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-\input texinfo  @c -*-texinfo-*-
-@c Copyright 2002 MySQL AB
-@c
-@c %**start of header
-@setfilename internals.info
-
-@c We want the types in the same index
-@synindex cp fn
-
-@iftex
-@afourpaper
-@end iftex
-
-@c Get version and other info
-@include include.texi
-
-@ifclear tex-debug
-@c This removes the black squares in the right margin
-@finalout
-@end ifclear
-
-@c Set background for HTML
-@set _body_tags BGCOLOR=#FFFFFF TEXT=#000000 LINK=#101090 VLINK=#7030B0
-@settitle @strong{MySQL} Internals Manual for version @value{mysql_version}.
-@setchapternewpage odd
-@paragraphindent 0
-
-@c %**end of header
-
-@ifinfo
-@format
-START-INFO-DIR-ENTRY
-* mysql-internals: (mysql-internals).               @strong{MySQL} internals.
-END-INFO-DIR-ENTRY
-@end format
-@end ifinfo
-
-@titlepage
-@sp 10
-@center @titlefont{@strong{MySQL} Internals Manual}
-@sp 10
-@center Copyright @copyright{} 1998-2002 MySQL AB
-@page
-@end titlepage
-
-@node Top, coding guidelines, (dir), (dir)
-
-@ifinfo
-This is a manual about @strong{MySQL} internals.
-@end ifinfo
-
-@menu
-* coding guidelines::           Coding Guidelines
-* caching::                     How MySQL Handles Caching
-* flush tables::                How MySQL Handles @code{FLUSH TABLES}
-* Algorithms::                  
-* selects::                     How MySQL performs different selects
-* transformations::             How MySQL transforms subqueries
-* mysys functions::             Functions In The @code{mysys} Library
-* DBUG::                        DBUG Tags To Use
-* protocol::                    MySQL Client/Server Protocol
-* Fulltext Search::             Fulltext Search in MySQL
-* MyISAM Record Structure::     MyISAM Record Structure
-* InnoDB Record Structure::     InnoDB Record Structure
-* InnoDB Page Structure::       InnoDB Page Structure
-* Files in MySQL Sources::      Annotated List Of Files in the MySQL Source Code Distribution
-* Files in InnoDB Sources::     Annotated List Of Files in the InnoDB Source Code Distribution
-@end menu
-
-
-@node coding guidelines, caching, Top, Top
-@chapter Coding Guidelines
-
-@itemize @bullet
-
-@item
-We use @uref{http://www.bitkeeper.com/, BitKeeper} for source management.
-
-@item
-You should use the @strong{MySQL} 4.1 or 5.0 source for all developments.
-
-@item
-If you have any questions about the @strong{MySQL} source, you can post these
-to @email{internals@@lists.mysql.com} and we will answer them.
-
-@item
-Try to write code in a lot of black boxes that can be reused or use at
-least a clean, easy to change interface.
-
-@item
-Reuse code;  There is already a lot of algorithms in MySQL for list handling,
-queues, dynamic and hashed arrays, sorting, etc. that can be reused.
-
-@item
-Use the @code{my_*} functions like @code{my_read()}/@code{my_write()}/
-@code{my_malloc()} that you can find in the @code{mysys} library instead 
-of the direct system calls;  This will make your code easier to debug and 
-more portable.
-
-@item
-Try to always write optimized code, so that you don't have to
-go back and rewrite it a couple of months later.  It's better to
-spend 3 times as much time designing and writing an optimal function than
-having to do it all over again later on.
-
-@item
-Avoid CPU wasteful code, even where it does not matter, so that
-you will not develop sloppy coding habits.
-
-@item
-If you can write it in fewer lines, do it (as long as the code will not
-be slower or much harder to read).
-
-@item
-Don't use two commands on the same line.
-
-@item
-Do not check the same pointer for @code{NULL} more than once.
-
-@item
-Use long function and variable names in English.  This makes your code
-easier to read. 
-
-@item
-Use @code{my_var} as opposed to @code{myVar} or @code{MyVar} (@samp{_} 
-rather than dancing SHIFT to seperate words in identifiers).
-
-@item
-Think assembly - make it easier for the compiler to optimize your code.
-
-@item
-Comment your code when you do something that someone else may think
-is not ``trivial''.
-
-@item
-Use @code{libstring} functions (in the @file{strings} directory)
-instead of standard @code{libc} string functions whenever possible.
-
-@item
-Avoid using @code{malloc()} (its REAL slow);  For memory allocations 
-that only need to live for the lifetime of one thread, one should use
-@code{sql_alloc()} instead.
-
-@item
-Before making big design decisions, please first post a summary of
-what you want to do, why you want to do it, and how you plan to do
-it.  This way we can easily provide you with feedback and also
-easily discuss it thoroughly if some other developer thinks there is better
-way to do the same thing!
-
-@item
-Class names start with a capital letter.
-
-@item
-Structure types are @code{typedef}'ed to an all-caps identifier.
-
-@item
-Any @code{#define}'s are in all-caps.
-
-@item
-Matching @samp{@{} are in the same column.
-
-@item
-Put the @samp{@{} after a @code{switch} on the same line, as this gives 
-better overall indentation for the switch statement:
-
-@example
-switch (arg) @{
-@end example
-
-@item
-In all other cases, @samp{@{} and @samp{@}} should be on their own line, except
-if there is nothing inside @samp{@{} and @samp{@}}.
-
-@item
-Have a space after @code{if}
-
-@item
-Put a space after @samp{,} for function arguments
-
-@item
-Functions return @samp{0} on success, and non-zero on error, so you can do:
-
-@example
-if(a() || b() || c()) @{ error("something went wrong"); @}
-@end example
-
-@item
-Using @code{goto} is okay if not abused.
-
-@item
-Avoid default variable initalizations, use @code{LINT_INIT()} if the
-compiler complains after making sure that there is really no way
-the variable can be used uninitialized.
-
-@item
-Do not instantiate a class if you do not have to.
-
-@item
-Use pointers rather than array indexing when operating on strings.
-
-@end itemize
-
-Suggested mode in emacs:
-
-@example
-(load "cc-mode")
-(setq c-mode-common-hook '(lambda ()
-			    (turn-on-font-lock)
-			    (setq comment-column 48)))
-(setq c-style-alist
-      (cons
-       '("MY"
-	 (c-basic-offset . 2)
-	 (c-comment-only-line-offset . 0)
-	 (c-offsets-alist . ((statement-block-intro . +)
-			     (knr-argdecl-intro . 0)
-			     (substatement-open . 0)
-			     (label . -)
-			     (statement-cont . +)
-			     (arglist-intro . c-lineup-arglist-intro-after-paren)
-			     (arglist-close . c-lineup-arglist)
-			     ))
-	 )
-       c-style-alist))
-(c-set-style "MY")
-(setq c-default-style "MY")
-@end example
-
-@node caching, flush tables, coding guidelines, Top
-@chapter How MySQL Handles Caching
-
-@strong{MySQL} has the following caches:
-(Note that the some of the filename have a wrong spelling of cache. :)
-
-@table @strong
-
-@item Key Cache
-A shared cache for all B-tree index blocks in the different NISAM
-files. Uses hashing and reverse linked lists for quick caching of the
-last used blocks and quick flushing of changed entries for a specific
-table. (@file{mysys/mf_keycash.c})
-
-@item Record Cache
-This is used for quick scanning of all records in a table.
-(@file{mysys/mf_iocash.c} and @file{isam/_cash.c})
-
-@item Table Cache
-This holds the last used tables. (@file{sql/sql_base.cc})
-
-@item Hostname Cache
-For quick lookup (with reverse name resolving). Is a must when one has a
-slow DNS. 
-(@file{sql/hostname.cc})
-
-@item Privilege Cache
-To allow quick change between databases the last used privileges are
-cached for each user/database combination.
-(@file{sql/sql_acl.cc})
-
-@item Heap Table Cache
-Many use of @code{GROUP BY} or @code{DISTINCT} caches all found rows in 
-a @code{HEAP} table. (This is a very quick in-memory table with hash index.)
-
-@item Join buffer Cache
-For every full join in a @code{SELECT} statement (a full join here means
-there were no keys that one could use to find the next table in a list), 
-the found rows are cached in a join cache.  One @code{SELECT} query can 
-use many join caches in the worst case.
-@end table
-
-@menu
-* join_buffer_size::            
-@end menu
-
-@node join_buffer_size,  , caching, caching
-@section How MySQL uses the join_buffer cache
-
-Basic information about @code{join_buffer_size}:
-
-@itemize @bullet
-@item
-It's only used in the case when join type is of type @code{ALL} or
-@code{index}; In other words: no possible keys can be used.
-@item
-A join buffer is never allocated for the first not-const table,
-even it it would be of type @code{ALL}/@code{index}.
-@item
-The buffer is allocated when we need to do a each full join between two
-tables and freed after the query is done.
-@item
-Accepted row combinations of tables before the @code{ALL}/@code{index}
-able is stored in the cache and is used to compare against each read
-row in the @code{ALL} table.
-@item
-We only store the used fields in the join_buffer cache, not the
-whole rows.
-@end itemize
-
-Assume you have the following join:
-
-@example
-Table name	Type
-t1		range
-t2		ref
-t3		@code{ALL}
-@end example
-
-The join is then done as follows:
-
-@example
-- While rows in t1 matching range
- - Read through all rows in t2 according to reference key
-  - Store used fields form t1,t2 in cache
-  - If cache is full
-    - Read through all rows in t3
-      - Compare t3 row against all t1,t2 combination in cache
-        - If rows satisfying join condition, send it to client
-    - Empty cache
-
-- Read through all rows in t3
- - Compare t3 row against all stored t1,t2 combinations in cache
-   - If rows satisfying join condition, send it to client
-@end example
-
-The above means that table t3 is scanned
-
-@example
-(size-of-stored-row(t1,t2) * accepted-row-cominations(t1,t2))/
-join_buffer_size+1
-@end example
-times.
-
-Some conclusions:
-
-@itemize @bullet
-@item
-The larger the join_buff_size, the fewer scans of t3.
-If @code{join_buff_size} is already large enough to hold all previous row
-combinations then there is no speed to gain by making it bigger.
-@item
-If there is several tables of @code{ALL}/@code{index} then the we
-allocate one @code{join_buffer_size buffer} for each of them and use the
-same algorithm described above to handle it.  (In other words, we store
-the same row combination several times into different buffers)
-@end itemize
-
-@node flush tables, Algorithms, caching, Top
-@chapter How MySQL Handles @code{FLUSH TABLES}
-
-@itemize @bullet
-
-@item
-Flush tables is handled in @file{sql/sql_base.cc::close_cached_tables()}.
-
-@item
-The idea of flush tables is to force all tables to be closed. This
-is mainly to ensure that if someone adds a new table outside of
-@strong{MySQL} (for example with @code{cp}) all threads will start using 
-the new table. This will also ensure that all table changes are flushed 
-to disk (but of course not as optimally as simple calling a sync on
-all tables)!
-
-@item
-When one does a @code{FLUSH TABLES}, the variable @code{refresh_version} 
-will be incremented. Every time a thread releases a table it checks if
-the refresh version of the table (updated at open) is the same as
-the current @code{refresh_version}.  If not it will close it and broadcast
-a signal on @code{COND_refresh} (to wait any thread that is waiting for
-all instanses of a table to be closed).
-
-@item
-The current @code{refresh_version} is also compared to the open 
-@code{refresh_version} after a thread gets a lock on a table.  If the 
-refresh version is different the thread will free all locks, reopen the
-table and try to get the locks again;  This is just to quickly get all 
-tables to use the newest version.  This is handled by
-@file{sql/lock.cc::mysql_lock_tables()} and 
-@file{sql/sql_base.cc::wait_for_tables()}.
-
-@item
-When all tables has been closed @code{FLUSH TABLES} will return an ok 
-to client.
-
-@item
-If the thread that is doing @code{FLUSH TABLES} has a lock on some tables,
-it will first close the locked tables, then wait until all other threads
-have also closed them, and then reopen them and get the locks.
-After this it will give other threads a chance to open the same tables.
-
-@end itemize
-
-@node Algorithms, selects, flush tables, Top
-@chapter Different algoritms used in MySQL
-
-MySQL uses a lot of different algorithms.  This chapter tries to describe
-some of these:
-
-@menu
-* filesort::                    
-* bulk-insert::                 
-@end menu
-
-@node filesort, bulk-insert, Algorithms, Algorithms
-@section How MySQL Does Sorting (@code{filesort})
-
-@itemize @bullet
-
-@item
-Read all rows according to key or by table scanning.
-
-@item
-Store the sort-key in a buffer (@code{sort_buffer}).
-
-@item
-When the buffer gets full, run a @code{qsort} on it and store the result
-in a temporary file.  Save a pointer to the sorted block.
-
-@item
-Repeat the above until all rows have been read.
-
-@item
-Repeat the following until there is less than @code{MERGEBUFF2} (15) 
-blocks left.
-
-@item
-Do a multi-merge of up to @code{MERGEBUFF} (7) regions to one block in
-another temporary file.  Repeat until all blocks from the first file
-are in the second file.
-
-@item
-On the last multi-merge, only the pointer to the row (last part of
-the sort-key) is written to a result file.
-
-@item
-Now the code in @file{sql/records.cc} will be used to read through them
-in sorted order by using the row pointers in the result file.
-To optimize this, we read in a big block of row pointers, sort these
-and then we read the rows in the sorted order into a row buffer
-(@code{record_buffer}).
-
-@end itemize
-
-@end itemize
-
-@node bulk-insert,  , filesort, Algorithms
-@section Bulk insert
-
-Logic behind bulk insert optimisation is simple.
-
-Instead of writing each key value to b-tree (that is to keycache, but
-bulk insert code doesn't know about keycache) keys are stored in
-balanced binary (red-black) tree, in memory. When this tree reaches its
-memory limit it's writes all keys to disk (to keycache, that is).  But
-as key stream coming from the binary tree is already sorted inserting
-goes much faster, all the necessary pages are already in cache, disk
-access is minimized, etc.
-  
-@node selects, transformations, Algorithms, Top
-@chapter How MySQL performs different selects
-
-@menu
-* select steps::                
-* select select_result::        
-* select simple::               
-* select structure::            
-* select union::                
-* select derived::              
-* select subselect::            
-* select select engine::        
-* select union engine::         
-* selectexplain::               
-@end menu
-
-@node select steps, select select_result, selects, selects
-@section Steps of select executing
-
-Every select performed in such base steps:
-@itemize
-@item
-  JOIN::prepare
-@itemize @bullet
-@item
-    initialization and linking JOIN structure to st_select_lex
-@item
-    fix_fields() for all items (after fix_fields we know everything
-      about item)
-@item
-    moving HAVING to WHERE if possible
-@item
-    initialization procedure if exists
-@end itemize
-@item
-  JOIN::optimize
-@itemize @bullet
-@item
-    single select optimization
-@item
-    creation first temporary table if need
-@end itemize
-@item
-  JOIN::exec
-@itemize @bullet
-@item
-    performing select (may be created second temporary table)
-@end itemize
-@item
-  JOIN::cleanup
-@itemize @bullet
-@item
-    removing all temporary tables, other cleanup
-@end itemize
-@item
-  JOIN::reinit
-@itemize @bullet
-@item
-    prepare all structures to SELECT executing (with JOIN::exec)
-@end itemize
-@end itemize
-
-@node select select_result, select simple, select steps, selects
-@section select_result CLASS
-
-Very important role in SELECT performing have select_result class and
-classes inherited from it (usually called with "select_" prefix). This
-class provide interface for results transmitting.
-
-Key methods in this class are following:
-@itemize @bullet
-@item
-  @strong{send_fields} sends giving item list headers (type, name, etc..)
-@item
-  @strong{send_data} sends giving item list values as row of table of result
-@item
-  @strong{send_error} send error to used used mainly for error interception,
-    making some operation and then ::send_error will be called.
-@end itemize
-
-For example there are fillowing select_result classes:
-@itemize
-@item 
-  @strong{select_send} used for sending results though network layer
-@item 
-  @strong{select_export} used for exporting data to file
-@item
-  @strong{multi_delete} used for multi-delete
-@item
-  @strong{select_insert} used for INSERT ... SELECT ...
-@item
-  @strong{multi_update} used for multi-update
-@end itemize
-
-@node select simple, select structure, select select_result, selects
-@section SIMPLE or PRIMARY SELECT.
-
-For performing single primary select SELECT used function mysql_select,
-which:
-@itemize @bullet
-@item
-  allocate JOIN;
-@item
-  JOIN::prepare;
-@item
-  JOIN::optimize;
-@item
-  JOIN::exec;
-@item
-  JOIN::cleanup.
-@end itemize
-In previous versions of mysql all SELECTs was performed with help of this
-function and mysql_select() was not divided on parts.
-
-@node select structure, select union, select simple, selects
-@section Structure Of Complex Select
-
-There 2 structures which describe SELECTS:
-@itemize @bullet
-@item
-  st_select_lex (SELECT_LEX) it represent SELECT itself
-@item
-  st_select_lex_unit (SELECT_LEX_UNIT) group several selects in bunch
-@end itemize
-and represent UNION operation (absence of UNION is union
-with 1 SELECT and this structure present in any case). In future this
-structure will be used for EXCEPT and INTERSECT.
-
-For example:
-@example
-(SELECT ... )UNION(SELECT ... (SELECT...)...(SELECT...UNION...SELECT))
-   1           2      3           4             5        6       7
-@end example
-
-will be represent as
-@example
-------------------------------------------------------------------------
-                                                                 level 1
-SELECT_LEX_UNIT(2)
-|
-+---------------+
-|               |
-SELECT_LEX(1)   SELECT_LEX(3)
-                |
---------------- | ------------------------------------------------------
-                |                                                level 2
-                +-------------------+
-                |                   |
-                SELECT_LEX_UNIT(4)  SELECT_LEX_UNIT(6)
-                |                   |
-                |                   +--------------+
-                |                   |              |
-                SELECT_LEX(4)       SELECT_LEX(5)  SELECT_LEX(7)
-
-------------------------------------------------------------------------
-@end example
-Note: single subselect 4 have it's own SELECT_LEX_UNIT.
-
-Most upper SELECT_LEX_UNIT (#2 in example) stored in LEX.
-First and most upper SELECT_LEX (#1 in example) stored in LEX, too.
-This two structures always exist.
-
-In time of creating or performing any JOIN::* operation 
-LEX::current_select point on appropriate SELECT_LEX.
-
-Only during parsing global (for whole UNION) ORDER_BY & LIMIT clauses
-LEX::current_select points to SELECT_LEX_UNIT of this unit to store this
-parameter in this SELECT_LEX_UNIT (SELECT_LEX and SELECT_LEX_UNIT are
-inherited from st_select_lex_node).
-
-@node select union, select derived, select structure, selects
-@section Non-Subselect UNIONs Executing
-
-Non subselect unions performed with help of mysql_union(). for now it
-divided on following steps:
-@itemize
-@item
-  st_select_lex_unit::prepare
-@itemize @bullet
-@item
-    create temporary table for union results storing (if UNION witout
-      ALL option, 'distinct' parameter will be passed to table creation
-      procedure). Types/lengths of table's fields will be determinated
-      by first SELECT item list.
-@item
-    create select_union (inherited from select_result) which will
-      write selects results in this temporary table
-@item
-    allocate JOIN and perform JOIN::prepare for all SELECTs belonged
-      to UNION
-@end itemize
-@item
-  st_select_lex_unit::exec
-@itemize @bullet
-@item
-    delete rows from temporary table if it is not first call
-@item
-    if first call call JOIN::optimize else JOIN::reinit and then
-      JOIN::exec for all SELECTs (select_union will write result for
-      temporary table). If union is cacheable and this method called
-      second, (third, ...) time it will do nothing.
-@item
-    call mysql_select on temporary table with global ORDER BY and
-      LIMIT parameters after collecting results from all SELECTs.
-@end itemize
-@end itemize
-As far as mysql_select need SELECT_LEX structure SELECT_LEX of first
-SELECT of this UNION will be passed to it, but also fake_select_lex
-parameter will be passed to mysql_select() too, to prevent linking
-this SELECT_LEX with JOIN on this mysql_select() session.
-
-PROBLEM: this fake select need workaround in many places.
-
-@node select derived, select subselect, select union, selects
-@section Derived Tables Executing
-
-Derived tables processing is first operation on any query. It performed
-before creation list of tables of whole query and opening/locking this
-tables.
-
-If lex->derived_tables flag present will be scanned all SELECT_LEX (there
-are list of all SELECT_LEX in reverse order (first SELECT in query will
-be last in this list) lex->all_selects_list).
-
-Pointer on derived table SELECT_LEX_UNIT stored in TABLE_LIST structure
-(TABLE_LIST::derived). And for any table which have this pointer will
-be called mysql_derived().
-
-mysql_derived():
-@itemize @bullet
-@item
-  Creates list of all tables used in this query, opens and locks it
-@item
-  Creates temporary table for storing results
-@item
-  Creates union_result for writing result in this table
-@item
-  Calls mysql_select or mysql_union for execute query
-@item
-  Removes all derived table subtree from SELECTs tree (if it is
-    not EXPLAIN)
-@item
-  Stores pointer to this temporary table in TABLE_LIST structure, then
-    this table will be used by outer query. This table table will not be
-    skipped in checking grants, because tables from which this table was
-    received was checked in mysql_derived.
-@item
-  Links this temporary table in thd->derived_tables for removing after
-    query executing. this table will be closed in close_thread_tables if
-    second parameter of it (bool skip_derived) will be true.
-@end itemize
-
-@node select subselect, select select engine, select derived, selects
-@section Subselects
-
-In expression subselect represented by Item inherited from Item_subselect.
-
-To hide difference in performing single SELECTs and UNIONs
-Item_subselect use two different engines, which provide uniformed
-interface for access to underplaid SELECT or UNION
-(subselect_single_select_engine and subselect_union_engine, both are
-inherited from subselect_engine).
-
-Engine will be created in time of Item_select constructing
-(Item_subselect::init method).
-
-On Item_subselect::fix_fields() will be called engine->prepare().
-
-Before calling any value getting method (val, val_int, val_str,
-bring_value (in case of row result)) will be called engine->exec(),
-which execute query or just do nothing if subselect is cacheable and
-already executed.
-
-Items inherited from provide it's own select_result classes. There are
-2 type of it:
-@itemize @bullet
-@item
-  select_singlerow_subselect it store values of giving row in
-    Item_singlerow_subselect cache  on send_data() call and report error
-    if Item_subselect have 'assigned' attribute.
-@item
-  select_exists_subselect just store 1 as value of
-    Item_exists_subselect on send_data() call. As far as
-    Item_in_subselect and Item_allany_subselect inherited from
-    Item_exists_subselect, they use same select_result class.
-@end itemize
-
-Item_select will never call cleanup() procedure for JOIN. Every
-JOIN::cleanup will call cleanup() for inner JOINs. Most upper
-JOIN::cleanup will be called by mysql_select() or mysql_union().
-
-@node select select engine, select union engine, select subselect, selects
-@section Single Select Engine
-
-subselect_single_select_engine:
-@itemize @bullet
-@item
-  @strong{constructor} allocate JOIN and store pointers on SELECT_LEX and JOIN
-@item
-  @strong{prepare()} call JOIN::prepare
-@item
-  @strong{fix_length_and_dec()} prepare cache and receive type and
-    parameters of returning items (it called only by
-    Item_singlerow_subselect)
-@item
-  @strong{exec()} drop 'assigned flag of Item_subselect. If called first time
-    JOIN::optimize and JOINexec(), else do nothing or JOIN::reinit()
-    JOIN::exec() depending of type of subquery.
-@end itemize
-
-@node select union engine, selectexplain, select select engine, selects
-@section Union Engine
-
-subselect_union_engine:
-@itemize @bullet
-@item
-  @strong{constructor} just store pointer to st_select_lex_union
-    (SELECT_LEX_UNION)
-@item
-  @strong{prepare()} call st_select_lex_unit::prepare
-@item
-  @strong{fix_length_and_dec()} prepare cache and receive type and
-    parameters (maximum of length) of returning items (it called
-    only by Item_singlerow_subselect)
-@item
-  @strong{exec()} call st_select_lex_unit::exec(). st_select_lex_unit::exec()
-    can drop 'assigned' flag of Item_subselect if 
-    st_select_lex_unit::item is not 0.
-@end itemize
-
-@node selectexplain,  , select union engine, selects
-@section Explain Execution
-
-For EXPLAIN result showing for every SELECT will be called mysql_select
-with option SELECT_DESCRIBE.
-
-For main UNION will be called mysql_explain_union.
-
-mysql_explain_union call mysql_explain_select for every SELECT in given
-union.
-
-mysql_explain_select call mysql_select with SELECT_DESCRIBE.
-
-mysql_select create JOIN for select (if it not exists, because if it
-called for subselect JOIN can be created in JOIN::optimize of outer
-query when it decided to calculate value of subselect). Then it call
-JOIN::prepare, JOIN::optimize, JOIN exec and JOIN::cleanup as usual.
-
-JOIN::exec called for SELECT with SELECT_DESCRIBE option call
-select_describe.
-
-select_describe return to user description of SELECT and call
-mysql_explain_union for every inner UNION
-
-PROBLEM: how it will work with global query optimization?
-
-@node transformations, mysys functions, selects, Top
-@chapter How MySQL transforms subqueries
-
-Item_subselect virtual method select_transformer is used to rewrite
-subqueries. It is called from Item_subselect::init (which called in
-Item_subselect constructor)
-
-@menu
-* transformation IN::           
-* transformations all any::     
-* transformations singlerow::   
-@end menu
-
-@node transformation IN, transformations all any, transformations, transformations
-@section Item_in_subselect::select_transformer
-
-Item_in_subselect::select_transformer is divided on two parts for
-scalar left part and row left part:
-
-@menu
-* transformation scalar IN::    
-* transformations row IN::      
-@end menu
-
-@node transformation scalar IN, transformations row IN, transformation IN, transformation IN
-@subsection Scalar IN Subselect
-
-To rewrite scalar IN subselect used method
-Item_in_subselect::single_value_transformer, Scalar IN subselect will
-be replaced with Item_in_optimizer.
-
-Item_in_optimizer item is special boolean function. On value request
-(one of val, val_int or val_str methods) it evaluate left expression of
-IN by storing it value in cache item (one of Item_cache* items), then it
-test cache is it NULL. If left expression (cache) is NULL then
-Item_in_optimizer return NULL, else it evaluate Item_in_subselect.
-
-Example queries.
-@example
-a) SELECT * from t1 where t1.a in (SELECT t2.a FROM t2);
-b) SELECT * from t1 where t1.a in (SELECT t2.a FROM t2 GROUP BY t2.a);
-@end example
-
-@itemize
-@item
-Item_in_subselect inherit mechanism of getting value from
-  Item_exists_subselect.
-@item
-Select_transformer stores reference to left expression in its
-  conditions:  (in WHERE & HAVING in case 'a' and in a HAVING in case 'b')
-@item
-Item from item list of this select (t2.a) can be referred with special
-  reference (Item_ref_null_helper or Item_asterisk_remover).
