/*- * Copyright (c) 2014-2015 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 */ #define WT_PROJ_NEXT 'n' /* Process the next item ( repeats) */ #define WT_PROJ_REUSE 'r' /* Reuse the previous item ( repeats) */ #define WT_PROJ_SKIP 's' /* Skip a column in the cursor ( repeats) */ #define WT_PROJ_VALUE 'v' /* Go to the value in cursor */ 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) /* * WT_WITH_LOCK -- * Acquire a lock, perform an operation, drop the lock. */ #define WT_WITH_LOCK(session, lock, flag, op) do { \ if (F_ISSET(session, (flag))) { \ op; \ } else { \ __wt_spin_lock(session, (lock)); \ F_SET(session, (flag)); \ op; \ F_CLR(session, (flag)); \ __wt_spin_unlock(session, (lock)); \ } \ } while (0) /* * WT_WITH_HANDLE_LIST_LOCK -- * Acquire the data handle list lock, perform an operation, drop the lock. */ #define WT_WITH_HANDLE_LIST_LOCK(session, op) \ WT_WITH_LOCK(session, \ &S2C(session)->dhandle_lock, WT_SESSION_LOCKED_HANDLE_LIST, op) /* * WT_WITH_SCHEMA_LOCK -- * 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(session, \ &S2C(session)->schema_lock, WT_SESSION_LOCKED_SCHEMA, op); \ } while (0) /* * WT_WITHOUT_LOCKS -- * Drop the schema lock and/or the handle list lock, perform an operation, * re-acquire the lock(s). */ #define WT_WITHOUT_LOCKS(session, op) do { \ WT_CONNECTION_IMPL *__conn = S2C(session); \ int __handle_locked = \ F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST);\ int __table_locked = \ F_ISSET(session, WT_SESSION_LOCKED_TABLE); \ int __schema_locked = \ F_ISSET(session, WT_SESSION_LOCKED_SCHEMA); \ if (__handle_locked) { \ F_CLR(session, WT_SESSION_LOCKED_HANDLE_LIST); \ __wt_spin_unlock(session, &__conn->dhandle_lock);\ } \ if (__table_locked) { \ F_CLR(session, WT_SESSION_LOCKED_TABLE); \ __wt_spin_unlock(session, &__conn->table_lock);\ } \ if (__schema_locked) { \ F_CLR(session, WT_SESSION_LOCKED_SCHEMA); \ __wt_spin_unlock(session, &__conn->schema_lock);\ } \ op; \ if (__schema_locked) { \ __wt_spin_lock(session, &__conn->schema_lock); \ F_SET(session, WT_SESSION_LOCKED_SCHEMA); \ } \ if (__table_locked) { \ __wt_spin_lock(session, &__conn->table_lock); \ F_SET(session, WT_SESSION_LOCKED_TABLE); \ } \ if (__handle_locked) { \ __wt_spin_lock(session, &__conn->dhandle_lock); \ F_SET(session, WT_SESSION_LOCKED_HANDLE_LIST); \ } \ } while (0) /* * WT_WITH_TABLE_LOCK -- * Acquire the table lock, perform an operation, drop the lock. */ #define WT_WITH_TABLE_LOCK(session, op) do { \ WT_ASSERT(session, \ F_ISSET(session, WT_SESSION_LOCKED_TABLE) || \ !F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST)); \ WT_WITH_LOCK(session, \ &S2C(session)->table_lock, WT_SESSION_LOCKED_TABLE, op); \ } while (0)