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drbg.c
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drbg.c
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/*
* Copyright (C) 2022 - This file is part of libdrbg project
*
* Author: Ryad BENADJILA <[email protected]>
* Contributor: Arnaud EBALARD <[email protected]>
*
* This software is licensed under a dual BSD and GPL v2 license.
* See LICENSE file at the root folder of the project.
*/
#include "drbg.h"
/* Entropy gathering function
* NOTE: XXX: to be implemented by the user!
*/
#include "entropy.h"
#define DRBG_INIT_MAGIC 0x1963422244881273
/* The backends callback methods */
#ifdef WITH_HASH_DRBG
static drbg_methods hash_drbg_methods = {
.instantiate = hash_drbg_instantiate,
.generate = hash_drbg_generate,
.reseed = hash_drbg_reseed,
.uninstantiate = hash_drbg_uninstantiate,
.get_lengths = hash_drbg_get_lengths,
};
#endif
#ifdef WITH_HMAC_DRBG
static drbg_methods hmac_drbg_methods = {
.instantiate = hmac_drbg_instantiate,
.generate = hmac_drbg_generate,
.reseed = hmac_drbg_reseed,
.uninstantiate = hmac_drbg_uninstantiate,
.get_lengths = hmac_drbg_get_lengths,
};
#endif
#ifdef WITH_CTR_DRBG
static drbg_methods ctr_drbg_methods = {
.instantiate = ctr_drbg_instantiate,
.generate = ctr_drbg_generate,
.reseed = ctr_drbg_reseed,
.uninstantiate = ctr_drbg_uninstantiate,
.get_lengths = ctr_drbg_get_lengths,
};
#endif
/* DRBG for PRNG.
* Standardized by NIST SP 800-90A.
* We support HMAC-DRBG, HASH-DRBG and CTR-DRBG
* as possible backends.
*/
static drbg_error drbg_check_initialized(drbg_ctx *ctx)
{
drbg_error ret = DRBG_ERROR;
if(ctx == NULL){
ret = DRBG_ILLEGAL_INPUT;
goto err;
}
if(ctx->magic != DRBG_INIT_MAGIC){
ret = DRBG_NON_INIT;
goto err;
}
ret = DRBG_OK;
err:
return ret;
}
/**************************************/
/* DRBG properties getters */
drbg_error drbg_check_instantiated(drbg_ctx *ctx)
{
drbg_error ret = DRBG_NON_INIT;
if(drbg_check_initialized(ctx) != DRBG_OK){
ret = DRBG_NON_INIT;
goto err;
}
if((ctx->is_instantiated == false) ||
(ctx->engine_is_instantiated == false)){
ret = DRBG_NON_INIT;
goto err;
}
/* Sanity check on internal stuff */
switch(ctx->type){
#ifdef WITH_HASH_DRBG
case DRBG_HASH:{
if((ctx->methods != (&hash_drbg_methods)) ||
(ctx->engine_magic != HASH_DRBG_INIT_MAGIC)){
ret = DRBG_NON_INIT;
goto err;
}
break;
}
#endif
#ifdef WITH_HMAC_DRBG
case DRBG_HMAC:{
if((ctx->methods != (&hmac_drbg_methods)) ||
(ctx->engine_magic != HMAC_DRBG_INIT_MAGIC)){
ret = DRBG_NON_INIT;
goto err;
}
break;
}
#endif
#ifdef WITH_CTR_DRBG
case DRBG_CTR:{
if((ctx->methods != (&ctr_drbg_methods)) ||
(ctx->engine_magic != CTR_DRBG_INIT_MAGIC)){
ret = DRBG_NON_INIT;
goto err;
}
break;
}
#endif
default:{
ret = DRBG_ERROR;
goto err;
}
}
ret = DRBG_OK;
err:
return ret;
}
/*
* Use with caution: this macro returns and requires that
* field in context matches function parameter name. On the
* good side, it avoids a lot of code duplication for getters
* defined below.
