llvm dev - Oct 2013 - [LLVMdev] [Debug Info PATCH] for support of ref_addr and removal of DIE duplication

On Tue, Oct 15, 2013 at 4:59 PM, Manman Ren <manman.ren at gmail.com>
wrote:
>
>
>
> On Tue, Oct 15, 2013 at 2:24 PM, David Blaikie <dblaikie at
gmail.com> wrote:
>
>>
>>
>>
>> On Tue, Oct 15, 2013 at 1:56 PM, Manman Ren <manman.ren at
gmail.com> wrote:
>>
>>>
>>>
>>>
>>> On Tue, Oct 15, 2013 at 1:37 PM, David Blaikie <dblaikie at
gmail.com>wrote:
>>>
>>>>
>>>>
>>>>
>>>> On Tue, Oct 15, 2013 at 1:22 PM, Manman Ren <manman.ren at
gmail.com>wrote:
>>>>
>>>>>
>>>>>
>>>>>
>>>>> On Tue, Oct 15, 2013 at 11:34 AM, David Blaikie
<dblaikie at gmail.com>wrote:
>>>>>
>>>>>>
>>>>>>
>>>>>>
>>>>>> On Tue, Oct 15, 2013 at 10:51 AM, Manman Ren
<manman.ren at gmail.com>wrote:
>>>>>>
>>>>>>>
>>>>>>>
>>>>>>>
>>>>>>> On Tue, Oct 15, 2013 at 10:10 AM, David Blaikie
<dblaikie at gmail.com>wrote:
>>>>>>>
>>>>>>>>
>>>>>>>>
>>>>>>>>
>>>>>>>> On Tue, Oct 15, 2013 at 10:05 AM, Manman Ren
<manman.ren at gmail.com>wrote:
>>>>>>>>
>>>>>>>>>
>>>>>>>>>
>>>>>>>>>
>>>>>>>>> On Wed, Oct 9, 2013 at 5:22 PM, Manman Ren
<manman.ren at gmail.com>wrote:
>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>> On Wed, Oct 9, 2013 at 1:32 PM, Manman
Ren <manman.ren at gmail.com>wrote:
>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> David,
>>>>>>>>>>>
>>>>>>>>>>> Thanks for reviewing!
>>>>>>>>>>>
>>>>>>>>>>> On Wed, Oct 9, 2013 at 11:36 AM,
David Blaikie <
>>>>>>>>>>> dblaikie at gmail.com> wrote:
>>>>>>>>>>>
>>>>>>>>>>>> Might be easier if these were
on Phabricator, but here are some
>>>>>>>>>>>> thoughts:
>>>>>>>>>>>>
>>>>>>>>>>>> 0001:
>>>>>>>>>>>>   This patch generally, while
separated for legibility, is
>>>>>>>>>>>> untested & difficult to
discuss in isolation.
>>>>>>>>>>>>
>>>>>>>>>>> I agree, this patch adds the
functionality but does not use it,
>>>>>>>>>>> the 2nd patch uses ref_addr.
>>>>>>>>>>> If you think I should merge the two
and commit as a single
>>>>>>>>>>> patch, let me know.
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>>  I may need to refer to the
second patch in reviewing this
>>>>>>>>>>>> first one.
>>>>>>>>>>>>   DwarfDebug.cpp:
>>>>>>>>>>>>     computeSizeAndOffsets:
>>>>>>>>>>>>       I believe this produces
the wrong offset for the 3rd CU
>>>>>>>>>>>> and onwards.
computeSizeAndOffset returns the EndOffset which is absolute,
>>>>>>>>>>>> not relative to the Offset
passed in, so it should be assigned to
>>>>>>>>>>>> SecOffset, not added to it.
(eg: if you have CUs at 0, 42, and 57 - the
>>>>>>>>>>>> first pass through SecOffset
will be zero, then it'll be 0 + 42, then on
>>>>>>>>>>>> the 3rd it'll be (0 + 42) +
57 which isn't right, it should just be 57).
>>>>>>>>>>>> Please add more test coverage
while fixing this issue.
