chrome/common/service_process_util.cc - Issue 6349029: Get service processes working on Mac and Linux.

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Issue 6349029: Get service processes working on Mac and Linux. (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src

Patch Set: fix up small typo in comment Created 9 years, 10 months ago

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1 // Copyright (c) 2010 The Chromium Authors. All rights reserved.	1 // Copyright (c) 2010 The Chromium Authors. All rights reserved.

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

3 // found in the LICENSE file.	3 // found in the LICENSE file.

4	4

5 #include <algorithm>	5 #include <algorithm>

6	6

7 #include "base/file_util.h"	7 #include "base/file_util.h"

8 #include "base/logging.h"	8 #include "base/logging.h"

	9 #include "base/mac/scoped_nsautorelease_pool.h"

9 #include "base/path_service.h"	10 #include "base/path_service.h"

10 #include "base/process_util.h"	11 #include "base/process_util.h"

	12 #include "base/sha1.h"

11 #include "base/singleton.h"	13 #include "base/singleton.h"

12 #include "base/string16.h"	14 #include "base/string16.h"

	15 #include "base/string_number_conversions.h"

13 #include "base/string_util.h"	16 #include "base/string_util.h"

14 #include "base/utf_string_conversions.h"	17 #include "base/utf_string_conversions.h"

15 #include "base/version.h"	18 #include "base/version.h"

16 #include "chrome/common/chrome_constants.h"	19 #include "chrome/common/chrome_constants.h"

17 #include "chrome/common/chrome_paths.h"	20 #include "chrome/common/chrome_paths.h"

18 #include "chrome/common/chrome_version_info.h"	21 #include "chrome/common/chrome_version_info.h"

19 #include "chrome/common/service_process_util.h"	22 #include "chrome/common/service_process_util.h"

20	23

21 namespace {	24 namespace {

22	25

23 // This should be more than enough to hold a version string assuming each part	26 // This should be more than enough to hold a version string assuming each part

24 // of the version string is an int64.	27 // of the version string is an int64.

25 const uint32 kMaxVersionStringLength = 256;	28 const uint32 kMaxVersionStringLength = 256;

26	29

27 // The structure that gets written to shared memory.	30 // The structure that gets written to shared memory.

28 struct ServiceProcessSharedData {	31 struct ServiceProcessSharedData {

29 char service_process_version[kMaxVersionStringLength];	32 char service_process_version[kMaxVersionStringLength];

30 base::ProcessId service_process_pid;	33 base::ProcessId service_process_pid;

31 };	34 };

32	35

33 // Gets the name of the shared memory used by the service process to write its	36 // Gets the name of the shared memory used by the service process to write its

34 // version. The name is not versioned.	37 // version. The name is not versioned.

35 std::string GetServiceProcessSharedMemName() {	38 std::string GetServiceProcessSharedMemName() {

36 return GetServiceProcessScopedName("_service_shmem");	39 return GetServiceProcessScopedName("_service_shmem");

37 }	40 }

38	41

39 // Reads the named shared memory to get the shared data. Returns false if no

40 // matching shared memory was found.

41 bool GetServiceProcessSharedData(std::string* version, base::ProcessId* pid) {

42 scoped_ptr<base::SharedMemory> shared_mem_service_data;

43 shared_mem_service_data.reset(new base::SharedMemory());

44 ServiceProcessSharedData* service_data = NULL;

45 if (shared_mem_service_data.get() &&

46 shared_mem_service_data->Open(GetServiceProcessSharedMemName(), true) &&

47 shared_mem_service_data->Map(sizeof(ServiceProcessSharedData))) {

48 service_data = reinterpret_cast<ServiceProcessSharedData*>(

49 shared_mem_service_data->memory());

50 // Make sure the version in shared memory is null-terminated. If it is not,

51 // treat it as invalid.

52 if (version && memchr(service_data->service_process_version, '\0',

53 sizeof(service_data->service_process_version)))

54 *version = service_data->service_process_version;

55 if (pid)

56 *pid = service_data->service_process_pid;

57 return true;

58 }

59 return false;

60 }

61

62 enum ServiceProcessRunningState {	42 enum ServiceProcessRunningState {

63 SERVICE_NOT_RUNNING,	43 SERVICE_NOT_RUNNING,

64 SERVICE_OLDER_VERSION_RUNNING,	44 SERVICE_OLDER_VERSION_RUNNING,

65 SERVICE_SAME_VERSION_RUNNING,	45 SERVICE_SAME_VERSION_RUNNING,

66 SERVICE_NEWER_VERSION_RUNNING,	46 SERVICE_NEWER_VERSION_RUNNING,

67 };	47 };

