/** * Copyright (c) 2021 OceanBase * OceanBase CE is licensed under Mulan PubL v2. * You can use this software according to the terms and conditions of the Mulan PubL v2. * You may obtain a copy of Mulan PubL v2 at: * http://license.coscl.org.cn/MulanPubL-2.0 * THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, * EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, * MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. * See the Mulan PubL v2 for more details. */ #include "ob_storage_schema.h" #include "blocksstable/ob_block_sstable_struct.h" #include "ob_sstable_struct.h" #include "share/ob_encryption_util.h" #include "share/schema/ob_column_schema.h" #include "share/schema/ob_schema_struct.h" #include "storage/ob_storage_struct.h" namespace oceanbase { using namespace common; using namespace share::schema; namespace storage { /* * ObStorageRowkeyColumnSchema * */ ObStorageRowkeyColumnSchema::ObStorageRowkeyColumnSchema() { reset(); } ObStorageRowkeyColumnSchema::~ObStorageRowkeyColumnSchema() { } void ObStorageRowkeyColumnSchema::reset() { info_ = 0; column_idx_ = 0; meta_type_.reset(); } bool ObStorageRowkeyColumnSchema::is_valid() const { return 0 != column_idx_ && common::ob_is_valid_obj_type(static_cast(meta_type_.get_type())); } OB_SERIALIZE_MEMBER_SIMPLE( ObStorageRowkeyColumnSchema, info_, column_idx_, meta_type_); /* * ObStorageColumnSchema * */ ObStorageColumnSchema::ObStorageColumnSchema() { reset(); } ObStorageColumnSchema::~ObStorageColumnSchema() { } void ObStorageColumnSchema::reset() { info_ = 0; default_checksum_ = 0; meta_type_.reset(); orig_default_value_.reset(); } void ObStorageColumnSchema::destroy(ObIAllocator &allocator) { if (orig_default_value_.get_deep_copy_size() > 0) { void *ptr = orig_default_value_.get_deep_copy_obj_ptr(); if (ptr != nullptr) { orig_default_value_.reset(); allocator.free(ptr); } } reset(); } bool ObStorageColumnSchema::is_valid() const { return common::ob_is_valid_obj_type(static_cast(meta_type_.get_type())); } int ObStorageColumnSchema::deep_copy_default_val(ObIAllocator &allocator, const ObObj &default_val) { int ret = OB_SUCCESS; if (default_val.get_deep_copy_size() > 0) { char *buf = nullptr; int64_t pos = 0; const int64_t alloc_size = default_val.get_deep_copy_size(); if (OB_ISNULL(buf = (char *)allocator.alloc(alloc_size))) { ret = OB_ALLOCATE_MEMORY_FAILED; STORAGE_LOG(WARN, "failed to alloc memory", K(ret), K(alloc_size)); } else if (OB_FAIL(orig_default_value_.deep_copy(default_val, buf, alloc_size, pos))) { orig_default_value_.reset(); allocator.free(buf); buf = nullptr; STORAGE_LOG(WARN, "failed to deep copy", K(ret), K(default_val), K(pos)); } } else { orig_default_value_ = default_val; } return ret; } OB_SERIALIZE_MEMBER_SIMPLE( ObStorageColumnSchema, info_, default_checksum_, meta_type_, orig_default_value_); /* * ObStorageSchema * */ ObStorageSchema::ObStorageSchema() : allocator_(nullptr), storage_schema_version_(0), info_(0), table_type_(ObTableType::MAX_TABLE_TYPE), table_mode_(), index_type_(ObIndexType::INDEX_TYPE_IS_NOT), index_status_(ObIndexStatus::INDEX_STATUS_UNAVAILABLE), row_store_type_(ObStoreFormat::get_default_row_store_type()), schema_version_(OB_INVALID_VERSION), column_cnt_(0), tablet_size_(OB_DEFAULT_TABLET_SIZE), pctfree_(OB_DEFAULT_PCTFREE), block_size_(0), progressive_merge_round_(0), progressive_merge_num_(0), master_key_id_(INVALID_ID), compressor_type_(ObCompressorType::NONE_COMPRESSOR), encryption_(), encrypt_key_(), rowkey_array_(), column_array_(), is_inited_(false) { } ObStorageSchema::~ObStorageSchema() { reset(); } int ObStorageSchema::init( common::ObIAllocator &allocator, const ObTableSchema &input_schema, const lib::Worker::CompatMode compat_mode, const bool skip_column_info/* = false*/) { int ret = OB_SUCCESS; if (OB_UNLIKELY(is_inited_)) { ret = OB_INIT_TWICE; STORAGE_LOG(WARN, "init twice", K(ret), K_(is_inited)); } else if (OB_UNLIKELY(!input_schema.is_valid() || true == skip_column_info)) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "invalid args", K(ret), K(input_schema), K(skip_column_info)); } else { allocator_ = &allocator; rowkey_array_.set_allocator(&allocator); column_array_.set_allocator(&allocator); storage_schema_version_ = STORAGE_SCHEMA_VERSION; copy_from(input_schema); compat_mode_ = static_cast(compat_mode); } if (OB_FAIL(ret)) { } else if (OB_FAIL(generate_str(input_schema))) { STORAGE_LOG(WARN, "failed to generate string", K(ret), K(input_schema)); } else if (!skip_column_info && OB_FAIL(generate_column_array(input_schema))) { STORAGE_LOG(WARN, "failed to generate column array", K(ret), K(input_schema)); } else if (FALSE_IT(column_info_simplified_ = skip_column_info)) { } else if (OB_UNLIKELY(!is_valid())) { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "storage schema is invalid", K(ret)); } else { is_inited_ = true; } if (OB_UNLIKELY(!is_inited_)) { reset(); } return ret; } int ObStorageSchema::init( common::ObIAllocator &allocator, const ObStorageSchema &old_schema, const bool skip_column_info/* = false*/) { int ret = OB_SUCCESS; if (OB_UNLIKELY(is_inited_)) { ret = OB_INIT_TWICE; STORAGE_LOG(WARN, "init twice", K(ret), K_(is_inited)); } else if (OB_UNLIKELY(!old_schema.is_valid() || true == skip_column_info)) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "invalid args", K(ret), K(old_schema), K(skip_column_info)); } else { allocator_ = &allocator; rowkey_array_.set_allocator(&allocator); column_array_.set_allocator(&allocator); storage_schema_version_ = STORAGE_SCHEMA_VERSION; copy_from(old_schema); compat_mode_ = old_schema.compat_mode_; compressor_type_ = old_schema.compressor_type_; column_info_simplified_ = (skip_column_info || old_schema.column_info_simplified_); } if (OB_FAIL(ret)) { } else if (OB_FAIL(deep_copy_str(old_schema.encryption_, encryption_))) { STORAGE_LOG(WARN, "failed to deep copy encryption", K(ret), K(old_schema)); } else if (OB_FAIL(deep_copy_str(old_schema.encrypt_key_, encrypt_key_))) { STORAGE_LOG(WARN, "failed to deep copy encryption key", K(ret), K(old_schema)); } else if (column_info_simplified_) { // do nothing } else if (OB_FAIL(rowkey_array_.reserve(old_schema.rowkey_array_.count()))) { STORAGE_LOG(WARN, "failed to reserve for rowkey array", K(ret), K(old_schema)); } else if (OB_FAIL(rowkey_array_.assign(old_schema.rowkey_array_))) { STORAGE_LOG(WARN, "failed to copy row key array", K(ret), K(old_schema)); } else if (OB_FAIL(deep_copy_column_array(allocator, old_schema, old_schema.column_array_.count()))) { STORAGE_LOG(WARN, "failed to deep copy column array", K(ret), K(old_schema)); } if (OB_FAIL(ret)) { } else if (OB_UNLIKELY(!is_valid())) { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "storage schema is invalid", K(ret)); } else { is_inited_ = true; } if (OB_UNLIKELY(!is_inited_)) { reset(); } return ret; } int ObStorageSchema::deep_copy_column_array( common::ObIAllocator &allocator, const ObStorageSchema &src_schema, const int64_t copy_array_cnt) { int ret = OB_SUCCESS; if (OB_UNLIKELY(copy_array_cnt <= 0 || copy_array_cnt > src_schema.column_array_.count())) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "invalid argument", K(ret), K(copy_array_cnt), K(src_schema.column_array_)); } else if (OB_FAIL(column_array_.reserve(src_schema.column_array_.count()))) { STORAGE_LOG(WARN, "failed to reserve for column array", K(ret), K(src_schema)); } for (int i = 0; OB_SUCC(ret) && i < copy_array_cnt; ++i) { ObStorageColumnSchema col_schema; const ObStorageColumnSchema &src_col_schema = src_schema.column_array_.at(i); col_schema.info_ = src_col_schema.info_; col_schema.default_checksum_ = src_col_schema.default_checksum_; col_schema.meta_type_ = src_col_schema.meta_type_; if (OB_FAIL(col_schema.deep_copy_default_val(allocator, src_col_schema.orig_default_value_))) { STORAGE_LOG(WARN, "failed to deep copy col schema", K(ret), K(i), K(src_col_schema)); } else if (OB_FAIL(column_array_.push_back(col_schema))) { STORAGE_LOG(WARN, "failed to push back col schema", K(ret), K(i), K(copy_array_cnt), K(src_schema.column_array_.count()), K(col_schema)); col_schema.destroy(allocator); } } return ret; } int ObStorageSchema::deep_copy(const memtable::ObIMultiSourceDataUnit *src, ObIAllocator *allocator) { int ret = OB_SUCCESS; if (OB_UNLIKELY(nullptr == src || nullptr == allocator)) { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "invalid src info or allocator", K(ret), K(src), K(allocator)); } else if (OB_UNLIKELY(src->type() != type())) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "invalid type", K(ret), K(type()), KPC(src)); } else { ret = init(*allocator, *static_cast(src)); } return ret; } void ObStorageSchema::reset() { storage_schema_version_ = 0; info_ = 0; table_type_ = MAX_TABLE_TYPE; table_mode_.reset(); index_type_ = INDEX_TYPE_IS_NOT; row_store_type_ = ObStoreFormat::get_default_row_store_type(); schema_version_ = OB_INVALID_VERSION; column_cnt_ = 0; tablet_size_ = OB_DEFAULT_TABLET_SIZE; pctfree_ = OB_DEFAULT_PCTFREE; block_size_ = 0; progressive_merge_round_ = 0; progressive_merge_num_ = 0; master_key_id_ = INVALID_ID; compressor_type_ = ObCompressorType::NONE_COMPRESSOR; if (nullptr != allocator_) { reset_string(encryption_); reset_string(encrypt_key_); rowkey_array_.reset(); for (int i = 0; i < column_array_.count(); ++i) { column_array_.at(i).destroy(*allocator_); } column_array_.reset(); allocator_ = nullptr; } is_inited_ = false; } bool ObStorageSchema::is_valid() const { bool valid_ret = true; if (nullptr == allocator_ || schema_version_ < 0 || column_cnt_ <= 0 || tablet_size_ < 0 || pctfree_ < 0 || table_type_ >= MAX_TABLE_TYPE || !table_mode_.is_valid() || index_type_ >= INDEX_TYPE_MAX || !check_column_array_valid(rowkey_array_) || !check_column_array_valid(column_array_)) { valid_ret = false; STORAGE_LOG(WARN, "invalid", K_(is_inited), KP_(allocator), K_(schema_version), K_(column_cnt), K_(tablet_size), K_(pctfree), K_(table_type), K_(table_mode), K_(index_type)); } else if (!column_info_simplified_ && column_cnt_ != column_array_.count()) { valid_ret = false; STORAGE_LOG(WARN, "invalid column count", K(valid_ret), K_(column_info_simplified), K_(column_cnt), K_(column_array)); } else if (is_view_table()) { // no need checking other options for view } return valid_ret; } int ObStorageSchema::serialize(char *buf, const int64_t buf_len, int64_t &pos) const { int ret = OB_SUCCESS; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; STORAGE_LOG(WARN, "not inited", K(ret), K_(is_inited)); } else if (OB_ISNULL(buf) || OB_UNLIKELY(buf_len <= 0) || OB_UNLIKELY(pos < 0)) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "invalid args", K(ret), K(buf), K(buf_len), K(pos)); } else if (STORAGE_SCHEMA_VERSION == storage_schema_version_) { LST_DO_CODE(OB_UNIS_ENCODE, storage_schema_version_, info_, table_type_, table_mode_, index_type_, row_store_type_, schema_version_, column_cnt_, tablet_size_, pctfree_, block_size_, progressive_merge_round_, progressive_merge_num_, master_key_id_, compressor_type_, encryption_, encrypt_key_); if (OB_FAIL(ret) || column_info_simplified_) { } else if (OB_FAIL(serialize_column_array(buf, buf_len, pos, rowkey_array_))){ STORAGE_LOG(WARN, "failed to serialize rowkey columns", K_(rowkey_array)); } else if (OB_FAIL(serialize_column_array(buf, buf_len, pos, column_array_))){ STORAGE_LOG(WARN, "failed to serialize columns", K_(column_array)); } } else { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "invalid storage schema version", K(ret), K_(version)); } return ret; } int ObStorageSchema::deserialize( common::ObIAllocator &allocator, const char *buf, const int64_t data_len, int64_t &pos) { int ret = OB_SUCCESS; if (OB_UNLIKELY(is_inited_)) { ret = OB_INIT_TWICE; STORAGE_LOG(WARN, "cannot deserialize inited storage schema", K(ret), K_(is_inited)); } else if (OB_ISNULL(buf) || OB_UNLIKELY(data_len <= 0) || OB_UNLIKELY(pos < 0) || OB_UNLIKELY(data_len <= pos)) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "invalid args", K(ret), K(buf), K(data_len), K(pos)); } else { allocator_ = &allocator; rowkey_array_.set_allocator(&allocator); column_array_.set_allocator(&allocator); } if (OB_FAIL(serialization::decode(buf, data_len, pos, storage_schema_version_))) { STORAGE_LOG(WARN, "failed to deserialize version", K(ret), K(data_len), K(pos)); } else if (STORAGE_SCHEMA_VERSION == storage_schema_version_) { ObString tmp_encryption; ObString tmp_encrypt_key; LST_DO_CODE(OB_UNIS_DECODE, info_, table_type_, table_mode_, index_type_, row_store_type_, schema_version_, column_cnt_, tablet_size_, pctfree_, block_size_, progressive_merge_round_, progressive_merge_num_, master_key_id_, compressor_type_, tmp_encryption, tmp_encrypt_key); if (OB_FAIL(ret)) { } else if (OB_FAIL(deep_copy_str(tmp_encryption, encryption_))) { STORAGE_LOG(WARN, "failed to deep copy string", K(ret), K(tmp_encryption)); } else if (OB_FAIL(deep_copy_str(tmp_encrypt_key, encrypt_key_))) { STORAGE_LOG(WARN, "failed to deep copy string", K(ret), K(tmp_encrypt_key)); } else if (column_info_simplified_) { // do noting } else if (OB_FAIL(deserialize_rowkey_column_array(buf, data_len, pos))){ STORAGE_LOG(WARN, "failed to deserialize rowkey columns", K(ret), K_(rowkey_array)); } else if (OB_FAIL(deserialize_column_array(allocator, buf, data_len, pos))){ STORAGE_LOG(WARN, "failed to deserialize columns", K(ret), K_(column_array)); } if (OB_SUCC(ret)) { is_inited_ = true; } } else { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "invalid version", K(ret), K_(storage_schema_version)); } if (OB_UNLIKELY(!is_inited_)) { reset(); } return ret; } int ObStorageSchema::deserialize_rowkey_column_array( const char *buf, const int64_t data_len, int64_t &pos) { int ret = OB_SUCCESS; int64_t count = 0; if (OB_ISNULL(buf) || OB_UNLIKELY(data_len <= 0) || OB_UNLIKELY(pos > data_len)) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "invalid argument", K(buf), K(data_len), K(pos), K(ret)); } else if (pos == data_len) { //do nothing } else if (OB_FAIL(serialization::decode_vi64(buf, data_len, pos, &count))) { STORAGE_LOG(WARN, "Fail to decode column count", K(ret)); } else if (OB_FAIL(rowkey_array_.reserve(count))) { STORAGE_LOG(WARN, "Fail to reserve column array", K(ret), K(count)); } else { ObStorageRowkeyColumnSchema column; for (int64_t i = 0; OB_SUCC(ret) && i < count; ++i) { column.reset(); if (OB_FAIL(column.deserialize(buf, data_len, pos))) { STORAGE_LOG(WARN,"Fail to deserialize column", K(ret)); } else if (OB_FAIL(rowkey_array_.push_back(column))) { STORAGE_LOG(WARN, "Fail to add column", K(ret)); } } } return ret; } int ObStorageSchema::deserialize_column_array( ObIAllocator &allocator, const char *buf, const int64_t data_len, int64_t &pos) { int ret = OB_SUCCESS; int64_t count = 0; if (OB_ISNULL(buf) || OB_UNLIKELY(data_len <= 0) || OB_UNLIKELY(pos > data_len)) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "invalid argument", K(buf), K(data_len), K(pos), K(ret)); } else if (pos == data_len) { //do nothing } else if (OB_FAIL(serialization::decode_vi64(buf, data_len, pos, &count))) { STORAGE_LOG(WARN, "Fail to decode column count", K(ret)); } else if (OB_FAIL(column_array_.reserve(count))) { STORAGE_LOG(WARN, "Fail to