ladybird/Libraries/LibTLS/TLSv12.h

551 lines
20 KiB
C++

/*
* Copyright (c) 2020, Ali Mohammad Pur <mpfard@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include "Certificate.h"
#include <AK/IPv4Address.h>
#include <AK/Queue.h>
#include <AK/WeakPtr.h>
#include <LibCore/Notifier.h>
#include <LibCore/Socket.h>
#include <LibCore/Timer.h>
#include <LibCrypto/Authentication/HMAC.h>
#include <LibCrypto/BigInt/UnsignedBigInteger.h>
#include <LibCrypto/Cipher/AES.h>
#include <LibCrypto/Curves/EllipticCurve.h>
#include <LibCrypto/Hash/HashManager.h>
#include <LibCrypto/PK/RSA.h>
#include <LibTLS/CipherSuite.h>
#include <LibTLS/TLSPacketBuilder.h>
namespace TLS {
inline void print_buffer(ReadonlyBytes buffer)
{
dbgln("{:hex-dump}", buffer);
}
inline void print_buffer(ByteBuffer const& buffer)
{
print_buffer(buffer.bytes());
}
inline void print_buffer(u8 const* buffer, size_t size)
{
print_buffer(ReadonlyBytes { buffer, size });
}
class Socket;
enum class Error : i8 {
NoError = 0,
UnknownError = -1,
BrokenPacket = -2,
NotUnderstood = -3,
NoCommonCipher = -5,
UnexpectedMessage = -6,
CloseConnection = -7,
CompressionNotSupported = -8,
NotVerified = -9,
NotSafe = -10,
IntegrityCheckFailed = -11,
ErrorAlert = -12,
BrokenConnection = -13,
BadCertificate = -14,
UnsupportedCertificate = -15,
NoRenegotiation = -16,
FeatureNotSupported = -17,
DecryptionFailed = -20,
NeedMoreData = -21,
TimedOut = -22,
OutOfMemory = -23,
};
enum class WritePacketStage {
Initial = 0,
ClientHandshake = 1,
ServerHandshake = 2,
Finished = 3,
};
enum class ConnectionStatus {
Disconnected,
Negotiating,
KeyExchange,
Renegotiating,
Established,
};
enum ClientVerificationStaus {
Verified,
VerificationNeeded,
};
// Note for the 16 iv length instead of 8:
// 4 bytes of fixed IV, 8 random (nonce) bytes, 4 bytes for counter
// GCM specifically asks us to transmit only the nonce, the counter is zero
// and the fixed IV is derived from the premaster key.
//
// The cipher suite list below is ordered based on the recommendations from Mozilla.
// When changing the supported cipher suites, please consult the webpage below for
// the preferred order.
//
// https://wiki.mozilla.org/Security/Server_Side_TLS
#define ENUMERATE_CIPHERS(C) \
C(true, CipherSuite::TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256, KeyExchangeAlgorithm::ECDHE_ECDSA, CipherAlgorithm::AES_128_GCM, Crypto::Hash::SHA256, 8, true) \
C(true, CipherSuite::TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256, KeyExchangeAlgorithm::ECDHE_RSA, CipherAlgorithm::AES_128_GCM, Crypto::Hash::SHA256, 8, true) \
C(true, CipherSuite::TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384, KeyExchangeAlgorithm::ECDHE_ECDSA, CipherAlgorithm::AES_256_GCM, Crypto::Hash::SHA384, 8, true) \
C(true, CipherSuite::TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384, KeyExchangeAlgorithm::ECDHE_RSA, CipherAlgorithm::AES_256_GCM, Crypto::Hash::SHA384, 8, true) \
C(true, CipherSuite::TLS_DHE_RSA_WITH_AES_128_GCM_SHA256, KeyExchangeAlgorithm::DHE_RSA, CipherAlgorithm::AES_128_GCM, Crypto::Hash::SHA256, 8, true) \
C(true, CipherSuite::TLS_DHE_RSA_WITH_AES_256_GCM_SHA384, KeyExchangeAlgorithm::DHE_RSA, CipherAlgorithm::AES_256_GCM, Crypto::Hash::SHA384, 8, true) \
C(true, CipherSuite::TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA, KeyExchangeAlgorithm::ECDHE_ECDSA, CipherAlgorithm::AES_128_CBC, Crypto::Hash::SHA1, 16, false) \
C(true, CipherSuite::TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, KeyExchangeAlgorithm::ECDHE_RSA, CipherAlgorithm::AES_128_CBC, Crypto::Hash::SHA1, 16, false) \
