content/browser/media_device_notifications_linux_unittest.cc - Issue 9560008: Implement Linux media notifier.

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Issue 9560008: Implement Linux media notifier. (Closed) Base URL: svn://chrome-svn/chrome/trunk/src/

Patch Set: Created 8 years, 9 months ago

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	1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.

	2 // Use of this source code is governed by a BSD-style license that can be

	3 // found in the LICENSE file.

	4

	5 #include <mntent.h>

	6 #include <stdio.h>

	7

	8 #include <string>

	9

	10 #include "base/file_util.h"

	11 #include "base/logging.h"

	12 #include "base/memory/scoped_ptr.h"

	13 #include "base/message_loop.h"

	14 #include "base/scoped_temp_dir.h"

	15 #include "base/system_monitor/system_monitor.h"

	16 #include "content/browser/browser_thread_impl.h"

	17 #include "content/browser/media_device_notifications_linux.h"

	18 #include "testing/gtest/include/gtest/gtest.h"

	19

	20 namespace {

	21

	22 const char* kValidFS = "vfat";

	23 const char* kInvalidFS = "invalidfs";

	24

	25 const char* kInvalidPath = "invalid path does not exist";

	26

	27 const char* kDevice1 = "d1";

	28 const char* kDevice2 = "d2";

	29 const char* kDevice3 = "d3";

	30

	31 const char* kMountPointA = "mnt_a";

	32 const char* kMountPointB = "mnt_b";

	33

	34 } // namespace

	35

	36 namespace content {

	37

	38 class MediaDeviceNotificationsLinuxTest : public testing::Test {

	39 public:

	40 struct MtabTestData {

	41 MtabTestData(const char* mount_device,

	42 const char* mount_point,

	43 const char* mount_type)

	44 : mount_device(mount_device),

	45 mount_point(mount_point),

	46 mount_type(mount_type) {

	47 }

	48

	49 const char* mount_device;

	50 const char* mount_point;

	51 const char* mount_type;

	52 };

	53

	54 class DummyDeviceChangeObserver
	vandebo (ex-Chrome) 2012/03/06 00:41:40 You should use MockDevicesChangedObserver You should use MockDevicesChangedObserver Lei Zhang 2012/03/06 19:00:25 Done. Show quoted text On 2012/03/06 00:41:40, vandebo wrote: > You should use MockDevicesChangedObserver Done.
	55 : public base::SystemMonitor::DevicesChangedObserver {

	56 public:

	57 DummyDeviceChangeObserver()

	58 : attach_count_(0),

	59 detach_count_(0) {

	60 }

	61 virtual ~DummyDeviceChangeObserver() {}

	62

	63 void Reset() {

	64 attach_count_ = 0;

	65 detach_count_ = 0;

	66 }

	67

	68 int attach_count() { return attach_count_; }

	69 int detach_count() { return detach_count_; }

	70

	71 // base::SystemMonitor::DevicesChangedObserver implementation.

	72 virtual void OnMediaDeviceAttached(

	73 const base::SystemMonitor::DeviceIdType& id,

	74 const std::string& name,

	75 const FilePath& path) OVERRIDE {

	76 ++attach_count_;

	77 }

	78 virtual void OnMediaDeviceDetached(

	79 const base::SystemMonitor::DeviceIdType& id) OVERRIDE {

	80 ++detach_count_;

	81 }

	82

	83 private:

	84 int attach_count_;

	85 int detach_count_;

	86

	87 DISALLOW_COPY_AND_ASSIGN(DummyDeviceChangeObserver);

	88 };

	89

	90 MediaDeviceNotificationsLinuxTest()

	91 : message_loop_(MessageLoop::TYPE_IO),

	92 file_thread_(BrowserThread::FILE, &message_loop_) {

	93 system_monitor_.reset(new base::SystemMonitor());

	94 system_monitor_->AddDevicesChangedObserver(&dummy_device_change_observer_);

	95 }

	96 virtual ~MediaDeviceNotificationsLinuxTest() {}

	97

	98 protected:

	99 virtual void SetUp() {

	100 dummy_device_change_observer_.Reset();

	101

	102 // Create and set up a temp dir with files for the test.