-  This reference informs Item_in_optimizer if item (t2.a) is NULL by
-  setting the 'was_null' flag.
-@item
-The return value from Item_in_subselect will be evaluated as following:
-@itemize @bullet
-@item
-  If TRUE return true
-@item
-  If NULL return null
-@item
-  If FALSE and 'was_null' is set, return null
-@item
-  return FALSE
-@end itemize
-@end itemize
-
-<left_expression> IN (SELECT <item> ...) will be represented like
-following:
-@example
-                        +-----------------+
-                        |Item_in_optimizer|
-                        +-----------------+
-                                 |
-           +---------------------+------------+
-           |                                  |
-+-----------------------+             +-----------------+
-|   <left_expression>   |             |Item_in_subselect|
-|                       |             +-----------------+
-+-----------------------+                      |
-|<left_expression cache>|          +-----------+-----------+
-|                       |          |                       |
-+-----------------------+          |                       |
-           ^                 +----------+        +--------------------+
-           +<<<<<<<<<<<<<<<<<| Item_ref |    +<<<|Item_ref_null_helper|
-                             +----------+    V   +--------------------+
-                                             V   +--------------------+
-                                             +>>>|       <item>       |
-                                                 +--------------------+  
-@end example
-where '<<<<<<<<<' is reference in meaning of Item_ref.
-
-Item_ref used for point to <left_expression cache>, because in time of
-transformation we know only address of variable where pointer on cache
-will be stored.
-
-If select have ORDER BY clause it will be wiped out, because no sense in
-ORDER BY without LIMIT here.
-
-If IN subselect union condition of every select in UNION will be changed
-personally.
-
-If condition should be added to WHERE clause it will be presented as 
-"(item OR item IS NULL)" and Item_is_not_null_test(item) will be added
-to HAVING clause. Item_is_not_null_test register NULL value as
-Item_ref_null_helper does it and return FALSE if argument is NULL.
-With above trick we will register NULL value of Item even in case
-of index optimization of WHERE clause (case 'a' of following example).
-
-Following is examples of IN transformations:
-@example
-a) <left_expression> IN (SELECT <item> FROM t
-                           WHERE <where_exp>)
-
-will be represented as
-
- (SELECT 1 FROM t
-   WHERE
-     <where_exp> and
-     (Item_ref(<cached_left_expression>)=<Item_asterisk_remover(<Item>)> or
-      <Item> is null)
-   HAVING Item_is_not_null_test(<Item>))
-
-
-b) <left_expression> IN (SELECT <item> FROM t
-                           HAVING <having_expr>
-                           ORDER BY 1)
-
-will be represented as
- (SELECT <item> as ref_null_helper FROM t
-    HAVING <having_exp> AND
-      Item_ref(<cached_left_expression>) = ref_null_helper)
-
-
-c) <left_expression> IN (SELECT <item> UNION ...)
-
-will be represented as
-
- (SELECT 1 
-    HAVING Item_ref(<cached_left_expression>)=
-           <Item_asterisk_remover(<Item>)>
-  UNION ...)
-
-(having without FROM is syntax error, but having condition is checked
-even for subselect without FROM)
-
-d) <left_expression> IN (select <item>)
-
-will be completely replaced with <left_expression> = <item>
-@end example
-
-Now conditions (WHERE (a) or HAVING (b)) will be changed depends of
-select in following way:
-
-If subselect have HAVING , sum function  or GROUP BY (case a) then item
-list will be unchanged and  Item_ref_null_helper reference will be
-created on item list element. Condition will be added to HAVING condition.
-
-If subselect have not HAVING, sum function or GROUP BY (case b) then:
-@itemize @bullet
-@item
- @strong{item list} will be replaced with 1.
-@item
- @strong{<item>} from item list will be stored in Item_asterisk_remover, which
-   inherit from Item_ref_null_helper, but store item on which refer by
-   itself, and also it can resolve '*' item.
-@item
- @strong{<left_expression cache> = <Item_ref_null_helper>} will be added to
-   WHERE clause this item or to HAVING clause if this subselect have
-   no FROM clause and subselect is union (case c).
-@end itemize
-
-Single select without FROM will be reduced to just
-<left_expression> = <item> without using Item_in_optimizer.
-
-@node transformations row IN,  , transformation scalar IN, transformation IN
-@subsection Row IN Subselect
-
-To rewrite row IN subselect used method
-Item_in_subselect::row_value_transformer. It work in almost same way as
-scalar analog, but work with Item_cache_row for caching left expression
-and use references on elements of Item_cache_row.
-To refer on item list it use Item_ref_on_list_position.
-
-Item_ref_on_list_position::fix_fields will find item in item list of
-subselect by number and create Item_ref_null_helper to refer on it. It
-used to find reference when all '*' items will be translated in item
-list. Subselect with have HAVING, sum functions or GROUP BY will
-transformed in following way:
-
-@example
-ROW(l1, l2, ... lN) IN (SELECT i1, i2, ... iM FROM t HAVING <having_expr>)
-
-will be following:
-
-(SELECT i1, i2, ... iM FROM t
-   HAVING <having_expr> and
-     <cache_l1> = <ref_on_list_position(1)> AND
-     <cache_l2> = <ref_on_list_position(2)> AND
-     ...
-     <cache_lN> = <ref_on_list_position(N)>)
-@end example
-
-In this way will be transformed select without FROM, too.
-
-For other subselect it will be same but for WHERE clause.
-
-@node transformations all any, transformations singlerow, transformation IN, transformations
-@section Item_allany_subselect
-
-Item_allany_subselect is inherited from Item_in_subselect.
-ALL/ANY/SOME use same algorithm (and same method of Item_in_subselect)
-as scalar IN, but use different function instead of '='.
-
-ANY/SOME use same function that was listed after left expression.
-
-ALL use inverted function, and all subselect passed as argument to
-Item_func_not.
-
-@node transformations singlerow,  , transformations all any, transformations
-@section Item_singlerow_subselect
-
-Item_singlerow_subselect will be rewritten only if it have not FROM
-clause, it is not part of UNION and it is scalar subselect. For now will
-not be converted subselects with field or reference on top of item list
-(we can't change name of such items from one hand, but from other hand
-we should assign to it name of whole subselect which will be reduced);
-
-Following will not be reduced:
-@example
-SELECT a;
-SELECT 1 UNION SELECT 2;
-SELECT 1 FROM t1;
-@end example
-
-Following select will be reduced:
-@example
-SELECT 1;
-SELECT a+2;
-@end example
-
-Such subselect will be completely replaced by its expression from item
-list and its SELECT_LEX and SELECT_LEX_UNIT will be removed from
-SELECT_LEX's tree.
-
-But all Item_fields and Item_ref of that expression will be marked for
-special fix_fields() procedure. fix_fields() for such Item will be
-performed is same way as for items of inner subselect. Also if this
-expression is Item_fields or Item_ref then name of this new item will
-be same as name of this item (but not '(SELECT ...)'). It is done to
-prevent broke references on such items from more inner subselects.
-
-@node mysys functions, DBUG, transformations, Top
-@chapter Functions In The @code{mysys} Library
-
-Functions in @code{mysys}: (For flags see @file{my_sys.h})
-
-@table @code
-@item int my_copy _A((const char *from, const char *to, myf MyFlags));
-Copy file from @code{from} to @code{to}.
-
-@item int my_delete _A((const char *name, myf MyFlags));
-Delete file @code{name}.
-
-@item int my_getwd _A((string buf, uint size, myf MyFlags));
-@item int my_setwd _A((const char *dir, myf MyFlags));
-Get and set working directory.
-
-@item string my_tempnam _A((const char *pfx, myf MyFlags));
-Make a unique temporary file name by using dir and adding something after
-@code{pfx} to make name unique.  The file name is made by adding a unique
-six character string and @code{TMP_EXT} after @code{pfx}.
-Returns pointer to @code{malloc()}'ed area for filename. Should be freed by
-@code{free()}.
-
-@item File my_open _A((const char *FileName,int Flags,myf MyFlags));
-@item File my_create _A((const char *FileName, int CreateFlags, int AccsesFlags, myf MyFlags));
-@item int my_close _A((File Filedes, myf MyFlags));
-@item uint my_read _A((File Filedes, byte *Buffer, uint Count, myf MyFlags));
-@item uint my_write _A((File Filedes, const byte *Buffer, uint Count, myf MyFlags));
-@item ulong my_seek _A((File fd,ulong pos,int whence,myf MyFlags));
-@item ulong my_tell _A((File fd,myf MyFlags));
-Use instead of open, open-with-create-flag, close, read, and write
-to get automatic error messages (flag @code{MYF_WME}) and only have
-to test for != 0 if error (flag @code{MY_NABP}).
-
-@item int my_rename _A((const char *from, const char *to, myf MyFlags));
-Rename file from @code{from} to @code{to}.
-
-@item FILE *my_fopen _A((const char *FileName,int Flags,myf MyFlags));
-@item FILE *my_fdopen _A((File Filedes,int Flags,myf MyFlags));
-@item int my_fclose _A((FILE *fd,myf MyFlags));
-@item uint my_fread _A((FILE *stream,byte *Buffer,uint Count,myf MyFlags));
-@item uint my_fwrite _A((FILE *stream,const byte *Buffer,uint Count, myf MyFlags));
-@item ulong my_fseek _A((FILE *stream,ulong pos,int whence,myf MyFlags));
-@item ulong my_ftell _A((FILE *stream,myf MyFlags));
-Same read-interface for streams as for files.
-
-@item gptr _mymalloc _A((uint uSize,const char *sFile,uint uLine, myf MyFlag));
-@item gptr _myrealloc _A((string pPtr,uint uSize,const char *sFile,uint uLine, myf MyFlag));
-@item void _myfree _A((gptr pPtr,const char *sFile,uint uLine));
-@item int _sanity _A((const char *sFile,unsigned int uLine));
-@item gptr _myget_copy_of_memory _A((const byte *from,uint length,const char *sFile, uint uLine,myf MyFlag));
-@code{malloc(size,myflag)} is mapped to these functions if not compiled 
-with @code{-DSAFEMALLOC}.
-
-@item void TERMINATE _A((void));
-Writes @code{malloc()} info on @code{stdout} if compiled with 
-@code{-DSAFEMALLOC}.
-
-@item int my_chsize _A((File fd, ulong newlength, myf MyFlags));
-Change size of file @code{fd} to @code{newlength}.
-
-@item void my_error _D((int nr, myf MyFlags, ...));
-Writes message using error number (see @file{mysys/errors.h}) on @code{stdout},
-or using curses, if @code{MYSYS_PROGRAM_USES_CURSES()} has been called.
-
-@item void my_message _A((const char *str, myf MyFlags));
-Writes @code{str} on @code{stdout}, or using curses, if 
-@code{MYSYS_PROGRAM_USES_CURSES()} has been called.
-
-@item void my_init _A((void ));
-Start each program (in @code{main()}) with this.
-
-@item void my_end _A((int infoflag));
-Gives info about program.
-If @code{infoflag & MY_CHECK_ERROR}, prints if some files are left open.
-If @code{infoflag & MY_GIVE_INFO}, prints timing info and malloc info
-about program.
-
-@item int my_redel _A((const char *from, const char *to, int MyFlags));
-Delete @code{from} before rename of @code{to} to @code{from}.  Copies state
-from old file to new file. If @code{MY_COPY_TIME} is set, sets old time.
-
-@item int my_copystat _A((const char *from, const char *to, int MyFlags));
-Copy state from old file to new file.  If @code{MY_COPY_TIME} is set,
-sets old time.
-
-@item string my_filename _A((File fd));
-Returns filename of open file.
-
-@item int dirname _A((string to, const char *name));
-Copy name of directory from filename.
-
-@item int test_if_hard_path _A((const char *dir_name));
-Test if @code{dir_name} is a hard path (starts from root).
-
-@item void convert_dirname _A((string name));
-Convert dirname according to system.
-In MSDOS, changes all characters to capitals and changes @samp{/} to @samp{\}.
-
-@item string fn_ext _A((const char *name));
-Returns pointer to extension in filename.
-
-@item string fn_format _A((string to,const char *name,const char *dsk,const char *form,int flag));
-	format a filename with replace of library and extension and
-	converts between different systems.
-	params to and name may be identicall
-	function dosn't change name if name != to
-	Flag may be:	1   force replace filnames library with 'dsk'
-			2   force replace extension with 'form' */
-			4   force Unpack filename (replace ~ with home)
-			8   Pack filename as short as possibly for output to
-			    user.
-	All open requests should allways use at least:
-	"open(fn_format(temp_buffe,name,"","",4),...)" to unpack home and
-	convert filename to system-form.
-
-@item string fn_same _A((string toname, const char *name, int flag));
-Copys directory and extension from @code{name} to @code{toname} if neaded.
-Copying can be forced by same flags used in @code{fn_format()}.
-
-@item int wild_compare _A((const char *str, const char *wildstr));
-Compare if @code{str} matches @code{wildstr}. @code{wildstr} can contain 
-@samp{*} and @samp{?} as wildcard characters.
-Returns 0 if @code{str} and @code{wildstr} match.
-
-@item void get_date _A((string to, int timeflag));
-Get current date in a form ready for printing.
-
-@item void soundex _A((string out_pntr, string in_pntr))
-Makes @code{in_pntr} to a 5 char long string.  All words that sound
-alike have the same string.
-
-@item int init_key_cache _A((ulong use_mem, ulong leave_this_much_mem));
-Use caching of keys in MISAM, PISAM, and ISAM.
-@code{KEY_CACHE_SIZE} is a good size.
-Remember to lock databases for optimal caching.
-
-@item void end_key_cache _A((void));
-End key caching.
-@end table 
-
-
-
-@node DBUG, protocol, mysys functions, Top
-@chapter DBUG Tags To Use
-
-Here is some of the tags we now use:
-(We should probably add a couple of new ones)
-
-@table @code 
-@item enter
-Arguments to the function.
-
-@item exit
-Results from the function.
-
-@item info
-Something that may be interesting.
-
-@item warning
-When something doesn't go the usual route or may be wrong.
-
-@item error
-When something went wrong.
-
-@item loop
-Write in a loop, that is probably only useful when debugging
-the loop.  These should normally be deleted when one is
-satisfied with the code and it has been in real use for a while.
-@end table
-
-Some specific to mysqld, because we want to watch these carefully:
-
-@table @code
-@item trans
-Starting/stopping transactions.
-
-@item quit
-@code{info} when mysqld is preparing to die.
-
-@item query
-Print query.
-@end table
-
-
-@node protocol, Fulltext Search, DBUG, Top
-@chapter MySQL Client/Server Protocol
-
-@menu
-* raw packet without compression::  
-* raw packet with compression::  
-* basic packets::               
-* communication::               
-* fieldtype codes::             
-* protocol functions::          
-* protocol version 2::          
-* 4.1 protocol changes::        
-* 4.1 field packet::            
-* 4.1 field desc::              
-* 4.1 ok packet::               
-* 4.1 end packet::              
-* 4.1 error packet::            
-* 4.1 prep init::               
-* 4.1 long data::               
-* 4.1 execute::                 
-* 4.1 binary result::           
-@end menu
-
-@node raw packet without compression, raw packet with compression, protocol, protocol
-@section Raw Packet Without Compression
-
-@example
-+-----------------------------------------------+
-| Packet Length | Packet no     | Data          |
-| 3 Bytes       | 1 Byte        | n Bytes       |
-+-----------------------------------------------+
-@end example
-
-@table @asis
-@item 3 Byte packet length
-The length is calculated with int3store
-See include/global.h for details.
-The max packetsize can be 16 MB.
-
-@item 1 Byte packet no
-If no compression is used the first 4 bytes of each packet is the header 
-of the packet. The packet number is incremented for each sent packet.
-The first packet starts with 0.
-@item n Byte data 
-
-@end table
-
-The packet length can be recalculated with:
-
-@example
-length = byte1 + (256 * byte2) + (256 * 256 * byte3)
-@end example
-
-
-@node raw packet with compression, basic packets, raw packet without compression, protocol
-@section Raw Packet With Compression
-
-@example
-+---------------------------------------------------+
-| Packet Length | Packet no | Uncomp. Packet Length |
-| 3 Bytes       | 1 Byte    | 3 Bytes               |
-+---------------------------------------------------+
-@end example
-
-@table @asis
-@item 3 Byte packet length
-The length is calculated with int3store
-See include/global.h for details.
-The max packetsize can be 16 MB.
-
-@item 1 Byte packet no
-@item 3 Byte uncompressed packet length
-@end table
-
-If compression is used the first 7 bytes of each packet
-is the header of the packet.
-
-
-@node basic packets, communication, raw packet with compression, protocol
-@section Basic Packets
-
-@menu
-* ok packet::                   
-* error packet::                
-@end menu
-
-
-@node ok packet, error packet, basic packets, basic packets
-@subsection OK Packet
-
-For details, see @file{sql/net_pkg.cc::send_ok()}.
-
-@example
-+-----------------------------------------------+
-| Header        | No of Rows    | Affected Rows |
-|               | 1 Byte        | 1-8 Byte      |
-|-----------------------------------------------|
-| ID (last_insert_id)   | Status | Length       |
-| 1-8 Byte              | 2 Byte | 1-8 Byte     |
-|-----------------------------------------------|
-| Messagetext                                   |
-| n Byte                                        |
-+-----------------------------------------------+
-@end example
-
-@table @asis
-@item Header
-@item 1 byte number of rows ? (always 0 ?)
-@item 1-8 bytes affected rows
-@item 1-8 byte id (last_insert_id) 
-@item 2 byte Status (usually 0)
-@item If the OK-packege includes a message:
-@item 1-8 bytes length of message
-@item n bytes messagetext
-@end table
-
-
-@node error packet,  , ok packet, basic packets
-@subsection Error Packet	
-
-@example
-+-----------------------------------------------+
-| Header        | Status code   | Error no      |
-|               | 1 Byte        | 2 Byte        |
-|-----------------------------------------------|
-| Messagetext                          | 0x00   |
-| n Byte                               | 1 Byte |
-+-----------------------------------------------+
-@end example
-
-@table @asis
-@item Header
-@item 1 byte status code (0xFF = ERROR)
-@item 2 byte error number (is only sent to new 3.23 clients.
-@item n byte errortext
-@item 1 byte 0x00
-@end table
-
-
-@node communication, fieldtype codes, basic packets, protocol
-@section Communication
-
-@example
-> Packet from server to client
-< Paket from client tor server
-
-	Login
-	------
-		> 1. packet	
-		Header
-		1 byte protocolversion
-		n byte serverversion
-		1 byte 0x00
-		4 byte threadnumber 
-		8 byte crypt seed 
-		1 byte 0x00
-		2 byte CLIENT_xxx options (see include/mysql_com.h
-			that is supported by the server
-		1 byte number of current server charset
-		2 byte server status variables (SERVER_STATUS_xxx flags)
-		13 byte 0x00 (not used yet).
-
-		< 2. packet	
-		Header
-		2 byte CLIENT_xxx options
-		3 byte max_allowed_packet for the client
-		n byte username
-		1 byte 0x00
-		8 byte crypted password
-		1 byte 0x00
-		n byte databasename
-		1 byte 0x00 
-
-		> 3. packet	
-		OK-packet
-
-
-	Command
-	--------
-		< 1. packet	
-		Header
-		1 byte command type (e.g.0x03 = query)
-		n byte query
-
-	Result set (after command)
-	--------------------------
-		> 2. packet	
-		Header
-		1-8 byte field_count (packed with net_store_length())
-		
-		If field_count == 0 (command): 
-		1-8 byte affected rows
-		1-8 byte insert id
-		2 bytes server_status (SERVER_STATUS_xx) 		
-		
-		If field_count == NULL_LENGTH (251)
-		LOAD DATA LOCAL INFILE
-
-		If field_count > 0 Result Set:
-
-		> n packets	
-		Header Info
-		Column description: 5 data object /column
-		(See code in unpack_fields())
-		
-		Columninfo for each column:
-			1 data block table_name
-			    1 byte length of block
-			    n byte data
-			1 data block field_name
-			    1 byte length of block...
-			    n byte data
-			1 data block display length of field
-			    1 byte length of block
-			    3 bytes display length of filed
-			1 data block type field of type (enum_field_types)
-			    1 byte length of block
-			    1 bytexs field of type
-			1 data block flags
-			    1 byte length of block
-			    2 byte flags for the columns (NOT_NULL_FLAG, ZEROFILL_FLAG....)
-			    1 byte decimals
-
-		if table definition:
-			1 data block default value
-
-		Actual result (one packet per row):
-		4 byte header
-		1-8 byte length of data
-		n data
-@end example
- 
-@node fieldtype codes, protocol functions, communication, protocol
-@section Fieldtype Codes
-
-@example
-                display_length  |enum_field_type        |flags
-                ----------------------------------------------------
-Blob            03 FF FF 00     |01 FC                  |03 90 00 00
-Mediumblob      03 FF FF FF     |01 FC                  |03 90 00 00
-Tinyblob        03 FF 00 00     |01 FC                  |03 90 00 00
-Text            03 FF FF 00     |01 FC                  |03 10 00 00
-Mediumtext      03 FF FF FF     |01 FC                  |03 10 00 00
-Tinytext        03 FF 00 00     |01 FC                  |03 10 00 00
-Integer         03 0B 00 00     |01 03                  |03 03 42 00
-Mediumint       03 09 00 00     |01 09                  |03 00 00 00
-Smallint        03 06 00 00     |01 02                  |03 00 00 00
-Tinyint         03 04 00 00     |01 01                  |03 00 00 00
-Varchar         03 XX 00 00     |01 FD                  |03 00 00 00
-Enum            03 05 00 00     |01 FE                  |03 00 01 00
-Datetime        03 13 00 00     |01 0C                  |03 00 00 00
-Timestamp       03 0E 00 00     |01 07                  |03 61 04 00
-Time            03 08 00 00     |01 0B                  |03 00 00 00
-Date            03 0A 00 00     |01 0A                  |03 00 00 00
-@end example
-
-@node protocol functions, protocol version 2, fieldtype codes, protocol
-@section Functions used to implement the protocol
-
-@c This should be merged with the above one and changed to texi format
-
-@example
-
-Raw packets
------------
-
-- The my_net_xxxx() functions handles the packaging of a stream of data
-  into a raw packet that contains a packet number, length and data.
-
-- This is implemented for the server in sql/net_serv.cc.
-  The client file, libmysql/net.c, is symlinked to this file
-
-The important functions are:
-
-my_net_write()		Store a packet (= # number of bytes) to be sent
-net_flush()		Send the packets stored in the buffer
-net_write_command()	Send a command (1 byte) + packet to the server.
-my_net_read()		Read a packet
-
-
-Include files
--------------
-
-- include/mysql.h is included by all MySQL clients.  It includes the
-  MYSQL and MYSQL_RES structures.
-- include/mysql_com.h is include by mysql.h and mysql_priv.h (the
-  server) and includes a lot of common functions and structures to
-  handle the client/server protocol.
-
-
-Packets from server to client:
------------------------------
-
-sql/net_pkg.cc:
-
- - Sending of error packets
- - Sending of OK packets (= end of data)
- - Storing of values in a packet
-
-
-sql/sql_base.cc:
-
- - Function send_fields() sends the field description to the client.
-
-sql/sql_show.cc:
-
- - Sends results for a lot of SHOW commands, including:
-   SHOW DATABASES [like 'wildcard']
-   SHOW TABLES    [like 'wildcard']
-
-
-Packets from client to server:
-------------------------------
-
-This is done in libmysql/libmysql.c
-
-The important ones are:
-
-- mysql_real_connect()		Connects to a mysqld server
-- mysql_real_query()		Sends a query to the server and
-				reads the ok packet or columns header.
-- mysql_store_result()		Read a result set from the server to memory
-- mysql_use_result()		Read a result set row by row from the server.
-
-- net_safe_read()		Read a packet from the server with
-				error handling.
-- net_field_length()		Reads the length of a packet string.
-- simple_command()		Sends a command/query to the server.
-
-
-
-Connecting to mysqld (the MySQL server)
----------------------------------------
-
-- On the client side: libmysql/libmysql.c::mysql_real_connect().
-- On the server side: sql/sql_parse.cc::check_connections()
-
-The packets sent during a connection are as follows
-
-Server:  Send greeting package (includes server capabilites, server
-	 version and a random string of bytes to be used to scramble
-	 the password.
-Client:  Sends package with client capabilites, user name, scrambled
-	 password, database name
-
-Server:  Sends ok package or error package.
-
-Client:  If init command specified, send it t the server and read
-	 ok/error package.
-
-
-Password functions
-------------------
-
-The passwords are scrambled to a random number and are stored in hex
-format on the server.
-
-The password handling is done in sql/password.c. The important
-function is 'scramble()', which takes the a password in clear text
-and uses this to 'encrypt' the random string sent by the server
-to a new message.
-
-The encrypted message is sent to the server which uses the stored
-random number password to encrypt the random string sent to the
-client. If this is equal to the new message the client sends to the
-server then the password is accepted.
-@end example
-
-@node protocol version 2, 4.1 protocol changes, protocol functions, protocol
-@section Another description of the protocol
-
-@c This should be merged with the above one and changed to texi format.
-
-@example
-*****************************
-*
-* PROTOCOL OVERVIEW
-*
-*****************************
-
-The MySQL protocol is relatively simple, and is designed for high performance 
-through minimisation of overhead, and extensibility through versioning and 
-options flags. It is a request-response protocol, and does not allow 
-multitasking or multiplexing over a single connection. There are two packet
-formats, 'raw' and 'compressed' (which is used when both client and
-server support zlib compression, and the client requests that data be
-compressed):
-
-* RAW PACKET, shorter than 16 M *
-
-+-----------------------------------------------+
-| Packet Length | Packet no     | Data          |
-| 3 Bytes       | 1 Byte        | n Bytes       |
-+-----------------------------------------------+
-^                               ^
-|          'HEADER'             |
-+-------------------------------+
-
-
- * Packet Length: Calculated with int3store. See include/global.h for 
-                  details. The basic computation is length = byte1 + 
-                  (256 * byte2) + (256 * 256 * byte3). The max packetsize 
-                  can be 16 MB.
-
- * Packet no:     The packet number is incremented for each sent packet.
-                  The first packet for each query from the client
-		  starts with 0.
-
- * Data:          Specific to the operation being performed. Most often
-                  used to send string data, such as a SQL query.
-
-* COMPRESSED PACKET *
-
-+---------------------------------------------------+-----------------+
-| Packet Length | Packet no | Uncomp. Packet Length | Compressed Data |
-| 3 Bytes       | 1 Byte    | 3 Bytes               | n bytes         |
-+---------------------------------------------------+-----------------+
-^                                                   ^
-|                   'HEADER'                        |
-+---------------------------------------------------+
- 
- * Packet Length: Calculated with int3store. See include/my_global.h for 
-                  details. The basic computation is length = byte1 + 
-                  (256 * byte2) + (256 * 256 * byte3). The max packetsize 
-                  can be 16 MB.
-
- * Packet no:     The packet number is incremented for each sent packet.
