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/*-
 * Copyright (c) 2014-2016 MongoDB, Inc.
 * Copyright (c) 2008-2014 WiredTiger, Inc.
 *	All rights reserved.
 *
 * See the file LICENSE for redistribution information.
 */

/* Character constants for projection plans */
#define	WT_PROJ_KEY	'k' /* Go to key in cursor <arg> */
#define	WT_PROJ_NEXT	'n' /* Process the next item (<arg> repeats) */
#define	WT_PROJ_REUSE	'r' /* Reuse the previous item (<arg> repeats) */
#define	WT_PROJ_SKIP	's' /* Skip a column in the cursor (<arg> repeats) */
#define	WT_PROJ_VALUE	'v' /* Go to the value in cursor <arg> */

struct __wt_colgroup {
	const char *name;		/* Logical name */
	const char *source;		/* Underlying data source */
	const char *config;		/* Configuration string */

	WT_CONFIG_ITEM colconf;		/* List of columns from config */
};

struct __wt_index {
	const char *name;		/* Logical name */
	const char *source;		/* Underlying data source */
	const char *config;		/* Configuration string */

	WT_CONFIG_ITEM colconf;		/* List of columns from config */

	WT_COLLATOR *collator;		/* Custom collator */
	int collator_owned;		/* Collator is owned by this index */

	WT_EXTRACTOR *extractor;	/* Custom key extractor */
	int extractor_owned;		/* Extractor is owned by this index */

	const char *key_format;		/* Key format */
	const char *key_plan;		/* Key projection plan */
	const char *value_plan;		/* Value projection plan */

	const char *idxkey_format;	/* Index key format (hides primary) */
	const char *exkey_format;	/* Key format for custom extractors */
#define	WT_INDEX_IMMUTABLE	0x01
	uint32_t    flags;		/* Index configuration flags */
};

/*
 * WT_TABLE --
 *	Handle for a logical table.  A table consists of one or more column
 *	groups, each of which holds some set of columns all sharing a primary
 *	key; and zero or more indices, each of which holds some set of columns
 *	in an index key that can be used to reconstruct the primary key.
 */
struct __wt_table {
	const char *name, *config, *plan;
	const char *key_format, *value_format;
	uint64_t name_hash;		/* Hash of name */

	WT_CONFIG_ITEM cgconf, colconf;

	WT_COLGROUP **cgroups;
	WT_INDEX **indices;
	size_t idx_alloc;

	TAILQ_ENTRY(__wt_table) q;
	TAILQ_ENTRY(__wt_table) hashq;

	bool cg_complete, idx_complete, is_simple;
	u_int ncolgroups, nindices, nkey_columns;

	uint32_t refcnt;	/* Number of open cursors */
	uint32_t schema_gen;	/* Cached schema generation number */
};

/*
 * Tables without explicit column groups have a single default column group
 * containing all of the columns.
 */
#define	WT_COLGROUPS(t)	WT_MAX((t)->ncolgroups, 1)

/* Helpers for the locked state of the handle list and table locks. */
#define	WT_SESSION_LOCKED_HANDLE_LIST 					\
	(WT_SESSION_LOCKED_HANDLE_LIST_READ |				\
	 WT_SESSION_LOCKED_HANDLE_LIST_WRITE)
#define	WT_SESSION_LOCKED_TABLE 					\
	(WT_SESSION_LOCKED_TABLE_READ |					\
	 WT_SESSION_LOCKED_TABLE_WRITE)

/*
 * WT_WITH_LOCK_WAIT --
 *	Wait for a lock, perform an operation, drop the lock.
 */
#define	WT_WITH_LOCK_WAIT(session, lock, flag, op) do {			\
	if (F_ISSET(session, (flag))) {					\
		op;							\
	} else {							\
		__wt_spin_lock_track(session, lock);			\
		F_SET(session, (flag));					\
		op;							\
		F_CLR(session, (flag));					\
		__wt_spin_unlock(session, lock);			\
	}								\
} while (0)

/*
 * WT_WITH_LOCK_NOWAIT --
 *	Acquire a lock if available, perform an operation, drop the lock.
 */
#define	WT_WITH_LOCK_NOWAIT(session, ret, lock, flag, op) do {		\
	(ret) = 0;							\
	if (F_ISSET(session, (flag))) {					\
		op;							\
	} else if (((ret) =						\
	    __wt_spin_trylock_track(session, lock)) == 0) {		\
		F_SET(session, (flag));					\
		op;							\
		F_CLR(session, (flag));					\
		__wt_spin_unlock(session, lock);			\
	}								\
} while (0)

/*
 * WT_WITH_CHECKPOINT_LOCK, WT_WITH_CHECKPOINT_LOCK_NOWAIT --
 *	Acquire the checkpoint lock, perform an operation, drop the lock.
 */
#define	WT_WITH_CHECKPOINT_LOCK(session, op)				\
	WT_WITH_LOCK_WAIT(session,					\
	    &S2C(session)->checkpoint_lock, WT_SESSION_LOCKED_CHECKPOINT, op)
#define	WT_WITH_CHECKPOINT_LOCK_NOWAIT(session, ret, op)		\
	WT_WITH_LOCK_NOWAIT(session, ret,				\
	    &S2C(session)->checkpoint_lock, WT_SESSION_LOCKED_CHECKPOINT, op)

