Exemplo n.º 1
0
int GUIAction::doAction(Action action, int isThreaded /* = 0 */)
{
	static string zip_queue[10];
	static int zip_queue_index;
	int simulate;

	std::string arg = gui_parse_text(action.mArg);

	std::string function = gui_parse_text(action.mFunction);

	DataManager::GetValue(TW_SIMULATE_ACTIONS, simulate);

    if (function == "reboot")
    {
        //curtainClose(); this sometimes causes a crash

        sync();

        if (arg == "recovery")
            tw_reboot(rb_recovery);
        else if (arg == "poweroff")
            tw_reboot(rb_poweroff);
        else if (arg == "bootloader")
            tw_reboot(rb_bootloader);
        else if (arg == "download")
	    tw_reboot(rb_download);
        else
            tw_reboot(rb_system);

        // This should never occur
        return -1;
    }
    if (function == "home")
    {
        PageManager::SelectPackage("TWRP");
        gui_changePage("main");
        return 0;
    }

    if (function == "key")
    {
        PageManager::NotifyKey(getKeyByName(arg));
        return 0;
    }

    if (function == "page") {
		std::string page_name = gui_parse_text(arg);
        return gui_changePage(page_name);
	}

    if (function == "reload") {
		int check = 0, ret_val = 0;
		std::string theme_path;

		operation_start("Reload Theme");
		theme_path = DataManager::GetSettingsStoragePath();
		if (ensure_path_mounted(theme_path.c_str()) < 0) {
			LOGE("Unable to mount %s during reload function startup.\n", theme_path.c_str());
			check = 1;
		}

		theme_path += "/TWRP/theme/ui.zip";
		if (check != 0 || PageManager::ReloadPackage("TWRP", theme_path) != 0)
		{
			// Loading the custom theme failed - try loading the stock theme
			LOGI("Attempting to reload stock theme...\n");
			if (PageManager::ReloadPackage("TWRP", "/res/ui.xml"))
			{
				LOGE("Failed to load base packages.\n");
				ret_val = 1;
			}
		}
        operation_end(ret_val, simulate);
	}

    if (function == "readBackup")
    {
		set_restore_files();
        return 0;
    }

    if (function == "set")
    {
        if (arg.find('=') != string::npos)
        {
            string varName = arg.substr(0, arg.find('='));
            string value = arg.substr(arg.find('=') + 1, string::npos);

            DataManager::GetValue(value, value);
            DataManager::SetValue(varName, value);
        }
        else
            DataManager::SetValue(arg, "1");
        return 0;
    }
    if (function == "clear")
    {
        DataManager::SetValue(arg, "0");
        return 0;
    }

    if (function == "mount")
    {
        if (arg == "usb")
        {
            DataManager::SetValue(TW_ACTION_BUSY, 1);
			if (!simulate)
				usb_storage_enable();
			else
				ui_print("Simulating actions...\n");
        }
        else if (!simulate)
        {
            string cmd;
			if (arg == "EXTERNAL")
				cmd = "mount " + DataManager::GetStrValue(TW_EXTERNAL_MOUNT);
			else if (arg == "INTERNAL")
				cmd = "mount " + DataManager::GetStrValue(TW_INTERNAL_MOUNT);
			else
				cmd = "mount " + arg;
            __system(cmd.c_str());
			if (arg == "/data" && DataManager::GetIntValue(TW_HAS_DATADATA) == 1)
				__system("mount /datadata");
        } else
			ui_print("Simulating actions...\n");
        return 0;
    }

    if (function == "umount" || function == "unmount")
    {
        if (arg == "usb")
        {
            if (!simulate)
				usb_storage_disable();
			else
				ui_print("Simulating actions...\n");
			DataManager::SetValue(TW_ACTION_BUSY, 0);
        }
        else if (!simulate)
        {
            string cmd;
			if (arg == "EXTERNAL")
				cmd = "umount " + DataManager::GetStrValue(TW_EXTERNAL_MOUNT);
			else if (arg == "INTERNAL")
				cmd = "umount " + DataManager::GetStrValue(TW_INTERNAL_MOUNT);
			else if (DataManager::GetIntValue(TW_DONT_UNMOUNT_SYSTEM) == 1 && (arg == "system" || arg == "/system"))
				return 0;
			else
				cmd = "umount " + arg;
            __system(cmd.c_str());
			if (arg == "/data" && DataManager::GetIntValue(TW_HAS_DATADATA) == 1)
				__system("umount /datadata");
        } else
			ui_print("Simulating actions...\n");
        return 0;
    }
	
	if (function == "restoredefaultsettings")
	{
		operation_start("Restore Defaults");
		if (simulate) // Simulated so that people don't accidently wipe out the "simulation is on" setting
			ui_print("Simulating actions...\n");
		else {
			DataManager::ResetDefaults();
			mount_current_storage();
		}
		operation_end(0, simulate);
	}
	
