Commit c2fa081c authored by Yoni Fogel's avatar Yoni Fogel

Removed old version of lock tree

from ydb-internal.h



git-svn-id: file:///svn/tokudb@1785 c7de825b-a66e-492c-adef-691d508d4ae1
parent 6354d097
...@@ -70,842 +70,4 @@ struct __toku_dbc_internal { ...@@ -70,842 +70,4 @@ struct __toku_dbc_internal {
DB_TXN *txn; DB_TXN *txn;
}; };
typedef struct __toku_lock_tree {
DB* db;
//Some Red Black tree
} toku_lock_tree;
/*
* Create a lock tree
* If it is a nodup database, it uses just the regular compare,
* else it uses both regular and dup compare.
*/
int toku_lock_tree_create(toku_lock_tree** tree, DB* db);
/*
* Closes/Frees a lock tree.
*/
int toku_lock_tree_close(toku_lock_tree* tree);
/*
* Obtains a read lock on a single key (or key/value)
* Returns 0 on success
* Error: DB_LOCK_NOTGRANTED if cannot get the read lock.
* This occurs if someone (else) has a write lock on it or
* a region that encompasses it.
*/
int toku_lock_tree_get_read_lock(toku_lock_tree* tree, DB_TXN* txn,
DBT* key, DBT* value);
/*
* Obtains a read lock on a key (or key/value) range.
* Returns 0 on success
* Error: DB_LOCK_NOTGRANTED if cannot get the read lock.
* This occurs if someone (else) has a write or read lock in the range
* or in an overlapping range.
*/
int toku_lock_tree_get_read_range_lock(toku_lock_tree* tree, DB_TXN* txn,
DBT* key_from, DBT* key_to,
DBT* value_from, DBT* value_to);
/*
* Obtains a write lock on a single key (or key/value)
* Returns 0 on success
* Error: DB_LOCK_NOTGRANTED if cannot get the read lock.
* This occurs if someone (else) has a read or write lock on it or
* a region that encompasses it.
*/
int toku_lock_tree_get_write_lock(toku_lock_tree* tree, DB_TXN* txn,
DBT* key, DBT* value);
/*
* Obtains a write lock on a key (or key/value) range.
* Returns 0 on success
* Error: DB_LOCK_NOTGRANTED if cannot get the read lock.
* This occurs if someone (else) has a read or write lock in the range
* or in an overlapping range.
*/
int toku_lock_tree_get_write_range_lock(toku_lock_tree* tree, DB_TXN* txn,
DBT* key_from, DBT* key_to,
DBT* value_from, DBT* value_to);
/*
* Releases all the locks owned by a transaction.
* Used when the transaction commits or rolls back.
*/
int toku_lock_tree_free_locks(toku_lock_tree* tree, DB_TXN* txn);
//These are special symbols for top/bottom.
//They can be used both for keys and values.
extern const DBT* toku_dbt_positive_infinity;
extern const DBT* toku_dbt_negative_infinity;
/*
This will be defined in the lock table .c file.
static const DBT toku_dbt_top_placeholder;
const DBT* toku_dbt_top = &toku_dbt_top_placeholder;
static const DBT toku_dbt_bottom_placeholder;
const DBT* toku_dbt_bottom = &toku_dbt_bottom_placeholder;
*/
//Need some way to represent TOP and BOTTOM, and (key,top) and (key,bottom), so therefore it should be easier
//for the lock tree to understand what keys and values are instead of just a single item.