reserve column array", K(ret), K(count)); } else { ObStorageColumnSchema column; for (int64_t i = 0; OB_SUCC(ret) && i < count; ++i) { column.reset(); if (OB_FAIL(column.deserialize(buf, data_len, pos))) { STORAGE_LOG(WARN,"Fail to deserialize column", K(ret)); } else if (column.orig_default_value_.get_deep_copy_size() > 0) { ObStorageColumnSchema deep_copy_column; if (OB_FAIL(deep_copy_column.deep_copy_default_val(allocator, column.get_orig_default_value()))) { STORAGE_LOG(WARN, "failed to deep copy default val", K(ret), K(column)); } else { column.orig_default_value_ = deep_copy_column.orig_default_value_; } } if (OB_FAIL(ret)) { } else if (OB_FAIL(column_array_.push_back(column))) { STORAGE_LOG(WARN, "Fail to add column", K(ret), K(column)); column.destroy(allocator); } } } return ret; } int64_t ObStorageSchema::get_serialize_size() const { int64_t len = 0; LST_DO_CODE(OB_UNIS_ADD_LEN, storage_schema_version_, info_, table_type_, table_mode_, index_type_, row_store_type_, schema_version_, column_cnt_, tablet_size_, pctfree_, block_size_, progressive_merge_round_, progressive_merge_num_, master_key_id_, compressor_type_, encryption_, encrypt_key_); //get columms size if (!column_info_simplified_) { len += get_column_array_serialize_length(rowkey_array_); len += get_column_array_serialize_length(column_array_); } return len; } int ObStorageSchema::generate_str(const ObTableSchema &input_schema) { int ret = OB_SUCCESS; if (OB_FAIL(deep_copy_str(input_schema.get_encryption_str(), encryption_))) { STORAGE_LOG(WARN, "failed to deep copy string", K(ret), K(*this)); } else if (OB_FAIL(deep_copy_str(input_schema.get_encrypt_key(), encrypt_key_))) { STORAGE_LOG(WARN, "failed to deep copy string", K(ret), K(*this)); } return ret; } int ObStorageSchema::generate_column_array(const ObTableSchema &input_schema) { int ret = OB_SUCCESS; const bool skip_rowkey = true; // build column schema map common::hash::ObHashMap tmp_map; // column_id -> index if (OB_FAIL(tmp_map.create(input_schema.get_column_count(), "StorageSchema"))) { STORAGE_LOG(WARN, "failed to create map", K(ret)); } else if (OB_FAIL(input_schema.check_column_array_sorted_by_column_id(skip_rowkey))) { STORAGE_LOG(WARN, "invalid schema", K(ret), K(input_schema)); } ObTableSchema::const_column_iterator iter = input_schema.column_begin(); ObColumnSchemaV2 *col = NULL; ObStorageColumnSchema col_schema; if (OB_FAIL(ret)) { } else if (OB_FAIL(column_array_.reserve(input_schema.get_column_count()))) { STORAGE_LOG(WARN, "Fail to reserve column array", K(ret)); } int col_idx = 0; blocksstable::ObStorageDatum datum; for ( ; OB_SUCC(ret) && iter != input_schema.column_end(); iter++) { if (OB_ISNULL(col = *iter)) { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "The column is NULL", K(col)); } else { col_schema.reset(); col_schema.is_rowkey_column_ = col->is_rowkey_column(); col_schema.is_column_stored_in_sstable_ = col->is_column_stored_in_sstable(); col_schema.is_generated_column_ = col->is_generated_column(); col_schema.meta_type_ = col->get_meta_type(); if (ob_is_large_text(col->get_data_type())) { col_schema.default_checksum_ = 0; } else if (OB_FAIL(datum.from_obj_enhance(col->get_orig_default_value()))) { STORAGE_LOG(WARN, "Failed to transefer obj to datum", K(ret)); } else { col_schema.default_checksum_ = datum.checksum(0); } if (OB_FAIL(col_schema.deep_copy_default_val(*allocator_, col->get_orig_default_value()))) { STORAGE_LOG(WARN, "failed to deep copy", K(ret), K(col->get_orig_default_value())); } else if (OB_FAIL(column_array_.push_back(col_schema))) { STORAGE_LOG(WARN, "Fail to push into column array", K(ret), K(col_schema)); col_schema.destroy(*allocator_); } else if (OB_FAIL(tmp_map.set_refactored(col->get_column_id(), col_idx))) { STORAGE_LOG(WARN, "failed to set column