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pel.c
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pel.c
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/*
* Packet Encryption Layer for Tiny SHell,
* by Christophe Devine <[email protected]>;
* this program is licensed under the GPL.
*/
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <unistd.h>
#include <string.h>
#include "pel.h"
#include "aes.h"
#include "sha1.h"
/* global data */
int pel_errno;
struct pel_context
{
/* AES-CBC-128 variables */
struct aes_context SK; /* Rijndael session key */
unsigned char LCT[16]; /* last ciphertext block */
/* HMAC-SHA1 variables */
unsigned char k_ipad[64]; /* inner padding */
unsigned char k_opad[64]; /* outer padding */
unsigned long int p_cntr; /* packet counter */
};
struct pel_context send_ctx; /* to encrypt outgoing data */
struct pel_context recv_ctx; /* to decrypt incoming data */
unsigned char challenge[16] = /* version-specific */
"\x58\x90\xAE\x86\xF1\xB9\x1C\xF6" \
"\x29\x83\x95\x71\x1D\xDE\x58\x0D";
unsigned char buffer[BUFSIZE + 16 + 20];
/* function declaration */
void pel_setup_context( struct pel_context *pel_ctx,
char *key, unsigned char IV[20] );
int pel_send_all( int s, void *buf, size_t len, int flags );
int pel_recv_all( int s, void *buf, size_t len, int flags );
/* session setup - client side */
int pel_client_init( int server, char *key )
{
int ret, len, pid;
struct timeval tv;
struct sha1_context sha1_ctx;
unsigned char IV1[20], IV2[20];
/* generate both initialization vectors */
pid = getpid();
if( gettimeofday( &tv, NULL ) < 0 )
{
pel_errno = PEL_SYSTEM_ERROR;
return( PEL_FAILURE );
}
sha1_starts( &sha1_ctx );
sha1_update( &sha1_ctx, (uint8 *) &tv, sizeof( tv ) );
sha1_update( &sha1_ctx, (uint8 *) &pid, sizeof( pid ) );
sha1_finish( &sha1_ctx, &buffer[ 0] );
memcpy( IV1, &buffer[ 0], 20 );
pid++;
if( gettimeofday( &tv, NULL ) < 0 )
{
pel_errno = PEL_SYSTEM_ERROR;
return( PEL_FAILURE );
}
sha1_starts( &sha1_ctx );
sha1_update( &sha1_ctx, (uint8 *) &tv, sizeof( tv ) );
sha1_update( &sha1_ctx, (uint8 *) &pid, sizeof( pid ) );
sha1_finish( &sha1_ctx, &buffer[20] );
memcpy( IV2, &buffer[20], 20 );
/* and pass them to the server */
ret = pel_send_all( server, buffer, 40, 0 );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
/* setup the session keys */
pel_setup_context( &send_ctx, key, IV1 );
pel_setup_context( &recv_ctx, key, IV2 );
/* handshake - encrypt and send the client's challenge */
ret = pel_send_msg( server, challenge, 16 );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
/* handshake - decrypt and verify the server's challenge */
ret = pel_recv_msg( server, buffer, &len );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
if( len != 16 || memcmp( buffer, challenge, 16 ) != 0 )
{
pel_errno = PEL_WRONG_CHALLENGE;
return( PEL_FAILURE );
}
pel_errno = PEL_UNDEFINED_ERROR;
return( PEL_SUCCESS );
}
/* session setup - server side */
int pel_server_init( int client, char *key )
{
int ret, len;
unsigned char IV1[20], IV2[20];
