crash_reporter/crash_collector_test.cc - platform/system/core - Git at Google

 // Copyright (c) 2012 The Chromium OS 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 "crash-reporter/crash_collector_test.h"

 #include <unistd.h>

 #include <dbus/dbus-glib-lowlevel.h>
 #include <glib.h>

 #include "base/file_util.h"
 #include "base/string_util.h"
 #include "base/stringprintf.h"
 #include "chromeos/syslog_logging.h"
 #include "chromeos/test_helpers.h"
 #include "crash-reporter/crash_collector.h"
 #include "gflags/gflags.h"
 #include "gtest/gtest.h"

 using base::FilePath;
 using chromeos::FindLog;
 using ::testing::Return;

 void CountCrash() {
   ADD_FAILURE();
 }

 bool IsMetrics() {
   ADD_FAILURE();
   return false;
 }

 class CrashCollectorTest : public ::testing::Test {
  public:
   void SetUp() {
     collector_.Initialize(CountCrash,
                           IsMetrics);
     test_dir_ = FilePath("test");
     file_util::CreateDirectory(test_dir_);
     chromeos::ClearLog();
   }

   void TearDown() {
     file_util::Delete(test_dir_, true);
   }

   bool CheckHasCapacity();

  protected:
   CrashCollectorMock collector_;
   FilePath test_dir_;
 };

 TEST_F(CrashCollectorTest, Initialize) {
   ASSERT_TRUE(CountCrash == collector_.count_crash_function_);
   ASSERT_TRUE(IsMetrics == collector_.is_feedback_allowed_function_);
 }

 TEST_F(CrashCollectorTest, WriteNewFile) {
   FilePath test_file = test_dir_.Append("test_new");
   const char kBuffer[] = "buffer";
   EXPECT_EQ(strlen(kBuffer),
             collector_.WriteNewFile(test_file,
                                     kBuffer,
                                     strlen(kBuffer)));
   EXPECT_LT(collector_.WriteNewFile(test_file,
                                     kBuffer,
                                     strlen(kBuffer)), 0);
 }

 TEST_F(CrashCollectorTest, Sanitize) {
   EXPECT_EQ("chrome", collector_.Sanitize("chrome"));
   EXPECT_EQ("CHROME", collector_.Sanitize("CHROME"));
   EXPECT_EQ("1chrome2", collector_.Sanitize("1chrome2"));
   EXPECT_EQ("chrome__deleted_", collector_.Sanitize("chrome (deleted)"));
   EXPECT_EQ("foo_bar", collector_.Sanitize("foo.bar"));
   EXPECT_EQ("", collector_.Sanitize(""));
   EXPECT_EQ("_", collector_.Sanitize(" "));
 }

 TEST_F(CrashCollectorTest, GetCrashDirectoryInfo) {
   FilePath path;
   const int kRootUid = 0;
   const int kRootGid = 0;
   const int kNtpUid = 5;
   const int kChronosUid = 1000;
   const int kChronosGid = 1001;
   const mode_t kExpectedSystemMode = 01755;
   const mode_t kExpectedUserMode = 0755;

   mode_t directory_mode;
   uid_t directory_owner;
   gid_t directory_group;

   path = collector_.GetCrashDirectoryInfo(kRootUid,
                                           kChronosUid,
                                           kChronosGid,
                                           &directory_mode,
                                           &directory_owner,
                                           &directory_group);
   EXPECT_EQ("/var/spool/crash", path.value());
   EXPECT_EQ(kExpectedSystemMode, directory_mode);
   EXPECT_EQ(kRootUid, directory_owner);
   EXPECT_EQ(kRootGid, directory_group);

   path = collector_.GetCrashDirectoryInfo(kNtpUid,
                                           kChronosUid,
                                           kChronosGid,
                                           &directory_mode,
                                           &directory_owner,
                                           &directory_group);
   EXPECT_EQ("/var/spool/crash", path.value());
   EXPECT_EQ(kExpectedSystemMode, directory_mode);
   EXPECT_EQ(kRootUid, directory_owner);
   EXPECT_EQ(kRootGid, directory_group);

