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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/http/http_response_info.h"
#include "base/logging.h"
#include "base/pickle.h"
#include "base/time/time.h"
#include "net/base/auth.h"
#include "net/base/io_buffer.h"
#include "net/base/net_errors.h"
#include "net/cert/sct_status_flags.h"
#include "net/cert/signed_certificate_timestamp.h"
#include "net/cert/x509_certificate.h"
#include "net/http/http_response_headers.h"
#include "net/ssl/ssl_cert_request_info.h"
#include "net/ssl/ssl_connection_status_flags.h"
#include "third_party/boringssl/src/include/openssl/ssl.h"
using base::Time;
namespace net {
namespace {
bool KeyExchangeGroupIsValid(int ssl_connection_status) {
// TLS 1.3 and later always treat the field correctly.
if (SSLConnectionStatusToVersion(ssl_connection_status) >=
SSL_CONNECTION_VERSION_TLS1_3) {
return true;
}
// Prior to TLS 1.3, only ECDHE ciphers have groups.
const SSL_CIPHER* cipher = SSL_get_cipher_by_value(
SSLConnectionStatusToCipherSuite(ssl_connection_status));
return cipher && SSL_CIPHER_get_kx_nid(cipher) == NID_kx_ecdhe;
}
} // namespace
// These values can be bit-wise combined to form the flags field of the
// serialized HttpResponseInfo.
enum {
// The version of the response info used when persisting response info.
RESPONSE_INFO_VERSION = 3,
// The minimum version supported for deserializing response info.
RESPONSE_INFO_MINIMUM_VERSION = 3,
// We reserve up to 8 bits for the version number.
RESPONSE_INFO_VERSION_MASK = 0xFF,
// This bit is set if the response info has a cert at the end.
// Version 1 serialized only the end-entity certificate, while subsequent
// versions include the available certificate chain.
RESPONSE_INFO_HAS_CERT = 1 << 8,
// This bit is set if the response info has a security-bits field (security
// strength, in bits, of the SSL connection) at the end.
RESPONSE_INFO_HAS_SECURITY_BITS = 1 << 9,
// This bit is set if the response info has a cert status at the end.
RESPONSE_INFO_HAS_CERT_STATUS = 1 << 10,
// This bit is set if the response info has vary header data.
RESPONSE_INFO_HAS_VARY_DATA = 1 << 11,
// This bit is set if the request was cancelled before completion.
RESPONSE_INFO_TRUNCATED = 1 << 12,
// This bit is set if the response was received via SPDY.
RESPONSE_INFO_WAS_SPDY = 1 << 13,
// This bit is set if the request has ALPN negotiated.
RESPONSE_INFO_WAS_ALPN = 1 << 14,
// This bit is set if the request was fetched via an explicit proxy.
RESPONSE_INFO_WAS_PROXY = 1 << 15,
// This bit is set if the response info has an SSL connection status field.
// This contains the ciphersuite used to fetch the resource as well as the
// protocol version, compression method and whether SSLv3 fallback was used.
RESPONSE_INFO_HAS_SSL_CONNECTION_STATUS = 1 << 16,
// This bit is set if the response info has protocol version.
RESPONSE_INFO_HAS_ALPN_NEGOTIATED_PROTOCOL = 1 << 17,
// This bit is set if the response info has connection info.
RESPONSE_INFO_HAS_CONNECTION_INFO = 1 << 18,
// This bit is set if the request has http authentication.
RESPONSE_INFO_USE_HTTP_AUTHENTICATION = 1 << 19,
// This bit is set if ssl_info has SCTs.
RESPONSE_INFO_HAS_SIGNED_CERTIFICATE_TIMESTAMPS = 1 << 20,
RESPONSE_INFO_UNUSED_SINCE_PREFETCH = 1 << 21,
// This bit is set if the response has a key exchange group.