/*
Whenever a lock fails rollback (just current op) and quit
NODUP in DB
get
DEFAULT (in key)
lock key
run
DB_GET_BOTH (in key)
lock key
run
c_get
DB_CURRENT (in void)
No Lock (Must already be locked by virtue of cursor pointing to it.)
run
DB_FIRST
run (out key)
if found lock bottom<->key
else lock bottom<->top
DB_LAST
run (out key)
if found lock key<->top
else lock bottom<->top
DB_GET_BOTH (in key)
lock key
run
DB_GET_BOTH_RANGE (in key)
******** I guess we don't care what the behavior is! Assuming it acts as DB_GET_BOTH and not DB_SET
lock key
run
DB_NEXT
if (!initialized) call DB_FIRST, return
API_getoldcurrent (out o_key)
run (out key)
if found lock o_key<->key
else lock o_key<->top
DB_PREV
if (!initialized) call DB_LAST, return
API_getoldcurrent (out o_key)
run (out key)
if found lock key<->o_key
else lock bottom<->o_key
DB_SET (in key)
lock key
run
DB_SET_RANGE (in i_key)
run (out key)
if found
if (i_key != key) lock i_key<->key
else lock i_key
else
lock i_key<->top
DB_NEXT_NODUP *** Does this return EINVAL?
call DB_NEXT, return
DB_NEXT_DUP
EINVAL? or just return notfound (or if not init, EINVAL)?
DB_PREV_NODUP
call DB_PREV, return
Put
Default/0 (in key)
writelock key
run
NoOverwrite
writelock key
run
optimization alternative
get
if found done
else call YesOverwrite
YesOverwrite
writelock key
run
Del
Default/0 (in key)
writelock key
run
optimization alternative
get
if !found done
else call DeleteAny
DeleteAny
writelock key
run
c_del
API_getoldcurrent (out key)
writelock key
run
DUPSORT db
get
DEFAULT (in key)
run (out key, out value)
if found lock (key,bottom)<->(key, value)
else lock (key,bottom)<->(key, top)
DB_GET_BOTH (in key, in value)
lock (key,value)
run
c_get
DB_CURRENT (in void)
No Lock (Must already be locked by virtue of cursor pointing to it.)
run
DB_FIRST
run (out key, out value)
if found lock (bottom,bottom)<->(key,value)
else lock (bottom,bottom)<->(top,top)
DB_LAST
run (out key, out value)
if found lock (key,value)<->(top,top)
else lock (bottom,bottom)<->(top,top)
DB_GET_BOTH (in key, in value)
lock (key,value)
run
DB_GET_BOTH_RANGE (in key, in i_value)
*** verify it doesn't leave the key
run (out value)
if found
if (value != i_value) lock (key,i_value)<->(key,value)
else lock (key,value)
else lock (key,i_value)<->(key,top)
DB_NEXT
if (!initialized) call DB_FIRST, return
API_getoldcurrent (out o_key,out o_value)
run (out key, out value)
if found lock (o_key,o_value)<->(key,value)
else lock (o_key,o_value)<->(top,top)
DB_PREV
if (!initialized) call DB_LAST, return
API_getoldcurrent (out o_key, out o_value)
run (out key, out value)
if found lock (key,value)<->(o_key,o_value)
else lock (bottom,bottom)<->(o_key,o_value)
DB_SET (in key)
run (out value)
if found lock (key,value)
else lock (key,bottom)<->(key,top)
DB_SET_RANGE (in i_key)
run (out key, out value)
if found lock (i_key, bottom)<->(key,value)
else lock (i_key, bottom)<->(top,top)
DB_NEXT_NODUP *** Does this return EINVAL?
***Alg that overblocks
if (!initialized) call DB_FIRST, return
API_getoldcurrent (out o_key,out o_value)
run (out key, out value)
if found lock (o_key,o_value)<->(key,value)
else lock (o_key,o_value)<->(top,top)
***'Optimization to not overblock'.. may require a 'supertop' instead of top however.
if (!initialized) call DB_FIRST, return
API_getoldcurrent (out o_key,out o_value)
run (out key, out value)
if found lock (o_key,top)<->(key,value) ********** Can I just use regular top? I think so! Won't hurt reads.. check writes
else lock (o_key,top)<->(top,top) ********** Can I just use regular top? I think so! Won't hurt reads.. check wirtes
DB_NEXT_DUP
API_getoldcurrent (out o_value)
run (out key, out value) //key == o_key so no need for it.
