/* Copyright (C) 2002 MySQL AB 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; either version 2 of the License, or (at your option) any later version. 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifdef __GNUC__ #pragma implementation #endif #include "mysql_priv.h" #include "sql_acl.h" #include "sp_head.h" #include "sp.h" #include "sp_pcontext.h" #include "sp_rcontext.h" Item_result sp_map_result_type(enum enum_field_types type) { switch (type) { case MYSQL_TYPE_TINY: case MYSQL_TYPE_SHORT: case MYSQL_TYPE_LONG: case MYSQL_TYPE_LONGLONG: case MYSQL_TYPE_INT24: return INT_RESULT; case MYSQL_TYPE_DECIMAL: case MYSQL_TYPE_FLOAT: case MYSQL_TYPE_DOUBLE: return REAL_RESULT; default: return STRING_RESULT; } } /* Evaluate a (presumed) func item. Always returns an item, the parameter ** if nothing else. */ Item * sp_eval_func_item(THD *thd, Item *it, enum enum_field_types type) { DBUG_ENTER("sp_eval_func_item"); it= it->this_item(); DBUG_PRINT("info", ("type: %d", type)); if (!it->fixed && it->fix_fields(thd, 0, &it)) { DBUG_PRINT("info", ("fix_fields() failed")); DBUG_RETURN(it); // Shouldn't happen? } /* QQ How do we do this? Is there some better way? */ if (type == MYSQL_TYPE_NULL) it= new Item_null(); else { switch (sp_map_result_type(type)) { case INT_RESULT: { longlong i= it->val_int(); if (it->null_value) { DBUG_PRINT("info", ("INT_RESULT: null")); it= new Item_null(); } else { DBUG_PRINT("info", ("INT_RESULT: %d", i)); it= new Item_int(it->val_int()); } break; } case REAL_RESULT: { double d= it->val(); if (it->null_value) { DBUG_PRINT("info", ("REAL_RESULT: null")); it= new Item_null(); } else { /* There's some difference between Item::new_item() and the * constructor; the former crashes, the latter works... weird. */ uint8 decimals= it->decimals; uint32 max_length= it->max_length; DBUG_PRINT("info", ("REAL_RESULT: %g", d)); it= new Item_real(it->val()); it->decimals= decimals; it->max_length= max_length; } break; } default: { char buffer[MAX_FIELD_WIDTH]; String tmp(buffer, sizeof(buffer), it->collation.collation); String *s= it->val_str(&tmp); if (it->null_value) { DBUG_PRINT("info", ("default result: null")); it= new Item_null(); } else { DBUG_PRINT("info",("default result: %*s",s->length(),s->c_ptr_quick())); it= new Item_string(thd->strmake(s->c_ptr_quick(), s->length()), s->length(), it->collation.collation); } break; } } } DBUG_RETURN(it); } /* * * sp_name * */ void sp_name::init_qname(THD *thd) { m_qname.length= m_db.length+m_name.length+1; m_qname.str= alloc_root(&thd->mem_root, m_qname.length+1); sprintf(m_qname.str, "%*s.%*s", m_db.length, (m_db.length ? m_db.str : ""), m_name.length, m_name.str); } sp_name * sp_name_current_db_new(THD *thd, LEX_STRING name) { sp_name *qname; if (! thd->db) qname= new sp_name(name); else { LEX_STRING db; db.length= strlen(thd->db); db.str= thd->strmake(thd->db, db.length); qname= new sp_name(db, name); } qname->init_qname(thd); return qname; } /* ------------------------------------------------------------------ */ /* * * sp_head * */ void * sp_head::operator new(size_t size) { DBUG_ENTER("sp_head::operator new"); MEM_ROOT own_root; sp_head *sp; bzero((char *)&own_root, sizeof(own_root)); init_alloc_root(&own_root, MEM_ROOT_BLOCK_SIZE, MEM_ROOT_PREALLOC); sp= (sp_head *)alloc_root(&own_root, size); sp->m_mem_root= own_root; DBUG_RETURN(sp); } void sp_head::operator delete(void *ptr, size_t size) { DBUG_ENTER("sp_head::operator delete"); MEM_ROOT own_root; sp_head *sp= (sp_head *)ptr; DBUG_PRINT("info", ("root: %lx", &sp->m_mem_root)); memcpy(&own_root, (const void *)&sp->m_mem_root, sizeof(MEM_ROOT)); free_root(&own_root, MYF(0)); DBUG_VOID_RETURN; } sp_head::sp_head() : Sql_alloc(), m_has_return(FALSE), m_simple_case(FALSE), m_multi_results(FALSE), m_free_list(NULL), m_returns_cs(NULL) { DBUG_ENTER("sp_head::sp_head"); m_backpatch.empty(); m_lex.empty(); DBUG_VOID_RETURN; } void sp_head::init(LEX *lex) { DBUG_ENTER("sp_head::init"); lex->spcont= m_pcont= new sp_pcontext(); my_init_dynamic_array(&m_instr, sizeof(sp_instr *), 16, 8); m_param_begin= m_param_end= m_returns_begin= m_returns_end= m_body_begin= 0; m_qname.str= m_db.str= m_name.str= m_params.str= m_retstr.str= m_body.str= m_defstr.str= 0; m_qname.length= m_db.length= m_name.length= m_params.length= m_retstr.length= m_body.length= m_defstr.length= 0; m_returns_cs= NULL; DBUG_VOID_RETURN; } void sp_head::init_strings(THD *thd, LEX *lex, sp_name *name) { DBUG_ENTER("sp_head::init_strings"); /* During parsing, we must use thd->mem_root */ MEM_ROOT *root= &thd->mem_root; DBUG_PRINT("info", ("name: %*.s%*s", name->m_db.length, name->m_db.str, name->m_name.length, name->m_name.str)); /* We have to copy strings to get them into the right memroot */ if (name->m_db.length == 0) { m_db.length= (thd->db ? strlen(thd->db) : 0); m_db.str= strmake_root(root, (thd->db ? thd->db : ""), m_db.length); } else { m_db.length= name->m_db.length; m_db.str= strmake_root(root, name->m_db.str, name->m_db.length); } m_name.length= name->m_name.length; m_name.str= strmake_root(root, name->m_name.str, name->m_name.length); if (name->m_qname.length == 0) name->init_qname(thd); m_qname.length= name->m_qname.length; m_qname.str= strmake_root(root, name->m_qname.str, m_qname.length); m_params.length= m_param_end- m_param_begin; m_params.str= strmake_root(root, (char *)m_param_begin, m_params.length); if (m_returns_begin && m_returns_end) { /* QQ KLUDGE: We can't seem to cut out just the type in the parser (without the RETURNS), so we'll have to do it here. :-( Furthermore, if there's a character type as well, it's not include (beyond the m_returns_end pointer), in which case we need m_returns_cs. */ char *p= (char *)m_returns_begin+strspn((char *)m_returns_begin,"\t\n\r "); p+= strcspn(p, "\t\n\r "); p+= strspn(p, "\t\n\r "); if (p < (char *)m_returns_end) m_returns_begin= (uchar *)p; /* While we're at it, trim the end too. */ p= (char *)m_returns_end-1; while (p > (char *)m_returns_begin && (*p == '\t' || *p == '\n' || *p == '\r' || *p == ' ')) p-= 1; m_returns_end= (uchar *)p+1; if (m_returns_cs) { String s((char *)m_returns_begin, m_returns_end - m_returns_begin, system_charset_info); s.append(' '); s.append(m_returns_cs->csname); m_retstr.length= s.length(); m_retstr.str= strmake_root(root, s.ptr(), m_retstr.length); } else { m_retstr.length= m_returns_end - m_returns_begin; m_retstr.str= strmake_root(root, (char *)m_returns_begin, m_retstr.length); } } m_body.length= lex->end_of_query - m_body_begin; m_body.str= strmake_root(root, (char *)m_body_begin, m_body.length); m_defstr.length= lex->end_of_query - lex->buf; m_defstr.str= strmake_root(root, (char *)lex->buf, m_defstr.length); DBUG_VOID_RETURN; } int sp_head::create(THD *thd) { DBUG_ENTER("sp_head::create"); int ret; DBUG_PRINT("info", ("type: %d name: %s params: %s body: %s", m_type, m_name.str, m_params.str, m_body.str)); #ifndef DBUG_OFF String s; sp_instr *i; uint ip= 0; while ((i = get_instr(ip))) { char buf[8]; sprintf(buf, "%4u: ", ip); s.append(buf); i->print(&s); s.append('\n'); ip+= 1; } s.append('\0'); DBUG_PRINT("info", ("Code %s\n%s", m_qname.str, s.ptr())); #endif if (m_type == TYPE_ENUM_FUNCTION) ret= sp_create_function(thd, this); else ret= sp_create_procedure(thd, this); DBUG_RETURN(ret); } sp_head::~sp_head() { destroy(); if (m_thd) restore_thd_mem_root(m_thd); } void