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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This code is made available to you under your choice of the following sets
* of licensing terms:
*/
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*/
/* Copyright 2013 Mozilla Contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef mozilla_pkix_pkixder_h
#define mozilla_pkix_pkixder_h
// Expect* functions advance the input mark and return Success if the input
// matches the given criteria; they fail with the input mark in an undefined
// state if the input does not match the criteria.
//
// Match* functions advance the input mark and return true if the input matches
// the given criteria; they return false without changing the input mark if the
// input does not match the criteria.
//
// Skip* functions unconditionally advance the input mark and return Success if
// they are able to do so; otherwise they fail with the input mark in an
// undefined state.
#include "pkix/Input.h"
#include "pkix/pkixtypes.h"
namespace mozilla { namespace pkix { namespace der {
enum Class : uint8_t
{
UNIVERSAL = 0 << 6,
// APPLICATION = 1 << 6, // unused
CONTEXT_SPECIFIC = 2 << 6,
// PRIVATE = 3 << 6 // unused
};
enum Constructed
{
CONSTRUCTED = 1 << 5
};
enum Tag : uint8_t
{
BOOLEAN = UNIVERSAL | 0x01,
INTEGER = UNIVERSAL | 0x02,
BIT_STRING = UNIVERSAL | 0x03,
OCTET_STRING = UNIVERSAL | 0x04,
NULLTag = UNIVERSAL | 0x05,
OIDTag = UNIVERSAL | 0x06,
ENUMERATED = UNIVERSAL | 0x0a,
UTF8String = UNIVERSAL | 0x0c,
SEQUENCE = UNIVERSAL | CONSTRUCTED | 0x10, // 0x30
SET = UNIVERSAL | CONSTRUCTED | 0x11, // 0x31
PrintableString = UNIVERSAL | 0x13,
TeletexString = UNIVERSAL | 0x14,
IA5String = UNIVERSAL | 0x16,
UTCTime = UNIVERSAL | 0x17,
GENERALIZED_TIME = UNIVERSAL | 0x18,
};
enum class EmptyAllowed { No = 0, Yes = 1 };
Result ReadTagAndGetValue(Reader& input, /*out*/ uint8_t& tag,
/*out*/ Input& value);
Result End(Reader& input);
inline Result
ExpectTagAndGetValue(Reader& input, uint8_t tag, /*out*/ Input& value)
{
uint8_t actualTag;
Result rv = ReadTagAndGetValue(input, actualTag, value);
if (rv != Success) {
return rv;
}
if (tag != actualTag) {
return Result::ERROR_BAD_DER;
}
return Success;
}
inline Result
ExpectTagAndGetValue(Reader& input, uint8_t tag, /*out*/ Reader& value)
{
Input valueInput;
Result rv = ExpectTagAndGetValue(input, tag, valueInput);
if (rv != Success) {
return rv;
}
return value.Init(valueInput);
}
inline Result
ExpectTagAndEmptyValue(Reader& input, uint8_t tag)
{
Reader value;
Result rv = ExpectTagAndGetValue(input, tag, value);
if (rv != Success) {
return rv;
}
return End(value);
}
inline Result
ExpectTagAndSkipValue(Reader& input, uint8_t tag)
{
Input ignoredValue;
return ExpectTagAndGetValue(input, tag, ignoredValue);
}
// Like ExpectTagAndGetValue, except the output Input will contain the
// encoded tag and length along with the value.
inline Result
ExpectTagAndGetTLV(Reader& input, uint8_t tag, /*out*/ Input& tlv)
{
Reader::Mark mark(input.GetMark());
Result rv = ExpectTagAndSkipValue(input, tag);
if (rv != Success) {
return rv;
}
return input.GetInput(mark, tlv);
}
inline Result
End(Reader& input)
{
if (!input.AtEnd()) {
return Result::ERROR_BAD_DER;
}
return Success;
}
template <typename Decoder>
inline Result
Nested(Reader& input, uint8_t tag, Decoder decoder)
{
Reader nested;
Result rv = ExpectTagAndGetValue(input, tag, nested);
if (rv != Success) {
return rv;
}
rv = decoder(nested);
if (rv != Success) {
return rv;
}
return End(nested);
}
template <typename Decoder>
inline Result
Nested(Reader& input, uint8_t outerTag, uint8_t innerTag, Decoder decoder)
{
Reader nestedInput;
Result rv = ExpectTagAndGetValue(input, outerTag, nestedInput);
if (rv != Success) {
return rv;
}
rv = Nested(nestedInput, innerTag, decoder);
if (rv != Success) {
return rv;
}
return End(nestedInput);
}
// This can be used to decode constructs like this:
//
// ...