*/
#define GET_FROM_CTX_FIELD_OR_ERR(ctx, name) \
do { \
if ((drbg_check_instantiated(ctx) != DRBG_OK) || \
(name == NULL)) { \
return DRBG_ILLEGAL_INPUT; \
} \
\
(*(name)) = ctx->name; \
\
return DRBG_OK; \
} while (0)
drbg_error drbg_get_min_entropy_input_length(drbg_ctx *ctx,
uint32_t *min_entropy_input_length)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, min_entropy_input_length);
}
drbg_error drbg_get_max_entropy_input_length(drbg_ctx *ctx,
uint32_t *max_entropy_input_length)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, max_entropy_input_length);
}
drbg_error drbg_get_max_pers_string_length(drbg_ctx *ctx,
uint32_t *max_pers_string_length)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, max_pers_string_length);
}
drbg_error drbg_get_max_addin_length(drbg_ctx *ctx,
uint32_t *max_addin_length)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, max_addin_length);
}
drbg_error drbg_get_drbg_strength(drbg_ctx *ctx,
uint32_t *drbg_strength)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, drbg_strength);
}
drbg_error drbg_get_prediction_resistance(drbg_ctx *ctx,
bool *prediction_resistance)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, prediction_resistance);
}
drbg_error drbg_get_reseed_required_flag(drbg_ctx *ctx,
bool *reseed_required_flag)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, reseed_required_flag);
}
drbg_error drbg_get_reseed_counter(drbg_ctx *ctx,
uint64_t *reseed_counter)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, reseed_counter);
}
drbg_error drbg_get_reseed_interval(drbg_ctx *ctx,
uint64_t *reseed_interval)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, reseed_interval);
}
drbg_error drbg_get_max_asked_length(drbg_ctx *ctx,
uint32_t *max_asked_length)
{
GET_FROM_CTX_FIELD_OR_ERR(ctx, max_asked_length);
}
/**************************************/
/* DRBG instantiate internal.
*/
static drbg_error _drbg_instantiate(drbg_ctx *ctx,
const uint8_t *pers_string, uint32_t pers_string_len,
const uint8_t *entropy_input, uint32_t entropy_input_len,
const uint8_t *nonce, uint32_t nonce_len,
uint32_t *req_inst_sec_strength,
bool prediction_resistance,
drbg_type type,
drbg_options *opt)
{
drbg_error ret = DRBG_ERROR;
const uint8_t *final_entropy_input;
uint32_t final_entropy_input_len;
const uint8_t *final_nonce;
uint32_t final_nonce_len;
uint32_t min_entropy_input_length;
uint8_t *entropy_pool1 = NULL;
uint8_t *entropy_pool2 = NULL;
if(ctx == NULL){
ret = DRBG_ILLEGAL_INPUT;
goto err;
}
/* Depending on the chosen backend and the requested security strength,
* set the callbacks
*/
switch(type){
#ifdef WITH_HASH_DRBG
case DRBG_HASH:{
ctx->methods = (&hash_drbg_methods);
break;
}
#endif
#ifdef WITH_HMAC_DRBG
case DRBG_HMAC:{
ctx->methods = (&hmac_drbg_methods);
break;
}
#endif
#ifdef WITH_CTR_DRBG
case DRBG_CTR:{
ctx->methods = (&ctr_drbg_methods);
break;
}
#endif
default:{
ret = DRBG_ILLEGAL_INPUT;
goto err;
}
}
/* Get the min_entropy_input_length */
if((ret = ctx->methods->get_lengths(opt,
req_inst_sec_strength,
&min_entropy_input_length, NULL, NULL,
NULL, NULL)) != DRBG_OK){
goto err;
}
/* Now that we have our minimum entropy length, go and get some */
if(min_entropy_input_length > (0xffffffff >> 1)){
ret = DRBG_ENTROPY_ERROR;
goto err;
}
/* If we are provided an entropy input, use it! */
if(entropy_input != NULL){
if(entropy_input_len < min_entropy_input_length){
ret = DRBG_ENTROPY_ERROR;
goto err;
}
final_entropy_input = entropy_input;
final_entropy_input_len = entropy_input_len;
}
else{
if(get_entropy_input(&entropy_pool1, min_entropy_input_length,
prediction_resistance)){
ret = DRBG_ENTROPY_ERROR;
goto err;
}
final_entropy_input = (const uint8_t*)entropy_pool1;
final_entropy_input_len = min_entropy_input_length;
}
/* If we are provided a nonce, use it! */
if(nonce != NULL){
final_nonce = nonce;
final_nonce_len = nonce_len;
}
else{
if(get_entropy_input(&entropy_pool2, min_entropy_input_length,
prediction_resistance)){
ret = DRBG_ENTROPY_ERROR;
goto err;
}
final_nonce = (const uint8_t*)entropy_pool2;
final_nonce_len = min_entropy_input_length;
}
/* Now instantiate the drbg */
if((ret = ctx->methods->instantiate(ctx, final_entropy_input, final_entropy_input_len,
final_nonce, final_nonce_len,
pers_string, pers_string_len,
req_inst_sec_strength,
opt)) != DRBG_OK){
goto err;
}
/* Handle the prediciton resistance and the need reseed flags */
ctx->prediction_resistance = prediction_resistance;
ctx->reseed_required_flag = false;
/* Now we are instantiated */
ctx->is_instantiated = true;
/* Set the init magic */
ctx->magic = DRBG_INIT_MAGIC;
ret = DRBG_OK;
err:
if(entropy_pool1 != NULL){
if(clear_entropy_input(entropy_pool1)){
ret = DRBG_ENTROPY_ERROR;
}
}
if(entropy_pool2 != NULL){
if(clear_entropy_input(entropy_pool2)){
ret = DRBG_ENTROPY_ERROR;
}
}
return ret;
}
/* DRBG reseed internal.
