/* Copyright (C) Olivier Bertrand 2004 - 2017
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 02111-1301 USA */
/**
@file ha_connect.cc
@brief
The ha_connect engine is a stubbed storage engine that enables to create tables
based on external data. Principally they are based on plain files of many
different types, but also on collections of such files, collection of tables,
local or remote MySQL/MariaDB tables retrieved via MySQL API,
ODBC/JDBC tables retrieving data from other DBMS having an ODBC/JDBC server,
and even virtual tables.
@details
ha_connect will let you create/open/delete tables, the created table can be
done specifying an already existing file, the drop table command will just
suppress the table definition but not the eventual data file.
Indexes are not supported for all table types but data can be inserted,
updated or deleted.
You can enable the CONNECT storage engine in your build by doing the
following during your build process:
./configure
--with-connect-storage-engine
You can install the CONNECT handler as all other storage handlers.
Once this is done, MySQL will let you create tables with:
CREATE TABLE (...) ENGINE=CONNECT;
The example storage engine does not use table locks. It
implements an example "SHARE" that is inserted into a hash by table
name. This is not used yet.
Please read the object definition in ha_connect.h before reading the rest
of this file.
@note
This MariaDB CONNECT handler is currently an adaptation of the XDB handler
that was written for MySQL version 4.1.2-alpha. Its overall design should
be enhanced in the future to meet MariaDB requirements.
@note
It was written also from the Brian's ha_example handler and contains parts
of it that are there, such as table and system variables.
@note
When you create an CONNECT table, the MySQL Server creates a table .frm
(format) file in the database directory, using the table name as the file
name as is customary with MySQL.
For file based tables, if a file name is not specified, this is an inward
table. An empty file is made in the current data directory that you can
populate later like for other engine tables. This file modified on ALTER
and is deleted when dropping the table.
If a file name is specified, this in an outward table. The specified file
will be used as representing the table data and will not be modified or
deleted on command such as ALTER or DROP.
To get an idea of what occurs, here is an example select that would do
a scan of an entire table:
@code
ha-connect::open
ha_connect::store_lock
ha_connect::external_lock
ha_connect::info
ha_connect::rnd_init
ha_connect::extra
ENUM HA_EXTRA_CACHE Cache record in HA_rrnd()
ha_connect::rnd_next
ha_connect::rnd_next
ha_connect::rnd_next
ha_connect::rnd_next
ha_connect::rnd_next
ha_connect::rnd_next
ha_connect::rnd_next
ha_connect::rnd_next
ha_connect::rnd_next
ha_connect::extra
ENUM HA_EXTRA_NO_CACHE End caching of records (def)
ha_connect::external_lock
ha_connect::extra
ENUM HA_EXTRA_RESET Reset database to after open
@endcode
Here you see that the connect storage engine has 9 rows called before
rnd_next signals that it has reached the end of its data. Calls to
ha_connect::extra() are hints as to what will be occuring to the request.
Happy use!
-Olivier
*/
#ifdef USE_PRAGMA_IMPLEMENTATION
#pragma implementation // gcc: Class implementation
#endif
#define MYSQL_SERVER 1
#define DONT_DEFINE_VOID
#include "sql_class.h"
#include "create_options.h"
#include "mysql_com.h"
#include "field.h"
#include "sql_parse.h"
#include "sql_base.h"
#include
#include "sql_partition.h"
#undef OFFSET
#define NOPARSE
#define NJDBC
#if defined(UNIX)
#include "osutil.h"
#endif // UNIX
#include "global.h"
#include "plgdbsem.h"
#include "xtable.h"
#include "tabext.h"
#if defined(ODBC_SUPPORT)
#include "odbccat.h"
#endif // ODBC_SUPPORT
#if defined(JDBC_SUPPORT)
#include "tabjdbc.h"
#include "jdbconn.h"
#endif // JDBC_SUPPORT
#include "tabmysql.h"
#include "filamdbf.h"
#include "tabxcl.h"
#include "tabfmt.h"
//#include "reldef.h"
#include "tabcol.h"
#include "xindex.h"
#if defined(__WIN__)
#include
#include "tabwmi.h"
#endif // __WIN__
#include "connect.h"
#include "user_connect.h"
#include "ha_connect.h"
#include "myutil.h"
#include "preparse.h"
#include "inihandl.h"
#if defined(LIBXML2_SUPPORT)
#include "libdoc.h"
#endif // LIBXML2_SUPPORT
#include "taboccur.h"
#include "tabpivot.h"
#include "tabfix.h"
#define my_strupr(p) my_caseup_str(default_charset_info, (p));
#define my_strlwr(p) my_casedn_str(default_charset_info, (p));
#define my_stricmp(a,b) my_strcasecmp(default_charset_info, (a), (b))
/***********************************************************************/
/* Initialize the ha_connect static members. */
/***********************************************************************/
#define SZCONV 8192
#define SZWORK 67108864 // Default work area size 64M
#define SZWMIN 4194304 // Minimum work area size 4M
#define JSONMAX 10 // JSON Default max grp size
extern "C" {
char version[]= "Version 1.05.0003 February 27, 2017";
#if defined(__WIN__)
char compver[]= "Version 1.05.0003 " __DATE__ " " __TIME__;
char slash= '\\';
#else // !__WIN__
char slash= '/';
#endif // !__WIN__
} // extern "C"
#if defined(XMAP)
my_bool xmap= false;
#endif // XMAP
ulong ha_connect::num= 0;
#if defined(XMSG)
extern "C" {
char *msg_path;
} // extern "C"
#endif // XMSG
#if defined(JDBC_SUPPORT)
char *JvmPath;
char *ClassPath;
#endif // JDBC_SUPPORT
#if defined(__WIN__)
CRITICAL_SECTION parsec; // Used calling the Flex parser
#else // !__WIN__
pthread_mutex_t parmut = PTHREAD_MUTEX_INITIALIZER;
#endif // !__WIN__
/***********************************************************************/
/* Utility functions. */
/***********************************************************************/
PQRYRES OEMColumns(PGLOBAL g, PTOS topt, char *tab, char *db, bool info);
PQRYRES VirColumns(PGLOBAL g, bool info);
PQRYRES JSONColumns(PGLOBAL g, char *db, PTOS topt, bool info);
PQRYRES XMLColumns(PGLOBAL g, char *db, char *tab, PTOS topt, bool info);
int TranslateJDBCType(int stp, char *tn, int prec, int& len, char& v);
void PushWarning(PGLOBAL g, THD *thd, int level);
bool CheckSelf(PGLOBAL g, TABLE_SHARE *s, const char *host,
const char *db, char *tab, const char *src, int port);
bool ZipLoadFile(PGLOBAL, char*, char*, char*, bool, bool);
bool ExactInfo(void);
USETEMP UseTemp(void);
int GetConvSize(void);
TYPCONV GetTypeConv(void);
uint GetJsonGrpSize(void);
char *GetJavaWrapper(void);
uint GetWorkSize(void);
void SetWorkSize(uint);
extern "C" const char *msglang(void);
static void PopUser(PCONNECT xp);
static PCONNECT GetUser(THD *thd, PCONNECT xp);
static PGLOBAL GetPlug(THD *thd, PCONNECT& lxp);
static handler *connect_create_handler(handlerton *hton,
TABLE_SHARE *table,
MEM_ROOT *mem_root);
static int connect_assisted_discovery(handlerton *hton, THD* thd,
TABLE_SHARE *table_s,
HA_CREATE_INFO *info);
/****************************************************************************/
/* Return str as a zero terminated string. */
/****************************************************************************/
static char *strz(PGLOBAL g, LEX_STRING &ls)
{
char *str= (char*)PlugSubAlloc(g, NULL, ls.length + 1);
memcpy(str, ls.str, ls.length);
str[ls.length]= 0;
return str;
} // end of strz
/***********************************************************************/
/* CONNECT session variables definitions. */
/***********************************************************************/
// Tracing: 0 no, 1 yes, >1 more tracing
static MYSQL_THDVAR_INT(xtrace,
PLUGIN_VAR_RQCMDARG, "Console trace value.",
NULL, NULL, 0, 0, INT_MAX, 1);
// Getting exact info values
static MYSQL_THDVAR_BOOL(exact_info, PLUGIN_VAR_RQCMDARG,
"Getting exact info values",
NULL, NULL, 0);
/**
Temporary file usage:
no: Not using temporary file
auto: Using temporary file when needed
yes: Allways using temporary file
force: Force using temporary file (no MAP)
test: Reserved
*/
const char *usetemp_names[]=
{
"NO", "AUTO", "YES", "FORCE", "TEST", NullS
};
TYPELIB usetemp_typelib=
{
array_elements(usetemp_names) - 1, "usetemp_typelib",
usetemp_names, NULL
};
static MYSQL_THDVAR_ENUM(
use_tempfile, // name
PLUGIN_VAR_RQCMDARG, // opt
"Temporary file use.", // comment
NULL, // check
NULL, // update function
1, // def (AUTO)
&usetemp_typelib); // typelib
// Size used for g->Sarea_Size
static MYSQL_THDVAR_UINT(work_size,
PLUGIN_VAR_RQCMDARG,
"Size of the CONNECT work area.",
NULL, NULL, SZWORK, SZWMIN, UINT_MAX, 1);
// Size used when converting TEXT columns to VARCHAR
static MYSQL_THDVAR_INT(conv_size,
PLUGIN_VAR_RQCMDARG, // opt
"Size used when converting TEXT columns.",
NULL, NULL, SZCONV, 0, 65500, 1);
/**
Type conversion:
no: Unsupported types -> TYPE_ERROR
yes: TEXT -> VARCHAR
skip: skip unsupported type columns in Discovery
*/
const char *xconv_names[]=
{
"NO", "YES", "SKIP", NullS
};
TYPELIB xconv_typelib=
{
array_elements(xconv_names) - 1, "xconv_typelib",
xconv_names, NULL
};
static MYSQL_THDVAR_ENUM(
type_conv, // name
PLUGIN_VAR_RQCMDARG, // opt
"Unsupported types conversion.", // comment
NULL, // check
NULL, // update function
0, // def (no)
&xconv_typelib); // typelib
// Estimate max number of rows for JSON aggregate functions
static MYSQL_THDVAR_UINT(json_grp_size,
PLUGIN_VAR_RQCMDARG, // opt
"max number of rows for JSON aggregate functions.",
NULL, NULL, JSONMAX, 1, INT_MAX, 1);
#if defined(JDBC_SUPPORT)
// Default java wrapper to use with JDBC tables
static MYSQL_THDVAR_STR(java_wrapper,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC,
"Java wrapper class name",
// check_class_path, update_class_path,
NULL, NULL, "wrappers/JdbcInterface");
#endif // JDBC_SUPPORT
#if defined(XMSG) || defined(NEWMSG)
const char *language_names[]=
{
"default", "english", "french", NullS
};
TYPELIB language_typelib=
{
array_elements(language_names) - 1, "language_typelib",
language_names, NULL
};
static MYSQL_THDVAR_ENUM(
msg_lang, // name
PLUGIN_VAR_RQCMDARG, // opt
"Message language", // comment
NULL, // check
NULL, // update
1, // def (ENGLISH)
&language_typelib); // typelib
#endif // XMSG || NEWMSG
/***********************************************************************/
/* The CONNECT handlerton object. */
/***********************************************************************/
handlerton *connect_hton= NULL;
/***********************************************************************/
/* Function to export session variable values to other source files. */
/***********************************************************************/
extern "C" int GetTraceValue(void)
{return connect_hton ? THDVAR(current_thd, xtrace) : 0;}
bool ExactInfo(void) {return THDVAR(current_thd, exact_info);}
USETEMP UseTemp(void) {return (USETEMP)THDVAR(current_thd, use_tempfile);}
int GetConvSize(void) {return THDVAR(current_thd, conv_size);}
TYPCONV GetTypeConv(void) {return (TYPCONV)THDVAR(current_thd, type_conv);}
uint GetJsonGrpSize(void)
{return connect_hton ? THDVAR(current_thd, json_grp_size) : 10;}
uint GetWorkSize(void) {return THDVAR(current_thd, work_size);}
void SetWorkSize(uint)
{
// Changing the session variable value seems to be impossible here
// and should be done in a check function
push_warning(current_thd, Sql_condition::WARN_LEVEL_WARN, 0,
"Work size too big, try setting a smaller value");
} // end of SetWorkSize
#if defined(XMSG) || defined(NEWMSG)
extern "C" const char *msglang(void)
{
return language_names[THDVAR(current_thd, msg_lang)];
} // end of msglang
#else // !XMSG && !NEWMSG
#if defined(JDBC_SUPPORT)
char *GetJavaWrapper(void)
{return connect_hton ? THDVAR(current_thd, java_wrapper) : (char*)"wrappers/JdbcInterface";}
#endif // JDBC_SUPPORT
extern "C" const char *msglang(void)
{
#if defined(FRENCH)
return "french";
#else // DEFAULT
return "english";
#endif // DEFAULT
} // end of msglang
#endif // !XMSG && !NEWMSG
#if 0
/***********************************************************************/
/* Global variables update functions. */
/***********************************************************************/
static void update_connect_zconv(MYSQL_THD thd,
struct st_mysql_sys_var *var,
void *var_ptr, const void *save)
{
zconv= *(int *)var_ptr= *(int *)save;
} // end of update_connect_zconv
static void update_connect_xconv(MYSQL_THD thd,
struct st_mysql_sys_var *var,
void *var_ptr, const void *save)
{
xconv= (int)(*(ulong *)var_ptr= *(ulong *)save);
} // end of update_connect_xconv
#if defined(XMAP)
static void update_connect_xmap(MYSQL_THD thd,
struct st_mysql_sys_var *var,
void *var_ptr, const void *save)
{
xmap= (my_bool)(*(my_bool *)var_ptr= *(my_bool *)save);
} // end of update_connect_xmap
#endif // XMAP
#endif // 0
#if 0 // (was XMSG) Unuseful because not called for default value
static void update_msg_path(MYSQL_THD thd,
struct st_mysql_sys_var *var,
void *var_ptr, const void *save)
{
char *value= *(char**)save;
char *old= *(char**)var_ptr;
if (value)
*(char**)var_ptr= my_strdup(value, MYF(0));
else
*(char**)var_ptr= 0;
my_free(old);
} // end of update_msg_path
static int check_msg_path (MYSQL_THD thd, struct st_mysql_sys_var *var,
void *save, struct st_mysql_value *value)
{
const char *path;
char buff[512];
int len= sizeof(buff);
path= value->val_str(value, buff, &len);
if (path && *path != '*') {
/* Save a pointer to the name in the
'file_format_name_map' constant array. */
*(char**)save= my_strdup(path, MYF(0));
return(0);
} else {
push_warning_printf(thd,
Sql_condition::WARN_LEVEL_WARN,
ER_WRONG_ARGUMENTS,
"CONNECT: invalid message path");
} // endif path
*(char**)save= NULL;
return(1);
} // end of check_msg_path
#endif // 0
/**
CREATE TABLE option list (table options)
These can be specified in the CREATE TABLE:
CREATE TABLE ( ... ) {...here...}
*/
ha_create_table_option connect_table_option_list[]=
{
HA_TOPTION_STRING("TABLE_TYPE", type),
HA_TOPTION_STRING("FILE_NAME", filename),
HA_TOPTION_STRING("XFILE_NAME", optname),
//HA_TOPTION_STRING("CONNECT_STRING", connect),
HA_TOPTION_STRING("TABNAME", tabname),
HA_TOPTION_STRING("TABLE_LIST", tablist),
HA_TOPTION_STRING("DBNAME", dbname),
HA_TOPTION_STRING("SEP_CHAR", separator),
HA_TOPTION_STRING("QCHAR", qchar),
HA_TOPTION_STRING("MODULE", module),
HA_TOPTION_STRING("SUBTYPE", subtype),
HA_TOPTION_STRING("CATFUNC", catfunc),
HA_TOPTION_STRING("SRCDEF", srcdef),
HA_TOPTION_STRING("COLIST", colist),
HA_TOPTION_STRING("OPTION_LIST", oplist),
HA_TOPTION_STRING("DATA_CHARSET", data_charset),
HA_TOPTION_NUMBER("LRECL", lrecl, 0, 0, INT_MAX32, 1),
HA_TOPTION_NUMBER("BLOCK_SIZE", elements, 0, 0, INT_MAX32, 1),
//HA_TOPTION_NUMBER("ESTIMATE", estimate, 0, 0, INT_MAX32, 1),
HA_TOPTION_NUMBER("MULTIPLE", multiple, 0, 0, 2, 1),
HA_TOPTION_NUMBER("HEADER", header, 0, 0, 3, 1),
HA_TOPTION_NUMBER("QUOTED", quoted, (ulonglong) -1, 0, 3, 1),
HA_TOPTION_NUMBER("ENDING", ending, (ulonglong) -1, 0, INT_MAX32, 1),
HA_TOPTION_NUMBER("COMPRESS", compressed, 0, 0, 2, 1),
HA_TOPTION_BOOL("MAPPED", mapped, 0),
HA_TOPTION_BOOL("HUGE", huge, 0),
HA_TOPTION_BOOL("SPLIT", split, 0),
HA_TOPTION_BOOL("READONLY", readonly, 0),
HA_TOPTION_BOOL("SEPINDEX", sepindex, 0),
HA_TOPTION_BOOL("ZIPPED", zipped, 0),
HA_TOPTION_END
};
/**
CREATE TABLE option list (field options)
These can be specified in the CREATE TABLE per field:
CREATE TABLE ( field ... {...here...}, ... )
*/
ha_create_table_option connect_field_option_list[]=
{
HA_FOPTION_NUMBER("FLAG", offset, (ulonglong) -1, 0, INT_MAX32, 1),
HA_FOPTION_NUMBER("MAX_DIST", freq, 0, 0, INT_MAX32, 1), // BLK_INDX
HA_FOPTION_NUMBER("FIELD_LENGTH", fldlen, 0, 0, INT_MAX32, 1),
HA_FOPTION_STRING("DATE_FORMAT", dateformat),
HA_FOPTION_STRING("FIELD_FORMAT", fieldformat),
HA_FOPTION_STRING("SPECIAL", special),
HA_FOPTION_ENUM("DISTRIB", opt, "scattered,clustered,sorted", 0),
HA_FOPTION_END
};
/*
CREATE TABLE option list (index options)
These can be specified in the CREATE TABLE per index:
CREATE TABLE ( field ..., .., INDEX .... *here*, ... )
*/
ha_create_table_option connect_index_option_list[]=
{
HA_IOPTION_BOOL("DYNAM", dynamic, 0),
HA_IOPTION_BOOL("MAPPED", mapped, 0),
HA_IOPTION_END
};
/***********************************************************************/
/* Push G->Message as a MySQL warning. */
/***********************************************************************/
bool PushWarning(PGLOBAL g, PTDB tdbp, int level)
{
PHC phc;
THD *thd;
MYCAT *cat= (MYCAT*)tdbp->GetDef()->GetCat();
if (!cat || !(phc= cat->GetHandler()) || !phc->GetTable() ||
!(thd= (phc->GetTable())->in_use))
return true;
PushWarning(g, thd, level);
return false;
} // end of PushWarning
void PushWarning(PGLOBAL g, THD *thd, int level)
{
if (thd) {
Sql_condition::enum_warning_level wlvl;
wlvl= (Sql_condition::enum_warning_level)level;
push_warning(thd, wlvl, 0, g->Message);
} else
htrc("%s\n", g->Message);
} // end of PushWarning
#ifdef HAVE_PSI_INTERFACE
static PSI_mutex_key con_key_mutex_CONNECT_SHARE_mutex;
static PSI_mutex_info all_connect_mutexes[]=
{
{ &con_key_mutex_CONNECT_SHARE_mutex, "CONNECT_SHARE::mutex", 0}
};
static void init_connect_psi_keys()
{
const char* category= "connect";
int count;
if (PSI_server == NULL)
return;
count= array_elements(all_connect_mutexes);
PSI_server->register_mutex(category, all_connect_mutexes, count);
}
#else
static void init_connect_psi_keys() {}
#endif
DllExport LPCSTR PlugSetPath(LPSTR to, LPCSTR name, LPCSTR dir)
{
const char *res= PlugSetPath(to, mysql_data_home, name, dir);
return res;
}
/**
@brief
If frm_error() is called then we will use this to determine
the file extensions that exist for the storage engine. This is also
used by the default rename_table and delete_table method in
handler.cc.
For engines that have two file name extentions (separate meta/index file
and data file), the order of elements is relevant. First element of engine
file name extentions array should be meta/index file extention. Second
element - data file extention. This order is assumed by
prepare_for_repair() when REPAIR TABLE ... USE_FRM is issued.
@see
rename_table method in handler.cc and
delete_table method in handler.cc
*/
static const char *ha_connect_exts[]= {
".dos", ".fix", ".csv", ".bin", ".fmt", ".dbf", ".xml", ".json", ".ini",
".vec", ".dnx", ".fnx", ".bnx", ".vnx", ".dbx", ".dop", ".fop", ".bop",
".vop", NULL};
/**
@brief
Plugin initialization
*/
static int connect_init_func(void *p)
{
DBUG_ENTER("connect_init_func");
// added from Sergei mail
#if 0 // (defined(LINUX))
Dl_info dl_info;
if (dladdr(&connect_hton, &dl_info))
{
if (dlopen(dl_info.dli_fname, RTLD_NOLOAD | RTLD_NOW | RTLD_GLOBAL) == 0)
{
sql_print_information("CONNECT: dlopen() failed, OEM table type is not supported");
sql_print_information("CONNECT: %s", dlerror());
}
}
else
{
sql_print_information("CONNECT: dladdr() failed, OEM table type is not supported");
sql_print_information("CONNECT: %s", dlerror());
}
#endif // 0 (LINUX)
#if defined(__WIN__)
sql_print_information("CONNECT: %s", compver);
InitializeCriticalSection((LPCRITICAL_SECTION)&parsec);
#else // !__WIN__
sql_print_information("CONNECT: %s", version);
#endif // !__WIN__
#ifdef LIBXML2_SUPPORT
XmlInitParserLib();
#endif // LIBXML2_SUPPORT
init_connect_psi_keys();
connect_hton= (handlerton *)p;
connect_hton->state= SHOW_OPTION_YES;
connect_hton->create= connect_create_handler;
connect_hton->flags= HTON_TEMPORARY_NOT_SUPPORTED;
connect_hton->table_options= connect_table_option_list;
connect_hton->field_options= connect_field_option_list;
connect_hton->index_options= connect_index_option_list;
connect_hton->tablefile_extensions= ha_connect_exts;
connect_hton->discover_table_structure= connect_assisted_discovery;
if (trace)
sql_print_information("connect_init: hton=%p", p);
DTVAL::SetTimeShift(); // Initialize time zone shift once for all
BINCOL::SetEndian(); // Initialize host endian setting
#if defined(JDBC_SUPPORT)
JDBConn::SetJVM();
#endif // JDBC_SUPPORT
DBUG_RETURN(0);
} // end of connect_init_func
/**
@brief
Plugin clean up
*/
static int connect_done_func(void *)
{
int error= 0;
PCONNECT pc, pn;
DBUG_ENTER("connect_done_func");
#ifdef LIBXML2_SUPPORT
XmlCleanupParserLib();
#endif // LIBXML2_SUPPORT
#ifdef JDBC_SUPPORT
JDBConn::ResetJVM();
#endif // JDBC_SUPPORT
#if defined(__WIN__)
DeleteCriticalSection((LPCRITICAL_SECTION)&parsec);
#else // !__WIN__
PROFILE_End();
#endif // !__WIN__
for (pc= user_connect::to_users; pc; pc= pn) {
if (pc->g)
PlugCleanup(pc->g, true);
pn= pc->next;
delete pc;
} // endfor pc
connect_hton= NULL;
DBUG_RETURN(error);
} // end of connect_done_func
/**
@brief
Example of simple lock controls. The "share" it creates is a
structure we will pass to each CONNECT handler. Do you have to have
one of these? Well, you have pieces that are used for locking, and
they are needed to function.
*/
CONNECT_SHARE *ha_connect::get_share()
{
CONNECT_SHARE *tmp_share;
lock_shared_ha_data();
if (!(tmp_share= static_cast(get_ha_share_ptr()))) {
tmp_share= new CONNECT_SHARE;
if (!tmp_share)
goto err;
mysql_mutex_init(con_key_mutex_CONNECT_SHARE_mutex,
&tmp_share->mutex, MY_MUTEX_INIT_FAST);
set_ha_share_ptr(static_cast(tmp_share));
} // endif tmp_share
err:
unlock_shared_ha_data();
return tmp_share;
} // end of get_share
static handler* connect_create_handler(handlerton *hton,
TABLE_SHARE *table,
MEM_ROOT *mem_root)
{
handler *h= new (mem_root) ha_connect(hton, table);
if (trace)
htrc("New CONNECT %p, table: %.*s\n", h,
table ? table->table_name.length : 6,
table ? table->table_name.str : "");
return h;
} // end of connect_create_handler
/****************************************************************************/
/* ha_connect constructor. */
/****************************************************************************/
ha_connect::ha_connect(handlerton *hton, TABLE_SHARE *table_arg)
:handler(hton, table_arg)
{
hnum= ++num;
xp= (table) ? GetUser(ha_thd(), NULL) : NULL;
if (xp)
xp->SetHandler(this);
#if defined(__WIN__)
datapath= ".\\";
#else // !__WIN__
datapath= "./";
#endif // !__WIN__
tdbp= NULL;
sdvalin1= sdvalin2= sdvalin3= sdvalin4= NULL;
sdvalout= NULL;
xmod= MODE_ANY;
istable= false;
memset(partname, 0, sizeof(partname));
bzero((char*) &xinfo, sizeof(XINFO));
valid_info= false;
valid_query_id= 0;
creat_query_id= (table && table->in_use) ? table->in_use->query_id : 0;
stop= false;
alter= false;
mrr= false;
nox= true;
abort= false;
indexing= -1;
locked= 0;
part_id= NULL;
data_file_name= NULL;
index_file_name= NULL;
enable_activate_all_index= 0;
int_table_flags= (HA_NO_TRANSACTIONS | HA_NO_PREFIX_CHAR_KEYS);
ref_length= sizeof(int);
share= NULL;
tshp= NULL;
} // end of ha_connect constructor
/****************************************************************************/
/* ha_connect destructor. */
/****************************************************************************/
ha_connect::~ha_connect(void)
{
if (trace)
htrc("Delete CONNECT %p, table: %.*s, xp=%p count=%d\n", this,
table ? table->s->table_name.length : 6,
table ? table->s->table_name.str : "",
xp, xp ? xp->count : 0);
PopUser(xp);
} // end of ha_connect destructor
/****************************************************************************/
/* Check whether this user can be removed. */
/****************************************************************************/
static void PopUser(PCONNECT xp)
{
if (xp) {
xp->count--;
if (!xp->count) {
PCONNECT p;
for (p= user_connect::to_users; p; p= p->next)
if (p == xp)
break;
if (p) {
if (p->next)
p->next->previous= p->previous;
if (p->previous)
p->previous->next= p->next;
else
user_connect::to_users= p->next;
} // endif p
PlugCleanup(xp->g, true);
delete xp;
} // endif count
} // endif xp
} // end of PopUser
/****************************************************************************/
/* Get a pointer to the user of this handler. */
/****************************************************************************/
static PCONNECT GetUser(THD *thd, PCONNECT xp)
{
if (!thd)
return NULL;
if (xp && thd == xp->thdp)
return xp;
for (xp= user_connect::to_users; xp; xp= xp->next)
if (thd == xp->thdp)
break;
if (!xp) {
xp= new user_connect(thd);
if (xp->user_init()) {
delete xp;
xp= NULL;
} // endif user_init
} else
xp->count++;
return xp;
} // end of GetUser
/****************************************************************************/
/* Get the global pointer of the user of this handler. */
/****************************************************************************/
static PGLOBAL GetPlug(THD *thd, PCONNECT& lxp)
{
lxp= GetUser(thd, lxp);
return (lxp) ? lxp->g : NULL;
} // end of GetPlug
/****************************************************************************/
/* Get the implied table type. */
/****************************************************************************/
TABTYPE ha_connect::GetRealType(PTOS pos)
{
TABTYPE type;
if (pos || (pos= GetTableOptionStruct())) {
type= GetTypeID(pos->type);
if (type == TAB_UNDEF)
type= pos->srcdef ? TAB_MYSQL : pos->tabname ? TAB_PRX : TAB_DOS;
} else
type= TAB_UNDEF;
return type;
} // end of GetRealType
/** @brief
The name of the index type that will be used for display.