-                  The first packet starts with 0.
-
- * Uncomp. Packet Length: The length of the original, uncompressed packet
-   If this is zero then the data is not compressed.
-   
- * Compressed Data: The original packet, compressed with zlib compression
-
-
-When using the compressed protocol, the client/server will only compress
-send packets where the new packet is smaller than the not compressed one.
-In other words, some packets may be compressed while others will not.
-
-The 'compressed data' is one or more packets in *RAW PACKET* format.
-
-*****************************
-*
-* FLOW OF EVENTS
-*
-*****************************
-
-To understand how a client communicates with a MySQL server, it is easiest 
-to start with a high-level flow of events. Each event section will then be 
-followed by details of the exact contents of each type of packet involved
-in the event flow.
-
-*                          *
-* CONNECTION ESTABLISHMENT *
-*                          *
-
-Clients connect to the server via a TCP/IP socket (port 3306 by default), a 
-Unix Domain Socket, or named pipes (on Windows). Once connected, the 
-following connection establishment sequence is followed:
-
-+--------+                                                           +--------+
-| Client |                                                           | Server |
-+--------+                                                           +--------+
-    |                                                                     |
-    |    Handshake initialisation, including MySQL server version,        |
-    |    protocol version and options supported, as well as the seed      |
-    |    for the password hash                                            |
-    |                                                                     |
-    |   <--------------------------------------------------------------   |
-    |                                                                     |
-    |    Client options supported, max packet size for client             |
-    |    username, password crypted with seed from server, database       |
-    |    name.                                                            |
-    |                                                                     |
-    |   -------------------------------------------------------------->   |
-    |                                                                     |
-    |    'OK' packet if authentication succeeds, 'ERROR' packet if        |
-    |    authentication fails.                                            |
-    |                                                                     |
-    |   <--------------------------------------------------------------   |
-    |                                                                     |
-
-
-
-* HANDSHAKE INITIALISATION PACKET *
-
-
-+--------------------------------------------------------------------+
-| Header        | Prot. Version | Server Version String | 0x00       |  
-|               | 1 Byte        | n bytes		| 1 byte     |
-|--------------------------------------------------------------------|
-| Thread Number | Crypt Seed | 0x00    | CLIENT_xxx options          |
-|               |            |         | supported by server         |
-| 4 Bytes       | 8 Bytes    | 1 Byte  | 2 Bytes                     |
-|--------------------------------------------------------------------|
-| Server charset no.  | Server status variables | 0x00 padding       |
-| 1 Byte              | 2 Bytes                 | 13 bytes           |
-+--------------------------------------------------------------------+
-
- * Protocol version (currently '10')
- * Server Version String (e.g. '4.0.5-beta-log').  Can be any length as
-   it's followed by a 0 byte.
- * Thread Number - ID of server thread handling this connection
- * Crypt seed - seed used to crypt password in auth packet from client
- * CLIENT_xxx options - see include/mysql_com.h
- * Server charset no. - Index of charset in use by server
- * Server status variables - see include/mysql_com.h
- * The padding bytes are reserverd for future extensions to the protocol
-
-* CLIENT AUTH PACKET *
-
-
-+--------------------------------------------------------------------+
-| Header        | CLIENT_xxx options supported | max_allowed_packet  |
-|               | by client                    | for client          |
-|               | 4 Bytes                      | 4 bytes             |
-|--------------------------------------------------------------------|
-| Character set | Reserved for the future			     |
-| 1 Bytes       | 23 bytes                                           |
-|--------------------------------------------------------------------|
-| User Name | 0x00   | Crypted Password | 0x00   | Database Name     |
-| n Bytes   | 1 Byte | 8 Bytes          | 1 Byte | n Bytes           |
-|--------------------------------------------------------------------|
-| 0x00                                                               |
-| 1 Byte                                                             |
-+--------------------------------------------------------------------+
-
- * CLIENT_xxx options that this client supports:
-
-#define CLIENT_LONG_PASSWORD    1       /* new more secure passwords */
-#define CLIENT_FOUND_ROWS       2       /* Found instead of affected rows */
-#define CLIENT_LONG_FLAG        4       /* Get all column flags */
-#define CLIENT_CONNECT_WITH_DB  8       /* One can specify db on connect */
-#define CLIENT_NO_SCHEMA        16      /* Don't allow database.table.column */
-#define CLIENT_COMPRESS         32      /* Can use compression protocol */
-#define CLIENT_ODBC             64      /* Odbc client */
-#define CLIENT_LOCAL_FILES      128     /* Can use LOAD DATA LOCAL */
-#define CLIENT_IGNORE_SPACE     256     /* Ignore spaces before '(' */
-#define CLIENT_INTERACTIVE      1024    /* This is an interactive client */
-#define CLIENT_SSL              2048     /* Switch to SSL after handshake */
-#define CLIENT_IGNORE_SIGPIPE   4096     /* IGNORE sigpipes */
-#define CLIENT_TRANSACTIONS     8192    /* Client knows about transactions */
-
- * max_allowed_packet for the client (in 'int3store' form)
- * User Name - user to authenticate as.  Is followed by a null byte.
- * Crypted Password - password crypted with seed given in packet from
-                      server, see scramble() in sql/password.c
- * Database name (optional) - initial database to use once connected
-   Is followed by a null byte
-
-At the end of every client/server exchange there is either an 'OK' packet
-or an 'ERROR' packet sent from the server. To determine whether a packet is
-an 'OK' packet, or an 'ERROR' packet, check if the first byte (after the 
-header) is 0xFF. If it has the value of 0xFF, the packet is an 'ERROR'
-packet.
-
-
-* OK PACKET *
-
-For details, see sql/net_pkg.cc::send_ok()
-
-+-----------------------------------------------+
-| Header        | No of Rows    | Affected Rows |
-|               | 1 Byte        | 1-9 Byte      |
-|-----------------------------------------------|
-| ID (last_insert_id)   | Status | Length       |
-| 1-9 Byte              | 2 Byte | 1-9 Byte     |
-|-----------------------------------------------|
-| Messagetext                                   |
-| n Byte                                        |
-+-----------------------------------------------+
-
- * Number of rows, always 0 
- * Affected rows
- * ID (last_insert_id) - value for auto_increment column (if any) 
- * Status (usually 0)
-
-In general, in the MySQL protocol, fields in a packet that that 
-represent numeric data, such as lengths, that are labeled as '1-9' 
-bytes can be decoded by the following logic:
-
-	If the first byte is '251', the
-        corresponding column value is NULL (only appropriate in 
-        'ROW DATA' packets).
-
-	If the first byte is '252', the value stored can be read
-        from the following 2 bytes as a 16-bit integer.
-                
-
-        If the first byte is '253' the value stored can be read
-        from the following 4 bytes as a 32-bit long integer
-
-          
-        If the first byte is '254', the value stored can be read
-        from the following 8 bytes as a 64-byte long
-                
-	Otherwise (values 0-250), the value stored is the value of the
-	first byte itself.
-
-
-If the OK-packet includes a message:
-
- * Length of message
- * Message Text
-
-
-* ERROR PACKET *
-
-+-----------------------------------------------+
-| Header        | Status code   | Error no      |
-|               | 1 Byte        | 2 Byte        |
-|-----------------------------------------------|
-| Messagetext                          |        |
-| n Byte                               |        |
-+-----------------------------------------------+
-
- * Status code (0xFF = ERROR)
- * Error number (is only sent to 3.23 and newer clients)
- * Error message text (ends at end of packet)
-
-Note that the error message is not null terminated.
-The client code can however assume that the packet ends with a null
-as my_net_read() will always add an end-null to all read packets to
-make things easier for the client.
-
-Example:
-
-Packet dump of client connecting to server:
-
-+------------------------- Protocol Version (10)
-|
-|  +---------------------- Server Version String (0x00 terminated)
-|  |
-|  |
-0a 34 2e 30 2e 35 2d 62     . 4 . 0 . 5 - b 
-65 74 61 2d 6c 6f 67 00     e t a - l o g . 
-15 00 00 00 2b 5a 65 6c     . . . . + Z e l 
- |           |
- |           +------------ First 4 bytes of crypt seed
- | 
- +------------------------ Thread Number
-
-+------------------------- Last 4 bytes of crypt seed
-|
-|                +-------- CLIENT_XXX Options supported by server
-|                |
-|              +-+--+ +--- Server charset index
-|              |    | |
-6f 69 41 46 00 2c 28 08     o i A F . , ( . 
-02 00 00 00 00 00 00 00     . . . . . . . . 
-|  |
-|  +---------------------- 0x00 padding begins
-|
-+------------------------- Server status (0x02 = 
-                           SERVER_STATUS_AUTOCOMMIT)
-
-00 00 00 00 00 00 00 00     . . . . . . . . 
-
-* Client Authentication Response (Username 'test', no database
-  selected) *
-
-    +--------------------- Packet Length (0x13 = 19 bytes)
-    |
-    |     +--------------- Packet Sequence #
-    |     |
-    |     |   +----------- CLIENT_XXX Options supported by client 
-          |   |
-+---+---+ | +-+-+
-|       | | |   |
-13 00 00 01 03 00 1e 00     . . . . . . . . 
-00 74 65 73 74 00 48 5e     . t e s t . H ^
-   |          |   |
-   +----+-----+   +------- Scrambled password, 0x00 terminated
-        |
-        +----------------- Username, 0x00 terminated
-  
-57 4a 4e 41 4a 4e 00 00     W J N A J N . . 
-00                          . 
-
-
->From this point on, the server waits for 'commands' from the client
-which include queries, database shutdown, quit, change user, etc (see
-the COM_xxxx values in include/mysql_com.h for the latest 
-command codes). 
-
-*                    *
-* COMMAND PROCESSING *
-*                    *
-
-+--------+                                                           +--------+
-| Client |                                                           | Server |
-+--------+                                                           +--------+
-    |                                                                     |
-    |    A command packet, with a command code, and string data           |
-    |    when appropriate (e.g. a query), (see the COM_xxxx values        |
-    |    in include/mysql_com.h for the command codes)                    |
-    |                                                                     |
-    |   -------------------------------------------------------------->   |
-    |                                                                     |
-    |    A 'RESULT' packet if the command completed successfully,         |
-    |    an 'ERROR' packet if the command failed. 'RESULT' packets        |
-    |    take different forms (see the details following this chart)      |
-    |    depending on whether or not the command returns rows.            |
-    |                                                                     |
-    |   <--------------------------------------------------------------   |
-    |                                                                     |
-    |    n 'FIELD PACKET's (if rows are returned)                         |
-    |                                                                     |
-    |   <--------------------------------------------------------------   |
-    |                                                                     |
-    |    'LAST DATA' packet                                               |
-    |                                                                     |
-    |   <--------------------------------------------------------------   |
-    |                                                                     |
-    |    n 'ROW PACKET's (if rows are returned)                           |
-    |                                                                     |
-    |   <--------------------------------------------------------------   |
-    |                                                                     |
-    |    'LAST DATA' packet                                               |
-    |                                                                     |
-    |   <--------------------------------------------------------------   |
-    |                                                                     |
-
-
-* Command Packet *
-
-+------------------------------------------------------+
-| Header        | Command type | Query (if applicable) |
-|               | 1 Byte       | n Bytes               |
-+------------------------------------------------------+
-
- * Command type:  (e.g.0x03 = query, see the COM_xxxx values in 
-                   include/mysql_com.h)
- * Query (if applicable)
-
-Note that my_net_read() null-terminates all packets on the
-receiving side of the channel to make it easier for the code
-examining the packets.
-
-The current command codes are:
-
-   0x00   COM_SLEEP
-   0x01   COM_QUIT
-   0x02   COM_INIT_DB
-   0x03   COM_QUERY
-   0x04   COM_FIELD_LIST
-   0x05   COM_CREATE_DB
-   0x06   COM_DROP_DB
-   0x07   COM_REFRESH
-   0x08   COM_SHUTDOWN
-   0x09   COM_STATISTICS
-   0x0a   COM_PROCESS_INFO
-   0x0b   COM_CONNECT
-   0x0c   COM_PROCESS_KILL
-   0x0d   COM_DEBUG
-   0x0e   COM_PING
-   0x0f   COM_TIME
-   0x10   COM_DELAYED_INSERT
-   0x11   COM_CHANGE_USER
-   0x12   COM_BINLOG_DUMP
-   0x13   COM_TABLE_DUMP 
-   0x14   COM_CONNECT_OUT
-   0x15   COM_REGISTER_SLAVE
-
-* Result Packet *
-
-Result packet for a command returning _no_ rows:
-
-+-----------------------------------------------+
-| Header        | Field Count   | Affected Rows |
-|               | 1-9 Bytes     | 1-9 Bytes     |
-|-----------------------------------------------|
-| ID (last_insert_id)   | Server Status         |
-| 1-9 Bytes             | 2 Bytes               |
-+-----------------------------------------------+
-
- * Field Count: Has value of '0' for commands returning _no_ rows
- * Affected rows: Count of rows affected by INSERT/UPDATE/DELETE, etc.
- * ID: value of auto_increment column in row (if any).  0 if 
- * Server Status: Usually 0
-
-Result packet for a command returning rows:
-
-+-------------------------------+
-| Header        | Field Count   |
-|               | 1-9 Bytes     |
-+-------------------------------+
-
- * Field Count: number of columns/fields in result set,
-                 (packed with net_store_length() in sql/net_pkg.cc)
-
-This is followed by as many packets as the number of fields ('Field Count')
-that contain the metadata for each column/field (see unpack_fields() in 
-libmysql/libmysql.c):
-
-
-* FIELD PACKET *
-
-+-----------------------------------------------+
-| Header        | Table Name		        |
-|               | length-coded-string           |
-|-----------------------------------------------|
-| Field Name					|
-| length-code-string				|
-|-----------------------------------------------|
-| Display length of field
-| length-coded-binary (4 bytes)			|
-|-----------------------------------------------|
-| Field Type (enum_field_types in mysql_com.h)  |
-| length-coded-binary (2 bytes)			|
-|-----------------------------------------------|
-| Field Flags	                | Decimal Places|
-| length-coded-binary (3 bytes) | 1 Byte        |
-+--------------+-------------+------------------+
-
- * A length coded string is a string where we first have a packet
-   length (1-9 bytes, packed_with net_store_length()) followed
-   by a string.
- * A length coded binary is a length (1 byte) followed by an integer
-   value in low-byte-first order.  For the moment this type is always
-   fixed length in this packet.
-
- * Table Name - the name of the table the column comes from
- * Field Name - the name of the column/field
- * Display length of field - length of field
- * Field Type - Type of field, see enum_field_types in 
-                include/mysql_com.h
-
-   Current field types are:
-
-      0x00   FIELD_TYPE_DECIMAL 
-      0x01   FIELD_TYPE_TINY
-      0x02   FIELD_TYPE_SHORT  
-      0x03   FIELD_TYPE_LONG
-      0x04   FIELD_TYPE_FLOAT  
-      0x05   FIELD_TYPE_DOUBLE
-      0x06   FIELD_TYPE_NULL
-      0x07   FIELD_TYPE_TIMESTAMP
-      0x08   FIELD_TYPE_LONGLONG
-      0x09   FIELD_TYPE_INT24
-      0x0a   FIELD_TYPE_DATE   
-      0x0b   FIELD_TYPE_TIME
-      0x0c   FIELD_TYPE_DATETIME
-      0x0d   FIELD_TYPE_YEAR
-      0x0e   FIELD_TYPE_NEWDATE
-      0xf7   FIELD_TYPE_ENUM
-      0xf8   FIELD_TYPE_SET
-      0xf9   FIELD_TYPE_TINY_BLOB
-      0xfa   FIELD_TYPE_MEDIUM_BLOB
-      0xfb   FIELD_TYPE_LONG_BLOB
-      0xfc   FIELD_TYPE_BLOB
-      0xfd   FIELD_TYPE_VAR_STRING
-      0xfe   FIELD_TYPE_STRING
-      0xff   FIELD_TYPE_GEOMETRY
-
- * Field Flags - NOT_NULL_FLAG, PRI_KEY_FLAG, xxx_FLAG in 
-                 include/mysql_com.h
-
-
-Note that the packet format in 4.1 has slightly changed to allow more values.
-
-
-* ROW PACKET *
-
-+-----------------------------------------------+
-| Header        | Data Length   | Column Data   | ....for each column
-|               | 1-9 Bytes     | n Bytes       |
-+-----------------------------------------------+
-
- * Data Length: (packed with net_store_length() in sql/net_pkg.cc)
-                
-		If 'Data Length' == 0, this is an 'ERROR PACKET'.
-		
- * Column Data: String representation of data. MySQL always sends result set
-                data as strings.
-
-* LAST DATA PACKET *
-
-Packet length is < 9 bytes, and first byte is 0xFE
-
-+--------+
-| 0xFE   |
-| 1 Byte |
-+--------+
-
-Examples:
-
-***********
-*
-* INITDB Command
-*
-***********
-
-A client issuing an 'INITDB' (select the database to use) command,
-followed by an 'OK' packet with no rows and no affected rows from
-the server:
-
-* INITDB (select database to use) 'COMMAND' Packet *
-
-    +--------------------- Packet Length (5 bytes)
-    |
-    |     +--------------- Packet Sequence #
-    |     |
-    |     |  +------------ Command # (INITDB = 0x02)
-          |  |
-+---+---+ |  | +---------- Beginning of query data
-|       | |  | |
-05 00 00 00 02 74 65 73     . . . . . t e s 
-74                          t 
-
-* 'OK' Packet with no rows, and no rows affected *
-
-    +--------------------- Packet Length (3 bytes)
-    |
-    |     +--------------- Packet Sequence #
-    |     | 
-+---+---+ |
-|       | |
-03 00 00 01 00 00 00        . . . . . . .
-
-
-***********
-*
-* SELECT query example
-*
-***********
-
-Client issuing a 'SELECT *' query on the following table:
-
-    CREATE TABLE number_test (minBigInt bigint, 
-                              maxBigInt bigint, 
-                              testBigInt bigint)
-
-* 'COMMAND' Packet with QUERY (select ...) *
-
-    +--------------------- Packet Length (26)
-    |
-    |     +--------------- Packet Sequence #
-    |     |
-    |     |  +------------ Command # (QUERY = 0x03)
-          |  |
-+---+---+ |  | +---------- Beginning of query data
-|       | |  | |
-1a 00 00 00 03 53 45 4c     . . . . . S E L 
-45 43 54 20 2a 20 66 72     E C T . * . f r 
-6f 6d 20 6e 75 6d 62 65     o m . n u m b e 
-72 5f 74 65 73 74           r _ t e s t 
-
-
-and receiving an 'OK' packet with a 'FIELD COUNT' of 3
-
-
-* 'OK' Packet with 3 fields *
-
-    +--------------------- Packet Length (3 bytes)
-    |
-    |     +--------------- Packet Sequence #
-    |     | 
-+---+---+ |
-|       | |
-01 00 00 01 03              . . . . . 
-
-Followed immediately by 3 'FIELD' Packets. Note, the individual packets 
-are delimitted by =======, so that all fields can be annotated in the first
-'FIELD' packet example:
-
-=============================================================
-
-    +--------------------- Packet Length (0x1f = 31 bytes)
-    |
-    |     +--------------- Packet Sequence #
-    |     | 
-    |     |  +------------ Block Length (0x0b = 11 bytes)
-    |     |  |   
-+---+---+ |  |  +--------- Table Name (11 bytes long)
-|       | |  |  |
-1f 00 00 02 0b 6e 75 6d     . . . . . n u m  
-62 65 72 5f 74 65 73 74     b e r _ t e s t 
-
- +------------------------ Block Length (9 bytes)
- |
- |  +--------------------- Column Name (9 bytes long)
- |  |
-09 6d 69 6e 42 69 67 49     . m i n B i g I     
-6e 74 03 14 00 00 01 08     n t . . . . . .
-       | |       | |  |
-       | +---+---+ |  +--- Field Type (0x08 = FIELD_TYPE_LONGLONG)
-       |     |     |
-       |     |     +------ Block Length (1)
-       |     |
-       |     +--------------- Display Length (0x14 = 20 chars)
-       |
-       +------------------ Block Length (3)
-
- +------------------------ Block Length (2)
- |
- |   +-------------------- Field Flags (0 - no flags set)
- |   | 
- | +---+  +--------------- Decimal Places (0)
- | |   |  |
-02 00 00 00                 . . . .                                  
-
-=============================================================
-
-'FIELD' packet for the 'number_Test.maxBigInt' column
-
-1f 00 00 03 0b 6e 75 6d     . . . . . n u m
-62 65 72 5f 74 65 73 74     b e r _ t e s t
-09 6d 61 78 42 69 67 49     . m a x B i g I
-6e 74 03 14 00 00 01 08     n t . . . . . .
-02 00 00 00                 . . . .
-        
-=============================================================                    
-
-'FIELD' packet for the 'number_test.testBigInt' column
-
-20 00 00 04 0b 6e 75 6d     . . . . . n u m
-62 65 72 5f 74 65 73 74     b e r _ t e s t 
-0a 74 65 73 74 42 69 67     . t e st B i g
-49 6e 74 03 14 00 00 01     I n t . . . . .
-08 02 00 00 00              . . . . .
-============================================================= 
-
-Followed immediately by one 'LAST DATA' packet:
-
-fe 00                       . .
-
-Followed immediately by 'n' row packets (in this case, only
-one packet is sent from the server, for simplicity's sake):
-
-
-    +--------------------- Packet Length (0x52 = 82 bytes)
-    |
-    |     +--------------- Packet Sequence #
-    |     | 
-    |     |  +------------ Data Length (0x14 = 20 bytes)
-    |     |  |   
-+---+---+ |  |  +--------- String Data '-9223372036854775808'
-|       | |  |  |          (repeat Data Length/Data sequence)
-
-52 00 00 06 14 2d 39 32     . . . . . - 9 2
-32 33 33 37 32 30 33 36     2 3 3 7 2 0 3 6
-38 35 34 37 37 35 38 30     8 5 4 7 7 5 8 0
-38 13 39 32 32 33 33 37     8 . 9 2 2 3 3 7
-32 30 33 36 38 35 34 37     2 0 3 6 8 5 4 7
-37 35 38 30 37 0a 36 31     7 5 8 0 7 . 6 1
-34 37 34 38 33 36 34 37     4 7 4 8 3 6 4 7
-
-Followed immediately by one 'LAST DATA' packet:
-
-fe 00                       . .
-@end example
-
-
-@c The Index was empty, and ugly, so I removed it. (jcole, Sep 7, 2000)
-
-@c @node Index
-@c @unnumbered Index
-
-@c @printindex fn
-
-@c @node 4.1 protocol,,,
-@c @chapter MySQL 4.1 protocol
-
-@node 4.1 protocol changes, 4.1 field packet, protocol version 2, protocol
-@section Changes to 4.0 protocol in 4.1
-
-All basic packet handling is identical to 4.0. When communication
-with an old 4.0 or 3.x client we will use the old protocol.
-
-The new things that we support with 4.1 are:
-
-@itemize @bullet
-@item
-Warnings
-@item
-Prepared statements
-@item
-Binary protocol (is be faster than the current protocol that
-converts everything to strings)
-@end itemize
-
-
-What has changed in 4.1 are:
-
-@itemize @bullet
-@item
-A lot of new field information (catalog, database, real table name etc)
-@item
-The 'ok' packet has more status fields
-@item
-The 'end' packet (send last for each result set) now contains some
-extra information
-@item
-New protocol for prepared statements.  In this case all parameters and
-results will sent as binary (low-byte-first).
-@end itemize
-
-
-@node 4.1 field packet, 4.1 field desc, 4.1 protocol changes, protocol
-@section 4.1 field description packet
-
-The field description packet is sent as a response to a query that
-contains a result set.  It can be distinguished from a ok packet by
-the fact that the first byte can't be 0 for a field packet.
-@xref{4.1 ok packet}.
-
-The header packet has the following structure:
-
-@multitable @columnfractions .10 .90
-@item Size @tab Comment
-@item 1-9  @tab Number of columns in result set (never 0)
-@item 1-9  @tab Extra information sent be some command (SHOW COLUMNS
-uses this to send the number of rows in the table)
-@end multitable
-
-This packet is always followed by a field description set.
-@xref{4.1 field desc}.
-
-@node 4.1 field desc, 4.1 ok packet, 4.1 field packet, protocol
-@section 4.1 field description result set
-
-The field description result set contains the meta info for a result set.
-
-@multitable @columnfractions .20 .80
-@item Type   @tab Comment
-@item string @tab Catalog name (for 5.x)
-@item string @tab Database name
-@item string @tab Table name alias (or table name if no alias)
-@item string @tab Real table name
-@item string @tab Alias for column name (or column name if not used)
-
-@item 12 byte @tab Fixed length fields in one field part:
-@itemize
-@item 2 byte int @tab Character set number
-@item 4 byte int @tab Length of column definition
-@item 1 byte int @tab Enum value for field type
-@item 3 byte int @tab 2 byte column flags (NOT_NULL_FLAG etc..) + 1 byte number of decimals.
-@item 2 byte int @tab zero (reserved for future use)
-@end itemize
-
-@item string int @tab Default value, only set when using mysql_list_fields().
-@end multitable
-
-
-@node 4.1 ok packet, 4.1 end packet, 4.1 field desc, protocol
-@section 4.1 ok packet
-
-The ok packet is the first that is sent as an response for a query
-that didn't return a result set.
-
-The ok packet has the following structure:
-
-@multitable @columnfractions .10 .90
-@item Size @tab Comment
-@item 1	  @tab  0 ; Marker for ok packet
-@item 1-9 @tab	Affected rows
-@item 1-9 @tab  Last insert id (0 if one wasn't used)
-@item 2   @tab  Server status; Can be used by client to check if we are inside an transaction
-@item 2	  @tab  Warning count
-@item 1-9 @tab  Message length (optional)
-@item xxx @tab  Message (optional)
-@end multitable
-
-Size 1-9 means that the parameter is packed in to 1-9 bytes depending on
-the value.  (See function sql/net_pkg.cc::net_store_length).
-
-The message is optional.  For example for multi line INSERT it
-contains a string for how many rows was inserted / deleted.
-
-
-@node 4.1 end packet, 4.1 error packet, 4.1 ok packet, protocol
-@section 4.1 end packet
-
-The end packet is sent as the last packet for
-
-@itemize @bullet
-@item
-End of field information
-@item
-End of parameter type information
-@item
-End of result set
-@end itemize
-
-The end packet has the following structure:
-
-@multitable @columnfractions .10 .90
-@item Size @tab Comment
-@item 1	   @tab 254  ; Marker for EOF packet
-@item 2	   @tab Warning count
-@item 2	   @tab Status flags (For flags like SERVER_STATUS_MORE_RESULTS)
-@end multitable
-
-Note that a normal packet may start with byte 254, which means
-'length stored in 9 bytes'.  One can different between these cases
-by checking the packet length < 9 bytes (in which case it's and end
-packet).
-
-
-@node 4.1 error packet, 4.1 prep init, 4.1 end packet, protocol
-@section 4.1 error packet.
