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213 lines
6.0 KiB
C
213 lines
6.0 KiB
C
/*-------------------------------------------------------------------------
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*
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* pg_buffercache_pages.c
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* display some contents of the buffer cache
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*
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* $PostgreSQL: pgsql/contrib/pg_buffercache/pg_buffercache_pages.c,v 1.14 2007/11/15 21:14:30 momjian Exp $
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*-------------------------------------------------------------------------
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*/
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#include "postgres.h"
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#include "access/heapam.h"
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#include "catalog/pg_type.h"
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#include "funcapi.h"
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#include "storage/buf_internals.h"
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#include "storage/bufmgr.h"
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#include "utils/relcache.h"
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#define NUM_BUFFERCACHE_PAGES_ELEM 7
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PG_MODULE_MAGIC;
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Datum pg_buffercache_pages(PG_FUNCTION_ARGS);
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/*
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* Record structure holding the to be exposed cache data.
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*/
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typedef struct
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{
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uint32 bufferid;
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Oid relfilenode;
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Oid reltablespace;
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Oid reldatabase;
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BlockNumber blocknum;
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bool isvalid;
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bool isdirty;
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uint16 usagecount;
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} BufferCachePagesRec;
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/*
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* Function context for data persisting over repeated calls.
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*/
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typedef struct
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{
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TupleDesc tupdesc;
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BufferCachePagesRec *record;
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} BufferCachePagesContext;
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/*
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* Function returning data from the shared buffer cache - buffer number,
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* relation node/tablespace/database/blocknum and dirty indicator.
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*/
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PG_FUNCTION_INFO_V1(pg_buffercache_pages);
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Datum
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pg_buffercache_pages(PG_FUNCTION_ARGS)
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{
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FuncCallContext *funcctx;
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Datum result;
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MemoryContext oldcontext;
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BufferCachePagesContext *fctx; /* User function context. */
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TupleDesc tupledesc;
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HeapTuple tuple;
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if (SRF_IS_FIRSTCALL())
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{
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int i;
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volatile BufferDesc *bufHdr;
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funcctx = SRF_FIRSTCALL_INIT();
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/* Switch context when allocating stuff to be used in later calls */
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oldcontext = MemoryContextSwitchTo(funcctx->multi_call_memory_ctx);
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/* Create a user function context for cross-call persistence */
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fctx = (BufferCachePagesContext *) palloc(sizeof(BufferCachePagesContext));
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/* Construct a tuple descriptor for the result rows. */
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tupledesc = CreateTemplateTupleDesc(NUM_BUFFERCACHE_PAGES_ELEM, false);
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TupleDescInitEntry(tupledesc, (AttrNumber) 1, "bufferid",
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INT4OID, -1, 0);
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TupleDescInitEntry(tupledesc, (AttrNumber) 2, "relfilenode",
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OIDOID, -1, 0);
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TupleDescInitEntry(tupledesc, (AttrNumber) 3, "reltablespace",
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OIDOID, -1, 0);
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TupleDescInitEntry(tupledesc, (AttrNumber) 4, "reldatabase",
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OIDOID, -1, 0);
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TupleDescInitEntry(tupledesc, (AttrNumber) 5, "relblocknumber",
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INT8OID, -1, 0);
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TupleDescInitEntry(tupledesc, (AttrNumber) 6, "isdirty",
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BOOLOID, -1, 0);
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TupleDescInitEntry(tupledesc, (AttrNumber) 7, "usage_count",
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INT2OID, -1, 0);
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fctx->tupdesc = BlessTupleDesc(tupledesc);
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/* Allocate NBuffers worth of BufferCachePagesRec records. */
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fctx->record = (BufferCachePagesRec *) palloc(sizeof(BufferCachePagesRec) * NBuffers);
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/* Set max calls and remember the user function context. */
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funcctx->max_calls = NBuffers;
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funcctx->user_fctx = fctx;
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/* Return to original context when allocating transient memory */
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MemoryContextSwitchTo(oldcontext);
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/*
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* To get a consistent picture of the buffer state, we must lock all
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* partitions of the buffer map. Needless to say, this is horrible
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* for concurrency. Must grab locks in increasing order to avoid
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* possible deadlocks.
