/*
- client_prvmsg.c
+ client_prvmsg.c
- Author: Pekka Riikonen <priikone@poseidon.pspt.fi>
+ Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 1997 - 2001 Pekka Riikonen
+ Copyright (C) 1997 - 2002 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
/* This file includes the private message sending and receiving routines
and private message key handling routines. */
-#include "clientlibincludes.h"
+#include "silcincludes.h"
+#include "silcclient.h"
#include "client_internal.h"
/* Sends private message to remote client. If private message key has
SilcClientEntry client_entry,
SilcMessageFlags flags,
unsigned char *data,
- uint32 data_len,
- int force_send)
+ SilcUInt32 data_len,
+ bool force_send)
{
- SilcSocketConnection sock = conn->sock;
+ SilcSocketConnection sock;
SilcBuffer buffer;
SilcPacketContext packetdata;
+ const SilcBufferStruct packet;
SilcCipher cipher;
SilcHmac hmac;
int block_len;
+ assert(client && conn && client_entry);
+ sock = conn->sock;
SILC_LOG_DEBUG(("Sending private message"));
/* Encode private message payload */
buffer = silc_private_message_payload_encode(flags,
data_len, data,
- client_entry->send_key);
+ client_entry->send_key,
+ client_entry->hmac_send,
+ client->rng);
/* If we don't have private message specific key then private messages
are just as any normal packet thus call normal packet sending. If
/* We have private message specific key */
/* Get data used in the encryption */
- cipher = client_entry->send_key;
- hmac = conn->hmac_send;
+ cipher = conn->internal->send_key;
+ hmac = conn->internal->hmac_send;
block_len = silc_cipher_get_block_len(cipher);
/* Set the packet context pointers. */
+ data = buffer->data;
+ data_len = buffer->len;
packetdata.flags = SILC_PACKET_FLAG_PRIVMSG_KEY;
packetdata.type = SILC_PACKET_PRIVATE_MESSAGE;
packetdata.src_id = conn->local_id_data;
packetdata.dst_id = silc_id_id2str(client_entry->id, SILC_ID_CLIENT);
packetdata.dst_id_len = silc_id_get_len(client_entry->id, SILC_ID_CLIENT);
packetdata.dst_id_type = SILC_ID_CLIENT;
- packetdata.truelen = buffer->len + SILC_PACKET_HEADER_LEN +
+ data_len = SILC_PACKET_DATALEN(data_len, SILC_PACKET_HEADER_LEN +
+ packetdata.src_id_len +
+ packetdata.dst_id_len);
+ packetdata.truelen = data_len + SILC_PACKET_HEADER_LEN +
packetdata.src_id_len + packetdata.dst_id_len;
- packetdata.padlen = SILC_PACKET_PADLEN((SILC_PACKET_HEADER_LEN +
- packetdata.src_id_len +
- packetdata.dst_id_len), block_len);
-
- /* Prepare outgoing data buffer for packet sending */
- silc_packet_send_prepare(sock,
- SILC_PACKET_HEADER_LEN +
- packetdata.src_id_len +
- packetdata.dst_id_len,
- packetdata.padlen,
- buffer->len);
-
- packetdata.buffer = sock->outbuf;
-
- /* Put the actual encrypted message payload data into the buffer. */
- silc_buffer_put(sock->outbuf, buffer->data, buffer->len);
+ SILC_PACKET_PADLEN((SILC_PACKET_HEADER_LEN +
+ packetdata.src_id_len +
+ packetdata.dst_id_len), block_len, packetdata.padlen);
/* Create the outgoing packet */
- silc_packet_assemble(&packetdata, cipher);
+ if (!silc_packet_assemble(&packetdata, client->rng, cipher, hmac, sock,
+ data, data_len, (const SilcBuffer)&packet)) {
+ SILC_LOG_ERROR(("Error assembling packet"));
+ goto out;
+ }
/* Encrypt the header and padding of the packet. */
- cipher = conn->send_key;
- silc_packet_encrypt(cipher, hmac, conn->psn_send++,
- sock->outbuf, SILC_PACKET_HEADER_LEN +
+ silc_packet_encrypt(cipher, hmac, conn->internal->psn_send++,
+ (SilcBuffer)&packet, SILC_PACKET_HEADER_LEN +
packetdata.src_id_len + packetdata.dst_id_len +
packetdata.padlen);