   // No need to destroy the hash as GetCrashDirectoryInfo() will do it for us.
   GHashTable *active_sessions = g_hash_table_new (g_str_hash, g_str_equal);
   char kUser[] = "chicken@butt.com";
   char kHash[] = "hashcakes";
   g_hash_table_insert (active_sessions,
                        static_cast<gpointer>(kUser),
                        static_cast<gpointer>(kHash));
   EXPECT_CALL(collector_, GetActiveUserSessions())
       .WillOnce(Return(active_sessions));

   EXPECT_EQ(collector_.IsUserSpecificDirectoryEnabled(), true);

   path = collector_.GetCrashDirectoryInfo(kChronosUid,
                                           kChronosUid,
                                           kChronosGid,
                                           &directory_mode,
                                           &directory_owner,
                                           &directory_group);
   EXPECT_EQ("/home/user/hashcakes/crash", path.value());
   EXPECT_EQ(kExpectedUserMode, directory_mode);
   EXPECT_EQ(kChronosUid, directory_owner);
   EXPECT_EQ(kChronosGid, directory_group);
 }

 TEST_F(CrashCollectorTest, FormatDumpBasename) {
   struct tm tm = {0};
   tm.tm_sec = 15;
   tm.tm_min = 50;
   tm.tm_hour = 13;
   tm.tm_mday = 23;
   tm.tm_mon = 4;
   tm.tm_year = 110;
   tm.tm_isdst = -1;
   std::string basename =
       collector_.FormatDumpBasename("foo", mktime(&tm), 100);
   ASSERT_EQ("foo.20100523.135015.100", basename);
 }

 TEST_F(CrashCollectorTest, GetCrashPath) {
   EXPECT_EQ("/var/spool/crash/myprog.20100101.1200.1234.core",
             collector_.GetCrashPath(FilePath("/var/spool/crash"),
                                     "myprog.20100101.1200.1234",
                                     "core").value());
   EXPECT_EQ("/home/chronos/user/crash/chrome.20100101.1200.1234.dmp",
             collector_.GetCrashPath(FilePath("/home/chronos/user/crash"),
                                     "chrome.20100101.1200.1234",
                                     "dmp").value());
 }


 bool CrashCollectorTest::CheckHasCapacity() {
   static const char kFullMessage[] = "Crash directory test already full";
   bool has_capacity = collector_.CheckHasCapacity(test_dir_);
   bool has_message = FindLog(kFullMessage);
   EXPECT_EQ(has_message, !has_capacity);
   return has_capacity;
 }

 TEST_F(CrashCollectorTest, CheckHasCapacityUsual) {
   // Test kMaxCrashDirectorySize - 1 non-meta files can be added.
   for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize - 1; ++i) {
     file_util::WriteFile(test_dir_.Append(StringPrintf("file%d.core", i)),
                          "", 0);
     EXPECT_TRUE(CheckHasCapacity());
   }

   // Test an additional kMaxCrashDirectorySize - 1 meta files fit.
   for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize - 1; ++i) {
     file_util::WriteFile(test_dir_.Append(StringPrintf("file%d.meta", i)),
                          "", 0);
     EXPECT_TRUE(CheckHasCapacity());
   }

   // Test an additional kMaxCrashDirectorySize meta files don't fit.
   for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize; ++i) {
     file_util::WriteFile(test_dir_.Append(StringPrintf("overage%d.meta", i)),
                          "", 0);
     EXPECT_FALSE(CheckHasCapacity());
   }
 }

 TEST_F(CrashCollectorTest, CheckHasCapacityCorrectBasename) {
   // Test kMaxCrashDirectorySize - 1 files can be added.
   for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize - 1; ++i) {
     file_util::WriteFile(test_dir_.Append(StringPrintf("file.%d.core", i)),
                          "", 0);
     EXPECT_TRUE(CheckHasCapacity());
   }
   file_util::WriteFile(test_dir_.Append("file.last.core"), "", 0);
   EXPECT_FALSE(CheckHasCapacity());
 }

 TEST_F(CrashCollectorTest, CheckHasCapacityStrangeNames) {
   // Test many files with different extensions and same base fit.
   for (int i = 0; i < 5 * CrashCollector::kMaxCrashDirectorySize; ++i) {
     file_util::WriteFile(test_dir_.Append(StringPrintf("a.%d", i)), "", 0);
     EXPECT_TRUE(CheckHasCapacity());
   }
   // Test dot files are treated as individual files.
   for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize - 2; ++i) {
     file_util::WriteFile(test_dir_.Append(StringPrintf(".file%d", i)), "", 0);
     EXPECT_TRUE(CheckHasCapacity());
   }
   file_util::WriteFile(test_dir_.Append("normal.meta"), "", 0);
   EXPECT_FALSE(CheckHasCapacity());
 }