if found lock (key,o_value)<->(key,value)
else lock (key,o_value)<->(key,top)
DB_PREV_NODUP
***Alg that overblocks
if (!initialized) call DB_LAST, return
API_getoldcurrent (out o_key,out o_value)
run (out key, out value)
if found lock (key,value)<->(o_key,o_value)
else lock (bottom,bottom)<->(o_key,o_value)
***'Optimization to not overblock'.. may require a 'superbottom' instead of bottom however.
if (!initialized) call DB_FIRST, return
API_getoldcurrent (out o_key,out o_value)
run (out key, out value)
if found lock (key,value)<->(o_key,bottom) ********** Can I just use regular bottom? I think so! Won't hurt reads.. check writes
else lock (bottom,bottom)<->(o_key,bottom) ********** Can I just use regular bottom? I think so! Won't hurt reads.. check wirtes
Put
Default/0
EINVAL (EASY)
NoOverwrite (in key, in value)
writelock (key,value)
run
optimization alternative
get DB_GET_BOTH (key,value)
if found done
else call YesOverwrite(key,value)
YesOverwrite
writelock (key,value)
run
Del
Default/0 (in key)
writelock (key,bottom)<->(key,top) //Technically conflicts with NEXT_NODUP and PREV_NODUP, but ONLY with the same txn,
//so no problem, since anyone holding top/bottom has a read lock inside that key as well.
run
optimization alternative
get
if !found done
else call DeleteAny
DeleteAny
writelock (key,bottom)<->(key,top) //Technically conflicts with NEXT_NODUP and PREV_NODUP, but ONLY with the same txn,
//so no problem, since anyone holding top/bottom has a read lock inside that key as well.
run
c_del
API_getoldcurrent (out key, out value)
writelock (key,value)
run
*/
/*
Whenever a lock fails rollback (just current op) and quit
Several forms of locks.
Write Locks
Exact key (exists in db)
Exact key (May or may not exist in db)
open range between two entries (two sides will be exact and exist or not)
Read Locks
Exact key (exists in db)
Exact key (May or may not exist in db)
open range between two entries (two sides will be exact and exist or not)
Locking an exact key inside an open range requires you to split the range.
i.e.
Things 'underlined' with '-'s are read locks.
Things 'underlined' with '+'s are write locks
Our standard database is All letters of the alphabet. (Values are equal to the keys.
We may show a subset of that if it is not necessary for the example.
A B C
-(-)
Add lock on B1 changes the lock tree to:
A B B1 C
-(-)--(-)
A
NODUP in DB
get
DEFAULT (in key)
Input: key. Returns key and value if (key,vale) is in the db. Else returns DB_NOTFOUND.
Procedure
run the regular 'get' call.
If found, acquire exact read lock on key.
else, acquire open range at key.
Ex
get (B) transforms
A B C
to
A B C
-
get (B1) transforms
A B C
to
A B C
(-)
DB_GET_BOTH (in key)
Input: (key,value). Retrieves key from db. If it exists, and tests value found for equality with input value,
Procedure
Run the regular 'get' call.
If found lock exact key
else lock open range for key
test for equality/return
Ex
getDB_GET_BOTH (B,B) transforms
(A,A) (B,B) (C,C)
to
(A,A) (B,B) (C,C)
-----
getDB_GET_BOTH (B,V) transforms
(A,A) (B,B) (C,C)
to
(A,A) (B,B) (C,C)
-----
getDB_GET_BOTH (B1,V) transforms
(A,A) (B,B) (C,C)
to
(A,A) (B,B) (C,C)
(-)
c_get
DB_CURRENT (in void)
Returns what the cursor is already pointing to.
Note that a single cursor is binded to a single transaction.
Whatever the cursor points to must already be locked since we managed
to get a cursor to point to it.
Nothing needs to be done to get this to work.
DB_FIRST
Retrieves the minimum element in the db.