sp_head::destroy() { DBUG_ENTER("sp_head::destroy"); DBUG_PRINT("info", ("name: %s", m_name.str)); sp_instr *i; LEX *lex; for (uint ip = 0 ; (i = get_instr(ip)) ; ip++) delete i; delete_dynamic(&m_instr); m_pcont->destroy(); free_items(m_free_list); while ((lex= (LEX *)m_lex.pop())) { if (lex != &m_thd->main_lex) // We got interrupted and have lex'es left delete lex; } DBUG_VOID_RETURN; } int sp_head::execute(THD *thd) { DBUG_ENTER("sp_head::execute"); char olddb[128]; char *olddbptr; sp_rcontext *ctx= thd->spcont; int ret= 0; uint ip= 0; #ifndef EMBEDDED_LIBRARY if (check_stack_overrun(thd, olddb)) { DBUG_RETURN(-1); } #endif olddbptr= thd->db; if ((ret= sp_use_new_db(thd, m_db.str, olddb, sizeof(olddb), 0))) goto done; if (ctx) ctx->clear_handler(); thd->query_error= 0; do { sp_instr *i; uint hip; // Handler ip i = get_instr(ip); // Returns NULL when we're done. if (i == NULL) break; DBUG_PRINT("execute", ("Instruction %u", ip)); ret= i->execute(thd, &ip); // Check if an exception has occurred and a handler has been found // Note: We havo to check even if ret==0, since warnings (and some // errors don't return a non-zero value. if (!thd->killed && ctx) { uint hf; switch (ctx->found_handler(&hip, &hf)) { case SP_HANDLER_NONE: break; case SP_HANDLER_CONTINUE: ctx->save_variables(hf); ctx->push_hstack(ip); // Fall through default: ip= hip; ret= 0; ctx->clear_handler(); continue; } } } while (ret == 0 && !thd->killed && !thd->query_error && !thd->net.report_error); done: DBUG_PRINT("info", ("ret=%d killed=%d query_error=%d", ret, thd->killed, thd->query_error)); if (thd->killed || thd->query_error || thd->net.report_error) ret= -1; /* If the DB has changed, the pointer has changed too, but the original thd->db will then have been freed */ if (olddbptr != thd->db) { if (! thd->killed) ret= sp_change_db(thd, olddb, 0); } DBUG_RETURN(ret); } int sp_head::execute_function(THD *thd, Item **argp, uint argcount, Item **resp) { DBUG_ENTER("sp_head::execute_function"); DBUG_PRINT("info", ("function %s", m_name.str)); uint csize = m_pcont->max_framesize(); uint params = m_pcont->params(); uint hmax = m_pcont->handlers(); uint cmax = m_pcont->cursors(); sp_rcontext *octx = thd->spcont; sp_rcontext *nctx = NULL; uint i; int ret; if (argcount != params) { // Need to use my_printf_error here, or it will not terminate the // invoking query properly. my_printf_error(ER_SP_WRONG_NO_OF_ARGS, ER(ER_SP_WRONG_NO_OF_ARGS), MYF(0), "FUNCTION", m_name.str, params, argcount); DBUG_RETURN(-1); } // QQ Should have some error checking here? (types, etc...) nctx= new sp_rcontext(csize, hmax, cmax); for (i= 0 ; i < params && i < argcount ; i++) { sp_pvar_t *pvar = m_pcont->find_pvar(i); nctx->push_item(sp_eval_func_item(thd, *argp++, pvar->type)); } // Close tables opened for subselect in argument list close_thread_tables(thd); // The rest of the frame are local variables which are all IN. // Default all variables to null (those with default clauses will // be set by an set instruction). { Item_null *nit= NULL; // Re-use this, and only create if needed for (; i < csize ; i++) { if (! nit) nit= new Item_null(); nctx->push_item(nit); } } thd->spcont= nctx; ret= execute(thd); if (ret == 0) { Item *it= nctx->get_result(); if (it) *resp= it; else { my_printf_error(ER_SP_NORETURNEND, ER(ER_SP_NORETURNEND), MYF(0), m_name.str); ret= -1; } } nctx->pop_all_cursors(); // To avoid memory leaks after an error thd->spcont= octx; DBUG_RETURN(ret); } int sp_head::execute_procedure(THD *thd, List *args) { DBUG_ENTER("sp_head::execute_procedure"); DBUG_PRINT("info", ("procedure %s", m_name.str)); int ret; uint csize = m_pcont->max_framesize(); uint params = m_pcont->params(); uint hmax = m_pcont->handlers(); uint cmax = m_pcont->cursors(); sp_rcontext *octx = thd->spcont; sp_rcontext *nctx = NULL; my_bool tmp_octx = FALSE; // True if we have allocated a temporary octx if (args->elements != params) { net_printf(thd, ER_SP_WRONG_NO_OF_ARGS, "PROCEDURE", m_name.str, params, args->elements); DBUG_RETURN(-1); } if (csize > 0 || hmax > 0 || cmax > 0) { Item_null *nit= NULL; // Re-use this, and only create if needed uint i; List_iterator_fast li(*args); Item *it; nctx= new sp_rcontext(csize, hmax, cmax); if (! octx) { // Create a temporary old context octx= new sp_rcontext(csize, hmax, cmax); tmp_octx= TRUE; } // QQ: Should do type checking? for (i = 0 ; (it= li++) && i < params ; i++) { sp_pvar_t *pvar = m_pcont->find_pvar(i); if (! pvar) nctx->set_oindex(i, -1); // Shouldn't happen else { if (pvar->mode == sp_param_out) { if (! nit) nit= new Item_null(); nctx->push_item(nit); // OUT } else nctx->push_item(sp_eval_func_item(thd, it,pvar->type)); // IN or INOUT // Note: If it's OUT or INOUT, it must be a variable. // QQ: We can check for global variables here, or should we do it // while parsing? if (pvar->mode == sp_param_in) nctx->set_oindex(i, -1); // IN else // OUT or INOUT nctx->set_oindex(i, static_cast(it)->get_offset()); } } // Close tables opened for subselect in argument list close_thread_tables(thd); // The rest of the frame are local variables which are all IN. // Default all variables to null (those with default clauses will // be set by an set instruction). for (; i < csize ; i++) { if (! nit) nit= new Item_null(); nctx->push_item(nit); } thd->spcont= nctx; } ret= execute(thd); // Don't copy back OUT values if we got an error if (ret) { if (thd->net.report_error) send_error(thd, 0, NullS); } else if (csize > 0) { List_iterator_fast li(*args); Item *it; // Copy back all OUT or INOUT values to the previous frame, or // set global user variables for (uint i = 0 ; (it= li++) && i < params ; i++) { int oi = nctx->get_oindex(i); if (oi >= 0) { if (! tmp_octx) octx->set_item(nctx->get_oindex(i), nctx->get_item(i)); else { // QQ Currently we just silently ignore non-user-variable arguments. // We should check this during parsing, when setting up the call // above if (it->type() == Item::FUNC_ITEM) { Item_func *fi= static_cast(it); if (fi->functype() == Item_func::GUSERVAR_FUNC) { // A global user variable Item *item= nctx->get_item(i); Item_func_set_user_var *suv; Item_func_get_user_var *guv= static_cast(fi); suv= new Item_func_set_user_var(guv->get_name(), item); suv->fix_fields(thd, NULL, &item); suv->fix_length_and_dec(); suv->check(); suv->update(); } } } } } } if (tmp_octx) octx= NULL; if (nctx) nctx->pop_all_cursors(); // To avoid memory leaks after an error thd->spcont= octx; DBUG_RETURN(ret); } // Reset lex during parsing, before we parse a sub statement. void sp_head::reset_lex(THD *thd) { DBUG_ENTER("sp_head::reset_lex"); LEX *sublex; LEX *oldlex= thd->lex; (void)m_lex.push_front(oldlex); thd->lex= sublex= new st_lex; /* Reset most stuff. The length arguments doesn't matter here. */ lex_start(thd, oldlex->buf, oldlex->end_of_query - oldlex->ptr); sublex->yylineno= oldlex->yylineno; /* We must reset ptr and end_of_query again */ sublex->ptr= oldlex->ptr; sublex->end_of_query= oldlex->end_of_query; sublex->tok_start= oldlex->tok_start; /* And keep the SP stuff too */ sublex->sphead= oldlex->sphead; sublex->spcont= oldlex->spcont; mysql_init_query(thd, true); // Only init lex sublex->sp_lex_in_use= FALSE; DBUG_VOID_RETURN; } // Restore lex during parsing, after we have parsed a sub statement. void sp_head::restore_lex(THD *thd) { DBUG_ENTER("sp_head::restore_lex"); LEX *sublex= thd->lex; LEX *oldlex= (LEX *)m_lex.pop(); SELECT_LEX *sl; if (! oldlex) return; // Nothing to restore // Update some state in the old one first oldlex->ptr= sublex->ptr; oldlex->next_state= sublex->next_state; for (sl= sublex->all_selects_list ; sl ; sl= sl->next_select_in_list()) { // Save WHERE clause pointers to avoid damaging by optimisation sl->prep_where= sl->where; if (sl->with_wild) { // Copy item_list. We will restore it before calling the // sub-statement, so it's ok to pop them. sl->item_list_copy.empty(); while (Item *it= sl->item_list.pop()) sl->item_list_copy.push_back(it); } } // Collect some data from the sub statement lex. sp_merge_funs(oldlex, sublex); #ifdef NOT_USED_NOW // QQ We're not using this at the moment. if (sublex.sql_command == SQLCOM_CALL) { // It would be slightly faster to keep the list sorted, but we need // an "insert before" method to do that. char *proc= sublex.udf.name.str; List_iterator_fast li(m_calls); char **it; while ((it= li++)) if (my_strcasecmp(system_charset_info, proc, *it) == 0) break; if (! it) m_calls.push_back(&proc); } // Merge used tables // QQ ...or just open tables in thd->open_tables? // This is not entirerly clear at the moment, but for now, we collect // tables here. for (sl= sublex.all_selects_list ; sl ; sl= sl->next_select()) { for (TABLE_LIST *tables= sl->get_table_list() ; tables ; tables= tables->next) { List_iterator_fast li(m_tables); char **tb; while ((tb= li++)) if (my_strcasecmp(system_charset_info, tables->real_name, *tb) == 0) break; if (! tb) m_tables.push_back(&tables->real_name); } } #endif if (! sublex->sp_lex_in_use) delete sublex; thd->lex= oldlex; DBUG_VOID_RETURN; } void sp_head::push_backpatch(sp_instr *i, sp_label_t *lab) { bp_t *bp= (bp_t *)sql_alloc(sizeof(bp_t)); if (bp) { bp->lab= lab; bp->instr= i; (void)m_backpatch.push_front(bp); } } void sp_head::backpatch(sp_label_t *lab) { bp_t *bp; uint dest= instructions(); List_iterator_fast li(m_backpatch); while ((bp= li++)) if (bp->lab == lab) { sp_instr_jump *i= static_cast(bp->instr); i->set_destination(dest); } } void sp_head::set_info(char *definer, uint definerlen, longlong created, longlong modified, st_sp_chistics *chistics) { char *p= strchr(definer, '@'); uint len; if (! p) p= definer; // Weird... len= p-definer; m_definer_user.str= strmake_root(&m_mem_root, definer, len); m_definer_user.length= len; len= definerlen-len-1; m_definer_host.str= strmake_root(&m_mem_root, p+1, len); m_definer_host.length= len; m_created= created; m_modified= modified; m_chistics= (st_sp_chistics *)alloc_root(&m_mem_root, sizeof(st_sp_chistics)); memcpy(m_chistics, chistics, sizeof(st_sp_chistics)); if (m_chistics->comment.length == 0) m_chistics->comment.str= 0; else m_chistics->comment.str= strmake_root(&m_mem_root, m_chistics->comment.str, m_chistics->comment.length); } void sp_head::reset_thd_mem_root(THD *thd) { m_thd_root= thd->mem_root; thd->mem_root= m_mem_root; m_free_list= thd->free_list; // Keep the old list thd->free_list= NULL; // Start a new one /* Copy the db, since substatements will point to it */ m_thd_db= thd->db; thd->db= strmake_root(&thd->mem_root, thd->db, thd->db_length); m_thd= thd; } void sp_head::restore_thd_mem_root(THD *thd) { Item *flist= m_free_list; // The old list m_free_list= thd->free_list; // Get the new one thd->free_list= flist; // Restore the old one thd->db= m_thd_db; // Restore the original db pointer m_mem_root= thd->mem_root; thd->mem_root= m_thd_root; m_thd= NULL; } int sp_head::show_create_procedure(THD *thd) { Protocol *protocol= thd->protocol; char buff[2048]; String buffer(buff, sizeof(buff), system_charset_info); int res; List