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|
/* Copyright (C) 2000-2003 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; 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 <config.h>
#define DRIZZLE_LEX 1
#include <drizzled/item/num.h>
#include <drizzled/abort_exception.h>
#include <drizzled/error.h>
#include <drizzled/nested_join.h>
#include <drizzled/query_id.h>
#include <drizzled/transaction_services.h>
#include <drizzled/sql_parse.h>
#include <drizzled/data_home.h>
#include <drizzled/sql_base.h>
#include <drizzled/show.h>
#include <drizzled/function/time/unix_timestamp.h>
#include <drizzled/function/get_system_var.h>
#include <drizzled/item/cmpfunc.h>
#include <drizzled/item/null.h>
#include <drizzled/session.h>
#include <drizzled/session/cache.h>
#include <drizzled/sql_load.h>
#include <drizzled/lock.h>
#include <drizzled/select_send.h>
#include <drizzled/plugin/client.h>
#include <drizzled/statement.h>
#include <drizzled/statement/alter_table.h>
#include <drizzled/probes.h>
#include <drizzled/charset.h>
#include <drizzled/plugin/logging.h>
#include <drizzled/plugin/query_rewrite.h>
#include <drizzled/plugin/query_cache.h>
#include <drizzled/plugin/authorization.h>
#include <drizzled/optimizer/explain_plan.h>
#include <drizzled/pthread_globals.h>
#include <drizzled/plugin/event_observer.h>
#include <drizzled/display.h>
#include <drizzled/visibility.h>
#include <drizzled/kill.h>
#include <drizzled/schema.h>
#include <drizzled/item/subselect.h>
#include <drizzled/diagnostics_area.h>
#include <drizzled/table_ident.h>
#include <drizzled/statistics_variables.h>
#include <drizzled/system_variables.h>
#include <drizzled/session/times.h>
#include <drizzled/session/transactions.h>
#include <limits.h>
#include <bitset>
#include <algorithm>
#include <boost/date_time.hpp>
#include <drizzled/internal/my_sys.h>
using namespace std;
extern int base_sql_parse(drizzled::Session *session); // from sql_yacc.cc
namespace drizzled {
/* Prototypes */
bool my_yyoverflow(short **a, ParserType **b, ulong *yystacksize);
static bool parse_sql(Session *session, Lex_input_stream *lip);
void parse(Session&, const char *inBuf, uint32_t length);
/**
@defgroup Runtime_Environment Runtime Environment
@{
*/
extern size_t my_thread_stack_size;
extern const charset_info_st *character_set_filesystem;
namespace
{
static const std::string command_name[COM_END+1]={
"Sleep",
"Quit",
"Init DB",
"Query",
"Shutdown",
"Connect",
"Ping",
"Kill",
"Error" // Last command number
};
}
const char *xa_state_names[]={
"NON-EXISTING", "ACTIVE", "IDLE", "PREPARED"
};
/**
Mark all commands that somehow changes a table.
This is used to check number of updates / hour.
sql_command is actually set to SQLCOM_END sometimes
so we need the +1 to include it in the array.
See COMMAND_FLAG_xxx for different type of commands
2 - query that returns meaningful ROW_COUNT() -
a number of modified rows
*/
bitset<CF_BIT_SIZE> sql_command_flags[SQLCOM_END+1];
const std::string &getCommandName(const enum_server_command& command)
{
return command_name[command];
}
void init_update_queries(void)
{
uint32_t x;
for (x= 0; x <= SQLCOM_END; x++)
sql_command_flags[x].reset();
sql_command_flags[SQLCOM_CREATE_TABLE]= CF_CHANGES_DATA;
sql_command_flags[SQLCOM_CREATE_INDEX]= CF_CHANGES_DATA;
sql_command_flags[SQLCOM_ALTER_TABLE]= CF_CHANGES_DATA | CF_WRITE_LOGS_COMMAND;
sql_command_flags[SQLCOM_TRUNCATE]= CF_CHANGES_DATA | CF_WRITE_LOGS_COMMAND;
sql_command_flags[SQLCOM_DROP_TABLE]= CF_CHANGES_DATA;
sql_command_flags[SQLCOM_LOAD]= CF_CHANGES_DATA;
sql_command_flags[SQLCOM_CREATE_DB]= CF_CHANGES_DATA;
sql_command_flags[SQLCOM_DROP_DB]= CF_CHANGES_DATA;
sql_command_flags[SQLCOM_RENAME_TABLE]= CF_CHANGES_DATA;
sql_command_flags[SQLCOM_DROP_INDEX]= CF_CHANGES_DATA;
sql_command_flags[SQLCOM_UPDATE]= CF_CHANGES_DATA | CF_HAS_ROW_COUNT;
sql_command_flags[SQLCOM_INSERT]= CF_CHANGES_DATA | CF_HAS_ROW_COUNT;
sql_command_flags[SQLCOM_INSERT_SELECT]= CF_CHANGES_DATA | CF_HAS_ROW_COUNT;
sql_command_flags[SQLCOM_DELETE]= CF_CHANGES_DATA | CF_HAS_ROW_COUNT;
sql_command_flags[SQLCOM_REPLACE]= CF_CHANGES_DATA | CF_HAS_ROW_COUNT;
sql_command_flags[SQLCOM_REPLACE_SELECT]= CF_CHANGES_DATA | CF_HAS_ROW_COUNT;
sql_command_flags[SQLCOM_SHOW_WARNS]= CF_STATUS_COMMAND;
sql_command_flags[SQLCOM_SHOW_ERRORS]= CF_STATUS_COMMAND;
sql_command_flags[SQLCOM_SHOW_CREATE_DB]= CF_STATUS_COMMAND;
sql_command_flags[SQLCOM_SHOW_CREATE]= CF_STATUS_COMMAND;
/*
The following admin table operations are allowed
on log tables.
*/
sql_command_flags[SQLCOM_ANALYZE]= CF_WRITE_LOGS_COMMAND;
}
/**
Perform one connection-level (COM_XXXX) command.
