Thread
Commits
GET /api/v1/messages/:b64id/commits
the thread's linked commits as JSON, with link sources.
API reference →
-
plpython: Use funccache.c infrastructure for procedure caching.
- 9bcb8a694b3b 19 (unreleased) landed
-
BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
PG Bug reporting form <noreply@postgresql.org> — 2026-05-15T11:11:37Z
The following bug has been logged on the website: Bug reference: 19480 Logged by: Andrzej Doros Email address: adoros@starfishstorage.com PostgreSQL version: 17.9 Operating system: Ubuntu 22.04.5 LTS (x86_64), kernel 5.15, glibc 2. Description: PostgreSQL version: 17.9 (production crash), confirmed identical on 17.10 OS: Ubuntu 22.04.5 LTS, x86_64, kernel 5.15, glibc 2.35 Package: postgresql-plpython3-17 from pgdg apt repository DESCRIPTION ----------- A PL/Python set-returning function (SRF) crashes the backend with SIGSEGV when another session executes CREATE OR REPLACE FUNCTION (or ALTER FUNCTION) on the same function while the SRF is mid-iteration. This is a use-after-free. srfstate->savedargs is allocated inside proc->mcxt by PLy_function_save_args() (plpy_exec.c:503). On each per-call SRF invocation, plpython3_call_handler calls PLy_procedure_get(), which may call PLy_procedure_delete(old_proc) -> MemoryContextDelete(old_proc->mcxt) if the function's pg_proc row has changed (different xmin or ctid). After that, srfstate->savedargs is a dangling pointer — it is not cleared. The next PLy_function_restore_args() reads freed memory: if (srfstate->savedargs) /* non-NULL dangling pointer */ PLy_function_restore_args(proc, srfstate->savedargs); /* reads freed mem */ Inside PLy_function_restore_args (plpy_exec.c:551): for (i = 0; i < savedargs->nargs; i++) /* nargs from freed memory */ { if (proc->argnames[i] && ...) PyDict_SetItemString(..., proc->argnames[i], ...); When savedargs->nargs is garbage (e.g. 2056017128 in two production core dumps), proc->argnames[i] for large i reads an invalid pointer, which is passed to PyDict_SetItemString -> PyUnicode_FromString -> strlen -> SIGSEGV. CRASH STACK (two identical core dumps from production, PG 17.9, Ubuntu 22.04) ------------------------------------------------------------------------------ #0 __strlen_evex() #1 PyUnicode_FromString(u=0x69ffff0000) #2 PyDict_SetItemString(...) #3 PLy_function_restore_args(proc=..., savedargs=...) #4 PLy_exec_function(...) #5 plpython3_call_handler(...) #6 fmgr_security_definer(...) #7 ExecMakeTableFunctionResult(...) State from the newer core dump: proc->proname = "tags_report_plpython" proc->nargs = 1 proc->argnames[0]= "flavour" savedargs->nargs = 2056017128 <- should be 1; contains garbage savedargs->namedargs[0] = 'tags' <- still valid (not yet overwritten) i = 4 <- loop has iterated far past argnames[] TRIGGER CONDITION ----------------- The pg_proc invalidation reaches Session A's backend when AcceptInvalidationMessages() is called. This happens when Session A's Python code calls plpy.execute() with a statement that acquires a NEW relation lock (e.g. CREATE TEMP TABLE, any table not previously locked in this statement). Simply calling plpy.execute("SELECT 1") is not sufficient because the lock on pg_proc is already held and subsequent requests are served from the per-process lock table without invoking AcceptInvalidationMessages. In production the trigger is autovacuum on pg_proc (which moves the tuple's ctid) or any concurrent DDL from another session. Long-running SRFs (hours) are much more likely to hit this window. STEPS TO REPRODUCE ------------------ Requires two concurrent sessions and PostgreSQL with plpython3u. Session A — start and leave running: CREATE EXTENSION IF NOT EXISTS plpython3u; CREATE OR REPLACE FUNCTION repro_srf(flavour VARCHAR) RETURNS TABLE (i BIGINT) AS $$ import time for i in range(100): -- CREATE TEMP TABLE acquires a new relation lock each iteration, -- which causes AcceptInvalidationMessages to be called. plpy.execute(f"CREATE TEMP TABLE _rt_{i} (x int)") plpy.execute(f"DROP TABLE _rt_{i}") time.sleep(0.3) yield i $$ LANGUAGE plpython3u VOLATILE; SELECT count(*) FROM repro_srf('test'); Session B — while Session A is running (after ~2 seconds): CREATE OR REPLACE FUNCTION repro_srf(flavour VARCHAR) RETURNS TABLE (i BIGINT) AS $$ import time for i in range(100): plpy.execute(f"CREATE TEMP TABLE _rt_{i} (x int)") plpy.execute(f"DROP TABLE _rt_{i}") time.sleep(0.3) yield i $$ LANGUAGE plpython3u VOLATILE; NOTE: In a minimal test without memory pressure, the freed savedargs memory is often not overwritten quickly enough to produce a crash — savedargs->nargs accidentally retains its correct value of 1 and restore_args succeeds. Under production load (long-running SRF, many Python allocations), the freed region is overwritten and the crash occurs. The crash can be triggered deterministically with gdb by setting savedargs->nargs to a large value immediately after PLy_procedure_delete fires (see gdb script below). This produces the identical crash stack seen in production. GDB CONFIRMATION (PostgreSQL 17.10) ------------------------------------- The following gdb session was