Don't implement this method unless you really have indexes.
*/
const char *ha_connect::index_type(uint inx)
{
switch (GetIndexType(GetRealType())) {
case 1:
if (table_share)
return (GetIndexOption(&table_share->key_info[inx], "Dynamic"))
? "KINDEX" : "XINDEX";
else
return "XINDEX";
case 2: return "REMOTE";
case 3: return "VIRTUAL";
} // endswitch
return "Unknown";
} // end of index_type
/** @brief
This is a bitmap of flags that indicates how the storage engine
implements indexes. The current index flags are documented in
handler.h. If you do not implement indexes, just return zero here.
@details
part is the key part to check. First key part is 0.
If all_parts is set, MySQL wants to know the flags for the combined
index, up to and including 'part'.
*/
//ong ha_connect::index_flags(uint inx, uint part, bool all_parts) const
ulong ha_connect::index_flags(uint, uint, bool) const
{
ulong flags= HA_READ_NEXT | HA_READ_RANGE |
HA_KEYREAD_ONLY | HA_KEY_SCAN_NOT_ROR;
ha_connect *hp= (ha_connect*)this;
PTOS pos= hp->GetTableOptionStruct();
if (pos) {
TABTYPE type= hp->GetRealType(pos);
switch (GetIndexType(type)) {
case 1: flags|= (HA_READ_ORDER | HA_READ_PREV); break;
case 2: flags|= HA_READ_AFTER_KEY; break;
} // endswitch
} // endif pos
return flags;
} // end of index_flags
/** @brief
This is a list of flags that indicate what functionality the storage
engine implements. The current table flags are documented in handler.h
*/
ulonglong ha_connect::table_flags() const
{
ulonglong flags= HA_CAN_VIRTUAL_COLUMNS | HA_REC_NOT_IN_SEQ |
HA_NO_AUTO_INCREMENT | HA_NO_PREFIX_CHAR_KEYS |
HA_BINLOG_ROW_CAPABLE | HA_BINLOG_STMT_CAPABLE |
HA_PARTIAL_COLUMN_READ | HA_FILE_BASED |
// HA_NULL_IN_KEY | not implemented yet
// HA_FAST_KEY_READ | causes error when sorting (???)
HA_NO_TRANSACTIONS | HA_DUPLICATE_KEY_NOT_IN_ORDER |
HA_NO_BLOBS | HA_MUST_USE_TABLE_CONDITION_PUSHDOWN;
ha_connect *hp= (ha_connect*)this;
PTOS pos= hp->GetTableOptionStruct();
if (pos) {
TABTYPE type= hp->GetRealType(pos);
if (IsFileType(type))
flags|= HA_FILE_BASED;
if (IsExactType(type))
flags|= (HA_HAS_RECORDS | HA_STATS_RECORDS_IS_EXACT);
// No data change on ALTER for outward tables
if (!IsFileType(type) || hp->FileExists(pos->filename, true))
flags|= HA_NO_COPY_ON_ALTER;
} // endif pos
return flags;
} // end of table_flags
/****************************************************************************/
/* Return the value of an option specified in an option list. */
/****************************************************************************/
char *GetListOption(PGLOBAL g, const char *opname,
const char *oplist, const char *def)
{
if (!oplist)
return (char*)def;
char key[16], val[256];
char *pk, *pv, *pn;
char *opval= (char*)def;
int n;
for (pk= (char*)oplist; pk; pk= ++pn) {
pn= strchr(pk, ',');
pv= strchr(pk, '=');
if (pv && (!pn || pv < pn)) {
n= MY_MIN(static_cast(pv - pk), sizeof(key) - 1);
memcpy(key, pk, n);
key[n]= 0;
pv++;
n= MY_MIN((pn ? pn - pv : strlen(pv)), sizeof(val) - 1);
memcpy(val, pv, n);
val[n]= 0;
} else {
n= MY_MIN((pn ? pn - pk : strlen(pk)), sizeof(key) - 1);
memcpy(key, pk, n);
key[n]= 0;
val[0]= 0;
} // endif pv
if (!stricmp(opname, key)) {
opval= PlugDup(g, val);
break;
} else if (!pn)
break;
} // endfor pk
return opval;
} // end of GetListOption
/****************************************************************************/
/* Return the value of a string option or NULL if not specified. */
/****************************************************************************/
char *GetStringTableOption(PGLOBAL g, PTOS options, char *opname, char *sdef)
{
const char *opval= NULL;
if (!options)
return sdef;
else if (!stricmp(opname, "Type"))
opval= options->type;
else if (!stricmp(opname, "Filename"))
opval= options->filename;
else if (!stricmp(opname, "Optname"))
opval= options->optname;
else if (!stricmp(opname, "Tabname"))
opval= options->tabname;
else if (!stricmp(opname, "Tablist"))
opval= options->tablist;
else if (!stricmp(opname, "Database") ||
!stricmp(opname, "DBname"))
opval= options->dbname;
else if (!stricmp(opname, "Separator"))
opval= options->separator;
else if (!stricmp(opname, "Qchar"))
opval= options->qchar;
else if (!stricmp(opname, "Module"))
opval= options->module;
else if (!stricmp(opname, "Subtype"))
opval= options->subtype;
else if (!stricmp(opname, "Catfunc"))
opval= options->catfunc;
else if (!stricmp(opname, "Srcdef"))
opval= options->srcdef;
else if (!stricmp(opname, "Colist"))
opval= options->colist;
else if (!stricmp(opname, "Data_charset"))
opval= options->data_charset;
if (!opval && options->oplist)
opval= GetListOption(g, opname, options->oplist);
return opval ? (char*)opval : sdef;
} // end of GetStringTableOption
/****************************************************************************/
/* Return the value of a Boolean option or bdef if not specified. */
/****************************************************************************/
bool GetBooleanTableOption(PGLOBAL g, PTOS options, char *opname, bool bdef)
{
bool opval= bdef;
char *pv;
if (!options)
return bdef;
else if (!stricmp(opname, "Mapped"))
opval= options->mapped;
else if (!stricmp(opname, "Huge"))
opval= options->huge;
else if (!stricmp(opname, "Split"))
opval= options->split;
else if (!stricmp(opname, "Readonly"))
opval= options->readonly;
else if (!stricmp(opname, "SepIndex"))
opval= options->sepindex;
else if (!stricmp(opname, "Header"))
opval= (options->header != 0); // Is Boolean for some table types
else if (!stricmp(opname, "Zipped"))
opval = options->zipped;
else if (options->oplist)
if ((pv= GetListOption(g, opname, options->oplist)))
opval= (!*pv || *pv == 'y' || *pv == 'Y' || atoi(pv) != 0);
return opval;
} // end of GetBooleanTableOption
/****************************************************************************/
/* Return the value of an integer option or NO_IVAL if not specified. */
/****************************************************************************/
int GetIntegerTableOption(PGLOBAL g, PTOS options, char *opname, int idef)
{
ulonglong opval= (ulonglong) NO_IVAL;
if (!options)
return idef;
else if (!stricmp(opname, "Lrecl"))
opval= options->lrecl;
else if (!stricmp(opname, "Elements"))
opval= options->elements;
else if (!stricmp(opname, "Multiple"))
opval= options->multiple;
else if (!stricmp(opname, "Header"))
opval= options->header;
else if (!stricmp(opname, "Quoted"))
opval= options->quoted;
else if (!stricmp(opname, "Ending"))
opval= options->ending;
else if (!stricmp(opname, "Compressed"))
opval= (options->compressed);
if ((ulonglong) opval == (ulonglong)NO_IVAL) {
char *pv;
if ((pv= GetListOption(g, opname, options->oplist)))
opval= CharToNumber(pv, strlen(pv), ULONGLONG_MAX, true);
else
return idef;
} // endif opval
return (int)opval;
} // end of GetIntegerTableOption
/****************************************************************************/
/* Return the table option structure. */
/****************************************************************************/
PTOS ha_connect::GetTableOptionStruct(TABLE_SHARE *s)
{
TABLE_SHARE *tsp= (tshp) ? tshp : (s) ? s : table_share;
return (tsp && (!tsp->db_plugin ||
!stricmp(plugin_name(tsp->db_plugin)->str, "connect") ||
!stricmp(plugin_name(tsp->db_plugin)->str, "partition")))
? tsp->option_struct : NULL;
} // end of GetTableOptionStruct
/****************************************************************************/
/* Return the string eventually formatted with partition name. */
/****************************************************************************/
char *ha_connect::GetRealString(const char *s)
{
char *sv;
if (IsPartitioned() && s && *partname) {
sv= (char*)PlugSubAlloc(xp->g, NULL, 0);
sprintf(sv, s, partname);
PlugSubAlloc(xp->g, NULL, strlen(sv) + 1);
} else
sv= (char*)s;
return sv;
} // end of GetRealString
/****************************************************************************/
/* Return the value of a string option or sdef if not specified. */
/****************************************************************************/
char *ha_connect::GetStringOption(char *opname, char *sdef)
{
char *opval= NULL;
PTOS options= GetTableOptionStruct();
if (!stricmp(opname, "Connect")) {
LEX_STRING cnc= (tshp) ? tshp->connect_string
: table->s->connect_string;
if (cnc.length)
opval= strz(xp->g, cnc);
else
opval= GetListOption(xp->g, opname, options->oplist);
} else if (!stricmp(opname, "Query_String"))
opval= thd_query_string(table->in_use)->str;
else if (!stricmp(opname, "Partname"))
opval= partname;
else if (!stricmp(opname, "Table_charset")) {
const CHARSET_INFO *chif= (tshp) ? tshp->table_charset
: table->s->table_charset;
if (chif)
opval= (char*)chif->csname;
} else
opval= GetStringTableOption(xp->g, options, opname, NULL);
if (opval && (!stricmp(opname, "connect")
|| !stricmp(opname, "tabname")
|| !stricmp(opname, "filename")
|| !stricmp(opname, "optname")
|| !stricmp(opname, "entry")))
opval = GetRealString(opval);
if (!opval) {
if (sdef && !strcmp(sdef, "*")) {
// Return the handler default value
if (!stricmp(opname, "Dbname") || !stricmp(opname, "Database"))
opval= (char*)GetDBName(NULL); // Current database
else if (!stricmp(opname, "Type")) // Default type
opval= (!options) ? NULL :
(options->srcdef) ? (char*)"MYSQL" :
(options->tabname) ? (char*)"PROXY" : (char*)"DOS";
else if (!stricmp(opname, "User")) // Connected user
opval= (char *) "root";
else if (!stricmp(opname, "Host")) // Connected user host
opval= (char *) "localhost";
else
opval= sdef; // Caller default
} else
opval= sdef; // Caller default
} // endif !opval
return opval;
} // end of GetStringOption
/****************************************************************************/
/* Return the value of a Boolean option or bdef if not specified. */
/****************************************************************************/
bool ha_connect::GetBooleanOption(char *opname, bool bdef)
{
bool opval;
PTOS options= GetTableOptionStruct();
if (!stricmp(opname, "View"))
opval= (tshp) ? tshp->is_view : table_share->is_view;
else
opval= GetBooleanTableOption(xp->g, options, opname, bdef);
return opval;
} // end of GetBooleanOption
/****************************************************************************/
/* Set the value of the opname option (does not work for oplist options) */
/* Currently used only to set the Sepindex value. */
/****************************************************************************/
bool ha_connect::SetBooleanOption(char *opname, bool b)
{
PTOS options= GetTableOptionStruct();
if (!options)
return true;
if (!stricmp(opname, "SepIndex"))
options->sepindex= b;
else
return true;
return false;
} // end of SetBooleanOption
/****************************************************************************/
/* Return the value of an integer option or NO_IVAL if not specified. */
/****************************************************************************/
int ha_connect::GetIntegerOption(char *opname)
{
int opval;
PTOS options= GetTableOptionStruct();
TABLE_SHARE *tsp= (tshp) ? tshp : table_share;
if (!stricmp(opname, "Avglen"))
opval= (int)tsp->avg_row_length;
else if (!stricmp(opname, "Estimate"))
opval= (int)tsp->max_rows;
else
opval= GetIntegerTableOption(xp->g, options, opname, NO_IVAL);
return opval;
} // end of GetIntegerOption
/****************************************************************************/
/* Set the value of the opname option (does not work for oplist options) */
/* Currently used only to set the Lrecl value. */
/****************************************************************************/
bool ha_connect::SetIntegerOption(char *opname, int n)
{
PTOS options= GetTableOptionStruct();
if (!options)
return true;
if (!stricmp(opname, "Lrecl"))
options->lrecl= n;
else if (!stricmp(opname, "Elements"))
options->elements= n;
//else if (!stricmp(opname, "Estimate"))
// options->estimate= n;
else if (!stricmp(opname, "Multiple"))
options->multiple= n;
else if (!stricmp(opname, "Header"))
options->header= n;
else if (!stricmp(opname, "Quoted"))
options->quoted= n;
else if (!stricmp(opname, "Ending"))
options->ending= n;
else if (!stricmp(opname, "Compressed"))
options->compressed= n;
else
return true;
//else if (options->oplist)
// SetListOption(opname, options->oplist, n);
return false;
} // end of SetIntegerOption
/****************************************************************************/
/* Return a field option structure. */
/****************************************************************************/
PFOS ha_connect::GetFieldOptionStruct(Field *fdp)
{
return fdp->option_struct;
} // end of GetFildOptionStruct
/****************************************************************************/
/* Returns the column description structure used to make the column. */
/****************************************************************************/
void *ha_connect::GetColumnOption(PGLOBAL g, void *field, PCOLINFO pcf)
{
const char *cp;
char *chset, v;
ha_field_option_struct *fop;
Field* fp;
Field* *fldp;
// Double test to be on the safe side
if (!table)
return NULL;
// Find the column to describe
if (field) {
fldp= (Field**)field;
fldp++;
} else
fldp= (tshp) ? tshp->field : table->field;
if (!fldp || !(fp= *fldp))
return NULL;
// Get the CONNECT field options structure
fop= GetFieldOptionStruct(fp);
pcf->Flags= 0;
// Now get column information
pcf->Name= (char*)fp->field_name;
if (fop && fop->special) {
pcf->Fieldfmt= (char*)fop->special;
pcf->Flags= U_SPECIAL;
return fldp;
} // endif special
pcf->Scale= 0;
pcf->Opt= (fop) ? (int)fop->opt : 0;
if ((pcf->Length= fp->field_length) < 0)
pcf->Length= 256; // BLOB?
pcf->Precision= pcf->Length;
if (fop) {
pcf->Offset= (int)fop->offset;
pcf->Freq= (int)fop->freq;
pcf->Datefmt= (char*)fop->dateformat;
pcf->Fieldfmt= (char*)fop->fieldformat;
} else {
pcf->Offset= -1;
pcf->Freq= 0;
pcf->Datefmt= NULL;
pcf->Fieldfmt= NULL;
} // endif fop
chset = (char *)fp->charset()->name;
v = (!strcmp(chset, "binary")) ? 'B' : 0;
switch (fp->type()) {
case MYSQL_TYPE_BLOB:
case MYSQL_TYPE_VARCHAR:
case MYSQL_TYPE_VAR_STRING:
pcf->Flags |= U_VAR;
/* no break */
default:
pcf->Type= MYSQLtoPLG(fp->type(), &v);
break;
} // endswitch SQL type
switch (pcf->Type) {
case TYPE_STRING:
// Do something for case
cp= fp->charset()->name;
// Find if collation name ends by _ci
if (!strcmp(cp + strlen(cp) - 3, "_ci")) {
pcf->Scale= 1; // Case insensitive
pcf->Opt= 0; // Prevent index opt until it is safe
} // endif ci
break;
case TYPE_DOUBLE:
pcf->Scale= MY_MAX(MY_MIN(fp->decimals(), ((unsigned)pcf->Length - 2)), 0);
break;
case TYPE_DECIM:
pcf->Precision= ((Field_new_decimal*)fp)->precision;
pcf->Length= pcf->Precision;
pcf->Scale= fp->decimals();
break;
case TYPE_DATE:
// Field_length is only used for DATE columns
if (fop && fop->fldlen)
pcf->Length= (int)fop->fldlen;
else {
int len;
if (pcf->Datefmt) {
// Find the (max) length produced by the date format
char buf[256];
PGLOBAL g= GetPlug(table->in_use, xp);
PDTP pdtp= MakeDateFormat(g, pcf->Datefmt, false, true, 0);
struct tm datm;
bzero(&datm, sizeof(datm));
datm.tm_mday= 12;
datm.tm_mon= 11;
datm.tm_year= 112;
mktime(&datm); // set other fields get proper day name
len= strftime(buf, 256, pdtp->OutFmt, &datm);
} else
len= 0;
// 11 is for signed numeric representation of the date
pcf->Length= (len) ? len : 11;
} // endelse
// For Value setting
pcf->Precision= MY_MAX(pcf->Precision, pcf->Length);
break;
default:
break;
} // endswitch type
if (fp->flags & UNSIGNED_FLAG)
pcf->Flags |= U_UNSIGNED;
if (fp->flags & ZEROFILL_FLAG)
pcf->Flags |= U_ZEROFILL;
// This is used to skip null bit
if (fp->real_maybe_null())
pcf->Flags |= U_NULLS;
// Mark virtual columns as such
if (!fp->stored_in_db())
pcf->Flags |= U_VIRTUAL;
pcf->Key= 0; // Not used when called from MySQL
// Get the comment if any
if (fp->comment.str && fp->comment.length)
pcf->Remark= strz(g, fp->comment);
else
pcf->Remark= NULL;
return fldp;
} // end of GetColumnOption
/****************************************************************************/
/* Return an index option structure. */
/****************************************************************************/
PXOS ha_connect::GetIndexOptionStruct(KEY *kp)
{
return kp->option_struct;
} // end of GetIndexOptionStruct
/****************************************************************************/
/* Return a Boolean index option or false if not specified. */
/****************************************************************************/
bool ha_connect::GetIndexOption(KEY *kp, char *opname)
{
bool opval= false;
PXOS options= GetIndexOptionStruct(kp);
if (options) {
if (!stricmp(opname, "Dynamic"))
opval= options->dynamic;
else if (!stricmp(opname, "Mapped"))
opval= options->mapped;
} else if (kp->comment.str && kp->comment.length) {
char *pv, *oplist= strz(xp->g, kp->comment);
if ((pv= GetListOption(xp->g, opname, oplist)))
opval= (!*pv || *pv == 'y' || *pv == 'Y' || atoi(pv) != 0);
} // endif comment
return opval;
} // end of GetIndexOption
/****************************************************************************/
/* Returns the index description structure used to make the index. */
/****************************************************************************/
bool ha_connect::IsUnique(uint n)
{
TABLE_SHARE *s= (table) ? table->s : NULL;
KEY kp= s->key_info[n];
return (kp.flags & 1) != 0;
} // end of IsUnique
/****************************************************************************/
/* Returns the index description structure used to make the index. */
/****************************************************************************/
PIXDEF ha_connect::GetIndexInfo(TABLE_SHARE *s)
{
char *name, *pn;
bool unique;
PIXDEF xdp, pxd=NULL, toidx= NULL;
PKPDEF kpp, pkp;
KEY kp;
PGLOBAL& g= xp->g;
if (!s)
s= table->s;
for (int n= 0; (unsigned)n < s->keynames.count; n++) {
if (trace)
htrc("Getting created index %d info\n", n + 1);
// Find the index to describe
kp= s->key_info[n];
// Now get index information
pn= (char*)s->keynames.type_names[n];
name= PlugDup(g, pn);
unique= (kp.flags & 1) != 0;
pkp= NULL;
// Allocate the index description block
xdp= new(g) INDEXDEF(name, unique, n);
// Get the the key parts info
for (int k= 0; (unsigned)k < kp.user_defined_key_parts; k++) {
pn= (char*)kp.key_part[k].field->field_name;
name= PlugDup(g, pn);
// Allocate the key part description block
kpp= new(g) KPARTDEF(name, k + 1);
kpp->SetKlen(kp.key_part[k].length);
#if 0 // NIY
// Index on auto increment column can be an XXROW index
if (kp.key_part[k].field->flags & AUTO_INCREMENT_FLAG &&
kp.uder_defined_key_parts == 1) {
char *type= GetStringOption("Type", "DOS");
TABTYPE typ= GetTypeID(type);
xdp->SetAuto(IsTypeFixed(typ));
} // endif AUTO_INCREMENT
#endif // 0
if (pkp)
pkp->SetNext(kpp);
else
xdp->SetToKeyParts(kpp);
pkp= kpp;
} // endfor k
xdp->SetNParts(kp.user_defined_key_parts);
xdp->Dynamic= GetIndexOption(&kp, "Dynamic");
xdp->Mapped= GetIndexOption(&kp, "Mapped");
if (pxd)
pxd->SetNext(xdp);
else
toidx= xdp;
pxd= xdp;
} // endfor n
return toidx;
} // end of GetIndexInfo
/****************************************************************************/
/* Returns the index description structure used to make the index. */
/****************************************************************************/
bool ha_connect::CheckVirtualIndex(TABLE_SHARE *s)
{
char *rid;
KEY kp;
Field *fp;
PGLOBAL& g= xp->g;
if (!s)
s= table->s;
for (int n= 0; (unsigned)n < s->keynames.count; n++) {
kp= s->key_info[n];
// Now get index information
// Get the the key parts info
for (int k= 0; (unsigned)k < kp.user_defined_key_parts; k++) {
fp= kp.key_part[k].field;
rid= (fp->option_struct) ? fp->option_struct->special : NULL;
if (!rid || (stricmp(rid, "ROWID") && stricmp(rid, "ROWNUM"))) {
strcpy(g->Message, "Invalid virtual index");
return true;
} // endif rowid
} // endfor k
} // endfor n
return false;
} // end of CheckVirtualIndex
bool ha_connect::IsPartitioned(void)
{
if (tshp)
return tshp->partition_info_str_len > 0;
else if (table && table->part_info)
return true;
else
return false;
} // end of IsPartitioned
const char *ha_connect::GetDBName(const char* name)
{
return (name) ? name : table->s->db.str;
} // end of GetDBName
const char *ha_connect::GetTableName(void)
{
return tshp ? tshp->table_name.str : table_share->table_name.str;
} // end of GetTableName
char *ha_connect::GetPartName(void)
{
return (IsPartitioned()) ? partname : (char*)GetTableName();
} // end of GetTableName
#if 0
/****************************************************************************/
/* Returns the column real or special name length of a field. */
/****************************************************************************/
int ha_connect::GetColNameLen(Field *fp)
{
int n;
PFOS fop= GetFieldOptionStruct(fp);
// Now get the column name length
if (fop && fop->special)
n= strlen(fop->special) + 1;
else
n= strlen(fp->field_name);
return n;
} // end of GetColNameLen
/****************************************************************************/
/* Returns the column real or special name of a field. */
/****************************************************************************/
char *ha_connect::GetColName(Field *fp)
{
PFOS fop= GetFieldOptionStruct(fp);
return (fop && fop->special) ? fop->special : (char*)fp->field_name;
} // end of GetColName
/****************************************************************************/
/* Adds the column real or special name of a field to a string. */
/****************************************************************************/
void ha_connect::AddColName(char *cp, Field *fp)
{
PFOS fop= GetFieldOptionStruct(fp);
// Now add the column name
if (fop && fop->special)
// The prefix * mark the column as "special"
strcat(strcpy(cp, "*"), strupr(fop->special));
else
strcpy(cp, (char*)fp->field_name);
} // end of AddColName
#endif // 0
/***********************************************************************/
/* This function sets the current database path. */
/***********************************************************************/
void ha_connect::SetDataPath(PGLOBAL g, const char *path)
{
datapath= SetPath(g, path);
} // end of SetDataPath
/****************************************************************************/
/* Get the table description block of a CONNECT table. */
/****************************************************************************/
PTDB ha_connect::GetTDB(PGLOBAL g)
{
const char *table_name;
PTDB tp;
// Double test to be on the safe side
if (!g || !table)
return NULL;
table_name= GetTableName();
if (!xp->CheckQuery(valid_query_id) && tdbp
&& !stricmp(tdbp->GetName(), table_name)
&& (tdbp->GetMode() == xmod
|| (tdbp->GetMode() == MODE_READ && xmod == MODE_READX)
|| tdbp->GetAmType() == TYPE_AM_XML)) {
tp= tdbp;
tp->SetMode(xmod);
} else if ((tp= CntGetTDB(g, table_name, xmod, this))) {
valid_query_id= xp->last_query_id;
// tp->SetMode(xmod);
} else
htrc("GetTDB: %s\n", g->Message);
return tp;
} // end of GetTDB
/****************************************************************************/
/* Open a CONNECT table, restricting column list if cols is true. */
/****************************************************************************/
int ha_connect::OpenTable(PGLOBAL g, bool del)
{
bool rc= false;
char *c1= NULL, *c2=NULL;
// Double test to be on the safe side
if (!g || !table) {
htrc("OpenTable logical error; g=%p table=%p\n", g, table);
return HA_ERR_INITIALIZATION;
} // endif g
if (!(tdbp= GetTDB(g)))
return RC_FX;
else if (tdbp->IsReadOnly())
switch (xmod) {
case MODE_WRITE:
case MODE_INSERT:
case MODE_UPDATE:
case MODE_DELETE:
strcpy(g->Message, MSG(READ_ONLY));
return HA_ERR_TABLE_READONLY;
default:
break;
} // endswitch xmode
if (xmod != MODE_INSERT || tdbp->GetAmType() == TYPE_AM_MYSQL
|| tdbp->GetAmType() == TYPE_AM_ODBC
|| tdbp->GetAmType() == TYPE_AM_JDBC) {
// Get the list of used fields (columns)
char *p;
unsigned int k1, k2, n1, n2;
Field* *field;
Field* fp;
MY_BITMAP *map= (xmod == MODE_INSERT) ? table->write_set : table->read_set;
MY_BITMAP *ump= (xmod == MODE_UPDATE) ? table->write_set : NULL;
k1= k2= 0;
n1= n2= 1; // 1 is space for final null character
for (field= table->field; fp= *field; field++) {
if (bitmap_is_set(map, fp->field_index)) {
n1+= (strlen(fp->field_name) + 1);
k1++;
} // endif
if (ump && bitmap_is_set(ump, fp->field_index)) {
n2+= (strlen(fp->field_name) + 1);
k2++;
} // endif
} // endfor field
if (k1) {
p= c1= (char*)PlugSubAlloc(g, NULL, n1);
for (field= table->field; fp= *field; field++)
if (bitmap_is_set(map, fp->field_index)) {
strcpy(p, (char*)fp->field_name);
p+= (strlen(p) + 1);
} // endif used field
*p= '\0'; // mark end of list
} // endif k1
if (k2) {
p= c2= (char*)PlugSubAlloc(g, NULL, n2);
for (field= table->field; fp= *field; field++)
if (bitmap_is_set(ump, fp->field_index)) {
strcpy(p, (char*)fp->field_name);
if (part_id && bitmap_is_set(part_id, fp->field_index)) {
// Trying to update a column used for partitioning
// This cannot be currently done because it may require
// a row to be moved in another partition.