/*
 * WT_WITH_HANDLE_LIST_READ_LOCK --
 *	Acquire the data handle list lock in shared mode, perform an operation,
 *	drop the lock. The handle list lock is a read-write lock so the
 *	implementation is different to the other lock macros.
 *
 *	Note: always waits because some operations need the handle list lock to
 *	discard handles, and we only expect it to be held across short
 *	operations.
 */
#define	WT_WITH_HANDLE_LIST_READ_LOCK(session, op) do {			\
	if (F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST)) {		\
		op;							\
	} else {							\
		__wt_readlock(session, &S2C(session)->dhandle_lock);	\
		F_SET(session, WT_SESSION_LOCKED_HANDLE_LIST_READ);	\
		op;							\
		F_CLR(session, WT_SESSION_LOCKED_HANDLE_LIST_READ);	\
		__wt_readunlock(session, &S2C(session)->dhandle_lock);	\
	}								\
} while (0)

/*
 * WT_WITH_HANDLE_LIST_WRITE_LOCK --
 *	Acquire the data handle list lock in exclusive mode, perform an
 *	operation, drop the lock. The handle list lock is a read-write lock so
 *	the implementation is different to the other lock macros.
 */
#define	WT_WITH_HANDLE_LIST_WRITE_LOCK(session, op) do {		\
	if (F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST_WRITE)) {	\
		op;							\
	} else {							\
		WT_ASSERT(session,					\
		    !F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST_READ));\
		__wt_writelock(session, &S2C(session)->dhandle_lock);	\
		F_SET(session, WT_SESSION_LOCKED_HANDLE_LIST_WRITE);	\
		op;							\
		F_CLR(session, WT_SESSION_LOCKED_HANDLE_LIST_WRITE);	\
		__wt_writeunlock(session, &S2C(session)->dhandle_lock);	\
	}								\
} while (0)

/*
 * WT_WITH_METADATA_LOCK --
 *	Acquire the metadata lock, perform an operation, drop the lock.
 */
#define	WT_WITH_METADATA_LOCK(session, op)				\
	WT_WITH_LOCK_WAIT(session,					\
	    &S2C(session)->metadata_lock, WT_SESSION_LOCKED_METADATA, op)

/*
 * WT_WITH_SCHEMA_LOCK, WT_WITH_SCHEMA_LOCK_NOWAIT --
 *	Acquire the schema lock, perform an operation, drop the lock.
 *	Check that we are not already holding some other lock: the schema lock
 *	must be taken first.
 */
#define	WT_WITH_SCHEMA_LOCK(session, op) do {				\
	WT_ASSERT(session,						\
	    F_ISSET(session, WT_SESSION_LOCKED_SCHEMA) ||		\
	    !F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST |		\
	    WT_SESSION_NO_SCHEMA_LOCK | WT_SESSION_LOCKED_TABLE));	\
	WT_WITH_LOCK_WAIT(session,					\
	    &S2C(session)->schema_lock, WT_SESSION_LOCKED_SCHEMA, op);	\
} while (0)
#define	WT_WITH_SCHEMA_LOCK_NOWAIT(session, ret, op) do {		\
	WT_ASSERT(session,						\
	    F_ISSET(session, WT_SESSION_LOCKED_SCHEMA) ||		\
	    !F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST |		\
	    WT_SESSION_NO_SCHEMA_LOCK | WT_SESSION_LOCKED_TABLE));	\
	WT_WITH_LOCK_NOWAIT(session, ret,				\
	    &S2C(session)->schema_lock, WT_SESSION_LOCKED_SCHEMA, op);	\
} while (0)

/*
 * WT_WITH_TABLE_READ_LOCK, WT_WITH_TABLE_WRITE_LOCK,
 * WT_WITH_TABLE_WRITE_LOCK_NOWAIT --
 *	Acquire the table lock, perform an operation, drop the lock.
 *	The table lock is a read-write lock so the implementation is different
 *	to most other lock macros.
 *
 *	Note: readlock always waits because some operations need the table lock
 *	to discard handles, and we only expect it to be held across short
 *	operations.
 */
#define	WT_WITH_TABLE_READ_LOCK(session, op) do {			\
	if (F_ISSET(session, WT_SESSION_LOCKED_TABLE)) {		\
		op;							\
	} else {							\
		WT_ASSERT(session,					\
		    !F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST));	\
		__wt_readlock(session, &S2C(session)->table_lock);	\
		F_SET(session, WT_SESSION_LOCKED_TABLE_READ);		\
		op;							\
		F_CLR(session, WT_SESSION_LOCKED_TABLE_READ);		\
		__wt_readunlock(session, &S2C(session)->table_lock);	\
	}								\
} while (0)