used to confirm the exact sequence: (gdb) b PLy_procedure_delete (gdb) commands 1 > printf "DELETE proname=%s mcxt=%p\n", proc->proname, proc->mcxt > set $corrupt_next = 1 > c > end (gdb) b PLy_function_restore_args (gdb) commands 2 > if $corrupt_next > set {int}((long)savedargs + 24) = 2056017128 > set $corrupt_next = 0 > end > c > end Output: DELETE proname=repro_srf mcxt=0x5686641e1b20 [PLy_function_restore_args fires with savedargs=0x5686641e28e8] [nargs set to 2056017128] Program received signal SIGSEGV, Segmentation fault. __strlen_avx2 () PostgreSQL log: server process (PID 366) was terminated by signal 11: Segmentation fault all server processes terminated; reinitializing AFFECTED CODE ------------- src/pl/plpython/plpy_exec.c, lines 503-506: PLy_function_save_args allocates savedargs in proc->mcxt src/pl/plpython/plpy_exec.c, lines 117-119: PLy_function_restore_args is called with potentially dangling savedargs (no check whether proc was rebuilt since savedargs was created) src/pl/plpython/plpy_procedure.c, line 405 (PLy_procedure_delete): MemoryContextDelete(proc->mcxt) frees savedargs without nulling srfstate->savedargs PROPOSED FIX ------------ The root cause is that srfstate->savedargs is tied to proc->mcxt (which can be deleted at any per-call boundary) rather than to funcctx->multi_call_memory_ctx (which lives for the entire SRF lifetime). Option A — allocate savedargs in funcctx->multi_call_memory_ctx: Change PLy_function_save_args to accept a MemoryContext parameter and pass funcctx->multi_call_memory_ctx from PLy_exec_function. The saved PyObject* references are valid regardless of which MemoryContext holds the struct. Option B — detect proc rebuild and discard stale savedargs: After PLy_procedure_get returns a new proc, check whether it differs from the proc that created srfstate->savedargs. If so, discard savedargs (PLy_function_drop_args or simply set to NULL) and skip the restore. -
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Matheus Alcantara <matheusssilv97@gmail.com> — 2026-05-25T22:26:17Z
On Fri May 15, 2026 at 8:11 AM -03, PG Bug reporting form wrote: > The root cause is that srfstate->savedargs is tied to proc->mcxt (which can > be deleted at any per-call boundary) rather than to > funcctx->multi_call_memory_ctx (which lives for the entire SRF lifetime). > > Option A — allocate savedargs in funcctx->multi_call_memory_ctx: > Change PLy_function_save_args to accept a MemoryContext parameter and pass > funcctx->multi_call_memory_ctx from PLy_exec_function. The saved PyObject* > references are valid regardless of which MemoryContext holds the struct. > > Option B — detect proc rebuild and discard stale savedargs: > After PLy_procedure_get returns a new proc, check whether it differs from > the > proc that created srfstate->savedargs. If so, discard savedargs > (PLy_function_drop_args or simply set to NULL) and skip the restore. > Hi, thank you for the very detailed bug report. I've managed to reproduce the issue on master. Option A seems to fix the issue (see attached patch) but I've found another issue while playing with this that I think it's related: CREATE OR REPLACE FUNCTION trigger_stack_overflow(x BIGINT) RETURNS TABLE(i BIGINT) AS $$ import time plpy.execute(f"CREATE TEMP TABLE _rt_{x} (x int)") plpy.execute(f"DROP TABLE _rt_{x}") time.sleep(0.3) plpy.execute("SELECT trigger_stack_overflow(1)") yield x $$ LANGUAGE plpython3u VOLATILE; Run SELECT trigger_stack_overflow(1) and on another session execute the CREATE OR REPLACE and wait for the first session to crash with this stacktrace: frame #3: 0x000000010554a694 postgres`ExceptionalCondition(conditionName="proc->calldepth > 0", fileName="../src/pl/plpython/plpy_exec.c", lineNumber=701) at assert.c:65:2 frame #4: 0x0000000105e41984 plpython3.dylib`PLy_global_args_pop(proc=0x000000014b03cf00) at plpy_exec.c:701:2 frame #5: 0x0000000105e40d94 plpython3.dylib`PLy_exec_function(fcinfo=0x000000011e077738, proc=0x000000014b03cf00) at plpy_exec.c:264:3 The expected output from the first session should be something like this: ERROR: 54001: error fetching next item from iterator DETAIL: spiexceptions.StatementTooComplex: error fetching next item from iterator HINT: Increase the configuration parameter "max_stack_depth" (currently 2048kB), after ensuring the platform's stack depth limit is adequate. This is because when PLy_procedure_delete() is executed on PLy_procedure_get() it also destroy information related with recursive functions, such as "calldepth", "argstack" and "globals" which cause the assert failure Assert(proc->calldepth > 0) on PLy_global_args_pop() when it's executed on PG_CATCH block on PLy_exec_function() or EXC_BAD_ACCESS when accessing "argstack" or "globals". Althrought changing the memory context where savedargs is allocated fix the reported issue I think that the long term fix is to preserve such necessary execution information during PLyProcedure re-creation. I'm still studying the code to see if and how this can implemented. -- Matheus Alcantara EDB: https://www.enterprisedb.com -
