From: | Andres Freund <andres(at)anarazel(dot)de> |
---|---|
To: | Andrew Dunstan <andrew(dot)dunstan(at)2ndquadrant(dot)com> |
Cc: | David Rowley <david(dot)rowley(at)2ndquadrant(dot)com>, Thomas Munro <thomas(dot)munro(at)enterprisedb(dot)com>, Tom Lane <tgl(at)sss(dot)pgh(dot)pa(dot)us>, PostgreSQL-development <pgsql-hackers(at)postgresql(dot)org> |
Subject: | Re: ALTER TABLE ADD COLUMN fast default |
Date: | 2018-02-21 09:18:06 |
Message-ID: | 20180221091806.qbpz5ltnx63h5y7e@alap3.anarazel.de |
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Thread: | |
Lists: | pgsql-hackers |
Hi,
On 2018-02-20 17:03:07 +1030, Andrew Dunstan wrote:
> + <row>
> + <entry><structfield>attmissingval</structfield></entry>
> + <entry><type>bytea</type></entry>
> + <entry></entry>
> + <entry>
> + This column has a binary representation of the value used when the
> + column is entirely missing from the row, as happens when the column is
> + added after the row is created. The value is only used when
> + <structname>atthasmissing</structname> is true.
> + </entry>
> + </row>
Hm. Why is this a bytea, and why is that a good idea? In pg_statistics,
which has to deal with something similar-ish, we deal with the ambiguity
of the storage by storing anyarrays, which then can display the contents
properly thanks to the embedded oid. Now it'd be a bit sad to store a
one element array in the table. But that seems better than storing a
bytea that's typeless and can't be viewed reasonably. The best solution
would be to create a variadic any type that can actually be stored, but
I see why you'd not want to go there necessarily.
But also, a bit higher level, is it a good idea to store this
information directly into pg_attribute? That table is already one of the
hotter system catalog tables, and very frequently the largest. If we
suddenly end up storing a lot of default values in there, possibly ones
that aren't ever actually used because all the default values are long
since actually stored in the table, we'll spend more time doing cache
lookups.
I'm somewhat tempted to say that the default data should be in a
separate catalog table. Or possibly use pg_attrdef.
>
> +/*
> + * Return the missing value of an attribute, or NULL if there isn't one.
> + */
> +static Datum
> +getmissingattr(TupleDesc tupleDesc,
> + int attnum, bool *isnull)
> +{
> + int missingnum;
> + Form_pg_attribute att;
> + AttrMissing *attrmiss;
> +
> + Assert(attnum <= tupleDesc->natts);
> + Assert(attnum > 0);
> +
> + att = TupleDescAttr(tupleDesc, attnum - 1);
> +
> + if (att->atthasmissing)
> + {
> + Assert(tupleDesc->constr);
> + Assert(tupleDesc->constr->num_missing > 0);
> +
> + attrmiss = tupleDesc->constr->missing;
> +
> + /*
> + * Look through the tupledesc's attribute missing values
> + * for the one that corresponds to this attribute.
> + */
> + for (missingnum = tupleDesc->constr->num_missing - 1;
> + missingnum >= 0; missingnum--)
> + {
> + if (attrmiss[missingnum].amnum == attnum)
> + {
> + if (attrmiss[missingnum].ammissingNull)
> + {
> + *isnull = true;
> + return (Datum) 0;
> + }
> + else
> + {
> + *isnull = false;
> + return attrmiss[missingnum].ammissing;
> + }
> + }
> + }
I think requiring this is a bad idea. If, and only if, there's default
attributes with missing values we should build an array that can be
directly indexed by attribute number, accessing the missing value. What
you're doing here is essentially O(n^2) afaict, with n being the number
of columns missing values.
> +/*
> + * Fill in missing values for a TupleTableSlot
> + */
> +static void
> +slot_getmissingattrs(TupleTableSlot *slot, int startAttNum, int lastAttNum)
> +{
> + AttrMissing *attrmiss;
> + int missingnum;
> + int missattnum;
> + int i;
> +
> + /* initialize all the missing attributes to null */
> + for (missattnum = lastAttNum - 1; missattnum >= startAttNum; missattnum--)
> + {
> + slot->tts_values[missattnum] = PointerGetDatum(NULL);
> + slot->tts_isnull[missattnum] = true;
> + }
Any reason not to memset this in one (well two) go with memset? Also,
how come you're using PointerGetDatum()? Normally we just use (Datum) 0,
imo it's confusing to use PointerGetDatum(), as it implies things that
are quite possibly not the case.
