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encrypt.cpp
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encrypt.cpp
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#include "lib/aes-common.h"
#include "lib/md5.h"
#include "lib/pbkdf2-sha1.h"
#include "lib/pbkdf2-sha256.h"
#include <string.h>
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>
#include "encrypt.h"
#include "common.h"
#include "log.h"
//static uint64_t seq=1;
static int8_t zero_iv[]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0};//this prog use zero iv,you should make sure first block of data contains a random/nonce data
/****
* security of zero_iv + nonce first data block
* https://crypto.stackexchange.com/questions/5421/using-cbc-with-a-fixed-iv-and-a-random-first-plaintext-block
****/
char normal_key[16 + 100];//generated from key_string by md5. reserved for compatiblity
const int hmac_key_len=64;//generate 512bit long keys, use first n chars when needed
const int cipher_key_len=64;
unsigned char hmac_key_encrypt[hmac_key_len + 100]; //key for hmac
unsigned char hmac_key_decrypt[hmac_key_len + 100]; //key for hmac
unsigned char cipher_key_encrypt[cipher_key_len + 100]; //key for aes etc.
unsigned char cipher_key_decrypt[cipher_key_len + 100]; //key for aes etc.
unordered_map<int, const char *> auth_mode_tostring = {{auth_none, "none"}, {auth_md5, "md5"}, {auth_crc32, "crc32"},{auth_simple,"simple"},{auth_hmac_sha1,"hmac_sha1"},};
unordered_map<int, const char *> cipher_mode_tostring={{cipher_none,"none"},{cipher_aes128cfb,"aes128cfb"},{cipher_aes128cbc,"aes128cbc"},{cipher_xor,"xor"},};
//TODO aes-gcm
auth_mode_t auth_mode=auth_md5;
cipher_mode_t cipher_mode=cipher_aes128cbc;
int is_hmac_used=0;
//TODO key negotiation and forward secrecy
int my_init_keys(const char * user_passwd,int is_client)
{
char tmp[1000]="";
int len=strlen(user_passwd);
strcat(tmp,user_passwd);
strcat(tmp,"key1");
md5((uint8_t*)tmp,strlen(tmp),(uint8_t*)normal_key);
if(auth_mode==auth_hmac_sha1)
is_hmac_used=1;
if(is_hmac_used)
{
unsigned char salt[400]="";
char salt_text[400]="udp2raw_salt1";
md5((uint8_t*)(salt_text),strlen(salt_text),salt); //TODO different salt per session
unsigned char pbkdf2_output1[400]="";
PKCS5_PBKDF2_HMAC_SHA256((uint8_t*)user_passwd,len,salt,16,10000, 32,pbkdf2_output1); //TODO argon2 ?
//unsigned char pbkdf2_output2[400]="";
//PKCS5_PBKDF2_HMAC_SHA256(pbkdf2_output1,32,0,0,1, hmac_key_len*2+cipher_key_len*2,pbkdf2_output2); //stretch it
const char *info_hmac_encrypt="hmac_key server-->client";
const char *info_hmac_decrypt="hmac_key client-->server";
const char *info_cipher_encrypt="cipher_key server-->client";
const char *info_cipher_decrypt="cipher_key client-->server";
if(is_client)
{
const char *tmp;
tmp=info_hmac_encrypt; info_hmac_encrypt=info_hmac_decrypt;info_hmac_decrypt=tmp;
tmp=info_cipher_encrypt; info_cipher_encrypt=info_cipher_decrypt;info_cipher_decrypt=tmp;
}
else
{
//nop
}
assert( hkdf_sha256_expand( pbkdf2_output1,32, (unsigned char *)info_cipher_encrypt,strlen(info_cipher_encrypt), cipher_key_encrypt, cipher_key_len ) ==0);
assert( hkdf_sha256_expand( pbkdf2_output1,32, (unsigned char *)info_cipher_decrypt,strlen(info_cipher_decrypt), cipher_key_decrypt, cipher_key_len ) ==0);
assert( hkdf_sha256_expand( pbkdf2_output1,32, (unsigned char *)info_hmac_encrypt,strlen(info_hmac_encrypt), hmac_key_encrypt, hmac_key_len ) ==0);
assert( hkdf_sha256_expand( pbkdf2_output1,32, (unsigned char *)info_hmac_decrypt,strlen(info_hmac_decrypt), hmac_key_decrypt, hmac_key_len ) ==0);
}
print_binary_chars(normal_key,16);
print_binary_chars((char *)hmac_key_encrypt,hmac_key_len);
print_binary_chars((char *)hmac_key_decrypt,hmac_key_len);
print_binary_chars((char *)cipher_key_encrypt,cipher_key_len);
print_binary_chars((char *)cipher_key_decrypt,cipher_key_len);
return 0;
}
/*
* this function comes from http://www.hackersdelight.org/hdcodetxt/crc.c.txt
*/
unsigned int crc32h(unsigned char *message,int len) {
int i, crc;
unsigned int byte, c;
const unsigned int g0 = 0xEDB88320, g1 = g0>>1,
g2 = g0>>2, g3 = g0>>3, g4 = g0>>4, g5 = g0>>5,
g6 = (g0>>6)^g0, g7 = ((g0>>6)^g0)>>1;
i = 0;
crc = 0xFFFFFFFF;
while (i!=len) { // Get next byte.
