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|
/**
* Copyright (C) 2018-present MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the Server Side Public License, version 1,
* as published by MongoDB, Inc.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* Server Side Public License for more details.
*
* You should have received a copy of the Server Side Public License
* along with this program. If not, see
* <http://www.mongodb.com/licensing/server-side-public-license>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the Server Side Public License in all respects for
* all of the code used other than as permitted herein. If you modify file(s)
* with this exception, you may extend this exception to your version of the
* file(s), but you are not obligated to do so. If you do not wish to do so,
* delete this exception statement from your version. If you delete this
* exception statement from all source files in the program, then also delete
* it in the license file.
*/
#define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kNetwork
#include "mongo/platform/basic.h"
#include "mongo/util/net/ssl_manager.h"
#include <boost/algorithm/string.hpp>
#include <string>
#include <vector>
#include "mongo/base/init.h"
#include "mongo/bson/bsonobjbuilder.h"
#include "mongo/config.h"
#include "mongo/db/commands/server_status.h"
#include "mongo/db/server_parameters.h"
#include "mongo/platform/overflow_arithmetic.h"
#include "mongo/transport/session.h"
#include "mongo/util/hex.h"
#include "mongo/util/log.h"
#include "mongo/util/mongoutils/str.h"
#include "mongo/util/net/ssl_options.h"
#include "mongo/util/text.h"
namespace mongo {
namespace {
ExportedServerParameter<std::string, ServerParameterType::kStartupOnly>
setDiffieHellmanParameterPEMFile(ServerParameterSet::getGlobal(),
"opensslDiffieHellmanParameters",
&sslGlobalParams.sslPEMTempDHParam);
ExportedServerParameter<bool, ServerParameterType::kStartupOnly>
suppressNoTLSPeerCertificateWarning(ServerParameterSet::getGlobal(),
"suppressNoTLSPeerCertificateWarning",
&sslGlobalParams.suppressNoTLSPeerCertificateWarning);
ExportedServerParameter<bool, ServerParameterType::kStartupOnly> tlsWithholdClientCertificate(
ServerParameterSet::getGlobal(),
"tlsWithholdClientCertificate",
&sslGlobalParams.tlsWithholdClientCertificate);
// Deprecated alias for tlsWithholdClientCertificate
ExportedServerParameter<bool, ServerParameterType::kStartupOnly> sslWithholdClientCertificate(
ServerParameterSet::getGlobal(),
"sslWithholdClientCertificate",
&sslGlobalParams.tlsWithholdClientCertificate);
} // namespace
class OpenSSLCipherConfigParameter
: public ExportedServerParameter<std::string, ServerParameterType::kStartupOnly> {
public:
OpenSSLCipherConfigParameter()
: ExportedServerParameter<std::string, ServerParameterType::kStartupOnly>(
ServerParameterSet::getGlobal(),
"opensslCipherConfig",
&sslGlobalParams.sslCipherConfig) {}
Status validate(const std::string& potentialNewValue) final {
if (!sslGlobalParams.sslCipherConfig.empty()) {
return Status(
ErrorCodes::BadValue,
"opensslCipherConfig setParameter is incompatible with net.tls.tlsCipherConfig");
}
// Note that there is very little validation that we can do here.
// OpenSSL exposes no API to validate a cipher config string. The only way to figure out
// what a string maps to is to make an SSL_CTX object, set the string on it, then parse the
// resulting STACK_OF object. If provided an invalid entry in the string, it will silently
// ignore it. Because an entry in the string may map to multiple ciphers, or remove ciphers
// from the final set produced by the full string, we can't tell if any entry failed
// to parse.
return Status::OK();
}
} openSSLCipherConfig;
/**
* Configurable via --setParameter disableNonSSLConnectionLogging=true. If false (default)
* if the sslMode is set to preferSSL, we will log connections that are not using SSL.
* If true, such log messages will be suppressed.
