zircon/system/utest/runtests-utils/runtests-utils-test.cc - fuchsia - Git at Google

 // Copyright 2018 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <dirent.h>
 #include <errno.h>
 #include <fcntl.h>
 #include <libgen.h>
 #include <limits.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <sys/stat.h>
 #include <unistd.h>

 #include <memory>

 #include <fbl/string_buffer.h>
 #include <fbl/unique_fd.h>
 #include <fbl/vector.h>
 #include <re2/re2.h>
 #include <runtests-utils/runtests-utils.h>
 #include <zxtest/zxtest.h>

 #include "runtests-utils-test-utils.h"

 namespace runtests {
 namespace {

 constexpr size_t kOneMegabyte = 1 << 20;

 TEST(ParseTestNames, ParseTestNamesEmptyStr) {
   fbl::String input("");
   fbl::Vector<fbl::String> parsed;
   ParseTestNames(input, &parsed);
   EXPECT_EQ(0, parsed.size());
 }

 TEST(ParseTestNames, ParseTestNamesEmptyStrInMiddle) {
   fbl::String input("a,,b");
   fbl::Vector<fbl::String> parsed;
   ParseTestNames(input, &parsed);
   ASSERT_EQ(2, parsed.size());
   EXPECT_STREQ("a", parsed[0].c_str());
   EXPECT_STREQ("b", parsed[1].c_str());
 }

 TEST(ParseTestNames, ParseTestNamesTrailingComma) {
   fbl::String input("a,");
   fbl::Vector<fbl::String> parsed;
   ParseTestNames(input, &parsed);
   ASSERT_EQ(1, parsed.size());
   EXPECT_STREQ("a", parsed[0].c_str());
 }

 TEST(ParseTestNames, ParseTestNamesNormal) {
   fbl::String input("a,b");
   fbl::Vector<fbl::String> parsed;
   ParseTestNames(input, &parsed);
   ASSERT_EQ(2, parsed.size());
   EXPECT_STREQ("a", parsed[0].c_str());
   EXPECT_STREQ("b", parsed[1].c_str());
 }

 TEST(IsInWhitelist, EmptyWhitelist) {
   fbl::Vector<fbl::String> whitelist;
   EXPECT_FALSE(IsInWhitelist("a", whitelist));
 }

 TEST(IsInWhitelist, NonemptyWhitelist) {
   fbl::Vector<fbl::String> whitelist = {"b", "a"};
   EXPECT_TRUE(IsInWhitelist("a", whitelist));
 }

 TEST(JoinPath, JoinPathNoTrailingSlash) { EXPECT_STREQ("a/b/c/d", JoinPath("a/b", "c/d").c_str()); }

 TEST(JoinPath, JoinPathTrailingSlash) { EXPECT_STREQ("a/b/c/d", JoinPath("a/b/", "c/d").c_str()); }

 TEST(JoinPath, JoinPathAbsoluteChild) { EXPECT_STREQ("a/b/c/d", JoinPath("a/b/", "/c/d").c_str()); }

 TEST(MkDirAll, MkDirAllTooLong) {
   char too_long[PATH_MAX + 1];
   memset(too_long, 'a', sizeof(too_long) - 1);
   too_long[sizeof(too_long) - 1] = '\0';
   EXPECT_EQ(ENAMETOOLONG, MkDirAll(too_long));
 }

 constexpr char kTmp[] = "/tmp";

 TEST(MkDirAll, MkDirAllAlreadyExists) {
   ScopedTestDir test_dir(kTmp);
   const fbl::String already = JoinPath(test_dir.path(), "already");
   const fbl::String exists = JoinPath(already, "exists");
   ASSERT_EQ(0, mkdir(already.c_str(), 0755));
   ASSERT_EQ(0, mkdir(exists.c_str(), 0755));
   EXPECT_EQ(0, MkDirAll(exists));
 }
 TEST(MkDirAll, MkDirAllParentAlreadyExists) {
   ScopedTestDir test_dir(kTmp);
   const fbl::String parent = JoinPath(test_dir.path(), "existing-parent");
   const fbl::String child = JoinPath(parent, "child");
   ASSERT_EQ(0, mkdir(parent.c_str(), 0755));
   EXPECT_EQ(0, MkDirAll(child));
   struct stat s;
   EXPECT_EQ(0, stat(child.c_str(), &s));
 }
 TEST(MkDirAll, MkDirAllParentDoesNotExist) {
   ScopedTestDir test_dir(kTmp);
   const fbl::String parent = JoinPath(test_dir.path(), "not-existing-parent");
   const fbl::String child = JoinPath(parent, "child");
   struct stat s;
   ASSERT_NE(0, stat(parent.c_str(), &s));
   EXPECT_EQ(0, MkDirAll(child));
   EXPECT_EQ(0, stat(child.c_str(), &s));
 }

 TEST(WriteSummaryJSON, WriteSummaryJSONSucceeds) {
   // A reasonable guess that the function won't output more than this.
   std::unique_ptr<char[]> buf(new char[kOneMegabyte]);
   FILE* buf_file = fmemopen(buf.get(), kOneMegabyte, "w");
   fbl::Vector<std::unique_ptr<Result>> results;
   results.push_back(std::make_unique<Result>("/a", SUCCESS, 0, 10));
   results.push_back(std::make_unique<Result>("b", FAILED_TO_LAUNCH, 0, 0));
   ASSERT_EQ(0, WriteSummaryJSON(results, "/tmp/file_path", buf_file));
   fclose(buf_file);
   // We don't have a JSON parser in zircon right now, so just hard-code the
   // expected output.
   const char kExpectedJSONOutput[] = R"({
   "tests": [
     {
       "name": "/a",
       "duration_milliseconds": 10
     },
     {
       "name": "b",
       "duration_milliseconds": 0
     }
   ],
   "outputs": {
     "syslog_file": "/tmp/file_path"
   }
 }
 )";
   EXPECT_STREQ(kExpectedJSONOutput, buf.get());
 }