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> computeSizeAndOffset takes an
offset that is relative to the
>>>>>>>>>>> start of the CU and returns the
offset relative to the CU after laying out
>>>>>>>>>>> the DIE.
>>>>>>>>>>> The initial offset before laying
out the CU DIE is the header
>>>>>>>>>>> size, EndOffset will be the offset
relative to the CU after laying out the
>>>>>>>>>>> whole CU DIE.
>>>>>>>>>>> We can think of EndOffset as the
size of the whole CU DIE.
>>>>>>>>>>> SecOffset is the offset from the
Debug Info section, so we can update it by
>>>>>>>>>>> adding the CU size.
>>>>>>>>>>>
>>>>>>>>>>>   // Offset from the beginning of
debug info section.
>>>>>>>>>>>   unsigned SecOffset = 0;
>>>>>>>>>>>   for
(SmallVectorImpl<CompileUnit *>::iterator I = CUs.begin(),
>>>>>>>>>>>          E = CUs.end(); I != E;
++I) {
>>>>>>>>>>>    
(*I)->setDebugInfoOffset(SecOffset);
>>>>>>>>>>>      unsigned Offset
>>>>>>>>>>>       sizeof(int32_t) + // Length
of Compilation Unit Info
>>>>>>>>>>>       sizeof(int16_t) + // DWARF
version number
>>>>>>>>>>>       sizeof(int32_t) + // Offset
Into Abbrev. Section
>>>>>>>>>>>       sizeof(int8_t);   // Pointer
Size (in bytes)
>>>>>>>>>>>
>>>>>>>>>>>     unsigned EndOffset =
computeSizeAndOffset((*I)->getCUDie(),
>>>>>>>>>>> Offset);
>>>>>>>>>>>     SecOffset += EndOffset;
>>>>>>>>>>>   }
>>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>> Added more comments in attached patch.
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>> Eric/Manman: rough design
question: compute the absolute offset
>>>>>>>>>>>> of each CU within the
debug_info section and describe them all relative to
>>>>>>>>>>>> a single symbol at the start of
the debug_info section, or should we put a
>>>>>>>>>>>> label at the start of each CU?
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> Either way should work. But since
we already have the section
>>>>>>>>>>> offset for each CU, describing
relative to the start of debug_info section
>>>>>>>>>>> saves us a few symbols :)
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> 0002:
>>>>>>>>>>>>   ref_addr_relocation.ll:
>>>>>>>>>>>>     seems a bit vague in terms
of how you test for the
>>>>>>>>>>>> relocation. I think it'd
make more sense to test the assembly, than the
>>>>>>>>>>>> reafobj output, that way you
can test that the correct bytes have the
>>>>>>>>>>>> relocation rather than just
that there's "some" .debug_info relocation in
>>>>>>>>>>>> the file. For an example, see
test/DebugInfo/X86/tls.ll I wrote - it has
>>>>>>>>>>>> some "unannotated"
bytes because we still don't have a nice way to annotate
>>>>>>>>>>>> location bytes that are DWARF
expressions, but it's close - I guess those
>>>>>>>>>>>> should be CHECK-NEXTs, though.
In any case, you should be able to check a
>>>>>>>>>>>> few lines of assembly with the
# DW_AT/DW_TAG annotation comments.
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> I can check for ".quad
.Lsection_info+38 #DW_AT_type".
>>>>>>>>>>>
>>>>>>>>>> Done in attached patch.
>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>>      You'd need to add the
tu3.cpp from my example if you want
>>>>>>>>>>>> to demonstrate that the
relocation is actually working as intended and
>>>>>>>>>>>> avoiding the bogus result I
showed.
>>>>>>>>>>>>   type-unique-simple-a.ll
>>>>>>>>>>>>     While I agree that having
common test cases helps reduce
>>>>>>>>>>>> the number of separate
invocations we have, this test case seems like it
>>>>>>>>>>>> might be becoming a little hard
to follow what's under test. Just going
>>>>>>>>>>>> from the diff I'm not sure
what's what. Could you give a brief description
>>>>>>>>>>>> of the state of
type-unique-simple2 files? What's involved? What's it meant
>>>>>>>>>>>> to test? What's it actually
testing?
