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Kirill Smelkov
mariadb
Commits
9d03c59c
Commit
9d03c59c
authored
Jul 07, 2006
by
jonas@perch.ndb.mysql.com
Browse files
Options
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Plain Diff
ndb -
Add DynArr256 which is a ndb-ish judy array Like the one used in ACC
parent
8e11f6f5
Changes
4
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Showing
4 changed files
with
1111 additions
and
4 deletions
+1111
-4
storage/ndb/src/kernel/vm/DynArr256.cpp
storage/ndb/src/kernel/vm/DynArr256.cpp
+1015
-0
storage/ndb/src/kernel/vm/DynArr256.hpp
storage/ndb/src/kernel/vm/DynArr256.hpp
+79
-0
storage/ndb/src/kernel/vm/Makefile.am
storage/ndb/src/kernel/vm/Makefile.am
+14
-3
storage/ndb/src/kernel/vm/bench_pool.cpp
storage/ndb/src/kernel/vm/bench_pool.cpp
+3
-1
No files found.
storage/ndb/src/kernel/vm/DynArr256.cpp
0 → 100644
View file @
9d03c59c
/* Copyright (C) 2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include "DynArr256.hpp"
#include <stdio.h>
#include <assert.h>
#include <NdbOut.hpp>
#define DA256_BITS 5
#define DA256_MASK 31
struct
DA256CL
{
Uint32
m_magic
;
Uint32
m_data
[
15
];
};
struct
DA256Free
{
Uint32
m_magic
;
Uint32
m_next_free
;
};
struct
DA256Node
{
struct
DA256CL
m_lines
[
17
];
};
struct
DA256Page
{
struct
DA256CL
m_header
[
2
];
struct
DA256Node
m_nodes
[
30
];
};
#define require(x) require_impl(x, __LINE__)
//#define DA256_USE_PX
//#define DA256_USE_PREFETCH
#define DA256_EXTRA_SAFE
#ifdef UNIT_TEST
#ifdef USE_CALLGRIND
#include <valgrind/callgrind.h>
#else
#define CALLGRIND_TOGGLE_COLLECT()
#endif
Uint32
allocatedpages
=
0
;
Uint32
allocatednodes
=
0
;
Uint32
releasednodes
=
0
;
#endif
inline
void
require_impl
(
bool
x
,
int
line
)
{
if
(
!
x
)
{
ndbout_c
(
"LINE: %d"
,
line
);
abort
();
}
}
DynArr256Pool
::
DynArr256Pool
()
{
m_type_id
=
RNIL
;
m_first_free
=
RNIL
;
m_memroot
=
0
;
}
void
DynArr256Pool
::
init
(
Uint32
type_id
,
const
Pool_context
&
pc
)
{
m_ctx
=
pc
;
m_type_id
=
type_id
;
m_memroot
=
(
DA256Page
*
)
m_ctx
.
get_memroot
();
}
static
const
Uint32
g_max_sizes
[
5
]
=
{
0
,
256
,
65536
,
16777216
,
~
0
};
/**
* sz = 0 = 1 - 0 level
* sz = 1 = 256^1 - 1 level
* sz = 2 = 256^2 - 2 level
* sz = 3 = 256^3 - 3 level
* sz = 4 = 256^4 - 4 level
*/
Uint32
*
DynArr256
::
get
(
Uint32
pos
)
const
{
Uint32
sz
=
m_head
.
m_sz
;
Uint32
ptrI
=
m_head
.
m_ptr_i
;
DA256Page
*
memroot
=
m_pool
.
m_memroot
;
Uint32
type_id
=
(
~
m_pool
.
m_type_id
)
&
0xFFFF
;
if
(
unlikely
(
pos
>=
g_max_sizes
[
sz
]))
{
return
0
;
}
#ifdef DA256_USE_PX
Uint32
px
[
4
]
=
{
(
pos
>>
24
)
&
255
,
(
pos
>>
16
)
&
255
,
(
pos
>>
8
)
&
255
,
(
pos
>>
0
)
&
255
};
#endif
Uint32
*
retVal
=
&
m_head
.
m_ptr_i
;
for
(;
sz
--
;)
{
if
(
unlikely
(
ptrI
==
RNIL
))
{
return
0
;
}
#ifdef DA256_USE_PX
Uint32
p0
=
px
[
sz
];
#else
Uint32
shr
=
sz
<<
3
;
Uint32
p0
=
(
pos
>>
shr
)
&
255
;
#endif
Uint32
page_no
=
ptrI
>>
DA256_BITS
;
Uint32
page_idx
=
ptrI
&
DA256_MASK
;
DA256Page
*
page
=
memroot
+
page_no
;
Uint32
*
magic_ptr
,
p
;
if
(
p0
!=
255
)
{
Uint32
line
=
((
p0
<<
8
)
+
(
p0
<<
4
)
+
p0
+
255
)
>>
12
;
Uint32
*
ptr
=
(
Uint32
*
)(
page
->
m_nodes
+
page_idx
);
p
=
0
;
retVal
=
(
ptr
+
1
+
p0
+
line
);
magic_ptr
=
(
ptr
+
(
p0
&
~
15
));
}
else
{
Uint32
b
=
(
page_idx
+
1
)
>>
4
;
Uint32
*
ptr
=
(
Uint32
*
)(
page
->
m_header
+
b
);
p
=
page_idx
-
(
b
<<
4
)
+
b
;
retVal
=
(
ptr
+
1
+
p
);
magic_ptr
=
ptr
;
}
ptrI
=
*
retVal
;
Uint32
magic
=
*
magic_ptr
;
if
(
unlikely
(
!