68	48

69 ServiceProcessRunningState GetServiceProcessRunningState(	49 ServiceProcessRunningState GetServiceProcessRunningState(

70 std::string* service_version_out) {	50 std::string* service_version_out, base::ProcessId* pid_out) {

71 std::string version;	51 std::string version;

72 GetServiceProcessSharedData(&version, NULL);	52 if (!GetServiceProcessSharedData(&version, pid_out))

73 if (version.empty())

74 return SERVICE_NOT_RUNNING;	53 return SERVICE_NOT_RUNNING;

75	54

	55 #if defined(OS_POSIX)

	56 // We only need to check for service running on POSIX because Windows cleans

	57 // up shared memory files when an app crashes, so there isn't a chance of

	58 // us reading bogus data from shared memory for an app that has died.

	59 if (!CheckServiceProcessReady()) {

	60 return SERVICE_NOT_RUNNING;

	61 }

	62 #endif // defined(OS_POSIX)

	63

76 // At this time we have a version string. Set the out param if it exists.	64 // At this time we have a version string. Set the out param if it exists.

77 if (service_version_out)	65 if (service_version_out)

78 *service_version_out = version;	66 *service_version_out = version;

79	67

80 scoped_ptr<Version> service_version(Version::GetVersionFromString(version));	68 scoped_ptr<Version> service_version(Version::GetVersionFromString(version));

81 // If the version string is invalid, treat it like an older version.	69 // If the version string is invalid, treat it like an older version.

82 if (!service_version.get())	70 if (!service_version.get())

83 return SERVICE_OLDER_VERSION_RUNNING;	71 return SERVICE_OLDER_VERSION_RUNNING;

84	72

85 // Get the version of the currently running instance of Chrome.	73 // Get the version of the currently running instance of Chrome.

(...skipping 14 matching lines...) Expand all Loading...
100 }	88 }

101	89

102 if (running_version->CompareTo(*service_version) > 0) {	90 if (running_version->CompareTo(*service_version) > 0) {

103 return SERVICE_OLDER_VERSION_RUNNING;	91 return SERVICE_OLDER_VERSION_RUNNING;

104 } else if (service_version->CompareTo(*running_version) > 0) {	92 } else if (service_version->CompareTo(*running_version) > 0) {

105 return SERVICE_NEWER_VERSION_RUNNING;	93 return SERVICE_NEWER_VERSION_RUNNING;

106 }	94 }

107 return SERVICE_SAME_VERSION_RUNNING;	95 return SERVICE_SAME_VERSION_RUNNING;

108 }	96 }

109	97

110

111 } // namespace	98 } // namespace

112	99

113 // Return a name that is scoped to this instance of the service process. We	100 // Return a name that is scoped to this instance of the service process. We

114 // use the user-data-dir as a scoping prefix.	101 // use the hash of the user-data-dir as a scoping prefix. We can't use

	102 // the user-data-dir itself as we have limits on the size of the lock names.

115 std::string GetServiceProcessScopedName(const std::string& append_str) {	103 std::string GetServiceProcessScopedName(const std::string& append_str) {

116 FilePath user_data_dir;	104 FilePath user_data_dir;

117 PathService::Get(chrome::DIR_USER_DATA, &user_data_dir);	105 PathService::Get(chrome::DIR_USER_DATA, &user_data_dir);

118 #if defined(OS_WIN)	106 #if defined(OS_WIN)

119 std::string scoped_name = WideToUTF8(user_data_dir.value());	107 std::string user_data_dir_path = WideToUTF8(user_data_dir.value());

120 #elif defined(OS_POSIX)	108 #elif defined(OS_POSIX)

121 std::string scoped_name = user_data_dir.value();	109 std::string user_data_dir_path = user_data_dir.value();

122 #endif // defined(OS_WIN)	110 #endif // defined(OS_WIN)

123 std::replace(scoped_name.begin(), scoped_name.end(), '\\', '!');	111 std::string hash = base::SHA1HashString(user_data_dir_path);

124 std::replace(scoped_name.begin(), scoped_name.end(), '/', '!');	112 std::string hex_hash = base::HexEncode(hash.c_str(), hash.length());

125 scoped_name.append(append_str);	113 return hex_hash + "." + append_str;

126 return scoped_name;

127 }	114 }

128	115

129 // Return a name that is scoped to this instance of the service process. We	116 // Return a name that is scoped to this instance of the service process. We

130 // use the user-data-dir and the version as a scoping prefix.	117 // use the user-data-dir and the version as a scoping prefix.