C(true, CipherSuite::TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA, KeyExchangeAlgorithm::ECDHE_ECDSA, CipherAlgorithm::AES_256_CBC, Crypto::Hash::SHA1, 16, false) \
C(true, CipherSuite::TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA, KeyExchangeAlgorithm::ECDHE_RSA, CipherAlgorithm::AES_256_CBC, Crypto::Hash::SHA1, 16, false) \
C(true, CipherSuite::TLS_RSA_WITH_AES_128_GCM_SHA256, KeyExchangeAlgorithm::RSA, CipherAlgorithm::AES_128_GCM, Crypto::Hash::SHA256, 8, true) \
C(true, CipherSuite::TLS_RSA_WITH_AES_256_GCM_SHA384, KeyExchangeAlgorithm::RSA, CipherAlgorithm::AES_256_GCM, Crypto::Hash::SHA384, 8, true) \
C(true, CipherSuite::TLS_RSA_WITH_AES_128_CBC_SHA256, KeyExchangeAlgorithm::RSA, CipherAlgorithm::AES_128_CBC, Crypto::Hash::SHA256, 16, false) \
C(true, CipherSuite::TLS_RSA_WITH_AES_256_CBC_SHA256, KeyExchangeAlgorithm::RSA, CipherAlgorithm::AES_256_CBC, Crypto::Hash::SHA256, 16, false) \
C(true, CipherSuite::TLS_RSA_WITH_AES_128_CBC_SHA, KeyExchangeAlgorithm::RSA, CipherAlgorithm::AES_128_CBC, Crypto::Hash::SHA1, 16, false) \
C(true, CipherSuite::TLS_RSA_WITH_AES_256_CBC_SHA, KeyExchangeAlgorithm::RSA, CipherAlgorithm::AES_256_CBC, Crypto::Hash::SHA1, 16, false)
constexpr KeyExchangeAlgorithm get_key_exchange_algorithm(CipherSuite suite)
{
switch (suite) {
#define C(is_supported, suite, key_exchange, cipher, hash, iv_size, is_aead) \
case suite: \
return key_exchange;
ENUMERATE_CIPHERS(C)
#undef C
default:
return KeyExchangeAlgorithm::Invalid;
}
}
constexpr CipherAlgorithm get_cipher_algorithm(CipherSuite suite)
{
switch (suite) {
#define C(is_supported, suite, key_exchange, cipher, hash, iv_size, is_aead) \
case suite: \
return cipher;
ENUMERATE_CIPHERS(C)
#undef C
default:
return CipherAlgorithm::Invalid;
}
}
struct Options {
static Vector<CipherSuite> default_usable_cipher_suites()
{
Vector<CipherSuite> cipher_suites;
#define C(is_supported, suite, key_exchange, cipher, hash, iv_size, is_aead) \
if constexpr (is_supported) \
cipher_suites.empend(suite);
ENUMERATE_CIPHERS(C)
#undef C
return cipher_suites;
}
Vector<CipherSuite> usable_cipher_suites = default_usable_cipher_suites();
#define OPTION_WITH_DEFAULTS(typ, name, ...) \
static typ default_##name() \
{ \
return typ { __VA_ARGS__ }; \
} \
typ name = default_##name(); \
Options& set_##name(typ new_value)& \
{ \
name = move(new_value); \
return *this; \
} \
Options&& set_##name(typ new_value)&& \
{ \
name = move(new_value); \
return move(*this); \
}
OPTION_WITH_DEFAULTS(ProtocolVersion, version, ProtocolVersion::VERSION_1_2)
OPTION_WITH_DEFAULTS(Vector<SignatureAndHashAlgorithm>, supported_signature_algorithms,
{ HashAlgorithm::SHA512, SignatureAlgorithm::RSA },
{ HashAlgorithm::SHA384, SignatureAlgorithm::RSA },
{ HashAlgorithm::SHA256, SignatureAlgorithm::RSA },
{ HashAlgorithm::SHA1, SignatureAlgorithm::RSA },
{ HashAlgorithm::SHA256, SignatureAlgorithm::ECDSA },
{ HashAlgorithm::SHA384, SignatureAlgorithm::ECDSA },
{ HashAlgorithm::INTRINSIC, SignatureAlgorithm::ED25519 });
OPTION_WITH_DEFAULTS(Vector<SupportedGroup>, elliptic_curves,
SupportedGroup::X25519,
SupportedGroup::SECP256R1,
SupportedGroup::SECP384R1,
SupportedGroup::X448)
OPTION_WITH_DEFAULTS(Vector<ECPointFormat>, supported_ec_point_formats, ECPointFormat::UNCOMPRESSED)
OPTION_WITH_DEFAULTS(bool, use_sni, true)
OPTION_WITH_DEFAULTS(bool, use_compression, false)
OPTION_WITH_DEFAULTS(bool, validate_certificates, true)
OPTION_WITH_DEFAULTS(bool, allow_self_signed_certificates, false)
OPTION_WITH_DEFAULTS(Optional<Vector<Certificate>>, root_certificates, )