@param command type of command to perform
@param session connection handle
@param packet data for the command, packet is always null-terminated
@param packet_length length of packet + 1 (to show that data is
null-terminated) except for COM_SLEEP, where it
can be zero.
@todo
set session->lex().sql_command to SQLCOM_END here.
@todo
The following has to be changed to an 8 byte integer
@retval
0 ok
@retval
1 request of thread shutdown, i. e. if command is
COM_QUIT/COM_SHUTDOWN
*/
bool dispatch_command(enum_server_command command, Session *session,
char* packet, uint32_t packet_length)
{
bool error= 0;
Query_id &query_id= Query_id::get_query_id();
DRIZZLE_COMMAND_START(session->thread_id, command);
session->command= command;
session->lex().sql_command= SQLCOM_END; /* to avoid confusing VIEW detectors */
session->times.set_time();
session->setQueryId(query_id.value());
switch( command ) {
/* Ignore these statements. */
case COM_PING:
break;
/* Increase id and count all other statements. */
default:
session->status_var.questions++;
query_id.next();
}
/* @todo set session->lex().sql_command to SQLCOM_END here */
plugin::Logging::preDo(session);
if (unlikely(plugin::EventObserver::beforeStatement(*session)))
{
// We should do something about an error...
}
session->server_status&=
~(SERVER_QUERY_NO_INDEX_USED | SERVER_QUERY_NO_GOOD_INDEX_USED);
switch (command) {
case COM_INIT_DB:
{
if (packet_length == 0)
{
my_message(ER_NO_DB_ERROR, ER(ER_NO_DB_ERROR), MYF(0));
break;
}
if (not schema::change(*session, identifier::Schema(string(packet, packet_length))))
{
session->my_ok();
}
break;
}
case COM_QUERY:
{
session->readAndStoreQuery(packet, packet_length);
DRIZZLE_QUERY_START(session->getQueryString()->c_str(), session->thread_id, session->schema()->c_str());
parse(*session, session->getQueryString()->c_str(), session->getQueryString()->length());
break;
}
case COM_QUIT:
/* We don't calculate statistics for this command */
session->main_da().disable_status(); // Don't send anything back
error= true; // End server
break;
case COM_KILL:
{
if (packet_length != 4)
{
my_error(ER_NO_SUCH_THREAD, MYF(0), 0);
break;
}
else
{
uint32_t kill_id;
memcpy(&kill_id, packet, sizeof(uint32_t));
kill_id= ntohl(kill_id);
(void)drizzled::kill(*session->user(), kill_id, true);
}
session->my_ok();
break;
}
case COM_SHUTDOWN:
{
session->status_var.com_other++;
session->my_eof();
session->close_thread_tables(); // Free before kill
kill_drizzle();
error= true;
break;
}
case COM_PING:
session->status_var.com_other++;
session->my_ok(); // Tell client we are alive
break;
case COM_SLEEP:
case COM_CONNECT: // Impossible here
case COM_END:
default:
my_message(ER_UNKNOWN_COM_ERROR, ER(ER_UNKNOWN_COM_ERROR), MYF(0));
break;
}
/* If commit fails, we should be able to reset the OK status. */
session->main_da().can_overwrite_status= true;
TransactionServices &transaction_services= TransactionServices::singleton();
transaction_services.autocommitOrRollback(*session, session->is_error());
session->main_da().can_overwrite_status= false;
session->transaction.stmt.reset();
/* report error issued during command execution */
if (session->killed_errno())
{
if (! session->main_da().is_set())
session->send_kill_message();
}
if (session->getKilled() == Session::KILL_QUERY || session->getKilled() == Session::KILL_BAD_DATA)
{
session->setKilled(Session::NOT_KILLED);
session->setAbort(false);
}
/* Can not be true, but do not take chances in production. */
assert(! session->main_da().is_sent);
switch (session->main_da().status())
{
case Diagnostics_area::DA_ERROR:
/* The query failed, send error to log and abort bootstrap. */
session->getClient()->sendError(session->main_da().sql_errno(),
session->main_da().message());
break;
case Diagnostics_area::DA_EOF:
session->getClient()->sendEOF();
break;
case Diagnostics_area::DA_OK:
session->getClient()->sendOK();
break;
case Diagnostics_area::DA_DISABLED:
break;
case Diagnostics_area::DA_EMPTY:
default:
session->getClient()->sendOK();
break;
}
session->main_da().is_sent= true;
session->set_proc_info("closing tables");
/* Free tables */
session->close_thread_tables();
plugin::Logging::postDo(session);
if (unlikely(plugin::EventObserver::afterStatement(*session)))
{
// We should do something about an error...
}
/* Store temp state for processlist */
session->set_proc_info("cleaning up");
session->command= COM_SLEEP;
session->resetQueryString();
session->set_proc_info(NULL);
session->mem_root->free_root(MYF(memory::KEEP_PREALLOC));
if (DRIZZLE_QUERY_DONE_ENABLED() || DRIZZLE_COMMAND_DONE_ENABLED())
{
if (command == COM_QUERY)
{
DRIZZLE_QUERY_DONE(session->is_error());
}
DRIZZLE_COMMAND_DONE(session->is_error());
}
return error;
}
/**
Create a TableList object for an INFORMATION_SCHEMA table.
This function is used in the parser to convert a SHOW or DESCRIBE
table_name command to a SELECT from INFORMATION_SCHEMA.
It prepares a Select_Lex and a TableList object to represent the
given command as a SELECT parse tree.
@param session thread handle
@param lex current lex
@param table_ident table alias if it's used
@param schema_table_name the name of the INFORMATION_SCHEMA table to be
created
@note
Due to the way this function works with memory and LEX it cannot
be used outside the parser (parse tree transformations outside
the parser break PS and SP).
@retval
0 success
@retval
1 out of memory or SHOW commands are not allowed
in this version of the server.