	103 ASSERT_TRUE(scoped_temp_dir_.CreateUniqueTempDir());

	104 FilePath test_dir = scoped_temp_dir_.path().AppendASCII("etc");

	105 ASSERT_TRUE(file_util::CreateDirectory(test_dir));

	106 mtab_file_ = test_dir.AppendASCII("foo");
	vandebo (ex-Chrome) 2012/03/06 00:41:40 why not mtab ? why not mtab ? Lei Zhang 2012/03/06 19:00:25 The name is arbitrary. I changed it to "test_mtab" Show quoted text On 2012/03/06 00:41:40, vandebo wrote: > why not mtab ? The name is arbitrary. I changed it to "test_mtab".
	107 struct MtabTestData initial_test_data[] = {

	108 MtabTestData("dummydevice", "dummydir", kInvalidFS),

	109 };

	110 WriteToMtab(initial_test_data, arraysize(initial_test_data), true);

	111

	112 // Initialize the test subject.

	113 notifications_ = new MediaDeviceNotificationsLinux(mtab_file_);

	114 BrowserThread::PostTask(

	115 BrowserThread::FILE, FROM_HERE,

	116 base::Bind(&MediaDeviceNotificationsLinux::InitOnFileThread,

	117 notifications_.get()));

	118 message_loop_.RunAllPending();

	119 }

	120

	121 virtual void TearDown() {

	122 message_loop_.RunAllPending();

	123 notifications_ = NULL;

	124 ASSERT_TRUE(scoped_temp_dir_.Delete());

	125 }

	126

	127 // Used to run tests. When the mtab file gets modified, the message loop

	128 // needs to run in order to react to the file modification.

	129 // See WriteToMtab for parameters.

	130 void WriteToMtabAndRunLoop(struct MtabTestData* data,

	131 size_t data_size,

	132 bool overwrite) {

	133 WriteToMtab(data, data_size, overwrite);

	134 message_loop_.RunAllPending();

	135 }

	136

	137 // Create a directory named \|dir\| relative to the test directory.

	138 // Set \|with_dcim_dir\| to true if the created directory will have a "DCIM"

	139 // subdirectory.

	140 // Returns the full path to the created directory on success, or an empty

	141 // path on failure.

	142 FilePath CreateMountPoint(const char* dir, bool with_dcim_dir) {

	143 FilePath return_path(scoped_temp_dir_.path());

	144 return_path = return_path.AppendASCII(dir);

	145 FilePath path(return_path);

	146 if (with_dcim_dir)

	147 path = path.AppendASCII("DCIM");

	148 if (!file_util::CreateDirectory(path))

	149 return FilePath();

	150 return return_path;

	151 }

	152

	153 int attach_count() { return dummy_device_change_observer_.attach_count(); }

	154 int detach_count() { return dummy_device_change_observer_.detach_count(); }

	155

	156 private:

	157 // Write the test mtab data to \|mtab_file_\|.

	158 // \|data\| is an array of mtab entries.

	159 // \|data_size\| is the array size of \|data\|.

	160 // \|overwrite\| specifies whether to overwrite \|mtab_file_\|.

	161 void WriteToMtab(struct MtabTestData* data,

	162 size_t data_size,

	163 bool overwrite) {

	164 FILE* fd = setmntent(mtab_file_.value().c_str(), overwrite ? "w" : "a");

	165 ASSERT_TRUE(fd);

	166

	167 scoped_ptr<char> mnt_opts(strdup("rw"));

	168 struct mntent entry;

	169 entry.mnt_opts = mnt_opts.get();

	170 entry.mnt_freq = 0;

	171 entry.mnt_passno = 0;

	172 for (size_t i = 0; i < data_size; ++i) {

	173 scoped_ptr<char> mnt_fsname(strdup(data[i].mount_device));

	174 scoped_ptr<char> mnt_dir(strdup(data[i].mount_point));

	175 scoped_ptr<char> mnt_type(strdup(data[i].mount_type));

	176 entry.mnt_fsname = mnt_fsname.get();

	177 entry.mnt_dir = mnt_dir.get();

	178 entry.mnt_type = mnt_type.get();

	179 int add_result = addmntent(fd, &entry);

	180 ASSERT_EQ(0, add_result);

	181 }

	182 int end_result = endmntent(fd);

	183 ASSERT_EQ(1, end_result);

	184 }

	185

	186 // The message loop and file thread to run tests on.