((
magic
&
(
1
<<
p
))
&&
(
magic
>>
16
)
==
type_id
)))
goto
err
;
}
return
retVal
;
err:
require
(
false
);
return
0
;
}
Uint32
*
DynArr256
::
set
(
Uint32
pos
)
{
Uint32
sz
=
m_head
.
m_sz
;
Uint32
type_id
=
(
~
m_pool
.
m_type_id
)
&
0xFFFF
;
DA256Page
*
memroot
=
m_pool
.
m_memroot
;
if
(
unlikely
(
pos
>=
g_max_sizes
[
sz
]))
{
if
(
unlikely
(
!
expand
(
pos
)))
{
return
0
;
}
sz
=
m_head
.
m_sz
;
}
#ifdef DA256_USE_PX
Uint32
px
[
4
]
=
{
(
pos
>>
24
)
&
255
,
(
pos
>>
16
)
&
255
,
(
pos
>>
8
)
&
255
,
(
pos
>>
0
)
&
255
};
#endif
Uint32
ptrI
=
m_head
.
m_ptr_i
;
Uint32
*
retVal
=
&
m_head
.
m_ptr_i
;
for
(;
sz
--
;)
{
#ifdef DA256_USE_PX
Uint32
p0
=
px
[
sz
];
#else
Uint32
shr
=
sz
<<
3
;
Uint32
p0
=
(
pos
>>
shr
)
&
255
;
#endif
if
(
ptrI
==
RNIL
)
{
if
(
unlikely
((
ptrI
=
m_pool
.
seize
())
==
RNIL
))
{
return
0
;
}
*
retVal
=
ptrI
;
}
Uint32
page_no
=
ptrI
>>
DA256_BITS
;
Uint32
page_idx
=
ptrI
&
DA256_MASK
;
DA256Page
*
page
=
memroot
+
page_no
;
Uint32
*
magic_ptr
,
p
;
if
(
p0
!=
255
)
{
Uint32
line
=
((
p0
<<
8
)
+
(
p0
<<
4
)
+
p0
+
255
)
>>
12
;
Uint32
*
ptr
=
(
Uint32
*
)(
page
->
m_nodes
+
page_idx
);
p
=
0
;
magic_ptr
=
(
ptr
+
(
p0
&
~
15
));
retVal
=
(
ptr
+
1
+
p0
+
line
);
}
else
{
Uint32
b
=
(
page_idx
+
1
)
>>
4
;
Uint32
*
ptr
=
(
Uint32
*
)(
page
->
m_header
+
b
);
p
=
page_idx
-
(
b
<<
4
)
+
b
;
magic_ptr
=
ptr
;
retVal
=
(
ptr
+
1
+
p
);
}
ptrI
=
*
retVal
;
Uint32
magic
=
*
magic_ptr
;
if
(
unlikely
(
!
((
magic
&
(
1
<<
p
))
&&
(
magic
>>
16
)
==
type_id
)))
goto
err
;
}
return
retVal
;
err:
require
(
false
);
return
0
;
}
static
inline
void
initpage
(
DA256Page
*
p
,
Uint32
page_no
,
Uint32
type_id
)
{
Uint32
i
,
j
;
#ifdef DA256_USE_PREFETCH
#if defined(__GNUC__) && !(__GNUC__ == 2 && __GNUC_MINOR__ < 96)
#ifdef DA256_EXTRA_SAFE
for
(
i
=
0
;
i
<
(
30
*
17
+
2
);
i
++
)
{
__builtin_prefetch
(
p
->
m_header
+
i
,
1
);
}
#else
{
__builtin_prefetch
(
p
->
m_header
+
0
,
1
);
__builtin_prefetch
(
p
->
m_header
+
1
,
1
);
for
(
i
=
0
;
i
<
30
;
i
++
)
{
__builtin_prefetch
(
p
->
m_nodes
+
i
,
1
);
}
}
#endif
#endif
#endif
DA256CL
*
cl
;
for
(
i
=
0
;
i
<
2
;
i
++
)
{
cl
=
p
->
m_header
+
i
;
cl
->
m_magic
=
(
~
type_id
<<
16
);
}
DA256Free
*
free
;
for
(
i
=
0
;
i
<
30
;
i
++
)
{
free
=
(
DA256Free
*
)(
p
->
m_nodes
+
i
);
free
->
m_magic
=
type_id
;
free
->
m_next_free
=
(
page_no
<<
DA256_BITS
)
+
(
i
+
1
);
#ifdef DA256_EXTRA_SAFE
DA256Node
*
node
=
p
->
m_nodes
+
i
;
for
(
j
=
0
;
j
<
17
;
j
++
)
node
->
m_lines
[
j
].