RESPONSE_INFO_HAS_KEY_EXCHANGE_GROUP = 1 << 22,
// This bit is set if ssl_info recorded that PKP was bypassed due to a local
// trust anchor.
RESPONSE_INFO_PKP_BYPASSED = 1 << 23,
// This bit is set if stale_revalidate_time is stored.
RESPONSE_INFO_HAS_STALENESS = 1 << 24,
#if defined(COBALT_QUIC46)
// This bit is set if the response has a peer signature algorithm.
RESPONSE_INFO_HAS_PEER_SIGNATURE_ALGORITHM = 1 << 25,
#endif
// TODO(darin): Add other bits to indicate alternate request methods.
// For now, we don't support storing those.
};
HttpResponseInfo::HttpResponseInfo()
: was_cached(false),
cache_entry_status(CacheEntryStatus::ENTRY_UNDEFINED),
server_data_unavailable(false),
network_accessed(false),
was_fetched_via_spdy(false),
was_alpn_negotiated(false),
was_fetched_via_proxy(false),
did_use_http_auth(false),
unused_since_prefetch(false),
async_revalidation_requested(false),
connection_info(CONNECTION_INFO_UNKNOWN) {}
HttpResponseInfo::HttpResponseInfo(const HttpResponseInfo& rhs) = default;
HttpResponseInfo::~HttpResponseInfo() = default;
HttpResponseInfo& HttpResponseInfo::operator=(const HttpResponseInfo& rhs) =
default;
bool HttpResponseInfo::InitFromPickle(const base::Pickle& pickle,
bool* response_truncated) {
base::PickleIterator iter(pickle);
// Read flags and verify version
int flags;
if (!iter.ReadInt(&flags))
return false;
int version = flags & RESPONSE_INFO_VERSION_MASK;
if (version < RESPONSE_INFO_MINIMUM_VERSION ||
version > RESPONSE_INFO_VERSION) {
DLOG(ERROR) << "unexpected response info version: " << version;
return false;
}
// Read request-time
int64_t time_val;
if (!iter.ReadInt64(&time_val))
return false;
request_time = Time::FromInternalValue(time_val);
was_cached = true; // Set status to show cache resurrection.
// Read response-time
if (!iter.ReadInt64(&time_val))
return false;
response_time = Time::FromInternalValue(time_val);
// Read response-headers
headers = new HttpResponseHeaders(&iter);
if (headers->response_code() == -1)
return false;
// Read ssl-info
if (flags & RESPONSE_INFO_HAS_CERT) {
ssl_info.cert = X509Certificate::CreateFromPickle(&iter);
if (!ssl_info.cert.get())
return false;
}
if (flags & RESPONSE_INFO_HAS_CERT_STATUS) {
CertStatus cert_status;
if (!iter.ReadUInt32(&cert_status))
return false;
ssl_info.cert_status = cert_status;
}
if (flags & RESPONSE_INFO_HAS_SECURITY_BITS) {
int security_bits;
if (!iter.ReadInt(&security_bits))
return false;
ssl_info.security_bits = security_bits;
}
if (flags & RESPONSE_INFO_HAS_SSL_CONNECTION_STATUS) {
int connection_status;
if (!iter.ReadInt(&connection_status))
return false;
// SSLv3 is gone, so drop cached entries that were loaded over SSLv3.
if (SSLConnectionStatusToVersion(connection_status) ==
SSL_CONNECTION_VERSION_SSL3) {
return false;
}
ssl_info.connection_status = connection_status;
}
// Signed Certificate Timestamps are no longer persisted to the cache, so
// ignore them when reading them out.
if (flags & RESPONSE_INFO_HAS_SIGNED_CERTIFICATE_TIMESTAMPS) {
int num_scts;
if (!iter.ReadInt(&num_scts))
return false;
for (int i = 0; i < num_scts; ++i) {
scoped_refptr<ct::SignedCertificateTimestamp> sct(
ct::SignedCertificateTimestamp::CreateFromPickle(&iter));
uint16_t status;
if (!sct.get() || !iter.ReadUInt16(&status))
return false;
}
}
// Read vary-data
if (flags & RESPONSE_INFO_HAS_VARY_DATA) {
if (!vary_data.InitFromPickle(&iter))
return false;
}
// Read socket_address.
