2 * Copyright (c) 2019 Samsung Electronics Co., Ltd All Rights Reserved
4 * Licensed under the Apache License, Version 2.0 (the License);
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an AS IS BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
18 #include <json/json.h>
19 #include <pkgmgr-info.h>
20 #include <pkgmgr_installer_info.h>
24 #include "tac_common.h"
25 #include "db_manager.h"
26 #include "path_manager.h"
31 #define LOG_TAG "DOTNET_INSTALLER_PLUGIN"
34 #define __STR(x) __XSTR(x)
35 static const char* __TAC_DIR = __STR(TAC_DIR);
39 static sqlite3 *tac_db = NULL;
40 std::vector<std::string> restore_nuget;
42 static void cleanupDirectory()
44 std::vector<std::string> removeNuget;
46 for (auto& nuget : bf::recursive_directory_iterator(__TAC_DIR)) {
48 std::string nugetPath = nuget.path().string();
49 for (auto& restore : restore_nuget) {
50 if (!bf::is_directory(nugetPath)) {
53 if (!strcmp(nugetPath.c_str(), restore.c_str()) ||
54 !strcmp(nugetPath.c_str(), restore.substr(0, restore.rfind('/')).c_str())) {
60 removeNuget.push_back(nugetPath);
64 for (auto& rm : removeNuget) {
66 fprintf(stderr, "Failed to remove of %s\n", rm.c_str());
70 } catch (const bf::filesystem_error& error) {
71 fprintf(stderr, "Failed to recursive directory: %s\n", error.what());
76 // callback function of "pkgmgrinfo_appinfo_metadata_filter_foreach"
77 static int restoreDBCb(pkgmgrinfo_appinfo_h handle, void *userData)
85 int ret = pkgmgrinfo_appinfo_get_pkgid(handle, &pkgId);
86 if (ret != PMINFO_R_OK) {
87 fprintf(stderr, "Failed to get pkgid\n");
91 enableTACPackage(std::string(pkgId));
93 ret = pkgmgrinfo_appinfo_get_root_path(handle, &root);
94 if (ret != PMINFO_R_OK) {
95 fprintf(stderr, "Failed to get root path\n");
100 ret = pkgmgrinfo_appinfo_get_exec(handle, &exec);
101 if (ret != PMINFO_R_OK) {
102 fprintf(stderr, "Failed to get exec name\n");
105 execName = std::string(exec).substr(std::string(exec).rfind('/') + 1);
107 std::vector<std::string> parserData;
108 std::string binDir = concatPath(rootPath, "bin");
109 std::string tacDir = concatPath(binDir, TAC_SYMLINK_SUB_DIR);
110 for (auto& npAssembly : depsJsonParser(rootPath, execName, getTPA())) {
111 std::string nugetPackage = npAssembly.substr(0, npAssembly.rfind(':'));
112 std::string assemblyName = npAssembly.substr(npAssembly.rfind(':') + 1);
113 if (bf::exists(tacDir) && bf::exists(concatPath(tacDir, assemblyName))) {
114 parserData.push_back(nugetPackage);
117 std::sort(parserData.begin(), parserData.end());
118 parserData.erase(unique(parserData.begin(), parserData.end()), parserData.end());
120 for (auto& nuget : parserData) {
122 std::string name = nuget.substr(0, nuget.find('/'));
123 std::string version = nuget.substr(nuget.rfind('/') + 1);
124 char *sql = sqlite3_mprintf(
125 "INSERT INTO TAC (PKGID, NUGET, NAME, VERSION) " \
126 "VALUES (%Q, %Q, %Q, %Q);", pkgId, nuget.c_str(), name.c_str(), version.c_str());
127 dbInsert(tac_db, TAC_APP_LIST_RESTORE_DB, sql);
128 restore_nuget.push_back(concatPath(__TAC_DIR, nuget));
135 tac_error_e restoreTACDB()
137 if (!removeFile(TAC_APP_LIST_RESTORE_DB)) {
138 fprintf(stderr, "Failed to remove of %s\n", TAC_APP_LIST_RESTORE_DB);
139 return TAC_ERROR_UNKNOWN;
142 std::string dbRestoreJournal = TAC_APP_LIST_RESTORE_DB + std::string("-journal");
143 if (!removeFile(dbRestoreJournal)) {
144 fprintf(stderr, "Failed to remove of %s\n", dbRestoreJournal.c_str());
145 return TAC_ERROR_UNKNOWN;
148 if (initializePathManager(std::string(), std::string(), std::string())) {
149 fprintf(stderr, "Fail to initialize PathManger\n");
150 return TAC_ERROR_UNKNOWN;
153 tac_db = dbCreate(TAC_APP_LIST_RESTORE_DB);
155 fprintf(stderr, "Sqlite create error\n");