- SILC_LOG_HEXDUMP(("Private message packet, len %d", sock->outbuf->len),
- sock->outbuf->data, sock->outbuf->len);
+ SILC_LOG_HEXDUMP(("Private message packet, len %d", packet.len),
+ packet.data, packet.len);
/* Now actually send the packet */
silc_client_packet_send_real(client, sock, force_send);
+
+ /* Check for mandatory rekey */
+ if (conn->internal->psn_send == SILC_CLIENT_REKEY_THRESHOLD)
+ silc_schedule_task_add(client->schedule, sock->sock,
+ silc_client_rekey_callback, sock, 0, 1,
+ SILC_TASK_TIMEOUT, SILC_TASK_PRI_NORMAL);
+
silc_free(packetdata.dst_id);
out:
static void silc_client_private_message_cb(SilcClient client,
SilcClientConnection conn,
SilcClientEntry *clients,
- uint32 clients_count,
+ SilcUInt32 clients_count,
void *context)
{
SilcPacketContext *packet = (SilcPacketContext *)context;
{
SilcClientConnection conn = (SilcClientConnection)sock->user_data;
SilcPrivateMessagePayload payload = NULL;
- SilcIDCacheEntry id_cache = NULL;
SilcClientID *remote_id = NULL;
SilcClientEntry remote_client;
SilcMessageFlags flags;
+ unsigned char *message;
+ SilcUInt32 message_len;
+ SilcCipher cipher = NULL;
+ SilcHmac hmac = NULL;
if (packet->src_id_type != SILC_ID_CLIENT)
goto out;
goto out;
/* Check whether we know this client already */
- if (!silc_idcache_find_by_id_one_ext(conn->client_cache, (void *)remote_id,
- NULL, NULL,
- silc_hash_client_id_compare, NULL,
- &id_cache) ||
- ((SilcClientEntry)id_cache->context)->nickname == NULL) {
-
- if (id_cache && id_cache->context) {
- remote_client = (SilcClientEntry)id_cache->context;
+ remote_client = silc_client_get_client_by_id(client, conn, remote_id);
+ if (!remote_client || !remote_client->nickname) {
+ if (remote_client) {
if (remote_client->status & SILC_CLIENT_STATUS_RESOLVING) {
remote_client->status &= ~SILC_CLIENT_STATUS_RESOLVING;
goto out;
}
remote_client->status |= SILC_CLIENT_STATUS_RESOLVING;
+ remote_client->resolve_cmd_ident = conn->cmd_ident + 1;
}
/* Resolve the client info */
- silc_client_get_client_by_id_resolve(client, conn, remote_id,
+ silc_client_get_client_by_id_resolve(client, conn, remote_id, NULL,
silc_client_private_message_cb,
silc_packet_context_dup(packet));
return;
}
- remote_client = (SilcClientEntry)id_cache->context;
+ cipher = remote_client->receive_key;
+ hmac = remote_client->hmac_receive;
+ if (packet->flags & SILC_PACKET_FLAG_PRIVMSG_KEY && !cipher && !hmac) {
+ silc_free(remote_id);
+ return;
+ }
/* Parse the payload and decrypt it also if private message key is set */
payload = silc_private_message_payload_parse(packet->buffer->data,
packet->buffer->len,
- remote_client->receive_key);
+ cipher, hmac);
if (!payload) {
silc_free(remote_id);
return;
flags = silc_private_message_get_flags(payload);
/* Pass the private message to application */
- client->internal->ops->private_message(
- client, conn, remote_client, flags,
- silc_private_message_get_message(payload,
- NULL));
+ message = silc_private_message_get_message(payload, &message_len);
+ client->internal->ops->private_message(client, conn, remote_client, flags,
+ message, message_len);
/* See if we are away (gone). If we are away we will reply to the
sender with the set away message. */
- if (conn->away && conn->away->away && !(flags & SILC_MESSAGE_FLAG_NOREPLY)) {
+ if (conn->internal->away && conn->internal->away->away &&
+ !(flags & SILC_MESSAGE_FLAG_NOREPLY)) {
/* If it's me, ignore */
if (SILC_ID_CLIENT_COMPARE(remote_id, conn->local_id))
goto out;
silc_client_send_private_message(client, conn, remote_client,
SILC_MESSAGE_FLAG_AUTOREPLY |
SILC_MESSAGE_FLAG_NOREPLY,
- conn->away->away,