*/
class DisableNonSSLConnectionLoggingParameter
: public ExportedServerParameter<bool, ServerParameterType::kStartupOnly> {
public:
DisableNonSSLConnectionLoggingParameter()
: ExportedServerParameter<bool, ServerParameterType::kStartupOnly>(
ServerParameterSet::getGlobal(),
"disableNonSSLConnectionLogging",
&sslGlobalParams.disableNonSSLConnectionLogging) {}
Status validate(const bool& potentialNewValue) final {
warning() << "Option: disableNonSSLConnectionLogging is deprecated. Please use "
<< "disableNonTLSConnectionLogging instead.";
if (sslGlobalParams.disableNonSSLConnectionLoggingSet) {
return Status(ErrorCodes::BadValue,
"Error parsing command line: Multiple occurrences of option "
"disableNonTLSConnectionLogging");
}
sslGlobalParams.disableNonSSLConnectionLoggingSet = true;
return Status::OK();
}
} disableNonSSLConnectionLogging;
class DisableNonTLSConnectionLoggingParameter
: public ExportedServerParameter<bool, ServerParameterType::kStartupOnly> {
public:
DisableNonTLSConnectionLoggingParameter()
: ExportedServerParameter<bool, ServerParameterType::kStartupOnly>(
ServerParameterSet::getGlobal(),
"disableNonTLSConnectionLogging",
&sslGlobalParams.disableNonSSLConnectionLogging) {}
Status validate(const bool& potentialNewValue) final {
if (sslGlobalParams.disableNonSSLConnectionLoggingSet) {
return Status(ErrorCodes::BadValue,
"Error parsing command line: Multiple occurrences of option "
"disableNonTLSConnectionLogging");
}
sslGlobalParams.disableNonSSLConnectionLoggingSet = true;
return Status::OK();
}
} disableNonTLSConnectionLogging;
#ifdef MONGO_CONFIG_SSL
namespace {
#if MONGO_CONFIG_SSL_PROVIDER == MONGO_CONFIG_SSL_PROVIDER_OPENSSL
// OpenSSL has a more complete library of OID to SN mappings.
std::string x509OidToShortName(const std::string& name) {
const auto nid = OBJ_txt2nid(name.c_str());
if (nid == 0) {
return name;
}
const auto* sn = OBJ_nid2sn(nid);
if (!sn) {
return name;
}
return sn;
}
#else
// On Apple/Windows we have to provide our own mapping.
// Generate the 2.5.4.* portions of this list from OpenSSL sources with:
// grep -E '^X509 ' "$OPENSSL/crypto/objects/objects.txt" | tr -d '\t' |
// sed -e 's/^X509 *\([0-9]\+\) *\(: *\)\+\([[:alnum:]]\+\).*/{"2.5.4.\1", "\3"},/g'
std::string x509OidToShortName(const std::string& name) {
static const StringMap<std::string> kX509OidToShortNameMappings = {
{"0.9.2342.19200300.100.1.1", "UID"},
{"0.9.2342.19200300.100.1.25", "DC"},
{"1.2.840.113549.1.9.1", "emailAddress"},
{"2.5.29.17", "subjectAltName"},
// X509 OIDs Generated from objects.txt
{"2.5.4.3", "CN"},
{"2.5.4.4", "SN"},
{"2.5.4.5", "serialNumber"},
{"2.5.4.6", "C"},
{"2.5.4.7", "L"},
{"2.5.4.8", "ST"},
{"2.5.4.9", "street"},
{"2.5.4.10", "O"},
{"2.5.4.11", "OU"},
{"2.5.4.12", "title"},
{"2.5.4.13", "description"},
{"2.5.4.14", "searchGuide"},
{"2.5.4.15", "businessCategory"},
{"2.5.4.16", "postalAddress"},
{"2.5.4.17", "postalCode"},
{"2.5.4.18", "postOfficeBox"},
{"2.5.4.19", "physicalDeliveryOfficeName"},
{"2.5.4.20", "telephoneNumber"},
{"2.5.4.21", "telexNumber"},
{"2.5.4.22", "teletexTerminalIdentifier"},
{"2.5.4.23", "facsimileTelephoneNumber"},
{"2.5.4.24", "x121Address"},
{"2.5.4.25", "internationaliSDNNumber"},
{"2.5.4.26", "registeredAddress"},
{"2.5.4.27", "destinationIndicator"},
{"2.5.4.28", "preferredDeliveryMethod"},
{"2.5.4.29", "presentationAddress"},
{"2.5.4.30", "supportedApplicationContext"},
{"2.5.4.31", "member"},
{"2.5.4.32", "owner"},
{"2.5.4.33", "roleOccupant"},
