#include "log.h"
#include "utils.h"
#include "db_manager.h"
-#include "path_manager.h"
-#include "plugin_manager.h"
#include "tac_common.h"
#include <cstring>
#include <fstream>
+#include <regex>
#include <sstream>
#include <vector>
#include <boost/filesystem.hpp>
#include <glib.h>
#include <json/json.h>
#include <pkgmgr-info.h>
-#include <pkgmgr_installer_info.h>
-#include <openssl/sha.h>
#ifdef LOG_TAG
#undef LOG_TAG
#define __XSTR(x) #x
#define __STR(x) __XSTR(x)
-static const char* __TAC_DIR = __STR(TAC_DIR);
+static const char* __DOTNET_DIR = __STR(DOTNET_DIR);
#undef __STR
#undef __XSTR
-typedef struct Metadata {
- const char *key;
- const char *value;
-} Metadata;
-
std::vector<std::string> nugetPackagesAssembliesSha;
std::vector<std::string> tacDB;
std::vector<std::string> createDirectories;
+std::vector<std::string> createLibraries;
std::vector<std::string> updateTac;
std::string status = "";
-std::string rootPath;
-std::string execName;
-std::string binPath;
static sqlite3 *tac_db = NULL;
+static sqlite3 *tlc_db = NULL;
+bool tacPluginInstalled = false;
+bool tacPluginFinished = false;
-bool metadataCheck(GList *list)
-{
- GList *tag = NULL;
- Metadata *mdInfo = NULL;
- tag = g_list_first(list);
- mdInfo = (Metadata*)tag->data;
- if (strcmp(mdInfo->key, TAC_METADATA_KEY) == 0 && strcmp(mdInfo->value, METADATA_VALUE) == 0) {
- _DBG("Prefer nuget cache set TRUE");
- if (initializePluginManager("normal")) {
- _ERR("Fail to initialize PluginManager");
- return false;
- }
- if (initializePathManager(std::string(), std::string(), std::string())) {
- _ERR("Fail to initialize PathManger");
- return false;
- }
- return true;
- }
- return false;
-}
-
-bool appTypeCheck(std::string pkgId)
-{
- uid_t uid = 0;
- if (pkgmgr_installer_info_get_target_uid(&uid) < 0) {
- _ERR("Failed to get UID");
- return false;
- }
-
- pkgmgrinfo_pkginfo_h handle;
- int ret = pkgmgrinfo_pkginfo_get_usr_pkginfo(pkgId.c_str(), uid, &handle);
- if (ret != PMINFO_R_OK) {
- _ERR("Failed to get pkg info");
- return false;
- }
-
- bool isDotnetAppType = false;
- auto dotnetAppCounter = [] (pkgmgrinfo_appinfo_h handle, void *userData) -> int {
- char* type = nullptr;
- bool* dotnet = static_cast<bool*>(userData);
- if (pkgmgrinfo_appinfo_get_apptype(handle, &type) != PMINFO_R_OK) {
- _ERR("Failed to get app type : %s", type);
- return -1;
- }
- if (strcmp(type, "dotnet") == 0) {
- *dotnet = true;
- }
- return 0;
- };
-
- if (pkgmgrinfo_appinfo_get_usr_list(handle, PMINFO_ALL_APP, dotnetAppCounter, &isDotnetAppType, uid) != PMINFO_R_OK) {
- _ERR("Failed to get list of app in pkg : %s", pkgId.c_str());
- pkgmgrinfo_pkginfo_destroy_pkginfo(handle);
- return false;
- }
-
- pkgmgrinfo_pkginfo_destroy_pkginfo(handle);
- return isDotnetAppType;
-}
-
-void SHA256(std::string path, char outputBuffer[65])
-{
- FILE *file = fopen(path.c_str(), "rb");
- if (!file) {
- return;
- }
-
- unsigned char hash[SHA256_DIGEST_LENGTH];
- SHA256_CTX sha256;
- SHA256_Init(&sha256);
- int bytesRead = 0;
- const int bufSize = 32768;
- char *buffer = (char*)malloc(bufSize);
- if (!buffer) {
- fclose(file);
- return;
- }
-
- while ((bytesRead = fread(buffer, 1, bufSize, file))) {
- SHA256_Update(&sha256, buffer, bytesRead);
- }
- SHA256_Final(hash, &sha256);
- for (int i = 0; i < SHA256_DIGEST_LENGTH; i++) {
- snprintf(outputBuffer + (i * 2), 3, "%02x", hash[i]);
- }
- outputBuffer[64] = 0;
-
- fclose(file);
- free(buffer);
-}
-
-void createSHA256Info(std::string sha256_info, std::string np)
+static void createSHA256Info(std::string sha256Info, std::string nugetPackage)
{
- std::ofstream ofs(sha256_info, std::ios::app);
+ std::ofstream ofs(sha256Info, std::ios::app);
int assembly_count = 0;
for (auto& npAssemblySha : nugetPackagesAssembliesSha) {
std::string nuget_package_assembly = npAssemblySha.substr(0, npAssemblySha.rfind(':'));
std::string nuget_package = nuget_package_assembly.substr(0, nuget_package_assembly.rfind(':'));
std::string assembly = nuget_package_assembly.substr(nuget_package_assembly.rfind(':') + 1);
std::string sha = npAssemblySha.substr(npAssemblySha.rfind(':') + 1);
- if (!strcmp(nuget_package.c_str(), np.c_str())) {
+ if (!strcmp(nuget_package.c_str(), nugetPackage.c_str())) {
ofs << assembly << ":" << sha << std::endl;
assembly_count++;
}
ofs.close();
}