Procedure
Run c_getDB_FIRST (retrieves key,value)
if found lock key
else lock entire db (open range from bottom to top)
Ex
cgetDB_FIRST transforms
A B C
to
A B C
-
cgetDB_FIRST transforms
(empty db)
to
(empty db)
(--------)
DB_LAST
Retrieves the maximum element in the db.
Procedure
Run c_getDB_LAST (retrieves key,value)
if found lock key
else lock entire db (open range from bottom to top)
Ex
cgetDB_LAST transforms
A B C ..... X Y Z
to
A B C ..... X Y Z
-
cgetDB_LAST transforms
(empty db)
to
(empty db)
(--------)
DB_GET_BOTH (in key)
Runs getDB_GET_BOTH, and if it is found and value matches, returns a cursor to it.
See getDB_GET_BOTH.
DB_GET_BOTH_RANGE (in key)
For non-dupsort databases, this is the same as c_getDB_GET_BOTH
DB_NEXT
On an initialized cursor, does a successor query on the current element.
On an uninitialized cursor, it calls c_getDB_FIRST
Note that what the cursor originally points to is locked prior to this call.
Procedure
if (!initialized) call DB_FIRST, return
run cgetDB_NEXT (retrieves key,value)
if found lock key, locks open range before key
else lock open range at end of db
Ex
cgetDB_NEXT transforms
A (B) C
---
to
A B (C)
-(-)---
cgetDB_NEXT transforms
A B (C)
-(-)---
to
A B C
-(-)-(-)
DB_PREV
Opposite of cgetDB_NEXT (runs DB_LAST if uninitialized, runs pred query otherwise)
Note that what the cursor originally points to is locked prior to this call.
Procedure
if (!initialized) call DB_LAST, return
run cgetDB_PREV (retrieves key,value)
if found lock key, locks open range after key
else lock open range at start of db
Ex
cgetDB_PREV transforms
A (B) C
---
to
(A) B C
---(-)-
cgetDB_PREV transforms
(A) B C
---(-)-
to
A B C
(-)-(-)-
DB_SET (in key)
Runs get, and if it is found, returns a cursor to it.
See get.
DB_SET_RANGE (in i_key)
Retrieves the least upper bound of input (key) as a cursor.
Procedure
run cgetDB_SET_RANGE(i_key), retrieves key or returns DB_NOTFOUND
if found
if (i_key != key) lock key, lock open range before key
else lock key
else lock open range at i_key
Ex
cgetDB_SET_RANGE(B) transforms
A B C
to
A (B) C
---
cgetDB_SET_RANGE(B1) transforms
A B C
to
A B (C)
(-)---
cgetDB_SET_RANGE(Z1) transforms
A ... X Y Z
to
A ... X Y Z
(-)
DB_NEXT_NODUP
Same as cgetDB_NEXT (for non dupsort dbs)
call DB_NEXT, return
DB_NEXT_DUP
returns EINVAL for non dupsort dbs
DB_PREV_NODUP
Same as cgetDB_PREV (for non dupsort dbs)
Put
Default/0 (in key)
Identical to putDB_YESOVERWRITE for non dupsort dbs.
DB_NODUPDATA
(Currently not implemented)
Invalid for non dupsort dbs.
DB_NOOVERWRITE
Inserts (key,value) into the db if the key does not exist in the db. Returns error otherwise.
Procedure
call get (key) (This may create read locks)
If found, return DB_KEYEXISTS
else call putDB_YESOVERWRITE
Ex
putDB_NOOVERWRITE (A) transforms
A B C
to
A B C
-
and returns DB_KEYEXIST
putDB_NOOVERWRITE (A1) transforms
A B C
to
A A1 B C
--
++
DB_YESOVERWRITE
Inserts (key,value) into the db. If it already exists, it will overwrite it.
Procedure
writelock key
Run putDB_YESOVERWRITE
Ex
putDB_YESOVERWRITE (A) transforms
A B C
to
A B C
+
putDB_YESOVERWRITE (A1) transforms
A B C
to
A A1 B C
++
Del
Default/0 (in key)
Delete key, but report whether it was there in the first place.