{"2.5.4.34", "seeAlso"},
{"2.5.4.35", "userPassword"},
{"2.5.4.36", "userCertificate"},
{"2.5.4.37", "cACertificate"},
{"2.5.4.38", "authorityRevocationList"},
{"2.5.4.39", "certificateRevocationList"},
{"2.5.4.40", "crossCertificatePair"},
{"2.5.4.41", "name"},
{"2.5.4.42", "GN"},
{"2.5.4.43", "initials"},
{"2.5.4.44", "generationQualifier"},
{"2.5.4.45", "x500UniqueIdentifier"},
{"2.5.4.46", "dnQualifier"},
{"2.5.4.47", "enhancedSearchGuide"},
{"2.5.4.48", "protocolInformation"},
{"2.5.4.49", "distinguishedName"},
{"2.5.4.50", "uniqueMember"},
{"2.5.4.51", "houseIdentifier"},
{"2.5.4.52", "supportedAlgorithms"},
{"2.5.4.53", "deltaRevocationList"},
{"2.5.4.54", "dmdName"},
{"2.5.4.65", "pseudonym"},
{"2.5.4.72", "role"},
};
auto it = kX509OidToShortNameMappings.find(name);
if (it == kX509OidToShortNameMappings.end()) {
return name;
}
return it->second;
}
#endif
const auto getTLSVersionCounts = ServiceContext::declareDecoration<TLSVersionCounts>();
} // namespace
TLSVersionCounts& TLSVersionCounts::get(ServiceContext* serviceContext) {
return getTLSVersionCounts(serviceContext);
}
MONGO_INITIALIZER_WITH_PREREQUISITES(SSLManagerLogger, ("SSLManager", "GlobalLogManager"))
(InitializerContext*) {
if (!isSSLServer || (sslGlobalParams.sslMode.load() != SSLParams::SSLMode_disabled)) {
const auto& config = getSSLManager()->getSSLConfiguration();
if (!config.clientSubjectName.empty()) {
LOG(1) << "Client Certificate Name: " << config.clientSubjectName;
}
if (!config.serverSubjectName.empty()) {
LOG(1) << "Server Certificate Name: " << config.serverSubjectName;
LOG(1) << "Server Certificate Expiration: " << config.serverCertificateExpirationDate;
}
}
return Status::OK();
}
StatusWith<std::string> SSLX509Name::getOID(StringData oid) const {
for (const auto& rdn : _entries) {
for (const auto& entry : rdn) {
if (entry.oid == oid) {
return entry.value;
}
}
}
return {ErrorCodes::KeyNotFound, "OID does not exist"};
}
StringBuilder& operator<<(StringBuilder& os, const SSLX509Name& name) {
std::string comma;
for (const auto& rdn : name._entries) {
std::string plus;
os << comma;
for (const auto& entry : rdn) {
os << plus << x509OidToShortName(entry.oid) << "=" << escapeRfc2253(entry.value);
plus = "+";
}
comma = ",";
}
return os;
}
std::string SSLX509Name::toString() const {
StringBuilder os;
os << *this;
return os.str();
}
namespace {
void canonicalizeClusterDN(std::vector<std::string>* dn) {
// remove all RDNs we don't care about
for (size_t i = 0; i < dn->size(); i++) {
std::string& comp = dn->at(i);
boost::algorithm::trim(comp);
if (!mongoutils::str::startsWith(comp.c_str(), "DC=") &&
!mongoutils::str::startsWith(comp.c_str(), "O=") &&
!mongoutils::str::startsWith(comp.c_str(), "OU=")) {
dn->erase(dn->begin() + i);
i--;
}
}
std::stable_sort(dn->begin(), dn->end());
}
constexpr StringData kOID_DC = "0.9.2342.19200300.100.1.25"_sd;
constexpr StringData kOID_O = "2.5.4.10"_sd;
constexpr StringData kOID_OU = "2.5.4.11"_sd;
std::vector<SSLX509Name::Entry> canonicalizeClusterDN(
const std::vector<std::vector<SSLX509Name::Entry>>& entries) {
std::vector<SSLX509Name::Entry> ret;
for (const auto& rdn : entries) {
for (const auto& entry : rdn) {
if ((entry.oid != kOID_DC) && (entry.oid != kOID_O) && (entry.oid != kOID_OU)) {
continue;
}
ret.push_back(entry);
}
}
std::stable_sort(ret.begin(), ret.end());
return ret;
}
} // namespace
/**
* The behavior of isClusterMember() is subtly different when passed
* an SSLX509Name versus a StringData.