156 return TAC_ERROR_UNKNOWN;
159 pkgmgrinfo_appinfo_metadata_filter_h handle;
160 int ret = pkgmgrinfo_appinfo_metadata_filter_create(&handle);
161 if (ret != PMINFO_R_OK) {
162 return TAC_ERROR_UNKNOWN;
165 ret = pkgmgrinfo_appinfo_metadata_filter_add(handle, TAC_METADATA_KEY, METADATA_VALUE);
166 if (ret != PMINFO_R_OK) {
167 pkgmgrinfo_appinfo_metadata_filter_destroy(handle);
168 return TAC_ERROR_UNKNOWN;
171 ret = pkgmgrinfo_appinfo_metadata_filter_foreach(handle, restoreDBCb, NULL);
172 if (ret != PMINFO_R_OK) {
173 fprintf(stderr, "Failed pkgmgrinfo_appinfo_metadata_filter_foreach\n");
174 pkgmgrinfo_appinfo_metadata_filter_destroy(handle);
175 return TAC_ERROR_UNKNOWN;
177 fprintf(stderr, "Success pkgmgrinfo_appinfo_metadata_filter_foreach\n");
179 pkgmgrinfo_appinfo_metadata_filter_destroy(handle);
186 uid_t g_uid = 301; // app_fw
187 gid_t g_gid = 301; // app_fw
189 if (!copyFile(TAC_APP_LIST_RESTORE_DB, TAC_APP_LIST_DB)) {
190 fprintf(stderr, "Failed to copy of %s\n", TAC_APP_LIST_DB);
191 return TAC_ERROR_UNKNOWN;
193 if (!removeFile(TAC_APP_LIST_RESTORE_DB)) {
194 fprintf(stderr, "Failed to remove of %s\n", TAC_APP_LIST_RESTORE_DB);
195 return TAC_ERROR_UNKNOWN;
197 if (chown(TAC_APP_LIST_DB, g_uid, g_gid) == -1) {
198 fprintf(stderr, "Failed to change owner and group name\n");
201 std::string dbJournal = TAC_APP_LIST_DB + std::string("-journal");
202 if (!copyFile(dbRestoreJournal, dbJournal)) {
203 fprintf(stderr, "Failed to copy of %s\n", dbJournal.c_str());
204 return TAC_ERROR_UNKNOWN;
206 if (!removeFile(dbRestoreJournal)) {
207 fprintf(stderr, "Failed to remove of %s\n", dbRestoreJournal.c_str());
208 return TAC_ERROR_UNKNOWN;
210 if (chown(dbJournal.c_str(), g_uid, g_gid) == -1) {
211 fprintf(stderr, "Failed to change owner and group name\n");
216 return TAC_ERROR_NONE;
219 tac_error_e resetTACPackage(const std::string& pkgId)
222 if (getRootPath(pkgId, pkgRoot) < 0) {
223 return TAC_ERROR_INVALID_PACKAGE;
226 std::vector<std::string> tacNativeImage;
227 std::string binDir = concatPath(pkgRoot, "bin");
228 std::string tacDir = concatPath(binDir, TAC_SYMLINK_SUB_DIR);
229 if (bf::exists(tacDir)) {
231 for (auto& symlinkAssembly : bf::recursive_directory_iterator(tacDir)) {
232 std::string symPath = symlinkAssembly.path().string();
233 if (bf::is_symlink(symPath)) {
234 if (isNativeImage(symPath)) {
235 tacNativeImage.push_back(symPath);
239 for (auto& path : tacNativeImage) {
240 if (!removeFile(path)) {
241 fprintf(stderr, "Failed to remove of %s\n", path.c_str());
242 return TAC_ERROR_UNKNOWN;
245 tacNativeImage.clear();
246 } catch (const bf::filesystem_error& error) {
247 fprintf(stderr, "Failed to recursive directory: %s\n", error.what());
248 return TAC_ERROR_UNKNOWN;
251 return TAC_ERROR_NONE;
254 tac_error_e disableTACPackage(const std::string& pkgId)
257 if (getRootPath(pkgId, pkgRoot) < 0) {
258 return TAC_ERROR_INVALID_PACKAGE;
261 std::string binDir = concatPath(pkgRoot, "bin");
262 std::string tacDir = concatPath(binDir, TAC_SYMLINK_SUB_DIR);
263 std::string binNIDir = concatPath(binDir, APP_NI_SUB_DIR);
264 if (bf::exists(tacDir)) {
266 for (auto& symlinkAssembly : bf::recursive_directory_iterator(tacDir)) {
267 std::string symPath = symlinkAssembly.path().string();
268 std::string fileName = symlinkAssembly.path().filename().string();
269 if (bf::is_symlink(symPath)) {
270 std::string originPath = bf::read_symlink(symPath).string();
271 if (!isNativeImage(symPath)) {
272 std::string dllPath = concatPath(binDir, fileName);
273 if (!copyFile(originPath, dllPath)) {
274 fprintf(stderr, "Failed to copy of %s\n", dllPath.c_str());
275 return TAC_ERROR_UNKNOWN;
277 updateAssemblyInfo(binDir.c_str(), concatPath(binDir, fileName).c_str());