>>>>>>>>>>>>
>>>>>>>>>>> I can add more comments. The source
files are included in the
>>>>>>>>>>> testing case. I am checking that
llvm-link only generates a single copy of
>>>>>>>>>>> the struct and the backend
generates a single DIE and uses ref_addr.
>>>>>>>>>>> The changes are to check "the
backend generates a single DIE and
>>>>>>>>>>> uses ref_addr".
>>>>>>>>>>>
>>>>>>>>>> Done in attached patch.
>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>    DIE.h:
>>>>>>>>>>>>     checkCompileUnit could
probably be called
>>>>>>>>>>>>
"getCompileUnitOrNull", the name "check*" seems to imply
that it does some
>>>>>>>>>>>> checking, which isn't true.
>>>>>>>>>>>>
>>>>>>>>>>>  Will do.
>>>>>>>>>>>
>>>>>>>>>> Done in attached patch.
>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>>   DwarfCompileUnit.cpp:
>>>>>>>>>>>>     the "istype ||
issubprogram" check should probably be
>>>>>>>>>>>> pulled out into a separate
function, something like "isShareableAcrossCUs"
>>>>>>>>>>>> or something like that (please,
that's not the best name, let's discuss it
>>>>>>>>>>>> further before we settle on a
name) so that getDIE and insertDIE are sure
>>>>>>>>>>>> to use the same test at all
times.
>>>>>>>>>>>>
>>>>>>>>>>> Yes, the condition is shared
between getDIE and insertDIE. I
>>>>>>>>>>> like isSharableAcrossCUs, because
that is why the map is in DwarfDebug
>>>>>>>>>>> instead of CompileUnit.
>>>>>>>>>>>
>>>>>>>>>> Done in attached patch.
>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>>    Why does addDIEEntry take a
form? When does the caller get
>>>>>>>>>>>> to choose the form rather than
the callee deciding between ref4 and
>>>>>>>>>>>> ref_addr based on context?
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> addDIEEntry took a form before my
change and I didn't check why
>>>>>>>>>>> it did.
>>>>>>>>>>> I will check if all callers always
use ref4, if it it true, I
>>>>>>>>>>> will submit a cleanup patch first.
>>>>>>>>>>>
>>>>>>>>>> Done in attached patch.
>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>   I'm still unsure about this
worklist thing - do your current
>>>>>>>>>>>> tests cover the need for the
worklist? ie: if we removed that logic, would
>>>>>>>>>>>> tests fail? Can you describe a
specific sequence where the worklist is
>>>>>>>>>>>> necessary?
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> If we are sure that DIEs are always
added to an owner before
>>>>>>>>>>> calling addDIEEntry, we don't
need the worklist.
>>>>>>>>>>> But I saw cases where that was not
true, I will get a reduced
>>>>>>>>>>> testing case.
