Thread
Commits
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Fix incorrect return value in brin_minmax_multi_distance_numeric().
- b9279058a3ca 16.10 landed
- 9b681e239726 18.0 landed
- 835c9374d630 15.14 landed
- 80c758a2e1d7 19 (unreleased) landed
- 5b0c8e328949 14.19 landed
- 0b0d3c19bf07 17.6 landed
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Bug in brin_minmax_multi_distance_numeric()
Tom Lane <tgl@sss.pgh.pa.us> — 2025-07-31T17:33:35Z
Per the discussion in [1], I think we need something like - PG_RETURN_FLOAT8(DirectFunctionCall1(numeric_float8, d)); + PG_RETURN_DATUM(DirectFunctionCall1(numeric_float8, d)); in brin_minmax_multi_distance_numeric(). Peter was proposing that as cosmetic cleanup, but I think it's actually a functional bug that needs to be back-patched. It is certainly broken on 32-bit machines where the Datum result of numeric_float8 will be a pointer, so that we will convert the numeric pointer value to a float and return that, yielding a totally-garbage distance value. But I think it's broken on 64-bit machines too, because we'll be interpreting the output of numeric_float8 as a uintptr_t and applying some unwanted conversion to make that a float. It's not clear to me exactly what this function is used for, but I guess the consequences would be broken BRIN indexes on numeric columns? regards, tom lane [1] https://www.postgresql.org/message-id/2091622.1753982274%40sss.pgh.pa.us
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Re: Bug in brin_minmax_multi_distance_numeric()
Tomas Vondra <tomas@vondra.me> — 2025-07-31T18:25:25Z
On 7/31/25 19:33, Tom Lane wrote: > Per the discussion in [1], I think we need something like > > - PG_RETURN_FLOAT8(DirectFunctionCall1(numeric_float8, d)); > + PG_RETURN_DATUM(DirectFunctionCall1(numeric_float8, d)); > > in brin_minmax_multi_distance_numeric(). Peter was proposing > that as cosmetic cleanup, but I think it's actually a functional > bug that needs to be back-patched. It is certainly broken on > 32-bit machines where the Datum result of numeric_float8 will > be a pointer, so that we will convert the numeric pointer value > to a float and return that, yielding a totally-garbage distance > value. But I think it's broken on 64-bit machines too, because > we'll be interpreting the output of numeric_float8 as a uintptr_t > and applying some unwanted conversion to make that a float. > Agreed it's a bug on 32-bit machines. Not sure about 64-bits. > It's not clear to me exactly what this function is used for, > but I guess the consequences would be broken BRIN indexes > on numeric columns? > Actually, no - it should not cause "broken" indexes, as in "giving incorrect results". The distance functions determine in what order we merge points into ranges, and if the distances are bogus then we can build a summary that is less efficient. regards -- Tomas Vondra
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Re: Bug in brin_minmax_multi_distance_numeric()
Tom Lane <tgl@sss.pgh.pa.us> — 2025-07-31T18:35:42Z
Tomas Vondra <tomas@vondra.me> writes: > On 7/31/25 19:33, Tom Lane wrote: >> ... It is certainly broken on >> 32-bit machines where the Datum result of numeric_float8 will >> be a pointer, so that we will convert the numeric pointer value >> to a float and return that, yielding a totally-garbage distance >> value. But I think it's broken on 64-bit machines too, because >> we'll be interpreting the output of numeric_float8 as a uintptr_t >> and applying some unwanted conversion to make that a float. > Agreed it's a bug on 32-bit machines. Not sure about 64-bits. Yeah, I'm not 100% sure about that. It's certainly doing something unexpected, but we might accidentally end up with relatively-sane relative distance comparisons anyway. (I assume the outputs will only be compared to other outputs of the same function, right?) I have a vague recollection that the IEEE float format was chosen with an eye to making comparisons cheap, ie not too much different from integer comparisons. So the sort order might be about the same even after incorrectly reinterpreting the bit-pattern as an int. NaNs probably mess that up, but they would anyway. > Actually, no - it should not cause "broken" indexes, as in "giving > incorrect results". The distance functions determine in what order we > merge points into ranges, and if the distances are bogus then we can > build a summary that is less efficient. Got it. So it might be worth reindexing such indexes after the fix, but it's not strictly necessary. regards, tom lane