m_magic
=
type_id
;
#endif
}
free
=
(
DA256Free
*
)(
p
->
m_nodes
+
29
);
free
->
m_next_free
=
RNIL
;
}
bool
DynArr256
::
expand
(
Uint32
pos
)
{
Uint32
i
;
Uint32
idx
=
0
;
Uint32
alloc
[
5
];
Uint32
sz
=
m_head
.
m_sz
;
Uint32
shl
=
0
;
for
(;
pos
>=
g_max_sizes
[
sz
];
sz
++
);
if
(
m_head
.
m_sz
==
0
)
{
m_head
.
m_sz
=
sz
;
return
true
;
}
sz
=
m_head
.
m_sz
;
for
(;
pos
>=
g_max_sizes
[
sz
];
sz
++
)
{
Uint32
ptrI
=
m_pool
.
seize
();
if
(
unlikely
(
ptrI
==
RNIL
))
goto
err
;
alloc
[
idx
++
]
=
ptrI
;
}
alloc
[
idx
]
=
m_head
.
m_ptr_i
;
m_head
.
m_sz
=
1
;
for
(
Uint32
i
=
0
;
i
<
idx
;
i
++
)
{
m_head
.
m_ptr_i
=
alloc
[
i
];
Uint32
*
ptr
=
get
(
0
);
*
ptr
=
alloc
[
i
+
1
];
}
m_head
.
m_sz
=
sz
;
m_head
.
m_ptr_i
=
alloc
[
0
];
return
true
;
err:
for
(
i
=
0
;
i
<
idx
;
i
++
)
m_pool
.
release
(
alloc
[
i
]);
return
false
;
}
void
DynArr256
::
init
(
ReleaseIterator
&
iter
)
{
iter
.
m_sz
=
0
;
iter
.
m_pos
=
0
;
iter
.
m_ptr_i
[
0
]
=
m_head
.
m_ptr_i
;
iter
.
m_ptr_i
[
1
]
=
RNIL
;
iter
.
m_ptr_i
[
2
]
=
RNIL
;
iter
.
m_ptr_i
[
3
]
=
RNIL
;
}
bool
DynArr256
::
release
(
ReleaseIterator
&
iter
)
{
Uint32
ptrI
=
iter
.
m_ptr_i
[
iter
.
m_sz
];
Uint32
page_no
=
ptrI
>>
DA256_BITS
;
Uint32
page_idx
=
ptrI
&
DA256_MASK
;
Uint32
type_id
=
(
~
m_pool
.
m_type_id
)
&
0xFFFF
;
DA256Page
*
memroot
=
m_pool
.
m_memroot
;
DA256Page
*
page
=
memroot
+
page_no
;
if
(
ptrI
!=
RNIL
)
{
Uint32
tmp
=
iter
.
m_pos
&
255
;
Uint32
p0
=
tmp
;
for
(;
p0
<
256
&&
p0
<
tmp
+
16
;
p0
++
)
{
Uint32
*
retVal
,
*
magic_ptr
,
p
;
if
(
p0
!=
255
)
{
Uint32
line
=
((
p0
<<
8
)
+
(
p0
<<
4
)
+
p0
+
255
)
>>
12
;
Uint32
*
ptr
=
(
Uint32
*
)(
page
->
m_nodes
+
page_idx
);
p
=
0
;
retVal
=
(
ptr
+
1
+
p0
+
line
);
magic_ptr
=
(
ptr
+
(
p0
&
~
15
));
}
else
{
Uint32
b
=
(
page_idx
+
1
)
>>
4
;
Uint32
*
ptr
=
(
Uint32
*
)(
page
->
m_header
+
b
);
p
=
page_idx
-
(
b
<<
4
)
+
b
;
retVal
=
(
ptr
+
1
+
p
);
magic_ptr
=
ptr
;
}
Uint32
magic
=
*
magic_ptr
;
if
(
unlikely
(
!
((
magic
&
(
1
<<
p
))
&&
(
magic
>>
16
)
==
type_id
)))
goto
err
;
Uint32
val
=
*
retVal
;
if
(
val
!=
RNIL
)
{
if
(
iter
.
m_sz
+
2
==
m_head
.
m_sz
)
{
*
retVal
=
RNIL
;
m_pool
.
release
(
val
);
iter
.
m_pos
=
(
iter
.
m_pos
&
~
255
)
+
p0
;
return
false
;
}
else
{
*
retVal
=
RNIL
;
iter
.
m_sz
++
;
iter
.
m_ptr_i
[
iter
.
m_sz
]
=
val
;
iter
.
m_pos
=
(
p0
<<
8
);
return
false
;
}
}
}
if
(
p0
==
256
)
{
if
(
iter
.