 TEST(WriteSummaryJSON, WriteSummaryJSONSucceedsWithoutSyslogPath) {
   // A reasonable guess that the function won't output more than this.
   std::unique_ptr<char[]> buf(new char[kOneMegabyte]);
   FILE* buf_file = fmemopen(buf.get(), kOneMegabyte, "w");
   fbl::Vector<std::unique_ptr<Result>> results;
   results.push_back(std::make_unique<Result>("/a", SUCCESS, 0, 10));
   results.push_back(std::make_unique<Result>("b", FAILED_TO_LAUNCH, 0, 0));
   ASSERT_EQ(0, WriteSummaryJSON(results, /*syslog_path=*/"", buf_file));
   fclose(buf_file);
   // With an empty syslog_path, we expect no values under "outputs" and
   // "syslog_file" to be generated in the JSON output.
   const char kExpectedJSONOutput[] = R"({
   "tests": [
     {
       "name": "/a",
       "duration_milliseconds": 10
     },
     {
       "name": "b",
       "duration_milliseconds": 0
     }
   ]
 }
 )";

   EXPECT_STREQ(kExpectedJSONOutput, buf.get());
 }

 TEST(ResolveGlobs, ResolveGlobsNoMatches) {
   ScopedTestDir test_dir(kTmp);
   fbl::Vector<fbl::String> resolved;
   fbl::String test_fs_glob = JoinPath(test_dir.path(), "bar*");
   const fbl::Vector<fbl::String> globs = {"/foo/bar/*", test_fs_glob};
   ASSERT_EQ(0, ResolveGlobs(globs, &resolved));
   EXPECT_EQ(0, resolved.size());
 }

 TEST(ResolveGlobs, ResolveGlobsMultipleMatches) {
   ScopedTestDir test_dir(kTmp);
   fbl::String existing_dir_path = JoinPath(test_dir.path(), "existing-dir/prefix-suffix");
   fbl::String existing_file_path = JoinPath(test_dir.path(), "existing-file");
   fbl::String existing_dir_glob = JoinPath(test_dir.path(), "existing-dir/prefix*");
   const fbl::Vector<fbl::String> globs = {"/does/not/exist/*",
                                           existing_dir_glob,  // matches existing_dir_path.
                                           existing_file_path};
   ASSERT_EQ(0, MkDirAll(existing_dir_path));
   const int existing_file_fd = open(existing_file_path.c_str(), O_CREAT, S_IRUSR | S_IWUSR);
   ASSERT_NE(-1, existing_file_fd, "%s", strerror(errno));
   ASSERT_NE(-1, close(existing_file_fd), "%s", strerror(errno));
   fbl::Vector<fbl::String> resolved;
   ASSERT_EQ(0, ResolveGlobs(globs, &resolved));
   ASSERT_EQ(2, resolved.size());
   EXPECT_STREQ(existing_dir_path.c_str(), resolved[0].c_str());
 }

 TEST(RunTest, RunTestSuccess) {
   PackagedScriptFile script_file("succeed.sh");
   fbl::String test_name = script_file.path();
   const char* argv[] = {test_name.c_str(), nullptr};
   std::unique_ptr<Result> result = RunTest(argv, nullptr, test_name.c_str(), 0);
   EXPECT_STREQ(argv[0], result->name.c_str());
   EXPECT_EQ(SUCCESS, result->launch_status);
   EXPECT_EQ(0, result->return_code);
 }

 TEST(RunTest, RunTestTimeout) {
   // Test timeout is enforced if the test runs too long.
   PackagedScriptFile inf_loop_file("test-inf-loop.sh");
   fbl::String inf_loop_name = inf_loop_file.path();
   const char* inf_loop_argv[] = {inf_loop_name.c_str(), nullptr};
   std::unique_ptr<Result> result = RunTest(inf_loop_argv, nullptr, inf_loop_name.c_str(), 1);
   EXPECT_STREQ(inf_loop_argv[0], result->name.c_str());
   EXPECT_EQ(TIMED_OUT, result->launch_status);
   EXPECT_EQ(0, result->return_code);

   // Test timeout is not enforced if the test finishes quickly.
   PackagedScriptFile success_file("succeed.sh");
   fbl::String succeed_name = success_file.path();
   const char* succeed_argv[] = {succeed_name.c_str(), nullptr};
   result = RunTest(succeed_argv, nullptr, succeed_name.c_str(), 100000);
   EXPECT_STREQ(succeed_argv[0], result->name.c_str());
   EXPECT_EQ(SUCCESS, result->launch_status);
   EXPECT_EQ(0, result->return_code);
 }

 TEST(RunTest, RunTestFailure) {
   ScopedTestDir test_dir(kTmp);
   PackagedScriptFile script_file("expect-this-failure.sh");
   fbl::String test_name = script_file.path();
   const char* argv[] = {test_name.c_str(), nullptr};

   std::unique_ptr<Result> result = RunTest(argv, nullptr, test_name.c_str(), 0);

   EXPECT_STREQ(argv[0], result->name.c_str());
   EXPECT_EQ(FAILED_NONZERO_RETURN_CODE, result->launch_status);
   EXPECT_EQ(77, result->return_code);
 }

 TEST(RunTest, RunTestFailureToLoadFile) {
   const char* argv[] = {"i/do/not/exist/", nullptr};

   std::unique_ptr<Result> result = RunTest(argv, nullptr, argv[0], 0);
   EXPECT_STREQ(argv[0], result->name.c_str());
   EXPECT_EQ(FAILED_TO_LAUNCH, result->launch_status);
 }