> +/*
> + * Fill in one attribute, either a data value or a bit in the null bitmask
> + */
Imo this isn't sufficient documentation to explain what this function
does. Even if you just add "per-attribute helper for heap_fill_tuple
and other routines building tuples" or such, I think it'd be clearer.
> +static inline void
> +fill_val(Form_pg_attribute att,
> + bits8 **bit,
> + int *bitmask,
> + char **dataP,
> + uint16 *infomask,
> + Datum datum,
> + bool isnull)
> +{
> + Size data_length;
> + char *data = *dataP;
> +
> + /*
> + * If we're building a null bitmap, set the appropriate bit for the
> + * current column value here.
> + */
> + if (bit != NULL)
> + {
> + if (*bitmask != HIGHBIT)
> + *bitmask <<= 1;
> + else
> + {
> + *bit += 1;
> + **bit = 0x0;
> + *bitmask = 1;
> + }
> +
> + if (isnull)
> + {
> + *infomask |= HEAP_HASNULL;
> + return;
> + }
> +
> + **bit |= *bitmask;
> + }
> +
> + Assert(att);
Why isn't this asserted at the beginning?
> @@ -293,10 +408,18 @@ heap_fill_tuple(TupleDesc tupleDesc,
> * ----------------
> */
> bool
> -heap_attisnull(HeapTuple tup, int attnum)
> +heap_attisnull(HeapTuple tup, int attnum, TupleDesc tupleDesc)
> {
> + /*
> + * We allow a NULL tupledesc for relations not expected to have
> + * missing values, such as catalog relations and indexes.
> + */
> + Assert(!tupleDesc || attnum <= tupleDesc->natts);
This seems fairly likely to hide bugs.
> if (attnum > (int) HeapTupleHeaderGetNatts(tup->t_data))
> - return true;
> + {
> + return !(tupleDesc &&
> + TupleDescAttr(tupleDesc, attnum - 1)->atthasmissing);
Brrr.
> +/*
> + * Expand a tuple with missing values, or NULLs. The source tuple must have
> + * less attributes than the required number. Only one of targetHeapTuple
> + * and targetMinimalTuple may be supplied. The other argument must be NULL.
> + */
I can't quite make head or tails of this comment "with missing values, or NULLs"?
> +static void
> +expand_tuple(HeapTuple *targetHeapTuple,
> + MinimalTuple *targetMinimalTuple,
> + HeapTuple sourceTuple,
> + TupleDesc tupleDesc)
> +{
> + AttrMissing *attrmiss = NULL;
> + int attnum;
> + int missingnum;
> + int firstmissingnum = 0;
> + int num_missing = 0;
> + bool hasNulls = HeapTupleHasNulls(sourceTuple);
> + HeapTupleHeader targetTHeader;
> + HeapTupleHeader sourceTHeader = sourceTuple->t_data;
> + int sourceNatts = HeapTupleHeaderGetNatts(sourceTHeader);
> + int natts = tupleDesc->natts;
> + int sourceIndicatorLen;
> + int targetIndicatorLen;
> + Size sourceDataLen = sourceTuple->t_len - sourceTHeader->t_hoff;
> + Size targetDataLen;
> + Size len;
> + int hoff;
> + bits8 *nullBits = NULL;
> + int bitMask = 0;
> + char *targetData;
> + uint16 *infoMask;
> +
> + Assert((targetHeapTuple && !targetMinimalTuple)
> + || (!targetHeapTuple && targetMinimalTuple));
> +
> + Assert(sourceNatts < natts);
> +
> + sourceIndicatorLen = (hasNulls ? BITMAPLEN(sourceNatts) : 0);
Maybe I'm just grumpy right now (did response work on 2016 taxes just
now, brrrrr), but I don't find "indicatorLen" a descriptive term.
> + targetDataLen = sourceDataLen;
> +
> + if (tupleDesc->constr &&
> + tupleDesc->constr->num_missing)
> + {
> + /*
> + * If there are missing values we want to put them into the tuple.
