
101 /****f* silcclient/SilcClientAPI/SilcClientStopped
105 * typedef void (*SilcClientStopped)(SilcClient client, void *context);
109 * The callback given as argument to silc_client_stop. Once this is
110 * called the client library has stopped and can be freed by calling
111 * silc_client_free. Note that this won't be called if there are
112 * active connections in the client. Connections must first be closed
113 * by calling silc_client_close_connection or by sending QUIT command to
114 * the server connection.
117 typedef void (*SilcClientStopped)(SilcClient client, void *context);
119 /****f* silcclient/SilcClientAPI/SilcClientConnectCallback
123 * void (*SilcClientConnectCallback)(SilcClient client,
124 * SilcClientConnection conn,
125 * SilcClientConnectionStatus status,
127 * const char *message,
132 * Connect callbak given as argument to silc_client_connect_to_server,
133 * silc_client_connect_to_client and silc_client_key_exchange functions.
134 * It is called to indicate the status of the connection, indicated
135 * by the `status'. It is called after the connection has been
136 * established to the remote host and when connection is disconnected
137 * by the remote host. The `context' is the context given as argument
138 * to the connecting function.
140 * When the `status' is SILC_CLIENT_CONN_DISCONNECTED the `error' will
141 * indicate the reason for disconnection. If the `message' is non-NULL
142 * it delivers error or disconnection message.
145 typedef void (*SilcClientConnectCallback)(SilcClient client,
146 SilcClientConnection conn,
147 SilcClientConnectionStatus status,
152 /****s* silcclient/SilcClientAPI/SilcClient
156 * typedef struct SilcClientStruct { ... } *SilcClient
160 * This is the actual SILC Client structure which represents one
161 * SILC Client. It is allocated with the silc_client_alloc function
162 * and given as argument to all SILC Client Library functions. It
163 * is initialized with silc_client_init function, and freed with
164 * silc_client_free function.
166 * This context represents the client. Each connection to remote server
167 * is represented by SilcClientConnection context.
171 struct SilcClientStruct {
172 char *username; /* Username */
173 char *hostname; /* hostname */
174 char *realname; /* Real name */
175 SilcSchedule schedule; /* Client scheduler */
176 SilcRng rng; /* Random number generator */
177 void *application; /* Application specific context, set with
178 silc_client_alloc. */
180 /* Internal data for client library. Application cannot access this. */
181 SilcClientInternal internal;
185 /****s* silcclient/SilcClientAPI/SilcClientConnection
189 * typedef struct SilcClientConnectionStruct { ... }
190 * *SilcClientConnection
194 * This structure represents a connection. It is allocated and freed by
195 * the library. It is returned to application in SilcClientConnectCallback.
196 * It includes all the important data for the session such as local
197 * client entry (which includes current nickname), local and remote IDs,
198 * and other information. All strings in the structure are UTF-8 encoded.
202 struct SilcClientConnectionStruct {
203 SilcClientEntry local_entry; /* Our own Client Entry */
204 SilcClientID *local_id; /* Our current Client ID */
206 char *remote_host; /* Remote host name */
207 int remote_port; /* Remote port */
208 SilcID remote_id; /* Remote ID */
210 SilcChannelEntry current_channel; /* Current joined channel */
211 SilcPublicKey public_key; /* Public key used in this connection */
212 SilcPrivateKey private_key; /* Private key */
213 SilcPacketStream stream; /* Connection to remote host */
214 SilcConnectionType type; /* Connection type */
215 SilcClientConnectCallback callback; /* Connection callback */
216 void *callback_context; /* Connection context */
217 SilcClient client; /* Pointer back to SilcClient */
219 /* Application specific data. Application may set here whatever it wants. */
222 /* Internal data for client library. Application cannot access this. */
223 SilcClientConnectionInternal internal;
227 /****s* silcclient/SilcClientAPI/SilcChannelUser
231 * typedef struct SilcChannelUserStruct { ... } *SilcChannelUser
235 * This structure represents a client that has joined to a channel.
236 * It shows the client and the channel and the client's mode (channel
237 * user mode) on the channel.
241 struct SilcChannelUserStruct {
242 SilcClientEntry client; /* Client joined on channel */
243 SilcUInt32 mode; /* mode, ChannelUserModes */
244 SilcChannelEntry channel; /* The channel user has joined */
246 /* Application specific data. Application may set here whatever it wants. */
251 /****s* silcclient/SilcClientAPI/SilcClientStats
255 * typedef struct { ... } SilcClientStats;
259 * This structure holds SILC network statistics returned by the
260 * SILC_COMMAND_STATS command reply to the application.
265 SilcUInt32 starttime; /* SILC server start time */
266 SilcUInt32 uptime; /* SILC server uptime*/
267 SilcUInt32 my_clients; /* Number of clients in the server */
268 SilcUInt32 my_channels; /* Number of channel in the server */
269 SilcUInt32 my_server_ops; /* Number of server operators in the server */
270 SilcUInt32 my_router_ops; /* Number of router operators in the router */
271 SilcUInt32 cell_clients; /* Number of clients in the cell */
272 SilcUInt32 cell_channels; /* Number of channels in the cell */
273 SilcUInt32 cell_servers; /* Number of server in the cell */
274 SilcUInt32 clients; /* All clients in SILC network */
275 SilcUInt32 channels; /* All channels in SILC network */
276 SilcUInt32 servers; /* All servers in SILC network */
277 SilcUInt32 routers; /* All routers in SILC network */
278 SilcUInt32 server_ops; /* All server operators in SILC network */
279 SilcUInt32 router_ops; /* All router operators in SILC network */
283 /****d* silcclient/SilcClientAPI/SilcKeyAgreementStatus
287 * typedef enum { ... } SilcKeyAgreementStatus;
291 * Key agreement status types indicating the status of the key
292 * agreement protocol. These types are returned to the application
293 * in the SilcKeyAgreementCallback callback function.
298 SILC_KEY_AGREEMENT_OK, /* Everything is Ok */
299 SILC_KEY_AGREEMENT_ERROR, /* Unknown error occurred */
300 SILC_KEY_AGREEMENT_FAILURE, /* The protocol failed */
301 SILC_KEY_AGREEMENT_TIMEOUT, /* The protocol timeout */
302 SILC_KEY_AGREEMENT_ABORTED, /* The protocol aborted */
303 SILC_KEY_AGREEMENT_ALREADY_STARTED, /* Already started */
304 SILC_KEY_AGREEMENT_SELF_DENIED, /* Negotiationg with itself denied */
305 SILC_KEY_AGREEMENT_NO_MEMORY, /* System out of memory */
306 } SilcKeyAgreementStatus;
309 /****f* silcclient/SilcClientAPI/SilcKeyAgreementCallback
313 * typedef void (*SilcKeyAgreementCallback)(SilcClient client,
314 * SilcClientConnection conn,
315 * SilcClientEntry client_entry,
316 * SilcKeyAgreementStatus status,
317 * SilcSKEKeyMaterial *key,
322 * Key agreement callback that is called after the key agreement protocol
323 * has been performed. This is called also if error occurred during the
324 * key agreement protocol. The `key' is the allocated key material and
325 * the caller is responsible of freeing it. The `key' is NULL if error
326 * has occurred. The application can freely use the `key' to whatever
327 * purpose it needs. See lib/silcske/silcske.h for the definition of
328 * the SilcSKEKeyMaterial structure.
331 typedef void (*SilcKeyAgreementCallback)(SilcClient client,
332 SilcClientConnection conn,
333 SilcClientEntry client_entry,
334 SilcKeyAgreementStatus status,
335 SilcSKEKeyMaterial key,
338 /****s* silcclient/SilcClientAPI/SilcPrivateMessageKeys
342 * typedef struct { ... } SilcPrivateMessageKeys;
346 * Structure to hold the list of private message keys. The list of these
347 * structures is returned by the silc_client_list_private_message_keys
353 SilcClientEntry client_entry; /* The remote client entry */
354 char *cipher; /* The cipher name */
355 unsigned char *key; /* The original key, If the appliation
356 provided it. This is NULL if
357 the SKE key material was used. */
358 SilcUInt32 key_len; /* The key length */
359 } *SilcPrivateMessageKeys;
362 /****s* silcclient/SilcClientAPI/SilcChannelPrivateKey
366 * typedef struct SilcChannelPrivateKeyStruct { ... }
367 * *SilcChannelPrivateKey;
371 * Structure to hold one channel private key. The array of this structure
372 * is returned by silc_client_list_channel_private_keys function.
376 struct SilcChannelPrivateKeyStruct {
377 char *name; /* Application given name */
378 SilcCipher cipher; /* The cipher and key */
379 SilcHmac hmac; /* The HMAC and hmac key */
383 /****f* silcclient/SilcClientAPI/SilcAskPassphrase
387 * typedef void (*SilcAskPassphrase)(unsigned char *passphrase,
388 * SilcUInt32 passphrase_len,
393 * Ask passphrase callback. This is called by the application when the
394 * library calls `ask_passphrase' client operation. The callback delivers
395 * the passphrase to the library. The passphrases in SILC protocol
396 * MUST be in UTF-8 encoding, therefore the `passphrase' SHOULD be UTF-8
397 * encoded, and if it is not then library will attempt to encode it.