 TEST(DiscoverTestsInDirGlobs, DiscoverTestsInDirGlobsBasic) {
   ScopedTestDir test_dir(kTmp);

   const fbl::String a_file_name = JoinPath(test_dir.path(), "a.sh");
   const fbl::String b_file_name = JoinPath(test_dir.path(), "b.sh");
   ScopedStubFile a_file(a_file_name);
   ScopedStubFile b_file(b_file_name);

   fbl::Vector<fbl::String> discovered_paths;
   EXPECT_EQ(0, DiscoverTestsInDirGlobs({test_dir.path()}, nullptr, {}, &discovered_paths));
   EXPECT_EQ(2, discovered_paths.size());
   bool discovered_a = false;
   bool discovered_b = false;
   // The order of the results is not defined, so just check that each is
   // present.
   for (const auto& path : discovered_paths) {
     if (path == a_file_name) {
       discovered_a = true;
     } else if (path == b_file_name) {
       discovered_b = true;
     }
   }
   EXPECT_TRUE(discovered_a);
   EXPECT_TRUE(discovered_b);
 }

 TEST(DiscoverTestsInDirGlobs, DiscoverTestsInDirGlobsFilter) {
   ScopedTestDir test_dir(kTmp);
   const char kHopefullyUniqueFileBasename[] = "e829cea9919fe045ca199945db7ac99a";
   const fbl::String unique_file_name = JoinPath(test_dir.path(), kHopefullyUniqueFileBasename);
   ScopedStubFile unique_file(unique_file_name);

   // This one should be ignored because its basename is not in the include list.
   const fbl::String other_file_name = JoinPath(test_dir.path(), "foo.sh");
   ScopedStubFile fail_file(other_file_name);

   fbl::Vector<fbl::String> discovered_paths;
   EXPECT_EQ(0, DiscoverTestsInDirGlobs({JoinPath(kTmp, "*")}, nullptr,
                                        {kHopefullyUniqueFileBasename}, &discovered_paths));
   EXPECT_EQ(1, discovered_paths.size());
   EXPECT_STREQ(unique_file_name.c_str(), discovered_paths[0].c_str());
 }

 TEST(DiscoverTestsInDirGlobs, DiscoverTestsInDirGlobsIgnore) {
   ScopedTestDir test_dir_a(kTmp), test_dir_b(kTmp);
   const fbl::String a_name = JoinPath(test_dir_a.path(), "foo.sh");
   ScopedStubFile a_file(a_name);
   const fbl::String b_name = JoinPath(test_dir_b.path(), "foo.sh");
   ScopedStubFile fail_file(b_name);
   fbl::Vector<fbl::String> discovered_paths;
   EXPECT_EQ(0, DiscoverTestsInDirGlobs({test_dir_a.path(), test_dir_b.path()},
                                        test_dir_b.basename(), {}, &discovered_paths));
   EXPECT_EQ(1, discovered_paths.size());
   EXPECT_STREQ(a_name.c_str(), discovered_paths[0].c_str());
 }

 TEST(RunTests, RunTestsWithArguments) {
   ScopedTestDir test_dir(kTmp);
   PackagedScriptFile succeed_script("succeed-with-echo.sh");
   const fbl::String succeed_file_name = succeed_script.path();
   int num_failed = 0;
   fbl::Vector<std::unique_ptr<Result>> results;
   fbl::Vector<fbl::String> args{"first", "second", "third", "-4", "--", "-", "seventh"};
   const fbl::String output_dir = JoinPath(test_dir.path(), "output");
   ASSERT_EQ(0, MkDirAll(output_dir));
   EXPECT_TRUE(RunTests({succeed_file_name}, args, 1, 0, output_dir.c_str(), &num_failed, &results));
   EXPECT_EQ(0, num_failed);
   EXPECT_EQ(1, results.size());
 }

 TEST(DiscoverAndRunTests, DiscoverAndRunTestsBasicPass) {
   // The build templates assemble two tests, a.sh and b.sh, in the
   // runtestsbasicpass/ subdirectory.
   const fbl::String script_dir = packaged_script_dir();
   const fbl::String test_script = JoinPath(script_dir, "runtestsbasicpass/a.sh");
   const char* const argv[] = {"./runtests", test_script.c_str()};
   TestStopwatch stopwatch;
   EXPECT_EQ(EXIT_SUCCESS, DiscoverAndRunTests(2, argv, {}, &stopwatch, ""));
 }

 TEST(DiscoverAndRunTests, DiscoverAndRunTestsBasicFail) {
   // The build templates assemble two tests, test-basic-succeed.sh and
   // test-basic-fail.sh, in the runtestsbasicfail/ subdirectory.
   const fbl::String script_dir = packaged_script_dir();
   const fbl::String test_script = JoinPath(script_dir, "runtestsbasicfail/test-basic-fail.sh");
   const char* const argv[] = {"./runtests", test_script.c_str()};
   TestStopwatch stopwatch;
   EXPECT_EQ(EXIT_FAILURE, DiscoverAndRunTests(2, argv, {}, &stopwatch, ""));
 }

 TEST(DiscoverAndRunTests, DiscoverAndRunTestsFailsWithNoTestOrDefaultDirs) {
   ScopedTestDir test_dir(kTmp);
   const fbl::String succeed_file_name = JoinPath(test_dir.path(), "succeed.sh");
   ScopedStubFile succeed_file(succeed_file_name);
   const char* const argv[] = {"./runtests"};
   TestStopwatch stopwatch;
   EXPECT_EQ(EXIT_FAILURE, DiscoverAndRunTests(1, argv, {}, &stopwatch, ""));
 }

 TEST(DiscoverAndRunTests, DiscoverAndRunTestsFailsWithBadArgs) {
   fbl::String script_dir = packaged_script_dir();
   const char* const argv[] = {"./runtests", "-?", "unknown-arg", script_dir.c_str()};
   TestStopwatch stopwatch;
   EXPECT_EQ(EXIT_FAILURE, DiscoverAndRunTests(4, argv, {}, &stopwatch, ""));
 }