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Matheus Alcantara <matheusssilv97@gmail.com> — 2026-05-28T14:10:18Z
On 25/05/26 19:26, Matheus Alcantara wrote: > On Fri May 15, 2026 at 8:11 AM -03, PG Bug reporting form wrote: >> The root cause is that srfstate->savedargs is tied to proc->mcxt (which can >> be deleted at any per-call boundary) rather than to >> funcctx->multi_call_memory_ctx (which lives for the entire SRF lifetime). >> >> Option A — allocate savedargs in funcctx->multi_call_memory_ctx: >> Change PLy_function_save_args to accept a MemoryContext parameter and pass >> funcctx->multi_call_memory_ctx from PLy_exec_function. The saved PyObject* >> references are valid regardless of which MemoryContext holds the struct. >> >> Option B — detect proc rebuild and discard stale savedargs: >> After PLy_procedure_get returns a new proc, check whether it differs from >> the >> proc that created srfstate->savedargs. If so, discard savedargs >> (PLy_function_drop_args or simply set to NULL) and skip the restore. >> > > Hi, thank you for the very detailed bug report. I've managed to > reproduce the issue on master. > > Option A seems to fix the issue (see attached patch) but I've found > another issue while playing with this that I think it's related: > > ... > > This is because when PLy_procedure_delete() is executed on > PLy_procedure_get() it also destroy information related with recursive > functions, such as "calldepth", "argstack" and "globals" which cause the > assert failure Assert(proc->calldepth > 0) on PLy_global_args_pop() when > it's executed on PG_CATCH block on PLy_exec_function() or EXC_BAD_ACCESS > when accessing "argstack" or "globals". > > Although changing the memory context where savedargs is allocated fix > the reported issue I think that the long term fix is to preserve such > necessary execution information during PLyProcedure re-creation. I'm > still studying the code to see if and how this can implemented. > This is being tricky to debug. I'm not being able to reproduce the issue with assert disabled, not even with the steps shared on the bug report. Andrzej could you please confirm if you hit this failure with assert enable? And if it's enable, could you please check if it's also happens with assert disabled? Also, the 17.10 version was released some weeks ago, can you also test against this new minor release? -- Matheus Alcantara EDB: https://www.enterprisedb.com
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Tom Lane <tgl@sss.pgh.pa.us> — 2026-05-28T15:12:26Z
"Matheus Alcantara" <matheusssilv97@gmail.com> writes: > On Fri May 15, 2026 at 8:11 AM -03, PG Bug reporting form wrote: >> The root cause is that srfstate->savedargs is tied to proc->mcxt (which can >> be deleted at any per-call boundary) rather than to >> funcctx->multi_call_memory_ctx (which lives for the entire SRF lifetime). > Option A seems to fix the issue (see attached patch) but I've found > another issue while playing with this that I think it's related: > ... > This is because when PLy_procedure_delete() is executed on > PLy_procedure_get() it also destroy information related with recursive > functions, such as "calldepth", "argstack" and "globals" which cause the > assert failure Assert(proc->calldepth > 0) on PLy_global_args_pop() when > it's executed on PG_CATCH block on PLy_exec_function() or EXC_BAD_ACCESS > when accessing "argstack" or "globals". Yeah. The bigger picture though is: if we are re-entrantly calling either a recursive function or a SRF, we should not destroy any of the existing state, nor do we want to replace the function body. The only way to have sane behavior is to keep executing the same function body until the execution instance (recursion level or continued SRF) is done. So these concerns about associated state are only part of the problem. plpgsql ran into this years ago, and its solution has been to maintain a reference count on each function parsetree and not destroy an obsoleted parsetree till the reference count goes to zero. I've had in the back of my head that the other PLs need to do likewise, but it hasn't gotten to the front of the to-do list, mainly because the other PLs are much less used and so field complaints about this have been rare. I had hoped also that the language interpreters underlying the other PLs might solve some of this for us, but it's unclear to what extent they help. Certainly it's not cool to be clobbering our own execution state that's outside the language interpreter. We might want to go as far as converting the other PLs to use the utils/cache/funccache.c infrastructure, but perhaps there is a less invasive fix. Certainly, a fix based on funccache.c could not be back-patched. (On the other hand, given the rarity of complaints, perhaps a HEAD-only fix is acceptable.) regards, tom lane
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Matheus Alcantara <matheusssilv97@gmail.com> — 2026-06-01T22:14:34Z