-
-The error packet is sent when something goes wrong.
-The error packet has the following structure:
-
-@multitable @columnfractions .10 .90
-@item Size  @tab Comment
-@item 1	    @tab 255  Error packet marker
-@item 2	    @tab Error code
-@item 1	    @tab '#' marker that SQLSTATE follows
-@item 6     @tab SQLSTATE code (000000 for many messages)
-@item 1-512 @tab Null terminated error message
-@end multitable
-
-The client/server protocol is designed in such a way that a packet
-can only start with 255 if it's an error packet.
-
-
-@node 4.1 prep init, 4.1 long data, 4.1 error packet, protocol
-@section 4.1 prepared statement init packet
-
-This is the return packet when one sends a query with the COM_PREPARE
-command (packet length is always '9').
-
-@multitable @columnfractions .10 .90
-@item Size @tab Comment
-@item 1    @tab 0 ; Marker for OK packet
-@item 4	   @tab Statement handler id
-@item 2	   @tab Number of columns in result set
-@item 2	   @tab Number of parameters in query
-@end multitable
-
-After this, there is a packet that contains the following for each
-parameter in the query:
-
-@multitable @columnfractions .10 .90
-@item Size @tab Comment
-@item 2	@tab Enum value for field type. (MYSQL_TYPE_UNKNOWN if not known)
-@item 2 @tab 2 byte column flags (NOT_NULL_FLAG etc)
-@item 1 @tab Number of decimals
-@item 4 @tab Max column length.
-@end multitable
-
-Note that the above is not yet in 4.1 but will be added this month.
-
-As MySQL can have a parameter 'anywhere' it will in many cases not be
-able to provide the optimal information for all parameters.
-
-If number of columns, in the header packet, is not 0 then the
-prepared statement will contain a result set. In this case the packet
-is followed by a field description result set. @xref{4.1 field desc}.
-
-
-@node 4.1 long data, 4.1 execute, 4.1 prep init, protocol
-@section 4.1 long data handling
-
-This is used by mysql_send_long_data() to set any parameter to a string
-value.  One can call mysql_send_long_data() multiple times for the
-same parameter; The server will concatenate the results to a one big
-string.
-
-The server will not require an end packet for the string.
-mysql_send_long_data() is responsible updating a flag that all data
-has been sent. (Ie;  That the last call to mysql_send_long_data() has
-the 'last_data' flag set).
-
-This packet is sent from client -> server:
-
-@multitable @columnfractions .10 .90
-@item Size @tab Comment
-@item 4	@tab Statement handler
-@item 2 @tab Parameter number
-@item 2 @tab Type of parameter  (not used at this point)
-@item # @tab data (Rest of packet)
-@end multitable
-
-The server will NOT send an @code{ok} or @code{error} packet in
-responce for this.  If there is any errors (like to big string), one
-will get the error when calling execute.
-
-@node 4.1 execute, 4.1 binary result, 4.1 long data, protocol
-@section 4.1 execute
-
-On execute we send all parameters to the server in a COM_EXECUTE
-packet.
-
-The packet contains the following information:
-
-@multitable @columnfractions .30 .70
-@item Size @tab Comment
-@item (param_count+9)/8 @tab Null bit map (2 bits reserved for protocol)
-@item 1	   @tab new_parameter_bound flag.  Is set to 1 for first
-execute or if one has rebound the parameters.
-@item 2*param_count     @tab Type of parameters (only given if new_parameter_bound flag is 1)
-@item #    @tab Parameter data, repeated for each parameter that are
-NOT NULL and not used with mysql_send_long_data().
-@end multitable
-
-The null-bit-map is for all parameters (including parameters sent with
-'mysql_send_long_data). If parameter 0 is NULL, then bit 0 in the
-null-bit-map should be 1 (ie:  first byte should be 1)
-
-The parameters are stored the following ways:
-
-@multitable @columnfractions .20 .10 .70
-@item Type    @tab Size @tab Comment
-@item tinyint @tab 1	@tab One byte integer
-@item short   @tab 2	@tab
-@item int     @tab 4	@tab
-@item longlong @tab 8	@tab
-@item float   @tab 4	@tab
-@item double  @tab 8	@tab
-@item string  @tab 1-9 + # @tab Packed string length + string
-@end multitable
-
-The result for this will be either an ok packet or a binary result
-set.
-
-@node 4.1 binary result,  , 4.1 execute, protocol
-@section 4.1 binary result set
-
-A binary result are sent the following way.
-
-For each result row:
-
-@itemize
-@item
-null bit map with first two bits set to 01 (bit 0,1 value 1)
-@item
-parameter data, repeated for each not null result column.
-@end itemize
-
-The idea with the reserving two bits in the null map is that we can
-use standard error (first byte 255) and ok packets (first byte 0)
-to end a result sets.
-
-Except that the null-bit-map is shifted two steps, the server is
-sending the data to the client the same way that the server is sending
-bound parameters to the client.  The server is always sending the data
-as type given for 'column type' for respective column.  It's up to the
-client to convert the parameter to the requested type.
-
-DATETIME, DATE and TIME are sent to the server in a binary format as follows:
-
-@multitable @columnfractions .20 .10 .70
-@item Type    @tab Size @tab Comment
-@item date    @tab 1 + 0-11 @tab Length + 2 byte year, 1 byte MMDDHHMMSS, 4 byte billionth of a second
-@item datetime    @tab 1 + 0-11 @tab Length + 2 byte year, 1 byte MMDDHHMMSS, 4 byte billionth of a second
-@item time    @tab 1 + 0-14 @tab Length + sign (0 = pos, 1= neg), 4 byte days, 1 byte HHMMDD, 4 byte billionth of a second
-@end multitable
-
-The first byte is a length byte and then comes all parameters that are
-not 0. (Always counted from the beginning).
-
-@node Fulltext Search, MyISAM Record Structure, protocol, Top
-@chapter Fulltext Search in MySQL
-
-Hopefully, sometime there will be complete description of
-fulltext search algorithms.
-Now it's just unsorted notes.
-
-@menu
-* Weighting in boolean mode::   
-@end menu
-
-@node Weighting in boolean mode,  , Fulltext Search, Fulltext Search
-@section Weighting in boolean mode
-
-The basic idea is as follows: in expression
-@code{A or B or (C and D and E)}, either @code{A} or @code{B} alone
-is enough to match the whole expression. While @code{C},
-@code{D}, and @code{E} should @strong{all} match. So it's
-reasonable to assign weight 1 to @code{A}, @code{B}, and
-@code{(C and D and E)}. And @code{C}, @code{D}, and @code{E}
-should get a weight of 1/3.
-
-Things become more complicated when considering boolean
-operators, as used in MySQL FTB. Obvioulsy, @code{+A +B}
-should be treated as @code{A and B}, and @code{A B} -
-as @code{A or B}. The problem is, that @code{+A B} can @strong{not}
-be rewritten in and/or terms (that's the reason why this - extended -
-set of operators was chosen). Still, aproximations can be used.
-@code{+A B C} can be approximated as @code{A or (A and (B or C))}
-or as @code{A or (A and B) or (A and C) or (A and B and C)}.
-Applying the above logic (and omitting mathematical
-transformations and normalization) one gets that for
-@code{+A_1 +A_2 ... +A_N B_1 B_2 ... B_M} the weights
-should be: @code{A_i = 1/N}, @code{B_j=1} if @code{N==0}, and,
-otherwise, in the first rewritting approach @code{B_j = 1/3},
-and in the second one - @code{B_j = (1+(M-1)*2^M)/(M*(2^(M+1)-1))}.
-
-The second expression gives somewhat steeper increase in total
-weight as number of matched B's increases, because it assigns
-higher weights to individual B's. Also the first expression in
-much simplier. So it is the first one, that is implemented in MySQL.
-
-
-@node MyISAM Record Structure, InnoDB Record Structure, Fulltext Search, Top
-@chapter MyISAM Record Structure
-
-@section Introduction
-
-When you say:
-@*
-
-@strong{CREATE TABLE Table1 ...}
-@*
-
-MySQL creates files named Table1.MYD ("MySQL Data"), Table1.MYI
-("MySQL Index"), and Table1.frm ("Format"). These files will be in the
-directory: @*
-/<datadir>/<database>/
-@*
-
-For example, if you use Linux, you might find the files here (assume
-your database name is "test"): @*
-/usr/local/var/test
-@*
-
-And if you use Windows, you might find the files in this directory: @*
-\mysql\data\test\
-@*@*
-
-Let's look at the .MYD Data file (MyISAM SQL Data file) more closely.
-There are three possible formats -- fixed, dynamic, and packed. First, 
-let's discuss the fixed format.
-
-
-@table @strong
-@item Page Size
-Unlike most DBMSs, MySQL doesn't store on disk using pages. Therefore
-you will not see filler space between rows. (Reminder: This does not
-refer to BDB and InnoDB tables, which do use pages).
-@*
-
-@item Record Header
-The minimal record header is a set of flags:
-@itemize @bullet
-@item
-"X bit"  =  0 if row is deleted, = 1 if row is not deleted
-@item
-"Null Bits"  =  0 if column is not NULL, = 1 if column is NULL
-@item
-"Filler Bits"  = 1
-@end itemize
-@end table
-@*
-
-The length of the record header is thus:@*
-(1 + number of NULL columns + 7) / 8 bytes@*
-After the header, all columns are stored in
-the order that they were created, which is the
-same order that you would get from SHOW COLUMNS.
-
-Here's an example. Suppose you say:
-@*
-
-@strong{CREATE TABLE Table1 (column1 CHAR(1), column2 CHAR(1), column3 CHAR(1))}
-@*
-
-@strong{INSERT INTO Table1 VALUES ('a', 'b', 'c')}
-@*
-
-@strong{INSERT INTO Table1 VALUES ('d', NULL, 'e')}
-@*
-
-A CHAR(1) column takes precisely one byte (plus one bit of overhead
-that is assigned to every column -- I'll describe the details of
-column storage later). So the file Table1.MYD looks like this:
-@*
-
-@strong{Hexadecimal Display of Table1.MYD file}@*
-@code{
-F1 61 62 63 00 F5 64 00 66 00              ... .abc..d e.
-}
-@*
-
-Here's how to read this hexadecimal-dump display:@*
-@itemize @bullet
-@item
-The hexadecimal numbers @code{F1 61 62 63 00 F5 64 20 66 00} are byte
-values and the column on the right is an attempt to show the
-same bytes in ASCII.
-@item
-The @code{F1} byte means that there are no null fields in the first row.
-@item
-The @code{F5} byte means that the second column of the second row is NULL.
-@end itemize
-
-(It's probably easier to understand the flag setting if you restate
-@code{F5} as @code{11110101 binary}, and (a) notice that the third flag bit from the
-right is @code{on}, and (b) remember that the first flag bit is the X bit.)
-@*
-
-There are complications -- the record header is more complex if there
-are variable-length fields -- but the simple display shown in the
-example is exactly what you'd see if you looked at the MySQL Data file
-with a debugger or a hexadecimal file dumper.
-@*
-
-So much for the fixed format. Now, let's discuss the dynamic format.
-@*
-
-The dynamic file format is necessary if rows can vary in size. That will 
-be the case if there are BLOB columns, or "true" VARCHAR columns. (Remember 
-that MySQL may treat VARCHAR columns as if they're CHAR columns, in which 
-case the fixed format is used.) A dynamic row has more fields in the header. 
-The important ones are "the actual length", "the unused length", and "the 
-overflow pointer". The actual length is the total number of bytes in all the
-columns. The unused length is the total number of bytes between one physical
-record and the next one. The overflow pointer is the location of the rest of 
-the record if there are multiple parts.
-@*
-
-For example, here is a dynamic row:
-@*
-@example
-03, 00             start of header
-04                 actual length
-0c                 unused length
-01, fc             flags + overflow pointer
-****               data in the row
-************       unused bytes
-                   <-- next row starts here)
-@end example
-
-In the example, the actual length and the unused length
-are short (one byte each) because the table definition
-says that the columns are short -- if the columns were
-potentially large, then the actual length and the unused
-length could be two bytes each, three bytes each, and so 
-on. In this case, actual length plus unused length is 10
-hexadecimal (sixteen decimal), which is a minimum.
-
-As for the third format -- packed -- we will only say
-briefly that: 
-@itemize @bullet
-@item
-Numeric values are stored in a form that depends on the 
-range (start/end values) for the data type.
-@item
-All columns are packed using either Huffman or enum coding.
-@end itemize
-
-For details, see the source files /myisam/mi_statrec.c
-(for fixed format), /myisam/mi_dynrec.c (for dynamic
-format), and /myisam/mi_packrec.c (for packed format).
-
-Note: Internally, MySQL uses a format much like the fixed format 
-which it uses for disk storage. The main differences are:
-@enumerate
-@item
-BLOBs have a length and a memory pointer rather than being stored inline.
-@item
-"True VARCHAR" (a column storage which will be fully implemented in
-version 5.0) will have a 16-bit length plus the data.
-@item
-All integer or floating-point numbers are stored with the low byte first. 
-Point (3) does not apply for ISAM storage or internals.
-@end enumerate
-@*
-
-
-@section Physical Attributes of Columns
-
-Next I'll describe the physical attributes of each column in a row.
-The format depends entirely on the data type and the size of the
-column, so, for every data type, I'll give a description and an example.
-@*
-
-@table @strong
-@item The character data types
-
-@strong{CHAR}
-@itemize @bullet
-@item
-Storage: fixed-length string with space padding on the right.
-@item
-Example: a CHAR(5) column containing the value 'A' looks like:@*
-@code{hexadecimal 41 20 20 20 20} --  (length = 5, value = @code{'A    '})
-@end itemize
-
-@strong{VARCHAR}
-@itemize @bullet
-@item
-Storage: variable-length string with a preceding length.
-@item
-Example: a VARCHAR(7) column containing 'A' looks like:@*
-@code{hexadecimal 01 41}  --  (length = 1, value = @code{'A'})
-@end itemize
-
-@item The numeric data types
-
-Important: MySQL almost always stores multi-byte binary numbers with 
-the low byte first. This is called "little-endian" numeric storage;
-it's normal on Intel x86 machines; MySQL uses it even for non-Intel
-machines so that databases will be portable.
-@*
-
-@strong{TINYINT}
-@itemize @bullet
-@item
-Storage: fixed-length binary, always one byte.
-@item
-Example: a TINYINT column containing 65 looks like:@*
-@code{hexadecimal 41}  --  (length = 1, value = 65)
-@end itemize
-
-@strong{SMALLINT}
-@itemize @bullet
-@item
-Storage: fixed-length binary, always two bytes.
-@item
-Example: a SMALLINT column containing 65 looks like:@*
-@code{hexadecimal 41 00}  --  (length = 2, value = 65)
-@end itemize
-
-@strong{MEDIUMINT}
-@itemize @bullet
-@item
-Storage: fixed-length binary, always three bytes.
-@item
-Example: a MEDIUMINT column containing 65 looks like:@*
-@code{hexadecimal 41 00 00}  --  (length = 3, value = 65)
-@end itemize
-
-@strong{INT}
-@itemize @bullet
-@item
-Storage: fixed-length binary, always four bytes.
-@item
-Example: an INT column containing 65 looks like:@*
-@code{hexadecimal 41 00 00 00}  --  (length = 4, value = 65)
-@end itemize
-
-@strong{BIGINT}
-@itemize @bullet
-@item
-Storage: fixed-length binary, always eight bytes.
-@item
-Example: a BIGINT column containing 65 looks like:@*
-@code{hexadecimal 41 00 00 00 00 00 00 00}  --  (length = 8, value = 65)
-@end itemize
-
-@strong{FLOAT}
-@itemize @bullet
-@item
-Storage: fixed-length binary, always four bytes.
-@item
-Example: a FLOAT column containing approximately 65 looks like:@*
-@code{hexadecimal 00 00 82 42}  --  (length = 4, value = 65)
-@end itemize
-
-@strong{DOUBLE PRECISION}
-@itemize @bullet
-@item
-Storage: fixed-length binary, always eight bytes.
-@item
-Example: a DOUBLE PRECISION column containing approximately 65 looks like:@*
-@code{hexadecimal 00 00 00 00 00 40 50 40}  --  (length = 8, value = 65)
-@end itemize
-
-@strong{REAL}
-@itemize @bullet
-@item
-Storage: same as FLOAT, or same as DOUBLE PRECISION, depending on setting of the --ansi switch.
-@end itemize
-
-@strong{DECIMAL}
-@itemize @bullet
-@item
-Storage: fixed-length string, with a leading byte for the sign, if any.
-@item
-Example: a DECIMAL(2) column containing 65 looks like:@*
-@code{hexadecimal 20 36 35}  --  (length = 3, value = @code{' 65'})
-@item
-Example: a DECIMAL(2) UNSIGNED column containing 65 looks like:@*
-@code{hexadecimal 36 35}  --  (length = 2, value = @code{'65'})
-@item
-Example: a DECIMAL(4,2) UNSIGNED column containing 65 looks like:@*
-@code{hexadecimal 36 35 2E 30 30}  --  (length = 5, value = @code{'65.00'})
-@end itemize
-
-@strong{NUMERIC}
-@itemize @bullet
-@item
-Storage: same as DECIMAL.
-@end itemize
-
-@strong{BOOL}
-@itemize @bullet
-@item
-Storage: same as TINYINT.
-@end itemize
-
-@item The temporal data types
-
-@strong{DATE}
-@itemize @bullet
-@item
-Storage: 3 byte integer, low byte first.
-Packed as: 'day + month*32 + year*16*32'
-@item
-Example: a DATE column containing '1962-01-02' looks like:@*
-@code{hexadecimal 22 54 0F}
-@end itemize
-
-@strong{DATETIME}
-@itemize @bullet
-@item
-Storage: eight bytes.
-@item
-Part 1 is a 32-bit integer containing year*10000 + month*100 + day.
-@item
-Part 2 is a 32-bit integer containing hour*10000 + minute*100 + second.
-@item
-Example: a DATETIME column for '0001-01-01 01:01:01' looks like:@*
-@code{hexadecimal B5 2E 11 5A 02 00 00 00}
-@end itemize
-
-@strong{TIME}
-@itemize @bullet
-@item
-Storage: 3 bytes, low byte first.
-This is stored as seconds:  days*24*3600+hours*3600+minutes*60+seconds
-@item
-Example: a TIME column containing '1 02:03:04' (1 day 2 hour 3 minutes and 4 seconds) looks like:@*
-@code{hexadecimal 58 6E 01}
-@end itemize
-
-@strong{TIMESTAMP}
-@itemize @bullet
-@item
-Storage: 4 bytes, low byte first.
-Stored as unix @code{time()}, which is seconds since the Epoch
-(00:00:00 UTC, January 1, 1970).
-@item
-Example: a TIMESTAMP column containing '2003-01-01 01:01:01' looks like:@*
-@code{hexadecimal 4D AE 12 23}
-@end itemize
-
-@strong{YEAR}
-@itemize @bullet
-@item
-Storage: same as unsigned TINYINT with a base value of 0 = 1901.
-@end itemize
-
-@item Others
-
-@strong{SET}
-@itemize @bullet
-@item
-Storage: one byte for each eight members in the set.
-@item
-Maximum length: eight bytes (for maximum 64 members).
-@item
-This is a bit list. The least significant bit corresponds to the
-first listed member of the set.
-@item
-Example: a SET('A','B','C') column containing 'A' looks like:@*
-@code{01} --  (length = 1, value = 'A')
-@end itemize
-
-@strong{ENUM}
-@itemize @bullet
-@item
-Storage: one byte if less than 256 alternatives, else two bytes.
-@item
-This is an index. The value 1 corresponds to the first listed
-alternative. (Note: ENUM always reserves 0 for an erroneous value. This
-explains why 'A' is 1 instead of 0.)
-@item
-Example: an ENUM('A','B','C') column containing 'A' looks like:@*
-@code{01}  --  (length = 1, value = 'A')
-@end itemize
-
-@item The Large-Object data types
-
-Warning: Because TINYBLOB's preceding length is one byte long (the
-size of a TINYINT) and MEDIUMBLOB's preceding length is three bytes
-long (the size of a MEDIUMINT), it's easy to think there's some sort
-of correspondence between the BLOB and the INT types. There isn't -- a
-BLOB's preceding length is not four bytes long (the size of an INT).
-@*
-
-@strong{TINYBLOB}
-@itemize @bullet
-@item
-Storage: variable-length string with a preceding one-byte length.
-@item
-Example: a TINYBLOB column containing 'A' looks like:@*
-@code{hexadecimal 01 41}  --  (length = 2, value = 'A')
-@end itemize
-
-@strong{TINYTEXT}
-@itemize @bullet
-@item
-Storage: same as TINYBLOB.
-@end itemize
-
-@strong{BLOB}
-@itemize @bullet
-@item
-Storage: variable-length string with a preceding two-byte length.
-@item
-Example: a BLOB column containing 'A' looks like:@*
-@code{hexadecimal 01 00 41}  --  (length = 2, value = 'A')
-@end itemize
-
-@strong{TEXT}
-@itemize @bullet
-@item
-Storage: same as BLOB.
-@end itemize
-
-@strong{MEDIUMBLOB}
-@itemize @bullet
-@item
-Storage: variable-length string with a preceding length.
-@item
-Example: a MEDIUMBLOB column containing 'A' looks like:@*
-@code{hexadecimal 01 00 00 41}  --  (length = 4, value = 'A')
-@end itemize
-
-@strong{MEDIUMTEXT}
-@itemize @bullet
-@item
-Storage: same as MEDIUMBLOB.
-@end itemize
-
-@strong{LONGBLOB}
-@itemize @bullet
-@item
-Storage: variable-length string with a preceding four-byte length.
-@item
-Example: a LONGBLOB column containing 'A' looks like:@*
-@code{hexadecimal 01 00 00 00 41}  --  (length = 5, value = 'A')
-@end itemize
-
-@strong{LONGTEXT}
-@itemize @bullet
-@item
-Storage: same as LONGBLOB.
-@end itemize
-
-@end table
-
-@section Where to Look For More Information
-
-@strong{References:} @*
-Most of the formatting work for MyISAM columns is visible
-in the program /sql/field.cc in the source code directory. 
-And in the MyISAM directory, the files that do formatting 
-work for different record formats are: /myisam/mi_statrec.c, 
-/myisam/mi_dynrec.c, and /myisam/mi_packrec.c.
-@*
-
-@node InnoDB Record Structure, InnoDB Page Structure, MyISAM Record Structure, Top
-@chapter InnoDB Record Structure
-
-This page contains:
-@itemize @bullet
-@item
-A high-altitude "summary" picture of the parts of a MySQL/InnoDB
-record structure.
-@item
-A description of each part.
-@item
-An example.
-@end itemize
-
-After reading this page, you will know how MySQL/InnoDB stores a
-physical record.
-@*
-
-@section High-Altitude Picture
-
-The chart below shows the three parts of a physical record.
-
-@multitable @columnfractions .10 .35
-
-@item @strong{Name} @tab @strong{Size}
-@item Field Start Offsets
-@tab (F*1) or (F*2) bytes
-@item Extra Bytes
-@tab 6 bytes
-@item Field Contents
-@tab depends on content
-
-@end multitable
-
-Legend: The letter 'F' stands for 'Number Of Fields'.
-
-The meaning of the parts is as follows:
-@itemize @bullet
-@item
-The FIELD START OFFSETS is a list of numbers containing the
-information "where a field starts".
-@item
-The EXTRA BYTES is a fixed-size header.
-@item
-The FIELD CONTENTS contains the actual data.
-@end itemize
-
-@strong{An Important Note About The Word "Origin"}@*
-The "Origin" or "Zero Point" of a record is the first byte of the
-Field Contents -- not the first byte of the Field Start Offsets. If
-there is a pointer to a record, that pointer is pointing to the
-Origin. Therefore the first two parts of the record are addressed by
-subtracting from the pointer, and only the third part is addressed by
-adding to the pointer.
-
-@subsection FIELD START OFFSETS
-
-The Field Start Offsets is a list in which each entry is the
-position, relative to the Origin, of the start of the next field. The
-entries are in reverse order, that is, the first field's offset is at
-the end of the list.
-@*
-
-An example: suppose there are three columns. The first column's length
-is 1, the second column's length is 2, and the third column's length is 4.
-In this case, the offset values are, respectively, 1, 3 (1+2), and 7 (1+2+4).
-Because values are reversed, a core dump of the Field Start Offsets
-would look like this: @code{07,03,01}.
-@*
-
-There are two complications for special cases:
-@itemize @bullet
-@item
-Complication #1: The size of each offset can be either one byte or
-two bytes. One-byte offsets are only usable if the total record size
-is less than 127. There is a flag in the "Extra Bytes" part which will
-tell you whether the size is one byte or two bytes.
-@item
-Complication #2: The most significant bits of an offset may contain
-flag values. The next two paragraphs explain what the contents are.
-@end itemize
-
-@strong{When The Size Of Each Offset Is One Byte}
-@itemize @bullet
-@item
-1 bit  = 0 if field is non-NULL, = 1 if field is NULL
-@item
-7 bits  = the actual offset, a number between 0 and 127
-@end itemize
-
-@strong{When The Size Of Each Offset Is Two Bytes}
-@itemize @bullet
-@item
-1 bit  = 0 if field is non-NULL, = 1 if field is NULL
-@item
-1 bit  = 0 if field is on same page as offset, = 1 if field and offset are on different pages
-@item
-14 bits  = the actual offset, a number between 0 and 16383
-@end itemize
-
-It is unlikely that the "field and offset are on different pages"
-unless the record contains a large BLOB.
-
-@subsection EXTRA BYTES
-
-The Extra Bytes are a fixed six-byte header.
-
-@multitable @columnfractions .10 .25 .35
-
-@item @strong{Name} @tab @strong{Size} @tab @strong{Description}
-@item @strong{info_bits:}
-@item ()
-@tab 1 bit
-@tab unused or unknown
-@item ()
-@tab 1 bit
-@tab unused or unknown
-@item deleted_flag
-@tab 1 bit
-@tab 1 if record is deleted
-@item min_rec_flag
-@tab 1 bit
-@tab 1 if record is predefined minimum record
-@item n_owned
-@tab 4 bits
-@tab number of records owned by this record
-@item heap_no
-@tab 13 bits
-@tab record's order number in heap of index page
-@item n_fields
-@tab 10 bits
-@tab number of fields in this record, 1 to 1023
-@item 1byte_offs_flag
-@tab 1 bit
-@tab 1 if each Field Start Offsets is 1 byte long (this item is also called the "short" flag)
-@item @strong{next 16 bits}
-@tab 16 bits
-@tab pointer to next record in page
-@item @strong{TOTAL}
-@tab 48 bits
-
-@end multitable
-
-Total size is 48 bits, which is six bytes.
-@*
-
-If you're just trying to read the record, the key bit in the Extra
-Bytes is 1byte_offs_flag -- you need to know if 1byte_offs_flag is 1
-(i.e.: "short 1-byteoffsets") or 0 (i.e.: "2-byte offsets").