 TEST(DiscoverAndRunTests, DiscoverAndRunTestsWithDefaultGlobs) {
   // There are three scripts generated in a directory by the build templates:
   //
   // testglobs/test-globs-root.sh
   // testglobs/A/B/C/test-globs-one.sh
   // testglobs/A/D/C/test-globs-two.sh
   //
   // Verify that we find and run all three.
   fbl::String all_scripts_dir = packaged_script_dir();
   fbl::String script_dir = JoinPath(all_scripts_dir, "testglobs");
   fbl::String glob = JoinPath(script_dir, "A/*/C");
   const char* const argv[] = {"./runtests", "--all"};
   TestStopwatch stopwatch;
   EXPECT_EQ(EXIT_SUCCESS,
             DiscoverAndRunTests(2, argv, {script_dir.c_str(), glob.c_str()}, &stopwatch, ""));
 }

 // Passing an --output argument should result in output being written to that
 // location.
 TEST(DiscoverAndRunTests, DiscoverAndRunTestsWithOutput) {
   fbl::String all_scripts_dir = packaged_script_dir();
   fbl::String script_dir = JoinPath(all_scripts_dir, "testwithoutput");

   ScopedTestDir test_dir(kTmp);

   const fbl::String succeed_file_name = JoinPath(script_dir, "test-with-output-succeed.sh");
   const fbl::String fail_file_name = JoinPath(script_dir, "test-with-output-fail.sh");
   const fbl::String output_dir = JoinPath(test_dir.path(), "run-all-tests-output-1");
   EXPECT_EQ(0, MkDirAll(output_dir));

   const char* const argv[] = {"./runtests", "--all", "--output", output_dir.c_str()};
   TestStopwatch stopwatch;
   EXPECT_EQ(EXIT_FAILURE, DiscoverAndRunTests(4, argv, {script_dir.c_str()}, &stopwatch, ""));

   // Prepare the expected output.
   char expected_pass_output_buf[1024];
   sprintf(expected_pass_output_buf,
           R"(    \{
       "name": "%s",
       "duration_milliseconds": \d+
     \})",
           succeed_file_name.c_str());
   re2::RE2 expected_pass_output_regex(expected_pass_output_buf);

   char expected_fail_output_buf[1024];
   sprintf(expected_fail_output_buf,
           R"(    \{
       "name": "%s",
       "duration_milliseconds": \d+
     \})",
           fail_file_name.c_str());
   re2::RE2 expected_fail_output_regex(expected_fail_output_buf);

   // Extract the actual output.
   const fbl::String output_path = JoinPath(output_dir, "summary.json");
   FILE* output_file = fopen(output_path.c_str(), "r");
   ASSERT_TRUE(output_file);
   char buf[1024];
   memset(buf, 0, sizeof(buf));
   EXPECT_LT(0, fread(buf, sizeof(buf[0]), sizeof(buf), output_file));
   fclose(output_file);

   // The order of the tests in summary.json is not defined, so first check the
   // prefix, then be permissive about order of the actual tests.
   EXPECT_EQ(0, strncmp(kExpectedJSONOutputPrefix, buf, kExpectedJSONOutputPrefixSize));

   re2::StringPiece buf_for_pass(buf);
   re2::StringPiece buf_for_fail(buf);

   EXPECT_TRUE(re2::RE2::FindAndConsume(&buf_for_pass, expected_pass_output_regex));
   EXPECT_TRUE(re2::RE2::FindAndConsume(&buf_for_fail, expected_fail_output_regex));

   auto outputs_end = buf_for_pass.length() < buf_for_fail.length() ? buf_for_pass : buf_for_fail;
   EXPECT_STREQ("\n  ]\n}\n", outputs_end.data());
 }

 // Passing an --output argument *and* a syslog file name should result in output being
 // written that includes a syslog reference.
 TEST(DiscoverAndRunTests, DiscoverAndRunTestsWithSyslogOutput) {
   fbl::String all_scripts_dir = packaged_script_dir();
   fbl::String script_dir = JoinPath(all_scripts_dir, "testwithoutput");

   ScopedTestDir test_dir(kTmp);
   const fbl::String succeed_file_name = JoinPath(script_dir, "test-with-output-succeed.sh");
   const fbl::String fail_file_name = JoinPath(script_dir, "test-with-output-fail.sh");
   const fbl::String output_dir = JoinPath(test_dir.path(), "run-all-tests-output-2");
   EXPECT_EQ(0, MkDirAll(output_dir));

   const char* const argv[] = {"./runtests", "--all", "--output", output_dir.c_str()};
   TestStopwatch stopwatch;
   EXPECT_EQ(EXIT_FAILURE,
             DiscoverAndRunTests(4, argv, {script_dir.c_str()}, &stopwatch, "syslog.txt"));

   // Prepare the expected output.
   const char kExpectedOutputsStr[] =
       "  \"outputs\": {\n"
       "    \"syslog_file\": \"syslog.txt\"\n"
       "  }";

   // Extract the actual output.
   const fbl::String output_path = JoinPath(output_dir, "summary.json");
   FILE* output_file = fopen(output_path.c_str(), "r");
   ASSERT_TRUE(output_file);
   char buf[1024];
   memset(buf, 0, sizeof(buf));
   EXPECT_LT(0, fread(buf, sizeof(buf[0]), sizeof(buf), output_file));
   fclose(output_file);

   // We don't actually care if the string is at the beginning or the end of
   // the JSON, so just search for it anywhere.
   bool found_expected_outputs_str = false;
   for (size_t buf_index = 0; buf[buf_index]; ++buf_index) {
     if (!strncmp(kExpectedOutputsStr, &buf[buf_index], sizeof(kExpectedOutputsStr) - 1)) {
       found_expected_outputs_str = true;
       break;
     }
   }
   if (!found_expected_outputs_str) {
     printf("Unexpected buffer contents: %s\n", buf);
   }
   EXPECT_TRUE(found_expected_outputs_str, "Didn't find expected outputs str in buf");
 }
 }  // namespace
 }  // namespace runtests
	// Copyright 2018 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <dirent.h>
	#include <errno.h>
	#include <fcntl.h>
	#include <libgen.h>
	#include <limits.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <sys/stat.h>
	#include <unistd.h>