- strlen(conn->away->away), TRUE);
+ conn->internal->away->away,
+ strlen(conn->internal->away->away), TRUE);
}
out:
static void silc_client_private_message_key_cb(SilcClient client,
SilcClientConnection conn,
SilcClientEntry *clients,
- uint32 clients_count,
+ SilcUInt32 clients_count,
void *context)
{
SilcPacketContext *packet = (SilcPacketContext *)context;
unsigned char *key;
- uint16 key_len;
- unsigned char *cipher;
+ SilcUInt16 key_len;
+ unsigned char *cipher = NULL, *hmac = NULL;
int ret;
if (!clients)
/* Parse the private message key payload */
ret = silc_buffer_unformat(packet->buffer,
SILC_STR_UI16_NSTRING(&key, &key_len),
- SILC_STR_UI16_STRING(&cipher),
+ SILC_STR_UI16_STRING_ALLOC(&cipher),
+ SILC_STR_UI16_STRING_ALLOC(&hmac),
SILC_STR_END);
if (!ret)
goto out;
/* Now take the key in use */
if (!silc_client_add_private_message_key(client, conn, clients[0],
- cipher, key, key_len, FALSE, TRUE))
+ cipher, hmac, key, key_len,
+ FALSE, TRUE))
goto out;
/* Print some info for application */
clients[0]->username ? ")" : "");
out:
+ silc_free(cipher);
+ silc_free(hmac);
silc_packet_context_free(packet);
}
return;
silc_client_get_client_by_id_resolve(client, sock->user_data, remote_id,
+ NULL,
silc_client_private_message_key_cb,
silc_packet_context_dup(packet));
silc_free(remote_id);
indicated by the `client_entry'. If the `key' is NULL and the boolean
value `generate_key' is TRUE the library will generate random key.
The `key' maybe for example pre-shared-key, passphrase or similar.
- The `cipher' MAY be provided but SHOULD be NULL to assure that the
- requirements of the SILC protocol are met. The API, however, allows
- to allocate any cipher.
+ The `cipher' and `hmac' MAY be provided but SHOULD be NULL to assure
+ that the requirements of the SILC protocol are met. The API, however,
+ allows to allocate any cipher and HMAC.
If `responder' is TRUE then the sending and receiving keys will be
set according the client being the receiver of the private key. If
Returns FALSE if the key is already set for the `client_entry', TRUE
otherwise. */
-int silc_client_add_private_message_key(SilcClient client,
- SilcClientConnection conn,
- SilcClientEntry client_entry,
- char *cipher,
- unsigned char *key,
- uint32 key_len,
- bool generate_key,
- bool responder)
+bool silc_client_add_private_message_key(SilcClient client,
+ SilcClientConnection conn,
+ SilcClientEntry client_entry,
+ const char *cipher,
+ const char *hmac,
+ unsigned char *key,
+ SilcUInt32 key_len,
+ bool generate_key,
+ bool responder)
{
unsigned char private_key[32];
- uint32 len;
+ SilcUInt32 len;
int i;
SilcSKEKeyMaterial *keymat;
- assert(client_entry);
+ assert(client && client_entry);
/* Return FALSE if key already set */
if (client_entry->send_key && client_entry->receive_key)
if (!cipher)
cipher = SILC_DEFAULT_CIPHER;
+ if (!hmac)
+ hmac = SILC_DEFAULT_HMAC;
- /* Check the requested cipher */
+ /* Check the requested cipher and HMAC */
if (!silc_cipher_is_supported(cipher))
return FALSE;
+ if (!silc_hmac_is_supported(hmac))
+ return FALSE;
/* Generate key if not provided */
if (generate_key == TRUE) {
len = 32;
- for (i = 0; i < len; i++) private_key[i] = silc_rng_get_byte(client->rng);
+ for (i = 0; i < len; i++)
+ private_key[i] = silc_rng_get_byte_fast(client->rng);
key = private_key;
key_len = len;
client_entry->generated = TRUE;
}
/* Save the key */
- client_entry->key = silc_calloc(key_len, sizeof(*client_entry->key));
- memcpy(client_entry->key, key, key_len);
+ client_entry->key = silc_memdup(key, key_len);
client_entry->key_len = key_len;