-@*
-
-Given a pointer to the Origin, InnoDB finds the start of the record as follows:
-@itemize @bullet
-@item
-Let X = n_fields (the number of fields is by definition equal to the
-number of entries in the Field Start Offsets Table).
-@item
-If 1byte_offs_flag equals 0, then let X = X * 2 because there are
-two bytes for each entry instead of just one.
-@item
-Let X = X + 6, because the fixed size of Extra Bytes is 6.
-@item
-The start of the record is at (pointer value minus X).
-@end itemize
-
-@subsection FIELD CONTENTS
-
-The Field Contents part of the record has all the data. Fields are
-stored in the order they were defined in.
-@*
-
-There are no markers between fields, and there is no marker or filler
-at the end of a record.
-@*
-
-Here's an example.
-@itemize @bullet
-@item
-I made a table with this definition:
-@*@*
-
-@strong{CREATE TABLE T
-    (FIELD1 VARCHAR(3), FIELD2 VARCHAR(3), FIELD3 VARCHAR(3))
-    Type=InnoDB;}
-@*@*
-
-To understand what follows, you must know that table T has six columns
--- not three -- because InnoDB automatically added three "system
-columns" at the start for its own housekeeping. It happens that these
-system columns are the row ID, the transaction ID, and the rollback
-pointer, but their values don't matter now. Regard them as three black
-boxes.
-@*@*
-
-@item
-I put some rows in the table. My last three INSERTs were:
-@*@*
-
-@strong{INSERT INTO T VALUES ('PP', 'PP', 'PP')}
-@*@*
-
-@strong{INSERT INTO T VALUES ('Q', 'Q', 'Q')}
-@*@*
-
-@strong{INSERT INTO T VALUES ('R', NULL, NULL)}
-@*@*
-
-@item
-I ran Borland's TDUMP to get a hexadecimal dump of
-the contents of \mysql\data\ibdata1, which (in my case) is the
-MySQL/InnoDB data file (on Windows).
-@end itemize
-
-Here is an extract of the dump:
-
-@multitable @columnfractions .05 .95
-
-@item @strong{Address Values In Hexadecimal} @tab @strong{Values In ASCII}
-@item @code{0D4280: 00 00 2D 00 84 4F 4F 4F 4F 4F 4F 4F 4F 4F 19 17}
-@tab @code{..-..OOOOOOOOO..}
-@item @code{0D4290: 15 13 0C 06 00 00 78 0D 02 BF 00 00 00 00 04 21}
-@tab @code{......x........!}
-@item @code{0D42A0: 00 00 00 00 09 2A 80 00 00 00 2D 00 84 50 50 50}
-@tab @code{.....*....-..PPP}
-@item @code{0D42B0: 50 50 50 16 15 14 13 0C 06 00 00 80 0D 02 E1 00}
-@tab @code{PPP.............}
-@item @code{0D42C0: 00 00 00 04 22 00 00 00 00 09 2B 80 00 00 00 2D}
-@tab @code{....".....+....-}
-@item @code{0D42D0: 00 84 51 51 51 94 94 14 13 0C 06 00 00 88 0D 00}
-@tab @code{..QQQ...........}
-@item @code{0D42E0: 74 00 00 00 00 04 23 00 00 00 00 09 2C 80 00 00}
-@tab @code{t.....#.....,...}
-@item @code{0D42F0: 00 2D 00 84 52 00 00 00 00 00 00 00 00 00 00 00}
-@tab @code{.-..R...........}
-
-@end multitable
-
-A reformatted version of the dump, showing only the relevant bytes,
-looks like this (I've put a line break after each field and added labels):
-
-@strong{Reformatted Hexadecimal Dump}@*
-@code{
-  19 17 15 13 0C 06 Field Start Offsets /* First Row */@*
-  00 00 78 0D 02 BF Extra Bytes@*
-  00 00 00 00 04 21 System Column #1@*
-  00 00 00 00 09 2A System Column #2@*
-  80 00 00 00 2D 00 84 System Column #3@*
-  50 50 Field1 'PP'@*
-  50 50 Field2 'PP'@*
-  50 50 Field3 'PP'}@*
-
-@code{
-  16 15 14 13 0C 06 Field Start Offsets /* Second Row */@*
-  00 00 80 0D 02 E1 Extra Bytes@*
-  00 00 00 00 04 22 System Column #1@*
-  00 00 00 00 09 2B 80 System Column #2@*
-  00 00 00 2D 00 84 System Column #3@*
-  51 Field1 'Q'@*
-  51 Field2 'Q'@*
-  51 Field3 'Q'}@*
-
-@code{
-  94 94 14 13 0C 06 Field Start Offsets /* Third Row */@*
-  00 00 88 0D 00 74 Extra Bytes@*
-  00 00 00 00 04 23 System Column #1@*
-  00 00 00 00 09 2C System Column #2@*
-  80 00 00 00 2D 00 84 System Column #3@*
-  52 Field1 'R'}@*
-@*
-
-You won't need explanation if you followed everything I've said, but
-I'll add helpful notes for the three trickiest details.
-@itemize @bullet
-@item
-Helpful Notes About "Field Start Offsets": @*
-Notice that the sizes of the record's fields, in forward order, are:
-6, 6, 7, 2, 2, 2. Since each offset is for the start of the "next"
-field, the hexadecimal offsets are 06, 0c (6+6), 13 (6+6+7), 15
-(6+6+7+2), 17 (6+6+7+2+2), 19 (6+6+7+2+2+2). Reversing the order, the
-Field Start Offsets of the first record are: @code{19,17,15,13,0c,06}.
-@item
-Helpful Notes About "Extra Bytes": @*
-Look at the Extra Bytes of the first record: @code{00 00 78 0D 02 BF}. The
-fourth byte is @code{0D hexadecimal}, which is @code{1101 binary} ... the 110 is the
-last bits of n_fields (@code{110 binary} is 6 which is indeed the number of
-fields in the record) and the final 1 bit is 1byte_offs_flag. The
-fifth and sixth bytes, which contain @code{02 BF}, constitute the "next"
-field. Looking at the original hexadecimal dump, at address
-@code{0D42BF} (which is position @code{02BF} within the page), you'll see the beginning bytes of
-System Column #1 of the second row. In other words, the "next" field
-points to the "Origin" of the following row.
-@item
-Helpful Notes About NULLs:@*
-For the third row, I inserted NULLs in FIELD2 and FIELD3. Therefore in
-the Field Start Offsets the top bit is @code{on} for these fields (the
-values are @code{94 hexadecimal}, @code{94 hexadecimal}, instead of 
-@code{14 hexadecimal}, @code{14 hexadecimal}). And the row is
-shorter because the NULLs take no space.
-@end itemize
-
-@section Where to Look For More Information
-
-@strong{References:} @*
-The most relevant InnoDB source-code files are rem0rec.c, rem0rec.ic,
-and rem0rec.h in the rem ("Record Manager") directory.
-
-@node InnoDB Page Structure, Files in MySQL Sources, InnoDB Record Structure, Top
-@chapter InnoDB Page Structure
-
-InnoDB stores all records inside a fixed-size unit which is commonly called a
-"page" (though InnoDB sometimes calls it a "block" instead).
-Currently all pages are the same size, 16KB.
-@*
-
-A page contains records, but it also contains headers and trailers.
-I'll start this description with a high-altitude view of a page's parts,
-then I'll describe each part of a page. Finally, I'll show an example. This 
-discussion deals only with the most common format, for the leaf page of a data file.
-@*
-
-@section High-Altitude View
-
-An InnoDB page has seven parts:
-@itemize @bullet
-@item
-Fil Header
-@item
-Page Header
-@item
-Infimum + Supremum Records
-@item
-User Records
-@item
-Free Space
-@item
-Page Directory
-@item
-Fil Trailer
-@end itemize
-
-As you can see, a page has two header/trailer pairs. The inner pair, "Page Header" and
-"Page Directory", are mostly the concern of the \page program group,
-while the outer pair, "Fil Header" and "Fil Trailer", are mostly the
-concern of the \fil program group. The "Fil" header also goes goes by
-the name of "File Page Header".
-@*
-
-Sandwiched between the headers and trailers, are the records and
-the free (unused) space. A page always begins with two unchanging
-records called the Infimum and the Supremum. Then come the user
-records. Between the user records (which grow downwards) and the page 
-directory (which grows upwards) there is space for new records.
-@*
-
-@subsection Fil Header
-
-The Fil Header has eight parts, as follows:
-
-@multitable @columnfractions .10 .30 .35
-
-@item @strong{Name} @tab @strong{Size} @tab @strong{Remarks}
-@item FIL_PAGE_SPACE
-@tab 4
-@tab 4  ID of the space the page is in
-@item FIL_PAGE_OFFSET
-@tab 4
-@tab ordinal page number from start of space
-@item FIL_PAGE_PREV
-@tab 4
-@tab offset of previous page in key order
-@item FIL_PAGE_NEXT
-@tab 4
-@tab offset of next page in key order
-@item FIL_PAGE_LSN
-@tab 8
-@tab log serial number of page's latest log record
-@item FIL_PAGE_TYPE
-@tab 2
-@tab current defined types are: FIL_PAGE_INDEX, FIL_PAGE_UNDO_LOG, FIL_PAGE_INODE, FIL_PAGE_IBUF_FREE_LIST
-@item FIL_PAGE_FILE_FLUSH_LSN
-@tab 8
-@tab "the file has been flushed to disk at least up to this lsn" (log serial number), 
-     valid only on the first page of the file
-@item FIL_PAGE_ARCH_LOG_NO
-@tab 4
-@tab the latest archived log file number at the time that FIL_PAGE_FILE_FLUSH_LSN was written (in the log)
-@end multitable
-
-@itemize
-@item
-FIL_PAGE_SPACE is a necessary identifier because different pages might belong to
-different (table) spaces within the same file. The word
-"space" is generic jargon for either "log" or "tablespace".
-@*@*
-
-@item
-FIL_PAGE_PREV and FIL_PAGE_NEXT are the page's "backward" and
-"forward" pointers. To show what they're about, I'll draw a two-level
-B-tree.
-@*@*
-
-@example
-  --------
-  - root -
-  --------
-       |
-  ----------------------
-  |                    |
-  |                    |
-  --------          --------
-  - leaf -  <-->    - leaf -
-  --------          --------
-@end example
-@*
-
-Everyone has seen a B-tree and knows that the entries in the root page
-point to the leaf pages. (I indicate those pointers with vertical '|'
-bars in the drawing.) But sometimes people miss the detail that leaf
-pages can also point to each other (I indicate those pointers with a horizontal
-two-way pointer '<-->' in the drawing). This feature allows InnoDB to navigate from
-leaf to leaf without having to back up to the root level. This is a
-sophistication which you won't find in the classic B-tree, which is
-why InnoDB should perhaps be called a B+-tree instead.
-@*@*
-
-@item
-The fields FIL_PAGE_FILE_FLUSH_LSN, FIL_PAGE_PREV, and FIL_PAGE_NEXT
-all have to do with logs, so I'll refer you to my article "How Logs
-Work With MySQL And InnoDB" on devarticles.com.
-@*@*
-
-@item
-FIL_PAGE_FILE_FLUSH_LSN and FIL_PAGE_ARCH_LOG_NO are only valid for
-the first page of a data file.
-@end itemize
-
-@subsection Page Header
-
-The Page Header has 14 parts, as follows:
-@*@*
-
-@multitable @columnfractions .10 .20 .30
-
-@item @strong{Name} @tab @strong{Size} @tab @strong{Remarks}
-@item PAGE_N_DIR_SLOTS
-@tab 2
-@tab number of directory slots in the Page Directory part; initial value = 2
-@item PAGE_HEAP_TOP
-@tab 2
-@tab record pointer to first record in heap
-@item PAGE_N_HEAP
-@tab 2
-@tab number of heap records; initial value = 2
-@item PAGE_FREE
-@tab 2
-@tab record pointer to first free record
-@item PAGE_GARBAGE
-@tab 2
-@tab "number of bytes in deleted records"
-@item PAGE_LAST_INSERT
-@tab 2
-@tab record pointer to the last inserted record
-@item PAGE_DIRECTION
-@tab 2
-@tab either PAGE_LEFT, PAGE_RIGHT, or PAGE_NO_DIRECTION
-@item PAGE_N_DIRECTION
-@tab 2
-@tab number of consecutive inserts in the same direction, e.g. "last 5 were all to the left"
-@item PAGE_N_RECS
-@tab 2
-@tab number of user records
-@item PAGE_MAX_TRX_ID
-@tab 8
-@tab the highest ID of a transaction which might have changed a record on the page (only set for secondary indexes)
-@item PAGE_LEVEL
-@tab 2
-@tab level within the index (0 for a leaf page)
-@item PAGE_INDEX_ID
-@tab 8
-@tab identifier of the index the page belongs to
-@item PAGE_BTR_SEG_LEAF
-@tab 10
-@tab "file segment header for the leaf pages in a B-tree" (this is irrelevant here)
-@item PAGE_BTR_SEG_TOP
-@tab 10
-@tab "file segment header for the non-leaf pages in a B-tree" (this is irrelevant here)
-
-@end multitable
-@*
-
-(Note: I'll clarify what a "heap" is when I discuss the User Records part of the page.)
-@*@*
-
-Some of the Page Header parts require further explanation:
-@itemize @bullet
-@item
-PAGE_FREE: @*
-Records which have been freed (due to deletion or migration) are in a
-one-way linked list. The PAGE_FREE pointer in the page header points
-to the first record in the list. The "next" pointer in the record
-header (specifically, in the record's Extra Bytes) points to the next
-record in the list.
-@item
-PAGE_DIRECTION and PAGE_N_DIRECTION: @*
-It's useful to know whether inserts are coming in a constantly
-ascending sequence. That can affect InnoDB's efficiency.
-@item
-PAGE_HEAP_TOP and PAGE_FREE and PAGE_LAST_INSERT: @*
-Warning: Like all record pointers, these point not to the beginning of the
-record but to its Origin (see the earlier discussion of Record
-Structure).
-@item
-PAGE_BTR_SEG_LEAF and PAGE_BTR_SEG_TOP: @*
-These variables contain information (space ID, page number, and byte offset) about
-index node file segments. InnoDB uses the information for allocating new pages. 
-There are two different variables because InnoDB allocates separately for leaf 
-pages and upper-level pages.
-@end itemize
-
-@subsection The Infimum And Supremum Records
-
-"Infimum" and "supremum" are real English words but they are found
-only in arcane mathematical treatises, and in InnoDB comments. To
-InnoDB, an infimum is lower than the the lowest possible real value
-(negative infinity) and a supremum is greater than the greatest
-possible real value (positive infinity). InnoDB sets up an infimum
-record and a supremum record automatically at page-create time, and
-never deletes them. They make a useful barrier to navigation so that
-"get-prev" won't pass the beginning and "get-next" won't pass the end.
-Also, the infimum record can be a dummy target for temporary record
-locks.
-@*@*
-
-The InnoDB code comments distinguish between "the infimum and supremum
-records" and the "user records" (all other kinds).
-@*@*
-
-It's sometimes unclear whether InnoDB considers the infimum and
-supremum to be part of the header or not. Their size is fixed and
-their position is fixed, so I guess so.
-
-@subsection User Records
-
-In the User Records part of a page, you'll find all the records that the user
-inserted.
-@*@*
-
-There are two ways to navigate through the user records, depending
-whether you want to think of their organization as an unordered or an
-ordered list.
-@*@*
-
-An unordered list is often called a "heap". If you make a pile of
-stones by saying "whichever one I happen to pick up next will go on
-top" -- rather than organizing them according to size and colour --
-then you end up with a heap. Similarly, InnoDB does not want to insert
-new rows according to the B-tree's key order (that would involve
-expensive shifting of large amounts of data), so it inserts new rows
-right after the end of the existing rows (at the
-top of the Free Space part) or wherever there's space left by a
-deleted row.
-@*@*
-
-But by definition the records of a B-tree must be accessible in order
-by key value, so there is a record pointer in each record (the "next"
-field in the Extra Bytes) which points to the next record in key
-order. In other words, the records are a one-way linked list. So
-InnoDB can access rows in key order when searching.
-
-@subsection Free Space
-
-I think it's clear what the Free Space part of a page is, from the discussion of
-other parts.
-
-@subsection Page Directory
-
-The Page Directory part of a page has a variable number of record pointers.
-Sometimes the record pointers are called "slots" or "directory slots".
-Unlike other DBMSs, InnoDB does not have a slot for every record in
-the page. Instead it keeps a sparse directory. In a fullish page, 
-there will be one slot for every six records.
-@*@*
-
-The slots track the records' logical order (the order by key rather
-than the order by placement on the heap). Therefore, if the records
-are @code{'A' 'B' 'F' 'D'} the slots will be @code{(pointer to 'A') (pointer to
-'B') (pointer to 'D') (pointer to 'F')}. Because the slots are in key
-order, and each slot has a fixed size, it's easy to do a binary
-search of the records on the page via the slots.
-@*@*
-
-(Since the Page Directory does not have a slot for every record,
-binary search can only give a rough position and then InnoDB must
-follow the "next" record pointers. InnoDB's "sparse slots" policy also
-accounts for the n_owned field in the Extra Bytes part of a record:
-n_owned indicates how many more records must be gone through because
-they don't have their own slots.)
-
-@subsection Fil Trailer
-
-The Fil Trailer has one part, as follows:
-@*@*
-
-@multitable @columnfractions .10 .35 .40
-
-@item @strong{Name} @tab @strong{Size} @tab @strong{Remarks}
-@item FIL_PAGE_END_LSN
-@tab 8
-@tab low 4 bytes = checksum of page, last 4 bytes = same as FIL_PAGE_LSN
-@end multitable
-@*
-
-The final part of a page, the fil trailer (or File Page Trailer),
-exists because InnoDB's architect worried about integrity. It's
-impossible for a page to be only half-written, or corrupted by
-crashes, because the log-recovery mechanism restores to a consistent
-state. But if something goes really wrong, then it's nice to have a
-checksum, and to have a value at the very end of the page which must
-be the same as a value at the very beginning of the page.
-
-@section Example
-
-For this example, I used Borland's TDUMP again, as I did for the earlier chapter on
-Record Format. This is what a page looked like:
-@*@*
-
-@multitable @columnfractions .05 .95
-
-@item @strong{Address Values In Hexadecimal} @tab @strong{Values In ASCII}
-@item @code{0D4000: 00 00 00 00 00 00 00 35 FF FF FF FF FF FF FF FF}
-@tab @code{.......5........}
-@item @code{0D4010: 00 00 00 00 00 00 E2 64 45 BF 00 00 00 00 00 00}
-@tab @code{.......dE.......}
-@item @code{0D4020: 00 00 00 00 00 00 00 05 02 F5 00 12 00 00 00 00}
-@tab @code{................}
-@item @code{0D4030: 02 E1 00 02 00 0F 00 10 00 00 00 00 00 00 00 00}
-@tab @code{................}
-@item @code{0D4040: 00 00 00 00 00 00 00 00 00 14 00 00 00 00 00 00}
-@tab @code{................}
-@item @code{0D4050: 00 02 16 B2 00 00 00 00 00 00 00 02 15 F2 08 01}
-@tab @code{................}
-@item @code{0D4060: 00 00 03 00 89 69 6E 66 69 6D 75 6D 00 09 05 00}
-@tab @code{.....infimum....}
-@item @code{0D4070: 08 03 00 00 73 75 70 72 65 6D 75 6D 00 22 1D 18}
-@tab @code{....supremum."..}
-@item @code{0D4080: 13 0C 06 00 00 10 0D 00 B7 00 00 00 00 04 14 00}
-@tab @code{................}
-@item @code{0D4090: 00 00 00 09 1D 80 00 00 00 2D 00 84 41 41 41 41}
-@tab @code{.........-..AAAA}
-@item @code{0D40A0: 41 41 41 41 41 41 41 41 41 41 41 1F 1B 17 13 0C}
-@tab @code{AAAAAAAAAAA.....}
-@item @code{ ... }
-@item @code{ ... }
-@item @code{0D7FE0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 74}
-@tab @code{...............t}
-@item @code{0D7FF0: 02 47 01 AA 01 0A 00 65 3A E0 AA 71 00 00 E2 64}
-@tab @code{.G.....e:..q...d}
-@end multitable
-@*@*
-
-Let's skip past the first 38 bytes, which are Fil Header. The bytes
-of the Page Header start at location @code{0d4026 hexadecimal}:
-@*@*
-
-@multitable @columnfractions .10 .45 .60
-
-@item @strong{Location} @tab @strong{Name} @tab @strong{Description}
-@item @code{00 05}
-@tab PAGE_N_DIR_SLOTS
-@tab There are 5 directory slots.
-@item @code{02 F5}
-@tab PAGE_HEAP_TOP
-@tab At location @code{0402F5}, not shown, is the beginning of free space.
-Maybe a better name would have been PAGE_HEAP_END
-@item @code{00 12}
-@tab PAGE_N_HEAP
-@tab There are 18 (hexadecimal 12) records in the page.
-@item @code{00 00}
-@tab PAGE_FREE
-@tab There are zero free (deleted) records.
-@item @code{00 00}
-@tab PAGE_GARBAGE
-@tab There are zero bytes in deleted records.
-@item @code{02 E1}
-@tab PAGE_LAST_INSERT
-@tab The last record was inserted at location @code{02E1}, not shown, within the page.
-@item @code{00 02}
-@tab PAGE_DIRECTION
-@tab A glance at page0page.h will tell you that 2 is the #defined value for PAGE_RIGHT.
-@item @code{00 0F}
-@tab PAGE_N_DIRECTION
-@tab The last 15 (hexadecimal 0F) inserts were all done "to the right"
-because I was inserting in ascending order.
-@item @code{00 10}
-@tab PAGE_N_RECS
-@tab There are 16 (hexadecimal 10) user records. Notice that PAGE_N_RECS is
-smaller than the earlier field, PAGE_N_HEAP.
-@item @code{00 00 00 00 00 00 00}
-@tab PAGE_MAX_TRX_ID
-@item @code{00 00}
-@tab PAGE_LEVEL
-@tab Zero because this is a leaf page.
-@item @code{00 00 00 00 00 00 00 14}
-@tab PAGE_INDEX_ID
-@tab This is index number 20.
-@item @code{00 00 00 00 00 00 00 02 16 B2}
-@tab PAGE_BTR_SEG_LEAF
-@item @code{00 00 00 00 00 00 00 02 15 F2}
-@tab PAGE_BTR_SEG_TOP
-@end multitable
-@*
-
-Immediately after the page header are the infimum and supremum
-records. Looking at the "Values In ASCII" column in the hexadecimal
-dump, you will see that the contents are in fact the words "infimum"
-and "supremum" respectively.
-@*@*
-
-Skipping past the User Records and the Free Space, many bytes later,
-is the end of the 16KB page. The values shown there are the two trailers.
-@itemize @bullet
-@item
-The first trailer (@code{00 74, 02 47, 01 AA, 01 0A, 00 65}) is the page
-directory. It has 5 entries, because the header field PAGE_N_DIR_SLOTS
-says there are 5.
-@item
-The next trailer (@code{3A E0 AA 71, 00 00 E2 64}) is the fil trailer. Notice
-that the last four bytes, @code{00 00 E2 64}, appeared before in the fil
-header.
-@end itemize
-
-@section Where to Look For More Information
-
-@strong{References:} @*
-The most relevant InnoDB source-code files are page0page.c,
-page0page.ic, and page0page.h in \page directory.
-
-@node Files in MySQL Sources, Files in InnoDB Sources, InnoDB Page Structure, Top
-@chapter Annotated List Of Files in the MySQL Source Code Distribution
-
-This is a description of the files that you get when you download the
-source code of MySQL. This description begins with a list
-of the main directories and a short comment about each one. Then, for
-each directory, in alphabetical order, a longer description is
-supplied. When a directory contains significant program files, a list of each C
-program is given along with an explanation of its intended function.
-
-@section Directory Listing
-
-@strong{Directory  --  Short Comment}
-@itemize @bullet
-@item
-bdb  --  The Berkeley Database table handler
-@item
-BitKeeper  --  BitKeeper administration (not part of the source distribution)
-@item
-BUILD  --  Frequently used build scripts
-@item
-Build-tools  --  Build tools (not part of the source distribution)
-@item
-client  --  Client library
-@item
-cmd-line-utils  --  Command-line utilities (libedit and readline)
-@item
-dbug  --  Fred Fish's dbug library
-@item
-Docs  --  Preliminary documents about internals and new modules; will eventually be moved to the mysqldoc repository
-@item
-extra  --  Some minor standalone utility programs
-@item
-heap  --  The HEAP table handler
-@item
-include  --  Header (*.h) files for most libraries; includes all header files distributed with the MySQL binary distribution
-@item
-innobase  --  The Innobase (InnoDB) table handler
-@item
-libmysql  --  For producing MySQL as a library (e.g. a Windows .DLL)
-@item
-libmysql_r  --  For building a thread-safe libmysql library
-@item
-libmysqld  --  The MySQL Server as an embeddable library
-@item
-man  --  Some user-contributed manual pages
-@item
-myisam  --  The MyISAM table handler 
-@item
-myisammrg  --  The MyISAM Merge table handler 
-@item
-mysql-test  --  A test suite for mysqld 
-@item
-mysys  --  MySQL system library (Low level routines for file access etc.)
-@item
-netware  --  Files related to the Novell NetWare version of MySQL 
-@item
-NEW-RPMS  --  Directory to place RPMs while making a distribution
-@item
-os2  --  Routines for working with the OS/2 operating system
-@item
-pstack  --  Process stack display (not currently used)
-@item
-regex  --  Henry Spencer's Regular Expression library for support of REGEXP function
-@item
-SCCS  --  Source Code Control System (not part of source distribution)
-@item
-scripts  --  SQL batches, e.g. mysqlbug and mysql_install_db
-@item
-sql  --  Programs for handling SQL commands; the "core" of MySQL 
-@item
-sql-bench  --  The MySQL benchmarks 
-@item
-SSL  --  Secure Sockets Layer; includes an example certification one can use to test an SSL (secure) database connection
-@item
-strings  --  Library for C string routines, e.g. atof, strchr 
-@item
-support-files  --  Files used to build MySQL on different systems
-@item
-tests  --  Tests in Perl and in C
-@item
-tools  --  mysqlmanager.c (tool under development, not yet useful)
-@item
-VC++Files  --  Includes this entire directory, repeated for VC++ (Windows) use
-@item
-vio  --  Virtual I/O Library 
-@item
-zlib  --  Data compression library, used on Windows
-@end itemize
-
-@subsection bdb
-
-The Berkeley Database table handler.
-@*@*
-
-The Berkeley Database (BDB) is maintained by Sleepycat Software.
-MySQL AB maintains only a few small patches to make BDB work
-better with MySQL.
-@*@*
-
-The documentation for BDB is available at
-http://www.sleepycat.com/docs/. Since it's reasonably thorough
-documentation, a description of the BDB program files is not included
-in this document.
-@*@*
-
-@subsection BitKeeper
-
-BitKeeper administration.