	#include <memory>

	#include <fbl/string_buffer.h>
	#include <fbl/unique_fd.h>
	#include <fbl/vector.h>
	#include <re2/re2.h>
	#include <runtests-utils/runtests-utils.h>
	#include <zxtest/zxtest.h>

	#include "runtests-utils-test-utils.h"

	namespace runtests {
	namespace {

	constexpr size_t kOneMegabyte = 1 << 20;

	TEST(ParseTestNames, ParseTestNamesEmptyStr) {
	fbl::String input("");
	fbl::Vector<fbl::String> parsed;
	ParseTestNames(input, &parsed);
	EXPECT_EQ(0, parsed.size());
	}

	TEST(ParseTestNames, ParseTestNamesEmptyStrInMiddle) {
	fbl::String input("a,,b");
	fbl::Vector<fbl::String> parsed;
	ParseTestNames(input, &parsed);
	ASSERT_EQ(2, parsed.size());
	EXPECT_STREQ("a", parsed[0].c_str());
	EXPECT_STREQ("b", parsed[1].c_str());
	}

	TEST(ParseTestNames, ParseTestNamesTrailingComma) {
	fbl::String input("a,");
	fbl::Vector<fbl::String> parsed;
	ParseTestNames(input, &parsed);
	ASSERT_EQ(1, parsed.size());
	EXPECT_STREQ("a", parsed[0].c_str());
	}

	TEST(ParseTestNames, ParseTestNamesNormal) {
	fbl::String input("a,b");
	fbl::Vector<fbl::String> parsed;
	ParseTestNames(input, &parsed);
	ASSERT_EQ(2, parsed.size());
	EXPECT_STREQ("a", parsed[0].c_str());
	EXPECT_STREQ("b", parsed[1].c_str());
	}

	TEST(IsInWhitelist, EmptyWhitelist) {
	fbl::Vector<fbl::String> whitelist;
	EXPECT_FALSE(IsInWhitelist("a", whitelist));
	}

	TEST(IsInWhitelist, NonemptyWhitelist) {
	fbl::Vector<fbl::String> whitelist = {"b", "a"};
	EXPECT_TRUE(IsInWhitelist("a", whitelist));
	}

	TEST(JoinPath, JoinPathNoTrailingSlash) { EXPECT_STREQ("a/b/c/d", JoinPath("a/b", "c/d").c_str()); }

	TEST(JoinPath, JoinPathTrailingSlash) { EXPECT_STREQ("a/b/c/d", JoinPath("a/b/", "c/d").c_str()); }

	TEST(JoinPath, JoinPathAbsoluteChild) { EXPECT_STREQ("a/b/c/d", JoinPath("a/b/", "/c/d").c_str()); }

	TEST(MkDirAll, MkDirAllTooLong) {
	char too_long[PATH_MAX + 1];
	memset(too_long, 'a', sizeof(too_long) - 1);
	too_long[sizeof(too_long) - 1] = '\0';
	EXPECT_EQ(ENAMETOOLONG, MkDirAll(too_long));
	}

	constexpr char kTmp[] = "/tmp";

	TEST(MkDirAll, MkDirAllAlreadyExists) {
	ScopedTestDir test_dir(kTmp);
	const fbl::String already = JoinPath(test_dir.path(), "already");
	const fbl::String exists = JoinPath(already, "exists");
	ASSERT_EQ(0, mkdir(already.c_str(), 0755));
	ASSERT_EQ(0, mkdir(exists.c_str(), 0755));
	EXPECT_EQ(0, MkDirAll(exists));
	}
	TEST(MkDirAll, MkDirAllParentAlreadyExists) {
	ScopedTestDir test_dir(kTmp);
	const fbl::String parent = JoinPath(test_dir.path(), "existing-parent");
	const fbl::String child = JoinPath(parent, "child");
	ASSERT_EQ(0, mkdir(parent.c_str(), 0755));
	EXPECT_EQ(0, MkDirAll(child));
	struct stat s;
	EXPECT_EQ(0, stat(child.c_str(), &s));
	}
	TEST(MkDirAll, MkDirAllParentDoesNotExist) {
	ScopedTestDir test_dir(kTmp);
	const fbl::String parent = JoinPath(test_dir.path(), "not-existing-parent");
	const fbl::String child = JoinPath(parent, "child");
	struct stat s;
	ASSERT_NE(0, stat(parent.c_str(), &s));
	EXPECT_EQ(0, MkDirAll(child));
	EXPECT_EQ(0, stat(child.c_str(), &s));
	}

	TEST(WriteSummaryJSON, WriteSummaryJSONSucceeds) {
	// A reasonable guess that the function won't output more than this.
	std::unique_ptr<char[]> buf(new char[kOneMegabyte]);
	FILE* buf_file = fmemopen(buf.get(), kOneMegabyte, "w");
	fbl::Vector<std::unique_ptr<Result>> results;
	results.push_back(std::make_unique<Result>("/a", SUCCESS, 0, 10));
	results.push_back(std::make_unique<Result>("b", FAILED_TO_LAUNCH, 0, 0));
	ASSERT_EQ(0, WriteSummaryJSON(results, "/tmp/file_path", buf_file));
	fclose(buf_file);
	// We don't have a JSON parser in zircon right now, so just hard-code the
	// expected output.
	const char kExpectedJSONOutput[] = R"({
	"tests": [
	{
	"name": "/a",
	"duration_milliseconds": 10
	},
	{
	"name": "b",
	"duration_milliseconds": 0
	}
	],
	"outputs": {
	"syslog_file": "/tmp/file_path"
	}
	}
	)";
	EXPECT_STREQ(kExpectedJSONOutput, buf.get());
	}