m_sz
==
0
)
goto
done
;
iter
.
m_sz
--
;
iter
.
m_pos
>>=
8
;
m_pool
.
release
(
ptrI
);
return
false
;
}
else
{
iter
.
m_pos
=
(
iter
.
m_pos
&
~
255
)
+
p0
;
return
false
;
}
}
done:
if
(
m_head
.
m_ptr_i
!=
RNIL
)
{
m_pool
.
release
(
m_head
.
m_ptr_i
);
}
new
(
&
m_head
)
Head
();
return
true
;
err:
require
(
false
);
return
false
;
}
static
inline
bool
seizenode
(
DA256Page
*
page
,
Uint32
idx
,
Uint32
type_id
)
{
Uint32
i
;
Uint32
b
=
(
idx
+
1
)
>>
4
;
Uint32
p
=
idx
-
(
b
<<
4
)
+
b
;
DA256Node
*
ptr
=
(
DA256Node
*
)(
page
->
m_nodes
+
idx
);
#ifdef DA256_USE_PREFETCH
#if defined(__GNUC__) && !(__GNUC__ == 2 && __GNUC_MINOR__ < 96)
__builtin_prefetch
(
page
->
m_header
+
b
,
1
);
for
(
i
=
0
;
i
<
17
;
i
++
)
{
__builtin_prefetch
(
ptr
->
m_lines
+
i
,
1
);
}
#endif
#endif
#ifdef DA256_EXTRA_SAFE
Uint32
check
=
type_id
;
#endif
type_id
=
((
~
type_id
)
<<
16
)
|
0xFFFF
;
#ifdef DA256_EXTRA_SAFE
if
(
unlikely
(((
page
->
m_header
+
b
)
->
m_magic
&
(
1
<<
p
))
!=
0
))
{
return
false
;
}
#endif
(
page
->
m_header
+
b
)
->
m_magic
|=
(
1
<<
p
);
(
page
->
m_header
+
b
)
->
m_data
[
p
]
=
RNIL
;
for
(
i
=
0
;
i
<
17
;
i
++
)
{
DA256CL
*
line
=
ptr
->
m_lines
+
i
;
#ifdef DA256_EXTRA_SAFE
if
(
unlikely
(
line
->
m_magic
!=
check
))
{
return
false
;
}
#endif
line
->
m_magic
=
type_id
;
for
(
Uint32
j
=
0
;
j
<
15
;
j
++
)
line
->
m_data
[
j
]
=
RNIL
;
}
#ifdef UNIT_TEST
allocatednodes
++
;
#endif
return
true
;
}
static
bool
releasenode
(
DA256Page
*
page
,
Uint32
idx
,
Uint32
type_id
)
{
Uint32
i
;
Uint32
b
=
(
idx
+
1
)
>>
4
;
Uint32
p
=
idx
-
(
b
<<
4
)
+
b
;
DA256Node
*
ptr
=
(
DA256Node
*
)(
page
->
m_nodes
+
idx
);
#ifdef DA256_USE_PREFETCH
#if defined(__GNUC__) && !(__GNUC__ == 2 && __GNUC_MINOR__ < 96)
__builtin_prefetch
(
page
->
m_header
+
b
,
1
);
for
(
i
=
0
;
i
<
17
;
i
++
)
{
__builtin_prefetch
(
ptr
->
m_lines
+
i
,
1
);
}
#endif
#endif
#ifdef DA256_EXTRA_SAFE
Uint32
check
=
((
~
type_id
)
<<
16
)
|
0xFFFF
;
#endif
#ifdef DA256_EXTRA_SAFE
if
(
unlikely
((((
page
->
m_header
+
b
)
->
m_magic
&
(
1
<<
p
))
==
0
)))
{
return
false
;
}
#endif
(
page
->
m_header
+
b
)
->
m_magic
^=
(
1
<<
p
);
for
(
i
=
0
;
i
<
17
;
i
++
)
{
DA256CL
*
line
=
ptr
->
m_lines
+
i
;
#ifdef DA256_EXTRA_SAFE
if
(
unlikely
(
line
->
m_magic
!=
check
))
{
return
false
;
}
#endif
line
->
m_magic
=
type_id
;
}
#ifdef UNIT_TEST
releasednodes
++
;
#endif
return
true
;
}
Uint32
DynArr256Pool
::
seize
()
{
Uint32
ff
=
m_first_free
;
Uint32
type_id
=
m_type_id
;
DA256Page
*
page
;
DA256Page
*
memroot
=
m_memroot
;
if
(
ff
==
RNIL
)
{
Uint32
page_no
;
if
(
likely
((
page
=
(
DA256Page
*
)
m_ctx
.