On Thu May 28, 2026 at 12:12 PM -03, Tom Lane wrote: > "Matheus Alcantara" <matheusssilv97@gmail.com> writes: >> On Fri May 15, 2026 at 8:11 AM -03, PG Bug reporting form wrote: >>> The root cause is that srfstate->savedargs is tied to proc->mcxt (which can >>> be deleted at any per-call boundary) rather than to >>> funcctx->multi_call_memory_ctx (which lives for the entire SRF lifetime). > >> Option A seems to fix the issue (see attached patch) but I've found >> another issue while playing with this that I think it's related: >> ... >> This is because when PLy_procedure_delete() is executed on >> PLy_procedure_get() it also destroy information related with recursive >> functions, such as "calldepth", "argstack" and "globals" which cause the >> assert failure Assert(proc->calldepth > 0) on PLy_global_args_pop() when >> it's executed on PG_CATCH block on PLy_exec_function() or EXC_BAD_ACCESS >> when accessing "argstack" or "globals". > > Yeah. The bigger picture though is: if we are re-entrantly calling > either a recursive function or a SRF, we should not destroy any of the > existing state, nor do we want to replace the function body. The only > way to have sane behavior is to keep executing the same function body > until the execution instance (recursion level or continued SRF) is > done. So these concerns about associated state are only part of the > problem. > > plpgsql ran into this years ago, and its solution has been to maintain > a reference count on each function parsetree and not destroy an > obsoleted parsetree till the reference count goes to zero. I've had > in the back of my head that the other PLs need to do likewise, but it > hasn't gotten to the front of the to-do list, mainly because the other > PLs are much less used and so field complaints about this have been > rare. I had hoped also that the language interpreters underlying the > other PLs might solve some of this for us, but it's unclear to what > extent they help. Certainly it's not cool to be clobbering our own > execution state that's outside the language interpreter. > > We might want to go as far as converting the other PLs to use the > utils/cache/funccache.c infrastructure, but perhaps there is a > less invasive fix. Certainly, a fix based on funccache.c could not > be back-patched. (On the other hand, given the rarity of complaints, > perhaps a HEAD-only fix is acceptable.) > I've been exploring the funccache.c approach for plpython. The main challenge is that plpython uses SFRM_ValuePerCall for SRFs, whereas plpgsql uses SFRM_Materialize. This means plpgsql can simply increment use_count at the start of plpgsql_call_handler() and decrement it at the end, since all results are produced in a single call. For plpython, ExecMakeTableFunctionResult() calls the handler multiple times, with use_count returning to zero between calls. With ValuePerCall, cached_function_compile() may try to re-create an invalid cache entry because use_count can be 0 while ExecMakeTableFunctionResult() is in the middle of its loop. In that case, the SRFState would be lost for the currently running plpython function. I'm still not sure how to proceed here but It seems like we would need some refactoring in plpython to make it work with funccache. Not sure if changing ValuePerCall to Materialize is a way to go or perhaps there's another way to fix this. I've also tried to fix this without funccache, but it seems like we would end up implementing something similar anyway. That might be a way to go, but I'm also not sure if it's the best path. Thoughts? -- Matheus Alcantara EDB: https://www.enterprisedb.com
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Tom Lane <tgl@sss.pgh.pa.us> — 2026-06-01T23:26:51Z
"Matheus Alcantara" <matheusssilv97@gmail.com> writes: > On Thu May 28, 2026 at 12:12 PM -03, Tom Lane wrote: >> Yeah. The bigger picture though is: if we are re-entrantly calling >> either a recursive function or a SRF, we should not destroy any of the >> existing state, nor do we want to replace the function body. The only >> way to have sane behavior is to keep executing the same function body >> until the execution instance (recursion level or continued SRF) is >> done. So these concerns about associated state are only part of the >> problem. > I've been exploring the funccache.c approach for plpython. The main > challenge is that plpython uses SFRM_ValuePerCall for SRFs, whereas > plpgsql uses SFRM_Materialize. This means plpgsql can simply increment > use_count at the start of plpgsql_call_handler() and decrement it at the > end, since all results are produced in a single call. For plpython, > ExecMakeTableFunctionResult() calls the handler multiple times, with > use_count returning to zero between calls. Right. I think what we have to do is maintain the increased use_count across the whole series of SRF executions and decrement it only once we're done. That implies that we need some out-of-band mechanism for decrementing the use_count if the query fails to run the SRF to completion for whatever reason (error, LIMIT, etc). The first tool I would reach for is a context reset callback attached to the query's executor context, but there may be a better answer. Whether we do it like that or some other way, it might be appropriate to put infrastructure for it into funccache.c