std::string socket_address_host;
if (!iter.ReadString(&socket_address_host))
return false;
// If the host was written, we always expect the port to follow.
uint16_t socket_address_port;
if (!iter.ReadUInt16(&socket_address_port))
return false;
socket_address = HostPortPair(socket_address_host, socket_address_port);
// Read protocol-version.
if (flags & RESPONSE_INFO_HAS_ALPN_NEGOTIATED_PROTOCOL) {
if (!iter.ReadString(&alpn_negotiated_protocol))
return false;
}
// Read connection info.
if (flags & RESPONSE_INFO_HAS_CONNECTION_INFO) {
int value;
if (!iter.ReadInt(&value))
return false;
if (value > static_cast<int>(CONNECTION_INFO_UNKNOWN) &&
value < static_cast<int>(NUM_OF_CONNECTION_INFOS)) {
connection_info = static_cast<ConnectionInfo>(value);
}
}
// Read key_exchange_group
if (flags & RESPONSE_INFO_HAS_KEY_EXCHANGE_GROUP) {
int key_exchange_group;
if (!iter.ReadInt(&key_exchange_group))
return false;
// Historically, the key_exchange_group field was key_exchange_info which
// conflated a number of different values based on the cipher suite, so some
// values must be discarded. See https://crbug.com/639421.
if (KeyExchangeGroupIsValid(ssl_info.connection_status))
ssl_info.key_exchange_group = key_exchange_group;
}
// Read staleness time.
if (flags & RESPONSE_INFO_HAS_STALENESS) {
if (!iter.ReadInt64(&time_val))
return false;
stale_revalidate_timeout =
base::Time() + base::TimeDelta::FromMicroseconds(time_val);
}
was_fetched_via_spdy = (flags & RESPONSE_INFO_WAS_SPDY) != 0;
was_alpn_negotiated = (flags & RESPONSE_INFO_WAS_ALPN) != 0;
was_fetched_via_proxy = (flags & RESPONSE_INFO_WAS_PROXY) != 0;
*response_truncated = (flags & RESPONSE_INFO_TRUNCATED) != 0;
did_use_http_auth = (flags & RESPONSE_INFO_USE_HTTP_AUTHENTICATION) != 0;
unused_since_prefetch = (flags & RESPONSE_INFO_UNUSED_SINCE_PREFETCH) != 0;
ssl_info.pkp_bypassed = (flags & RESPONSE_INFO_PKP_BYPASSED) != 0;
#if defined(COBALT_QUIC46)
// Read peer_signature_algorithm.
