tor-android/external/badvpn_dns/client/SPProtoEncoder.c

437 lines
12 KiB
C

/**
* @file SPProtoEncoder.c
* @author Ambroz Bizjak <ambrop7@gmail.com>
*
* @section LICENSE
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the author nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <string.h>
#include <stdlib.h>
#include <misc/balign.h>
#include <misc/offset.h>
#include <misc/byteorder.h>
#include <security/BRandom.h>
#include <security/BHash.h>
#include "SPProtoEncoder.h"
static int can_encode (SPProtoEncoder *o);
static void encode_packet (SPProtoEncoder *o);
static void encode_work_func (SPProtoEncoder *o);
static void encode_work_handler (SPProtoEncoder *o);
static void maybe_encode (SPProtoEncoder *o);
static void output_handler_recv (SPProtoEncoder *o, uint8_t *data);
static void input_handler_done (SPProtoEncoder *o, int data_len);
static void handler_job_hander (SPProtoEncoder *o);
static void otpgenerator_handler (SPProtoEncoder *o);
static void maybe_stop_work (SPProtoEncoder *o);
static int can_encode (SPProtoEncoder *o)
{
ASSERT(o->in_len >= 0)
ASSERT(o->out_have)
ASSERT(!o->tw_have)
return (
(!SPPROTO_HAVE_OTP(o->sp_params) || OTPGenerator_GetPosition(&o->otpgen) < o->sp_params.otp_num) &&
(!SPPROTO_HAVE_ENCRYPTION(o->sp_params) || o->have_encryption_key)
);
}
static void encode_packet (SPProtoEncoder *o)
{
ASSERT(o->in_len >= 0)
ASSERT(o->out_have)
ASSERT(!o->tw_have)
ASSERT(can_encode(o))
// generate OTP, remember seed ID
if (SPPROTO_HAVE_OTP(o->sp_params)) {
o->tw_seed_id = o->otpgen_seed_id;
o->tw_otp = OTPGenerator_GetOTP(&o->otpgen);
}
// start work
BThreadWork_Init(&o->tw, o->twd, (BThreadWork_handler_done)encode_work_handler, o, (BThreadWork_work_func)encode_work_func, o);
o->tw_have = 1;
// schedule OTP warning handler
if (SPPROTO_HAVE_OTP(o->sp_params) && OTPGenerator_GetPosition(&o->otpgen) == o->otp_warning_count) {
BPending_Set(&o->handler_job);
}
}
static void encode_work_func (SPProtoEncoder *o)
{
ASSERT(o->in_len >= 0)
ASSERT(o->out_have)
ASSERT(!SPPROTO_HAVE_ENCRYPTION(o->sp_params) || o->have_encryption_key)
ASSERT(o->in_len <= o->input_mtu)
// determine plaintext location
uint8_t *plaintext = (SPPROTO_HAVE_ENCRYPTION(o->sp_params) ? o->buf : o->out);
// plaintext begins with header
uint8_t *header = plaintext;
// plaintext is header + payload
int plaintext_len = SPPROTO_HEADER_LEN(o->sp_params) + o->in_len;
// write OTP
if (SPPROTO_HAVE_OTP(o->sp_params)) {
struct spproto_otpdata header_otpd;
header_otpd.seed_id = htol16(o->tw_seed_id);
header_otpd.otp = o->tw_otp;
memcpy(header + SPPROTO_HEADER_OTPDATA_OFF(o->sp_params), &header_otpd, sizeof(header_otpd));
}
// write hash
if (SPPROTO_HAVE_HASH(o->sp_params)) {
uint8_t *header_hash = header + SPPROTO_HEADER_HASH_OFF(o->sp_params);
// zero hash field
memset(header_hash, 0, o->hash_size);
// calculate hash
uint8_t hash[BHASH_MAX_SIZE];
BHash_calculate(o->sp_params.hash_mode, plaintext, plaintext_len, hash);
// set hash field
memcpy(header_hash, hash, o->hash_size);
}
int out_len;
if (SPPROTO_HAVE_ENCRYPTION(o->sp_params)) {
// encrypting pad(header + payload)
int cyphertext_len = balign_up((plaintext_len + 1), o->enc_block_size);
// write padding
plaintext[plaintext_len] = 1;
for (int i = plaintext_len + 1; i < cyphertext_len; i++) {
plaintext[i] = 0;
}
// generate IV
