/*
* reorderbuffer.h
* PostgreSQL logical replay/reorder buffer management.
*
* Copyright (c) 2012-2018, PostgreSQL Global Development Group
*
* src/include/replication/reorderbuffer.h
*/
#ifndef REORDERBUFFER_H
#define REORDERBUFFER_H
#include "access/htup_details.h"
#include "lib/ilist.h"
#include "storage/sinval.h"
#include "utils/hsearch.h"
#include "utils/relcache.h"
#include "utils/snapshot.h"
#include "utils/timestamp.h"
/* an individual tuple, stored in one chunk of memory */
typedef struct ReorderBufferTupleBuf
{
/* position in preallocated list */
slist_node node;
/* tuple header, the interesting bit for users of logical decoding */
HeapTupleData tuple;
/* pre-allocated size of tuple buffer, different from tuple size */
Size alloc_tuple_size;
/* actual tuple data follows */
} ReorderBufferTupleBuf;
/* pointer to the data stored in a TupleBuf */
#define ReorderBufferTupleBufData(p) \
((HeapTupleHeader) MAXALIGN(((char *) p) + sizeof(ReorderBufferTupleBuf)))
/*
* Types of the change passed to a 'change' callback.
*
* For efficiency and simplicity reasons we want to keep Snapshots, CommandIds
* and ComboCids in the same list with the user visible INSERT/UPDATE/DELETE
* changes. Users of the decoding facilities will never see changes with
* *_INTERNAL_* actions.
*
* The INTERNAL_SPEC_INSERT and INTERNAL_SPEC_CONFIRM, and INTERNAL_SPEC_ABORT
* changes concern "speculative insertions", their confirmation, and abort
* respectively. They're used by INSERT .. ON CONFLICT .. UPDATE. Users of
* logical decoding don't have to care about these.
*/
enum ReorderBufferChangeType
{
REORDER_BUFFER_CHANGE_INSERT,
REORDER_BUFFER_CHANGE_UPDATE,
REORDER_BUFFER_CHANGE_DELETE,
REORDER_BUFFER_CHANGE_MESSAGE,
REORDER_BUFFER_CHANGE_INTERNAL_SNAPSHOT,
REORDER_BUFFER_CHANGE_INTERNAL_COMMAND_ID,
REORDER_BUFFER_CHANGE_INTERNAL_TUPLECID,
REORDER_BUFFER_CHANGE_INTERNAL_SPEC_INSERT,
REORDER_BUFFER_CHANGE_INTERNAL_SPEC_CONFIRM,
REORDER_BUFFER_CHANGE_TRUNCATE,
REORDER_BUFFER_CHANGE_INTERNAL_SPEC_ABORT
};
/*
* a single 'change', can be an insert (with one tuple), an update (old, new),
* or a delete (old).
*
* The same struct is also used internally for other purposes but that should
* never be visible outside reorderbuffer.c.
*/
typedef struct ReorderBufferChange
{
XLogRecPtr lsn;
/* The type of change. */
enum ReorderBufferChangeType action;
RepOriginId origin_id;
/*
* Context data for the change. Which part of the union is valid depends
* on action.
*/
union
{
/* Old, new tuples when action == *_INSERT|UPDATE|DELETE */
struct
{
/* relation that has been changed */
RelFileNode relnode;
/* no previously reassembled toast chunks are necessary anymore */
bool clear_toast_afterwards;
/* valid for DELETE || UPDATE */
ReorderBufferTupleBuf *oldtuple;
/* valid for INSERT || UPDATE */
ReorderBufferTupleBuf *newtuple;
} tp;
/*
* Truncate data for REORDER_BUFFER_CHANGE_TRUNCATE representing one
* set of relations to be truncated.
*/
struct
{
Size nrelids;
bool cascade;
bool restart_seqs;
Oid *relids;
} truncate;
/* Message with arbitrary data. */
struct
{
char *prefix;
Size message_size;
char *message;
} msg;
/* New snapshot, set when action == *_INTERNAL_SNAPSHOT */
Snapshot snapshot;
/*
* New command id for existing snapshot in a catalog changing tx. Set
* when action == *_INTERNAL_COMMAND_ID.
*/
CommandId command_id;
/*
* New cid mapping for catalog changing transaction, set when action
* == *_INTERNAL_TUPLECID.
*/
struct
{
RelFileNode node;
ItemPointerData tid;
CommandId cmin;
CommandId cmax;
CommandId combocid;
} tuplecid;
} data;
/*
* While in use this is how a change is linked into a transactions,
* otherwise it's the preallocated list.
*/
dlist_node node;
} ReorderBufferChange;
typedef struct ReorderBufferTXN
{
/*
* The transactions transaction id, can be a toplevel or sub xid.