> + * Before that we have to compute the extra length for the values
> + * array and the variable length data.
> + */
> + num_missing = tupleDesc->constr->num_missing;
> + attrmiss = tupleDesc->constr->missing;
You're accessing a hell of a lot of expensive stuff outside outside of
this if block. E.g. HeapTupleHeaderGetNatts specifically is the prime
source of cache misses in a lot of workloads. Now a smart compiler might
be able to optimize this away, but...
> + /*
> + * Find the first item in attrmiss for which we don't have a value in
> + * the source (i.e. where its amnum is > sourceNatts). We can ignore
> + * all the missing entries before that.
> + */
> + for (firstmissingnum = 0;
> + firstmissingnum < num_missing
> + && attrmiss[firstmissingnum].amnum <= sourceNatts;
> + firstmissingnum++)
> + { /* empty */
> + }
> +
> + /*
> + * If there are no more missing values everything else must be
> + * NULL
> + */
> + if (firstmissingnum >= num_missing)
> + {
> + hasNulls = true;
> + }
> +
> + /*
> + * Now walk the missing attributes one by one. If there is a
> + * missing value make space for it. Otherwise, it's going to be NULL.
> + */
> + for (attnum = sourceNatts + 1;
> + attnum <= natts;
> + attnum++)
> + {
> + Form_pg_attribute att = TupleDescAttr(tupleDesc, attnum - 1);
> +
> + for (missingnum = firstmissingnum; missingnum < num_missing; missingnum++)
> + {
> +
> + /*
> + * If there is a missing value for this attribute calculate
> + * the required space if it's not NULL.
> + */
> + if (attrmiss[missingnum].amnum == attnum)
> + {
> + if (attrmiss[missingnum].ammissingNull)
> + hasNulls = true;
> + else
> + {
> + targetDataLen = att_align_datum(targetDataLen,
> + att->attalign,
> + att->attlen,
> + attrmiss[missingnum].ammissing);
> +
> + targetDataLen = att_addlength_pointer(targetDataLen,
> + att->attlen,
> + attrmiss[missingnum].ammissing);
> + }
> + break;
> + }
> + }
> + if (missingnum > num_missing)
> + {
> + /* there is no missing value for this attribute */
> + hasNulls = true;
> + }
> + }
> + } /* end if have missing values */
> + else
> + {
> + /*
> + * If there are no missing values at all then NULLS must be allowed,
> + * since some of the attributes are known to be absent.
> + */
> + hasNulls = true;
Why are we doing anything at all in this branch? ISTM we're reforming
the tuple for absolutely no gain here, just making it larger by
including additionall null bits?
> + /*
> + * Allocate and zero the space needed. Note that the tuple body and
> + * HeapTupleData management structure are allocated in one chunk.
> + */
> + if (targetHeapTuple)
> + {
> + len += offsetof(HeapTupleHeaderData, t_bits);
> + hoff = len = MAXALIGN(len); /* align user data safely */
> + len += targetDataLen;
So len isn't the length of the tuple, but the null bitmap length? That
seems, uh, non-obvious.
> + *targetHeapTuple = (HeapTuple) palloc0(HEAPTUPLESIZE + len);
> + (*targetHeapTuple)->t_data
> + = targetTHeader
> + = (HeapTupleHeader) ((char *) *targetHeapTuple + HEAPTUPLESIZE);
Yuck.
> + (*targetHeapTuple)->t_len = len;
> + (*targetHeapTuple)->t_tableOid = sourceTuple->t_tableOid;
> + ItemPointerSetInvalid(&((*targetHeapTuple)->t_self));
Seems like a lot of this code would be more readable by storing
*targetHeapTuple in a local var.
> + targetTHeader->t_infomask = sourceTHeader->t_infomask;
> + targetTHeader->t_hoff = hoff;
> + HeapTupleHeaderSetNatts(targetTHeader, natts);
> + HeapTupleHeaderSetDatumLength(targetTHeader, len);
> + HeapTupleHeaderSetTypeId(targetTHeader, tupleDesc->tdtypeid);
> + HeapTupleHeaderSetTypMod(targetTHeader, tupleDesc->tdtypmod);
> + /* We also make sure that t_ctid is invalid unless explicitly set */
> + ItemPointerSetInvalid(&(targetTHeader->t_ctid));
This seems fairly expensive, why aren't we just memcpy'ing the old
header into the new one?
