88bb8489db
Change-Id: If7c1033e0af35ad0dda17ea3b3a710b2d2aaa599 Reviewed-on: https://boringssl-review.googlesource.com/14892 Reviewed-by: Adam Langley <agl@google.com>
273 lines
7.4 KiB
C
273 lines
7.4 KiB
C
/* Copyright (c) 2014, Google Inc.
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*
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* Permission to use, copy, modify, and/or distribute this software for any
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* purpose with or without fee is hereby granted, provided that the above
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* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
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* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
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* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
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* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */
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#include <openssl/rand.h>
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#include <assert.h>
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#include <limits.h>
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#include <string.h>
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#include <openssl/chacha.h>
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#include <openssl/cpu.h>
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#include <openssl/mem.h>
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#include "internal.h"
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#include "../internal.h"
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/* It's assumed that the operating system always has an unfailing source of
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* entropy which is accessed via |CRYPTO_sysrand|. (If the operating system
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* entropy source fails, it's up to |CRYPTO_sysrand| to abort the process—we
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* don't try to handle it.)
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*
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* In addition, the hardware may provide a low-latency RNG. Intel's rdrand
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* instruction is the canonical example of this. When a hardware RNG is
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* available we don't need to worry about an RNG failure arising from fork()ing
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* the process or moving a VM, so we can keep thread-local RNG state and use it
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* as an additional-data input to CTR-DRBG.
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*
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* (We assume that the OS entropy is safe from fork()ing and VM duplication.
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* This might be a bit of a leap of faith, esp on Windows, but there's nothing
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* that we can do about it.) */
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/* kReseedInterval is the number of generate calls made to CTR-DRBG before
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* reseeding. */
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static const unsigned kReseedInterval = 4096;
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/* rand_thread_state contains the per-thread state for the RNG. */
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struct rand_thread_state {
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CTR_DRBG_STATE drbg;
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/* calls is the number of generate calls made on |drbg| since it was last
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* (re)seeded. This is bound by |kReseedInterval|. */
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unsigned calls;
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};
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/* rand_thread_state_free frees a |rand_thread_state|. This is called when a
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* thread exits. */
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static void rand_thread_state_free(void *state_in) {
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if (state_in == NULL) {
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return;
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}
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struct rand_thread_state *state = state_in;
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CTR_DRBG_clear(&state->drbg);
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OPENSSL_free(state);
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}
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#if defined(OPENSSL_X86_64) && !defined(OPENSSL_NO_ASM) && \
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!defined(BORINGSSL_UNSAFE_DETERMINISTIC_MODE)
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/* These functions are defined in asm/rdrand-x86_64.pl */
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extern int CRYPTO_rdrand(uint8_t out[8]);
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extern int CRYPTO_rdrand_multiple8_buf(uint8_t *buf, size_t len);
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static int have_rdrand(void) {
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return (OPENSSL_ia32cap_P[1] & (1u << 30)) != 0;
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}
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static int hwrand(uint8_t *buf, size_t len) {
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if (!have_rdrand()) {
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return 0;
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}
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const size_t len_multiple8 = len & ~7;
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if (!CRYPTO_rdrand_multiple8_buf(buf, len_multiple8)) {
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return 0;
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}
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len -= len_multiple8;
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if (len != 0) {
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assert(len < 8);
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uint8_t rand_buf[8];
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if (!CRYPTO_rdrand(rand_buf)) {
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return 0;
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}
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OPENSSL_memcpy(buf + len_multiple8, rand_buf, len);
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}
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return 1;
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}
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#else
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static int hwrand(uint8_t *buf, size_t len) {
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return 0;
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}
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#endif
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#if defined(BORINGSSL_FIPS)
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static void rand_get_seed(uint8_t seed[CTR_DRBG_ENTROPY_LEN]) {
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/* We overread from /dev/urandom by a factor of 10 and XOR to whiten. */
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#define FIPS_OVERREAD 10
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uint8_t entropy[CTR_DRBG_ENTROPY_LEN * FIPS_OVERREAD];
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CRYPTO_sysrand(entropy, sizeof(entropy));
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OPENSSL_memcpy(seed, entropy, CTR_DRBG_ENTROPY_LEN);
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for (size_t i = 1; i < FIPS_OVERREAD; i++) {
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for (size_t j = 0; j < CTR_DRBG_ENTROPY_LEN; j++) {
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seed[j] ^= entropy[CTR_DRBG_ENTROPY_LEN * i + j];
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}
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}
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}
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#else
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static void rand_get_seed(uint8_t seed[CTR_DRBG_ENTROPY_LEN]) {
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/* If not in FIPS mode, we don't overread from the system entropy source. */
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CRYPTO_sysrand(seed, CTR_DRBG_ENTROPY_LEN);
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}
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#endif
