/* Copyright (c) 2002, 2010, Oracle and/or its affiliates. All rights reserved. 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 St, Fifth Floor, Boston, MA 02110-1301 USA */ #include "sql_priv.h" #include "unireg.h" #ifdef USE_PRAGMA_IMPLEMENTATION #pragma implementation #endif #include "mysql.h" #include "sp_head.h" #include "sql_cursor.h" #include "sp_rcontext.h" #include "sp_pcontext.h" #include "sql_select.h" // create_virtual_tmp_table /////////////////////////////////////////////////////////////////////////// // sp_rcontext implementation. /////////////////////////////////////////////////////////////////////////// sp_rcontext::sp_rcontext(const sp_pcontext *root_parsing_ctx, Field *return_value_fld, bool in_sub_stmt) :end_partial_result_set(false), m_root_parsing_ctx(root_parsing_ctx), m_var_table(NULL), m_return_value_fld(return_value_fld), m_return_value_set(false), m_in_sub_stmt(in_sub_stmt), m_ccount(0) { } sp_rcontext::~sp_rcontext() { if (m_var_table) free_blobs(m_var_table); // Leave m_handlers, m_handler_call_stack, m_var_items, m_cstack // and m_case_expr_holders untouched. // They are allocated in mem roots and will be freed accordingly. } sp_rcontext *sp_rcontext::create(THD *thd, const sp_pcontext *root_parsing_ctx, Field *return_value_fld) { sp_rcontext *ctx= new (thd->mem_root) sp_rcontext(root_parsing_ctx, return_value_fld, thd->in_sub_stmt); if (!ctx) return NULL; if (ctx->alloc_arrays(thd) || ctx->init_var_table(thd) || ctx->init_var_items(thd)) { delete ctx; return NULL; } return ctx; } bool sp_rcontext::alloc_arrays(THD *thd) { { size_t n= m_root_parsing_ctx->max_cursor_index(); m_cstack.reset( static_cast ( thd->alloc(n * sizeof (sp_cursor*))), n); } { size_t n= m_root_parsing_ctx->get_num_case_exprs(); m_case_expr_holders.reset( static_cast ( thd->calloc(n * sizeof (Item_cache*))), n); } return !m_cstack.array() || !m_case_expr_holders.array(); } bool sp_rcontext::init_var_table(THD *thd) { List field_def_lst; if (!m_root_parsing_ctx->max_var_index()) return false; m_root_parsing_ctx->retrieve_field_definitions(&field_def_lst); DBUG_ASSERT(field_def_lst.elements == m_root_parsing_ctx->max_var_index()); if (!(m_var_table= create_virtual_tmp_table(thd, field_def_lst))) return true; m_var_table->copy_blobs= true; m_var_table->alias.set("", 0, m_var_table->alias.charset()); return false; } bool sp_rcontext::init_var_items(THD *thd) { uint num_vars= m_root_parsing_ctx->max_var_index(); m_var_items.reset( static_cast ( thd->alloc(num_vars * sizeof (Item *))), num_vars); if (!m_var_items.array()) return true; for (uint idx = 0; idx < num_vars; ++idx) { if (!(m_var_items[idx]= new Item_field(m_var_table->field[idx]))) return true; } return false; } bool sp_rcontext::set_return_value(THD *thd, Item **return_value_item) { DBUG_ASSERT(m_return_value_fld); m_return_value_set = true; return sp_eval_expr(thd, m_return_value_fld, return_value_item); } bool sp_rcontext::push_cursor(sp_lex_keeper *lex_keeper, sp_instr_cpush *i) { /* We should create cursors in the callers arena, as it could be (and usually is) used in several instructions. */ sp_cursor *c= new (callers_arena->mem_root) sp_cursor(lex_keeper, i); if (c == NULL) return true; m_cstack[m_ccount++]= c; return false; } void sp_rcontext::pop_cursors(uint count) { DBUG_ASSERT(m_ccount >= count); while (count--) delete m_cstack[--m_ccount]; } bool sp_rcontext::push_handler(sp_handler *handler, uint first_ip) { /* We should create handler entries in the callers arena, as they could be (and usually are) used in several instructions. */ sp_handler_entry *he= new (callers_arena->mem_root) sp_handler_entry(handler, first_ip); if (he == NULL) return true; return m_handlers.append(he); } void sp_rcontext::pop_handlers(size_t count) { DBUG_ASSERT(m_handlers.elements() >= count); for (size_t i= 0; i < count; ++i) m_handlers.pop(); } bool