400 typedef void (*SilcAskPassphrase)(unsigned char *passphrase,
401 SilcUInt32 passphrase_len,
404 /****f* silcclient/SilcClientAPI/SilcVerifyPublicKey
408 * typedef void (*SilcVerifyPublicKey)(SilcBool success, void *context);
412 * Public key (or certificate) verification callback. This is called
413 * by the application to indicate that the public key verification was
414 * either success or failure.
417 typedef void (*SilcVerifyPublicKey)(SilcBool success, void *context);
419 /****f* silcclient/SilcClientAPI/SilcGetAuthMeth
423 * typedef void (*SilcGetAuthMeth)(SilcBool success,
424 * SilcAuthMethod auth_meth,
425 * void *auth, SilcUInt32 auth_len,
430 * Authentication method resolving callback. This is called by the
431 * application to return the resolved authentication method. The client
432 * library has called the get_auth_method client operation and given
433 * this function pointer as argument. The `success' will indicate whether
434 * the authentication method could be resolved. The `auth_meth' is the
435 * resolved authentication method. The `auth_data' and the `auth_data_len'
436 * are the resolved authentication data. The `context' is the libary's
437 * context sent to the get_auth_method client operation.
440 typedef void (*SilcGetAuthMeth)(SilcBool success,
441 SilcAuthMethod auth_meth,
442 void *auth, SilcUInt32 auth_len,
445 /****d* silcclient/SilcClientAPI/SilcClientMessageType
449 * typedef enum { ... } SilcClientMessageType;
453 * Different message types for `say' client operation. The application
454 * may filter the message sent by the library according this type.
459 SILC_CLIENT_MESSAGE_INFO, /* Informational */
460 SILC_CLIENT_MESSAGE_WARNING, /* Warning */
461 SILC_CLIENT_MESSAGE_ERROR, /* Error */
462 SILC_CLIENT_MESSAGE_AUDIT, /* Auditable */
463 } SilcClientMessageType;
466 /****s* silcclient/SilcClientAPI/SilcClientOperations
470 * typedef struct { ... } SilcClientOperations;
474 * SILC Client Operations. These must be implemented by the application.
475 * The Client library may call any of these routines at any time. The
476 * routines are used to deliver certain information to the application
477 * or from the application to the client library.
482 /* Message sent to the application by library. `conn' associates the
483 message to a specific connection. `conn', however, may be NULL.
484 The `type' indicates the type of the message sent by the library.
485 The application can for example filter the message according the
486 type. The variable argument list is arguments to the formatted
487 message that `msg' may be. */
488 void (*say)(SilcClient client, SilcClientConnection conn,
489 SilcClientMessageType type, char *msg, ...);
491 /* Message for a channel. The `sender' is the sender of the message
492 The `channel' is the channel. The `message' is the message. Note
493 that `message' maybe NULL. The `flags' indicates message flags
494 and it is used to determine how the message can be interpreted
495 (like it may tell the message is multimedia message). */
496 void (*channel_message)(SilcClient client, SilcClientConnection conn,
497 SilcClientEntry sender, SilcChannelEntry channel,
498 SilcMessagePayload payload,
499 SilcChannelPrivateKey key, SilcMessageFlags flags,
500 const unsigned char *message,
501 SilcUInt32 message_len);
503 /* Private message to the client. The `sender' is the sender of the
504 message. The message is `message'and maybe NULL. The `flags'
505 indicates message flags and it is used to determine how the message
506 can be interpreted (like it may tell the message is multimedia
508 void (*private_message)(SilcClient client, SilcClientConnection conn,
509 SilcClientEntry sender, SilcMessagePayload payload,
510 SilcMessageFlags flags, const unsigned char *message,
511 SilcUInt32 message_len);
513 /* Notify message to the client. The notify arguments are sent in the
514 same order as servers sends them. The arguments are same as received
515 from the server except for ID's. If ID is received application receives
516 the corresponding entry to the ID. For example, if Client ID is received
517 application receives SilcClientEntry. Also, if the notify type is
518 for channel the channel entry is sent to application (even if server
519 does not send it because client library gets the channel entry from
520 the Channel ID in the packet's header). */
521 void (*notify)(SilcClient client, SilcClientConnection conn,
522 SilcNotifyType type, ...);
524 /* Command handler. This function is called always after application has
525 called a command. It will be called to indicate that the command
526 was processed. It will also be called if error occurs while processing
527 the command. The `success' indicates whether the command was sent
528 or if error occurred. The `status' indicates the actual error.
529 The `argc' and `argv' are the command line arguments sent to the
530 command by application. Note that, this is not reply to the command
531 from server, this is merely and indication to application that the
532 command was processed. */
533 void (*command)(SilcClient client, SilcClientConnection conn,
534 SilcBool success, SilcCommand command, SilcStatus status,
535 SilcUInt32 argc, unsigned char **argv);
537 /* Command reply handler. This function is called always in the command reply
538 function. If error occurs it will be called as well. Normal scenario
539 is that it will be called after the received command data has been parsed
540 and processed. The function is used to pass the received command data to
543 `conn' is the associated client connection. `cmd_payload' is the command
544 payload data received from server and it can be ignored. It is provided
545 if the application would like to re-parse the received command data,
546 however, it must be noted that the data is parsed already by the library
547 thus the payload can be ignored. `success' is FALSE if error occurred.
548 In this case arguments are not sent to the application. The `status' is
549 the command reply status server returned. The `command' is the command
550 reply being processed. The function has variable argument list and each
551 command defines the number and type of arguments it passes to the
552 application (on error they are not sent).
554 The arguments are sent in the same order as servers sends them. The
555 arguments are same as received from the server except for ID's. If
556 ID is received application receives the corresponding entry to the
557 ID. For example, if Client ID is receives application receives
559 void (*command_reply)(SilcClient client, SilcClientConnection conn,
560 SilcCommand command, SilcStatus status,
561 SilcStatus error, va_list ap);
563 /* Find authentication method and authentication data by hostname and
564 port. The hostname may be IP address as well. When the authentication
565 method has been resolved the `completion' callback with the found
566 authentication method and authentication data is called. The `conn'
568 void (*get_auth_method)(SilcClient client, SilcClientConnection conn,
569 char *hostname, SilcUInt16 port,
570 SilcGetAuthMeth completion, void *context);
572 /* Verifies received public key. The `conn_type' indicates which entity
573 (server, client etc.) has sent the public key. If user decides to trust
574 the application may save the key as trusted public key for later
575 use. The `completion' must be called after the public key has been
577 void (*verify_public_key)(SilcClient client, SilcClientConnection conn,
578 SilcConnectionType conn_type,
579 SilcPublicKey public_key,
580 SilcVerifyPublicKey completion, void *context);
582 /* Ask (interact, that is) a passphrase from user. The passphrase is
583 returned to the library by calling the `completion' callback with
584 the `context'. The returned passphrase SHOULD be in UTF-8 encoded,
585 if not then the library will attempt to encode. */
586 void (*ask_passphrase)(SilcClient client, SilcClientConnection conn,
587 SilcAskPassphrase completion, void *context);
589 /* Called to indicate that incoming key agreement request has been
590 received. If the application wants to perform key agreement it may
591 call silc_client_perform_key_agreement to initiate key agreementn or
592 silc_client_send_key_agreement to provide connection point to the
593 remote client in case the `hostname' is NULL. If key agreement is
594 not desired this request can be ignored. The `protocol' is either
595 value 0 for TCP or value 1 for UDP. */
596 void (*key_agreement)(SilcClient client, SilcClientConnection conn,
597 SilcClientEntry client_entry,
598 const char *hostname, SilcUInt16 protocol,
601 /* Notifies application that file transfer protocol session is being
602 requested by the remote client indicated by the `client_entry' from
603 the `hostname' and `port'. The `session_id' is the file transfer
604 session and it can be used to either accept or reject the file
605 transfer request, by calling the silc_client_file_receive or
606 silc_client_file_close, respectively. */
607 void (*ftp)(SilcClient client, SilcClientConnection conn,
608 SilcClientEntry client_entry, SilcUInt32 session_id,
609 const char *hostname, SilcUInt16 port);
610 } SilcClientOperations;
613 /****f* silcclient/SilcClientAPI/SilcNicknameFormatParse
617 * typedef void (*SilcNicknameFormatParse)(const char *nickname,
618 * char **ret_nickname);
622 * A callback function provided by the application for the library in
623 * SilcClientParams structure. This function parses the formatted
624 * nickname string `nickname' and returns the true nickname to the
625 * `ret_nickname' pointer. The library can call this function at
629 typedef void (*SilcNicknameFormatParse)(const char *nickname,
630 char **ret_nickname);
632 /****s* silcclient/SilcClientAPI/SilcClientParams
636 * typedef struct { ... } SilcClientParams;
640 * Client parameters. This can be filled with proper values and
641 * given as argument to the silc_client_alloc function. The structure
642 * hold various parameters which affects the function of the client.