OPTION_WITH_DEFAULTS(Function<void(AlertDescription)>, alert_handler, [](auto) {})
OPTION_WITH_DEFAULTS(Function<void()>, finish_callback, [] {})
OPTION_WITH_DEFAULTS(Function<Vector<Certificate>()>, certificate_provider, [] { return Vector<Certificate> {}; })
OPTION_WITH_DEFAULTS(bool, enable_extended_master_secret, true)
#undef OPTION_WITH_DEFAULTS
};
class SegmentedBuffer {
public:
[[nodiscard]] size_t size() const { return m_size; }
[[nodiscard]] bool is_empty() const { return m_size == 0; }
void transfer(Bytes dest, size_t size)
{
VERIFY(size <= dest.size());
size_t transferred = 0;
while (transferred < size) {
auto& buffer = m_buffers.head();
size_t to_transfer = min(buffer.size() - m_offset_into_current_buffer, size - transferred);
memcpy(dest.offset(transferred), buffer.data() + m_offset_into_current_buffer, to_transfer);
transferred += to_transfer;
m_offset_into_current_buffer += to_transfer;
if (m_offset_into_current_buffer >= buffer.size()) {
m_buffers.dequeue();
m_offset_into_current_buffer = 0;
}
m_size -= to_transfer;
}
}
AK::ErrorOr<void> try_append(ReadonlyBytes data)
{
if (Checked<size_t>::addition_would_overflow(m_size, data.size()))
return AK::Error::from_errno(EOVERFLOW);
m_size += data.size();
m_buffers.enqueue(TRY(ByteBuffer::copy(data)));
return {};
}
private:
size_t m_size { 0 };
Queue<ByteBuffer> m_buffers;
size_t m_offset_into_current_buffer { 0 };
};
struct Context {
bool verify_chain(StringView host) const;
bool verify_certificate_pair(Certificate const& subject, Certificate const& issuer) const;
Options options;
u8 remote_random[32];
u8 local_random[32];
u8 session_id[32];
u8 session_id_size { 0 };
CipherSuite cipher;
bool is_server { false };
Vector<Certificate> certificates;
Certificate private_key;
Vector<Certificate> client_certificates;
ByteBuffer master_key;
ByteBuffer premaster_key;
u8 cipher_spec_set { 0 };
struct {
int created { 0 };
u8 remote_mac[32];
u8 local_mac[32];
u8 local_iv[16];
u8 remote_iv[16];
u8 local_aead_iv[4];
u8 remote_aead_iv[4];
} crypto;
Crypto::Hash::Manager handshake_hash;
ByteBuffer message_buffer;
u64 remote_sequence_number { 0 };
u64 local_sequence_number { 0 };
ConnectionStatus connection_status { ConnectionStatus::Disconnected };
bool should_expect_successful_read { false };
u8 critical_error { 0 };
Error error_code { Error::NoError };
ByteBuffer tls_buffer;
SegmentedBuffer application_buffer;
bool is_child { false };
struct {
// Server Name Indicator
ByteString SNI; // I hate your existence
bool extended_master_secret { false };
} extensions;
u8 request_client_certificate { 0 };
ByteBuffer cached_handshake;
ClientVerificationStaus client_verified { Verified };
bool connection_finished { false };
bool close_notify { false };
bool has_invoked_finish_or_error_callback { false };
// message flags
u8 handshake_messages[11] { 0 };
ByteBuffer user_data;
HashMap<ByteString, Certificate> root_certificates;
Vector<ByteString> alpn;
StringView negotiated_alpn;
size_t send_retries { 0 };
time_t handshake_initiation_timestamp { 0 };
struct {
ByteBuffer p;
ByteBuffer g;
ByteBuffer Ys;
} server_diffie_hellman_params;
OwnPtr<Crypto::Curves::EllipticCurve> server_key_exchange_curve;
};
class TLSv12 final : public Core::Socket {
private:
Core::Socket& underlying_stream()
{
return *m_stream.visit([&](auto& stream) -> Core::Socket* { return stream; });
}
Core::Socket const& underlying_stream() const
{
return *m_stream.visit([&](auto& stream) -> Core::Socket const* { return stream; });
}
public:
/// Reads into a buffer, with the maximum size being the size of the buffer.