*/
TransactionId xid;
/* did the TX have catalog changes */
bool has_catalog_changes;
/* Do we know this is a subxact? Xid of top-level txn if so */
bool is_known_as_subxact;
TransactionId toplevel_xid;
/*
* LSN of the first data carrying, WAL record with knowledge about this
* xid. This is allowed to *not* be first record adorned with this xid, if
* the previous records aren't relevant for logical decoding.
*/
XLogRecPtr first_lsn;
/* ----
* LSN of the record that lead to this xact to be committed or
* aborted. This can be a
* * plain commit record
* * plain commit record, of a parent transaction
* * prepared transaction commit
* * plain abort record
* * prepared transaction abort
*
* This can also become set to earlier values than transaction end when
* a transaction is spilled to disk; specifically it's set to the LSN of
* the latest change written to disk so far.
* ----
*/
XLogRecPtr final_lsn;
/*
* LSN pointing to the end of the commit record + 1.
*/
XLogRecPtr end_lsn;
/*
* LSN of the last lsn at which snapshot information reside, so we can
* restart decoding from there and fully recover this transaction from
* WAL.
*/
XLogRecPtr restart_decoding_lsn;
/* origin of the change that caused this transaction */
RepOriginId origin_id;
XLogRecPtr origin_lsn;
/*
* Commit time, only known when we read the actual commit record.
*/
TimestampTz commit_time;
/*
* The base snapshot is used to decode all changes until either this
* transaction modifies the catalog, or another catalog-modifying
* transaction commits.
*/
Snapshot base_snapshot;
XLogRecPtr base_snapshot_lsn;
dlist_node base_snapshot_node; /* link in txns_by_base_snapshot_lsn */
/*
* How many ReorderBufferChange's do we have in this txn.
*
* Changes in subtransactions are *not* included but tracked separately.
*/
uint64 nentries;
/*
* How many of the above entries are stored in memory in contrast to being
* spilled to disk.
*/
uint64 nentries_mem;
/*
* Has this transaction been spilled to disk? It's not always possible to
* deduce that fact by comparing nentries with nentries_mem, because e.g.
* subtransactions of a large transaction might get serialized together
* with the parent - if they're restored to memory they'd have
* nentries_mem == nentries.
*/
bool serialized;
/*
* List of ReorderBufferChange structs, including new Snapshots and new
* CommandIds
*/
dlist_head changes;
/*
* List of (relation, ctid) => (cmin, cmax) mappings for catalog tuples.
* Those are always assigned to the toplevel transaction. (Keep track of
* #entries to create a hash of the right size)
*/
dlist_head tuplecids;
uint64 ntuplecids;
/*
* On-demand built hash for looking up the above values.
*/
HTAB *tuplecid_hash;
/*
* Hash containing (potentially partial) toast entries. NULL if no toast
* tuples have been found for the current change.
*/
HTAB *toast_hash;
/*
* non-hierarchical list of subtransactions that are *not* aborted. Only
* used in toplevel transactions.
*/
dlist_head subtxns;
uint32 nsubtxns;
/*
* Stored cache invalidations. This is not a linked list because we get
* all the invalidations at once.
*/
uint32 ninvalidations;
SharedInvalidationMessage *invalidations;
/* ---
* Position in one of three lists:
* * list of subtransactions if we are *known* to be subxact
* * list of toplevel xacts (can be an as-yet unknown subxact)
* * list of preallocated ReorderBufferTXNs (if unused)
* ---
*/
dlist_node node;
} ReorderBufferTXN;
/* so we can define the callbacks used inside struct ReorderBuffer itself */
typedef struct ReorderBuffer ReorderBuffer;
/* change callback signature */
typedef void (*ReorderBufferApplyChangeCB) (
ReorderBuffer *rb,
ReorderBufferTXN *txn,
Relation relation,
ReorderBufferChange *change);
/* truncate callback signature */
typedef void (*ReorderBufferApplyTruncateCB) (
ReorderBuffer *rb,
ReorderBufferTXN *txn,
int nrelations,
Relation relations[],
ReorderBufferChange *change);
/* begin callback signature */
typedef void (*ReorderBufferBeginCB) (
ReorderBuffer *rb,
ReorderBufferTXN *txn);
/* commit callback signature */
typedef void (*ReorderBufferCommitCB) (
ReorderBuffer *rb,
ReorderBufferTXN *txn,
XLogRecPtr commit_lsn);
/* message callback signature */
typedef void (*ReorderBufferMessageCB) (
ReorderBuffer *rb,
ReorderBufferTXN *txn,
XLogRecPtr message_lsn,
bool transactional,
const char *prefix, Size sz,
const char *message);
struct ReorderBuffer
{
/*
* xid => ReorderBufferTXN lookup table
*/
HTAB *by_txn;
/*
* Transactions that could be a toplevel xact, ordered by LSN of the first
* record bearing that xid.
*/
dlist_head toplevel_by_lsn;
/*
* Transactions and subtransactions that have a base snapshot, ordered by
* LSN of the record which caused us to first obtain the base snapshot.
