glib2.0/glib/gtestutils.c

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/* GLib testing utilities
* Copyright (C) 2007 Imendio AB
* Authors: Tim Janik, Sven Herzberg
*
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* SPDX-License-Identifier: LGPL-2.1-or-later
*
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* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include "config.h"
#include "gtestutils.h"
#include "gfileutils.h"
#include <sys/types.h>
#ifdef G_OS_UNIX
#include <sys/wait.h>
#include <sys/time.h>
#include <fcntl.h>
#include <unistd.h>
#endif
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
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#include <inttypes.h>
#ifdef HAVE_SYS_PRCTL_H
#include <sys/prctl.h>
#endif
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#ifdef HAVE_SYS_RESOURCE_H
#include <sys/resource.h>
#endif
#ifdef G_OS_WIN32
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#include <crtdbg.h>
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#include <io.h>
#include <windows.h>
#endif
#include <errno.h>
#include <signal.h>
#ifdef HAVE_SYS_SELECT_H
#include <sys/select.h>
#endif /* HAVE_SYS_SELECT_H */
#include <glib/gstdio.h>
#include "gmain.h"
#include "gpattern.h"
#include "grand.h"
#include "gstrfuncs.h"
#include "gtimer.h"
#include "gslice.h"
#include "gspawn.h"
#include "glib-private.h"
#include "gutilsprivate.h"
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#define TAP_VERSION G_STRINGIFY (13)
/* FIXME: Remove '#' prefix when we'll depend on a meson version supporting TAP 14
* See https://gitlab.gnome.org/GNOME/glib/-/issues/2885 */
#define TAP_SUBTEST_PREFIX "# " /* a 4-space indented line */
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/**
* g_test_initialized:
*
* Returns %TRUE if g_test_init() has been called.
*
* Returns: %TRUE if g_test_init() has been called.
*
* Since: 2.36
*/
/**
* g_test_quick:
*
* Returns %TRUE if tests are run in quick mode.
* Exactly one of g_test_quick() and g_test_slow() is active in any run;
* there is no "medium speed".
*
* By default, tests are run in quick mode. In tests that use
* g_test_init(), the options `-m quick`, `-m slow` and `-m thorough`
* can be used to change this.
*
* Returns: %TRUE if in quick mode
*/
/**
* g_test_slow:
*
* Returns %TRUE if tests are run in slow mode.
* Exactly one of g_test_quick() and g_test_slow() is active in any run;
* there is no "medium speed".
*
* By default, tests are run in quick mode. In tests that use
* g_test_init(), the options `-m quick`, `-m slow` and `-m thorough`
* can be used to change this.
*
* Returns: the opposite of g_test_quick()
*/
/**
* g_test_thorough:
*
* Returns %TRUE if tests are run in thorough mode, equivalent to
* g_test_slow().
*
* By default, tests are run in quick mode. In tests that use
* g_test_init(), the options `-m quick`, `-m slow` and `-m thorough`
* can be used to change this.
*
* Returns: the same thing as g_test_slow()
*/
/**
* g_test_perf:
*
* Returns %TRUE if tests are run in performance mode.
*
* By default, tests are run in quick mode. In tests that use
* g_test_init(), the option `-m perf` enables performance tests, while
* `-m quick` disables them.
*
* Returns: %TRUE if in performance mode
*/
/**
* g_test_undefined:
*
* Returns %TRUE if tests may provoke assertions and other formally-undefined
* behaviour, to verify that appropriate warnings are given. It might, in some
* cases, be useful to turn this off with if running tests under valgrind;
* in tests that use g_test_init(), the option `-m no-undefined` disables
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* those tests, while `-m undefined` explicitly enables them (normally
* the default behaviour).
*
* Since GLib 2.68, if GLib was compiled with gcc or clang and
* [AddressSanitizer](https://github.com/google/sanitizers/wiki/AddressSanitizer)
* is enabled, the default changes to not exercising undefined behaviour.
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*
* Returns: %TRUE if tests may provoke programming errors
*/
/**
* g_test_verbose:
*
* Returns %TRUE if tests are run in verbose mode.
* In tests that use g_test_init(), the option `--verbose` enables this,
* while `-q` or `--quiet` disables it.
* The default is neither g_test_verbose() nor g_test_quiet().
*
* Returns: %TRUE if in verbose mode
*/
/**
* g_test_quiet:
*
* Returns %TRUE if tests are run in quiet mode.
* In tests that use g_test_init(), the option `-q` or `--quiet` enables
* this, while `--verbose` disables it.
* The default is neither g_test_verbose() nor g_test_quiet().
*
* Returns: %TRUE if in quiet mode
*/
/**
* g_test_queue_unref:
* @gobject: the object to unref
*
* Enqueue an object to be released with g_object_unref() during
* the next teardown phase. This is equivalent to calling
* g_test_queue_destroy() with a destroy callback of g_object_unref().
*
* Since: 2.16
*/
/**
* GTestSubprocessFlags:
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* @G_TEST_SUBPROCESS_DEFAULT: Default behaviour. Since: 2.74
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* @G_TEST_SUBPROCESS_INHERIT_STDIN: If this flag is given, the child
* process will inherit the parent's stdin. Otherwise, the child's
* stdin is redirected to `/dev/null`.
* @G_TEST_SUBPROCESS_INHERIT_STDOUT: If this flag is given, the child
* process will inherit the parent's stdout. Otherwise, the child's
* stdout will not be visible, but it will be captured to allow
* later tests with g_test_trap_assert_stdout().
* @G_TEST_SUBPROCESS_INHERIT_STDERR: If this flag is given, the child
* process will inherit the parent's stderr. Otherwise, the child's
* stderr will not be visible, but it will be captured to allow
* later tests with g_test_trap_assert_stderr().
*
* Flags to pass to g_test_trap_subprocess() to control input and output.
*
* Note that in contrast with g_test_trap_fork(), the default is to
* not show stdout and stderr.
*/
/**
* g_test_trap_assert_passed:
*
* Assert that the last test subprocess passed.
* See g_test_trap_subprocess().
*
* Since: 2.16
*/
/**
* g_test_trap_assert_failed:
*
* Assert that the last test subprocess failed.
* See g_test_trap_subprocess().
*
* This is sometimes used to test situations that are formally considered to
* be undefined behaviour, like inputs that fail a g_return_if_fail()
* check. In these situations you should skip the entire test, including the
* call to g_test_trap_subprocess(), unless g_test_undefined() returns %TRUE
* to indicate that undefined behaviour may be tested.
*
* Since: 2.16
*/
/**
* g_test_trap_assert_stdout:
* @soutpattern: a glob-style [pattern][glib-Glob-style-pattern-matching]
*
* Assert that the stdout output of the last test subprocess matches
* @soutpattern. See g_test_trap_subprocess().
*
* Since: 2.16
*/
/**
* g_test_trap_assert_stdout_unmatched:
* @soutpattern: a glob-style [pattern][glib-Glob-style-pattern-matching]
*
* Assert that the stdout output of the last test subprocess
* does not match @soutpattern. See g_test_trap_subprocess().
*
* Since: 2.16
*/
/**
* g_test_trap_assert_stderr:
* @serrpattern: a glob-style [pattern][glib-Glob-style-pattern-matching]
*
* Assert that the stderr output of the last test subprocess
* matches @serrpattern. See g_test_trap_subprocess().
*
* This is sometimes used to test situations that are formally
* considered to be undefined behaviour, like code that hits a
* g_assert() or g_error(). In these situations you should skip the
* entire test, including the call to g_test_trap_subprocess(), unless
* g_test_undefined() returns %TRUE to indicate that undefined
* behaviour may be tested.
*
* Since: 2.16
*/
/**
* g_test_trap_assert_stderr_unmatched:
* @serrpattern: a glob-style [pattern][glib-Glob-style-pattern-matching]
*
* Assert that the stderr output of the last test subprocess
* does not match @serrpattern. See g_test_trap_subprocess().
*
* Since: 2.16
*/
/**
* g_test_rand_bit:
*
* Get a reproducible random bit (0 or 1), see g_test_rand_int()
* for details on test case random numbers.
*
* Since: 2.16
*/
/**
* g_assert:
* @expr: the expression to check
*
* Debugging macro to terminate the application if the assertion
* fails. If the assertion fails (i.e. the expression is not true),
* an error message is logged and the application is terminated.
*
* The macro can be turned off in final releases of code by defining
* `G_DISABLE_ASSERT` when compiling the application, so code must
* not depend on any side effects from @expr. Similarly, it must not be used
* in unit tests, otherwise the unit tests will be ineffective if compiled with
* `G_DISABLE_ASSERT`. Use g_assert_true() and related macros in unit tests
* instead.
*/
/**
* g_assert_not_reached:
*
* Debugging macro to terminate the application if it is ever
* reached. If it is reached, an error message is logged and the
* application is terminated.
*
* The macro can be turned off in final releases of code by defining
* `G_DISABLE_ASSERT` when compiling the application. Hence, it should not be
* used in unit tests, where assertions should always be effective.
*/
/**
* g_assert_true:
* @expr: the expression to check
*
* Debugging macro to check that an expression is true.
*
* If the assertion fails (i.e. the expression is not true),
* an error message is logged and the application is either
* terminated or the testcase marked as failed.
*
* Note that unlike g_assert(), this macro is unaffected by whether
* `G_DISABLE_ASSERT` is defined. Hence it should only be used in tests and,
* conversely, g_assert() should not be used in tests.
*
* See g_test_set_nonfatal_assertions().
*
* Since: 2.38
*/
/**
* g_assert_false:
* @expr: the expression to check
*
* Debugging macro to check an expression is false.
*
* If the assertion fails (i.e. the expression is not false),
* an error message is logged and the application is either
* terminated or the testcase marked as failed.
*
* Note that unlike g_assert(), this macro is unaffected by whether
* `G_DISABLE_ASSERT` is defined. Hence it should only be used in tests and,
* conversely, g_assert() should not be used in tests.
*
* See g_test_set_nonfatal_assertions().
*
* Since: 2.38
*/
/**
* g_assert_null:
* @expr: the expression to check
*
* Debugging macro to check an expression is %NULL.
*
* If the assertion fails (i.e. the expression is not %NULL),
* an error message is logged and the application is either
* terminated or the testcase marked as failed.
*
* Note that unlike g_assert(), this macro is unaffected by whether
* `G_DISABLE_ASSERT` is defined. Hence it should only be used in tests and,
* conversely, g_assert() should not be used in tests.
*
* See g_test_set_nonfatal_assertions().
*
* Since: 2.38
*/
/**
* g_assert_nonnull:
* @expr: the expression to check
*
* Debugging macro to check an expression is not %NULL.
*
* If the assertion fails (i.e. the expression is %NULL),
* an error message is logged and the application is either
* terminated or the testcase marked as failed.
*
* Note that unlike g_assert(), this macro is unaffected by whether
* `G_DISABLE_ASSERT` is defined. Hence it should only be used in tests and,
* conversely, g_assert() should not be used in tests.
*
* See g_test_set_nonfatal_assertions().
*
* Since: 2.40
*/
/**
* g_assert_cmpstr:
* @s1: a string (may be %NULL)
* @cmp: The comparison operator to use.
* One of `==`, `!=`, `<`, `>`, `<=`, `>=`.
* @s2: another string (may be %NULL)
*
* Debugging macro to compare two strings. If the comparison fails,
* an error message is logged and the application is either terminated
* or the testcase marked as failed.
* The strings are compared using g_strcmp0().
*
* The effect of `g_assert_cmpstr (s1, op, s2)` is
* the same as `g_assert_true (g_strcmp0 (s1, s2) op 0)`.
* The advantage of this macro is that it can produce a message that
* includes the actual values of @s1 and @s2.
*
* |[<!-- language="C" -->
* g_assert_cmpstr (mystring, ==, "fubar");
* ]|
*
* Since: 2.16
*/
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/**
* g_assert_cmpstrv:
* @strv1: (nullable): a string array (may be %NULL)
* @strv2: (nullable): another string array (may be %NULL)
*
* Debugging macro to check if two %NULL-terminated string arrays (i.e. 2
* #GStrv) are equal. If they are not equal, an error message is logged and the
* application is either terminated or the testcase marked as failed.
* If both arrays are %NULL, the check passes. If one array is %NULL but the
* other is not, an error message is logged.
*
* The effect of `g_assert_cmpstrv (strv1, strv2)` is the same as
* `g_assert_true (g_strv_equal (strv1, strv2))` (if both arrays are not
* %NULL). The advantage of this macro is that it can produce a message that
* includes how @strv1 and @strv2 are different.
*
* |[<!-- language="C" -->
* const char *expected[] = { "one", "two", "three", NULL };
* g_assert_cmpstrv (mystrv, expected);
* ]|
*
* Since: 2.68
*/
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/**
* g_assert_cmpint:
* @n1: an integer
* @cmp: The comparison operator to use.
* One of `==`, `!=`, `<`, `>`, `<=`, `>=`.
* @n2: another integer
*
* Debugging macro to compare two integers.
*
* The effect of `g_assert_cmpint (n1, op, n2)` is
* the same as `g_assert_true (n1 op n2)`. The advantage
* of this macro is that it can produce a message that includes the
* actual values of @n1 and @n2.
*
* Since: 2.16
*/
/**
* g_assert_cmpuint:
* @n1: an unsigned integer
* @cmp: The comparison operator to use.
* One of `==`, `!=`, `<`, `>`, `<=`, `>=`.
* @n2: another unsigned integer
*
* Debugging macro to compare two unsigned integers.
*
* The effect of `g_assert_cmpuint (n1, op, n2)` is
* the same as `g_assert_true (n1 op n2)`. The advantage
* of this macro is that it can produce a message that includes the
* actual values of @n1 and @n2.
*
* Since: 2.16
*/
/**
* g_assert_cmphex:
* @n1: an unsigned integer
* @cmp: The comparison operator to use.
* One of `==`, `!=`, `<`, `>`, `<=`, `>=`.
* @n2: another unsigned integer
*
* Debugging macro to compare to unsigned integers.
*
* This is a variant of g_assert_cmpuint() that displays the numbers
* in hexadecimal notation in the message.
*
* Since: 2.16
*/
/**
* g_assert_cmpfloat:
* @n1: a floating point number
* @cmp: The comparison operator to use.
* One of `==`, `!=`, `<`, `>`, `<=`, `>=`.
* @n2: another floating point number
*
* Debugging macro to compare two floating point numbers.
*
* The effect of `g_assert_cmpfloat (n1, op, n2)` is
* the same as `g_assert_true (n1 op n2)`. The advantage
* of this macro is that it can produce a message that includes the
* actual values of @n1 and @n2.
*
* Since: 2.16
*/
/**
* g_assert_cmpfloat_with_epsilon:
* @n1: a floating point number
* @n2: another floating point number
* @epsilon: a numeric value that expresses the expected tolerance
* between @n1 and @n2
*
* Debugging macro to compare two floating point numbers within an epsilon.
*
* The effect of `g_assert_cmpfloat_with_epsilon (n1, n2, epsilon)` is
* the same as `g_assert_true (abs (n1 - n2) < epsilon)`. The advantage
* of this macro is that it can produce a message that includes the
* actual values of @n1 and @n2.
*
* Since: 2.58
*/
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/**
* g_assert_no_errno:
* @expr: the expression to check
*
* Debugging macro to check that an expression has a non-negative return value,
* as used by traditional POSIX functions (such as `rmdir()`) to indicate
* success.
*
* If the assertion fails (i.e. the @expr returns a negative value), an error
* message is logged and the testcase is marked as failed. The error message
* will contain the value of `errno` and its human-readable message from
* g_strerror().
*
* This macro will clear the value of `errno` before executing @expr.
*
* Since: 2.66
*/
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/**
* g_assert_cmpmem:
* @m1: (nullable): pointer to a buffer
* @l1: length of @m1
* @m2: (nullable): pointer to another buffer
* @l2: length of @m2
*
* Debugging macro to compare memory regions. If the comparison fails,
* an error message is logged and the application is either terminated
* or the testcase marked as failed.
*
* The effect of `g_assert_cmpmem (m1, l1, m2, l2)` is
* the same as `g_assert_true (l1 == l2 && memcmp (m1, m2, l1) == 0)`.
* The advantage of this macro is that it can produce a message that
* includes the actual values of @l1 and @l2.
*
* @m1 may be %NULL if (and only if) @l1 is zero; similarly for @m2 and @l2.
*
* |[<!-- language="C" -->
* g_assert_cmpmem (buf->data, buf->len, expected, sizeof (expected));
* ]|
*
* Since: 2.46
*/
/**
* g_assert_cmpvariant:
* @v1: pointer to a #GVariant
* @v2: pointer to another #GVariant
*
* Debugging macro to compare two #GVariants. If the comparison fails,
* an error message is logged and the application is either terminated
* or the testcase marked as failed. The variants are compared using
* g_variant_equal().
*
* The effect of `g_assert_cmpvariant (v1, v2)` is the same as
* `g_assert_true (g_variant_equal (v1, v2))`. The advantage of this macro is
* that it can produce a message that includes the actual values of @v1 and @v2.
*
* Since: 2.60
*/
/**
* g_assert_no_error:
* @err: a #GError, possibly %NULL
*
* Debugging macro to check that a #GError is not set.
*
* The effect of `g_assert_no_error (err)` is
* the same as `g_assert_true (err == NULL)`. The advantage
* of this macro is that it can produce a message that includes
* the error message and code.