647 /* If this boolean is set to TRUE then the client library will use
648 threads. Any of the callback functions in the SilcClientOperations
649 and other callbacks may be called at any time in a thread. The
650 application may need to employ appropriate concurrency control
651 in the callbacks to protect application specific data. */
654 /* Connection authentication method request timeout. If server does not
655 reply back the current authentication method when we've requested it
656 in this time interval we'll assume the reply will not come at all.
657 If set to zero, the default value (2 seconds) will be used. */
658 unsigned int connauth_request_secs;
660 /* Nickname format string. This can be used to order the client library
661 to save the nicknames in the library in a certain format. Since
662 nicknames are not unique in SILC it is possible to have multiple same
663 nicknames. Using this format string it is possible to order the library
664 to separate the multiple same nicknames from each other. The format
665 types are defined below and they can appear in any order in the format
666 string. If this is NULL then default format is used which is the
667 default nickname without anything else. The string MUST be NULL
670 Following format types are available:
672 %n nickname - the real nickname returned by the server (mandatory)
673 %h hostname - the stripped hostname of the client
674 %H full hostname - the full hostname of the client
675 %s server name - the server name the client is connected
676 %S full server - the full server name the client is connected
677 %a number - ascending number in case there are several
678 same nicknames (fe. nick@host and nick@host2)
680 Example format strings: "%n@%h%a" (fe. nick@host, nick@host2)
681 "%a!%n@%s" (fe. nick@server, 2!nick@server)
682 "%n@%H" (fe. nick@host.domain.com)
684 By default this format is employed to the nicknames by the libary
685 only when there appears multiple same nicknames. If the library has
686 only one nickname cached the nickname is saved as is and without the
687 defined format. If you want always to save the nickname in the defined
688 format set the boolean field `nickname_force_format' to value TRUE.
690 char nickname_format[32];
692 /* If this is set to TRUE then the `nickname_format' is employed to all
693 saved nicknames even if there are no multiple same nicknames in the
694 cache. By default this is FALSE, which means that the `nickname_format'
695 is employed only if the library will receive a nickname that is
696 already saved in the cache. It is recommended to leave this to FALSE
698 SilcBool nickname_force_format;
700 /* A callback function provided by the application for the library to
701 parse the nickname from the formatted nickname string. Even though
702 the libary formats the nicknames the application knows generally the
703 format better so this function should be provided for the library
704 if the application sets the `nickname_format' field. The library
705 will call this to get the true nickname from the provided formatted
706 nickname string whenever it needs the true nickname. */
707 SilcNicknameFormatParse nickname_parse;
709 /* If this is set to TRUE then the client will ignore all incoming
710 Requested Attributes queries and does not reply anything back. This
711 usually leads into situation where server does not anymore send
712 the queries after seeing that client does not reply anything back.
713 If your application does not support Requested Attributes or you do
714 not want to use them set this to TRUE. See SilcAttribute and
715 silc_client_attribute_add for more information on attributes. */
716 SilcBool ignore_requested_attributes;
718 /* If this is set to TRUE, the silcclient library will not register and
719 deregister the cipher, pkcs, hash and hmac algorithms. The application
720 itself will need to handle that. */
721 SilcBool dont_register_crypto_library;
727 /* Initialization functions (client.c) */
729 /****f* silcclient/SilcClientAPI/silc_client_alloc
733 * SilcClient silc_client_alloc(SilcClientOperations *ops,
734 * SilcClientParams *params,
736 * const char *silc_version);
740 * Allocates new client object. This has to be done before client may
741 * work. After calling this one must call silc_client_init to initialize
742 * the client. The `application' is application specific user data pointer
743 * and caller must free it. The `silc_version' is the application version
744 * that will be used to compare against remote host's (usually a server)
745 * version string. The `application' context is accessible by the
746 * application by client->application, client being SilcClient.
749 SilcClient silc_client_alloc(SilcClientOperations *ops,
750 SilcClientParams *params,
752 const char *version_string);
754 /****f* silcclient/SilcClientAPI/silc_client_free
758 * void silc_client_free(SilcClient client);
762 * Frees client object and its internals. The execution of the client
763 * should be stopped with silc_client_stop function before calling
767 void silc_client_free(SilcClient client);
769 /****f* silcclient/SilcClientAPI/silc_client_init
773 * SilcBool silc_client_init(SilcClient client, const char *username,
774 * const char *hostname, const char *realname,
775 * SilcClientRunning running, void *context);
779 * Initializes the client. This makes all the necessary steps to make
780 * the client ready to be run. One must call silc_client_run to run the
781 * client. Returns FALSE if error occurred, TRUE otherwise.
783 * The `username', `hostname' and `realname' strings must be given and
784 * they must be UTF-8 encoded. The `username' is the client's username
785 * in the operating system, `hostname' is the client's host name and
786 * the `realname' is the user's real name.
788 * The `running' callback is called after the client is running after
789 * silc_client_run or silc_client_run_one has been called. Application
790 * may start using the Client library API after that. Setting the
791 * callback is optional, but recommended.
794 SilcBool silc_client_init(SilcClient client, const char *username,
795 const char *hostname, const char *realname,
796 SilcClientRunning running, void *context);
798 /****f* silcclient/SilcClientAPI/silc_client_run
802 * void silc_client_run(SilcClient client);
806 * Runs the client. This starts the scheduler from the utility library.
807 * When this functions returns the execution of the application is over.
808 * The client must be initialized before calling this.
811 void silc_client_run(SilcClient client);
813 /****f* silcclient/SilcClientAPI/silc_client_run_one
817 * void silc_client_run_one(SilcClient client);
821 * Runs the client and returns immeadiately. This function is used when
822 * the SILC Client object indicated by the `client' is run under some
823 * other scheduler, or event loop or main loop. On GUI applications,
824 * for example this may be desired to used to run the client under the
825 * GUI application's main loop. Typically the GUI application would
826 * register an idle task that calls this function multiple times in
827 * a second to quickly process the SILC specific data.
830 void silc_client_run_one(SilcClient client);
833 /****f* silcclient/SilcClientAPI/silc_client_stop
837 * void silc_client_stop(SilcClient client, SilcClientStopped stopped,
842 * Stops the client. This is called to stop the client and thus to stop
843 * the program. The client context must be freed with the silc_client_free
844 * function. All connections that exist in this client must be closed
845 * before calling this function. Connections can be closed by calling
846 * silc_client_close_connection.
848 * The `stopped' will be called once the client and all connections have
849 * finished. The client may be freed after that. Note that the `stopped'
850 * won't be called before all connections have finished. Setting the
851 * callback is optional.
854 void silc_client_stop(SilcClient client, SilcClientStopped stopped,
857 /* Connecting functions */
859 /****s* silcclient/SilcClientAPI/SilcClientConnectionParams
863 * typedef struct { ... } SilcClientConnectionParams;
867 * Client connection parameters. This can be filled by the application
868 * and given as argument to silc_client_connect_to_server,
869 * silc_client_connect_to_client, silc_client_key_exchange or
870 * silc_client_send_key_agreement.
875 /* If this is provided the user's nickname in the network will be the
876 string given here. If it is given, it must be UTF-8 encoded. If this
877 string is not given, the user's username by default is used as nickname.
878 The nickname may later be changed by using NICK command. The maximum
879 length for the nickname string is 128 bytes. */
882 /* If this key repository pointer is non-NULL then public key received in
883 the key exchange protocol will be verified from this repository. If
884 this is not provided then the `verify_public_key' client operation will
885 be called back to application. If the boolean `verify_notfound' is set
886 to TRUE then the `verify_public_key' client operation will be called
887 in case the public key is not found in `repository'. Only public keys
888 added with at least SILC_SKR_USAGE_KEY_AGREEMENT in the repository will
889 be checked, other keys will be ignored. */
891 SilcBool verify_notfound;
893 /* Authentication data. Application may set here the authentication data
894 and authentication method to be used in connecting. If `auth_set'
895 boolean is TRUE then authentication data is provided by application.
896 If the authentication method is public key authentication then the key
897 pair given as argument when connecting will be used and `auth' field
898 is NULL. If it is passphrase authentication, it can be provided in
899 `auth' and `auth_len' fields. If `auth_set' is FALSE
900 the `get_auth_method' client operation will be called to get the
901 authentication method and data from application. */
903 SilcAuthMethod auth_method;
907 /* If this boolean is set to TRUE then the connection will use UDP instead
908 of TCP. If UDP is set the also the next `local_ip' and `local_port'
912 /* The `local_ip' specifies the local IP address used with the connection.