* This is not the same as toplevel_by_lsn, because we only set the base
* snapshot on the first logical-decoding-relevant record (eg. heap
* writes), whereas the initial LSN could be set by other operations.
*/
dlist_head txns_by_base_snapshot_lsn;
/*
* one-entry sized cache for by_txn. Very frequently the same txn gets
* looked up over and over again.
*/
TransactionId by_txn_last_xid;
ReorderBufferTXN *by_txn_last_txn;
/*
* Callbacks to be called when a transactions commits.
*/
ReorderBufferBeginCB begin;
ReorderBufferApplyChangeCB apply_change;
ReorderBufferApplyTruncateCB apply_truncate;
ReorderBufferCommitCB commit;
ReorderBufferMessageCB message;
/*
* Pointer that will be passed untouched to the callbacks.
*/
void *private_data;
/*
* Saved output plugin option
*/
bool output_rewrites;
/*
* Private memory context.
*/
MemoryContext context;
/*
* Memory contexts for specific types objects
*/
MemoryContext change_context;
MemoryContext txn_context;
MemoryContext tup_context;
XLogRecPtr current_restart_decoding_lsn;
/* buffer for disk<->memory conversions */
char *outbuf;
Size outbufsize;
};
ReorderBuffer *ReorderBufferAllocate(void);
void ReorderBufferFree(ReorderBuffer *);
ReorderBufferTupleBuf *ReorderBufferGetTupleBuf(ReorderBuffer *, Size tuple_len);
void ReorderBufferReturnTupleBuf(ReorderBuffer *, ReorderBufferTupleBuf *tuple);
ReorderBufferChange *ReorderBufferGetChange(ReorderBuffer *);
void ReorderBufferReturnChange(ReorderBuffer *, ReorderBufferChange *);
Oid * ReorderBufferGetRelids(ReorderBuffer *, int nrelids);
void ReorderBufferReturnRelids(ReorderBuffer *, Oid *relids);
void ReorderBufferQueueChange(ReorderBuffer *, TransactionId, XLogRecPtr lsn, ReorderBufferChange *);
void ReorderBufferQueueMessage(ReorderBuffer *, TransactionId, Snapshot snapshot, XLogRecPtr lsn,
bool transactional, const char *prefix,
Size message_size, const char *message);
void ReorderBufferCommit(ReorderBuffer *, TransactionId,
XLogRecPtr commit_lsn, XLogRecPtr end_lsn,
TimestampTz commit_time, RepOriginId origin_id, XLogRecPtr origin_lsn);
void ReorderBufferAssignChild(ReorderBuffer *, TransactionId, TransactionId, XLogRecPtr commit_lsn);
void ReorderBufferCommitChild(ReorderBuffer *, TransactionId, TransactionId,
XLogRecPtr commit_lsn, XLogRecPtr end_lsn);
void ReorderBufferAbort(ReorderBuffer *, TransactionId, XLogRecPtr lsn);
void ReorderBufferAbortOld(ReorderBuffer *, TransactionId xid);
void ReorderBufferForget(ReorderBuffer *, TransactionId, XLogRecPtr lsn);
void ReorderBufferSetBaseSnapshot(ReorderBuffer *, TransactionId, XLogRecPtr lsn, struct SnapshotData *snap);
void ReorderBufferAddSnapshot(ReorderBuffer *, TransactionId, XLogRecPtr lsn, struct SnapshotData *snap);
void ReorderBufferAddNewCommandId(ReorderBuffer *, TransactionId, XLogRecPtr lsn,
CommandId cid);
void ReorderBufferAddNewTupleCids(ReorderBuffer *, TransactionId, XLogRecPtr lsn,
RelFileNode node, ItemPointerData pt,
CommandId cmin, CommandId cmax, CommandId combocid);
void ReorderBufferAddInvalidations(ReorderBuffer *, TransactionId, XLogRecPtr lsn,
Size nmsgs, SharedInvalidationMessage *msgs);
void ReorderBufferImmediateInvalidation(ReorderBuffer *, uint32 ninvalidations,
SharedInvalidationMessage *invalidations);
void ReorderBufferProcessXid(ReorderBuffer *, TransactionId xid, XLogRecPtr lsn);
void ReorderBufferXidSetCatalogChanges(ReorderBuffer *, TransactionId xid, XLogRecPtr lsn);
bool ReorderBufferXidHasCatalogChanges(ReorderBuffer *, TransactionId xid);
bool ReorderBufferXidHasBaseSnapshot(ReorderBuffer *, TransactionId xid);
ReorderBufferTXN *ReorderBufferGetOldestTXN(ReorderBuffer *);
TransactionId ReorderBufferGetOldestXmin(ReorderBuffer *rb);
void ReorderBufferSetRestartPoint(ReorderBuffer *, XLogRecPtr ptr);
void StartupReorderBuffer(void);
#endif