// foos SEQUENCE OF Foo,
// ...
// Foo ::= SEQUENCE {
// }
//
// using code like this:
//
// Result Foo(Reader& r) { /*...*/ }
//
// rv = der::NestedOf(input, der::SEQEUENCE, der::SEQUENCE, Foo);
//
// or:
//
// Result Bar(Reader& r, int value) { /*...*/ }
//
// int value = /*...*/;
//
// rv = der::NestedOf(input, der::SEQUENCE, [value](Reader& r) {
// return Bar(r, value);
// });
//
// In these examples the function will get called once for each element of
// foos.
//
template <typename Decoder>
inline Result
NestedOf(Reader& input, uint8_t outerTag, uint8_t innerTag,
EmptyAllowed mayBeEmpty, Decoder decoder)
{
Reader inner;
Result rv = ExpectTagAndGetValue(input, outerTag, inner);
if (rv != Success) {
return rv;
}
if (inner.AtEnd()) {
if (mayBeEmpty != EmptyAllowed::Yes) {
return Result::ERROR_BAD_DER;
}
return Success;
}
do {
rv = Nested(inner, innerTag, decoder);
if (rv != Success) {
return rv;
}
} while (!inner.AtEnd());
return Success;
}
// Often, a function will need to decode an Input or Reader that contains
// DER-encoded data wrapped in a SEQUENCE (or similar) with nothing after it.
// This function reduces the boilerplate necessary for stripping the outermost
// SEQUENCE (or similar) and ensuring that nothing follows it.
inline Result
ExpectTagAndGetValueAtEnd(Reader& outer, uint8_t expectedTag,
/*out*/ Reader& inner)
{
Result rv = der::ExpectTagAndGetValue(outer, expectedTag, inner);
if (rv != Success) {
return rv;
}
return der::End(outer);
}
// Similar to the above, but takes an Input instead of a Reader&.
inline Result
ExpectTagAndGetValueAtEnd(Input outer, uint8_t expectedTag,
/*out*/ Reader& inner)
{
Reader outerReader(outer);
return ExpectTagAndGetValueAtEnd(outerReader, expectedTag, inner);
}
// Universal types
namespace internal {
enum class IntegralValueRestriction
{
NoRestriction,
MustBePositive,
MustBe0To127,
};
Result IntegralBytes(Reader& input, uint8_t tag,
IntegralValueRestriction valueRestriction,
/*out*/ Input& value,
/*optional out*/ Input::size_type* significantBytes = nullptr);
// This parser will only parse values between 0..127. If this range is
// increased then callers will need to be changed.
Result IntegralValue(Reader& input, uint8_t tag, /*out*/ uint8_t& value);
} // namespace internal
Result
BitStringWithNoUnusedBits(Reader& input, /*out*/ Input& value);
inline Result
Boolean(Reader& input, /*out*/ bool& value)
{
Reader valueReader;
Result rv = ExpectTagAndGetValue(input, BOOLEAN, valueReader);
if (rv != Success) {
return rv;
}
uint8_t intValue;
rv = valueReader.Read(intValue);
if (rv != Success) {
return rv;
}
rv = End(valueReader);
if (rv != Success) {
return rv;
}
switch (intValue) {
case 0: value = false; return Success;
case 0xFF: value = true; return Success;
default:
return Result::ERROR_BAD_DER;
}
}
// This is for BOOLEAN DEFAULT FALSE.
