Exemplo n.º 1
0
int main(int argc, char **args)
{
    //初始化树
    s_avl_tree tree;
    avl_tree_init(&tree);

    avl_tree_put(&tree, 0, NULL);
    avl_tree_put(&tree, 1, NULL);
    avl_tree_put(&tree, 2, NULL);
    avl_tree_put(&tree, 3, NULL);
    avl_tree_put(&tree, 4, NULL);
    avl_tree_put(&tree, 5, NULL);
    avl_tree_put(&tree, 6, NULL);
    avl_tree_put(&tree, 7, NULL);
    avl_tree_put(&tree, 8, NULL);
    avl_tree_put(&tree, 9, NULL);

    //中序遍历
    avl_tree_inorder_visit(&tree, tree.root);
    //显示树型结构
    avl_tree_inorder_display(&tree, tree.root, 0);

    //销毁树
    avl_tree_destroy(&tree);

    return 0;
}
Exemplo n.º 2
0
int
main(int argc, char *argv[])
{
	int idx;
	avl_tree_t *tree;

	if (!(tree = avl_tree_init((cmp_t *)cmp))) {
		fprintf(stderr, "error on avl_tree_init\n");
		return -1;
	}

	for (idx = 0; idx < sizeof(test_ints)/sizeof(test_ints[0]); idx++) {
#if RAND_TEST
		test_ints[idx] = rand();
		if (test_ints[idx] == 0) {
			test_ints[idx]++;
		}
#endif
		if (avl_tree_insert(tree, &test_ints[idx]) < 0) {
			fprintf(stderr, "error on avl_tree_insert\n");
			return -1;
		}
	}

	/* printf("%s", avl_tree_str(tree, node2s)); */
	if (iter_list(tree, !RAND_TEST)) {
		return -1;
	}
	/* printf("\n"); */

	for (idx = 0; idx < 20; idx++) {
		if (*(int *)avl_tree_search(tree, &test_ints[idx]) != test_ints[idx]) {
			fprintf(stderr, "error on avl_tree_search\n");
			return -1;
		}
	}

#if RAND_TEST
	for (idx = 0; idx < sizeof(test_ints)/sizeof(test_ints[0])/2; idx++) {
		avl_tree_delete(tree, &test_ints[idx]);
	}
#else
	avl_tree_delete(tree, &test_ints[6]);
	avl_tree_delete(tree, &test_ints[2]);
	avl_tree_delete(tree, &test_ints[1]);
	avl_tree_delete(tree, &test_ints[9]);
	avl_tree_delete(tree, &test_ints[11]);
	avl_tree_delete(tree, &test_ints[4]);
#endif

	/* printf("%s", avl_tree_str(tree, node2s)); */
	if (iter_list(tree, !RAND_TEST)) {
		return -1;
	}

	printf("Test successful!\n");
	return 0;
}
Exemplo n.º 3
0
void
master_init_(master_t *m,
             io_service_t *iosvc) {
    m->iosvc = iosvc;

    timer_init(&m->tmr, m->iosvc);

    memset(&m->sum, 0, sizeof(m->sum));
    memset(&m->avg, 0, sizeof(m->avg));

    avl_tree_init(&m->slaves, true, sizeof(slave_description_t));
}
int trunk_free_block_checker_init()
{
	int result;
	if ((result=avl_tree_init(&tree_info_by_id, free, \
			storage_trunk_node_compare_entry)) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"avl_tree_init fail, " \
			"errno: %d, error info: %s", \
			__LINE__, result, STRERROR(result));
		return result;
	}

	return 0;
}
Exemplo n.º 5
0
void perform_avl_tree_test (avl_tree_t *avlt, int use_odd_numbers)
{
    int i, lo, hi, d, fail_search;
    int rv;
    int fine, not_fine;
    char *oddness = use_odd_numbers ? "odd" : "even";
    char *reverse = use_odd_numbers ? "even" : "odd";
    unsigned long long int bytes_used;
    double megabytes_used;
    void *fwdata, *searched, *found, *removed;
    chunk_manager_parameters_t chparams;

    printf("size of ONE avl node is: %lu bytes\n",
            sizeof(avl_node_t));

