google3/third_party/grte/v5_src/glibc-2.27/resolv/tst-ns_name.c - GRTEv5 - Git at Google

 /* Test ns_name-related functions.
    Copyright (C) 2017-2018 Free Software Foundation, Inc.
    This file is part of the GNU C Library.

    The GNU C 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.

    The GNU C 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 the GNU C Library; if not, see
    <http://www.gnu.org/licenses/>.  */

 /* This test program processes the tst-ns_name.data file.  */

 #include <ctype.h>
 #include <resolv.h>
 #include <stdbool.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <support/check.h>
 #include <support/support.h>
 #include <support/xstdio.h>

 /* A byte buffer and its length.  */
 struct buffer
 {
   unsigned char *data;
   size_t length;
 };

 /* Convert a base64-encoded string to its binary representation.  */
 static bool
 base64_to_buffer (const char *base64, struct buffer *result)
 {
   /* "-" denotes an empty input.  */
   if (strcmp (base64, "-") == 0)
     {
       result->data = xmalloc (1);
       result->length = 0;
       return true;
     }

   size_t size = strlen (base64);
   unsigned char *data = xmalloc (size);
   int ret = b64_pton (base64, data, size);
   if (ret < 0 || ret > size)
     return false;
   result->data = xrealloc (data, ret);
   result->length = ret;
   return true;
 }

 /* A test case for ns_name_unpack and ns_name_ntop.  */
 struct test_case
 {
   char *path;
   size_t lineno;
   struct buffer input;
   size_t input_offset;
   int unpack_result;
   struct buffer unpack_output;
   int ntop_result;
   char *ntop_text;
 };

 /* Deallocate the buffers associated with the test case.  */
 static void
 free_test_case (struct test_case *t)
 {
   free (t->path);
   free (t->input.data);
   free (t->unpack_output.data);
   free (t->ntop_text);
 }

 /* Extract the test case information from a test file line.  */
 static bool
 parse_test_case (const char *path, size_t lineno, const char *line,
                  struct test_case *result)
 {
   memset (result, 0, sizeof (*result));
   result->path = xstrdup (path);
   result->lineno = lineno;
   result->ntop_result = -1;
   char *input = NULL;
   char *unpack_output = NULL;
   int ret = sscanf (line, "%ms %zu %d %ms %d %ms",
                     &input, &result->input_offset,
                     &result->unpack_result, &unpack_output,
                     &result->ntop_result, &result->ntop_text);
   if (ret < 3)
     {
       printf ("%s:%zu: error: missing input fields\n", path, lineno);
       free (input);
       return false;
     }
   if (!base64_to_buffer (input, &result->input))
     {
       printf ("%s:%zu: error: malformed base64 input data\n", path, lineno);
       free (input);
       free (unpack_output);
       free (result->ntop_text);
       return false;
     }
   free (input);

   if (unpack_output == NULL)
     result->unpack_output = (struct buffer) { NULL, 0 };
   else if (!base64_to_buffer (unpack_output, &result->unpack_output))
     {
       printf ("%s:%zu: error: malformed base64 unpack data\n", path, lineno);
       free (result->input.data);
       free (unpack_output);
       free (result->ntop_text);
       return false;
     }
   free (unpack_output);

   /* At this point, all allocated buffers have been transferred to
      *result.  */

   if (result->input_offset > result->input.length)
     {
       printf ("%s:%zu: error: input offset %zu exceeds buffer size %zu\n",
               path, lineno, result->input_offset, result->input.length);
       free_test_case (result);
       return false;
     }
   if (result->unpack_result < -1)
     {
       printf ("%s:%zu: error: invalid unpack result %d\n",
               path, lineno, result->unpack_result);
       free_test_case (result);
       return false;
     }
   if (result->ntop_result < -1)
     {
       printf ("%s:%zu: error: invalid ntop result %d\n",
               path, lineno, result->ntop_result);
       free_test_case (result);
       return false;
     }

   bool fields_consistent;
   switch (ret)
     {
     case 3:
       fields_consistent = result->unpack_result == -1;
       break;
     case 5:
       fields_consistent = result->unpack_result != -1
         && result->ntop_result == -1;
       break;
     case 6:
       fields_consistent = result->unpack_result != -1
         && result->ntop_result != -1;
       break;
     default:
       fields_consistent = false;
     }
   if (!fields_consistent)
     {
       printf ("%s:%zu: error: wrong number of fields: %d\n",
               path, lineno, ret);
       free_test_case (result);
       return false;
     }
   return true;
 }