	TEST(WriteSummaryJSON, WriteSummaryJSONSucceedsWithoutSyslogPath) {
	// A reasonable guess that the function won't output more than this.
	std::unique_ptr<char[]> buf(new char[kOneMegabyte]);
	FILE* buf_file = fmemopen(buf.get(), kOneMegabyte, "w");
	fbl::Vector<std::unique_ptr<Result>> results;
	results.push_back(std::make_unique<Result>("/a", SUCCESS, 0, 10));
	results.push_back(std::make_unique<Result>("b", FAILED_TO_LAUNCH, 0, 0));
	ASSERT_EQ(0, WriteSummaryJSON(results, /syslog_path=/"", buf_file));
	fclose(buf_file);
	// With an empty syslog_path, we expect no values under "outputs" and
	// "syslog_file" to be generated in the JSON output.
	const char kExpectedJSONOutput[] = R"({
	"tests": [
	{
	"name": "/a",
	"duration_milliseconds": 10
	},
	{
	"name": "b",
	"duration_milliseconds": 0
	}
	]
	}
	)";

	EXPECT_STREQ(kExpectedJSONOutput, buf.get());
	}

	TEST(ResolveGlobs, ResolveGlobsNoMatches) {
	ScopedTestDir test_dir(kTmp);
	fbl::Vector<fbl::String> resolved;
	fbl::String test_fs_glob = JoinPath(test_dir.path(), "bar*");
	const fbl::Vector<fbl::String> globs = {"/foo/bar/*", test_fs_glob};
	ASSERT_EQ(0, ResolveGlobs(globs, &resolved));
	EXPECT_EQ(0, resolved.size());
	}

	TEST(ResolveGlobs, ResolveGlobsMultipleMatches) {
	ScopedTestDir test_dir(kTmp);
	fbl::String existing_dir_path = JoinPath(test_dir.path(), "existing-dir/prefix-suffix");
	fbl::String existing_file_path = JoinPath(test_dir.path(), "existing-file");
	fbl::String existing_dir_glob = JoinPath(test_dir.path(), "existing-dir/prefix*");
	const fbl::Vector<fbl::String> globs = {"/does/not/exist/*",
	existing_dir_glob, // matches existing_dir_path.
	existing_file_path};
	ASSERT_EQ(0, MkDirAll(existing_dir_path));
	const int existing_file_fd = open(existing_file_path.c_str(), O_CREAT, S_IRUSR \| S_IWUSR);
	ASSERT_NE(-1, existing_file_fd, "%s", strerror(errno));
	ASSERT_NE(-1, close(existing_file_fd), "%s", strerror(errno));
	fbl::Vector<fbl::String> resolved;
	ASSERT_EQ(0, ResolveGlobs(globs, &resolved));
	ASSERT_EQ(2, resolved.size());
	EXPECT_STREQ(existing_dir_path.c_str(), resolved[0].c_str());
	}

	TEST(RunTest, RunTestSuccess) {
	PackagedScriptFile script_file("succeed.sh");
	fbl::String test_name = script_file.path();
	const char* argv[] = {test_name.c_str(), nullptr};
	std::unique_ptr<Result> result = RunTest(argv, nullptr, test_name.c_str(), 0);
	EXPECT_STREQ(argv[0], result->name.c_str());
	EXPECT_EQ(SUCCESS, result->launch_status);
	EXPECT_EQ(0, result->return_code);
	}

	TEST(RunTest, RunTestTimeout) {
	// Test timeout is enforced if the test runs too long.
	PackagedScriptFile inf_loop_file("test-inf-loop.sh");
	fbl::String inf_loop_name = inf_loop_file.path();
	const char* inf_loop_argv[] = {inf_loop_name.c_str(), nullptr};
	std::unique_ptr<Result> result = RunTest(inf_loop_argv, nullptr, inf_loop_name.c_str(), 1);
	EXPECT_STREQ(inf_loop_argv[0], result->name.c_str());
	EXPECT_EQ(TIMED_OUT, result->launch_status);
	EXPECT_EQ(0, result->return_code);

	// Test timeout is not enforced if the test finishes quickly.
	PackagedScriptFile success_file("succeed.sh");
	fbl::String succeed_name = success_file.path();
	const char* succeed_argv[] = {succeed_name.c_str(), nullptr};
	result = RunTest(succeed_argv, nullptr, succeed_name.c_str(), 100000);
	EXPECT_STREQ(succeed_argv[0], result->name.c_str());
	EXPECT_EQ(SUCCESS, result->launch_status);
	EXPECT_EQ(0, result->return_code);
	}

	TEST(RunTest, RunTestFailure) {
	ScopedTestDir test_dir(kTmp);
	PackagedScriptFile script_file("expect-this-failure.sh");
	fbl::String test_name = script_file.path();
	const char* argv[] = {test_name.c_str(), nullptr};

	std::unique_ptr<Result> result = RunTest(argv, nullptr, test_name.c_str(), 0);

	EXPECT_STREQ(argv[0], result->name.c_str());
	EXPECT_EQ(FAILED_NONZERO_RETURN_CODE, result->launch_status);
	EXPECT_EQ(77, result->return_code);
	}

	TEST(RunTest, RunTestFailureToLoadFile) {
	const char* argv[] = {"i/do/not/exist/", nullptr};

	std::unique_ptr<Result> result = RunTest(argv, nullptr, argv[0], 0);
	EXPECT_STREQ(argv[0], result->name.c_str());
	EXPECT_EQ(FAILED_TO_LAUNCH, result->launch_status);
	}