byte = message[i];
crc = crc ^ byte;
c = ((crc<<31>>31) & g7) ^ ((crc<<30>>31) & g6) ^
((crc<<29>>31) & g5) ^ ((crc<<28>>31) & g4) ^
((crc<<27>>31) & g3) ^ ((crc<<26>>31) & g2) ^
((crc<<25>>31) & g1) ^ ((crc<<24>>31) & g0);
crc = ((unsigned)crc >> 8) ^ c;
i = i + 1;
}
return ~crc;
}
/*
void sum(const unsigned char *data,int len,unsigned char* res) {
memset(res,0,sizeof(int));
for(int i=0,j=0;i<len;i++,j++)
{
if(j==4) j=0;
res[j]+=data[i];
}
return ;
}*/
void simple_hash(unsigned char *str,int len,unsigned char res[8]) //djb2+ sdbm
{
u32_t hash = 5381;
u32_t hash2 = 0;
int c;
int i=0;
while(c = *str++,i++!=len)
{
// hash = ((hash << 5) + hash) + c; /* hash * 33 + c */
hash = ((hash << 5) + hash)^c; /* (hash * 33) ^ c */
hash2 = c + (hash2 << 6) + (hash2 << 16) - hash2;
}
hash=htonl(hash);
hash2=htonl(hash2);
memcpy(res,&hash,sizeof(hash));
memcpy(res+sizeof(hash),&hash2,sizeof(hash2));
}
int auth_md5_cal(const char *data,char * output,int &len)
{
memcpy(output,data,len);//TODO inefficient code
md5((unsigned char *)output,len,(unsigned char *)(output+len));
len+=16;
return 0;
}
int auth_hmac_sha1_cal(const char *data,char * output,int &len)
{
mylog(log_trace,"auth_hmac_sha1_cal() is called\n");
memcpy(output,data,len);//TODO inefficient code
sha1_hmac(hmac_key_encrypt, 20, (const unsigned char *)data, len,(unsigned char *)(output+len));
//use key len of 20 instead of hmac_key_len, "extra length would not significantly increase the function strength" (rfc2104)
len+=20;
return 0;
}
int auth_hmac_sha1_verify(const char *data,int &len)
{
mylog(log_trace,"auth_hmac_sha1_verify() is called\n");
if(len<20)
{
mylog(log_trace,"auth_hmac_sha1_verify len<20\n");
return -1;
}
char res[20];
sha1_hmac(hmac_key_decrypt, 20, (const unsigned char *)data, len-20,(unsigned char *)(res));
if(memcmp(res,data+len-20,20)!=0)
{
mylog(log_trace,"auth_hmac_sha1 check failed\n");
return -2;
}
len-=20;
return 0;
}
int auth_crc32_cal(const char *data,char * output,int &len)
{
memcpy(output,data,len);//TODO inefficient code
unsigned int ret=crc32h((unsigned char *)output,len);
unsigned int ret_n=htonl(ret);
memcpy(output+len,&ret_n,sizeof(unsigned int));
len+=sizeof(unsigned int);
return 0;
}
int auth_simple_cal(const char *data,char * output,int &len)
{
//char res[4];
memcpy(output,data,len);//TODO inefficient code
simple_hash((unsigned char *)output,len,(unsigned char *)(output+len));
len+=8;
return 0;
}
int auth_simple_verify(const char *data,int &len)
{
if(len<8) return -1;
unsigned char res[8];
len-=8;
simple_hash((unsigned char *)data,len,res);
if(memcmp(res,data+len,8)!=0)
return -1;
return 0;
}
int auth_none_cal(const char *data,char * output,int &len)
{
memcpy(output,data,len);
return 0;
}
int auth_md5_verify(const char *data,int &len)
{
if(len<16)
{
mylog(log_trace,"auth_md5_verify len<16\n");
return -1;
}
char md5_res[16];
md5((unsigned char *)data,len-16,(unsigned char *)md5_res);
if(memcmp(md5_res,data+len-16,16)!=0)
{
mylog(log_trace,"auth_md5_verify md5 check failed\n");
return -2;
}
len-=16;
return 0;
}
int auth_none_verify(const char *data,int &len)
{
return 0;
}
int cipher_xor_encrypt(const char * data, char *output,int &len, char *key) {
int i, j;
for (i = 0, j = 0; i < len; i++, j++) {
if(j==16) j=0;
output[i] = data[i]^key[j];
}
return 0;
}
int cipher_xor_decrypt(const char * data, char *output,int &len, char *key) {
int i, j;
//char tmp[buf_len];
//len=len/16*16+1;
//AES128_CBC_decrypt_buffer((uint8_t *)tmp, (uint8_t *)input, len, (uint8_t *)key, (uint8_t *)iv);