 TEST_F(CrashCollectorTest, IsCommentLine) {
   EXPECT_FALSE(CrashCollector::IsCommentLine(""));
   EXPECT_TRUE(CrashCollector::IsCommentLine("#"));
   EXPECT_TRUE(CrashCollector::IsCommentLine("#real comment"));
   EXPECT_TRUE(CrashCollector::IsCommentLine(" # real comment"));
   EXPECT_FALSE(CrashCollector::IsCommentLine("not comment"));
   EXPECT_FALSE(CrashCollector::IsCommentLine(" not comment"));
 }

 TEST_F(CrashCollectorTest, ReadKeyValueFile) {
   const char *contents = ("a=b\n"
                           "\n"
                           " c=d \n");
   FilePath path(test_dir_.Append("keyval"));
   std::map<std::string, std::string> dictionary;
   std::map<std::string, std::string>::iterator i;

   file_util::WriteFile(path, contents, strlen(contents));

   EXPECT_TRUE(collector_.ReadKeyValueFile(path, '=', &dictionary));
   i = dictionary.find("a");
   EXPECT_TRUE(i != dictionary.end() && i->second == "b");
   i = dictionary.find("c");
   EXPECT_TRUE(i != dictionary.end() && i->second == "d");

   dictionary.clear();

   contents = ("a=b c d\n"
               "e\n"
               " f g = h\n"
               "i=j\n"
               "=k\n"
               "#comment=0\n"
               "l=\n");
   file_util::WriteFile(path, contents, strlen(contents));

   EXPECT_FALSE(collector_.ReadKeyValueFile(path, '=', &dictionary));
   EXPECT_EQ(5, dictionary.size());

   i = dictionary.find("a");
   EXPECT_TRUE(i != dictionary.end() && i->second == "b c d");
   i = dictionary.find("e");
   EXPECT_TRUE(i == dictionary.end());
   i = dictionary.find("f g");
   EXPECT_TRUE(i != dictionary.end() && i->second == "h");
   i = dictionary.find("i");
   EXPECT_TRUE(i != dictionary.end() && i->second == "j");
   i = dictionary.find("");
   EXPECT_TRUE(i != dictionary.end() && i->second == "k");
   i = dictionary.find("l");
   EXPECT_TRUE(i != dictionary.end() && i->second == "");
 }

 TEST_F(CrashCollectorTest, MetaData) {
   const char kMetaFileBasename[] = "generated.meta";
   FilePath meta_file = test_dir_.Append(kMetaFileBasename);
   FilePath lsb_release = test_dir_.Append("lsb-release");
   FilePath payload_file = test_dir_.Append("payload-file");
   std::string contents;
   collector_.lsb_release_ = lsb_release.value().c_str();
   const char kLsbContents[] = "CHROMEOS_RELEASE_VERSION=version\n";
   ASSERT_TRUE(
       file_util::WriteFile(lsb_release,
                            kLsbContents, strlen(kLsbContents)));
   const char kPayload[] = "foo";
   ASSERT_TRUE(
       file_util::WriteFile(payload_file,
                            kPayload, strlen(kPayload)));
   collector_.AddCrashMetaData("foo", "bar");
   collector_.WriteCrashMetaData(meta_file, "kernel", payload_file.value());
   EXPECT_TRUE(file_util::ReadFileToString(meta_file, &contents));
   const char kExpectedMeta[] =
       "foo=bar\n"
       "exec_name=kernel\n"
       "ver=version\n"
       "payload=test/payload-file\n"
       "payload_size=3\n"
       "done=1\n";
   EXPECT_EQ(kExpectedMeta, contents);