-int compareSHA256Info(std::string sha256_info, std::string np)
+static bool compareSHA256Info(std::string sha256Info, std::string nugetPackage)
{
int compare_count = 0;
int assembly_count = 0;
std::string nuget_package = nuget_package_assembly.substr(0, nuget_package_assembly.rfind(':'));
std::string assembly = nuget_package_assembly.substr(nuget_package_assembly.rfind(':') + 1);
std::string sha = npAssemblySha.substr(npAssemblySha.rfind(':') + 1);
- if (!strcmp(nuget_package.c_str(), np.c_str())) {
+ if (!strcmp(nuget_package.c_str(), nugetPackage.c_str())) {
assembly_count++;
- std::ifstream ifs(sha256_info);
+ std::ifstream ifs(sha256Info);
std::string get_str;
if (ifs.is_open()) {
while (getline(ifs, get_str)) {
}
if (!strcmp(std::to_string(assembly_count).c_str(), std::to_string(compare_count).c_str()) &&
!strcmp(std::to_string(assembly_count).c_str(), sha256_count.c_str())) {
- _INFO("Same nuget : %s", np.c_str());
- return 1;
+ _INFO("Same nuget : %s", nugetPackage.c_str());
+ return true;
}
- return 0;
+ return false;
}
-int copyNCreateSymlink(std::string tac_version_dir, std::string np, bool is_create_tac_dir)
+static bool copyAssemblyCreateSymlink(std::string binPath, std::string tacDir, std::string nugetPackage, bool isCreateTacDir)
{
- uid_t g_uid = 0;
- gid_t g_gid = 0;
- if (pkgmgr_installer_info_get_target_uid(&g_uid) < 0) {
- _ERR("Failed to get UID");
- return -1;
- }
-
- std::string tac_dir = concatPath(binPath, TAC_SYMLINK_SUB_DIR);
- if (!createDir(tac_dir)) {
- _ERR("Cannot create directory: %s", tac_dir.c_str());
- return -1;
- }
-
+ std::string tac_version_dir = concatPath(__DOTNET_DIR, nugetPackage);
+ bool nuget_restoration = false;
for (auto& npAssemblySha : nugetPackagesAssembliesSha) {
std::string nuget_package_assembly = npAssemblySha.substr(0, npAssemblySha.rfind(':'));
std::string nuget_package = nuget_package_assembly.substr(0, nuget_package_assembly.rfind(':'));
std::string assembly = nuget_package_assembly.substr(nuget_package_assembly.rfind(':') + 1);
- if (!strcmp(nuget_package.c_str(), np.c_str())) {
- if (bf::exists(concatPath(binPath, assembly))) {
- if (is_create_tac_dir) {
+ if (!strcmp(nuget_package.c_str(), nugetPackage.c_str())) {
+ if (exist(concatPath(binPath, assembly))) {
+ if (isCreateTacDir) {
if (!copyFile(concatPath(binPath, assembly), concatPath(tac_version_dir, assembly))) {
_ERR("Failed to copy of %s", assembly.c_str());
- return -1;
+ nuget_restoration = true;
+ break;
}
}
- bf::create_symlink(concatPath(tac_version_dir, assembly), concatPath(tac_dir, assembly));
- if (lchown(concatPath(tac_dir, assembly).c_str(), g_uid, g_gid)) {
- _ERR("Failed to change owner of: %s", concatPath(tac_dir, assembly).c_str());
- return -1;
- }
+ bf::create_symlink(concatPath(tac_version_dir, assembly), concatPath(tacDir, assembly));
+
if (!removeFile(concatPath(binPath, assembly))) {
_ERR("Failed to remove of %s", assembly.c_str());
- return -1;
+ nuget_restoration = true;
+ break;
}
}
}
}
- return 0;
+
+ if (nuget_restoration) {
+ for (auto& npAssemblySha : nugetPackagesAssembliesSha) {
+ std::string nuget_package_assembly = npAssemblySha.substr(0, npAssemblySha.rfind(':'));
+ std::string nuget_package = nuget_package_assembly.substr(0, nuget_package_assembly.rfind(':'));
+ std::string assembly = nuget_package_assembly.substr(nuget_package_assembly.rfind(':') + 1);
+ if (!strcmp(nuget_package.c_str(), nugetPackage.c_str())) {
+ copyFile(concatPath(tac_version_dir, assembly), concatPath(binPath, assembly));
+ removeFile(concatPath(tacDir, assembly));
+ }
+ }
+ }
+
+ return nuget_restoration;
+}
+
+static void copyLibraryCreateSymlink(const char* pkgId, std::vector<std::string> LibrariesInfo, std::string tlcDir)
+{
+ if (LibrariesInfo.empty()) {
+ _INFO("Not exist data for TLC in %s", pkgId);
+ return;
+ }
+
+ for (auto& librarySha : LibrariesInfo) {
+ std::string library = librarySha.substr(0, librarySha.find(':'));
+ std::string filename = library.substr(library.rfind('/') + 1);
+ std::string fileSha = filename + ".." + librarySha.substr(librarySha.find(':') + 1);
+ bool fileCopied = false;
+ if (!exist(concatPath(tlcDir, fileSha))) {
+ if (!copyFile(library, concatPath(tlcDir, fileSha))) {
+ _ERR("Failed to copy of %s", filename.c_str());
+ continue;
+ }
+ fileCopied = true;
+ createLibraries.push_back(concatPath(tlcDir, fileSha));
