[llvm-dev] inttoptr and noalias returns
Nuno Lopes via llvm-dev
llvm-dev at lists.llvm.org
Thu Apr 15 03:37:25 PDT 2021
You're right that LLVM is very conservative in handling inttoptr. And
otherwise relies on the incorrect transformation "inttoptr(ptrtoint(x)) ->
x" to get rid of inttoptr.
I agree the store should have been removed in your second example. I guess
inttoptr is not frequently used, and even less after a bunch of fixes to
prevent optimizers from creating new ones.
BasicAA is quite basic, but that's all LLVM has. The other alias analyses in
git are either not useful in practice, unfinished or buggy. (I haven't
looked into that dir in a couple of years, so things may have changed in the
meantime).
A big issue with LLVM's static analysis is caching, since everything is done
lazily. If you want to add something more expensive to BasicAA, you need to
make sure that information is cached somehow to avoid recomputing it a
thousand times. Compilation time is quite sensitive to the performance of
BasicAA.
Although there's no definitive semantics for pointer comparisons yet
(soonish I hope), LLVM's behavior implies that pointer comparisons indeed
escape pointers just like ptrtoint does (except if the two pointers being
compared are inbounds and point to the same object, and therefore the
comparison is only around offsets and thus their address doesn't leak).
Nuno
From: llvm-dev <llvm-dev-bounces at lists.llvm.org> On Behalf Of Joseph
Tremoulet via llvm-dev
Sent: 02 April 2021 19:26
To: llvm-dev <llvm-dev at lists.llvm.org>
Subject: Re: [llvm-dev] inttoptr and noalias returns
Stepping through this in the debugger, I see this code in BasicAliasAnalysis
doing a check similar to the sort that I would have expected to see proving
NoAlias for this case, but it's not because (ISTM) it's being pretty
conservative:
// If one pointer is the result of a call/invoke or load and the other
is a
// non-escaping local object within the same function, then we know the
// object couldn't escape to a point where the call could return it.
//
// Note that if the pointers are in different functions, there are a
// variety of complications. A call with a nocapture argument may still
// temporary store the nocapture argument's value in a temporary memory
// location if that memory location doesn't escape. Or it may pass a
// nocapture value to other functions as long as they don't capture it.
if (isEscapeSource(O1) &&
isNonEscapingLocalObject(O2, &AAQI.IsCapturedCache))
return NoAlias;
if (isEscapeSource(O2) &&
isNonEscapingLocalObject(O1, &AAQI.IsCapturedCache))
return NoAlias;
}
and
/// Returns true if the pointer is one which would have been considered an
/// escape by isNonEscapingLocalObject.
static bool isEscapeSource(const Value *V) {
if (isa<CallBase>(V))
return true;
if (isa<Argument>(V))
return true;
// The load case works because isNonEscapingLocalObject considers all
// stores to be escapes (it passes true for the StoreCaptures argument
// to PointerMayBeCaptured).
if (isa<LoadInst>(V))
return true;
return false;
}
Since we have to look through all the uses of O1/O2 (including certain
transitive ones) to prove isNonEscapingLocalObject, an
expensive-but-more-precise analysis could just check if O2/O1 is in that
set, IIUC. I get why BasicAliasAnalysis isn't the right place to do that.
Is there some more expensive alias analysis that I could opt into and get
that sort of check?
Alternatively, following the logic that we can assume isEscapeSource for
loads because we treat stores as escapes, is there room to assume
isEscapeSource for inttoptrs because we treat ptrtoints, and things that let
you subtly intify pointers such as certain compares, as escapes?
Thanks,
-Joseph
From: llvm-dev <llvm-dev-bounces at lists.llvm.org
<mailto:llvm-dev-bounces at lists.llvm.org> > On Behalf Of Joseph Tremoulet via
llvm-dev
Sent: Wednesday, March 31, 2021 2:09 PM
To: llvm-dev <llvm-dev at lists.llvm.org <mailto:llvm-dev at lists.llvm.org> >
Subject: [EXTERNAL] [llvm-dev] inttoptr and noalias returns
Hi,
I'm a bit confused about the interaction between inttoptr and noalias, and
would like to better understand our model.
I realize there's a bunch of in-flight work around restrict modeling and
that ptrtoint was on the agenda for last week's AA call. I'm interested in
understanding both the current state and the thinking/plans for the future.
And I'm happy for pointers to anywhere this is already written down, I
didn't find it from skimming the AA call minutes or the mailing list
archive, but I could easily have overlooked it, and haven't really dug into
the set of restrict patches (nor do I know where to get a list of those).
I also realize that with aliasing questions there can always be a gap
between what the model says we can infer and how aggressive analyses and
optimizations are about actually making use of those inferences. Again I'm
interested in both answers (and happy for either).