   // Test target of symlink is not overwritten.
   payload_file = test_dir_.Append("payload2-file");
   ASSERT_TRUE(
       file_util::WriteFile(payload_file,
                            kPayload, strlen(kPayload)));
   FilePath meta_symlink_path = test_dir_.Append("symlink.meta");
   ASSERT_EQ(0,
             symlink(kMetaFileBasename,
                     meta_symlink_path.value().c_str()));
   ASSERT_TRUE(file_util::PathExists(meta_symlink_path));
   chromeos::ClearLog();
   collector_.WriteCrashMetaData(meta_symlink_path,
                                 "kernel",
                                 payload_file.value());
   // Target metadata contents should have stayed the same.
   contents.clear();
   EXPECT_TRUE(file_util::ReadFileToString(meta_file, &contents));
   EXPECT_EQ(kExpectedMeta, contents);
   EXPECT_TRUE(FindLog("Unable to write"));

   // Test target of dangling symlink is not created.
   file_util::Delete(meta_file, false);
   ASSERT_FALSE(file_util::PathExists(meta_file));
   chromeos::ClearLog();
   collector_.WriteCrashMetaData(meta_symlink_path, "kernel",
                                 payload_file.value());
   EXPECT_FALSE(file_util::PathExists(meta_file));
   EXPECT_TRUE(FindLog("Unable to write"));
 }

 TEST_F(CrashCollectorTest, GetLogContents) {
   FilePath config_file = test_dir_.Append("crash_config");
   FilePath output_file = test_dir_.Append("crash_log");
   const char kConfigContents[] =
       "foobar:echo hello there | sed -e \"s/there/world/\"";
   ASSERT_TRUE(
       file_util::WriteFile(config_file,
                            kConfigContents, strlen(kConfigContents)));
   file_util::Delete(FilePath(output_file), false);
   EXPECT_FALSE(collector_.GetLogContents(config_file,
                                          "barfoo",
                                          output_file));
   EXPECT_FALSE(file_util::PathExists(output_file));
   file_util::Delete(FilePath(output_file), false);
   EXPECT_TRUE(collector_.GetLogContents(config_file,
                                         "foobar",
                                         output_file));
   ASSERT_TRUE(file_util::PathExists(output_file));
   std::string contents;
   EXPECT_TRUE(file_util::ReadFileToString(output_file, &contents));
   EXPECT_EQ("hello world\n", contents);
 }

 int main(int argc, char **argv) {
   ::g_type_init();
   SetUpTests(&argc, argv, false);
   return RUN_ALL_TESTS();
 }
	// Copyright (c) 2012 The Chromium OS 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 "crash-reporter/crash_collector_test.h"

	#include <unistd.h>

	#include <dbus/dbus-glib-lowlevel.h>
	#include <glib.h>

	#include "base/file_util.h"
	#include "base/string_util.h"
	#include "base/stringprintf.h"
	#include "chromeos/syslog_logging.h"
	#include "chromeos/test_helpers.h"
	#include "crash-reporter/crash_collector.h"
	#include "gflags/gflags.h"
	#include "gtest/gtest.h"

	using base::FilePath;
	using chromeos::FindLog;
	using ::testing::Return;

	void CountCrash() {
	ADD_FAILURE();
	}

	bool IsMetrics() {
	ADD_FAILURE();
	return false;
	}

	class CrashCollectorTest : public ::testing::Test {
	public:
	void SetUp() {
	collector_.Initialize(CountCrash,
	IsMetrics);
	test_dir_ = FilePath("test");
	file_util::CreateDirectory(test_dir_);
	chromeos::ClearLog();
	}

	void TearDown() {
	file_util::Delete(test_dir_, true);
	}

	bool CheckHasCapacity();

	protected:
	CrashCollectorMock collector_;
	FilePath test_dir_;
	};

	TEST_F(CrashCollectorTest, Initialize) {
	ASSERT_TRUE(CountCrash == collector_.count_crash_function_);
	ASSERT_TRUE(IsMetrics == collector_.is_feedback_allowed_function_);
	}

	TEST_F(CrashCollectorTest, WriteNewFile) {
	FilePath test_file = test_dir_.Append("test_new");
	const char kBuffer[] = "buffer";
	EXPECT_EQ(strlen(kBuffer),
	collector_.WriteNewFile(test_file,
	kBuffer,
	strlen(kBuffer)));
	EXPECT_LT(collector_.WriteNewFile(test_file,
	kBuffer,
	strlen(kBuffer)), 0);
	}

