Hi, I don't intentionally want to induce a tramp, the load null is created by an llvm optimization pass from code like: v = null; ..... v.Call (); Zoltan On Sat, Sep 5, 2009 at 11:39 PM, Bill Wendling <isanbard at gmail.com> wrote:> Hi Zoltan, > > We've come across this before where people meant to induce a trap by > dereferencing a null. It doesn't work for LLVM (as you found out). > Essentially, it's a valid transformation to turn this into unreachable. The > better solution is to use something like __builtin_trap. > > -bw > > > On Sep 5, 2009, at 2:19 PM, Zoltan Varga <vargaz at gmail.com> wrote: > > >> Hi, >> >> Currently, llvm treats the loads from a null address as unreachable code, >> i.e.: >> load i32* null >> is transformed by some optimization pass into >> unreachable >> >> This presents problems in JIT compilers like mono which implement null >> pointer checks by trapping SIGSEGV signals. It also >> looks incorrect since it changes program behavior, which might be >> undefined in general, but it is quite well defined on unix. >> Is there a way to prevent llvm from doing this besides marking all loads >> as volatile ? >> >> thanks >> >> Zoltan >> >> _______________________________________________ >> LLVM Developers mailing list >> LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu >> http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev >> >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20090905/31ae64a0/attachment.html>
Zoltan Varga wrote:> Hi, > > I don't intentionally want to induce a tramp, the load null is > created by an llvm optimization > pass from code like: > v = null; > ..... > v.Call ();This is more of a workaround than a solution, but have you tried emitting null as inttoptr(0) instead of a ConstantPointerNull? That should disable optimizations relying on C-like undefined behavior semantics, at least as long as there isn't some pass which recognizes that pattern and turns it back into null. John.
It's essentially the sane thing. :-) I don't quite understand the code. Is 'v' ever assigned a value before 'v.Call()'? Two options remain, from what I can see. Either mark v as volatile, or compile without optimizations. The second is more drastic. If you *really* want it to perform a call on null. Then you could place a function in another module that only returns null, then do the call: // module A typedef void (*func)(); func Foo() { return 0; } // module B Foo().Call(); And then make sure you don't perform LTO. -bw On Sep 5, 2009, at 4:59 PM, Zoltan Varga <vargaz at gmail.com> wrote:> Hi, > > I don't intentionally want to induce a tramp, the load null is > created by an llvm optimization > pass from code like: > v = null; > ..... > v.Call (); > > Zoltan > > On Sat, Sep 5, 2009 at 11:39 PM, Bill Wendling <isanbard at gmail.com> > wrote: > Hi Zoltan, > > We've come across this before where people meant to induce a trap by > dereferencing a null. It doesn't work for LLVM (as you found out). > Essentially, it's a valid transformation to turn this into > unreachable. The better solution is to use something like > __builtin_trap. > > -bw > > > On Sep 5, 2009, at 2:19 PM, Zoltan Varga <vargaz at gmail.com> wrote: > > > Hi, > > Currently, llvm treats the loads from a null address as unreachable > code, i.e.: > load i32* null > is transformed by some optimization pass into > unreachable > > This presents problems in JIT compilers like mono which implement > null pointer checks by trapping SIGSEGV signals. It also > looks incorrect since it changes program behavior, which might be > undefined in general, but it is quite well defined on unix. > Is there a way to prevent llvm from doing this besides marking all > loads as volatile ? > > thanks > > Zoltan > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20090905/91978212/attachment.html>
Kenneth Uildriks
2009-Sep-06 11:52 UTC
[LLVMdev] loads from a null address and optimizations
How about this: 1. A custom pass run at the beginning that inserts a null check before every load/store: if ( ptr == null ) trap; Then if any pointers get optimized to null, the if condition becomes a constant true,and the trap call should become unconditional. 2. A custom pass at the end that takes out every remaining null check that your first pass inserted. It should first check whether the condition is in fact a constant true (since that reduction might not have been run after ptr became a constant null) and turn it into an unconditional trap. On Sat, Sep 5, 2009 at 4:59 PM, Zoltan Varga<vargaz at gmail.com> wrote:> Hi, > > I don't intentionally want to induce a tramp, the load null is created by > an llvm optimization > pass from code like: > v = null; > ..... > v.Call (); > > Zoltan > > On Sat, Sep 5, 2009 at 11:39 PM, Bill Wendling <isanbard at gmail.com> wrote: >> >> Hi Zoltan, >> >> We've come across this before where people meant to induce a trap by >> dereferencing a null. It doesn't work for LLVM (as you found out). >> Essentially, it's a valid transformation to turn this into unreachable. The >> better solution is to use something like __builtin_trap. >> >> -bw >> >> On Sep 5, 2009, at 2:19 PM, Zoltan Varga <vargaz at gmail.com> wrote: >> >>> >>> Hi, >>> >>> Currently, llvm treats the loads from a null address as unreachable >>> code, i.e.: >>> load i32* null >>> is transformed by some optimization pass into >>> unreachable >>> >>> This presents problems in JIT compilers like mono which implement null >>> pointer checks by trapping SIGSEGV signals. It also >>> looks incorrect since it changes program behavior, which might be >>> undefined in general, but it is quite well defined on unix. >>> Is there a way to prevent llvm from doing this besides marking all loads >>> as volatile ? >>> >>> thanks >>> >>> Zoltan >>> >>> _______________________________________________ >>> LLVM Developers mailing list >>> LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu >>> http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev > > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev > >
Kenneth Uildriks
2009-Sep-06 15:22 UTC
[LLVMdev] loads from a null address and optimizations
On Sun, Sep 6, 2009 at 6:52 AM, Kenneth Uildriks<kennethuil at gmail.com> wrote:> How about this: > > 1. A custom pass run at the beginning that inserts a null check before > every load/store: > > if ( ptr == null ) > trap; > > Then if any pointers get optimized to null, the if condition becomes a > constant true,and the trap call should become unconditional. > > 2. A custom pass at the end that takes out every remaining null check > that your first pass inserted. It should first check whether the > condition is in fact a constant true (since that reduction might not > have been run after ptr became a constant null) and turn it into an > unconditional trap.On second thought... You'd like the program to behave correctly (whatever you mean by that) whether any optimization passes are run or not. So have your front-end emit the null-pointer checks with the explicit trap call, and then you'll only need the pass at the end to take them out; but leaving them in will still have your program behaving correctly, although running a bit slower.
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