+ }
+ if (!removeFile(library)) {
+ _ERR("Failed to remove of %s", library.c_str());
+ if (fileCopied) {
+ removeFile(concatPath(tlcDir, fileSha));
+ }
+ continue;
+ }
+ bf::create_symlink(concatPath(tlcDir, fileSha), library);
+
+ char *sql = sqlite3_mprintf("INSERT INTO TLC (PKGID, LIBRARY) VALUES (%Q, %Q);", pkgId, fileSha.c_str());
+ if (!insertDB(tlc_db, sql)) {
+ _ERR("Sqlite insert error");
+ sqlite3_free(sql);
+ copyFile(concatPath(tlcDir, fileSha), library);
+ if (fileCopied) {
+ removeFile(concatPath(tlcDir, fileSha));
+ }
+ continue;
+ }
+ sqlite3_free(sql);
+ }
}
-void depsJsonCheck() {
- for (auto& npAssembly : depsJsonParser(rootPath, execName, getTPA())) {
- std::string nugetPackage = npAssembly.substr(0, npAssembly.rfind(':'));
- std::string assemblyName = npAssembly.substr(npAssembly.rfind(':') + 1);
- tacDB.push_back(nugetPackage);
- char buffer[65] = {0};
- SHA256(concatPath(binPath, assemblyName), buffer);
- nugetPackagesAssembliesSha.push_back(nugetPackage + ":" + assemblyName + ":" + buffer);
- _INFO("Assembly : [%s] / SHA256 : [%s]", assemblyName.c_str(), buffer);
+static void checkDepsJson(std::string rootPath, std::string binPath, std::string execName)
+{
+ for (auto& npAssembly : depsJsonParser(rootPath, execName)) {
+ std::string nuget_package = npAssembly.substr(0, npAssembly.rfind(':'));
+ std::string assembly_name = npAssembly.substr(npAssembly.rfind(':') + 1);
+ tacDB.push_back(nuget_package);
+ std::string buffer = SHA256(concatPath(binPath, assembly_name));
+ nugetPackagesAssembliesSha.push_back(nuget_package + ":" + assembly_name + ":" + buffer);
+ _INFO("Assembly : [%s] / SHA256 : [%s]", assembly_name.c_str(), buffer.c_str());
}
std::sort(tacDB.begin(), tacDB.end());
tacDB.erase(unique(tacDB.begin(), tacDB.end()), tacDB.end());
_DBG("[===== PKGMGR_MDPARSER_PLUGIN_INSTALL =====]");
_INFO("PackageID : %s", pkgId);
- if (!appTypeCheck(std::string(pkgId))) {
- _INFO("App type is not dotnet");
+ // Can be multiple apps in one package
+ if (tacPluginInstalled) {
+ _INFO("TAC plugin already installed");
+ return 0;
+ }
+ tacPluginInstalled = true;
+
+ std::string appType = getAppType(std::string(pkgId));
+ if (strstr(appType.c_str(), "dotnet") == NULL) {
+ _ERR("App type is not dotnet");
return 0;
}
- if (getExecName(std::string(pkgId), execName) < 0) {
+ std::string execName = getExecName(std::string(pkgId));
+ std::string rootPath = getRootPath(std::string(pkgId));
+ if (execName.empty() || rootPath.empty()) {
return 0;
}
- if (getRootPath(std::string(pkgId), rootPath) < 0) {
+ std::string binPath = concatPath(rootPath, "bin");
+ std::string metaValue = getMetadataValue(std::string(pkgId), TAC_METADATA_KEY);
+ if (metaValue.empty()) {
return 0;
- } else {
- binPath = concatPath(rootPath, "bin");
}
- if (metadataCheck(list)) {
- depsJsonCheck();
+ if (metaValue == METADATA_VALUE) {
+ checkDepsJson(rootPath, binPath, execName);
}
status = "install";
- tac_db = dbCreate(TAC_APP_LIST_DB);
- if (!tac_db) {
- _ERR("Sqlite create error");
+ if (tacDB.empty()) {
+ _INFO("Not exist data for TAC in %s", pkgId);
return 0;
}
- if (tacDB.empty()) {
- _INFO("Not exist .deps.json file");
+ tac_db = createDB(TAC_APP_LIST_DB, CREATE_TAC_DB_TABLE);
+ if (!tac_db) {
+ _ERR("Sqlite create error. So restore the database.");
+ if (tac_restoreDB() != TAC_ERROR_NONE) {
+ _ERR("Sqlite create error");
+ return -1;
+ }
+ tac_db = createDB(TAC_APP_LIST_DB, CREATE_TAC_DB_TABLE);
+ if (!tac_db) {
+ _ERR("Sqlite create error");
+ return -1;
+ }
+ }
+ sqlite3_exec(tac_db, "BEGIN;", NULL, NULL, NULL);
+
+ std::string tac_dir = concatPath(binPath, TAC_SYMLINK_SUB_DIR);
+ if (!createDir(tac_dir)) {
+ _ERR("Cannot create directory: %s", tac_dir.c_str());
return 0;
}
+ copySmackAndOwnership(binPath.c_str(), tac_dir.c_str());
for (auto& np : tacDB) {
std::string tac_name = np.substr(0, np.find('/'));
_INFO("TAC name : %s", tac_name.c_str());
_INFO("TAC version : %s", tac_version.c_str());
- std::string tac_version_dir = concatPath(__TAC_DIR, np);
+ std::string tac_version_dir = concatPath(__DOTNET_DIR, np);
std::string sha256_info = concatPath(tac_version_dir, TAC_SHA_256_INFO);
- if (!bf::exists(tac_version_dir)) {
+ if (!exist(tac_version_dir)) {
_INFO("Create tac_version_dir [%s]", tac_version_dir.c_str());