	if (function == "copylog")
	{
		operation_start("Copy Log");
		if (!simulate)
		{
			char command[255];

			mount_current_storage();
			sprintf(command, "cp /tmp/recovery.log %s", DataManager::GetCurrentStoragePath().c_str());
			__system(command);
			sync();
			ui_print("Copied recovery log to %s.\n", DataManager::GetCurrentStoragePath().c_str());
		} else
			simulate_progress_bar();
		operation_end(0, simulate);
		return 0;
	}
	
	if (function == "compute" || function == "addsubtract")
	{
		if (arg.find("+") != string::npos)
        {
            string varName = arg.substr(0, arg.find('+'));
            string string_to_add = arg.substr(arg.find('+') + 1, string::npos);
			int amount_to_add = atoi(string_to_add.c_str());
			int value;

			DataManager::GetValue(varName, value);
            DataManager::SetValue(varName, value + amount_to_add);
			return 0;
        }
		if (arg.find("-") != string::npos)
        {
            string varName = arg.substr(0, arg.find('-'));
            string string_to_subtract = arg.substr(arg.find('-') + 1, string::npos);
			int amount_to_subtract = atoi(string_to_subtract.c_str());
			int value;

			DataManager::GetValue(varName, value);
			value -= amount_to_subtract;
			if (value <= 0)
				value = 0;
            DataManager::SetValue(varName, value);
			return 0;
        }
	}
	
	if (function == "setguitimezone")
	{
		string SelectedZone;
		DataManager::GetValue(TW_TIME_ZONE_GUISEL, SelectedZone); // read the selected time zone into SelectedZone
		string Zone = SelectedZone.substr(0, SelectedZone.find(';')); // parse to get time zone
		string DSTZone = SelectedZone.substr(SelectedZone.find(';') + 1, string::npos); // parse to get DST component
		
		int dst;
		DataManager::GetValue(TW_TIME_ZONE_GUIDST, dst); // check wether user chose to use DST
		
		string offset;
		DataManager::GetValue(TW_TIME_ZONE_GUIOFFSET, offset); // pull in offset
		
		string NewTimeZone = Zone;
		if (offset != "0")
			NewTimeZone += ":" + offset;
		
		if (dst != 0)
			NewTimeZone += DSTZone;
		
		DataManager::SetValue(TW_TIME_ZONE_VAR, NewTimeZone);
		update_tz_environment_variables();
		return 0;
	}

	if (function == "togglestorage") {
		if (arg == "internal") {
			DataManager::SetValue(TW_USE_EXTERNAL_STORAGE, 0);
			DataManager::SetValue(TW_STORAGE_FREE_SIZE, (int)((sdcint.sze - sdcint.used) / 1048576LLU));
		} else if (arg == "external") {
			DataManager::SetValue(TW_USE_EXTERNAL_STORAGE, 1);
			DataManager::SetValue(TW_STORAGE_FREE_SIZE, (int)((sdcext.sze - sdcext.used) / 1048576LLU));
		}
		if (mount_current_storage() == 0) {
			if (arg == "internal") {
				// Save the current zip location to the external variable
				DataManager::SetValue(TW_ZIP_EXTERNAL_VAR, DataManager::GetStrValue(TW_ZIP_LOCATION_VAR));
				// Change the current zip location to the internal variable
				DataManager::SetValue(TW_ZIP_LOCATION_VAR, DataManager::GetStrValue(TW_ZIP_INTERNAL_VAR));
			} else if (arg == "external") {
				// Save the current zip location to the internal variable
				DataManager::SetValue(TW_ZIP_INTERNAL_VAR, DataManager::GetStrValue(TW_ZIP_LOCATION_VAR));
				// Change the current zip location to the external variable
				DataManager::SetValue(TW_ZIP_LOCATION_VAR, DataManager::GetStrValue(TW_ZIP_EXTERNAL_VAR));
			}
		} else {
			// We weren't able to toggle for some reason, restore original setting
			if (arg == "internal") {
				DataManager::SetValue(TW_USE_EXTERNAL_STORAGE, 1);
				DataManager::SetValue(TW_STORAGE_FREE_SIZE, (int)((sdcext.sze - sdcext.used) / 1048576LLU));
			} else if (arg == "external") {
				DataManager::SetValue(TW_USE_EXTERNAL_STORAGE, 0);
				DataManager::SetValue(TW_STORAGE_FREE_SIZE, (int)((sdcint.sze - sdcint.used) / 1048576LLU));
			}
		}
		return 0;
	}
	
	if (function == "overlay")
        return gui_changeOverlay(arg);

	if (function == "queuezip")
    {
        if (zip_queue_index >= 10) {
			ui_print("Maximum zip queue reached!\n");
			return 0;
		}
		DataManager::GetValue("tw_filename", zip_queue[zip_queue_index]);
		if (strlen(zip_queue[zip_queue_index].c_str()) > 0) {
			zip_queue_index++;
			DataManager::SetValue(TW_ZIP_QUEUE_COUNT, zip_queue_index);
		}
		return 0;
	}