-@*@*
-
-Bitkeeper administration is not part of the source distribution. This 
-directory may be present if you downloaded the MySQL source using
-BitKeeper rather than via the mysql.com site. The files in the
-BitKeeper directory are for maintenance purposes only -- they are not
-part of the MySQL package.
-@*@*
-
-The MySQL Reference Manual explains how to use Bitkeeper to get the
-MySQL source. Please see @url{http://www.mysql.com/doc/en/Installing_source_tree.html}
-for more information.
-@*@*
-
-@subsection BUILD
-
-Frequently used build scripts.
-@*@*
-
-This directory contains the build switches for compilation on various
-platforms. There is a subdirectory for each set of options. The main
-ones are:
-@itemize @bullet
-@item
-alpha
-@item
-ia64
-@item
-pentium (with and without debug or bdb, etc.)
-@item
-solaris
-@end itemize
-@*@*
-
-@subsection Build-tools
-
-Build tools.
-@*@*
-
-Build-tools is not part of the source distribution. This directory
-contains batch files for extracting, making directories, and making
-programs from source files. There are several subdirectories with
-different scripts -- for building Linux executables, for compiling,
-for performing all build steps, and so on.
-@*@*
-
-@subsection client
-
-Client library.
-@*@*
-
-The client library includes mysql.cc (the source of the 'mysql'
-executable) and other utilities. Most of the utilities are mentioned
-in the MySQL Reference Manual. Generally these are standalone C
-programs which one runs in "client mode", that is, they call the
-server.
-@*@*
-
-The C program files in the directory are:
-@itemize @bullet
-@item
-get_password.c  --  ask for a password from the console
-@item
-mysql.cc  --  "The MySQL command tool"
-@item
-mysqladmin.c  --  maintenance of MySQL databases
-@item
-mysqlcheck.c  --  check all databases, check connect, etc.
-@item
-mysqldump.c  --  dump table's contents as SQL statements, suitable to backup a MySQL database
-@item
-mysqlimport.c  --  import text files in different formats into tables
-@item
-mysqlmanager-pwgen.c  --  pwgen stands for "password generation" (not currently maintained)
-@item
-mysqlmanagerc.c  --  entry point for mysql manager (not currently maintained)
-@item
-mysqlshow.c  --  show databases, tables or columns 
-@item
-mysqltest.c  --  test program used by the mysql-test suite, mysql-test-run
-@item
-password.c  --  password checking routines (version 4.1 and up)
-@end itemize
-@*@*
-
-@subsection cmd-line-utils
-
-Command-line utilities (libedit and readline).
-@*@*
-
-There are two subdirectories: \readline and \libedit. All the files
-here are "non-MySQL" files, in the sense that MySQL AB didn't produce
-them, it just uses them. It should be unnecessary to study the
-programs in these files unless you are writing or debugging a tty-like
-client for MySQL, such as mysql.exe.
-@*@*
-
-The \readline subdirectory contains the files of the GNU Readline
-Library, "a library for reading lines of text with interactive input
-and history editing". The programs are copyrighted by the Free
-Software Foundation.
-@*@*
-
-The \libedit (library of edit functions) subdirectory has files
-written by Christos Zoulas. They are distributed and modifed under
-the BSD License. These files are for editing the line contents.
-@*@*
-
-These are the program files in the \libedit subdirectory:
-@itemize @bullet
-@item
-chared.c  --  character editor
-@item
-common.c  --  common editor functions
-@item
-el.c  --  editline interface functions
-@item
-emacs.c  --  emacs functions
-@item
-fgetln.c  --  get line
-@item
-hist.c  --  history access functions
-@item
-history.c  --  more history access functions
-@item
-key.c  --  procedures for maintaining the extended-key map
-@item
-map.c  --  editor function definitions
-@item
-parse.c  --  parse an editline extended command
-@item
-prompt.c  --  prompt printing functions
-@item
-read.c  --  terminal read functions
-@item
-readline.c  --  read line
-@item
-refresh.c  --  "lower level screen refreshing functions"
-@item
-search.c  --  "history and character search functions"
-@item
-sig.c  --  for signal handling
-@item
-strlcpy.c  --  string copy
-@item
-term.c  --  "editor/termcap-curses interface"
-@item
-tokenizer.c  --  Bourne shell line tokenizer
-@item
-tty.c  --  for a tty interface
-@item
-vi.c  --  commands used when in the vi (editor) mode
-@end itemize
-@*@*
-
-@subsection dbug
-
-Fred Fish's dbug library.
-@*@*
-
-This is not really part of the MySQL package. Rather, it's a set of
-public-domain routines which are useful for debugging MySQL programs.
-The MySQL Server and all .c and .cc programs support the use of this
-package.
-@*@*
-
-How it works: One inserts a function call that begins with DBUG_* in
-one of the regular MYSQL programs. For example, in get_password.c, you
-will find this line: @*
-DBUG_ENTER("get_tty_password"); @*
-at the start of a routine, and this line: @*
-DBUG_RETURN(my_strdup(to,MYF(MY_FAE))); @*
-at the end of the routine. These lines don't affect production code.
-Features of the dbug library include extensive reporting and profiling
-(the latter has not been used by the MySQL team).
-@*@*
-
-The C programs in this directory are:
-@itemize @bullet
-@item
-dbug.c  --  The main module
-@item
-dbug_analyze.c  --  Reads a file produced by trace functions
-@item
-example1.c  --  A tiny example
-@item
-example2.c  --  A tiny example
-@item
-example3.c  --  A tiny example
-@item
-factorial.c  --  A tiny example
-@item
-main.c  --  A tiny example
-@item
-sanity.c  --   Declaration of a variable
-@end itemize
-@*@*
-
-@subsection Docs
-
-Preliminary documents about internals and new modules, which will eventually
-be moved to the mysqldoc repository.
-@*@*
-
-This directory doesn't have much at present that's very useful to the
-student, but the plan is that some documentation related to the source
-files and the internal workings of MySQL, including perhaps some
-documentation from developers themselves, will be placed here. Files in
-this directory will eventually be moved to the MySQL documentation repository.
-@*@*
-
-These sub-directories are part of this directory:
-@itemize @bullet
-@item
-books  --  .gif images and empty .txt files; no real information
-@item
-flags  --  images of flags of countries
-@item
-images  --  flag backgrounds and the MySQL dolphin logo
-@item
-mysql-logos  --  more MySQL-related logos, some of them moving
-@item
-raw-flags  --   more country flags, all .gif files
-@item
-support  --  various files for generating texinfo/docbook documentation
-@item
-to-be-included...  --  contains a MySQL-for-dummies file
-@item
-translations  --  some Portuguese myodbc documentation
-@end itemize
-@*@*
-
-In the main directory, you'll find some .txt files related to the
-methods that MySQL uses to produce its printed and html documents, odd
-bits in various languages, and the single file in the directory which
-has any importance -- internals.texi -- The "MySQL Internals"
-document.
-@*@*
-
-Despite the name, internals.texi is not yet much of a description of MySQL
-internals although work is in progress to make it so. However, there is 
-some useful description of the functions in the mysys directory (see below), 
-and of the structure of client/server messages (doubtless very useful for 
-eople who want to make their own JDBC drivers, or just sniff).
-@*@*
-
-@subsection extra
-
-Some minor standalone utility programs.
-@*@*
-
-These programs are all standalone utilities, that is, they have
-a main() function and their main role is to show information that the
-MySQL server needs or produces. Most are unimportant. They are as
-follows:
-@itemize @bullet
-@item
-my_print_defaults.c  --  print parameters from my.ini files. Can also be used in scripts to enable processing of my.ini files.
-@item
-mysql_waitpid.c  --  wait for a program to terminate. Useful for shell scripts when one needs to wait until a process terminates.
-@item
-perror.c  --  "print error" -- given error number, display message
-@item
-replace.c  --  replace strings in text files or pipe
-@item
-resolve_stack_dump.c  --  show symbolic information from a MySQL stack dump, normally found in the mysql.err file
-@item
-resolveip.c  --  convert an IP address to a hostname, or vice versa
-@end itemize
-@*@*
-
-@subsection heap
-
-The HEAP table handler.
-@*@*
-
-All the MySQL table handlers (i.e. the handlers that MySQL itself
-produces) have files with similar names and functions. Thus, this
-(heap) directory contains a lot of duplication of the myisam directory
-(for the MyISAM table handler). Such duplicates have been marked with
-an "*" in the following list. For example, you will find that
-\heap\hp_extra.c has a close equivalent in the myisam directory
-(\myisam\mi_extra.c) with the same descriptive comment. (Some of the 
-differences arise because HEAP has different structures. HEAP does not 
-need to use the sort of B-tree indexing that ISAM and MyISAM use; instead 
-there is a hash index. Most importantly, HEAP is entirely in memory.
-File-I/O routines lose some of their vitality in such a context.)
-@*@*
-
-@itemize
-@item
-hp_block.c  --  Read/write a block (i.e. a page)
-@item
-hp_clear.c  --  Remove all records in the table
-@item
-hp_close.c  --  * close database
-@item
-hp_create.c  --  * create a table
-@item
-hp_delete.c  --  * delete a row
-@item
-hp_extra.c  --  * for setting options and buffer sizes when optimizing
-@item
-hp_hash.c  --  Hash functions used for saving keys
-@item
-hp_info.c  --  * Information about database status
-@item
-hp_open.c  --  * open database
-@item
-hp_panic.c  --  * the hp_panic routine, for shutdowns and flushes
-@item
-hp_rename.c  --  * rename a table
-@item
-hp_rfirst.c  --  * read first row through a specific key (very short)
-@item
-hp_rkey.c  --  * read record using a key
-@item
-hp_rlast.c  --  * read last row with same key as previously-read row
-@item
-hp_rnext.c  --  * read next row with same key as previously-read row
-@item
-hp_rprev.c  --  * read previous row with same key as previously-read row
-@item
-hp_rrnd.c  --  * read a row based on position
-@item
-hp_rsame.c  --  * find current row using positional read or key-based
-read
-@item
-hp_scan.c  --  * read all rows sequentially
-@item
-hp_static.c  --  * static variables (very short)
-@item
-hp_test1.c  --  * testing basic functions
-@item
-hp_test2.c  --  * testing database and storing results
-@item
-hp_update.c  --  * update an existing row
-@item
-hp_write.c  --  * insert a new row
-@end itemize
-@*@*
-
-There are fewer files in the heap directory than in the myisam
-directory, because fewer are necessary. For example, there is no need
-for a \myisam\mi_cache.c equivalent (to cache reads) or a
-\myisam\log.c equivalent (to log statements).
-@*@*
-
-@subsection include
-
-Header (*.h) files for most libraries; includes all header files distributed
-with the MySQL binary distribution.
-@*@*
-
-These files may be included in C program files. Note that each
-individual directory will also have its own *.h files, for including
-in its own *.c programs. The *.h files in the include directory are
-ones that might be included from more than one place.
-@*@*
-
-For example, the mysys directory contains a C file named rijndael.c,
-but does not include rijndael.h. The include directory contains
-rijndael.h. Looking further, you'll find that rijndael.h is also
-included in other places: by my_aes.c and my_aes.h.
-@*@*
-
-The include directory contains 51 *.h (header) files.
-@*@*
-
-@subsection innobase
-
-The Innobase (InnoDB) table handler.
-@*@*
-
-A full description of these files can be found elsewhere in this
-document.
-@*@*
-
-@subsection libmysql
-
-The MySQL Library, Part 1.
-@*@*
-
-The files here are for producing MySQL as a library (e.g. a Windows
-DLL). The idea is that, instead of producing separate mysql (client)
-and mysqld (server) programs, one produces a library. Instead of
-sending messages, the client part merely calls the server part.
-@*@*
-
-The libmysql files are split into three directories: libmysql (this
-one), libmysql_r (the next one), and libmysqld (the next one after
-that).
-@*@*
-
-The "library of mysql" has some client-connection
-modules. For example, as described in an earlier
-section of this manual, there is a discussion of
-libmysql/libmysql.c which sends packets from the
-client to the server. Many of the entries in the
-libmysql directory (and in the following libmysqld
-directory) are 'symlinks' on Linux, that is, they
-are in fact pointers to files in other directories.
-@*@*
-
-The program files on this directory are:
-@itemize @bullet
-@item
-conf_to_src.c  --  has to do with charsets
-@item
-dll.c  --  initialization of the dll library
-@item
-errmsg.c  --  English error messages, compare \mysys\errors.c
-@item
-get_password.c  --  get password
-@item
-libmysql.c  --  the code that implements the MySQL API, i.e. the functions a client that wants to connect to MySQL will call
-@item
-manager.c  --  initialize/connect/fetch with MySQL manager
-@end itemize
-@*@*
-
-@subsection libmysql_r
-
-The MySQL Library, Part 2.
-@*@*
-
-There is only one file here, used to build a thread-safe libmysql library:
-@itemize @bullet
-@item
-makefile.am
-@end itemize
-@*@*
-
-@subsection libmysqld
-
-The MySQL library, Part 3.
-@*@*
-
-The Embedded MySQL Server Library. The product of libmysqld
-is not a client/server affair, but a library. There is a wrapper
-to emulate the client calls. The program files on this directory
-are:
-@itemize @bullet
-@item
-libmysqld.c  --  The called side, compare the mysqld.exe source
-@item
-lib_vio.c --  Emulate the vio directory's communication buffer
-@end itemize
-@*@*
-
-@subsection man
-
-Some user-contributed manual pages
-@*@*
-
-These are user-contributed "man" (manual) pages in a special markup
-format. The format is described in a document with a heading like
-"man page for man" or "macros to format man pages" which you can find
-in a Linux directory or on the Internet.
-@*@*
-
-@subsection myisam
-
-The MyISAM table handler.
-@*@*
-
-The C files in this subdirectory come in six main groups:
-@itemize @bullet
-@item
-ft*.c files  --  ft stands for "Full Text", code contributed by Sergei Golubchik
-@item
-mi*.c files  --  mi stands for "My Isam", these are the main programs for Myisam
-@item
-myisam*.c files  --  for example, "myisamchk" utility routine functions source
-@item
-rt*.c files  --  rt stands for "rtree", some code was written by Alexander Barkov
-@item
-sp*.c files  --  sp stands for "spatial", some code was written by Ramil Kalimullin
-@item
-sort.c  --  this is a single file that sorts keys for index-create purposes
-@end itemize
-@*@*
-
-The "full text" and "rtree" and "spatial" program sets are for special
-purposes, so this document focuses only on the mi*.c "myisam" C
-programs. They are:
-@itemize @bullet
-@item
-mi_cache.c  --  for reading records from a cache 
-@item
-mi_changed.c  --  a single routine for setting a "changed" flag (very short)
-@item
-mi_check.c  --  for checking and repairing tables. Used by the myisamchk program and by the MySQL server.
-@item
-mi_checksum.c  --  calculates a checksum for a row 
-@item
-mi_close.c  --  close database 
-@item
-mi_create.c  --  create a table 
-@item
-mi_dbug.c  -- support routines for use with "dbug" (see \dbug description)
-@item
-mi_delete.c  --  delete a row 
-@item
-mi_delete_all.c  --  delete all rows 
-@item
-mi_delete_table.c  --  delete a table (very short)
-@item
-mi_dynrec.c  --  functions to handle space-packed records and blobs 
-@item
-mi_extra.c  --  setting options and buffer sizes when optimizing 
-@item
-mi_info.c  --  return useful base information for an open table
-@item
-mi_key.c  --  for handling keys
-@item
-mi_locking.c  --  lock database 
-@item
-mi_log.c  --  save commands in a log file which myisamlog program can read. Can be used to exactly replay a set of changes to a table.
-@item
-mi_open.c  --  open database 
-@item
-mi_packrec.c  --  read from a data file compresed with myisampack
-@item
-mi_page.c  --  read and write pages containing keys
-@item
-mi_panic.c  --  the mi_panic routine, probably for sudden shutdowns
-@item
-mi_range.c  --  approximate count of how many records lie between two keys
-@item
-mi_rename.c  --  rename a table
-@item
-mi_rfirst.c  --  read first row through a specific key (very short)
-@item
-mi_rkey.c  --  read a record using a key
-@item
-mi_rlast.c  --  read last row with same key as previously-read row
-@item
-mi_rnext.c  --  read next row with same key as previously-read row
-@item
-mi_rnext_same.c  --  same as mi_rnext.c, but abort if the key changes
-@item
-mi_rprev.c  --  read previous row with same key as previously-read row
-@item
-mi_rrnd.c  --  read a row based on position
-@item
-mi_rsame.c  --  find current row using positional read or key-based read
-@item
-mi_rsamepos.c  --  positional read
-@item
-mi_scan.c  --  read all rows sequentially
-@item
-mi_search.c  --  key-handling functions
-@item
-mi_static.c  --  static variables (very short)
-@item
-mi_statrec.c  --  functions to handle fixed-length records
-@item
-mi_test1.c  --  testing basic functions
-@item
-mi_test2.c  --  testing database and storing results
-@item
-mi_test3.c  --  testing locking
-@item
-mi_unique.c  --  functions to check if a row is unique
-@item
-mi_update.c  --  update an existing row
-@item
-mi_write.c  --  insert a new row
-@end itemize
-@*@*
-
-@subsection myisammrg
-
-MyISAM Merge table handler.
-@*@*
-
-As with other table handlers, you'll find that the *.c files in the
-myissammrg directory have counterparts in the myisam directory. In
-fact, this general description of a myisammrg program is almost always
-true: The myisammrg
-function checks an argument, the myisammrg function formulates an
-expression for passing to a myisam function, the myisammrg calls a
-myisam function, the myisammrg function returns.
-@*@*
-
-These are the 21 files in the myisammrg directory, with notes about
-the myisam functions or programs they're connected with:
-@itemize @bullet
-@item
-myrg_close.c  --  mi_close.c 
-@item
-myrg_create.c  --  mi_create.c 
-@item
-myrg_delete.c  --  mi_delete.c / delete last-read record 
-@item
-myrg_extra.c  --  mi_extra.c / "extra functions we want to do ..." 
-@item
-myrg_info.c  --  mi_info.c / display information about a mymerge file 
-@item
-myrg_locking.c  --  mi_locking.c / lock databases 
-@item
-myrg_open.c  --  mi_open.c / open a MyISAM MERGE table 
-@item
-myrg_panic.c  --  mi_panic.c / close in a hurry 
-@item
-myrg_queue.c  --  read record based on a key 
-@item
-myrg_range.c  --  mi_range.c / find records in a range 
-@item
-myrg_rfirst.c  --  mi_rfirst.c / read first record according to
-specific key 
-@item
-myrg_rkey.c  --  mi_rkey.c / read record based on a key 
-@item
-myrg_rlast.c  --  mi_rlast.c / read last row with same key as previous
-read 
-@item
-myrg_rnext.c  --  mi_rnext.c / read next row with same key as previous
-read 
-@item
-myrg_rnext_same.c  --  mi_rnext_same.c / read next row with same key
-@item
-myrg_rprev.c  --  mi_rprev.c / read previous row with same key 
-@item
-myrg_rrnd.c  --  mi_rrnd.c / read record with random access 
-@item
-myrg_rsame.c  --  mi_rsame.c / call mi_rsame function, see
-\myisam\mi_rsame.c 
-@item
-myrg_static.c  --  mi_static.c / static variable declaration 
-@item
-myrg_update.c  --  mi_update.c / call mi_update function, see
-\myisam\mi_update.c 
-@item
-myrg_write.c  --  mi_write.c / call mi_write function, see
-\myisam\mi_write.c 
-@end itemize
-@*@*
-
-@subsection mysql-test
-
-A test suite for mysqld.
-@*@*
-
-The directory has a README file which explains how to run the tests,
-how to make new tests (in files with the filename extension "*.test"),
-and how to report errors.
-@*@*
-
-There are four subdirectories:
-@itemize @bullet
-@item
-\misc  --  contains one minor Perl program
-@item
-\r  --  contains *.result, i.e. "what happened" files and
-*.required, i.e. "what should happen" file
-@item
-\std_data  --  contains standard data for input to tests
-@item
-\t  --  contains tests
-@end itemize
-@*@*
-
-There are 186 *.test files in the \t subdirectory. Primarily these are
-SQL scripts which try out a feature, output a result, and compare the
-result with what's required. Some samples of what the test files check
-are: latin1_de comparisons, date additions, the HAVING clause, outer
-joins, openSSL, load data, logging, truncate, and UNION.
-@*@*
-
-There are other tests in these directories:
-@itemize @bullet
-@item
-sql-bench
-@item
-tests
-@end itemize
-
-@subsection mysys
-
-MySQL system library. Low level routines for file access and so on.
-@*@*
-
-There are 115 *.c programs in this directory:
-@itemize @bullet
-@item
-array.c  --  Dynamic array handling 
-@item
-charset.c  --  Using dynamic character sets, set default character set, ...
-@item
-charset2html.c  --  Check what character set a browser is using
-@item
-checksum.c  --  Calculate checksum for a memory block, used for pack_isam
-@item
-default.c  --  Find defaults from *.cnf or *.ini files 
-@item
-errors.c  --  English text of global errors 
-@item
-hash.c  --  Hash search/compare/free functions "for saving keys" 
-@item
-list.c  --  Double-linked lists 
-@item
-make-conf.c  --  "Make a charset .conf file out of a ctype-charset.c file"
-@item
-md5.c  --  MD5 ("Message Digest 5") algorithm from RSA Data Security
-@item
-mf_brkhant.c  --  Prevent user from doing a Break during critical execution (not used in MySQL; can be used by standalone MyISAM applications)
-@item
-mf_cache.c  --  "Open a temporary file and cache it with io_cache"
-@item
-mf_dirname.c  --  Parse/convert directory names
-@item
-mf_fn_ext.c  --  Get filename extension
-@item
-mf_format.c  --  Format a filename
-@item
-mf_getdate.c  --  Get date, return in yyyy-mm-dd hh:mm:ss format
-@item
-mf_iocache.c  --  Cached read/write of files in fixed-size units
-@item
-mf_iocache2.c  --  Continuation of mf_iocache.c
-@item
-mf_keycache.c  --  Key block caching for certain file types
-@item
-mf_loadpath.c  --  Return full path name (no ..\ stuff)
-@item
-mf_pack.c  --  Packing/unpacking directory names for create purposes
-@item
-mf_path.c  --  Determine where a program can find its files
-@item
-mf_qsort.c  --  Quicksort
-@item
-mf_qsort2.c  --  Quicksort, part 2 (allows the passing of an extra argument to the sort-compare routine)
-@item
-mf_radix.c  --  Radix sort
-@item
-mf_same.c  --  Determine whether filenames are the same
-@item
-mf_sort.c  --  Sort with choice of Quicksort or Radix sort
-@item
-mf_soundex.c  --  Soundex algorithm derived from EDN Nov. 14, 1985 (pg. 36)
-@item
-mf_strip.c  --  Strip trail spaces from a string
-@item
-mf_tempdir.c  --  Initialize/find/free temporary directory
-@item
-mf_tempfile.c  --  Create a temporary file
-@item
-mf_unixpath.c  --  Convert filename to UNIX-style filename 
-@item
-mf_util.c  --  Routines, #ifdef'd, which may be missing on some
-machines 
-@item
-mf_wcomp.c  --  Comparisons with wildcards 
-@item
-mf_wfile.c  --  Finding files with wildcards 
-@item
-mulalloc.c  --  Malloc many pointers at the same time 
-@item
-my_aes.c  --  AES encryption 
-@item
-my_alarm.c  --  Set a variable value when an alarm is received 
-@item
-my_alloc.c  --  malloc of results which will be freed simultaneously
-@item
-my_append.c  --  one file to another 
-@item
-my_bit.c  --  smallest X where 2^X >= value, maybe useful for
-divisions 
-@item
-my_bitmap.c  --  Handle uchar arrays as large bitmaps 
-@item
-my_chsize.c  --  Truncate file if shorter, else fill with a filler
-character 
-@item
-my_clock.c  --  Time-of-day ("clock()") function, with OS-dependent
-#ifdef's  
-@item
-my_compress.c  --  Compress packet (see also description of \zlib
-directory)
-@item
-my_copy.c  --  Copy files 
-@item
-my_create.c  --  Create file 
-@item
-my_delete.c  --  Delete file 
-@item
-my_div.c  --  Get file's name 
-@item
-my_dup.c  --  Open a duplicated file 
-@item
-my_error.c  --  Return formatted error to user 
-@item
-my_fopen.c  --  File open 
-@item
-my_fstream.c  --  Streaming file read/write 
-@item
-my_getwd.c  --  Get working directory 
-@item
-my_gethostbyname.c  --  Thread-safe version of standard net
-gethostbyname() func 
-@item
-my_getopt.c  --  Find out what options are in effect 
-@item
-my_handler.c  --  Compare two keys in various possible formats 
-@item
-my_init.c  --  Initialize variables and functions in the mysys library
-@item
-my_lib.c  --  Compare/convert directory names and file names 
-@item
-my_lock.c  --  Lock part of a file 
-@item
-my_lockmem.c  --  "Allocate a block of locked memory" 
-@item
-my_lread.c  --  Read a specified number of bytes from a file into
-memory 
-@item
-my_lwrite.c  --  Write a specified number of bytes from memory into a
-file 
-@item
-my_malloc.c  --  Malloc (memory allocate) and dup functions 
-@item
-my_messnc.c  --  Put out a message on stderr with "no curses" 
-@item
-my_mkdir.c  --  Make directory 
-@item
-my_net.c  --  Thread-safe version of net inet_ntoa function 
-@item
-my_netware.c  --  Functions used only with the Novell Netware version
-of MySQL 
-@item
-my_once.c  --  Allocation / duplication for "things we don't need to
-free" 
-@item
-my_open.c  --  Open a file 
-@item
-my_os2cond.c  --  OS2-specific: "A simple implementation of posix conditions"
-@item
-my_os2dirsrch.c  --  OS2-specific: Emulate a Win32 directory search 
-@item
-my_os2dlfcn.c  --  OS2-specific: Emulate UNIX dynamic loading 
-@item
-my_os2file64.c  --  OS2-specific: For File64bit setting 
-@item
-my_os2mutex.c  --  OS2-specific: For mutex handling 
-@item
-my_os2thread.c  --  OS2-specific: For thread handling 
-@item
-my_os2tls.c  --  OS2-specific: For thread-local storage 
-@item
-my_port.c  --  OS/machine-dependent porting functions, e.g. AIX-specific my_ulonglong2double()
-@item
-my_pread.c  --  Read a specified number of bytes from a file 
-@item
-my_pthread.c  --  A wrapper for thread-handling functions in different OSs
-@item
-my_quick.c  --  Read/write (labelled a "quicker" interface, perhaps
-obsolete)
-@item
-my_read.c  --  Read a specified number of bytes from a file, possibly
-retry 
-@item
-my_realloc.c  --  Reallocate memory allocated with my_alloc.c
-(probably)
-@item
-my_redel.c  --  Rename and delete file 
-@item
-my_rename.c  --  Rename without delete 
-@item
-my_seek.c  --  Seek, i.e. point to a spot within a file 
-@item
-my_semaphore.c  --  Semaphore routines, for use on OS that doesn't support them
-@item
-my_sleep.c  --  Wait n microseconds 
-@item
-my_static.c  --  Static variables used by the mysys library
-@item
-my_symlink.c  --  Read a symbolic link (symlinks are a UNIX thing, I guess)
-@item
-my_symlink2.c  --  Part 2 of my_symlink.c
-@item
-my_tempnam.c  --  Obsolete temporary-filename routine used by ISAM table handler
-@item
-my_thr_init.c  --  initialize/allocate "all mysys & debug thread variables"
-@item
-my_wincond.c  --  Windows-specific: emulate Posix conditions
-@item
-my_winsem.c  --  Windows-specific: emulate Posix threads
-@item
-my_winthread.c  --  Windows-specific: emulate Posix threads
-@item
-my_write.c  --  Write a specified number of bytes to a file
-@item
-ptr_cmp.c  --  Point to an optimal byte-comparison function
-@item
-queues.c  --  Handle priority queues as in Robert Sedgewick's book
-@item
-raid2.c  --  RAID support (the true implementation is in raid.cc)
-@item
-rijndael.c  --  "Optimised ANSI C code for the Rijndael cipher (now AES")
-@item
-safemalloc.c  --  A version of the standard malloc() with safety checking
-@item
-sha1.c  --  Implementation of Secure Hashing Algorithm 1
-@item
-string.c  --  Initialize/append/free dynamically-sized strings; see also sql_string.cc in the /sql directory
-@item
-testhash.c  --  Standalone program: test the hash library routines
-@item
-test_charset.c  --  Standalone program: display character set information
-@item
-test_dir.c  --  Standalone program: placeholder for "test all functions" idea
-@item
-test_fn.c  --  Standalone program: apparently tests a function
-@item
-test_xml.c  --  Standalone program: test XML routines
-@item
-thr_alarm.c  --  Thread alarms and signal handling
-@item
-thr_lock.c  --  "Read and write locks for Posix threads"
-@item
-thr_mutex.c  --  A wrapper for mutex functions
-@item
-thr_rwlock.c  --  Synchronizes the readers' thread locks with the writer's lock
-@item
-tree.c  --  Initialize/search/free binary trees
-@item
-typelib.c  --  Find a string in a set of strings; returns the offset to the string found
-@end itemize
-@*@*
-
-You can find documentation for the main functions in these files
-elsewhere in this document. For example, the main functions in my_getwd.c 
-are described thus:
-@*@*
-
-@example
-"int my_getwd _A((string buf, uint size, myf MyFlags)); @*
-     int my_setwd _A((const char *dir, myf MyFlags)); @*
-     Get and set working directory." @*
-@end example
-
-@subsection netware
-
-Files related to the Novell NetWare version of MySQL.