	TEST(DiscoverTestsInDirGlobs, DiscoverTestsInDirGlobsBasic) {
	ScopedTestDir test_dir(kTmp);

	const fbl::String a_file_name = JoinPath(test_dir.path(), "a.sh");
	const fbl::String b_file_name = JoinPath(test_dir.path(), "b.sh");
	ScopedStubFile a_file(a_file_name);
	ScopedStubFile b_file(b_file_name);

	fbl::Vector<fbl::String> discovered_paths;
	EXPECT_EQ(0, DiscoverTestsInDirGlobs({test_dir.path()}, nullptr, {}, &discovered_paths));
	EXPECT_EQ(2, discovered_paths.size());
	bool discovered_a = false;
	bool discovered_b = false;
	// The order of the results is not defined, so just check that each is
	// present.
	for (const auto& path : discovered_paths) {
	if (path == a_file_name) {
	discovered_a = true;
	} else if (path == b_file_name) {
	discovered_b = true;
	}
	}
	EXPECT_TRUE(discovered_a);
	EXPECT_TRUE(discovered_b);
	}

	TEST(DiscoverTestsInDirGlobs, DiscoverTestsInDirGlobsFilter) {
	ScopedTestDir test_dir(kTmp);
	const char kHopefullyUniqueFileBasename[] = "e829cea9919fe045ca199945db7ac99a";
	const fbl::String unique_file_name = JoinPath(test_dir.path(), kHopefullyUniqueFileBasename);
	ScopedStubFile unique_file(unique_file_name);

	// This one should be ignored because its basename is not in the include list.
	const fbl::String other_file_name = JoinPath(test_dir.path(), "foo.sh");
	ScopedStubFile fail_file(other_file_name);

	fbl::Vector<fbl::String> discovered_paths;
	EXPECT_EQ(0, DiscoverTestsInDirGlobs({JoinPath(kTmp, "*")}, nullptr,
	{kHopefullyUniqueFileBasename}, &discovered_paths));
	EXPECT_EQ(1, discovered_paths.size());
	EXPECT_STREQ(unique_file_name.c_str(), discovered_paths[0].c_str());
	}

	TEST(DiscoverTestsInDirGlobs, DiscoverTestsInDirGlobsIgnore) {
	ScopedTestDir test_dir_a(kTmp), test_dir_b(kTmp);
	const fbl::String a_name = JoinPath(test_dir_a.path(), "foo.sh");
	ScopedStubFile a_file(a_name);
	const fbl::String b_name = JoinPath(test_dir_b.path(), "foo.sh");
	ScopedStubFile fail_file(b_name);
	fbl::Vector<fbl::String> discovered_paths;
	EXPECT_EQ(0, DiscoverTestsInDirGlobs({test_dir_a.path(), test_dir_b.path()},
	test_dir_b.basename(), {}, &discovered_paths));
	EXPECT_EQ(1, discovered_paths.size());
	EXPECT_STREQ(a_name.c_str(), discovered_paths[0].c_str());
	}

	TEST(RunTests, RunTestsWithArguments) {
	ScopedTestDir test_dir(kTmp);
	PackagedScriptFile succeed_script("succeed-with-echo.sh");
	const fbl::String succeed_file_name = succeed_script.path();
	int num_failed = 0;
	fbl::Vector<std::unique_ptr<Result>> results;
	fbl::Vector<fbl::String> args{"first", "second", "third", "-4", "--", "-", "seventh"};
	const fbl::String output_dir = JoinPath(test_dir.path(), "output");
	ASSERT_EQ(0, MkDirAll(output_dir));
	EXPECT_TRUE(RunTests({succeed_file_name}, args, 1, 0, output_dir.c_str(), &num_failed, &results));
	EXPECT_EQ(0, num_failed);
	EXPECT_EQ(1, results.size());
	}

	TEST(DiscoverAndRunTests, DiscoverAndRunTestsBasicPass) {
	// The build templates assemble two tests, a.sh and b.sh, in the
	// runtestsbasicpass/ subdirectory.
	const fbl::String script_dir = packaged_script_dir();
	const fbl::String test_script = JoinPath(script_dir, "runtestsbasicpass/a.sh");
	const char* const argv[] = {"./runtests", test_script.c_str()};
	TestStopwatch stopwatch;
	EXPECT_EQ(EXIT_SUCCESS, DiscoverAndRunTests(2, argv, {}, &stopwatch, ""));
	}

	TEST(DiscoverAndRunTests, DiscoverAndRunTestsBasicFail) {
	// The build templates assemble two tests, test-basic-succeed.sh and
	// test-basic-fail.sh, in the runtestsbasicfail/ subdirectory.
	const fbl::String script_dir = packaged_script_dir();
	const fbl::String test_script = JoinPath(script_dir, "runtestsbasicfail/test-basic-fail.sh");
	const char* const argv[] = {"./runtests", test_script.c_str()};
	TestStopwatch stopwatch;
	EXPECT_EQ(EXIT_FAILURE, DiscoverAndRunTests(2, argv, {}, &stopwatch, ""));
	}

	TEST(DiscoverAndRunTests, DiscoverAndRunTestsFailsWithNoTestOrDefaultDirs) {
	ScopedTestDir test_dir(kTmp);
	const fbl::String succeed_file_name = JoinPath(test_dir.path(), "succeed.sh");
	ScopedStubFile succeed_file(succeed_file_name);
	const char* const argv[] = {"./runtests"};
	TestStopwatch stopwatch;
	EXPECT_EQ(EXIT_FAILURE, DiscoverAndRunTests(1, argv, {}, &stopwatch, ""));
	}

	TEST(DiscoverAndRunTests, DiscoverAndRunTestsFailsWithBadArgs) {
	fbl::String script_dir = packaged_script_dir();
	const char* const argv[] = {"./runtests", "-?", "unknown-arg", script_dir.c_str()};
	TestStopwatch stopwatch;
	EXPECT_EQ(EXIT_FAILURE, DiscoverAndRunTests(4, argv, {}, &stopwatch, ""));
	}