279 std::string niPath = concatPath(binNIDir, fileName);
280 if (!copyFile(originPath, niPath)) {
281 fprintf(stderr, "Failed to copy of %s\n", niPath.c_str());
282 return TAC_ERROR_UNKNOWN;
284 updateAssemblyInfo(binDir.c_str(), niPath.c_str());
288 if (!removeAll(tacDir)) {
289 fprintf(stderr, "Failed to remove of %s\n", tacDir.c_str());
290 return TAC_ERROR_UNKNOWN;
292 } catch (const bf::filesystem_error& error) {
293 fprintf(stderr, "Failed to recursive directory: %s\n", error.what());
294 return TAC_ERROR_UNKNOWN;
297 return TAC_ERROR_NONE;
300 tac_error_e enableTACPackage(const std::string& pkgId)
302 std::string rootPath;
303 if (getRootPath(pkgId, rootPath) < 0) {
304 return TAC_ERROR_INVALID_PACKAGE;
307 std::string execName;
308 if (getExecName(pkgId, execName) < 0) {
309 return TAC_ERROR_INVALID_PACKAGE;
312 std::string metaValue;
313 if (getMetadataValue(pkgId, TAC_METADATA_KEY, metaValue) < 0) {
314 return TAC_ERROR_INVALID_PACKAGE;
317 if (initializePathManager(std::string(), std::string(), std::string())) {
318 fprintf(stderr, "Fail to initialize PathManger\n");
319 return TAC_ERROR_UNKNOWN;
322 if (!strcmp(metaValue.c_str(), "true")) {
323 std::string binDir = concatPath(rootPath, "bin");
324 std::string tacDir = concatPath(binDir, TAC_SYMLINK_SUB_DIR);
325 std::string binNIDir = concatPath(binDir, APP_NI_SUB_DIR);
326 if (!bf::exists(tacDir)) {
327 if (!createDir(tacDir)) {
328 fprintf(stderr, "Cannot create directory: %s\n", tacDir.c_str());
329 return TAC_ERROR_UNKNOWN;
331 updateAssemblyInfo(binDir.c_str(), tacDir.c_str());
333 std::vector<std::string> enableNuget;
334 for (auto& npAssembly : depsJsonParser(rootPath, execName, getTPA())) {
335 std::string nugetPackage = npAssembly.substr(0, npAssembly.rfind(':'));
336 std::string assemblyName = npAssembly.substr(npAssembly.rfind(':') + 1);
337 std::string nugetPath = concatPath(__TAC_DIR, nugetPackage);
338 if (bf::exists(nugetPath)) {
339 std::string originPath = concatPath(nugetPath, assemblyName);
340 if (bf::exists(originPath)) {
341 enableNuget.push_back(originPath);
346 for (auto& originPath : enableNuget) {
347 if (bf::exists(originPath)) {
348 std::string fileName = originPath.substr(originPath.rfind('/') + 1);
349 std::string NIFileName = fileName.substr(0, fileName.rfind(".dll")) + ".ni.dll";
350 if (bf::exists(binNIDir)) {
351 std::string originNIPath = originPath.substr(0, originPath.rfind(".dll")) + ".ni.dll";
352 if (bf::exists(originNIPath)) {
353 bf::create_symlink(originNIPath, concatPath(tacDir, NIFileName));
354 fprintf(stderr, "%s symbolic link file generated successfully.\n", concatPath(tacDir, NIFileName).c_str());
355 updateAssemblyInfo(tacDir.c_str(), concatPath(tacDir, NIFileName).c_str(), true);
357 if (!removeFile(concatPath(binNIDir, NIFileName))) {
358 fprintf(stderr, "Failed to remove of %s\n", concatPath(binNIDir, NIFileName).c_str());
359 return TAC_ERROR_UNKNOWN;
363 bf::create_symlink(originPath, concatPath(tacDir, fileName));
364 fprintf(stderr, "%s symbolic link file generated successfully.\n", concatPath(tacDir, fileName).c_str());
365 updateAssemblyInfo(tacDir.c_str(), concatPath(tacDir, fileName).c_str(), true);
367 if (!removeFile(concatPath(binDir, fileName))) {
368 fprintf(stderr, "Failed to remove of %s\n", concatPath(binDir, fileName).c_str());
369 return TAC_ERROR_UNKNOWN;
373 if (enableNuget.empty()) {
374 if (!removeAll(tacDir)) {
375 fprintf(stderr, "Failed to remove of %s\n", tacDir.c_str());
381 fprintf(stderr, "The metadata key is missing or the metadata value is false of [%s]\n", pkgId.c_str());
383 return TAC_ERROR_NONE;
386 //Parser the .deps.json file to get nuget information.