	TEST_F(CrashCollectorTest, Sanitize) {
	EXPECT_EQ("chrome", collector_.Sanitize("chrome"));
	EXPECT_EQ("CHROME", collector_.Sanitize("CHROME"));
	EXPECT_EQ("1chrome2", collector_.Sanitize("1chrome2"));
	EXPECT_EQ("chrome__deleted_", collector_.Sanitize("chrome (deleted)"));
	EXPECT_EQ("foo_bar", collector_.Sanitize("foo.bar"));
	EXPECT_EQ("", collector_.Sanitize(""));
	EXPECT_EQ("_", collector_.Sanitize(" "));
	}

	TEST_F(CrashCollectorTest, GetCrashDirectoryInfo) {
	FilePath path;
	const int kRootUid = 0;
	const int kRootGid = 0;
	const int kNtpUid = 5;
	const int kChronosUid = 1000;
	const int kChronosGid = 1001;
	const mode_t kExpectedSystemMode = 01755;
	const mode_t kExpectedUserMode = 0755;

	mode_t directory_mode;
	uid_t directory_owner;
	gid_t directory_group;

	path = collector_.GetCrashDirectoryInfo(kRootUid,
	kChronosUid,
	kChronosGid,
	&directory_mode,
	&directory_owner,
	&directory_group);
	EXPECT_EQ("/var/spool/crash", path.value());
	EXPECT_EQ(kExpectedSystemMode, directory_mode);
	EXPECT_EQ(kRootUid, directory_owner);
	EXPECT_EQ(kRootGid, directory_group);

	path = collector_.GetCrashDirectoryInfo(kNtpUid,
	kChronosUid,
	kChronosGid,
	&directory_mode,
	&directory_owner,
	&directory_group);
	EXPECT_EQ("/var/spool/crash", path.value());
	EXPECT_EQ(kExpectedSystemMode, directory_mode);
	EXPECT_EQ(kRootUid, directory_owner);
	EXPECT_EQ(kRootGid, directory_group);

	// No need to destroy the hash as GetCrashDirectoryInfo() will do it for us.
	GHashTable *active_sessions = g_hash_table_new (g_str_hash, g_str_equal);
	char kUser[] = "chicken@butt.com";
	char kHash[] = "hashcakes";
	g_hash_table_insert (active_sessions,
	static_cast<gpointer>(kUser),
	static_cast<gpointer>(kHash));
	EXPECT_CALL(collector_, GetActiveUserSessions())
	.WillOnce(Return(active_sessions));

	EXPECT_EQ(collector_.IsUserSpecificDirectoryEnabled(), true);

	path = collector_.GetCrashDirectoryInfo(kChronosUid,
	kChronosUid,
	kChronosGid,
	&directory_mode,
	&directory_owner,
	&directory_group);
	EXPECT_EQ("/home/user/hashcakes/crash", path.value());
	EXPECT_EQ(kExpectedUserMode, directory_mode);
	EXPECT_EQ(kChronosUid, directory_owner);
	EXPECT_EQ(kChronosGid, directory_group);
	}

	TEST_F(CrashCollectorTest, FormatDumpBasename) {
	struct tm tm = {0};
	tm.tm_sec = 15;
	tm.tm_min = 50;
	tm.tm_hour = 13;
	tm.tm_mday = 23;
	tm.tm_mon = 4;
	tm.tm_year = 110;
	tm.tm_isdst = -1;
	std::string basename =
	collector_.FormatDumpBasename("foo", mktime(&tm), 100);
	ASSERT_EQ("foo.20100523.135015.100", basename);
	}

	TEST_F(CrashCollectorTest, GetCrashPath) {
	EXPECT_EQ("/var/spool/crash/myprog.20100101.1200.1234.core",
	collector_.GetCrashPath(FilePath("/var/spool/crash"),
	"myprog.20100101.1200.1234",
	"core").value());
	EXPECT_EQ("/home/chronos/user/crash/chrome.20100101.1200.1234.dmp",
	collector_.GetCrashPath(FilePath("/home/chronos/user/crash"),
	"chrome.20100101.1200.1234",
	"dmp").value());
	}


	bool CrashCollectorTest::CheckHasCapacity() {
	static const char kFullMessage[] = "Crash directory test already full";
	bool has_capacity = collector_.CheckHasCapacity(test_dir_);
	bool has_message = FindLog(kFullMessage);
	EXPECT_EQ(has_message, !has_capacity);
	return has_capacity;
	}