	if (function == "cancelzip")
    {
        if (zip_queue_index <= 0) {
			ui_print("Minimum zip queue reached!\n");
			return 0;
		} else {
			zip_queue_index--;
			DataManager::SetValue(TW_ZIP_QUEUE_COUNT, zip_queue_index);
		}
		return 0;
	}

	if (function == "queueclear")
	{
		zip_queue_index = 0;
		DataManager::SetValue(TW_ZIP_QUEUE_COUNT, zip_queue_index);
		return 0;
	}

	if (function == "sleep")
	{
		usleep(atoi(arg.c_str()));
		return 0;
	}

    if (isThreaded)
    {
        if (function == "flash")
        {
			int i, ret_val = 0;

			for (i=0; i<zip_queue_index; i++) {
				operation_start("Flashing");
		        DataManager::SetValue("tw_filename", zip_queue[i]);
		        DataManager::SetValue(TW_ZIP_INDEX, (i + 1));

				ret_val = flash_zip(zip_queue[i], arg, simulate);
				if (ret_val != 0) {
					ui_print("Error flashing zip '%s'\n", zip_queue[i].c_str());
					i = 10; // Error flashing zip - exit queue
					ret_val = 1;
				}
			}
			zip_queue_index = 0;
			DataManager::SetValue(TW_ZIP_QUEUE_COUNT, zip_queue_index);

			if (DataManager::GetIntValue(TW_HAS_INJECTTWRP) == 1 && DataManager::GetIntValue(TW_INJECT_AFTER_ZIP) == 1) {
				operation_start("ReinjectTWRP");
				ui_print("Injecting TWRP into boot image...\n");
				if (simulate) {
					simulate_progress_bar();
				} else {
					__system("injecttwrp --dump /tmp/backup_recovery_ramdisk.img /tmp/injected_boot.img --flash");
					ui_print("TWRP injection complete.\n");
				}
			}
			operation_end(ret_val, simulate);
            return 0;
        }
        if (function == "wipe")
        {
            operation_start("Format");
            DataManager::SetValue("tw_partition", arg);

			if (simulate) {
				simulate_progress_bar();
			} else {
				if (arg == "data")
					wipe_data(0);
				else if (arg == "battery")
					wipe_battery_stats();
				else if (arg == "rotate")
					wipe_rotate_data();
				else if (arg == "dalvik")
					wipe_dalvik_cache();
				else
					erase_volume(arg.c_str());
				
				if (arg == "/sdcard") {
					ensure_path_mounted(SDCARD_ROOT);
					mkdir("/sdcard/TWRP", 0777);
					DataManager::Flush();
				}
			}
			update_system_details();
            operation_end(0, simulate);
            return 0;
        }
		if (function == "refreshsizes")
		{
			operation_start("Refreshing Sizes");
			if (simulate) {
				simulate_progress_bar();
			} else
				update_system_details();
			operation_end(0, simulate);
		}
        if (function == "nandroid")
        {
            operation_start("Nandroid");

			if (simulate) {
				DataManager::SetValue("tw_partition", "Simulation");
				simulate_progress_bar();
			} else {
				if (arg == "backup")
					nandroid_back_exe();
				else if (arg == "restore")
					nandroid_rest_exe();
				else {
					operation_end(1, simulate);
					return -1;
				}
			}
            operation_end(0, simulate);
			return 0;
        }
		if (function == "fixpermissions")
		{
			operation_start("Fix Permissions");
            LOGI("fix permissions started!\n");
			if (simulate) {
				simulate_progress_bar();
			} else
				fix_perms();

			LOGI("fix permissions DONE!\n");
			operation_end(0, simulate);
			return 0;
		}
        if (function == "dd")
        {
            operation_start("imaging");

			if (simulate) {
				simulate_progress_bar();
			} else {
				char cmd[512];
				sprintf(cmd, "dd %s", arg.c_str());
				__system(cmd);
			}
            operation_end(0, simulate);
            return 0;
        }
		if (function == "partitionsd")
		{
			operation_start("Partition SD Card");

			if (simulate) {
				simulate_progress_bar();
			} else {
				int allow_partition;
				DataManager::GetValue(TW_ALLOW_PARTITION_SDCARD, allow_partition);
				if (allow_partition == 0) {
					ui_print("This device does not have a real SD Card!\nAborting!\n");
				} else {
					// Below seen in Koush's recovery
					char sddevice[256];
					Volume *vol = volume_for_path("/sdcard");
					strcpy(sddevice, vol->device);
					// Just need block not whole partition
					sddevice[strlen("/dev/block/mmcblkX")] = NULL;

