861f384d7b
Change-Id: I7298c878bd2c8187dbd25903e397e8f0c2575aa4 Reviewed-on: https://boringssl-review.googlesource.com/26846 Commit-Queue: David Benjamin <davidben@google.com> CQ-Verified: CQ bot account: commit-bot@chromium.org <commit-bot@chromium.org> Reviewed-by: David Benjamin <davidben@google.com>
426 lines
14 KiB
C++
426 lines
14 KiB
C++
/* Copyright (c) 2015, 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/ssl.h>
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#include <assert.h>
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#include <string.h>
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#include <openssl/aead.h>
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#include <openssl/err.h>
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#include <openssl/rand.h>
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#include "../crypto/internal.h"
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#include "internal.h"
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#if defined(BORINGSSL_UNSAFE_FUZZER_MODE)
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#define FUZZER_MODE true
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#else
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#define FUZZER_MODE false
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#endif
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namespace bssl {
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SSLAEADContext::SSLAEADContext(uint16_t version_arg, bool is_dtls_arg,
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const SSL_CIPHER *cipher_arg)
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: cipher_(cipher_arg),
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version_(version_arg),
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is_dtls_(is_dtls_arg),
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variable_nonce_included_in_record_(false),
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random_variable_nonce_(false),
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omit_length_in_ad_(false),
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omit_version_in_ad_(false),
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omit_ad_(false),
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tls13_ad_(false),
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xor_fixed_nonce_(false) {
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OPENSSL_memset(fixed_nonce_, 0, sizeof(fixed_nonce_));
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}
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SSLAEADContext::~SSLAEADContext() {}
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UniquePtr<SSLAEADContext> SSLAEADContext::CreateNullCipher(bool is_dtls) {
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return MakeUnique<SSLAEADContext>(0 /* version */, is_dtls,
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nullptr /* cipher */);
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}
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UniquePtr<SSLAEADContext> SSLAEADContext::Create(
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enum evp_aead_direction_t direction, uint16_t version, int is_dtls,
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const SSL_CIPHER *cipher, Span<const uint8_t> enc_key,
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Span<const uint8_t> mac_key, Span<const uint8_t> fixed_iv) {
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const EVP_AEAD *aead;
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uint16_t protocol_version;
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size_t expected_mac_key_len, expected_fixed_iv_len;
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if (!ssl_protocol_version_from_wire(&protocol_version, version) ||
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!ssl_cipher_get_evp_aead(&aead, &expected_mac_key_len,
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&expected_fixed_iv_len, cipher, protocol_version,
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is_dtls) ||
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// Ensure the caller returned correct key sizes.
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expected_fixed_iv_len != fixed_iv.size() ||
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expected_mac_key_len != mac_key.size()) {
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OPENSSL_PUT_ERROR(SSL, ERR_R_INTERNAL_ERROR);
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return nullptr;
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}
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uint8_t merged_key[EVP_AEAD_MAX_KEY_LENGTH];
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if (!mac_key.empty()) {
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// This is a "stateful" AEAD (for compatibility with pre-AEAD cipher
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// suites).
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if (mac_key.size() + enc_key.size() + fixed_iv.size() >
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sizeof(merged_key)) {
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OPENSSL_PUT_ERROR(SSL, ERR_R_INTERNAL_ERROR);
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return nullptr;
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}
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OPENSSL_memcpy(merged_key, mac_key.data(), mac_key.size());
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OPENSSL_memcpy(merged_key + mac_key.size(), enc_key.data(), enc_key.size());
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OPENSSL_memcpy(merged_key + mac_key.size() + enc_key.size(),
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fixed_iv.data(), fixed_iv.size());
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enc_key = MakeConstSpan(merged_key,
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enc_key.size() + mac_key.size() + fixed_iv.size());
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}
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UniquePtr<SSLAEADContext> aead_ctx =
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MakeUnique<SSLAEADContext>(version, is_dtls, cipher);
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if (!aead_ctx) {
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OPENSSL_PUT_ERROR(SSL, ERR_R_MALLOC_FAILURE);
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return nullptr;
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}
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assert(aead_ctx->ProtocolVersion() == protocol_version);
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if (!EVP_AEAD_CTX_init_with_direction(
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aead_ctx->ctx_.get(), aead, enc_key.data(), enc_key.size(),
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EVP_AEAD_DEFAULT_TAG_LENGTH, direction)) {
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return nullptr;
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}
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assert(EVP_AEAD_nonce_length(aead) <= EVP_AEAD_MAX_NONCE_LENGTH);
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static_assert(EVP_AEAD_MAX_NONCE_LENGTH < 256,
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"variable_nonce_len doesn't fit in uint8_t");
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aead_ctx->variable_nonce_len_ = (uint8_t)EVP_AEAD_nonce_length(aead);
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if (mac_key.empty()) {
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assert(fixed_iv.size() <= sizeof(aead_ctx->fixed_nonce_));
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OPENSSL_memcpy(aead_ctx->fixed_nonce_, fixed_iv.data(), fixed_iv.size());
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aead_ctx->fixed_nonce_len_ = fixed_iv.size();
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if (cipher->algorithm_enc & SSL_CHACHA20POLY1305) {
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// The fixed nonce into the actual nonce (the sequence number).