-@*@*
-
-There are 39 files on this directory. Most have filename extensions of
-*.def, *.sql, or *.c.
-@*@*
-
-The twenty-five *.def files are all from Novell Inc. They contain import or
-export symbols. (".def" is a common filename extension for
-"definition".)
-@*@*
-
-The two *.sql files are short scripts of SQL statements used in
-testing.
-@*@*
-
-These are the five *.c files, all from Novell Inc.:
-@itemize @bullet
-@item
-libmysqlmain.c  --  Only one function: init_available_charsets()
-@item
-my_manage.c  --  Standalone management utility
-@item
-mysql_install_db.c  --  Compare \scripts\mysql_install_db.sh
-@item
-mysql_test_run.c  --  Short test program
-@item
-mysqld_safe.c  --  Compare \scripts\mysqld_safe.sh
-@end itemize
-
-Perhaps the most important file is:
-@itemize @bullet
-@item
-netware.patch  --  NetWare-specific build instructions and switches
-(compare \mysql-4.1\ltmain.sh)
-@end itemize
-@*@*
-
-For instructions about basic installation, see "Deployment Guide For
-NetWare AMP" at:
-@url{http://developer.novell.com/ndk/whitepapers/namp.htm}
-@*
-
-@subsection NEW-RPMS
-
-Directory to place RPMs while making a distribution.
-@*@*
-
-This directory is not part of the Windows distribution. It is
-a temporary directory used during RPM builds with Linux distributions.
-@*@*
-
-@subsection os2
-
-Routines for working with the OS2 operating system.
-@*@*
-
-The files in this directory are the product of the efforts of three
-people from outside MySQL: Yuri Dario, Timo Maier, and John M
-Alfredsson. There are no .C program files in this directory.
-@*@*
-
-The contents of \os2 are:
-@itemize @bullet
-@item
-A Readme.Txt file
-@item
-An \include subdirectory containing .h files which are for OS/2 only
-@item
-Files used in the build process (configuration, switches, and one
-.obj)
-@end itemize
-@*@*
-
-The README file refers to MySQL version 3.23, which suggests that
-there have been no updates for MySQL 4.0 for this section.
-@*@*
-
-@subsection pstack
-
-Process stack display (not currently used).
-@*@*
-
-This is a set of publicly-available debugging aids which all do pretty
-well the same thing: display the contents of the stack, along with
-symbolic information, for a running process. There are versions for
-various object file formats (such as ELF and IEEE-695). Most of the
-programs are copyrighted by the Free Software Foundation and are
-marked as "part of GNU Binutils".
-@*@*
-
-In other words, the pstack files are not really part of the MySQL
-library. They are merely useful when you re-program some MYSQL code
-and it crashes.
-@*@*
-
-@subsection regex
-
-Henry Spencer's Regular Expression library for support of REGEXP function.
-@*@*
-
-This is the copyrighted product of Henry Spencer from the University
-of Toronto. It's a fairly-well-known implementation of the
-requirements of POSIX 1003.2 Section 2.8. The library is bundled with
-Apache and is the default implementation for regular-expression
-handling in BSD Unix. MySQL's Monty Widenius has made minor changes in
-three programs (debug.c, engine.c, regexec.c) but this is not a MySQL
-package. MySQL calls it only in order to support two MySQL functions:
-REGEXP and RLIKE.
-@*@*
-
-Some of Mr Spencer's documentation for the regex library can be found
-in the README and WHATSNEW files.
-@*@*
-
-One MySQL program which uses regex is \cmd-line-utils\libedit\search.c
-@*@*
-
-This program calls the 'regcomp' function, which is the entry point in
-\regex\regexp.c.
-@*@*
-
-@subsection SCCS
-
-Source Code Control System (not part of source distribution).
-@*@*
-
-You will see this directory if and only if you used BitKeeper for
-downloading the source. The files here are for BitKeeper
-administration and are not of interest to application programmers.
-@*@*
-
-@subsection scripts
-
-SQL batches, e.g. mysqlbug and mysql_install_db.
-@*@*
-
-The *.sh filename extension stands for "shell script". Linux
-programmers use it where Windows programmers would use a *.bat
-(batch filename extension).
-@*@*
-
-The *.sh files on this directory are:
-@itemize @bullet
-@item
-fill_help_tables.sh  --  Create help-information tables and insert
-@item
-make_binary_distribution.sh  --  Get configure information, make, produce tar
-@item
-msql2mysql.sh  --  Convert (partly) mSQL programs and scripts to MySQL
-@item
-mysqlbug.sh  --  Create a bug report and mail it
-@item
-mysqld_multi.sh  --  Start/stop any number of mysqld instances
-@item
-mysqld_safe-watch.sh  --  Start/restart in safe mode
-@item
-mysqld_safe.sh  --  Start/restart in safe mode
-@item
-mysqldumpslow.sh  --  Parse and summarize the slow query log
-@item
-mysqlhotcopy.sh  --  Hot backup
-@item
-mysql_config.sh  --  Get configuration information that might be needed to compile a client
-@item
-mysql_convert_table_format.sh  --  Conversion, e.g. from ISAM to MyISAM
-@item
-mysql_explain_log.sh  --  Put a log (made with --log) into a MySQL table
-@item
-mysql_find_rows.sh  --  Search for queries containing <regexp>
-@item
-mysql_fix_extensions.sh  --  Renames some file extensions, not recommended
-@item
-mysql_fix_privilege_tables.sh  --  Fix mysql.user etc. when upgrading. Can be safely run during any upgrade to get the newest 
-MySQL privilege tables
-@item
-mysql_install_db.sh  --  Create privilege tables and func table
-@item
-mysql_secure_installation.sh  --  Disallow remote root login, eliminate test, etc.
-@item
-mysql_setpermission.sh  --  Aid to add users or databases, sets privileges
-@item
-mysql_tableinfo.sh  --  Puts info re MySQL tables into a MySQL table
-@item
-mysql_zap.sh  --  Kill processes which match pattern
-@end itemize
-@*@*
-
-@subsection sql
-
-Programs for handling SQL commands. The "core" of MySQL.
-@*@*
-
-These are the .c and .cc files in the sql directory:
-@itemize @bullet
-@item
-convert.cc  --  convert tables between different character sets
-@item
-derror.cc  --  read language-dependent message file
-@item
-des_key_file.cc  --  load DES keys from plaintext file
-@item
-field.cc  --  "implement classes defined in field.h" (long); defines all storage methods MySQL uses to store field information 
-into records that are then passed to handlers
-@item
-field_conv.cc  --  functions to copy data between fields
-@item
-filesort.cc  --  sort a result set, using memory or temporary files
-@item
-frm_crypt.cc  --  contains only one short function: get_crypt_for_frm
-@item
-gen_lex_hash.cc  --  Knuth's algorithm from Vol 3 Sorting and Searching, Chapter 6.3; used to search for SQL keywords in a query
-@item
-gstream.cc  --  GTextReadStream, used to read GIS objects
-@item
-handler.cc  --  handler-calling functions
-@item
-hash_filo.cc  --  static-sized hash tables, used to store info like hostname -> ip tables in a FIFO manner
-@item
-ha_berkeley.cc  --  Handler: BDB
-@item
-ha_heap.cc  --  Handler: Heap
-@item
-ha_innodb.cc  --  Handler: InnoDB
-@item
-ha_isam.cc  --  Handler: ISAM
-@item
-ha_isammrg.cc  --  Handler: (ISAM MERGE)
-@item
-ha_myisam.cc  --  Handler: MyISAM
-@item
-ha_myisammrg.cc  --  Handler: (MyISAM MERGE)
-@item
-hostname.cc  --  Given IP, return hostname
-@item
-init.cc  --  Init and dummy functions for interface with unireg
-@item
-item.cc  --  Item functions
-@item
-item_buff.cc  --  Buffers to save and compare item values
-@item
-item_cmpfunc.cc  --  Definition of all compare functions
-@item
-item_create.cc  --  Create an item. Used by lex.h.
-@item
-item_func.cc  --  Numerical functions
-@item
-item_row.cc  --  Row items for comparing rows and for IN on rows
-@item
-item_sum.cc  --  Set functions (SUM, AVG, etc.)
-@item
-item_strfunc.cc  --  String functions
-@item
-item_subselect.cc  --  Item subselect
-@item
-item_timefunc.cc  --  Date/time functions, e.g. week of year
-@item
-item_uniq.cc  --  Empty file, here for compatibility reasons
-@item
-key.cc  --  Functions to create keys from records and compare a key to a key in a record
-@item
-lock.cc  --  Locks
-@item
-log.cc  --  Logs
-@item
-log_event.cc  --  Log event (a binary log consists of a stream of log events)
-@item
-matherr.c  --  Handling overflow, underflow, etc.
-@item
-mf_iocache.cc  --  Caching of (sequential) reads and writes
-@item
-mini_client.cc  --  Client included in server for server-server messaging; used by the replication code
-@item
-mysqld.cc  --  Source of mysqld.exe; includes the main() program that starts mysqld, handling of signals and connections
-@item
-my_lock.c  --  Lock part of a file (like /mysys/my_lock.c, but with timeout handling for threads)
-@item
-net_serv.cc  --  Read/write of packets on a network socket
-@item
-nt_servc.cc  --  Initialize/register/remove an NT service
-@item
-opt_ft.cc  --  Create a FT or QUICK RANGE based on a key (very short)
-@item
-opt_range.cc  --  Range of keys
-@item
-opt_sum.cc  --  Optimize functions in presence of (implied) GROUP BY
-@item
-password.c  --  Password checking
-@item
-procedure.cc  --  Procedure interface, as used in SELECT * FROM Table_name PROCEDURE ANALYSE
-@item
-protocol.cc  --  Low level functions for PACKING data that is sent to client; actual sending done with net_serv.cc
-@item
-records.cc  --  Functions for easy reading of records, possible through a cache
-@item
-repl_failsafe.cc  --  Replication fail-save (not yet implemented)
-@item
-set_var.cc  --  Set and retrieve MySQL user variables
-@item
-slave.cc  --  Procedures for a slave in a master/slave (replication) relation
-@item
-spatial.cc  --  Geometry stuff (lines, points, etc.)
-@item
-sql_acl.cc  --  Functions related to ACL security; checks, stores, retrieves, and deletes MySQL user level privileges
-@item
-sql_analyse.cc  --  Implements the PROCEDURE analyse, which analyses a query result and returns the 'optimal' data type for each result column
-@item
-sql_base.cc  --  Basic functions needed by many modules, like opening and closing tables with table cache management
-@item
-sql_cache.cc  --  SQL query cache, with long comments about how caching works
-@item
-sql_class.cc  --  SQL class; implements the SQL base classes, of which THD (THREAD object) is the most important
-@item
-sql_crypt.cc  --  Encode / decode, very short
-@item
-sql_db.cc  --  Create / drop database
-@item
-sql_delete.cc  --  The DELETE statement
-@item
-sql_derived.cc  --  Derived tables, with long comments
-@item
-sql_do.cc  --  The DO statement
-@item
-sql_error.cc  --  Errors and warnings
-@item
-sql_handler.cc  --  Implements the HANDLER interface, which gives direct access to rows in MyISAM and InnoDB
-@item
-sql_help.cc  --  The HELP statement
-@item
-sql_insert.cc  --  The INSERT statement
-@item
-sql_lex.cc  --  Does lexical analysis of a query; i.e. breaks a query string into pieces and determines the basic type (number,
-string, keyword, etc.) of each piece
-@item
-sql_list.cc  --  Only list_node_end_of_list, short (the rest of the list class is implemented in sql_list.h)
-@item
-sql_load.cc  --  The LOAD DATA statement
-@item
-sql_map.cc  --  Memory-mapped files (not yet in use)
-@item
-sql_manager.cc  --  Maintenance tasks, e.g. flushing the buffers periodically; used with BDB table logs
-@item
-sql_olap.cc  --  ROLLUP
-@item
-sql_parse.cc  --  Parse an SQL statement; do initial checks and then jump to the function that should execute the statement
-@item
-sql_prepare.cc  --  Prepare an SQL statement, or use a prepared statement
-@item
-sql_repl.cc  --  Replication
-@item
-sql_rename.cc  --  Rename table
-@item
-sql_select.cc  --  Select and join optimisation
-@item
-sql_show.cc  --  The SHOW statement
-@item
-sql_string.cc  --  String functions: alloc, realloc, copy, convert, etc.
-@item
-sql_table.cc  --  The DROP TABLE and ALTER TABLE statements
-@item
-sql_test.cc  --  Some debugging information
-@item
-sql_udf.cc  --  User-defined functions
-@item
-sql_union.cc  --  The UNION operator
-@item
-sql_update.cc  --  The UPDATE statement
-@item
-stacktrace.c  --  Display stack trace (Linux/Intel only)
-@item
-table.cc  --  Table metadata retrieval; read the table definition from a .frm file and store it in a TABLE object
-@item
-thr_malloc.cc  --  Thread-safe interface to /mysys/my_alloc.c
-@item
-time.cc  --  Date and time functions
-@item
-udf_example.cc  --  Example file of user-defined functions
-@item
-uniques.cc  --  Function to handle quick removal of duplicates
-@item
-unireg.cc  --  Create a unireg form file (.frm) from a FIELD and field-info struct
-@end itemize
-@*@*
-
-@subsection sql-bench
-
-The MySQL Benchmarks.
-@*@*
-
-This directory has the programs and input files which MySQL uses for
-its comparisons of MySQL, PostgreSQL, mSQL, Solid, etc. Since MySQL
-publishes the comparative results, it's only right that it should make
-available all the material necessary to reproduce all the tests.
-@*@*
-
-There are five subdirectories and sub-subdirectories:
-@itemize @bullet
-@item
-\Comments  --  Comments about results from tests of Access, Adabas, etc.
-@item
-\Data\ATIS  --  .txt files containing input data for the "ATIS" tests
-@item
-\Data\Wisconsin  --  .txt files containing input data for the "Wisconsin" tests
-@item
-\Results  --  old test results
-@item
-\Results-win32  --  old test results from Windows 32-bit tests
-@end itemize
-@*@*
-
-There are twenty-four *.sh (shell script) files, which involve Perl
-programs.
-@*@*
-
-There are three *.bat (batch) files.
-@*@*
-
-There is one README file and one TODO file.
-@*@*
-
-@subsection SSL
-
-Secure Sockets Layer; includes an example certification one can use
-test an SSL (secure) database connection.
-@*@*
-
-This isn't a code directory. It contains a short note from Tonu Samuel
-(the NOTES file) and seven *.pem files. PEM stands for "Privacy
-Enhanced Mail" and is an Internet standard for adding security to
-electronic mail. Finally, there are two short scripts for running
-clients and servers over SSL connections.
-@*@*
-
-@subsection strings
-
-The string library.
-@*@*
-
-Many of the files in this subdirectory are equivalent to well-known
-functions that appear in most C string libraries. For those, there is
-documentation available in most compiler handbooks.
-@*@*
-
-On the other hand, some of the files are MySQL additions or
-improvements. Often the MySQL changes are attempts to optimize the
-standard libraries. It doesn't seem that anyone tried to optimize for
-recent Pentium class processors, though.
-@*@*
-
-The .C files are:
-@itemize @bullet
-@item
-atof.c  --  ascii-to-float, MySQL version
-@item
-bchange.c  --  short replacement routine written by Monty Widenius in
-1987 
-@item
-bcmp.c  --  binary compare, rarely used 
-@item
-bcopy-duff.c  --  block copy: attempt to copy memory blocks faster
-than cmemcpy 
-@item
-bfill.c  --  byte fill, to fill a buffer with (length) copies of a
-byte 
-@item
-bmove.c  --  block move 
-@item
-bmove512.c  --  "should be the fastest way to move a multiple of 512
-bytes" 
-@item
-bmove_upp.c  --  bmove.c variant, starting with last byte 
-@item
-bzero.c  --  something like bfill with an argument of 0 
-@item
-conf_to_src.c  --  reading a configuration file
-@item
-ctype*.c  --  string handling programs for each char type MySQL
-handles 
-@item
-do_ctype.c  --  display case-conversion and sort-conversion tables 
-@item
-int2str.c  --  integer-to-string 
-@item
-is_prefix.c  --  checks whether string1 starts with string2 
-@item
-llstr.c  --  convert long long to temporary-buffer string, return
-pointer 
-@item
-longlong2str.c  --  ditto, but to argument-buffer 
-@item
-memcmp.c  --  memory compare 
-@item
-memset.c  --  memory set 
-@item
-my_vsnprintf.c  --  variant of printf 
-@item
-r_strinstr.c  --  see if one string is within another 
-@item
-str2int.c  --  convert string to integer 
-@item
-strappend.c  --  fill up a string to n characters
-@item
-strcat.c  --  concatenate strings 
-@item
-strcend.c  --  point to where a character C occurs within str, or NULL
-@item
-strchr.c  --  point to first place in string where character occurs 
-@item
-strcmp.c  --  compare two strings 
-@item
-strcont.c  --  point to where any one of a set of characters appears
-@item
-strend.c  --  point to the '\0' byte which terminates str 
-@item
-strfill.c  --  fill a string with n copies of a byte 
-@item
-strinstr.c  --  find string within string 
-@item
-strlen.c  --  return length of string in bytes 
-@item
-strmake.c  --  create new string from old string with fixed length, append end \0 if needed
-@item
-strmov.c  --  move source to dest and return pointer to end
-@item
-strnlen.c  --  return min(length of string, n)
-@item
-strnmov.c  --  move source to dest for source size, or for n bytes 
-@item
-strrchr.c  --  find a character within string, searching from end 
-@item
-strstr.c  --  find an instance of pattern within source 
-@item
-strto.c  --  string to long, to long long, to unsigned long, etc. 
-@item
-strtol.c  --  string to long 
-@item
-strtoll.c  --  string to long long 
-@item
-strtoul.c  --  string to unsigned long 
-@item
-strtoull.c  --  string to unsigned long long 
-@item
-strxmov.c  --  move a series of concatenated source strings to dest 
-@item
-strxnmov.c  --  like strxmov.c but with a maximum length n 
-@item
-str_test.c  --  test of all the string functions encoded in assembler 
-@item
-udiv.c  --  unsigned long divide, for operating systems that don't support these
-@item
-xml.c  --  read and parse XML strings; used to read character definition information stored in /sql/share/charsets
-@end itemize
-@*@*
-
-There are also four .ASM files -- macros.asm, ptr_cmp.asm,
-strings.asm, and strxmov.asm -- which can replace some of the
-C-program functions. But again, they look like optimizations for old
-members of the Intel processor family.
-@*@*
-
-@subsection support-files
-
-Files used to build MySQL on different systems.
-@*@*
-
-The files here are for building ("making") MySQL given a package
-manager, compiler, linker, and other build tools. The support files
-provide instructions and switches for the build processes. They 
-include example my.cnf files one can use as a default setup for
-MySQL.
-@*@*
-
-@subsection tests
-
-Tests in Perl and in C.
-@*@*
-
-The files in this directory are test programs that can be used 
-as a base to write a program to simulate problems in MySQL in various
-scenarios: forks, locks, big records, exporting, truncating, and so on. 
-Some examples are:
-@itemize @bullet
-@item
-connect_test.c  --  test that a connect is possible
-@item
-insert_test.c  --  test that an insert is possible
-@item
-list_test.c  --  test that a select is possible
-@item
-select_test.c  --  test that a select is possible
-@item
-showdb_test.c  --  test that a show-databases is possible
-@item
-ssl_test.c  --  test that SSL is possible
-@item
-thread_test.c  --  test that threading is possible
-@end itemize
-@*@*
-
-@subsection tools
-
-Tools -- well, actually, one tool.
-@*@*
-
-The only file is:
-@itemize @bullet
-@item
-mysqlmanager.c  --  A "server management daemon" by Sasha Pachev. This
-is a tool under development and is not yet useful. Related to fail-safe 
-replication.
-@end itemize
-@*@*
-
-@subsection VC++Files
-
-Visual C++ Files.
-@*@*
-
-Includes this entire directory, repeated for VC++ (Windows) use.
-@*@*
-
-VC++Files includes a complete environment to compile MySQL with the VC++
-compiler. To use it, just copy the files on this directory; the make_win_src_distribution.sh
-script uses these files to create a Windows source installation.
-@*@*
-
-This directory has subdirectories which are copies of the main directories.
-For example, there is a subdirectory \VC++Files\heap, which has the Microsoft
-developer studio project file to compile \heap with VC++. So for a description 
-of the files in \VC++Files\heap, see the description of the files in \heap. The 
-same applies for almost all of VC++Files's subdirectories (bdb, client,
-isam, libmysql, etc.). The difference is that the \VC++Files variants
-are specifically for compilation with Microsoft Visual C++ in 32-bit
-Windows environments.
-@*@*
-
-In addition to the "subdirectories which are duplicates of
-directories", VC++Files contains these subdirectories, which are not
-duplicates:
-@itemize @bullet
-@item
-comp_err  --  (nearly empty)
-@item
-contrib  --  (nearly empty)
-@item
-InstallShield  --  script files
-@item
-isamchk  --  (nearly empty)
-@item
-libmysqltest  --  one small non-MySQL test program: mytest.c
-@item
-myisamchk  --  (nearly empty)
-@item
-myisamlog  --  (nearly empty)
-@item
-myisammrg  --  (nearly empty)
-@item
-mysqlbinlog  --  (nearly empty)
-@item
-mysqlmanager  --  MFC foundation class files created by AppWizard
-@item
-mysqlserver  --  (nearly empty)
-@item
-mysqlshutdown  --  one short program, mysqlshutdown.c
-@item
-mysqlwatch.c  --  Windows service initialization and monitoring
-@item
-my_print_defaults  --  (nearly empty)
-@item
-pack_isam  --  (nearly empty)
-@item
-perror  --  (nearly empty)
-@item
-prepare  --  (nearly empty)
-@item
-replace  --  (nearly empty)
-@item
-SCCS  --  source code control system
-@item
-test1  --  tests connecting via X threads
-@item
-thr_insert_test  --  (nearly empty)
-@item
-thr_test  --  one short program used to test for memory-allocation bug
-@item
-winmysqladmin  --  the winmysqladmin.exe source
-@end itemize
-@*@*
-
-The "nearly empty" subdirectories noted above (e.g. comp_err and isamchk) 
-are needed because VC++ requires one directory per project (i.e. executable). 
-We are trying to keep to the MySQL standard source layout and compile only 
-to different directories.
-@*@*
-
-@subsection vio
-
-Virtual I/O Library.
-@*@*
-
-The VIO routines are wrappers for the various network I/O calls that
-happen with different protocols. The idea is that in the main modules
-one won't have to write separate bits of code for each protocol. Thus
-vio's purpose is somewhat like the purpose of Microsoft's winsock
-library.
-@*@*
-
-The underlying protocols at this moment are: TCP/IP, Named Pipes (for
-WindowsNT), Shared Memory, and Secure Sockets (SSL).
-@*@*
-
-The C programs are:
-@itemize @bullet
-@item
-test-ssl.c  --  Short standalone test program: SSL 
-@item
-test-sslclient.c  --  Short standalone test program: clients 
-@item
-test-sslserver.c  --  Short standalone test program: server 
-@item
-vio.c  --  Declarations + open/close functions 
-@item
-viosocket.c  --  Send/retrieve functions 
-@item
-viossl.c  --  SSL variations for the above 
-@item
-viosslfactories.c  --  Certification / Verification 
-@item
-viotest.cc  --  Short standalone test program: general 
-@item
-viotest-ssl.c  --  Short standalone test program: SSL 
-@item
-viotest-sslconnect.cc  --  Short standalone test program: SSL connect 
-@end itemize
-@*@*
-
-The older functions -- raw_net_read, raw_net_write -- are now
-obsolete.
-@*@*
-
-@subsection zlib
-
-Data compression library, used on Windows.
-@*@*
-
-zlib is a data compression library used to support the compressed
-protocol and the COMPRESS/UNCOMPRESS functions under Windows.
-On Unix, MySQL uses the system libgz.a library for this purpose.
-@*@*
-
-Zlib -- which presumably stands for "Zip Library" -- is not a MySQL
-package. It was produced by the GNU Zip (gzip.org) people. Zlib is a
-variation of the famous "Lempel-Ziv" method, which is also used by
-"Zip". The method for reducing the size of any arbitrary string of
-bytes is as follows:
-@itemize @bullet
-@item
-Find a substring which occurs twice in the string.
-@item
-Replace the second occurrence of the substring with (a) a pointer to
-the first occurrence, plus (b) an indication of the length of the
-first occurrence.