*
* Since: 2.20
*/
/**
* g_assert_error:
* @err: a #GError, possibly %NULL
* @dom: the expected error domain (a #GQuark)
* @c: the expected error code
*
* Debugging macro to check that a method has returned
* the correct #GError.
*
* The effect of `g_assert_error (err, dom, c)` is
* the same as `g_assert_true (err != NULL && err->domain
* == dom && err->code == c)`. The advantage of this
* macro is that it can produce a message that includes the incorrect
* error message and code.
*
* This can only be used to test for a specific error. If you want to
* test that @err is set, but don't care what it's set to, just use
* `g_assert_nonnull (err)`.
*
* Since: 2.20
*/
/**
* GTestCase:
*
* An opaque structure representing a test case.
*/
/**
* GTestSuite:
*
* An opaque structure representing a test suite.
*/
/* Global variable for storing assertion messages; this is the counterpart to
* glibc's (private) __abort_msg variable, and allows developers and crash
* analysis systems like Apport and ABRT to fish out assertion messages from
* core dumps, instead of having to catch them on screen output.
*/
GLIB_VAR char *__glib_assert_msg;
char *__glib_assert_msg = NULL;
/* --- constants --- */
#define G_TEST_STATUS_TIMED_OUT 1024
/* --- structures --- */
struct GTestCase
{
gchar *name;
guint fixture_size;
void (*fixture_setup) (void*, gconstpointer);
void (*fixture_test) (void*, gconstpointer);
void (*fixture_teardown) (void*, gconstpointer);
gpointer test_data;
};
struct GTestSuite
{
gchar *name;
GSList *suites;
GSList *cases;
};
typedef struct DestroyEntry DestroyEntry;
struct DestroyEntry
{
DestroyEntry *next;
GDestroyNotify destroy_func;
gpointer destroy_data;
};
/* --- prototypes --- */
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static void test_cleanup (void);
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static void test_run_seed (const gchar *rseed);
static void test_trap_clear (void);
static guint8* g_test_log_dump (GTestLogMsg *msg,
guint *len);
static void gtest_default_log_handler (const gchar *log_domain,
GLogLevelFlags log_level,
const gchar *message,
gpointer unused_data);
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static void g_test_tap_print (unsigned subtest_level,
gboolean commented,
const char *format,
...) G_GNUC_PRINTF (3, 4);
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static const char * const g_test_result_names[] = {
"OK",
"SKIP",
"FAIL",
"TODO"
};
/* --- variables --- */
static int test_log_fd = -1;
static gboolean test_mode_fatal = TRUE;
static gboolean g_test_run_once = TRUE;
static gboolean test_isolate_dirs = FALSE;
static gchar *test_isolate_dirs_tmpdir = NULL;
static const gchar *test_tmpdir = NULL;
static gboolean test_run_list = FALSE;
static gchar *test_run_seedstr = NULL;
G_LOCK_DEFINE_STATIC (test_run_rand);
static GRand *test_run_rand = NULL;
static gchar *test_run_name = "";
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static gchar *test_run_name_path = "";
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static GSList **test_filename_free_list;
static guint test_run_forks = 0;
static guint test_run_count = 0;
static guint test_count = 0;
static guint test_skipped_count = 0;
static GTestResult test_run_success = G_TEST_RUN_FAILURE;
static gchar *test_run_msg = NULL;
static guint test_startup_skip_count = 0;
static GTimer *test_user_timer = NULL;
static double test_user_stamp = 0;
static GSList *test_paths = NULL;
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static gboolean test_prefix = FALSE;
static gboolean test_prefix_extended = FALSE;
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static GSList *test_paths_skipped = NULL;
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static gboolean test_prefix_skipped = FALSE;
static gboolean test_prefix_extended_skipped = FALSE;
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static GTestSuite *test_suite_root = NULL;
static int test_trap_last_status = 0; /* unmodified platform-specific status */
static GPid test_trap_last_pid = 0;
static char *test_trap_last_subprocess = NULL;
static char *test_trap_last_stdout = NULL;
static char *test_trap_last_stderr = NULL;
static char *test_uri_base = NULL;
static gboolean test_debug_log = FALSE;
static gboolean test_tap_log = TRUE; /* default to TAP as of GLib 2.62; see #1619; the non-TAP output mode is deprecated */
static gboolean test_nonfatal_assertions = FALSE;
static DestroyEntry *test_destroy_queue = NULL;
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static const char *test_argv0 = NULL; /* (nullable), points into global argv */
static char *test_argv0_dirname = NULL; /* owned by GLib */
static const char *test_disted_files_dir; /* points into test_argv0_dirname or an environment variable */
static const char *test_built_files_dir; /* points into test_argv0_dirname or an environment variable */
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static char *test_initial_cwd = NULL;
static gboolean test_in_forked_child = FALSE;
static gboolean test_in_subprocess = FALSE;
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static gboolean test_is_subtest = FALSE;
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static GTestConfig mutable_test_config_vars = {
FALSE, /* test_initialized */
TRUE, /* test_quick */
FALSE, /* test_perf */
FALSE, /* test_verbose */
FALSE, /* test_quiet */
TRUE, /* test_undefined */
};
const GTestConfig * const g_test_config_vars = &mutable_test_config_vars;
static gboolean no_g_set_prgname = FALSE;
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static GPrintFunc g_default_print_func = NULL;
enum
{
G_TEST_CASE_LARGS_RESULT = 0,
G_TEST_CASE_LARGS_RUN_FORKS = 1,
G_TEST_CASE_LARGS_EXECUTION_TIME = 2,
G_TEST_CASE_LARGS_MAX
};
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/* --- functions --- */
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static inline gboolean
is_subtest (void)
{
return test_is_subtest || test_in_forked_child || test_in_subprocess;
}
static void
g_test_print_handler_full (const gchar *string,
gboolean use_tap_format,
gboolean is_tap_comment,
unsigned subtest_level)
{
g_assert (string != NULL);
if (G_LIKELY (use_tap_format) && strchr (string, '\n') != NULL)
{
static gboolean last_had_final_newline = TRUE;
GString *output = g_string_new_len (NULL, strlen (string) + 2);
const char *line = string;
do
{
const char *next = strchr (line, '\n');
if (last_had_final_newline && (next || *line != '\0'))
{
for (unsigned l = 0; l < subtest_level; ++l)
g_string_append (output, TAP_SUBTEST_PREFIX);
if G_LIKELY (is_tap_comment)
g_string_append (output, "# ");
}
if (next)
{
next += 1; /* Include the newline */
g_string_append_len (output, line, next - line);
}
else
{
g_string_append (output, line);
last_had_final_newline = (*line == '\0');
}
line = next;
}
while (line != NULL);
g_default_print_func (output->str);
g_string_free (g_steal_pointer (&output), TRUE);
}
else
{
g_default_print_func (string);
}
}
static void
g_test_print_handler (const gchar *string)
{
g_test_print_handler_full (string, test_tap_log, TRUE, is_subtest () ? 1 : 0);
}
static void
g_test_tap_print (unsigned subtest_level,
gboolean commented,
const char *format,
...)
{
va_list args;
char *string;
va_start (args, format);
string = g_strdup_vprintf (format, args);
va_end (args);
g_test_print_handler_full (string, TRUE, commented, subtest_level);
g_free (string);
}
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const char*
g_test_log_type_name (GTestLogType log_type)
{
switch (log_type)
{
case G_TEST_LOG_NONE: return "none";
case G_TEST_LOG_ERROR: return "error";
case G_TEST_LOG_START_BINARY: return "binary";
case G_TEST_LOG_LIST_CASE: return "list";
case G_TEST_LOG_SKIP_CASE: return "skip";
case G_TEST_LOG_START_CASE: return "start";
case G_TEST_LOG_STOP_CASE: return "stop";
case G_TEST_LOG_MIN_RESULT: return "minperf";
case G_TEST_LOG_MAX_RESULT: return "maxperf";
case G_TEST_LOG_MESSAGE: return "message";
case G_TEST_LOG_START_SUITE: return "start suite";
case G_TEST_LOG_STOP_SUITE: return "stop suite";
}
return "???";
}
static void
g_test_log_send (guint n_bytes,
const guint8 *buffer)
{
if (test_log_fd >= 0)
{
int r;
do
r = write (test_log_fd, buffer, n_bytes);
while (r < 0 && errno == EINTR);
}
if (test_debug_log)
{
GTestLogBuffer *lbuffer = g_test_log_buffer_new ();
GTestLogMsg *msg;
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GString *output;
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guint ui;
g_test_log_buffer_push (lbuffer, n_bytes, buffer);
msg = g_test_log_buffer_pop (lbuffer);
g_warn_if_fail (msg != NULL);
g_warn_if_fail (lbuffer->data->len == 0);
g_test_log_buffer_free (lbuffer);
/* print message */
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output = g_string_new (NULL);
g_string_printf (output, "{*LOG(%s)", g_test_log_type_name (msg->log_type));
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for (ui = 0; ui < msg->n_strings; ui++)
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g_string_append_printf (output, ":{%s}", msg->strings[ui]);
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if (msg->n_nums)
{
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g_string_append (output, ":(");
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for (ui = 0; ui < msg->n_nums; ui++)
{
if ((long double) (long) msg->nums[ui] == msg->nums[ui])
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g_string_append_printf (output, "%s%ld", ui ? ";" : "", (long) msg->nums[ui]);
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else
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g_string_append_printf (output, "%s%.16g", ui ? ";" : "", (double) msg->nums[ui]);
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}
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g_string_append_c (output, ')');
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}
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g_string_append (output, ":LOG*}");
g_printerr ("%s\n", output->str);
g_string_free (output, TRUE);
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g_test_log_msg_free (msg);
}
}
static void
g_test_log (GTestLogType lbit,
const gchar *string1,
const gchar *string2,
guint n_args,
long double *largs)
{
GTestResult result;
gboolean fail;
GTestLogMsg msg;
gchar *astrings[3] = { NULL, NULL, NULL };
guint8 *dbuffer;
guint32 dbufferlen;
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unsigned subtest_level;
gdouble timing;
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if (g_once_init_enter_pointer (&g_default_print_func))
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{
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g_once_init_leave_pointer (&g_default_print_func,
g_set_print_handler (g_test_print_handler));
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g_assert_nonnull (g_default_print_func);
}
subtest_level = is_subtest () ? 1 : 0;
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switch (lbit)
{
case G_TEST_LOG_START_BINARY:
if (test_tap_log)
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{
if (!is_subtest ())
{
g_test_tap_print (0, FALSE, "TAP version " TAP_VERSION "\n");
}
else
{
g_test_tap_print (subtest_level > 0 ? subtest_level - 1 : 0, TRUE,
"Subtest: %s\n", test_argv0);
}
g_print ("random seed: %s\n", string2);
}
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else if (g_test_verbose ())
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{
g_print ("GTest: random seed: %s\n", string2);
}
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break;
case G_TEST_LOG_START_SUITE:
if (test_tap_log)
{
/* We only print the TAP "plan" (1..n) ahead of time if we did
* not use the -p option to select specific tests to be run. */
if (string1[0] != 0)
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g_print ("Start of %s tests\n", string1);
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else if (test_paths == NULL)
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g_test_tap_print (subtest_level, FALSE, "1..%d\n", test_count);
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}
break;
case G_TEST_LOG_STOP_SUITE:
if (test_tap_log)
{
/* If we didn't print the TAP "plan" at the beginning because
* we were using -p, we need to print how many tests we ran at
* the end instead. */
if (string1[0] != 0)
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g_print ("End of %s tests\n", string1);
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else if (test_paths != NULL)
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g_test_tap_print (subtest_level, FALSE, "1..%d\n", test_run_count);
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}
break;
case G_TEST_LOG_STOP_CASE:
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result = largs[G_TEST_CASE_LARGS_RESULT];
timing = largs[G_TEST_CASE_LARGS_EXECUTION_TIME];
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fail = result == G_TEST_RUN_FAILURE;
if (test_tap_log)
{
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GString *tap_output;
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/* The TAP representation for an expected failure starts with
* "not ok", even though it does not actually count as failing
* due to the use of the TODO directive. "ok # TODO" would mean
* a test that was expected to fail unexpectedly succeeded,
* for which GTestResult does not currently have a
* representation. */
if (fail || result == G_TEST_RUN_INCOMPLETE)
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tap_output = g_string_new ("not ok");
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else
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tap_output = g_string_new ("ok");
if (is_subtest ())
g_string_prepend (tap_output, TAP_SUBTEST_PREFIX);
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g_string_append_printf (tap_output, " %d %s", test_run_count, string1);
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if (result == G_TEST_RUN_INCOMPLETE)
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g_string_append_printf (tap_output, " # TODO %s", string2 ? string2 : "");
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else if (result == G_TEST_RUN_SKIPPED)
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g_string_append_printf (tap_output, " # SKIP %s", string2 ? string2 : "");
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else if (result == G_TEST_RUN_FAILURE && string2 != NULL)
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g_string_append_printf (tap_output, " - %s", string2);
g_string_append_c (tap_output, '\n');
g_default_print_func (tap_output->str);
g_string_free (g_steal_pointer (&tap_output), TRUE);
/* Print msg for any slow tests, where 'slow' means >= 0.5 secs */
if (timing > 0.5)
{
tap_output = g_string_new ("# ");
g_string_append_printf (tap_output, "slow test %s executed in %0.2lf secs\n",
string1, timing);
g_default_print_func (tap_output->str);
g_string_free (g_steal_pointer (&tap_output), TRUE);
}
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}
else if (g_test_verbose ())
g_print ("GTest: result: %s\n", g_test_result_names[result]);
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else if (!g_test_quiet () && !test_in_subprocess)
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g_print ("%s\n", g_test_result_names[result]);
if (fail && test_mode_fatal)
{
if (test_tap_log)
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g_test_tap_print (0, FALSE, "Bail out!\n");
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g_abort ();
}
if (result == G_TEST_RUN_SKIPPED || result == G_TEST_RUN_INCOMPLETE)
test_skipped_count++;
break;
case G_TEST_LOG_SKIP_CASE:
if (test_tap_log)
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{
g_test_tap_print (subtest_level, FALSE, "ok %d %s # SKIP\n",
test_run_count, string1);
}
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break;
case G_TEST_LOG_MIN_RESULT:
if (test_tap_log)
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g_print ("min perf: %s\n", string1);
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else if (g_test_verbose ())
g_print ("(MINPERF:%s)\n", string1);
break;
case G_TEST_LOG_MAX_RESULT:
if (test_tap_log)
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g_print ("max perf: %s\n", string1);
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else if (g_test_verbose ())
g_print ("(MAXPERF:%s)\n", string1);
break;
case G_TEST_LOG_MESSAGE:
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if (test_tap_log)
g_print ("%s\n", string1);
else if (g_test_verbose ())
g_print ("(MSG: %s)\n", string1);
break;
case G_TEST_LOG_ERROR:
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if (test_tap_log)
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{
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char *message = g_strdup (string1);
if (message)
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{
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char *line = message;
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while ((line = strchr (line, '\n')))
*(line++) = ' ';
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message = g_strstrip (message);
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}
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if (test_run_name && *test_run_name != '\0')
{
if (message && *message != '\0')
g_test_tap_print (subtest_level, FALSE, "not ok %s - %s\n",
test_run_name, message);
else
g_test_tap_print (subtest_level, FALSE, "not ok %s\n",
test_run_name);
g_clear_pointer (&message, g_free);
}
if (message && *message != '\0')
g_test_tap_print (subtest_level, FALSE, "Bail out! %s\n", message);
else
g_test_tap_print (subtest_level, FALSE, "Bail out!\n");
g_free (message);
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}
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else if (g_test_verbose ())
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{
g_print ("(ERROR: %s)\n", string1);
}
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break;
default: ;
}
msg.log_type = lbit;
msg.n_strings = (string1 != NULL) + (string1 && string2);
msg.strings = astrings;
astrings[0] = (gchar*) string1;
astrings[1] = astrings[0] ? (gchar*) string2 : NULL;
msg.n_nums = n_args;
msg.nums = largs;
dbuffer = g_test_log_dump (&msg, &dbufferlen);
g_test_log_send (dbufferlen, dbuffer);
g_free (dbuffer);
switch (lbit)
{
case G_TEST_LOG_START_CASE:
if (test_tap_log)
;
else if (g_test_verbose ())
g_print ("GTest: run: %s\n", string1);
else if (!g_test_quiet ())
g_print ("%s: ", string1);
break;
default: ;
}
}
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/**
* g_test_disable_crash_reporting:
*
* Attempt to disable system crash reporting infrastructure.
*
* This function should be called before exercising code paths that are
* expected or intended to crash, to avoid wasting resources in system-wide
* crash collection infrastructure such as systemd-coredump or abrt.
*
* Since: 2.78
*/
void
g_test_disable_crash_reporting (void)
{
#ifdef HAVE_SYS_RESOURCE_H
struct rlimit limit = { 0, 0 };
(void) setrlimit (RLIMIT_CORE, &limit);
#endif
#if defined(HAVE_PRCTL) && defined(PR_SET_DUMPABLE)
/* On Linux, RLIMIT_CORE = 0 is ignored if core dumps are
* configured to be written to a pipe, but PR_SET_DUMPABLE is not. */
(void) prctl (PR_SET_DUMPABLE, 0, 0, 0, 0);
#endif
}
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/* We intentionally parse the command line without GOptionContext
* because otherwise you would never be able to test it.