    /* 
    ** Fill opposing ends of array, converge in middle.
    ** This gives some sort of randomness to data.
    */
    printf("filling array of size %d with %s number data\n", 
        MAX_SZ, oddness);
    d = use_odd_numbers ? 1 : 0;
    lo = 0; 
    hi = MAX_SZ - 1;
    while (1) {
        data[lo++] = d;
        d += 2;
        data[hi--] = d;
        d += 2;
        if (lo > hi) break;
    }

    if (max_value_reached < d) {
        max_value_reached = d + 10;
        printf("max value recorded so far is %d\n", max_value_reached);
    }

    chparams.initial_number_of_chunks = max_value_reached + 10;
    chparams.grow_size = 1024;

    avl_tree_init(avlt, 1, int_compare, NULL, &chparams);

    /* enter all array data into avl tree */
    printf("now entering all %s number data into the avl tree\n", oddness);
    timer_start(&timr);
    for (i = 0; i < MAX_SZ; i++) {
        fwdata = &data[i];
        rv = avl_tree_insert(avlt, fwdata, &found);
        if (rv != 0) {
            printf("populate_data: avl_tree_insert error: %d failed\n", i);
        }
    }
    timer_end(&timr);
    timer_report(&timr, MAX_SZ, NULL);
    OBJECT_MEMORY_USAGE(avlt, bytes_used, megabytes_used);
    printf("total memory used by the avl tree of %d nodes: %llu bytes (%lf Mbytes)\n",
        avlt->n, bytes_used, megabytes_used);

    printf("searching for non existant data\n");
    fine = not_fine = 0;
    timer_start(&timr);
    for (i = max_value_reached; i < (max_value_reached + EXTRA); i++) {
        searched = &i;
        rv = avl_tree_search(avlt, searched, &found);
        if ((rv == 0) || found) {
            not_fine++;
        } else {
            fine++;
        }
    }
    timer_end(&timr);
    timer_report(&timr, EXTRA, NULL);
    printf("expected %d, NOT expected %d\n", fine, not_fine);

    /* now search all data that should be found (all of them) */
    printf("now searching all %s numbers in the avl tree\n", oddness);
    fine = not_fine = 0;
    timer_start(&timr);
    for (i = 0; i < MAX_SZ; i++) {
        searched = &data[i];
        rv = avl_tree_search(avlt, searched, &found);

        if ((rv != 0) || (data[i] != *((int*) found))) {
            not_fine++;
        } else {
            fine++;
        }
    }
    timer_end(&timr);
    timer_report(&timr, MAX_SZ, NULL);
    printf("found %d as expected and %d as NOT expected\n", fine, not_fine);

    /* now search for all entries that should NOT be in the tree */
    printf("now searching for all %s numbers in the avl tree\n", reverse);
    fine = not_fine = 0;
    d = use_odd_numbers ? 0 : 1;
    timer_start(&timr);
    for (i = 0; i < MAX_SZ; i++) {
        searched = &d;
        rv = avl_tree_search(avlt, searched, &found);
        if ((rv == 0) || found) {
            not_fine++;
        } else {
            fine++;
        }
        d += 2;
    }
    timer_end(&timr);
    timer_report(&timr, MAX_SZ, NULL);
    printf("%d as expected and %d as NOT expected\n", fine, not_fine);

#if 0

int tree_nodes = avlt->n;
printf("now deleting the whole tree (%d nodes)\n", tree_nodes);
timer_start(&timr);
avl_tree_destroy(avlt);
timer_end(&timr);
timer_report(&timr, tree_nodes, NULL);
return;