/// The amount of bytes read can be smaller than the size of the buffer.
/// Returns either the bytes that were read, or an errno in the case of
/// failure.
virtual ErrorOr<Bytes> read_some(Bytes) override;
/// Tries to write the entire contents of the buffer. It is possible for
/// less than the full buffer to be written. Returns either the amount of
/// bytes written into the stream, or an errno in the case of failure.
virtual ErrorOr<size_t> write_some(ReadonlyBytes) override;
virtual bool is_eof() const override { return m_context.application_buffer.is_empty() && (m_context.connection_finished || underlying_stream().is_eof()); }
virtual bool is_open() const override { return is_established(); }
virtual void close() override;
virtual ErrorOr<size_t> pending_bytes() const override { return m_context.application_buffer.size(); }
virtual ErrorOr<bool> can_read_without_blocking(int = 0) const override { return !m_context.application_buffer.is_empty(); }
virtual ErrorOr<void> set_blocking(bool block) override
{
VERIFY(!block);
return {};
}
virtual ErrorOr<void> set_close_on_exec(bool enabled) override { return underlying_stream().set_close_on_exec(enabled); }
virtual void set_notifications_enabled(bool enabled) override { underlying_stream().set_notifications_enabled(enabled); }
static ErrorOr<NonnullOwnPtr<TLSv12>> connect(ByteString const& host, u16 port, Options = {});
static ErrorOr<NonnullOwnPtr<TLSv12>> connect(ByteString const& host, Core::Socket& underlying_stream, Options = {});
using StreamVariantType = Variant<OwnPtr<Core::Socket>, Core::Socket*>;
explicit TLSv12(StreamVariantType, Options);
bool is_established() const { return m_context.connection_status == ConnectionStatus::Established; }
void set_sni(StringView sni)
{
if (m_context.is_server || m_context.critical_error || m_context.connection_status != ConnectionStatus::Disconnected) {
dbgln("invalid state for set_sni");
return;
}
m_context.extensions.SNI = sni;
}
void set_root_certificates(Vector<Certificate>);
static Vector<Certificate> parse_pem_certificate(ReadonlyBytes certificate_pem_buffer, ReadonlyBytes key_pem_buffer);
StringView alpn() const { return m_context.negotiated_alpn; }
bool supports_cipher(CipherSuite suite) const
{
switch (suite) {
#define C(is_supported, suite, key_exchange, cipher, hash, iv_size, is_aead) \
case suite: \
return is_supported;
ENUMERATE_CIPHERS(C)
#undef C
default:
return false;
}
}
bool supports_version(ProtocolVersion v) const
{
return v == ProtocolVersion::VERSION_1_2;
}
void alert(AlertLevel, AlertDescription);
Function<void(AlertDescription)> on_tls_error;
Function<void()> on_tls_finished;
Function<void(TLSv12&)> on_tls_certificate_request;
Function<void()> on_connected;
private:
void setup_connection();
void consume(ReadonlyBytes record);
ByteBuffer hmac_message(ReadonlyBytes buf, Optional<ReadonlyBytes> const buf2, size_t mac_length, bool local = false);
void ensure_hmac(size_t digest_size, bool local);
void update_packet(ByteBuffer& packet);
void update_hash(ReadonlyBytes in, size_t header_size);
void write_packet(ByteBuffer& packet, bool immediately = false);
ByteBuffer build_client_key_exchange();
ByteBuffer build_server_key_exchange();
ByteBuffer build_hello();
ByteBuffer build_handshake_finished();
ByteBuffer build_certificate();
ByteBuffer build_alert(bool critical, u8 code);
ByteBuffer build_change_cipher_spec();