map", K(ret), "col_id", col->get_column_id(), K(col_idx)); } else { col_idx++; } } } ObStorageRowkeyColumnSchema rowkey_schema; const common::ObRowkeyInfo &rowkey_info = input_schema.get_rowkey_info(); // add rowkey columns const ObRowkeyColumn *rowkey_column = NULL; if (OB_FAIL(ret)) { } else if (OB_FAIL(rowkey_array_.reserve(rowkey_info.get_size()))) { STORAGE_LOG(WARN, "Fail to reserve rowkey column array", K(ret)); } uint64_t find_idx = 0; for (int64_t i = 0; OB_SUCC(ret) && i < rowkey_info.get_size(); ++i) { if (NULL == (rowkey_column = rowkey_info.get_column(i))) { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "The rowkey column is NULL", K(i)); } else if (OB_FAIL(tmp_map.get_refactored(rowkey_column->column_id_, find_idx))) { STORAGE_LOG(WARN, "failed to get column idx from tmp_map", K(ret), "column_id", rowkey_column->column_id_); } else { rowkey_schema.reset(); rowkey_schema.column_idx_ = common::OB_APP_MIN_COLUMN_ID + find_idx; rowkey_schema.meta_type_ = rowkey_column->type_; rowkey_schema.order_ = rowkey_column->order_; if (OB_FAIL(rowkey_array_.push_back(rowkey_schema))) { STORAGE_LOG(WARN, "Fail to add rowkey column id to rowkey array", K(ret)); } } } if (tmp_map.created()) { tmp_map.destroy(); } return ret; } int ObStorageSchema::get_store_column_ids( common::ObIArray &column_ids, const bool full_col) const { UNUSED(full_col); int ret = OB_SUCCESS; bool no_virtual = true; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; STORAGE_LOG(WARN, "not inited", K(ret), K_(is_inited)); } else { if (is_storage_index_table()) { no_virtual = false; } if (OB_FAIL(get_column_ids(column_ids, no_virtual))) { STORAGE_LOG(WARN, "fail to get column ids", K(ret)); } } return ret; } int ObStorageSchema::get_column_ids_without_rowkey( common::ObIArray &column_ids, const bool no_virtual) const { int ret = OB_SUCCESS; ObColDesc col_desc; for (int64_t i = 0; OB_SUCC(ret) && i < column_cnt_; i++) { const ObStorageColumnSchema &column = column_array_[i]; if (!(column.is_rowkey_column_ || (no_virtual && !column.is_column_stored_in_sstable_))) { col_desc.col_id_ = common::OB_APP_MIN_COLUMN_ID + i; col_desc.col_type_ = column.meta_type_; //for non-rowkey, col_desc.col_order_ is not meaningful if (OB_FAIL(column_ids.push_back(col_desc))) { STORAGE_LOG(WARN, "Fail to add column id to column_ids", K(ret)); } } } return ret; } int ObStorageSchema::get_column_ids(common::ObIArray &column_ids, bool no_virtual) const { int ret = OB_SUCCESS; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; STORAGE_LOG(WARN, "not inited", K(ret), K_(is_inited)); } else if (OB_FAIL(get_rowkey_column_ids(column_ids))) { // add rowkey columns STORAGE_LOG(WARN, "Fail to get rowkey column ids", K(ret)); } else if (OB_FAIL(get_column_ids_without_rowkey(column_ids, no_virtual))) { //add other columns STORAGE_LOG(WARN, "Fail to get column ids with out rowkey", K(ret)); } return ret; } int ObStorageSchema::get_rowkey_column_ids(common::ObIArray &column_ids) const { int ret = OB_SUCCESS; ObColDesc col_desc; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; STORAGE_LOG(WARN, "not inited", K(ret), K_(is_inited)); } else { //add rowkey columns for (int64_t i = 0; OB_SUCC(ret) && i < rowkey_array_.count(); ++i) { col_desc.col_id_ = rowkey_array_[i].column_idx_; col_desc.col_type_ = rowkey_array_[i].meta_type_; col_desc.col_order_ = (ObOrderType)rowkey_array_[i].order_; if (OB_FAIL(column_ids.push_back(col_desc))) { STORAGE_LOG(WARN, "Fail to add rowkey column id to column_ids", K(ret)); } } } return ret; } int ObStorageSchema::has_lob_column(bool &has_lob, const bool check_large /*= false*/) const { int ret = OB_SUCCESS; has_lob = false; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; STORAGE_LOG(WARN, "not inited", K(ret), K_(is_inited)); } for (int i = 0; OB_SUCC(ret) && !has_lob && i < column_array_.count(); ++i) { if (ob_is_json_tc(column_array_[i].meta_type_.get_type())) { has_lob = true; } else if (check_large) { if (ob_is_large_text(column_array_[i].meta_type_.get_type())) { has_lob = true; } } else if (ob_is_text_tc(column_array_[i].meta_type_.get_type())) { has_lob = true; } } return ret; } int ObStorageSchema::get_encryption_id(int64_t &encrypt_id) const { int ret = OB_SUCCESS; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; STORAGE_LOG(WARN, "not inited", K(ret), K_(is_inited)); } else if (OB_FAIL(share::ObEncryptionUtil::parse_encryption_id(encryption_, encrypt_id))) { STORAGE_LOG(WARN, "failed to parse_encrytion_id", K(ret), K(encryption_)); } return ret; } bool ObStorageSchema::need_encrypt() const { bool ret = false; if (0 != encryption_.length() && 0 != encryption_.case_compare("none")) { ret = true; } return ret; } int ObStorageSchema::get_stored_column_count_in_sstable(int64_t &column_count) const { int ret = OB_SUCCESS; column_count = 0; if (OB_FAIL(get_store_column_count(column_count, true/*full_col*/))) { STORAGE_LOG(WARN, "fail to get store column count", K(ret), K(column_count)); } else { column_count += storage::ObMultiVersionRowkeyHelpper::get_extra_rowkey_col_cnt(); } return ret; } int ObStorageSchema::get_store_column_count(int64_t &column_count, const bool full_col) const { UNUSED(full_col); int ret = OB_SUCCESS; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; STORAGE_LOG(WARN, "not inited", K(ret), K_(is_inited)); } else if (is_storage_index_table()) { column_count = column_cnt_; } else { column_count = 0; for (int64_t i = 0; i < column_cnt_; ++i) { if (column_array_[i].is_column_stored_in_sstable_) { // current column is not virtual ++column_count; } } } return ret; } int ObStorageSchema::init_column_meta_array( common::ObIArray &meta_array) const { int ret = OB_SUCCESS; ObArray columns; if (OB_FAIL(get_multi_version_column_descs(columns))) { STORAGE_LOG(WARN, "fail to get store column ids", K(ret)); } else { // build column schema map common::hash::ObHashMap tmp_map; // column_id -> index if (OB_FAIL(tmp_map.create(column_array_.count(), "StorageSchema"))) { STORAGE_LOG(WARN, "failed to create map", K(ret)); } for (int i = 0; OB_SUCC(ret) && i < column_array_.count(); ++i) { if (OB_FAIL(tmp_map.set_refactored(common::OB_APP_MIN_COLUMN_ID + i, i))) { STORAGE_LOG(WARN, "failed to set column map", K(ret), K(i), K(column_array_.at(i))); } } blocksstable::ObSSTableColumnMeta col_meta; uint64_t idx = 0; for (int64_t i = 0; OB_SUCC(ret) && i < columns.count(); ++i) { const uint64_t column_idx = columns.at(i).col_id_; col_meta.column_id_ = column_idx; col_meta.column_checksum_ = 0; if (OB_FAIL(tmp_map.get_refactored(column_idx, idx))) { // if it's multi version extra rowkey, no problem if (column_idx == OB_HIDDEN_TRANS_VERSION_COLUMN_ID || column_idx == OB_HIDDEN_SQL_SEQUENCE_COLUMN_ID) { col_meta.column_default_checksum_ = 0; ret = OB_SUCCESS; } else { STORAGE_LOG(WARN, "failed to get column schema", K(ret), K(i), K(columns.at(i))); } } else if (idx >= column_array_.count()) { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "idx is invalid", K(ret), K(idx), K(*this)); } else { const ObStorageColumnSchema &col_schema = column_array_.at(idx); if (!col_schema.is_column_stored_in_sstable_ && !is_storage_index_table()) { ret = OB_ERR_UNEXPECTED; STORAGE_LOG(WARN, "virtual generated column should be filtered already", K(ret), K(col_schema)); } else { col_meta.column_default_checksum_ = col_schema.default_checksum_; } } if (OB_SUCC(ret) && OB_FAIL(meta_array.push_back(col_meta))) { STORAGE_LOG(WARN, "Fail to push column meta", K(ret)); } } // end for if (tmp_map.created()) { tmp_map.destroy(); } } return ret; } int ObStorageSchema::get_orig_default_row( const