//for(i=0;i<len;i++)
//input[i]=tmp[i];
for (i = 0, j = 0; i < len; i++, j++) {
if(j==16) j=0;
output[i] = data[i]^key[j];
}
return 0;
}
int padding(char *data ,int &data_len,int padding_num)
{
int old_len=data_len;
data_len+=1;
if(data_len%padding_num!=0)
{
data_len= (data_len/padding_num)*padding_num+padding_num;
}
unsigned char * p= (unsigned char *)&data[data_len-1];
*p= (data_len-old_len);
return 0;
}
int de_padding(const char *data ,int &data_len,int padding_num)
{
if((uint8_t)data[data_len-1] >padding_num) return -1;
data_len-=(uint8_t)data[data_len-1];
if(data_len<0)
{
return -1;
}
return 0;
}
int cipher_aes128cbc_encrypt(const char *data,char *output,int &len,char * key)
{
static int first_time=1;
char buf[buf_len];
memcpy(buf,data,len);//TODO inefficient code
if(padding(buf,len,16)<0) return -1;
if(aes_key_optimize)
{
if(first_time==0) key=0;
else first_time=0;
}
AES_CBC_encrypt_buffer((unsigned char *)output,(unsigned char *)buf,len,(unsigned char *)key,(unsigned char *)zero_iv);
return 0;
}
int cipher_aes128cfb_encrypt(const char *data,char *output,int &len,char * key)
{
static int first_time=1;
char buf[buf_len];
memcpy(buf,data,len);//TODO inefficient code
if(aes_key_optimize)
{
if(first_time==0) key=0;
else first_time=0;
}
AES_CFB_encrypt_buffer((unsigned char *)output,(unsigned char *)buf,len,(unsigned char *)key,(unsigned char *)zero_iv);
return 0;
}
int auth_crc32_verify(const char *data,int &len)
{
if(len<int(sizeof(unsigned int)))
{
mylog(log_debug,"auth_crc32_verify len<%d\n",int(sizeof(unsigned int)));
return -1;
}
unsigned int ret=crc32h((unsigned char *)data,len-sizeof(unsigned int));
unsigned int ret_n=htonl(ret);
if(memcmp(data+len-sizeof(unsigned int),&ret_n,sizeof(unsigned int))!=0)
{
mylog(log_debug,"auth_crc32_verify memcmp fail\n");
return -1;
}
len-=sizeof(unsigned int);
return 0;
}
int cipher_none_encrypt(const char *data,char *output,int &len,char * key)
{
memcpy(output,data,len);
return 0;
}
int cipher_aes128cbc_decrypt(const char *data,char *output,int &len,char * key)
{
static int first_time=1;
if(len%16 !=0) {mylog(log_debug,"len%%16!=0\n");return -1;}
if(aes_key_optimize)
{
if(first_time==0) key=0;
else first_time=0;
}
AES_CBC_decrypt_buffer((unsigned char *)output,(unsigned char *)data,len,(unsigned char *)key,(unsigned char *)zero_iv);
if(de_padding(output,len,16)<0) return -1;
return 0;
}
int cipher_aes128cfb_decrypt(const char *data,char *output,int &len,char * key)
{
static int first_time=1;
if(aes_key_optimize)
{
if(first_time==0) key=0;
else first_time=0;
}
AES_CFB_decrypt_buffer((unsigned char *)output,(unsigned char *)data,len,(unsigned char *)key,(unsigned char *)zero_iv);
//if(de_padding(output,len,16)<0) return -1;
return 0;
}
int cipher_none_decrypt(const char *data,char *output,int &len,char * key)
{
memcpy(output,data,len);
return 0;
}
int auth_cal(const char *data,char * output,int &len)
{
mylog(log_trace,"auth:%d\n",auth_mode);
switch(auth_mode)
{
case auth_crc32:return auth_crc32_cal(data, output, len);
case auth_md5:return auth_md5_cal(data, output, len);
case auth_simple:return auth_simple_cal(data, output, len);
case auth_none:return auth_none_cal(data, output, len);
case auth_hmac_sha1:return auth_hmac_sha1_cal(data,output,len);
//default: return auth_md5_cal(data,output,len);//default;
default: assert(0==1);
}
return -1;
}
int auth_verify(const char *data,int &len)
{
mylog(log_trace,"auth:%d\n",auth_mode);
switch(auth_mode)
{