#endif // 0

    /* now delete one entry at a time and search it (should not be there) */
    printf("now deleting and searching\n");
    fine = not_fine = fail_search = 0;
    timer_start(&timr);
    for (i = 0; i < MAX_SZ; i++) {
        searched =  &data[i];
        rv = avl_tree_remove(avlt, searched, &removed);
        if ((rv != 0) || (data[i] != *((int*) removed))) {
            not_fine++;
        } else {
            fine++;
        }
        rv = avl_tree_search(avlt, searched, &found);
        if ((rv == 0) || found) {
            fail_search++;
        }
    }
    timer_end(&timr);
    timer_report(&timr, MAX_SZ*2, NULL);
    printf("deleted %d, could NOT delete %d, erroneous search %d\n",
        fine, not_fine, fail_search);

    OBJECT_MEMORY_USAGE(avlt, bytes_used, megabytes_used);
    printf("total memory used by the avl tree (%d nodes) after deletes: "
        "%llu bytes (%f Mbytes)\n",
        avlt->n, bytes_used, megabytes_used);

    avl_tree_destroy(avlt);
}
Exemplo n.º 6
0
static int storage_trunk_restore(const int64_t restore_offset)
{
	int64_t trunk_binlog_size;
	int64_t line_count;
	TrunkBinLogReader reader;
	TrunkBinLogRecord record;
	char trunk_mark_filename[MAX_PATH_SIZE];
	char buff[256];
	int record_length;
	int result;
	AVLTreeInfo tree_info_by_offset;
	struct fast_mblock_node *pMblockNode;
	FDFSTrunkNode *pTrunkNode;
	FDFSTrunkNode trunkNode;
	bool trunk_init_reload_from_binlog;

	trunk_binlog_size = storage_trunk_get_binlog_size();
	if (trunk_binlog_size < 0)
	{
		return errno != 0 ? errno : EPERM;
	}

	if (restore_offset == trunk_binlog_size)
	{
		return 0;
	}

	if (restore_offset > trunk_binlog_size)
	{
		logWarning("file: "__FILE__", line: %d, " \
			"restore_offset: %"PRId64 \
			" > trunk_binlog_size: %"PRId64, \
			__LINE__, restore_offset, trunk_binlog_size);
		return storage_trunk_save();
	}

	logDebug("file: "__FILE__", line: %d, " \
		"trunk metadata recovering, start offset: " \
		"%"PRId64", need recovery binlog bytes: " \
		"%"PRId64, __LINE__, \
		restore_offset, trunk_binlog_size - restore_offset);

	trunk_init_reload_from_binlog = (restore_offset == 0);
	if (trunk_init_reload_from_binlog)
	{
		memset(&trunkNode, 0, sizeof(trunkNode));
		if ((result=avl_tree_init(&tree_info_by_offset, \
			storage_trunk_free_node, \
			storage_trunk_node_compare_offset)) != 0)
		{
			logError("file: "__FILE__", line: %d, " \
				"avl_tree_init fail, " \
				"errno: %d, error info: %s", \
				__LINE__, result, STRERROR(result));
			return result;
		}
	}

	memset(&record, 0, sizeof(record));
	memset(&reader, 0, sizeof(reader));
	reader.binlog_offset = restore_offset;
	if ((result=trunk_reader_init(NULL, &reader)) != 0)
	{
		return result;
	}

	line_count = 0;
	while (1)
	{
		record_length = 0;
		result = trunk_binlog_read(&reader, &record, &record_length);
		if (result != 0)
		{
			if (result == ENOENT)
			{
				if (record_length > 0)  //skip incorrect record
				{
					line_count++;
					reader.binlog_offset += record_length;
					continue;
				}

				result = (reader.binlog_offset >= \
					trunk_binlog_size) ? 0 : EINVAL;
				if (result != 0)
				{
				logError("file: "__FILE__", line: %d, " \
					"binlog offset: %"PRId64 \
					" < binlog size: %"PRId64 \
					", please check the end of trunk " \
					"binlog", __LINE__, \
					reader.binlog_offset, trunk_binlog_size);
				}
			}
		