alloc_page
(
type_id
,
&
page_no
))
!=
0
))
{
initpage
(
page
,
page_no
,
type_id
);
#ifdef UNIT_TEST
allocatedpages
++
;
#endif
}
else
{
return
RNIL
;
}
ff
=
(
page_no
<<
DA256_BITS
);
}
else
{
page
=
memroot
+
(
ff
>>
DA256_BITS
);
}
Uint32
idx
=
ff
&
DA256_MASK
;
DA256Free
*
ptr
=
(
DA256Free
*
)(
page
->
m_nodes
+
idx
);
if
(
likely
(
ptr
->
m_magic
==
type_id
))
{
Uint32
next
=
ptr
->
m_next_free
;
if
(
likely
(
seizenode
(
page
,
idx
,
type_id
)))
{
m_first_free
=
next
;
return
ff
;
}
}
//error:
require
(
false
);
return
0
;
}
void
DynArr256Pool
::
release
(
Uint32
ptrI
)
{
Uint32
ff
=
m_first_free
;
Uint32
type_id
=
m_type_id
;
Uint32
page_no
=
ptrI
>>
DA256_BITS
;
Uint32
page_idx
=
ptrI
&
DA256_MASK
;
DA256Page
*
memroot
=
m_memroot
;
DA256Page
*
page
=
memroot
+
page_no
;
DA256Free
*
ptr
=
(
DA256Free
*
)(
page
->
m_nodes
+
page_idx
);
if
(
likely
(
releasenode
(
page
,
page_idx
,
type_id
)))
{
ptr
->
m_next_free
=
ff
;
ptr
->
m_magic
=
type_id
;
m_first_free
=
ptrI
;
return
;
}
require
(
false
);
}
#ifdef UNIT_TEST
#include <NdbTick.h>
#include "ndbd_malloc_impl.hpp"
#include "SimulatedBlock.hpp"
Ndbd_mem_manager
mm
;
Configuration
cfg
;
Block_context
ctx
(
cfg
,
mm
);
struct
BB
:
public
SimulatedBlock
{
BB
(
int
no
,
Block_context
&
ctx
)
:
SimulatedBlock
(
no
,
ctx
)
{}
};
BB
block
(
DBACC
,
ctx
);
static
void
simple
(
DynArr256
&
arr
,
int
argc
,
char
*
argv
[])
{
for
(
Uint32
i
=
1
;
i
<
(
Uint32
)
argc
;
i
++
)
{
Uint32
*
s
=
arr
.
set
(
atoi
(
argv
[
i
]));
{
bool
found
=
false
;
for
(
Uint32
j
=
1
;
j
<
i
;
j
++
)
{
if
(
atoi
(
argv
[
i
])
==
atoi
(
argv
[
j
]))
{
found
=
true
;
break
;
}
}
if
(
!
found
)
*
s
=
i
;
}
Uint32
*
g
=
arr
.
get
(
atoi
(
argv
[
i
]));
Uint32
v
=
g
?
*
g
:
~
0
;
ndbout_c
(
"p: %p %p %d"
,
s
,
g
,
v
);
}
}
static
void
basic
(
DynArr256
&
arr
,
int
argc
,
char
*
argv
[])
{
#define MAXLEN 65536
Uint32
len
=
0
;
Uint32
save
[
2
*
MAXLEN
];
for
(
Uint32
i
=
0
;
i
<
MAXLEN
;
i
++
)
{
int
op
=
(
rand
()
%
100
)
>
50
;
if
(
len
==
0
)
op
=
1
;
if
(
len
==
MAXLEN
)
op
=
0
;
switch
(
op
){
case
0
:{
// get
Uint32
item
=
(
rand
()
%
len
)
<<
1
;
Uint32
idx
=
save
[
item
];
Uint32
val
=
save
[
item
+
1
];
//ndbout_c("get(%d)", idx);
Uint32
*
p
=
arr
.
get
(
idx
);
assert
(
p
);
assert
(
*
p
==
val
);
break
;
}
case
1
:{
// set
Uint32
item
=
len
<<
1
;
Uint32
idx
=
i
;
//rand() & 0xFFFFF; // & 0xFFFFF; //rand(); //(65536*i) / 10000;
Uint32
val
=
rand
();
#if 0
for(Uint32 j = 0; j < item; j += 2)
{
if (save[j] == idx)
{
item = j;
break;
}
}
#endif
//ndbout_c("set(%d, %x)", idx, val);
Uint32
*
p
=
arr
.
set
(
idx
);
assert
(
*
p
);
if
(
item
==
(
len
<<
1
))
{
*
p
=
val
;
len
++
;
}
else
{
assert
(
*
p
==
save
[
item
+
1
]);
*
p
=
val
;
}
save
[
item
]
=
idx
;
save
[
item
+
1
]
=
val
;
}
}
}
}
unsigned
long
long
micro
()
{
struct
timeval
tv
;
gettimeofday
(
&
tv
,
0
);
unsigned
long
long
ret
=
tv
.
tv_sec
;
ret
*=
1000000
;
ret
+=
tv
.