sprintf(g->Message,
"Cannot update column %s because it is used for partitioning",
p);
return HA_ERR_INTERNAL_ERROR;
} // endif part_id
p+= (strlen(p) + 1);
} // endif used field
*p= '\0'; // mark end of list
} // endif k2
} // endif xmod
// Open the table
if (!(rc= CntOpenTable(g, tdbp, xmod, c1, c2, del, this))) {
istable= true;
// strmake(tname, table_name, sizeof(tname)-1);
// We may be in a create index query
if (xmod == MODE_ANY && *tdbp->GetName() != '#') {
// The current indexes
PIXDEF oldpix= GetIndexInfo();
} // endif xmod
} else
htrc("OpenTable: %s\n", g->Message);
if (rc) {
tdbp= NULL;
valid_info= false;
} // endif rc
return (rc) ? HA_ERR_INITIALIZATION : 0;
} // end of OpenTable
/****************************************************************************/
/* CheckColumnList: check that all bitmap columns do exist. */
/****************************************************************************/
bool ha_connect::CheckColumnList(PGLOBAL g)
{
// Check the list of used fields (columns)
int rc;
bool brc= false;
PCOL colp;
Field* *field;
Field* fp;
MY_BITMAP *map= table->read_set;
// Save stack and allocation environment and prepare error return
if (g->jump_level == MAX_JUMP) {
strcpy(g->Message, MSG(TOO_MANY_JUMPS));
return true;
} // endif jump_level
if ((rc= setjmp(g->jumper[++g->jump_level])) == 0) {
for (field= table->field; fp= *field; field++)
if (bitmap_is_set(map, fp->field_index)) {
if (!(colp= tdbp->ColDB(g, (PSZ)fp->field_name, 0))) {
sprintf(g->Message, "Column %s not found in %s",
fp->field_name, tdbp->GetName());
brc= true;
goto fin;
} // endif colp
if ((brc= colp->InitValue(g)))
goto fin;
colp->AddColUse(U_P); // For PLG tables
} // endif
} else
brc= true;
fin:
g->jump_level--;
return brc;
} // end of CheckColumnList
/****************************************************************************/
/* IsOpened: returns true if the table is already opened. */
/****************************************************************************/
bool ha_connect::IsOpened(void)
{
return (!xp->CheckQuery(valid_query_id) && tdbp
&& tdbp->GetUse() == USE_OPEN);
} // end of IsOpened
/****************************************************************************/
/* Close a CONNECT table. */
/****************************************************************************/
int ha_connect::CloseTable(PGLOBAL g)
{
int rc= CntCloseTable(g, tdbp, nox, abort);
tdbp= NULL;
sdvalin1= sdvalin2= sdvalin3= sdvalin4= NULL;
sdvalout=NULL;
valid_info= false;
indexing= -1;
nox= true;
abort= false;
return rc;
} // end of CloseTable
/***********************************************************************/
/* Make a pseudo record from current row values. Specific to MySQL. */
/***********************************************************************/
int ha_connect::MakeRecord(char *buf)
{
char *p, *fmt, val[32];
int rc= 0;
Field* *field;
Field *fp;
my_bitmap_map *org_bitmap;
CHARSET_INFO *charset= tdbp->data_charset();
//MY_BITMAP readmap;
MY_BITMAP *map;
PVAL value;
PCOL colp= NULL;
DBUG_ENTER("ha_connect::MakeRecord");
if (trace > 1)
htrc("Maps: read=%08X write=%08X vcol=%08X defr=%08X defw=%08X\n",
*table->read_set->bitmap, *table->write_set->bitmap,
(table->vcol_set) ? *table->vcol_set->bitmap : 0,
*table->def_read_set.bitmap, *table->def_write_set.bitmap);
// Avoid asserts in field::store() for columns that are not updated
org_bitmap= dbug_tmp_use_all_columns(table, table->write_set);
// This is for variable_length rows
memset(buf, 0, table->s->null_bytes);
// When sorting read_set selects all columns, so we use def_read_set
map= (MY_BITMAP *)&table->def_read_set;
// Make the pseudo record from field values
for (field= table->field; *field && !rc; field++) {
fp= *field;
if (!fp->stored_in_db())
continue; // This is a virtual column
if (bitmap_is_set(map, fp->field_index) || alter) {
// This is a used field, fill the buffer with value
for (colp= tdbp->GetColumns(); colp; colp= colp->GetNext())
if ((!mrr || colp->GetKcol()) &&
!stricmp(colp->GetName(), (char*)fp->field_name))
break;
if (!colp) {
if (mrr)
continue;
htrc("Column %s not found\n", fp->field_name);
dbug_tmp_restore_column_map(table->write_set, org_bitmap);
DBUG_RETURN(HA_ERR_WRONG_IN_RECORD);
} // endif colp
value= colp->GetValue();
p= NULL;
// All this was better optimized
if (!value->IsNull()) {
switch (value->GetType()) {
case TYPE_DATE:
if (!sdvalout)
sdvalout= AllocateValue(xp->g, TYPE_STRING, 20);
switch (fp->type()) {
case MYSQL_TYPE_DATE:
fmt= "%Y-%m-%d";
break;
case MYSQL_TYPE_TIME:
fmt= "%H:%M:%S";
break;
case MYSQL_TYPE_YEAR:
fmt= "%Y";
break;
default:
fmt= "%Y-%m-%d %H:%M:%S";
break;
} // endswitch type
// Get date in the format required by MySQL fields
value->FormatValue(sdvalout, fmt);
p= sdvalout->GetCharValue();
rc= fp->store(p, strlen(p), charset, CHECK_FIELD_WARN);
break;
case TYPE_STRING:
case TYPE_DECIM:
p= value->GetCharString(val);
charset= tdbp->data_charset();
rc= fp->store(p, strlen(p), charset, CHECK_FIELD_WARN);
break;
case TYPE_DOUBLE:
rc= fp->store(value->GetFloatValue());
break;
default:
rc= fp->store(value->GetBigintValue(), value->IsUnsigned());
break;
} // endswitch Type
// Store functions returns 1 on overflow and -1 on fatal error
if (rc > 0) {
char buf[256];
THD *thd= ha_thd();
sprintf(buf, "Out of range value %.140s for column '%s' at row %ld",
value->GetCharString(val),
fp->field_name,
thd->get_stmt_da()->current_row_for_warning());
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, buf);
DBUG_PRINT("MakeRecord", ("%s", buf));
rc= 0;
} else if (rc < 0)
rc= HA_ERR_WRONG_IN_RECORD;
fp->set_notnull();
} else
fp->set_null();
} // endif bitmap
} // endfor field
// This is sometimes required for partition tables because the buf
// can be different from the table->record[0] buffer
if (buf != (char*)table->record[0])
memcpy(buf, table->record[0], table->s->stored_rec_length);
// This is copied from ha_tina and is necessary to avoid asserts
dbug_tmp_restore_column_map(table->write_set, org_bitmap);
DBUG_RETURN(rc);
} // end of MakeRecord
/***********************************************************************/
/* Set row values from a MySQL pseudo record. Specific to MySQL. */
/***********************************************************************/
int ha_connect::ScanRecord(PGLOBAL g, uchar *)
{
char attr_buffer[1024];
char data_buffer[1024];
char *fmt;
int rc= 0;
PCOL colp;
PVAL value, sdvalin;
Field *fp;
//PTDBASE tp= (PTDBASE)tdbp;
String attribute(attr_buffer, sizeof(attr_buffer),
table->s->table_charset);
my_bitmap_map *bmap= dbug_tmp_use_all_columns(table, table->read_set);
const CHARSET_INFO *charset= tdbp->data_charset();
String data_charset_value(data_buffer, sizeof(data_buffer), charset);
// Scan the pseudo record for field values and set column values
for (Field **field=table->field ; *field ; field++) {
fp= *field;
if (!fp->stored_in_db() || fp->option_struct->special)
continue; // Is a virtual column possible here ???
if ((xmod == MODE_INSERT && tdbp->GetAmType() != TYPE_AM_MYSQL
&& tdbp->GetAmType() != TYPE_AM_ODBC
&& tdbp->GetAmType() != TYPE_AM_JDBC) ||
bitmap_is_set(table->write_set, fp->field_index)) {
for (colp= tdbp->GetSetCols(); colp; colp= colp->GetNext())
if (!stricmp(colp->GetName(), fp->field_name))
break;
if (!colp) {
htrc("Column %s not found\n", fp->field_name);
rc= HA_ERR_WRONG_IN_RECORD;
goto err;
} else
value= colp->GetValue();
// This is a used field, fill the value from the row buffer
// All this could be better optimized
if (fp->is_null()) {
if (colp->IsNullable())
value->SetNull(true);
value->Reset();
} else switch (value->GetType()) {
case TYPE_DOUBLE:
value->SetValue(fp->val_real());
break;
case TYPE_DATE:
// Get date in the format produced by MySQL fields
switch (fp->type()) {
case MYSQL_TYPE_DATE:
if (!sdvalin2) {
sdvalin2= (DTVAL*)AllocateValue(xp->g, TYPE_DATE, 19);
fmt= "YYYY-MM-DD";
((DTVAL*)sdvalin2)->SetFormat(g, fmt, strlen(fmt));
} // endif sdvalin1
sdvalin= sdvalin2;
break;
case MYSQL_TYPE_TIME:
if (!sdvalin3) {
sdvalin3= (DTVAL*)AllocateValue(xp->g, TYPE_DATE, 19);
fmt= "hh:mm:ss";
((DTVAL*)sdvalin3)->SetFormat(g, fmt, strlen(fmt));
} // endif sdvalin1
sdvalin= sdvalin3;
break;
case MYSQL_TYPE_YEAR:
if (!sdvalin4) {
sdvalin4= (DTVAL*)AllocateValue(xp->g, TYPE_DATE, 19);
fmt= "YYYY";
((DTVAL*)sdvalin4)->SetFormat(g, fmt, strlen(fmt));
} // endif sdvalin1
sdvalin= sdvalin4;
break;
default:
if (!sdvalin1) {
sdvalin1= (DTVAL*)AllocateValue(xp->g, TYPE_DATE, 19);
fmt= "YYYY-MM-DD hh:mm:ss";
((DTVAL*)sdvalin1)->SetFormat(g, fmt, strlen(fmt));
} // endif sdvalin1
sdvalin= sdvalin1;
} // endswitch type
sdvalin->SetNullable(colp->IsNullable());
fp->val_str(&attribute);
sdvalin->SetValue_psz(attribute.c_ptr_safe());
value->SetValue_pval(sdvalin);
break;
default:
fp->val_str(&attribute);
if (charset != &my_charset_bin) {
// Convert from SQL field charset to DATA_CHARSET
uint cnv_errors;
data_charset_value.copy(attribute.ptr(), attribute.length(),
attribute.charset(), charset, &cnv_errors);
value->SetValue_psz(data_charset_value.c_ptr_safe());
} else
value->SetValue_psz(attribute.c_ptr_safe());
break;
} // endswitch Type
#ifdef NEWCHANGE
} else if (xmod == MODE_UPDATE) {
PCOL cp;
for (cp= tdbp->GetColumns(); cp; cp= cp->GetNext())
if (!stricmp(colp->GetName(), cp->GetName()))
break;
if (!cp) {
rc= HA_ERR_WRONG_IN_RECORD;
goto err;
} // endif cp
value->SetValue_pval(cp->GetValue());
} else // mode Insert
value->Reset();
#else
} // endif bitmap_is_set
#endif
} // endfor field
err:
dbug_tmp_restore_column_map(table->read_set, bmap);
return rc;
} // end of ScanRecord
/***********************************************************************/
/* Check change in index column. Specific to MySQL. */
/* Should be elaborated to check for real changes. */
/***********************************************************************/
int ha_connect::CheckRecord(PGLOBAL g, const uchar *, uchar *newbuf)
{
return ScanRecord(g, newbuf);
} // end of dummy CheckRecord
/***********************************************************************/
/* Return true if this field is used in current indexing. */
/***********************************************************************/
bool ha_connect::IsIndexed(Field *fp)
{
if (active_index < MAX_KEY) {
KEY_PART_INFO *kpart;
KEY *kfp= &table->key_info[active_index];
uint rem= kfp->user_defined_key_parts;
for (kpart= kfp->key_part; rem; rem--, kpart++)
if (kpart->field == fp)
return true;
} // endif active_index
return false;
} // end of IsIndexed
/***********************************************************************/
/* Return the where clause for remote indexed read. */
/***********************************************************************/
bool ha_connect::MakeKeyWhere(PGLOBAL g, PSTRG qry, OPVAL vop, char q,
const key_range *kr)
{
const uchar *ptr;
//uint i, rem, len, klen, stlen;
uint i, rem, len, stlen;
bool nq, both, oom= false;
OPVAL op;
Field *fp;
const key_range *ranges[2];
my_bitmap_map *old_map;
KEY *kfp;
KEY_PART_INFO *kpart;
if (active_index == MAX_KEY)
return false;
ranges[0]= kr;
ranges[1]= (end_range && !eq_range) ? &save_end_range : NULL;
if (!ranges[0] && !ranges[1]) {
strcpy(g->Message, "MakeKeyWhere: No key");
return true;
} else
both= ranges[0] && ranges[1];
kfp= &table->key_info[active_index];
old_map= dbug_tmp_use_all_columns(table, table->write_set);
for (i = 0; i <= 1; i++) {
if (ranges[i] == NULL)
continue;
if (both && i > 0)
oom|= qry->Append(") AND (");
else
oom|= qry->Append(" WHERE (");
// klen= len= ranges[i]->length;
len= ranges[i]->length;
rem= kfp->user_defined_key_parts;
ptr= ranges[i]->key;
for (kpart= kfp->key_part; rem; rem--, kpart++) {
fp= kpart->field;
stlen= kpart->store_length;
nq= fp->str_needs_quotes();
if (kpart != kfp->key_part)
oom|= qry->Append(" AND ");
if (q) {
oom|= qry->Append(q);
oom|= qry->Append((PSZ)fp->field_name);
oom|= qry->Append(q);
} else
oom|= qry->Append((PSZ)fp->field_name);
switch (ranges[i]->flag) {
case HA_READ_KEY_EXACT:
// op= (stlen >= len || !nq || fp->result_type() != STRING_RESULT)
// ? OP_EQ : OP_LIKE;
op= OP_EQ;
break;
case HA_READ_AFTER_KEY:
op= (stlen >= len || i > 0) ? (i > 0 ? OP_LE : OP_GT) : OP_GE;
break;
case HA_READ_KEY_OR_NEXT:
op= OP_GE;
break;
case HA_READ_BEFORE_KEY:
op= (stlen >= len) ? OP_LT : OP_LE;
break;
case HA_READ_KEY_OR_PREV:
op= OP_LE;
break;
default:
sprintf(g->Message, "cannot handle flag %d", ranges[i]->flag);
goto err;
} // endswitch flag
oom|= qry->Append((PSZ)GetValStr(op, false));
if (nq)
oom|= qry->Append('\'');
if (kpart->key_part_flag & HA_VAR_LENGTH_PART) {
String varchar;
uint var_length= uint2korr(ptr);
varchar.set_quick((char*)ptr + HA_KEY_BLOB_LENGTH,
var_length, &my_charset_bin);
oom|= qry->Append(varchar.ptr(), varchar.length(), nq);
} else {
char strbuff[MAX_FIELD_WIDTH];
String str(strbuff, sizeof(strbuff), kpart->field->charset()), *res;
res= fp->val_str(&str, ptr);
oom|= qry->Append(res->ptr(), res->length(), nq);
} // endif flag
if (nq)
oom |= qry->Append('\'');
if (stlen >= len)
break;
len-= stlen;
/* For nullable columns, null-byte is already skipped before, that is
ptr was incremented by 1. Since store_length still counts null-byte,
we need to subtract 1 from store_length. */
ptr+= stlen - MY_TEST(kpart->null_bit);
} // endfor kpart
} // endfor i
if ((oom|= qry->Append(")")))
strcpy(g->Message, "Out of memory");
dbug_tmp_restore_column_map(table->write_set, old_map);
return oom;
err:
dbug_tmp_restore_column_map(table->write_set, old_map);
return true;
} // end of MakeKeyWhere
/***********************************************************************/
/* Return the string representing an operator. */
/***********************************************************************/
const char *ha_connect::GetValStr(OPVAL vop, bool neg)
{
const char *val;
switch (vop) {
case OP_EQ:
val= " = ";
break;
case OP_NE:
val= " <> ";
break;
case OP_GT:
val= " > ";
break;
case OP_GE:
val= " >= ";
break;
case OP_LT:
val= " < ";
break;
case OP_LE:
val= " <= ";
break;
case OP_IN:
val= (neg) ? " NOT IN (" : " IN (";
break;
case OP_NULL:
val= (neg) ? " IS NOT NULL" : " IS NULL";
break;
case OP_LIKE:
val= " LIKE ";
break;
case OP_XX:
val= (neg) ? " NOT BETWEEN " : " BETWEEN ";
break;
case OP_EXIST:
val= (neg) ? " NOT EXISTS " : " EXISTS ";
break;
case OP_AND:
val= " AND ";
break;
case OP_OR:
val= " OR ";
break;
case OP_NOT:
val= " NOT ";
break;
case OP_CNC:
val= " || ";
break;
case OP_ADD:
val= " + ";
break;
case OP_SUB:
val= " - ";
break;
case OP_MULT:
val= " * ";
break;
case OP_DIV:
val= " / ";
break;
default:
val= " ? ";
break;
} /* endswitch */
return val;
} // end of GetValStr
#if 0
/***********************************************************************/
/* Check the WHERE condition and return a CONNECT filter. */
/***********************************************************************/
PFIL ha_connect::CheckFilter(PGLOBAL g)
{
return CondFilter(g, (Item *)pushed_cond);
} // end of CheckFilter
#endif // 0
/***********************************************************************/
/* Check the WHERE condition and return a CONNECT filter. */
/***********************************************************************/
PFIL ha_connect::CondFilter(PGLOBAL g, Item *cond)
{
unsigned int i;
bool ismul= false;
OPVAL vop= OP_XX;
PFIL filp= NULL;
if (!cond)
return NULL;
if (trace)
htrc("Cond type=%d\n", cond->type());
if (cond->type() == COND::COND_ITEM) {
PFIL fp;
Item_cond *cond_item= (Item_cond *)cond;
if (trace)
htrc("Cond: Ftype=%d name=%s\n", cond_item->functype(),
cond_item->func_name());
switch (cond_item->functype()) {
case Item_func::COND_AND_FUNC: vop= OP_AND; break;
case Item_func::COND_OR_FUNC: vop= OP_OR; break;
default: return NULL;
} // endswitch functype
List- * arglist= cond_item->argument_list();
List_iterator
- li(*arglist);
Item *subitem;
for (i= 0; i < arglist->elements; i++)
if ((subitem= li++)) {
if (!(fp= CondFilter(g, subitem))) {
if (vop == OP_OR)
return NULL;
} else
filp= (filp) ? MakeFilter(g, filp, vop, fp) : fp;
} else
return NULL;
} else if (cond->type() == COND::FUNC_ITEM) {
unsigned int i;
bool iscol, neg= FALSE;
PCOL colp[2]= {NULL,NULL};
PPARM pfirst= NULL, pprec= NULL;
POPER pop;
Item_func *condf= (Item_func *)cond;
Item* *args= condf->arguments();
if (trace)
htrc("Func type=%d argnum=%d\n", condf->functype(),
condf->argument_count());
switch (condf->functype()) {
case Item_func::EQUAL_FUNC:
case Item_func::EQ_FUNC: vop= OP_EQ; break;
case Item_func::NE_FUNC: vop= OP_NE; break;
case Item_func::LT_FUNC: vop= OP_LT; break;
case Item_func::LE_FUNC: vop= OP_LE; break;
case Item_func::GE_FUNC: vop= OP_GE; break;
case Item_func::GT_FUNC: vop= OP_GT; break;
case Item_func::IN_FUNC: vop= OP_IN;
case Item_func::BETWEEN:
ismul= true;
neg= ((Item_func_opt_neg *)condf)->negated;
break;
default: return NULL;
} // endswitch functype
pop= (POPER)PlugSubAlloc(g, NULL, sizeof(OPER));
pop->Name= NULL;
pop->Val=vop;
pop->Mod= 0;
if (condf->argument_count() < 2)
return NULL;
for (i= 0; i < condf->argument_count(); i++) {
if (trace)
htrc("Argtype(%d)=%d\n", i, args[i]->type());
if (i >= 2 && !ismul) {
if (trace)
htrc("Unexpected arg for vop=%d\n", vop);
continue;
} // endif i
if ((iscol= args[i]->type() == COND::FIELD_ITEM)) {
Item_field *pField= (Item_field *)args[i];
// IN and BETWEEN clauses should be col VOP list
if (i && ismul)
return NULL;
if (pField->field->table != table ||
!(colp[i]= tdbp->ColDB(g, (PSZ)pField->field->field_name, 0)))
return NULL; // Column does not belong to this table
// These types are not yet implemented (buggy)
switch (pField->field->type()) {
case MYSQL_TYPE_TIMESTAMP:
case MYSQL_TYPE_DATE:
case MYSQL_TYPE_TIME:
case MYSQL_TYPE_DATETIME:
case MYSQL_TYPE_YEAR:
case MYSQL_TYPE_NEWDATE:
return NULL;
default:
break;
} // endswitch type
if (trace) {
htrc("Field index=%d\n", pField->field->field_index);
htrc("Field name=%s\n", pField->field->field_name);
} // endif trace
} else {
char buff[256];
String *res, tmp(buff, sizeof(buff), &my_charset_bin);
Item_basic_constant *pval= (Item_basic_constant *)args[i];
PPARM pp= (PPARM)PlugSubAlloc(g, NULL, sizeof(PARM));
// IN and BETWEEN clauses should be col VOP list
if (!i && (ismul))
return NULL;
switch (args[i]->real_type()) {
case COND::STRING_ITEM:
res= pval->val_str(&tmp);
pp->Value= PlugSubAllocStr(g, NULL, res->ptr(), res->length());
pp->Type= (pp->Value) ? TYPE_STRING : TYPE_ERROR;
break;
case COND::INT_ITEM:
pp->Type= TYPE_INT;
pp->Value= PlugSubAlloc(g, NULL, sizeof(int));
*((int*)pp->Value)= (int)pval->val_int();
break;
case COND::DATE_ITEM:
pp->Type= TYPE_DATE;
pp->Value= PlugSubAlloc(g, NULL, sizeof(int));
*((int*)pp->Value)= (int)pval->val_int_from_date();
break;
case COND::REAL_ITEM:
pp->Type= TYPE_DOUBLE;
pp->Value= PlugSubAlloc(g, NULL, sizeof(double));
*((double*)pp->Value)= pval->val_real();
break;
case COND::DECIMAL_ITEM:
pp->Type= TYPE_DOUBLE;
pp->Value= PlugSubAlloc(g, NULL, sizeof(double));
*((double*)pp->Value)= pval->val_real_from_decimal();
break;
case COND::CACHE_ITEM: // Possible ???