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Re: Bug in brin_minmax_multi_distance_numeric()
Tomas Vondra <tomas@vondra.me> — 2025-08-01T17:17:04Z
On 7/31/25 20:35, Tom Lane wrote: > Tomas Vondra <tomas@vondra.me> writes: >> On 7/31/25 19:33, Tom Lane wrote: >>> ... It is certainly broken on >>> 32-bit machines where the Datum result of numeric_float8 will >>> be a pointer, so that we will convert the numeric pointer value >>> to a float and return that, yielding a totally-garbage distance >>> value. But I think it's broken on 64-bit machines too, because >>> we'll be interpreting the output of numeric_float8 as a uintptr_t >>> and applying some unwanted conversion to make that a float. > >> Agreed it's a bug on 32-bit machines. Not sure about 64-bits. > > Yeah, I'm not 100% sure about that. It's certainly doing something > unexpected, but we might accidentally end up with relatively-sane > relative distance comparisons anyway. (I assume the outputs will > only be compared to other outputs of the same function, right?) Yes. The index accumulates values, sorts them, calculates distance between the points, and them "merges" the closest ones. So it only compares results of the same function. > I have a vague recollection that the IEEE float format was chosen with > an eye to making comparisons cheap, ie not too much different from > integer comparisons. So the sort order might be about the same > even after incorrectly reinterpreting the bit-pattern as an int. > NaNs probably mess that up, but they would anyway. > >> Actually, no - it should not cause "broken" indexes, as in "giving >> incorrect results". The distance functions determine in what order we >> merge points into ranges, and if the distances are bogus then we can >> build a summary that is less efficient. > > Got it. So it might be worth reindexing such indexes after the > fix, but it's not strictly necessary. > Exactly. regards -- Tomas Vondra
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Re: Bug in brin_minmax_multi_distance_numeric()
Peter Eisentraut <peter@eisentraut.org> — 2025-08-05T17:24:07Z
On 01.08.25 19:17, Tomas Vondra wrote: > > > On 7/31/25 20:35, Tom Lane wrote: >> Tomas Vondra <tomas@vondra.me> writes: >>> On 7/31/25 19:33, Tom Lane wrote: >>>> ... It is certainly broken on >>>> 32-bit machines where the Datum result of numeric_float8 will >>>> be a pointer, so that we will convert the numeric pointer value >>>> to a float and return that, yielding a totally-garbage distance >>>> value. But I think it's broken on 64-bit machines too, because >>>> we'll be interpreting the output of numeric_float8 as a uintptr_t >>>> and applying some unwanted conversion to make that a float. >> >>> Agreed it's a bug on 32-bit machines. Not sure about 64-bits. >> >> Yeah, I'm not 100% sure about that. It's certainly doing something >> unexpected, but we might accidentally end up with relatively-sane >> relative distance comparisons anyway. (I assume the outputs will >> only be compared to other outputs of the same function, right?) > > > Yes. The index accumulates values, sorts them, calculates distance > between the points, and them "merges" the closest ones. So it only > compares results of the same function. > >> I have a vague recollection that the IEEE float format was chosen with >> an eye to making comparisons cheap, ie not too much different from >> integer comparisons. So the sort order might be about the same >> even after incorrectly reinterpreting the bit-pattern as an int. >> NaNs probably mess that up, but they would anyway. >> >>> Actually, no - it should not cause "broken" indexes, as in "giving >>> incorrect results". The distance functions determine in what order we >>> merge points into ranges, and if the distances are bogus then we can >>> build a summary that is less efficient. >> >> Got it. So it might be worth reindexing such indexes after the >> fix, but it's not strictly necessary. Do we want to make a separate commit for this issue that can be backpatched and have some user-facing information attached to it?
