/**

* 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.

*/

#define USING_LOG_PREFIX SQL_RESV

#include "sql/resolver/ob_stmt_resolver.h"

#include "common/sql_mode/ob_sql_mode_utils.h"

#include "common/ob_field.h"

#include "sql/session/ob_sql_session_info.h"

#include "sql/ob_sql_context.h"

#include "sql/ob_sql_utils.h"

namespace oceanbase

{

using namespace common;

using namespace share::schema;

namespace sql

{

uint64_t ObStmtResolver::generate_table_id()

{

if (NULL != params_.query_ctx_) {

return params_.query_ctx_->available_tb_id_--;

} else {

LOG_WARN_RET(OB_ERR_UNEXPECTED, "query ctx pointer is null");

return OB_INVALID_ID;

}

}

int ObStmtResolver::resolve_table_relation_node(const ParseNode *node,

ObString &table_name,

ObString &db_name,

bool is_org/*false*/,

bool is_oracle_sys_view,

char **dblink_name_ptr,

int32_t *dblink_name_len,

bool *has_dblink_node)

{

int ret = OB_SUCCESS;

bool is_db_explicit = false;

UNUSED(is_db_explicit);

if (OB_FAIL(resolve_table_relation_node_v2(node,

table_name,

db_name,

is_db_explicit,

is_org,

is_oracle_sys_view,

dblink_name_ptr,

dblink_name_len,

has_dblink_node))) {

LOG_WARN("failed to resolve table name", K(ret));

} else {

// do nothing

}

return ret;

}

// description: 解析关联表

//

// @param [in] node 与关联表相关的节点

// @param [out] table_name 向 arg 中填充的关联表名称

// @param [out] db_name 向 arg 中填充的关联库名称

// @return oceanbase error code defined in lib/ob_errno.def

int ObStmtResolver::resolve_table_relation_node_v2(const ParseNode *node,

ObString &table_name,

ObString &db_name,

bool &is_db_explicit,

bool is_org/*false*/,

bool is_oracle_sys_view,

char **dblink_name_ptr,

int32_t *dblink_name_len,

bool *has_dblink_node)

{

int ret = OB_SUCCESS;

is_db_explicit = false;

ParseNode *db_node = node->children_[0];

ParseNode *relation_node = node->children_[1];

int32_t table_len = static_cast<int32_t>(relation_node->str_len_);

table_name.assign_ptr(const_cast<char*>(relation_node->str_value_), table_len);

ObNameCaseMode mode = OB_NAME_CASE_INVALID;

ObCollationType cs_type = CS_TYPE_INVALID;

if (OB_NOT_NULL(has_dblink_node)) {

*has_dblink_node = false;

if (node->num_child_ >= 3 && NULL != node->children_[2]) {

*has_dblink_node = true;

}

}

if (NULL != dblink_name_ptr &&

NULL != dblink_name_len &&

node->num_child_ >= 3 &&

NULL != node->children_[2] &&

T_DBLINK_NAME == node->children_[2]->type_ &&

NULL != node->children_[2]->children_ &&

2 == node->children_[2]->num_child_ &&

NULL != node->children_[2]->children_[0] &&

NULL != node->children_[2]->children_[1]) {

//Obtaining dblink_name here is not to obtain the dblink name itself, but to determine whether there is an opt_dblink node

ParseNode *dblink_name_node = node->children_[2];

if (node->children_[2]->children_[1]->value_) { // dblink name is @!

*dblink_name_ptr = const_cast<char*>(node->children_[2]->children_[0]->str_value_);

*dblink_name_len = 1;

} else { // dblink name is @xxxx or @, @ will be skip before here

*dblink_name_ptr = const_cast<char*>(node->children_[2]->children_[0]->str_value_);

*dblink_name_len = static_cast<int32_t>(node->children_[2]->children_[0]->str_len_);

}

}

if (OB_ISNULL(session_info_)) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("session is NULL", K(ret));

} else if (OB_FAIL(session_info_->get_name_case_mode(mode))) {

SERVER_LOG(WARN, "fail to get name case mode", K(mode), K(ret));

} else if (OB_FAIL(session_info_->get_collation_connection(cs_type))) {

LOG_WARN("fail to get collation_connection", K(ret));