instead of expecting every PL that wants to use SFRM_ValuePerCall to re-invent this wheel. > I'm still not sure how to proceed here but It seems like we would need > some refactoring in plpython to make it work with funccache. plpython will certainly need some work, but I'm entirely amenable to also changing funccache if it doesn't support this requirement well. That module is new as of v18, so it doesn't have much claim to have a stabilized API yet. > I've also tried to fix this without funccache, but it seems like we > would end up implementing something similar anyway. Yeah, that was my suspicion as well. funccache.c exists because I realized that SQL-language functions (executor/functions.c) were going to need logic that plpgsql had had for years. Actually ... if memory serves, SQL-language functions use ValuePerCall mode, so there probably already is a solution to this embedded in functions.c. Did you look at that? regards, tom lane
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Matheus Alcantara <matheusssilv97@gmail.com> — 2026-06-05T18:09:26Z
On Mon Jun 1, 2026 at 8:26 PM -03, Tom Lane wrote: > Yeah, that was my suspicion as well. funccache.c exists because > I realized that SQL-language functions (executor/functions.c) were > going to need logic that plpgsql had had for years. > > Actually ... if memory serves, SQL-language functions use ValuePerCall > mode, so there probably already is a solution to this embedded in > functions.c. Did you look at that? > I dind't look at this before but this was exactly the right call. SQL functions handle this by maintaining a per-call-site cache struct (SQLFunctionCache) in fn_extra that holds both the pointer to the long-lived hash entry and the execution state. The use_count is incremented when we first obtain the function and decremented via a MemoryContextCallback when fn_mcxt is deleted. I've adapted the same approach for PL/Python. The main changes are: PLyProcedure now embeds CachedFunction as its first member and is managed by cached_function_compile(). A new PLyProcedureCache struct lives in fn_extra and holds the pointer to PLyProcedure plus SRF state. For cleanup, I use a MemoryContextCallback on fn_mcxt to decrement use_count, and an ExprContextCallback to clean up Python iterator state when the SRF is interrupted. Since fn_extra is now used for PLyProcedureCache, I had to remove the SRF macros and switch to direct isDone signaling via ReturnSetInfo, which is how SQL functions do it anyway. I also fixed the validator to create a fake fcinfo with the correct fn_oid (the function being validated), matching what PL/pgSQL does. Patch attached. -- Matheus Alcantara EDB: https://www.enterprisedb.com
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Tom Lane <tgl@sss.pgh.pa.us> — 2026-06-05T19:11:25Z
"Matheus Alcantara" <matheusssilv97@gmail.com> writes: > On Mon Jun 1, 2026 at 8:26 PM -03, Tom Lane wrote: >> Actually ... if memory serves, SQL-language functions use ValuePerCall >> mode, so there probably already is a solution to this embedded in >> functions.c. Did you look at that? > I dind't look at this before but this was exactly the right call. SQL > functions handle this by maintaining a per-call-site cache struct > (SQLFunctionCache) in fn_extra that holds both the pointer to the > long-lived hash entry and the execution state. The use_count is > incremented when we first obtain the function and decremented via a > MemoryContextCallback when fn_mcxt is deleted. > I've adapted the same approach for PL/Python. I've not read this patch yet but your high-level description seems on-target. Assuming the patch withstands review, there are three ways we could proceed: 1. Hold it for v20. 2. Sneak it into v19. 3. Treat it as a back-patchable fix and put it into v18 as well. (Going further back than v18 seems unreasonable because funccache.c doesn't exist before that, so we'd have to back-patch it too.) I do not think that #3 is really a great idea, mainly because the failure case doesn't seem very likely to be hit in production, and the lack of previous reports about this very ancient bug bears that out. I do find some attraction in #2, mainly because it would get the fix into the field a year earlier than #1. But considering we're past beta1 it may be too late for #2 to be reasonable either. Looping in the RMT to see what they think... regards, tom lane
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Matheus Alcantara <matheusssilv97@gmail.com> — 2026-06-05T19:35:18Z