 /* Format the buffer as a hexadecimal string and write it to standard
    output.  */
 static void
 print_hex (const char *label, struct buffer buffer)
 {
   printf ("  %s ", label);
   unsigned char *p = buffer.data;
   unsigned char *end = p + buffer.length;
   while (p < end)
     {
       printf ("%02X", *p & 0xFF);
       ++p;
     }
   putchar ('\n');
 }

 /* Run the test case specified in *T.  */
 static void
 run_test_case (struct test_case *t)
 {
   /* Test ns_name_unpack.  */
   unsigned char *unpacked = xmalloc (NS_MAXCDNAME);
   int consumed = ns_name_unpack
     (t->input.data, t->input.data + t->input.length,
      t->input.data + t->input_offset,
      unpacked, NS_MAXCDNAME);
   if (consumed != t->unpack_result)
     {
       support_record_failure ();
       printf ("%s:%zu: error: wrong result from ns_name_unpack\n"
               "  expected: %d\n"
               "  actual:   %d\n",
               t->path, t->lineno, t->unpack_result, consumed);
       return;
     }
   if (consumed != -1)
     {
       if (memcmp (unpacked, t->unpack_output.data,
                   t->unpack_output.length) != 0)
         {
           support_record_failure ();
           printf ("%s:%zu: error: wrong data from ns_name_unpack\n",
                   t->path, t->lineno);
           print_hex ("expected:", t->unpack_output);
           print_hex ("actual:  ",
                      (struct buffer) { unpacked, t->unpack_output.length });
           return;
         }

       /* Test ns_name_ntop.  */
       char *text = xmalloc (NS_MAXDNAME);
       int ret = ns_name_ntop (unpacked, text, NS_MAXDNAME);
       if (ret != t->ntop_result)
         {
           support_record_failure ();
           printf ("%s:%zu: error: wrong result from ns_name_top\n"
                   "  expected: %d\n"
                   "  actual:   %d\n",
                   t->path, t->lineno, t->ntop_result, ret);
           return;
         }
       if (ret != -1)
         {
           if (strcmp (text, t->ntop_text) != 0)
             {
               support_record_failure ();
               printf ("%s:%zu: error: wrong data from ns_name_ntop\n",
                       t->path, t->lineno);
               printf ("  expected: \"%s\"\n", t->ntop_text);
               printf ("  actual:   \"%s\"\n", text);
               return;
             }

           /* Test ns_name_pton.  Unpacking does not check the
              NS_MAXCDNAME limit, but packing does, so we need to
              adjust the expected result.  */
           int expected;
           if (t->unpack_output.length > NS_MAXCDNAME)
             expected = -1;
           else if (strcmp (text, ".") == 0)
             /* The root domain is fully qualified.  */
             expected = 1;
           else
             /* The domain name is never fully qualified.  */
             expected = 0;
           unsigned char *repacked = xmalloc (NS_MAXCDNAME);
           ret = ns_name_pton (text, repacked, NS_MAXCDNAME);
           if (ret != expected)
             {
               support_record_failure ();
               printf ("%s:%zu: error: wrong result from ns_name_pton\n"
                       "  expected: %d\n"
                       "  actual:   %d\n",
                       t->path, t->lineno, expected, ret);
               return;
             }
           if (ret >= 0
               && memcmp (repacked, unpacked, t->unpack_output.length) != 0)
             {
               support_record_failure ();
               printf ("%s:%zu: error: wrong data from ns_name_pton\n",
                       t->path, t->lineno);
               print_hex ("expected:", t->unpack_output);
               print_hex ("actual:  ",
                          (struct buffer) { repacked, t->unpack_output.length });
               return;
             }