} else {

bool perserve_lettercase = lib::is_oracle_mode() ?

true : (mode != OB_LOWERCASE_AND_INSENSITIVE);

int tmp_ret = ObSQLUtils::check_and_convert_table_name(cs_type, perserve_lettercase, table_name);

//因索引表存在前缀,故第1次检查table_name超长时,需要继续获取db信息以判断是否索引表

if (OB_SUCCESS == tmp_ret || OB_ERR_TOO_LONG_IDENT == tmp_ret

|| (session_info_->get_ddl_info().is_ddl() && OB_WRONG_TABLE_NAME == tmp_ret)) {

if (NULL == db_node) {

if (is_oracle_sys_view) {

// ObString tmp(OB_ORA_SYS_SCHEMA_NAME); // right code

ObString tmp("SYS");

if (OB_FAIL(ob_write_string(*allocator_, tmp, db_name))) {

LOG_WARN("fail to write db name", K(ret));

}

} else if (is_org) {

db_name = ObString::make_empty_string();

} else if (session_info_->get_database_name().empty()) {

ret = OB_ERR_NO_DB_SELECTED;

LOG_WARN("No database selected");

} else {

db_name = session_info_->get_database_name();

}

} else {

is_db_explicit = true;

int32_t db_len = static_cast<int32_t>(db_node->str_len_);

db_name.assign_ptr(const_cast<char*>(db_node->str_value_), db_len);

if (OB_FAIL(ObSQLUtils::check_and_convert_db_name(cs_type, perserve_lettercase, db_name))) {

LOG_WARN("fail to check and convert database name", K(db_name), K(ret));

} else {

CK (OB_NOT_NULL(schema_checker_->get_schema_guard()));

OZ (ObSQLUtils::cvt_db_name_to_org(*schema_checker_->get_schema_guard(),

session_info_,

db_name));

}

}

if (OB_SUCCESS == ret && (OB_ERR_TOO_LONG_IDENT == tmp_ret || OB_WRONG_TABLE_NAME == tmp_ret)) {

//直接查询索引表时,因索引前缀放宽表名长度限制

stmt::StmtType stmt_type = (NULL == get_basic_stmt()) ? stmt::T_NONE : get_basic_stmt()->get_stmt_type();

bool is_index_table = false;

uint64_t tenant_id = session_info_->get_effective_tenant_id();

const bool is_hidden = session_info_->is_table_name_hidden();

if (OB_FAIL(schema_checker_->check_table_exists(tenant_id, db_name, table_name, true, is_hidden, is_index_table))) {

LOG_WARN("fail to check and convert table name", K(tenant_id), K(db_name), K(table_name), K(ret));

} else if (OB_FAIL(ObSQLUtils::check_and_convert_table_name(cs_type, perserve_lettercase, table_name, stmt_type, is_index_table))) {

LOG_WARN("fail to check and convert table name", K(table_name), K(stmt_type), K(is_index_table), K(ret));

}

} else if (OB_ERR_TOO_LONG_IDENT == tmp_ret) {

//为与mysql兼容,优先返回第1次检查表名的错误码

ret = tmp_ret;

LOG_WARN("fail to check and convert table name", K(table_name), K(ret));

} else { } // do nothing

} else {

ret = tmp_ret;

LOG_WARN("fail to check and convert table name", K(table_name), K(ret));

}

}

return ret;

}

int ObStmtResolver::resolve_dblink_name(const ParseNode *table_node, uint64_t tenant_id, ObString &dblink_name, bool &is_reverse_link, bool &has_dblink_node)

{

int ret = OB_SUCCESS;

dblink_name.reset();

if (!OB_ISNULL(table_node) && table_node->num_child_ > 2 &&

!OB_ISNULL(table_node->children_) && !OB_ISNULL(table_node->children_[2])) {

const ParseNode *dblink_node = table_node->children_[2];

has_dblink_node = true;

if (!lib::is_oracle_mode()) {

uint64_t compat_version = 0;

if (OB_FAIL(GET_MIN_DATA_VERSION(tenant_id, compat_version))) {

LOG_WARN("fail to get data version", KR(ret), K(tenant_id));

} else if (compat_version < DATA_VERSION_4_2_0_0) {

ret = OB_NOT_SUPPORTED;