*/
static void
parse_args (gint *argc_p,
gchar ***argv_p)
{
guint argc = *argc_p;
gchar **argv = *argv_p;
guint i, e;
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test_argv0 = argv[0]; /* will be NULL iff argc == 0 */
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test_initial_cwd = g_get_current_dir ();
/* parse known args */
for (i = 1; i < argc; i++)
{
if (strcmp (argv[i], "--g-fatal-warnings") == 0)
{
GLogLevelFlags fatal_mask = (GLogLevelFlags) g_log_set_always_fatal ((GLogLevelFlags) G_LOG_FATAL_MASK);
fatal_mask = (GLogLevelFlags) (fatal_mask | G_LOG_LEVEL_WARNING | G_LOG_LEVEL_CRITICAL);
g_log_set_always_fatal (fatal_mask);
argv[i] = NULL;
}
else if (strcmp (argv[i], "--keep-going") == 0 ||
strcmp (argv[i], "-k") == 0)
{
test_mode_fatal = FALSE;
argv[i] = NULL;
}
else if (strcmp (argv[i], "--debug-log") == 0)
{
test_debug_log = TRUE;
argv[i] = NULL;
}
else if (strcmp (argv[i], "--tap") == 0)
{
test_tap_log = TRUE;
argv[i] = NULL;
}
else if (strcmp ("--GTestLogFD", argv[i]) == 0 || strncmp ("--GTestLogFD=", argv[i], 13) == 0)
{
gchar *equal = argv[i] + 12;
if (*equal == '=')
test_log_fd = g_ascii_strtoull (equal + 1, NULL, 0);
else if (i + 1 < argc)
{
argv[i++] = NULL;
test_log_fd = g_ascii_strtoull (argv[i], NULL, 0);
}
argv[i] = NULL;
/* Force non-TAP output when using gtester */
test_tap_log = FALSE;
}
else if (strcmp ("--GTestSkipCount", argv[i]) == 0 || strncmp ("--GTestSkipCount=", argv[i], 17) == 0)
{
gchar *equal = argv[i] + 16;
if (*equal == '=')
test_startup_skip_count = g_ascii_strtoull (equal + 1, NULL, 0);
else if (i + 1 < argc)
{
argv[i++] = NULL;
test_startup_skip_count = g_ascii_strtoull (argv[i], NULL, 0);
}
argv[i] = NULL;
}
else if (strcmp ("--GTestSubprocess", argv[i]) == 0)
{
test_in_subprocess = TRUE;
/* We typically expect these child processes to crash, and some
* tests spawn a *lot* of them. Avoid spamming system crash
* collection programs such as systemd-coredump and abrt.
*/
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g_test_disable_crash_reporting ();
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argv[i] = NULL;
/* Force non-TAP output when spawning a subprocess, since people often
* test the stdout/stderr of the subprocess strictly */
test_tap_log = FALSE;
}
else if (strcmp ("-p", argv[i]) == 0 || strncmp ("-p=", argv[i], 3) == 0)
{
gchar *equal = argv[i] + 2;
if (*equal == '=')
test_paths = g_slist_prepend (test_paths, equal + 1);
else if (i + 1 < argc)
{
argv[i++] = NULL;
test_paths = g_slist_prepend (test_paths, argv[i]);
}
argv[i] = NULL;
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if (test_prefix_extended) {
printf ("do not mix [-r | --run-prefix] with '-p'\n");
exit (1);
}
test_prefix = TRUE;
}
else if (strcmp ("-r", argv[i]) == 0 ||
strncmp ("-r=", argv[i], 3) == 0 ||
strcmp ("--run-prefix", argv[i]) == 0 ||
strncmp ("--run-prefix=", argv[i], 13) == 0)
{
gchar *equal = argv[i] + 2;
if (*equal == '=')
test_paths = g_slist_prepend (test_paths, equal + 1);
else if (i + 1 < argc)
{
argv[i++] = NULL;
test_paths = g_slist_prepend (test_paths, argv[i]);
}
argv[i] = NULL;
if (test_prefix) {
printf ("do not mix [-r | --run-prefix] with '-p'\n");
exit (1);
}
test_prefix_extended = TRUE;
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}
else if (strcmp ("-s", argv[i]) == 0 || strncmp ("-s=", argv[i], 3) == 0)
{
gchar *equal = argv[i] + 2;
if (*equal == '=')
test_paths_skipped = g_slist_prepend (test_paths_skipped, equal + 1);
else if (i + 1 < argc)
{
argv[i++] = NULL;
test_paths_skipped = g_slist_prepend (test_paths_skipped, argv[i]);
}
argv[i] = NULL;
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if (test_prefix_extended_skipped) {
printf ("do not mix [-x | --skip-prefix] with '-s'\n");
exit (1);
}
test_prefix_skipped = TRUE;
}
else if (strcmp ("-x", argv[i]) == 0 ||
strncmp ("-x=", argv[i], 3) == 0 ||
strcmp ("--skip-prefix", argv[i]) == 0 ||
strncmp ("--skip-prefix=", argv[i], 14) == 0)
{
gchar *equal = argv[i] + 2;
if (*equal == '=')
test_paths_skipped = g_slist_prepend (test_paths_skipped, equal + 1);
else if (i + 1 < argc)
{
argv[i++] = NULL;
test_paths_skipped = g_slist_prepend (test_paths_skipped, argv[i]);
}
argv[i] = NULL;
if (test_prefix_skipped) {
printf ("do not mix [-x | --skip-prefix] with '-s'\n");
exit (1);
}
test_prefix_extended_skipped = TRUE;
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}
else if (strcmp ("-m", argv[i]) == 0 || strncmp ("-m=", argv[i], 3) == 0)
{
gchar *equal = argv[i] + 2;
const gchar *mode = "";
if (*equal == '=')
mode = equal + 1;
else if (i + 1 < argc)
{
argv[i++] = NULL;
mode = argv[i];
}
if (strcmp (mode, "perf") == 0)
mutable_test_config_vars.test_perf = TRUE;
else if (strcmp (mode, "slow") == 0)
mutable_test_config_vars.test_quick = FALSE;
else if (strcmp (mode, "thorough") == 0)
mutable_test_config_vars.test_quick = FALSE;
else if (strcmp (mode, "quick") == 0)
{
mutable_test_config_vars.test_quick = TRUE;
mutable_test_config_vars.test_perf = FALSE;
}
else if (strcmp (mode, "undefined") == 0)
mutable_test_config_vars.test_undefined = TRUE;
else if (strcmp (mode, "no-undefined") == 0)
mutable_test_config_vars.test_undefined = FALSE;
else
g_error ("unknown test mode: -m %s", mode);
argv[i] = NULL;
}
else if (strcmp ("-q", argv[i]) == 0 || strcmp ("--quiet", argv[i]) == 0)
{
mutable_test_config_vars.test_quiet = TRUE;
mutable_test_config_vars.test_verbose = FALSE;
argv[i] = NULL;
}
else if (strcmp ("--verbose", argv[i]) == 0)
{
mutable_test_config_vars.test_quiet = FALSE;
mutable_test_config_vars.test_verbose = TRUE;
argv[i] = NULL;
}
else if (strcmp ("-l", argv[i]) == 0)
{
test_run_list = TRUE;
argv[i] = NULL;
}
else if (strcmp ("--seed", argv[i]) == 0 || strncmp ("--seed=", argv[i], 7) == 0)
{
gchar *equal = argv[i] + 6;
if (*equal == '=')
test_run_seedstr = equal + 1;
else if (i + 1 < argc)
{
argv[i++] = NULL;
test_run_seedstr = argv[i];
}
argv[i] = NULL;
}
else if (strcmp ("-?", argv[i]) == 0 ||
strcmp ("-h", argv[i]) == 0 ||
strcmp ("--help", argv[i]) == 0)
{
printf ("Usage:\n"
" %s [OPTION...]\n\n"
"Help Options:\n"
" -h, --help Show help options\n\n"
"Test Options:\n"
" --g-fatal-warnings Make all warnings fatal\n"
" -l List test cases available in a test executable\n"
" -m {perf|slow|thorough|quick} Execute tests according to mode\n"
" -m {undefined|no-undefined} Execute tests according to mode\n"
" -p TESTPATH Only start test cases matching TESTPATH\n"
" -s TESTPATH Skip all tests matching TESTPATH\n"
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" [-r | --run-prefix] PREFIX Only start test cases (or suites) matching PREFIX (incompatible with -p).\n"
" Unlike the -p option (which only goes one level deep), this option would \n"
" run all tests path that have PREFIX at the beginning of their name.\n"
" Note that the prefix used should be a valid test path (and not a simple prefix).\n"
" [-x | --skip-prefix] PREFIX Skip all tests matching PREFIX (incompatible with -s)\n"
" Unlike the -s option (which only skips the exact TESTPATH), this option will \n"
" skip all the tests that begins with PREFIX).\n"
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" --seed=SEEDSTRING Start tests with random seed SEEDSTRING\n"
" --debug-log debug test logging output\n"
" -q, --quiet Run tests quietly\n"
" --verbose Run tests verbosely\n",
argv[0]);
exit (0);
}
}
/* We've been prepending to test_paths, but its order matters, so
* permute it */
test_paths = g_slist_reverse (test_paths);
/* collapse argv */
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e = 0;
for (i = 0; i < argc; i++)
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if (argv[i])
{
argv[e++] = argv[i];
if (i >= e)
argv[i] = NULL;
}
*argc_p = e;
}
/* A fairly naive `rm -rf` implementation to clean up after unit tests. */
static void
rm_rf (const gchar *path)
{
GDir *dir = NULL;
const gchar *entry;
dir = g_dir_open (path, 0, NULL);
if (dir == NULL)
{
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/* Assume its a file. Ignore failure. */
(void) g_remove (path);
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return;
}
while ((entry = g_dir_read_name (dir)) != NULL)
{
gchar *sub_path = g_build_filename (path, entry, NULL);
rm_rf (sub_path);
g_free (sub_path);
}
g_dir_close (dir);
g_rmdir (path);
}
/* Implement the %G_TEST_OPTION_ISOLATE_DIRS option, iff its enabled. Create
* a temporary directory for this unit test (disambiguated using @test_run_name)
* and use g_set_user_dirs() to point various XDG directories into it, without
* having to call setenv() in a process which potentially has threads running.
*
* Note that this is called for each unit test, and hence wont have taken
* effect before g_test_run() is called in the unit tests main(). Hence
* references to XDG variables in main() will not be using the temporary
* directory. */
static gboolean
test_do_isolate_dirs (GError **error)
{
gchar *subdir = NULL;
gchar *home_dir = NULL, *cache_dir = NULL, *config_dir = NULL;
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gchar *state_dir = NULL, *data_dir = NULL, *runtime_dir = NULL;
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gchar *config_dirs[3];
gchar *data_dirs[3];
if (!test_isolate_dirs)
return TRUE;
/* The @test_run_name includes the test suites, so may be several directories
* deep. Add a `.dirs` directory to contain all the paths we create, and
* guarantee none of them clash with test paths below the current one test
* paths may not contain components starting with `.`. */
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subdir = g_build_filename (test_tmpdir, test_run_name_path, ".dirs", NULL);
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/* We have to create the runtime directory (because it must be bound to
* the session lifetime, which we consider to be the lifetime of the unit
* test for testing purposes see
* https://standards.freedesktop.org/basedir-spec/basedir-spec-latest.html.
* We dont need to create the other directories the specification
* requires that client code create them if they dont exist. Not creating
* them automatically is a good test of clients adherence to the spec
* and error handling of missing directories. */
runtime_dir = g_build_filename (subdir, "runtime", NULL);
if (g_mkdir_with_parents (runtime_dir, 0700) != 0)
{
gint saved_errno = errno;
g_set_error (error, G_FILE_ERROR, g_file_error_from_errno (saved_errno),
"Failed to create XDG_RUNTIME_DIR %s: %s",
runtime_dir, g_strerror (saved_errno));
g_free (runtime_dir);
g_free (subdir);
return FALSE;
}
home_dir = g_build_filename (subdir, "home", NULL);
cache_dir = g_build_filename (subdir, "cache", NULL);
config_dir = g_build_filename (subdir, "config", NULL);
data_dir = g_build_filename (subdir, "data", NULL);
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state_dir = g_build_filename (subdir, "state", NULL);
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config_dirs[0] = g_build_filename (subdir, "system-config1", NULL);
config_dirs[1] = g_build_filename (subdir, "system-config2", NULL);
config_dirs[2] = NULL;
data_dirs[0] = g_build_filename (subdir, "system-data1", NULL);
data_dirs[1] = g_build_filename (subdir, "system-data2", NULL);
data_dirs[2] = NULL;
/* Remember to update the documentation for %G_TEST_OPTION_ISOLATE_DIRS if
* this list changes. */
g_set_user_dirs ("HOME", home_dir,
"XDG_CACHE_HOME", cache_dir,
"XDG_CONFIG_DIRS", config_dirs,
"XDG_CONFIG_HOME", config_dir,
"XDG_DATA_DIRS", data_dirs,
"XDG_DATA_HOME", data_dir,
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"XDG_STATE_HOME", state_dir,
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"XDG_RUNTIME_DIR", runtime_dir,
NULL);
g_free (runtime_dir);
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g_free (state_dir);
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g_free (data_dir);
g_free (config_dir);
g_free (cache_dir);
g_free (home_dir);
g_free (data_dirs[1]);
g_free (data_dirs[0]);
g_free (config_dirs[1]);
g_free (config_dirs[0]);
g_free (subdir);
return TRUE;
}
/* Clean up after test_do_isolate_dirs(). */
static void
test_rm_isolate_dirs (void)
{
gchar *subdir = NULL;
if (!test_isolate_dirs)
return;
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subdir = g_build_filename (test_tmpdir, test_run_name_path, NULL);
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rm_rf (subdir);
g_free (subdir);
}
/**
* g_test_init:
* @argc: Address of the @argc parameter of the main() function.
* Changed if any arguments were handled.
* @argv: Address of the @argv parameter of main().
* Any parameters understood by g_test_init() stripped before return.
* @...: %NULL-terminated list of special options, documented below.
*
* Initialize the GLib testing framework, e.g. by seeding the
* test random number generator, the name for g_get_prgname()
* and parsing test related command line args.
*
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* This should be called before calling any other `g_test_*()` functions.
*
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* So far, the following arguments are understood:
*
* - `-l`: List test cases available in a test executable.
* - `--seed=SEED`: Provide a random seed to reproduce test
* runs using random numbers.
* - `--verbose`: Run tests verbosely.
* - `-q`, `--quiet`: Run tests quietly.
* - `-p PATH`: Execute all tests matching the given path.
* - `-s PATH`: Skip all tests matching the given path.
* This can also be used to force a test to run that would otherwise
* be skipped (ie, a test whose name contains "/subprocess").
* - `-m {perf|slow|thorough|quick|undefined|no-undefined}`: Execute tests according to these test modes:
*
* `perf`: Performance tests, may take long and report results (off by default).
*
* `slow`, `thorough`: Slow and thorough tests, may take quite long and maximize coverage
* (off by default).
*
* `quick`: Quick tests, should run really quickly and give good coverage (the default).
*
* `undefined`: Tests for undefined behaviour, may provoke programming errors
* under g_test_trap_subprocess() or g_test_expect_message() to check
* that appropriate assertions or warnings are given (the default).
*
* `no-undefined`: Avoid tests for undefined behaviour
*
* - `--debug-log`: Debug test logging output.
*
* Options which can be passed to @... are:
*
* - `"no_g_set_prgname"`: Causes g_test_init() to not call g_set_prgname().
* - %G_TEST_OPTION_ISOLATE_DIRS: Creates a unique temporary directory for each
* unit test and uses g_set_user_dirs() to set XDG directories to point into
* that temporary directory for the duration of the unit test. See the
* documentation for %G_TEST_OPTION_ISOLATE_DIRS.
*
* Since 2.58, if tests are compiled with `G_DISABLE_ASSERT` defined,
* g_test_init() will print an error and exit. This is to prevent no-op tests
* from being executed, as g_assert() is commonly (erroneously) used in unit
* tests, and is a no-op when compiled with `G_DISABLE_ASSERT`. Ensure your
* tests are compiled without `G_DISABLE_ASSERT` defined.
*
* Since: 2.16
*/
void
(g_test_init) (int *argc,
char ***argv,
...)