case auth_crc32:return auth_crc32_verify(data, len);
case auth_md5:return auth_md5_verify(data, len);
case auth_simple:return auth_simple_verify(data, len);
case auth_none:return auth_none_verify(data, len);
case auth_hmac_sha1:return auth_hmac_sha1_verify(data,len);
//default: return auth_md5_verify(data,len);//default
default: assert(0==1);
}
return -1;
}
int cipher_encrypt(const char *data,char *output,int &len,char * key)
{
mylog(log_trace,"cipher:%d\n",cipher_mode);
switch(cipher_mode)
{
case cipher_aes128cbc:return cipher_aes128cbc_encrypt(data,output,len, key);
case cipher_aes128cfb:return cipher_aes128cfb_encrypt(data,output,len, key);
case cipher_xor:return cipher_xor_encrypt(data,output,len, key);
case cipher_none:return cipher_none_encrypt(data,output,len, key);
//default:return cipher_aes128cbc_encrypt(data,output,len, key);
default: assert(0==1);
}
return -1;
}
int cipher_decrypt(const char *data,char *output,int &len,char * key)
{
mylog(log_trace,"cipher:%d\n",cipher_mode);
switch(cipher_mode)
{
case cipher_aes128cbc:return cipher_aes128cbc_decrypt(data,output,len, key);
case cipher_aes128cfb:return cipher_aes128cfb_decrypt(data,output,len, key);
case cipher_xor:return cipher_xor_decrypt(data,output,len, key);
case cipher_none:return cipher_none_decrypt(data,output,len, key);
// default: return cipher_aes128cbc_decrypt(data,output,len,key);
default: assert(0==1);
}
return -1;
}
int encrypt_AE(const char *data,char *output,int &len /*,char * key*/)
{
mylog(log_trace,"encrypt_AE is called\n");
char buf[buf_len];
char buf2[buf_len];
memcpy(buf,data,len);
if(cipher_encrypt(buf,buf2,len,(char *)cipher_key_encrypt) !=0) {mylog(log_debug,"cipher_encrypt failed ");return -1;}
if(auth_cal(buf2,output,len)!=0) {mylog(log_debug,"auth_cal failed ");return -1;}
//printf("%d %x %x\n",len,(int)(output[0]),(int)(output[1]));
//print_binary_chars(output,len);
//use encrypt-then-MAC scheme
return 0;
}
int decrypt_AE(const char *data,char *output,int &len /*,char * key*/)
{
mylog(log_trace,"decrypt_AE is called\n");
//printf("%d %x %x\n",len,(int)(data[0]),(int)(data[1]));
//print_binary_chars(data,len);
if(auth_verify(data,len)!=0) {mylog(log_debug,"auth_verify failed\n");return -1;}
if(cipher_decrypt(data,output,len,(char *)cipher_key_decrypt) !=0) {mylog(log_debug,"cipher_decrypt failed \n"); return -1;}
return 0;
}
int my_encrypt(const char *data,char *output,int &len /*,char * key*/)
{
if(len<0) {mylog(log_trace,"len<0");return -1;}
if(len>max_data_len) {mylog(log_warn,"len>max_data_len");return -1;}
if(is_hmac_used)
return encrypt_AE(data,output,len);
char buf[buf_len];
char buf2[buf_len];
memcpy(buf,data,len);
if(auth_cal(buf,buf2,len)!=0) {mylog(log_debug,"auth_cal failed ");return -1;}
if(cipher_encrypt(buf2,output,len,normal_key) !=0) {mylog(log_debug,"cipher_encrypt failed ");return -1;}
return 0;
}
int my_decrypt(const char *data,char *output,int &len /*,char * key*/)
{
if(len<0) return -1;
if(len>max_data_len) {mylog(log_warn,"len>max_data_len");return -1;}
if(is_hmac_used)
return decrypt_AE(data,output,len);
if(cipher_decrypt(data,output,len,normal_key) !=0) {mylog(log_debug,"cipher_decrypt failed \n"); return -1;}
if(auth_verify(output,len)!=0) {mylog(log_debug,"auth_verify failed\n");return -1;}
return 0;
}
int encrypt_AEAD(uint8_t *data,uint8_t *output,int &len,uint8_t * key,uint8_t *header,int hlen)
{
//TODO
return -1;
}
int decrypt_AEAD(uint8_t *data,uint8_t *output,int &len,uint8_t * key,uint8_t *header,int hlen)
{
//TODO
return -1;
}