LOG_WARN("mysql dblink is not supported when MIN_DATA_VERSION is below DATA_VERSION_4_2_0_0", K(ret));

}

}

if (OB_FAIL(ret)) {

// do nothing

} else if (2 == dblink_node->num_child_ && !OB_ISNULL(dblink_node->children_) &&

!OB_ISNULL(dblink_node->children_[0])) {

int32_t dblink_name_len = static_cast<int32_t>(dblink_node->children_[0]->str_len_);

dblink_name.assign_ptr(dblink_node->children_[0]->str_value_, dblink_name_len);

if (!OB_ISNULL(dblink_node->children_[1])) {

is_reverse_link = dblink_node->children_[1]->value_;

}

}

}

return ret;

}

int ObStmtResolver::resolve_ref_factor(const ParseNode *node,

ObSQLSessionInfo *session_info,

ObString &table_name,

ObString &db_name)

{

int ret = OB_SUCCESS;

if (OB_ISNULL(node) || OB_ISNULL(session_info)) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("argument is NULL", K(node), K(session_info), K(ret));

} else {

ParseNode *db_node = node->children_[0];

ParseNode *relation_node = node->children_[1];

int32_t table_len = static_cast<int32_t>(relation_node->str_len_);

table_name.assign_ptr(const_cast<char*>(relation_node->str_value_), table_len);

ObNameCaseMode mode = OB_NAME_CASE_INVALID;

ObCollationType cs_type = CS_TYPE_INVALID;

if (OB_FAIL(session_info->get_name_case_mode(mode))) {

SERVER_LOG(WARN, "fail to get name case mode", K(mode), K(ret));

} else if (OB_FAIL(session_info->get_collation_connection(cs_type))) {

LOG_WARN("fail to get collation_connection", K(ret));

} else {

bool perserve_lettercase = lib::is_oracle_mode() ?

true : (mode != OB_LOWERCASE_AND_INSENSITIVE);

if (OB_FAIL(ObSQLUtils::check_and_convert_table_name(cs_type, perserve_lettercase, table_name))) {

LOG_WARN("fail to check and convert relation name", K(table_name), K(ret));

} else {

if (NULL == db_node) {

if (session_info->get_database_name().empty()) {

ret = OB_ERR_NO_DB_SELECTED;

LOG_WARN("No database selected");

} else {

db_name = session_info->get_database_name();

}

} else {

int32_t db_len = static_cast<int32_t>(db_node->str_len_);

db_name.assign_ptr(const_cast<char*>(db_node->str_value_), db_len);

if (OB_FAIL(ObSQLUtils::check_and_convert_db_name(cs_type, perserve_lettercase, db_name))) {

LOG_WARN("fail to check and convert database name", K(db_name), K(ret));

}

}

}

}

}

return ret;

}

int ObStmtResolver::resolve_database_factor(const ParseNode *node,

uint64_t tenant_id,

uint64_t &database_id,

ObString &db_name)

{

int ret = OB_SUCCESS;

database_id = OB_INVALID_ID;

if (OB_ISNULL(node)) {

ret = OB_INVALID_ARGUMENT;

LOG_WARN("node is NULL", K(ret));

} else if (OB_UNLIKELY(T_IDENT != node->type_)) {

ret = OB_INVALID_ARGUMENT;

LOG_WARN("node type is not T_IDENT", K(ret), K(node->type_));

} else if (FALSE_IT(db_name.assign_ptr(const_cast<char*>(node->str_value_),

static_cast<int32_t>(node->str_len_)))) {

// won't be here

} else if (OB_FAIL(schema_checker_->get_database_id(tenant_id, db_name, database_id))) {

LOG_USER_ERROR(OB_ERR_BAD_DATABASE, db_name.length(), db_name.ptr());

}

return ret;

}

int ObStmtResolver::normalize_table_or_database_names(ObString &name)

{

int ret = OB_SUCCESS;

ObNameCaseMode case_mode;

if (name.empty() || OB_ISNULL(session_info_)) {

ret = OB_INVALID_ARGUMENT;

LOG_WARN("invalid name is empty", K(name), K(ret));

} else if (OB_FAIL(session_info_->get_name_case_mode(case_mode))) {

LOG_WARN("fail to get name case mode", K(ret));