field_list; DBUG_ENTER("sp_head::show_create_procedure"); DBUG_PRINT("info", ("procedure %s", m_name.str)); field_list.push_back(new Item_empty_string("Procedure",NAME_LEN)); // 1024 is for not to confuse old clients field_list.push_back(new Item_empty_string("Create Procedure", max(buffer.length(),1024))); if (protocol->send_fields(&field_list, 1)) DBUG_RETURN(1); protocol->prepare_for_resend(); protocol->store(m_name.str, m_name.length, system_charset_info); protocol->store(m_defstr.str, m_defstr.length, system_charset_info); res= protocol->write(); send_eof(thd); DBUG_RETURN(res); } int sp_head::show_create_function(THD *thd) { Protocol *protocol= thd->protocol; char buff[2048]; String buffer(buff, sizeof(buff), system_charset_info); int res; List field_list; DBUG_ENTER("sp_head::show_create_function"); DBUG_PRINT("info", ("procedure %s", m_name.str)); field_list.push_back(new Item_empty_string("Function",NAME_LEN)); field_list.push_back(new Item_empty_string("Create Function", max(buffer.length(),1024))); if (protocol->send_fields(&field_list, 1)) DBUG_RETURN(1); protocol->prepare_for_resend(); protocol->store(m_name.str, m_name.length, system_charset_info); protocol->store(m_defstr.str, m_defstr.length, system_charset_info); res= protocol->write(); send_eof(thd); DBUG_RETURN(res); } // ------------------------------------------------------------------ // // sp_instr_stmt // sp_instr_stmt::~sp_instr_stmt() { if (m_lex) delete m_lex; } int sp_instr_stmt::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_stmt::execute"); DBUG_PRINT("info", ("command: %d", m_lex->sql_command)); int res= exec_stmt(thd, m_lex); *nextp = m_ip+1; DBUG_RETURN(res); } void sp_instr_stmt::print(String *str) { str->reserve(12); str->append("stmt "); str->qs_append((uint)m_lex->sql_command); } int sp_instr_stmt::exec_stmt(THD *thd, LEX *lex) { LEX *olex; // The other lex Item *freelist; SELECT_LEX *sl; int res; olex= thd->lex; // Save the other lex thd->lex= lex; // Use my own lex thd->lex->thd = thd; // QQ Not reentrant! thd->lex->unit.thd= thd; // QQ Not reentrant freelist= thd->free_list; thd->free_list= NULL; VOID(pthread_mutex_lock(&LOCK_thread_count)); thd->query_id= query_id++; VOID(pthread_mutex_unlock(&LOCK_thread_count)); // Copy WHERE clause pointers to avoid damaging by optimisation // Also clear ref_pointer_arrays. for (sl= lex->all_selects_list ; sl ; sl= sl->next_select_in_list()) { if (lex->sql_command == SQLCOM_CREATE_TABLE || lex->sql_command == SQLCOM_INSERT_SELECT) { // Destroys sl->table_list.first sl->table_list_first_copy= sl->table_list.first; } if (sl->with_wild) { // Restore item_list // Note: We have to do this before executing the sub-statement, // to make sure that the list nodes are in the right // memroot. List_iterator_fast li(sl->item_list_copy); sl->item_list.empty(); while (Item *it= li++) sl->item_list.push_back(it); } sl->ref_pointer_array= 0; if (sl->prep_where) sl->where= sl->prep_where->copy_andor_structure(thd); for (ORDER *order= (ORDER *)sl->order_list.first ; order ; order= order->next) { order->item_copy= order->item; } for (ORDER *group= (ORDER *)sl->group_list.first ; group ; group= group->next) { group->item_copy= group->item; } } res= mysql_execute_command(thd); if (thd->lock || thd->open_tables || thd->derived_tables) { thd->proc_info="closing tables"; close_thread_tables(thd); /* Free tables */ } for (sl= lex->all_selects_list ; sl ; sl= sl->next_select_in_list()) { TABLE_LIST *tabs; if (lex->sql_command == SQLCOM_CREATE_TABLE || lex->sql_command == SQLCOM_INSERT_SELECT) { // Restore sl->table_list.first sl->table_list.first= sl->table_list_first_copy; } // We have closed all tables, get rid of