if (flags & RESPONSE_INFO_HAS_PEER_SIGNATURE_ALGORITHM) {
int peer_signature_algorithm;
if (!iter.ReadInt(&peer_signature_algorithm) ||
!base::IsValueInRangeForNumericType<uint16_t>(
peer_signature_algorithm)) {
return false;
}
ssl_info.peer_signature_algorithm =
base::checked_cast<uint16_t>(peer_signature_algorithm);
}
#endif
return true;
}
void HttpResponseInfo::Persist(base::Pickle* pickle,
bool skip_transient_headers,
bool response_truncated) const {
int flags = RESPONSE_INFO_VERSION;
if (ssl_info.is_valid()) {
flags |= RESPONSE_INFO_HAS_CERT;
flags |= RESPONSE_INFO_HAS_CERT_STATUS;
if (ssl_info.security_bits != -1)
flags |= RESPONSE_INFO_HAS_SECURITY_BITS;
if (ssl_info.key_exchange_group != 0)
flags |= RESPONSE_INFO_HAS_KEY_EXCHANGE_GROUP;
if (ssl_info.connection_status != 0)
flags |= RESPONSE_INFO_HAS_SSL_CONNECTION_STATUS;
#if defined(COBALT_QUIC46)
if (ssl_info.peer_signature_algorithm != 0)
flags |= RESPONSE_INFO_HAS_PEER_SIGNATURE_ALGORITHM;
#endif
}
if (vary_data.is_valid())
flags |= RESPONSE_INFO_HAS_VARY_DATA;
if (response_truncated)
flags |= RESPONSE_INFO_TRUNCATED;
if (was_fetched_via_spdy)
flags |= RESPONSE_INFO_WAS_SPDY;
if (was_alpn_negotiated) {
flags |= RESPONSE_INFO_WAS_ALPN;
flags |= RESPONSE_INFO_HAS_ALPN_NEGOTIATED_PROTOCOL;
}
if (was_fetched_via_proxy)
flags |= RESPONSE_INFO_WAS_PROXY;
if (connection_info != CONNECTION_INFO_UNKNOWN)
flags |= RESPONSE_INFO_HAS_CONNECTION_INFO;
if (did_use_http_auth)
flags |= RESPONSE_INFO_USE_HTTP_AUTHENTICATION;
if (unused_since_prefetch)
flags |= RESPONSE_INFO_UNUSED_SINCE_PREFETCH;
if (ssl_info.pkp_bypassed)
flags |= RESPONSE_INFO_PKP_BYPASSED;
if (!stale_revalidate_timeout.is_null())
flags |= RESPONSE_INFO_HAS_STALENESS;
pickle->WriteInt(flags);
pickle->WriteInt64(request_time.ToInternalValue());
pickle->WriteInt64(response_time.ToInternalValue());
HttpResponseHeaders::PersistOptions persist_options =
HttpResponseHeaders::PERSIST_RAW;
if (skip_transient_headers) {
persist_options = HttpResponseHeaders::PERSIST_SANS_COOKIES |
HttpResponseHeaders::PERSIST_SANS_CHALLENGES |
HttpResponseHeaders::PERSIST_SANS_HOP_BY_HOP |
HttpResponseHeaders::PERSIST_SANS_NON_CACHEABLE |
HttpResponseHeaders::PERSIST_SANS_RANGES |
HttpResponseHeaders::PERSIST_SANS_SECURITY_STATE;
}
headers->Persist(pickle, persist_options);
if (ssl_info.is_valid()) {
ssl_info.cert->Persist(pickle);
pickle->WriteUInt32(ssl_info.cert_status);
if (ssl_info.security_bits != -1)
pickle->WriteInt(ssl_info.security_bits);
if (ssl_info.connection_status != 0)
pickle->WriteInt(ssl_info.connection_status);
}
if (vary_data.is_valid())
vary_data.Persist(pickle);
pickle->WriteString(socket_address.host());
pickle->WriteUInt16(socket_address.port());
if (was_alpn_negotiated)
pickle->WriteString(alpn_negotiated_protocol);
if (connection_info != CONNECTION_INFO_UNKNOWN)
pickle->WriteInt(static_cast<int>(connection_info));
if (ssl_info.is_valid() && ssl_info.key_exchange_group != 0)
pickle->WriteInt(ssl_info.key_exchange_group);
if (flags & RESPONSE_INFO_HAS_STALENESS) {