           /* Test ns_name_compress, no compression case.  */
           if (t->unpack_output.length > NS_MAXCDNAME)
             expected = -1;
           else
             expected = t->unpack_output.length;
           memset (repacked, '$', NS_MAXCDNAME);
           {
             enum { ptr_count = 5 };
             const unsigned char *dnptrs[ptr_count] = { repacked, };
             ret = ns_name_compress (text, repacked, NS_MAXCDNAME,
                                     dnptrs, dnptrs + ptr_count);
             if (ret != expected)
               {
                 support_record_failure ();
                 printf ("%s:%zu: error: wrong result from ns_name_compress\n"
                         "  expected: %d\n"
                         "  actual:   %d\n",
                         t->path, t->lineno, expected, ret);
                 return;
               }
             if (ret < 0)
               {
                 TEST_VERIFY (dnptrs[0] == repacked);
                 TEST_VERIFY (dnptrs[1] == NULL);
               }
             else
               {
                 if (memcmp (repacked, unpacked, t->unpack_output.length) != 0)
                   {
                     support_record_failure ();
                     printf ("%s:%zu: error: wrong data from ns_name_compress\n",
                             t->path, t->lineno);
                     print_hex ("expected:", t->unpack_output);
                     print_hex ("actual:  ", (struct buffer) { repacked, ret });
                     return;
                   }
                 TEST_VERIFY (dnptrs[0] == repacked);
                 if (unpacked[0] == '\0')
                   /* The root domain is not a compression target.  */
                   TEST_VERIFY (dnptrs[1] == NULL);
                 else
                   {
                     TEST_VERIFY (dnptrs[1] == repacked);
                     TEST_VERIFY (dnptrs[2] == NULL);
                   }
               }
           }

           /* Test ns_name_compress, full compression case.  Skip this
              test for invalid names and the root domain.  */
           if (expected >= 0 && unpacked[0] != '\0')
             {
               /* The destination buffer needs additional room for the
                  offset, the initial name, and the compression
                  reference.  */
               enum { name_offset = 259 };
               size_t target_offset = name_offset + t->unpack_output.length;
               size_t repacked_size = target_offset + 2;
               repacked = xrealloc (repacked, repacked_size);
               memset (repacked, '@', repacked_size);
               memcpy (repacked + name_offset,
                       t->unpack_output.data, t->unpack_output.length);
               enum { ptr_count = 5 };
               const unsigned char *dnptrs[ptr_count]
                 = { repacked, repacked + name_offset, };
               ret = ns_name_compress
                 (text, repacked + target_offset, NS_MAXCDNAME,
                  dnptrs, dnptrs + ptr_count);
               if (ret != 2)
                 {
                   support_record_failure ();
                   printf ("%s:%zu: error: wrong result from ns_name_compress"
                           " (2)\n"
                           "  expected: 2\n"
                           "  actual:   %d\n",
                           t->path, t->lineno, ret);
                   return;
                 }
               if (memcmp (repacked + target_offset, "\xc1\x03", 2) != 0)
                 {
                   support_record_failure ();
                   printf ("%s:%zu: error: wrong data from ns_name_compress"
                           " (2)\n"
                           "  expected: C103\n",
                           t->path, t->lineno);
                   print_hex ("actual:  ",
                              (struct buffer) { repacked + target_offset, ret });
                   return;
                 }
               TEST_VERIFY (dnptrs[0] == repacked);
               TEST_VERIFY (dnptrs[1] == repacked + name_offset);
               TEST_VERIFY (dnptrs[2] == NULL);
             }

           free (repacked);
         }
       free (text);
     }
   free (unpacked);
 }

 /* Open the file at PATH, parse the test cases contained in it, and
    run them.  */
 static void
 run_test_file (const char *path)
 {
   FILE *fp = xfopen (path, "re");
   char *line = NULL;
   size_t line_allocated = 0;
   size_t lineno = 0;

   while (true)
     {
       ssize_t ret = getline (&line, &line_allocated, fp);
       if (ret < 0)
         {
           if (ferror (fp))
             {
               printf ("%s: error reading file: %m\n", path);
               exit (1);
             }
           TEST_VERIFY (feof (fp));
           break;
         }