>>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>> If we try to assert both DIEs have
owner in addDIEEntry, the
>>>>>>>>>> following testing cases will fail:
>>>>>>>>>>     LLVM ::
DebugInfo/X86/multiple-aranges.ll
>>>>>>>>>>     LLVM ::
DebugInfo/X86/ref_addr_relocation.ll
>>>>>>>>>>     LLVM ::
DebugInfo/X86/stmt-list-multiple-compile-units.ll
>>>>>>>>>>     LLVM ::
DebugInfo/two-cus-from-same-file.ll
>>>>>>>>>>     LLVM ::
Linker/type-unique-simple-a.ll
>>>>>>>>>>     LLVM ::
Linker/type-unique-simple2.ll
>>>>>>>>>>
>>>>>>>>>> For ref_addr_relocation, it failed in
>>>>>>>>>> #5  0x0000000100b169ba in
llvm::DwarfDebug::addDIEEntry
>>>>>>>>>> (this=0x103023600, Die=0x102e14090,
Attribute=73, Entry=0x10302a9d0) at
>>>>>>>>>>
/Users/manmanren/llvm_git/llvm/lib/CodeGen/AsmPrinter/DwarfDebug.cpp:3071
>>>>>>>>>> #6  0x0000000100b040e0 in
llvm::CompileUnit::addType
>>>>>>>>>> (this=0x102e13ec0, Entity=0x102e14090,
Ty={<llvm::DIScope> >>>>>>>>>>
{<llvm::DIDescriptor> = {DbgNode = 0x102e05f30}, <No data fields>},
<No
>>>>>>>>>> data fields>}, Attribute=73) at
>>>>>>>>>>
/Users/manmanren/llvm_git/llvm/lib/CodeGen/AsmPrinter/DwarfCompileUnit.cpp:910
>>>>>>>>>> #7  0x0000000100b05bff in
>>>>>>>>>>
llvm::CompileUnit::createGlobalVariableDIE (this=0x102e13ec0,
>>>>>>>>>> N=0x102e068c0) at
>>>>>>>>>>
/Users/manmanren/llvm_git/llvm/lib/CodeGen/AsmPrinter/DwarfCompileUnit.cpp:1505
>>>>>>>>>>
>>>>>>>>>> If we look at DwarfCompileUnit.cpp:
>>>>>>>>>>     VariableDIE = new DIE(GV.getTag());
>>>>>>>>>>     // Add to map.
>>>>>>>>>>     insertDIE(N, VariableDIE);
>>>>>>>>>>
>>>>>>>>>>     // Add name and type.
>>>>>>>>>>     addString(VariableDIE,
dwarf::DW_AT_name,
>>>>>>>>>> GV.getDisplayName());
>>>>>>>>>>     addType(VariableDIE, GTy);
>>>>>>>>>>
>>>>>>>>>> The VariableDIE is not added to an
owner yet when calling addType.
>>>>>>>>>>
>>>>>>>>>
>>>>>>>>> I believe I have addressed all review
comments, the patches are
>>>>>>>>> re-attached here for convenience.
>>>>>>>>>
>>>>>>>>
>>>>>>>> So I'm still thinking about the work list
work.
>>>>>>>>
>>>>>>>> If we don't know which CU a DIE is in -
isn't it, necessarily,
>>>>>>>> going to be in the current CU (& thus
referenced by ref_data4 (using a
>>>>>>>> CU-local offset), not ref_addr)?
>>>>>>>>
>>>>>>>
>>>>>>> That may be true. But can we prove that?
>>>>>>>
>>>>>>
>>>>>> We really shouldn't add extra complexity to the
codebase just because
>>>>>> we don't know how the codebase works - that's
what leads to the kind of
>>>>>> complexity we see in the debug info handling today.
>>>>>>
>>>>>
>>>>>>
>>>>>>>  There are two ways of handling this:
>>>>>>> 1> use a worklist to be conservative
>>>>>>> 2> do not use a worklist, but add an assertion
when emitting a DIE
>>>>>>> A, make sure the DIE referenced with ref4 is indeed
in the same CU as DIE A.
>>>>>>>
>>>>>>
>>>>>> Please just add this assertion. If it fires we'll
have a test case
>>>>>> and a concrete justification for this complexity such
that should anyone
>>>>>> remove it later because it looked unnecessary,
they'll at least have a
>>>>>> failing test to explain why it was there in the first
plac .
>>>>>>
>>>>>
>>>>> The assertion fails even with a simple testing case when
the
>>>>> referenced DIE has an owner and the DIE itself does not
have an owner.
>>>>>
>>>>
>>>> OK, sorry - I should've read your description of the
assertion more
>>>> carefully. I believe the assertion you added wasn't the
right thing to test
>>>> for.
>>>>
>>>> I'm not sure there is a correct assertion to add here to
detect the
>>>> case you're describing - perhaps a complex verification
after-the-fact
>>>> could be done, but essentially if we have a DIE that's
partially
>>>> constructed/has no parent we should assume it's in the
current unit.
>>>>
>>>
>>> Why should we make the assumption that a DIE without a parent at
some
>>> point should belong to the CU that is constructing the DIE?