{
static char seedstr[4 + 4 * 8 + 1];
va_list args;
gpointer option;
/* make warnings and criticals fatal for all test programs */
GLogLevelFlags fatal_mask = (GLogLevelFlags) g_log_set_always_fatal ((GLogLevelFlags) G_LOG_FATAL_MASK);
fatal_mask = (GLogLevelFlags) (fatal_mask | G_LOG_LEVEL_WARNING | G_LOG_LEVEL_CRITICAL);
g_log_set_always_fatal (fatal_mask);
/* check caller args */
g_return_if_fail (argc != NULL);
g_return_if_fail (argv != NULL);
g_return_if_fail (g_test_config_vars->test_initialized == FALSE);
mutable_test_config_vars.test_initialized = TRUE;
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#ifdef _GLIB_ADDRESS_SANITIZER
mutable_test_config_vars.test_undefined = FALSE;
#endif
#ifdef G_OS_WIN32
// don't open a window for errors (like the "abort() was called one")
_CrtSetReportMode (_CRT_ERROR, _CRTDBG_MODE_FILE);
_CrtSetReportFile (_CRT_ERROR, _CRTDBG_FILE_STDERR);
// while gtest tests tend to use g_assert and friends
// if they do use the C standard assert macro we want to
// output a message to stderr, not open a popup window
_CrtSetReportMode (_CRT_ASSERT, _CRTDBG_MODE_FILE);
_CrtSetReportFile (_CRT_ASSERT, _CRTDBG_FILE_STDERR);
// in release mode abort() will pop up a windows error
// reporting dialog, let's prevent that. Only msvcrxx and
// the UCRT have this function, but there's no great way to
// detect msvcrxx (that I know of) so only call this when using
// the UCRT
#ifdef _UCRT
_set_abort_behavior (0, _CALL_REPORTFAULT);
#endif
#endif
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va_start (args, argv);
while ((option = va_arg (args, char *)))
{
if (g_strcmp0 (option, "no_g_set_prgname") == 0)
no_g_set_prgname = TRUE;
else if (g_strcmp0 (option, G_TEST_OPTION_ISOLATE_DIRS) == 0)
test_isolate_dirs = TRUE;
}
va_end (args);
/* parse args, sets up mode, changes seed, etc. */
parse_args (argc, argv);
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if (test_run_seedstr == NULL)
{
/* setup random seed string */
g_snprintf (seedstr, sizeof (seedstr), "R02S%08x%08x%08x%08x",
g_random_int(), g_random_int(), g_random_int(), g_random_int());
test_run_seedstr = seedstr;
}
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if (!g_get_prgname () && !no_g_set_prgname)
g_set_prgname_once ((*argv)[0]);
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if (g_getenv ("G_TEST_ROOT_PROCESS"))
{
test_is_subtest = TRUE;
}
else if (!g_setenv ("G_TEST_ROOT_PROCESS", test_argv0 ? test_argv0 : "root", TRUE))
{
g_printerr ("%s: Failed to set environment variable %s\n",
test_argv0, "G_TEST_ROOT_PROCESS");
exit (1);
}
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/* Set up the temporary directory for isolating the test. We have to do this
* early, as we want the return values from g_get_user_data_dir() (and
* friends) to return subdirectories of the temporary directory throughout
* the setup function, test, and teardown function, for each unit test.
* See test_do_isolate_dirs().
*
* The directory is deleted at the bottom of g_test_run().
*
* Rather than setting the XDG_* environment variables we use a new
* G_TEST_TMPDIR variable which gives the top-level temporary directory. This
* allows test subprocesses to reuse the same temporary directory when
* g_test_init() is called in them. */
if (test_isolate_dirs)
{
if (g_getenv ("G_TEST_TMPDIR") == NULL)
{
gchar *test_prgname = NULL;
gchar *tmpl = NULL;
GError *local_error = NULL;
test_prgname = g_path_get_basename (g_get_prgname ());
if (*test_prgname == '\0')
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{
g_free (test_prgname);
test_prgname = g_strdup ("unknown");
}
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tmpl = g_strdup_printf ("test_%s_XXXXXX", test_prgname);
g_free (test_prgname);
test_isolate_dirs_tmpdir = g_dir_make_tmp (tmpl, &local_error);
if (local_error != NULL)
{
g_printerr ("%s: Failed to create temporary directory: %s\n",
(*argv)[0], local_error->message);
g_error_free (local_error);
exit (1);
}
g_free (tmpl);
/* Propagate the temporary directory to subprocesses. */
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if (!g_setenv ("G_TEST_TMPDIR", test_isolate_dirs_tmpdir, TRUE))
{
g_printerr ("%s: Failed to set environment variable %s\n",
(*argv)[0], "G_TEST_TMPDIR");
exit (1);
}
_g_unset_cached_tmp_dir ();
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/* And clear the traditional environment variables so subprocesses
* spawned by the code under test cant trash anything. If a test
* spawns a process, the test is responsible for propagating
* appropriate environment variables.
*
* We assume that any in-process code will use g_get_user_data_dir()
* and friends, rather than getenv() directly.
*
* We set them to /dev/null as that should fairly obviously not
* accidentally work, and should be fairly greppable. */
{
const gchar *overridden_environment_variables[] =
{
"HOME",
"XDG_CACHE_HOME",
"XDG_CONFIG_DIRS",
"XDG_CONFIG_HOME",
"XDG_DATA_DIRS",
"XDG_DATA_HOME",
"XDG_RUNTIME_DIR",
};
gsize i;
for (i = 0; i < G_N_ELEMENTS (overridden_environment_variables); i++)
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{
if (!g_setenv (overridden_environment_variables[i], "/dev/null", TRUE))
{
g_printerr ("%s: Failed to set environment variable %s\n",
(*argv)[0], overridden_environment_variables[i]);
exit (1);
}
}
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}
}
/* Cache this for the remainder of this process lifetime. */
test_tmpdir = g_getenv ("G_TEST_TMPDIR");
}
/* verify GRand reliability, needed for reliable seeds */
if (1)
{
GRand *rg = g_rand_new_with_seed (0xc8c49fb6);
guint32 t1 = g_rand_int (rg), t2 = g_rand_int (rg), t3 = g_rand_int (rg), t4 = g_rand_int (rg);
/* g_print ("GRand-current: 0x%x 0x%x 0x%x 0x%x\n", t1, t2, t3, t4); */
if (t1 != 0xfab39f9b || t2 != 0xb948fb0e || t3 != 0x3d31be26 || t4 != 0x43a19d66)
g_warning ("random numbers are not GRand-2.2 compatible, seeds may be broken (check $G_RANDOM_VERSION)");
g_rand_free (rg);
}
/* check rand seed */
test_run_seed (test_run_seedstr);
/* report program start */
g_log_set_default_handler (gtest_default_log_handler, NULL);
g_test_log (G_TEST_LOG_START_BINARY, g_get_prgname(), test_run_seedstr, 0, NULL);
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test_argv0_dirname = (test_argv0 != NULL) ? g_path_get_dirname (test_argv0) : g_strdup (".");
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/* Make sure we get the real dirname that the test was run from */
if (g_str_has_suffix (test_argv0_dirname, "/.libs"))
{
gchar *tmp;
tmp = g_path_get_dirname (test_argv0_dirname);
g_free (test_argv0_dirname);
test_argv0_dirname = tmp;
}
test_disted_files_dir = g_getenv ("G_TEST_SRCDIR");
if (!test_disted_files_dir)
test_disted_files_dir = test_argv0_dirname;
test_built_files_dir = g_getenv ("G_TEST_BUILDDIR");
if (!test_built_files_dir)
test_built_files_dir = test_argv0_dirname;
}
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static void
test_cleanup (void)
{
/* Free statically allocated variables */
g_clear_pointer (&test_run_rand, g_rand_free);
g_clear_pointer (&test_argv0_dirname, g_free);
g_clear_pointer (&test_initial_cwd, g_free);
}
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static void
test_run_seed (const gchar *rseed)
{
guint seed_failed = 0;
if (test_run_rand)
g_rand_free (test_run_rand);
test_run_rand = NULL;
while (strchr (" \t\v\r\n\f", *rseed))
rseed++;
if (strncmp (rseed, "R02S", 4) == 0) /* seed for random generator 02 (GRand-2.2) */
{
const char *s = rseed + 4;
if (strlen (s) >= 32) /* require 4 * 8 chars */
{
guint32 seedarray[4];
gchar *p, hexbuf[9] = { 0, };
memcpy (hexbuf, s + 0, 8);
seedarray[0] = g_ascii_strtoull (hexbuf, &p, 16);
seed_failed += p != NULL && *p != 0;
memcpy (hexbuf, s + 8, 8);
seedarray[1] = g_ascii_strtoull (hexbuf, &p, 16);
seed_failed += p != NULL && *p != 0;
memcpy (hexbuf, s + 16, 8);
seedarray[2] = g_ascii_strtoull (hexbuf, &p, 16);
seed_failed += p != NULL && *p != 0;
memcpy (hexbuf, s + 24, 8);
seedarray[3] = g_ascii_strtoull (hexbuf, &p, 16);
seed_failed += p != NULL && *p != 0;
if (!seed_failed)
{
test_run_rand = g_rand_new_with_seed_array (seedarray, 4);
return;
}
}
}
g_error ("Unknown or invalid random seed: %s", rseed);
}
/**
* g_test_rand_int:
*
* Get a reproducible random integer number.
*
* The random numbers generated by the g_test_rand_*() family of functions
* change with every new test program start, unless the --seed option is
* given when starting test programs.
*
* For individual test cases however, the random number generator is
* reseeded, to avoid dependencies between tests and to make --seed
* effective for all test cases.
*
* Returns: a random number from the seeded random number generator.
*
* Since: 2.16
*/
gint32
g_test_rand_int (void)
{
gint32 r;
G_LOCK (test_run_rand);
r = g_rand_int (test_run_rand);
G_UNLOCK (test_run_rand);
return r;
}
/**
* g_test_rand_int_range:
* @begin: the minimum value returned by this function
* @end: the smallest value not to be returned by this function
*
* Get a reproducible random integer number out of a specified range,
* see g_test_rand_int() for details on test case random numbers.
*
* Returns: a number with @begin <= number < @end.
*
* Since: 2.16
*/
gint32
g_test_rand_int_range (gint32 begin,
gint32 end)
{
gint32 r;
G_LOCK (test_run_rand);
r = g_rand_int_range (test_run_rand, begin, end);
G_UNLOCK (test_run_rand);
return r;
}
/**
* g_test_rand_double:
*
* Get a reproducible random floating point number,
* see g_test_rand_int() for details on test case random numbers.
*
* Returns: a random number from the seeded random number generator.
*
* Since: 2.16
*/
double
g_test_rand_double (void)
{
double r;
G_LOCK (test_run_rand);
r = g_rand_double (test_run_rand);
G_UNLOCK (test_run_rand);
return r;
}
/**
* g_test_rand_double_range:
* @range_start: the minimum value returned by this function
* @range_end: the minimum value not returned by this function
*
* Get a reproducible random floating pointer number out of a specified range,
* see g_test_rand_int() for details on test case random numbers.
*
* Returns: a number with @range_start <= number < @range_end.
*
* Since: 2.16
*/
double
g_test_rand_double_range (double range_start,
double range_end)
{
double r;
G_LOCK (test_run_rand);
r = g_rand_double_range (test_run_rand, range_start, range_end);
G_UNLOCK (test_run_rand);
return r;
}
/**
* g_test_timer_start:
*
* Start a timing test. Call g_test_timer_elapsed() when the task is supposed
* to be done. Call this function again to restart the timer.
*
* Since: 2.16
*/
void
g_test_timer_start (void)
{
if (!test_user_timer)
test_user_timer = g_timer_new();
test_user_stamp = 0;
g_timer_start (test_user_timer);
}
/**
* g_test_timer_elapsed:
*
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* Get the number of seconds since the last start of the timer with
* g_test_timer_start().
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*
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* Returns: the time since the last start of the timer in seconds, as a double
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*
* Since: 2.16
*/
double
g_test_timer_elapsed (void)
{
test_user_stamp = test_user_timer ? g_timer_elapsed (test_user_timer, NULL) : 0;
return test_user_stamp;
}
/**
* g_test_timer_last:
*
* Report the last result of g_test_timer_elapsed().
*
* Returns: the last result of g_test_timer_elapsed(), as a double
*
* Since: 2.16
*/
double
g_test_timer_last (void)
{
return test_user_stamp;
}
/**
* g_test_minimized_result:
* @minimized_quantity: the reported value
* @format: the format string of the report message
* @...: arguments to pass to the printf() function
*
* Report the result of a performance or measurement test.
* The test should generally strive to minimize the reported
* quantities (smaller values are better than larger ones),
* this and @minimized_quantity can determine sorting
* order for test result reports.
*
* Since: 2.16
*/
void
g_test_minimized_result (double minimized_quantity,
const char *format,
...)
{
long double largs = minimized_quantity;
gchar *buffer;
va_list args;
va_start (args, format);
buffer = g_strdup_vprintf (format, args);
va_end (args);
g_test_log (G_TEST_LOG_MIN_RESULT, buffer, NULL, 1, &largs);
g_free (buffer);
}
/**
* g_test_maximized_result:
* @maximized_quantity: the reported value
* @format: the format string of the report message
* @...: arguments to pass to the printf() function
*
* Report the result of a performance or measurement test.
* The test should generally strive to maximize the reported
* quantities (larger values are better than smaller ones),
* this and @maximized_quantity can determine sorting
* order for test result reports.
*
* Since: 2.16
*/
void
g_test_maximized_result (double maximized_quantity,
const char *format,
...)
{
long double largs = maximized_quantity;
gchar *buffer;
va_list args;
va_start (args, format);
buffer = g_strdup_vprintf (format, args);
va_end (args);
g_test_log (G_TEST_LOG_MAX_RESULT, buffer, NULL, 1, &largs);
g_free (buffer);
}
/**
* g_test_message:
* @format: the format string
* @...: printf-like arguments to @format
*
* Add a message to the test report.
*
* Since: 2.16
*/
void
g_test_message (const char *format,
...)
{
gchar *buffer;
va_list args;
va_start (args, format);
buffer = g_strdup_vprintf (format, args);
va_end (args);
g_test_log (G_TEST_LOG_MESSAGE, buffer, NULL, 0, NULL);
g_free (buffer);
}
/**
* g_test_bug_base:
* @uri_pattern: the base pattern for bug URIs
*
* Specify the base URI for bug reports.
*
* The base URI is used to construct bug report messages for
* g_test_message() when g_test_bug() is called.
* Calling this function outside of a test case sets the
* default base URI for all test cases. Calling it from within
* a test case changes the base URI for the scope of the test
* case only.
* Bug URIs are constructed by appending a bug specific URI
* portion to @uri_pattern, or by replacing the special string
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* `%s` within @uri_pattern if that is present.
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*
* If g_test_bug_base() is not called, bug URIs are formed solely
* from the value provided by g_test_bug().
*
* Since: 2.16
*/
void
g_test_bug_base (const char *uri_pattern)
{
g_free (test_uri_base);
test_uri_base = g_strdup (uri_pattern);
}
/**
* g_test_bug:
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* @bug_uri_snippet: Bug specific bug tracker URI or URI portion.
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*
* This function adds a message to test reports that
* associates a bug URI with a test case.
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*
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* Bug URIs are constructed from a base URI set with g_test_bug_base()
* and @bug_uri_snippet. If g_test_bug_base() has not been called, it is
* assumed to be the empty string, so a full URI can be provided to
* g_test_bug() instead.
*
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* Since GLib 2.70, the base URI is not prepended to @bug_uri_snippet if it
* is already a valid URI.
*
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* Since: 2.16
* See also: g_test_summary()
*/
void
g_test_bug (const char *bug_uri_snippet)
{
const char *c = NULL;
g_return_if_fail (bug_uri_snippet != NULL);
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if (g_str_has_prefix (bug_uri_snippet, "http:") ||
g_str_has_prefix (bug_uri_snippet, "https:"))
{
g_test_message ("Bug Reference: %s", bug_uri_snippet);
return;
}
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if (test_uri_base != NULL)
c = strstr (test_uri_base, "%s");
if (c)
{
char *b = g_strndup (test_uri_base, c - test_uri_base);
char *s = g_strconcat (b, bug_uri_snippet, c + 2, NULL);
g_free (b);
g_test_message ("Bug Reference: %s", s);
g_free (s);
}
else
g_test_message ("Bug Reference: %s%s",
test_uri_base ? test_uri_base : "", bug_uri_snippet);
}
/**
* g_test_summary:
* @summary: One or two sentences summarising what the test checks, and how it
* checks it.
*
* Set the summary for a test, which describes what the test checks, and how it
* goes about checking it. This may be included in test report output, and is
* useful documentation for anyone reading the source code or modifying a test
* in future. It must be a single line.
*
* This should be called at the top of a test function.
*
* For example:
* |[<!-- language="C" -->
* static void
* test_array_sort (void)
* {
* g_test_summary ("Test my_array_sort() sorts the array correctly and stably, "
* "including testing zero length and one-element arrays.");
*
*
* }
* ]|
*
* Since: 2.62
* See also: g_test_bug()
*/
void
g_test_summary (const char *summary)
{
g_return_if_fail (summary != NULL);
g_return_if_fail (strchr (summary, '\n') == NULL);
g_return_if_fail (strchr (summary, '\r') == NULL);
g_test_message ("%s summary: %s", test_run_name, summary);
}
/**
* g_test_get_root:
*
* Get the toplevel test suite for the test path API.
*
* Returns: the toplevel #GTestSuite
*
* Since: 2.16
*/
GTestSuite*
g_test_get_root (void)
{
if (!test_suite_root)
{
test_suite_root = g_test_create_suite ("root");
g_free (test_suite_root->name);
test_suite_root->name = g_strdup ("");
}
return test_suite_root;
}
/**
* g_test_run:
*
* Runs all tests under the toplevel suite which can be retrieved
* with g_test_get_root(). Similar to g_test_run_suite(), the test
* cases to be run are filtered according to test path arguments
* (`-p testpath` and `-s testpath`) as parsed by g_test_init().
* g_test_run_suite() or g_test_run() may only be called once in a
* program.
*
* In general, the tests and sub-suites within each suite are run in
* the order in which they are defined. However, note that prior to
* GLib 2.36, there was a bug in the `g_test_add_*`
* functions which caused them to create multiple suites with the same
* name, meaning that if you created tests "/foo/simple",
* "/bar/simple", and "/foo/using-bar" in that order, they would get
* run in that order (since g_test_run() would run the first "/foo"
* suite, then the "/bar" suite, then the second "/foo" suite). As of
* 2.36, this bug is fixed, and adding the tests in that order would
* result in a running order of "/foo/simple", "/foo/using-bar",
* "/bar/simple". If this new ordering is sub-optimal (because it puts
* more-complicated tests before simpler ones, making it harder to
* figure out exactly what has failed), you can fix it by changing the
* test paths to group tests by suite in a way that will result in the
* desired running order. Eg, "/simple/foo", "/simple/bar",
* "/complex/foo-using-bar".