On 05/06/26 16:11, Tom Lane wrote: > "Matheus Alcantara" <matheusssilv97@gmail.com> writes: >> On Mon Jun 1, 2026 at 8:26 PM -03, Tom Lane wrote: >>> Actually ... if memory serves, SQL-language functions use ValuePerCall >>> mode, so there probably already is a solution to this embedded in >>> functions.c. Did you look at that? > >> I dind't look at this before but this was exactly the right call. SQL >> functions handle this by maintaining a per-call-site cache struct >> (SQLFunctionCache) in fn_extra that holds both the pointer to the >> long-lived hash entry and the execution state. The use_count is >> incremented when we first obtain the function and decremented via a >> MemoryContextCallback when fn_mcxt is deleted. > >> I've adapted the same approach for PL/Python. > > I've not read this patch yet but your high-level description seems > on-target. > > Assuming the patch withstands review, there are three ways we could > proceed: > > 1. Hold it for v20. > > 2. Sneak it into v19. > > 3. Treat it as a back-patchable fix and put it into v18 as well. > (Going further back than v18 seems unreasonable because funccache.c > doesn't exist before that, so we'd have to back-patch it too.) > > I do not think that #3 is really a great idea, mainly because the > failure case doesn't seem very likely to be hit in production, > and the lack of previous reports about this very ancient bug > bears that out. > > I do find some attraction in #2, mainly because it would get the fix > into the field a year earlier than #1. But considering we're past > beta1 it may be too late for #2 to be reasonable either. > Yeah, this sounds a better option for me too, otherwise we can go with #1. Back-patching this seems complicated, so I agree #3 does not seems a good idea. > Looping in the RMT to see what they think... > Ok -- Matheus Alcantara EDB: https://www.enterprisedb.com
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Heikki Linnakangas <hlinnaka@iki.fi> — 2026-06-17T15:30:30Z
On 05/06/2026 22:35, Matheus Alcantara wrote: > On 05/06/26 16:11, Tom Lane wrote: >> "Matheus Alcantara" <matheusssilv97@gmail.com> writes: >>> On Mon Jun 1, 2026 at 8:26 PM -03, Tom Lane wrote: >>>> Actually ... if memory serves, SQL-language functions use ValuePerCall >>>> mode, so there probably already is a solution to this embedded in >>>> functions.c. Did you look at that? >> >>> I dind't look at this before but this was exactly the right call. SQL >>> functions handle this by maintaining a per-call-site cache struct >>> (SQLFunctionCache) in fn_extra that holds both the pointer to the >>> long-lived hash entry and the execution state. The use_count is >>> incremented when we first obtain the function and decremented via a >>> MemoryContextCallback when fn_mcxt is deleted. >> >>> I've adapted the same approach for PL/Python. >> >> I've not read this patch yet but your high-level description seems >> on-target. >> >> Assuming the patch withstands review, there are three ways we could >> proceed: >> >> 1. Hold it for v20. >> >> 2. Sneak it into v19. >> >> 3. Treat it as a back-patchable fix and put it into v18 as well. >> (Going further back than v18 seems unreasonable because funccache.c >> doesn't exist before that, so we'd have to back-patch it too.) >> >> I do not think that #3 is really a great idea, mainly because the >> failure case doesn't seem very likely to be hit in production, >> and the lack of previous reports about this very ancient bug >> bears that out. >> >> I do find some attraction in #2, mainly because it would get the fix >> into the field a year earlier than #1. But considering we're past >> beta1 it may be too late for #2 to be reasonable either. >> > > Yeah, this sounds a better option for me too, otherwise we can go with > #1. Back-patching this seems complicated, so I agree #3 does not seems a > good idea. > >> Looping in the RMT to see what they think... It's fine to still sneak it into v19. It's better to have it earlier, even if it means more churn during beta period. I haven't looked closely at the patch, but since it's a bug fix it would make sense to backpatch. If we're uncomfortable with backpatching it now, we could commit in master now, and backpatch later when we have more confidence. - Heikki
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Nathan Bossart <nathandbossart@gmail.com> — 2026-06-17T15:43:06Z
On Wed, Jun 17, 2026 at 06:30:30PM +0300, Heikki Linnakangas wrote: > It's fine to still sneak it into v19. It's better to have it earlier, even > if it means more churn during beta period. > > I haven't looked closely at the patch, but since it's a bug fix it would > make sense to backpatch. If we're uncomfortable with backpatching it now, we > could commit in master now, and backpatch later when we have more > confidence. +1 -- nathan
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Melanie Plageman <melanieplageman@gmail.com> — 2026-06-17T15:43:43Z
On Wed, Jun 17, 2026 at 11:30 AM Heikki Linnakangas <hlinnaka@iki.fi> wrote: > > It's fine to still sneak it into v19. It's better to have it earlier, > even if it means more churn during beta period. > > I haven't looked closely at the patch, but since it's a bug fix it would > make sense to backpatch. If we're uncomfortable with backpatching it > now, we could commit in master now, and backpatch later when we have > more confidence. Agreed. - Melanie
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Tom Lane <tgl@sss.pgh.pa.us> — 2026-06-17T15:56:36Z