} else if (lib::is_oracle_mode()) {

/* ^-^ */

} else if (OB_LOWERCASE_AND_INSENSITIVE == case_mode) {

ObCharset::casedn(CS_TYPE_UTF8MB4_GENERAL_CI, name);

}

return ret;

}

int ObSynonymChecker::add_synonym_id(uint64_t synonym_id, uint64_t database_id)

{

int ret = OB_SUCCESS;

for (int64_t i = 0; OB_SUCC(ret) && i < synonym_ids_.count(); ++i) {

if (OB_UNLIKELY(synonym_id == synonym_ids_.at(i))) {

ret = OB_ERR_LOOP_OF_SYNONYM;

LOG_WARN("looping chain of synonyms", K(synonym_id), K(ret));

}

}

if (OB_FAIL(ret)) {

} else if (OB_FAIL(synonym_ids_.push_back(synonym_id))) {

LOG_WARN("fail to add synonym_id", K(synonym_id), K(ret));

} else if (OB_FAIL(database_ids_.push_back(database_id))) {

LOG_WARN("fail to add database id", K(database_id), K(ret));

}

return ret;

}

int ObStmtResolver::get_column_schema(const uint64_t table_id,

const ObString &column_name,

const share::schema::ObColumnSchemaV2 *&column_schema,

const bool get_hidden /* = false */,

bool is_link /* = false */)

{

int ret = OB_SUCCESS;

if (OB_ISNULL(schema_checker_) || OB_ISNULL(session_info_)) {

ret = OB_NOT_INIT;

SQL_RESV_LOG(WARN, "not init", K(ret), KP(schema_checker_), KP(session_info_));

} else {

const bool is_rowid_col =

lib::is_oracle_mode()

&& ObCharset::case_insensitive_equal(column_name, OB_HIDDEN_LOGICAL_ROWID_COLUMN_NAME);

const bool hidden = is_rowid_col || get_hidden || session_info_->is_inner();

// generated column added by function-based index is hidden in OB but can be selected in oracle

if (OB_FAIL(schema_checker_->get_column_schema(

session_info_->get_effective_tenant_id(), table_id, column_name, column_schema, true, is_link))) {

LOG_WARN("fail to get column schema", K(table_id), K(column_name), K(ret));

} else if (!hidden && column_schema->is_hidden() && !column_schema->is_generated_column() && !column_schema->is_udt_hidden_column()) {

ret = OB_ERR_BAD_FIELD_ERROR;

LOG_INFO("do not get hidden column", K(table_id), K(column_name), K(ret));

}

}

return ret;

}

int ObStmtResolver::get_column_schema(const uint64_t table_id,

const uint64_t column_id,

const share::schema::ObColumnSchemaV2 *&column_schema,

const bool get_hidden /* = false */,

bool is_link /* = false */)

{

int ret = OB_SUCCESS;

if (OB_ISNULL(schema_checker_) || OB_ISNULL(session_info_)) {

ret = OB_NOT_INIT;

SQL_RESV_LOG(WARN, "not init", K(ret), KP(schema_checker_), KP(session_info_));

} else {

const bool hidden = get_hidden || session_info_->is_inner();

if (OB_FAIL(schema_checker_->get_column_schema(session_info_->get_effective_tenant_id(), table_id, column_id, column_schema, hidden, is_link))) {

SQL_RESV_LOG(WARN, "get_column_schema failed", K(ret), K(session_info_->get_effective_tenant_id()), K(table_id), K(column_id), K(hidden), K(is_link));

}

}

return ret;

}

int ObStmtResolver::check_table_id_exists(uint64_t table_id, bool &is_exist)

{

int ret = OB_SUCCESS;

is_exist = false;

if (OB_HASH_EXIST == (ret = params_.table_ids_.exist_refactored(table_id))) {

ret = OB_SUCCESS;

is_exist = true;

} else if (OB_HASH_NOT_EXIST == ret) {

if (OB_FAIL(params_.table_ids_.set_refactored(table_id))) {

SQL_RESV_LOG(WARN, "insert table_id to set failed", K(table_id), K(ret));

}

} else {

SQL_RESV_LOG(WARN, "check table_id in table_ids set failed", K(table_id));

}

return ret;

}

} // namespace sql

} // namespace oceanbase