*
* However, you should never make the actual result of a test depend
* on the order that tests are run in. If you need to ensure that some
* particular code runs before or after a given test case, use
* g_test_add(), which lets you specify setup and teardown functions.
*
* If all tests are skipped or marked as incomplete (expected failures),
* this function will return 0 if producing TAP output, or 77 (treated
* as "skip test" by Automake) otherwise.
*
* Returns: 0 on success, 1 on failure (assuming it returns at all),
* 0 or 77 if all tests were skipped with g_test_skip() and/or
* g_test_incomplete()
*
* Since: 2.16
*/
int
g_test_run (void)
{
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int ret;
GTestSuite *suite;
if (atexit (test_cleanup) != 0)
{
int errsv = errno;
g_error ("Unable to register test cleanup to be run at exit: %s",
g_strerror (errsv));
}
suite = g_test_get_root ();
if (g_test_run_suite (suite) != 0)
{
ret = 1;
goto out;
}
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/* Clean up the temporary directory. */
if (test_isolate_dirs_tmpdir != NULL)
{
rm_rf (test_isolate_dirs_tmpdir);
g_free (test_isolate_dirs_tmpdir);
test_isolate_dirs_tmpdir = NULL;
}
/* 77 is special to Automake's default driver, but not Automake's TAP driver
* or Perl's prove(1) TAP driver. */
if (test_tap_log)
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{
ret = 0;
goto out;
}
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if (test_run_count > 0 && test_run_count == test_skipped_count)
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{
ret = 77;
goto out;
}
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else
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{
ret = 0;
goto out;
}
out:
g_test_suite_free (suite);
return ret;
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}
/**
* g_test_create_case:
* @test_name: the name for the test case
* @data_size: the size of the fixture data structure
* @test_data: test data argument for the test functions
* @data_setup: (scope async): the function to set up the fixture data
* @data_test: (scope async): the actual test function
* @data_teardown: (scope async): the function to teardown the fixture data
*
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* Create a new #GTestCase, named @test_name.
*
* This API is fairly low level, and calling g_test_add() or g_test_add_func()
* is preferable.
*
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* When this test is executed, a fixture structure of size @data_size
* will be automatically allocated and filled with zeros. Then @data_setup is
* called to initialize the fixture. After fixture setup, the actual test
* function @data_test is called. Once the test run completes, the
* fixture structure is torn down by calling @data_teardown and
* after that the memory is automatically released by the test framework.
*
* Splitting up a test run into fixture setup, test function and
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* fixture teardown is most useful if the same fixture type is used for
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* multiple tests. In this cases, g_test_create_case() will be
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* called with the same type of fixture (the @data_size argument), but varying
* @test_name and @data_test arguments.
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*
* Returns: a newly allocated #GTestCase.
*
* Since: 2.16
*/
GTestCase*
g_test_create_case (const char *test_name,
gsize data_size,
gconstpointer test_data,
GTestFixtureFunc data_setup,
GTestFixtureFunc data_test,
GTestFixtureFunc data_teardown)
{
GTestCase *tc;
g_return_val_if_fail (test_name != NULL, NULL);
g_return_val_if_fail (strchr (test_name, '/') == NULL, NULL);
g_return_val_if_fail (test_name[0] != 0, NULL);
g_return_val_if_fail (data_test != NULL, NULL);
tc = g_slice_new0 (GTestCase);
tc->name = g_strdup (test_name);
tc->test_data = (gpointer) test_data;
tc->fixture_size = data_size;
tc->fixture_setup = (void*) data_setup;
tc->fixture_test = (void*) data_test;
tc->fixture_teardown = (void*) data_teardown;
return tc;
}
static gint
find_suite (gconstpointer l, gconstpointer s)
{
const GTestSuite *suite = l;
const gchar *str = s;
return strcmp (suite->name, str);
}
static gint
find_case (gconstpointer l, gconstpointer s)
{
const GTestCase *tc = l;
const gchar *str = s;
return strcmp (tc->name, str);
}
/**
* GTestFixtureFunc:
* @fixture: (not nullable): the test fixture
* @user_data: the data provided when registering the test
*
* The type used for functions that operate on test fixtures. This is
* used for the fixture setup and teardown functions as well as for the
* testcases themselves.
*
* @user_data is a pointer to the data that was given when registering
* the test case.
*
* @fixture will be a pointer to the area of memory allocated by the
* test framework, of the size requested. If the requested size was
* zero then @fixture will be equal to @user_data.
*
* Since: 2.28
*/
void
g_test_add_vtable (const char *testpath,
gsize data_size,
gconstpointer test_data,
GTestFixtureFunc data_setup,
GTestFixtureFunc fixture_test_func,
GTestFixtureFunc data_teardown)
{
gchar **segments;
guint ui;
GTestSuite *suite;
g_return_if_fail (testpath != NULL);
g_return_if_fail (g_path_is_absolute (testpath));
g_return_if_fail (fixture_test_func != NULL);
g_return_if_fail (!test_isolate_dirs || strstr (testpath, "/.") == NULL);
suite = g_test_get_root();
segments = g_strsplit (testpath, "/", -1);
for (ui = 0; segments[ui] != NULL; ui++)
{
const char *seg = segments[ui];
gboolean islast = segments[ui + 1] == NULL;
if (islast && !seg[0])
g_error ("invalid test case path: %s", testpath);
else if (!seg[0])
continue; /* initial or duplicate slash */
else if (!islast)
{
GSList *l;
GTestSuite *csuite;
l = g_slist_find_custom (suite->suites, seg, find_suite);
if (l)
{
csuite = l->data;
}
else
{
csuite = g_test_create_suite (seg);
g_test_suite_add_suite (suite, csuite);
}
suite = csuite;
}
else /* islast */
{
GTestCase *tc;
if (g_slist_find_custom (suite->cases, seg, find_case))
g_error ("duplicate test case path: %s", testpath);
tc = g_test_create_case (seg, data_size, test_data, data_setup, fixture_test_func, data_teardown);
g_test_suite_add (suite, tc);
}
}
g_strfreev (segments);
}
/**
* g_test_fail:
*
* Indicates that a test failed. This function can be called
* multiple times from the same test. You can use this function
* if your test failed in a recoverable way.
*
* Do not use this function if the failure of a test could cause
* other tests to malfunction.
*
* Calling this function will not stop the test from running, you
* need to return from the test function yourself. So you can
* produce additional diagnostic messages or even continue running
* the test.
*
* If not called from inside a test, this function does nothing.
*
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* Note that unlike g_test_skip() and g_test_incomplete(), this
* function does not log a message alongside the test failure.
* If details of the test failure are available, either log them with
* g_test_message() before g_test_fail(), or use g_test_fail_printf()
* instead.
*
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* Since: 2.30
**/
void
g_test_fail (void)
{
test_run_success = G_TEST_RUN_FAILURE;
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g_clear_pointer (&test_run_msg, g_free);
}
/**
* g_test_fail_printf:
* @format: the format string
* @...: printf-like arguments to @format
*
* Equivalent to g_test_fail(), but also record a message like
* g_test_skip_printf().
*
* Since: 2.70
**/
void
g_test_fail_printf (const char *format,
...)
{
va_list args;
test_run_success = G_TEST_RUN_FAILURE;
va_start (args, format);
g_free (test_run_msg);
test_run_msg = g_strdup_vprintf (format, args);
va_end (args);
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}
/**
* g_test_incomplete:
* @msg: (nullable): explanation
*
* Indicates that a test failed because of some incomplete
* functionality. This function can be called multiple times
* from the same test.
*
* Calling this function will not stop the test from running, you
* need to return from the test function yourself. So you can
* produce additional diagnostic messages or even continue running
* the test.
*
* If not called from inside a test, this function does nothing.
*
* Since: 2.38
*/
void
g_test_incomplete (const gchar *msg)
{
test_run_success = G_TEST_RUN_INCOMPLETE;
g_free (test_run_msg);
test_run_msg = g_strdup (msg);
}
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/**
* g_test_incomplete_printf:
* @format: the format string
* @...: printf-like arguments to @format
*
* Equivalent to g_test_incomplete(), but the explanation is formatted
* as if by g_strdup_printf().
*
* Since: 2.70
*/
void
g_test_incomplete_printf (const char *format,
...)
{
va_list args;
test_run_success = G_TEST_RUN_INCOMPLETE;
va_start (args, format);
g_free (test_run_msg);
test_run_msg = g_strdup_vprintf (format, args);
va_end (args);
}
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/**
* g_test_skip:
* @msg: (nullable): explanation
*
* Indicates that a test was skipped.
*
* Calling this function will not stop the test from running, you
* need to return from the test function yourself. So you can
* produce additional diagnostic messages or even continue running
* the test.
*
* If not called from inside a test, this function does nothing.
*
* Since: 2.38
*/
void
g_test_skip (const gchar *msg)
{
test_run_success = G_TEST_RUN_SKIPPED;
g_free (test_run_msg);
test_run_msg = g_strdup (msg);
}
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/**
* g_test_skip_printf:
* @format: the format string
* @...: printf-like arguments to @format
*
* Equivalent to g_test_skip(), but the explanation is formatted
* as if by g_strdup_printf().
*
* Since: 2.70
*/
void
g_test_skip_printf (const char *format,
...)
{
va_list args;
test_run_success = G_TEST_RUN_SKIPPED;
va_start (args, format);
g_free (test_run_msg);
test_run_msg = g_strdup_vprintf (format, args);
va_end (args);
}
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/**
* g_test_failed:
*
* Returns whether a test has already failed. This will
* be the case when g_test_fail(), g_test_incomplete()
* or g_test_skip() have been called, but also if an
* assertion has failed.
*
* This can be useful to return early from a test if
* continuing after a failed assertion might be harmful.
*
* The return value of this function is only meaningful
* if it is called from inside a test function.
*
* Returns: %TRUE if the test has failed
*
* Since: 2.38
*/
gboolean
g_test_failed (void)
{
return test_run_success != G_TEST_RUN_SUCCESS;
}
/**
* g_test_set_nonfatal_assertions:
*
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* Changes the behaviour of the various `g_assert_*()` macros,
* g_test_assert_expected_messages() and the various
* `g_test_trap_assert_*()` macros to not abort to program, but instead
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* call g_test_fail() and continue. (This also changes the behavior of
* g_test_fail() so that it will not cause the test program to abort
* after completing the failed test.)
*
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* Note that the g_assert_not_reached() and g_assert() macros are not
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* affected by this.
*
* This function can only be called after g_test_init().
*
* Since: 2.38
*/
void
g_test_set_nonfatal_assertions (void)
{
if (!g_test_config_vars->test_initialized)
g_error ("g_test_set_nonfatal_assertions called without g_test_init");
test_nonfatal_assertions = TRUE;
test_mode_fatal = FALSE;
}
/**
* GTestFunc:
*
* The type used for test case functions.
*
* Since: 2.28
*/
/**
* g_test_add_func:
* @testpath: /-separated test case path name for the test.
* @test_func: (scope async): The test function to invoke for this test.
*
* Create a new test case, similar to g_test_create_case(). However
* the test is assumed to use no fixture, and test suites are automatically
* created on the fly and added to the root fixture, based on the
* slash-separated portions of @testpath.
*
* If @testpath includes the component "subprocess" anywhere in it,
* the test will be skipped by default, and only run if explicitly
* required via the `-p` command-line option or g_test_trap_subprocess().
*
* No component of @testpath may start with a dot (`.`) if the
* %G_TEST_OPTION_ISOLATE_DIRS option is being used; and it is recommended to
* do so even if it isnt.
*
* Since: 2.16
*/
void
g_test_add_func (const char *testpath,
GTestFunc test_func)
{
g_return_if_fail (testpath != NULL);
g_return_if_fail (testpath[0] == '/');
g_return_if_fail (test_func != NULL);
g_test_add_vtable (testpath, 0, NULL, NULL, (GTestFixtureFunc) test_func, NULL);
}
/**
* GTestDataFunc:
* @user_data: the data provided when registering the test
*
* The type used for test case functions that take an extra pointer
* argument.
*
* Since: 2.28
*/
/**
* g_test_add_data_func:
* @testpath: /-separated test case path name for the test.
* @test_data: Test data argument for the test function.
* @test_func: (scope async): The test function to invoke for this test.
*
* Create a new test case, similar to g_test_create_case(). However
* the test is assumed to use no fixture, and test suites are automatically
* created on the fly and added to the root fixture, based on the
* slash-separated portions of @testpath. The @test_data argument
* will be passed as first argument to @test_func.
*
* If @testpath includes the component "subprocess" anywhere in it,
* the test will be skipped by default, and only run if explicitly
* required via the `-p` command-line option or g_test_trap_subprocess().
*
* No component of @testpath may start with a dot (`.`) if the
* %G_TEST_OPTION_ISOLATE_DIRS option is being used; and it is recommended to
* do so even if it isnt.
*
* Since: 2.16
*/
void
g_test_add_data_func (const char *testpath,
gconstpointer test_data,
GTestDataFunc test_func)
{
g_return_if_fail (testpath != NULL);
g_return_if_fail (testpath[0] == '/');
g_return_if_fail (test_func != NULL);
g_test_add_vtable (testpath, 0, test_data, NULL, (GTestFixtureFunc) test_func, NULL);
}
/**
* g_test_add_data_func_full:
* @testpath: /-separated test case path name for the test.
* @test_data: Test data argument for the test function.
* @test_func: The test function to invoke for this test.
* @data_free_func: #GDestroyNotify for @test_data.
*
* Create a new test case, as with g_test_add_data_func(), but freeing
* @test_data after the test run is complete.
*
* Since: 2.34
*/
void
g_test_add_data_func_full (const char *testpath,
gpointer test_data,
GTestDataFunc test_func,
GDestroyNotify data_free_func)
{
g_return_if_fail (testpath != NULL);
g_return_if_fail (testpath[0] == '/');
g_return_if_fail (test_func != NULL);
g_test_add_vtable (testpath, 0, test_data, NULL,
(GTestFixtureFunc) test_func,
(GTestFixtureFunc) data_free_func);
}
static gboolean
g_test_suite_case_exists (GTestSuite *suite,
const char *test_path)
{
GSList *iter;
char *slash;
GTestCase *tc;
test_path++;
slash = strchr (test_path, '/');
if (slash)
{
for (iter = suite->suites; iter; iter = iter->next)
{
GTestSuite *child_suite = iter->data;
if (!strncmp (child_suite->name, test_path, slash - test_path))
if (g_test_suite_case_exists (child_suite, slash))
return TRUE;
}
}
else
{
for (iter = suite->cases; iter; iter = iter->next)
{
tc = iter->data;
if (!strcmp (tc->name, test_path))
return TRUE;
}
}
return FALSE;
}
/**
* g_test_create_suite:
* @suite_name: a name for the suite
*
* Create a new test suite with the name @suite_name.
*
* Returns: A newly allocated #GTestSuite instance.
*
* Since: 2.16
*/
GTestSuite*
g_test_create_suite (const char *suite_name)
{
GTestSuite *ts;
g_return_val_if_fail (suite_name != NULL, NULL);
g_return_val_if_fail (strchr (suite_name, '/') == NULL, NULL);
g_return_val_if_fail (suite_name[0] != 0, NULL);
ts = g_slice_new0 (GTestSuite);
ts->name = g_strdup (suite_name);
return ts;
}
/**
* g_test_suite_add:
* @suite: a #GTestSuite
* @test_case: a #GTestCase
*
* Adds @test_case to @suite.
*
* Since: 2.16
*/
void
g_test_suite_add (GTestSuite *suite,
GTestCase *test_case)
{
g_return_if_fail (suite != NULL);
g_return_if_fail (test_case != NULL);
suite->cases = g_slist_append (suite->cases, test_case);
}
/**
* g_test_suite_add_suite:
* @suite: a #GTestSuite
* @nestedsuite: another #GTestSuite
*
* Adds @nestedsuite to @suite.
*
* Since: 2.16
*/
void
g_test_suite_add_suite (GTestSuite *suite,
GTestSuite *nestedsuite)
{
g_return_if_fail (suite != NULL);
g_return_if_fail (nestedsuite != NULL);
suite->suites = g_slist_append (suite->suites, nestedsuite);
}
/**
* g_test_queue_free:
* @gfree_pointer: the pointer to be stored.
*
* Enqueue a pointer to be released with g_free() during the next
* teardown phase. This is equivalent to calling g_test_queue_destroy()
* with a destroy callback of g_free().
*
* Since: 2.16
*/
void
g_test_queue_free (gpointer gfree_pointer)
{
if (gfree_pointer)
g_test_queue_destroy (g_free, gfree_pointer);
}
/**
* g_test_queue_destroy:
* @destroy_func: Destroy callback for teardown phase.
* @destroy_data: Destroy callback data.
*
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* Enqueues a callback @destroy_func to be executed during the next test case
* teardown phase.
*
* This is most useful to auto destroy allocated test resources at the end of a
* test run. Resources are released in reverse queue order, that means
* enqueueing callback `A` before callback `B` will cause `B()` to be called
* before `A()` during teardown.