BRandom_randomize(o->out, o->enc_block_size);
// copy IV because BEncryption_Encrypt changes the IV
uint8_t iv[BENCRYPTION_MAX_BLOCK_SIZE];
memcpy(iv, o->out, o->enc_block_size);
// encrypt
BEncryption_Encrypt(&o->encryptor, plaintext, o->out + o->enc_block_size, cyphertext_len, iv);
out_len = o->enc_block_size + cyphertext_len;
} else {
out_len = plaintext_len;
}
// remember length
o->tw_out_len = out_len;
}
static void encode_work_handler (SPProtoEncoder *o)
{
ASSERT(o->in_len >= 0)
ASSERT(o->out_have)
ASSERT(o->tw_have)
// free work
BThreadWork_Free(&o->tw);
o->tw_have = 0;
// finish packet
o->in_len = -1;
o->out_have = 0;
PacketRecvInterface_Done(&o->output, o->tw_out_len);
}
static void maybe_encode (SPProtoEncoder *o)
{
if (o->in_len >= 0 && o->out_have && !o->tw_have && can_encode(o)) {
encode_packet(o);
}
}
static void output_handler_recv (SPProtoEncoder *o, uint8_t *data)
{
ASSERT(o->in_len == -1)
ASSERT(!o->out_have)
ASSERT(!o->tw_have)
DebugObject_Access(&o->d_obj);
// remember output packet
o->out_have = 1;
o->out = data;
// determine plaintext location
uint8_t *plaintext = (SPPROTO_HAVE_ENCRYPTION(o->sp_params) ? o->buf : o->out);
// schedule receive
PacketRecvInterface_Receiver_Recv(o->input, plaintext + SPPROTO_HEADER_LEN(o->sp_params));
}
static void input_handler_done (SPProtoEncoder *o, int data_len)
{
ASSERT(data_len >= 0)
ASSERT(data_len <= o->input_mtu)
ASSERT(o->in_len == -1)
ASSERT(o->out_have)
ASSERT(!o->tw_have)
DebugObject_Access(&o->d_obj);
// remember input packet
o->in_len = data_len;
// encode if possible
if (can_encode(o)) {
encode_packet(o);
}
}
static void handler_job_hander (SPProtoEncoder *o)
{
ASSERT(SPPROTO_HAVE_OTP(o->sp_params))
DebugObject_Access(&o->d_obj);
if (o->handler) {
o->handler(o->user);
return;
}
}
static void otpgenerator_handler (SPProtoEncoder *o)
{
ASSERT(SPPROTO_HAVE_OTP(o->sp_params))
DebugObject_Access(&o->d_obj);
// remember seed ID
o->otpgen_seed_id = o->otpgen_pending_seed_id;
// possibly continue I/O
maybe_encode(o);
}
static void maybe_stop_work (SPProtoEncoder *o)
{
// stop existing work
if (o->tw_have) {
BThreadWork_Free(&o->tw);
o->tw_have = 0;
}
}
int SPProtoEncoder_Init (SPProtoEncoder *o, PacketRecvInterface *input, struct spproto_security_params sp_params, int otp_warning_count, BPendingGroup *pg, BThreadWorkDispatcher *twd)
{
spproto_assert_security_params(sp_params);
ASSERT(spproto_carrier_mtu_for_payload_mtu(sp_params, PacketRecvInterface_GetMTU(input)) >= 0)
if (SPPROTO_HAVE_OTP(sp_params)) {
ASSERT(otp_warning_count > 0)
ASSERT(otp_warning_count <= sp_params.otp_num)
}
// init arguments
o->input = input;
o->sp_params = sp_params;
o->otp_warning_count = otp_warning_count;
o->twd = twd;
// set no handlers
o->handler = NULL;
// calculate hash size
if (SPPROTO_HAVE_HASH(o->sp_params)) {
o->hash_size = BHash_size(o->sp_params.hash_mode);
}
// calculate encryption block and key sizes
if (SPPROTO_HAVE_ENCRYPTION(o->sp_params)) {
o->enc_block_size = BEncryption_cipher_block_size(o->sp_params.encryption_mode);
o->enc_key_size = BEncryption_cipher_key_size(o->sp_params.encryption_mode);
}
// init otp generator
if (SPPROTO_HAVE_OTP(o->sp_params)) {
if (!OTPGenerator_Init(&o->otpgen, o->sp_params.otp_num, o->sp_params.otp_mode, o->twd, (OTPGenerator_handler)otpgenerator_handler, o)) {