913 It must be non-NULL if `udp' boolean is TRUE. If the `local_port' is
914 non-zero it will be used as local port with UDP connection. The remote
915 host will also send packets to the specified address and port. If the
916 `bind_ip' is non-NULL a listener is bound to that address instead of
922 /* If this boolean is set to TRUE then the key exchange is done with
923 perfect forward secrecy. */
926 /* If this boolean is set to TRUE then connection authentication protocol
927 is not performed during connecting. Only key exchange protocol is
928 performed. This usually must be set to TRUE when connecting to another
929 client, but must be FALSE with server connections. */
930 SilcBool no_authentication;
932 /* The SILC session detachment data that was returned in the `command_reply'
933 client operation for SILC_COMMAND_DETACH command. If this is provided
934 here the client library will attempt to resume the session in the network.
935 After the connection is created and the session has been resumed the
936 client will receive SILC_COMMAND_NICK command_reply for the client's
937 nickname in the network and SILC_COMMAND_JOIN command reply for all the
938 channels that the client has joined in the network. It may also receive
939 SILC_COMMAND_UMODE command reply to set user's mode on the network. */
940 unsigned char *detach_data;
941 SilcUInt32 detach_data_len;
943 /* Connection timeout. If non-zero, the connection will timeout unless
944 the SILC connection is completed in the specified amount of time. */
945 SilcUInt32 timeout_secs;
947 /* Rekey timeout in seconds. The client will perform rekey in this
948 time interval. If set to zero, the default value will be used
949 (3600 seconds, 1 hour). */
950 unsigned int rekey_secs;
952 } SilcClientConnectionParams;
955 /****f* silcclient/SilcClientAPI/silc_client_connect_to_server
960 * silc_client_connect_to_server(SilcClient client,
961 * SilcClientConnectionParams *params,
962 * SilcPublicKey public_key,
963 * char *remote_host, int port,
964 * SilcClientConnectCallback callback,
969 * Connects to remote server `remote_host' at port `port'. This function
970 * can be used to create connection to remote SILC server and start
971 * SILC session in the SILC network. The `params' may be provided
972 * to provide various connection parameters. The `public_key' and the
973 * `private_key' is your identity used in this connection. When
974 * authentication method is based on digital signatures, this key pair
975 * will be used. The `callback' with `context' will be called after the
976 * connection has been created. It will also be called later when remote
979 * If application wishes to create the network connection itself, use
980 * the silc_client_key_exchange after creating the connection to start
981 * key exchange and authentication with the server.
983 * Returns SilcAsyncOperation which can be used to cancel the connecting,
984 * or NULL on error. Note that the returned pointer becomes invalid
985 * after the `callback' is called.
989 silc_client_connect_to_server(SilcClient client,
990 SilcClientConnectionParams *params,
991 SilcPublicKey public_key,
992 SilcPrivateKey private_key,
993 char *remote_host, int port,
994 SilcClientConnectCallback callback,
997 /****f* silcclient/SilcClientAPI/silc_client_connect_to_client
1001 * SilcAsyncOperation
1002 * silc_client_connect_to_client(SilcClient client,
1003 * SilcClientConnectionParams *params,
1004 * SilcPublicKey public_key,
1005 * char *remote_host, int port,
1006 * SilcClientConnectCallback callback,
1011 * Connects to remote client `remote_host' at port `port'. This function
1012 * can be used to create peer-to-peer connection to another SILC client,
1013 * for example, for direct conferencing, or file transfer or for other
1014 * purposes. The `params' may be provided to provide various connection
1015 * parameters. The `public_key' and the `private_key' is your identity
1016 * used in this connection. The `callback' with `context' will be called
1017 * after the connection has been created. It will also be called later
1018 * when remote host disconnects.
1020 * If application wishes to create the network connection itself, use
1021 * the silc_client_key_exchange after creating the connection to start
1022 * key exchange with the client.
1024 * Returns SilcAsyncOperation which can be used to cancel the connecting,
1025 * or NULL on error. Note that the returned pointer becomes invalid
1026 * after the `callback' is called.
1030 silc_client_connect_to_client(SilcClient client,
1031 SilcClientConnectionParams *params,
1032 SilcPublicKey public_key,
1033 SilcPrivateKey private_key,
1034 char *remote_host, int port,
1035 SilcClientConnectCallback callback,
1038 /****f* silcclient/SilcClientAPI/silc_client_key_exchange
1042 * SilcAsyncOperation
1043 * silc_client_key_exchange(SilcClient client,
1044 * SilcClientConnectionParams *params,
1045 * SilcPublicKey public_key,
1046 * SilcPrivateKey private_key,
1047 * SilcStream stream,
1048 * SilcConnectionType conn_type,
1049 * SilcClientConnectCallback callback,
1054 * Starts key exchange protocol and authentication protocol in the
1055 * connection indicated by `stream'. This function can be be used to
1056 * start SILC session with remote host (usually server) when the caller
1057 * has itself created the connection, instead of calling the function
1058 * silc_client_connect_to_server or silc_client_connect_to_client. If
1059 * one of those functions was used this function must not be called as
1060 * in that case the key exchange is performed automatically.
1062 * Use this function only if you have created the connection by yourself.
1063 * After creating the connection the socket must be wrapped into a
1064 * socket stream. See silcsocketstream.h for more information. Note that
1065 * the `stream' must have valid remote IP address (and optionally also
1066 * hostname) and port set.
1068 * The `params' may be provided to provide various connection parameters.
1069 * The `public_key' and the `private_key' is your identity used in this
1070 * session. The `callback' with `context' will be called after the session
1071 * has been set up. It will also be called later when remote host
1072 * disconnects. The `conn_type' is the type of session this is going to
1075 * Returns SilcAsyncOperation which can be used to cancel the connecting,
1076 * or NULL on error. Note that the returned pointer becomes invalid
1077 * after the `callback' is called.
1083 * // Create remote connection stream. Resolve hostname and IP also.
1084 * sock = create_connection(remote_host, port);
1085 * silc_socket_tcp_stream_create(sock, TRUE, FALSE, schedule,
1086 * stream_create_cb, app);
1088 * // Stream callback delivers our new SilcStream context
1089 * void stream_create_cb(SilcSocketStreamStatus status, SilcStream stream,
1093 * if (status != SILC_SOCKET_OK)
1096 * // Start key exchange
1097 * silc_client_key_exchange(client, NULL, public_key, private_key,
1098 * stream, SILC_CONN_SERVER, connection_cb, app);
1104 silc_client_key_exchange(SilcClient client,
1105 SilcClientConnectionParams *params,
1106 SilcPublicKey public_key,
1107 SilcPrivateKey private_key,
1109 SilcConnectionType conn_type,
1110 SilcClientConnectCallback callback,
1113 /****f* silcclient/SilcClientAPI/silc_client_close_connection
1117 * void silc_client_close_connection(SilcClient client,
1118 * SilcClientConnection conn);
1122 * Closes the remote connection `conn'. The `conn' will become invalid
1123 * after this call. Usually this function is called only when explicitly
1124 * closing connection for example in case of error, or when the remote
1125 * connection was created by the application or when the remote is client
1126 * connection. Server connections are usually closed by sending QUIT
1127 * command to the server. However, this call may also be used.
1130 void silc_client_close_connection(SilcClient client,
1131 SilcClientConnection conn);
1133 /* Message sending functions (client_channel.c and client_prvmsg.c) */
1135 /****f* silcclient/SilcClientAPI/silc_client_send_channel_message
1139 * SilcBool silc_client_send_channel_message(SilcClient client,
1140 * SilcClientConnection conn,
1141 * SilcChannelEntry channel,
1142 * SilcChannelPrivateKey key,
1143 * SilcMessageFlags flags,
1145 * unsigned char *data,
1146 * SilcUInt32 data_len);
1150 * Sends packet to the `channel'. Packet to channel is always encrypted
1151 * differently from "normal" packets. SILC header of the packet is
1152 * encrypted with the next receiver's key and the rest of the packet is
1153 * encrypted with the channel specific key. Padding and HMAC is computed
1154 * with the next receiver's key. The `data' is the channel message.
1156 * If `key' is provided then that private key is used to encrypt the
1157 * channel message. If it is not provided, private keys has not been
1158 * set at all, the normal channel key is used automatically. If private
1159 * keys are set then the first key (the key that was added first as
1160 * private key) is used.
1162 * If the `flags' includes SILC_MESSAGE_FLAG_SIGNED the message will be
1163 * digitally signed with the SILC key pair.
1165 * Returns TRUE if the message was sent, and FALSE if error occurred or
1166 * the sending is not allowed due to channel modes (like sending is
1167 * blocked). This function is thread safe and private messages can be
1168 * sent from multiple threads.