*/
static drbg_error _drbg_reseed(drbg_ctx *ctx,
const uint8_t *entropy_input, uint32_t entropy_input_len,
const uint8_t *addin, uint32_t addin_len,
bool prediction_resistance_req)
{
drbg_error ret = DRBG_ERROR;
const uint8_t *final_entropy_input;
uint32_t final_entropy_input_len;
uint32_t min_entropy_input_length;
bool prediction_resistance_flag;
uint8_t *entropy_pool = NULL;
if(drbg_check_instantiated(ctx)){
ret = DRBG_NON_INIT;
goto err;
}
/* Get parameters */
min_entropy_input_length = ctx->min_entropy_input_length;
prediction_resistance_flag = ctx->prediction_resistance;
if((prediction_resistance_req == true) && (prediction_resistance_flag == false)){
ret = DRBG_ILLEGAL_INPUT;
goto err;
}
if(entropy_input != NULL){
if(entropy_input_len < min_entropy_input_length){
ret = DRBG_ENTROPY_ERROR;
goto err;
}
final_entropy_input = entropy_input;
final_entropy_input_len = entropy_input_len;
}
else{
/* Get entropy */
if(get_entropy_input(&entropy_pool, min_entropy_input_length,
prediction_resistance_req)){
ret = DRBG_ENTROPY_ERROR;
goto err;
}
final_entropy_input = (const uint8_t*)entropy_pool;
final_entropy_input_len = min_entropy_input_length;
}
/* Call the underlying backend reseed function */
/* NOTE: size of additional input is cheched by the backend */
if((ret = ctx->methods->reseed(ctx, final_entropy_input, final_entropy_input_len,
addin, addin_len)) != DRBG_OK){
goto err;
}
ret = DRBG_OK;
err:
if(entropy_pool != NULL){
if(clear_entropy_input(entropy_pool)){
ret = DRBG_ENTROPY_ERROR;
}
}
return ret;
}
/* DRBG generate internal.
*/
static drbg_error _drbg_generate(drbg_ctx *ctx,
const uint8_t *addin, uint32_t addin_len,
const uint8_t *reseed_entropy, uint32_t reseed_entropy_len,
uint8_t *out, uint32_t out_len,
bool prediction_resistance_req)
{
drbg_error ret = DRBG_ERROR;
bool prediction_resistance_flag;
bool local_prediction_resistance_req = prediction_resistance_req;
const uint8_t *local_addin = addin;
uint32_t local_addin_len = addin_len;
bool used_reseed_entropy = false;
if(drbg_check_instantiated(ctx)){
ret = DRBG_NON_INIT;
goto err;
}
/* NOTE: the state automaton below is the one depicted in NIST SP 800-90A
* "Generate Process:".
*/
prediction_resistance_flag = ctx->prediction_resistance;
/* 5. If prediction_resistance_req is set, and prediction_resistance_flag is not set, then
return (ERROR_FLAG, Null)*/
if((local_prediction_resistance_req == true) &&
(prediction_resistance_flag == false)){
ret = DRBG_ILLEGAL_INPUT;
goto err;
}
/* 6. Clear the reseed_required_flag */
ctx->reseed_required_flag = false;
step7:
/* 7. If reseed_required_flag is set, or if prediction_resistance_request is set, then */
if((ctx->reseed_required_flag == true) || (local_prediction_resistance_req == true)){
/* If the user provided entropy and we exhausted it, trigger an error ... */
if(used_reseed_entropy == true){
ret = DRBG_ENTROPY_ERROR;
goto err;
}
/* 7.1 Call reseed */
if((ret = _drbg_reseed(ctx,
reseed_entropy, reseed_entropy_len,
local_addin, local_addin_len,
local_prediction_resistance_req)) != DRBG_OK){
goto err;
}
if(reseed_entropy != NULL){
/* Tell that we have used the user provided entropy */
used_reseed_entropy = true;
}
/* 7.4 additional_input = the Null string */
local_addin = NULL;
local_addin_len = 0;
/* 7.5 Clear the reseed_required_flag */
ctx->reseed_required_flag = false;
}
/* 8. Call generate */
if((ret = ctx->methods->generate(ctx, local_addin, local_addin_len, out, out_len)) != DRBG_OK){
/* If status indicates that a reseed is required before the requested bits can be generated,
* then:
*/
if(ret == DRBG_NEED_RESEED){
/* 9.1 Set the reseed_required_flag */
ctx->reseed_required_flag = true;
/* 9.2 If the prediction_resistance_flag is set,
* then set the prediction_resistance request indication
*/
if(prediction_resistance_flag == true){