*/
static bool _schema_select(Session *session, Select_Lex *sel,
const string& schema_table_name)
{
LEX_STRING db, table;
bitset<NUM_OF_TABLE_OPTIONS> table_options;
/*
We have to make non const db_name & table_name
because of lower_case_table_names
*/
session->make_lex_string(&db, "data_dictionary", sizeof("data_dictionary"), false);
session->make_lex_string(&table, schema_table_name, false);
if (not sel->add_table_to_list(session, new Table_ident(db, table), NULL, table_options, TL_READ))
{
return true;
}
return false;
}
int prepare_new_schema_table(Session *session, LEX& lex,
const string& schema_table_name)
{
Select_Lex *schema_select_lex= NULL;
Select_Lex *select_lex= lex.current_select;
assert(select_lex);
if (_schema_select(session, select_lex, schema_table_name))
{
return(1);
}
TableList *table_list= (TableList*) select_lex->table_list.first;
assert(table_list);
table_list->schema_select_lex= schema_select_lex;
return 0;
}
/**
Execute command saved in session and lex->sql_command.
Before every operation that can request a write lock for a table
wait if a global read lock exists. However do not wait if this
thread has locked tables already. No new locks can be requested
until the other locks are released. The thread that requests the
global read lock waits for write locked tables to become unlocked.
Note that wait_if_global_read_lock() sets a protection against a new
global read lock when it succeeds. This needs to be released by
start_waiting_global_read_lock() after the operation.
@param session Thread handle
@todo
- Invalidate the table in the query cache if something changed
after unlocking when changes become visible.
TODO: this is workaround. right way will be move invalidating in
the unlock procedure.
- TODO: use check_change_password()
- JOIN is not supported yet. TODO
- SUSPEND and FOR MIGRATE are not supported yet. TODO
@retval
false OK
@retval
true Error
*/
static int execute_command(Session *session)
{
bool res= false;
/* first Select_Lex (have special meaning for many of non-SELECTcommands) */
Select_Lex *select_lex= &session->lex().select_lex;
/* list of all tables in query */
TableList *all_tables;
/*
In many cases first table of main Select_Lex have special meaning =>
check that it is first table in global list and relink it first in
queries_tables list if it is necessary (we need such relinking only
for queries with subqueries in select list, in this case tables of
subqueries will go to global list first)
all_tables will differ from first_table only if most upper Select_Lex
do not contain tables.
Because of above in place where should be at least one table in most
outer Select_Lex we have following check:
assert(first_table == all_tables);
assert(first_table == all_tables && first_table != 0);
*/
session->lex().first_lists_tables_same();
/* should be assigned after making first tables same */
all_tables= session->lex().query_tables;
/* set context for commands which do not use setup_tables */
select_lex->context.resolve_in_table_list_only((TableList*)select_lex->table_list.first);
/*
Reset warning count for each query that uses tables
A better approach would be to reset this for any commands
that is not a SHOW command or a select that only access local
variables, but for now this is probably good enough.
Don't reset warnings when executing a stored routine.
*/
if (all_tables || ! session->lex().is_single_level_stmt())
{
drizzle_reset_errors(session, 0);
}
assert(session->transaction.stmt.hasModifiedNonTransData() == false);
if (! (session->server_status & SERVER_STATUS_AUTOCOMMIT)
&& ! session->inTransaction()
&& session->lex().statement->isTransactional())
{
if (session->startTransaction() == false)
{
my_error(drizzled::ER_UNKNOWN_ERROR, MYF(0));
return true;
}
}
/* now we are ready to execute the statement */
res= session->lex().statement->execute();
session->set_proc_info("query end");
/*
The return value for ROW_COUNT() is "implementation dependent" if the
statement is not DELETE, INSERT or UPDATE, but -1 is what JDBC and ODBC
wants. We also keep the last value in case of SQLCOM_CALL or
SQLCOM_EXECUTE.
*/
if (! (sql_command_flags[session->lex().sql_command].test(CF_BIT_HAS_ROW_COUNT)))
{
session->row_count_func= -1;
}
return (res || session->is_error());
}
bool execute_sqlcom_select(Session *session, TableList *all_tables)
{
LEX *lex= &session->lex();
select_result *result=lex->result;
bool res= false;
/* assign global limit variable if limit is not given */
{
Select_Lex *param= lex->unit.global_parameters;
if (!param->explicit_limit)
param->select_limit=
new Item_int((uint64_t) session->variables.select_limit);
}
if (all_tables
&& ! (session->server_status & SERVER_STATUS_AUTOCOMMIT)
&& ! session->inTransaction()
&& ! lex->statement->isShow())
{
if (session->startTransaction() == false)
{
my_error(drizzled::ER_UNKNOWN_ERROR, MYF(0));
return true;
}
}
if (not (res= session->openTablesLock(all_tables)))
{
if (lex->describe)
{
/*
We always use select_send for EXPLAIN, even if it's an EXPLAIN
for SELECT ... INTO OUTFILE: a user application should be able
to prepend EXPLAIN to any query and receive output for it,
even if the query itself redirects the output.