					char es[64];
					std::string ext_format;
					int ext, swap;
					DataManager::GetValue("tw_sdext_size", ext);
					DataManager::GetValue("tw_swap_size", swap);
					DataManager::GetValue("tw_sdpart_file_system", ext_format);
					sprintf(es, "/sbin/sdparted -es %dM -ss %dM -efs %s -s > /cache/part.log",ext,swap,ext_format.c_str());
					LOGI("\nrunning script: %s\n", es);
					run_script("\nContinue partitioning?",
						   "\nPartitioning sdcard : ",
						   es,
						   "\nunable to execute parted!\n(%s)\n",
						   "\nOops... something went wrong!\nPlease check the recovery log!\n",
						   "\nPartitioning complete!\n\n",
						   "\nPartitioning aborted!\n\n", 0);
					
					// recreate TWRP folder and rewrite settings - these will be gone after sdcard is partitioned
					ensure_path_mounted(SDCARD_ROOT);
					mkdir("/sdcard/TWRP", 0777);
					DataManager::Flush();
					DataManager::SetValue(TW_ZIP_EXTERNAL_VAR, "/sdcard");
					if (DataManager::GetIntValue(TW_USE_EXTERNAL_STORAGE) == 1)
						DataManager::SetValue(TW_ZIP_LOCATION_VAR, "/sdcard");

					update_system_details();
				}
			}
			operation_end(0, simulate);
			return 0;
		}
		if (function == "installhtcdumlock")
		{
			operation_start("Install HTC Dumlock");
			if (simulate) {
				simulate_progress_bar();
			} else
				install_htc_dumlock();

			operation_end(0, simulate);
			return 0;
		}
		if (function == "htcdumlockrestoreboot")
		{
			operation_start("HTC Dumlock Restore Boot");
			if (simulate) {
				simulate_progress_bar();
			} else
				htc_dumlock_restore_original_boot();

			operation_end(0, simulate);
			return 0;
		}
		if (function == "htcdumlockreflashrecovery")
		{
			operation_start("HTC Dumlock Reflash Recovery");
			if (simulate) {
				simulate_progress_bar();
			} else
				htc_dumlock_reflash_recovery_to_boot();

			operation_end(0, simulate);
			return 0;
		}
		if (function == "cmd")
		{
			int op_status = 0;

			operation_start("Command");
			ui_print("Running command: '%s'\n", arg.c_str());
			if (simulate) {
				simulate_progress_bar();
			} else {
				op_status = __system(arg.c_str());
				if (op_status != 0)
					op_status = 1;
			}

			operation_end(op_status, simulate);
			return 0;
		}
		if (function == "reinjecttwrp")
		{
			int op_status = 0;

			operation_start("ReinjectTWRP");
			ui_print("Injecting TWRP into boot image...\n");
			if (simulate) {
				simulate_progress_bar();
			} else {
				__system("injecttwrp --dump /tmp/backup_recovery_ramdisk.img /tmp/injected_boot.img --flash");
				ui_print("TWRP injection complete.\n");
			}

			operation_end(op_status, simulate);
			return 0;
		}
    }
    else
    {
        pthread_t t;
        pthread_create(&t, NULL, thread_start, this);
        return 0;
    }
    return -1;
}
Exemplo n.º 2
0
Arquivo: list.c Projeto: lplewa/nvml
/*
 * list_remove -- remove object from list
 *
 * pop          - pmemobj handle
 * pe_offset    - offset to list entry on user list relative to user data
 * head         - list head
 * oid          - target object ID
 */
int
list_remove(PMEMobjpool *pop,
	ssize_t pe_offset, struct list_head *head,
	PMEMoid oid)
{
	LOG(3, NULL);
	ASSERTne(head, NULL);

	int ret;

	struct lane *lane;
	lane_hold(pop, &lane);

	if ((ret = pmemobj_mutex_lock(pop, &head->lock))) {
		errno = ret;
		LOG(2, "pmemobj_mutex_lock failed");
		ret = -1;
		goto err;
	}

	struct operation_context *ctx = lane->external;
	operation_start(ctx);

	struct list_entry *entry_ptr =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
				oid.off + (size_t)pe_offset);

	struct list_args_remove args = {
		.pe_offset = (ssize_t)pe_offset,
		.head = head,
		.entry_ptr = entry_ptr,
		.obj_doffset = oid.off,
	};

	struct list_args_common args_common = {
		.obj_doffset = oid.off,
		.entry_ptr = entry_ptr,
		.pe_offset = (ssize_t)pe_offset,
	};

	/* remove element from user list */
	list_remove_single(pop, ctx, &args);

	/* clear next and prev offsets in removing element using redo log */
	list_fill_entry_redo_log(pop, ctx,
			&args_common, 0, 0, 0);

	operation_finish(ctx);

	pmemobj_mutex_unlock_nofail(pop, &head->lock);
err:
	lane_release(pop);