Procedure
call get (key) (This may create read locks)
if !found, return DB_NOTFOUND
else call delDB_DELETE_ANY
Ex
del(A) transforms
A B C
to
[A] B C [] in this case means it is not in the db.
---
+++
del(A1) transforms
A B C
to
A B C
(-)
DB_DELETE_ANY
Delete key from db. Do not report (thus saving a search).
Procedure
writelock key
run the actual delete
delDB_DELETE_ANY (A) transforms
A B C
to
[A] B C
+++
delDB_DELETE_ANY (A1) transforms
A B C
to
A [A1] B C
++++
c_del
Deletes what a cursor is pointing to from the db.
Procedure
API_getoldcurrent (out key) (gets the old value of the key)
writelock key
delete it.
Ex
c_del transforms
A (B) C
---
to
A ([B]) C
+++++
DUPSORT db
get
DEFAULT (in key)
Searches for the lowest value for the given key. (Returns key,value if found) else returns DB_NOTFOUND.
Procedure
run the regular 'get' call.
If found, acquire exact read lock on (key,value) and open range before
else, acquire open range at (key,value).
NOTE: Since it finds the first one.. do we also need to lock the open range between (key,bottom) and (key,value)???
Ex
get (B) transforms
A,V B,V C,V
to
A,V B,V C,V
(-)---
get (B1) transforms
A B C
to
A B C
(-)
DB_GET_BOTH (in key)
Input: (key,value). Retrieves key from db. If it exists, and tests value found for equality with input value,
Procedure
Run the regular 'get' call.
If found lock exact key
else lock open range for key
test for equality/return
Ex
getDB_GET_BOTH (B,B) transforms
(A,A) (B,B) (C,C)
to
(A,A) (B,B) (C,C)
-----
getDB_GET_BOTH (B,V) transforms
(A,A) (B,B) (C,C)
to
(A,A) (B,B) (C,C)
-----
getDB_GET_BOTH (B1,V) transforms
(A,A) (B,B) (C,C)
to
(A,A) (B,B) (C,C)
(-)
c_get
DB_CURRENT (in void)
Returns what the cursor is already pointing to.
Note that a single cursor is binded to a single transaction.
Whatever the cursor points to must already be locked since we managed
to get a cursor to point to it.
Nothing needs to be done to get this to work.
DB_FIRST
Retrieves the minimum element in the db.
Procedure
Run c_getDB_FIRST (retrieves key,value)
if found lock key
else lock entire db (open range from bottom to top)
Ex
cgetDB_FIRST transforms
A B C
to
A B C
-
cgetDB_FIRST transforms
(empty db)
to
(empty db)
(--------)
DB_LAST
Retrieves the maximum element in the db.
Procedure
Run c_getDB_LAST (retrieves key,value)
if found lock key
else lock entire db (open range from bottom to top)
Ex
cgetDB_LAST transforms
A B C ..... X Y Z
to
A B C ..... X Y Z
-
cgetDB_LAST transforms
(empty db)
to
(empty db)
(--------)
DB_GET_BOTH (in key)
Runs getDB_GET_BOTH, and if it is found and value matches, returns a cursor to it.
See getDB_GET_BOTH.
DB_GET_BOTH_RANGE (in key) ************************* 3 cases.. did not find ->read open interval, found exact->lock exact, found different ->lock exact and open before
For non-dupsort databases, this is the same as c_getDB_GET_BOTH
DB_NEXT
On an initialized cursor, does a successor query on the current element.
On an uninitialized cursor, it calls c_getDB_FIRST
Note that what the cursor originally points to is locked prior to this call.
Procedure
if (!initialized) call DB_FIRST, return
run cgetDB_NEXT (retrieves key,value)
if found lock key, locks open range before key
else lock open range at end of db
Ex
cgetDB_NEXT transforms
A (B) C
---
to
A B (C)
-(-)---
cgetDB_NEXT transforms
A B (C)
-(-)---
to
A B C
-(-)-(-)
DB_PREV
Opposite of cgetDB_NEXT (runs DB_LAST if uninitialized, runs pred query otherwise)
Note that what the cursor originally points to is locked prior to this call.