> + if (targetIndicatorLen > 0)
> + {
> + if (sourceIndicatorLen > 0)
> + {
> + /* if bitmap pre-existed copy in - all is set */
can't parse.
> + memcpy(nullBits,
> + ((char *) sourceTHeader)
> + + offsetof(HeapTupleHeaderData, t_bits),
> + sourceIndicatorLen);
> + nullBits += sourceIndicatorLen - 1;
> + }
> + else
> + {
> + sourceIndicatorLen = BITMAPLEN(sourceNatts);
> + /* Set NOT NULL for all existing attributes */
> + memset(nullBits, 0xff, sourceIndicatorLen);
> +
> + nullBits += sourceIndicatorLen - 1;
> +
> + if (sourceNatts & 0x07)
> + {
> + /* build the mask (inverted!) */
> + bitMask = 0xff << (sourceNatts & 0x07);
> + /* Voila */
> + *nullBits = ~bitMask;
> + }
It's late, I'm tired. But how can this be correct? Also, this code is
massively under-commented.
> +
> +/*
> + * Fill in the missing values for an ordinary HeapTuple
> + */
> +MinimalTuple
> +minimal_expand_tuple(HeapTuple sourceTuple, TupleDesc tupleDesc)
> +{
> + MinimalTuple minimalTuple;
> +
> + expand_tuple(NULL, &minimalTuple, sourceTuple, tupleDesc);
> + return minimalTuple;
> +}
> +
> +/*
> + * Fill in the missing values for a minimal HeapTuple
> + */
> +HeapTuple
> +heap_expand_tuple(HeapTuple sourceTuple, TupleDesc tupleDesc)
> +{
> + HeapTuple heapTuple;
> +
> + expand_tuple(&heapTuple, NULL, sourceTuple, tupleDesc);
> + return heapTuple;
> +}
Comments appear to be swapped.
> /* ----------------
> * heap_copy_tuple_as_datum
> *
> @@ -1012,13 +1422,10 @@ heap_deform_tuple(HeapTuple tuple, TupleDesc tupleDesc,
>
> /*
> * If tuple doesn't have all the atts indicated by tupleDesc, read the
> - * rest as null
> + * rest as null, or a missing value if there is one.
> */
"a missing value" isn't there quite possibly multiple ones?
> /*
> @@ -1192,8 +1599,7 @@ slot_getattr(TupleTableSlot *slot, int attnum, bool *isnull)
> tup = tuple->t_data;
> if (attnum > HeapTupleHeaderGetNatts(tup))
> {
> - *isnull = true;
> - return (Datum) 0;
> + return getmissingattr(slot->tts_tupleDescriptor, attnum, isnull);
> }
This turned a ~4 instruction case into considerably more. I've recently
removed one of the major slot_getattr sources (hashagg comparisons), but
we still call this super frequently for hashagg's hash computations. I
suggest micro-benchmarking that case.
> Oid
> StoreAttrDefault(Relation rel, AttrNumber attnum,
> - Node *expr, bool is_internal)
> + Node *expr, bool is_internal, bool add_column_mode)
> {
> char *adbin;
> char *adsrc;
> @@ -1939,9 +1945,20 @@ StoreAttrDefault(Relation rel, AttrNumber attnum,
> Relation attrrel;
> HeapTuple atttup;
> Form_pg_attribute attStruct;
> + Form_pg_attribute defAttStruct;
> Oid attrdefOid;
> ObjectAddress colobject,
> defobject;
> + ExprState *exprState;
> + Expr *expr2 = (Expr *) expr;
> + EState *estate = NULL;
> + ExprContext *econtext;
> + char *missingBuf = NULL;
> + Datum valuesAtt[Natts_pg_attribute];
> + bool nullsAtt[Natts_pg_attribute];
> + bool replacesAtt[Natts_pg_attribute];
> + Datum missingval = (Datum) 0;
> + bool missingIsNull = true;
>
> /*
> * Flatten expression to string form for storage.