sp_rcontext::handle_sql_condition(THD *thd, uint *ip, const sp_instr *cur_spi) { DBUG_ENTER("sp_rcontext::handle_sql_condition"); /* If this is a fatal sub-statement error, and this runtime context corresponds to a sub-statement, no CONTINUE/EXIT handlers from this context are applicable: try to locate one in the outer scope. */ if (thd->is_fatal_sub_stmt_error && m_in_sub_stmt) DBUG_RETURN(false); Diagnostics_area *da= thd->get_stmt_da(); const sp_handler *found_handler= NULL; const Sql_condition *found_condition= NULL; if (thd->is_error()) { found_handler= cur_spi->m_ctx->find_handler(da->get_sqlstate(), da->sql_errno(), Sql_condition::WARN_LEVEL_ERROR); if (found_handler) found_condition= da->get_error_condition(); /* Found condition can be NULL if the diagnostics area was full when the error was raised. It can also be NULL if Diagnostics_area::set_error_status(uint sql_error) was used. In these cases, make a temporary Sql_condition here so the error can be handled. */ if (!found_condition) { Sql_condition *condition= new (callers_arena->mem_root) Sql_condition(callers_arena->mem_root); condition->set(da->sql_errno(), da->get_sqlstate(), Sql_condition::WARN_LEVEL_ERROR, da->message()); found_condition= condition; } } else if (da->current_statement_warn_count()) { Diagnostics_area::Sql_condition_iterator it= da->sql_conditions(); const Sql_condition *c; // Here we need to find the last warning/note from the stack. // In MySQL most substantial warning is the last one. // (We could have used a reverse iterator here if one existed) while ((c= it++)) { if (c->get_level() == Sql_condition::WARN_LEVEL_WARN || c->get_level() == Sql_condition::WARN_LEVEL_NOTE) { const sp_handler *handler= cur_spi->m_ctx->find_handler(c->get_sqlstate(), c->get_sql_errno(), c->get_level()); if (handler) { found_handler= handler; found_condition= c; } } } } if (!found_handler) DBUG_RETURN(false); // At this point, we know that: // - there is a pending SQL-condition (error or warning); // - there is an SQL-handler for it. DBUG_ASSERT(found_condition); sp_handler_entry *handler_entry= NULL; for (size_t i= 0; i < m_handlers.elements(); ++i) { sp_handler_entry *h= m_handlers.at(i); if (h->handler == found_handler) { handler_entry= h; break; } } /* handler_entry usually should not be NULL here, as that indicates that the parser context thinks a HANDLER should be activated, but the runtime context cannot find it. However, this can happen (and this is in line with the Standard) if SQL-condition has been raised before DECLARE HANDLER instruction is processed. For example: CREATE PROCEDURE p() BEGIN DECLARE v INT DEFAULT 'get'; -- raises SQL-warning here DECLARE EXIT HANDLER ... -- this handler does not catch the warning END */ if (!handler_entry) DBUG_RETURN(false); // Mark active conditions so that they can be deleted when the handler exits. da->mark_sql_conditions_for_removal(); uint continue_ip= handler_entry->handler->type == sp_handler::CONTINUE ? cur_spi->get_cont_dest() : 0; /* End aborted result set. */ if (end_partial_result_set) thd->protocol->end_partial_result_set(thd); /* Reset error state. */ thd->clear_error(); thd->killed= NOT_KILLED; // Some errors set thd->killed // (e.g. "bad data"). /* Add a frame to handler-call-stack. */ Sql_condition_info *cond_info= new (callers_arena->mem_root) Sql_condition_info(found_condition, callers_arena); Handler_call_frame *frame= new (callers_arena->mem_root) Handler_call_frame(cond_info, continue_ip); m_handler_call_stack.append(frame); *ip= handler_entry->first_ip; DBUG_RETURN(true); } uint sp_rcontext::exit_handler(Diagnostics_area *da) { DBUG_ENTER("sp_rcontext::exit_handler"); DBUG_ASSERT(m_handler_call_stack.elements() > 0); Handler_call_frame *f= m_handler_call_stack.pop(); /* Remove the SQL conditions that were present in DA when the handler was activated. */ da->remove_marked_sql_conditions(); uint