*
* The SSLX509Name version (immediately below) compares distinguished
* names in their raw, unescaped forms and provides a more reliable match.
*
* The StringData version attempts to do a simplified string compare
* with the serialized version of the server subject name.
*
* Because escaping is not checked in the StringData version,
* some not-strictly matching RDNs will appear to share O/OU/DC with the
* server subject name. Therefore, that variant should be called with care.
*/
bool SSLConfiguration::isClusterMember(const SSLX509Name& subject) const {
auto client = canonicalizeClusterDN(subject._entries);
auto server = canonicalizeClusterDN(serverSubjectName._entries);
return !client.empty() && (client == server);
}
bool SSLConfiguration::isClusterMember(StringData subjectName) const {
std::vector<std::string> clientRDN = StringSplitter::split(subjectName.toString(), ",");
std::vector<std::string> serverRDN = StringSplitter::split(serverSubjectName.toString(), ",");
canonicalizeClusterDN(&clientRDN);
canonicalizeClusterDN(&serverRDN);
return !clientRDN.empty() && (clientRDN == serverRDN);
}
BSONObj SSLConfiguration::getServerStatusBSON() const {
BSONObjBuilder security;
security.append("SSLServerSubjectName", serverSubjectName.toString());
security.appendBool("SSLServerHasCertificateAuthority", hasCA);
security.appendDate("SSLServerCertificateExpirationDate", serverCertificateExpirationDate);
return security.obj();
}
SSLManagerInterface::~SSLManagerInterface() {}
SSLConnectionInterface::~SSLConnectionInterface() {}
namespace {
/**
* Enum of supported Abstract Syntax Notation One (ASN.1) Distinguished Encoding Rules (DER) types.
*
* This is a subset of all DER types.
*/
enum class DERType : char {
// Primitive, not supported by the parser
// Only exists when BER indefinite form is used which is not valid DER.
EndOfContent = 0,
// Primitive
UTF8String = 12,
// Sequence or Sequence Of, Constructed
SEQUENCE = 16,
// Set or Set Of, Constructed
SET = 17,
};
/**
* Distinguished Encoding Rules (DER) are a strict subset of Basic Encoding Rules (BER).
*
* For more details, see X.690 from ITU-T.
*
* It is a Tag + Length + Value format. The tag is generally 1 byte, the length is 1 or more
* and then followed by the value.
*/
class DERToken {
public:
DERToken() {}
DERToken(DERType type, size_t length, const char* const data)
: _type(type), _length(length), _data(data) {}
/**
* Get the ASN.1 type of the current token.
*/
DERType getType() const {
return _type;
}
/**
* Get a ConstDataRange for the value of this SET or SET OF.
*/
ConstDataRange getSetRange() {
invariant(_type == DERType::SET);
return ConstDataRange(_data, _data + _length);
}
/**
* Get a ConstDataRange for the value of this SEQUENCE or SEQUENCE OF.
*/
ConstDataRange getSequenceRange() {
invariant(_type == DERType::SEQUENCE);
return ConstDataRange(_data, _data + _length);
}
/**
* Get a std::string for the value of this Utf8String.
*/
std::string readUtf8String() {
invariant(_type == DERType::UTF8String);
return std::string(_data, _length);
}
/**
* Parse a buffer of bytes and return the number of bytes we read for this token.
*
* Returns a DERToken which consists of the (tag, length, value) tuple.
