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// Copyright 2015 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef BSSL_PKI_TEST_HELPERS_H_
#define BSSL_PKI_TEST_HELPERS_H_
#include <stddef.h>
#include <ostream>
#include <string>
#include <vector>
#include "parsed_certificate.h"
#include "simple_path_builder_delegate.h"
#include "trust_store.h"
#include "verify_certificate_chain.h"
#include "input.h"
#include <gtest/gtest.h>
namespace bssl {
namespace der {
// This function is used by GTest to support EXPECT_EQ() for der::Input.
void PrintTo(const Input& data, ::std::ostream* os);
} // namespace der
// Parses |s| as a DER SEQUENCE TLV and returns a der::Input corresponding to
// the value portion. On error returns an empty der::Input and adds a gtest
// failure.
//
// The returned der::Input() is only valid so long as the input string is alive
// and is not mutated.
der::Input SequenceValueFromString(const std::string* s);
// Helper structure that maps a PEM block header (for instance "CERTIFICATE") to
// the destination where the value for that block should be written.
struct PemBlockMapping {
// The name of the PEM header. Example "CERTIFICATE".
const char* block_name;
// The destination where the read value should be written to.
std::string* value;
// True to indicate that the block is not required to be present. If the
// block is optional and is not present, then |value| will not be modified.
bool optional = false;
};
// ReadTestDataFromPemFile() is a helper function that reads a PEM test file
// rooted in the "src/" directory.
//
// * file_path_ascii:
// The path to the PEM file, relative to src. For instance
// "testdata/verify_signed_data_unittest/foopy.pem"
//
// * mappings:
// An array of length |mappings_length| which maps the expected PEM
// headers to the destination to write its data.
//
// The function ensures that each of the chosen mappings is satisfied exactly
// once. In other words, the header must be present (unless marked as
// optional=true), have valid data, and appear no more than once.
::testing::AssertionResult ReadTestDataFromPemFile(
const std::string& file_path_ascii,
const PemBlockMapping* mappings,
size_t mappings_length);
// This is the same as the variant above, however it uses template magic so an
// mappings array can be passed in directly (and the correct length is
// inferred).
template <size_t N>
::testing::AssertionResult ReadTestDataFromPemFile(
const std::string& file_path_ascii,
const PemBlockMapping (&mappings)[N]) {
return ReadTestDataFromPemFile(file_path_ascii, mappings, N);
}
// Test cases are comprised of all the parameters to certificate
// verification, as well as the expected outputs.
struct VerifyCertChainTest {
VerifyCertChainTest();
~VerifyCertChainTest();
// The chain of certificates (with the zero-th being the target).
ParsedCertificateList chain;
// Details on the trustedness of the last certificate.
CertificateTrust last_cert_trust;
// The time to use when verifying the chain.
der::GeneralizedTime time;
// The Key Purpose to use when verifying the chain.
KeyPurpose key_purpose = KeyPurpose::ANY_EKU;
InitialExplicitPolicy initial_explicit_policy = InitialExplicitPolicy::kFalse;
std::set<der::Input> user_initial_policy_set;
InitialPolicyMappingInhibit initial_policy_mapping_inhibit =
InitialPolicyMappingInhibit::kFalse;
InitialAnyPolicyInhibit initial_any_policy_inhibit =
InitialAnyPolicyInhibit::kFalse;
// The expected errors/warnings from verification (as a string).
std::string expected_errors;
// Expected user_constrained_policy_set, as a set of numeric OID strings.
std::set<std::string> expected_user_constrained_policy_set;
SimplePathBuilderDelegate::DigestPolicy digest_policy =
SimplePathBuilderDelegate::DigestPolicy::kWeakAllowSha1;
// Returns true if |expected_errors| contains any high severity errors (a
// non-empty expected_errors doesn't necessarily mean verification is
// expected to fail, as it may have contained warnings).
bool HasHighSeverityErrors() const;
};
// Reads a test case from |file_path_ascii| (which is relative to //src).
// Generally |file_path_ascii| will start with:
// net/data/verify_certificate_chain_unittest/
bool ReadVerifyCertChainTestFromFile(const std::string& file_path_ascii,
VerifyCertChainTest* test);
// Reads a certificate chain from |file_path_ascii|
bool ReadCertChainFromFile(const std::string& file_path_ascii,
ParsedCertificateList* chain);
// Reads a certificate from |file_path_ascii|. Returns nullptr if the file
// contained more that one certificate.
std::shared_ptr<const ParsedCertificate> ReadCertFromFile(
const std::string& file_path_ascii);
// Reads a data file relative to the src root directory.
std::string ReadTestFileToString(const std::string& file_path_ascii);
// Asserts that |actual_errors| matches |expected_errors_str|.
//
// This is a helper function to simplify rebasing the error expectations when
// they originate from a test file.
void VerifyCertPathErrors(const std::string& expected_errors_str,
const CertPathErrors& actual_errors,
const ParsedCertificateList& chain,
const std::string& errors_file_path);
// Asserts that |actual_errors| matches |expected_errors_str|.
//
// This is a helper function to simplify rebasing the error expectations when
// they originate from a test file.
void VerifyCertErrors(const std::string& expected_errors_str,
const CertErrors& actual_errors,
const std::string& errors_file_path);
// Asserts that |actual_user_constrained_policy_set| matches
// |expected_user_constrained_policy_set|.
void VerifyUserConstrainedPolicySet(
const std::set<std::string>& expected_user_constrained_policy_str_set,
const std::set<der::Input>& actual_user_constrained_policy_set,
const std::string& errors_file_path);
} // namespace net
#endif // BSSL_PKI_TEST_HELPERS_H_