tor/src/test/test.h
Nick Mathewson e015f7c9cc Basic 'handle' implementation and tests.
This abstraction covers the case where one part of the program needs
to refer to another object that is allowed to disappear.
2016-04-19 14:07:43 -04:00

174 lines
6.5 KiB
C

/* Copyright (c) 2001-2003, Roger Dingledine.
* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
* Copyright (c) 2007-2016, The Tor Project, Inc. */
/* See LICENSE for licensing information */
#ifndef TOR_TEST_H
#define TOR_TEST_H
/**
* \file test.h
* \brief Macros and functions used by unit tests.
*/
#include "compat.h"
#include "tinytest.h"
#define TT_EXIT_TEST_FUNCTION STMT_BEGIN goto done; STMT_END
#include "tinytest_macros.h"
#ifdef __GNUC__
#define PRETTY_FUNCTION __PRETTY_FUNCTION__
#else
#define PRETTY_FUNCTION ""
#endif
/* As test_mem_op, but decodes 'hex' before comparing. There must be a
* local char* variable called mem_op_hex_tmp for this to work. */
#define test_mem_op_hex(expr1, op, hex) \
STMT_BEGIN \
size_t length = strlen(hex); \
tor_free(mem_op_hex_tmp); \
mem_op_hex_tmp = tor_malloc(length/2); \
tor_assert((length&1)==0); \
base16_decode(mem_op_hex_tmp, length/2, hex, length); \
tt_mem_op(expr1, op, mem_op_hex_tmp, length/2); \
STMT_END
#define test_memeq_hex(expr1, hex) test_mem_op_hex(expr1, OP_EQ, hex)
#define tt_double_op(a,op,b) \
tt_assert_test_type(a,b,#a" "#op" "#b,double,(val1_ op val2_),"%g", \
TT_EXIT_TEST_FUNCTION)
/* Declare "double equal" in a sneaky way, so compiler won't complain about
* comparing floats with == or !=. Of course, only do this if you know what
* you're doing. */
#define tt_double_eq(a,b) \
STMT_BEGIN \
tt_double_op((a), >=, (b)); \
tt_double_op((a), <=, (b)); \
STMT_END
#ifdef _MSC_VER
#define U64_PRINTF_TYPE uint64_t
#define I64_PRINTF_TYPE int64_t
#else
#define U64_PRINTF_TYPE unsigned long long
#define I64_PRINTF_TYPE long long
#endif
#define tt_size_op(a,op,b) \
tt_assert_test_fmt_type(a,b,#a" "#op" "#b,size_t,(val1_ op val2_), \
U64_PRINTF_TYPE, U64_FORMAT, \
{print_ = (U64_PRINTF_TYPE) value_;}, {}, TT_EXIT_TEST_FUNCTION)
#define tt_u64_op(a,op,b) \
tt_assert_test_fmt_type(a,b,#a" "#op" "#b,uint64_t,(val1_ op val2_), \
U64_PRINTF_TYPE, U64_FORMAT, \
{print_ = (U64_PRINTF_TYPE) value_;}, {}, TT_EXIT_TEST_FUNCTION)
#define tt_i64_op(a,op,b) \
tt_assert_test_fmt_type(a,b,#a" "#op" "#b,int64_t,(val1_ op val2_), \
I64_PRINTF_TYPE, I64_FORMAT, \
{print_ = (I64_PRINTF_TYPE) value_;}, {}, TT_EXIT_TEST_FUNCTION)
const char *get_fname(const char *name);
struct crypto_pk_t *pk_generate(int idx);
#define US2_CONCAT_2__(a, b) a ## __ ## b
#define US_CONCAT_2__(a, b) a ## _ ## b
#define US_CONCAT_3__(a, b, c) a ## _ ## b ## _ ## c
#define US_CONCAT_2_(a, b) US_CONCAT_2__(a, b)
#define US_CONCAT_3_(a, b, c) US_CONCAT_3__(a, b, c)
/*
* These macros are helpful for streamlining the authorship of several test
* cases that use mocks.
*
* The pattern is as follows.
* * Declare a top level namespace:
* #define NS_MODULE foo
*
* * For each test case you want to write, create a new submodule in the
* namespace. All mocks and other information should belong to a single
* submodule to avoid interference with other test cases.
* You can simply name the submodule after the function in the module you
* are testing:
* #define NS_SUBMODULE some_function
* or, if you're wanting to write several tests against the same function,
* ie., you are testing an aspect of that function, you can use:
* #define NS_SUBMODULE ASPECT(some_function, behavior)
*
* * Declare all the mocks you will use. The NS_DECL macro serves to declare
* the mock in the current namespace (defined by NS_MODULE and NS_SUBMODULE).
* It behaves like MOCK_DECL:
* NS_DECL(int, dependent_function, (void *));
* Here, dependent_function must be declared and implemented with the
* MOCK_DECL and MOCK_IMPL macros. The NS_DECL macro also defines an integer
* global for use for tracking how many times a mock was called, and can be
* accessed by CALLED(mock_name). For example, you might put
* CALLED(dependent_function)++;
* in your mock body.
*
* * Define a function called NS(main) that will contain the body of the
* test case. The NS macro can be used to reference a name in the current
* namespace.
*
* * In NS(main), indicate that a mock function in the current namespace,
* declared with NS_DECL is to override that in the global namespace,
* with the NS_MOCK macro:
* NS_MOCK(dependent_function)
* Unmock with:
* NS_UNMOCK(dependent_function)
*
* * Define the mocks with the NS macro, eg.,
* int
* NS(dependent_function)(void *)
* {
* CALLED(dependent_function)++;
* }
*
* * In the struct testcase_t array, you can use the TEST_CASE and
* TEST_CASE_ASPECT macros to define the cases without having to do so
* explicitly nor without having to reset NS_SUBMODULE, eg.,
* struct testcase_t foo_tests[] = {
* TEST_CASE_ASPECT(some_function, behavior),
* ...
* END_OF_TESTCASES
* which will define a test case named "some_function__behavior".
*/
#define NAME_TEST_(name) #name
#define NAME_TEST(name) NAME_TEST_(name)
#define ASPECT(test_module, test_name) US2_CONCAT_2__(test_module, test_name)
#define TEST_CASE(function) \
{ \
NAME_TEST(function), \
NS_FULL(NS_MODULE, function, test_main), \
TT_FORK, \
NULL, \
NULL, \
}
#define TEST_CASE_ASPECT(function, aspect) \
{ \
NAME_TEST(ASPECT(function, aspect)), \
NS_FULL(NS_MODULE, ASPECT(function, aspect), test_main), \
TT_FORK, \
NULL, \
NULL, \
}
#define NS(name) US_CONCAT_3_(NS_MODULE, NS_SUBMODULE, name)
#define NS_FULL(module, submodule, name) US_CONCAT_3_(module, submodule, name)
#define CALLED(mock_name) US_CONCAT_2_(NS(mock_name), called)
#define NS_DECL(retval, mock_fn, args) \
static retval NS(mock_fn) args; int CALLED(mock_fn) = 0
#define NS_MOCK(name) MOCK(name, NS(name))
#define NS_UNMOCK(name) UNMOCK(name)
extern const struct testcase_setup_t passthrough_setup;
#endif