       ++lineno;
       char *p = line;
       while (isspace (*p))
         ++p;
       if (*p == '\0' || *p == '#')
         continue;

       struct test_case test_case;
       if (!parse_test_case (path, lineno, line, &test_case))
         {
           support_record_failure ();
           continue;
         }
       run_test_case (&test_case);
       free_test_case (&test_case);
     }
   free (line);
   xfclose (fp);
 }

 static int
 do_test (void)
 {
   run_test_file ("tst-ns_name.data");
   return 0;
 }

 #include <support/test-driver.c>
	/* Test ns_name-related functions.
	Copyright (C) 2017-2018 Free Software Foundation, Inc.
	This file is part of the GNU C Library.

	The GNU C 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.

	The GNU C 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 the GNU C Library; if not, see
	<http://www.gnu.org/licenses/>. */

	/* This test program processes the tst-ns_name.data file. */

	#include <ctype.h>
	#include <resolv.h>
	#include <stdbool.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <support/check.h>
	#include <support/support.h>
	#include <support/xstdio.h>

	/* A byte buffer and its length. */
	struct buffer
	{
	unsigned char *data;
	size_t length;
	};

	/* Convert a base64-encoded string to its binary representation. */
	static bool
	base64_to_buffer (const char base64, struct buffer result)
	{
	/* "-" denotes an empty input. */
	if (strcmp (base64, "-") == 0)
	{
	result->data = xmalloc (1);
	result->length = 0;
	return true;
	}

	size_t size = strlen (base64);
	unsigned char *data = xmalloc (size);
	int ret = b64_pton (base64, data, size);
	if (ret < 0 \|\| ret > size)
	return false;
	result->data = xrealloc (data, ret);
	result->length = ret;
	return true;
	}

	/* A test case for ns_name_unpack and ns_name_ntop. */
	struct test_case
	{
	char *path;
	size_t lineno;
	struct buffer input;
	size_t input_offset;
	int unpack_result;
	struct buffer unpack_output;
	int ntop_result;
	char *ntop_text;
	};

	/* Deallocate the buffers associated with the test case. */
	static void
	free_test_case (struct test_case *t)
	{
	free (t->path);
	free (t->input.data);
	free (t->unpack_output.data);
	free (t->ntop_text);
	}

	/* Extract the test case information from a test file line. */
	static bool
	parse_test_case (const char path, size_t lineno, const char line,
	struct test_case *result)
	{
	memset (result, 0, sizeof (*result));
	result->path = xstrdup (path);
	result->lineno = lineno;
	result->ntop_result = -1;
	char *input = NULL;
	char *unpack_output = NULL;
	int ret = sscanf (line, "%ms %zu %d %ms %d %ms",
	&input, &result->input_offset,
	&result->unpack_result, &unpack_output,
	&result->ntop_result, &result->ntop_text);
	if (ret < 3)
	{
	printf ("%s:%zu: error: missing input fields\n", path, lineno);
	free (input);
	return false;
	}
	if (!base64_to_buffer (input, &result->input))
	{
	printf ("%s:%zu: error: malformed base64 input data\n", path, lineno);
	free (input);
	free (unpack_output);
	free (result->ntop_text);
	return false;
	}
	free (input);

	if (unpack_output == NULL)
	result->unpack_output = (struct buffer) { NULL, 0 };
	else if (!base64_to_buffer (unpack_output, &result->unpack_output))
	{
	printf ("%s:%zu: error: malformed base64 unpack data\n", path, lineno);
	free (result->input.data);
	free (unpack_output);
	free (result->ntop_text);
	return false;
	}
	free (unpack_output);