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aead_ctx->xor_fixed_nonce_ = true;
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aead_ctx->variable_nonce_len_ = 8;
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} else {
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// The fixed IV is prepended to the nonce.
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assert(fixed_iv.size() <= aead_ctx->variable_nonce_len_);
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aead_ctx->variable_nonce_len_ -= fixed_iv.size();
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}
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// AES-GCM uses an explicit nonce.
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if (cipher->algorithm_enc & (SSL_AES128GCM | SSL_AES256GCM)) {
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aead_ctx->variable_nonce_included_in_record_ = true;
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}
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// The TLS 1.3 construction XORs the fixed nonce into the sequence number
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// and omits the additional data.
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if (protocol_version >= TLS1_3_VERSION) {
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aead_ctx->xor_fixed_nonce_ = true;
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aead_ctx->variable_nonce_len_ = 8;
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aead_ctx->variable_nonce_included_in_record_ = false;
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if (ssl_is_draft28(version)) {
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aead_ctx->tls13_ad_ = true;
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} else {
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aead_ctx->omit_ad_ = true;
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}
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assert(fixed_iv.size() >= aead_ctx->variable_nonce_len_);
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}
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} else {
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assert(protocol_version < TLS1_3_VERSION);
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aead_ctx->variable_nonce_included_in_record_ = true;
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aead_ctx->random_variable_nonce_ = true;
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aead_ctx->omit_length_in_ad_ = true;
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aead_ctx->omit_version_in_ad_ = (protocol_version == SSL3_VERSION);
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}
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return aead_ctx;
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}
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void SSLAEADContext::SetVersionIfNullCipher(uint16_t version) {
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if (is_null_cipher()) {
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version_ = version;
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}
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}
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uint16_t SSLAEADContext::ProtocolVersion() const {
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uint16_t protocol_version;
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if(!ssl_protocol_version_from_wire(&protocol_version, version_)) {
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assert(false);
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return 0;
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}
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return protocol_version;
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}
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uint16_t SSLAEADContext::RecordVersion() const {
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if (version_ == 0) {
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assert(is_null_cipher());
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return is_dtls_ ? DTLS1_VERSION : TLS1_VERSION;
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}
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if (ProtocolVersion() <= TLS1_2_VERSION) {
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return version_;
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}
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return TLS1_2_VERSION;
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}
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size_t SSLAEADContext::ExplicitNonceLen() const {
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if (!FUZZER_MODE && variable_nonce_included_in_record_) {
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return variable_nonce_len_;
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}
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return 0;
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}
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bool SSLAEADContext::SuffixLen(size_t *out_suffix_len, const size_t in_len,
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const size_t extra_in_len) const {
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if (is_null_cipher() || FUZZER_MODE) {
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*out_suffix_len = extra_in_len;
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return true;
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}
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return !!EVP_AEAD_CTX_tag_len(ctx_.get(), out_suffix_len, in_len,
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extra_in_len);
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}
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size_t SSLAEADContext::MaxOverhead() const {
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return ExplicitNonceLen() +
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(is_null_cipher() || FUZZER_MODE
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? 0
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: EVP_AEAD_max_overhead(EVP_AEAD_CTX_aead(ctx_.get())));
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}
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size_t SSLAEADContext::GetAdditionalData(uint8_t out[13], uint8_t type,
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uint16_t record_version,
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const uint8_t seqnum[8],
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size_t plaintext_len,
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size_t ciphertext_len) {
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if (omit_ad_) {
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return 0;
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}
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size_t len = 0;
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if (!tls13_ad_) {
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OPENSSL_memcpy(out, seqnum, 8);
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len += 8;
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}
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out[len++] = type;
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if (!omit_version_in_ad_) {
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out[len++] = static_cast<uint8_t>((record_version >> 8));
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out[len++] = static_cast<uint8_t>(record_version);
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}
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if (tls13_ad_) {
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out[len++] = static_cast<uint8_t>((ciphertext_len >> 8));
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out[len++] = static_cast<uint8_t>(ciphertext_len);
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} else if (!omit_length_in_ad_) {
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out[len++] = static_cast<uint8_t>((plaintext_len >> 8));
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out[len++] = static_cast<uint8_t>(plaintext_len);
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}
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return len;
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}
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bool SSLAEADContext::Open(Span<uint8_t> *out, uint8_t type,
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uint16_t record_version, const uint8_t seqnum[8],
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Span<uint8_t> in) {
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if (is_null_cipher() || FUZZER_MODE) {
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// Handle the initial NULL cipher.