/* get the IVs from the client */
ret = pel_recv_all( client, buffer, 40, 0 );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
memcpy( IV2, &buffer[ 0], 20 );
memcpy( IV1, &buffer[20], 20 );
/* setup the session keys */
pel_setup_context( &send_ctx, key, IV1 );
pel_setup_context( &recv_ctx, key, IV2 );
/* handshake - decrypt and verify the client's challenge */
ret = pel_recv_msg( client, buffer, &len );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
if( len != 16 || memcmp( buffer, challenge, 16 ) != 0 )
{
pel_errno = PEL_WRONG_CHALLENGE;
return( PEL_FAILURE );
}
/* handshake - encrypt and send the server's challenge */
ret = pel_send_msg( client, challenge, 16 );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
pel_errno = PEL_UNDEFINED_ERROR;
return( PEL_SUCCESS );
}
/* this routine computes the AES & HMAC session keys */
void pel_setup_context( struct pel_context *pel_ctx,
char *key, unsigned char IV[20] )
{
int i;
struct sha1_context sha1_ctx;
sha1_starts( &sha1_ctx );
sha1_update( &sha1_ctx, (uint8 *) key, strlen( key ) );
sha1_update( &sha1_ctx, IV, 20 );
sha1_finish( &sha1_ctx, buffer );
aes_set_key( &pel_ctx->SK, buffer, 128 );
memcpy( pel_ctx->LCT, IV, 16 );
memset( pel_ctx->k_ipad, 0x36, 64 );
memset( pel_ctx->k_opad, 0x5C, 64 );
for( i = 0; i < 20; i++ )
{
pel_ctx->k_ipad[i] ^= buffer[i];
pel_ctx->k_opad[i] ^= buffer[i];
}
pel_ctx->p_cntr = 0;
}
/* encrypt and transmit a message */
int pel_send_msg( int sockfd, unsigned char *msg, int length )
{
unsigned char digest[20];
struct sha1_context sha1_ctx;
int i, j, ret, blk_len;
/* verify the message length */
if( length <= 0 || length > BUFSIZE )
{
pel_errno = PEL_BAD_MSG_LENGTH;
return( PEL_FAILURE );
}
/* write the message length at start of buffer */
buffer[0] = ( length >> 8 ) & 0xFF;
buffer[1] = ( length ) & 0xFF;
/* append the message content */
memcpy( buffer + 2, msg, length );
/* round up to AES block length (16 bytes) */
blk_len = 2 + length;
if( ( blk_len & 0x0F ) != 0 )
{
blk_len += 16 - ( blk_len & 0x0F );
}
/* encrypt the buffer with AES-CBC-128 */
for( i = 0; i < blk_len; i += 16 )
{
for( j = 0; j < 16; j++ )
{
buffer[i + j] ^= send_ctx.LCT[j];
}
aes_encrypt( &send_ctx.SK, &buffer[i] );
memcpy( send_ctx.LCT, &buffer[i], 16 );
}
/* compute the HMAC-SHA1 of the ciphertext */
buffer[blk_len ] = ( send_ctx.p_cntr << 24 ) & 0xFF;
buffer[blk_len + 1] = ( send_ctx.p_cntr << 16 ) & 0xFF;
buffer[blk_len + 2] = ( send_ctx.p_cntr << 8 ) & 0xFF;
buffer[blk_len + 3] = ( send_ctx.p_cntr ) & 0xFF;
sha1_starts( &sha1_ctx );
sha1_update( &sha1_ctx, send_ctx.k_ipad, 64 );
sha1_update( &sha1_ctx, buffer, blk_len + 4 );
sha1_finish( &sha1_ctx, digest );
sha1_starts( &sha1_ctx );
sha1_update( &sha1_ctx, send_ctx.k_opad, 64 );
sha1_update( &sha1_ctx, digest, 20 );
sha1_finish( &sha1_ctx, &buffer[blk_len] );
/* increment the packet counter */
send_ctx.p_cntr++;
/* transmit ciphertext and message authentication code */
ret = pel_send_all( sockfd, buffer, blk_len + 20, 0 );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
