polardbxengine/storage/innobase/include/lock0prdt.h

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/** @file include/lock0prdt.h
 The predicate lock system

 Created 9/7/2013 Jimmy Yang
 *******************************************************/
#ifndef lock0prdt_h
#define lock0prdt_h

#include "lock0lock.h"
#include "univ.i"

/* Predicate lock data */
typedef struct lock_prdt {
  void *data; /* Predicate data */
  uint16 op;  /* Predicate operator */
} lock_prdt_t;

/** Acquire a predicate lock on a block
 @return DB_SUCCESS, DB_SUCCESS_LOCKED_REC, DB_LOCK_WAIT, or DB_DEADLOCK */
dberr_t lock_prdt_lock(buf_block_t *block,  /*!< in/out: buffer block of rec */
                       lock_prdt_t *prdt,   /*!< in: Predicate for the lock */
                       dict_index_t *index, /*!< in: secondary index */
                       enum lock_mode mode, /*!< in: mode of the lock which
                                            the read cursor should set on
                                            records: LOCK_S or LOCK_X; the
                                            latter is possible in
                                            SELECT FOR UPDATE */
                       ulint type_mode,
                       /*!< in: LOCK_PREDICATE or LOCK_PRDT_PAGE */
                       que_thr_t *thr, /*!< in: query thread
                                       (can be NULL if BTR_NO_LOCKING_FLAG) */
                       mtr_t *mtr);    /*!< in/out: mini-transaction */

/** Acquire a "Page" lock on a block
 @return DB_SUCCESS */
dberr_t lock_place_prdt_page_lock(
    space_id_t space,    /*!< in: space for the page to lock */
    page_no_t pageno,    /*!< in: page number */
    dict_index_t *index, /*!< in: secondary index */
    que_thr_t *thr);     /*!< in: query thread */

/** Initiate a Predicate lock from a MBR */
void lock_init_prdt_from_mbr(
    lock_prdt_t *prdt, /*!< in/out: predicate to initialized */
    rtr_mbr_t *mbr,    /*!< in: Minimum Bounding Rectangle */
    ulint mode,        /*!< in: Search mode */
    mem_heap_t *heap); /*!< in: heap for allocating memory */

/** Get predicate lock's minimum bounding box
 @return the minimum bounding box*/
lock_prdt_t *lock_get_prdt_from_lock(const lock_t *lock); /*!< in: the lock */

/** Checks if a predicate lock request for a new lock has to wait for
 request lock2.
 @return true if new lock has to wait for lock2 to be removed */
bool lock_prdt_has_to_wait(
    const trx_t *trx,     /*!< in: trx of new lock */
    ulint type_mode,      /*!< in: precise mode of the new lock
                        to set: LOCK_S or LOCK_X, possibly
                        ORed to LOCK_PREDICATE or LOCK_PRDT_PAGE,
                        LOCK_INSERT_INTENTION */
    lock_prdt_t *prdt,    /*!< in: lock predicate to check */
    const lock_t *lock2); /*!< in: another record lock; NOTE that
                          it is assumed that this has a lock bit
                          set on the same record as in the new
                          lock we are setting */

/** Update predicate lock when page splits */
void lock_prdt_update_split(
    buf_block_t *block,     /*!< in/out: page to be split */
    buf_block_t *new_block, /*!< in/out: the new half page */
    lock_prdt_t *prdt,      /*!< in: MBR on the old page */
    lock_prdt_t *new_prdt,  /*!< in: MBR on the new page */
    space_id_t space,       /*!< in: space id */
    page_no_t page_no);     /*!< in: page number */

/** Adjust locks from an ancestor page of Rtree on the appropriate level . */
void lock_prdt_update_parent(
    buf_block_t *left_block,  /*!< in/out: page to be split */
    buf_block_t *right_block, /*!< in/out: the new half page */
    lock_prdt_t *left_prdt,   /*!< in: MBR on the old page */
    lock_prdt_t *right_prdt,  /*!< in: MBR on the new page */
    lock_prdt_t *parent_prdt, /*!< in: original parent MBR */
    space_id_t space,         /*!< in: space id */
    page_no_t page_no);       /*!< in: page number */

/** Checks if locks of other transactions prevent an immediate insert of
 a predicate record.
 @return DB_SUCCESS, DB_LOCK_WAIT, or DB_DEADLOCK */
dberr_t lock_prdt_insert_check_and_lock(
    ulint flags,         /*!< in: if BTR_NO_LOCKING_FLAG bit is
                         set, does nothing */
    const rec_t *rec,    /*!< in: record after which to insert */
    buf_block_t *block,  /*!< in/out: buffer block of rec */
    dict_index_t *index, /*!< in: index */
    que_thr_t *thr,      /*!< in: query thread */
    mtr_t *mtr,          /*!< in/out: mini-transaction */
    lock_prdt_t *prdt);  /*!< in: Minimum Bound Rectangle */

/** Append a predicate to the lock */
void lock_prdt_set_prdt(lock_t *lock,             /*!< in: lock */
                        const lock_prdt_t *prdt); /*!< in: Predicate */

#if 0

/*********************************************************************//**
Checks if a predicate lock request for a new lock has to wait for
request lock2.
@return true if new lock has to wait for lock2 to be removed */
UNIV_INLINE
bool
lock_prdt_has_to_wait(
	const trx_t*	trx,	/*!< in: trx of new lock */
	ulint		type_mode,/*!< in: precise mode of the new lock
				to set: LOCK_S or LOCK_X, possibly
				ORed to LOCK_PREDICATE or LOCK_PRDT_PAGE,
				LOCK_INSERT_INTENTION */
	lock_prdt_t*	prdt,	/*!< in: lock predicate to check */
	const lock_t*	lock2);	/*!< in: another record lock; NOTE that
				it is assumed that this has a lock bit
				set on the same record as in the new
				lock we are setting */

/*********************************************************************//**
Get predicate lock's minimum bounding box
@return the minimum bounding box*/
UNIV_INLINE
rtr_mbr_t*
prdt_get_mbr_from_prdt(
	const lock_prdt_t*	prdt);	/*!< in: the lock predicate */

#endif
/** Moves the locks of a record to another record and resets the lock bits of
 the donating record. */
void lock_prdt_rec_move(
    const buf_block_t *receiver, /*!< in: buffer block containing
                                 the receiving record */
    const buf_block_t *donator); /*!< in: buffer block containing
                                 the donating record */

/** Check whether there are R-tree Page lock on a buffer page
@param[in]	trx	trx to test the lock
@param[in]	space	space id for the page
@param[in]	page_no	page number
@return true if there is none */
bool lock_test_prdt_page_lock(const trx_t *trx, space_id_t space,
                              page_no_t page_no);

/** Removes predicate lock objects set on an index page which is discarded.
@param[in]	block		page to be discarded
@param[in]	lock_hash	lock hash */
void lock_prdt_page_free_from_discard(const buf_block_t *block,
                                      hash_table_t *lock_hash);

#endif