/* Produce the key material as the protocol defines */
keymat = silc_calloc(1, sizeof(*keymat));
if (silc_ske_process_key_material_data(key, key_len, 16, 256, 16,
- client->internal->md5hash, keymat)
+ client->md5hash, keymat)
!= SILC_SKE_STATUS_OK)
return FALSE;
- /* Allocate the ciphers */
+ /* Allocate the cipher and HMAC */
silc_cipher_alloc(cipher, &client_entry->send_key);
silc_cipher_alloc(cipher, &client_entry->receive_key);
+ silc_hmac_alloc(hmac, NULL, &client_entry->hmac_send);
+ silc_hmac_alloc(hmac, NULL, &client_entry->hmac_receive);
/* Set the keys */
if (responder == TRUE) {
silc_cipher_set_key(client_entry->receive_key, keymat->send_enc_key,
keymat->enc_key_len);
silc_cipher_set_iv(client_entry->receive_key, keymat->send_iv);
+ silc_hmac_set_key(client_entry->hmac_send, keymat->receive_hmac_key,
+ keymat->hmac_key_len);
+ silc_hmac_set_key(client_entry->hmac_receive, keymat->send_hmac_key,
+ keymat->hmac_key_len);
} else {
silc_cipher_set_key(client_entry->send_key, keymat->send_enc_key,
keymat->enc_key_len);
silc_cipher_set_key(client_entry->receive_key, keymat->receive_enc_key,
keymat->enc_key_len);
silc_cipher_set_iv(client_entry->receive_key, keymat->receive_iv);
+ silc_hmac_set_key(client_entry->hmac_send, keymat->send_hmac_key,
+ keymat->hmac_key_len);
+ silc_hmac_set_key(client_entry->hmac_receive, keymat->receive_hmac_key,
+ keymat->hmac_key_len);
}
/* Free the key material */
/* Same as above but takes the key material from the SKE key material
structure. This structure is received if the application uses the
silc_client_send_key_agreement to negotiate the key material. The
- `cipher' SHOULD be provided as it is negotiated also in the SKE
- protocol. */
-
-int silc_client_add_private_message_key_ske(SilcClient client,
- SilcClientConnection conn,
- SilcClientEntry client_entry,
- char *cipher,
- SilcSKEKeyMaterial *key,
- bool responder)
+ `cipher' and `hmac' SHOULD be provided as it is negotiated also in
+ the SKE protocol. */
+
+bool silc_client_add_private_message_key_ske(SilcClient client,
+ SilcClientConnection conn,
+ SilcClientEntry client_entry,
+ const char *cipher,
+ const char *hmac,
+ SilcSKEKeyMaterial *key,
+ bool responder)
{
- assert(client_entry);
+ assert(client && client_entry);
/* Return FALSE if key already set */
if (client_entry->send_key && client_entry->receive_key)
if (!cipher)
cipher = SILC_DEFAULT_CIPHER;
+ if (!hmac)
+ hmac = SILC_DEFAULT_HMAC;
- /* Check the requested cipher */
+ /* Check the requested cipher and HMAC */
if (!silc_cipher_is_supported(cipher))
return FALSE;
+ if (!silc_hmac_is_supported(hmac))
+ return FALSE;
- /* Allocate the ciphers */
+ /* Allocate the cipher and HMAC */
silc_cipher_alloc(cipher, &client_entry->send_key);
silc_cipher_alloc(cipher, &client_entry->receive_key);
+ silc_hmac_alloc(hmac, NULL, &client_entry->hmac_send);
+ silc_hmac_alloc(hmac, NULL, &client_entry->hmac_receive);
/* Set the keys */
if (responder == TRUE) {
silc_cipher_set_key(client_entry->receive_key, key->send_enc_key,
key->enc_key_len);
silc_cipher_set_iv(client_entry->receive_key, key->send_iv);
+ silc_hmac_set_key(client_entry->hmac_send, key->receive_hmac_key,
+ key->hmac_key_len);
+ silc_hmac_set_key(client_entry->hmac_receive, key->send_hmac_key,
+ key->hmac_key_len);
} else {
silc_cipher_set_key(client_entry->send_key, key->send_enc_key,
key->enc_key_len);
silc_cipher_set_key(client_entry->receive_key, key->receive_enc_key,
key->enc_key_len);
silc_cipher_set_iv(client_entry->receive_key, key->receive_iv);
+ silc_hmac_set_key(client_entry->hmac_send, key->send_hmac_key,
