/*
xdrv_52_3_berry_md5.ino - Berry scripting language, Md5 class
Copyright (C) 2021 Stephan Hadinger, Berry language by Guan Wenliang https://github.com/Skiars/berry
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 3 of the License, or
(at your option) any later version.
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
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#ifdef USE_BERRY
#ifdef USE_ALEXA_AVS
#include
#include "be_mem.h"
/*********************************************************************************************\
* AES class
*
\*********************************************************************************************/
extern "C" {
int free_br_obj(bvm* vm) {
int argc = be_top(vm);
if (argc > 0) {
void * obj = be_tocomptr(vm, 1);
if (obj != NULL) { be_os_free(obj); }
}
be_return_nil(vm);
}
// `AES_GCM.init(secret_key:bytes(32), iv:bytes(12)) -> instance`
int32_t m_aes_gcm_init(struct bvm *vm);
int32_t m_aes_gcm_init(struct bvm *vm) {
int32_t argc = be_top(vm); // Get the number of arguments
if (argc >= 3 && be_isinstance(vm, 2) && be_isinstance(vm, 3)) {
do {
be_getglobal(vm, "bytes"); /* get the bytes class */ /* TODO eventually replace with be_getbuiltin */
if (!be_isderived(vm, 2)) break;
size_t length = 0;
const void * bytes = be_tobytes(vm, 2, &length);
if (!bytes) break;
if (length != 32) {
be_raise(vm, "value_error", "Key size must be 32 bytes");
}
be_getglobal(vm, "bytes"); /* get the bytes class */ /* TODO eventually replace with be_getbuiltin */
if (!be_isderived(vm, 3)) break;
size_t iv_length = 0;
const void * iv_bytes = be_tobytes(vm, 3, &iv_length);
if (!iv_bytes) break;
// Initialize an AES CTR structure with the secret key
br_aes_small_ctr_keys * ctr_ctx = (br_aes_small_ctr_keys *) be_os_malloc(sizeof(br_aes_small_ctr_keys));
if (!ctr_ctx) { be_throw(vm, BE_MALLOC_FAIL); }
br_aes_small_ctr_init(ctr_ctx, bytes, length);
be_newcomobj(vm, ctr_ctx, &free_br_obj);
be_setmember(vm, 1, ".p1");
// Initialize an AES GCM structure based on this CTR engine
br_gcm_context * gcm_ctx = (br_gcm_context *) be_os_malloc(sizeof(br_gcm_context));
if (!gcm_ctx) { be_throw(vm, BE_MALLOC_FAIL); }
br_gcm_init(gcm_ctx, &ctr_ctx->vtable, &br_ghash_ctmul32);
be_newcomobj(vm, gcm_ctx, &free_br_obj);
be_setmember(vm, 1, ".p2");
// Reset GCM context with provided IV
br_gcm_reset(gcm_ctx, iv_bytes, iv_length);
// We don't have any additional authenticated data so we flip instantly
br_gcm_flip(gcm_ctx);
be_return_nil(vm);
// success
} while (0);
}
be_raise(vm, kTypeError, nullptr);
}
int32_t m_aes_gcm_encryt(bvm *vm);
int32_t m_aes_gcm_decryt(bvm *vm);
int32_t m_aes_gcm_encrypt_or_decryt(bvm *vm, int encrypt) {
int32_t argc = be_top(vm); // Get the number of arguments
if (argc >= 2 && be_isinstance(vm, 2)) {
do {
be_getglobal(vm, "bytes"); /* get the bytes class */ /* TODO eventually replace with be_getbuiltin */
if (!be_isderived(vm, 2)) break;
// get GCM context
be_getmember(vm, 1, ".p2");
br_gcm_context * gcm_ctx = (br_gcm_context *) be_tocomptr(vm, -1);
be_pop(vm, 1);
// copy the input buffer
be_getmember(vm, 2, "copy"); // stack: bytes.copy()
be_pushvalue(vm, 2); // stack: bytes.copy(), bytes instance
be_call(vm, 1); // call copy with self parameter