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*
* Since: 2.16
*/
void
g_test_queue_destroy (GDestroyNotify destroy_func,
gpointer destroy_data)
{
DestroyEntry *dentry;
g_return_if_fail (destroy_func != NULL);
dentry = g_slice_new0 (DestroyEntry);
dentry->destroy_func = destroy_func;
dentry->destroy_data = destroy_data;
dentry->next = test_destroy_queue;
test_destroy_queue = dentry;
}
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static gint
test_has_prefix (gconstpointer a,
gconstpointer b)
{
const gchar *test_path_skipped_local = (const gchar *)a;
const gchar* test_run_name_local = (const gchar*)b;
if (test_prefix_extended_skipped)
{
/* If both are null, we consider that it doesn't match */
if (!test_path_skipped_local || !test_run_name_local)
return FALSE;
return strncmp (test_run_name_local, test_path_skipped_local, strlen (test_path_skipped_local));
}
return g_strcmp0 (test_run_name_local, test_path_skipped_local);
}
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static gboolean test_should_run (const char *test_path,
const char *cmp_path);
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static gboolean
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test_case_run (GTestCase *tc,
const char *test_run_name,
const char *path)
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{
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gchar *old_base = NULL;
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GSList **old_free_list, *filename_free_list = NULL;
gboolean success = G_TEST_RUN_SUCCESS;
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gboolean free_test_data = TRUE;
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old_base = g_strdup (test_uri_base);
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old_free_list = test_filename_free_list;
test_filename_free_list = &filename_free_list;
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if (!test_should_run (test_run_name, path))
{
/* Silently skip the test and return success. This happens if its a
* /subprocess path. */
success = G_TEST_RUN_SKIPPED;
}
else if (++test_run_count <= test_startup_skip_count)
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g_test_log (G_TEST_LOG_SKIP_CASE, test_run_name, NULL, 0, NULL);
else if (test_run_list)
{
g_print ("%s\n", test_run_name);
g_test_log (G_TEST_LOG_LIST_CASE, test_run_name, NULL, 0, NULL);
}
else
{
GTimer *test_run_timer = g_timer_new();
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long double largs[G_TEST_CASE_LARGS_MAX];
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void *fixture;
g_test_log (G_TEST_LOG_START_CASE, test_run_name, NULL, 0, NULL);
test_run_forks = 0;
test_run_success = G_TEST_RUN_SUCCESS;
g_clear_pointer (&test_run_msg, g_free);
g_test_log_set_fatal_handler (NULL, NULL);
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if (test_paths_skipped && g_slist_find_custom (test_paths_skipped, test_run_name, (GCompareFunc)test_has_prefix))
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g_test_skip ("by request (-s option)");
else
{
GError *local_error = NULL;
if (!test_do_isolate_dirs (&local_error))
{
g_test_log (G_TEST_LOG_ERROR, local_error->message, NULL, 0, NULL);
g_test_fail ();
g_error_free (local_error);
}
else
{
g_timer_start (test_run_timer);
fixture = tc->fixture_size ? g_malloc0 (tc->fixture_size) : tc->test_data;
test_run_seed (test_run_seedstr);
if (tc->fixture_setup)
tc->fixture_setup (fixture, tc->test_data);
tc->fixture_test (fixture, tc->test_data);
test_trap_clear();
while (test_destroy_queue)
{
DestroyEntry *dentry = test_destroy_queue;
test_destroy_queue = dentry->next;
dentry->destroy_func (dentry->destroy_data);
g_slice_free (DestroyEntry, dentry);
}
if (tc->fixture_teardown)
tc->fixture_teardown (fixture, tc->test_data);
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free_test_data = FALSE;
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if (tc->fixture_size)
g_free (fixture);
g_timer_stop (test_run_timer);
}
test_rm_isolate_dirs ();
}
success = test_run_success;
test_run_success = G_TEST_RUN_FAILURE;
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largs[G_TEST_CASE_LARGS_RESULT] = success; /* OK */
largs[G_TEST_CASE_LARGS_RUN_FORKS] = test_run_forks;
largs[G_TEST_CASE_LARGS_EXECUTION_TIME] = g_timer_elapsed (test_run_timer, NULL);
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g_test_log (G_TEST_LOG_STOP_CASE, test_run_name, test_run_msg, G_N_ELEMENTS (largs), largs);
g_clear_pointer (&test_run_msg, g_free);
g_timer_destroy (test_run_timer);
}
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/* In case the test didnt run (due to being skipped or an error), the test
* data may still need to be freed, as the clients main() function may have
* passed ownership of it into g_test_add_data_func_full() with a
* #GDestroyNotify. */
if (free_test_data && tc->fixture_size == 0 && tc->fixture_teardown != NULL)
tc->fixture_teardown (tc->test_data, tc->test_data);
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g_slist_free_full (filename_free_list, g_free);
test_filename_free_list = old_free_list;
g_free (test_uri_base);
test_uri_base = old_base;
return (success == G_TEST_RUN_SUCCESS ||
success == G_TEST_RUN_SKIPPED ||
success == G_TEST_RUN_INCOMPLETE);
}
static gboolean
path_has_prefix (const char *path,
const char *prefix)
{
int prefix_len = strlen (prefix);
return (strncmp (path, prefix, prefix_len) == 0 &&
(path[prefix_len] == '\0' ||
path[prefix_len] == '/'));
}
static gboolean
test_should_run (const char *test_path,
const char *cmp_path)
{
if (strstr (test_run_name, "/subprocess"))
{
if (g_strcmp0 (test_path, cmp_path) == 0)
return TRUE;
if (g_test_verbose ())
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{
if (test_tap_log)
g_print ("skipping: %s\n", test_run_name);
else
g_print ("GTest: skipping: %s\n", test_run_name);
}
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return FALSE;
}
return !cmp_path || path_has_prefix (test_path, cmp_path);
}
/* Recurse through @suite, running tests matching @path (or all tests
* if @path is %NULL).
*/
static int
g_test_run_suite_internal (GTestSuite *suite,
const char *path)
{
guint n_bad = 0;
gchar *old_name = test_run_name;
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gchar *old_name_path = test_run_name_path;
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GSList *iter;
g_return_val_if_fail (suite != NULL, -1);
g_test_log (G_TEST_LOG_START_SUITE, suite->name, NULL, 0, NULL);
for (iter = suite->cases; iter; iter = iter->next)
{
GTestCase *tc = iter->data;
test_run_name = g_build_path ("/", old_name, tc->name, NULL);
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test_run_name_path = g_build_path (G_DIR_SEPARATOR_S, old_name_path, tc->name, NULL);
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if (!test_case_run (tc, test_run_name, path))
n_bad++;
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g_free (test_run_name);
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g_free (test_run_name_path);
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}
for (iter = suite->suites; iter; iter = iter->next)
{
GTestSuite *ts = iter->data;
test_run_name = g_build_path ("/", old_name, ts->name, NULL);
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test_run_name_path = g_build_path (G_DIR_SEPARATOR_S, old_name_path, ts->name, NULL);
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if (test_prefix_extended) {
if (!path || path_has_prefix (test_run_name, path))
n_bad += g_test_run_suite_internal (ts, test_run_name);
else if (!path || path_has_prefix (path, test_run_name))
n_bad += g_test_run_suite_internal (ts, path);
} else if (!path || path_has_prefix (path, test_run_name)) {
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n_bad += g_test_run_suite_internal (ts, path);
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}
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g_free (test_run_name);
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g_free (test_run_name_path);
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}
test_run_name = old_name;
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test_run_name_path = old_name_path;
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g_test_log (G_TEST_LOG_STOP_SUITE, suite->name, NULL, 0, NULL);
return n_bad;
}
static int
g_test_suite_count (GTestSuite *suite)
{
int n = 0;
GSList *iter;
g_return_val_if_fail (suite != NULL, -1);
for (iter = suite->cases; iter; iter = iter->next)
{
GTestCase *tc = iter->data;
if (strcmp (tc->name, "subprocess") != 0)
n++;
}
for (iter = suite->suites; iter; iter = iter->next)
{
GTestSuite *ts = iter->data;
if (strcmp (ts->name, "subprocess") != 0)
n += g_test_suite_count (ts);
}
return n;
}
/**
* g_test_run_suite:
* @suite: a #GTestSuite
*
* Execute the tests within @suite and all nested #GTestSuites.
* The test suites to be executed are filtered according to
* test path arguments (`-p testpath` and `-s testpath`) as parsed by
* g_test_init(). See the g_test_run() documentation for more
* information on the order that tests are run in.
*
* g_test_run_suite() or g_test_run() may only be called once
* in a program.
*
* Returns: 0 on success
*
* Since: 2.16
*/
int
g_test_run_suite (GTestSuite *suite)
{
int n_bad = 0;
g_return_val_if_fail (g_test_run_once == TRUE, -1);
g_test_run_once = FALSE;
test_count = g_test_suite_count (suite);
test_run_name = g_strdup_printf ("/%s", suite->name);
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test_run_name_path = g_build_path (G_DIR_SEPARATOR_S, suite->name, NULL);
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if (test_paths)
{
GSList *iter;
for (iter = test_paths; iter; iter = iter->next)
n_bad += g_test_run_suite_internal (suite, iter->data);
}
else
n_bad = g_test_run_suite_internal (suite, NULL);
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g_clear_pointer (&test_run_name, g_free);
g_clear_pointer (&test_run_name_path, g_free);
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return n_bad;
}
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/**
* g_test_case_free:
* @test_case: a #GTestCase
*
* Free the @test_case.
*
* Since: 2.70
*/
void
g_test_case_free (GTestCase *test_case)
{
g_free (test_case->name);
g_slice_free (GTestCase, test_case);
}
/**
* g_test_suite_free:
* @suite: a #GTestSuite
*
* Free the @suite and all nested #GTestSuites.
*
* Since: 2.70
*/
void
g_test_suite_free (GTestSuite *suite)
{
g_slist_free_full (suite->cases, (GDestroyNotify)g_test_case_free);
g_free (suite->name);
g_slist_free_full (suite->suites, (GDestroyNotify)g_test_suite_free);
g_slice_free (GTestSuite, suite);
}
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static void
gtest_default_log_handler (const gchar *log_domain,
GLogLevelFlags log_level,
const gchar *message,
gpointer unused_data)
{
const gchar *strv[16];
gboolean fatal = FALSE;
gchar *msg;
guint i = 0;
if (log_domain)
{
strv[i++] = log_domain;
strv[i++] = "-";
}
if (log_level & G_LOG_FLAG_FATAL)
{
strv[i++] = "FATAL-";
fatal = TRUE;
}
if (log_level & G_LOG_FLAG_RECURSION)
strv[i++] = "RECURSIVE-";
if (log_level & G_LOG_LEVEL_ERROR)
strv[i++] = "ERROR";
if (log_level & G_LOG_LEVEL_CRITICAL)
strv[i++] = "CRITICAL";
if (log_level & G_LOG_LEVEL_WARNING)
strv[i++] = "WARNING";
if (log_level & G_LOG_LEVEL_MESSAGE)
strv[i++] = "MESSAGE";
if (log_level & G_LOG_LEVEL_INFO)
strv[i++] = "INFO";
if (log_level & G_LOG_LEVEL_DEBUG)
strv[i++] = "DEBUG";
strv[i++] = ": ";
strv[i++] = message;
strv[i++] = NULL;
msg = g_strjoinv ("", (gchar**) strv);
g_test_log (fatal ? G_TEST_LOG_ERROR : G_TEST_LOG_MESSAGE, msg, NULL, 0, NULL);
g_free (msg);
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if (!test_tap_log)
g_log_default_handler (log_domain, log_level, message, unused_data);
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}
void
g_assertion_message (const char *domain,
const char *file,
int line,
const char *func,
const char *message)
{
char lstr[32];
char *s;
if (!message)
message = "code should not be reached";
g_snprintf (lstr, 32, "%d", line);
s = g_strconcat (domain ? domain : "", domain && domain[0] ? ":" : "",
"ERROR:", file, ":", lstr, ":",
func, func[0] ? ":" : "",
" ", message, NULL);
g_printerr ("**\n%s\n", s);
/* Don't print a fatal error indication if assertions are non-fatal, or
* if we are a child process that might be sharing the parent's stdout. */
if (test_nonfatal_assertions || test_in_subprocess || test_in_forked_child)
g_test_log (G_TEST_LOG_MESSAGE, s, NULL, 0, NULL);
else
g_test_log (G_TEST_LOG_ERROR, s, NULL, 0, NULL);
if (test_nonfatal_assertions)
{
g_free (s);
g_test_fail ();
return;
}
/* store assertion message in global variable, so that it can be found in a
* core dump */
if (__glib_assert_msg != NULL)
/* free the old one */
free (__glib_assert_msg);
__glib_assert_msg = (char*) malloc (strlen (s) + 1);
strcpy (__glib_assert_msg, s);
g_free (s);
if (test_in_subprocess)
{
/* If this is a test case subprocess then it probably hit this
* assertion on purpose, so just exit() rather than abort()ing,
* to avoid triggering any system crash-reporting daemon.
*/
_exit (1);
}
else
g_abort ();
}
/**
* g_assertion_message_expr: (skip)
* @domain: (nullable): log domain
* @file: file containing the assertion
* @line: line number of the assertion
* @func: function containing the assertion
* @expr: (nullable): expression which failed
*
* Internal function used to print messages from the public g_assert() and
* g_assert_not_reached() macros.
*/
void
g_assertion_message_expr (const char *domain,
const char *file,
int line,
const char *func,
const char *expr)
{
char *s;
if (!expr)
s = g_strdup ("code should not be reached");
else
s = g_strconcat ("assertion failed: (", expr, ")", NULL);
g_assertion_message (domain, file, line, func, s);
g_free (s);
/* Normally g_assertion_message() won't return, but we need this for
* when test_nonfatal_assertions is set, since
* g_assertion_message_expr() is used for always-fatal assertions.
*/
if (test_in_subprocess)
_exit (1);
else
g_abort ();
}
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void
g_assertion_message_cmpint (const char *domain,
const char *file,
int line,
const char *func,
const char *expr,
guint64 arg1,
const char *cmp,
guint64 arg2,
char numtype)
{
char *s = NULL;
switch (numtype)
{
case 'i':
s = g_strdup_printf ("assertion failed (%s): "
"(%" PRIi64 " %s %" PRIi64 ")",
expr, (int64_t) arg1, cmp, (int64_t) arg2);
break;
case 'u':
s = g_strdup_printf ("assertion failed (%s): "
"(%" PRIu64 " %s %" PRIu64 ")",
expr, (uint64_t) arg1, cmp, (uint64_t) arg2);
break;
case 'x':
s = g_strdup_printf ("assertion failed (%s): "
"(0x%08" PRIx64 " %s 0x%08" PRIx64 ")",
expr, (uint64_t) arg1, cmp, (uint64_t) arg2);
break;
default:
g_assert_not_reached ();
}
g_assertion_message (domain, file, line, func, s);
g_free (s);
}
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void
g_assertion_message_cmpnum (const char *domain,
const char *file,
int line,
const char *func,
const char *expr,
long double arg1,
const char *cmp,
long double arg2,
char numtype)
{
char *s = NULL;
switch (numtype)
{
case 'f': s = g_strdup_printf ("assertion failed (%s): (%.9g %s %.9g)", expr, (double) arg1, cmp, (double) arg2); break;
/* ideally use: floats=%.7g double=%.17g */
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case 'i':
case 'x':
/* Backwards compatibility to apps compiled before 2.78 */
g_assertion_message_cmpint (domain, file, line, func, expr,
(guint64) arg1, cmp, (guint64) arg2, numtype);
break;
default:
g_assert_not_reached ();
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}
g_assertion_message (domain, file, line, func, s);
g_free (s);
}
void
g_assertion_message_cmpstr (const char *domain,
const char *file,
int line,
const char *func,
const char *expr,
const char *arg1,
const char *cmp,
const char *arg2)
{
char *a1, *a2, *s, *t1 = NULL, *t2 = NULL;
a1 = arg1 ? g_strconcat ("\"", t1 = g_strescape (arg1, NULL), "\"", NULL) : g_strdup ("NULL");
a2 = arg2 ? g_strconcat ("\"", t2 = g_strescape (arg2, NULL), "\"", NULL) : g_strdup ("NULL");
g_free (t1);
g_free (t2);
s = g_strdup_printf ("assertion failed (%s): (%s %s %s)", expr, a1, cmp, a2);
g_free (a1);
g_free (a2);
g_assertion_message (domain, file, line, func, s);
g_free (s);
}
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void
g_assertion_message_cmpstrv (const char *domain,
const char *file,
int line,
const char *func,
const char *expr,
const char * const *arg1,
const char * const *arg2,
gsize first_wrong_idx)
{
const char *s1 = arg1[first_wrong_idx], *s2 = arg2[first_wrong_idx];
char *a1, *a2, *s, *t1 = NULL, *t2 = NULL;
a1 = g_strconcat ("\"", t1 = g_strescape (s1, NULL), "\"", NULL);
a2 = g_strconcat ("\"", t2 = g_strescape (s2, NULL), "\"", NULL);
g_free (t1);
g_free (t2);
s = g_strdup_printf ("assertion failed (%s): first differing element at index %" G_GSIZE_FORMAT ": %s does not equal %s",
expr, first_wrong_idx, a1, a2);
g_free (a1);
g_free (a2);
g_assertion_message (domain, file, line, func, s);
g_free (s);
}
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void
g_assertion_message_error (const char *domain,
const char *file,
int line,
const char *func,
const char *expr,
const GError *error,
GQuark error_domain,
int error_code)
{
GString *gstring;
/* This is used by both g_assert_error() and g_assert_no_error(), so there
* are three cases: expected an error but got the wrong error, expected
* an error but got no error, and expected no error but got an error.