common::ObIArray &column_ids, blocksstable::ObDatumRow &default_row) const { int ret = OB_SUCCESS; if (OB_UNLIKELY(!default_row.is_valid() || default_row.count_ != column_ids.count() || column_ids.count() > column_cnt_ + ObMultiVersionRowkeyHelpper::get_extra_rowkey_col_cnt())) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "Invalid argument", K(ret), K(column_cnt_), K(default_row), K(column_ids.count())); } for (int64_t i = 0; OB_SUCC(ret) && i < column_ids.count(); ++i) { if (column_ids.at(i).col_id_ == OB_HIDDEN_TRANS_VERSION_COLUMN_ID || column_ids.at(i).col_id_ == OB_HIDDEN_SQL_SEQUENCE_COLUMN_ID) { default_row.storage_datums_[i].set_int(0); } else { const ObStorageColumnSchema *col_schema = nullptr; if (OB_ISNULL(col_schema = get_column_schema(column_ids.at(i).col_id_))) { ret = OB_ERR_SYS; STORAGE_LOG(WARN, "column id not found", K(ret), K(column_ids.at(i))); } else if (OB_FAIL(default_row.storage_datums_[i].from_obj_enhance(col_schema->get_orig_default_value()))) { STORAGE_LOG(WARN, "Failed to transefer obj to datum", K(ret)); } } } return ret; } const ObStorageColumnSchema *ObStorageSchema::get_column_schema(const int64_t column_idx) const { const ObStorageColumnSchema *found_col = nullptr; for (int64_t j = 0; j < column_cnt_; ++j) { const ObStorageColumnSchema &column = column_array_[j]; if (common::OB_APP_MIN_COLUMN_ID + j == column_idx) { found_col = &column; break; } } return found_col; } int ObStorageSchema::get_multi_version_column_descs(common::ObIArray &column_descs) const { int ret = OB_SUCCESS; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; STORAGE_LOG(WARN, "not inited", K(ret), K_(is_inited)); } else if (OB_FAIL(get_rowkey_column_ids(column_descs))) { // add rowkey columns STORAGE_LOG(WARN, "Fail to get rowkey column descs", K(ret)); } else if (OB_FAIL(storage::ObMultiVersionRowkeyHelpper::add_extra_rowkey_cols(column_descs))) { STORAGE_LOG(WARN, "failed to add extra rowkey cols", K(ret)); } else if (OB_FAIL(get_column_ids_without_rowkey(column_descs, !is_storage_index_table()))) { //add other columns STORAGE_LOG(WARN, "Fail to get column descs with out rowkey", K(ret)); } return ret; } void ObStorageSchema::copy_from(const share::schema::ObMergeSchema &input_schema) { is_use_bloomfilter_ = input_schema.is_use_bloomfilter(); table_type_ = input_schema.get_table_type(); table_mode_ = input_schema.get_table_mode_struct(); index_type_ = input_schema.get_index_type(); index_status_ = input_schema.get_index_status(); row_store_type_ = input_schema.get_row_store_type(); schema_version_ = input_schema.get_schema_version(); column_cnt_ = input_schema.get_column_count(); tablet_size_ = input_schema.get_tablet_size(); pctfree_ = input_schema.get_pctfree(); block_size_ = input_schema.get_block_size(); progressive_merge_round_ = input_schema.get_progressive_merge_round(); progressive_merge_num_ = input_schema.get_progressive_merge_num(); master_key_id_ = input_schema.get_master_key_id(); compressor_type_ = input_schema.get_compressor_type(); } int ObStorageSchema::deep_copy_str(const ObString &src, ObString &dest) { int ret = OB_SUCCESS; char *buf = NULL; if (src.length() > 0) { int64_t len = src.length() + 1; if (OB_ISNULL(src.ptr())) { ret = OB_INVALID_ARGUMENT; STORAGE_LOG(WARN, "The src is NULL", K(ret), K(src)); } else if (OB_ISNULL(buf = static_cast(allocator_->alloc(len)))) { ret = OB_ALLOCATE_MEMORY_FAILED; STORAGE_LOG(WARN, "Fail to allocate memory", K(ret), K(src.length())); } else { MEMCPY(buf, src.ptr(), len - 1); buf[len - 1] = '\0'; dest.assign_ptr(buf, static_cast(len-1)); } } else { dest.reset(); } return ret; } void ObStorageSchema::reset_string(ObString &str) { if (NULL != str.ptr() && 0 != str.length()) { allocator_->free(str.ptr()); } str.reset(); } } // namespace storage } // namespace oceanbase