local_prediction_resistance_req = true;
}
goto step7;
}
else{
goto err;
}
}
ret = DRBG_OK;
err:
return ret;
}
/**************************************/
/* DRBG get lengths */
drbg_error drbg_get_lengths(drbg_options *options,
uint32_t *drbg_strength,
uint32_t *min_entropy_input_length,
uint32_t *max_entropy_input_length,
uint32_t *max_pers_string_length,
uint32_t *max_addin_length,
uint32_t *max_asked_length,
drbg_type type)
{
drbg_error ret = DRBG_ERROR;
switch(type){
#ifdef WITH_HASH_DRBG
case DRBG_HASH:{
ret = hash_drbg_methods.get_lengths(options, drbg_strength,
min_entropy_input_length,
max_entropy_input_length,
max_pers_string_length,
max_addin_length,
max_asked_length);
break;
}
#endif
#ifdef WITH_HMAC_DRBG
case DRBG_HMAC:{
ret = hmac_drbg_methods.get_lengths(options, drbg_strength,
min_entropy_input_length,
max_entropy_input_length,
max_pers_string_length,
max_addin_length,
max_asked_length);
break;
}
#endif
#ifdef WITH_CTR_DRBG
case DRBG_CTR:{
ret = ctr_drbg_methods.get_lengths(options, drbg_strength,
min_entropy_input_length,
max_entropy_input_length,
max_pers_string_length,
max_addin_length,
max_asked_length);
break;
}
#endif
default:{
ret = DRBG_ILLEGAL_INPUT;
goto err;
}
}
err:
return ret;
}
/* DRBG instantiate:
* As described in NIST SP 800-90A in section 9.1, entropy_input and nonce are
* not provided by the consuming application, but instead extracted inside the
* drbg_instantiate function by a call to get_entropy_input.
*/
drbg_error drbg_instantiate(drbg_ctx *ctx,
const uint8_t *pers_string, uint32_t pers_string_len,
uint32_t *req_inst_sec_strength,
bool prediction_resistance,
drbg_type type,
drbg_options *opt)
{
return _drbg_instantiate(ctx,
pers_string, pers_string_len,
NULL, 0,
NULL, 0,
req_inst_sec_strength, prediction_resistance,
type, opt);
}
drbg_error drbg_instantiate_with_user_entropy(drbg_ctx *ctx,
const uint8_t *pers_string, uint32_t pers_string_len,
const uint8_t *entropy_input, uint32_t entropy_input_len,
const uint8_t *nonce, uint32_t nonce_len,
uint32_t *req_inst_sec_strength,
bool prediction_resistance,
drbg_type type,
drbg_options *opt)
{
return _drbg_instantiate(ctx,
pers_string, pers_string_len,
entropy_input, entropy_input_len,
nonce, nonce_len,
req_inst_sec_strength, prediction_resistance,
type, opt);
}
/* DRBG reseed.
*/
drbg_error drbg_reseed(drbg_ctx *ctx,
const uint8_t *addin, uint32_t addin_len,
bool prediction_resistance_req)
{
return _drbg_reseed(ctx,
NULL, 0,
addin, addin_len,
prediction_resistance_req);
}
drbg_error drbg_reseed_with_user_entropy(drbg_ctx *ctx,
const uint8_t *entropy_input, uint32_t entropy_input_len,
const uint8_t *addin, uint32_t addin_len,
bool prediction_resistance_req)
{
return _drbg_reseed(ctx,
entropy_input, entropy_input_len,
addin, addin_len,
prediction_resistance_req);
}
/* DRBG generate.
*/
drbg_error drbg_generate(drbg_ctx *ctx,
const uint8_t *addin, uint32_t addin_len,
uint8_t *out, uint32_t out_len,
bool prediction_resistance_req)
{
return _drbg_generate(ctx,
addin, addin_len,
NULL, 0,
out, out_len,
prediction_resistance_req);
}
drbg_error drbg_generate_with_user_entropy(drbg_ctx *ctx,
const uint8_t *addin, uint32_t addin_len,
const uint8_t *reseed_entropy, uint32_t reseed_entropy_len,
uint8_t *out, uint32_t out_len,
bool prediction_resistance_req)
{
return _drbg_generate(ctx,
addin, addin_len,
reseed_entropy, reseed_entropy_len,
out, out_len,
prediction_resistance_req);
}
/* DRBG uninstantiate */
drbg_error drbg_uninstantiate(drbg_ctx *ctx)
{
drbg_error ret = DRBG_OK;
if(drbg_check_instantiated(ctx)){
/* NOTE: do not return immediately if an error happened,
* empty the other fields first.
*/
ret = ctx->methods->uninstantiate(ctx);
}
ctx->prediction_resistance = false;
ctx->reseed_required_flag = false;
ctx->is_instantiated = false;
ctx->magic = 0;
return ret;
}