// The standard stipulates that "The encoding of a set value or sequence value
// shall not include an encoding for any component value which is equal to its
// default value." However, it appears to be common that other libraries
// incorrectly include the value of a BOOLEAN even when it's equal to the
// default value, so we allow invalid explicit encodings here.
inline Result
OptionalBoolean(Reader& input, /*out*/ bool& value)
{
value = false;
if (input.Peek(BOOLEAN)) {
Result rv = Boolean(input, value);
if (rv != Success) {
return rv;
}
}
return Success;
}
// This parser will only parse values between 0..127. If this range is
// increased then callers will need to be changed.
inline Result
Enumerated(Reader& input, uint8_t& value)
{
return internal::IntegralValue(input, ENUMERATED | 0, value);
}
namespace internal {
// internal::TimeChoice implements the shared functionality of GeneralizedTime
// and TimeChoice. tag must be either UTCTime or GENERALIZED_TIME.
//
// Only times from 1970-01-01-00:00:00 onward are accepted, in order to
// eliminate the chance for complications in converting times to traditional
// time formats that start at 1970.
Result TimeChoice(Reader& input, uint8_t tag, /*out*/ Time& time);
} // namespace internal
// Only times from 1970-01-01-00:00:00 onward are accepted, in order to
// eliminate the chance for complications in converting times to traditional
// time formats that start at 1970.
inline Result
GeneralizedTime(Reader& input, /*out*/ Time& time)
{
return internal::TimeChoice(input, GENERALIZED_TIME, time);
}
// Only times from 1970-01-01-00:00:00 onward are accepted, in order to
// eliminate the chance for complications in converting times to traditional
// time formats that start at 1970.
inline Result
TimeChoice(Reader& input, /*out*/ Time& time)
{
uint8_t expectedTag = input.Peek(UTCTime) ? UTCTime : GENERALIZED_TIME;
return internal::TimeChoice(input, expectedTag, time);
}
// Parse a DER integer value into value. Empty values, negative values, and
// zero are rejected. If significantBytes is not null, then it will be set to
// the number of significant bytes in the value (the length of the value, less
// the length of any leading padding), which is useful for key size checks.
inline Result
PositiveInteger(Reader& input, /*out*/ Input& value,
/*optional out*/ Input::size_type* significantBytes = nullptr)
{
return internal::IntegralBytes(
input, INTEGER, internal::IntegralValueRestriction::MustBePositive,
value, significantBytes);
}
// This parser will only parse values between 0..127. If this range is
// increased then callers will need to be changed.
inline Result
Integer(Reader& input, /*out*/ uint8_t& value)
{
return internal::IntegralValue(input, INTEGER, value);
}
// This parser will only parse values between 0..127. If this range is
// increased then callers will need to be changed. The default value must be
// -1; defaultValue is only a parameter to make it clear in the calling code
// what the default value is.
inline Result
OptionalInteger(Reader& input, long defaultValue, /*out*/ long& value)
{
// If we need to support a different default value in the future, we need to
// test that parsedValue != defaultValue.
if (defaultValue != -1) {
return Result::FATAL_ERROR_INVALID_ARGS;
}
if (!input.Peek(INTEGER)) {
value = defaultValue;
return Success;
}
uint8_t parsedValue;
Result rv = Integer(input, parsedValue);
if (rv != Success) {
return rv;
}
value = parsedValue;
return Success;
}
inline Result
Null(Reader& input)
{
return ExpectTagAndEmptyValue(input, NULLTag);
}
template <uint8_t Len>
Result
OID(Reader& input, const uint8_t (&expectedOid)[Len])
{
Reader value;
Result rv = ExpectTagAndGetValue(input, OIDTag, value);
if (rv != Success) {
return rv;
}
if (!value.MatchRest(expectedOid)) {
return Result::ERROR_BAD_DER;
}
return Success;
}
// PKI-specific types
inline Result
CertificateSerialNumber(Reader& input, /*out*/ Input& value)
{
// http://tools.ietf.org/html/rfc5280#section-4.1.2.2:
//
// * "The serial number MUST be a positive integer assigned by the CA to
// each certificate."