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*/
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for (i = 0; i < NUM_BUFFER_PARTITIONS; i++)
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LWLockAcquire(FirstBufMappingLock + i, LW_SHARED);
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/*
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* Scan though all the buffers, saving the relevant fields in the
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* fctx->record structure.
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*/
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for (i = 0, bufHdr = BufferDescriptors; i < NBuffers; i++, bufHdr++)
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{
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/* Lock each buffer header before inspecting. */
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LockBufHdr(bufHdr);
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fctx->record[i].bufferid = BufferDescriptorGetBuffer(bufHdr);
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fctx->record[i].relfilenode = bufHdr->tag.rnode.relNode;
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fctx->record[i].reltablespace = bufHdr->tag.rnode.spcNode;
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fctx->record[i].reldatabase = bufHdr->tag.rnode.dbNode;
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fctx->record[i].blocknum = bufHdr->tag.blockNum;
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fctx->record[i].usagecount = bufHdr->usage_count;
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if (bufHdr->flags & BM_DIRTY)
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fctx->record[i].isdirty = true;
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else
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fctx->record[i].isdirty = false;
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/* Note if the buffer is valid, and has storage created */
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if ((bufHdr->flags & BM_VALID) && (bufHdr->flags & BM_TAG_VALID))
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fctx->record[i].isvalid = true;
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else
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fctx->record[i].isvalid = false;
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UnlockBufHdr(bufHdr);
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}
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/*
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* And release locks. We do this in reverse order for two reasons:
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* (1) Anyone else who needs more than one of the locks will be trying
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* to lock them in increasing order; we don't want to release the
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* other process until it can get all the locks it needs. (2) This
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* avoids O(N^2) behavior inside LWLockRelease.
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*/
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for (i = NUM_BUFFER_PARTITIONS; --i >= 0;)
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LWLockRelease(FirstBufMappingLock + i);
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}
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funcctx = SRF_PERCALL_SETUP();
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/* Get the saved state */
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fctx = funcctx->user_fctx;
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if (funcctx->call_cntr < funcctx->max_calls)
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{
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uint32 i = funcctx->call_cntr;
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Datum values[NUM_BUFFERCACHE_PAGES_ELEM];
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bool nulls[NUM_BUFFERCACHE_PAGES_ELEM];
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values[0] = Int32GetDatum(fctx->record[i].bufferid);
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nulls[0] = false;
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/*
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* Set all fields except the bufferid to null if the buffer is unused
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* or not valid.
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*/
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if (fctx->record[i].blocknum == InvalidBlockNumber ||
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fctx->record[i].isvalid == false)
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{
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nulls[1] = true;
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nulls[2] = true;
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nulls[3] = true;
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nulls[4] = true;
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nulls[5] = true;
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nulls[6] = true;
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}
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else
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{
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values[1] = ObjectIdGetDatum(fctx->record[i].relfilenode);
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nulls[1] = false;
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values[2] = ObjectIdGetDatum(fctx->record[i].reltablespace);
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nulls[2] = false;
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values[3] = ObjectIdGetDatum(fctx->record[i].reldatabase);
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nulls[3] = false;
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values[4] = Int64GetDatum((int64) fctx->record[i].blocknum);
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nulls[4] = false;
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values[5] = BoolGetDatum(fctx->record[i].isdirty);
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nulls[5] = false;
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values[6] = Int16GetDatum(fctx->record[i].usagecount);
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nulls[6] = false;
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}
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/* Build and return the tuple. */
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tuple = heap_form_tuple(fctx->tupdesc, values, nulls);
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result = HeapTupleGetDatum(tuple);
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SRF_RETURN_NEXT(funcctx, result);
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}
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else
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SRF_RETURN_DONE(funcctx);
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}
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