In the LangRef section on pointer aliasing rules [1], I see
An integer constant other than zero or a pointer value returned from a
function not defined within LLVM may be associated with address ranges
allocated through mechanisms other than those provided by LLVM. Such ranges
shall not overlap with any ranges of addresses allocated by mechanisms
provided by LLVM.
And I'm curious what "mechanisms provided by LLVM" for allocation means.
Alloca, presumably. Global variables? Certain intrinsics? Any function
with a noalias return value?
In the LangRef description of the noalias attribute [2], I see
This indicates that memory locations accessed via pointer values based on
the argument or return value are not also accessed, during the execution of
the function, via pointer values not based on the argument or return value .
On function return values, the noalias attribute indicates that the function
acts like a system memory allocation function, returning a pointer to
allocated storage disjoint from the storage for any other object accessible
to the caller.
The phrase "the storage for any other object accessible to the caller" in
the noalias description sounds like a broader category than the phrase
"mechanisms provided by LLVM" from the pointer aliasing section, so I would
expect that if the pointer returned from a call to a function with return
attribute noalias does not escape, then loads/stores through it would not
alias loads/stores through a pointer produced by inttoptr. Am I
interpreting that correctly?
I wrote some snippets [3] to see what the optimizer would do. Each case has
a store of value 86 via pointer %p that I'd expect dead store elimination to
remove if we think it does not alias the subsequent load via pointer %q
(because immediately after that is another store to %p).
In each case, %q is the result of a call to a function whose return value is
annotated noalias.
When %p is a pointer parameter, I indeed see the optimizer removing the dead
store:
define i8 @test1(i8* %p) {
%q = call i8* @allocate()
store i8 86, i8* %p ; <-- this gets removed
%result = load i8, i8* %q
store i8 0, i8* %p
ret i8 %result
}
When %p is the result of inttoptr, I do not see the store being removed, and
I'm wondering if this is because of a subtle aliasing rule or an intentional
conservativism in the optimizer or just a blind spot in the analysis:
define i8 @test2(i64 %p_as_int) {
%p = inttoptr i64 %p_as_int to i8*
%q = call i8* @allocate()
store i8 86, i8* %p ; <-- this does not get removed
%result = load i8, i8* %q
store i8 0, i8* %p
ret i8 %result
}
When I outline the inttoptr into a separate function, I again see the
optimizer remove the dead store, which again I'm wondering if the difference
between this and the previous case is an intentional subtle point or what.
define i8* @launder(i64 %int) noinline {
%ptr = inttoptr i64 %int to i8*
ret i8* %ptr
}
define i8 @test3(i64 %p_as_int) {
%p = call i8* @launder(i64 %p_as_int)
%q = call i8* @allocate()
store i8 86, i8* %p ; <-- this gets removed
%result = load i8, i8* %q
store i8 0, i8* %p
ret i8 %result
}
Happy for any insights you can share.
Thanks,
-Joseph
1 - https://llvm.org/docs/LangRef.html#pointeraliasing
<https://nam06.safelinks.protection.outlook.com/?url=https%3A%2F%2Fllvm.org%
2Fdocs%2FLangRef.html%23pointeraliasing&data=04%7C01%7Cjotrem%40microsoft.co
m%7Ce772dc1fd7ee4665003b08d8f47007eb%7C72f988bf86f141af91ab2d7cd011db47%7C1%
7C0%7C637528109307055170%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjo
iV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C1000&sdata=iQ4uHRskXvviDCAzX1otuyu
ii9FhnmkYO8z5YkHI0y0%3D&reserved=0>
2 - https://llvm.org/docs/LangRef.html#parameter-attributes
<https://nam06.safelinks.protection.outlook.com/?url=https%3A%2F%2Fllvm.org%
2Fdocs%2FLangRef.html%23parameter-attributes&data=04%7C01%7Cjotrem%40microso
ft.com%7Ce772dc1fd7ee4665003b08d8f47007eb%7C72f988bf86f141af91ab2d7cd011db47
%7C1%7C0%7C637528109307055170%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLC
JQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C1000&sdata=uDsHa3L12nNt7y5fK1
GU36D%2BflL7RmQIW8X2gkhbM%2Fo%3D&reserved=0>
3 - https://godbolt.org/z/x8e41G33Y
<https://nam06.safelinks.protection.outlook.com/?url=https%3A%2F%2Fgodbolt.o
rg%2Fz%2Fx8e41G33Y&data=04%7C01%7Cjotrem%40microsoft.com%7Ce772dc1fd7ee46650
03b08d8f47007eb%7C72f988bf86f141af91ab2d7cd011db47%7C1%7C0%7C637528109307065
126%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1h
aWwiLCJXVCI6Mn0%3D%7C1000&sdata=j8cZ0Stb%2F%2BRZMe%2FNotzuvJTz%2FjDUJBqLixbX
p0WRBH0%3D&reserved=0>
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