tv_usec
;
return
ret
;
}
static
void
read
(
DynArr256
&
arr
,
int
argc
,
char
**
argv
)
{
Uint32
cnt
=
100000
;
Uint64
mbytes
=
16
*
1024
;
Uint32
seed
=
time
(
0
);
Uint32
seq
=
0
,
seqmask
=
0
;
for
(
Uint32
i
=
2
;
i
<
argc
;
i
++
)
{
if
(
strncmp
(
argv
[
i
],
"--mbytes="
,
sizeof
(
"--mbytes="
)
-
1
)
==
0
)
{
mbytes
=
atoi
(
argv
[
i
]
+
sizeof
(
"--mbytes="
)
-
1
);
if
(
argv
[
i
][
strlen
(
argv
[
i
])
-
1
]
==
'g'
||
argv
[
i
][
strlen
(
argv
[
i
])
-
1
]
==
'G'
)
mbytes
*=
1024
;
}
else
if
(
strncmp
(
argv
[
i
],
"--cnt="
,
sizeof
(
"--cnt="
)
-
1
)
==
0
)
{
cnt
=
atoi
(
argv
[
i
]
+
sizeof
(
"--cnt="
)
-
1
);
}
else
if
(
strncmp
(
argv
[
i
],
"--seq"
,
sizeof
(
"--seq"
)
-
1
)
==
0
)
{
seq
=
1
;
}
}
/**
* Populate with 5Mb
*/
Uint32
maxidx
=
(
1024
*
mbytes
+
31
)
/
32
;
Uint32
nodes
=
(
maxidx
+
255
)
/
256
;
Uint32
pages
=
(
nodes
+
29
)
/
30
;
ndbout_c
(
"%lldmb data -> %d entries (%dkb)"
,
mbytes
,
maxidx
,
32
*
pages
);
for
(
Uint32
i
=
0
;
i
<
maxidx
;
i
++
)
{
Uint32
*
ptr
=
arr
.
set
(
i
);
assert
(
ptr
);
*
ptr
=
i
;
}
srand
(
seed
);
if
(
seq
)
{
seq
=
rand
();
seqmask
=
~
(
Uint32
)
0
;
}
ndbout_c
(
"Timing %d %s reads (seed: %u)"
,
cnt
,
seq
?
"sequential"
:
"random"
,
seed
);
for
(
Uint32
i
=
0
;
i
<
10
;
i
++
)
{
Uint32
sum0
=
0
,
sum1
=
0
;
Uint64
start
=
micro
();
for
(
Uint32
i
=
0
;
i
<
cnt
;
i
++
)
{
Uint32
idx
=
((
rand
()
&
(
~
seqmask
))
+
((
i
+
seq
)
&
seqmask
))
%
maxidx
;
Uint32
*
ptr
=
arr
.
get
(
idx
);
sum0
+=
idx
;
sum1
+=
*
ptr
;
}
start
=
micro
()
-
start
;
float
uspg
=
start
;
uspg
/=
cnt
;
ndbout_c
(
"Elapsed %lldus diff: %d -> %f us/get"
,
start
,
sum0
-
sum1
,
uspg
);
}
}
static
void
write
(
DynArr256
&
arr
,
int
argc
,
char
**
argv
)
{
Uint32
seq
=
0
,
seqmask
=
0
;
Uint32
cnt
=
100000
;
Uint64
mbytes
=
16
*
1024
;
Uint32
seed
=
time
(
0
);
for
(
Uint32
i
=
2
;
i
<
argc
;
i
++
)
{
if
(
strncmp
(
argv
[
i
],
"--mbytes="
,
sizeof
(
"--mbytes="
)
-
1
)
==
0
)
{
mbytes
=
atoi
(
argv
[
i
]
+
sizeof
(
"--mbytes="
)
-
1
);
if
(
argv
[
i
][
strlen
(
argv
[
i
])
-
1
]
==
'g'
||
argv
[
i
][
strlen
(
argv
[
i
])
-
1
]
==
'G'
)
mbytes
*=
1024
;
}
else
if
(
strncmp
(
argv
[
i
],
"--cnt="
,
sizeof
(
"--cnt="
)
-
1
)
==
0
)
{
cnt
=
atoi
(
argv
[
i
]
+
sizeof
(
"--cnt="
)
-
1
);
}
else
if
(
strncmp
(
argv
[
i
],
"--seq"
,
sizeof
(
"--seq"
)
-
1
)
==
0
)
{
seq
=
1
;
}
}
/**
* Populate with 5Mb
*/
Uint32
maxidx
=
(
1024
*
mbytes
+
31
)
/
32
;
Uint32
nodes
=
(
maxidx
+
255
)
/
256
;
Uint32
pages
=
(
nodes
+
29
)
/
30
;
ndbout_c
(
"%lldmb data -> %d entries (%dkb)"
,
mbytes
,
maxidx
,
32
*
pages
);
srand
(
seed
);
if
(
seq
)
{
seq
=
rand
();
seqmask
=
~
(
Uint32
)
0
;
}
ndbout_c
(
"Timing %d %s writes (seed: %u)"
,
cnt
,
seq
?