if (!createDir(tac_version_dir)) {
_ERR("Cannot create directory: %s", tac_version_dir.c_str());
- return 0;
+ status = "restore";
+ return -1;
}
createDirectories.push_back(tac_version_dir);
if (!bf::is_symlink(sha256_info)) {
createSHA256Info(sha256_info, np);
} else {
_ERR("Failed to create sha256_info. Symbolic link is detected");
+ status = "restore";
return -1;
}
- if (copyNCreateSymlink(tac_version_dir, np, true) < 0) {
+ if (!exist(sha256_info)) {
+ status = "restore";
+ return -1;
+ }
+
+ if (copyAssemblyCreateSymlink(binPath, tac_dir, np, true)) {
_ERR("Failed to create symlink");
+ status = "restore";
return -1;
}
char *sql = sqlite3_mprintf(
"INSERT INTO TAC (PKGID, NUGET, NAME, VERSION) " \
"VALUES (%Q, %Q, %Q, %Q);", pkgId, np.c_str(), tac_name.c_str(), tac_version.c_str());
- dbInsert(tac_db, TAC_APP_LIST_DB, sql);
+ if (!insertDB(tac_db, sql)) {
+ _ERR("Sqlite insert error");
+ sqlite3_free(sql);
+ status = "restore";
+ return -1;
+ }
sqlite3_free(sql);
} else {
_INFO("Exists tac_version_dir [%s]", tac_version_dir.c_str());
if (!bf::is_symlink(sha256_info)) {
if (compareSHA256Info(sha256_info, np)) {
- if (copyNCreateSymlink(tac_version_dir, np, false) < 0) {
+ if (copyAssemblyCreateSymlink(binPath, tac_dir, np, false)) {
_ERR("Failed to create symlink");
+ status = "restore";
return -1;
}
char *sql = sqlite3_mprintf(
"INSERT INTO TAC (PKGID, NUGET, NAME, VERSION) " \
"VALUES (%Q, %Q, %Q, %Q);", pkgId, np.c_str(), tac_name.c_str(), tac_version.c_str());
- dbInsert(tac_db, TAC_APP_LIST_DB, sql);
+ if (!insertDB(tac_db, sql)) {
+ _ERR("Sqlite insert error");
+ sqlite3_free(sql);
+ status = "restore";
+ return -1;
+ }
sqlite3_free(sql);
} else {
_INFO("Different nuget : %s", np.c_str());
+ continue;
}
} else {
_ERR("Failed to create sha256_info. Symbolic link is detected");
+ status = "restore";
return -1;
}
}
- if (!bf::exists(sha256_info)) {
- if(!removeAll(tac_version_dir)) {
- _ERR("Failed to remove of %s", tac_version_dir.c_str());
- }
+ }
+
+ ///// TLC /////
+ std::string tlcDir = concatPath(__DOTNET_DIR, TLC_LIBRARIES_DIR);
+ if (!createDir(tlcDir)) {
+ _ERR("Cannot create directory: %s", tlcDir.c_str());
+ return 0;
+ }
+
+ tlc_db = createDB(TLC_APP_LIST_DB, CREATE_TLC_DB_TABLE);
+ if (!tlc_db) {
+ _ERR("Sqlite create error. So restore the database.");
+ if (tlc_restoreDB() != TAC_ERROR_NONE) {
+ _ERR("Sqlite create error");
+ return 0;
+ }
+ tlc_db = createDB(TLC_APP_LIST_DB, CREATE_TLC_DB_TABLE);
+ if (!tlc_db) {
+ _ERR("Sqlite create error");
+ return 0;
}
}
+ sqlite3_exec(tlc_db, "BEGIN;", NULL, NULL, NULL);
+
+ copyLibraryCreateSymlink(pkgId, getLibrariesInfo(rootPath), tlcDir);
+
return 0;
}
-static int sqliteCb(void *count, int argc, char **argv, char **colName) {
+static int sqliteCb(void *count, int argc, char **argv, char **colName)
+{
int *c = (int*)count;
*c = atoi(argv[0]);
return 0;
}
-int updateTacDB(sqlite3 *sqlite)
+static void tac_updateDB(sqlite3 *sqlite)
{
for (auto& unp : updateTac) {
int count = -1;
if (ret != SQLITE_OK) {
_ERR("Sqlite select error");
sqlite3_free(sql);
- return -1;
+ continue;
}
if (count == 0) {
- std::string tac_version_dir_prev = concatPath(__TAC_DIR, unp);
+ std::string tac_version_dir_prev = concatPath(__DOTNET_DIR, unp);
std::string tac_version_dir_backup = tac_version_dir_prev + ".bck";
if (!copyDir(tac_version_dir_prev, tac_version_dir_backup)) {
_ERR("Failed to copy of %s to %s", tac_version_dir_prev.c_str(), tac_version_dir_backup.c_str());
sqlite3_free(sql);
- return -1;
+ continue;
}
if (!removeAll(tac_version_dir_prev)) {
_ERR("Failed to remove of %s", tac_version_dir_prev.c_str());
sqlite3_free(sql);
- return -1;
+ continue;
+ }
+ }
+ sqlite3_free(sql);
+ }
+}
+
+static void tlc_updateDB(sqlite3 *sqlite, std::vector<std::string> updateTlc, std::string tlcDir)
+{
+ for (auto& ulp : updateTlc) {
+ int count = -1;
+ char *sql = sqlite3_mprintf("SELECT COUNT(LIBRARY) FROM TLC WHERE LIBRARY = %Q;", ulp.c_str());
+ int ret = sqlite3_exec(sqlite, sql, sqliteCb, &count, NULL);
+ if (ret != SQLITE_OK) {
+ _ERR("Sqlite select error");
+ sqlite3_free(sql);
+ continue;
+ }
+ if (count == 0) {
+ std::string library_prev = concatPath(tlcDir, ulp);
+ std::string library_backup = library_prev + ".bck";
+ if (!copyFile(library_prev, library_backup)) {
+ _ERR("Failed to copy of %s", library_prev.c_str());