	ASSERT(ret == 0 || ret == -1);
	return ret;
}

/*
 * list_move -- move object between two lists
 *
 * pop           - pmemobj handle
 * pe_offset_old - offset to old list entry relative to user data
 * head_old      - old list head
 * pe_offset_new - offset to new list entry relative to user data
 * head_new      - new list head
 * dest          - destination object ID
 * before        - before/after destination
 * oid           - target object ID
 */
int
list_move(PMEMobjpool *pop,
	size_t pe_offset_old, struct list_head *head_old,
	size_t pe_offset_new, struct list_head *head_new,
	PMEMoid dest, int before, PMEMoid oid)
{
	LOG(3, NULL);
	ASSERTne(head_old, NULL);
	ASSERTne(head_new, NULL);

	int ret;

	struct lane *lane;
	lane_hold(pop, &lane);

	/*
	 * Grab locks in specified order to avoid dead-locks.
	 *
	 * XXX performance improvement: initialize oob locks at pool opening
	 */
	if ((ret = list_mutexes_lock(pop, head_new, head_old))) {
		errno = ret;
		LOG(2, "list_mutexes_lock failed");
		ret = -1;
		goto err;
	}

	struct operation_context *ctx = lane->external;
	operation_start(ctx);

	dest = list_get_dest(pop, head_new, dest,
		(ssize_t)pe_offset_new, before);

	struct list_entry *entry_ptr_old =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
				oid.off + pe_offset_old);

	struct list_entry *entry_ptr_new =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
				oid.off + pe_offset_new);

	struct list_entry *dest_entry_ptr =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
				dest.off + pe_offset_new);

	if (head_old == head_new) {
		/* moving within the same list */

		if (dest.off == oid.off)
			goto unlock;

		if (before && dest_entry_ptr->pe_prev.off == oid.off) {
			if (head_old->pe_first.off != dest.off)
				goto unlock;

			list_update_head(pop, ctx,
					head_old, oid.off);

			goto redo_last;
		}

		if (!before && dest_entry_ptr->pe_next.off == oid.off) {
			if (head_old->pe_first.off != oid.off)
				goto unlock;

			list_update_head(pop, ctx,
					head_old, entry_ptr_old->pe_next.off);

			goto redo_last;
		}
	}

	ASSERT((ssize_t)pe_offset_old >= 0);
	struct list_args_remove args_remove = {
		.pe_offset = (ssize_t)pe_offset_old,
		.head = head_old,
		.entry_ptr = entry_ptr_old,
		.obj_doffset = oid.off,
	};

	struct list_args_insert args_insert = {
		.head = head_new,
		.dest = dest,
		.dest_entry_ptr = dest_entry_ptr,
		.before = before,
	};

	ASSERT((ssize_t)pe_offset_new >= 0);
	struct list_args_common args_common = {
		.obj_doffset = oid.off,
		.entry_ptr = entry_ptr_new,
		.pe_offset = (ssize_t)pe_offset_new,
	};

	uint64_t next_offset;
	uint64_t prev_offset;

	/* remove element from user list */
	list_remove_single(pop, ctx, &args_remove);

	/* insert element to user list */
	list_insert_user(pop, ctx, &args_insert,
			&args_common, &next_offset, &prev_offset);

	/* offsets differ, move is between different list entries - set uuid */
	int set_uuid = pe_offset_new != pe_offset_old ? 1 : 0;

	/* fill next and prev offsets of moving element using redo log */
	list_fill_entry_redo_log(pop, ctx,
			&args_common, next_offset, prev_offset, set_uuid);

redo_last:
unlock:
	operation_finish(ctx);
	list_mutexes_unlock(pop, head_new, head_old);
err:
	lane_release(pop);

	ASSERT(ret == 0 || ret == -1);
	return ret;
}
Exemplo n.º 3
0
Arquivo: list.c Projeto: lplewa/nvml
/*
 * list_insert -- insert object to a single list
 *
 * pop          - pmemobj handle
 * pe_offset    - offset to list entry on user list relative to user data
 * head         - list head
 * dest         - destination object ID
 * before       - before/after destination
 * oid          - target object ID
 */
int
list_insert(PMEMobjpool *pop,
	ssize_t pe_offset, struct list_head *head,
	PMEMoid dest, int before,
	PMEMoid oid)
{
	LOG(3, NULL);
	ASSERTne(head, NULL);

	struct lane *lane;
	lane_hold(pop, &lane);

	int ret;

	if ((ret = pmemobj_mutex_lock(pop, &head->lock))) {
		errno = ret;
		LOG(2, "pmemobj_mutex_lock failed");
		ret = -1;
		goto err;
	}

	struct operation_context *ctx = lane->external;
	operation_start(ctx);

	dest = list_get_dest(pop, head, dest, pe_offset, before);

	struct list_entry *entry_ptr =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
			(uintptr_t)((ssize_t)oid.off + pe_offset));

	struct list_entry *dest_entry_ptr =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
			(uintptr_t)((ssize_t)dest.off + pe_offset));

	struct list_args_insert args = {
		.dest = dest,
		.dest_entry_ptr = dest_entry_ptr,
		.head = head,
		.before = before,
	};

	struct list_args_common args_common = {
		.obj_doffset = oid.off,
		.entry_ptr = entry_ptr,
		.pe_offset = (ssize_t)pe_offset,
	};

	uint64_t next_offset;
	uint64_t prev_offset;