*/
gstring = g_string_new ("assertion failed ");
if (error_domain)
g_string_append_printf (gstring, "(%s == (%s, %d)): ", expr,
g_quark_to_string (error_domain), error_code);
else
g_string_append_printf (gstring, "(%s == NULL): ", expr);
if (error)
g_string_append_printf (gstring, "%s (%s, %d)", error->message,
g_quark_to_string (error->domain), error->code);
else
g_string_append_printf (gstring, "%s is NULL", expr);
g_assertion_message (domain, file, line, func, gstring->str);
g_string_free (gstring, TRUE);
}
/**
* g_strcmp0:
* @str1: (nullable): a C string or %NULL
* @str2: (nullable): another C string or %NULL
*
* Compares @str1 and @str2 like strcmp(). Handles %NULL
* gracefully by sorting it before non-%NULL strings.
* Comparing two %NULL pointers returns 0.
*
* Returns: an integer less than, equal to, or greater than zero, if @str1 is <, == or > than @str2.
*
* Since: 2.16
*/
int
g_strcmp0 (const char *str1,
const char *str2)
{
if (!str1)
return -(str1 != str2);
if (!str2)
return str1 != str2;
return strcmp (str1, str2);
}
static void
test_trap_clear (void)
{
test_trap_last_status = 0;
test_trap_last_pid = 0;
g_clear_pointer (&test_trap_last_subprocess, g_free);
g_clear_pointer (&test_trap_last_stdout, g_free);
g_clear_pointer (&test_trap_last_stderr, g_free);
}
#ifdef G_OS_UNIX
static int
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safe_dup2 (int fd1,
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int fd2)
{
int ret;
do
ret = dup2 (fd1, fd2);
while (ret < 0 && errno == EINTR);
return ret;
}
#endif
typedef struct {
GPid pid;
GMainLoop *loop;
int child_status; /* unmodified platform-specific status */
GIOChannel *stdout_io;
gboolean echo_stdout;
GString *stdout_str;
GIOChannel *stderr_io;
gboolean echo_stderr;
GString *stderr_str;
} WaitForChildData;
static void
check_complete (WaitForChildData *data)
{
if (data->child_status != -1 && data->stdout_io == NULL && data->stderr_io == NULL)
g_main_loop_quit (data->loop);
}
static void
child_exited (GPid pid,
gint status,
gpointer user_data)
{
WaitForChildData *data = user_data;
g_assert (status != -1);
data->child_status = status;
check_complete (data);
}
static gboolean
child_timeout (gpointer user_data)
{
WaitForChildData *data = user_data;
#ifdef G_OS_WIN32
TerminateProcess (data->pid, G_TEST_STATUS_TIMED_OUT);
#else
kill (data->pid, SIGALRM);
#endif
return FALSE;
}
static gboolean
child_read (GIOChannel *io, GIOCondition cond, gpointer user_data)
{
WaitForChildData *data = user_data;
GIOStatus status;
gsize nread, nwrote, total;
gchar buf[4096];
FILE *echo_file = NULL;
status = g_io_channel_read_chars (io, buf, sizeof (buf), &nread, NULL);
if (status == G_IO_STATUS_ERROR || status == G_IO_STATUS_EOF)
{
// FIXME data->error = (status == G_IO_STATUS_ERROR);
if (io == data->stdout_io)
g_clear_pointer (&data->stdout_io, g_io_channel_unref);
else
g_clear_pointer (&data->stderr_io, g_io_channel_unref);
check_complete (data);
return FALSE;
}
else if (status == G_IO_STATUS_AGAIN)
return TRUE;
if (io == data->stdout_io)
{
g_string_append_len (data->stdout_str, buf, nread);
if (data->echo_stdout)
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{
if G_UNLIKELY (!test_tap_log)
echo_file = stdout;
}
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}
else
{
g_string_append_len (data->stderr_str, buf, nread);
if (data->echo_stderr)
echo_file = stderr;
}
if (echo_file)
{
for (total = 0; total < nread; total += nwrote)
{
int errsv;
nwrote = fwrite (buf + total, 1, nread - total, echo_file);
errsv = errno;
if (nwrote == 0)
g_error ("write failed: %s", g_strerror (errsv));
}
}
return TRUE;
}
static void
wait_for_child (GPid pid,
int stdout_fd, gboolean echo_stdout,
int stderr_fd, gboolean echo_stderr,
guint64 timeout)
{
WaitForChildData data;
GMainContext *context;
GSource *source;
data.pid = pid;
data.child_status = -1;
context = g_main_context_new ();
data.loop = g_main_loop_new (context, FALSE);
source = g_child_watch_source_new (pid);
g_source_set_callback (source, (GSourceFunc) child_exited, &data, NULL);
g_source_attach (source, context);
g_source_unref (source);
data.echo_stdout = echo_stdout;
data.stdout_str = g_string_new (NULL);
data.stdout_io = g_io_channel_unix_new (stdout_fd);
g_io_channel_set_close_on_unref (data.stdout_io, TRUE);
g_io_channel_set_encoding (data.stdout_io, NULL, NULL);
g_io_channel_set_buffered (data.stdout_io, FALSE);
source = g_io_create_watch (data.stdout_io, G_IO_IN | G_IO_ERR | G_IO_HUP);
g_source_set_callback (source, (GSourceFunc) child_read, &data, NULL);
g_source_attach (source, context);
g_source_unref (source);
data.echo_stderr = echo_stderr;
data.stderr_str = g_string_new (NULL);
data.stderr_io = g_io_channel_unix_new (stderr_fd);
g_io_channel_set_close_on_unref (data.stderr_io, TRUE);
g_io_channel_set_encoding (data.stderr_io, NULL, NULL);
g_io_channel_set_buffered (data.stderr_io, FALSE);
source = g_io_create_watch (data.stderr_io, G_IO_IN | G_IO_ERR | G_IO_HUP);
g_source_set_callback (source, (GSourceFunc) child_read, &data, NULL);
g_source_attach (source, context);
g_source_unref (source);
if (timeout)
{
source = g_timeout_source_new (0);
g_source_set_ready_time (source, g_get_monotonic_time () + timeout);
g_source_set_callback (source, (GSourceFunc) child_timeout, &data, NULL);
g_source_attach (source, context);
g_source_unref (source);
}
g_main_loop_run (data.loop);
g_main_loop_unref (data.loop);
g_main_context_unref (context);
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if (echo_stdout && test_tap_log && data.stdout_str->len > 0)
{
gboolean added_newline = FALSE;
if (data.stdout_str->str[data.stdout_str->len - 1] != '\n')
{
g_string_append_c (data.stdout_str, '\n');
added_newline = TRUE;
}
g_test_print_handler_full (data.stdout_str->str, TRUE, TRUE, 1);
if (added_newline)
g_string_truncate (data.stdout_str, data.stdout_str->len - 1);
}
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test_trap_last_pid = pid;
test_trap_last_status = data.child_status;
test_trap_last_stdout = g_string_free (data.stdout_str, FALSE);
test_trap_last_stderr = g_string_free (data.stderr_str, FALSE);
g_clear_pointer (&data.stdout_io, g_io_channel_unref);
g_clear_pointer (&data.stderr_io, g_io_channel_unref);
}
/**
* g_test_trap_fork:
* @usec_timeout: Timeout for the forked test in micro seconds.
* @test_trap_flags: Flags to modify forking behaviour.
*
* Fork the current test program to execute a test case that might
* not return or that might abort.
*
* If @usec_timeout is non-0, the forked test case is aborted and
* considered failing if its run time exceeds it.
*
* The forking behavior can be configured with the #GTestTrapFlags flags.
*
* In the following example, the test code forks, the forked child
* process produces some sample output and exits successfully.
* The forking parent process then asserts successful child program
* termination and validates child program outputs.
*
* |[<!-- language="C" -->
* static void
* test_fork_patterns (void)
* {
* if (g_test_trap_fork (0, G_TEST_TRAP_SILENCE_STDOUT | G_TEST_TRAP_SILENCE_STDERR))
* {
* g_print ("some stdout text: somagic17\n");
* g_printerr ("some stderr text: semagic43\n");
* exit (0); // successful test run
* }
* g_test_trap_assert_passed ();
* g_test_trap_assert_stdout ("*somagic17*");
* g_test_trap_assert_stderr ("*semagic43*");
* }
* ]|
*
* Returns: %TRUE for the forked child and %FALSE for the executing parent process.
*
* Since: 2.16
*
* Deprecated: This function is implemented only on Unix platforms,
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* is not always reliable due to problems inherent in fork-without-exec
* and doesn't set close-on-exec flag on its file descriptors.
* Use g_test_trap_subprocess() instead.
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*/
G_GNUC_BEGIN_IGNORE_DEPRECATIONS
gboolean
g_test_trap_fork (guint64 usec_timeout,
GTestTrapFlags test_trap_flags)
{
#ifdef G_OS_UNIX
int stdout_pipe[2] = { -1, -1 };
int stderr_pipe[2] = { -1, -1 };
int errsv;
test_trap_clear();
if (pipe (stdout_pipe) < 0 || pipe (stderr_pipe) < 0)
{
errsv = errno;
g_error ("failed to create pipes to fork test program: %s", g_strerror (errsv));
}
test_trap_last_pid = fork ();
errsv = errno;
if (test_trap_last_pid < 0)
g_error ("failed to fork test program: %s", g_strerror (errsv));
if (test_trap_last_pid == 0) /* child */
{
int fd0 = -1;
test_in_forked_child = TRUE;
close (stdout_pipe[0]);
close (stderr_pipe[0]);
if (!(test_trap_flags & G_TEST_TRAP_INHERIT_STDIN))
{
fd0 = g_open ("/dev/null", O_RDONLY, 0);
if (fd0 < 0)
g_error ("failed to open /dev/null for stdin redirection");
}
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if (safe_dup2 (stdout_pipe[1], 1) < 0 || safe_dup2 (stderr_pipe[1], 2) < 0 || (fd0 >= 0 && safe_dup2 (fd0, 0) < 0))
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{
errsv = errno;
g_error ("failed to dup2() in forked test program: %s", g_strerror (errsv));
}
if (fd0 >= 3)
close (fd0);
if (stdout_pipe[1] >= 3)
close (stdout_pipe[1]);
if (stderr_pipe[1] >= 3)
close (stderr_pipe[1]);
/* We typically expect these child processes to crash, and some
* tests spawn a *lot* of them. Avoid spamming system crash
* collection programs such as systemd-coredump and abrt.
*/
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g_test_disable_crash_reporting ();
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return TRUE;
}
else /* parent */
{
test_run_forks++;
close (stdout_pipe[1]);
close (stderr_pipe[1]);
wait_for_child (test_trap_last_pid,
stdout_pipe[0], !(test_trap_flags & G_TEST_TRAP_SILENCE_STDOUT),
stderr_pipe[0], !(test_trap_flags & G_TEST_TRAP_SILENCE_STDERR),
usec_timeout);
return FALSE;
}
#else
g_message ("Not implemented: g_test_trap_fork");
return FALSE;
#endif
}
G_GNUC_END_IGNORE_DEPRECATIONS
/**
* g_test_trap_subprocess:
* @test_path: (nullable): Test to run in a subprocess
* @usec_timeout: Timeout for the subprocess test in micro seconds.
* @test_flags: Flags to modify subprocess behaviour.
*
* Respawns the test program to run only @test_path in a subprocess.
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*
* This is equivalent to calling g_test_trap_subprocess_with_envp() with `envp`
* set to %NULL. See the documentation for that function for full details.
*
* Since: 2.38
*/
void
g_test_trap_subprocess (const char *test_path,
guint64 usec_timeout,
GTestSubprocessFlags test_flags)
{
g_test_trap_subprocess_with_envp (test_path, NULL, usec_timeout, test_flags);
}
/**
* g_test_trap_subprocess_with_envp:
* @test_path: (nullable): Test to run in a subprocess
* @envp: (array zero-terminated=1) (nullable) (element-type filename): Environment
* to run the test in, or %NULL to inherit the parents environment. This must
* be in the GLib filename encoding.
* @usec_timeout: Timeout for the subprocess test in micro seconds.
* @test_flags: Flags to modify subprocess behaviour.
*
* Respawns the test program to run only @test_path in a subprocess with the
* given @envp environment.
*
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* This can be used for a test case that might not return, or that
* might abort.
*
* If @test_path is %NULL then the same test is re-run in a subprocess.
* You can use g_test_subprocess() to determine whether the test is in
* a subprocess or not.
*
* @test_path can also be the name of the parent test, followed by
* "`/subprocess/`" and then a name for the specific subtest (or just
* ending with "`/subprocess`" if the test only has one child test);
* tests with names of this form will automatically be skipped in the
* parent process.
*
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* If @envp is %NULL, the parent process environment will be inherited.
*
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* If @usec_timeout is non-0, the test subprocess is aborted and
* considered failing if its run time exceeds it.
*
* The subprocess behavior can be configured with the
* #GTestSubprocessFlags flags.
*
* You can use methods such as g_test_trap_assert_passed(),
* g_test_trap_assert_failed(), and g_test_trap_assert_stderr() to
* check the results of the subprocess. (But note that
* g_test_trap_assert_stdout() and g_test_trap_assert_stderr()
* cannot be used if @test_flags specifies that the child should
* inherit the parent stdout/stderr.)
*
* If your `main ()` needs to behave differently in
* the subprocess, you can call g_test_subprocess() (after calling
* g_test_init()) to see whether you are in a subprocess.
*
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* Internally, this function tracks the child process using
* g_child_watch_source_new(), so your process must not ignore `SIGCHLD`, and
* must not attempt to watch or wait for the child process via another
* mechanism.
*
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* The following example tests that calling
* `my_object_new(1000000)` will abort with an error
* message.
*
* |[<!-- language="C" -->
* static void
* test_create_large_object (void)
* {
* if (g_test_subprocess ())
* {
* my_object_new (1000000);
* return;
* }
*
* // Reruns this same test in a subprocess
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* g_test_trap_subprocess (NULL, 0, G_TEST_SUBPROCESS_DEFAULT);
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* g_test_trap_assert_failed ();
* g_test_trap_assert_stderr ("*ERROR*too large*");
* }
*
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* static void
* test_different_username (void)
* {
* if (g_test_subprocess ())
* {
* // Code under test goes here
* g_message ("Username is now simulated as %s", g_getenv ("USER"));
* return;
* }
*
* // Reruns this same test in a subprocess
* g_autoptr(GStrv) envp = g_get_environ ();
* envp = g_environ_setenv (g_steal_pointer (&envp), "USER", "charlie", TRUE);
* g_test_trap_subprocess_with_envp (NULL, envp, 0, G_TEST_SUBPROCESS_DEFAULT);
* g_test_trap_assert_passed ();
* g_test_trap_assert_stdout ("Username is now simulated as charlie");
* }
*
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* int
* main (int argc, char **argv)
* {
* g_test_init (&argc, &argv, NULL);
*
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* g_test_add_func ("/myobject/create-large-object",
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* test_create_large_object);
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* g_test_add_func ("/myobject/different-username",
* test_different_username);
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* return g_test_run ();
* }
* ]|
*
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* Since: 2.80
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*/
void
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g_test_trap_subprocess_with_envp (const char *test_path,
const char * const *envp,
guint64 usec_timeout,
GTestSubprocessFlags test_flags)
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{
GError *error = NULL;
GPtrArray *argv;
GSpawnFlags flags;
int stdout_fd, stderr_fd;
GPid pid;
/* Sanity check that they used GTestSubprocessFlags, not GTestTrapFlags */
g_assert ((test_flags & (G_TEST_TRAP_INHERIT_STDIN | G_TEST_TRAP_SILENCE_STDOUT | G_TEST_TRAP_SILENCE_STDERR)) == 0);
if (test_path)
{
if (!g_test_suite_case_exists (g_test_get_root (), test_path))
g_error ("g_test_trap_subprocess: test does not exist: %s", test_path);
}
else
{
test_path = test_run_name;
}
if (g_test_verbose ())
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{
if (test_tap_log)
g_print ("subprocess: %s\n", test_path);
else
g_print ("GTest: subprocess: %s\n", test_path);
}
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test_trap_clear ();
test_trap_last_subprocess = g_strdup (test_path);
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if (test_argv0 == NULL)
g_error ("g_test_trap_subprocess() requires argv0 to be passed to g_test_init()");
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argv = g_ptr_array_new ();
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g_ptr_array_add (argv, (char *) test_argv0);
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g_ptr_array_add (argv, "-q");
g_ptr_array_add (argv, "-p");
g_ptr_array_add (argv, (char *)test_path);
g_ptr_array_add (argv, "--GTestSubprocess");
if (test_log_fd != -1)
{
char log_fd_buf[128];
g_ptr_array_add (argv, "--GTestLogFD");
g_snprintf (log_fd_buf, sizeof (log_fd_buf), "%d", test_log_fd);
g_ptr_array_add (argv, log_fd_buf);
}
g_ptr_array_add (argv, NULL);
flags = G_SPAWN_DO_NOT_REAP_CHILD;
if (test_log_fd != -1)
flags |= G_SPAWN_LEAVE_DESCRIPTORS_OPEN;
if (test_flags & G_TEST_TRAP_INHERIT_STDIN)
flags |= G_SPAWN_CHILD_INHERITS_STDIN;
if (!g_spawn_async_with_pipes (test_initial_cwd,
(char **)argv->pdata,
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(char **) envp, flags,
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NULL, NULL,
&pid, NULL, &stdout_fd, &stderr_fd,
&error))
{
g_error ("g_test_trap_subprocess() failed: %s",
error->message);
}
g_ptr_array_free (argv, TRUE);
wait_for_child (pid,
stdout_fd, !!(test_flags & G_TEST_SUBPROCESS_INHERIT_STDOUT),
stderr_fd, !!(test_flags & G_TEST_SUBPROCESS_INHERIT_STDERR),
usec_timeout);
}
/**
* g_test_subprocess:
*
* Returns %TRUE (after g_test_init() has been called) if the test
* program is running under g_test_trap_subprocess().