> @@ -1956,6 +1973,44 @@ StoreAttrDefault(Relation rel, AttrNumber attnum,
> RelationGetRelid(rel)),
> false, false);
>
> + /*
> + * Compute the missing value
> + */
> + expr2 = expression_planner(expr2);
> +
> + exprState = ExecInitExpr(expr2, NULL);
This should instead use ExecPrepareExpr()
> + if (add_column_mode)
> + {
> + missingval = ExecEvalExpr(exprState, econtext,
> + &missingIsNull);
> +
> + defAttStruct = TupleDescAttr(rel->rd_att, attnum - 1);
> +
> + if (missingIsNull)
> + {
> + missingval = PointerGetDatum(NULL);
(Datum) 0;
> + }
> + else if (defAttStruct->attbyval)
> + {
> + missingBuf = palloc(VARHDRSZ + sizeof(Datum));
> + memcpy(VARDATA(missingBuf), &missingval, sizeof(Datum));
> + SET_VARSIZE(missingBuf, VARHDRSZ + sizeof(Datum));
> + missingval = PointerGetDatum(missingBuf);
> + }
> + else if (defAttStruct->attlen >= 0)
> + {
> + missingBuf = palloc(VARHDRSZ + defAttStruct->attlen);
> + memcpy(VARDATA(missingBuf), DatumGetPointer(missingval),
> + defAttStruct->attlen);
> + SET_VARSIZE(missingBuf,
> + VARHDRSZ + defAttStruct->attlen);
> + missingval = PointerGetDatum(missingBuf);
> + }
What if we get an extended datum back in the varlena case? Even if we
wouldn't change the storage from bytea to something else, you really
would need to force detoasting here.
> + }
> +
> /*
> * Make the pg_attrdef entry.
> */
> @@ -1996,7 +2051,22 @@ StoreAttrDefault(Relation rel, AttrNumber attnum,
> attStruct = (Form_pg_attribute) GETSTRUCT(atttup);
> if (!attStruct->atthasdef)
> {
> - attStruct->atthasdef = true;
> + MemSet(valuesAtt, 0, sizeof(valuesAtt));
> + MemSet(nullsAtt, false, sizeof(nullsAtt));
> + MemSet(replacesAtt, false, sizeof(replacesAtt));
> + valuesAtt[Anum_pg_attribute_atthasdef - 1] = true;
> + replacesAtt[Anum_pg_attribute_atthasdef - 1] = true;
> + if (add_column_mode)
> + {
> + valuesAtt[Anum_pg_attribute_atthasmissing - 1] = true;
> + replacesAtt[Anum_pg_attribute_atthasmissing - 1] = true;
> + valuesAtt[Anum_pg_attribute_attmissingval - 1] = missingval;
> + replacesAtt[Anum_pg_attribute_attmissingval - 1] = true;
> + nullsAtt[Anum_pg_attribute_attmissingval - 1] = missingIsNull;
> + }
> + atttup = heap_modify_tuple(atttup, RelationGetDescr(attrrel),
> + valuesAtt, nullsAtt, replacesAtt);
> +
This seems weird. We've above formed a tuple, now we just modify it
again?
> @@ -2296,7 +2377,14 @@ AddRelationNewConstraints(Relation rel,
> (IsA(expr, Const) &&((Const *) expr)->constisnull))
> continue;
>
> - defOid = StoreAttrDefault(rel, colDef->attnum, expr, is_internal);
> + /* If the default is volatile we cannot use a missing value */
> + if (contain_volatile_functions((Node *) expr))
> + {
> + colDef->missingMode = false;
> + }
> + defOid = StoreAttrDefault(rel, colDef->attnum, expr, is_internal,
> + colDef->missingMode);
Doesn't this have to be immutable rather than just stable? I mean just
storing the value of now() doesn't seem like it'd do the trick?
> @@ -663,7 +671,23 @@ ExecFetchSlotTuple(TupleTableSlot *slot)
> * If we have a regular physical tuple then just return it.