Heikki Linnakangas <hlinnaka@iki.fi> writes: >>>> Looping in the RMT to see what they think... > It's fine to still sneak it into v19. It's better to have it earlier, > even if it means more churn during beta period. OK. I haven't looked closely at the patch yet, but will proceed with reviewing it. > I haven't looked closely at the patch, but since it's a bug fix it would > make sense to backpatch. If we're uncomfortable with backpatching it > now, we could commit in master now, and backpatch later when we have > more confidence. I'm of the opinion that the risk-reward ratio is not great for putting this into stable branches. The case that fails is just not something I'd expect people to do a lot in production. So I'm content with sneaking it into v19. regards, tom lane
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Tom Lane <tgl@sss.pgh.pa.us> — 2026-06-17T21:56:39Z
"Matheus Alcantara" <matheusssilv97@gmail.com> writes: > Patch attached. I had been planning to wait for v20 development to open, but with RMT approval the target is now v19 instead, so I'd like to get this done before the end of June. I looked through the patch and found a couple of issues immediately: * Your refactoring to have just one PLy_procedure_get call in plpython3_call_handler is no good. You missed the comment block just above: /* * Push execution context onto stack. It is important that this get * popped again, so avoid putting anything that could throw error between * here and the PG_TRY. */ exec_ctx = PLy_push_execution_context(!nonatomic); + proc = PLy_procedure_get(fcinfo, false); + PG_TRY(); { I counsel putting those PLy_procedure_get calls back where they were. * I also question the decision to refactor where/how is_trigger is computed; that doesn't seem necessary to the purposes of the patch, nor is it a clear improvement. I'd just as soon leave that mechanism alone as much as we can. If there is an improvement to be had, let's address that separately. (Alternative thought: should we rely on the isTrigger/isEventTrigger bools that funccache.c sets up for us? I'm not quite sure if getting friendly with struct CachedFunctionHashKey is a good idea or not.) * I find it confusing that you called "PLyProcedureCache *" variables "pcache" in some places and "proc" in others. The latter choice seems poor because mostly "proc" is a PLyProcedure pointer. Using "proc" leads to constructions like "proc->proc", which I don't find intelligible. * The new code could do with more comments. I realize that plpython is poorly commented in many places, but let's see if we can leave it better than we found it. regards, tom lane -
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Matheus Alcantara <matheusssilv97@gmail.com> — 2026-06-18T12:13:57Z
On Wed Jun 17, 2026 at 6:56 PM -03, Tom Lane wrote: > * Your refactoring to have just one PLy_procedure_get call in > plpython3_call_handler is no good. You missed the comment > block just above: > > /* > * Push execution context onto stack. It is important that this get > * popped again, so avoid putting anything that could throw error between > * here and the PG_TRY. > */ > exec_ctx = PLy_push_execution_context(!nonatomic); > > + proc = PLy_procedure_get(fcinfo, false); > + > PG_TRY(); > { > > I counsel putting those PLy_procedure_get calls back where they were. > You're right, it was a mistake, it was not my original goal to move outside of PG_TRY(). I've moved the PLy_procedure_get() call back inside the PG_TRY(). Since the new signature no longer needs a per-call-context argument, a single call at the top of the PG_TRY block now covers all three cases, and exec_ctx->curr_proc is set once right after the lookup. Let me know if I misunderstood your point. > * I also question the decision to refactor where/how is_trigger is > computed; that doesn't seem necessary to the purposes of the patch, > nor is it a clear improvement. I'd just as soon leave that > mechanism alone as much as we can. I've restored PLy_procedure_is_trigger() and the validator uses it again exactly as before, instead of the inlined prorettype checks. The one unavoidable change that it seems to me is that the trigger type is now determined inside the compile callback rather than passed in as a PLyTrigType argument — that's forced by the funccache API, since cached_function_compile() takes the FunctionCallInfo and the procedure is created from within the callback instead of PLy_procedure_get(). Or I'm missing something? > (Alternative thought: should we rely on the isTrigger/isEventTrigger > bools that funccache.c sets up for us? I'm not quite sure if getting > friendly with struct CachedFunctionHashKey is a good idea or not.) > I left the callback using CALLED_AS_TRIGGER() / CALLED_AS_EVENT_TRIGGER() rather than reaching into CachedFunctionHashKey. That keeps us off from funccache.c internals and matches what plpgsql_compile_callback() does, which seems to me the safer way to go. What do you think? > * I find it confusing that you called "PLyProcedureCache *" variables > "pcache" in some places and "proc" in others. The latter choice seems > poor because mostly "proc" is a PLyProcedure pointer. Using "proc" > leads to constructions like "proc->proc", which I don't find > intelligible. > Fixed. Definitely agree, oversight from my side. > * The new code could do with more