boringssl/crypto/test/file_test.h

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/* Copyright (c) 2015, Google Inc.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */
#ifndef OPENSSL_HEADER_CRYPTO_TEST_FILE_TEST_H
#define OPENSSL_HEADER_CRYPTO_TEST_FILE_TEST_H
#include <openssl/base.h>
#include <stdint.h>
OPENSSL_MSVC_PRAGMA(warning(push))
OPENSSL_MSVC_PRAGMA(warning(disable : 4702))
#include <functional>
#include <map>
#include <memory>
#include <set>
#include <string>
#include <vector>
OPENSSL_MSVC_PRAGMA(warning(pop))
// File-based test framework.
//
// This module provides a file-based test framework. The file format is based on
// that of OpenSSL upstream's evp_test and BoringSSL's aead_test. NIST CAVP test
// vector files are also supported. Each input file is a sequence of attributes,
// instructions and blank lines.
//
// Each attribute has the form:
//
// Name = Value
//
// Instructions are enclosed in square brackets and may appear without a value:
//
// [Name = Value]
//
// or
//
// [Name]
//
// Commas in instruction lines are treated as separate instructions. Thus this:
//
// [Name1,Name2]
//
// is the same as:
//
// [Name1]
// [Name2]
//
// Either '=' or ':' may be used to delimit the name from the value. Both the
// name and value have leading and trailing spaces stripped.
//
// Each file contains a number of instruction blocks and test cases.
//
// An instruction block is a sequence of instructions followed by a blank line.
// Instructions apply to all test cases following its appearance, until the next
// instruction block. Instructions are unordered.
//
// A test is a sequence of one or more attributes followed by a blank line. For
// tests that process multiple kinds of test cases, the first attribute is
// parsed out as the test's type and parameter. Otherwise, attributes are
// unordered. The first attribute is also included in the set of attributes, so
// tests which do not dispatch may ignore this mechanism.
//
// Additional blank lines and lines beginning with # are ignored.
//
// Functions in this module freely output to |stderr| on failure. Tests should
// also do so, and it is recommended they include the corresponding test's line
// number in any output. |PrintLine| does this automatically.
//
// Each attribute in a test and all instructions applying to it must be
// consumed. When a test completes, if any attributes or insturctions haven't
// been processed, the framework reports an error.
class FileTest;
typedef bool (*FileTestFunc)(FileTest *t, void *arg);
class FileTest {
public:
enum ReadResult {
kReadSuccess,
kReadEOF,
kReadError,
};
class LineReader {
public:
virtual ~LineReader() {}
virtual ReadResult ReadLine(char *out, size_t len) = 0;
};
struct Options {
// path is the path to the input file.
const char *path = nullptr;
// callback is called for each test. It should get the parameters from this
// object and signal any errors by returning false.
FileTestFunc callback = nullptr;
// arg is an opaque pointer that is passed to |callback|.
void *arg = nullptr;
// silent suppressed the "PASS" string that is otherwise printed after
// successful runs.
bool silent = false;
// comment_callback is called after each comment in the input is parsed.
std::function<void(const std::string&)> comment_callback;
// is_kas_test is true if a NIST “KAS” test is being parsed. These tests
// are inconsistent with the other NIST files to such a degree that they
// need their own boolean.
bool is_kas_test = false;
};
explicit FileTest(std::unique_ptr<LineReader> reader,
std::function<void(const std::string &)> comment_callback,
bool is_kas_test);
~FileTest();
// ReadNext reads the next test from the file. It returns |kReadSuccess| if
// successfully reading a test and |kReadEOF| at the end of the file. On
// error or if the previous test had unconsumed attributes, it returns
// |kReadError|.
ReadResult ReadNext();
// PrintLine is a variant of printf which prepends the line number and appends
// a trailing newline.
void PrintLine(const char *format, ...) OPENSSL_PRINTF_FORMAT_FUNC(2, 3);
unsigned start_line() const { return start_line_; }
// GetType returns the name of the first attribute of the current test.
const std::string &GetType();
// GetParameter returns the value of the first attribute of the current test.
const std::string &GetParameter();
// HasAttribute returns true if the current test has an attribute named |key|.
bool HasAttribute(const std::string &key);
// GetAttribute looks up the attribute with key |key|. It sets |*out_value| to
// the value and returns true if it exists and returns false with an error to
// |stderr| otherwise.