	/* At this point, all allocated buffers have been transferred to
	result. /

	if (result->input_offset > result->input.length)
	{
	printf ("%s:%zu: error: input offset %zu exceeds buffer size %zu\n",
	path, lineno, result->input_offset, result->input.length);
	free_test_case (result);
	return false;
	}
	if (result->unpack_result < -1)
	{
	printf ("%s:%zu: error: invalid unpack result %d\n",
	path, lineno, result->unpack_result);
	free_test_case (result);
	return false;
	}
	if (result->ntop_result < -1)
	{
	printf ("%s:%zu: error: invalid ntop result %d\n",
	path, lineno, result->ntop_result);
	free_test_case (result);
	return false;
	}

	bool fields_consistent;
	switch (ret)
	{
	case 3:
	fields_consistent = result->unpack_result == -1;
	break;
	case 5:
	fields_consistent = result->unpack_result != -1
	&& result->ntop_result == -1;
	break;
	case 6:
	fields_consistent = result->unpack_result != -1
	&& result->ntop_result != -1;
	break;
	default:
	fields_consistent = false;
	}
	if (!fields_consistent)
	{
	printf ("%s:%zu: error: wrong number of fields: %d\n",
	path, lineno, ret);
	free_test_case (result);
	return false;
	}
	return true;
	}

	/* Format the buffer as a hexadecimal string and write it to standard
	output. */
	static void
	print_hex (const char *label, struct buffer buffer)
	{
	printf (" %s ", label);
	unsigned char *p = buffer.data;
	unsigned char *end = p + buffer.length;
	while (p < end)
	{
	printf ("%02X", *p & 0xFF);
	++p;
	}
	putchar ('\n');
	}

	/* Run the test case specified in T. /
	static void
	run_test_case (struct test_case *t)
	{
	/* Test ns_name_unpack. */
	unsigned char *unpacked = xmalloc (NS_MAXCDNAME);
	int consumed = ns_name_unpack
	(t->input.data, t->input.data + t->input.length,
	t->input.data + t->input_offset,
	unpacked, NS_MAXCDNAME);
	if (consumed != t->unpack_result)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong result from ns_name_unpack\n"
	" expected: %d\n"
	" actual: %d\n",
	t->path, t->lineno, t->unpack_result, consumed);
	return;
	}
	if (consumed != -1)
	{
	if (memcmp (unpacked, t->unpack_output.data,
	t->unpack_output.length) != 0)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong data from ns_name_unpack\n",
	t->path, t->lineno);
	print_hex ("expected:", t->unpack_output);
	print_hex ("actual: ",
	(struct buffer) { unpacked, t->unpack_output.length });
	return;
	}

	/* Test ns_name_ntop. */
	char *text = xmalloc (NS_MAXDNAME);
	int ret = ns_name_ntop (unpacked, text, NS_MAXDNAME);
	if (ret != t->ntop_result)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong result from ns_name_top\n"
	" expected: %d\n"
	" actual: %d\n",
	t->path, t->lineno, t->ntop_result, ret);
	return;
	}
	if (ret != -1)
	{
	if (strcmp (text, t->ntop_text) != 0)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong data from ns_name_ntop\n",
	t->path, t->lineno);
	printf (" expected: \"%s\"\n", t->ntop_text);
	printf (" actual: \"%s\"\n", text);
	return;
	}

	/* Test ns_name_pton. Unpacking does not check the
	NS_MAXCDNAME limit, but packing does, so we need to
	adjust the expected result. */
	int expected;
	if (t->unpack_output.length > NS_MAXCDNAME)
	expected = -1;
	else if (strcmp (text, ".") == 0)
	/* The root domain is fully qualified. */
	expected = 1;
	else
	/* The domain name is never fully qualified. */
	expected = 0;
	unsigned char *repacked = xmalloc (NS_MAXCDNAME);
	ret = ns_name_pton (text, repacked, NS_MAXCDNAME);
	if (ret != expected)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong result from ns_name_pton\n"
	" expected: %d\n"
	" actual: %d\n",
	t->path, t->lineno, expected, ret);
	return;
	}
	if (ret >= 0
	&& memcmp (repacked, unpacked, t->unpack_output.length) != 0)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong data from ns_name_pton\n",
	t->path, t->lineno);
	print_hex ("expected:", t->unpack_output);
	print_hex ("actual: ",
	(struct buffer) { repacked, t->unpack_output.length });
	return;
	}

