/* A self-testing framework, for use by -fself-test. Copyright (C) 2015-2021 Free Software Foundation, Inc. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC 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 General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "selftest.h" #include "intl.h" #if CHECKING_P namespace selftest { int num_passes; /* Record the successful outcome of some aspect of a test. */ void pass (const location &/*loc*/, const char */*msg*/) { num_passes++; } /* Report the failed outcome of some aspect of a test and abort. */ void fail (const location &loc, const char *msg) { fprintf (stderr,"%s:%i: %s: FAIL: %s\n", loc.m_file, loc.m_line, loc.m_function, msg); abort (); } /* As "fail", but using printf-style formatted output. */ void fail_formatted (const location &loc, const char *fmt, ...) { va_list ap; fprintf (stderr, "%s:%i: %s: FAIL: ", loc.m_file, loc.m_line, loc.m_function); va_start (ap, fmt); vfprintf (stderr, fmt, ap); va_end (ap); fprintf (stderr, "\n"); abort (); } /* Implementation detail of ASSERT_STREQ. Compare val1 and val2 with strcmp. They ought to be non-NULL; fail gracefully if either or both are NULL. */ void assert_streq (const location &loc, const char *desc_val1, const char *desc_val2, const char *val1, const char *val2) { /* If val1 or val2 are NULL, fail with a custom error message. */ if (val1 == NULL) if (val2 == NULL) fail_formatted (loc, "ASSERT_STREQ (%s, %s) val1=NULL val2=NULL", desc_val1, desc_val2); else fail_formatted (loc, "ASSERT_STREQ (%s, %s) val1=NULL val2=\"%s\"", desc_val1, desc_val2, val2); else if (val2 == NULL) fail_formatted (loc, "ASSERT_STREQ (%s, %s) val1=\"%s\" val2=NULL", desc_val1, desc_val2, val1); else { if (strcmp (val1, val2) == 0) pass (loc, "ASSERT_STREQ"); else fail_formatted (loc, "ASSERT_STREQ (%s, %s) val1=\"%s\" val2=\"%s\"", desc_val1, desc_val2, val1, val2); } } /* Implementation detail of ASSERT_STR_CONTAINS. Use strstr to determine if val_needle is within val_haystack. ::selftest::pass if it is found. ::selftest::fail if it is not found. */ void assert_str_contains (const location &loc, const char *desc_haystack, const char *desc_needle, const char *val_haystack, const char *val_needle) { /* If val_haystack is NULL, fail with a custom error message. */ if (val_haystack == NULL) fail_formatted (loc, "ASSERT_STR_CONTAINS (%s, %s) haystack=NULL", desc_haystack, desc_needle); /* If val_needle is NULL, fail with a custom error message. */ if (val_needle == NULL) fail_formatted (loc, "ASSERT_STR_CONTAINS (%s, %s) haystack=\"%s\" needle=NULL", desc_haystack, desc_needle, val_haystack); const char *test = strstr (val_haystack, val_needle); if (test) pass (loc, "ASSERT_STR_CONTAINS"); else fail_formatted (loc, "ASSERT_STR_CONTAINS (%s, %s) haystack=\"%s\" needle=\"%s\"", desc_haystack, desc_needle, val_haystack, val_needle); } /* Implementation detail of ASSERT_STR_STARTSWITH. Determine if VAL_STR starts with VAL_PREFIX. ::selftest::pass if VAL_STR does start with VAL_PREFIX. ::selftest::fail if it does not, or either is NULL (using DESC_STR and DESC_PREFIX in the error message). */ void assert_str_startswith (const location &loc, const char *desc_str, const char *desc_prefix, const char *val_str, const char *val_prefix) { /* If val_str is NULL, fail with a custom error message. */ if (val_str == NULL) fail_formatted (loc, "ASSERT_STR_STARTSWITH (%s, %s) str=NULL", desc_str, desc_prefix); /* If val_prefix is NULL, fail with a custom error message. */ if (val_prefix == NULL) fail_formatted (loc, "ASSERT_STR_STARTSWITH (%s, %s) str=\"%s\" prefix=NULL", desc_str, desc_prefix, val_str); const char *test = strstr (val_str, val_prefix); if (test == val_str) pass (loc, "ASSERT_STR_STARTSWITH"); else fail_formatted (loc, "ASSERT_STR_STARTSWITH (%s, %s) str=\"%s\" prefix=\"%s\"", desc_str, desc_prefix, val_str, val_prefix); } /* Constructor. Generate a name for the file. */ named_temp_file::named_temp_file (const char *suffix) { m_filename = make_temp_file (suffix); ASSERT_NE (m_filename, NULL); } /* Destructor. Delete the tempfile. */ named_temp_file::~named_temp_file () { unlink (m_filename); diagnostics_file_cache_forcibly_evict_file (m_filename); free (m_filename); } /* Constructor. Create a tempfile using SUFFIX, and write CONTENT to it. Abort if anything goes wrong, using LOC as the effective location in the problem report. */ temp_source_file::temp_source_file (const location &loc, const char *suffix, const char *content) : named_temp_file (suffix) { FILE *out = fopen (get_filename (), "w"); if (!out) fail_formatted (loc, "unable to open tempfile: %s", get_filename ()); fprintf (out, "%s", content); fclose (out); } /* Avoid introducing locale-specific differences in the results by