+ sqlite3_free(sql);
+ continue;
+ }
+ if (!removeFile(library_prev)) {
+ _ERR("Failed to remove of %s", library_prev.c_str());
+ sqlite3_free(sql);
+ continue;
}
}
sqlite3_free(sql);
}
- return 0;
}
extern "C" int PKGMGR_MDPARSER_PLUGIN_UPGRADE(const char *pkgId, const char *appId, GList *list)
_DBG("[===== PKGMGR_MDPARSER_PLUGIN_UPGRADE =====]");
_INFO("PackageID : %s", pkgId);
- if (!appTypeCheck(std::string(pkgId))) {
- _INFO("App type is not dotnet");
+ // Can be multiple apps in one package
+ if (tacPluginInstalled) {
+ _INFO("TAC plugin already upgraded");
return 0;
}
- if (getExecName(std::string(pkgId), execName) < 0) {
+ tacPluginInstalled = true;
+
+ std::string appType = getAppType(std::string(pkgId));
+ if (strstr(appType.c_str(), "dotnet") == NULL) {
+ _ERR("App type is not dotnet");
return 0;
}
- if (getRootPath(std::string(pkgId), rootPath) < 0) {
+ std::string execName = getExecName(std::string(pkgId));
+ std::string rootPath = getRootPath(std::string(pkgId));
+ if (execName.empty() || rootPath.empty()) {
return 0;
- } else {
- binPath = concatPath(rootPath, "bin");
}
+ std::string binPath = concatPath(rootPath, "bin");
+
if (!strcmp("removed", status.c_str())) {
_INFO("Skipped to parse of deps.json");
} else {
- if (metadataCheck(list)) {
- depsJsonCheck();
+ std::string metaValue = getMetadataValue(std::string(pkgId), TAC_METADATA_KEY);
+ if (metaValue.empty()) {
+ return 0;
+ }
+ if (metaValue == METADATA_VALUE) {
+ checkDepsJson(rootPath, binPath, execName);
}
}
status = "update";
- tac_db = dbCreate(TAC_APP_LIST_DB);
+ tac_db = createDB(TAC_APP_LIST_DB, CREATE_TAC_DB_TABLE);
if (!tac_db) {
- _ERR("Sqlite open error");
- return 0;
+ _ERR("Sqlite create error. So restore the database.");
+ if (tac_restoreDB() != TAC_ERROR_NONE) {
+ _ERR("Sqlite create error");
+ return -1;
+ }
+ tac_db = createDB(TAC_APP_LIST_DB, CREATE_TAC_DB_TABLE);
+ if (!tac_db) {
+ _ERR("Sqlite create error");
+ return -1;
+ }
}
+ sqlite3_exec(tac_db, "BEGIN;", NULL, NULL, NULL);
char *sql = sqlite3_mprintf("SELECT * FROM TAC WHERE PKGID = %Q;", pkgId);
- updateTac = dbSelect(tac_db, TAC_APP_LIST_DB, sql);
+ updateTac = selectDB(tac_db, sql);
sqlite3_free(sql);
+ bool skipTLC = false;
if (tacDB.empty()) {
sql = sqlite3_mprintf("DELETE FROM TAC WHERE PKGID = %Q;", pkgId);
- dbDelete(tac_db, TAC_APP_LIST_DB, sql);
- sqlite3_free(sql);
- if (updateTacDB(tac_db) < 0) {
+ if (!deleteDB(tac_db, sql)) {
+ _ERR("Sqlite delete error");
+ sqlite3_free(sql);
return -1;
}
+ sqlite3_free(sql);
+
+ tac_updateDB(tac_db);
+
+ skipTLC = true;
+ _INFO("Not exist data for TAC in %s", pkgId);
} else {
+ std::string tac_dir = concatPath(binPath, TAC_SYMLINK_SUB_DIR);
+ if (!createDir(tac_dir)) {
+ _ERR("Cannot create directory: %s", tac_dir.c_str());
+ return 0;
+ }
+ copySmackAndOwnership(binPath.c_str(), tac_dir.c_str());
+
for (auto& np : tacDB) {
std::string tac_name = np.substr(0, np.find('/'));
std::string tac_version = np.substr(np.rfind('/') + 1);
_INFO("TAC name : %s", tac_name.c_str());
_INFO("TAC version : %s", tac_version.c_str());
- std::string tac_version_dir = concatPath(__TAC_DIR, np);
+ std::string tac_version_dir = concatPath(__DOTNET_DIR, np);
std::string sha256_info = concatPath(tac_version_dir, TAC_SHA_256_INFO);
- if (!bf::exists(tac_version_dir)) {
+ if (!exist(tac_version_dir)) {
_INFO("Create tac_version_dir [%s]", tac_version_dir.c_str());
if (!createDir(tac_version_dir)) {
_ERR("Cannot create directory: %s", tac_version_dir.c_str());
- return 0;
+ status = "restore";
+ return -1;
}
createDirectories.push_back(tac_version_dir);
if (!bf::is_symlink(sha256_info)) {
createSHA256Info(sha256_info, np);
} else {
_ERR("Failed to create sha256_info. Symbolic link is detected");
+ status = "restore";
+ return -1;
+ }
+
+ if (!exist(sha256_info)) {
+ status = "restore";
return -1;
}
- if (copyNCreateSymlink(tac_version_dir, np, true) < 0) {
+ if (copyAssemblyCreateSymlink(binPath, tac_dir, np, true)) {
_ERR("Failed to create symlink");
+ status = "restore";
return -1;
}
if (ret != SQLITE_OK) {
_ERR("Sqlite select error");
sqlite3_free(sql);
+ status = "restore";
return -1;
}
sqlite3_free(sql);
sql = sqlite3_mprintf(
"UPDATE TAC SET NAME = %Q, VERSION = %Q, NUGET = %Q WHERE PKGID = %Q AND NAME = %Q;",