pointers to them for (tabs=(TABLE_LIST *)sl->table_list.first ; tabs ; tabs= tabs->next) { tabs->table= NULL; } for (ORDER *order= (ORDER *)sl->order_list.first ; order ; order= order->next) { order->item= order->item_copy; } for (ORDER *group= (ORDER *)sl->group_list.first ; group ; group= group->next) { group->item= group->item_copy; } } thd->lex= olex; // Restore the other lex thd->free_list= freelist; return res; } // // sp_instr_set // int sp_instr_set::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_set::execute"); DBUG_PRINT("info", ("offset: %u", m_offset)); thd->spcont->set_item(m_offset, sp_eval_func_item(thd, m_value, m_type)); *nextp = m_ip+1; DBUG_RETURN(0); } void sp_instr_set::print(String *str) { str->reserve(12); str->append("set "); str->qs_append(m_offset); str->append(' '); m_value->print(str); } // // sp_instr_jump // int sp_instr_jump::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_jump::execute"); DBUG_PRINT("info", ("destination: %u", m_dest)); *nextp= m_dest; DBUG_RETURN(0); } void sp_instr_jump::print(String *str) { str->reserve(12); str->append("jump "); str->qs_append(m_dest); } // // sp_instr_jump_if // int sp_instr_jump_if::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_jump_if::execute"); DBUG_PRINT("info", ("destination: %u", m_dest)); Item *it= sp_eval_func_item(thd, m_expr, MYSQL_TYPE_TINY); if (it->val_int()) *nextp = m_dest; else *nextp = m_ip+1; DBUG_RETURN(0); } void sp_instr_jump_if::print(String *str) { str->reserve(12); str->append("jump_if "); str->qs_append(m_dest); str->append(' '); m_expr->print(str); } // // sp_instr_jump_if_not // int sp_instr_jump_if_not::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_jump_if_not::execute"); DBUG_PRINT("info", ("destination: %u", m_dest)); Item *it= sp_eval_func_item(thd, m_expr, MYSQL_TYPE_TINY); if (! it->val_int()) *nextp = m_dest; else *nextp = m_ip+1; DBUG_RETURN(0); } void sp_instr_jump_if_not::print(String *str) { str->reserve(16); str->append("jump_if_not "); str->qs_append(m_dest); str->append(' '); m_expr->print(str); } // // sp_instr_freturn // int sp_instr_freturn::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_freturn::execute"); thd->spcont->set_result(sp_eval_func_item(thd, m_value, m_type)); *nextp= UINT_MAX; DBUG_RETURN(0); } void sp_instr_freturn::print(String *str) { str->reserve(12); str->append("freturn "); str->qs_append((uint)m_type); str->append(' '); m_value->print(str); } // // sp_instr_hpush_jump // int sp_instr_hpush_jump::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_hpush_jump::execute"); List_iterator_fast li(m_cond); sp_cond_type_t *p; while ((p= li++)) thd->spcont->push_handler(p, m_handler, m_type, m_frame); *nextp= m_dest; DBUG_RETURN(0); } void sp_instr_hpush_jump::print(String *str) { str->reserve(32); str->append("hpush_jump "); str->qs_append(m_dest); str->append(" t="); str->qs_append(m_type); str->append(" f="); str->qs_append(m_frame); str->append(" h="); str->qs_append(m_handler); } // // sp_instr_hpop // int sp_instr_hpop::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_hpop::execute"); thd->spcont->pop_handlers(m_count); *nextp= m_ip+1; DBUG_RETURN(0); } void sp_instr_hpop::print(String *str) { str->reserve(12); str->append("hpop "); str->qs_append(m_count); } // // sp_instr_hreturn // int sp_instr_hreturn::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_hreturn::execute"); thd->spcont->restore_variables(m_frame); *nextp= thd->spcont->pop_hstack(); DBUG_RETURN(0); } void sp_instr_hreturn::print(String *str) { str->reserve(12); str->append("hreturn "); str->qs_append(m_frame); } // // sp_instr_cpush // int