1171 SilcBool silc_client_send_channel_message(SilcClient client,
1172 SilcClientConnection conn,
1173 SilcChannelEntry channel,
1174 SilcChannelPrivateKey key,
1175 SilcMessageFlags flags,
1177 unsigned char *data,
1178 SilcUInt32 data_len);
1180 /* Block process until channel message from `channel' is received */
1182 silc_client_receive_channel_message(SilcClient client,
1183 SilcClientConnection conn,
1184 SilcChannelEntry channel,
1185 SilcClientEntry *return_sender,
1186 SilcMessageFlags *return_flags,
1187 const unsigned char **return_message,
1188 SilcUInt32 *return_message_len);
1190 /****f* silcclient/SilcClientAPI/silc_client_send_private_message
1194 * SilcBool silc_client_send_private_message(SilcClient client,
1195 * SilcClientConnection conn,
1196 * SilcClientEntry client_entry,
1197 * SilcMessageFlags flags,
1199 * unsigned char *data,
1200 * SilcUInt32 data_len);
1204 * Sends private message to remote client. If private message key has
1205 * not been set with this client then the message will be encrypted using
1206 * normal session keys. If the `flags' includes SILC_MESSAGE_FLAG_SIGNED
1207 * the message will be digitally signed with the SILC key pair. In this
1208 * case the caller must also provide the `hash' pointer. By default, the
1209 * hash function must be SHA-1.
1211 * Returns TRUE if the message was sent, and FALSE if error occurred.
1212 * This function is thread safe and private messages can be sent from
1216 SilcBool silc_client_send_private_message(SilcClient client,
1217 SilcClientConnection conn,
1218 SilcClientEntry client_entry,
1219 SilcMessageFlags flags,
1221 unsigned char *data,
1222 SilcUInt32 data_len);
1224 /****f* silcclient/SilcClientAPI/silc_client_on_channel
1228 * SilcChannelUser silc_client_on_channel(SilcChannelEntry channel,
1229 * SilcClientEntry client_entry);
1233 * Returns the SilcChannelUser entry if the `client_entry' is joined on the
1234 * channel indicated by the `channel'. NULL if client is not joined on
1238 SilcChannelUser silc_client_on_channel(SilcChannelEntry channel,
1239 SilcClientEntry client_entry);
1242 /* Command management */
1244 /****f* silcclient/SilcClientAPI/silc_client_command_call
1248 * SilcUInt16 silc_client_command_call(SilcClient client,
1249 * SilcClientConnection conn,
1250 * const char *command_line, ...);
1254 * Calls and executes the command indicated by the `command_name'.
1255 * The `command_line' is a string which includes the command's name and
1256 * its arguments separated with whitespaces (' '). If `command_line'
1257 * is non-NULL then all variable arguments are ignored by default.
1259 * If `command_line' is NULL, then the variable arguments define the
1260 * command's name and its arguments. The first variable argument must
1261 * be the command name. The variable argument list must be terminated
1264 * Returns FALSE if the command is not known and TRUE after command.
1265 * execution. The "command" client operation is called when the
1266 * command is executed to indicate whether the command executed
1267 * successfully or not.
1269 * The "command_reply" client operation will be called when reply is
1270 * received from the server to the command. Application may also use
1271 * the silc_client_command_pending to attach to the command reply.
1272 * The command identifier for silc_client_command_pending function after
1273 * this function call is conn->cmd_ident, which application may use.
1277 * silc_client_command_call(client, conn, NULL, "PING", "silc.silcnet.org",
1279 * silc_client_command_call(client, conn, "PING silc.silcnet.org");
1283 * This command executes the commands implemented inside the client
1284 * library. These commands are designed for command line applications,
1285 * but GUI application may call them too if needed. Alternatively
1286 * application may override the library and use silc_client_command_send
1290 SilcUInt16 silc_client_command_call(SilcClient client,
1291 SilcClientConnection conn,
1292 const char *command_line, ...);
1294 /* If FALSE is returned the callback will not be called again, even if there
1295 is more data coming in in the command reply. If there are other pending
1296 commands waiting for the reply, they will receive it even if some other
1297 command reply has returned FALSE. */
1298 typedef SilcBool (*SilcClientCommandReply)(SilcClient client,
1299 SilcClientConnection conn,
1300 SilcCommand command,
1306 /****f* silcclient/SilcClientAPI/silc_client_command_send
1310 * SilcUInt16 silc_client_command_send(SilcClient client,
1311 * SilcClientConnection conn,
1312 * SilcCommand command,
1313 * SilcClientCommandReply reply,
1314 * void *reply_context,
1315 * SilcUInt32 argc, ...);
1319 * Generic function to send any command. The arguments must be given
1320 * already encoded into correct format and in correct order. If application
1321 * wants to perform the commands by itself, it can do so and send the data
1322 * directly to the server using this function. If application is using
1323 * the silc_client_command_call, this function is usually not used.
1324 * Programmer should get familiar with the SILC protocol commands
1325 * specification when using this function, as the arguments needs to
1326 * be encoded as specified in the protocol.
1328 * The variable arguments are a set of { type, data, data_length },
1329 * and the `argc' is the number of these sets.
1331 * The `reply' callback must be provided, and it is called when the
1332 * command reply is received from the server. Note that, when using this
1333 * function the default `command_reply' client operation will not be
1334 * called, when reply is received. Note however that, `reply' is almost
1335 * identical with `command_reply' callback, and application may forward
1336 * the reply from `reply' to `command_reply' callback, if desired.
1338 * Returns command identifier for this sent command. It can be used
1339 * to additionally attach to the command reply using the function
1340 * silc_client_command_pending, if needed. Returns 0 on error,
1344 * silc_client_command_send(client, conn, SILC_COMMAND_WHOIS,
1345 * my_whois_command_reply, cmd_ctx,
1346 * 1, 1, nickname, strlen(nickname));
1349 SilcUInt16 silc_client_command_send(SilcClient client,
1350 SilcClientConnection conn,
1351 SilcCommand command,
1352 SilcClientCommandReply reply,
1353 void *reply_context,
1354 SilcUInt32 argc, ...);
1356 /****f* silcclient/SilcClientAPI/silc_client_command_pending
1360 * void silc_client_command_pending(SilcClientConnection conn,
1361 * SilcCommand reply_cmd,
1362 * SilcUInt16 cmd-ident,
1363 * SilcCommandCb callback,
1368 * This function can be used to add pending command callback to be
1369 * called when an command reply is received to an earlier sent command.
1370 * The `reply_cmd' is the command that must be received in order for
1371 * the pending command callback indicated by `callback' to be called.
1372 * The `callback' will deliver the `context' and
1373 * SilcClientCommandReplyContext which includes the internals of the
1376 * The `cmd_ident' is a command identifier which was set for the earlier
1377 * sent command. The command reply will include the same identifier
1378 * and pending command callback will be called when the reply is
1379 * received with the same command identifier. It is possible to
1380 * add multiple pending command callbacks for same command and for
1383 * Application may use this function to add its own command reply
1384 * handlers if it wishes not to use the standard `command_reply'
1385 * client operation. However, note that the pending command callback
1386 * does not deliver parsed command reply, but application must parse
1389 * Note also that the application is notified about the received command
1390 * reply through the `command_reply' client operation before calling
1391 * the `callback` pending command callback. That is the normal
1392 * command reply handling, and is called regardless whether pending
1393 * command callbacks are used or not.
1395 * Commands that application calls with silc_client_command_call
1396 * will use a command identifier from conn->cmd_ident variable. After
1397 * calling the silc_client_command_call, the conn->cmd_ident includes
1398 * the command identifier that was used for the command sending.
1402 * silc_client_command_call(client, conn, "PING silc.silcnet.org");
1403 * silc_client_command_pending(conn, SILC_COMMAND_PING, conn->cmd_ident,
1404 * my_ping_handler, my_ping_context);
1407 SilcBool silc_client_command_pending(SilcClientConnection conn,
1408 SilcCommand command,
1409 SilcUInt16 cmd_ident,
1410 SilcClientCommandReply reply,
1414 /* Private Message key management (client_prvmsg.c) */
1416 /****f* silcclient/SilcClientAPI/silc_client_add_private_message_key
1421 * silc_client_add_private_message_key(SilcClient client,
1422 * SilcClientConnection conn,
1423 * SilcClientEntry client_entry,
1424 * const char *cipher,
1426 * unsigned char *key,
1427 * SilcUInt32 key_len);
1431 * Adds a static private message key to the client library. The key
1432 * will be used to encrypt all private message between the client and
1433 * the remote client indicated by the `client_entry'. The `key' can
1434 * be for example a pre-shared-key, passphrase or similar shared secret
1435 * string. The `cipher' and `hmac' MAY be provided but SHOULD be NULL
1436 * to assure that the requirements of the SILC protocol are met. The
1437 * API, however, allows to allocate any cipher and HMAC.
1439 * If the private message key is added to client without first receiving
1440 * a request for it from the remote `client_entry' this function will
1441 * send the request to `client_entry'. Note that, the actual key is
1442 * not sent to the network.
1444 * It is not necessary to set key for normal private message usage. If the
1445 * key is not set then the private messages are encrypted using normal
1446 * session keys. Setting the private key, however, increases the security.