// * "Certificate users MUST be able to handle serialNumber values up to 20
// octets. Conforming CAs MUST NOT use serialNumber values longer than 20
// octets."
// * "Note: Non-conforming CAs may issue certificates with serial numbers
// that are negative or zero. Certificate users SHOULD be prepared to
// gracefully handle such certificates."
return internal::IntegralBytes(
input, INTEGER, internal::IntegralValueRestriction::NoRestriction,
value);
}
// x.509 and OCSP both use this same version numbering scheme, though OCSP
// only supports v1.
enum class Version { v1 = 0, v2 = 1, v3 = 2, v4 = 3 };
// X.509 Certificate and OCSP ResponseData both use
// "[0] EXPLICIT Version DEFAULT v1". Although an explicit encoding of v1 is
// illegal, we support it because some real-world OCSP responses explicitly
// encode it.
Result OptionalVersion(Reader& input, /*out*/ Version& version);
template <typename ExtensionHandler>
inline Result
OptionalExtensions(Reader& input, uint8_t tag,
ExtensionHandler extensionHandler)
{
if (!input.Peek(tag)) {
return Success;
}
return Nested(input, tag, [extensionHandler](Reader& tagged) {
// Extensions ::= SEQUENCE SIZE (1..MAX) OF Extension
//
// TODO(bug 997994): According to the specification, there should never be
// an empty sequence of extensions but we've found OCSP responses that have
// that (see bug 991898).
return NestedOf(tagged, SEQUENCE, SEQUENCE, EmptyAllowed::Yes,
[extensionHandler](Reader& extension) -> Result {
// Extension ::= SEQUENCE {
// extnID OBJECT IDENTIFIER,
// critical BOOLEAN DEFAULT FALSE,
// extnValue OCTET STRING
// }
Reader extnID;
Result rv = ExpectTagAndGetValue(extension, OIDTag, extnID);
if (rv != Success) {
return rv;
}
bool critical;
rv = OptionalBoolean(extension, critical);
if (rv != Success) {
return rv;
}
Input extnValue;
rv = ExpectTagAndGetValue(extension, OCTET_STRING, extnValue);
if (rv != Success) {
return rv;
}
bool understood = false;
rv = extensionHandler(extnID, extnValue, critical, understood);
if (rv != Success) {
return rv;
}
if (critical && !understood) {
return Result::ERROR_UNKNOWN_CRITICAL_EXTENSION;
}
return Success;
});
});
}
Result DigestAlgorithmIdentifier(Reader& input,
/*out*/ DigestAlgorithm& algorithm);
enum class PublicKeyAlgorithm
{
RSA_PKCS1,
ECDSA,
};
Result SignatureAlgorithmIdentifierValue(
Reader& input,
/*out*/ PublicKeyAlgorithm& publicKeyAlgorithm,
/*out*/ DigestAlgorithm& digestAlgorithm);
struct SignedDataWithSignature final
{
public:
Input data;
Input algorithm;
Input signature;
void operator=(const SignedDataWithSignature&) = delete;
};
// Parses a SEQUENCE into tbs and then parses an AlgorithmIdentifier followed
// by a BIT STRING into signedData. This handles the commonality between
// parsing the signed/signature fields of certificates and OCSP responses. In
// the case of an OCSP response, the caller needs to parse the certs
// separately.
//
// Note that signatureAlgorithm is NOT parsed or validated.
//
// Certificate ::= SEQUENCE {
// tbsCertificate TBSCertificate,
// signatureAlgorithm AlgorithmIdentifier,
// signatureValue BIT STRING }
//
// BasicOCSPResponse ::= SEQUENCE {
// tbsResponseData ResponseData,
// signatureAlgorithm AlgorithmIdentifier,
// signature BIT STRING,
// certs [0] EXPLICIT SEQUENCE OF Certificate OPTIONAL }
Result SignedData(Reader& input, /*out*/ Reader& tbs,
/*out*/ SignedDataWithSignature& signedDataWithSignature);
} } } // namespace mozilla::pkix::der
#endif // mozilla_pkix_pkixder_h
|