	TEST_F(CrashCollectorTest, CheckHasCapacityUsual) {
	// Test kMaxCrashDirectorySize - 1 non-meta files can be added.
	for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize - 1; ++i) {
	file_util::WriteFile(test_dir_.Append(StringPrintf("file%d.core", i)),
	"", 0);
	EXPECT_TRUE(CheckHasCapacity());
	}

	// Test an additional kMaxCrashDirectorySize - 1 meta files fit.
	for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize - 1; ++i) {
	file_util::WriteFile(test_dir_.Append(StringPrintf("file%d.meta", i)),
	"", 0);
	EXPECT_TRUE(CheckHasCapacity());
	}

	// Test an additional kMaxCrashDirectorySize meta files don't fit.
	for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize; ++i) {
	file_util::WriteFile(test_dir_.Append(StringPrintf("overage%d.meta", i)),
	"", 0);
	EXPECT_FALSE(CheckHasCapacity());
	}
	}

	TEST_F(CrashCollectorTest, CheckHasCapacityCorrectBasename) {
	// Test kMaxCrashDirectorySize - 1 files can be added.
	for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize - 1; ++i) {
	file_util::WriteFile(test_dir_.Append(StringPrintf("file.%d.core", i)),
	"", 0);
	EXPECT_TRUE(CheckHasCapacity());
	}
	file_util::WriteFile(test_dir_.Append("file.last.core"), "", 0);
	EXPECT_FALSE(CheckHasCapacity());
	}

	TEST_F(CrashCollectorTest, CheckHasCapacityStrangeNames) {
	// Test many files with different extensions and same base fit.
	for (int i = 0; i < 5 * CrashCollector::kMaxCrashDirectorySize; ++i) {
	file_util::WriteFile(test_dir_.Append(StringPrintf("a.%d", i)), "", 0);
	EXPECT_TRUE(CheckHasCapacity());
	}
	// Test dot files are treated as individual files.
	for (int i = 0; i < CrashCollector::kMaxCrashDirectorySize - 2; ++i) {
	file_util::WriteFile(test_dir_.Append(StringPrintf(".file%d", i)), "", 0);
	EXPECT_TRUE(CheckHasCapacity());
	}
	file_util::WriteFile(test_dir_.Append("normal.meta"), "", 0);
	EXPECT_FALSE(CheckHasCapacity());
	}

	TEST_F(CrashCollectorTest, IsCommentLine) {
	EXPECT_FALSE(CrashCollector::IsCommentLine(""));
	EXPECT_TRUE(CrashCollector::IsCommentLine("#"));
	EXPECT_TRUE(CrashCollector::IsCommentLine("#real comment"));
	EXPECT_TRUE(CrashCollector::IsCommentLine(" # real comment"));
	EXPECT_FALSE(CrashCollector::IsCommentLine("not comment"));
	EXPECT_FALSE(CrashCollector::IsCommentLine(" not comment"));
	}

	TEST_F(CrashCollectorTest, ReadKeyValueFile) {
	const char *contents = ("a=b\n"
	"\n"
	" c=d \n");
	FilePath path(test_dir_.Append("keyval"));
	std::map<std::string, std::string> dictionary;
	std::map<std::string, std::string>::iterator i;

	file_util::WriteFile(path, contents, strlen(contents));

	EXPECT_TRUE(collector_.ReadKeyValueFile(path, '=', &dictionary));
	i = dictionary.find("a");
	EXPECT_TRUE(i != dictionary.end() && i->second == "b");
	i = dictionary.find("c");
	EXPECT_TRUE(i != dictionary.end() && i->second == "d");

	dictionary.clear();

	contents = ("a=b c d\n"
	"e\n"
	" f g = h\n"
	"i=j\n"
	"=k\n"
	"#comment=0\n"
	"l=\n");
	file_util::WriteFile(path, contents, strlen(contents));