			break;
		}

		line_count++;
		if (record.op_type == TRUNK_OP_TYPE_ADD_SPACE)
		{
			record.trunk.status = FDFS_TRUNK_STATUS_FREE;

			if (trunk_init_reload_from_binlog)
			{
				pMblockNode = fast_mblock_alloc(&free_blocks_man);
				if (pMblockNode == NULL)
				{
					result = errno != 0 ? errno : EIO;
					logError("file: "__FILE__", line: %d, "\
						"malloc %d bytes fail, " \
						"errno: %d, error info: %s", \
						__LINE__, \
						(int)sizeof(FDFSTrunkNode), \
						result, STRERROR(result));
					return result;
				}

				pTrunkNode = (FDFSTrunkNode *)pMblockNode->data;
				memcpy(&pTrunkNode->trunk, &(record.trunk), \
					sizeof(FDFSTrunkFullInfo));

				pTrunkNode->pMblockNode = pMblockNode;
				pTrunkNode->next = NULL;
				result = avl_tree_insert(&tree_info_by_offset,\
							pTrunkNode);
				if (result < 0) //error
				{
					result *= -1;
					logError("file: "__FILE__", line: %d, "\
						"avl_tree_insert fail, " \
						"errno: %d, error info: %s", \
						__LINE__, result, \
						STRERROR(result));
					return result;
				}
				else if (result == 0)
				{
					trunk_info_dump(&(record.trunk), \
							buff, sizeof(buff));
					logWarning("file: "__FILE__", line: %d"\
						", trunk data line: " \
						"%"PRId64", trunk "\
						"space already exist, "\
						"trunk info: %s", \
						__LINE__, line_count, buff);
				}
			}
			else if ((result=trunk_add_space_by_trunk( \
						&record.trunk)) != 0)
			{
				break;
			}
		}
		else if (record.op_type == TRUNK_OP_TYPE_DEL_SPACE)
		{
			record.trunk.status = FDFS_TRUNK_STATUS_FREE;
			if (trunk_init_reload_from_binlog)
			{
				memcpy(&trunkNode.trunk, &record.trunk, \
					sizeof(FDFSTrunkFullInfo));
				if (avl_tree_delete(&tree_info_by_offset,\
							&trunkNode) != 1)
				{
				trunk_info_dump(&(record.trunk), \
						buff, sizeof(buff));
				logWarning("file: "__FILE__", line: %d"\
					", binlog offset: %"PRId64 \
					", trunk data line: %"PRId64 \
					" trunk node not exist, " \
					"trunk info: %s", __LINE__, \
					reader.binlog_offset, \
					line_count, buff);
				}
			}
			else if ((result=trunk_delete_space( \
						&record.trunk, false)) != 0)
			{
				if (result == ENOENT)
				{
				logDebug("file: "__FILE__", line: %d, "\
					"binlog offset: %"PRId64 \
					", trunk data line: %"PRId64,\
					__LINE__, reader.binlog_offset, \
					line_count);

					result = 0;
				}
				else
				{
					break;
				}
			}
		}

		reader.binlog_offset += record_length;
	}

	trunk_reader_destroy(&reader);
	trunk_mark_filename_by_reader(&reader, trunk_mark_filename);
	if (unlink(trunk_mark_filename) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"unlink file %s fail, " \
			"errno: %d, error info: %s", __LINE__, \
			trunk_mark_filename, errno, STRERROR(errno));
	}

	if (result != 0)
	{
		if (trunk_init_reload_from_binlog)
		{
			avl_tree_destroy(&tree_info_by_offset);
		}

		logError("file: "__FILE__", line: %d, " \
			"trunk load fail, errno: %d, error info: %s", \
			__LINE__, result, STRERROR(result));
		return result;
	}