	/* insert element to user list */
	list_insert_user(pop, ctx,
			&args, &args_common, &next_offset, &prev_offset);

	/* fill entry of existing element using redo log */
	list_fill_entry_redo_log(pop, ctx,
			&args_common, next_offset, prev_offset, 1);

	operation_finish(ctx);

	pmemobj_mutex_unlock_nofail(pop, &head->lock);
err:
	lane_release(pop);

	ASSERT(ret == 0 || ret == -1);
	return ret;
}

/*
 * list_remove_free -- remove from two lists and free an object
 *
 * pop         - pmemobj pool handle
 * oob_head    - oob list head
 * pe_offset   - offset to list entry on user list relative to user data
 * user_head   - user list head, *must* be locked if not NULL
 * oidp        - pointer to target object ID
 */
static void
list_remove_free(PMEMobjpool *pop, size_t pe_offset,
	struct list_head *user_head, PMEMoid *oidp)
{
	LOG(3, NULL);
	ASSERT(user_head != NULL);

#ifdef DEBUG
	int r = pmemobj_mutex_assert_locked(pop, &user_head->lock);
	ASSERTeq(r, 0);
#endif

	struct lane *lane;
	lane_hold(pop, &lane);
	struct operation_context *ctx = lane->external;
	operation_start(ctx);

	struct pobj_action deferred;
	palloc_defer_free(&pop->heap, oidp->off, &deferred);
	uint64_t obj_doffset = oidp->off;

	ASSERT((ssize_t)pe_offset >= 0);

	struct list_entry *entry_ptr =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
				obj_doffset + pe_offset);

	struct list_args_remove args = {
		.pe_offset = (ssize_t)pe_offset,
		.head = user_head,
		.entry_ptr = entry_ptr,
		.obj_doffset = obj_doffset
	};

	/* remove from user list */
	list_remove_single(pop, ctx, &args);

	/* clear the oid */
	if (OBJ_PTR_IS_VALID(pop, oidp))
		list_set_oid_redo_log(pop, ctx, oidp, 0, 1);
	else
		oidp->off = 0;

	palloc_publish(&pop->heap, &deferred, 1, ctx);

	lane_release(pop);
}

/*
 * list_remove_free_user -- remove from two lists and free an object
 *
 * pop         - pmemobj pool handle
 * oob_head    - oob list head
 * pe_offset   - offset to list entry on user list relative to user data
 * user_head   - user list head
 * oidp        - pointer to target object ID
 */
int
list_remove_free_user(PMEMobjpool *pop, size_t pe_offset,
	struct list_head *user_head, PMEMoid *oidp)
{
	LOG(3, NULL);

	int ret;
	if ((ret = pmemobj_mutex_lock(pop, &user_head->lock))) {
		errno = ret;
		LOG(2, "pmemobj_mutex_lock failed");
		return -1;
	}

	list_remove_free(pop, pe_offset, user_head, oidp);

	pmemobj_mutex_unlock_nofail(pop, &user_head->lock);

	return 0;
}
Exemplo n.º 4
0
Arquivo: list.c Projeto: lplewa/nvml
/*
 * list_insert_new -- allocate and insert element to oob and user lists
 *
 * pop         - pmemobj pool handle
 * pe_offset   - offset to list entry on user list relative to user data
 * user_head   - user list head, must be locked if not NULL
 * dest        - destination on user list
 * before      - insert before/after destination on user list
 * size        - size of allocation, will be increased by OBJ_OOB_SIZE
 * constructor - object's constructor
 * arg         - argument for object's constructor
 * oidp        - pointer to target object ID
 */
static int
list_insert_new(PMEMobjpool *pop,
	size_t pe_offset, struct list_head *user_head, PMEMoid dest, int before,
	size_t size, uint64_t type_num, int (*constructor)(void *ctx, void *ptr,
	size_t usable_size, void *arg), void *arg, PMEMoid *oidp)
{
	LOG(3, NULL);
	ASSERT(user_head != NULL);

	int ret;

#ifdef DEBUG
	int r = pmemobj_mutex_assert_locked(pop, &user_head->lock);
	ASSERTeq(r, 0);
#endif
	struct lane *lane;
	lane_hold(pop, &lane);

	struct pobj_action reserved;
	if (palloc_reserve(&pop->heap, size, constructor, arg,
		type_num, 0, 0, &reserved) != 0) {
		ERR("!palloc_reserve");
		ret = -1;
		goto err_pmalloc;
	}
	uint64_t obj_doffset = reserved.heap.offset;

	struct operation_context *ctx = lane->external;
	operation_start(ctx);

