/* Channel Message Payload structure. Contents of this structure is parsed
from SILC packets. */
struct SilcChannelPayloadStruct {
- uint16 name_len;
+ SilcUInt16 name_len;
unsigned char *channel_name;
- uint16 id_len;
+ SilcUInt16 id_len;
unsigned char *channel_id;
- uint32 mode;
+ SilcUInt32 mode;
};
/* Parses channel payload returning new channel payload structure. */
SilcChannelPayload silc_channel_payload_parse(const unsigned char *payload,
- uint32 payload_len)
+ SilcUInt32 payload_len)
{
SilcBufferStruct buffer;
SilcChannelPayload new;
/* Parses list of channel payloads returning list of payloads. */
SilcDList silc_channel_payload_parse_list(const unsigned char *payload,
- uint32 payload_len)
+ SilcUInt32 payload_len)
{
SilcBufferStruct buffer;
SilcDList list;
/* Encode new channel payload and returns it as buffer. */
SilcBuffer silc_channel_payload_encode(const unsigned char *channel_name,
- uint16 channel_name_len,
+ SilcUInt16 channel_name_len,
const unsigned char *channel_id,
- uint32 channel_id_len,
- uint32 mode)
+ SilcUInt32 channel_id_len,
+ SilcUInt32 mode)
{
SilcBuffer buffer;
while ((entry = silc_dlist_get(list)) != SILC_LIST_END) {
silc_free(entry->channel_name);
silc_free(entry->channel_id);
- silc_free(entry);
silc_dlist_del(list, entry);
+ silc_free(entry);
}
silc_dlist_uninit(list);
/* Return the channel name */
unsigned char *silc_channel_get_name(SilcChannelPayload payload,
- uint32 *channel_name_len)
+ SilcUInt32 *channel_name_len)
{
if (channel_name_len)
*channel_name_len = payload->name_len;
/* Return the channel ID */
unsigned char *silc_channel_get_id(SilcChannelPayload payload,
- uint32 *channel_id_len)
+ SilcUInt32 *channel_id_len)
{
if (channel_id_len)
*channel_id_len = payload->id_len;
channel or perhaps the mode of the client on the channel. The protocol
dictates what the usage of the mode is in different circumstances. */
-uint32 silc_channel_get_mode(SilcChannelPayload payload)
+SilcUInt32 silc_channel_get_mode(SilcChannelPayload payload)
{
return payload->mode;
}
from SILC packets. */
struct SilcChannelMessagePayloadStruct {
SilcMessageFlags flags;
- uint16 data_len;
+ SilcUInt16 data_len;
unsigned char *data;
unsigned char *mac;
unsigned char *iv;
};
-/* Decrypts the channel message payload. */
+/* Decrypts the channel message payload. First push the IV out of the
+ packet. The IV is used in the decryption process. Then decrypt the
+ message. After decyprtion, take the MAC from the decrypted packet,
+ compute MAC and compare the MACs. If they match, the decryption was
+ successful and we have the channel message ready to be displayed. */
-int silc_channel_message_payload_decrypt(unsigned char *data,
- size_t data_len,
- SilcCipher cipher,
- SilcHmac hmac)
+bool silc_channel_message_payload_decrypt(unsigned char *data,
+ size_t data_len,
+ SilcCipher cipher,
+ SilcHmac hmac)
{
- uint32 iv_len, mac_len;
+ SilcUInt32 iv_len, mac_len;
unsigned char *end, *mac, mac2[32];
+ unsigned char *dst, iv[SILC_CIPHER_MAX_IV_SIZE];
- /* Decrypt the channel message. First push the IV out of the packet.
- The IV is used in the decryption process. Then decrypt the message.