bool GetAttribute(std::string *out_value, const std::string &key);
// GetAttributeOrDie looks up the attribute with key |key| and aborts if it is
Implement new SPKI parsers. Many consumers need SPKI support (X.509, TLS, QUIC, WebCrypto), each with different ways to set signature parameters. SPKIs themselves can get complex with id-RSASSA-PSS keys which come with various constraints in the key parameters. This suggests we want a common in-library representation of an SPKI. This adds two new functions EVP_parse_public_key and EVP_marshal_public_key which converts EVP_PKEY to and from SPKI and implements X509_PUBKEY functions with them. EVP_PKEY seems to have been intended to be able to express the supported SPKI types with full-fidelity, so these APIs will continue this. This means future support for id-RSASSA-PSS would *not* repurpose EVP_PKEY_RSA. I'm worried about code assuming EVP_PKEY_RSA implies acting on the RSA* is legal. Instead, it'd add an EVP_PKEY_RSA_PSS and the data pointer would be some (exposed, so the caller may still check key size, etc.) RSA_PSS_KEY struct. Internally, the EVP_PKEY_CTX implementation would enforce the key constraints. If RSA_PSS_KEY would later need its own API, that code would move there, but that seems unlikely. Ideally we'd have a 1:1 correspondence with key OID, although we may have to fudge things if mistakes happen in standardization. (Whether or not X.509 reuses id-ecPublicKey for Ed25519, we'll give it a separate EVP_PKEY type.) DSA parsing hooks are still implemented, missing parameters and all for now. This isn't any worse than before. Decoupling from the giant crypto/obj OID table will be a later task. BUG=522228 Change-Id: I0e3964edf20cb795a18b0991d17e5ca8bce3e28c Reviewed-on: https://boringssl-review.googlesource.com/6861 Reviewed-by: Adam Langley <agl@google.com>
2015-12-31 02:40:40 +00:00
// missing. It should only be used after a |HasAttribute| call.
const std::string &GetAttributeOrDie(const std::string &key);
// GetBytes looks up the attribute with key |key| and decodes it as a byte
// string. On success, it writes the result to |*out| and returns
// true. Otherwise it returns false with an error to |stderr|. The value may
// be either a hexadecimal string or a quoted ASCII string. It returns true on
// success and returns false with an error to |stderr| on failure.
bool GetBytes(std::vector<uint8_t> *out, const std::string &key);
// ExpectBytesEqual returns true if |expected| and |actual| are equal.
// Otherwise, it returns false and prints a message to |stderr|.
bool ExpectBytesEqual(const uint8_t *expected, size_t expected_len,
const uint8_t *actual, size_t actual_len);
// AtNewInstructionBlock returns true if the current test was immediately
// preceded by an instruction block.
bool IsAtNewInstructionBlock() const;
// HasInstruction returns true if the current test has an instruction.
bool HasInstruction(const std::string &key);
// GetInstruction looks up the instruction with key |key|. It sets
// |*out_value| to the value (empty string if the instruction has no value)
// and returns true if it exists and returns false with an error to |stderr|
// otherwise.
bool GetInstruction(std::string *out_value, const std::string &key);
// CurrentTestToString returns the file content parsed for the current test.
// If the current test was preceded by an instruction block, the return test
// case is preceded by the instruction block and a single blank line. All
// other blank or comment lines are omitted.
const std::string &CurrentTestToString() const;
// InjectInstruction adds a key value pair to the most recently parsed set of
// instructions.
void InjectInstruction(const std::string &key, const std::string &value);
// SkipCurrent passes the current test case. Unused attributes are ignored.
void SkipCurrent();
private:
void ClearTest();
void ClearInstructions();
void OnKeyUsed(const std::string &key);
void OnInstructionUsed(const std::string &key);
std::unique_ptr<LineReader> reader_;
// line_ is the number of lines read.
unsigned line_ = 0;
// start_line_ is the line number of the first attribute of the test.
unsigned start_line_ = 0;
// type_ is the name of the first attribute of the test.
std::string type_;
// parameter_ is the value of the first attribute.
std::string parameter_;
// attributes_ contains all attributes in the test, including the first.
std::map<std::string, std::string> attributes_;
// instructions_ contains all instructions in scope for the test.
std::map<std::string, std::string> instructions_;
// unused_attributes_ is the set of attributes that have not been queried.
std::set<std::string> unused_attributes_;
// unused_instructions_ is the set of instructions that have not been queried.
std::set<std::string> unused_instructions_;
std::string current_test_;
bool is_at_new_instruction_block_ = false;
bool seen_non_comment_ = false;
bool is_kas_test_ = false;
// comment_callback_, if set, is a callback function that is called with the
// contents of each comment as they are parsed.
std::function<void(const std::string&)> comment_callback_;
FileTest(const FileTest &) = delete;
FileTest &operator=(const FileTest &) = delete;
};
// FileTestMain runs a file-based test out of |path| and returns an exit code
// suitable to return out of |main|. |run_test| should return true on pass and
// false on failure. FileTestMain also implements common handling of the 'Error'
// attribute. A test with that attribute is expected to fail. The value of the
// attribute is the reason string of the expected OpenSSL error code.
//
// Tests are guaranteed to run serially and may affect global state if need be.
// It is legal to use "tests" which, for example, import a private key into a
// list of keys. This may be used to initialize a shared set of keys for many
// tests. However, if one test fails, the framework will continue to run
// subsequent tests.
int FileTestMain(FileTestFunc run_test, void *arg, const char *path);
// FileTestMain accepts a larger number of options via a struct.
int FileTestMain(const FileTest::Options &opts);
// FileTestGTest behaves like FileTestMain, but for GTest. |path| must be the
// name of a test file embedded in the test binary.
void FileTestGTest(const char *path, std::function<void(FileTest *)> run_test);
#endif // OPENSSL_HEADER_CRYPTO_TEST_FILE_TEST_H