	/* Test ns_name_compress, no compression case. */
	if (t->unpack_output.length > NS_MAXCDNAME)
	expected = -1;
	else
	expected = t->unpack_output.length;
	memset (repacked, '$', NS_MAXCDNAME);
	{
	enum { ptr_count = 5 };
	const unsigned char *dnptrs[ptr_count] = { repacked, };
	ret = ns_name_compress (text, repacked, NS_MAXCDNAME,
	dnptrs, dnptrs + ptr_count);
	if (ret != expected)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong result from ns_name_compress\n"
	" expected: %d\n"
	" actual: %d\n",
	t->path, t->lineno, expected, ret);
	return;
	}
	if (ret < 0)
	{
	TEST_VERIFY (dnptrs[0] == repacked);
	TEST_VERIFY (dnptrs[1] == NULL);
	}
	else
	{
	if (memcmp (repacked, unpacked, t->unpack_output.length) != 0)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong data from ns_name_compress\n",
	t->path, t->lineno);
	print_hex ("expected:", t->unpack_output);
	print_hex ("actual: ", (struct buffer) { repacked, ret });
	return;
	}
	TEST_VERIFY (dnptrs[0] == repacked);
	if (unpacked[0] == '\0')
	/* The root domain is not a compression target. */
	TEST_VERIFY (dnptrs[1] == NULL);
	else
	{
	TEST_VERIFY (dnptrs[1] == repacked);
	TEST_VERIFY (dnptrs[2] == NULL);
	}
	}
	}

	/* Test ns_name_compress, full compression case. Skip this
	test for invalid names and the root domain. */
	if (expected >= 0 && unpacked[0] != '\0')
	{
	/* The destination buffer needs additional room for the
	offset, the initial name, and the compression
	reference. */
	enum { name_offset = 259 };
	size_t target_offset = name_offset + t->unpack_output.length;
	size_t repacked_size = target_offset + 2;
	repacked = xrealloc (repacked, repacked_size);
	memset (repacked, '@', repacked_size);
	memcpy (repacked + name_offset,
	t->unpack_output.data, t->unpack_output.length);
	enum { ptr_count = 5 };
	const unsigned char *dnptrs[ptr_count]
	= { repacked, repacked + name_offset, };
	ret = ns_name_compress
	(text, repacked + target_offset, NS_MAXCDNAME,
	dnptrs, dnptrs + ptr_count);
	if (ret != 2)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong result from ns_name_compress"
	" (2)\n"
	" expected: 2\n"
	" actual: %d\n",
	t->path, t->lineno, ret);
	return;
	}
	if (memcmp (repacked + target_offset, "\xc1\x03", 2) != 0)
	{
	support_record_failure ();
	printf ("%s:%zu: error: wrong data from ns_name_compress"
	" (2)\n"
	" expected: C103\n",
	t->path, t->lineno);
	print_hex ("actual: ",
	(struct buffer) { repacked + target_offset, ret });
	return;
	}
	TEST_VERIFY (dnptrs[0] == repacked);
	TEST_VERIFY (dnptrs[1] == repacked + name_offset);
	TEST_VERIFY (dnptrs[2] == NULL);
	}

	free (repacked);
	}
	free (text);
	}
	free (unpacked);
	}

	/* Open the file at PATH, parse the test cases contained in it, and
	run them. */
	static void
	run_test_file (const char *path)
	{
	FILE *fp = xfopen (path, "re");
	char *line = NULL;
	size_t line_allocated = 0;
	size_t lineno = 0;

	while (true)
	{
	ssize_t ret = getline (&line, &line_allocated, fp);
	if (ret < 0)
	{
	if (ferror (fp))
	{
	printf ("%s: error reading file: %m\n", path);
	exit (1);
	}
	TEST_VERIFY (feof (fp));
	break;
	}

	++lineno;
	char *p = line;
	while (isspace (*p))
	++p;
	if (p == '\0' \|\| p == '#')
	continue;

	struct test_case test_case;
	if (!parse_test_case (path, lineno, line, &test_case))
	{
	support_record_failure ();
	continue;
	}
	run_test_case (&test_case);
	free_test_case (&test_case);
	}
	free (line);
	xfclose (fp);
	}

	static int
	do_test (void)
	{
	run_test_file ("tst-ns_name.data");
	return 0;
	}

	#include <support/test-driver.c>