	if (trunk_init_reload_from_binlog)
	{
		logInfo("file: "__FILE__", line: %d, " \
			"free tree node count: %d", \
			__LINE__, avl_tree_count(&tree_info_by_offset));

		result = avl_tree_walk(&tree_info_by_offset, \
				storage_trunk_add_free_blocks_callback, NULL);

		tree_info_by_offset.free_data_func = NULL;
		avl_tree_destroy(&tree_info_by_offset);
	}

	if (result == 0)
	{
		logDebug("file: "__FILE__", line: %d, " \
			"trunk metadata recovery done. start offset: " \
			"%"PRId64", recovery file size: " \
			"%"PRId64, __LINE__, \
			restore_offset, trunk_binlog_size - restore_offset);
		return storage_trunk_save();
	}

	return result;
}
Exemplo n.º 7
0
int storage_trunk_init()
{
	int result;
	int i;
	int count;

	if (!g_if_trunker_self)
	{
		logError("file: "__FILE__", line: %d, " \
			"I am not trunk server!", __LINE__);
		return 0;
	}

	if (trunk_init_flag != STORAGE_TRUNK_INIT_FLAG_NONE)
	{
		logWarning("file: "__FILE__", line: %d, " \
			"trunk already inited!", __LINE__);
		return 0;
	}

	logDebug("file: "__FILE__", line: %d, " \
		"storage trunk init ...", __LINE__);

	g_trunk_server.sock = -1;
	g_trunk_server.port = g_server_port;

	if ((result=init_pthread_lock(&trunk_file_lock)) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"init_pthread_lock fail, " \
			"errno: %d, error info: %s", \
			__LINE__, result, STRERROR(result));
		return result;
	}

	if ((result=init_pthread_lock(&trunk_mem_lock)) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"init_pthread_lock fail, " \
			"errno: %d, error info: %s", \
			__LINE__, result, STRERROR(result));
		return result;
	}

	if ((result=fast_mblock_init(&free_blocks_man, \
			sizeof(FDFSTrunkNode), 0)) != 0)
	{
		return result;
	}

	if ((result=fast_mblock_init(&tree_nodes_man, \
			sizeof(FDFSTrunkSlot), 0)) != 0)
	{
		return result;
	}

	tree_info_by_sizes = (AVLTreeInfo *)malloc(sizeof(AVLTreeInfo) * \
				g_fdfs_store_paths.count);
	if (tree_info_by_sizes == NULL)
	{
		result = errno != 0 ? errno : ENOMEM;
		logError("file: "__FILE__", line: %d, " \
			"malloc %d bytes fail, errno: %d, error info: %s", \
			__LINE__, (int)(sizeof(AVLTreeInfo) * \
			g_fdfs_store_paths.count), result, STRERROR(result));
		return result;
	}

	for (i=0; i<g_fdfs_store_paths.count; i++)
	{
		if ((result=avl_tree_init(tree_info_by_sizes + i, NULL, \
			storage_trunk_node_compare_size)) != 0)
		{
			logError("file: "__FILE__", line: %d, " \
				"avl_tree_init fail, " \
				"errno: %d, error info: %s", \
				__LINE__, result, STRERROR(result));
			return result;
		}
	}

	if ((result=trunk_free_block_checker_init()) != 0)
	{
		return result;
	}

	if ((result=storage_trunk_load()) != 0)
	{
		return result;
	}

	count = 0;
	for (i=0; i<g_fdfs_store_paths.count; i++)
	{
		count += avl_tree_count(tree_info_by_sizes + i);
	}

	logInfo("file: "__FILE__", line: %d, " \
		"tree by space size node count: %d, tree by trunk file id " \
		"node count: %d, free block count: %d, " \
		"trunk_total_free_space: %"PRId64, __LINE__, \
		count, trunk_free_block_tree_node_count(), \
		trunk_free_block_total_count(), \
		g_trunk_total_free_space);