- After decyprtion, take the MAC from the decrypted packet, compute MAC
- and compare the MACs. If they match, the decryption was successfull
- and we have the channel message ready to be displayed. */
+ /* Push the IV out of the packet, and copy the IV since we do not want
+ to modify the original data buffer. */
end = data + data_len;
-
- /* Push the IV out of the packet */
iv_len = silc_cipher_get_block_len(cipher);
+ memcpy(iv, end - iv_len, iv_len);
+
+ /* Allocate destination decryption buffer since we do not want to modify
+ the original data buffer, since we might want to call this function
+ many times for same payload. */
+ if (hmac)
+ dst = silc_calloc(data_len - iv_len, sizeof(*dst));
+ else
+ dst = data;
/* Decrypt the channel message */
- silc_cipher_decrypt(cipher, data, data, data_len - iv_len, (end - iv_len));
+ silc_cipher_decrypt(cipher, data, dst, data_len - iv_len, iv);
- /* Take the MAC */
if (hmac) {
+ /* Take the MAC */
+ end = dst + (data_len - iv_len);
mac_len = silc_hmac_len(hmac);
- mac = (end - iv_len - mac_len);
+ mac = (end - mac_len);
/* Check the MAC of the message */
SILC_LOG_DEBUG(("Checking channel message MACs"));
- silc_hmac_make(hmac, data, (data_len - iv_len - mac_len), mac2, &mac_len);
+ silc_hmac_make(hmac, dst, (data_len - iv_len - mac_len), mac2, &mac_len);
if (memcmp(mac, mac2, mac_len)) {
SILC_LOG_DEBUG(("Channel message MACs does not match"));
+ silc_free(dst);
return FALSE;
}
SILC_LOG_DEBUG(("MAC is Ok"));
+
+ /* Now copy the decrypted data into the buffer since it is verified
+ it decrypted correctly. */
+ memcpy(data, dst, data_len - iv_len);
+ memset(dst, 0, data_len - iv_len);
+ silc_free(dst);
}
return TRUE;
SilcChannelMessagePayload
silc_channel_message_payload_parse(unsigned char *payload,
- uint32 payload_len,
+ SilcUInt32 payload_len,
SilcCipher cipher,
SilcHmac hmac)
{
SilcBufferStruct buffer;
SilcChannelMessagePayload new;
int ret;
- uint32 iv_len, mac_len;
+ SilcUInt32 iv_len, mac_len;
SILC_LOG_DEBUG(("Parsing channel message payload"));
if (ret == -1)
goto err;
- if (new->data_len < 1 || new->data_len > buffer.len) {
+ if (new->data_len > buffer.len) {
SILC_LOG_ERROR(("Incorrect channel message payload in packet, "
"packet dropped"));
goto err;
encrypted separately from other parts of the packet padding must
be applied to the payload. */
-SilcBuffer silc_channel_message_payload_encode(uint16 flags,
- uint16 data_len,
+SilcBuffer silc_channel_message_payload_encode(SilcUInt16 flags,
+ SilcUInt16 data_len,
const unsigned char *data,
- uint16 iv_len,
+ SilcUInt16 iv_len,
unsigned char *iv,
SilcCipher cipher,
SilcHmac hmac)
{
int i;
SilcBuffer buffer;
- uint32 len, pad_len, mac_len;
+ SilcUInt32 len, pad_len, mac_len;
unsigned char pad[16];
unsigned char mac[32];
/* Return data */
unsigned char *silc_channel_message_get_data(SilcChannelMessagePayload payload,
- uint32 *data_len)
+ SilcUInt32 *data_len)
{
if (data_len)
*data_len = payload->data_len;
/* Return MAC. The caller knows the length of the MAC */
-unsigned char *silc_channel_mesage_get_mac(SilcChannelMessagePayload payload)
+unsigned char *silc_channel_message_get_mac(SilcChannelMessagePayload payload)
{
return payload->mac;
}
/* Channel Key Payload structrue. Channel keys are parsed from SILC
packets into this structure. */
struct SilcChannelKeyPayloadStruct {
- uint16 id_len;
+ SilcUInt16 id_len;
unsigned char *id;
- uint16 cipher_len;
+ SilcUInt16 cipher_len;
unsigned char *cipher;
- uint16 key_len;
+ SilcUInt16 key_len;
unsigned char *key;
};
SilcChannelKeyPayload
silc_channel_key_payload_parse(const unsigned char *payload,
- uint32 payload_len)
+ SilcUInt32 payload_len)
{
SilcBufferStruct buffer;
SilcChannelKeyPayload new;
/* Encodes channel key payload into a buffer and returns it. This is used
to add channel key payload into a packet. */
-SilcBuffer silc_channel_key_payload_encode(uint16 id_len,
+SilcBuffer silc_channel_key_payload_encode(SilcUInt16 id_len,
const unsigned char *id,
- uint16 cipher_len,
+ SilcUInt16 cipher_len,
const unsigned char *cipher,
- uint16 key_len,
+ SilcUInt16 key_len,
const unsigned char *key)
{
SilcBuffer buffer;
- uint32 len;
+ SilcUInt32 len;
SILC_LOG_DEBUG(("Encoding channel key payload"));
/* Return ID */
unsigned char *silc_channel_key_get_id(SilcChannelKeyPayload payload,
- uint32 *id_len)
+ SilcUInt32 *id_len)
{
if (id_len)
*id_len = payload->id_len;
/* Return cipher name */
unsigned char *silc_channel_key_get_cipher(SilcChannelKeyPayload payload,
- uint32 *cipher_len)
+ SilcUInt32 *cipher_len)
{
if (cipher_len)
*cipher_len = payload->cipher_len;
/* Return key */
unsigned char *silc_channel_key_get_key(SilcChannelKeyPayload payload,
- uint32 *key_len)
+ SilcUInt32 *key_len)
{
if (key_len)
*key_len = payload->key_len;
projects / silc.git / blobdiff