comments. I realize that plpython > is poorly commented in many places, but let's see if we can leave it > better than we found it. > Added header comments to the new PLy_compile_callback and PLy_delete_callback, expanded the validator comment about why the fake fcinfo context is built, and expanded the SRF first-call-setup comment to explain the ValuePerCall model, the per-call-site cache, and the shutdown-callback handling. I've also added a regression test, not sure if there is a better way to exercise this fix but this test crash without this patch applied. --- On top of your points, I did another self-review pass over v2 and found a possible pre-existing problem in v1 in the way the patch handled SRF cleanup, which I've also fixed in v2. The patch had switched the set-returning-function cleanup from the original MemoryContextRegisterResetCallback to a RegisterExprContextCallback (ShutdownPLyFunction), modeled on what functions.c does for SQL functions. But that copies a property that I don't that apply for PL/Python: ShutdownExprContext() does not invoke ExprContext callbacks during an error abort (it only frees the callback list), and functions.c is fine with that because, as its comment notes, "transaction abort will take care of releasing executor resources." PL/Python's resource is a Python refcount, and transaction abort does not release those. So if a SETOF function was left partially iterated and the surrounding query then errored, e.g. CREATE OR REPLACE FUNCTION mysrf() RETURNS SETOF int LANGUAGE plpython3u AS $$ return [1,2,3,4,5] $$; SELECT mysrf() / 0; the iterator's references were leaked for the life of the session. The original code didn't have this problem because a memory-context reset callback does run during abort. Rather than reintroduce a second mechanism, v2 reuses the memory-context callback that's already there for reference counting. RemovePLyProcedureCache is registered on the FmgrInfo's fn_mcxt and therefore runs on abort; it now also releases any Python state left behind by an interrupted SRF. ShutdownPLyFunction is kept for the cases it does handle correctly. --- Thanks for the review! I've tried to address all your points in the attached v2. -- Matheus Alcantara EDB: https://www.enterprisedb.com -
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Tom Lane <tgl@sss.pgh.pa.us> — 2026-06-21T19:40:04Z
"Matheus Alcantara" <matheusssilv97@gmail.com> writes: > Thanks for the review! I've tried to address all your points in the > attached v2. Pushed after a round of review. I made some mostly-cosmetic changes, such as rewriting comments (consolidating some stuff I thought was duplicative). The main thing I fixed that was an actual bug was you were careless about lifespan of variables around PG_TRY blocks. The rule of thumb is that if a variable is modified inside PG_TRY and then used after that block (including in the PG_CATCH) then it has to be marked volatile. Where possible, I avoid using the volatile marking by assigning the variable's value before PG_TRY. > I've also added a regression test, not sure if there is a better way to > exercise this fix but this test crash without this patch applied. Kind of a hokey test, since it doesn't model the likely actual case where the CREATE happens in another session, but this is as close as we'll get without a much more complex test setup. I kept it, and also added another test that exercises the early-termination path, since code coverage showed me that ShutdownPLyFunction() wasn't being reached. regards, tom lane
-
Re: BUG #19480: PL/Python SRF crashes (SIGSEGV) when function is replaced mid-iteration: use-after-free in PLy_funct
Matheus Alcantara <matheusssilv97@gmail.com> — 2026-06-22T10:18:46Z
On Sun Jun 21, 2026 at 4:40 PM -03, Tom Lane wrote: > "Matheus Alcantara" <matheusssilv97@gmail.com> writes: >> Thanks for the review! I've tried to address all your points in the >> attached v2. > > Pushed after a round of review. I made some mostly-cosmetic changes, > such as rewriting comments (consolidating some stuff I thought was > duplicative). The main thing I fixed that was an actual bug was > you were careless about lifespan of variables around PG_TRY blocks. > The rule of thumb is that if a variable is modified inside PG_TRY > and then used after that block (including in the PG_CATCH) then it > has to be marked volatile. Where possible, I avoid using the > volatile marking by assigning the variable's value before PG_TRY. > Noted, thanks for the call. >> I've also added a regression test, not sure if there is a better way to >> exercise this fix but this test crash without this patch applied. > > Kind of a hokey test, since it doesn't model the likely actual case > where the CREATE happens in another session, but this is as close as > we'll get without a much more complex test setup. I kept it, and > also added another test that exercises the early-termination path, > since code coverage showed me that ShutdownPLyFunction() wasn't being > reached. > Thank you for reviewing and committing the patch! -- Matheus Alcantara EDB: https://www.enterprisedb.com