	/*
	{
	char filename[MAX_PATH_SIZE];
	sprintf(filename, "%s/logs/tttt.dat", g_fdfs_base_path);
	trunk_free_block_tree_print(filename);
	}
	*/

	trunk_init_flag = STORAGE_TRUNK_INIT_FLAG_DONE;
	return 0;
}
Exemplo n.º 8
0
bool driver_core_init_(io_service_t *iosvc,
                       driver_core_t *core,
                       driver_payload_t *payload) {
    size_t path_len = BASE_DIR_LEN + SLASH_LEN
                      + payload->name_len + DOT_LEN
                      + MAX_DIGITS + DOT_LEN
                      + SUFFIX_LEN + 1;
    char path[path_len];
    size_t offset = 0;
    uint8_t idx;
    uint8_t cmd_number;
    pr_driver_info_t *drv_info;
    pr_driver_command_info_t *cmd_info;
    driver_command_t *cmd;

    memset(core, 0, sizeof(core));

    if (path_len > UNIX_PATH_MAX)
        return false;

    memcpy(path + offset, BASE_DIR, BASE_DIR_LEN);
    offset += BASE_DIR_LEN;
    memcpy(path + offset, SLASH, SLASH_LEN);
    offset += SLASH_LEN;
    memcpy(path + offset, payload->name, payload->name_len);
    offset += payload->name_len;
    memcpy(path + offset, DOT, DOT_LEN);
    offset += DOT_LEN;
    offset += snprintf(path + offset, MAX_DIGITS + 1,
                       "%u", payload->slot_number);
    memcpy(path + offset, DOT, DOT_LEN);
    offset += DOT_LEN;
    memcpy(path + offset, SUFFIX, SUFFIX_LEN);
    offset += SUFFIX_LEN;
    *(path + offset) = '\0';

    core->path = strdup(path);
    core->iosvc = iosvc;
    core->payload = payload;

    /* allocate memroy for greeting (driver info) */
    cmd_number = vector_count(&(core->payload->commands)) > 255
                  ? 255
                  : vector_count(&(core->payload->commands));

    core->greeting_length = sizeof(pr_driver_info_t)
                            + cmd_number
                              * sizeof(pr_driver_command_info_t);

    core->greeting = malloc(core->greeting_length);

    if (!core->greeting)
        return false;

    drv_info = (pr_driver_info_t *)core->greeting;
    drv_info->s.s = PR_DRV_INFO;
    drv_info->commands_number = vector_count(&(core->payload->commands));

    cmd_info = (pr_driver_command_info_t *)(drv_info + 1);

    for (idx = 0; idx < cmd_number; ++idx, ++cmd_info) {
        cmd = vector_get(&(core->payload->commands), idx);

        memset(cmd_info, 0, sizeof(*cmd_info));
        memcpy(cmd_info->name, cmd->name, cmd->name_len < MAX_COMMAND_NAME_LEN ?
                                          cmd->name_len : MAX_COMMAND_NAME_LEN);
        memcpy(cmd_info->descr, cmd->description,
               cmd->description_len < MAX_COMMAND_DESCRIPTION_LEN ?
               cmd->description_len : MAX_COMMAND_DESCRIPTION_LEN);
        cmd_info->arity = cmd->max_arity;
    }

    avl_tree_init(&core->connection_state,
                  true, sizeof(driver_core_connection_state_t));

    return unix_socket_server_init(&core->uss, path, offset, iosvc);
}
static int storage_do_split_trunk_binlog(const int store_path_index, 
		StorageBinLogReader *pReader)
{
	FILE *fp;
	char *pBasePath;
	FDFSTrunkFileIdInfo *pFound;
	char binlogFullFilename[MAX_PATH_SIZE];
	char tmpFullFilename[MAX_PATH_SIZE];
	FDFSTrunkFullInfo trunk_info;
	FDFSTrunkFileIdInfo trunkFileId;
	StorageBinLogRecord record;
	AVLTreeInfo tree_unique_trunks;
	int record_length;
	int result;
	