*/
if (!(result= new select_send()))
return true;
session->send_explain_fields(result);
optimizer::ExplainPlan planner;
res= planner.explainUnion(session, &session->lex().unit, result);
if (lex->describe & DESCRIBE_EXTENDED)
{
char buff[1024];
String str(buff,(uint32_t) sizeof(buff), system_charset_info);
str.length(0);
session->lex().unit.print(&str);
str.append('\0');
push_warning(session, DRIZZLE_ERROR::WARN_LEVEL_NOTE,
ER_YES, str.ptr());
}
if (res)
result->abort();
else
result->send_eof();
delete result;
}
else
{
if (!result && !(result= new select_send()))
return true;
/* Init the Query Cache plugin */
plugin::QueryCache::prepareResultset(session);
res= handle_select(session, lex, result, 0);
/* Send the Resultset to the cache */
plugin::QueryCache::setResultset(session);
if (result != lex->result)
delete result;
}
}
return res;
}
#define MY_YACC_INIT 1000 // Start with big alloc
#define MY_YACC_MAX 32000 // Because of 'short'
bool my_yyoverflow(short **yyss, ParserType **yyvs, ulong *yystacksize)
{
LEX *lex= ¤t_session->lex();
ulong old_info=0;
if ((uint32_t) *yystacksize >= MY_YACC_MAX)
return 1;
if (!lex->yacc_yyvs)
old_info= *yystacksize;
*yystacksize= set_zone((*yystacksize)*2,MY_YACC_INIT,MY_YACC_MAX);
unsigned char *tmpptr= NULL;
if (!(tmpptr= (unsigned char *)realloc(lex->yacc_yyvs,
*yystacksize* sizeof(**yyvs))))
return 1;
lex->yacc_yyvs= tmpptr;
tmpptr= NULL;
if (!(tmpptr= (unsigned char*)realloc(lex->yacc_yyss,
*yystacksize* sizeof(**yyss))))
return 1;
lex->yacc_yyss= tmpptr;
if (old_info)
{ // Copy old info from stack
memcpy(lex->yacc_yyss, *yyss, old_info*sizeof(**yyss));
memcpy(lex->yacc_yyvs, *yyvs, old_info*sizeof(**yyvs));
}
*yyss=(short*) lex->yacc_yyss;
*yyvs=(ParserType*) lex->yacc_yyvs;
return 0;
}
void
init_select(LEX *lex)
{
Select_Lex *select_lex= lex->current_select;
select_lex->init_select();
lex->wild= 0;
if (select_lex == &lex->select_lex)
{
assert(lex->result == 0);
lex->exchange= 0;
}
}
bool
new_select(LEX *lex, bool move_down)
{
Select_Lex *select_lex;
Session *session= lex->session;
if (!(select_lex= new (session->mem_root) Select_Lex()))
return true;
select_lex->select_number= ++session->select_number;
select_lex->parent_lex= lex; /* Used in init_query. */
select_lex->init_query();
select_lex->init_select();
lex->nest_level++;
if (lex->nest_level > (int) MAX_SELECT_NESTING)
{
my_error(ER_TOO_HIGH_LEVEL_OF_NESTING_FOR_SELECT,MYF(0),MAX_SELECT_NESTING);
return(1);
}
select_lex->nest_level= lex->nest_level;
if (move_down)
{
Select_Lex_Unit *unit;
/* first select_lex of subselect or derived table */
if (!(unit= new (session->mem_root) Select_Lex_Unit()))
return(1);
unit->init_query();
unit->init_select();
unit->session= session;
unit->include_down(lex->current_select);
unit->link_next= 0;
unit->link_prev= 0;
unit->return_to= lex->current_select;
select_lex->include_down(unit);
/*
By default we assume that it is usual subselect and we have outer name
resolution context, if no we will assign it to 0 later
*/
select_lex->context.outer_context= &select_lex->outer_select()->context;
}
else
{
if (lex->current_select->order_list.first && !lex->current_select->braces)
{
my_error(ER_WRONG_USAGE, MYF(0), "UNION", "order_st BY");
return true;
}
select_lex->include_neighbour(lex->current_select);
Select_Lex_Unit *unit= select_lex->master_unit();
if (not unit->fake_select_lex && unit->add_fake_select_lex(lex->session))
return true;
select_lex->context.outer_context=
unit->first_select()->context.outer_context;
}
select_lex->master_unit()->global_parameters= select_lex;
select_lex->include_global((Select_Lex_Node**)&lex->all_selects_list);
lex->current_select= select_lex;
/*
in subquery is SELECT query and we allow resolution of names in SELECT
list
*/
select_lex->context.resolve_in_select_list= true;
return false;
}
/**
Create a select to return the same output as 'SELECT @@var_name'.
Used for SHOW COUNT(*) [ WARNINGS | ERROR].
This will crash with a core dump if the variable doesn't exists.
@param var_name Variable name
*/
void create_select_for_variable(Session *session, const char *var_name)
{
LEX& lex= session->lex();
init_select(&lex);
lex.sql_command= SQLCOM_SELECT;
LEX_STRING tmp;
tmp.str= (char*) var_name;
tmp.length=strlen(var_name);
LEX_STRING null_lex_string;
memset(&null_lex_string.str, 0, sizeof(null_lex_string));
/*
We set the name of Item to @@session.var_name because that then is used
as the column name in the output.
*/
if (Item* var= get_system_var(session, OPT_SESSION, tmp, null_lex_string))
{
char buff[MAX_SYS_VAR_LENGTH*2+4+8];
char *end= buff;
end+= snprintf(buff, sizeof(buff), "@@session.%s", var_name);
var->set_name(buff, end-buff, system_charset_info);
session->add_item_to_list(var);
}
}
/**
Parse a query.
@param session Current thread
@param inBuf Begining of the query text
@param length Length of the query text
*/
void parse(Session& session, const char *inBuf, uint32_t length)
{
session.lex().start(&session);
session.reset_for_next_command();
/* Check if the Query is Cached if and return true if yes
* TODO the plugin has to make sure that the query is cacheble
* by setting the query_safe_cache param to TRUE
*/
if (plugin::QueryCache::isCached(&session) && not plugin::QueryCache::sendCachedResultset(&session))
return;
Lex_input_stream lip(&session, inBuf, length);
if (parse_sql(&session, &lip))
assert(session.is_error());
else if (not session.is_error())
{
DRIZZLE_QUERY_EXEC_START(session.getQueryString()->c_str(), session.thread_id,
const_cast<const char *>(session.schema()->c_str()));
// Implement Views here --Brian
/* Actually execute the query */
try
{
execute_command(&session);
}
catch (...)
{
// Just try to catch any random failures that could have come
// during execution.
DRIZZLE_ABORT;
}
DRIZZLE_QUERY_EXEC_DONE(0);
}
session.lex().unit.cleanup();
session.set_proc_info("freeing items");
session.end_statement();
session.cleanup_after_query();
session.times.set_end_timer(session);
}
/**
Store field definition for create.