hardcoding open_quote and close_quote. */ auto_fix_quotes::auto_fix_quotes () { m_saved_open_quote = open_quote; m_saved_close_quote = close_quote; open_quote = "`"; close_quote = "'"; } /* Restore old values of open_quote and close_quote. */ auto_fix_quotes::~auto_fix_quotes () { open_quote = m_saved_open_quote; close_quote = m_saved_close_quote; } /* Read the contents of PATH into memory, returning a 0-terminated buffer that must be freed by the caller. Fail (and abort) if there are any problems, with LOC as the reported location of the failure. */ char * read_file (const location &loc, const char *path) { FILE *f_in = fopen (path, "r"); if (!f_in) fail_formatted (loc, "unable to open file: %s", path); /* Read content, allocating FIXME. */ char *result = NULL; size_t total_sz = 0; size_t alloc_sz = 0; char buf[4096]; size_t iter_sz_in; while ( (iter_sz_in = fread (buf, 1, sizeof (buf), f_in)) ) { gcc_assert (alloc_sz >= total_sz); size_t old_total_sz = total_sz; total_sz += iter_sz_in; /* Allow 1 extra byte for 0-termination. */ if (alloc_sz < (total_sz + 1)) { size_t new_alloc_sz = alloc_sz ? alloc_sz * 2: total_sz + 1; result = (char *)xrealloc (result, new_alloc_sz); alloc_sz = new_alloc_sz; } memcpy (result + old_total_sz, buf, iter_sz_in); } if (!feof (f_in)) fail_formatted (loc, "error reading from %s: %s", path, xstrerror (errno)); fclose (f_in); /* 0-terminate the buffer. */ gcc_assert (total_sz < alloc_sz); result[total_sz] = '\0'; return result; } /* The path of SRCDIR/testsuite/selftests. */ const char *path_to_selftest_files = NULL; /* Convert a path relative to SRCDIR/testsuite/selftests to a real path (either absolute, or relative to pwd). The result should be freed by the caller. */ char * locate_file (const char *name) { ASSERT_NE (NULL, path_to_selftest_files); return concat (path_to_selftest_files, "/", name, NULL); } /* selftest::test_runner's ctor. */ test_runner::test_runner (const char *name) : m_name (name), m_start_time (get_run_time ()) { } /* selftest::test_runner's dtor. Print a summary line to stderr. */ test_runner::~test_runner () { /* Finished running tests. */ long finish_time = get_run_time (); long elapsed_time = finish_time - m_start_time; fprintf (stderr, "%s: %i pass(es) in %ld.%06ld seconds\n", m_name, num_passes, elapsed_time / 1000000, elapsed_time % 1000000); } /* Selftests for libiberty. */ /* Verify that xstrndup generates EXPECTED when called on SRC and N. */ static void assert_xstrndup_eq (const char *expected, const char *src, size_t n) { char *buf = xstrndup (src, n); ASSERT_STREQ (expected, buf); free (buf); } /* Verify that xstrndup works as expected. */ static void test_xstrndup () { assert_xstrndup_eq ("", "test", 0); assert_xstrndup_eq ("t", "test", 1); assert_xstrndup_eq ("te", "test", 2); assert_xstrndup_eq ("tes", "test", 3); assert_xstrndup_eq ("test", "test", 4); assert_xstrndup_eq ("test", "test", 5); /* Test on an string without zero termination. */ const char src[4] = {'t', 'e', 's', 't'}; assert_xstrndup_eq ("", src, 0); assert_xstrndup_eq ("t", src, 1); assert_xstrndup_eq ("te", src, 2); assert_xstrndup_eq ("tes", src, 3); assert_xstrndup_eq ("test", src, 4); } /* Run selftests for libiberty. */ static void test_libiberty () { test_xstrndup (); } /* Selftests for the selftest system itself. */ /* Sanity-check the ASSERT_ macros with various passing cases. */ static void test_assertions () { ASSERT_TRUE (true); ASSERT_FALSE (false); ASSERT_EQ (1, 1); ASSERT_EQ_AT (SELFTEST_LOCATION, 1, 1); ASSERT_NE (1, 2); ASSERT_GT (2, 1); ASSERT_GT_AT (SELFTEST_LOCATION, 2, 1); ASSERT_LT (1, 2); ASSERT_LT_AT (SELFTEST_LOCATION, 1, 2); ASSERT_STREQ ("test", "test"); ASSERT_STREQ_AT (SELFTEST_LOCATION, "test", "test"); ASSERT_STR_CONTAINS ("foo bar baz", "bar"); } /* Verify named_temp_file. */ static void test_named_temp_file () { named_temp_file t (".txt"); FILE *f = fopen (t.get_filename (), "w"); if (!f) fail_formatted (SELFTEST_LOCATION, "unable to open %s for writing", t.get_filename ()); fclose (f); } /* Verify read_file (and also temp_source_file). */ static void test_read_file () { temp_source_file t (SELFTEST_LOCATION, "test1.s", "\tjmp\t.L2\n"); char *buf = read_file (SELFTEST_LOCATION, t.get_filename ()); ASSERT_STREQ ("\tjmp\t.L2\n", buf); free (buf); } /* Verify locate_file (and read_file). */ static void test_locate_file () { char *path = locate_file ("example.txt"); char *buf = read_file (SELFTEST_LOCATION, path); ASSERT_STREQ ("example of a selftest file\n", buf); free (buf); free (path); } /* Run all of the selftests within this file. */ void selftest_c_tests () { test_libiberty (); test_assertions (); test_named_temp_file (); test_read_file (); test_locate_file (); } } // namespace selftest #endif /* #if CHECKING_P */