/* 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 #include OPENSSL_MSVC_PRAGMA(warning(push)) OPENSSL_MSVC_PRAGMA(warning(disable : 4702)) #include #include #include #include #include #include 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 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 reader, std::function 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 // missing. It should only be used after a |HasAttribute| call. const std::string &GetAttributeOrDie(const std::string &key); // IgnoreAttribute marks the attribute with key |key| as used. void IgnoreAttribute(const std::string &key) { HasAttribute(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 *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); // IgnoreInstruction marks the instruction with key |key| as used. void IgnoreInstruction(const std::string &key) { HasInstruction(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); // GetInstructionBytes behaves like GetBytes, but looks up the corresponding // instruction. bool GetInstructionBytes(std::vector *out, 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); bool ConvertToBytes(std::vector *out, const std::string &value); std::unique_ptr 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 attributes_; // instructions_ contains all instructions in scope for the test. std::map instructions_; // unused_attributes_ is the set of attributes that have not been queried. std::set unused_attributes_; // unused_instructions_ is the set of instructions that have not been queried. std::set 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 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 run_test); #endif // OPENSSL_HEADER_CRYPTO_TEST_FILE_TEST_H