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*out = in;
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return true;
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}
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// TLS 1.2 AEADs include the length in the AD and are assumed to have fixed
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// overhead. Otherwise the parameter is unused.
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size_t plaintext_len = 0;
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if (!omit_length_in_ad_) {
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size_t overhead = MaxOverhead();
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if (in.size() < overhead) {
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// Publicly invalid.
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OPENSSL_PUT_ERROR(SSL, SSL_R_BAD_PACKET_LENGTH);
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return false;
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}
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plaintext_len = in.size() - overhead;
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}
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uint8_t ad[13];
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size_t ad_len = GetAdditionalData(ad, type, record_version, seqnum,
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plaintext_len, in.size());
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// Assemble the nonce.
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uint8_t nonce[EVP_AEAD_MAX_NONCE_LENGTH];
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size_t nonce_len = 0;
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// Prepend the fixed nonce, or left-pad with zeros if XORing.
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if (xor_fixed_nonce_) {
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nonce_len = fixed_nonce_len_ - variable_nonce_len_;
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OPENSSL_memset(nonce, 0, nonce_len);
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} else {
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OPENSSL_memcpy(nonce, fixed_nonce_, fixed_nonce_len_);
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nonce_len += fixed_nonce_len_;
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}
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// Add the variable nonce.
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if (variable_nonce_included_in_record_) {
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if (in.size() < variable_nonce_len_) {
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// Publicly invalid.
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OPENSSL_PUT_ERROR(SSL, SSL_R_BAD_PACKET_LENGTH);
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return false;
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}
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OPENSSL_memcpy(nonce + nonce_len, in.data(), variable_nonce_len_);
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in = in.subspan(variable_nonce_len_);
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} else {
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assert(variable_nonce_len_ == 8);
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OPENSSL_memcpy(nonce + nonce_len, seqnum, variable_nonce_len_);
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}
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nonce_len += variable_nonce_len_;
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// XOR the fixed nonce, if necessary.
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if (xor_fixed_nonce_) {
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assert(nonce_len == fixed_nonce_len_);
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for (size_t i = 0; i < fixed_nonce_len_; i++) {
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nonce[i] ^= fixed_nonce_[i];
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}
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}
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// Decrypt in-place.
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size_t len;
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if (!EVP_AEAD_CTX_open(ctx_.get(), in.data(), &len, in.size(), nonce,
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nonce_len, in.data(), in.size(), ad, ad_len)) {
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return false;
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}
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*out = in.subspan(0, len);
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return true;
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}
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bool SSLAEADContext::SealScatter(uint8_t *out_prefix, uint8_t *out,
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uint8_t *out_suffix, uint8_t type,
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uint16_t record_version,
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const uint8_t seqnum[8], const uint8_t *in,
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size_t in_len, const uint8_t *extra_in,
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size_t extra_in_len) {
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const size_t prefix_len = ExplicitNonceLen();
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size_t suffix_len;
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if (!SuffixLen(&suffix_len, in_len, extra_in_len)) {
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OPENSSL_PUT_ERROR(SSL, SSL_R_RECORD_TOO_LARGE);
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return false;
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}
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if ((in != out && buffers_alias(in, in_len, out, in_len)) ||
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buffers_alias(in, in_len, out_prefix, prefix_len) ||
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buffers_alias(in, in_len, out_suffix, suffix_len)) {
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OPENSSL_PUT_ERROR(SSL, SSL_R_OUTPUT_ALIASES_INPUT);
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return false;
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}
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if (is_null_cipher() || FUZZER_MODE) {
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// Handle the initial NULL cipher.