Procedure
if (!initialized) call DB_LAST, return
run cgetDB_PREV (retrieves key,value)
if found lock key, locks open range after key
else lock open range at start of db
Ex
cgetDB_PREV transforms
A (B) C
---
to
(A) B C
---(-)-
cgetDB_PREV transforms
(A) B C
---(-)-
to
A B C
(-)-(-)-
DB_SET (in key)
Runs get, and if it is found, returns a cursor to it.
See get.
DB_SET_RANGE (in i_key) **************ALWAYS key AND open range
Retrieves the least upper bound of input (key) as a cursor.
Procedure
run cgetDB_SET_RANGE(i_key), retrieves key or returns DB_NOTFOUND
if found
if (i_key != key) lock key, lock open range before key
else lock key
else lock open range at i_key
Ex
cgetDB_SET_RANGE(B) transforms
A B C
to
A (B) C
---
cgetDB_SET_RANGE(B1) transforms
A B C
to
A B (C)
(-)---
cgetDB_SET_RANGE(Z1) transforms
A ... X Y Z
to
A ... X Y Z
(-)
DB_NEXT_NODUP ***** lock the exact, and open range from new till prev(new).
Same as cgetDB_NEXT (for non dupsort dbs)
call DB_NEXT, return
DB_NEXT_DUP ***** same as DB_NEXT (for nodups) except if key of successor is different, lock open range.
returns EINVAL for non dupsort dbs
DB_PREV_NODUP *** trivially create from DB_NEXT_NODUP
Same as cgetDB_PREV (for non dupsort dbs)
Put
Default/0 (in key) *** EINVAL
Identical to putDB_YESOVERWRITE for non dupsort dbs.
DB_NODUPDATA **** delete cursor put NO_DUPDATA
(Currently not implemented)
Invalid for non dupsort dbs.
DB_NOOVERWRITE *** if exists, lock ANY (probably first) and return.
Inserts (key,value) into the db if the key does not exist in the db. Returns error otherwise.
Procedure
call get (key) (This may create read locks)
If found, return DB_KEYEXISTS
else call putDB_YESOVERWRITE
Ex
putDB_NOOVERWRITE (A) transforms
A B C
to
A B C
-
and returns DB_KEYEXIST
putDB_NOOVERWRITE (A1) transforms
A B C
to
A A1 B C
--
++
DB_YESOVERWRITE *** 'same' as nodups
Inserts (key,value) into the db. If it already exists, it will overwrite it.
Procedure
writelock key
Run putDB_YESOVERWRITE
Ex
putDB_YESOVERWRITE (A) transforms
A B C
to
A B C
+
putDB_YESOVERWRITE (A1) transforms
A B C
to
A A1 B C
++
Del
Default/0 (in key) *** find first 'b', then do pred, and then do nextnodup (don't use infinities yet)
Delete key, but report whether it was there in the first place.
Procedure
call get (key) (This may create read locks)
if !found, return DB_NOTFOUND
else call delDB_DELETE_ANY
Ex
del(A) transforms
A B C
to
[A] B C [] in this case means it is not in the db.
---
+++
del(A1) transforms
A B C
to
A B C
(-)
DB_DELETE_ANY **** need infinities. lock infinities
Delete key from db. Do not report (thus saving a search).
Procedure
writelock key
run the actual delete
delDB_DELETE_ANY (A) transforms
A B C
to
[A] B C
+++
delDB_DELETE_ANY (A1) transforms
A B C
to
A [A1] B C
++++
c_del *** same as nodups
Deletes what a cursor is pointing to from the db.
Procedure
API_getoldcurrent (out key) (gets the old value of the key)
writelock key
delete it.
Ex
c_del transforms
A (B) C
---
to
A ([B]) C
+++++
*/
#endif #endif
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