1448 * Returns FALSE if the key is already set for the `client_entry', TRUE
1452 SilcBool silc_client_add_private_message_key(SilcClient client,
1453 SilcClientConnection conn,
1454 SilcClientEntry client_entry,
1458 SilcUInt32 key_len);
1460 /****f* silcclient/SilcClientAPI/silc_client_add_private_message_key_ske
1465 * silc_client_add_private_message_key_ske(SilcClient client,
1466 * SilcClientConnection conn,
1467 * SilcClientEntry client_entry,
1468 * const char *cipher,
1470 * SilcSKEKeyMaterial key);
1474 * Same as silc_client_add_private_message_key but takes the key material
1475 * from the SKE key material structure. This structure is received if
1476 * the application uses the silc_client_send_key_agreement to negotiate
1477 * the key material. The `cipher' and `hmac' SHOULD be provided as it is
1478 * negotiated also in the SKE protocol.
1481 SilcBool silc_client_add_private_message_key_ske(SilcClient client,
1482 SilcClientConnection conn,
1483 SilcClientEntry client_entry,
1486 SilcSKEKeyMaterial key);
1488 /****f* silcclient/SilcClientAPI/silc_client_del_private_message_key
1492 * SilcBool silc_client_del_private_message_key(SilcClient client,
1493 * SilcClientConnection conn,
1494 * SilcClientEntry client_entry);
1498 * Removes the private message from the library. The key won't be used
1499 * after this to protect the private messages with the remote `client_entry'
1500 * client. Returns FALSE on error, TRUE otherwise.
1503 SilcBool silc_client_del_private_message_key(SilcClient client,
1504 SilcClientConnection conn,
1505 SilcClientEntry client_entry);
1507 /****f* silcclient/SilcClientAPI/silc_client_list_private_message_keys
1511 * SilcPrivateMessageKeys
1512 * silc_client_list_private_message_keys(SilcClient client,
1513 * SilcClientConnection conn,
1514 * SilcUInt32 *key_count);
1518 * Returns array of set private message keys associated to the connection
1519 * `conn'. Returns allocated SilcPrivateMessageKeys array and the array
1520 * count to the `key_count' argument. The array must be freed by the caller
1521 * by calling the silc_client_free_private_message_keys function. Note:
1522 * the keys returned in the array is in raw format. It might not be desired
1523 * to show the keys as is. The application might choose not to show the keys
1524 * at all or to show the fingerprints of the keys.
1527 SilcPrivateMessageKeys
1528 silc_client_list_private_message_keys(SilcClient client,
1529 SilcClientConnection conn,
1530 SilcUInt32 *key_count);
1532 /****f* silcclient/SilcClientAPI/silc_client_free_private_message_keys
1536 * void silc_client_free_private_message_keys(SilcPrivateMessageKeys keys,
1537 * SilcUInt32 key_count);
1541 * Frees the SilcPrivateMessageKeys array returned by the function
1542 * silc_client_list_private_message_keys.
1545 void silc_client_free_private_message_keys(SilcPrivateMessageKeys keys,
1546 SilcUInt32 key_count);
1549 /* Channel private key management (client_channel.c,
1550 SilcChannelPrivateKey is defined in idlist.h) */
1552 /****f* silcclient/SilcClientAPI/silc_client_add_channel_private_key
1556 * SilcBool silc_client_add_channel_private_key(SilcClient client,
1557 * SilcClientConnection conn,
1558 * SilcChannelEntry channel,
1562 * unsigned char *key,
1563 * SilcUInt32 key_len,
1564 * SilcChannelPrivateKey *ret_key);
1568 * Adds private key for channel. When channel has private key then the
1569 * messages are encrypted using that key. All clients on the channel
1570 * must also know the key in order to decrypt the messages. However,
1571 * it is possible to have several private keys per one channel. In this
1572 * case only some of the clients on the channel may know the one key
1573 * and only some the other key. The `name' can be application given
1574 * name for the key. This returns the created key to the 'ret_key'
1575 * pointer if it is non-NULL;
1577 * If `cipher' and/or `hmac' is NULL then default values will be used
1578 * (aes-256-cbc for cipher and hmac-sha1-96 for hmac).
1580 * The private key for channel is optional. If it is not set then the
1581 * channel messages are encrypted using the channel key generated by the
1582 * server. However, setting the private key (or keys) for the channel
1583 * significantly adds security. If more than one key is set the library
1584 * will automatically try all keys at the message decryption phase. Note:
1585 * setting many keys slows down the decryption phase as all keys has to
1586 * be tried in order to find the correct decryption key. However, setting
1587 * a few keys does not have big impact to the decryption performace.
1591 * NOTE: This is entirely local setting. The key set using this function
1592 * is not sent to the network at any phase.
1594 * NOTE: If the key material was originated by the SKE protocol (using
1595 * silc_client_send_key_agreement) then the `key' MUST be the
1596 * key->send_enc_key as this is dictated by the SILC protocol. However,
1597 * currently it is not expected that the SKE key material would be used
1598 * as channel private key. However, this API allows it.
1601 SilcBool silc_client_add_channel_private_key(SilcClient client,
1602 SilcClientConnection conn,
1603 SilcChannelEntry channel,
1609 SilcChannelPrivateKey *ret_key);
1611 /****f* silcclient/SilcClientAPI/silc_client_del_channel_private_keys
1615 * SilcBool silc_client_del_channel_private_keys(SilcClient client,
1616 * SilcClientConnection conn,
1617 * SilcChannelEntry channel);
1621 * Removes all private keys from the `channel'. The old channel key is used
1622 * after calling this to protect the channel messages. Returns FALSE on
1623 * on error, TRUE otherwise.
1626 SilcBool silc_client_del_channel_private_keys(SilcClient client,
1627 SilcClientConnection conn,
1628 SilcChannelEntry channel);
1630 /****f* silcclient/SilcClientAPI/silc_client_del_channel_private_key
1634 * SilcBool silc_client_del_channel_private_key(SilcClient client,
1635 * SilcClientConnection conn,
1636 * SilcChannelEntry channel,
1637 * SilcChannelPrivateKey key);
1641 * Removes and frees private key `key' from the channel `channel'.
1642 * The `key' is retrieved by calling the function
1643 * silc_client_list_channel_private_keys. The key is not used after
1644 * this. If the key was last private key then the old channel key is
1645 * used hereafter to protect the channel messages. This returns FALSE
1646 * on error, TRUE otherwise.
1649 SilcBool silc_client_del_channel_private_key(SilcClient client,
1650 SilcClientConnection conn,
1651 SilcChannelEntry channel,
1652 SilcChannelPrivateKey key);
1654 /****f* silcclient/SilcClientAPI/silc_client_list_channel_private_keys
1659 * silc_client_list_channel_private_keys(SilcClient client,
1660 * SilcClientConnection conn,
1661 * SilcChannelEntry channel);
1665 * Returns list of private keys associated to the `channel'. The caller
1666 * must free the returned list. The pointers in the list may be
1667 * used to delete the specific key by giving the pointer as argument to the
1668 * function silc_client_del_channel_private_key. Each entry in the list
1669 * is SilcChannelPrivateKey.
1672 SilcDList silc_client_list_channel_private_keys(SilcClient client,
1673 SilcClientConnection conn,
1674 SilcChannelEntry channel);
1676 /****f* silcclient/SilcClientAPI/silc_client_current_channel_private_key
1680 * void silc_client_current_channel_private_key(SilcClient client,
1681 * SilcClientConnection conn,
1682 * SilcChannelEntry channel,
1683 * SilcChannelPrivateKey key);
1687 * Sets the `key' to be used as current channel private key on the
1688 * `channel'. Packet sent after calling this function will be secured
1692 void silc_client_current_channel_private_key(SilcClient client,
1693 SilcClientConnection conn,
1694 SilcChannelEntry channel,
1695 SilcChannelPrivateKey key);
1698 /* Key Agreement routines */
1700 /****f* silcclient/SilcClientAPI/silc_client_send_key_agreement
1704 * void silc_client_send_key_agreement(SilcClient client,
1705 * SilcClientConnection conn,
1706 * SilcClientEntry client_entry,
1707 * SilcClientConnectionParams *params,
1708 * SilcPublicKey public_key,
1709 * SilcPrivateKey private_key,
1710 * SilcKeyAgreementCallback completion,
1715 * Sends key agreement request to the remote client indicated by the
1718 * If `params' is non-NULL and it has the `local_ip' and `local_port' set
1719 * the caller will provide the connection endpoint for the key agreement
1720 * connection. The `bind_ip' can be used to bind to that IP instead of
1721 * `local_ip'. If the `udp' is set to TRUE the connection will be UDP
1722 * instead of TCP. Caller may also set the `repository', `verify_notfound'
1723 * and `timeout_secs' fields in `params'. Other fields are ignored.
1724 * If `params' is NULL, then the `client_entry' is expected to provide
1725 * the connection endpoint for us. It is recommended the `timeout_secs'
1726 * is specified in case the remote client does not reply anything to
1729 * The `public_key' and `private_key' is our identity in the key agreement.
1731 * In case we do not provide the connection endpoint, we will receive
1732 * the `key_agreement' client operation when the remote send its own
1733 * key agreement request packet. We may then there start the key
1734 * agreement with silc_client_perform_key_agreement. If we provided the
1735 * the connection endpoint, the client operation will not be called.