"sequential"
:
"random"
,
seed
);
for
(
Uint32
i
=
0
;
i
<
10
;
i
++
)
{
Uint64
start
=
micro
();
for
(
Uint32
i
=
0
;
i
<
cnt
;
i
++
)
{
Uint32
idx
=
((
rand
()
&
(
~
seqmask
))
+
((
i
+
seq
)
&
seqmask
))
%
maxidx
;
Uint32
*
ptr
=
arr
.
set
(
idx
);
*
ptr
=
i
;
}
start
=
micro
()
-
start
;
float
uspg
=
start
;
uspg
/=
cnt
;
ndbout_c
(
"Elapsed %lldus -> %f us/set"
,
start
,
uspg
);
DynArr256
::
ReleaseIterator
iter
;
arr
.
init
(
iter
);
while
(
!
arr
.
release
(
iter
));
}
}
int
main
(
int
argc
,
char
**
argv
)
{
if
(
0
)
{
for
(
Uint32
i
=
0
;
i
<
30
;
i
++
)
{
Uint32
b
=
(
i
+
1
)
>>
4
;
Uint32
p
=
i
-
(
b
<<
4
)
+
b
;
printf
(
"[ %d %d %d ]
\n
"
,
i
,
b
,
p
);
}
return
0
;
}
Pool_context
pc
;
pc
.
m_block
=
&
block
;
Resource_limit
rl
;
rl
.
m_min
=
0
;
rl
.
m_max
=
10000
;
rl
.
m_resource_id
=
0
;
mm
.
set_resource_limit
(
rl
);
if
(
!
mm
.
init
())
{
abort
();
}
DynArr256Pool
pool
;
pool
.
init
(
0x2001
,
pc
);
DynArr256
::
Head
head
;
DynArr256
arr
(
pool
,
head
);
if
(
strcmp
(
argv
[
1
],
"--args"
)
==
0
)
simple
(
arr
,
argc
,
argv
);
else
if
(
strcmp
(
argv
[
1
],
"--basic"
)
==
0
)
basic
(
arr
,
argc
,
argv
);
else
if
(
strcmp
(
argv
[
1
],
"--read"
)
==
0
)
read
(
arr
,
argc
,
argv
);
else
if
(
strcmp
(
argv
[
1
],
"--write"
)
==
0
)
write
(
arr
,
argc
,
argv
);
DynArr256
::
ReleaseIterator
iter
;
arr
.
init
(
iter
);
Uint32
cnt
=
0
;
while
(
!
arr
.
release
(
iter
))
cnt
++
;
ndbout_c
(
"allocatedpages: %d allocatednodes: %d releasednodes: %d"
" releasecnt: %d"
,
allocatedpages
,
allocatednodes
,
releasednodes
,
cnt
);
return
0
;
#if 0
printf("sizeof(DA256Page): %d\n", sizeof(DA256Page));
DA256Page page;
for (Uint32 i = 0; i<10000; i++)
{
Uint32 arg = rand() & 255;
Uint32 base = 0;
Uint32 idx = arg & 256;
printf("%d\n", arg);
assert(base <= 30);
if (idx == 255)
{
Uint32 b = (base + 1) >> 4;
Uint32 p = base - (b << 4) + b;
Uint32 magic = page.m_header[b].m_magic;
Uint32 retVal = page.m_header[b].m_data[p];
require(magic & (1 << p));
return retVal;
}
else
{
// 4 bit extra offset per idx
Uint32 line = idx / 15;
Uint32 off = idx % 15;
{
Uint32 pos = 1 + idx + line;
Uint32 magic = pos & ~15;
Uint32 * ptr = (Uint32*)&page.m_nodes[base];
assert((ptr + pos) == &page.m_nodes[base].m_lines[line].m_data[off]);
assert((ptr + magic) == &page.m_nodes[base].m_lines[line].m_magic);
}
}
}
#endif
}
Uint32
g_currentStartPhase
;
Uint32
g_start_type
;
NdbNodeBitmask
g_nowait_nodes
;
void
childExit
(
int
code
,
Uint32
currentStartPhase
)
{
abort
();
}
void
childAbort
(
int
code
,
Uint32
currentStartPhase
)
{
abort
();
}
void
childReportError
(
int
error
)
{
abort
();
}
void
UpgradeStartup
::
sendCmAppChg
(
Ndbcntr
&
cntr
,
Signal
*
signal
,
Uint32
startLevel
){
}
void
UpgradeStartup
::
execCM_APPCHG
(
SimulatedBlock
&
block
,
Signal
*
signal
){
}
void
UpgradeStartup
::
sendCntrMasterReq
(
Ndbcntr
&
cntr
,
Signal
*
signal
,
Uint32
n
){
}
void
UpgradeStartup
::
execCNTR_MASTER_REPLY
(
SimulatedBlock
&
block
,
Signal
*
signal
){
}
#include <SimBlockList.hpp>
void
SimBlockList
::
unload
()
{
}
#endif
storage/ndb/src/kernel/vm/DynArr256.hpp
0 → 100644
View file @
9d03c59c