@return
Return 0 if ok
*/
bool add_field_to_list(Session *session, LEX_STRING *field_name, enum_field_types type,
char *length, char *decimals,
uint32_t type_modifier,
enum column_format_type column_format,
Item *default_value, Item *on_update_value,
LEX_STRING *comment,
char *change,
List<String> *interval_list, const charset_info_st * const cs)
{
register CreateField *new_field;
LEX *lex= &session->lex();
statement::AlterTable *statement= (statement::AlterTable *)lex->statement;
if (check_identifier_name(field_name, ER_TOO_LONG_IDENT))
return true;
if (type_modifier & PRI_KEY_FLAG)
{
Key *key;
lex->col_list.push_back(new Key_part_spec(*field_name, 0));
key= new Key(Key::PRIMARY, null_lex_str,
&default_key_create_info,
0, lex->col_list);
statement->alter_info.key_list.push_back(key);
lex->col_list.clear();
}
if (type_modifier & (UNIQUE_FLAG | UNIQUE_KEY_FLAG))
{
Key *key;
lex->col_list.push_back(new Key_part_spec(*field_name, 0));
key= new Key(Key::UNIQUE, null_lex_str,
&default_key_create_info, 0,
lex->col_list);
statement->alter_info.key_list.push_back(key);
lex->col_list.clear();
}
if (default_value)
{
/*
Default value should be literal => basic constants =>
no need fix_fields()
We allow only one function as part of default value -
NOW() as default for TIMESTAMP type.
*/
if (default_value->type() == Item::FUNC_ITEM &&
!(((Item_func*)default_value)->functype() == Item_func::NOW_FUNC &&
(type == DRIZZLE_TYPE_TIMESTAMP or type == DRIZZLE_TYPE_MICROTIME)))
{
my_error(ER_INVALID_DEFAULT, MYF(0), field_name->str);
return true;
}
else if (default_value->type() == Item::NULL_ITEM)
{
default_value= 0;
if ((type_modifier & (NOT_NULL_FLAG | AUTO_INCREMENT_FLAG)) == NOT_NULL_FLAG)
{
my_error(ER_INVALID_DEFAULT, MYF(0), field_name->str);
return true;
}
}
else if (type_modifier & AUTO_INCREMENT_FLAG)
{
my_error(ER_INVALID_DEFAULT, MYF(0), field_name->str);
return true;
}
}
if (on_update_value && (type != DRIZZLE_TYPE_TIMESTAMP and type != DRIZZLE_TYPE_MICROTIME))
{
my_error(ER_INVALID_ON_UPDATE, MYF(0), field_name->str);
return true;
}
if (!(new_field= new CreateField())
|| new_field->init(session, field_name->str, type, length, decimals,
type_modifier, comment, change, interval_list,
cs, 0, column_format)
|| new_field->setDefaultValue(default_value, on_update_value))
return true;
statement->alter_info.create_list.push_back(new_field);
lex->last_field=new_field;
return false;
}
/**
Add a table to list of used tables.
@param table Table to add
@param alias alias for table (or null if no alias)
@param table_options A set of the following bits:
- TL_OPTION_UPDATING : Table will be updated
- TL_OPTION_FORCE_INDEX : Force usage of index
- TL_OPTION_ALIAS : an alias in multi table DELETE
@param lock_type How table should be locked
@param use_index List of indexed used in USE INDEX
@param ignore_index List of indexed used in IGNORE INDEX
@retval
0 Error
@retval
\# Pointer to TableList element added to the total table list
*/
TableList *Select_Lex::add_table_to_list(Session *session,
Table_ident *table,
LEX_STRING *alias,
const bitset<NUM_OF_TABLE_OPTIONS>& table_options,
thr_lock_type lock_type,
List<Index_hint> *index_hints_arg,
LEX_STRING *option)
{
TableList *previous_table_ref; /* The table preceding the current one. */
char *alias_str;
LEX *lex= &session->lex();
if (!table)
return NULL; // End of memory
alias_str= alias ? alias->str : table->table.str;
if (! table_options.test(TL_OPTION_ALIAS) &&
check_table_name(table->table.str, table->table.length))
{
my_error(ER_WRONG_TABLE_NAME, MYF(0), table->table.str);
return NULL;
}
if (table->is_derived_table() == false && table->db.str)
{
my_casedn_str(files_charset_info, table->db.str);
identifier::Schema schema_identifier(string(table->db.str));
if (not schema::check(*session, schema_identifier))
{
my_error(ER_WRONG_DB_NAME, MYF(0), table->db.str);
return NULL;
}
}
if (!alias) /* Alias is case sensitive */
{
if (table->sel)
{
my_message(ER_DERIVED_MUST_HAVE_ALIAS,
ER(ER_DERIVED_MUST_HAVE_ALIAS), MYF(0));
return NULL;
}
if (!(alias_str= (char*) session->getMemRoot()->duplicate(alias_str,table->table.length+1)))
return NULL;
}
TableList *ptr = (TableList *) session->calloc(sizeof(TableList));
if (table->db.str)
{
ptr->setIsFqtn(true);
ptr->setSchemaName(table->db.str);
ptr->db_length= table->db.length;
}
else if (lex->copy_db_to(ptr->getSchemaNamePtr(), &ptr->db_length))
return NULL;
else
ptr->setIsFqtn(false);
ptr->alias= alias_str;
ptr->setIsAlias(alias ? true : false);
ptr->setTableName(table->table.str);
ptr->table_name_length=table->table.length;
ptr->lock_type= lock_type;
ptr->force_index= table_options.test(TL_OPTION_FORCE_INDEX);
ptr->ignore_leaves= table_options.test(TL_OPTION_IGNORE_LEAVES);
ptr->derived= table->sel;
ptr->select_lex= lex->current_select;
ptr->index_hints= index_hints_arg;
ptr->option= option ? option->str : 0;
/* check that used name is unique */
if (lock_type != TL_IGNORE)
{
TableList *first_table= (TableList*) table_list.first;
for (TableList *tables= first_table ;
tables ;
tables=tables->next_local)
{
if (not my_strcasecmp(table_alias_charset, alias_str, tables->alias) &&
not my_strcasecmp(system_charset_info, ptr->getSchemaName(), tables->getSchemaName()))
{
my_error(ER_NONUNIQ_TABLE, MYF(0), alias_str);
return NULL;
}
}
}
/* Store the table reference preceding the current one. */
if (table_list.size() > 0)
{
/*
table_list.next points to the last inserted TableList->next_local'
element
We don't use the offsetof() macro here to avoid warnings from gcc
*/
previous_table_ref= (TableList*) ((char*) table_list.next -
((char*) &(ptr->next_local) -
(char*) ptr));
/*
Set next_name_resolution_table of the previous table reference to point
to the current table reference. In effect the list
TableList::next_name_resolution_table coincides with
TableList::next_local. Later this may be changed in
store_top_level_join_columns() for NATURAL/USING joins.