1737 * There can be only one active key agreement for `client_entry'. Old
1738 * key agreement may be aborted by calling silc_client_abort_key_agreement.
1741 void silc_client_send_key_agreement(SilcClient client,
1742 SilcClientConnection conn,
1743 SilcClientEntry client_entry,
1744 SilcClientConnectionParams *params,
1745 SilcPublicKey public_key,
1746 SilcPrivateKey private_key,
1747 SilcKeyAgreementCallback completion,
1750 /****f* silcclient/SilcClientAPI/silc_client_perform_key_agreement
1755 * silc_client_perform_key_agreement(SilcClient client,
1756 * SilcClientConnection conn,
1757 * SilcClientEntry client_entry,
1758 * SilcClientConnectionParams *params,
1759 * SilcPublicKey public_key,
1760 * SilcPrivateKey private_key,
1761 * char *hostname, int port,
1762 * SilcKeyAgreementCallback completion,
1767 * Performs the key agreement protocol. Application may use this to
1768 * initiate the key agreement protocol. Usually this is called after
1769 * receiving the `key_agreement' client operation.
1771 * The `hostname' is the remote hostname (or IP address) and the `port'
1772 * is the remote port. The `completion' callback with the `context' will
1773 * be called after the key agreement protocol.
1775 * The `params' is connection parameters and it may be used to define
1776 * the key agreement connection related parameters. It may be NULL.
1779 void silc_client_perform_key_agreement(SilcClient client,
1780 SilcClientConnection conn,
1781 SilcClientEntry client_entry,
1782 SilcClientConnectionParams *params,
1783 SilcPublicKey public_key,
1784 SilcPrivateKey private_key,
1785 char *hostname, int port,
1786 SilcKeyAgreementCallback completion,
1789 /****f* silcclient/SilcClientAPI/silc_client_perform_key_agreement_stream
1794 * silc_client_perform_key_agreement_stream(
1795 * SilcClient client,
1796 * SilcClientConnection conn,
1797 * SilcClientEntry client_entry,
1798 * SilcClientConnectionParams *params,
1799 * SilcPublicKey public_key,
1800 * SilcPrivateKey private_key,
1801 * SilcStream stream,
1802 * SilcKeyAgreementCallback completion,
1807 * Same as silc_client_perform_key_agreement but the caller has created
1808 * the connection. The `stream' is the created connection.
1812 silc_client_perform_key_agreement_stream(SilcClient client,
1813 SilcClientConnection conn,
1814 SilcClientEntry client_entry,
1815 SilcClientConnectionParams *params,
1816 SilcPublicKey public_key,
1817 SilcPrivateKey private_key,
1819 SilcKeyAgreementCallback completion,
1822 /****f* silcclient/SilcClientAPI/silc_client_abort_key_agreement
1826 * void silc_client_abort_key_agreement(SilcClient client,
1827 * SilcClientConnection conn,
1828 * SilcClientEntry client_entry);
1832 * This function can be called to unbind the hostname and the port for
1833 * the key agreement protocol. However, this function has effect only
1834 * before the key agreement protocol has been performed. After it has
1835 * been performed the library will automatically unbind the port. The
1836 * `client_entry' is the client to which we sent the key agreement
1837 * request. The key agreement completion callback will be called
1838 * with SILC_KEY_AGREEMENT_ABORTED status.
1841 void silc_client_abort_key_agreement(SilcClient client,
1842 SilcClientConnection conn,
1843 SilcClientEntry client_entry);
1846 /* Misc functions */
1848 /****f* silcclient/SilcClientAPI/silc_client_set_away_message
1852 * void silc_client_set_away_message(SilcClient client,
1853 * SilcClientConnection conn,
1858 * Sets away `message'. The away message may be set when the client's
1859 * mode is changed to SILC_UMODE_GONE and the client whishes to reply
1860 * to anyone who sends private message. The `message' will be sent
1861 * automatically back to the the client who send private message. If
1862 * away message is already set this replaces the old message with the
1863 * new one. If `message' is NULL the old away message is removed.
1864 * The sender may freely free the memory of the `message'.
1867 void silc_client_set_away_message(SilcClient client,
1868 SilcClientConnection conn,
1871 /****f* silcclient/SilcClientAPI/SilcConnectionAuthRequest
1875 * typedef void (*SilcConnectionAuthRequest)(SilcClient client,
1876 * SilcClientConnection conn,
1877 * SilcAuthMethod auth_meth,
1882 * Connection authentication method request callback. This is called
1883 * by the client library after it has received the authentication method
1884 * that the application requested by calling the function
1885 * silc_client_request_authentication_method.
1888 typedef void (*SilcConnectionAuthRequest)(SilcClient client,
1889 SilcClientConnection conn,
1890 SilcAuthMethod auth_meth,
1893 /****f* silcclient/SilcClientAPI/silc_client_request_authentication_method
1898 * silc_client_request_authentication_method(SilcClient client,
1899 * SilcClientConnection conn,
1900 * SilcConnectionAuthRequest
1906 * This function can be used to request the current authentication method
1907 * from the server. This may be called when connecting to the server
1908 * and the client library requests the authentication data from the
1909 * application. If the application does not know the current authentication
1910 * method it can request it from the server using this function.
1911 * The `callback' with `context' will be called after the server has
1912 * replied back with the current authentication method.
1916 silc_client_request_authentication_method(SilcClient client,
1917 SilcClientConnection conn,
1918 SilcConnectionAuthRequest callback,
1921 /****d* silcclient/SilcClientAPI/SilcClientMonitorStatus
1925 * typedef enum { ... } SilcClientMonitorStatus;
1929 * File transmission session status types. These will indicate
1930 * the status of the file transmission session.
1935 SILC_CLIENT_FILE_MONITOR_KEY_AGREEMENT, /* In key agreemenet phase */
1936 SILC_CLIENT_FILE_MONITOR_SEND, /* Sending file */
1937 SILC_CLIENT_FILE_MONITOR_RECEIVE, /* Receiving file */
1938 SILC_CLIENT_FILE_MONITOR_GET,
1939 SILC_CLIENT_FILE_MONITOR_PUT,
1940 SILC_CLIENT_FILE_MONITOR_CLOSED, /* Session closed */
1941 SILC_CLIENT_FILE_MONITOR_ERROR, /* Error during session */
1942 } SilcClientMonitorStatus;
1945 /****d* silcclient/SilcClientAPI/SilcClientFileError
1949 * typedef enum { ... } SilcClientFileError;
1953 * File transmission error types. These types are returned by
1954 * some of the file transmission functions, and by the monitor
1955 * callback to indicate error.
1960 SILC_CLIENT_FILE_OK,
1961 SILC_CLIENT_FILE_ERROR,
1962 SILC_CLIENT_FILE_UNKNOWN_SESSION,
1963 SILC_CLIENT_FILE_ALREADY_STARTED,
1964 SILC_CLIENT_FILE_NO_SUCH_FILE,
1965 SILC_CLIENT_FILE_PERMISSION_DENIED,
1966 SILC_CLIENT_FILE_KEY_AGREEMENT_FAILED,
1967 } SilcClientFileError;
1970 /****f* silcclient/SilcClientAPI/SilcClientFileMonitor
1974 * typedef void (*SilcClientFileMonitor)(SilcClient client,
1975 * SilcClientConnection conn,
1976 * SilcClientMonitorStatus status,
1977 * SilcClientFileError error,
1978 * SilcUInt64 offset,
1979 * SilcUInt64 filesize,
1980 * SilcClientEntry client_entry,
1981 * SilcUInt32 session_id,
1982 * const char *filepath,
1987 * Monitor callback that is called during the file transmission to
1988 * monitor the transmission process. The `status' indicates the current
1989 * monitoring process. The `error' will indicate the error type
1990 * if `status' is SILC_CLIENT_FILE_MONITOR_ERROR. The `offset' is the
1991 * currently transmitted amount of total `filesize'. The `client_entry'
1992 * indicates the remote client, and the transmission session ID is the
1993 * `session_id'. The filename being transmitted is indicated by the
1997 typedef void (*SilcClientFileMonitor)(SilcClient client,
1998 SilcClientConnection conn,
1999 SilcClientMonitorStatus status,
2000 SilcClientFileError error,
2002 SilcUInt64 filesize,
2003 SilcClientEntry client_entry,
2004 SilcUInt32 session_id,
2005 const char *filepath,
2008 /****f* silcclient/SilcClientAPI/SilcClientFileName
2012 * typedef void (*SilcClientFileName)(const char *filepath,
2017 * Completion callback for the SilcClientFileAskName callback function.
2018 * Application calls this to deliver the filepath and filename where
2019 * the downloaded file is to be saved.