case COND::NULL_ITEM: // TODO: handle this
default:
return NULL;
} // endswitch type
if (trace)
htrc("Value type=%hd\n", pp->Type);
// Append the value to the argument list
if (pprec)
pprec->Next= pp;
else
pfirst= pp;
pp->Domain= i;
pp->Next= NULL;
pprec= pp;
} // endif type
} // endfor i
filp= MakeFilter(g, colp, pop, pfirst, neg);
} else {
if (trace)
htrc("Unsupported condition\n");
return NULL;
} // endif's type
return filp;
} // end of CondFilter
/***********************************************************************/
/* Check the WHERE condition and return a MYSQL/ODBC/JDBC/WQL filter. */
/***********************************************************************/
PCFIL ha_connect::CheckCond(PGLOBAL g, PCFIL filp, const Item *cond)
{
AMT tty = filp->Type;
char *body= filp->Body;
char *havg= filp->Having;
unsigned int i;
bool ismul= false, x= (tty == TYPE_AM_MYX || tty == TYPE_AM_XDBC);
bool nonul= ((tty == TYPE_AM_ODBC || tty == TYPE_AM_JDBC) &&
(tdbp->GetMode() == MODE_INSERT || tdbp->GetMode() == MODE_DELETE));
OPVAL vop= OP_XX;
if (!cond)
return NULL;
if (trace)
htrc("Cond type=%d\n", cond->type());
if (cond->type() == COND::COND_ITEM) {
char *pb0, *pb1, *pb2, *ph0, *ph1, *ph2;
bool bb = false, bh = false;
Item_cond *cond_item= (Item_cond *)cond;
if (x)
return NULL;
if (trace)
htrc("Cond: Ftype=%d name=%s\n", cond_item->functype(),
cond_item->func_name());
switch (cond_item->functype()) {
case Item_func::COND_AND_FUNC: vop= OP_AND; break;
case Item_func::COND_OR_FUNC: vop= OP_OR; break;
default: return NULL;
} // endswitch functype
List
- * arglist= cond_item->argument_list();
List_iterator
- li(*arglist);
const Item *subitem;
pb0= pb1= body + strlen(body);
strcpy(pb0, "(");
pb2= pb1 + 1;
if (havg) {
ph0= ph1= havg + strlen(havg);
strcpy(ph0, "(");
ph2= ph1 + 1;
} // endif havg
for (i= 0; i < arglist->elements; i++)
if ((subitem= li++)) {
if (!CheckCond(g, filp, subitem)) {
if (vop == OP_OR || nonul)
return NULL;
else {
*pb2= 0;
if (havg) *ph2= 0;
} // endelse
} else {
if (filp->Bd) {
pb1= pb2 + strlen(pb2);
strcpy(pb1, GetValStr(vop, false));
pb2= pb1 + strlen(pb1);
} // endif Bd
if (filp->Hv) {
ph1= ph2 + strlen(ph2);
strcpy(ph1, GetValStr(vop, false));
ph2= ph1 + strlen(ph1);
} // endif Hv
} // endif CheckCond
bb |= filp->Bd;
bh |= filp->Hv;
filp->Bd = filp->Hv = false;
} else
return NULL;
if (bb) {
strcpy(pb1, ")");
filp->Bd = bb;
} else
*pb0= 0;
if (havg) {
if (bb && bh && vop == OP_OR) {
// Cannot or'ed a where clause with a having clause
bb= bh= 0;
*pb0 = 0;
*ph0 = 0;
} else if (bh) {
strcpy(ph1, ")");
filp->Hv= bh;
} else
*ph0 = 0;
} // endif havg
if (!bb && !bh)
return NULL;
} else if (cond->type() == COND::FUNC_ITEM) {
unsigned int i;
bool iscol, ishav= false, neg= false;
Item_func *condf= (Item_func *)cond;
Item* *args= condf->arguments();
filp->Bd = filp->Hv = false;
if (trace)
htrc("Func type=%d argnum=%d\n", condf->functype(),
condf->argument_count());
switch (condf->functype()) {
case Item_func::EQUAL_FUNC:
case Item_func::EQ_FUNC: vop= OP_EQ; break;
case Item_func::NE_FUNC: vop= OP_NE; break;
case Item_func::LT_FUNC: vop= OP_LT; break;
case Item_func::LE_FUNC: vop= OP_LE; break;
case Item_func::GE_FUNC: vop= OP_GE; break;
case Item_func::GT_FUNC: vop= OP_GT; break;
case Item_func::LIKE_FUNC: vop= OP_LIKE; break;
case Item_func::ISNOTNULL_FUNC:
neg = true;
case Item_func::ISNULL_FUNC: vop= OP_NULL; break;
case Item_func::IN_FUNC: vop= OP_IN;
case Item_func::BETWEEN:
ismul= true;
neg= ((Item_func_opt_neg *)condf)->negated;
break;
default: return NULL;
} // endswitch functype
if (condf->argument_count() < 2)
return NULL;
else if (ismul && tty == TYPE_AM_WMI)
return NULL; // Not supported by WQL
if (x && (neg || !(vop == OP_EQ || vop == OP_IN || vop == OP_NULL)))
return NULL;
for (i= 0; i < condf->argument_count(); i++) {
if (trace)
htrc("Argtype(%d)=%d\n", i, args[i]->type());
if (i >= 2 && !ismul) {
if (trace)
htrc("Unexpected arg for vop=%d\n", vop);
continue;
} // endif i
if ((iscol= args[i]->type() == COND::FIELD_ITEM)) {
const char *fnm;
ha_field_option_struct *fop;
Item_field *pField= (Item_field *)args[i];
// IN and BETWEEN clauses should be col VOP list
if (i && (x || ismul))
return NULL; // IN and BETWEEN clauses should be col VOP list
else if (pField->field->table != table)
return NULL; // Field does not belong to this table
else if (tty != TYPE_AM_WMI && IsIndexed(pField->field))
return NULL; // Will be handled by ReadKey
else
fop= GetFieldOptionStruct(pField->field);
if (fop && fop->special) {
if (tty == TYPE_AM_TBL && !stricmp(fop->special, "TABID"))
fnm= "TABID";
else if (tty == TYPE_AM_PLG)
fnm= fop->special;
else
return NULL;
} else if (tty == TYPE_AM_TBL) {
return NULL;
} else {
bool h;
fnm = filp->Chk(pField->field->field_name, &h);
if (h && i && !ishav)
return NULL; // Having should be col VOP arg
else
ishav = h;
} // endif's
if (trace) {
htrc("Field index=%d\n", pField->field->field_index);
htrc("Field name=%s\n", pField->field->field_name);
htrc("Field type=%d\n", pField->field->type());
htrc("Field_type=%d\n", args[i]->field_type());
} // endif trace
strcat((ishav ? havg : body), fnm);
} else if (args[i]->type() == COND::FUNC_ITEM) {
if (tty == TYPE_AM_MYSQL) {
if (!CheckCond(g, filp, args[i]))
return NULL;
} else
return NULL;
} else {
char buff[256];
String *res, tmp(buff, sizeof(buff), &my_charset_bin);
Item_basic_constant *pval= (Item_basic_constant *)args[i];
Item::Type type= args[i]->real_type();
switch (type) {
case COND::STRING_ITEM:
case COND::INT_ITEM:
case COND::REAL_ITEM:
case COND::NULL_ITEM:
case COND::DECIMAL_ITEM:
case COND::DATE_ITEM:
case COND::CACHE_ITEM:
break;
default:
return NULL;
} // endswitch type
if ((res= pval->val_str(&tmp)) == NULL)
return NULL; // To be clarified
if (trace)
htrc("Value=%.*s\n", res->length(), res->ptr());
// IN and BETWEEN clauses should be col VOP list
if (!i && (x || ismul))
return NULL;
if (!x) {
char *s = (ishav) ? havg : body;
// Append the value to the filter
switch (args[i]->field_type()) {
case MYSQL_TYPE_TIMESTAMP:
case MYSQL_TYPE_DATETIME:
if (tty == TYPE_AM_ODBC) {
strcat(s, "{ts '");
strncat(s, res->ptr(), res->length());
if (res->length() < 19)
strcat(s, &"1970-01-01 00:00:00"[res->length()]);
strcat(s, "'}");
break;
} // endif ODBC
case MYSQL_TYPE_DATE:
if (tty == TYPE_AM_ODBC) {
strcat(s, "{d '");
strcat(strncat(s, res->ptr(), res->length()), "'}");
break;
} // endif ODBC
case MYSQL_TYPE_TIME:
if (tty == TYPE_AM_ODBC) {
strcat(s, "{t '");
strcat(strncat(s, res->ptr(), res->length()), "'}");
break;
} // endif ODBC
case MYSQL_TYPE_VARCHAR:
if (tty == TYPE_AM_ODBC && i) {
switch (args[0]->field_type()) {
case MYSQL_TYPE_TIMESTAMP:
case MYSQL_TYPE_DATETIME:
strcat(s, "{ts '");
strncat(s, res->ptr(), res->length());
if (res->length() < 19)
strcat(s, &"1970-01-01 00:00:00"[res->length()]);
strcat(s, "'}");
break;
case MYSQL_TYPE_DATE:
strcat(s, "{d '");
strncat(s, res->ptr(), res->length());
strcat(s, "'}");
break;
case MYSQL_TYPE_TIME:
strcat(s, "{t '");
strncat(s, res->ptr(), res->length());
strcat(s, "'}");
break;
default:
strcat(s, "'");
strncat(s, res->ptr(), res->length());
strcat(s, "'");
} // endswitch field type
} else {
strcat(s, "'");
strncat(s, res->ptr(), res->length());
strcat(s, "'");
} // endif tty
break;
default:
strncat(s, res->ptr(), res->length());
} // endswitch field type
} else {
if (args[i]->field_type() == MYSQL_TYPE_VARCHAR) {
// Add the command to the list
PCMD *ncp, cmdp= new(g) CMD(g, (char*)res->c_ptr());
for (ncp= &filp->Cmds; *ncp; ncp= &(*ncp)->Next) ;
*ncp= cmdp;
} else
return NULL;
} // endif x
} // endif's Type
if (!x) {
char *s = (ishav) ? havg : body;
if (!i)
strcat(s, GetValStr(vop, neg));
else if (vop == OP_XX && i == 1)
strcat(s, " AND ");
else if (vop == OP_IN)
strcat(s, (i == condf->argument_count() - 1) ? ")" : ",");
} // endif x
} // endfor i
if (x)
filp->Op = vop;
else if (ishav)
filp->Hv = true;
else
filp->Bd = true;
} else {
if (trace)
htrc("Unsupported condition\n");
return NULL;
} // endif's type
return filp;
} // end of CheckCond
/**
Push condition down to the table handler.
@param cond Condition to be pushed. The condition tree must not be
modified by the caller.
@return
The 'remainder' condition that caller must use to filter out records.
NULL means the handler will not return rows that do not match the
passed condition.
@note
CONNECT handles the filtering only for table types that construct
an SQL or WQL query, but still leaves it to MySQL because only some
parts of the filter may be relevant.
The first suballocate finds the position where the string will be
constructed in the sarea. The second one does make the suballocation
with the proper length.
*/
const COND *ha_connect::cond_push(const COND *cond)
{
DBUG_ENTER("ha_connect::cond_push");
if (tdbp) {
int rc;
PGLOBAL& g= xp->g;
AMT tty= tdbp->GetAmType();
bool x= (tty == TYPE_AM_MYX || tty == TYPE_AM_XDBC);
bool b= (tty == TYPE_AM_WMI || tty == TYPE_AM_ODBC ||
tty == TYPE_AM_TBL || tty == TYPE_AM_MYSQL ||
tty == TYPE_AM_PLG || tty == TYPE_AM_JDBC || x);
// Save stack and allocation environment and prepare error return
if (g->jump_level == MAX_JUMP) {
strcpy(g->Message, MSG(TOO_MANY_JUMPS));
DBUG_RETURN(cond);
} // endif jump_level
// This should never happen but is done to avoid crashing
if ((rc= setjmp(g->jumper[++g->jump_level])) != 0)
goto fin;
if (b) {
PCFIL filp;
int rc;
if ((filp= tdbp->GetCondFil()) && filp->Cond == cond &&
filp->Idx == active_index && filp->Type == tty)
goto fin; // Already done
filp= new(g) CONDFIL(cond, active_index, tty);
rc = filp->Init(g, this);
if (rc == RC_INFO) {
filp->Having = (char*)PlugSubAlloc(g, NULL, 256);
*filp->Having = 0;
} else if (rc == RC_FX)
goto fin;
filp->Body = (char*)PlugSubAlloc(g, NULL, (x) ? 128 : 0);
*filp->Body = 0;
if (CheckCond(g, filp, cond)) {
if (filp->Having && strlen(filp->Having) > 255)
goto fin; // Memory collapse
if (trace)
htrc("cond_push: %s\n", filp->Body);
if (!x)
PlugSubAlloc(g, NULL, strlen(filp->Body) + 1);
else
cond= NULL; // Does this work?
tdbp->SetCondFil(filp);
} else if (x && cond)
tdbp->SetCondFil(filp); // Wrong filter
} else if (tty != TYPE_AM_JSN && tty != TYPE_AM_JSON)
tdbp->SetFilter(CondFilter(g, (Item *)cond));
fin:
g->jump_level--;
} // endif tdbp
// Let MySQL do the filtering
DBUG_RETURN(cond);
} // end of cond_push
/**
Number of rows in table. It will only be called if
(table_flags() & (HA_HAS_RECORDS | HA_STATS_RECORDS_IS_EXACT)) != 0
*/
ha_rows ha_connect::records()
{
if (!valid_info)
info(HA_STATUS_VARIABLE);
if (tdbp)
return stats.records;
else
return HA_POS_ERROR;
} // end of records
/**
Return an error message specific to this handler.
@param error error code previously returned by handler
@param buf pointer to String where to add error message
@return
Returns true if this is a temporary error
*/
bool ha_connect::get_error_message(int error, String* buf)
{
DBUG_ENTER("ha_connect::get_error_message");
if (xp && xp->g) {
PGLOBAL g= xp->g;
char msg[3072]; // MAX_STR * 3
uint dummy_errors;
uint32 len= copy_and_convert(msg, strlen(g->Message) * 3,
system_charset_info,
g->Message, strlen(g->Message),
&my_charset_latin1,
&dummy_errors);
if (trace)
htrc("GEM(%d): len=%u %s\n", error, len, g->Message);
msg[len]= '\0';
buf->copy(msg, (uint)strlen(msg), system_charset_info);
} else
buf->copy("Cannot retrieve msg", 19, system_charset_info);
DBUG_RETURN(false);
} // end of get_error_message
/**
Convert a filename partition name to system
*/
static char *decode(PGLOBAL g, const char *pn)
{
char *buf= (char*)PlugSubAlloc(g, NULL, strlen(pn) + 1);
uint dummy_errors;
uint32 len= copy_and_convert(buf, strlen(pn) + 1,
system_charset_info,
pn, strlen(pn),
&my_charset_filename,
&dummy_errors);
buf[len]= '\0';
return buf;
} // end of decode
/**
@brief
Used for opening tables. The name will be the name of the file.
@details
A table is opened when it needs to be opened; e.g. when a request comes in
for a SELECT on the table (tables are not open and closed for each request,
they are cached).
Called from handler.cc by handler::ha_open(). The server opens all tables by
calling ha_open() which then calls the handler specific open().
@note
For CONNECT no open can be done here because field information is not yet
updated. >>>>> TO BE CHECKED <<<<<
(Thread information could be get by using 'ha_thd')
@see
handler::ha_open() in handler.cc
*/
int ha_connect::open(const char *name, int mode, uint test_if_locked)
{
int rc= 0;
DBUG_ENTER("ha_connect::open");
if (trace)
htrc("open: name=%s mode=%d test=%u\n", name, mode, test_if_locked);
if (!(share= get_share()))
DBUG_RETURN(1);
thr_lock_data_init(&share->lock,&lock,NULL);
// Try to get the user if possible
xp= GetUser(ha_thd(), xp);
PGLOBAL g= (xp) ? xp->g : NULL;
// Try to set the database environment
if (g) {
rc= (CntCheckDB(g, this, name)) ? (-2) : 0;
if (g->Mrr) {
// This should only happen for the mrr secondary handler
mrr= true;
g->Mrr= false;
} else
mrr= false;
#if defined(WITH_PARTITION_STORAGE_ENGINE)
if (table->part_info) {
if (GetStringOption("Filename") || GetStringOption("Tabname")
|| GetStringOption("Connect")) {
strncpy(partname, decode(g, strrchr(name, '#') + 1), sizeof(partname) - 1);
// strcpy(partname, table->part_info->curr_part_elem->partition_name);
// part_id= &table->part_info->full_part_field_set;
} else // Inward table
strncpy(partname, strrchr(name, slash) + 1, sizeof(partname) - 1);
part_id= &table->part_info->full_part_field_set; // Temporary
} // endif part_info
#endif // WITH_PARTITION_STORAGE_ENGINE
} else
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // end of open
/**
@brief
Make the indexes for this table
*/
int ha_connect::optimize(THD* thd, HA_CHECK_OPT*)
{
int rc= 0;
PGLOBAL& g= xp->g;
PDBUSER dup= PlgGetUser(g);
// Ignore error on the opt file
dup->Check &= ~CHK_OPT;
tdbp= GetTDB(g);
dup->Check |= CHK_OPT;
if (tdbp && !tdbp->IsRemote()) {
bool dop= IsTypeIndexable(GetRealType(NULL));
bool dox= (tdbp->GetDef()->Indexable() == 1);
if ((rc= ((PTDBASE)tdbp)->ResetTableOpt(g, dop, dox))) {
if (rc == RC_INFO) {
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
rc= 0;
} else
rc= HA_ERR_INTERNAL_ERROR;
} // endif rc
} else if (!tdbp)
rc= HA_ERR_INTERNAL_ERROR;
return rc;
} // end of optimize
/**
@brief
Closes a table.
@details
Called from sql_base.cc, sql_select.cc, and table.cc. In sql_select.cc it is
only used to close up temporary tables or during the process where a
temporary table is converted over to being a myisam table.
For sql_base.cc look at close_data_tables().
@see
sql_base.cc, sql_select.cc and table.cc
*/
int ha_connect::close(void)
{
int rc= 0;
DBUG_ENTER("ha_connect::close");
// If this is called by a later query, the table may have
// been already closed and the tdbp is not valid anymore.
if (tdbp && xp->last_query_id == valid_query_id)
rc= CloseTable(xp->g);
DBUG_RETURN(rc);
} // end of close
/**
@brief
write_row() inserts a row. No extra() hint is given currently if a bulk load
is happening. buf() is a byte array of data. You can use the field
information to extract the data from the native byte array type.
@details
Example of this would be:
@code
for (Field **field=table->field ; *field ; field++)
{
...
}
@endcode
See ha_tina.cc for an example of extracting all of the data as strings.
ha_berekly.cc has an example of how to store it intact by "packing" it
for ha_berkeley's own native storage type.
See the note for update_row() on auto_increments and timestamps. This
case also applies to write_row().
Called from item_sum.cc, item_sum.cc, sql_acl.cc, sql_insert.cc,
sql_insert.cc, sql_select.cc, sql_table.cc, sql_udf.cc, and sql_update.cc.
@see
item_sum.cc, item_sum.cc, sql_acl.cc, sql_insert.cc,
sql_insert.cc, sql_select.cc, sql_table.cc, sql_udf.cc and sql_update.cc
*/
int ha_connect::write_row(uchar *buf)
{
int rc= 0;
PGLOBAL& g= xp->g;
DBUG_ENTER("ha_connect::write_row");
// This is not tested yet
if (xmod == MODE_ALTER) {
if (IsPartitioned() && GetStringOption("Filename", NULL))
// Why does this happen now that check_if_supported_inplace_alter is called?
DBUG_RETURN(0); // Alter table on an outward partition table
xmod= MODE_INSERT;
} else if (xmod == MODE_ANY)
DBUG_RETURN(0); // Probably never met
// Open the table if it was not opened yet (locked)
if (!IsOpened() || xmod != tdbp->GetMode()) {
if (IsOpened())
CloseTable(g);
if ((rc= OpenTable(g)))
DBUG_RETURN(rc);
} // endif isopened
#if 0 // AUTO_INCREMENT NIY
if (table->next_number_field && buf == table->record[0]) {
int error;
if ((error= update_auto_increment()))
return error;
} // endif nex_number_field
#endif // 0
// Set column values from the passed pseudo record
if ((rc= ScanRecord(g, buf)))
DBUG_RETURN(rc);
// Return result code from write operation
if (CntWriteRow(g, tdbp)) {
DBUG_PRINT("write_row", ("%s", g->Message));
htrc("write_row: %s\n", g->Message);
rc= HA_ERR_INTERNAL_ERROR;
} else // Table is modified
nox= false; // Indexes to be remade
DBUG_RETURN(rc);
} // end of write_row
/**
@brief
Yes, update_row() does what you expect, it updates a row. old_data will have
the previous row record in it, while new_data will have the newest data in it.
Keep in mind that the server can do updates based on ordering if an ORDER BY
clause was used. Consecutive ordering is not guaranteed.
@details
Currently new_data will not have an updated auto_increament record, or
and updated timestamp field. You can do these for example by doing:
@code
if (table->timestamp_field_type & TIMESTAMP_AUTO_SET_ON_UPDATE)
table->timestamp_field->set_time();
if (table->next_number_field && record == table->record[0])
update_auto_increment();
@endcode
Called from sql_select.cc, sql_acl.cc, sql_update.cc, and sql_insert.cc.
@see
sql_select.cc, sql_acl.cc, sql_update.cc and sql_insert.cc
*/
int ha_connect::update_row(const uchar *old_data, uchar *new_data)
{
int rc= 0;
PGLOBAL& g= xp->g;
DBUG_ENTER("ha_connect::update_row");
if (trace > 1)
htrc("update_row: old=%s new=%s\n", old_data, new_data);
// Check values for possible change in indexed column
if ((rc= CheckRecord(g, old_data, new_data)))
DBUG_RETURN(rc);
if (CntUpdateRow(g, tdbp)) {
DBUG_PRINT("update_row", ("%s", g->Message));
htrc("update_row CONNECT: %s\n", g->Message);
rc= HA_ERR_INTERNAL_ERROR;
} else
nox= false; // Table is modified
DBUG_RETURN(rc);
} // end of update_row
/**
@brief
This will delete a row. buf will contain a copy of the row to be deleted.
The server will call this right after the current row has been called (from
either a previous rnd_nexT() or index call).
@details
If you keep a pointer to the last row or can access a primary key it will
make doing the deletion quite a bit easier. Keep in mind that the server does
not guarantee consecutive deletions. ORDER BY clauses can be used.
Called in sql_acl.cc and sql_udf.cc to manage internal table
information. Called in sql_delete.cc, sql_insert.cc, and
sql_select.cc. In sql_select it is used for removing duplicates
while in insert it is used for REPLACE calls.
@see
sql_acl.cc, sql_udf.cc, sql_delete.cc, sql_insert.cc and sql_select.cc
*/
int ha_connect::delete_row(const uchar *)
{
int rc= 0;
DBUG_ENTER("ha_connect::delete_row");
if (CntDeleteRow(xp->g, tdbp, false)) {
rc= HA_ERR_INTERNAL_ERROR;
htrc("delete_row CONNECT: %s\n", xp->g->Message);
} else
nox= false; // To remake indexes
DBUG_RETURN(rc);
} // end of delete_row
/****************************************************************************/
/* We seem to come here at the beginning of an index use. */
/****************************************************************************/
int ha_connect::index_init(uint idx, bool sorted)
{
int rc;
PGLOBAL& g= xp->g;
DBUG_ENTER("index_init");
if (trace)
htrc("index_init: this=%p idx=%u sorted=%d\n", this, idx, sorted);
if (GetIndexType(GetRealType()) == 2) {
if (xmod == MODE_READ)
// This is a remote index
xmod= MODE_READX;
if (!(rc= rnd_init(0))) {
// if (xmod == MODE_READX) {
active_index= idx;
indexing= IsUnique(idx) ? 1 : 2;
// } else {
// active_index= MAX_KEY;
// indexing= 0;
// } // endif xmod
} //endif rc
DBUG_RETURN(rc);
} // endif index type
if ((rc= rnd_init(0)))
DBUG_RETURN(rc);
if (locked == 2) {
// Indexes are not updated in lock write mode
active_index= MAX_KEY;
indexing= 0;
DBUG_RETURN(0);
} // endif locked
indexing= CntIndexInit(g, tdbp, (signed)idx, sorted);
if (indexing <= 0) {
DBUG_PRINT("index_init", ("%s", g->Message));
htrc("index_init CONNECT: %s\n", g->Message);
active_index= MAX_KEY;
rc= HA_ERR_INTERNAL_ERROR;
} else if (tdbp->GetKindex()) {
if (((PTDBDOX)tdbp)->To_Kindex->GetNum_K()) {
if (tdbp->GetFtype() != RECFM_NAF)
((PTDBDOX)tdbp)->GetTxfp()->ResetBuffer(g);
active_index= idx;
// } else { // Void table
// active_index= MAX_KEY;
// indexing= 0;
} // endif Num
rc= 0;
} // endif indexing
if (trace)
htrc("index_init: rc=%d indexing=%d active_index=%d\n",
rc, indexing, active_index);
DBUG_RETURN(rc);
} // end of index_init
/****************************************************************************/
/* We seem to come here at the end of an index use. */
/****************************************************************************/
int ha_connect::index_end()
{
DBUG_ENTER("index_end");
active_index= MAX_KEY;
ds_mrr.dsmrr_close();
DBUG_RETURN(rnd_end());
} // end of index_end
/****************************************************************************/
/* This is internally called by all indexed reading functions. */
/****************************************************************************/
int ha_connect::ReadIndexed(uchar *buf, OPVAL op, const key_range *kr)
{
int rc;
//statistic_increment(ha_read_key_count, &LOCK_status);
switch (CntIndexRead(xp->g, tdbp, op, kr, mrr)) {
case RC_OK:
xp->fnd++;
rc= MakeRecord((char*)buf);
break;
case RC_EF: // End of file
rc= HA_ERR_END_OF_FILE;
break;
case RC_NF: // Not found
xp->nfd++;
rc= (op == OP_SAME) ? HA_ERR_END_OF_FILE : HA_ERR_KEY_NOT_FOUND;
break;
default: // Read error
DBUG_PRINT("ReadIndexed", ("%s", xp->g->Message));
htrc("ReadIndexed: %s\n", xp->g->Message);
rc= HA_ERR_INTERNAL_ERROR;
break;
} // endswitch RC
if (trace > 1)
htrc("ReadIndexed: op=%d rc=%d\n", op, rc);
table->status= (rc == RC_OK) ? 0 : STATUS_NOT_FOUND;
return rc;
} // end of ReadIndexed
#ifdef NOT_USED
/**
@brief
Positions an index cursor to the index specified in the handle. Fetches the
row if available. If the key value is null, begin at the first key of the
index.