> */
> if (TTS_HAS_PHYSICAL_TUPLE(slot))
> - return slot->tts_tuple;
> + {
> + if (HeapTupleHeaderGetNatts(slot->tts_tuple->t_data) <
> + slot->tts_tupleDescriptor->natts)
> + {
> + MemoryContext oldContext = MemoryContextSwitchTo(slot->tts_mcxt);
> +
> + slot->tts_tuple = heap_expand_tuple(slot->tts_tuple,
> + slot->tts_tupleDescriptor);
> + slot->tts_shouldFree = true;
> + MemoryContextSwitchTo(oldContext);
> + return slot->tts_tuple;
> + }
> + else
> + {
> + return slot->tts_tuple;
> + }
> + }
I'm extremely dubious about this. HeapTupleHeaderGetNatts() commonly
causes cachemisses and therefore causes slowdowns when unnecessarily
done. Additionally here we're expanding the tuple to include columns
that aren't even likely to be accessed. This is a fairly hot codepath,
and made hugely more expensive by this.
> @@ -508,6 +508,8 @@ tlist_matches_tupdesc(PlanState *ps, List *tlist, Index varno, TupleDesc tupdesc
> return false; /* out of order */
> if (att_tup->attisdropped)
> return false; /* table contains dropped columns */
> + if (att_tup->atthasmissing)
> + return false; /* table contains cols with missing values */
Hm, so incrementally building a table definitions with defaults, even if
there aren't ever any rows, or if there's a subsequent table rewrite,
will cause slowdowns. If so, shouldn't a rewrite remove all
atthasmissing values?
> @@ -493,7 +494,10 @@ RelationBuildTupleDesc(Relation relation)
> @@ -561,10 +568,73 @@ RelationBuildTupleDesc(Relation relation)
> MemoryContextAllocZero(CacheMemoryContext,
> relation->rd_rel->relnatts *
> sizeof(AttrDefault));
> - attrdef[ndef].adnum = attp->attnum;
> + attrdef[ndef].adnum = attnum;
> attrdef[ndef].adbin = NULL;
> +
> ndef++;
> }
> +
> + /* Likewise for a missing value */
> + if (attp->atthasmissing)
> + {
As I've written somewhere above, I don't think it's a good idea to do
this preemptively. Tupledescs are very commonly copied, and the
missing attributes are quite likely never used. IOW, we should just
remember the attmissingattr value and fill in the corresponding
attmissingval on-demand.
> + Datum missingval;
> + bool missingNull;
> +
> + if (attrmiss == NULL)
> + attrmiss = (AttrMissing *)
> + MemoryContextAllocZero(CacheMemoryContext,
> + relation->rd_rel->relnatts *
> + sizeof(AttrMissing));
> +
> + /* Do we have a missing value? */
> + missingval = SysCacheGetAttr(ATTNUM, pg_attribute_tuple,
> + Anum_pg_attribute_attmissingval,
> + &missingNull);
Shouldn't this be a normal heap_getattr rather than a SysCacheGetAttr
access?
* SysCacheGetAttr
*
* Given a tuple previously fetched by SearchSysCache(),
* extract a specific attribute.
> @@ -620,7 +691,19 @@ RelationBuildTupleDesc(Relation relation)
> AttrDefaultFetch(relation);
> }
> else
> + {
> constr->num_defval = 0;
> + }
> +
> + if (nmissing > 0)
> + {
> + if (nmissing < relation->rd_rel->relnatts)
> + constr->missing = (AttrMissing *)
> + repalloc(attrmiss, nmissing * sizeof(AttrMissing));
> + else
> + constr->missing = attrmiss;
> + }
> + constr->num_missing = nmissing;
Am I understand correctly that you're *downsizing* the allocation with
repalloc here? That seems likely to commonly lead to some wastage...
> @@ -4059,10 +4142,6 @@ AttrDefaultFetch(Relation relation)
>
> systable_endscan(adscan);
> heap_close(adrel, AccessShareLock);
> -
> - if (found != ndef)
> - elog(WARNING, "%d attrdef record(s) missing for rel %s",
> - ndef - found, RelationGetRelationName(relation));
> }
Hm, it's not obvious why this is a good thing?
> diff --git a/src/include/access/tupdesc.h b/src/include/access/tupdesc.h
> index 415efbab97..ed30f98e33 100644
> --- a/src/include/access/tupdesc.h
> +++ b/src/include/access/tupdesc.h
> @@ -14,6 +14,7 @@
> #ifndef TUPDESC_H
> #define TUPDESC_H
>
> +#include "postgres.h"
> #include "access/attnum.h"
postgres.h should never be included in headers, why was it added here?
This doesn't seem ready yet.
Greetings,
Andres Freund
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