	pBasePath = g_fdfs_store_paths.paths[store_path_index];
	recovery_get_full_filename(pBasePath, \
		RECOVERY_BINLOG_FILENAME".tmp", tmpFullFilename);
	fp = fopen(tmpFullFilename, "w");
	if (fp == NULL)
	{
		result = errno != 0 ? errno : EPERM;
		logError("file: "__FILE__", line: %d, " \
			"open file: %s fail, " \
			"errno: %d, error info: %s.", \
			__LINE__, tmpFullFilename,
			result, STRERROR(result));
		return result;
	}

	if ((result=avl_tree_init(&tree_unique_trunks, free, \
			storage_compare_trunk_id_info)) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"avl_tree_init fail, " \
			"errno: %d, error info: %s", \
			__LINE__, result, STRERROR(result));
		fclose(fp);
		return result;
	}

	memset(&trunk_info, 0, sizeof(trunk_info));
	memset(&trunkFileId, 0, sizeof(trunkFileId));
	result = 0;
	while (g_continue_flag)
	{
		result=storage_binlog_read(pReader, &record, &record_length);
		if (result != 0)
		{
			if (result == ENOENT)
			{
				result = 0;
			}
			break;
		}

		if (fdfs_is_trunk_file(record.filename, record.filename_len))
		{
			if (fdfs_decode_trunk_info(store_path_index, \
				record.true_filename, record.true_filename_len,\
				&trunk_info) != 0)
			{
				continue;
			}

			trunkFileId.path = trunk_info.path;
			trunkFileId.id = trunk_info.file.id;
			pFound = (FDFSTrunkFileIdInfo *)avl_tree_find( \
					&tree_unique_trunks, &trunkFileId);
			if (pFound != NULL)
			{
				continue;
			}

			pFound = (FDFSTrunkFileIdInfo *)malloc( \
					sizeof(FDFSTrunkFileIdInfo));
			if (pFound == NULL)
			{
				result = errno != 0 ? errno : ENOMEM;
				logError("file: "__FILE__", line: %d, " \
					"malloc %d bytes fail, " \
					"errno: %d, error info: %s", __LINE__,\
					(int)sizeof(FDFSTrunkFileIdInfo), \
					result, STRERROR(result));
				break;
			}

			sprintf(trunkFileId.line, "%d %c %s", \
				(int)record.timestamp, \
				record.op_type, record.filename);
			memcpy(pFound, &trunkFileId, sizeof(FDFSTrunkFileIdInfo));
			if (avl_tree_insert(&tree_unique_trunks, pFound) != 1)
			{
				result = errno != 0 ? errno : ENOMEM;
				logError("file: "__FILE__", line: %d, " \
					"avl_tree_insert fail, " \
					"errno: %d, error info: %s", \
					__LINE__, result, STRERROR(result));
				break;
			}
		}
		else
		{
			if (record.op_type == STORAGE_OP_TYPE_SOURCE_CREATE_FILE
		 	|| record.op_type == STORAGE_OP_TYPE_REPLICA_CREATE_FILE)
			{
				if (fprintf(fp, "%d %c %s\n", \
					(int)record.timestamp, \
					record.op_type, record.filename) < 0)
				{
					result = errno != 0 ? errno : EIO;
					logError("file: "__FILE__", line: %d, " \
						"write to file: %s fail, " \
						"errno: %d, error info: %s.", \
						__LINE__, tmpFullFilename,
						result, STRERROR(result));
					break;
				}
			}
			else
			{
				if (fprintf(fp, "%d %c %s %s\n", \
					(int)record.timestamp, \
					record.op_type, record.filename, \
					record.src_filename) < 0)
				{
					result = errno != 0 ? errno : EIO;
					logError("file: "__FILE__", line: %d, " \
						"write to file: %s fail, " \
						"errno: %d, error info: %s.", \
						__LINE__, tmpFullFilename,
						result, STRERROR(result));
					break;
				}
			}
		}
	}