continue_ip= f->continue_ip; DBUG_RETURN(continue_ip); } int sp_rcontext::set_variable(THD *thd, Field *field, Item **value) { if (!value) { field->set_null(); return 0; } return sp_eval_expr(thd, field, value); } Item_cache *sp_rcontext::create_case_expr_holder(THD *thd, const Item *item) const { Item_cache *holder; Query_arena current_arena; thd->set_n_backup_active_arena(thd->spcont->callers_arena, ¤t_arena); holder= Item_cache::get_cache(item); thd->restore_active_arena(thd->spcont->callers_arena, ¤t_arena); return holder; } bool sp_rcontext::set_case_expr(THD *thd, int case_expr_id, Item **case_expr_item_ptr) { Item *case_expr_item= sp_prepare_func_item(thd, case_expr_item_ptr); if (!case_expr_item) return true; if (!m_case_expr_holders[case_expr_id] || m_case_expr_holders[case_expr_id]->result_type() != case_expr_item->result_type()) { m_case_expr_holders[case_expr_id]= create_case_expr_holder(thd, case_expr_item); } m_case_expr_holders[case_expr_id]->store(case_expr_item); m_case_expr_holders[case_expr_id]->cache_value(); return false; } /////////////////////////////////////////////////////////////////////////// // sp_cursor implementation. /////////////////////////////////////////////////////////////////////////// sp_cursor::sp_cursor(sp_lex_keeper *lex_keeper, sp_instr_cpush *i) :m_lex_keeper(lex_keeper), server_side_cursor(NULL), m_i(i) { /* currsor can't be stored in QC, so we should prevent opening QC for try to write results which are absent. */ lex_keeper->disable_query_cache(); } /* Open an SP cursor SYNOPSIS open() THD Thread handler RETURN 0 in case of success, -1 otherwise */ int sp_cursor::open(THD *thd) { if (server_side_cursor) { my_message(ER_SP_CURSOR_ALREADY_OPEN, ER(ER_SP_CURSOR_ALREADY_OPEN), MYF(0)); return -1; } if (mysql_open_cursor(thd, &result, &server_side_cursor)) return -1; return 0; } int sp_cursor::close(THD *thd) { if (! server_side_cursor) { my_message(ER_SP_CURSOR_NOT_OPEN, ER(ER_SP_CURSOR_NOT_OPEN), MYF(0)); return -1; } destroy(); return 0; } void sp_cursor::destroy() { delete server_side_cursor; server_side_cursor= NULL; } int sp_cursor::fetch(THD *thd, List *vars) { if (! server_side_cursor) { my_message(ER_SP_CURSOR_NOT_OPEN, ER(ER_SP_CURSOR_NOT_OPEN), MYF(0)); return -1; } if (vars->elements != result.get_field_count()) { my_message(ER_SP_WRONG_NO_OF_FETCH_ARGS, ER(ER_SP_WRONG_NO_OF_FETCH_ARGS), MYF(0)); return -1; } DBUG_EXECUTE_IF("bug23032_emit_warning", push_warning(thd, Sql_condition::WARN_LEVEL_WARN, ER_UNKNOWN_ERROR, ER(ER_UNKNOWN_ERROR));); result.set_spvar_list(vars); /* Attempt to fetch one row */ if (server_side_cursor->is_open()) server_side_cursor->fetch(1); /* If the cursor was pointing after the last row, the fetch will close it instead of sending any rows. */ if (! server_side_cursor->is_open()) { my_message(ER_SP_FETCH_NO_DATA, ER(ER_SP_FETCH_NO_DATA), MYF(0)); return -1; } return 0; } /////////////////////////////////////////////////////////////////////////// // sp_cursor::Select_fetch_into_spvars implementation. /////////////////////////////////////////////////////////////////////////// int sp_cursor::Select_fetch_into_spvars::prepare(List &fields, SELECT_LEX_UNIT *u) { /* Cache the number of columns in the result set in order to easily return an error if column count does not match value count. */ field_count= fields.elements; return select_result_interceptor::prepare(fields, u); } int sp_cursor::Select_fetch_into_spvars::send_data(List &items) { List_iterator_fast spvar_iter(*spvar_list); List_iterator_fast item_iter(items); sp_variable *spvar; Item *item; /* Must be ensured by the caller */ DBUG_ASSERT(spvar_list->elements == items.elements); /* Assign the row fetched from a server side cursor to stored procedure variables. */ for (; spvar= spvar_iter++, item= item_iter++; ) { if (thd->spcont->set_variable(thd, spvar->offset, &item)) return true; } return false; }