*/
previous_table_ref->next_name_resolution_table= ptr;
}
/*
Link the current table reference in a local list (list for current select).
Notice that as a side effect here we set the next_local field of the
previous table reference to 'ptr'. Here we also add one element to the
list 'table_list'.
*/
table_list.link_in_list((unsigned char*) ptr, (unsigned char**) &ptr->next_local);
ptr->next_name_resolution_table= NULL;
/* Link table in global list (all used tables) */
lex->add_to_query_tables(ptr);
return ptr;
}
/**
Initialize a new table list for a nested join.
The function initializes a structure of the TableList type
for a nested join. It sets up its nested join list as empty.
The created structure is added to the front of the current
join list in the Select_Lex object. Then the function
changes the current nest level for joins to refer to the newly
created empty list after having saved the info on the old level
in the initialized structure.
@param session current thread
@retval
0 if success
@retval
1 otherwise
*/
bool Select_Lex::init_nested_join(Session *session)
{
TableList *ptr;
NestedJoin *nested_join;
if (!(ptr= (TableList*) session->calloc(ALIGN_SIZE(sizeof(TableList))+
sizeof(NestedJoin))))
return true;
ptr->setNestedJoin(((NestedJoin*) ((unsigned char*) ptr + ALIGN_SIZE(sizeof(TableList)))));
nested_join= ptr->getNestedJoin();
join_list->push_front(ptr);
ptr->setEmbedding(embedding);
ptr->setJoinList(join_list);
ptr->alias= (char*) "(nested_join)";
embedding= ptr;
join_list= &nested_join->join_list;
join_list->clear();
return false;
}
/**
End a nested join table list.
The function returns to the previous join nest level.
If the current level contains only one member, the function
moves it one level up, eliminating the nest.
@param session current thread
@return
- Pointer to TableList element added to the total table list, if success
- 0, otherwise
*/
TableList *Select_Lex::end_nested_join(Session *)
{
TableList *ptr;
NestedJoin *nested_join;
assert(embedding);
ptr= embedding;
join_list= ptr->getJoinList();
embedding= ptr->getEmbedding();
nested_join= ptr->getNestedJoin();
if (nested_join->join_list.size() == 1)
{
TableList *embedded= &nested_join->join_list.front();
join_list->pop();
embedded->setJoinList(join_list);
embedded->setEmbedding(embedding);
join_list->push_front(embedded);
ptr= embedded;
}
else if (nested_join->join_list.size() == 0)
{
join_list->pop();
ptr= NULL; // return value
}
return ptr;
}
/**
Nest last join operation.
The function nest last join operation as if it was enclosed in braces.
@param session current thread
@retval
0 Error
@retval
\# Pointer to TableList element created for the new nested join
*/
TableList *Select_Lex::nest_last_join(Session *session)
{
TableList *ptr;
NestedJoin *nested_join;
List<TableList> *embedded_list;
if (!(ptr= (TableList*) session->calloc(ALIGN_SIZE(sizeof(TableList))+
sizeof(NestedJoin))))
return NULL;
ptr->setNestedJoin(((NestedJoin*) ((unsigned char*) ptr + ALIGN_SIZE(sizeof(TableList)))));
nested_join= ptr->getNestedJoin();
ptr->setEmbedding(embedding);
ptr->setJoinList(join_list);
ptr->alias= (char*) "(nest_last_join)";
embedded_list= &nested_join->join_list;
embedded_list->clear();
for (uint32_t i=0; i < 2; i++)
{
TableList *table= join_list->pop();
table->setJoinList(embedded_list);
table->setEmbedding(ptr);
embedded_list->push_back(table);
if (table->natural_join)
{
ptr->is_natural_join= true;
/*
If this is a JOIN ... USING, move the list of joined fields to the
table reference that describes the join.
*/
if (prev_join_using)
ptr->join_using_fields= prev_join_using;
}
}
join_list->push_front(ptr);
nested_join->used_tables= nested_join->not_null_tables= (table_map) 0;
return ptr;
}
/**
Add a table to the current join list.
The function puts a table in front of the current join list
of Select_Lex object.
Thus, joined tables are put into this list in the reverse order
(the most outer join operation follows first).
@param table the table to add
@return
None
*/
void Select_Lex::add_joined_table(TableList *table)
{
join_list->push_front(table);
table->setJoinList(join_list);
table->setEmbedding(embedding);
}
/**
Convert a right join into equivalent left join.
The function takes the current join list t[0],t[1] ... and
effectively converts it into the list t[1],t[0] ...
Although the outer_join flag for the new nested table contains
JOIN_TYPE_RIGHT, it will be handled as the inner table of a left join
operation.
EXAMPLES
@verbatim
SELECT * FROM t1 RIGHT JOIN t2 ON on_expr =>
SELECT * FROM t2 LEFT JOIN t1 ON on_expr
SELECT * FROM t1,t2 RIGHT JOIN t3 ON on_expr =>
SELECT * FROM t1,t3 LEFT JOIN t2 ON on_expr
SELECT * FROM t1,t2 RIGHT JOIN (t3,t4) ON on_expr =>
SELECT * FROM t1,(t3,t4) LEFT JOIN t2 ON on_expr
SELECT * FROM t1 LEFT JOIN t2 ON on_expr1 RIGHT JOIN t3 ON on_expr2 =>
SELECT * FROM t3 LEFT JOIN (t1 LEFT JOIN t2 ON on_expr2) ON on_expr1
@endverbatim
@param session current thread
@return
- Pointer to the table representing the inner table, if success
- 0, otherwise
*/
TableList *Select_Lex::convert_right_join()
{
TableList *tab2= join_list->pop();
TableList *tab1= join_list->pop();
join_list->push_front(tab2);
join_list->push_front(tab1);
tab1->outer_join|= JOIN_TYPE_RIGHT;
return tab1;
}
/**
Set lock for all tables in current select level.