-@end itemize
-
-There is a full description of the library's functions in the gzip
-manual at: @*
-@url{http://www.gzip.org/zlib/manual.html} @*
-There is therefore no need to list the modules in this document.
-@*@*
-
-The MySQL program \mysys\my_compress.c uses zlib for packet compression. 
-The client sends messages to the server which are compressed by zlib. 
-See also: \sql\net_serv.cc.
-
-@node Files in InnoDB Sources,  , Files in MySQL Sources, Top
-@chapter Annotated List Of Files in the InnoDB Source Code Distribution
-
-ERRATUM BY HEIKKI TUURI (START)
-@*@*
-
-Errata about InnoDB row locks:@*@*
-
-@example
-  #define LOCK_S  4 /* shared */
-  #define LOCK_X  5 /* exclusive */
-...
-@strong{/* Waiting lock flag */}
-  #define LOCK_WAIT 256
-/* this wait bit should be so high that it can be ORed to the lock
-mode and type; when this bit is set, it means that the lock has not
-yet been granted, it is just waiting for its turn in the wait queue */
-...
-@strong{/* Precise modes */}
-  #define LOCK_ORDINARY 0
-/* this flag denotes an ordinary next-key lock in contrast to LOCK_GAP
-or LOCK_REC_NOT_GAP */
-  #define LOCK_GAP 512
-/* this gap bit should be so high that it can be ORed to the other
-flags; when this bit is set, it means that the lock holds only on the
-gap before the record; for instance, an x-lock on the gap does not
-give permission to modify the record on which the bit is set; locks of
-this type are created when records are removed from the index chain of
-records */
-  #define LOCK_REC_NOT_GAP 1024
-/* this bit means that the lock is only on the index record and does
-NOT block inserts to the gap before the index record; this is used in
-the case when we retrieve a record with a unique key, and is also used
-in locking plain SELECTs (not part of UPDATE or DELETE) when the user
-has set the READ COMMITTED isolation level */
-  #define LOCK_INSERT_INTENTION 2048
-/* this bit is set when we place a waiting gap type record lock
-request in order to let an insert of an index record to wait until
-there are no conflicting locks by other transactions on the gap; note
-that this flag remains set when the waiting lock is granted, or if the
-lock is inherited to a neighboring record */
-@end example
-@*
-
-ERRATUM BY HEIKKI TUURI (END)
-@*@*
-
-The InnoDB source files are the best place to look for information
-about internals of the file structure that MySQLites can optionally
-use for transaction support. But when you first look at all the
-subdirectories and file names you'll wonder: Where Do I Start? It can
-be daunting.
-@*@*
-
-Well, I've been through that phase, so I'll pass on what I had to
-learn on the first day that I looked at InnoDB source files. I am very
-sure that this will help you grasp, in overview, the organization of
-InnoDB modules. I'm also going to add comments about what is going on
--- which you should mistrust! These comments are reasonable working
-hypotheses; nevertheless, they have not been subjected to expert peer
-review.
-@*@*
-
-Here's how I'm going to organize the discussion. I'll take each of the
-32 InnoDB subdirectories that come with the MySQL 4.0 source code in
-\mysql\innobase (on my Windows directory). The format of each section
-will be like this every time:
-@*@*
-
-@strong{\subdirectory-name (LONGER EXPLANATORY NAME)}@*
-@multitable @columnfractions .10 .20 .40 .50
-@item @strong{File Name} @tab @strong{What Name Stands For} @tab @strong{Size} @tab @strong{Comment Inside File}
-@item file-name
-@tab my-own-guess
-@tab in-bytes
-@tab from-the-file-itself
-@end multitable
-...@*
-My-Comments@*
-@*
-
-For example: @*
-@example
-"
-@strong{\ha (HASHING)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  ha0ha.c     Hashing/Hashing        7,452   Hash table with external chains
-
-  Comments about hashing will be here.
-"
-@end example
-@*
-
-The "Comment Inside File" column is a direct copy from the first /*
-comment */ line inside the file. All other comments are mine. After
-I've discussed each directory, I'll finish with some notes about
-naming conventions and a short list of URLs that you can use for
-further reference.
-@*@*
-
-Now let's begin.
-@*@*
-
-@example
-
-@strong{\ha (HASHING)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  ha0ha.c     Hashing / Hashing      7,452   Hash table with external chains
-
-I'll hold my comments until the next section, \hash (HASHING).
-
-@strong{\hash (HASHING)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  hash0hash.c Hashing / Hashing      3,257   Simple hash table utility
-
-The two C programs in the \ha and \hashing directories -- ha0ha.c and
-hash0hash.c -- both refer to a "hash table" but hash0hash.c is
-specialized, it is mostly about accessing points in the table under
-mutex control.
-
-When a "database" is so small that InnoDB can load it all into memory
-at once, it's more efficient to access it via a hash table. After all,
-no disk i/o can be saved by using an index lookup, if there's no disk.
-
-@strong{\os (OPERATING SYSTEM)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  os0shm.c    OS / Shared Memory     3,150   To shared memory primitives
-  os0file.c   OS / File             64,412   To i/o primitives
-  os0thread.c OS / Thread            6,827   To thread control primitives
-  os0proc.c   OS / Process           3,700   To process control primitives
-  os0sync.c   OS / Synchronization  10,208   To synchronization primitives
-
-This is a group of utilities that other modules may call whenever they
-want to use an operating-system resource. For example, in os0file.c
-there is a public InnoDB function named os_file_create_simple(), which
-simply calls the Windows-API function CreateFile. Naturally the
-contents of this group are somewhat different for other operating systems.
-
-The "Shared Memory" functions in os0shm.c are only called from the
-communications program com0shm.c (see \com COMMUNICATIONS). The i/o
-and thread-control primitives are called extensively. The word
-"synchronization" in this context refers to the mutex-create and
-mutex-wait functionality.
-
-@strong{\ut (UTILITIES)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  ut0ut.c     Utilities / Utilities  7,041   Various utilities
-  ut0byte.c   Utilities / Debug      1,856   Byte utilities
-  ut0rnd.c    Utilities / Random     1,475   Random numbers and hashing
-  ut0mem.c    Utilities / Memory     5,530   Memory primitives
-  ut0dbg.c    Utilities / Debug        642   Debug utilities
-
-The two functions in ut0byte.c are just for lower/upper case
-conversion and comparison. The single function in ut0rnd.c is for
-finding a prime slightly greater than the given argument, which is
-useful for hash functions, but unrelated to randomness. The functions
-in ut0mem.c are wrappers for "malloc" and "free" calls -- for the
-real "memory" module see section \mem (MEMORY). Finally, the
-functions in ut0ut.c are a miscellany that didn't fit better elsewhere:
-get_high_bytes, clock, time, difftime, get_year_month_day, and "sprintf"
-for various diagnostic purposes.
-
-In short: the \ut group is trivial.
-
-@strong{\buf (BUFFERING)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  buf0buf.c   Buffering / Buffering 53,246   The database buffer buf_pool
-  buf0flu.c   Buffering / Flush     23,711   ... flush algorithm
-  buf0lru.c   / least-recently-used 20,245   ... replacement algorithm
-  buf0rea.c   Buffering / read      17,399   ... read
-
-There is a separate file group (\mem MEMORY) which handles memory
-requests in general.A "buffer" usually has a more specific
-definition, as a memory area which contains copies of pages that
-ordinarily are in the main data file. The "buffer pool" is the set
-of all buffers (there are lots of them because InnoDB doesn't
-depend on the OS's caching to make things faster).
-
-The pool size is fixed (at the time of this writing) but the rest of
-the buffering architecture is sophisticated, involving a host of
-control structures. In general: when InnoDB needs to access a new page
-it looks first in the buffer pool; InnoDB reads from disk to a new
-buffer when the page isn't there; InnoDB chucks old buffers (basing
-its decision on a conventional Least-Recently-Used algorithm) when it
-has to make space for a new buffer.
-
-There are routines for checking a page's validity, and for read-ahead.
-An example of "read-ahead" use: if a sequential scan is going on, then
-a DBMS can read more than one page at a time, which is efficient
-because reading 32,768 bytes (two pages) takes less than twice as long
-as reading 16,384 bytes (one page).
-
-@strong{\btr (B-TREE)}
-  File Name   What Name Stands For         Size     Comment Inside File
-  ---------   --------------------         ------   -------------------
-  btr0btr.c   B-tree / B-tree              74,255   B-tree
-  btr0cur.c   B-tree / Cursor              94,950   index tree cursor
-  btr0sea.c   B-tree / Search              36,580   index tree adaptive search
-  btr0pcur.c  B-tree / persistent cursor   14,548   index tree persistent cursor
-
-If you total up the sizes of the C files, you'll see that \btr is the
-second-largest file group in InnoDB. This is understandable because
-maintaining a B-tree is a relatively complex task. Luckily, there has
-been a lot of work done to describe efficient management of B-tree and
-B+-tree structures, much of it open-source or public-domain, since
-their original invention over thirty years ago.
-
-InnoDB likes to put everything in B-trees. This is what I'd call a
-"distinguishing characteristic" because in all the major DBMSs (like
-IBM DB2, Microsoft SQL Server, and Oracle), the main or default or
-classic structure is the heap-and-index. In InnoDB the main structure
-is just the index. To put it another way: InnoDB keeps the rows in the
-leaf node of the index, rather than in a separate file. Compare
-Oracle's Index Organized Tables, and Microsoft SQL Server's Clustered
-Indexes.
-
-This, by the way, has some consequences. For example, you may as well
-have a primary key since otherwise InnoDB will make one anyway. And
-that primary key should be the shortest of the candidate keys, since
-InnoDB
-will use it as a pointer if there are secondary indexes.
-
-Most importantly, it means that rows have no fixed address. Therefore
-the routines for managing file pages should be good. We'll see about
-that when we look at the \row (ROW) program group later.
-
-@strong{\com (COMMUNCATION)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  com0com.c   Communication          6,913   Communication primitives
-  com0shm.c   Communication /       24,633   ... through shared memory
-              Shared Memory
-
-The communication primitives in com0com.c are said to be modelled
-after the ones in Microsoft's winsock library (the Windows Sockets
-interface). The communication primitives in com0shm.c are at a
-slightly lower level, and are called from the routines in com0com.c.
-
-I was interested in seeing how InnoDB would handle inter-process
-communication, since there are many options -- named pipes, TCP/IP,
-Windows messaging, and Shared Memory being the main ones that come to
-mind. It appears that InnoDB prefers Shared Memory. The main idea is:
-there is an area of memory which two different processes (or threads,
-of course) can both access. To communicate, a thread gets an
-appropriate mutex, puts in a request, and waits for a response. Thread 
-interaction is also a subject for the os0thread.c program in another 
-program group, \os (OPERATING SYSTEM).
-
-@strong{\dyn (DYNAMICALLY ALLOCATED ARRAY)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  dyn0dyn.c   Dynamic / Dynamic        994   dynamically allocated array
-
-There is a single function in the dyn0dyn.c program, for adding a
-block to the dynamically allocated array. InnoDB might use the array
-for managing concurrency between threads.
-
-At the moment, the \dyn program group is trivial.
-
-@strong{\fil (FILE)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  fil0fil.c   File / File           39,725   The low-level file system
-
-The reads and writes to the database files happen here, in
-co-ordination with the low-level file i/o routines (see os0file.h in
-the \os program group).
-
-Briefly: a table's contents are in pages, which are in files, which
-are in tablespaces. Files do not grow; instead one can add new files
-to the tablespace. As we saw earlier (discussing the \btr program group)
-the pages are nodes of B-trees. Since that's the case, new additions can
-happen at various places in the logical file structure, not
-necessarily at the end. Reads and writes are asynchronous, and go into
-buffers, which are set up by routines in the \buf program group.
-
-@strong{\fsp (FILE SPACE)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  fsp0fsp.c   File Space Management 100,271  File space management
-
-I would have thought that the \fil (FILE) and \fsp (FILE SPACE)
-MANAGEMENT programs would fit together in the same program group;
-however, I guess the InnoDB folk are splitters rather than lumpers.
-
-It's in fsp0fsp.c that one finds some of the descriptions and comments
-of extents, segments, and headers. For example, the "descriptor bitmap
-of the pages in the extent" is in here, and you can find as well how
-the free-page list is maintained, what's in the bitmaps, and what
-various header fields' contents are.
-
-@strong{\fut (FILE UTILITY)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  fut0fut.c   File Utility / Utility   293   File-based utilities
-  fut0lst.c   File Utility / List   14,129   File-based list utilities
-
-Mainly these small programs affect only file-based lists, so maybe
-saying "File Utility" is too generic. The real work with data files 
-goes on in the \fsp program group.
-
-@strong{\log (LOGGING)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  log0log.c   Logging / Logging     77,834   Database log
-  log0recv.c  Logging / Recovery    80,701   Recovery
-
-I've already written about the \log program group, so here's a link to
-my previous article: "How Logs work with MySQL and InnoDB":
-@url{http://www.devarticles.com/art/1/181/2}
-
-@strong{\mem (MEMORY)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  mem0mem.c   Memory / Memory        9,971   The memory management
-  mem0dbg.c   Memory / Debug        21,297   ... the debug code
-  mem0pool.c  Memory / Pool         16,293   ... the lowest level
-
-There is a long comment at the start of the mem0pool.c program, which
-explains what the memory-consumers are, and how InnoDB tries to
-satisfy them. The main thing to know is that there are really three
-pools: the buffer pool (see the \buf program group), the log pool (see the \log
-program group), and the common pool, which is where everything that's
-not in the buffer or log pools goes (for example the parsed SQL
-statements and the data dictionary cache).
-
-@strong{\mtr (MINI-TRANSACTION)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  mtr0mtr.c   Mini-transaction /    12,433   Mini-transaction buffer
-  mtr0log.c   Mini-transaction / Log 8,180   ... log routines
-
-The mini-transaction routines are called from most of the other
-program groups. I'd describe this as a low-level utility set.
-
-@strong{\que (QUERY GRAPH)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  que0que.c   Query Graph / Query   35,964   Query graph
-
-The program que0que.c ostensibly is about the execution of stored
-procedures which contain commit/rollback statements. I took it that
-this has little importance for the average MySQL user.
-
-@strong{\rem (RECORD MANAGER)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  rem0rec.c   Record Manager        14,961   Record Manager
-  rem0cmp.c   Record Manager /      25,263   Comparison services for records
-              Comparison
-
-There's an extensive comment near the start of rem0rec.c title
-"Physical Record" and it's recommended reading. At some point you'll
-ask what are all those bits that surround the data in the rows on a page, 
-and this is where you'll find the answer.
-
-@strong{\row (ROW)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  row0row.c   Row / Row             16,764   General row routines
-  row0uins.c  Row / Undo Insert      7,199   Fresh insert undo
-  row0umod.c  Row / Undo Modify     17,147   Undo modify of a row
-  row0undo.c  Row / Undo            10,254   Row undo
-  row0vers.c  Row / Version         12,288   Row versions
-  row0mysql.c Row / MySQL           63,556   Interface [to MySQL]
-  row0ins.c   Row / Insert          42,829   Insert into a table
-  row0sel.c   Row / Select          85,923   Select
-  row0upd.c   Row / Update          44,456   Update of a row
-  row0purge.c Row / Purge           14,961   Purge obsolete records
-
-Rows can be selected, inserted, updated/deleted, or purged (a
-maintenance activity). These actions have ancillary actions, for
-example after insert there can be an index-update test, but it seems 
-to me that sometimes the ancillary action has no MySQL equivalent (yet) 
-and so is inoperative.
-
-Speaking of MySQL, notice that one of the larger programs in the \row
-program group is the "interface between Innobase row operations and
-MySQL" (row0mysql.c) -- information interchange happens at this level
-because rows in InnoDB and in MySQL are analogous, something which
-can't be said for pages and other levels.
-
-@strong{\srv (Server)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  srv0srv.c   Server / Server       79,058   Server main program
-  srv0que.c   Server / Query         2,361   Server query execution
-  srv0start.c Server / Start        34,586   Starts the server
-
-This is where the server reads the initial configuration files, splits
-up the threads, and gets going. There is a long comment deep in the
-program (you might miss it at first glance) titled "IMPLEMENTATION OF
-THE SERVER MAIN PROGRAM" in which you'll find explanations about
-thread priority, and about what the responsibiities are for various 
-thread types.
-
-InnoDB has many threads, for example "user threads" (which wait for
-client requests and reply to them), "parallel communication threads"
-(which take part of a user thread's job if a query process can be
-split), "utility threads" (background priority), and a "master thread"
-(high priority, usually asleep).
-
-@strong{\thr (Thread Local Storage)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  thr0loc.c   Thread / Local         5,261   The thread local storage
-
-InnoDB doesn't use the Windows-API thread-local-storage functions,
-perhaps because they're not portable enough.
-
-@strong{\trx (Transaction)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  trx0trx.c   Transaction /         37,447   The transaction
-  trx0purge.c Transaction / Purge   26,782   ... Purge old versions
-  trx0rec.c   Transaction / Record  36,525   ... Undo log record
-  trx0sys.c   Transaction / System  20,671   ... System
-  trx0rseg.c  / Rollback segment     6,214   ... Rollback segment
-  trx0undo.c  Transaction / Undo    46,595   ... Undo log
-
-InnoDB's transaction management is supposedly "in the style of Oracle"
-and that's close to true but can mislead you. 
-@itemize
-@item
-First: InnoDB uses rollback segments like Oracle8i does -- but
-Oracle9i uses a different name 
-@item
-Second: InnoDB uses multi-versioning like Oracle does -- but I see
-nothing that looks like an Oracle ITL being stored in the InnoDB data
-pages. 
-@item
-Third: InnoDB and Oracle both have short (back-to-statement-start)
-versioning for the READ COMMITTED isolation level and long
-(back-to-transaction-start) versioning for higher levels -- but InnoDB
-and Oracle have different "default" isolation levels. 
-@item
-Finally: InnoDB's documentation says it has to lock "the gaps before
-index keys" to prevent phantoms -- but any Oracle user will tell you that
-phantoms are impossible anyway at the SERIALIZABLE isolation level, so 
-key-locks are unnecessary.
-@end itemize
-
-The main idea, though, is that InnoDB has multi-versioning. So does
-Oracle. This is very different from the way that DB2 and SQL Server do
-things.
-
-@strong{\usr (USER)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  usr0sess.c  User / Session        27,415   Sessions
-
-One user can have multiple sessions (the session being all the things
-that happen betweeen a connect and disconnect). This is where InnoDB
-tracks session IDs, and server/client messaging. It's another of those
-items which is usually MySQL's job, though.
-
-@strong{\data (DATA)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  data0data.c Data / Data           26,002   SQL data field and tuple
-  data0type.c Data / Type            2,122   Data types
-
-This is a collection of minor utility routines affecting rows.
-
-@strong{\dict (DICTIONARY)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  dict0dict.c Dictionary / Dictionary 84,667 Data dictionary system
-  dict0boot.c Dictionary / boot     12,134   ... creation and booting
-  dict0load.c Dictionary / load     26,546   ... load to memory cache
-  dict0mem.c  Dictionary / memory    8,221   ... memory object creation
-
-The data dictionary (known in some circles as the catalog) has the
-metadata information about objects in the database -- column sizes,
-table names, and the like.
-
-@strong{\eval (EVALUATING)}
-  File Name   What Name Stands For  Size    Comment Inside File
-  ---------   --------------------  ------  -------------------
-  eval0eval.c Evaluating/Evaluating 15,682  SQL evaluator
-  eval0proc.c Evaluating/Procedures  5,000  Executes SQL procedures
-
-The evaluating step is a late part of the process of interpreting an
-SQL statement -- parsing has already occurred during \pars (PARSING).
-
-The ability to execute SQL stored procedures is an InnoDB feature, but
-not a MySQL feature, so the eval0proc.c program is unimportant.
-
-@strong{\ibuf (INSERT BUFFER)}
-  File Name   What Name Stands For  Size     Comment Inside File
-  ---------   --------------------  ------   -------------------
-  ibuf0ibuf.c Insert Buffer /       69,884   Insert buffer
-
-The words "Insert Buffer" mean not "buffer used for INSERT" but
-"insertion of a buffer into the buffer pool" (see the \buf BUFFER
-program group description). The matter is complex due to possibilities
-for deadlocks, a problem to which the comments in the ibuf0ibuf.c 
-program devote considerable attention.
-
-@strong{\mach (MACHINE FORMAT)}
-  File Name   What Name Stands For  Size    Comment Inside File
-  ---------   --------------------  ------  -------------------
-  mach0data.c Machine/Data           2,319  Utilities for converting
-
-The mach0data.c program has two small routines for reading compressed
-ulints (unsigned long integers).
-
-@strong{\lock (LOCKING)}
-  File Name   What Name Stands For  Size    Comment Inside File
-  ---------   --------------------  ------  -------------------
-  lock0lock.c Lock / Lock           127,646 The transaction lock system
-
-If you've used DB2 or SQL Server, you might think that locks have their
-own in-memory table, that row locks might need occasional escalation to 
-table locks, and that there are three lock types: Shared, Update, Exclusive. 
-
-All those things are untrue with InnoDB! Locks are kept in the database 
-pages. A bunch of row locks can't be rolled together into a single table 
-lock. And most importantly there's only one lock type. I call this type 
-"Update" because it has the characteristics of DB2 / SQL Server Update 
-locks, that is, it blocks other updates but doesn't block reads. 
-Unfortunately, InnoDB comments refer to them as "x-locks" etc.
-
-To sum it up: if your background is Oracle you won't find too much
-surprising, but if your background is DB2 or SQL Server the locking
-concepts and terminology will probably confuse you at first.
-
-You can find an online article about the differences between
-Oracle-style and DB2/SQL-Server-style locks at:
-@url{http://dbazine.com/gulutzan6.html}
-
-@strong{\odbc (ODBC)}
-  File Name   What Name Stands For Size    Comment Inside File
-  ---------   --------------------  ------  -------------------
-  odbc0odbc.c ODBC / ODBC           16,865  ODBC client library
-
-The odbc0odbc.c program has a small selection of old ODBC-API
-functions: SQLAllocEnv, SQLAllocConnect, SQLAllocStmt, SQLConnect, 
-SQLError, SQLPrepare, SQLBindParameter, SQLExecute.
-
-@strong{\page (PAGE)}
-  File Name   What Name Stands For  Size    Comment Inside File
-  ---------   --------------------  ------  -------------------
-  page0page.c Page / Page           44,309  Index page routines
-  page0cur.c  Page / Cursor         30,305  The page cursor
-
-It's in the page0page.c program that you'll learn as follows: index
-pages start with a header, entries in the page are in order, at the
-end of the page is a sparse "page directory" (what I would have called
-a slot table) which makes binary searches easier.
-
-Incidentally, the program comments refer to "a page size of 8 kB"
-which seems obsolete. In univ.i (a file containing universal
-constants) the page size is now #defined as 16KB.
-
-@strong{\pars (PARSING)}
-  File Name   What Name Stands For Size    Comment Inside File
-  ---------   -------------------- ------  -------------------
-  pars0pars.c Parsing/Parsing      49,947  SQL parser
-  pars0grm.c  Parsing/Grammar      62,685  A Bison parser
-  pars0opt.c  Parsing/Optimizer    30,809  Simple SQL Optimizer
-  pars0sym.c  Parsing/Symbol Table  5,541  SQL parser symbol table
-  lexyy.c     ?/Lexer              59,948  Lexical scanner
-
-The job is to input a string containing an SQL statement and output an
-in-memory parse tree. The EVALUATING (subdirectory \eval) programs
-will use the tree.
-
-As is common practice, the Bison and Flex tools were used -- pars0grm.c 
-is what the Bison parser produced from an original file named pars0grm.y 
-(not supplied), and lexyy.c is what Flex produced.
-
-Since InnoDB is a DBMS by itself, it's natural to find SQL parsing in
-it. But in the MySQL/InnoDB combination, MySQL handles most of the
-parsing. These files are unimportant.
-
-@strong{\read (READ)}
-  File Name   What Name Stands For Size    Comment Inside File
-  ---------   -------------------- ------  -------------------
-  read0read.c Read / Read           6,244  Cursor read
-
-The read0read.c program opens a "read view" of a query result, using
-some functions in the \trx program group.
-
-@strong{\sync (SYNCHRONIZATION)}
-  File Name   What Name Stands For Size    Comment Inside File
-  ---------   -------------------- ------  -------------------
-  sync0sync.c Synchronization /    35,918  Mutex, the basic sync primitive
-  sync0arr.c  ... / array          26,461  Wait array used in primitives
-  sync0ipm.c  ... / interprocess    4,027  for interprocess sync
-  sync0rw.c   ... / read-write     22,220  read-write lock for thread sync
-
-A mutex (Mutual Exclusion) is an object which only one thread/process
-can hold at a time. Any modern operating system API has some functions
-for mutexes; however, as the comments in the sync0sync.c code indicate, it
-can be faster to write one's own low-level mechanism. In fact the old
-assembly-language XCHG trick is in here -- this is the only program
-that contains any assembly code.
-@end example
-@*
-@*
-
-This is the end of the section-by-section account of InnoDB
-subdirectories.
-@*@*
-
-@strong{A Note About File Naming} @*@*
-
-There appears to be a naming convention. The first letters of the file
-name are the same as the subdirectory name, then there is a '0'
-separator, then there is an individual name. For the main program in a
-subdirectory, the individual name may be a repeat of the subdirectory
-name. For example, there is a file named ha0ha.c (the first two
-letters ha mean "it's in in subdirectory ..\ha", the next letter 0
-means "0 separator", the next two letters mean "this is the main ha
-program"). This naming convention is not strict, though: for example
-the file lexyy.c is in the \pars subdirectory.
-@*@*
-
-@strong{A Note About Copyrights} @*@*
-
-Most of the files begin with a copyright notice or a creation date,
-for example "Created 10/25/1995 Heikki Tuuri". I don't know a great
-deal about the history of InnoDB, but found it interesting that most
-creation dates were between 1994 and 1998.
-@*@*
-
-@strong{References} @*@*
-
-Ryan Bannon, Alvin Chin, Faryaaz Kassam and Andrew Roszko @*
-"InnoDB Concrete Architecture" @*
-@url{http://www.swen.uwaterloo.ca/~mrbannon/cs798/assignment_02/innodb.pdf}
-
-A student paper. It's an interesting attempt to figure out InnoDB's
-architecture using tools, but I didn't end up using it for the specific 
-purposes of this article.
-@*@*
-
-Peter Gulutzan @*
-"How Logs Work With MySQL And InnoDB" @*
-@url{http://www.devarticles.com/art/1/181/2}
-@*@*
-
-Heikki Tuuri @*
-"InnoDB Engine in MySQL-Max-3.23.54 / MySQL-4.0.9: The Up-to-Date
-Reference Manual of InnoDB" @*
-@url{http://www.innodb.com/ibman.html}
-
-This is the natural starting point for all InnoDB information. Mr
-Tuuri also appears frequently on MySQL forums.
-@*@*
-
-@summarycontents
-@contents
-
-@bye