*/
int ha_connect::index_read_map(uchar *buf, const uchar *key,
key_part_map keypart_map __attribute__((unused)),
enum ha_rkey_function find_flag
__attribute__((unused)))
{
DBUG_ENTER("ha_connect::index_read");
DBUG_RETURN(HA_ERR_WRONG_COMMAND);
}
#endif // NOT_USED
/****************************************************************************/
/* This is called by handler::index_read_map. */
/****************************************************************************/
int ha_connect::index_read(uchar * buf, const uchar * key, uint key_len,
enum ha_rkey_function find_flag)
{
int rc;
OPVAL op= OP_XX;
DBUG_ENTER("ha_connect::index_read");
switch(find_flag) {
case HA_READ_KEY_EXACT: op= OP_EQ; break;
case HA_READ_AFTER_KEY: op= OP_GT; break;
case HA_READ_KEY_OR_NEXT: op= OP_GE; break;
default: DBUG_RETURN(-1); break;
} // endswitch find_flag
if (trace > 1)
htrc("%p index_read: op=%d\n", this, op);
if (indexing > 0) {
start_key.key= key;
start_key.length= key_len;
start_key.flag= find_flag;
start_key.keypart_map= 0;
rc= ReadIndexed(buf, op, &start_key);
if (rc == HA_ERR_INTERNAL_ERROR) {
nox= true; // To block making indexes
abort= true; // Don't rename temp file
} // endif rc
} else
rc= HA_ERR_INTERNAL_ERROR; // HA_ERR_KEY_NOT_FOUND ?
DBUG_RETURN(rc);
} // end of index_read
/**
@brief
Used to read forward through the index.
*/
int ha_connect::index_next(uchar *buf)
{
int rc;
DBUG_ENTER("ha_connect::index_next");
//statistic_increment(ha_read_next_count, &LOCK_status);
if (indexing > 0)
rc= ReadIndexed(buf, OP_NEXT);
else if (!indexing)
rc= rnd_next(buf);
else
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // end of index_next
/**
@brief
Used to read backwards through the index.
*/
int ha_connect::index_prev(uchar *buf)
{
DBUG_ENTER("ha_connect::index_prev");
int rc;
if (indexing > 0) {
rc= ReadIndexed(buf, OP_PREV);
} else
rc= HA_ERR_WRONG_COMMAND;
DBUG_RETURN(rc);
} // end of index_prev
/**
@brief
index_first() asks for the first key in the index.
@details
Called from opt_range.cc, opt_sum.cc, sql_handler.cc, and sql_select.cc.
@see
opt_range.cc, opt_sum.cc, sql_handler.cc and sql_select.cc
*/
int ha_connect::index_first(uchar *buf)
{
int rc;
DBUG_ENTER("ha_connect::index_first");
if (indexing > 0)
rc= ReadIndexed(buf, OP_FIRST);
else if (indexing < 0)
rc= HA_ERR_INTERNAL_ERROR;
else if (CntRewindTable(xp->g, tdbp)) {
table->status= STATUS_NOT_FOUND;
rc= HA_ERR_INTERNAL_ERROR;
} else
rc= rnd_next(buf);
DBUG_RETURN(rc);
} // end of index_first
/**
@brief
index_last() asks for the last key in the index.
@details
Called from opt_range.cc, opt_sum.cc, sql_handler.cc, and sql_select.cc.
@see
opt_range.cc, opt_sum.cc, sql_handler.cc and sql_select.cc
*/
int ha_connect::index_last(uchar *buf)
{
DBUG_ENTER("ha_connect::index_last");
int rc;
if (indexing <= 0) {
rc= HA_ERR_INTERNAL_ERROR;
} else
rc= ReadIndexed(buf, OP_LAST);
DBUG_RETURN(rc);
}
/****************************************************************************/
/* This is called to get more rows having the same index value. */
/****************************************************************************/
//t ha_connect::index_next_same(uchar *buf, const uchar *key, uint keylen)
int ha_connect::index_next_same(uchar *buf, const uchar *, uint)
{
int rc;
DBUG_ENTER("ha_connect::index_next_same");
//statistic_increment(ha_read_next_count, &LOCK_status);
if (!indexing)
rc= rnd_next(buf);
else if (indexing > 0)
rc= ReadIndexed(buf, OP_SAME);
else
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // end of index_next_same
/**
@brief
rnd_init() is called when the system wants the storage engine to do a table
scan. See the example in the introduction at the top of this file to see when
rnd_init() is called.
@details
Called from filesort.cc, records.cc, sql_handler.cc, sql_select.cc, sql_table.cc,
and sql_update.cc.
@note
We always call open and extern_lock/start_stmt before comming here.
@see
filesort.cc, records.cc, sql_handler.cc, sql_select.cc, sql_table.cc and sql_update.cc
*/
int ha_connect::rnd_init(bool scan)
{
PGLOBAL g= ((table && table->in_use) ? GetPlug(table->in_use, xp) :
(xp) ? xp->g : NULL);
DBUG_ENTER("ha_connect::rnd_init");
// This is not tested yet
if (xmod == MODE_ALTER) {
xmod= MODE_READ;
alter= 1;
} // endif xmod
if (trace)
htrc("rnd_init: this=%p scan=%d xmod=%d alter=%d\n",
this, scan, xmod, alter);
if (!g || !table || xmod == MODE_INSERT)
DBUG_RETURN(HA_ERR_INITIALIZATION);
// Do not close the table if it was opened yet (locked?)
if (IsOpened()) {
if (IsPartitioned() && xmod != MODE_INSERT)
if (CheckColumnList(g)) // map can have been changed
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
if (tdbp->OpenDB(g)) // Rewind table
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
else
DBUG_RETURN(0);
} else if (xp->CheckQuery(valid_query_id))
tdbp= NULL; // Not valid anymore
// When updating, to avoid skipped update, force the table
// handler to retrieve write-only fields to be able to compare
// records and detect data change.
if (xmod == MODE_UPDATE)
bitmap_union(table->read_set, table->write_set);
if (OpenTable(g, xmod == MODE_DELETE))
DBUG_RETURN(HA_ERR_INITIALIZATION);
xp->nrd= xp->fnd= xp->nfd= 0;
xp->tb1= my_interval_timer();
DBUG_RETURN(0);
} // end of rnd_init
/**
@brief
Not described.
@note
The previous version said:
Stop scanning of table. Note that this may be called several times during
execution of a sub select.
=====> This has been moved to external lock to avoid closing subselect tables.
*/
int ha_connect::rnd_end()
{
int rc= 0;
DBUG_ENTER("ha_connect::rnd_end");
// If this is called by a later query, the table may have
// been already closed and the tdbp is not valid anymore.
// if (tdbp && xp->last_query_id == valid_query_id)
// rc= CloseTable(xp->g);
ds_mrr.dsmrr_close();
DBUG_RETURN(rc);
} // end of rnd_end
/**
@brief
This is called for each row of the table scan. When you run out of records
you should return HA_ERR_END_OF_FILE. Fill buff up with the row information.
The Field structure for the table is the key to getting data into buf
in a manner that will allow the server to understand it.
@details
Called from filesort.cc, records.cc, sql_handler.cc, sql_select.cc, sql_table.cc,
and sql_update.cc.
@see
filesort.cc, records.cc, sql_handler.cc, sql_select.cc, sql_table.cc and sql_update.cc
*/
int ha_connect::rnd_next(uchar *buf)
{
int rc;
DBUG_ENTER("ha_connect::rnd_next");
//statistic_increment(ha_read_rnd_next_count, &LOCK_status);
if (tdbp->GetMode() == MODE_ANY) {
// We will stop on next read
if (!stop) {
stop= true;
DBUG_RETURN(RC_OK);
} else
DBUG_RETURN(HA_ERR_END_OF_FILE);
} // endif Mode
switch (CntReadNext(xp->g, tdbp)) {
case RC_OK:
rc= MakeRecord((char*)buf);
break;
case RC_EF: // End of file
rc= HA_ERR_END_OF_FILE;
break;
case RC_NF: // Not found
rc= HA_ERR_RECORD_DELETED;
break;
default: // Read error
htrc("rnd_next CONNECT: %s\n", xp->g->Message);
rc= (records()) ? HA_ERR_INTERNAL_ERROR : HA_ERR_END_OF_FILE;
break;
} // endswitch RC
if (trace > 1 && (rc || !(xp->nrd++ % 16384))) {
ulonglong tb2= my_interval_timer();
double elapsed= (double) (tb2 - xp->tb1) / 1000000000ULL;
DBUG_PRINT("rnd_next", ("rc=%d nrd=%u fnd=%u nfd=%u sec=%.3lf\n",
rc, (uint)xp->nrd, (uint)xp->fnd,
(uint)xp->nfd, elapsed));
htrc("rnd_next: rc=%d nrd=%u fnd=%u nfd=%u sec=%.3lf\n",
rc, (uint)xp->nrd, (uint)xp->fnd,
(uint)xp->nfd, elapsed);
xp->tb1= tb2;
xp->fnd= xp->nfd= 0;
} // endif nrd
table->status= (!rc) ? 0 : STATUS_NOT_FOUND;
DBUG_RETURN(rc);
} // end of rnd_next
/**
@brief
position() is called after each call to rnd_next() if the data needs
to be ordered. You can do something like the following to store
the position:
@code
my_store_ptr(ref, ref_length, current_position);
@endcode
@details
The server uses ref to store data. ref_length in the above case is
the size needed to store current_position. ref is just a byte array
that the server will maintain. If you are using offsets to mark rows, then
current_position should be the offset. If it is a primary key like in
BDB, then it needs to be a primary key.
Called from filesort.cc, sql_select.cc, sql_delete.cc, and sql_update.cc.
@see
filesort.cc, sql_select.cc, sql_delete.cc and sql_update.cc
*/
void ha_connect::position(const uchar *)
{
DBUG_ENTER("ha_connect::position");
my_store_ptr(ref, ref_length, (my_off_t)tdbp->GetRecpos());
if (trace > 1)
htrc("position: pos=%d\n", tdbp->GetRecpos());
DBUG_VOID_RETURN;
} // end of position
/**
@brief
This is like rnd_next, but you are given a position to use
to determine the row. The position will be of the type that you stored in
ref. You can use my_get_ptr(pos,ref_length) to retrieve whatever key
or position you saved when position() was called.
@details
Called from filesort.cc, records.cc, sql_insert.cc, sql_select.cc, and sql_update.cc.
@note
Is this really useful? It was never called even when sorting.
@see
filesort.cc, records.cc, sql_insert.cc, sql_select.cc and sql_update.cc
*/
int ha_connect::rnd_pos(uchar *buf, uchar *pos)
{
int rc;
//PTDBASE tp= (PTDBASE)tdbp;
DBUG_ENTER("ha_connect::rnd_pos");
if (!tdbp->SetRecpos(xp->g, (int)my_get_ptr(pos, ref_length))) {
if (trace)
htrc("rnd_pos: %d\n", tdbp->GetRecpos());
tdbp->SetFilter(NULL);
rc= rnd_next(buf);
} else
rc= HA_ERR_KEY_NOT_FOUND;
DBUG_RETURN(rc);
} // end of rnd_pos
/**
@brief
::info() is used to return information to the optimizer. See my_base.h for
the complete description.
@details
Currently this table handler doesn't implement most of the fields really needed.
SHOW also makes use of this data.
You will probably want to have the following in your code:
@code
if (records < 2)
records= 2;
@endcode
The reason is that the server will optimize for cases of only a single
record. If, in a table scan, you don't know the number of records, it
will probably be better to set records to two so you can return as many
records as you need. Along with records, a few more variables you may wish
to set are:
records
deleted
data_file_length
index_file_length
delete_length
check_time
Take a look at the public variables in handler.h for more information.
Called in filesort.cc, ha_heap.cc, item_sum.cc, opt_sum.cc, sql_delete.cc,
sql_delete.cc, sql_derived.cc, sql_select.cc, sql_select.cc, sql_select.cc,
sql_select.cc, sql_select.cc, sql_show.cc, sql_show.cc, sql_show.cc, sql_show.cc,
sql_table.cc, sql_union.cc, and sql_update.cc.
@see
filesort.cc, ha_heap.cc, item_sum.cc, opt_sum.cc, sql_delete.cc, sql_delete.cc,
sql_derived.cc, sql_select.cc, sql_select.cc, sql_select.cc, sql_select.cc,
sql_select.cc, sql_show.cc, sql_show.cc, sql_show.cc, sql_show.cc, sql_table.cc,
sql_union.cc and sql_update.cc
*/
int ha_connect::info(uint flag)
{
bool pure= false;
PGLOBAL g= GetPlug((table) ? table->in_use : NULL, xp);
DBUG_ENTER("ha_connect::info");
if (trace)
htrc("%p In info: flag=%u valid_info=%d\n", this, flag, valid_info);
// tdbp must be available to get updated info
if (xp->CheckQuery(valid_query_id) || !tdbp) {
PDBUSER dup= PlgGetUser(g);
PCATLG cat= (dup) ? dup->Catalog : NULL;
if (xmod == MODE_ANY || xmod == MODE_ALTER) {
// Pure info, not a query
pure= true;
xp->CheckCleanup();
} // endif xmod
// This is necessary for getting file length
if (table)
SetDataPath(g, table->s->db.str);
else
DBUG_RETURN(HA_ERR_INTERNAL_ERROR); // Should never happen
if (!(tdbp= GetTDB(g)))
DBUG_RETURN(HA_ERR_INTERNAL_ERROR); // Should never happen
valid_info = false;
} // endif tdbp
if (!valid_info) {
valid_info= CntInfo(g, tdbp, &xinfo);
if (((signed)xinfo.records) < 0)
DBUG_RETURN(HA_ERR_INITIALIZATION); // Error in Cardinality
} // endif valid_info
if (flag & HA_STATUS_VARIABLE) {
stats.records= xinfo.records;
stats.deleted= 0;
stats.data_file_length= xinfo.data_file_length;
stats.index_file_length= 0;
stats.delete_length= 0;
stats.check_time= 0;
stats.mean_rec_length= xinfo.mean_rec_length;
} // endif HA_STATUS_VARIABLE
if (flag & HA_STATUS_CONST) {
// This is imported from the previous handler and must be reconsidered
stats.max_data_file_length= 4294967295LL;
stats.max_index_file_length= 4398046510080LL;
stats.create_time= 0;
data_file_name= xinfo.data_file_name;
index_file_name= NULL;
// sortkey= (uint) - 1; // Table is not sorted
ref_length= sizeof(int); // Pointer size to row
table->s->db_options_in_use= 03;
stats.block_size= 1024;
table->s->keys_in_use.set_prefix(table->s->keys);
table->s->keys_for_keyread= table->s->keys_in_use;
// table->s->keys_for_keyread.subtract(table->s->read_only_keys);
table->s->db_record_offset= 0;
} // endif HA_STATUS_CONST
if (flag & HA_STATUS_ERRKEY) {
errkey= 0;
} // endif HA_STATUS_ERRKEY
if (flag & HA_STATUS_TIME)
stats.update_time= 0;
if (flag & HA_STATUS_AUTO)
stats.auto_increment_value= 1;
if (tdbp && pure)
CloseTable(g); // Not used anymore
DBUG_RETURN(0);
} // end of info
/**
@brief
extra() is called whenever the server wishes to send a hint to
the storage engine. The myisam engine implements the most hints.
ha_innodb.cc has the most exhaustive list of these hints.
@note
This is not yet implemented for CONNECT.
@see
ha_innodb.cc
*/
int ha_connect::extra(enum ha_extra_function /*operation*/)
{
DBUG_ENTER("ha_connect::extra");
DBUG_RETURN(0);
} // end of extra
/**
@brief
Used to delete all rows in a table, including cases of truncate and cases where
the optimizer realizes that all rows will be removed as a result of an SQL statement.
@details
Called from item_sum.cc by Item_func_group_concat::clear(),
Item_sum_count_distinct::clear(), and Item_func_group_concat::clear().
Called from sql_delete.cc by mysql_delete().
Called from sql_select.cc by JOIN::reinit().
Called from sql_union.cc by st_select_lex_unit::exec().
@see
Item_func_group_concat::clear(), Item_sum_count_distinct::clear() and
Item_func_group_concat::clear() in item_sum.cc;
mysql_delete() in sql_delete.cc;
JOIN::reinit() in sql_select.cc and
st_select_lex_unit::exec() in sql_union.cc.
*/
int ha_connect::delete_all_rows()
{
int rc= 0;
PGLOBAL g= xp->g;
DBUG_ENTER("ha_connect::delete_all_rows");
if (tdbp && tdbp->GetUse() == USE_OPEN &&
tdbp->GetAmType() != TYPE_AM_XML &&
tdbp->GetFtype() != RECFM_NAF)
// Close and reopen the table so it will be deleted
rc= CloseTable(g);
if (!(rc= OpenTable(g))) {
if (CntDeleteRow(g, tdbp, true)) {
htrc("%s\n", g->Message);
rc= HA_ERR_INTERNAL_ERROR;
} else
nox= false;
} // endif rc
DBUG_RETURN(rc);
} // end of delete_all_rows
bool ha_connect::check_privileges(THD *thd, PTOS options, char *dbn, bool quick)
{
const char *db= (dbn && *dbn) ? dbn : NULL;
TABTYPE type=GetRealType(options);
switch (type) {
case TAB_UNDEF:
// case TAB_CATLG:
case TAB_PLG:
case TAB_JCT:
case TAB_DMY:
case TAB_NIY:
my_printf_error(ER_UNKNOWN_ERROR,
"Unsupported table type %s", MYF(0), options->type);
return true;
case TAB_DOS:
case TAB_FIX:
case TAB_BIN:
case TAB_CSV:
case TAB_FMT:
case TAB_DBF:
case TAB_XML:
case TAB_INI:
case TAB_VEC:
case TAB_JSON:
if (options->filename && *options->filename) {
if (!quick) {
char *s, path[FN_REFLEN], dbpath[FN_REFLEN];
#if defined(__WIN__)
s= "\\";
#else // !__WIN__
s= "/";
#endif // !__WIN__
strcpy(dbpath, mysql_real_data_home);
if (db)
strcat(strcat(dbpath, db), s);
(void) fn_format(path, options->filename, dbpath, "",
MY_RELATIVE_PATH | MY_UNPACK_FILENAME);
if (!is_secure_file_path(path)) {
my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--secure-file-priv");
return true;
} // endif path
}
} else
return false;
/* Fall through to check FILE_ACL */
case TAB_ODBC:
case TAB_JDBC:
case TAB_MYSQL:
case TAB_DIR:
case TAB_MAC:
case TAB_WMI:
case TAB_ZIP:
case TAB_OEM:
#ifdef NO_EMBEDDED_ACCESS_CHECKS
return false;
#endif
/*
If table or table->mdl_ticket is NULL - it's a DLL, e.g. CREATE TABLE.
if the table has an MDL_EXCLUSIVE lock - it's a DDL too, e.g. the
insert step of CREATE ... SELECT.
Otherwise it's a DML, the table was normally opened, locked,
privilege were already checked, and table->grant.privilege is set.
With SQL SECURITY DEFINER, table->grant.privilege has definer's privileges.
Unless we're in prelocking mode, in this case table->grant.privilege
is only checked in start_stmt(), not in external_lock().
*/
if (!table || !table->mdl_ticket || table->mdl_ticket->get_type() == MDL_EXCLUSIVE)
return check_access(thd, FILE_ACL, db, NULL, NULL, 0, 0);
if ((!quick && thd->lex->requires_prelocking()) || table->grant.privilege & FILE_ACL)
return false;
status_var_increment(thd->status_var.access_denied_errors);
my_error(access_denied_error_code(thd->password), MYF(0),
thd->security_ctx->priv_user, thd->security_ctx->priv_host,
(thd->password ? ER(ER_YES) : ER(ER_NO)));
return true;
// This is temporary until a solution is found
case TAB_TBL:
case TAB_XCL:
case TAB_PRX:
case TAB_OCCUR:
case TAB_PIVOT:
case TAB_VIR:
return false;
} // endswitch type
my_printf_error(ER_UNKNOWN_ERROR, "check_privileges failed", MYF(0));
return true;
} // end of check_privileges
// Check that two indexes are equivalent
bool ha_connect::IsSameIndex(PIXDEF xp1, PIXDEF xp2)
{
bool b= true;
PKPDEF kp1, kp2;
if (stricmp(xp1->Name, xp2->Name))
b= false;
else if (xp1->Nparts != xp2->Nparts ||
xp1->MaxSame != xp2->MaxSame ||
xp1->Unique != xp2->Unique)
b= false;
else for (kp1= xp1->ToKeyParts, kp2= xp2->ToKeyParts;
b && (kp1 || kp2);
kp1= kp1->Next, kp2= kp2->Next)
if (!kp1 || !kp2)
b= false;
else if (stricmp(kp1->Name, kp2->Name))
b= false;
else if (kp1->Klen != kp2->Klen)
b= false;
return b;
} // end of IsSameIndex
MODE ha_connect::CheckMode(PGLOBAL g, THD *thd,
MODE newmode, bool *chk, bool *cras)
{
if (trace) {
LEX_STRING *query_string= thd_query_string(thd);
htrc("%p check_mode: cmdtype=%d\n", this, thd_sql_command(thd));
htrc("Cmd=%.*s\n", (int) query_string->length, query_string->str);
} // endif trace
// Next code is temporarily replaced until sql_command is set
stop= false;
if (newmode == MODE_WRITE) {
switch (thd_sql_command(thd)) {
case SQLCOM_LOCK_TABLES:
locked= 2;
case SQLCOM_CREATE_TABLE:
case SQLCOM_INSERT:
case SQLCOM_LOAD:
case SQLCOM_INSERT_SELECT:
newmode= MODE_INSERT;
break;
// case SQLCOM_REPLACE:
// case SQLCOM_REPLACE_SELECT:
// newmode= MODE_UPDATE; // To be checked
// break;
case SQLCOM_DELETE:
case SQLCOM_DELETE_MULTI:
case SQLCOM_TRUNCATE:
newmode= MODE_DELETE;
break;
case SQLCOM_UPDATE:
case SQLCOM_UPDATE_MULTI:
newmode= MODE_UPDATE;
break;
case SQLCOM_SELECT:
case SQLCOM_OPTIMIZE:
newmode= MODE_READ;
break;
case SQLCOM_FLUSH:
locked= 0;
case SQLCOM_DROP_TABLE:
case SQLCOM_RENAME_TABLE:
newmode= MODE_ANY;
break;
case SQLCOM_CREATE_VIEW:
case SQLCOM_DROP_VIEW:
newmode= MODE_ANY;
break;
case SQLCOM_ALTER_TABLE:
newmode= MODE_ALTER;
break;
case SQLCOM_DROP_INDEX:
case SQLCOM_CREATE_INDEX:
// if (!IsPartitioned()) {
newmode= MODE_ANY;
break;
// } // endif partitioned
default:
htrc("Unsupported sql_command=%d\n", thd_sql_command(thd));
strcpy(g->Message, "CONNECT Unsupported command");
my_message(ER_NOT_ALLOWED_COMMAND, g->Message, MYF(0));
newmode= MODE_ERROR;
break;
} // endswitch newmode
} else if (newmode == MODE_READ) {
switch (thd_sql_command(thd)) {
case SQLCOM_CREATE_TABLE:
*chk= true;
*cras= true;
case SQLCOM_INSERT:
case SQLCOM_LOAD:
case SQLCOM_INSERT_SELECT:
// case SQLCOM_REPLACE:
// case SQLCOM_REPLACE_SELECT:
case SQLCOM_DELETE:
case SQLCOM_DELETE_MULTI:
case SQLCOM_TRUNCATE:
case SQLCOM_UPDATE:
case SQLCOM_UPDATE_MULTI:
case SQLCOM_SELECT:
case SQLCOM_OPTIMIZE:
case SQLCOM_SET_OPTION:
break;
case SQLCOM_LOCK_TABLES:
locked= 1;
break;
case SQLCOM_DROP_TABLE:
case SQLCOM_RENAME_TABLE:
newmode= MODE_ANY;
break;
case SQLCOM_CREATE_VIEW:
case SQLCOM_DROP_VIEW:
newmode= MODE_ANY;
break;
case SQLCOM_ALTER_TABLE:
*chk= true;
newmode= MODE_ALTER;
break;
case SQLCOM_DROP_INDEX:
case SQLCOM_CREATE_INDEX:
// if (!IsPartitioned()) {
*chk= true;
newmode= MODE_ANY;
break;
// } // endif partitioned
case SQLCOM_END:
// Met in procedures: IF(EXISTS(SELECT...
newmode= MODE_READ;
break;
default:
htrc("Unsupported sql_command=%d\n", thd_sql_command(thd));
strcpy(g->Message, "CONNECT Unsupported command");
my_message(ER_NOT_ALLOWED_COMMAND, g->Message, MYF(0));
newmode= MODE_ERROR;
break;
} // endswitch newmode
} // endif's newmode
if (trace)
htrc("New mode=%d\n", newmode);
return newmode;
} // end of check_mode
int ha_connect::start_stmt(THD *thd, thr_lock_type lock_type)
{
int rc= 0;
bool chk=false, cras= false;
MODE newmode;
PGLOBAL g= GetPlug(thd, xp);
DBUG_ENTER("ha_connect::start_stmt");
if (check_privileges(thd, GetTableOptionStruct(), table->s->db.str, true))
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
// Action will depend on lock_type
switch (lock_type) {
case TL_WRITE_ALLOW_WRITE:
case TL_WRITE_CONCURRENT_INSERT:
case TL_WRITE_DELAYED:
case TL_WRITE_DEFAULT:
case TL_WRITE_LOW_PRIORITY:
case TL_WRITE:
case TL_WRITE_ONLY:
newmode= MODE_WRITE;
break;
case TL_READ:
case TL_READ_WITH_SHARED_LOCKS:
case TL_READ_HIGH_PRIORITY:
case TL_READ_NO_INSERT:
case TL_READ_DEFAULT:
newmode= MODE_READ;
break;
case TL_UNLOCK:
default:
newmode= MODE_ANY;
break;
} // endswitch mode
xmod= CheckMode(g, thd, newmode, &chk, &cras);
DBUG_RETURN((xmod == MODE_ERROR) ? HA_ERR_INTERNAL_ERROR : 0);
} // end of start_stmt
/**
@brief
This create a lock on the table. If you are implementing a storage engine
that can handle transacations look at ha_berkely.cc to see how you will
want to go about doing this. Otherwise you should consider calling flock()
here. Hint: Read the section "locking functions for mysql" in lock.cc to understand
this.