tac_name.c_str(), tac_version.c_str(), np.c_str(), pkgId, tac_name.c_str());
- dbUpdate(tac_db, TAC_APP_LIST_DB, sql);
+ if (!updateDB(tac_db, sql)) {
+ _ERR("Sqlite update error");
+ sqlite3_free(sql);
+ status = "restore";
+ return -1;
+ }
sqlite3_free(sql);
} else if (count == 0) {
sql = sqlite3_mprintf(
"INSERT INTO TAC (PKGID, NUGET, NAME, VERSION) " \
"VALUES (%Q, %Q, %Q, %Q);", pkgId, np.c_str(), tac_name.c_str(), tac_version.c_str());
- dbInsert(tac_db, TAC_APP_LIST_DB, sql);
+ if (!insertDB(tac_db, sql)) {
+ _ERR("Sqlite insert error");
+ sqlite3_free(sql);
+ status = "restore";
+ return -1;
+ }
sqlite3_free(sql);
}
} else {
_INFO("Exists tac_version_dir [%s]", tac_version_dir.c_str());
if (!bf::is_symlink(sha256_info)) {
if (compareSHA256Info(sha256_info, np)) {
- if (copyNCreateSymlink(tac_version_dir, np, false) < 0) {
+ if (copyAssemblyCreateSymlink(binPath, tac_dir, np, false)) {
_ERR("Failed to create symlink");
+ status = "restore";
return -1;
}
if (ret != SQLITE_OK) {
_ERR("Sqlite select error");
sqlite3_free(sql);
+ status = "restore";
return -1;
}
sqlite3_free(sql);
sql = sqlite3_mprintf(
"UPDATE TAC SET NAME = %Q, VERSION = %Q, NUGET = %Q WHERE PKGID = %Q AND NAME = %Q;",
tac_name.c_str(), tac_version.c_str(), np.c_str(), pkgId, tac_name.c_str());
- dbUpdate(tac_db, TAC_APP_LIST_DB, sql);
+ if (!updateDB(tac_db, sql)) {
+ _ERR("Sqlite update error");
+ sqlite3_free(sql);
+ status = "restore";
+ return -1;
+ }
sqlite3_free(sql);
} else if (count == 0) {
sql = sqlite3_mprintf(
"INSERT INTO TAC (PKGID, NUGET, NAME, VERSION) " \
"VALUES (%Q, %Q, %Q, %Q);", pkgId, np.c_str(), tac_name.c_str(), tac_version.c_str());
- dbInsert(tac_db, TAC_APP_LIST_DB, sql);
+ if (!insertDB(tac_db, sql)) {
+ _ERR("Sqlite insert error");
+ sqlite3_free(sql);
+ status = "restore";
+ return -1;
+ }
sqlite3_free(sql);
}
} else {
_INFO("Different nuget : %s", np.c_str());
+ continue;
}
} else {
_ERR("Failed to create sha256_info. Symbolic link is detected");
+ status = "restore";
return -1;
}
}
- if (!bf::exists(sha256_info)) {
- if(!removeAll(tac_version_dir)) {
- _ERR("Failed to remove of %s", tac_version_dir.c_str());
- }
- }
}
for (auto& unp : updateTac) {
bool isExits = false;
}
if (!isExits) {
char *sql = sqlite3_mprintf("DELETE FROM TAC WHERE PKGID = %Q AND NUGET = %Q;", pkgId, unp.c_str());
- dbDelete(tac_db, TAC_APP_LIST_DB, sql);
+ if (!deleteDB(tac_db, sql)) {
+ _ERR("Sqlite delete error");
+ sqlite3_free(sql);
+ status = "restore";
+ return -1;
+ }
sqlite3_free(sql);
}
}
- if (updateTacDB(tac_db) < 0) {
- return -1;
+ tac_updateDB(tac_db);
+ }
+
+ ///// TLC /////
+ std::string tlcDir = concatPath(__DOTNET_DIR, TLC_LIBRARIES_DIR);
+ if (!createDir(tlcDir)) {
+ _ERR("Cannot create directory: %s", tlcDir.c_str());
+ return 0;
+ }
+
+ tlc_db = createDB(TLC_APP_LIST_DB, CREATE_TLC_DB_TABLE);
+ if (!tlc_db) {
+ _ERR("Sqlite create error. So restore the database.");
+ if (tlc_restoreDB() != TAC_ERROR_NONE) {
+ _ERR("Sqlite create error");
+ return 0;
+ }
+ tlc_db = createDB(TLC_APP_LIST_DB, CREATE_TLC_DB_TABLE);
+ if (!tlc_db) {
+ _ERR("Sqlite create error");
+ return 0;
}
}
+ sqlite3_exec(tlc_db, "BEGIN;", NULL, NULL, NULL);
+
+ sql = sqlite3_mprintf("SELECT * FROM TLC WHERE PKGID = %Q;", pkgId);
+ std::vector<std::string> updateTlc = selectDB(tlc_db, sql);
+ sqlite3_free(sql);
+
+ sql = sqlite3_mprintf("DELETE FROM TLC WHERE PKGID = %Q;", pkgId);
+ if (!deleteDB(tlc_db, sql)) {
+ _ERR("Sqlite delete error");
+ sqlite3_free(sql);
+ return 0;
+ }
+ sqlite3_free(sql);
+
+ std::vector<std::string> librariesInfo;
+ if (!skipTLC) {
+ librariesInfo = getLibrariesInfo(rootPath);
+ }
+
+ copyLibraryCreateSymlink(pkgId, librariesInfo, tlcDir);
+
+ tlc_updateDB(tlc_db, updateTlc, tlcDir);
+
return 0;
}
_DBG("[===== PKGMGR_MDPARSER_PLUGIN_UNINSTALL =====]");
_INFO("PackageID : %s", pkgId);
+ // Can be multiple apps in one package
+ if (tacPluginInstalled) {
+ _INFO("TAC plugin already uninstalled");
+ return 0;
+ }
+ tacPluginInstalled = true;
+
status = "uninstall";
- tac_db = dbOpen(TAC_APP_LIST_DB);
+ tac_db = openDB(TAC_APP_LIST_DB);
if (!tac_db) {
- _ERR("Sqlite open error");
- return 0;
+ _ERR("Sqlite open error. So restore the database.");
+ if (tac_restoreDB() != TAC_ERROR_NONE) {
+ _ERR("Sqlite open error");
+ return -1;
+ }
+ tac_db = openDB(TAC_APP_LIST_DB);
+ if (!tac_db) {