131 std::string GetServiceProcessScopedVersionedName(	118 std::string GetServiceProcessScopedVersionedName(

132 const std::string& append_str) {	119 const std::string& append_str) {

133 std::string versioned_str;	120 std::string versioned_str;

134 chrome::VersionInfo version_info;	121 chrome::VersionInfo version_info;

135 DCHECK(version_info.is_valid());	122 DCHECK(version_info.is_valid());

136 versioned_str.append(version_info.Version());	123 versioned_str.append(version_info.Version());

137 versioned_str.append(append_str);	124 versioned_str.append(append_str);

138 return GetServiceProcessScopedName(versioned_str);	125 return GetServiceProcessScopedName(versioned_str);

139 }	126 }

140	127

141 // Gets the name of the service process IPC channel.	128 // Gets the name of the service process IPC channel.

142 std::string GetServiceProcessChannelName() {	129 std::string GetServiceProcessChannelName() {

143 return GetServiceProcessScopedVersionedName("_service_ipc");	130 return GetServiceProcessScopedVersionedName("_service_ipc");

144 }	131 }

145	132

146 base::ProcessId GetServiceProcessPid() {	133 // Reads the named shared memory to get the shared data. Returns false if no

147 base::ProcessId pid = 0;	134 // matching shared memory was found.

148 GetServiceProcessSharedData(NULL, &pid);	135 bool GetServiceProcessSharedData(std::string* version, base::ProcessId* pid) {

149 return pid;	136 scoped_ptr<base::SharedMemory> shared_mem_service_data;

	137 shared_mem_service_data.reset(new base::SharedMemory());

	138 ServiceProcessSharedData* service_data = NULL;

	139 if (shared_mem_service_data.get() &&

	140 shared_mem_service_data->Open(GetServiceProcessSharedMemName(), true) &&

	141 shared_mem_service_data->Map(sizeof(ServiceProcessSharedData))) {

	142 service_data = reinterpret_cast<ServiceProcessSharedData*>(

	143 shared_mem_service_data->memory());

	144 // Make sure the version in shared memory is null-terminated. If it is not,

	145 // treat it as invalid.

	146 if (version && memchr(service_data->service_process_version, '\0',

	147 sizeof(service_data->service_process_version)))

	148 *version = service_data->service_process_version;

	149 if (pid)

	150 *pid = service_data->service_process_pid;

	151 return true;

	152 }

	153 return false;

150 }	154 }

151	155

152 ServiceProcessState::ServiceProcessState() : state_(NULL) {	156 ServiceProcessState::ServiceProcessState() : state_(NULL) {

153 }	157 }

154	158

155 ServiceProcessState::~ServiceProcessState() {	159 ServiceProcessState::~ServiceProcessState() {

	160 if (shared_mem_service_data_.get()) {

	161 // Delete needs a pool wrapped around it because it calls some Obj-C on Mac,

	162 // and since ServiceProcessState is a singleton, it gets destructed after

	163 // the standard NSAutoreleasePools have already been cleaned up.

	164 base::mac::ScopedNSAutoreleasePool pool;

	165 shared_mem_service_data_->Delete(GetServiceProcessSharedMemName());

	166 }

156 TearDownState();	167 TearDownState();

157 }	168 }

158	169

159 // static	170 // static

160 ServiceProcessState* ServiceProcessState::GetInstance() {	171 ServiceProcessState* ServiceProcessState::GetInstance() {

161 return Singleton<ServiceProcessState>::get();	172 return Singleton<ServiceProcessState>::get();

162 }	173 }

163	174

164 bool ServiceProcessState::Initialize() {	175 bool ServiceProcessState::Initialize() {

165 if (!TakeSingletonLock()) {	176 if (!TakeSingletonLock()) {

166 return false;	177 return false;

167 }	178 }

168 // Now that we have the singleton, take care of killing an older version, if	179 // Now that we have the singleton, take care of killing an older version, if

169 // it exists.	180 // it exists.

170 if (ShouldHandleOtherVersion() && !HandleOtherVersion())	181 if (!HandleOtherVersion())

171 return false;	182 return false;

172	183

173 // TODO(sanjeevr): We can probably use the shared mem as the sole singleton	184 // Write the version we are using to shared memory. This can be used by a

174 // mechanism. For that the shared mem class needs to return whether it created	185 // newer service to signal us to exit.

175 // new instance or opened an existing one. Also shared memory on Linux uses

176 // a file on disk which is not deleted when the process exits.

177

178 // Now that we have the singleton, let is also write the version we are using

179 // to shared memory. This can be used by a newer service to signal us to exit.