goto fail0;
}
}
// have no encryption key
if (SPPROTO_HAVE_ENCRYPTION(o->sp_params)) {
o->have_encryption_key = 0;
}
// remember input MTU
o->input_mtu = PacketRecvInterface_GetMTU(o->input);
// calculate output MTU
o->output_mtu = spproto_carrier_mtu_for_payload_mtu(o->sp_params, o->input_mtu);
// init input
PacketRecvInterface_Receiver_Init(o->input, (PacketRecvInterface_handler_done)input_handler_done, o);
// have no input in buffer
o->in_len = -1;
// init output
PacketRecvInterface_Init(&o->output, o->output_mtu, (PacketRecvInterface_handler_recv)output_handler_recv, o, pg);
// have no output available
o->out_have = 0;
// allocate plaintext buffer
if (SPPROTO_HAVE_ENCRYPTION(o->sp_params)) {
int buf_size = balign_up((SPPROTO_HEADER_LEN(o->sp_params) + o->input_mtu + 1), o->enc_block_size);
if (!(o->buf = (uint8_t *)malloc(buf_size))) {
goto fail1;
}
}
// init handler job
BPending_Init(&o->handler_job, pg, (BPending_handler)handler_job_hander, o);
// have no work
o->tw_have = 0;
DebugObject_Init(&o->d_obj);
return 1;
fail1:
PacketRecvInterface_Free(&o->output);
if (SPPROTO_HAVE_OTP(o->sp_params)) {
OTPGenerator_Free(&o->otpgen);
}
fail0:
return 0;
}
void SPProtoEncoder_Free (SPProtoEncoder *o)
{
DebugObject_Free(&o->d_obj);
// free work
if (o->tw_have) {
BThreadWork_Free(&o->tw);
}
// free handler job
BPending_Free(&o->handler_job);
// free plaintext buffer
if (SPPROTO_HAVE_ENCRYPTION(o->sp_params)) {
free(o->buf);
}
// free output
PacketRecvInterface_Free(&o->output);
// free encryptor
if (SPPROTO_HAVE_ENCRYPTION(o->sp_params) && o->have_encryption_key) {
BEncryption_Free(&o->encryptor);
}
// free otp generator
if (SPPROTO_HAVE_OTP(o->sp_params)) {
OTPGenerator_Free(&o->otpgen);
}
}
PacketRecvInterface * SPProtoEncoder_GetOutput (SPProtoEncoder *o)
{
DebugObject_Access(&o->d_obj);
return &o->output;
}
void SPProtoEncoder_SetEncryptionKey (SPProtoEncoder *o, uint8_t *encryption_key)
{
ASSERT(SPPROTO_HAVE_ENCRYPTION(o->sp_params))
DebugObject_Access(&o->d_obj);
// stop existing work
maybe_stop_work(o);
// free encryptor
if (o->have_encryption_key) {
BEncryption_Free(&o->encryptor);
}
// init encryptor
BEncryption_Init(&o->encryptor, BENCRYPTION_MODE_ENCRYPT, o->sp_params.encryption_mode, encryption_key);
// have encryption key
o->have_encryption_key = 1;
// possibly continue I/O
maybe_encode(o);
}
void SPProtoEncoder_RemoveEncryptionKey (SPProtoEncoder *o)
{
ASSERT(SPPROTO_HAVE_ENCRYPTION(o->sp_params))
DebugObject_Access(&o->d_obj);
// stop existing work
maybe_stop_work(o);
if (o->have_encryption_key) {
// free encryptor
BEncryption_Free(&o->encryptor);
// have no encryption key
o->have_encryption_key = 0;
}
}
void SPProtoEncoder_SetOTPSeed (SPProtoEncoder *o, uint16_t seed_id, uint8_t *key, uint8_t *iv)
{
ASSERT(SPPROTO_HAVE_OTP(o->sp_params))
DebugObject_Access(&o->d_obj);
// give seed to OTP generator
OTPGenerator_SetSeed(&o->otpgen, key, iv);
// remember seed ID
o->otpgen_pending_seed_id = seed_id;
}
void SPProtoEncoder_RemoveOTPSeed (SPProtoEncoder *o)
{
ASSERT(SPPROTO_HAVE_OTP(o->sp_params))
DebugObject_Access(&o->d_obj);
// reset OTP generator
OTPGenerator_Reset(&o->otpgen);
}
void SPProtoEncoder_SetHandlers (SPProtoEncoder *o, SPProtoEncoder_handler handler, void *user)
{
DebugObject_Access(&o->d_obj);
o->handler = handler;
o->user = user;
}