+ _ERR("Sqlite open error");
+ return -1;
+ }
}
+ sqlite3_exec(tac_db, "BEGIN;", NULL, NULL, NULL);
char *sql = sqlite3_mprintf("SELECT * FROM TAC WHERE PKGID = %Q;", pkgId);
- updateTac = dbSelect(tac_db, TAC_APP_LIST_DB, sql);
+ updateTac = selectDB(tac_db, sql);
sqlite3_free(sql);
sql = sqlite3_mprintf("DELETE FROM TAC WHERE PKGID = %Q;", pkgId);
- dbDelete(tac_db, TAC_APP_LIST_DB, sql);
- sqlite3_free(sql);
- if (updateTacDB(tac_db) < 0) {
+ if (!deleteDB(tac_db, sql)) {
+ _ERR("Sqlite delete error");
+ sqlite3_free(sql);
+ status = "restore";
return -1;
}
+ sqlite3_free(sql);
+
+ tac_updateDB(tac_db);
+
+ ///// TLC /////
+ tlc_db = openDB(TLC_APP_LIST_DB);
+ if (!tlc_db) {
+ _ERR("Sqlite open error. So restore the database.");
+ if (tlc_restoreDB() != TAC_ERROR_NONE) {
+ _ERR("Sqlite open error");
+ return 0;
+ }
+ tlc_db = openDB(TLC_APP_LIST_DB);
+ if (!tlc_db) {
+ _ERR("Sqlite open error");
+ return 0;
+ }
+ }
+ sqlite3_exec(tlc_db, "BEGIN;", NULL, NULL, NULL);
+
+ sql = sqlite3_mprintf("SELECT * FROM TLC WHERE PKGID = %Q;", pkgId);
+ std::vector<std::string> updateTlc = selectDB(tlc_db, sql);
+ sqlite3_free(sql);
+
+ sql = sqlite3_mprintf("DELETE FROM TLC WHERE PKGID = %Q;", pkgId);
+ if (!deleteDB(tlc_db, sql)) {
+ _ERR("Sqlite delete error");
+ sqlite3_free(sql);
+ return 0;
+ }
+ sqlite3_free(sql);
+
+ tlc_updateDB(tlc_db, updateTlc, concatPath(__DOTNET_DIR, TLC_LIBRARIES_DIR));
+
return 0;
}
return PKGMGR_MDPARSER_PLUGIN_UPGRADE(pkgId, appId, list);
}
-void cleanStep(std::string tac)
+void undoStep(std::string tac)
{
- std::string current_tac = concatPath(__TAC_DIR, tac.substr(0, tac.find('/')));
+ std::string current_tac = concatPath(__DOTNET_DIR, tac.substr(0, tac.find('/')));
try {
for (auto& bck : bf::recursive_directory_iterator(current_tac)) {
std::string bck_path = bck.path().string();
if (bf::is_directory(bck_path) && strstr(bck_path.c_str(), ".bck") != NULL) {
- if (!removeAll(bck_path)) {
- _ERR("Failed to remove of %s", bck_path.c_str());
+ if (!moveFile(bck_path, bck_path.substr(0, bck_path.rfind(".bck")))) {
+ _ERR("Failed to move %s", bck_path.c_str());
}
break;
}
}
-
- bool isExist = false;
- for (auto& bck : bf::recursive_directory_iterator(current_tac)) {
- std::string bck_path = bck.path().string();
- if (bf::exists(bck_path) && bf::is_directory(bck_path) && strstr(bck_path.c_str(), ".bck") == NULL) {
- isExist = true;
- break;
- }
- }
- if (!isExist) {
- if (!removeAll(current_tac)) {
- _ERR("Failed to remove of %s", current_tac.c_str());
- }
- }
} catch (const bf::filesystem_error& error) {
_ERR("Failed to recursive directory: %s", error.what());
return;
}
+
+ ///// TLC /////
+ auto convert = [](const std::string& path, const std::string& filename) {
+ if (filename.rfind(".bck") != std::string::npos) {
+ if (!moveFile(path, replaceAll(path, ".bck", ""))) {
+ _ERR("Failed to move %s", path.c_str());
+ }
+ }
+ };
+
+ scanFilesInDirectory(concatPath(__DOTNET_DIR, TLC_LIBRARIES_DIR), convert, 0);
}
-void install_Clean()
+void install_Undo()
{
- return;
+ for (auto& cd : createDirectories) {
+ if (!removeAll(cd)) {
+ _ERR("Failed to remove of %s", cd.c_str());
+ }
+ }
+
+ for (auto& cl : createLibraries) {
+ if (!removeFile(cl)) {
+ _ERR("Failed to remove of %s", cl.c_str());
+ }
+ }
}
-void unInstall_Clean()
+void unInstall_Undo()
{
for (auto& unp : updateTac) {
- cleanStep(unp);
+ undoStep(unp);
}
}
-void update_Clean()
+void update_Undo()
{
+ install_Undo();
if (!tacDB.empty()) {
for (auto& np : tacDB) {
- cleanStep(np);
+ undoStep(np);
}
}
- unInstall_Clean();
+ unInstall_Undo();
}
-extern "C" int PKGMGR_MDPARSER_PLUGIN_CLEAN(const char *pkgId, const char *appId, GList *list)
+extern "C" int PKGMGR_MDPARSER_PLUGIN_UNDO(const char *pkgId, const char *appId, GList *list)
{
- _DBG("[===== PKGMGR_MDPARSER_PLUGIN_CLEAN =====]");
+ _DBG("[===== PKGMGR_MDPARSER_PLUGIN_UNDO =====]");
_INFO("PackageID : %s", pkgId);
- if (tac_db) {
- dbClose(tac_db);
- tac_db = NULL;
+ // Can be multiple apps in one package
+ if (tacPluginFinished) {
+ _INFO("TAC plugin already finished(UNDO)");
+ return 0;
}
+ tacPluginFinished = true;
+
if (!strcmp("install", status.c_str())) {
- install_Clean();
+ install_Undo();
} else if (!strcmp("update", status.c_str())) {
- update_Clean();
+ update_Undo();
} else if (!strcmp("uninstall", status.c_str())) {