@details
Called from lock.cc by lock_external() and unlock_external(). Also called
from sql_table.cc by copy_data_between_tables().
@note
Following what we did in the MySQL XDB handler, we use this call to actually
physically open the table. This could be reconsider when finalizing this handler
design, which means we have a better understanding of what MariaDB does.
@see
lock.cc by lock_external() and unlock_external() in lock.cc;
the section "locking functions for mysql" in lock.cc;
copy_data_between_tables() in sql_table.cc.
*/
int ha_connect::external_lock(THD *thd, int lock_type)
{
int rc= 0;
bool xcheck=false, cras= false;
MODE newmode;
PTOS options= GetTableOptionStruct();
PGLOBAL g= GetPlug(thd, xp);
DBUG_ENTER("ha_connect::external_lock");
DBUG_ASSERT(thd == current_thd);
if (trace)
htrc("external_lock: this=%p thd=%p xp=%p g=%p lock_type=%d\n",
this, thd, xp, g, lock_type);
if (!g)
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
// Action will depend on lock_type
switch (lock_type) {
case F_WRLCK:
newmode= MODE_WRITE;
break;
case F_RDLCK:
newmode= MODE_READ;
break;
case F_UNLCK:
default:
newmode= MODE_ANY;
break;
} // endswitch mode
if (newmode == MODE_ANY) {
int sqlcom= thd_sql_command(thd);
// This is unlocking, do it by closing the table
if (xp->CheckQueryID() && sqlcom != SQLCOM_UNLOCK_TABLES
&& sqlcom != SQLCOM_LOCK_TABLES
&& sqlcom != SQLCOM_FLUSH
&& sqlcom != SQLCOM_BEGIN
&& sqlcom != SQLCOM_DROP_TABLE) {
sprintf(g->Message, "external_lock: unexpected command %d", sqlcom);
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
DBUG_RETURN(0);
} else if (g->Xchk) {
if (!tdbp) {
if (!(tdbp= GetTDB(g)))
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
else if (!tdbp->GetDef()->Indexable()) {
sprintf(g->Message, "external_lock: Table %s is not indexable", tdbp->GetName());
// DBUG_RETURN(HA_ERR_INTERNAL_ERROR); causes assert error
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
DBUG_RETURN(0);
} else if (tdbp->GetDef()->Indexable() == 1) {
bool oldsep= ((PCHK)g->Xchk)->oldsep;
bool newsep= ((PCHK)g->Xchk)->newsep;
PTDBDOS tdp= (PTDBDOS)tdbp;
PDOSDEF ddp= (PDOSDEF)tdp->GetDef();
PIXDEF xp, xp1, xp2, drp=NULL, adp= NULL;
PIXDEF oldpix= ((PCHK)g->Xchk)->oldpix;
PIXDEF newpix= ((PCHK)g->Xchk)->newpix;
PIXDEF *xlst, *xprc;
ddp->SetIndx(oldpix);
if (oldsep != newsep) {
// All indexes have to be remade
ddp->DeleteIndexFile(g, NULL);
oldpix= NULL;
ddp->SetIndx(NULL);
SetBooleanOption("Sepindex", newsep);
} else if (newsep) {
// Make the list of dropped indexes
xlst= &drp; xprc= &oldpix;
for (xp2= oldpix; xp2; xp2= xp) {
for (xp1= newpix; xp1; xp1= xp1->Next)
if (IsSameIndex(xp1, xp2))
break; // Index not to drop
xp= xp2->GetNext();
if (!xp1) {
*xlst= xp2;
*xprc= xp;
*(xlst= &xp2->Next)= NULL;
} else
xprc= &xp2->Next;
} // endfor xp2
if (drp) {
// Here we erase the index files
ddp->DeleteIndexFile(g, drp);
} // endif xp1
} else if (oldpix) {
// TODO: optimize the case of just adding new indexes
if (!newpix)
ddp->DeleteIndexFile(g, NULL);
oldpix= NULL; // To remake all indexes
ddp->SetIndx(NULL);
} // endif sepindex
// Make the list of new created indexes
xlst= &adp; xprc= &newpix;
for (xp1= newpix; xp1; xp1= xp) {
for (xp2= oldpix; xp2; xp2= xp2->Next)
if (IsSameIndex(xp1, xp2))
break; // Index already made
xp= xp1->Next;
if (!xp2) {
*xlst= xp1;
*xprc= xp;
*(xlst= &xp1->Next)= NULL;
} else
xprc= &xp1->Next;
} // endfor xp1
if (adp)
// Here we do make the new indexes
if (tdp->MakeIndex(g, adp, true) == RC_FX) {
// Make it a warning to avoid crash
push_warning(thd, Sql_condition::WARN_LEVEL_WARN,
0, g->Message);
rc= 0;
} // endif MakeIndex
} else if (tdbp->GetDef()->Indexable() == 3) {
if (CheckVirtualIndex(NULL)) {
// Make it a warning to avoid crash
push_warning(thd, Sql_condition::WARN_LEVEL_WARN,
0, g->Message);
rc= 0;
} // endif Check
} // endif indexable
} // endif Tdbp
} // endelse Xchk
if (CloseTable(g)) {
// This is an error while builing index
// Make it a warning to avoid crash
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
rc= 0;
} // endif Close
locked= 0;
xmod= MODE_ANY; // For info commands
DBUG_RETURN(rc);
} // endif MODE_ANY
else
if (check_privileges(thd, options, table->s->db.str)) {
strcpy(g->Message, "This operation requires the FILE privilege");
htrc("%s\n", g->Message);
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif check_privileges
DBUG_ASSERT(table && table->s);
// Table mode depends on the query type
newmode= CheckMode(g, thd, newmode, &xcheck, &cras);
if (newmode == MODE_ERROR)
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
// If this is the start of a new query, cleanup the previous one
if (xp->CheckCleanup()) {
tdbp= NULL;
valid_info= false;
} // endif CheckCleanup
#if 0
if (xcheck) {
// This must occur after CheckCleanup
if (!g->Xchk) {
g->Xchk= new(g) XCHK;
((PCHK)g->Xchk)->oldsep= GetBooleanOption("Sepindex", false);
((PCHK)g->Xchk)->oldpix= GetIndexInfo();
} // endif Xchk
} else
g->Xchk= NULL;
#endif // 0
if (cras)
g->Createas= 1; // To tell created table to ignore FLAG
if (trace) {
#if 0
htrc("xcheck=%d cras=%d\n", xcheck, cras);
if (xcheck)
htrc("oldsep=%d oldpix=%p\n",
((PCHK)g->Xchk)->oldsep, ((PCHK)g->Xchk)->oldpix);
#endif // 0
htrc("Calling CntCheckDB db=%s cras=%d\n", GetDBName(NULL), cras);
} // endif trace
// Set or reset the good database environment
if (CntCheckDB(g, this, GetDBName(NULL))) {
htrc("%p external_lock: %s\n", this, g->Message);
rc= HA_ERR_INTERNAL_ERROR;
// This can NOT be called without open called first, but
// the table can have been closed since then
} else if (!tdbp || xp->CheckQuery(valid_query_id) || xmod != newmode) {
if (tdbp) {
// If this is called by a later query, the table may have
// been already closed and the tdbp is not valid anymore.
if (xp->last_query_id == valid_query_id)
rc= CloseTable(g);
else
tdbp= NULL;
} // endif tdbp
xmod= newmode;
// Delay open until used fields are known
} // endif tdbp
if (trace)
htrc("external_lock: rc=%d\n", rc);
DBUG_RETURN(rc);
} // end of external_lock
/**
@brief
The idea with handler::store_lock() is: The statement decides which locks
should be needed for the table. For updates/deletes/inserts we get WRITE
locks, for SELECT... we get read locks.
@details
Before adding the lock into the table lock handler (see thr_lock.c),
mysqld calls store lock with the requested locks. Store lock can now
modify a write lock to a read lock (or some other lock), ignore the
lock (if we don't want to use MySQL table locks at all), or add locks
for many tables (like we do when we are using a MERGE handler).
Berkeley DB, for example, changes all WRITE locks to TL_WRITE_ALLOW_WRITE
(which signals that we are doing WRITES, but are still allowing other
readers and writers).
When releasing locks, store_lock() is also called. In this case one
usually doesn't have to do anything.
In some exceptional cases MySQL may send a request for a TL_IGNORE;
This means that we are requesting the same lock as last time and this
should also be ignored. (This may happen when someone does a flush
table when we have opened a part of the tables, in which case mysqld
closes and reopens the tables and tries to get the same locks at last
time). In the future we will probably try to remove this.
Called from lock.cc by get_lock_data().
@note
In this method one should NEVER rely on table->in_use, it may, in fact,
refer to a different thread! (this happens if get_lock_data() is called
from mysql_lock_abort_for_thread() function)
@see
get_lock_data() in lock.cc
*/
THR_LOCK_DATA **ha_connect::store_lock(THD *,
THR_LOCK_DATA **to,
enum thr_lock_type lock_type)
{
if (lock_type != TL_IGNORE && lock.type == TL_UNLOCK)
lock.type=lock_type;
*to++ = &lock;
return to;
}
/**
Searches for a pointer to the last occurrence of the
character c in the string src.
Returns true on failure, false on success.
*/
static bool
strnrchr(LEX_CSTRING *ls, const char *src, size_t length, int c)
{
const char *srcend, *s;
for (s= srcend= src + length; s > src; s--)
{
if (s[-1] == c)
{
ls->str= s;
ls->length= srcend - s;
return false;
}
}
return true;
}
/**
Split filename into database and table name.
*/
static bool
filename_to_dbname_and_tablename(const char *filename,
char *database, size_t database_size,
char *table, size_t table_size)
{
LEX_CSTRING d, t;
size_t length= strlen(filename);
/* Find filename - the rightmost directory part */
if (strnrchr(&t, filename, length, slash) || t.length + 1 > table_size)
return true;
memcpy(table, t.str, t.length);
table[t.length]= '\0';
if (!(length-= t.length))
return true;
length--; /* Skip slash */
/* Find database name - the second rightmost directory part */
if (strnrchr(&d, filename, length, slash) || d.length + 1 > database_size)
return true;
memcpy(database, d.str, d.length);
database[d.length]= '\0';
return false;
} // end of filename_to_dbname_and_tablename
/**
@brief
Used to delete or rename a table. By the time delete_table() has been
called all opened references to this table will have been closed
(and your globally shared references released) ===> too bad!!!
The variable name will just be the name of the table.
You will need to remove or rename any files you have created at
this point.
@details
If you do not implement this, the default delete_table() is called from
handler.cc and it will delete all files with the file extensions returned
by bas_ext().
Called from handler.cc by delete_table and ha_create_table(). Only used
during create if the table_flag HA_DROP_BEFORE_CREATE was specified for
the storage engine.
@see
delete_table and ha_create_table() in handler.cc
*/
int ha_connect::delete_or_rename_table(const char *name, const char *to)
{
DBUG_ENTER("ha_connect::delete_or_rename_table");
char db[128], tabname[128];
int rc= 0;
bool ok= false;
THD *thd= current_thd;
int sqlcom= thd_sql_command(thd);
if (trace) {
if (to)
htrc("rename_table: this=%p thd=%p sqlcom=%d from=%s to=%s\n",
this, thd, sqlcom, name, to);
else
htrc("delete_table: this=%p thd=%p sqlcom=%d name=%s\n",
this, thd, sqlcom, name);
} // endif trace
if (to && (filename_to_dbname_and_tablename(to, db, sizeof(db),
tabname, sizeof(tabname))
|| (*tabname == '#' && sqlcom == SQLCOM_CREATE_INDEX)))
DBUG_RETURN(0);
if (filename_to_dbname_and_tablename(name, db, sizeof(db),
tabname, sizeof(tabname))
|| (*tabname == '#' && sqlcom == SQLCOM_CREATE_INDEX))
DBUG_RETURN(0);
// If a temporary file exists, all the tests below were passed
// successfully when making it, so they are not needed anymore
// in particular because they sometimes cause DBUG_ASSERT crash.
// Also, for partitioned tables, no test can be done because when
// this function is called, the .par file is already deleted and
// this causes the open_table_def function to fail.
// Not having any other clues (table and table_share are NULL)
// the only mean we have to test for partitioning is this:
if (*tabname != '#' && !strstr(tabname, "#P#")) {
// We have to retrieve the information about this table options.
ha_table_option_struct *pos;
char key[MAX_DBKEY_LENGTH];
uint key_length;
TABLE_SHARE *share;
// if ((p= strstr(tabname, "#P#"))) won't work, see above
// *p= 0; // Get the main the table name
key_length= tdc_create_key(key, db, tabname);
// share contains the option struct that we need
if (!(share= alloc_table_share(db, tabname, key, key_length)))
DBUG_RETURN(rc);
// Get the share info from the .frm file
Dummy_error_handler error_handler;
thd->push_internal_handler(&error_handler);
bool got_error= open_table_def(thd, share);
thd->pop_internal_handler();
if (!got_error) {
// Now we can work
if ((pos= share->option_struct)) {
if (check_privileges(thd, pos, db))
rc= HA_ERR_INTERNAL_ERROR; // ???
else
if (IsFileType(GetRealType(pos)) && !pos->filename)
ok= true;
} // endif pos
} // endif open_table_def
free_table_share(share);
} else // Temporary file
ok= true;
if (ok) {
// Let the base handler do the job
if (to)
rc= handler::rename_table(name, to);
else if ((rc= handler::delete_table(name)) == ENOENT)
rc= 0; // No files is not an error for CONNECT
} // endif ok
DBUG_RETURN(rc);
} // end of delete_or_rename_table
int ha_connect::delete_table(const char *name)
{
return delete_or_rename_table(name, NULL);
} // end of delete_table
int ha_connect::rename_table(const char *from, const char *to)
{
return delete_or_rename_table(from, to);
} // end of rename_table
/**
@brief
Given a starting key and an ending key, estimate the number of rows that
will exist between the two keys.
@details
end_key may be empty, in which case determine if start_key matches any rows.
Called from opt_range.cc by check_quick_keys().
@see
check_quick_keys() in opt_range.cc
*/
ha_rows ha_connect::records_in_range(uint inx, key_range *min_key,
key_range *max_key)
{
ha_rows rows;
DBUG_ENTER("ha_connect::records_in_range");
if (indexing < 0 || inx != active_index)
if (index_init(inx, false))
DBUG_RETURN(HA_POS_ERROR);
if (trace)
htrc("records_in_range: inx=%d indexing=%d\n", inx, indexing);
if (indexing > 0) {
int nval;
uint len[2];
const uchar *key[2];
bool incl[2];
key_part_map kmap[2];
key[0]= (min_key) ? min_key->key : NULL;
key[1]= (max_key) ? max_key->key : NULL;
len[0]= (min_key) ? min_key->length : 0;
len[1]= (max_key) ? max_key->length : 0;
incl[0]= (min_key) ? (min_key->flag == HA_READ_KEY_EXACT) : false;
incl[1]= (max_key) ? (max_key->flag == HA_READ_AFTER_KEY) : false;
kmap[0]= (min_key) ? min_key->keypart_map : 0;
kmap[1]= (max_key) ? max_key->keypart_map : 0;
if ((nval= CntIndexRange(xp->g, tdbp, key, len, incl, kmap)) < 0)
rows= HA_POS_ERROR;
else
rows= (ha_rows)nval;
} else if (indexing == 0)
rows= 100000000; // Don't use missing index
else
rows= HA_POS_ERROR;
if (trace)
htrc("records_in_range: rows=%llu\n", rows);
DBUG_RETURN(rows);
} // end of records_in_range
// Used to check whether a MYSQL table is created on itself
bool CheckSelf(PGLOBAL g, TABLE_SHARE *s, const char *host,
const char *db, char *tab, const char *src, int port)
{
if (src)
return false;
else if (host && stricmp(host, "localhost") && strcmp(host, "127.0.0.1"))
return false;
else if (db && stricmp(db, s->db.str))
return false;
else if (tab && stricmp(tab, s->table_name.str))
return false;
else if (port && port != (signed)GetDefaultPort())
return false;
strcpy(g->Message, "This MySQL table is defined on itself");
return true;
} // end of CheckSelf
/**
Convert an ISO-8859-1 column name to UTF-8
*/
static char *encode(PGLOBAL g, const char *cnm)
{
char *buf= (char*)PlugSubAlloc(g, NULL, strlen(cnm) * 3);
uint dummy_errors;
uint32 len= copy_and_convert(buf, strlen(cnm) * 3,
&my_charset_utf8_general_ci,
cnm, strlen(cnm),
&my_charset_latin1,
&dummy_errors);
buf[len]= '\0';
return buf;
} // end of encode
/**
Store field definition for create.
@return
Return 0 if ok
*/
static bool add_field(String *sql, const char *field_name, int typ, int len,
int dec, char *key, uint tm, const char *rem, char *dft,
char *xtra, char *fmt, int flag, bool dbf, char v)
{
char var = (len > 255) ? 'V' : v;
bool q, error= false;
const char *type= PLGtoMYSQLtype(typ, dbf, var);
error|= sql->append('`');
error|= sql->append(field_name);
error|= sql->append("` ");
error|= sql->append(type);
if (len && typ != TYPE_DATE && (typ != TYPE_DOUBLE || dec >= 0)) {
error|= sql->append('(');
error|= sql->append_ulonglong(len);
if (typ == TYPE_DOUBLE) {
error|= sql->append(',');
// dec must be < len and < 31
error|= sql->append_ulonglong(MY_MIN(dec, (MY_MIN(len, 31) - 1)));
} else if (dec > 0 && !strcmp(type, "DECIMAL")) {
error|= sql->append(',');
// dec must be < len
error|= sql->append_ulonglong(MY_MIN(dec, len - 1));
} // endif dec
error|= sql->append(')');
} // endif len
if (v == 'U')
error|= sql->append(" UNSIGNED");
else if (v == 'Z')
error|= sql->append(" ZEROFILL");
if (key && *key) {
error|= sql->append(" ");
error|= sql->append(key);
} // endif key
if (tm)
error|= sql->append(STRING_WITH_LEN(" NOT NULL"), system_charset_info);
if (dft && *dft) {
error|= sql->append(" DEFAULT ");
if (typ == TYPE_DATE)
q = (strspn(dft, "0123456789 -:/") == strlen(dft));
else
q = !IsTypeNum(typ);
if (q) {
error|= sql->append("'");
error|= sql->append_for_single_quote(dft, strlen(dft));
error|= sql->append("'");
} else
error|= sql->append(dft);
} // endif dft
if (xtra && *xtra) {
error|= sql->append(" ");
error|= sql->append(xtra);
} // endif rem
if (rem && *rem) {
error|= sql->append(" COMMENT '");
error|= sql->append_for_single_quote(rem, strlen(rem));
error|= sql->append("'");
} // endif rem
if (fmt && *fmt) {
error|= sql->append(" FIELD_FORMAT='");
error|= sql->append_for_single_quote(fmt, strlen(fmt));
error|= sql->append("'");
} // endif flag
if (flag) {
error|= sql->append(" FLAG=");
error|= sql->append_ulonglong(flag);
} // endif flag
error|= sql->append(',');
return error;
} // end of add_field
/**
Initialise the table share with the new columns.
@return
Return 0 if ok
*/
static int init_table_share(THD* thd,
TABLE_SHARE *table_s,
HA_CREATE_INFO *create_info,
String *sql)
{
bool oom= false;
PTOS topt= table_s->option_struct;
sql->length(sql->length()-1); // remove the trailing comma
sql->append(')');
for (ha_create_table_option *opt= connect_table_option_list;
opt->name; opt++) {
ulonglong vull;
const char *vstr;
switch (opt->type) {
case HA_OPTION_TYPE_ULL:
vull= *(ulonglong*)(((char*)topt) + opt->offset);
if (vull != opt->def_value) {
oom|= sql->append(' ');
oom|= sql->append(opt->name);
oom|= sql->append('=');
oom|= sql->append_ulonglong(vull);
} // endif vull
break;
case HA_OPTION_TYPE_STRING:
vstr= *(char**)(((char*)topt) + opt->offset);
if (vstr) {
oom|= sql->append(' ');
oom|= sql->append(opt->name);
oom|= sql->append("='");
oom|= sql->append_for_single_quote(vstr, strlen(vstr));
oom|= sql->append('\'');
} // endif vstr
break;
case HA_OPTION_TYPE_BOOL:
vull= *(bool*)(((char*)topt) + opt->offset);
if (vull != opt->def_value) {
oom|= sql->append(' ');
oom|= sql->append(opt->name);
oom|= sql->append('=');
oom|= sql->append(vull ? "YES" : "NO");
} // endif vull
break;
default: // no enums here, good :)
break;
} // endswitch type
if (oom)
return HA_ERR_OUT_OF_MEM;
} // endfor opt
if (create_info->connect_string.length) {
oom|= sql->append(' ');
oom|= sql->append("CONNECTION='");
oom|= sql->append_for_single_quote(create_info->connect_string.str,
create_info->connect_string.length);
oom|= sql->append('\'');
if (oom)
return HA_ERR_OUT_OF_MEM;
} // endif string
if (create_info->default_table_charset) {
oom|= sql->append(' ');
oom|= sql->append("CHARSET=");
oom|= sql->append(create_info->default_table_charset->csname);
if (oom)
return HA_ERR_OUT_OF_MEM;
} // endif charset
if (trace)
htrc("s_init: %.*s\n", sql->length(), sql->ptr());
return table_s->init_from_sql_statement_string(thd, true,
sql->ptr(), sql->length());
} // end of init_table_share
/**
@brief
connect_assisted_discovery() is called when creating a table with no columns.
@details
When assisted discovery is used the .frm file have not already been
created. You can overwrite some definitions at this point but the
main purpose of it is to define the columns for some table types.
@note
this function is no more called in case of CREATE .. SELECT
*/
static int connect_assisted_discovery(handlerton *, THD* thd,
TABLE_SHARE *table_s,
HA_CREATE_INFO *create_info)
{
char v=0;
const char *fncn= "?";
const char *user, *fn, *db, *host, *pwd, *sep, *tbl, *src;
const char *col, *ocl, *rnk, *pic, *fcl, *skc, *zfn;
char *tab, *dsn, *shm, *dpath;
#if defined(__WIN__)
char *nsp= NULL, *cls= NULL;
#endif // __WIN__
//int hdr, mxe;
int port = 0, mxr = 0, rc = 0, mul = 0, lrecl = 0;
#if defined(ODBC_SUPPORT)
POPARM sop= NULL;
char *ucnc= NULL;
bool cnc= false;
int cto= -1, qto= -1;
#endif // ODBC_SUPPORT
#if defined(JDBC_SUPPORT)
PJPARM sjp= NULL;
char *driver= NULL;
char *url= NULL;
//char *prop= NULL;
char *tabtyp= NULL;
#endif // JDBC_SUPPORT
uint tm, fnc= FNC_NO, supfnc= (FNC_NO | FNC_COL);
bool bif, ok= false, dbf= false;
TABTYPE ttp= TAB_UNDEF;
PQRYRES qrp= NULL;
PCOLRES crp;
PCONNECT xp= NULL;
PGLOBAL g= GetPlug(thd, xp);
PDBUSER dup= PlgGetUser(g);
PCATLG cat= (dup) ? dup->Catalog : NULL;
PTOS topt= table_s->option_struct;
char buf[1024];
String sql(buf, sizeof(buf), system_charset_info);
sql.copy(STRING_WITH_LEN("CREATE TABLE whatever ("), system_charset_info);
if (!g)
return HA_ERR_INTERNAL_ERROR;
user= host= pwd= tbl= src= col= ocl= pic= fcl= skc= rnk= zfn= dsn= NULL;
// Get the useful create options
ttp= GetTypeID(topt->type);
fn= topt->filename;
tab= (char*)topt->tabname;
src= topt->srcdef;
db= topt->dbname;
fncn= topt->catfunc;
fnc= GetFuncID(fncn);
sep= topt->separator;
mul = (int)topt->multiple;
tbl= topt->tablist;
col= topt->colist;
if (topt->oplist) {
host= GetListOption(g, "host", topt->oplist, "localhost");
user= GetListOption(g, "user", topt->oplist,
(ttp == TAB_ODBC ? NULL : "root"));
// Default value db can come from the DBNAME=xxx option.