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Re: Bug in brin_minmax_multi_distance_numeric()
Tom Lane <tgl@sss.pgh.pa.us> — 2025-08-05T18:11:35Z
Peter Eisentraut <peter@eisentraut.org> writes: > Do we want to make a separate commit for this issue that can be > backpatched and have some user-facing information attached to it? Yes, I think it ought to be committed/backpatched separately. I was expecting Tomas to do that, but I can if he's busy ... regards, tom lane
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Re: Bug in brin_minmax_multi_distance_numeric()
Tomas Vondra <tomas@vondra.me> — 2025-08-05T20:09:33Z
On 8/5/25 20:11, Tom Lane wrote: > Peter Eisentraut <peter@eisentraut.org> writes: >> Do we want to make a separate commit for this issue that can be >> backpatched and have some user-facing information attached to it? > > Yes, I think it ought to be committed/backpatched separately. > I was expecting Tomas to do that, but I can if he's busy ... > Sorry, I didn't realize that - it seemed you're handling this. I can take care of this in the next couple days, if still needed. regards -- Tomas Vondra
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Re: Bug in brin_minmax_multi_distance_numeric()
Tom Lane <tgl@sss.pgh.pa.us> — 2025-08-05T20:17:36Z
Tomas Vondra <tomas@vondra.me> writes: > On 8/5/25 20:11, Tom Lane wrote: >> Yes, I think it ought to be committed/backpatched separately. >> I was expecting Tomas to do that, but I can if he's busy ... > Sorry, I didn't realize that - it seemed you're handling this. I can > take care of this in the next couple days, if still needed. Oh, I'm happy to do it if you weren't intending to. regards, tom lane
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Re: Bug in brin_minmax_multi_distance_numeric()
Tomas Vondra <tomas@vondra.me> — 2025-08-06T13:44:16Z
On 8/5/25 22:17, Tom Lane wrote: > Tomas Vondra <tomas@vondra.me> writes: >> On 8/5/25 20:11, Tom Lane wrote: >>> Yes, I think it ought to be committed/backpatched separately. >>> I was expecting Tomas to do that, but I can if he's busy ... > >> Sorry, I didn't realize that - it seemed you're handling this. I can >> take care of this in the next couple days, if still needed. > > Oh, I'm happy to do it if you weren't intending to. > If you're willing to take care of it, that'd be great. I won't have time to deal with this until sometime next week. Thank you. -- Tomas Vondra
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Re: Bug in brin_minmax_multi_distance_numeric()
Tom Lane <tgl@sss.pgh.pa.us> — 2025-08-06T17:33:07Z
I wrote: > Tomas Vondra <tomas@vondra.me> writes: >> Agreed it's a bug on 32-bit machines. Not sure about 64-bits. > Yeah, I'm not 100% sure about that. It's certainly doing something > unexpected, but we might accidentally end up with relatively-sane > relative distance comparisons anyway. (I assume the outputs will > only be compared to other outputs of the same function, right?) > I have a vague recollection that the IEEE float format was chosen with > an eye to making comparisons cheap, ie not too much different from > integer comparisons. So the sort order might be about the same > even after incorrectly reinterpreting the bit-pattern as an int. > NaNs probably mess that up, but they would anyway. For the archives' sake: I researched this a little more, and verified my recollection wasn't totally inaccurate. If you compare two IEEE-format floats using 2s-complement integer arithmetic, then: * You will get the same less/equal/greater result as the correct floating-point comparison result if both numbers are nonnegative, or if one is nonnegative and the other is negative. * You will get the opposite of the correct result (inverted sort order) if both numbers are negative. * If either number is NaN, things would normally not work in a way comparable to floating-point behavior, but as long as all the NaNs are identically represented ... which they would be ... it'd actually sort the same way we sort NaNs, as larger than plus-infinity. Now that's not exactly what the broken code was doing: it was interpreting the bits as an integer, converting that hallucinated integer to a float, and then (later) subtracting two such floats. However, as long as negative values aren't involved, the float conversion would preserve sort order and thus give distance numbers that are at least topologically sane. Nonetheless, we had better recommend reindexing these indexes even on 64-bit machines. Even if the distances calculated before the fix weren't totally insane, they will be quite a bit different from the distances calculated after the fix. So I fear that even if an index was more or less okay beforehand, it's likely to degrade pretty badly once we start making new merge decisions with a different distance function. regards, tom lane