*
* Returns: %TRUE if the test program is running under
* g_test_trap_subprocess().
*
* Since: 2.38
*/
gboolean
g_test_subprocess (void)
{
return test_in_subprocess;
}
/**
* g_test_trap_has_passed:
*
* Check the result of the last g_test_trap_subprocess() call.
*
* Returns: %TRUE if the last test subprocess terminated successfully.
*
* Since: 2.16
*/
gboolean
g_test_trap_has_passed (void)
{
#ifdef G_OS_UNIX
return (WIFEXITED (test_trap_last_status) &&
WEXITSTATUS (test_trap_last_status) == 0);
#else
return test_trap_last_status == 0;
#endif
}
/**
* g_test_trap_reached_timeout:
*
* Check the result of the last g_test_trap_subprocess() call.
*
* Returns: %TRUE if the last test subprocess got killed due to a timeout.
*
* Since: 2.16
*/
gboolean
g_test_trap_reached_timeout (void)
{
#ifdef G_OS_UNIX
return (WIFSIGNALED (test_trap_last_status) &&
WTERMSIG (test_trap_last_status) == SIGALRM);
#else
return test_trap_last_status == G_TEST_STATUS_TIMED_OUT;
#endif
}
static gboolean
log_child_output (const gchar *process_id)
{
gchar *escaped;
#ifdef G_OS_UNIX
if (WIFEXITED (test_trap_last_status)) /* normal exit */
{
if (WEXITSTATUS (test_trap_last_status) == 0)
g_test_message ("child process (%s) exit status: 0 (success)",
process_id);
else
g_test_message ("child process (%s) exit status: %d (error)",
process_id, WEXITSTATUS (test_trap_last_status));
}
else if (WIFSIGNALED (test_trap_last_status) &&
WTERMSIG (test_trap_last_status) == SIGALRM)
{
g_test_message ("child process (%s) timed out", process_id);
}
else if (WIFSIGNALED (test_trap_last_status))
{
const gchar *maybe_dumped_core = "";
#ifdef WCOREDUMP
if (WCOREDUMP (test_trap_last_status))
maybe_dumped_core = ", core dumped";
#endif
g_test_message ("child process (%s) killed by signal %d (%s)%s",
process_id, WTERMSIG (test_trap_last_status),
g_strsignal (WTERMSIG (test_trap_last_status)),
maybe_dumped_core);
}
else
{
g_test_message ("child process (%s) unknown wait status %d",
process_id, test_trap_last_status);
}
#else
if (test_trap_last_status == 0)
g_test_message ("child process (%s) exit status: 0 (success)",
process_id);
else
g_test_message ("child process (%s) exit status: %d (error)",
process_id, test_trap_last_status);
#endif
escaped = g_strescape (test_trap_last_stdout, NULL);
g_test_message ("child process (%s) stdout: \"%s\"", process_id, escaped);
g_free (escaped);
escaped = g_strescape (test_trap_last_stderr, NULL);
g_test_message ("child process (%s) stderr: \"%s\"", process_id, escaped);
g_free (escaped);
/* so we can use short-circuiting:
* logged_child_output = logged_child_output || log_child_output (...) */
return TRUE;
}
void
g_test_trap_assertions (const char *domain,
const char *file,
int line,
const char *func,
guint64 assertion_flags, /* 0-pass, 1-fail, 2-outpattern, 4-errpattern */
const char *pattern)
{
gboolean must_pass = assertion_flags == 0;
gboolean must_fail = assertion_flags == 1;
gboolean match_result = 0 == (assertion_flags & 1);
gboolean logged_child_output = FALSE;
const char *stdout_pattern = (assertion_flags & 2) ? pattern : NULL;
const char *stderr_pattern = (assertion_flags & 4) ? pattern : NULL;
const char *match_error = match_result ? "failed to match" : "contains invalid match";
char *process_id;
#ifdef G_OS_UNIX
if (test_trap_last_subprocess != NULL)
{
process_id = g_strdup_printf ("%s [%d]", test_trap_last_subprocess,
test_trap_last_pid);
}
else if (test_trap_last_pid != 0)
process_id = g_strdup_printf ("%d", test_trap_last_pid);
#else
if (test_trap_last_subprocess != NULL)
process_id = g_strdup (test_trap_last_subprocess);
#endif
else
g_error ("g_test_trap_ assertion with no trapped test");
if (must_pass && !g_test_trap_has_passed())
{
char *msg;
logged_child_output = logged_child_output || log_child_output (process_id);
msg = g_strdup_printf ("child process (%s) failed unexpectedly", process_id);
g_assertion_message (domain, file, line, func, msg);
g_free (msg);
}
if (must_fail && g_test_trap_has_passed())
{
char *msg;
logged_child_output = logged_child_output || log_child_output (process_id);
msg = g_strdup_printf ("child process (%s) did not fail as expected", process_id);
g_assertion_message (domain, file, line, func, msg);
g_free (msg);
}
if (stdout_pattern && match_result == !g_pattern_match_simple (stdout_pattern, test_trap_last_stdout))
{
char *msg;
logged_child_output = logged_child_output || log_child_output (process_id);
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g_test_message ("stdout was:\n%s", test_trap_last_stdout);
msg = g_strdup_printf ("stdout of child process (%s) %s: %s",
process_id, match_error, stdout_pattern);
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g_assertion_message (domain, file, line, func, msg);
g_free (msg);
}
if (stderr_pattern && match_result == !g_pattern_match_simple (stderr_pattern, test_trap_last_stderr))
{
char *msg;
logged_child_output = logged_child_output || log_child_output (process_id);
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g_test_message ("stderr was:\n%s", test_trap_last_stderr);
msg = g_strdup_printf ("stderr of child process (%s) %s: %s",
process_id, match_error, stderr_pattern);
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g_assertion_message (domain, file, line, func, msg);
g_free (msg);
}
(void) logged_child_output; /* shut up scan-build about the final unread assignment */
g_free (process_id);
}
static void
gstring_overwrite_int (GString *gstring,
guint pos,
guint32 vuint)
{
vuint = g_htonl (vuint);
g_string_overwrite_len (gstring, pos, (const gchar*) &vuint, 4);
}
static void
gstring_append_int (GString *gstring,
guint32 vuint)
{
vuint = g_htonl (vuint);
g_string_append_len (gstring, (const gchar*) &vuint, 4);
}
static void
gstring_append_double (GString *gstring,
double vdouble)
{
union { double vdouble; guint64 vuint64; } u;
u.vdouble = vdouble;
u.vuint64 = GUINT64_TO_BE (u.vuint64);
g_string_append_len (gstring, (const gchar*) &u.vuint64, 8);
}
static guint8*
g_test_log_dump (GTestLogMsg *msg,
guint *len)
{
GString *gstring = g_string_sized_new (1024);
guint ui;
gstring_append_int (gstring, 0); /* message length */
gstring_append_int (gstring, msg->log_type);
gstring_append_int (gstring, msg->n_strings);
gstring_append_int (gstring, msg->n_nums);
gstring_append_int (gstring, 0); /* reserved */
for (ui = 0; ui < msg->n_strings; ui++)
{
guint l = strlen (msg->strings[ui]);
gstring_append_int (gstring, l);
g_string_append_len (gstring, msg->strings[ui], l);
}
for (ui = 0; ui < msg->n_nums; ui++)
gstring_append_double (gstring, msg->nums[ui]);
*len = gstring->len;
gstring_overwrite_int (gstring, 0, *len); /* message length */
return (guint8*) g_string_free (gstring, FALSE);
}
static inline long double
net_double (const gchar **ipointer)
{
union { guint64 vuint64; double vdouble; } u;
guint64 aligned_int64;
memcpy (&aligned_int64, *ipointer, 8);
*ipointer += 8;
u.vuint64 = GUINT64_FROM_BE (aligned_int64);
return u.vdouble;
}
static inline guint32
net_int (const gchar **ipointer)
{
guint32 aligned_int;
memcpy (&aligned_int, *ipointer, 4);
*ipointer += 4;
return g_ntohl (aligned_int);
}
static gboolean
g_test_log_extract (GTestLogBuffer *tbuffer)
{
const gchar *p = tbuffer->data->str;
GTestLogMsg msg;
guint mlength;
if (tbuffer->data->len < 4 * 5)
return FALSE;
mlength = net_int (&p);
if (tbuffer->data->len < mlength)
return FALSE;
msg.log_type = net_int (&p);
msg.n_strings = net_int (&p);
msg.n_nums = net_int (&p);
if (net_int (&p) == 0)
{
guint ui;
msg.strings = g_new0 (gchar*, msg.n_strings + 1);
msg.nums = g_new0 (long double, msg.n_nums);
for (ui = 0; ui < msg.n_strings; ui++)
{
guint sl = net_int (&p);
msg.strings[ui] = g_strndup (p, sl);
p += sl;
}
for (ui = 0; ui < msg.n_nums; ui++)
msg.nums[ui] = net_double (&p);
if (p <= tbuffer->data->str + mlength)
{
g_string_erase (tbuffer->data, 0, mlength);
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tbuffer->msgs = g_slist_prepend (tbuffer->msgs, g_memdup2 (&msg, sizeof (msg)));
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return TRUE;
}
g_free (msg.nums);
g_strfreev (msg.strings);
}
g_error ("corrupt log stream from test program");
return FALSE;
}
/**
* g_test_log_buffer_new:
*
* Internal function for gtester to decode test log messages, no ABI guarantees provided.
*/
GTestLogBuffer*
g_test_log_buffer_new (void)
{
GTestLogBuffer *tb = g_new0 (GTestLogBuffer, 1);
tb->data = g_string_sized_new (1024);
return tb;
}
/**
* g_test_log_buffer_free:
*
* Internal function for gtester to free test log messages, no ABI guarantees provided.
*/
void
g_test_log_buffer_free (GTestLogBuffer *tbuffer)
{
g_return_if_fail (tbuffer != NULL);
while (tbuffer->msgs)
g_test_log_msg_free (g_test_log_buffer_pop (tbuffer));
g_string_free (tbuffer->data, TRUE);
g_free (tbuffer);
}
/**
* g_test_log_buffer_push:
*
* Internal function for gtester to decode test log messages, no ABI guarantees provided.
*/
void
g_test_log_buffer_push (GTestLogBuffer *tbuffer,
guint n_bytes,
const guint8 *bytes)
{
g_return_if_fail (tbuffer != NULL);
if (n_bytes)
{
gboolean more_messages;
g_return_if_fail (bytes != NULL);
g_string_append_len (tbuffer->data, (const gchar*) bytes, n_bytes);
do
more_messages = g_test_log_extract (tbuffer);
while (more_messages);
}
}
/**
* g_test_log_buffer_pop:
*
* Internal function for gtester to retrieve test log messages, no ABI guarantees provided.
*/
GTestLogMsg*
g_test_log_buffer_pop (GTestLogBuffer *tbuffer)
{
GTestLogMsg *msg = NULL;
g_return_val_if_fail (tbuffer != NULL, NULL);
if (tbuffer->msgs)
{
GSList *slist = g_slist_last (tbuffer->msgs);
msg = slist->data;
tbuffer->msgs = g_slist_delete_link (tbuffer->msgs, slist);
}
return msg;
}
/**
* g_test_log_msg_free:
*
* Internal function for gtester to free test log messages, no ABI guarantees provided.
*/
void
g_test_log_msg_free (GTestLogMsg *tmsg)
{
g_return_if_fail (tmsg != NULL);
g_strfreev (tmsg->strings);
g_free (tmsg->nums);
g_free (tmsg);
}
static gchar *
g_test_build_filename_va (GTestFileType file_type,
const gchar *first_path,
va_list ap)
{
const gchar *pathv[16];
gsize num_path_segments;
if (file_type == G_TEST_DIST)
pathv[0] = test_disted_files_dir;
else if (file_type == G_TEST_BUILT)
pathv[0] = test_built_files_dir;
else
g_assert_not_reached ();
pathv[1] = first_path;
for (num_path_segments = 2; num_path_segments < G_N_ELEMENTS (pathv); num_path_segments++)
{
pathv[num_path_segments] = va_arg (ap, const char *);
if (pathv[num_path_segments] == NULL)
break;
}
g_assert_cmpint (num_path_segments, <, G_N_ELEMENTS (pathv));
return g_build_filenamev ((gchar **) pathv);
}
/**
* g_test_build_filename:
* @file_type: the type of file (built vs. distributed)
* @first_path: the first segment of the pathname
* @...: %NULL-terminated additional path segments
*
* Creates the pathname to a data file that is required for a test.
*
* This function is conceptually similar to g_build_filename() except
* that the first argument has been replaced with a #GTestFileType
* argument.
*
* The data file should either have been distributed with the module
* containing the test (%G_TEST_DIST) or built as part of the build
* system of that module (%G_TEST_BUILT).
*
* In order for this function to work in srcdir != builddir situations,
* the G_TEST_SRCDIR and G_TEST_BUILDDIR environment variables need to
* have been defined. As of 2.38, this is done by the glib.mk
* included in GLib. Please ensure that your copy is up to date before
* using this function.
*
* In case neither variable is set, this function will fall back to
* using the dirname portion of argv[0], possibly removing ".libs".
* This allows for casual running of tests directly from the commandline
* in the srcdir == builddir case and should also support running of
* installed tests, assuming the data files have been installed in the
* same relative path as the test binary.
*
* Returns: the path of the file, to be freed using g_free()
*
* Since: 2.38
**/
/**
* GTestFileType:
* @G_TEST_DIST: a file that was included in the distribution tarball
* @G_TEST_BUILT: a file that was built on the compiling machine
*
* The type of file to return the filename for, when used with
* g_test_build_filename().
*
* These two options correspond rather directly to the 'dist' and
* 'built' terminology that automake uses and are explicitly used to
* distinguish between the 'srcdir' and 'builddir' being separate. All
* files in your project should either be dist (in the
* `EXTRA_DIST` or `dist_schema_DATA`
* sense, in which case they will always be in the srcdir) or built (in
* the `BUILT_SOURCES` sense, in which case they will
* always be in the builddir).
*
* Note: as a general rule of automake, files that are generated only as
* part of the build-from-git process (but then are distributed with the
* tarball) always go in srcdir (even if doing a srcdir != builddir
* build from git) and are considered as distributed files.
*
* Since: 2.38
**/
gchar *
g_test_build_filename (GTestFileType file_type,
const gchar *first_path,
...)
{
gchar *result;
va_list ap;
g_assert (g_test_initialized ());
va_start (ap, first_path);
result = g_test_build_filename_va (file_type, first_path, ap);
va_end (ap);
return result;
}
/**
* g_test_get_dir:
* @file_type: the type of file (built vs. distributed)
*
* Gets the pathname of the directory containing test files of the type
* specified by @file_type.
*
* This is approximately the same as calling g_test_build_filename("."),
* but you don't need to free the return value.
*
* Returns: (type filename): the path of the directory, owned by GLib
*
* Since: 2.38
**/
const gchar *
g_test_get_dir (GTestFileType file_type)
{
g_assert (g_test_initialized ());
if (file_type == G_TEST_DIST)
return test_disted_files_dir;
else if (file_type == G_TEST_BUILT)
return test_built_files_dir;
g_assert_not_reached ();
}
/**
* g_test_get_filename:
* @file_type: the type of file (built vs. distributed)
* @first_path: the first segment of the pathname
* @...: %NULL-terminated additional path segments
*
* Gets the pathname to a data file that is required for a test.
*
* This is the same as g_test_build_filename() with two differences.
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* The first difference is that you must only use this function from within
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* a testcase function. The second difference is that you need not free
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* the return value it will be automatically freed when the testcase
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* finishes running.
*
* It is safe to use this function from a thread inside of a testcase
* but you must ensure that all such uses occur before the main testcase
* function returns (ie: it is best to ensure that all threads have been
* joined).
*
* Returns: the path, automatically freed at the end of the testcase
*
* Since: 2.38
**/
const gchar *
g_test_get_filename (GTestFileType file_type,
const gchar *first_path,
...)
{
gchar *result;
GSList *node;
va_list ap;
g_assert (g_test_initialized ());
if (test_filename_free_list == NULL)
g_error ("g_test_get_filename() can only be used within testcase functions");
va_start (ap, first_path);
result = g_test_build_filename_va (file_type, first_path, ap);
va_end (ap);
node = g_slist_prepend (NULL, result);
do
node->next = *test_filename_free_list;
while (!g_atomic_pointer_compare_and_exchange (test_filename_free_list, node->next, node));
return result;
}
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/**
* g_test_get_path:
*
* Gets the test path for the test currently being run.
*
* In essence, it will be the same string passed as the first argument to
* e.g. g_test_add() when the test was added.
*
* This function returns a valid string only within a test function.
*
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* Note that this is a test path, not a file system path.
*
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* Returns: the test path for the test currently being run
*
* Since: 2.68
**/
const char *
g_test_get_path (void)
{
return test_run_name;
}