db= GetListOption(g, "database", topt->oplist, db);
col= GetListOption(g, "colist", topt->oplist, col);
ocl= GetListOption(g, "occurcol", topt->oplist, NULL);
pic= GetListOption(g, "pivotcol", topt->oplist, NULL);
fcl= GetListOption(g, "fnccol", topt->oplist, NULL);
skc= GetListOption(g, "skipcol", topt->oplist, NULL);
rnk= GetListOption(g, "rankcol", topt->oplist, NULL);
pwd= GetListOption(g, "password", topt->oplist);
#if defined(__WIN__)
nsp= GetListOption(g, "namespace", topt->oplist);
cls= GetListOption(g, "class", topt->oplist);
#endif // __WIN__
port= atoi(GetListOption(g, "port", topt->oplist, "0"));
#if defined(ODBC_SUPPORT)
mxr= atoi(GetListOption(g,"maxres", topt->oplist, "0"));
cto= atoi(GetListOption(g,"ConnectTimeout", topt->oplist, "-1"));
qto= atoi(GetListOption(g,"QueryTimeout", topt->oplist, "-1"));
if ((ucnc= GetListOption(g, "UseDSN", topt->oplist)))
cnc= (!*ucnc || *ucnc == 'y' || *ucnc == 'Y' || atoi(ucnc) != 0);
#endif
#if defined(JDBC_SUPPORT)
driver= GetListOption(g, "Driver", topt->oplist, NULL);
// url= GetListOption(g, "URL", topt->oplist, NULL);
// prop = GetListOption(g, "Properties", topt->oplist, NULL);
tabtyp = GetListOption(g, "Tabtype", topt->oplist, NULL);
#endif // JDBC_SUPPORT
#if defined(PROMPT_OK)
cop= atoi(GetListOption(g, "checkdsn", topt->oplist, "0"));
#endif // PROMPT_OK
#if defined(ZIP_SUPPORT)
zfn = GetListOption(g, "Zipfile", topt->oplist, NULL);
#endif // ZIP_SUPPORT
} else {
host= "localhost";
user= (ttp == TAB_ODBC ? NULL : "root");
} // endif option_list
if (!(shm= (char*)db))
db= table_s->db.str; // Default value
// Save stack and allocation environment and prepare error return
if (g->jump_level == MAX_JUMP) {
strcpy(g->Message, MSG(TOO_MANY_JUMPS));
goto jer;
} // endif jump_level
if ((rc= setjmp(g->jumper[++g->jump_level])) != 0) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif rc
// Check table type
if (ttp == TAB_UNDEF) {
topt->type= (src) ? "MYSQL" : (tab) ? "PROXY" : "DOS";
ttp= GetTypeID(topt->type);
sprintf(g->Message, "No table_type. Was set to %s", topt->type);
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
} else if (ttp == TAB_NIY) {
sprintf(g->Message, "Unsupported table type %s", topt->type);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif ttp
if (!tab) {
if (ttp == TAB_TBL) {
// Make tab the first table of the list
char *p;
if (!tbl) {
strcpy(g->Message, "Missing table list");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif tbl
tab= PlugDup(g, tbl);
if ((p= strchr(tab, ',')))
*p= 0;
if ((p=strchr(tab, '.'))) {
*p= 0;
db= tab;
tab= p + 1;
} // endif p
} else if (ttp != TAB_ODBC || !(fnc & (FNC_TABLE | FNC_COL)))
tab= table_s->table_name.str; // Default value
} // endif tab
switch (ttp) {
#if defined(ODBC_SUPPORT)
case TAB_ODBC:
dsn= strz(g, create_info->connect_string);
if (fnc & (FNC_DSN | FNC_DRIVER)) {
ok= true;
#if defined(PROMPT_OK)
} else if (!stricmp(thd->main_security_ctx.host, "localhost")
&& cop == 1) {
if ((dsn = ODBCCheckConnection(g, dsn, cop)) != NULL) {
thd->make_lex_string(&create_info->connect_string, dsn, strlen(dsn));
ok= true;
} // endif dsn
#endif // PROMPT_OK
} else if (!dsn) {
sprintf(g->Message, "Missing %s connection string", topt->type);
} else {
// Store ODBC additional parameters
sop= (POPARM)PlugSubAlloc(g, NULL, sizeof(ODBCPARM));
sop->User= (char*)user;
sop->Pwd= (char*)pwd;
sop->Cto= cto;
sop->Qto= qto;
sop->UseCnc= cnc;
ok= true;
} // endif's
supfnc |= (FNC_TABLE | FNC_DSN | FNC_DRIVER);
break;
#endif // ODBC_SUPPORT
#if defined(JDBC_SUPPORT)
case TAB_JDBC:
if (fnc & FNC_DRIVER) {
ok= true;
} else if (!(url= strz(g, create_info->connect_string))) {
strcpy(g->Message, "Missing URL");
} else {
// Store JDBC additional parameters
int rc;
PJDBCDEF jdef= new(g) JDBCDEF();
jdef->SetName(create_info->alias);
sjp= (PJPARM)PlugSubAlloc(g, NULL, sizeof(JDBCPARM));
sjp->Driver= driver;
// sjp->Properties = prop;
sjp->Fsize= 0;
sjp->Scrollable= false;
if ((rc = jdef->ParseURL(g, url, false)) == RC_OK) {
sjp->Url= url;
sjp->User= (char*)user;
sjp->Pwd= (char*)pwd;
ok= true;
} else if (rc == RC_NF) {
if (jdef->GetTabname())
tab= jdef->GetTabname();
ok= jdef->SetParms(sjp);
} // endif rc
} // endif's
supfnc |= (FNC_DRIVER | FNC_TABLE);
break;
#endif // JDBC_SUPPORT
case TAB_DBF:
dbf= true;
// Passthru
case TAB_CSV:
if (!fn && fnc != FNC_NO)
sprintf(g->Message, "Missing %s file name", topt->type);
else if (sep && strlen(sep) > 1)
sprintf(g->Message, "Invalid separator %s", sep);
else
ok= true;
break;
case TAB_MYSQL:
ok= true;
if (create_info->connect_string.str &&
create_info->connect_string.length) {
PMYDEF mydef= new(g) MYSQLDEF();
dsn= strz(g, create_info->connect_string);
mydef->SetName(create_info->alias);
if (!mydef->ParseURL(g, dsn, false)) {
if (mydef->GetHostname())
host= mydef->GetHostname();
if (mydef->GetUsername())
user= mydef->GetUsername();
if (mydef->GetPassword())
pwd= mydef->GetPassword();
if (mydef->GetTabschema())
db = mydef->GetTabschema();
if (mydef->GetTabname())
tab= mydef->GetTabname();
if (mydef->GetPortnumber())
port= mydef->GetPortnumber();
} else
ok= false;
} else if (!user)
user= "root";
if (ok && CheckSelf(g, table_s, host, db, tab, src, port))
ok= false;
break;
#if defined(__WIN__)
case TAB_WMI:
ok= true;
break;
#endif // __WIN__
#if defined(PIVOT_SUPPORT)
case TAB_PIVOT:
supfnc= FNC_NO;
#endif // PIVOT_SUPPORT
case TAB_PRX:
case TAB_TBL:
case TAB_XCL:
case TAB_OCCUR:
if (!src && !stricmp(tab, create_info->alias) &&
(!db || !stricmp(db, table_s->db.str)))
sprintf(g->Message, "A %s table cannot refer to itself", topt->type);
else
ok= true;
break;
case TAB_OEM:
if (topt->module && topt->subtype)
ok= true;
else
strcpy(g->Message, "Missing OEM module or subtype");
break;
#if defined(LIBXML2_SUPPORT) || defined(DOMDOC_SUPPORT)
case TAB_XML:
#endif // LIBXML2_SUPPORT || DOMDOC_SUPPORT
case TAB_JSON:
if (!fn && !zfn && !mul)
sprintf(g->Message, "Missing %s file name", topt->type);
else
ok= true;
break;
case TAB_VIR:
ok= true;
break;
default:
sprintf(g->Message, "Cannot get column info for table type %s", topt->type);
break;
} // endif ttp
// Check for supported catalog function
if (ok && !(supfnc & fnc)) {
sprintf(g->Message, "Unsupported catalog function %s for table type %s",
fncn, topt->type);
ok= false;
} // endif supfnc
if (src && fnc != FNC_NO) {
strcpy(g->Message, "Cannot make catalog table from srcdef");
ok= false;
} // endif src
if (ok) {
char *cnm, *rem, *dft, *xtra, *key, *fmt;
int i, len, prec, dec, typ, flg;
// if (cat)
// cat->SetDataPath(g, table_s->db.str);
// else
// return HA_ERR_INTERNAL_ERROR; // Should never happen
dpath= SetPath(g, table_s->db.str);
if (src && ttp != TAB_PIVOT && ttp != TAB_ODBC && ttp != TAB_JDBC) {
qrp= SrcColumns(g, host, db, user, pwd, src, port);
if (qrp && ttp == TAB_OCCUR)
if (OcrSrcCols(g, qrp, col, ocl, rnk)) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif OcrSrcCols
} else switch (ttp) {
case TAB_DBF:
qrp= DBFColumns(g, dpath, fn, fnc == FNC_COL);
break;
#if defined(ODBC_SUPPORT)
case TAB_ODBC:
switch (fnc) {
case FNC_NO:
case FNC_COL:
if (src) {
qrp= ODBCSrcCols(g, dsn, (char*)src, sop);
src= NULL; // for next tests
} else
qrp= ODBCColumns(g, dsn, shm, tab, NULL,
mxr, fnc == FNC_COL, sop);
break;
case FNC_TABLE:
qrp= ODBCTables(g, dsn, shm, tab, NULL, mxr, true, sop);
break;
case FNC_DSN:
qrp= ODBCDataSources(g, mxr, true);
break;
case FNC_DRIVER:
qrp= ODBCDrivers(g, mxr, true);
break;
default:
sprintf(g->Message, "invalid catfunc %s", fncn);
break;
} // endswitch info
break;
#endif // ODBC_SUPPORT
#if defined(JDBC_SUPPORT)
case TAB_JDBC:
switch (fnc) {
case FNC_NO:
case FNC_COL:
if (src) {
qrp= JDBCSrcCols(g, (char*)src, sjp);
src= NULL; // for next tests
} else
qrp= JDBCColumns(g, shm, tab, NULL, mxr, fnc == FNC_COL, sjp);
break;
case FNC_TABLE:
qrp= JDBCTables(g, shm, tab, tabtyp, mxr, true, sjp);
break;
#if 0
case FNC_DSN:
qrp= JDBCDataSources(g, mxr, true);
break;
#endif // 0
case FNC_DRIVER:
qrp= JDBCDrivers(g, mxr, true);
break;
default:
sprintf(g->Message, "invalid catfunc %s", fncn);
break;
} // endswitch info
break;
#endif // JDBC_SUPPORT
case TAB_MYSQL:
qrp= MyColumns(g, thd, host, db, user, pwd, tab,
NULL, port, fnc == FNC_COL);
break;
case TAB_CSV:
qrp = CSVColumns(g, dpath, topt, fnc == FNC_COL);
break;
#if defined(__WIN__)
case TAB_WMI:
qrp= WMIColumns(g, nsp, cls, fnc == FNC_COL);
break;
#endif // __WIN__
case TAB_PRX:
case TAB_TBL:
case TAB_XCL:
case TAB_OCCUR:
bif= fnc == FNC_COL;
qrp= TabColumns(g, thd, db, tab, bif);
if (!qrp && bif && fnc != FNC_COL) // tab is a view
qrp= MyColumns(g, thd, host, db, user, pwd, tab, NULL, port, false);
if (qrp && ttp == TAB_OCCUR && fnc != FNC_COL)
if (OcrColumns(g, qrp, col, ocl, rnk)) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif OcrColumns
break;
#if defined(PIVOT_SUPPORT)
case TAB_PIVOT:
qrp= PivotColumns(g, tab, src, pic, fcl, skc, host, db, user, pwd, port);
break;
#endif // PIVOT_SUPPORT
case TAB_VIR:
qrp= VirColumns(g, fnc == FNC_COL);
break;
case TAB_JSON:
qrp= JSONColumns(g, (char*)db, topt, fnc == FNC_COL);
break;
#if defined(LIBXML2_SUPPORT) || defined(DOMDOC_SUPPORT)
case TAB_XML:
qrp= XMLColumns(g, (char*)db, tab, topt, fnc == FNC_COL);
break;
#endif // LIBXML2_SUPPORT || DOMDOC_SUPPORT
case TAB_OEM:
qrp= OEMColumns(g, topt, tab, (char*)db, fnc == FNC_COL);
break;
default:
strcpy(g->Message, "System error during assisted discovery");
break;
} // endswitch ttp
if (!qrp) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif !qrp
if (fnc != FNC_NO || src || ttp == TAB_PIVOT) {
// Catalog like table
for (crp= qrp->Colresp; !rc && crp; crp= crp->Next) {
cnm= (ttp == TAB_PIVOT) ? crp->Name : encode(g, crp->Name);
typ= crp->Type;
len= crp->Length;
dec= crp->Prec;
flg= crp->Flag;
v= (crp->Kdata->IsUnsigned()) ? 'U' : crp->Var;
tm= (crp->Kdata->IsNullable()) ? 0 : NOT_NULL_FLAG;
if (!len && typ == TYPE_STRING)
len= 256; // STRBLK's have 0 length
// Now add the field
if (add_field(&sql, cnm, typ, len, dec, NULL, tm,
NULL, NULL, NULL, NULL, flg, dbf, v))
rc= HA_ERR_OUT_OF_MEM;
} // endfor crp
} else {
char *schem= NULL;
char *tn= NULL;
// Not a catalog table
if (!qrp->Nblin) {
if (tab)
sprintf(g->Message, "Cannot get columns from %s", tab);
else
strcpy(g->Message, "Fail to retrieve columns");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif !nblin
for (i= 0; !rc && i < qrp->Nblin; i++) {
typ= len= prec= dec= 0;
tm= NOT_NULL_FLAG;
cnm= (char*)"noname";
dft= xtra= key= fmt= tn= NULL;
v= ' ';
rem= NULL;
for (crp= qrp->Colresp; crp; crp= crp->Next)
switch (crp->Fld) {
case FLD_NAME:
if (ttp == TAB_PRX ||
(ttp == TAB_CSV && topt->data_charset &&
(!stricmp(topt->data_charset, "UTF8") ||
!stricmp(topt->data_charset, "UTF-8"))))
cnm= crp->Kdata->GetCharValue(i);
else
cnm= encode(g, crp->Kdata->GetCharValue(i));
break;
case FLD_TYPE:
typ= crp->Kdata->GetIntValue(i);
v = (crp->Nulls) ? crp->Nulls[i] : 0;
break;
case FLD_TYPENAME:
tn= crp->Kdata->GetCharValue(i);
break;
case FLD_PREC:
// PREC must be always before LENGTH
len= prec= crp->Kdata->GetIntValue(i);
break;
case FLD_LENGTH:
len= crp->Kdata->GetIntValue(i);
break;
case FLD_SCALE:
dec = (!crp->Kdata->IsNull(i)) ? crp->Kdata->GetIntValue(i) : -1;
break;
case FLD_NULL:
if (crp->Kdata->GetIntValue(i))
tm= 0; // Nullable
break;
case FLD_FORMAT:
fmt= (crp->Kdata) ? crp->Kdata->GetCharValue(i) : NULL;
break;
case FLD_REM:
rem= crp->Kdata->GetCharValue(i);
break;
// case FLD_CHARSET:
// No good because remote table is already translated
// if (*(csn= crp->Kdata->GetCharValue(i)))
// cs= get_charset_by_name(csn, 0);
// break;
case FLD_DEFAULT:
dft= crp->Kdata->GetCharValue(i);
break;
case FLD_EXTRA:
xtra= crp->Kdata->GetCharValue(i);
// Auto_increment is not supported yet
if (!stricmp(xtra, "AUTO_INCREMENT"))
xtra= NULL;
break;
case FLD_KEY:
if (ttp == TAB_VIR)
key= crp->Kdata->GetCharValue(i);
break;
case FLD_SCHEM:
#if defined(ODBC_SUPPORT) || defined(JDBC_SUPPORT)
if ((ttp == TAB_ODBC || ttp == TAB_JDBC) && crp->Kdata) {
if (schem && stricmp(schem, crp->Kdata->GetCharValue(i))) {
sprintf(g->Message,
"Several %s tables found, specify DBNAME", tab);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} else if (!schem)
schem= crp->Kdata->GetCharValue(i);
} // endif ttp
#endif // ODBC_SUPPORT || JDBC_SUPPORT
default:
break; // Ignore
} // endswitch Fld
#if defined(ODBC_SUPPORT)
if (ttp == TAB_ODBC) {
int plgtyp;
bool w= false; // Wide character type
// typ must be PLG type, not SQL type
if (!(plgtyp= TranslateSQLType(typ, dec, prec, v, w))) {
if (GetTypeConv() == TPC_SKIP) {
// Skip this column
sprintf(g->Message, "Column %s skipped (unsupported type %d)",
cnm, typ);
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
continue;
} else {
sprintf(g->Message, "Unsupported SQL type %d", typ);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif type_conv
} else
typ= plgtyp;
switch (typ) {
case TYPE_STRING:
if (w) {
sprintf(g->Message, "Column %s is wide characters", cnm);
push_warning(thd, Sql_condition::WARN_LEVEL_NOTE, 0, g->Message);
} // endif w
break;
case TYPE_DOUBLE:
// Some data sources do not count dec in length (prec)
prec += (dec + 2); // To be safe
break;
case TYPE_DECIM:
prec= len;
break;
default:
dec= 0;
} // endswitch typ
} else
#endif // ODBC_SUPPORT
#if defined(JDBC_SUPPORT)
if (ttp == TAB_JDBC) {
int plgtyp;
// typ must be PLG type, not SQL type
if (!(plgtyp= TranslateJDBCType(typ, tn, dec, prec, v))) {
if (GetTypeConv() == TPC_SKIP) {
// Skip this column
sprintf(g->Message, "Column %s skipped (unsupported type %d)",
cnm, typ);
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
continue;
} else {
sprintf(g->Message, "Unsupported SQL type %d", typ);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
goto err;
} // endif type_conv
} else
typ= plgtyp;
switch (typ) {
case TYPE_DOUBLE:
case TYPE_DECIM:
// Some data sources do not count dec in length (prec)
prec += (dec + 2); // To be safe
break;
default:
dec= 0;
} // endswitch typ
} else
#endif // ODBC_SUPPORT
// Make the arguments as required by add_fields
if (typ == TYPE_DOUBLE)
prec= len;
if (typ == TYPE_DATE)
prec= 0;
// Now add the field
if (add_field(&sql, cnm, typ, prec, dec, key, tm, rem, dft, xtra,
fmt, 0, dbf, v))
rc= HA_ERR_OUT_OF_MEM;
} // endfor i
} // endif fnc
if (!rc)
rc= init_table_share(thd, table_s, create_info, &sql);
g->jump_level--;
PopUser(xp);
return rc;
} // endif ok
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
err:
g->jump_level--;
jer:
PopUser(xp);
return HA_ERR_INTERNAL_ERROR;
} // end of connect_assisted_discovery
/**
Get the database name from a qualified table name.
*/
char *ha_connect::GetDBfromName(const char *name)
{
char *db, dbname[128], tbname[128];
if (filename_to_dbname_and_tablename(name, dbname, sizeof(dbname),
tbname, sizeof(tbname)))
*dbname= 0;
if (*dbname) {
assert(xp && xp->g);
db= (char*)PlugSubAlloc(xp->g, NULL, strlen(dbname + 1));
strcpy(db, dbname);
} else
db= NULL;
return db;
} // end of GetDBfromName
/**
@brief
create() is called to create a database. The variable name will have the name
of the table.
@details
When create() is called you do not need to worry about
opening the table. Also, the .frm file will have already been
created so adjusting create_info is not necessary. You can overwrite
the .frm file at this point if you wish to change the table
definition, but there are no methods currently provided for doing
so.
Called from handle.cc by ha_create_table().
@note
Currently we do some checking on the create definitions and stop
creating if an error is found. We wish we could change the table
definition such as providing a default table type. However, as said
above, there are no method to do so.
@see
ha_create_table() in handle.cc
*/
int ha_connect::create(const char *name, TABLE *table_arg,
HA_CREATE_INFO *create_info)
{
int rc= RC_OK;
bool dbf, inward;
Field* *field;
Field *fp;
TABTYPE type;
TABLE *st= table; // Probably unuseful
THD *thd= ha_thd();
#if defined(WITH_PARTITION_STORAGE_ENGINE)
partition_info *part_info= table_arg->part_info;
#endif // WITH_PARTITION_STORAGE_ENGINE
xp= GetUser(thd, xp);
PGLOBAL g= xp->g;
DBUG_ENTER("ha_connect::create");
/*
This assignment fixes test failures if some
"ALTER TABLE t1 ADD KEY(a)" query exits on ER_ACCESS_DENIED_ERROR
(e.g. on missing FILE_ACL). All following "CREATE TABLE" failed with
"ERROR 1105: CONNECT index modification should be in-place"
TODO: check with Olivier.
*/
g->Xchk= NULL;
int sqlcom= thd_sql_command(table_arg->in_use);
PTOS options= GetTableOptionStruct(table_arg->s);
table= table_arg; // Used by called functions
if (trace)
htrc("create: this=%p thd=%p xp=%p g=%p sqlcom=%d name=%s\n",
this, thd, xp, g, sqlcom, GetTableName());
// CONNECT engine specific table options:
DBUG_ASSERT(options);
type= GetTypeID(options->type);
// Check table type
if (type == TAB_UNDEF) {
options->type= (options->srcdef) ? "MYSQL" :
(options->tabname) ? "PROXY" : "DOS";
type= GetTypeID(options->type);
sprintf(g->Message, "No table_type. Will be set to %s", options->type);
if (sqlcom == SQLCOM_CREATE_TABLE)
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
} else if (type == TAB_NIY) {
sprintf(g->Message, "Unsupported table type %s", options->type);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif ttp
if (check_privileges(thd, options, GetDBfromName(name)))
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
inward= IsFileType(type) && !options->filename;
if (options->data_charset) {
const CHARSET_INFO *data_charset;
if (!(data_charset= get_charset_by_csname(options->data_charset,
MY_CS_PRIMARY, MYF(0)))) {
my_error(ER_UNKNOWN_CHARACTER_SET, MYF(0), options->data_charset);
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif charset
if (type == TAB_XML && data_charset != &my_charset_utf8_general_ci) {
my_printf_error(ER_UNKNOWN_ERROR,
"DATA_CHARSET='%s' is not supported for TABLE_TYPE=XML",
MYF(0), options->data_charset);
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif utf8
} // endif charset
if (!g) {
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} else
dbf= (GetTypeID(options->type) == TAB_DBF && !options->catfunc);
// Can be null in ALTER TABLE
if (create_info->alias)
// Check whether a table is defined on itself
switch (type) {
case TAB_PRX:
case TAB_XCL:
case TAB_PIVOT:
case TAB_OCCUR:
if (options->srcdef) {
strcpy(g->Message, "Cannot check looping reference");
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
} else if (options->tabname) {
if (!stricmp(options->tabname, create_info->alias) &&
(!options->dbname ||
!stricmp(options->dbname, table_arg->s->db.str))) {
sprintf(g->Message, "A %s table cannot refer to itself",
options->type);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif tab
} else {
strcpy(g->Message, "Missing object table name or definition");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif tabname
case TAB_MYSQL:
#if defined(WITH_PARTITION_STORAGE_ENGINE)
if (!part_info)
#endif // WITH_PARTITION_STORAGE_ENGINE
{const char *src= options->srcdef;
char *host, *db, *tab= (char*)options->tabname;
int port;
host= GetListOption(g, "host", options->oplist, NULL);
db= GetStringOption("database", NULL);
port= atoi(GetListOption(g, "port", options->oplist, "0"));
if (create_info->connect_string.str &&
create_info->connect_string.length) {
char *dsn= strz(g, create_info->connect_string);
PMYDEF mydef= new(g) MYSQLDEF();
mydef->SetName(create_info->alias);
if (!mydef->ParseURL(g, dsn, false)) {
if (mydef->GetHostname())
host= mydef->GetHostname();
if (mydef->GetTabschema())
db = mydef->GetTabschema();
if (mydef->GetTabname())
tab= mydef->GetTabname();
if (mydef->GetPortnumber())
port= mydef->GetPortnumber();
} else {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif ParseURL
} // endif connect_string
if (CheckSelf(g, table_arg->s, host, db, tab, src, port)) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif CheckSelf
}break;
default: /* do nothing */;
break;
} // endswitch ttp
if (type == TAB_XML) {
bool dom; // True: MS-DOM, False libxml2
char *xsup= GetListOption(g, "Xmlsup", options->oplist, "*");
// Note that if no support is specified, the default is MS-DOM
// on Windows and libxml2 otherwise
switch (*xsup) {
case '*':
#if defined(__WIN__)
dom= true;
#else // !__WIN__
dom= false;
#endif // !__WIN__
break;
case 'M':
case 'D':
dom= true;
break;
default:
dom= false;
break;
} // endswitch xsup
#if !defined(DOMDOC_SUPPORT)
if (dom) {
strcpy(g->Message, "MS-DOM not supported by this version");
xsup= NULL;
} // endif DomDoc
#endif // !DOMDOC_SUPPORT
#if !defined(LIBXML2_SUPPORT)
if (!dom) {
strcpy(g->Message, "libxml2 not supported by this version");
xsup= NULL;
} // endif Libxml2
#endif // !LIBXML2_SUPPORT
if (!xsup) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // endif xsup
} // endif type
if (type == TAB_JSON) {
int pretty= atoi(GetListOption(g, "Pretty", options->oplist, "2"));
if (!options->lrecl && pretty != 2) {
sprintf(g->Message, "LRECL must be specified for pretty=%d", pretty);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // endif lrecl
} // endif type JSON
if (type == TAB_CSV) {
const char *sep = options->separator;
if (sep && strlen(sep) > 1) {
sprintf(g->Message, "Invalid separator %s", sep);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // endif sep
} // endif type CSV
// Check column types
for (field= table_arg->field; *field; field++) {
fp= *field;
if (!fp->stored_in_db())
continue; // This is a virtual column
if (fp->flags & AUTO_INCREMENT_FLAG) {
strcpy(g->Message, "Auto_increment is not supported yet");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // endif flags
if (fp->flags & (BLOB_FLAG | ENUM_FLAG | SET_FLAG)) {
sprintf(g->Message, "Unsupported type for column %s",
fp->field_name);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // endif flags
if (type == TAB_VIR)
if (!fp->option_struct || !fp->option_struct->special) {
strcpy(g->Message, "Virtual tables accept only special or virtual columns");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // endif special
switch (fp->type()) {
case MYSQL_TYPE_SHORT:
case MYSQL_TYPE_LONG:
case MYSQL_TYPE_FLOAT:
case MYSQL_TYPE_DOUBLE:
case MYSQL_TYPE_TIMESTAMP:
case MYSQL_TYPE_DATE:
case MYSQL_TYPE_TIME:
case MYSQL_TYPE_DATETIME:
case MYSQL_TYPE_YEAR:
case MYSQL_TYPE_NEWDATE:
case MYSQL_TYPE_LONGLONG:
case MYSQL_TYPE_TINY:
case MYSQL_TYPE_DECIMAL:
case MYSQL_TYPE_NEWDECIMAL:
case MYSQL_TYPE_INT24:
break; // Ok
case MYSQL_TYPE_VARCHAR:
case MYSQL_TYPE_VAR_STRING:
case MYSQL_TYPE_STRING:
if (!fp->field_length) {
sprintf(g->Message, "Unsupported 0 length for column %s",
fp->field_name);
rc= HA_ERR_INTERNAL_ERROR;
my_printf_error(ER_UNKNOWN_ERROR,
"Unsupported 0 length for column %s",
MYF(0), fp->field_name);
DBUG_RETURN(rc);
} // endif fp
break; // To be checked
case MYSQL_TYPE_BIT:
case MYSQL_TYPE_NULL:
case MYSQL_TYPE_ENUM:
case MYSQL_TYPE_SET:
case MYSQL_TYPE_TINY_BLOB:
case MYSQL_TYPE_MEDIUM_BLOB:
case MYSQL_TYPE_LONG_BLOB:
case MYSQL_TYPE_BLOB:
case MYSQL_TYPE_GEOMETRY:
default:
// fprintf(stderr, "Unsupported type column %s\n", fp->field_name);
sprintf(g->Message, "Unsupported type for column %s",
fp->field_name);
rc= HA_ERR_INTERNAL_ERROR;
my_printf_error(ER_UNKNOWN_ERROR, "Unsupported type for column %s",
MYF(0), fp->field_name);
DBUG_RETURN(rc);
break;
} // endswitch type
if ((fp)->real_maybe_null() && !IsTypeNullable(type)) {
my_printf_error(ER_UNKNOWN_ERROR,
"Table type %s does not support nullable columns",
MYF(0), options->type);
DBUG_RETURN(HA_ERR_UNSUPPORTED);
} // endif !nullable
if (dbf) {
bool b= false;
if ((b= strlen(fp->field_name) > 10))
sprintf(g->Message, "DBF: Column name '%s' is too long (max=10)",
fp->field_name);
else if ((b= fp->field_length > 255))
sprintf(g->Message, "DBF: Column length too big for '%s' (max=255)",
fp->field_name);
if (b) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_INTERNAL_ERROR;
DBUG_RETURN(rc);
} // endif b
} // endif dbf
} // endfor field
if ((sqlcom == SQLCOM_CREATE_TABLE || *GetTableName() == '#') && inward) {
// The file name is not specified, create a default file in
// the database directory named table_name.table_type.