/* Copyright (C) 2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#ifndef DYNARR256_HPP
#define DYNARR256_HPP
#include "Pool.hpp"
class
DynArr256
;
struct
DA256Page
;
class
DynArr256Pool
{
friend
class
DynArr256
;
public:
DynArr256Pool
();
void
init
(
Uint32
type_id
,
const
Pool_context
&
pc
);
protected:
Uint32
m_type_id
;
Uint32
m_first_free
;
Pool_context
m_ctx
;
struct
DA256Page
*
m_memroot
;
private:
Uint32
seize
();
void
release
(
Uint32
);
};
class
DynArr256
{
public:
struct
Head
{
Head
()
{
m_ptr_i
=
RNIL
;
m_sz
=
0
;}
Uint32
m_ptr_i
;
Uint32
m_sz
;
};
DynArr256
(
DynArr256Pool
&
pool
,
Head
&
head
)
:
m_head
(
head
),
m_pool
(
pool
){}
Uint32
*
set
(
Uint32
pos
);
Uint32
*
get
(
Uint32
pos
)
const
;
struct
ReleaseIterator
{
Uint32
m_sz
;
Uint32
m_pos
;
Uint32
m_ptr_i
[
4
];
};
void
init
(
ReleaseIterator
&
);
bool
release
(
ReleaseIterator
&
);
protected:
Head
&
m_head
;
DynArr256Pool
&
m_pool
;
bool
expand
(
Uint32
pos
);
void
handle_invalid_ptr
(
Uint32
pos
,
Uint32
ptrI
,
Uint32
p0
);
};
#endif
storage/ndb/src/kernel/vm/Makefile.am
View file @
9d03c59c
...
...
@@ -20,7 +20,8 @@ libkernel_a_SOURCES = \
Mutex.cpp SafeCounter.cpp
\
Rope.cpp
\
ndbd_malloc.cpp ndbd_malloc_impl.cpp
\
Pool.cpp WOPool.cpp RWPool.cpp
Pool.cpp WOPool.cpp RWPool.cpp
\
DynArr256.cpp
INCLUDES_LOC
=
-I
$(top_srcdir)
/storage/ndb/src/mgmapi
...
...
@@ -44,7 +45,7 @@ libkernel.dsp: Makefile \
@
$(top_srcdir)
/storage/ndb/config/win-sources
$@
$(libkernel_a_SOURCES)
@
$(top_srcdir)
/storage/ndb/config/win-libraries
$@
LIB
$(LDADD)
EXTRA_PROGRAMS
=
ndbd_malloc_impl_test bench_pool
EXTRA_PROGRAMS
=
ndbd_malloc_impl_test bench_pool
testDynArr256
ndbd_malloc_impl_test_CXXFLAGS
=
-DUNIT_TEST
ndbd_malloc_impl_test_SOURCES
=
ndbd_malloc_impl.cpp
ndbd_malloc_impl_test_LDFLAGS
=
@ndb_bin_am_ldflags@
\
...
...
@@ -54,9 +55,19 @@ ndbd_malloc_impl_test_LDFLAGS = @ndb_bin_am_ldflags@ \
$(top_builddir)
/strings/libmystrings.a
bench_pool_SOURCES
=
bench_pool.cpp
bench_pool_LDFLAGS
=
@ndb_bin_am_ldflags@
../SimBlockList.o
\
bench_pool_LDFLAGS
=
@ndb_bin_am_ldflags@
\
libkernel.a ../error/liberror.a
\
$(top_builddir)
/storage/ndb/src/libndbclient.la
\
$(top_builddir)
/mysys/libmysys.a
\
$(top_builddir)
/dbug/libdbug.a
\
$(top_builddir)
/strings/libmystrings.a
testDynArr256_CXXFLAGS
=
-DUNIT_TEST
testDynArr256_SOURCES
=
DynArr256.cpp
testDynArr256_LDFLAGS
=
@ndb_bin_am_ldflags@
\
libkernel.a ../error/liberror.a
\
$(top_builddir)
/storage/ndb/src/libndbclient.la
\
$(top_builddir)
/mysys/libmysys.a
\
$(top_builddir)
/dbug/libdbug.a
\
$(top_builddir)
/strings/libmystrings.a
storage/ndb/src/kernel/vm/bench_pool.cpp
View file @
9d03c59c
...
...
@@ -60,7 +60,7 @@ Uint32 sizes = 7;
unsigned
int
seed
;
Ndbd_mem_manager
mm
;
Configuration
cfg
;
Block_context
ctx
=
{
cfg
,
mm
}
;
Block_context
ctx
(
cfg
,
mm
)
;
struct
BB
:
public
SimulatedBlock
{
BB
(
int
no
,
Block_context
&
ctx
)
:
SimulatedBlock
(
no
,
ctx
)
{}
...
...
@@ -548,6 +548,8 @@ main(int argc, char **argv)
}
Uint32
g_currentStartPhase
;
Uint32
g_start_type
;
NdbNodeBitmask
g_nowait_nodes
;
void
childExit
(
int
code
,
Uint32
currentStartPhase
)
{
...
...
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