	187 MessageLoop message_loop_;

	188 BrowserThreadImpl file_thread_;

	189

	190 // SystemMonitor and DevicesChangedObserver to hook together to test.

	191 scoped_ptr<base::SystemMonitor> system_monitor_;

	192 DummyDeviceChangeObserver dummy_device_change_observer_;

	193

	194 // Temporary directory for created test data.

	195 ScopedTempDir scoped_temp_dir_;

	196 // Path to the test mtab file.

	197 FilePath mtab_file_;

	198

	199 scoped_refptr<MediaDeviceNotificationsLinux> notifications_;

	200

	201 DISALLOW_COPY_AND_ASSIGN(MediaDeviceNotificationsLinuxTest);

	202 };

	203

	204 TEST_F(MediaDeviceNotificationsLinuxTest, BasicAttachDetach) {

	205 FilePath test_path = CreateMountPoint(kMountPointA, true);

	206 ASSERT_FALSE(test_path.empty());

	207 struct MtabTestData test_data[] = {

	208 MtabTestData(kDevice1, kInvalidPath, kValidFS),

	209 MtabTestData(kDevice2, test_path.value().c_str(), kValidFS),

	210 };

	211 WriteToMtabAndRunLoop(test_data, arraysize(test_data), false);

	212 EXPECT_EQ(1, attach_count());

	213 EXPECT_EQ(0, detach_count());

	214

	215 WriteToMtabAndRunLoop(NULL, 0, true);

	216 EXPECT_EQ(1, attach_count());

	217 EXPECT_EQ(1, detach_count());

	218 }

	219

	220 // Only mount points with DCIM directories are recognized.

	221 TEST_F(MediaDeviceNotificationsLinuxTest, DCIM) {

	222 FilePath test_path1 = CreateMountPoint(kMountPointA, true);

	223 ASSERT_FALSE(test_path1.empty());

	224 struct MtabTestData test_data1[] = {

	225 MtabTestData(kDevice1, test_path1.value().c_str(), kValidFS),

	226 };

	227 WriteToMtabAndRunLoop(test_data1, arraysize(test_data1), false);

	228 EXPECT_EQ(1, attach_count());

	229 EXPECT_EQ(0, detach_count());

	230

	231 FilePath test_path2 = CreateMountPoint(kMountPointB, false);

	232 ASSERT_FALSE(test_path2.empty());

	233 struct MtabTestData test_data2[] = {

	234 MtabTestData(kDevice2, test_path2.value().c_str(), kValidFS),

	235 };

	236 WriteToMtabAndRunLoop(test_data2, arraysize(test_data2), false);

	237 EXPECT_EQ(1, attach_count());

	238 EXPECT_EQ(0, detach_count());

	239

	240 WriteToMtabAndRunLoop(NULL, 0, true);

	241 EXPECT_EQ(1, attach_count());

	242 EXPECT_EQ(1, detach_count());

	243 }

	244

	245 TEST_F(MediaDeviceNotificationsLinuxTest, MultiDeviceMultiMount) {

	246 FilePath test_path1 = CreateMountPoint(kMountPointA, true);

	247 FilePath test_path2 = CreateMountPoint(kMountPointB, true);

	248 ASSERT_FALSE(test_path1.empty());

	249 ASSERT_FALSE(test_path2.empty());

	250

	251 // Attach two devices.

	252 // kDevice1 -> kMountPointA

	253 // kDevice2 -> kMountPointB

	254 struct MtabTestData test_data1[] = {

	255 MtabTestData(kDevice1, test_path1.value().c_str(), kValidFS),

	256 MtabTestData(kDevice2, test_path2.value().c_str(), kValidFS),

	257 };

	258 WriteToMtabAndRunLoop(test_data1, arraysize(test_data1), false);

	259 EXPECT_EQ(2, attach_count());

	260 EXPECT_EQ(0, detach_count());

	261

	262 // Attach \|kDevice1\| to \|kMountPointB\|.

	263 // \|kDevice2\| is inaccessible, so it is detached. \|kDevice1\| has been

	264 // re-attached at \|kMountPointB\|, so it is 'detached' from kMountPointA.