	if (result == 0)
	{
		int tree_node_count;
		tree_node_count = avl_tree_count(&tree_unique_trunks);
		if (tree_node_count > 0)
		{
			logInfo("file: "__FILE__", line: %d, " \
				"recovering trunk file count: %d", __LINE__, \
				tree_node_count);

			result = avl_tree_walk(&tree_unique_trunks, \
				tree_write_file_walk_callback, fp);
		}
	}

	avl_tree_destroy(&tree_unique_trunks);
	fclose(fp);
	if (!g_continue_flag)
	{
		return EINTR;
	}

	if (result != 0)
	{
		return result;
	}

	recovery_get_full_filename(pBasePath, \
		RECOVERY_BINLOG_FILENAME, binlogFullFilename);
	if (rename(tmpFullFilename, binlogFullFilename) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"rename file %s to %s fail, " \
			"errno: %d, error info: %s", __LINE__, \
			tmpFullFilename, binlogFullFilename, \
			errno, STRERROR(errno));
		return errno != 0 ? errno : EPERM;
	}

	return 0;
}
Exemplo n.º 10
0
int storage_trunk_init()
{
	int result;

	if (!g_if_trunker_self)
	{
		logError("file: "__FILE__", line: %d, " \
			"I am not trunk server!", __LINE__);
		return 0;
	}

	if (trunk_init_flag != STORAGE_TRUNK_INIT_FLAG_NONE)
	{
		logWarning("file: "__FILE__", line: %d, " \
			"trunk already inited!", __LINE__);
		return 0;
	}

	logDebug("file: "__FILE__", line: %d, " \
		"storage trunk init ...", __LINE__);

	g_trunk_server.sock = -1;
	g_trunk_server.port = g_server_port;

	if ((result=init_pthread_lock(&trunk_file_lock)) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"init_pthread_lock fail, " \
			"errno: %d, error info: %s", \
			__LINE__, result, STRERROR(result));
		return result;
	}

	if ((result=init_pthread_lock(&trunk_mem_lock)) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"init_pthread_lock fail, " \
			"errno: %d, error info: %s", \
			__LINE__, result, STRERROR(result));
		return result;
	}

	if ((result=fast_mblock_init(&free_blocks_man, \
			sizeof(FDFSTrunkNode), 0)) != 0)
	{
		return result;
	}

	if ((result=fast_mblock_init(&tree_nodes_man, \
			sizeof(FDFSTrunkSlot), 0)) != 0)
	{
		return result;
	}

	if ((result=avl_tree_init(&tree_info_by_size, NULL, \
			storage_trunk_node_compare_size)) != 0)
	{
		logError("file: "__FILE__", line: %d, " \
			"avl_tree_init fail, " \
			"errno: %d, error info: %s", \
			__LINE__, result, STRERROR(result));
		return result;
	}

	if ((result=trunk_free_block_checker_init()) != 0)
	{
		return result;
	}

	if ((result=storage_trunk_load()) != 0)
	{
		return result;
	}

	logInfo("file: "__FILE__", line: %d, " \
		"tree by space size node count: %d, tree by trunk file id " \
		"node count: %d, free block count: %d, " \
		"trunk_total_free_space: "INT64_PRINTF_FORMAT, __LINE__, \
		avl_tree_count(&tree_info_by_size), \
		trunk_free_block_tree_node_count(), \
		trunk_free_block_total_count(), \
		g_trunk_total_free_space);

	/*
	{
	char filename[MAX_PATH_SIZE];
	sprintf(filename, "%s/logs/tttt.dat", g_fdfs_base_path);
	trunk_free_block_tree_print(filename);
	}
	*/

	trunk_init_flag = STORAGE_TRUNK_INIT_FLAG_DONE;
	return 0;
}