// (temporarily not done for XML because a void file causes
// the XML parsers to report an error on the first Insert)
char buf[_MAX_PATH], fn[_MAX_PATH], dbpath[_MAX_PATH], lwt[12];
int h;
// Check for incompatible options
if (options->sepindex) {
my_message(ER_UNKNOWN_ERROR,
"SEPINDEX is incompatible with unspecified file name", MYF(0));
DBUG_RETURN(HA_ERR_UNSUPPORTED);
} else if (GetTypeID(options->type) == TAB_VEC) {
if (!table->s->max_rows || options->split) {
my_printf_error(ER_UNKNOWN_ERROR,
"%s tables whose file name is unspecified cannot be split",
MYF(0), options->type);
DBUG_RETURN(HA_ERR_UNSUPPORTED);
} else if (options->header == 2) {
my_printf_error(ER_UNKNOWN_ERROR,
"header=2 is not allowed for %s tables whose file name is unspecified",
MYF(0), options->type);
DBUG_RETURN(HA_ERR_UNSUPPORTED);
} // endif's
} else if (options->zipped) {
my_message(ER_UNKNOWN_ERROR,
"ZIPPED is incompatible with unspecified file name", MYF(0));
DBUG_RETURN(HA_ERR_UNSUPPORTED);
} // endif's options
// Fold type to lower case
for (int i= 0; i < 12; i++)
if (!options->type[i]) {
lwt[i]= 0;
break;
} else
lwt[i]= tolower(options->type[i]);
#if defined(WITH_PARTITION_STORAGE_ENGINE)
if (part_info) {
char *p;
strcpy(dbpath, name);
p= strrchr(dbpath, slash);
strncpy(partname, ++p, sizeof(partname) - 1);
strcat(strcat(strcpy(buf, p), "."), lwt);
*p= 0;
} else {
#endif // WITH_PARTITION_STORAGE_ENGINE
strcat(strcat(strcpy(buf, GetTableName()), "."), lwt);
sprintf(g->Message, "No file name. Table will use %s", buf);
if (sqlcom == SQLCOM_CREATE_TABLE)
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
strcat(strcat(strcpy(dbpath, "./"), table->s->db.str), "/");
#if defined(WITH_PARTITION_STORAGE_ENGINE)
} // endif part_info
#endif // WITH_PARTITION_STORAGE_ENGINE
PlugSetPath(fn, buf, dbpath);
if ((h= ::open(fn, O_CREAT | O_EXCL, 0666)) == -1) {
if (errno == EEXIST)
sprintf(g->Message, "Default file %s already exists", fn);
else
sprintf(g->Message, "Error %d creating file %s", errno, fn);
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
} else
::close(h);
if ((type == TAB_FMT || options->readonly) && sqlcom == SQLCOM_CREATE_TABLE)
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0,
"Congratulation, you just created a read-only void table!");
} // endif sqlcom
if (trace)
htrc("xchk=%p createas=%d\n", g->Xchk, g->Createas);
if (options->zipped) {
// Check whether the zip entry must be made from a file
char *fn = GetListOption(g, "Load", options->oplist, NULL);
if (fn) {
char zbuf[_MAX_PATH], buf[_MAX_PATH], dbpath[_MAX_PATH];
char *entry = GetListOption(g, "Entry", options->oplist, NULL);
char *a = GetListOption(g, "Append", options->oplist, "NO");
bool append = *a == '1' || *a == 'Y' || *a == 'y' || !stricmp(a, "ON");
char *m = GetListOption(g, "Mulentries", options->oplist, "NO");
bool mul = *m == '1' || *m == 'Y' || *m == 'y' || !stricmp(m, "ON");
if (!entry && !mul) {
my_message(ER_UNKNOWN_ERROR, "Missing entry name", MYF(0));
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif entry
strcat(strcat(strcpy(dbpath, "./"), table->s->db.str), "/");
PlugSetPath(zbuf, options->filename, dbpath);
PlugSetPath(buf, fn, dbpath);
if (ZipLoadFile(g, zbuf, buf, entry, append, mul)) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif LoadFile
} // endif fn
} // endif zipped
// To check whether indexes have to be made or remade
if (!g->Xchk) {
PIXDEF xdp;
// We should be in CREATE TABLE, ALTER_TABLE or CREATE INDEX
if (!(sqlcom == SQLCOM_CREATE_TABLE || sqlcom == SQLCOM_ALTER_TABLE ||
sqlcom == SQLCOM_CREATE_INDEX || sqlcom == SQLCOM_DROP_INDEX))
// (sqlcom == SQLCOM_CREATE_INDEX && part_info) ||
// (sqlcom == SQLCOM_DROP_INDEX && part_info)))
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0,
"Unexpected command in create, please contact CONNECT team");
#if defined(WITH_PARTITION_STORAGE_ENGINE)
if (part_info && !inward)
strncpy(partname, decode(g, strrchr(name, '#') + 1), sizeof(partname) - 1);
// strcpy(partname, part_info->curr_part_elem->partition_name);
#endif // WITH_PARTITION_STORAGE_ENGINE
if (g->Alchecked == 0 &&
(!IsFileType(type) || FileExists(options->filename, false))) {
if (part_info) {
sprintf(g->Message, "Data repartition in %s is unchecked", partname);
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0, g->Message);
} else if (sqlcom == SQLCOM_ALTER_TABLE) {
// This is an ALTER to CONNECT from another engine.
// It cannot be accepted because the table data would be modified
// except when the target file does not exist.
strcpy(g->Message, "Operation denied. Table data would be modified.");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
} // endif part_info
} // endif outward
// Get the index definitions
if ((xdp= GetIndexInfo()) || sqlcom == SQLCOM_DROP_INDEX) {
if (options->multiple) {
strcpy(g->Message, "Multiple tables are not indexable");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_UNSUPPORTED;
} else if (options->compressed) {
strcpy(g->Message, "Compressed tables are not indexable");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_UNSUPPORTED;
} else if (GetIndexType(type) == 1) {
PDBUSER dup= PlgGetUser(g);
PCATLG cat= (dup) ? dup->Catalog : NULL;
SetDataPath(g, table_arg->s->db.str);
if (cat) {
// cat->SetDataPath(g, table_arg->s->db.str);
#if defined(WITH_PARTITION_STORAGE_ENGINE)
if (part_info)
strncpy(partname,
decode(g, strrchr(name, (inward ? slash : '#')) + 1),
sizeof(partname) - 1);
#endif // WITH_PARTITION_STORAGE_ENGINE
if ((rc= optimize(table->in_use, NULL))) {
htrc("Create rc=%d %s\n", rc, g->Message);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_INTERNAL_ERROR;
} else
CloseTable(g);
} // endif cat
} else if (GetIndexType(type) == 3) {
if (CheckVirtualIndex(table_arg->s)) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_UNSUPPORTED;
} // endif Check
} else if (!GetIndexType(type)) {
sprintf(g->Message, "Table type %s is not indexable", options->type);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
rc= HA_ERR_UNSUPPORTED;
} // endif index type
} // endif xdp
} else {
// This should not happen anymore with indexing new way
my_message(ER_UNKNOWN_ERROR,
"CONNECT index modification should be in-place", MYF(0));
DBUG_RETURN(HA_ERR_UNSUPPORTED);
} // endif Xchk
table= st;
DBUG_RETURN(rc);
} // end of create
/**
Used to check whether a file based outward table can be populated by
an ALTER TABLE command. The conditions are:
- file does not exist or is void
- user has file privilege
*/
bool ha_connect::FileExists(const char *fn, bool bf)
{
if (!fn || !*fn)
return false;
else if (IsPartitioned() && bf)
return true;
if (table) {
char *s, tfn[_MAX_PATH], filename[_MAX_PATH], path[_MAX_PATH];
bool b= false;
int n;
struct stat info;
#if defined(__WIN__)
s= "\\";
#else // !__WIN__
s= "/";
#endif // !__WIN__
if (IsPartitioned()) {
sprintf(tfn, fn, GetPartName());
// This is to avoid an initialization error raised by the
// test on check_table_flags made in ha_partition::open
// that can fail if some partition files are empty.
b= true;
} else
strcpy(tfn, fn);
strcat(strcat(strcat(strcpy(path, "."), s), table->s->db.str), s);
PlugSetPath(filename, tfn, path);
n= stat(filename, &info);
if (n < 0) {
if (errno != ENOENT) {
char buf[_MAX_PATH + 20];
sprintf(buf, "Error %d for file %s", errno, filename);
push_warning(table->in_use, Sql_condition::WARN_LEVEL_WARN, 0, buf);
return true;
} else
return false;
} else
return (info.st_size || b) ? true : false;
} // endif table
return true;
} // end of FileExists
// Called by SameString and NoFieldOptionChange
bool ha_connect::CheckString(const char *str1, const char *str2)
{
bool b1= (!str1 || !*str1), b2= (!str2 || !*str2);
if (b1 && b2)
return true;
else if ((b1 && !b2) || (!b1 && b2) || stricmp(str1, str2))
return false;
return true;
} // end of CheckString
/**
check whether a string option have changed
*/
bool ha_connect::SameString(TABLE *tab, char *opn)
{
char *str1, *str2;
tshp= tab->s; // The altered table
str1= GetStringOption(opn);
tshp= NULL;
str2= GetStringOption(opn);
return CheckString(str1, str2);
} // end of SameString
/**
check whether a Boolean option have changed
*/
bool ha_connect::SameBool(TABLE *tab, char *opn)
{
bool b1, b2;
tshp= tab->s; // The altered table
b1= GetBooleanOption(opn, false);
tshp= NULL;
b2= GetBooleanOption(opn, false);
return (b1 == b2);
} // end of SameBool
/**
check whether an integer option have changed
*/
bool ha_connect::SameInt(TABLE *tab, char *opn)
{
int i1, i2;
tshp= tab->s; // The altered table
i1= GetIntegerOption(opn);
tshp= NULL;
i2= GetIntegerOption(opn);
if (!stricmp(opn, "lrecl"))
return (i1 == i2 || !i1 || !i2);
else if (!stricmp(opn, "ending"))
return (i1 == i2 || i1 <= 0 || i2 <= 0);
else
return (i1 == i2);
} // end of SameInt
/**
check whether a field option have changed
*/
bool ha_connect::NoFieldOptionChange(TABLE *tab)
{
bool rc= true;
ha_field_option_struct *fop1, *fop2;
Field* *fld1= table->s->field;
Field* *fld2= tab->s->field;
for (; rc && *fld1 && *fld2; fld1++, fld2++) {
fop1= (*fld1)->option_struct;
fop2= (*fld2)->option_struct;
rc= (fop1->offset == fop2->offset &&
fop1->fldlen == fop2->fldlen &&
CheckString(fop1->dateformat, fop2->dateformat) &&
CheckString(fop1->fieldformat, fop2->fieldformat) &&
CheckString(fop1->special, fop2->special));
} // endfor fld
return rc;
} // end of NoFieldOptionChange
/**
Check if a storage engine supports a particular alter table in-place
@param altered_table TABLE object for new version of table.
@param ha_alter_info Structure describing changes to be done
by ALTER TABLE and holding data used
during in-place alter.
@retval HA_ALTER_ERROR Unexpected error.
@retval HA_ALTER_INPLACE_NOT_SUPPORTED Not supported, must use copy.
@retval HA_ALTER_INPLACE_EXCLUSIVE_LOCK Supported, but requires X lock.
@retval HA_ALTER_INPLACE_SHARED_LOCK_AFTER_PREPARE
Supported, but requires SNW lock
during main phase. Prepare phase
requires X lock.
@retval HA_ALTER_INPLACE_SHARED_LOCK Supported, but requires SNW lock.
@retval HA_ALTER_INPLACE_NO_LOCK_AFTER_PREPARE
Supported, concurrent reads/writes
allowed. However, prepare phase
requires X lock.
@retval HA_ALTER_INPLACE_NO_LOCK Supported, concurrent
reads/writes allowed.
@note The default implementation uses the old in-place ALTER API
to determine if the storage engine supports in-place ALTER or not.
@note Called without holding thr_lock.c lock.
*/
enum_alter_inplace_result
ha_connect::check_if_supported_inplace_alter(TABLE *altered_table,
Alter_inplace_info *ha_alter_info)
{
DBUG_ENTER("check_if_supported_alter");
bool idx= false, outward= false;
THD *thd= ha_thd();
int sqlcom= thd_sql_command(thd);
TABTYPE newtyp, type= TAB_UNDEF;
HA_CREATE_INFO *create_info= ha_alter_info->create_info;
PTOS newopt, oldopt;
xp= GetUser(thd, xp);
PGLOBAL g= xp->g;
if (!g || !table) {
my_message(ER_UNKNOWN_ERROR, "Cannot check ALTER operations", MYF(0));
DBUG_RETURN(HA_ALTER_ERROR);
} // endif Xchk
newopt= altered_table->s->option_struct;
oldopt= table->s->option_struct;
// If this is the start of a new query, cleanup the previous one
if (xp->CheckCleanup()) {
tdbp= NULL;
valid_info= false;
} // endif CheckCleanup
g->Alchecked= 1; // Tested in create
g->Xchk= NULL;
type= GetRealType(oldopt);
newtyp= GetRealType(newopt);
// No copy algorithm for outward tables
outward= (!IsFileType(type) || (oldopt->filename && *oldopt->filename));
// Index operations
Alter_inplace_info::HA_ALTER_FLAGS index_operations=
Alter_inplace_info::ADD_INDEX |
Alter_inplace_info::DROP_INDEX |
Alter_inplace_info::ADD_UNIQUE_INDEX |
Alter_inplace_info::DROP_UNIQUE_INDEX |
Alter_inplace_info::ADD_PK_INDEX |
Alter_inplace_info::DROP_PK_INDEX;
Alter_inplace_info::HA_ALTER_FLAGS inplace_offline_operations=
Alter_inplace_info::ALTER_COLUMN_EQUAL_PACK_LENGTH |
Alter_inplace_info::ALTER_COLUMN_NAME |
Alter_inplace_info::ALTER_COLUMN_DEFAULT |
Alter_inplace_info::CHANGE_CREATE_OPTION |
Alter_inplace_info::ALTER_RENAME |
Alter_inplace_info::ALTER_PARTITIONED | index_operations;
if (ha_alter_info->handler_flags & index_operations ||
!SameString(altered_table, "optname") ||
!SameBool(altered_table, "sepindex")) {
if (newopt->multiple) {
strcpy(g->Message, "Multiple tables are not indexable");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ALTER_ERROR);
} else if (newopt->compressed) {
strcpy(g->Message, "Compressed tables are not indexable");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ALTER_ERROR);
} else if (GetIndexType(type) == 1) {
g->Xchk= new(g) XCHK;
PCHK xcp= (PCHK)g->Xchk;
xcp->oldpix= GetIndexInfo(table->s);
xcp->newpix= GetIndexInfo(altered_table->s);
xcp->oldsep= GetBooleanOption("sepindex", false);
xcp->oldsep= xcp->SetName(g, GetStringOption("optname"));
tshp= altered_table->s;
xcp->newsep= GetBooleanOption("sepindex", false);
xcp->newsep= xcp->SetName(g, GetStringOption("optname"));
tshp= NULL;
if (trace && g->Xchk)
htrc(
"oldsep=%d newsep=%d oldopn=%s newopn=%s oldpix=%p newpix=%p\n",
xcp->oldsep, xcp->newsep,
SVP(xcp->oldopn), SVP(xcp->newopn),
xcp->oldpix, xcp->newpix);
if (sqlcom == SQLCOM_ALTER_TABLE)
idx= true;
else
DBUG_RETURN(HA_ALTER_INPLACE_EXCLUSIVE_LOCK);
} else if (GetIndexType(type) == 3) {
if (CheckVirtualIndex(altered_table->s)) {
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ALTER_ERROR);
} // endif Check
} else if (!GetIndexType(type)) {
sprintf(g->Message, "Table type %s is not indexable", oldopt->type);
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ALTER_ERROR);
} // endif index type
} // endif index operation
if (!SameString(altered_table, "filename")) {
if (!outward) {
// Conversion to outward table is only allowed for file based
// tables whose file does not exist.
tshp= altered_table->s;
char *fn= GetStringOption("filename");
tshp= NULL;
if (FileExists(fn, false)) {
strcpy(g->Message, "Operation denied. Table data would be lost.");
my_message(ER_UNKNOWN_ERROR, g->Message, MYF(0));
DBUG_RETURN(HA_ALTER_ERROR);
} else
goto fin;
} else
goto fin;
} // endif filename
/* Is there at least one operation that requires copy algorithm? */
if (ha_alter_info->handler_flags & ~inplace_offline_operations)
goto fin;
/*
ALTER TABLE tbl_name CONVERT TO CHARACTER SET .. and
ALTER TABLE table_name DEFAULT CHARSET = .. most likely
change column charsets and so not supported in-place through
old API.
Changing of PACK_KEYS, MAX_ROWS and ROW_FORMAT options were
not supported as in-place operations in old API either.
*/
if (create_info->used_fields & (HA_CREATE_USED_CHARSET |
HA_CREATE_USED_DEFAULT_CHARSET |
HA_CREATE_USED_PACK_KEYS |
HA_CREATE_USED_MAX_ROWS) ||
(table->s->row_type != create_info->row_type))
goto fin;
#if 0
uint table_changes= (ha_alter_info->handler_flags &
Alter_inplace_info::ALTER_COLUMN_EQUAL_PACK_LENGTH) ?
IS_EQUAL_PACK_LENGTH : IS_EQUAL_YES;
if (table->file->check_if_incompatible_data(create_info, table_changes)
== COMPATIBLE_DATA_YES)
DBUG_RETURN(HA_ALTER_INPLACE_EXCLUSIVE_LOCK);
#endif // 0
// This was in check_if_incompatible_data
if (NoFieldOptionChange(altered_table) &&
type == newtyp &&
SameInt(altered_table, "lrecl") &&
SameInt(altered_table, "elements") &&
SameInt(altered_table, "header") &&
SameInt(altered_table, "quoted") &&
SameInt(altered_table, "ending") &&
SameInt(altered_table, "compressed"))
DBUG_RETURN(HA_ALTER_INPLACE_EXCLUSIVE_LOCK);
fin:
if (idx) {
// Indexing is only supported inplace
my_message(ER_ALTER_OPERATION_NOT_SUPPORTED,
"Alter operations not supported together by CONNECT", MYF(0));
DBUG_RETURN(HA_ALTER_ERROR);
} else if (outward) {
if (IsFileType(type))
push_warning(thd, Sql_condition::WARN_LEVEL_WARN, 0,
"This is an outward table, table data were not modified.");
DBUG_RETURN(HA_ALTER_INPLACE_EXCLUSIVE_LOCK);
} else
DBUG_RETURN(HA_ALTER_INPLACE_NOT_SUPPORTED);
} // end of check_if_supported_inplace_alter
/**
check_if_incompatible_data() called if ALTER TABLE can't detect otherwise
if new and old definition are compatible
@details If there are no other explicit signs like changed number of
fields this function will be called by compare_tables()
(sql/sql_tables.cc) to decide should we rewrite whole table or only .frm
file.
@note: This function is no more called by check_if_supported_inplace_alter
*/
bool ha_connect::check_if_incompatible_data(HA_CREATE_INFO *, uint)
{
DBUG_ENTER("ha_connect::check_if_incompatible_data");
// TO DO: really implement and check it.
push_warning(ha_thd(), Sql_condition::WARN_LEVEL_WARN, 0,
"Unexpected call to check_if_incompatible_data.");
DBUG_RETURN(COMPATIBLE_DATA_NO);
} // end of check_if_incompatible_data
/****************************************************************************
* CONNECT MRR implementation: use DS-MRR
This is just copied from myisam
***************************************************************************/
int ha_connect::multi_range_read_init(RANGE_SEQ_IF *seq, void *seq_init_param,
uint n_ranges, uint mode,
HANDLER_BUFFER *buf)
{
return ds_mrr.dsmrr_init(this, seq, seq_init_param, n_ranges, mode, buf);
} // end of multi_range_read_init
int ha_connect::multi_range_read_next(range_id_t *range_info)
{
return ds_mrr.dsmrr_next(range_info);
} // end of multi_range_read_next
ha_rows ha_connect::multi_range_read_info_const(uint keyno, RANGE_SEQ_IF *seq,
void *seq_init_param,
uint n_ranges, uint *bufsz,
uint *flags, Cost_estimate *cost)
{
/*
This call is here because there is no location where this->table would
already be known.
TODO: consider moving it into some per-query initialization call.
*/
ds_mrr.init(this, table);
// MMR is implemented for "local" file based tables only
if (!IsFileType(GetRealType(GetTableOptionStruct())))
*flags|= HA_MRR_USE_DEFAULT_IMPL;
ha_rows rows= ds_mrr.dsmrr_info_const(keyno, seq, seq_init_param, n_ranges,
bufsz, flags, cost);
xp->g->Mrr= !(*flags & HA_MRR_USE_DEFAULT_IMPL);
return rows;
} // end of multi_range_read_info_const
ha_rows ha_connect::multi_range_read_info(uint keyno, uint n_ranges, uint keys,
uint key_parts, uint *bufsz,
uint *flags, Cost_estimate *cost)
{
ds_mrr.init(this, table);
// MMR is implemented for "local" file based tables only
if (!IsFileType(GetRealType(GetTableOptionStruct())))
*flags|= HA_MRR_USE_DEFAULT_IMPL;
ha_rows rows= ds_mrr.dsmrr_info(keyno, n_ranges, keys, key_parts, bufsz,
flags, cost);
xp->g->Mrr= !(*flags & HA_MRR_USE_DEFAULT_IMPL);
return rows;
} // end of multi_range_read_info
int ha_connect::multi_range_read_explain_info(uint mrr_mode, char *str,
size_t size)
{
return ds_mrr.dsmrr_explain_info(mrr_mode, str, size);
} // end of multi_range_read_explain_info
/* CONNECT MRR implementation ends */
#if 0
// Does this make sens for CONNECT?
Item *ha_connect::idx_cond_push(uint keyno_arg, Item* idx_cond_arg)
{
pushed_idx_cond_keyno= keyno_arg;
pushed_idx_cond= idx_cond_arg;
in_range_check_pushed_down= TRUE;
if (active_index == pushed_idx_cond_keyno)
mi_set_index_cond_func(file, handler_index_cond_check, this);
return NULL;
}
#endif // 0
struct st_mysql_storage_engine connect_storage_engine=
{ MYSQL_HANDLERTON_INTERFACE_VERSION };
/***********************************************************************/
/* CONNECT global variables definitions. */
/***********************************************************************/
#if defined(XMAP)
// Using file mapping for indexes if true
static MYSQL_SYSVAR_BOOL(indx_map, xmap, PLUGIN_VAR_RQCMDARG,
"Using file mapping for indexes", NULL, NULL, 0);
#endif // XMAP
#if defined(XMSG)
static MYSQL_SYSVAR_STR(errmsg_dir_path, msg_path,
// PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Path to the directory where are the message files",
// check_msg_path, update_msg_path,
NULL, NULL,
"../../../../storage/connect/"); // for testing
#endif // XMSG
#if defined(JDBC_SUPPORT)
static MYSQL_SYSVAR_STR(jvm_path, JvmPath,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC,
"Path to the directory where is the JVM lib",
// check_jvm_path, update_jvm_path,
NULL, NULL, NULL);
static MYSQL_SYSVAR_STR(class_path, ClassPath,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC,
"Java class path",
// check_class_path, update_class_path,
NULL, NULL, NULL);
#endif // JDBC_SUPPORT
static struct st_mysql_sys_var* connect_system_variables[]= {
MYSQL_SYSVAR(xtrace),
MYSQL_SYSVAR(conv_size),
MYSQL_SYSVAR(type_conv),
#if defined(XMAP)
MYSQL_SYSVAR(indx_map),
#endif // XMAP
MYSQL_SYSVAR(work_size),
MYSQL_SYSVAR(use_tempfile),
MYSQL_SYSVAR(exact_info),
#if defined(XMSG) || defined(NEWMSG)
MYSQL_SYSVAR(msg_lang),
#endif // XMSG || NEWMSG
#if defined(XMSG)
MYSQL_SYSVAR(errmsg_dir_path),
#endif // XMSG
MYSQL_SYSVAR(json_grp_size),
#if defined(JDBC_SUPPORT)
MYSQL_SYSVAR(jvm_path),
MYSQL_SYSVAR(class_path),
MYSQL_SYSVAR(java_wrapper),
#endif // JDBC_SUPPORT
NULL
};
maria_declare_plugin(connect)
{
MYSQL_STORAGE_ENGINE_PLUGIN,
&connect_storage_engine,
"CONNECT",
"Olivier Bertrand",
"Management of External Data (SQL/MED), including many file formats",
PLUGIN_LICENSE_GPL,
connect_init_func, /* Plugin Init */
connect_done_func, /* Plugin Deinit */
0x0105, /* version number (1.05) */
NULL, /* status variables */
connect_system_variables, /* system variables */
"1.05.0003", /* string version */
MariaDB_PLUGIN_MATURITY_GAMMA /* maturity */
}
maria_declare_plugin_end;