+ key->hmac_key_len);
+ silc_hmac_set_key(client_entry->hmac_receive, key->receive_hmac_key,
+ key->hmac_key_len);
}
return TRUE;
through the SILC network. The packet is protected using normal session
keys. */
-int silc_client_send_private_message_key(SilcClient client,
+bool silc_client_send_private_message_key(SilcClient client,
SilcClientConnection conn,
SilcClientEntry client_entry,
- int force_send)
+ bool force_send)
{
- SilcSocketConnection sock = conn->sock;
+ SilcSocketConnection sock;
SilcBuffer buffer;
- int cipher_len;
+ int cipher_len, hmac_len;
+ const char *cipher, *hmac;
+
+ assert(client && conn && client_entry);
+ sock = conn->sock;
if (!client_entry->send_key || !client_entry->key)
return FALSE;
SILC_LOG_DEBUG(("Sending private message key"));
- cipher_len = strlen(client_entry->send_key->cipher->name);
+ cipher = silc_cipher_get_name(client_entry->send_key);
+ cipher_len = strlen(cipher);
+ hmac = silc_hmac_get_name(client_entry->hmac_send);
+ hmac_len = strlen(hmac);
/* Create private message key payload */
buffer = silc_buffer_alloc(2 + client_entry->key_len);
SILC_STR_UI_XNSTRING(client_entry->key,
client_entry->key_len),
SILC_STR_UI_SHORT(cipher_len),
- SILC_STR_UI_XNSTRING(client_entry->send_key->cipher->name,
+ SILC_STR_UI_XNSTRING(cipher,
cipher_len),
+ SILC_STR_UI_SHORT(hmac_len),
+ SILC_STR_UI_XNSTRING(hmac,
+ hmac_len),
SILC_STR_END);
/* Send the packet */
after this to protect the private messages with the remote `client_entry'
client. Returns FALSE on error, TRUE otherwise. */
-int silc_client_del_private_message_key(SilcClient client,
+bool silc_client_del_private_message_key(SilcClient client,
SilcClientConnection conn,
SilcClientEntry client_entry)
{
- assert(client_entry);
+ assert(client && client_entry);
if (!client_entry->send_key && !client_entry->receive_key)
return FALSE;
SilcPrivateMessageKeys
silc_client_list_private_message_keys(SilcClient client,
SilcClientConnection conn,
- uint32 *key_count)
+ SilcUInt32 *key_count)
{
SilcPrivateMessageKeys keys;
- uint32 count = 0;
+ SilcUInt32 count = 0;
SilcIDCacheEntry id_cache;
SilcIDCacheList list;
SilcClientEntry entry;
- if (!silc_idcache_get_all(conn->client_cache, &list))
+ assert(client && conn);
+
+ if (!silc_idcache_get_all(conn->internal->client_cache, &list))
return NULL;
if (!silc_idcache_list_count(list)) {
if (entry->send_key) {
keys[count].client_entry = entry;
- keys[count].cipher = entry->send_key->cipher->name;
+ keys[count].cipher = (char *)silc_cipher_get_name(entry->send_key);
keys[count].key = entry->generated == FALSE ? entry->key : NULL;
keys[count].key_len = entry->generated == FALSE ? entry->key_len : 0;
count++;
silc_client_list_private_message_keys. */
void silc_client_free_private_message_keys(SilcPrivateMessageKeys keys,
- uint32 key_count)
+ SilcUInt32 key_count)
{
silc_free(keys);
}
SilcClientConnection conn,
char *message)
{
- if (!message && conn->away) {
- silc_free(conn->away->away);
- silc_free(conn->away);
- conn->away = NULL;
+ assert(client && conn);
+
+ if (!message && conn->internal->away) {
+ silc_free(conn->internal->away->away);
+ silc_free(conn->internal->away);
+ conn->internal->away = NULL;
}
if (message) {
- if (!conn->away)
- conn->away = silc_calloc(1, sizeof(*conn->away));
- if (conn->away->away)
- silc_free(conn->away->away);
- conn->away->away = strdup(message);
+ if (!conn->internal->away)
+ conn->internal->away = silc_calloc(1, sizeof(*conn->internal->away));
+ if (conn->internal->away->away)
+ silc_free(conn->internal->away->away);
+ conn->internal->away->away = strdup(message);
}
}