#define	WT_WITH_TABLE_WRITE_LOCK(session, op) do {			\
	if (F_ISSET(session, WT_SESSION_LOCKED_TABLE_WRITE)) {		\
		op;							\
	} else {							\
		WT_ASSERT(session,					\
		    !F_ISSET(session, WT_SESSION_LOCKED_TABLE_READ |	\
		    WT_SESSION_LOCKED_HANDLE_LIST));			\
		__wt_writelock(session, &S2C(session)->table_lock);	\
		F_SET(session, WT_SESSION_LOCKED_TABLE_WRITE);		\
		op;							\
		F_CLR(session, WT_SESSION_LOCKED_TABLE_WRITE);		\
		__wt_writeunlock(session, &S2C(session)->table_lock);	\
	}								\
} while (0)
#define	WT_WITH_TABLE_WRITE_LOCK_NOWAIT(session, ret, op) do {		\
	WT_ASSERT(session,						\
	    F_ISSET(session, WT_SESSION_LOCKED_TABLE_WRITE) ||		\
	    !F_ISSET(session, WT_SESSION_LOCKED_TABLE_READ |		\
	    WT_SESSION_LOCKED_HANDLE_LIST));				\
	if (F_ISSET(session, WT_SESSION_LOCKED_TABLE_WRITE)) {		\
		op;							\
	} else if (((ret) = __wt_try_writelock(session,			\
	    &S2C(session)->table_lock)) == 0) {				\
		F_SET(session, WT_SESSION_LOCKED_TABLE_WRITE);		\
		op;							\
		F_CLR(session, WT_SESSION_LOCKED_TABLE_WRITE);		\
		__wt_writeunlock(session, &S2C(session)->table_lock);	\
	}								\
} while (0)

/*
 * WT_WITHOUT_LOCKS --
 *	Drop the handle, table and/or schema locks, perform an operation,
 *	re-acquire the lock(s).
 */
#define	WT_WITHOUT_LOCKS(session, op) do {				\
	WT_CONNECTION_IMPL *__conn = S2C(session);			\
	bool __checkpoint_locked =					\
	    F_ISSET(session, WT_SESSION_LOCKED_CHECKPOINT);		\
	bool __handle_read_locked =					\
	    F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST_READ);	\
	bool __handle_write_locked =					\
	    F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST_WRITE);	\
	bool __table_read_locked =					\
	    F_ISSET(session, WT_SESSION_LOCKED_TABLE_READ);		\
	bool __table_write_locked =					\
	    F_ISSET(session, WT_SESSION_LOCKED_TABLE_WRITE);		\
	bool __schema_locked =						\
	    F_ISSET(session, WT_SESSION_LOCKED_SCHEMA);			\
	if (__handle_read_locked) {					\
		F_CLR(session, WT_SESSION_LOCKED_HANDLE_LIST_READ);	\
		__wt_readunlock(session, &__conn->dhandle_lock);	\
	}								\
	if (__handle_write_locked) {					\
		F_CLR(session, WT_SESSION_LOCKED_HANDLE_LIST_WRITE);	\
		__wt_writeunlock(session, &__conn->dhandle_lock);	\
	}								\
	if (__table_read_locked) {					\
		F_CLR(session, WT_SESSION_LOCKED_TABLE_READ);		\
		__wt_readunlock(session, &__conn->table_lock);		\
	}								\
	if (__table_write_locked) {					\
		F_CLR(session, WT_SESSION_LOCKED_TABLE_WRITE);		\
		__wt_writeunlock(session, &__conn->table_lock);		\
	}								\
	if (__schema_locked) {						\
		F_CLR(session, WT_SESSION_LOCKED_SCHEMA);		\
		__wt_spin_unlock(session, &__conn->schema_lock);	\
	}								\
	if (__checkpoint_locked) {					\
		F_CLR(session, WT_SESSION_LOCKED_CHECKPOINT);		\
		__wt_spin_unlock(session, &__conn->checkpoint_lock);	\
	}								\
	op;								\
	if (__checkpoint_locked) {					\
		__wt_spin_lock(session, &__conn->checkpoint_lock);	\
		F_SET(session, WT_SESSION_LOCKED_CHECKPOINT);		\
	}								\
	if (__schema_locked) {						\
		__wt_spin_lock(session, &__conn->schema_lock);		\
		F_SET(session, WT_SESSION_LOCKED_SCHEMA);		\
	}								\
	if (__table_read_locked) {					\
		__wt_readlock(session, &__conn->table_lock);		\
		F_SET(session, WT_SESSION_LOCKED_TABLE_READ);		\
	}								\
	if (__table_write_locked) {					\
		__wt_writelock(session, &__conn->table_lock);		\
		F_SET(session, WT_SESSION_LOCKED_TABLE_WRITE);		\
	}								\
	if (__handle_read_locked) {					\
		__wt_readlock(session, &__conn->dhandle_lock);		\
		F_SET(session, WT_SESSION_LOCKED_HANDLE_LIST_READ);	\
	}								\
	if (__handle_write_locked) {					\
		__wt_writelock(session, &__conn->dhandle_lock);	\
		F_SET(session, WT_SESSION_LOCKED_HANDLE_LIST_WRITE);	\
	}								\
} while (0)