void build_rsa_pre_master_secret(PacketBuilder&);
void build_dhe_rsa_pre_master_secret(PacketBuilder&);
void build_ecdhe_rsa_pre_master_secret(PacketBuilder&);
ErrorOr<bool> flush();
void write_into_socket();
ErrorOr<void> read_from_socket();
bool check_connection_state(bool read);
void notify_client_for_app_data();
ssize_t handle_server_hello(ReadonlyBytes, WritePacketStage&);
ssize_t handle_handshake_finished(ReadonlyBytes, WritePacketStage&);
ssize_t handle_certificate(ReadonlyBytes);
ssize_t handle_server_key_exchange(ReadonlyBytes);
ssize_t handle_dhe_rsa_server_key_exchange(ReadonlyBytes);
ssize_t handle_ecdhe_server_key_exchange(ReadonlyBytes, u8& server_public_key_length);
ssize_t handle_ecdhe_rsa_server_key_exchange(ReadonlyBytes);
ssize_t handle_ecdhe_ecdsa_server_key_exchange(ReadonlyBytes);
ssize_t handle_server_hello_done(ReadonlyBytes);
ssize_t handle_certificate_verify(ReadonlyBytes);
ssize_t handle_handshake_payload(ReadonlyBytes);
ssize_t handle_message(ReadonlyBytes);
void pseudorandom_function(Bytes output, ReadonlyBytes secret, u8 const* label, size_t label_length, ReadonlyBytes seed, ReadonlyBytes seed_b);
ssize_t verify_rsa_server_key_exchange(ReadonlyBytes server_key_info_buffer, ReadonlyBytes signature_buffer);
ssize_t verify_ecdsa_server_key_exchange(ReadonlyBytes server_key_info_buffer, ReadonlyBytes signature_buffer);
size_t key_length() const
{
switch (m_context.cipher) {
#define C(is_supported, suite, key_exchange, cipher, hash, iv_size, is_aead) \
case suite: \
return cipher_key_size(cipher) / 8;
ENUMERATE_CIPHERS(C)
#undef C
default:
return 128 / 8;
}
}
size_t mac_length() const
{
switch (m_context.cipher) {
#define C(is_supported, suite, key_exchange, cipher, hash, iv_size, is_aead) \
case suite: \
return hash ::digest_size();
ENUMERATE_CIPHERS(C)
#undef C
default:
return Crypto::Hash::SHA256::digest_size();
}
}
Crypto::Hash::HashKind hmac_hash() const
{
switch (mac_length()) {
case Crypto::Hash::SHA512::DigestSize:
return Crypto::Hash::HashKind::SHA512;
case Crypto::Hash::SHA384::DigestSize:
return Crypto::Hash::HashKind::SHA384;
case Crypto::Hash::SHA256::DigestSize:
case Crypto::Hash::SHA1::DigestSize:
default:
return Crypto::Hash::HashKind::SHA256;
}
}
size_t iv_length() const
{
switch (m_context.cipher) {
#define C(is_supported, suite, key_exchange, cipher, hash, iv_size, is_aead) \
case suite: \
return iv_size;
ENUMERATE_CIPHERS(C)
#undef C
default:
return 16;
}
}
bool is_aead() const
{
switch (m_context.cipher) {
#define C(is_supported, suite, key_exchange, cipher, hash, iv_size, is_aead) \
case suite: \
return is_aead;
ENUMERATE_CIPHERS(C)
#undef C
default:
return false;
}
}
bool expand_key();
bool compute_master_secret_from_pre_master_secret(size_t length);
void try_disambiguate_error() const;
bool m_eof { false };
StreamVariantType m_stream;
Context m_context;
OwnPtr<Crypto::Authentication::HMAC<Crypto::Hash::Manager>> m_hmac_local;
OwnPtr<Crypto::Authentication::HMAC<Crypto::Hash::Manager>> m_hmac_remote;
using CipherVariant = Variant<
Empty,
Crypto::Cipher::AESCipher::CBCMode,
Crypto::Cipher::AESCipher::GCMMode>;
CipherVariant m_cipher_local {};
CipherVariant m_cipher_remote {};
bool m_has_scheduled_write_flush { false };
bool m_has_scheduled_app_data_flush { false };
i32 m_max_wait_time_for_handshake_in_seconds { 10 };
RefPtr<Core::Timer> m_handshake_timeout_timer;
};
}