pickle->WriteInt64(
(stale_revalidate_timeout - base::Time()).InMicroseconds());
}
}
bool HttpResponseInfo::DidUseQuic() const {
switch (connection_info) {
case CONNECTION_INFO_UNKNOWN:
case CONNECTION_INFO_HTTP1_1:
case CONNECTION_INFO_DEPRECATED_SPDY2:
case CONNECTION_INFO_DEPRECATED_SPDY3:
case CONNECTION_INFO_HTTP2:
case CONNECTION_INFO_DEPRECATED_HTTP2_14:
case CONNECTION_INFO_DEPRECATED_HTTP2_15:
case CONNECTION_INFO_HTTP0_9:
case CONNECTION_INFO_HTTP1_0:
return false;
case CONNECTION_INFO_QUIC_UNKNOWN_VERSION:
case CONNECTION_INFO_QUIC_32:
case CONNECTION_INFO_QUIC_33:
case CONNECTION_INFO_QUIC_34:
case CONNECTION_INFO_QUIC_35:
case CONNECTION_INFO_QUIC_36:
case CONNECTION_INFO_QUIC_37:
case CONNECTION_INFO_QUIC_38:
case CONNECTION_INFO_QUIC_39:
case CONNECTION_INFO_QUIC_40:
case CONNECTION_INFO_QUIC_41:
case CONNECTION_INFO_QUIC_42:
case CONNECTION_INFO_QUIC_43:
case CONNECTION_INFO_QUIC_44:
case CONNECTION_INFO_QUIC_45:
// QUIC46
case CONNECTION_INFO_QUIC_46:
case CONNECTION_INFO_QUIC_47:
case CONNECTION_INFO_QUIC_99:
return true;
case NUM_OF_CONNECTION_INFOS:
NOTREACHED();
return false;
}
NOTREACHED();
return false;
}
// static
std::string HttpResponseInfo::ConnectionInfoToString(
ConnectionInfo connection_info) {
switch (connection_info) {
case CONNECTION_INFO_UNKNOWN:
return "unknown";
case CONNECTION_INFO_HTTP1_1:
return "http/1.1";
case CONNECTION_INFO_DEPRECATED_SPDY2:
NOTREACHED();
return "";
case CONNECTION_INFO_DEPRECATED_SPDY3:
return "spdy/3";
// Since ConnectionInfo is persisted to disk, deprecated values have to be
// handled. Note that h2-14 and h2-15 are essentially wire compatible with
// h2.
// Intentional fallthrough.
case CONNECTION_INFO_DEPRECATED_HTTP2_14:
case CONNECTION_INFO_DEPRECATED_HTTP2_15:
case CONNECTION_INFO_HTTP2:
return "h2";
case CONNECTION_INFO_QUIC_UNKNOWN_VERSION:
return "http/2+quic";
case CONNECTION_INFO_QUIC_32:
return "http/2+quic/32";
case CONNECTION_INFO_QUIC_33:
return "http/2+quic/33";
case CONNECTION_INFO_QUIC_34:
return "http/2+quic/34";
case CONNECTION_INFO_QUIC_35:
return "http/2+quic/35";
case CONNECTION_INFO_QUIC_36:
return "http/2+quic/36";
case CONNECTION_INFO_QUIC_37:
return "http/2+quic/37";
case CONNECTION_INFO_QUIC_38:
return "http/2+quic/38";
case CONNECTION_INFO_QUIC_39:
return "http/2+quic/39";
case CONNECTION_INFO_QUIC_40:
return "http/2+quic/40";
case CONNECTION_INFO_QUIC_41:
return "http/2+quic/41";
case CONNECTION_INFO_QUIC_42:
return "http/2+quic/42";
case CONNECTION_INFO_QUIC_43:
return "http/2+quic/43";
case CONNECTION_INFO_QUIC_44:
return "http/2+quic/44";
case CONNECTION_INFO_QUIC_45:
return "http/2+quic/45";
// QUIC46
case CONNECTION_INFO_QUIC_46:
return "http/2+quic/46";
case CONNECTION_INFO_QUIC_47:
return "http/2+quic/47";
case CONNECTION_INFO_QUIC_99:
return "http/2+quic/99";
case CONNECTION_INFO_HTTP0_9:
return "http/0.9";
case CONNECTION_INFO_HTTP1_0:
return "http/1.0";
case NUM_OF_CONNECTION_INFOS:
break;
}
NOTREACHED();
return "";
}
} // namespace net