/* Copyright (c) 2005, 2010, Oracle and/or its affiliates. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #ifdef USE_PRAGMA_IMPLEMENTATION #pragma implementation /* gcc class implementation */ #endif #include #include "sql_priv.h" #include "unireg.h" #include "sql_cursor.h" #include "probes_mysql.h" #include "sql_parse.h" // mysql_execute_command /**************************************************************************** Declarations. ****************************************************************************/ /** Materialized_cursor -- an insensitive materialized server-side cursor. The result set of this cursor is saved in a temporary table at open. The cursor itself is simply an interface for the handler of the temporary table. */ class Materialized_cursor: public Server_side_cursor { MEM_ROOT main_mem_root; /* A fake unit to supply to select_send when fetching */ SELECT_LEX_UNIT fake_unit; TABLE *table; List item_list; ulong fetch_limit; ulong fetch_count; bool is_rnd_inited; public: Materialized_cursor(select_result *result, TABLE *table); int send_result_set_metadata(THD *thd, List &send_result_set_metadata); virtual bool is_open() const { return table != 0; } virtual int open(JOIN *join __attribute__((unused))); virtual void fetch(ulong num_rows); virtual void close(); virtual ~Materialized_cursor(); void on_table_fill_finished(); }; /** Select_materialize -- a mediator between a cursor query and the protocol. In case we were not able to open a non-materialzed cursor, it creates an internal temporary HEAP table, and insert all rows into it. When the table reaches max_heap_table_size, it's converted to a MyISAM table. Later this table is used to create a Materialized_cursor. */ class Select_materialize: public select_union { select_result *result; /**< the result object of the caller (PS or SP) */ public: Materialized_cursor *materialized_cursor; Select_materialize(THD *thd_arg, select_result *result_arg): select_union(thd_arg), result(result_arg), materialized_cursor(0) {} virtual bool send_result_set_metadata(List &list, uint flags); bool send_eof() { if (materialized_cursor) materialized_cursor->on_table_fill_finished(); return false; } void abort_result_set() { if (materialized_cursor) materialized_cursor->on_table_fill_finished(); } }; /**************************************************************************/ /** Attempt to open a materialized cursor. @param thd thread handle @param[in] result result class of the caller used as a destination for the rows fetched from the cursor @param[out] pcursor a pointer to store a pointer to cursor in @retval 0 the query has been successfully executed; in this case pcursor may or may not contain a pointer to an open cursor. @retval non-zero an error, 'pcursor' has been left intact. */ int mysql_open_cursor(THD *thd, select_result *result, Server_side_cursor **pcursor) { sql_digest_state *parent_digest; PSI_statement_locker *parent_locker; select_result *save_result; Select_materialize *result_materialize; LEX *lex= thd->lex; int rc; if (!(result_materialize= new (thd->mem_root) Select_materialize(thd, result))) return 1; save_result= lex->result; lex->result= result_materialize; MYSQL_QUERY_EXEC_START(thd->query(), thd->thread_id, (char *) (thd->db ? thd->db : ""), &thd->security_ctx->priv_user[0], (char *) thd->security_ctx->host_or_ip, 2); parent_digest= thd->m_digest; parent_locker= thd->m_statement_psi; thd->m_digest= NULL; thd->m_statement_psi= NULL; /* Mark that we can't use query cache with cursors */ thd->query_cache_is_applicable= 0; rc= mysql_execute_command(thd); thd->lex->restore_set_statement_var(); thd->m_digest= parent_digest; thd->m_statement_psi= parent_locker; MYSQL_QUERY_EXEC_DONE(rc); lex->result= save_result; /* Possible options here: - a materialized cursor is open. In this case rc is 0 and result_materialize->materialized is not NULL - an error occurred during materialization. result_materialize->materialized_cursor is not NULL, but rc != 0 - successful completion of mysql_execute_command without a cursor: rc is 0, result_materialize->materialized_cursor is NULL. This is possible if some command writes directly to the network, bypassing select_result mechanism. An example of such command is SHOW VARIABLES or SHOW STATUS. */ if (rc) { if (result_materialize->materialized_cursor) { /* Rollback metadata in the client-server protocol. */ result_materialize->abort_result_set(); delete result_materialize->materialized_cursor; } goto end; } if (result_materialize->materialized_cursor) { Materialized_cursor *materialized_cursor= result_materialize->materialized_cursor; /* NOTE: close_thread_tables() has been called in mysql_execute_command(), so all tables except from the cursor temporary table have been closed. */ if ((rc= materialized_cursor->open(0))) { delete materialized_cursor; goto end; } *pcursor= materialized_cursor; thd->stmt_arena->cleanup_stmt(); } end: delete result_materialize; return rc; } /**************************************************************************** Server_side_cursor ****************************************************************************/ Server_side_cursor::~Server_side_cursor() { } void Server_side_cursor::operator delete(void *ptr, size_t size) { Server_side_cursor *cursor= (Server_side_cursor*) ptr; MEM_ROOT own_root= *cursor->mem_root; DBUG_ENTER("Server_side_cursor::operator delete"); TRASH(ptr, size); /* If this cursor has never been opened mem_root is empty. Otherwise mem_root points to the memory the cursor object was allocated in. In this case it's important to call free_root last, and free a copy instead of *mem_root to avoid writing into freed memory. */ free_root(&own_root, MYF(0)); DBUG_VOID_RETURN; } /*************************************************************************** Materialized_cursor ****************************************************************************/ Materialized_cursor::Materialized_cursor(select_result *result_arg, TABLE *table_arg) :Server_side_cursor(&table_arg->mem_root, result_arg), table(table_arg), fetch_limit(0), fetch_count(0), is_rnd_inited(0) { fake_unit.init_query(); fake_unit.thd= table->in_use; } /** Preserve the original metadata to be sent to the client. Initiate sending of the original metadata to the client (call Protocol::send_result_set_metadata()). @param thd Thread identifier. @param send_result_set_metadata List of fields that would be sent. */ int Materialized_cursor::send_result_set_metadata( THD *thd, List &send_result_set_metadata) { Query_arena backup_arena; int rc; List_iterator_fast it_org(send_result_set_metadata); List_iterator_fast it_dst(item_list); Item *item_org; Item *item_dst; thd->set_n_backup_active_arena(this, &backup_arena); if ((rc= table->fill_item_list(&item_list))) goto end; DBUG_ASSERT(send_result_set_metadata.elements == item_list.elements); /* Unless we preserve the original metadata, it will be lost, since new fields describe columns of the temporary table. Allocate a copy of the name for safety only. Currently items with original names are always kept in memory, but in case this changes a memory leak may be hard to notice. */ while ((item_dst= it_dst++, item_org= it_org++)) { Send_field send_field; Item_ident *ident= static_cast(item_dst); item_org->make_field(&send_field); ident->db_name= thd->strdup(send_field.db_name); ident->table_name= thd->strdup(send_field.table_name); } /* Original metadata result set should be sent here. After mysql_execute_command() is finished, item_list can not be used for sending metadata, because it references closed table. */ rc= result->send_result_set_metadata(item_list, Protocol::SEND_NUM_ROWS); end: thd->restore_active_arena(this, &backup_arena); /* Check for thd->is_error() in case of OOM */ return rc || thd->is_error(); } int Materialized_cursor::open(JOIN *join __attribute__((unused))) { THD *thd= fake_unit.thd; int rc; Query_arena backup_arena; thd->set_n_backup_active_arena(this, &backup_arena); /* Create a list of fields and start sequential scan. */ rc= result->prepare(item_list, &fake_unit); rc= !rc && table->file->ha_rnd_init_with_error(TRUE); is_rnd_inited= !rc; thd->restore_active_arena(this, &backup_arena); /* Commit or rollback metadata in the client-server protocol. */ if (!rc) { thd->server_status|= SERVER_STATUS_CURSOR_EXISTS; result->send_eof(); } else { result->abort_result_set(); } return rc; } /** Fetch up to the given number of rows from a materialized cursor. Precondition: the cursor is open. If the cursor points after the last row, the fetch will automatically close the cursor and not send any data (except the 'EOF' packet with SERVER_STATUS_LAST_ROW_SENT). This is an extra round trip and probably should be improved to return SERVER_STATUS_LAST_ROW_SENT along with the last row. */ void Materialized_cursor::fetch(ulong num_rows) { THD *thd= table->in_use; int res= 0; result->begin_dataset(); for (fetch_limit+= num_rows; fetch_count < fetch_limit; fetch_count++) { if ((res= table->file->ha_rnd_next(table->record[0]))) break; /* Send data only if the read was successful. */ /* If network write failed (i.e. due to a closed socked), the error has already been set. Just return. */ if (result->send_data(item_list) > 0) return; } switch (res) { case 0: thd->server_status|= SERVER_STATUS_CURSOR_EXISTS; result->send_eof(); break; case HA_ERR_END_OF_FILE: thd->server_status|= SERVER_STATUS_LAST_ROW_SENT; result->send_eof(); close(); break; default: table->file->print_error(res, MYF(0)); close(); break; } } void Materialized_cursor::close() { /* Free item_list items */ free_items(); if (is_rnd_inited) (void) table->file->ha_rnd_end(); /* We need to grab table->mem_root to prevent free_tmp_table from freeing: the cursor object was allocated in this memory. */ main_mem_root= table->mem_root; mem_root= &main_mem_root; clear_alloc_root(&table->mem_root); free_tmp_table(table->in_use, table); table= 0; } Materialized_cursor::~Materialized_cursor() { if (is_open()) close(); } /* @brief Perform actions that are to be done when cursor materialization has finished. @detail This function is called when "OPEN $cursor" has finished filling the temporary table with rows that the cursor will return. Temporary table has table->field->orig_table pointing at the tables that are used in the cursor definition query. Pointers to these tables will not be valid after the query finishes. So, we do what is done for regular tables: have orig_table point at the table that the fields belong to. */ void Materialized_cursor::on_table_fill_finished() { uint fields= table->s->fields; for (uint i= 0; i < fields; i++) table->field[i]->orig_table= table->field[i]->table; } /*************************************************************************** Select_materialize ****************************************************************************/ bool Select_materialize::send_result_set_metadata(List &list, uint flags) { DBUG_ASSERT(table == 0); if (create_result_table(unit->thd, unit->get_unit_column_types(), FALSE, thd->variables.option_bits | TMP_TABLE_ALL_COLUMNS, "", FALSE, TRUE, TRUE)) return TRUE; materialized_cursor= new (&table->mem_root) Materialized_cursor(result, table); if (!materialized_cursor) { free_tmp_table(table->in_use, table); table= 0; return TRUE; } if (materialized_cursor->send_result_set_metadata(unit->thd, list)) { delete materialized_cursor; table= 0; materialized_cursor= 0; return TRUE; } return FALSE; }