sp_instr_cpush::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_cpush::execute"); thd->spcont->push_cursor(m_lex); *nextp= m_ip+1; DBUG_RETURN(0); } sp_instr_cpush::~sp_instr_cpush() { if (m_lex) delete m_lex; } void sp_instr_cpush::print(String *str) { str->append("cpush"); } // // sp_instr_cpop // int sp_instr_cpop::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_cpop::execute"); thd->spcont->pop_cursors(m_count); *nextp= m_ip+1; DBUG_RETURN(0); } void sp_instr_cpop::print(String *str) { str->reserve(12); str->append("cpop "); str->qs_append(m_count); } // // sp_instr_copen // int sp_instr_copen::execute(THD *thd, uint *nextp) { sp_cursor *c= thd->spcont->get_cursor(m_cursor); int res; DBUG_ENTER("sp_instr_copen::execute"); if (! c) res= -1; else { LEX *lex= c->pre_open(thd); if (! lex) res= -1; else res= exec_stmt(thd, lex); c->post_open(thd, (lex ? TRUE : FALSE)); } *nextp= m_ip+1; DBUG_RETURN(res); } void sp_instr_copen::print(String *str) { str->reserve(12); str->append("copen "); str->qs_append(m_cursor); } // // sp_instr_cclose // int sp_instr_cclose::execute(THD *thd, uint *nextp) { sp_cursor *c= thd->spcont->get_cursor(m_cursor); int res; DBUG_ENTER("sp_instr_cclose::execute"); if (! c) res= -1; else res= c->close(thd); *nextp= m_ip+1; DBUG_RETURN(res); } void sp_instr_cclose::print(String *str) { str->reserve(12); str->append("cclose "); str->qs_append(m_cursor); } // // sp_instr_cfetch // int sp_instr_cfetch::execute(THD *thd, uint *nextp) { sp_cursor *c= thd->spcont->get_cursor(m_cursor); int res; DBUG_ENTER("sp_instr_cfetch::execute"); if (! c) res= -1; else res= c->fetch(thd, &m_varlist); *nextp= m_ip+1; DBUG_RETURN(res); } void sp_instr_cfetch::print(String *str) { List_iterator_fast li(m_varlist); sp_pvar_t *pv; str->reserve(12); str->append("cfetch "); str->qs_append(m_cursor); while ((pv= li++)) { str->reserve(8); str->append(' '); str->qs_append(pv->offset); } } // // sp_instr_error // int sp_instr_error::execute(THD *thd, uint *nextp) { DBUG_ENTER("sp_instr_error::execute"); my_error(m_errcode, MYF(0)); *nextp= m_ip+1; DBUG_RETURN(-1); } void sp_instr_error::print(String *str) { str->reserve(12); str->append("error "); str->qs_append(m_errcode); } /* ------------------------------------------------------------------ */ // // Security context swapping // #ifndef NO_EMBEDDED_ACCESS_CHECKS void sp_change_security_context(THD *thd, sp_head *sp, st_sp_security_context *ctxp) { ctxp->changed= (sp->m_chistics->suid != IS_NOT_SUID && (strcmp(sp->m_definer_user.str, thd->priv_user) || strcmp(sp->m_definer_host.str, thd->priv_host))); if (ctxp->changed) { ctxp->master_access= thd->master_access; ctxp->db_access= thd->db_access; ctxp->priv_user= thd->priv_user; strncpy(ctxp->priv_host, thd->priv_host, sizeof(ctxp->priv_host)); ctxp->user= thd->user; ctxp->host= thd->host; ctxp->ip= thd->ip; /* Change thise just to do the acl_getroot_no_password */ thd->user= sp->m_definer_user.str; thd->host= thd->ip = sp->m_definer_host.str; if (acl_getroot_no_password(thd)) { // Failed, run as invoker for now ctxp->changed= FALSE; thd->master_access= ctxp->master_access; thd->db_access= ctxp->db_access; thd->priv_user= ctxp->priv_user; strncpy(thd->priv_host, ctxp->priv_host, sizeof(thd->priv_host)); } /* Restore these immiediately */ thd->user= ctxp->user; thd->host= ctxp->host; thd->ip= ctxp->ip; } } void sp_restore_security_context(THD *thd, sp_head *sp, st_sp_security_context *ctxp) { if (ctxp->changed) { ctxp->changed= FALSE; thd->master_access= ctxp->master_access; thd->db_access= ctxp->db_access; thd->priv_user= ctxp->priv_user; strncpy(thd->priv_host, ctxp->priv_host, sizeof(thd->priv_host)); } } #endif /* NO_EMBEDDED_ACCESS_CHECKS */