	EXPECT_FALSE(collector_.ReadKeyValueFile(path, '=', &dictionary));
	EXPECT_EQ(5, dictionary.size());

	i = dictionary.find("a");
	EXPECT_TRUE(i != dictionary.end() && i->second == "b c d");
	i = dictionary.find("e");
	EXPECT_TRUE(i == dictionary.end());
	i = dictionary.find("f g");
	EXPECT_TRUE(i != dictionary.end() && i->second == "h");
	i = dictionary.find("i");
	EXPECT_TRUE(i != dictionary.end() && i->second == "j");
	i = dictionary.find("");
	EXPECT_TRUE(i != dictionary.end() && i->second == "k");
	i = dictionary.find("l");
	EXPECT_TRUE(i != dictionary.end() && i->second == "");
	}

	TEST_F(CrashCollectorTest, MetaData) {
	const char kMetaFileBasename[] = "generated.meta";
	FilePath meta_file = test_dir_.Append(kMetaFileBasename);
	FilePath lsb_release = test_dir_.Append("lsb-release");
	FilePath payload_file = test_dir_.Append("payload-file");
	std::string contents;
	collector_.lsb_release_ = lsb_release.value().c_str();
	const char kLsbContents[] = "CHROMEOS_RELEASE_VERSION=version\n";
	ASSERT_TRUE(
	file_util::WriteFile(lsb_release,
	kLsbContents, strlen(kLsbContents)));
	const char kPayload[] = "foo";
	ASSERT_TRUE(
	file_util::WriteFile(payload_file,
	kPayload, strlen(kPayload)));
	collector_.AddCrashMetaData("foo", "bar");
	collector_.WriteCrashMetaData(meta_file, "kernel", payload_file.value());
	EXPECT_TRUE(file_util::ReadFileToString(meta_file, &contents));
	const char kExpectedMeta[] =
	"foo=bar\n"
	"exec_name=kernel\n"
	"ver=version\n"
	"payload=test/payload-file\n"
	"payload_size=3\n"
	"done=1\n";
	EXPECT_EQ(kExpectedMeta, contents);

	// Test target of symlink is not overwritten.
	payload_file = test_dir_.Append("payload2-file");
	ASSERT_TRUE(
	file_util::WriteFile(payload_file,
	kPayload, strlen(kPayload)));
	FilePath meta_symlink_path = test_dir_.Append("symlink.meta");
	ASSERT_EQ(0,
	symlink(kMetaFileBasename,
	meta_symlink_path.value().c_str()));
	ASSERT_TRUE(file_util::PathExists(meta_symlink_path));
	chromeos::ClearLog();
	collector_.WriteCrashMetaData(meta_symlink_path,
	"kernel",
	payload_file.value());
	// Target metadata contents should have stayed the same.
	contents.clear();
	EXPECT_TRUE(file_util::ReadFileToString(meta_file, &contents));
	EXPECT_EQ(kExpectedMeta, contents);
	EXPECT_TRUE(FindLog("Unable to write"));

	// Test target of dangling symlink is not created.
	file_util::Delete(meta_file, false);
	ASSERT_FALSE(file_util::PathExists(meta_file));
	chromeos::ClearLog();
	collector_.WriteCrashMetaData(meta_symlink_path, "kernel",
	payload_file.value());
	EXPECT_FALSE(file_util::PathExists(meta_file));
	EXPECT_TRUE(FindLog("Unable to write"));
	}

	TEST_F(CrashCollectorTest, GetLogContents) {
	FilePath config_file = test_dir_.Append("crash_config");
	FilePath output_file = test_dir_.Append("crash_log");
	const char kConfigContents[] =
	"foobar:echo hello there \| sed -e \"s/there/world/\"";
	ASSERT_TRUE(
	file_util::WriteFile(config_file,
	kConfigContents, strlen(kConfigContents)));
	file_util::Delete(FilePath(output_file), false);
	EXPECT_FALSE(collector_.GetLogContents(config_file,
	"barfoo",
	output_file));
	EXPECT_FALSE(file_util::PathExists(output_file));
	file_util::Delete(FilePath(output_file), false);
	EXPECT_TRUE(collector_.GetLogContents(config_file,
	"foobar",
	output_file));
	ASSERT_TRUE(file_util::PathExists(output_file));
	std::string contents;
	EXPECT_TRUE(file_util::ReadFileToString(output_file, &contents));
	EXPECT_EQ("hello world\n", contents);
	}

	int main(int argc, char **argv) {
	::g_type_init();
	SetUpTests(&argc, argv, false);
	return RUN_ALL_TESTS();
	}