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OPENSSL_memmove(out, in, in_len);
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OPENSSL_memmove(out_suffix, extra_in, extra_in_len);
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return true;
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}
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uint8_t ad[13];
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size_t ad_len = GetAdditionalData(ad, type, record_version, seqnum, in_len,
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in_len + suffix_len);
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// Assemble the nonce.
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uint8_t nonce[EVP_AEAD_MAX_NONCE_LENGTH];
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size_t nonce_len = 0;
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// Prepend the fixed nonce, or left-pad with zeros if XORing.
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if (xor_fixed_nonce_) {
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nonce_len = fixed_nonce_len_ - variable_nonce_len_;
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OPENSSL_memset(nonce, 0, nonce_len);
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} else {
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OPENSSL_memcpy(nonce, fixed_nonce_, fixed_nonce_len_);
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nonce_len += fixed_nonce_len_;
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}
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// Select the variable nonce.
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if (random_variable_nonce_) {
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assert(variable_nonce_included_in_record_);
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if (!RAND_bytes(nonce + nonce_len, variable_nonce_len_)) {
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return false;
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}
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} else {
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// When sending we use the sequence number as the variable part of the
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// nonce.
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assert(variable_nonce_len_ == 8);
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OPENSSL_memcpy(nonce + nonce_len, seqnum, variable_nonce_len_);
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}
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nonce_len += variable_nonce_len_;
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// Emit the variable nonce if included in the record.
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if (variable_nonce_included_in_record_) {
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assert(!xor_fixed_nonce_);
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if (buffers_alias(in, in_len, out_prefix, variable_nonce_len_)) {
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OPENSSL_PUT_ERROR(SSL, SSL_R_OUTPUT_ALIASES_INPUT);
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return false;
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}
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OPENSSL_memcpy(out_prefix, nonce + fixed_nonce_len_,
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variable_nonce_len_);
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}
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// XOR the fixed nonce, if necessary.
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if (xor_fixed_nonce_) {
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assert(nonce_len == fixed_nonce_len_);
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for (size_t i = 0; i < fixed_nonce_len_; i++) {
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nonce[i] ^= fixed_nonce_[i];
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}
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}
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size_t written_suffix_len;
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bool result = !!EVP_AEAD_CTX_seal_scatter(
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ctx_.get(), out, out_suffix, &written_suffix_len, suffix_len, nonce,
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nonce_len, in, in_len, extra_in, extra_in_len, ad, ad_len);
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assert(!result || written_suffix_len == suffix_len);
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return result;
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}
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bool SSLAEADContext::Seal(uint8_t *out, size_t *out_len, size_t max_out_len,
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uint8_t type, uint16_t record_version,
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const uint8_t seqnum[8], const uint8_t *in,
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size_t in_len) {
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const size_t prefix_len = ExplicitNonceLen();
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size_t suffix_len;
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if (!SuffixLen(&suffix_len, in_len, 0)) {
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OPENSSL_PUT_ERROR(SSL, SSL_R_RECORD_TOO_LARGE);
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return false;
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}
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if (in_len + prefix_len < in_len ||
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in_len + prefix_len + suffix_len < in_len + prefix_len) {
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OPENSSL_PUT_ERROR(CIPHER, SSL_R_RECORD_TOO_LARGE);
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return false;
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}
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if (in_len + prefix_len + suffix_len > max_out_len) {
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OPENSSL_PUT_ERROR(SSL, SSL_R_BUFFER_TOO_SMALL);
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return false;
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}
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if (!SealScatter(out, out + prefix_len, out + prefix_len + in_len, type,
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record_version, seqnum, in, in_len, 0, 0)) {
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return false;
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}
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*out_len = prefix_len + in_len + suffix_len;
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return true;
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}
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bool SSLAEADContext::GetIV(const uint8_t **out_iv, size_t *out_iv_len) const {
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return !is_null_cipher() &&
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EVP_AEAD_CTX_get_iv(ctx_.get(), out_iv, out_iv_len);
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}
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} // namespace bssl
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