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void RAND_bytes_with_additional_data(uint8_t *out, size_t out_len,
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const uint8_t user_additional_data[32]) {
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if (out_len == 0) {
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return;
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}
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struct rand_thread_state stack_state;
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struct rand_thread_state *state =
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CRYPTO_get_thread_local(OPENSSL_THREAD_LOCAL_RAND);
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if (state == NULL) {
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state = OPENSSL_malloc(sizeof(struct rand_thread_state));
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if (state == NULL ||
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!CRYPTO_set_thread_local(OPENSSL_THREAD_LOCAL_RAND, state,
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rand_thread_state_free)) {
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/* If the system is out of memory, use an ephemeral state on the
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* stack. */
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state = &stack_state;
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}
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uint8_t seed[CTR_DRBG_ENTROPY_LEN];
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rand_get_seed(seed);
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if (!CTR_DRBG_init(&state->drbg, seed, NULL, 0)) {
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abort();
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}
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state->calls = 0;
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}
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if (state->calls >= kReseedInterval) {
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uint8_t seed[CTR_DRBG_ENTROPY_LEN];
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rand_get_seed(seed);
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if (!CTR_DRBG_reseed(&state->drbg, seed, NULL, 0)) {
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abort();
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}
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state->calls = 0;
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}
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/* Additional data is mixed into every CTR-DRBG call to protect, as best we
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* can, against forks & VM clones. We do not over-read this information and
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* don't reseed with it so, from the point of view of FIPS, this doesn't
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* provide “prediction resistance”. But, in practice, it does. */
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uint8_t additional_data[32];
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if (!hwrand(additional_data, sizeof(additional_data))) {
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/* Without a hardware RNG to save us from address-space duplication, the OS
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* entropy is used. */
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CRYPTO_sysrand(additional_data, sizeof(additional_data));
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}
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for (size_t i = 0; i < sizeof(additional_data); i++) {
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additional_data[i] ^= user_additional_data[i];
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}
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int first_call = 1;
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while (out_len > 0) {
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size_t todo = out_len;
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if (todo > CTR_DRBG_MAX_GENERATE_LENGTH) {
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todo = CTR_DRBG_MAX_GENERATE_LENGTH;
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}
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if (!CTR_DRBG_generate(&state->drbg, out, todo, additional_data,
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first_call ? sizeof(additional_data) : 0)) {
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abort();
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}
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out += todo;
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out_len -= todo;
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state->calls++;
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first_call = 0;
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}
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if (state == &stack_state) {
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CTR_DRBG_clear(&state->drbg);
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}
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return;
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}
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int RAND_bytes(uint8_t *out, size_t out_len) {
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static const uint8_t kZeroAdditionalData[32] = {0};
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RAND_bytes_with_additional_data(out, out_len, kZeroAdditionalData);
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return 1;
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}
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int RAND_pseudo_bytes(uint8_t *buf, size_t len) {
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return RAND_bytes(buf, len);
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}
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void RAND_seed(const void *buf, int num) {
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/* OpenSSH calls |RAND_seed| before jailing on the assumption that any needed
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* file descriptors etc will be opened. */
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uint8_t unused;
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RAND_bytes(&unused, sizeof(unused));
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}
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int RAND_load_file(const char *path, long num) {
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if (num < 0) { /* read the "whole file" */
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return 1;
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} else if (num <= INT_MAX) {
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return (int) num;
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} else {
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return INT_MAX;
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}
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}
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const char *RAND_file_name(char *buf, size_t num) { return NULL; }
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void RAND_add(const void *buf, int num, double entropy) {}
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int RAND_egd(const char *path) {
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return 255;
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}
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int RAND_poll(void) {
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return 1;
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}
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int RAND_status(void) {
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return 1;
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}
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static const struct rand_meth_st kSSLeayMethod = {
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RAND_seed,
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RAND_bytes,
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RAND_cleanup,
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RAND_add,
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RAND_pseudo_bytes,
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RAND_status,
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};
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RAND_METHOD *RAND_SSLeay(void) {
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return (RAND_METHOD*) &kSSLeayMethod;
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}
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void RAND_set_rand_method(const RAND_METHOD *method) {}
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void RAND_cleanup(void) {}
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