2022 typedef void (*SilcClientFileName)(const char *filepath,
2025 /****f* silcclient/SilcClientAPI/SilcClientFileAskName
2029 * typedef void (*SilcClientFileAskName)(SilcClient client,
2030 * SilcClientConnection conn,
2031 * SilcUInt32 session_id,
2032 * const char *remote_filename,
2033 * SilcClientFileName completion,
2034 * void *completion_context,
2039 * File name asking callback, that is called if it is given to the
2040 * silc_client_file_receive and the path given to that as argument was
2041 * NULL. The library calls this to ask the filename and filepath to
2042 * where the file is to be saved. The 'remote_filename' is the file
2043 * that is being downloaded. Application must call the 'completion'
2044 * with 'completion_context' to continue with the file downloading.
2045 * It is not mandatory to provide this to the silc_client_file_receive.
2048 typedef void (*SilcClientFileAskName)(SilcClient client,
2049 SilcClientConnection conn,
2050 SilcUInt32 session_id,
2051 const char *remote_filename,
2052 SilcClientFileName completion,
2053 void *completion_context,
2056 /****f* silcclient/SilcClientAPI/silc_client_file_send
2060 * SilcClientFileError
2061 * silc_client_file_send(SilcClient client,
2062 * SilcClientConnection conn,
2063 * SilcClientFileMonitor monitor,
2064 * void *monitor_context,
2065 * const char *local_ip,
2066 * SilcUInt32 local_port,
2067 * SilcBool do_not_bind,
2068 * SilcClientEntry client_entry,
2069 * const char *filepath);
2070 * SilcUInt32 *session_id);
2074 * Sends a file indicated by the `filepath' to the remote client
2075 * indicated by the `client_entry'. This will negotiate a secret key
2076 * with the remote client before actually starting the transmission of
2077 * the file. The `monitor' callback will be called to monitor the
2078 * transmission of the file.
2080 * This returns a file session ID for the file transmission to the
2081 * `session_id' pointer. It can be used to close the session (and
2082 * abort the file transmission) by calling the silc_client_file_close
2083 * function. The session ID is also returned in the `monitor' callback.
2085 * If the `local_ip' is provided then this will try to bind the
2086 * listener for key exchange protocol to that IP. If `local_port' is
2087 * non-zero that port is used. If `local_ip' is NULL then this will
2088 * automatically attempt to bind it to local IP address of the machine.
2089 * If `do_not_bind' is TRUE then the `local_ip' and `local_port' are
2090 * ignored and it is expected that the receiver will provide the
2091 * point of contact. This is usefull if the sender is behind NAT.
2093 * If error will occur during the file transfer process the error
2094 * status will be returned in the monitor callback. In this case
2095 * the application must call silc_client_file_close to close the
2100 silc_client_file_send(SilcClient client,
2101 SilcClientConnection conn,
2102 SilcClientFileMonitor monitor,
2103 void *monitor_context,
2104 const char *local_ip,
2105 SilcUInt32 local_port,
2106 SilcBool do_not_bind,
2107 SilcClientEntry client_entry,
2108 const char *filepath,
2109 SilcUInt32 *session_id);
2111 /****f* silcclient/SilcClientAPI/silc_client_file_receive
2115 * SilcClientFileError
2116 * silc_client_file_receive(SilcClient client,
2117 * SilcClientConnection conn,
2118 * SilcClientFileMonitor monitor,
2119 * void *monitor_context,
2121 * SilcUInt32 session_id,
2122 * SilcClientFileAskName ask_name,
2123 * void *ask_name_context);
2127 * Receives a file from a client indicated by the `client_entry'. The
2128 * `session_id' indicates the file transmission session and it has been
2129 * received in the `ftp' client operation function. This will actually
2130 * perform the key agreement protocol with the remote client before
2131 * actually starting the file transmission. The `monitor' callback
2132 * will be called to monitor the transmission. If `path' is non-NULL
2133 * the file will be saved into that directory. If NULL the file is
2134 * saved in the current working directory, unless the 'ask_name'
2135 * callback is non-NULL. In this case the callback is called to ask
2136 * the path and filename from application.
2138 * If error will occur during the file transfer process the error
2139 * status will be returned in the monitor callback. In this case
2140 * the application must call silc_client_file_close to close the
2145 silc_client_file_receive(SilcClient client,
2146 SilcClientConnection conn,
2147 SilcClientFileMonitor monitor,
2148 void *monitor_context,
2150 SilcUInt32 session_id,
2151 SilcClientFileAskName ask_name,
2152 void *ask_name_context);
2154 /****f* silcclient/SilcClientAPI/silc_client_file_close
2158 * SilcClientFileError silc_client_file_close(SilcClient client,
2159 * SilcClientConnection conn,
2160 * SilcUInt32 session_id);
2164 * Closes file transmission session indicated by the `session_id'.
2165 * If file transmission is being conducted it will be aborted
2166 * automatically. This function is also used to close the session
2167 * after successful file transmission. This function can be used
2168 * also to reject incoming file transmission request. If the
2169 * session was already started and the monitor callback was set
2170 * the monitor callback will be called with the monitor status
2171 * SILC_CLIENT_FILE_MONITOR_CLOSED.
2174 SilcClientFileError silc_client_file_close(SilcClient client,
2175 SilcClientConnection conn,
2176 SilcUInt32 session_id);
2178 /****f* silcclient/SilcClientAPI/silc_client_attribute_add
2182 * SilcAttributePayload
2183 * silc_client_attribute_add(SilcClient client,
2184 * SilcClientConnection conn,
2185 * SilcAttribute attribute,
2187 * SilcUInt32 object_size);
2191 * Add new Requsted Attribute for WHOIS command to the client library.
2192 * The `attribute' object indicated by `object' is added and allocated
2193 * SilcAttributePayload is returned. The `object' must be of correct
2194 * type and of correct size. See the SilcAttribute for object types
2195 * for different attributes. You may also get all added attributes
2196 * from the client with silc_client_attributes_get function.
2198 * Requested Attributes are different personal information about the
2199 * user, status information and other information which other users
2200 * may query with WHOIS command. Application may set these so that
2201 * if someone sends WHOIS query these attributes will be replied back
2202 * to the sender. The library always puts the public key to the
2203 * Requested Attributes, but if application wishes to add additional
2204 * public keys (or certificates) it can be done with this interface.
2205 * Library also always computes digital signature of the attributes
2206 * automatically, so application does not need to do that.
2209 SilcAttributePayload silc_client_attribute_add(SilcClient client,
2210 SilcClientConnection conn,
2211 SilcAttribute attribute,
2213 SilcUInt32 object_size);
2215 /****f* silcclient/SilcClientAPI/silc_client_attribute_del
2219 * SilcBool silc_client_attribute_del(SilcClient client,
2220 * SilcClientConnection conn,
2221 * SilcAttribute attribute,
2222 * SilcAttributePayload attr);
2226 * Delete a Requested Attribute from the client. If the `attribute'
2227 * is non-zero then all attributes of that type are deleted and the
2228 * `attr' is ignored. If `attr' is non-NULL then that specific
2229 * attribute is deleted and `attribute' is ignored.
2231 * You may get all added attributes with the function
2232 * silc_client_attributes_get and to get the SilcAttributePayload.
2233 * This function Returns TRUE if the attribute was found and deleted.
2236 SilcBool silc_client_attribute_del(SilcClient client,
2237 SilcClientConnection conn,
2238 SilcAttribute attribute,
2239 SilcAttributePayload attr);
2241 /****f* silcclient/SilcClientAPI/silc_client_attributes_get
2245 * const SilcHashTable
2246 * silc_client_attributes_get(SilcClient client,
2247 * SilcClientConnection conn);
2251 * Returns pointer to the SilcHashTable which includes all the added
2252 * Requested Attributes. The caller must not free the hash table.
2253 * The caller may use SilcHashTableList and silc_hash_table_list to
2254 * traverse the table. Each entry in the hash table is one added
2255 * SilcAttributePayload. It is possible to delete a attribute
2256 * payload while traversing the table.
2259 SilcHashTable silc_client_attributes_get(SilcClient client,
2260 SilcClientConnection conn);
2262 /****f* silcclient/SilcClientAPI/silc_client_attributes_request
2266 * SilcBuffer silc_client_attributes_request(SilcAttribute attribute, ...);
2270 * Constructs a Requested Attributes buffer. If the `attribute' is zero (0)
2271 * then all attributes are requested. Alternatively, `attribute' and
2272 * all variable arguments can each be requested attribute. In this case
2273 * the last must be set to zero (0) to complete the variable list of
2274 * requested attributes. See SilcAttribute for all attributes.
2275 * You can give the returned buffer as argument to for example
2276 * silc_client_get_client_by_id_resolve function.
2280 * Request all attributes
2281 * buffer = silc_client_attributes_request(0);
2283 * Request only the following attributes
2284 * buffer = silc_client_attributes_request(SILC_ATTRIBUTE_USER_INFO,
2285 * SILC_ATTRIBUTE_SERVICE,
2286 * SILC_ATTRIBUTE_MOOD, 0);
2289 SilcBuffer silc_client_attributes_request(SilcAttribute attribute, ...);
2295 #endif /* SILCCLIENT_H */