pel_errno = PEL_UNDEFINED_ERROR;
return( PEL_SUCCESS );
}
/* receive and decrypt a message */
int pel_recv_msg( int sockfd, unsigned char *msg, int *length )
{
unsigned char temp[16];
unsigned char hmac[20];
unsigned char digest[20];
struct sha1_context sha1_ctx;
int i, j, ret, blk_len;
/* receive the first encrypted block */
ret = pel_recv_all( sockfd, buffer, 16, 0 );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
/* decrypt this block and extract the message length */
memcpy( temp, buffer, 16 );
aes_decrypt( &recv_ctx.SK, buffer );
for( j = 0; j < 16; j++ )
{
buffer[j] ^= recv_ctx.LCT[j];
}
*length = ( ((int) buffer[0]) << 8 ) + (int) buffer[1];
/* restore the ciphertext */
memcpy( buffer, temp, 16 );
/* verify the message length */
if( *length <= 0 || *length > BUFSIZE )
{
pel_errno = PEL_BAD_MSG_LENGTH;
return( PEL_FAILURE );
}
/* round up to AES block length (16 bytes) */
blk_len = 2 + *length;
if( ( blk_len & 0x0F ) != 0 )
{
blk_len += 16 - ( blk_len & 0x0F );
}
/* receive the remaining ciphertext and the mac */
ret = pel_recv_all( sockfd, &buffer[16], blk_len - 16 + 20, 0 );
if( ret != PEL_SUCCESS ) return( PEL_FAILURE );
memcpy( hmac, &buffer[blk_len], 20 );
/* verify the ciphertext integrity */
buffer[blk_len ] = ( recv_ctx.p_cntr << 24 ) & 0xFF;
buffer[blk_len + 1] = ( recv_ctx.p_cntr << 16 ) & 0xFF;
buffer[blk_len + 2] = ( recv_ctx.p_cntr << 8 ) & 0xFF;
buffer[blk_len + 3] = ( recv_ctx.p_cntr ) & 0xFF;
sha1_starts( &sha1_ctx );
sha1_update( &sha1_ctx, recv_ctx.k_ipad, 64 );
sha1_update( &sha1_ctx, buffer, blk_len + 4 );
sha1_finish( &sha1_ctx, digest );
sha1_starts( &sha1_ctx );
sha1_update( &sha1_ctx, recv_ctx.k_opad, 64 );
sha1_update( &sha1_ctx, digest, 20 );
sha1_finish( &sha1_ctx, digest );
if( memcmp( hmac, digest, 20 ) != 0 )
{
pel_errno = PEL_CORRUPTED_DATA;
return( PEL_FAILURE );
}
/* increment the packet counter */
recv_ctx.p_cntr++;
/* finally, decrypt and copy the message */
for( i = 0; i < blk_len; i += 16 )
{
memcpy( temp, &buffer[i], 16 );
aes_decrypt( &recv_ctx.SK, &buffer[i] );
for( j = 0; j < 16; j++ )
{
buffer[i + j] ^= recv_ctx.LCT[j];
}
memcpy( recv_ctx.LCT, temp, 16 );
}
memcpy( msg, &buffer[2], *length );
pel_errno = PEL_UNDEFINED_ERROR;
return( PEL_SUCCESS );
}
/* send/recv wrappers to handle fragmented TCP packets */
int pel_send_all( int s, void *buf, size_t len, int flags )
{
int n;
size_t sum = 0;
char *offset = buf;
while( sum < len )
{
n = send( s, (void *) offset, len - sum, flags );
if( n < 0 )
{
pel_errno = PEL_SYSTEM_ERROR;
return( PEL_FAILURE );
}
sum += n;
offset += n;
}
pel_errno = PEL_UNDEFINED_ERROR;
return( PEL_SUCCESS );
}
int pel_recv_all( int s, void *buf, size_t len, int flags )
{
int n;
size_t sum = 0;
char *offset = buf;
while( sum < len )
{
n = recv( s, (void *) offset, len - sum, flags );
if( n == 0 )
{
pel_errno = PEL_CONN_CLOSED;
return( PEL_FAILURE );
}
if( n < 0 )
{
pel_errno = PEL_SYSTEM_ERROR;
return( PEL_FAILURE );
}
sum += n;
offset += n;
}
pel_errno = PEL_UNDEFINED_ERROR;
return( PEL_SUCCESS );
}