*/
static StatusWith<DERToken> parse(ConstDataRange cdr, size_t* outLength);
private:
DERType _type{DERType::EndOfContent};
size_t _length{0};
const char* _data{nullptr};
};
} // namespace
template <>
struct DataType::Handler<DERToken> {
static Status load(DERToken* t,
const char* ptr,
size_t length,
size_t* advanced,
std::ptrdiff_t debug_offset) {
size_t outLength;
auto swPair = DERToken::parse(ConstDataRange(ptr, length), &outLength);
if (!swPair.isOK()) {
return swPair.getStatus();
}
if (t) {
*t = std::move(swPair.getValue());
}
if (advanced) {
*advanced = outLength;
}
return Status::OK();
}
static DERToken defaultConstruct() {
return DERToken();
}
};
namespace {
StatusWith<std::string> readDERString(ConstDataRangeCursor& cdc) {
auto swString = cdc.readAndAdvance<DERToken>();
if (!swString.isOK()) {
return swString.getStatus();
}
auto derString = swString.getValue();
if (derString.getType() != DERType::UTF8String) {
return Status(ErrorCodes::InvalidSSLConfiguration,
str::stream() << "Unexpected DER Tag, Got "
<< static_cast<char>(derString.getType())
<< ", Expected UTF8String");
}
return derString.readUtf8String();
}
StatusWith<DERToken> DERToken::parse(ConstDataRange cdr, size_t* outLength) {
const size_t kTagLength = 1;
const size_t kTagLengthAndInitialLengthByteLength = kTagLength + 1;
ConstDataRangeCursor cdrc(cdr);
auto swTagByte = cdrc.readAndAdvance<char>();
if (!swTagByte.getStatus().isOK()) {
return swTagByte.getStatus();
}
const char tagByte = swTagByte.getValue();
// Get the tag number from the first 5 bits
const char tag = tagByte & 0x1f;
// Check the 6th bit
const bool constructed = tagByte & 0x20;
const bool primitive = !constructed;
// Check bits 7 and 8 for the tag class, we only want Universal (i.e. 0)
const char tagClass = tagByte & 0xC0;
if (tagClass != 0) {
return Status(ErrorCodes::InvalidSSLConfiguration, "Unsupported tag class");
}
// Validate the 6th bit is correct, and it is a known type
switch (static_cast<DERType>(tag)) {
case DERType::UTF8String:
if (!primitive) {
return Status(ErrorCodes::InvalidSSLConfiguration, "Unknown DER tag");
}
break;
case DERType::SEQUENCE:
case DERType::SET:
if (!constructed) {
return Status(ErrorCodes::InvalidSSLConfiguration, "Unknown DER tag");
}
break;
default:
return Status(ErrorCodes::InvalidSSLConfiguration, "Unknown DER tag");
}
// Do we have at least 1 byte for the length
if (cdrc.length() < kTagLengthAndInitialLengthByteLength) {
return Status(ErrorCodes::InvalidSSLConfiguration, "Invalid DER length");
}
// Read length
// Depending on the high bit, either read 1 byte or N bytes
auto swInitialLengthByte = cdrc.readAndAdvance<char>();
if (!swInitialLengthByte.getStatus().isOK()) {
return swInitialLengthByte.getStatus();
}
const char initialLengthByte = swInitialLengthByte.getValue();
uint64_t derLength = 0;
// How many bytes does it take to encode the length?
size_t encodedLengthBytesCount = 1;
if (initialLengthByte & 0x80) {
// Length is > 127 bytes, i.e. Long form of length
const size_t lengthBytesCount = 0x7f & initialLengthByte;
// If length is encoded in more then 8 bytes, we disallow it
if (lengthBytesCount > 8) {
return Status(ErrorCodes::InvalidSSLConfiguration, "Invalid DER length");
}
// Ensure we have enough data for the length bytes
const char* lengthLongFormPtr = cdrc.data();
Status statusLength = cdrc.advance(lengthBytesCount);
if (!statusLength.isOK()) {
return statusLength;
}
encodedLengthBytesCount = 1 + lengthBytesCount;
std::array<char, 8> lengthBuffer;
lengthBuffer.fill(0);
// Copy the length into the end of the buffer
memcpy(lengthBuffer.data() + (8 - lengthBytesCount), lengthLongFormPtr, lengthBytesCount);
// We now have 0x00..NN in the buffer and it can be properly decoded as BigEndian
derLength = ConstDataView(lengthBuffer.data()).read<BigEndian<uint64_t>>();
} else {
// Length is <= 127 bytes, i.e. short form of length
derLength = initialLengthByte;
}
// This is the total length of the TLV and all data
// This will not overflow since encodedLengthBytesCount <= 9
const uint64_t tagAndLengthByteCount = kTagLength + encodedLengthBytesCount;
// This may overflow since derLength is from user data so check our arithmetic carefully.