	ASSERT((ssize_t)pe_offset >= 0);

	dest = list_get_dest(pop, user_head, dest,
		(ssize_t)pe_offset, before);

	struct list_entry *entry_ptr =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
				obj_doffset + pe_offset);

	struct list_entry *dest_entry_ptr =
		(struct list_entry *)OBJ_OFF_TO_PTR(pop,
				dest.off + pe_offset);

	struct list_args_insert args = {
		.dest = dest,
		.dest_entry_ptr = dest_entry_ptr,
		.head = user_head,
		.before = before,
	};

	struct list_args_common args_common = {
		.obj_doffset = obj_doffset,
		.entry_ptr = entry_ptr,
		.pe_offset = (ssize_t)pe_offset,
	};

	uint64_t next_offset;
	uint64_t prev_offset;

	/* insert element to user list */
	list_insert_user(pop,
		ctx, &args, &args_common,
		&next_offset, &prev_offset);

	/* don't need to use redo log for filling new element */
	list_fill_entry_persist(pop, entry_ptr,
			next_offset, prev_offset);

	if (oidp != NULL) {
		if (OBJ_PTR_IS_VALID(pop, oidp)) {
			list_set_oid_redo_log(pop, ctx,
				oidp, obj_doffset, 0);
		} else {
			oidp->off = obj_doffset;
			oidp->pool_uuid_lo = pop->uuid_lo;
		}
	}

	palloc_publish(&pop->heap, &reserved, 1, ctx);

	ret = 0;

err_pmalloc:
	lane_release(pop);

	ASSERT(ret == 0 || ret == -1);
	return ret;
}

/*
 * list_insert_new_user -- allocate and insert element to oob and user lists
 *
 * pop         - pmemobj pool handle
 * oob_head    - oob list head
 * pe_offset   - offset to list entry on user list relative to user data
 * user_head   - user list head
 * dest        - destination on user list
 * before      - insert before/after destination on user list
 * size        - size of allocation, will be increased by OBJ_OOB_SIZE
 * constructor - object's constructor
 * arg         - argument for object's constructor
 * oidp        - pointer to target object ID
 */
int
list_insert_new_user(PMEMobjpool *pop,
	size_t pe_offset, struct list_head *user_head, PMEMoid dest, int before,
	size_t size, uint64_t type_num, int (*constructor)(void *ctx, void *ptr,
	size_t usable_size, void *arg), void *arg, PMEMoid *oidp)
{
	int ret;
	if ((ret = pmemobj_mutex_lock(pop, &user_head->lock))) {
		errno = ret;
		LOG(2, "pmemobj_mutex_lock failed");
		return -1;
	}

	ret = list_insert_new(pop, pe_offset, user_head,
			dest, before, size, type_num, constructor, arg, oidp);

	pmemobj_mutex_unlock_nofail(pop, &user_head->lock);

	ASSERT(ret == 0 || ret == -1);
	return ret;
}
Exemplo n.º 5
0
int GUIAction::terminalcommand(std::string arg)
{
	int op_status = 0;
	string cmdpath, command;

	DataManager::GetValue("tw_terminal_location", cmdpath);
	operation_start("CommandOutput");
	gui_print("%s # %s\n", cmdpath.c_str(), arg.c_str());
	if (simulate) {
		simulate_progress_bar();
		operation_end(op_status);
	} else if (arg == "exit") {
		LOGINFO("Exiting terminal\n");
		operation_end(op_status);
		page("main");
	} else {
		command = "cd \"" + cmdpath + "\" && " + arg + " 2>&1";;
		LOGINFO("Actual command is: '%s'\n", command.c_str());
		DataManager::SetValue("tw_terminal_state", 1);
		DataManager::SetValue("tw_background_thread_running", 1);
		FILE* fp;
		char line[512];

		fp = popen(command.c_str(), "r");
		if (fp == NULL) {
			LOGERR("Error opening command to run.\n");
		} else {
			int fd = fileno(fp), has_data = 0, check = 0, keep_going = -1, bytes_read = 0;
			struct timeval timeout;
			fd_set fdset;