	265 // kDevice1 -> kMountPointA

	266 // kDevice2 -> kMountPointB

	267 // kDevice1 -> kMountPointB

	268 struct MtabTestData test_data2[] = {

	269 MtabTestData(kDevice1, test_path2.value().c_str(), kValidFS),

	270 };

	271 WriteToMtabAndRunLoop(test_data2, arraysize(test_data2), false);

	272 EXPECT_EQ(3, attach_count());

	273 EXPECT_EQ(2, detach_count());

	274

	275 // Attach \|kDevice2\| to \|kMountPointA\|.

	276 // kDevice1 -> kMountPointA

	277 // kDevice2 -> kMountPointB

	278 // kDevice1 -> kMountPointB

	279 // kDevice2 -> kMountPointA

	280 struct MtabTestData test_data3[] = {

	281 MtabTestData(kDevice2, test_path1.value().c_str(), kValidFS),

	282 };

	283 WriteToMtabAndRunLoop(test_data3, arraysize(test_data3), false);

	284 EXPECT_EQ(4, attach_count());

	285 EXPECT_EQ(2, detach_count());

	286

	287 // Detach \|kDevice2\| from \|kMountPointA\|.

	288 // kDevice1 -> kMountPointA

	289 // kDevice2 -> kMountPointB

	290 // kDevice1 -> kMountPointB

	291 struct MtabTestData test_data4[] = {

	292 MtabTestData(kDevice1, test_path1.value().c_str(), kValidFS),

	293 MtabTestData(kDevice2, test_path2.value().c_str(), kValidFS),

	294 MtabTestData(kDevice1, test_path2.value().c_str(), kValidFS),

	295 };

	296 WriteToMtabAndRunLoop(test_data4, arraysize(test_data4), true);

	297 EXPECT_EQ(4, attach_count());

	298 EXPECT_EQ(3, detach_count());

	299

	300 // Detach \|kDevice1\| from \|kMountPointB\|.

	301 // kDevice1 -> kMountPointA

	302 // kDevice2 -> kMountPointB

	303 WriteToMtabAndRunLoop(test_data1, arraysize(test_data1), true);

	304 EXPECT_EQ(6, attach_count());

	305 EXPECT_EQ(4, detach_count());

	306

	307 // Detach all devices.

	308 WriteToMtabAndRunLoop(NULL, 0, true);

	309 EXPECT_EQ(6, attach_count());

	310 EXPECT_EQ(6, detach_count());

	311 }

	312

	313 TEST_F(MediaDeviceNotificationsLinuxTest, MultiDeviceMount2) {

	314 FilePath test_path1 = CreateMountPoint(kMountPointA, true);

	315 FilePath test_path2 = CreateMountPoint(kMountPointB, true);

	316 ASSERT_FALSE(test_path1.empty());

	317 ASSERT_FALSE(test_path2.empty());

	318

	319 // \|kDevice1\| is most recently mounted at \|kMountPointB\|.

	320 // kDevice1 -> kMountPointA

	321 // kDevice2 -> kMountPointB

	322 // kDevice1 -> kMountPointB

	323 struct MtabTestData test_data2[] = {

	324 MtabTestData(kDevice1, test_path2.value().c_str(), kValidFS),

	325 };

	326 WriteToMtabAndRunLoop(test_data2, arraysize(test_data2), false);

	327 EXPECT_EQ(1, attach_count());

	328 EXPECT_EQ(0, detach_count());

	329

	330 // Attach \|kDevice3\| to \|kMountPointB\|.

	331 // \|kDevice1\| is inaccessible at its most recent mount point, so it is

	332 // detached and unavailable, even though it is still accessible via

	333 // \|kMountPointA\|.

	334 // kDevice1 -> kMountPointA

	335 // kDevice2 -> kMountPointB

	336 // kDevice1 -> kMountPointB

	337 // kDevice3 -> kMountPointB

	338 struct MtabTestData test_data3[] = {

	339 MtabTestData(kDevice3, test_path2.value().c_str(), kValidFS),

	340 };

	341 WriteToMtabAndRunLoop(test_data3, arraysize(test_data3), false);

	342 EXPECT_EQ(2, attach_count());

	343 EXPECT_EQ(1, detach_count());

	344

	345 // Detach all devices.

	346 WriteToMtabAndRunLoop(NULL, 0, true);

	347 EXPECT_EQ(2, attach_count());

	348 EXPECT_EQ(2, detach_count());

	349 }

	350

	351 } // namespace content

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