if (mongoUnsignedAddOverflow64(tagAndLengthByteCount, derLength, outLength) ||
*outLength > cdr.length()) {
return Status(ErrorCodes::InvalidSSLConfiguration, "Invalid DER length");
}
return DERToken(static_cast<DERType>(tag), derLength, cdr.data() + tagAndLengthByteCount);
}
} // namespace
StatusWith<stdx::unordered_set<RoleName>> parsePeerRoles(ConstDataRange cdrExtension) {
stdx::unordered_set<RoleName> roles;
ConstDataRangeCursor cdcExtension(cdrExtension);
/**
* MongoDBAuthorizationGrants ::= SET OF MongoDBAuthorizationGrant
*
* MongoDBAuthorizationGrant ::= CHOICE {
* MongoDBRole,
* ...!UTF8String:"Unrecognized entity in MongoDBAuthorizationGrant"
* }
*/
auto swSet = cdcExtension.readAndAdvance<DERToken>();
if (!swSet.isOK()) {
return swSet.getStatus();
}
if (swSet.getValue().getType() != DERType::SET) {
return Status(ErrorCodes::InvalidSSLConfiguration,
str::stream() << "Unexpected DER Tag, Got "
<< static_cast<char>(swSet.getValue().getType())
<< ", Expected SET");
}
ConstDataRangeCursor cdcSet(swSet.getValue().getSetRange());
while (!cdcSet.empty()) {
/**
* MongoDBRole ::= SEQUENCE {
* role UTF8String,
* database UTF8String
* }
*/
auto swSequence = cdcSet.readAndAdvance<DERToken>();
if (!swSequence.isOK()) {
return swSequence.getStatus();
}
auto sequenceStart = swSequence.getValue();
if (sequenceStart.getType() != DERType::SEQUENCE) {
return Status(ErrorCodes::InvalidSSLConfiguration,
str::stream() << "Unexpected DER Tag, Got "
<< static_cast<char>(sequenceStart.getType())
<< ", Expected SEQUENCE");
}
ConstDataRangeCursor cdcSequence(sequenceStart.getSequenceRange());
auto swRole = readDERString(cdcSequence);
if (!swRole.isOK()) {
return swRole.getStatus();
}
auto swDatabase = readDERString(cdcSequence);
if (!swDatabase.isOK()) {
return swDatabase.getStatus();
}
roles.emplace(swRole.getValue(), swDatabase.getValue());
}
return roles;
}
std::string removeFQDNRoot(std::string name) {
if (name.back() == '.') {
name.pop_back();
}
return name;
};
namespace {
// Characters that need to be escaped in RFC 2253
const std::array<char, 7> rfc2253EscapeChars = {',', '+', '"', '\\', '<', '>', ';'};
} // namespace
// See section "2.4 Converting an AttributeValue from ASN.1 to a String" in RFC 2243
std::string escapeRfc2253(StringData str) {
std::string ret;
if (str.size() > 0) {
size_t pos = 0;
// a space or "#" character occurring at the beginning of the string
if (str[0] == ' ') {
ret = "\\ ";
pos = 1;
} else if (str[0] == '#') {
ret = "\\#";
pos = 1;
}
while (pos < str.size()) {
if (static_cast<signed char>(str[pos]) < 0) {
ret += '\\';
ret += integerToHex(str[pos]);
} else {
if (std::find(rfc2253EscapeChars.cbegin(), rfc2253EscapeChars.cend(), str[pos]) !=
rfc2253EscapeChars.cend()) {
ret += '\\';
}
ret += str[pos];
}
++pos;
}
// a space character occurring at the end of the string
if (ret.size() > 2 && ret[ret.size() - 1] == ' ') {
ret[ret.size() - 1] = '\\';
ret += ' ';
}
}
return ret;
}
/**
* Status section of which tls versions connected to MongoDB and completed an SSL handshake.