			while(keep_going)
			{
				FD_ZERO(&fdset);
				FD_SET(fd, &fdset);
				timeout.tv_sec = 0;
				timeout.tv_usec = 400000;
				has_data = select(fd+1, &fdset, NULL, NULL, &timeout);
				if (has_data == 0) {
					// Timeout reached
					DataManager::GetValue("tw_terminal_state", check);
					if (check == 0) {
						keep_going = 0;
					}
				} else if (has_data < 0) {
					// End of execution
					keep_going = 0;
				} else {
					// Try to read output
					memset(line, 0, sizeof(line));
					if(fgets(line, sizeof(line), fp) != NULL)
						gui_print("%s", line); // Display output
					else
						keep_going = 0; // Done executing
				}
			}
			fclose(fp);
		}
		DataManager::SetValue("tw_operation_status", 0);
		DataManager::SetValue("tw_operation_state", 1);
		DataManager::SetValue("tw_terminal_state", 0);
		DataManager::SetValue("tw_background_thread_running", 0);
		DataManager::SetValue(TW_ACTION_BUSY, 0);
	}
	return 0;
}
Exemplo n.º 6
0
int GUIAction::wipe(std::string arg)
{
	operation_start("Format");
	DataManager::SetValue("tw_partition", arg);

	int ret_val = false;

	if (simulate) {
		simulate_progress_bar();
	} else {
		if (arg == "data")
			ret_val = PartitionManager.Factory_Reset();
		else if (arg == "battery")
			ret_val = PartitionManager.Wipe_Battery_Stats();
		else if (arg == "rotate")
			ret_val = PartitionManager.Wipe_Rotate_Data();
		else if (arg == "dalvik")
			ret_val = PartitionManager.Wipe_Dalvik_Cache();
		else if (arg == "DATAMEDIA") {
			ret_val = PartitionManager.Format_Data();
		} else if (arg == "INTERNAL") {
			int has_datamedia, dual_storage;

			DataManager::GetValue(TW_HAS_DATA_MEDIA, has_datamedia);
			if (has_datamedia) {
				ret_val = PartitionManager.Wipe_Media_From_Data();
			} else {
				ret_val = PartitionManager.Wipe_By_Path(DataManager::GetSettingsStoragePath());
			}
		} else if (arg == "EXTERNAL") {
			string External_Path;

			DataManager::GetValue(TW_EXTERNAL_PATH, External_Path);
			ret_val = PartitionManager.Wipe_By_Path(External_Path);
		} else if (arg == "ANDROIDSECURE") {
			ret_val = PartitionManager.Wipe_Android_Secure();
		} else if (arg == "LIST") {
			string Wipe_List, wipe_path;
			bool skip = false;
			ret_val = true;
			TWPartition* wipe_part = NULL;

			DataManager::GetValue("tw_wipe_list", Wipe_List);
			LOGINFO("wipe list '%s'\n", Wipe_List.c_str());
			if (!Wipe_List.empty()) {
				size_t start_pos = 0, end_pos = Wipe_List.find(";", start_pos);
				while (end_pos != string::npos && start_pos < Wipe_List.size()) {
					wipe_path = Wipe_List.substr(start_pos, end_pos - start_pos);
					LOGINFO("wipe_path '%s'\n", wipe_path.c_str());
					if (wipe_path == "/and-sec") {
						if (!PartitionManager.Wipe_Android_Secure()) {
							LOGERR("Unable to wipe android secure\n");
							ret_val = false;
							break;
						} else {
							skip = true;
						}
					} else if (wipe_path == "DALVIK") {
						if (!PartitionManager.Wipe_Dalvik_Cache()) {
							LOGERR("Failed to wipe dalvik\n");
							ret_val = false;
							break;
						} else {
							skip = true;
						}
					} else if (wipe_path == "INTERNAL") {
						if (!PartitionManager.Wipe_Media_From_Data()) {
							ret_val = false;
							break;
						} else {
							skip = true;
						}
					}
					if (!skip) {
						if (!PartitionManager.Wipe_By_Path(wipe_path)) {
							LOGERR("Unable to wipe '%s'\n", wipe_path.c_str());
							ret_val = false;
							break;
						} else if (wipe_path == DataManager::GetSettingsStoragePath()) {
							arg = wipe_path;
						}
					} else {
						skip = false;
					}
					start_pos = end_pos + 1;
					end_pos = Wipe_List.find(";", start_pos);
				}
			}
		} else
			ret_val = PartitionManager.Wipe_By_Path(arg);
#ifndef TW_OEM_BUILD
		if (arg == DataManager::GetSettingsStoragePath()) {
			// If we wiped the settings storage path, recreate the TWRP folder and dump the settings
			string Storage_Path = DataManager::GetSettingsStoragePath();

			if (PartitionManager.Mount_By_Path(Storage_Path, true)) {
				LOGINFO("Making TWRP folder and saving settings.\n");
				Storage_Path += "/TWRP";
				mkdir(Storage_Path.c_str(), 0777);
				DataManager::Flush();
			} else {
				LOGERR("Unable to recreate TWRP folder and save settings.\n");
			}
		}
#endif
	}
	PartitionManager.Update_System_Details();
	if (ret_val)
		ret_val = 0; // 0 is success
	else
		ret_val = 1; // 1 is failure
	operation_end(ret_val);
	return 0;
}