be_pop(vm, 1); // stack: clone of input bytes
size_t length = 0;
// we are changing bytes in place
void * bytes = (void*) be_tobytes(vm, -1, &length);
if (!bytes) break;
br_gcm_run(gcm_ctx, encrypt, bytes, length);
be_return(vm);
// success
} while (0);
}
be_raise(vm, kTypeError, nullptr);
}
int32_t m_aes_gcm_encryt(bvm *vm) {
return m_aes_gcm_encrypt_or_decryt(vm, 1);
}
int32_t m_aes_gcm_decryt(bvm *vm) {
return m_aes_gcm_encrypt_or_decryt(vm, 0);
}
int32_t m_aes_gcm_tag(bvm *vm) {
do {
be_getglobal(vm, "bytes"); /* get the bytes class */ /* TODO eventually replace with be_getbuiltin */
// get GCM context
be_getmember(vm, 1, ".p2");
br_gcm_context * gcm_ctx = (br_gcm_context *) be_tocomptr(vm, -1);
be_pop(vm, 1);
// create a bytes buffer of 16 bytes
uint8_t tag[16] = {0};
br_gcm_get_tag(gcm_ctx, tag);
be_pushbytes(vm, tag, sizeof(tag));
be_return(vm);
// success
} while (0);
be_raise(vm, kTypeError, nullptr);
}
}
/*********************************************************************************************\
* EC C25519 class
*
\*********************************************************************************************/
#define BR_EC25519_IMPL br_ec_c25519_m15 // BearSSL implementation for Curve 25519
extern "C" {
// crypto.EC_C25519().public_key(private_key:bytes(32)) -> bytes(32)
// Computes the public key from a completely random private key of 32 bytes
int32_t m_ec_c25519_pubkey(bvm *vm);
int32_t m_ec_c25519_pubkey(bvm *vm) {
int32_t argc = be_top(vm); // Get the number of arguments
if (argc >= 2 && be_isbytes(vm, 2)) {
size_t buf_len = 0;
const uint8_t * buf = (const uint8_t*) be_tobytes(vm, 2, &buf_len);
if (buf_len == 32) {
/* create the private key structure */
uint8_t sk[32];
for (int32_t i=0; i<32; i++) {
sk[i] = buf[31-i];
}
br_ec_private_key br_sk = { BR_EC_curve25519, sk, 32 };
uint8_t pk_buf[32]; /* EC 25519 is 32 bytes */
size_t ret = br_ec_compute_pub(&BR_EC25519_IMPL, nullptr, pk_buf, &br_sk);
if (ret == 32) {
be_pushbytes(vm, pk_buf, ret);
be_return(vm);
}
}
be_raise(vm, "value_error", "invalid input");
}
be_raise(vm, kTypeError, nullptr);
}
// crypto.EC_C25519().shared_key(my_private_key:bytes(32), their_public_key:bytes(32)) -> bytes(32)
// Computes the shared pre-key. Normally this shared pre-key is hashed with another algorithm.
int32_t m_ec_c25519_sharedkey(bvm *vm);
int32_t m_ec_c25519_sharedkey(bvm *vm) {
int32_t argc = be_top(vm); // Get the number of arguments
if (argc >= 3 && be_isbytes(vm, 2) && be_isbytes(vm, 3)) {
size_t sk_len = 0;
const uint8_t * sk_buf = (const uint8_t*) be_tobytes(vm, 2, &sk_len);
uint8_t sk[32];
for (int32_t i=0; i<32; i++) {
sk[i] = sk_buf[31-i];
}
size_t pk_len = 0;
const uint8_t * pk_const = (const uint8_t*) be_tobytes(vm, 3, &pk_len);
uint8_t pk[32];
memmove(pk, pk_const, sizeof(pk)); /* copy to a non-const variable to receive the result */
if (sk_len == 32 && pk_len == 32) {
if (BR_EC25519_IMPL.mul(pk, pk_len, sk, sk_len, BR_EC_curve25519)) {
/* return value (xoff is zero so no offset) */
be_pushbytes(vm, pk, pk_len);
be_return(vm);
} else {
be_raise(vm, "internal_error", "internal bearssl error in 519_m15.mul()");
}
}
be_raise(vm, "value_error", "invalid input");
}
be_raise(vm, kTypeError, nullptr);
}
}
#endif // USE_ALEXA_AVS
#endif // USE_BERRY