* Note: Clients are only not counted if they try to connect to the server with a unsupported TLS
* version. They are still counted if the server rejects them for certificate issues in
* parseAndValidatePeerCertificate.
*/
class TLSVersionSatus : public ServerStatusSection {
public:
TLSVersionSatus() : ServerStatusSection("transportSecurity") {}
bool includeByDefault() const final {
return true;
}
BSONObj generateSection(OperationContext* opCtx, const BSONElement& configElement) const final {
auto& counts = TLSVersionCounts::get(opCtx->getServiceContext());
BSONObjBuilder builder;
builder.append("1.0", counts.tls10.load());
builder.append("1.1", counts.tls11.load());
builder.append("1.2", counts.tls12.load());
builder.append("1.3", counts.tls13.load());
builder.append("unknown", counts.tlsUnknown.load());
return builder.obj();
}
} tlsVersionStatus;
void recordTLSVersion(TLSVersion version, const HostAndPort& hostForLogging) {
StringData versionString;
auto& counts = mongo::TLSVersionCounts::get(getGlobalServiceContext());
switch (version) {
case TLSVersion::kTLS10:
counts.tls10.addAndFetch(1);
if (std::find(sslGlobalParams.tlsLogVersions.cbegin(),
sslGlobalParams.tlsLogVersions.cend(),
SSLParams::Protocols::TLS1_0) != sslGlobalParams.tlsLogVersions.cend()) {
versionString = "1.0"_sd;
}
break;
case TLSVersion::kTLS11:
counts.tls11.addAndFetch(1);
if (std::find(sslGlobalParams.tlsLogVersions.cbegin(),
sslGlobalParams.tlsLogVersions.cend(),
SSLParams::Protocols::TLS1_1) != sslGlobalParams.tlsLogVersions.cend()) {
versionString = "1.1"_sd;
}
break;
case TLSVersion::kTLS12:
counts.tls12.addAndFetch(1);
if (std::find(sslGlobalParams.tlsLogVersions.cbegin(),
sslGlobalParams.tlsLogVersions.cend(),
SSLParams::Protocols::TLS1_2) != sslGlobalParams.tlsLogVersions.cend()) {
versionString = "1.2"_sd;
}
break;
case TLSVersion::kTLS13:
counts.tls13.addAndFetch(1);
if (std::find(sslGlobalParams.tlsLogVersions.cbegin(),
sslGlobalParams.tlsLogVersions.cend(),
SSLParams::Protocols::TLS1_3) != sslGlobalParams.tlsLogVersions.cend()) {
versionString = "1.3"_sd;
}
break;
default:
counts.tlsUnknown.addAndFetch(1);
if (!sslGlobalParams.tlsLogVersions.empty()) {
versionString = "unknown"_sd;
}
break;
}
if (!versionString.empty()) {
log() << "Accepted connection with TLS Version " << versionString << " from connection "
<< hostForLogging;
}
}
#endif
} // namespace mongo
#ifdef MONGO_CONFIG_SSL
// TODO SERVER-11601 Use NFC Unicode canonicalization
bool mongo::hostNameMatchForX509Certificates(std::string nameToMatch, std::string certHostName) {
nameToMatch = removeFQDNRoot(std::move(nameToMatch));
certHostName = removeFQDNRoot(std::move(certHostName));
if (certHostName.size() < 2) {
return false;
}
// match wildcard DNS names
if (certHostName[0] == '*' && certHostName[1] == '.') {
// allow name.example.com if the cert is *.example.com, '*' does not match '.'
const char* subName = strchr(nameToMatch.c_str(), '.');
return subName && !strcasecmp(certHostName.c_str() + 1, subName);
} else {
return !strcasecmp(nameToMatch.c_str(), certHostName.c_str());
}
}
#endif
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