387 std::vector<std::string> depsJsonParser(std::string rootPath, std::string execName, std::string tpaList)
389 std::vector<std::string> tpaAssemblies;
390 splitPath(tpaList, tpaAssemblies);
392 std::vector<std::string> parserData;
393 std::string depsJsonName = execName.substr(0, execName.rfind(".dll")) + ".deps.json";
394 std::string depsJsonPath = concatPath(rootPath, depsJsonName);
396 if (bf::exists(depsJsonPath)) {
397 std::ifstream ifs(depsJsonPath);
398 Json::CharReaderBuilder reader;
402 if (!Json::parseFromStream(reader, ifs, &root, &error)) {
403 _ERR("Failed to parse of deps.json");
405 tpaAssemblies.clear();
408 const Json::Value runtimeTargetName = root["runtimeTarget"]["name"];
409 const Json::Value nugetPackages = root["targets"][runtimeTargetName.asString().c_str()];
410 std::vector<std::string> appDependencies;
411 for (auto& nuget : nugetPackages.getMemberNames()) {
412 if (strstr(nuget.c_str(), (execName.substr(0, execName.find(".Tizen."))).c_str()) != NULL ||
413 strstr(nuget.c_str(), (execName.substr(0, execName.find(".dll"))).c_str()) != NULL) {
414 const Json::Value assemblies = nugetPackages[nuget.c_str()]["runtime"];
415 if (assemblies != Json::nullValue) {
416 const Json::Value dependencies = nugetPackages[nuget.c_str()]["dependencies"];
417 for (auto& dependency : dependencies.getMemberNames()) {
418 appDependencies.push_back(dependency);
423 for (auto& nuget : nugetPackages.getMemberNames()) {
424 //Skip the nuget package related to Tizen
425 if (strstr(nuget.c_str(), TIZEN_DOTNET_NUGET) == NULL &&
426 strstr(nuget.c_str(), TIZEN_DOTNET_SDK_NUGET) == NULL &&
427 strstr(nuget.c_str(), (execName.substr(0, execName.find(".Tizen."))).c_str()) == NULL &&
428 strstr(nuget.c_str(), (execName.substr(0, execName.find(".dll"))).c_str()) == NULL) {
429 const Json::Value assemblies = nugetPackages[nuget.c_str()]["runtime"];
430 if (assemblies != Json::nullValue) {
431 const Json::Value dependencies = nugetPackages[nuget.c_str()]["dependencies"];
432 bool hasDependency = false;
433 for (auto& dependency : dependencies.getMemberNames()) {
434 //Skip the nugget package that is dependent on another nuget package
435 if (strstr(dependency.c_str(), TIZEN_DOTNET_NUGET) == NULL &&
436 strstr(dependency.c_str(), NET_STANDARD_LIBRARY_NUGET) == NULL) {
437 hasDependency = true;
438 for (auto& ad : appDependencies) {
439 if (!strcmp(ad.c_str(), dependency.c_str())) {
440 hasDependency = true;
443 hasDependency = false;
446 if (hasDependency) break;
449 if (!hasDependency) {
450 bool isExistTpaAssembly = false;
451 for (auto& assembly : assemblies.getMemberNames()) {
452 std::string assemblyName = assembly.substr(assembly.rfind('/') + 1);
453 //Skip the assembly present in the TPA list
454 for (auto& tpa : tpaAssemblies) {
455 if (!strcmp(replaceAll(tpa, ".ni.dll", ".dll").c_str(), assembly.c_str())) {
456 isExistTpaAssembly = true;
460 if (isExistTpaAssembly) break;
462 if (!isExistTpaAssembly) {
463 for (auto& assembly : assemblies.getMemberNames()) {
464 std::string assemblyName = assembly.substr(assembly.rfind('/') + 1);
465 parserData.push_back(nuget + ":" + assemblyName);
466 _INFO("Nuget : [%s] / Assembly : [%s]", nuget.c_str(), assemblyName.c_str());
473 appDependencies.clear();
477 } catch (const Json::LogicError& error) {
478 _ERR("Failed to parse Json: %s", error.what());
480 tpaAssemblies.clear();