180 return CreateSharedData();	186 return CreateSharedData();

181 }	187 }

182	188

183 bool ServiceProcessState::HandleOtherVersion() {	189 bool ServiceProcessState::HandleOtherVersion() {

184 std::string running_version;	190 std::string running_version;

	191 base::ProcessId process_id;

185 ServiceProcessRunningState state =	192 ServiceProcessRunningState state =

186 GetServiceProcessRunningState(&running_version);	193 GetServiceProcessRunningState(&running_version, &process_id);

187 switch (state) {	194 switch (state) {

188 case SERVICE_SAME_VERSION_RUNNING:	195 case SERVICE_SAME_VERSION_RUNNING:

189 case SERVICE_NEWER_VERSION_RUNNING:	196 case SERVICE_NEWER_VERSION_RUNNING:

190 return false;	197 return false;

191 case SERVICE_OLDER_VERSION_RUNNING:	198 case SERVICE_OLDER_VERSION_RUNNING:

192 // If an older version is running, kill it.	199 // If an older version is running, kill it.

193 ForceServiceProcessShutdown(running_version);	200 ForceServiceProcessShutdown(running_version, process_id);

194 break;	201 break;

195 case SERVICE_NOT_RUNNING:	202 case SERVICE_NOT_RUNNING:

196 break;	203 break;

197 }	204 }

198 return true;	205 return true;

199 }	206 }

200	207

201 bool ServiceProcessState::CreateSharedData() {	208 bool ServiceProcessState::CreateSharedData() {

202 chrome::VersionInfo version_info;	209 chrome::VersionInfo version_info;

203 if (!version_info.is_valid()) {	210 if (!version_info.is_valid()) {

204 NOTREACHED() << "Failed to get current file version";	211 NOTREACHED() << "Failed to get current file version";

205 return false;	212 return false;

206 }	213 }

207 if (version_info.Version().length() >= kMaxVersionStringLength) {	214 if (version_info.Version().length() >= kMaxVersionStringLength) {

208 NOTREACHED() << "Version string length is << " <<	215 NOTREACHED() << "Version string length is << " <<

209 version_info.Version().length() << "which is longer than" <<	216 version_info.Version().length() << "which is longer than" <<

210 kMaxVersionStringLength;	217 kMaxVersionStringLength;

211 return false;	218 return false;

212 }	219 }

213	220

214 scoped_ptr<base::SharedMemory> shared_mem_service_data;	221 scoped_ptr<base::SharedMemory> shared_mem_service_data(

215 shared_mem_service_data.reset(new base::SharedMemory());	222 new base::SharedMemory());

216 if (!shared_mem_service_data.get())	223 if (!shared_mem_service_data.get())

217 return false;	224 return false;

218	225

219 uint32 alloc_size = sizeof(ServiceProcessSharedData);	226 uint32 alloc_size = sizeof(ServiceProcessSharedData);

220 if (!shared_mem_service_data->CreateNamed(GetServiceProcessSharedMemName(),	227 if (!shared_mem_service_data->CreateNamed(GetServiceProcessSharedMemName(),

221 true, alloc_size))	228 true, alloc_size))

222 return false;	229 return false;

223	230

224 if (!shared_mem_service_data->Map(alloc_size))	231 if (!shared_mem_service_data->Map(alloc_size))

225 return false;	232 return false;

226	233

227 memset(shared_mem_service_data->memory(), 0, alloc_size);	234 memset(shared_mem_service_data->memory(), 0, alloc_size);

228 ServiceProcessSharedData* shared_data =	235 ServiceProcessSharedData* shared_data =

229 reinterpret_cast<ServiceProcessSharedData*>(	236 reinterpret_cast<ServiceProcessSharedData*>(

230 shared_mem_service_data->memory());	237 shared_mem_service_data->memory());

231 memcpy(shared_data->service_process_version, version_info.Version().c_str(),	238 memcpy(shared_data->service_process_version, version_info.Version().c_str(),

232 version_info.Version().length());	239 version_info.Version().length());

233 shared_data->service_process_pid = base::GetCurrentProcId();	240 shared_data->service_process_pid = base::GetCurrentProcId();

234 shared_mem_service_data_.reset(shared_mem_service_data.release());	241 shared_mem_service_data_.reset(shared_mem_service_data.release());

235 return true;	242 return true;

236 }	243 }

237	244

238

239 std::string ServiceProcessState::GetAutoRunKey() {	245 std::string ServiceProcessState::GetAutoRunKey() {

240 return GetServiceProcessScopedName("_service_run");	246 return GetServiceProcessScopedName("_service_run");

241 }	247 }

	248

	249 void ServiceProcessState::SignalStopped() {

	250 TearDownState();

	251 shared_mem_service_data_.reset();

	252 }

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