	TEST(DiscoverAndRunTests, DiscoverAndRunTestsWithDefaultGlobs) {
	// There are three scripts generated in a directory by the build templates:
	//
	// testglobs/test-globs-root.sh
	// testglobs/A/B/C/test-globs-one.sh
	// testglobs/A/D/C/test-globs-two.sh
	//
	// Verify that we find and run all three.
	fbl::String all_scripts_dir = packaged_script_dir();
	fbl::String script_dir = JoinPath(all_scripts_dir, "testglobs");
	fbl::String glob = JoinPath(script_dir, "A/*/C");
	const char* const argv[] = {"./runtests", "--all"};
	TestStopwatch stopwatch;
	EXPECT_EQ(EXIT_SUCCESS,
	DiscoverAndRunTests(2, argv, {script_dir.c_str(), glob.c_str()}, &stopwatch, ""));
	}

	// Passing an --output argument should result in output being written to that
	// location.
	TEST(DiscoverAndRunTests, DiscoverAndRunTestsWithOutput) {
	fbl::String all_scripts_dir = packaged_script_dir();
	fbl::String script_dir = JoinPath(all_scripts_dir, "testwithoutput");

	ScopedTestDir test_dir(kTmp);

	const fbl::String succeed_file_name = JoinPath(script_dir, "test-with-output-succeed.sh");
	const fbl::String fail_file_name = JoinPath(script_dir, "test-with-output-fail.sh");
	const fbl::String output_dir = JoinPath(test_dir.path(), "run-all-tests-output-1");
	EXPECT_EQ(0, MkDirAll(output_dir));

	const char* const argv[] = {"./runtests", "--all", "--output", output_dir.c_str()};
	TestStopwatch stopwatch;
	EXPECT_EQ(EXIT_FAILURE, DiscoverAndRunTests(4, argv, {script_dir.c_str()}, &stopwatch, ""));

	// Prepare the expected output.
	char expected_pass_output_buf[1024];
	sprintf(expected_pass_output_buf,
	R"( \{
	"name": "%s",
	"duration_milliseconds": \d+
	\})",
	succeed_file_name.c_str());
	re2::RE2 expected_pass_output_regex(expected_pass_output_buf);

	char expected_fail_output_buf[1024];
	sprintf(expected_fail_output_buf,
	R"( \{
	"name": "%s",
	"duration_milliseconds": \d+
	\})",
	fail_file_name.c_str());
	re2::RE2 expected_fail_output_regex(expected_fail_output_buf);

	// Extract the actual output.
	const fbl::String output_path = JoinPath(output_dir, "summary.json");
	FILE* output_file = fopen(output_path.c_str(), "r");
	ASSERT_TRUE(output_file);
	char buf[1024];
	memset(buf, 0, sizeof(buf));
	EXPECT_LT(0, fread(buf, sizeof(buf[0]), sizeof(buf), output_file));
	fclose(output_file);

	// The order of the tests in summary.json is not defined, so first check the
	// prefix, then be permissive about order of the actual tests.
	EXPECT_EQ(0, strncmp(kExpectedJSONOutputPrefix, buf, kExpectedJSONOutputPrefixSize));

	re2::StringPiece buf_for_pass(buf);
	re2::StringPiece buf_for_fail(buf);

	EXPECT_TRUE(re2::RE2::FindAndConsume(&buf_for_pass, expected_pass_output_regex));
	EXPECT_TRUE(re2::RE2::FindAndConsume(&buf_for_fail, expected_fail_output_regex));

	auto outputs_end = buf_for_pass.length() < buf_for_fail.length() ? buf_for_pass : buf_for_fail;
	EXPECT_STREQ("\n ]\n}\n", outputs_end.data());
	}

	// Passing an --output argument and a syslog file name should result in output being
	// written that includes a syslog reference.
	TEST(DiscoverAndRunTests, DiscoverAndRunTestsWithSyslogOutput) {
	fbl::String all_scripts_dir = packaged_script_dir();
	fbl::String script_dir = JoinPath(all_scripts_dir, "testwithoutput");

	ScopedTestDir test_dir(kTmp);
	const fbl::String succeed_file_name = JoinPath(script_dir, "test-with-output-succeed.sh");
	const fbl::String fail_file_name = JoinPath(script_dir, "test-with-output-fail.sh");
	const fbl::String output_dir = JoinPath(test_dir.path(), "run-all-tests-output-2");
	EXPECT_EQ(0, MkDirAll(output_dir));

	const char* const argv[] = {"./runtests", "--all", "--output", output_dir.c_str()};
	TestStopwatch stopwatch;
	EXPECT_EQ(EXIT_FAILURE,
	DiscoverAndRunTests(4, argv, {script_dir.c_str()}, &stopwatch, "syslog.txt"));

	// Prepare the expected output.
	const char kExpectedOutputsStr[] =
	" \"outputs\": {\n"
	" \"syslog_file\": \"syslog.txt\"\n"
	" }";

	// Extract the actual output.
	const fbl::String output_path = JoinPath(output_dir, "summary.json");
	FILE* output_file = fopen(output_path.c_str(), "r");
	ASSERT_TRUE(output_file);
	char buf[1024];
	memset(buf, 0, sizeof(buf));
	EXPECT_LT(0, fread(buf, sizeof(buf[0]), sizeof(buf), output_file));
	fclose(output_file);

	// We don't actually care if the string is at the beginning or the end of
	// the JSON, so just search for it anywhere.
	bool found_expected_outputs_str = false;
	for (size_t buf_index = 0; buf[buf_index]; ++buf_index) {
	if (!strncmp(kExpectedOutputsStr, &buf[buf_index], sizeof(kExpectedOutputsStr) - 1)) {
	found_expected_outputs_str = true;
	break;
	}
	}
	if (!found_expected_outputs_str) {
	printf("Unexpected buffer contents: %s\n", buf);
	}
	EXPECT_TRUE(found_expected_outputs_str, "Didn't find expected outputs str in buf");
	}
	} // namespace
	} // namespace runtests