- unInstall_Clean();
+ unInstall_Undo();
+ } else if (!strcmp("restore", status.c_str())) {
+ update_Undo();
+ }
+
+ if (tac_db) {
+ rollbackDB(tac_db);
+ tac_db = NULL;
}
+
+ if (tlc_db) {
+ rollbackDB(tlc_db);
+ tlc_db = NULL;
+ }
+
return 0;
}
-void undoStep(std::string tac)
+void cleanStep(std::string tac)
{
- std::string current_tac = concatPath(__TAC_DIR, tac.substr(0, tac.find('/')));
+ std::string current_tac = concatPath(__DOTNET_DIR, tac.substr(0, tac.find('/')));
try {
for (auto& bck : bf::recursive_directory_iterator(current_tac)) {
std::string bck_path = bck.path().string();
if (bf::is_directory(bck_path) && strstr(bck_path.c_str(), ".bck") != NULL) {
- if (!moveFile(bck_path, bck_path.substr(0, bck_path.rfind(".bck")))) {
- _ERR("Failed to move %s", bck_path.c_str());
+ if (!removeAll(bck_path)) {
+ _ERR("Failed to remove of %s", bck_path.c_str());
}
break;
}
}
+
+ bool isExist = false;
+ for (auto& bck : bf::recursive_directory_iterator(current_tac)) {
+ std::string bck_path = bck.path().string();
+ if (exist(bck_path) && bf::is_directory(bck_path) && strstr(bck_path.c_str(), ".bck") == NULL) {
+ isExist = true;
+ break;
+ }
+ }
+ if (!isExist) {
+ if (!removeAll(current_tac)) {
+ _ERR("Failed to remove of %s", current_tac.c_str());
+ }
+ }
} catch (const bf::filesystem_error& error) {
_ERR("Failed to recursive directory: %s", error.what());
return;
}
+
+ ///// TLC /////
+ auto convert = [](const std::string& path, const std::string& filename) {
+ if (filename.rfind(".bck") != std::string::npos) {
+ if (!removeFile(path)) {
+ _ERR("Failed to remove of %s", path.c_str());
+ }
+ }
+ };
+
+ scanFilesInDirectory(concatPath(__DOTNET_DIR, TLC_LIBRARIES_DIR), convert, 0);
}
-void install_Undo()
+void install_Clean()
{
- for (auto& cd : createDirectories) {
- if (!removeAll(cd)) {
- _ERR("Failed to remove of %s", cd.c_str());
- }
- }
+ return;
}
-void unInstall_Undo()
+void unInstall_Clean()
{
for (auto& unp : updateTac) {
- undoStep(unp);
+ cleanStep(unp);
}
}
-void update_Undo()
+void update_Clean()
{
- install_Undo();
if (!tacDB.empty()) {
for (auto& np : tacDB) {
- undoStep(np);
+ cleanStep(np);
}
}
- unInstall_Undo();
+ unInstall_Clean();
}
-extern "C" int PKGMGR_MDPARSER_PLUGIN_UNDO(const char *pkgId, const char *appId, GList *list)
+extern "C" int PKGMGR_MDPARSER_PLUGIN_CLEAN(const char *pkgId, const char *appId, GList *list)
{
- _DBG("[===== PKGMGR_MDPARSER_PLUGIN_UNDO =====]");
+ if (!strcmp("restore", status.c_str())) {
+ disableTACPackage(pkgId);
+
+ std::string rootPath = getRootPath(std::string(pkgId));
+ if (!rootPath.empty()) {
+ std::string binPath = concatPath(rootPath, "bin");
+ removeAll(concatPath(binPath, TAC_SYMLINK_SUB_DIR));
+ }
+
+ std::string runtimesDir = concatPath(rootPath, "bin/runtimes");
+ if (exist(runtimesDir)) {
+ char buffer[128];
+ sprintf(buffer, "(tizen|linux|unix|base|any)(.\\d.\\d.\\d)?(-%s)?", ARCHITECTURE_IDENTIFIER);
+ std::regex pattern(buffer);
+
+ try {
+ for (auto& path : bf::recursive_directory_iterator(runtimesDir)) {
+ std::string symPath = path.path().string();
+ if (isDirectory(symPath) || !bf::is_symlink(symPath))
+ continue;
+ std::string targetDir = symPath.substr(symPath.rfind("/runtimes/") + 10);
+ if (!std::regex_match(targetDir.substr(0, targetDir.find('/')), pattern))
+ continue;
+ if (symPath.rfind(".so") == std::string::npos)
+ continue;
+ copyFile(bf::read_symlink(symPath).string(), symPath);
+ }
+ } catch (const bf::filesystem_error& error) {
+ _ERR("Failed to recursive directory: %s", error.what());
+ }
+ }
+
+ return PKGMGR_MDPARSER_PLUGIN_UNDO(pkgId, appId, list);
+ }
+
+ _DBG("[===== PKGMGR_MDPARSER_PLUGIN_CLEAN =====]");
_INFO("PackageID : %s", pkgId);
- if (tac_db) {
- dbRollback(tac_db);
- tac_db = NULL;
+ // Can be multiple apps in one package
+ if (tacPluginFinished) {
+ _INFO("TAC plugin already finished(CLEAN)");
+ return 0;
}
+ tacPluginFinished = true;
+
if (!strcmp("install", status.c_str())) {
- install_Undo();
+ install_Clean();
} else if (!strcmp("update", status.c_str())) {
- update_Undo();
+ update_Clean();
} else if (!strcmp("uninstall", status.c_str())) {
- unInstall_Undo();
+ unInstall_Clean();
+ }
+
+ if (tac_db) {
+ closeDB(tac_db);
+ tac_db = NULL;
}
+
+ if (tlc_db) {
+ closeDB(tlc_db);
+ tlc_db = NULL;
+ }
+
return 0;
}