@param lock_type Lock to set for tables
@note
If lock is a write lock, then tables->updating is set 1
This is to get tables_ok to know that the table is updated by the
query
*/
void Select_Lex::set_lock_for_tables(thr_lock_type lock_type)
{
for (TableList *tables= (TableList*) table_list.first;
tables;
tables= tables->next_local)
{
tables->lock_type= lock_type;
}
}
/**
Create a fake Select_Lex for a unit.
The method create a fake Select_Lex object for a unit.
This object is created for any union construct containing a union
operation and also for any single select union construct of the form
@verbatim
(SELECT ... ORDER BY order_list [LIMIT n]) ORDER BY ...
@endvarbatim
or of the form
@varbatim
(SELECT ... ORDER BY LIMIT n) ORDER BY ...
@endvarbatim
@param session_arg thread handle
@note
The object is used to retrieve rows from the temporary table
where the result on the union is obtained.
@retval
1 on failure to create the object
@retval
0 on success
*/
bool Select_Lex_Unit::add_fake_select_lex(Session *session_arg)
{
Select_Lex *first_sl= first_select();
assert(!fake_select_lex);
if (!(fake_select_lex= new (session_arg->mem_root) Select_Lex()))
return(1);
fake_select_lex->include_standalone(this,
(Select_Lex_Node**)&fake_select_lex);
fake_select_lex->select_number= INT_MAX;
fake_select_lex->parent_lex= &session_arg->lex(); /* Used in init_query. */
fake_select_lex->make_empty_select();
fake_select_lex->linkage= GLOBAL_OPTIONS_TYPE;
fake_select_lex->select_limit= 0;
fake_select_lex->context.outer_context=first_sl->context.outer_context;
/* allow item list resolving in fake select for ORDER BY */
fake_select_lex->context.resolve_in_select_list= true;
fake_select_lex->context.select_lex= fake_select_lex;
if (!is_union())
{
/*
This works only for
(SELECT ... ORDER BY list [LIMIT n]) ORDER BY order_list [LIMIT m],
(SELECT ... LIMIT n) ORDER BY order_list [LIMIT m]
just before the parser starts processing order_list
*/
global_parameters= fake_select_lex;
fake_select_lex->no_table_names_allowed= 1;
session_arg->lex().current_select= fake_select_lex;
}
session_arg->lex().pop_context();
return(0);
}
/**
Push a new name resolution context for a JOIN ... ON clause to the
context stack of a query block.
Create a new name resolution context for a JOIN ... ON clause,
set the first and last leaves of the list of table references
to be used for name resolution, and push the newly created
context to the stack of contexts of the query.
@param session pointer to current thread
@param left_op left operand of the JOIN
@param right_op rigth operand of the JOIN
@retval
false if all is OK
@retval
true if a memory allocation error occured
*/
void push_new_name_resolution_context(Session& session, TableList& left_op, TableList& right_op)
{
Name_resolution_context *on_context= new (session.mem_root) Name_resolution_context;
on_context->init();
on_context->first_name_resolution_table= left_op.first_leaf_for_name_resolution();
on_context->last_name_resolution_table= right_op.last_leaf_for_name_resolution();
session.lex().push_context(on_context);
}
/**
Add an ON condition to the second operand of a JOIN ... ON.
Add an ON condition to the right operand of a JOIN ... ON clause.
@param b the second operand of a JOIN ... ON
@param expr the condition to be added to the ON clause
@retval
false if there was some error
@retval
true if all is OK
*/
void add_join_on(TableList *b, Item *expr)
{
if (expr)
{
if (!b->on_expr)
b->on_expr= expr;
else
{
/*
If called from the parser, this happens if you have both a
right and left join. If called later, it happens if we add more
than one condition to the ON clause.
*/
b->on_expr= new Item_cond_and(b->on_expr,expr);
}
b->on_expr->top_level_item();
}
}
/**
Mark that there is a NATURAL JOIN or JOIN ... USING between two
tables.
This function marks that table b should be joined with a either via
a NATURAL JOIN or via JOIN ... USING. Both join types are special
cases of each other, so we treat them together. The function
setup_conds() creates a list of equal condition between all fields
of the same name for NATURAL JOIN or the fields in 'using_fields'
for JOIN ... USING. The list of equality conditions is stored
either in b->on_expr, or in JOIN::conds, depending on whether there
was an outer join.
EXAMPLE
@verbatim
SELECT * FROM t1 NATURAL LEFT JOIN t2
<=>
SELECT * FROM t1 LEFT JOIN t2 ON (t1.i=t2.i and t1.j=t2.j ... )
SELECT * FROM t1 NATURAL JOIN t2 WHERE <some_cond>
<=>
SELECT * FROM t1, t2 WHERE (t1.i=t2.i and t1.j=t2.j and <some_cond>)
SELECT * FROM t1 JOIN t2 USING(j) WHERE <some_cond>
<=>
SELECT * FROM t1, t2 WHERE (t1.j=t2.j and <some_cond>)
@endverbatim
@param a Left join argument
@param b Right join argument
@param using_fields Field names from USING clause
*/
void add_join_natural(TableList *a, TableList *b, List<String> *using_fields,
Select_Lex *lex)
{
b->natural_join= a;
lex->prev_join_using= using_fields;
}
/**
Check if the select is a simple select (not an union).
@retval
0 ok
@retval
1 error ; In this case the error messege is sent to the client
*/
bool check_simple_select(Session* session)
{
if (session->lex().current_select != &session->lex().select_lex)
{
char command[80];
Lex_input_stream *lip= session->m_lip;
strncpy(command, lip->yylval->symbol.str,
min(lip->yylval->symbol.length, (uint32_t)(sizeof(command)-1)));
command[min(lip->yylval->symbol.length, (uint32_t)(sizeof(command)-1))]=0;
my_error(ER_CANT_USE_OPTION_HERE, MYF(0), command);
return 1;
}
return 0;
}
/**
Construct ALL/ANY/SOME subquery Item.
@param left_expr pointer to left expression
@param cmp compare function creator
@param all true if we create ALL subquery
@param select_lex pointer on parsed subquery structure
@return
constructed Item (or 0 if out of memory)
*/
Item * all_any_subquery_creator(Item *left_expr,
chooser_compare_func_creator cmp,
bool all,
Select_Lex *select_lex)
{
if ((cmp == &comp_eq_creator) && !all) // = ANY <=> IN
return new Item_in_subselect(left_expr, select_lex);
if ((cmp == &comp_ne_creator) && all) // <> ALL <=> NOT IN
return new Item_func_not(new Item_in_subselect(left_expr, select_lex));
Item_allany_subselect *it=
new Item_allany_subselect(left_expr, cmp, select_lex, all);
if (all)
return it->upper_item= new Item_func_not_all(it); /* ALL */
return it->upper_item= new Item_func_nop_all(it); /* ANY/SOME */
}
/**
Update query pre-check.
@param session Thread handler
@param tables Global/local table list (have to be the same)
@retval
false OK
@retval
true Error
*/
bool update_precheck(Session *session, TableList *)
{
const char *msg= 0;
Select_Lex *select_lex= &session->lex().select_lex;
if (session->lex().select_lex.item_list.size() != session->lex().value_list.size())
{
my_message(ER_WRONG_VALUE_COUNT, ER(ER_WRONG_VALUE_COUNT), MYF(0));
return(true);
}
if (session->lex().select_lex.table_list.size() > 1)
{
if (select_lex->order_list.size())
msg= "ORDER BY";
else if (select_lex->select_limit)
msg= "LIMIT";
if (msg)
{
my_error(ER_WRONG_USAGE, MYF(0), "UPDATE", msg);
return(true);
}
}
return(false);
}
/**
simple INSERT query pre-check.
@param session Thread handler
@param tables Global table list
@retval
false OK
@retval
true error
*/
bool insert_precheck(Session *session, TableList *)
{
/*
Check that we have modify privileges for the first table and
select privileges for the rest
*/
if (session->lex().update_list.size() != session->lex().value_list.size())
{
my_message(ER_WRONG_VALUE_COUNT, ER(ER_WRONG_VALUE_COUNT), MYF(0));
return(true);
}
return(false);
}
/**
negate given expression.
@param session thread handler
@param expr expression for negation
@return
negated expression
*/
Item *negate_expression(Session *session, Item *expr)
{
Item *negated;
if (expr->type() == Item::FUNC_ITEM &&
((Item_func *) expr)->functype() == Item_func::NOT_FUNC)
{
/* it is NOT(NOT( ... )) */
Item *arg= ((Item_func *) expr)->arguments()[0];
enum_parsing_place place= session->lex().current_select->parsing_place;
if (arg->is_bool_func() || place == IN_WHERE || place == IN_HAVING)
return arg;
/*
if it is not boolean function then we have to emulate value of
not(not(a)), it will be a != 0
*/
return new Item_func_ne(arg, new Item_int((char*) "0", 0, 1));
}
if ((negated= expr->neg_transformer(session)) != 0)
return negated;
return new Item_func_not(expr);
}
/*
Check that char length of a string does not exceed some limit.
SYNOPSIS
check_string_char_length()
str string to be checked
err_msg error message to be displayed if the string is too long
max_char_length max length in symbols
cs string charset
RETURN
false the passed string is not longer than max_char_length
true the passed string is longer than max_char_length
*/
bool check_string_char_length(LEX_STRING *str, const char *err_msg,
uint32_t max_char_length, const charset_info_st * const cs,
bool no_error)
{
int well_formed_error;
uint32_t res= cs->cset->well_formed_len(cs, str->str, str->str + str->length,
max_char_length, &well_formed_error);
if (!well_formed_error && str->length == res)
return false;
if (!no_error)
my_error(ER_WRONG_STRING_LENGTH, MYF(0), str->str, err_msg, max_char_length);
return true;
}
bool check_identifier_name(LEX_STRING *str, error_t err_code,
uint32_t max_char_length,
const char *param_for_err_msg)
{
/*
We don't support non-BMP characters in identifiers at the moment,
so they should be prohibited until such support is done.
This is why we use the 3-byte utf8 to check well-formedness here.
*/
const charset_info_st * const cs= &my_charset_utf8mb4_general_ci;
int well_formed_error;
uint32_t res= cs->cset->well_formed_len(cs, str->str, str->str + str->length,
max_char_length, &well_formed_error);
if (well_formed_error)
{
my_error(ER_INVALID_CHARACTER_STRING, MYF(0), "identifier", str->str);
return true;
}
if (str->length == res)
return false;
switch (err_code)
{
case EE_OK:
break;
case ER_WRONG_STRING_LENGTH:
my_error(err_code, MYF(0), str->str, param_for_err_msg, max_char_length);
break;
case ER_TOO_LONG_IDENT:
my_error(err_code, MYF(0), str->str);
break;
default:
assert(0);
break;
}
return true;
}
/**
This is a wrapper of DRIZZLEparse(). All the code should call parse_sql()
instead of DRIZZLEparse().
@param session Thread context.
@param lip Lexer context.
@return Error status.
@retval false on success.
@retval true on parsing error.
*/
static bool parse_sql(Session *session, Lex_input_stream *lip)
{
assert(session->m_lip == NULL);
DRIZZLE_QUERY_PARSE_START(session->getQueryString()->c_str());
/* Set Lex_input_stream. */
session->m_lip= lip;
/* Parse the query. */
bool parse_status= base_sql_parse(session) != 0;
/* Check that if DRIZZLEparse() failed, session->is_error() is set. */
assert(!parse_status || session->is_error());
/* Reset Lex_input_stream. */
session->m_lip= NULL;
DRIZZLE_QUERY_PARSE_DONE(parse_status || session->is_fatal_error);
/* That's it. */
return parse_status || session->is_fatal_error;
}
/**
@} (end of group Runtime_Environment)
*/
} /* namespace drizzled */
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