>>>
>>
>> Because the code we have today only constructs one CU at a time. I know
>> of no code that adds anything to prior CUs. Indeed this may become an
>> invariant one day when we do CU-at-a-time DWARF emission to reduce
memory
>> overhead. There's nothing in the design today that I know of that
would
>> make CU-at-a-time DWARF emission anything other than trivial. We build
all
>> the DIEs for a CU in one go, then move on to the next CU - the CU_Nodes
>> loop in beginModule does this.
>>
>
> In beginModule, we construct the CUs, but not all the DIEs that belong to
> the CU.
> In endFunction, we started to construct the scope DIEs. So in some sense,
> we are adding things to prior CUs.
>
> Looking at void CompileUnit::addDIEEntry(DIE *Die, uint16_t Attribute, DIE
> *Entry), we can possibly have 3 CUs, this CU,
> the CU Die belongs to (i.e. the CU the parent chain points to), the CU
> Entry belongs to.
>
When does "this CU" differ from both the Die and the Entry?

> When Die or CU does not have an owner, what assumption should we make
> to decide between ref_addr and ref4 inside addDIEEntry?
>
The claim Eric and I are making/discussed is that we should assume any DIE
without a parent is in the current CU and/or that it possibly should never
come up (I haven't thought through the codepaths carefully here - if we add
CUs to their parent before creating their members, I think it should never
come up).

> If we assume that if Die or Entry does not have an owner, it should belong
> to this CU, it means:
> 1> Die or Entry should be constructed by this CU.
> 2> DIEs that are constructed by CU A should belong to CU A.
> 3> About DIEs that are constructed directly in DwarfDebug, they should
be
> added to a CU before calling addDIEEntry.
>      Another option is to wrap all DIE constructions in a CU, which sounds
> reasonable for emit-a-CU-at-a-time.
>
I'm not really sure what you mean by "wrap all DIE constructions in a
CU".
Even with your change the DIEs are constructed by CUs and just added to the
appropriate cache (either CU-local, or cross-CU), they're never constructed
outside of a CU, are they?

> How much effort is required to make sure these assumptions are true? We
> also should have the corresponding assertions to make sure the assumptions
> are not violated.
>
Personally, I'm OK saying "this is the intended design, anything else
is a
bug" and leaving it at that. If we want to add in the necessary
infrastructure to assert this is the case, I'm OK with that too.

> To implement the assertions, we need to keep a list of all DIEs that are
> constructed by a CU.
>
It shouldn't be hard - we'd add a map of assumptions "we found this
DIE
without a parent and assumed it was in this CU" then whenever we add a DIE
to a parent we would check that map and remove the entry (assert-fail if
there was a mismatch between assumption and reality).

> With the ConstructedDIEs, we can verify 1> in addDIEEntry, 2> in
finalize
> 3> by wrapping all DIE constructions in a CU.
>
> I am wondering whether we should make the type uniquing patches depend on
> the invariants/assumptions.
>
If the alternative is introducing defensive and unjustified/untested
complexity, yes - we must. We cannot tolerate introducing unjustified
complexity into the codebase - it's the only way we can strive to move the
code in a maintainable direction (I contend that it's not maintainable at
the moment and it isn't because of changes like this - adding more is
untenable, removing them is admirable, but hard and something we'll be
working on for a long time to come).

- David

>
> Manman
>
>
>>
>>> The CU constructing a DIE will add the DIE to the context owner,
which
>>> may not belong to the CU itself.
>>>
>>
>> That's the question, isn't it? When is it ever /not/ the
current CU under
>> construction?
>>
>>
>>>  In the case that a DIE is added to an owner in DwarfDebug, I
don't
>>> think we should try to enforce that DwarfDebug will add the DIE to
the CU
>>> that constructed the DIE earlier.
>>>
>>
>> My claim is that this is already an invariant. That the code you are
>> adding is never needed and thus is additional, unjustified/unused
>> complexity that comes at a cost to all future developers/development.
This
>> codebase needs /much/ less of this than it already has, let alone
adding
>> more of it. Though I wouldn't mind an assertion, I suspect
it'll be more
>> code than is really worth it to keep track of this information/state.
>>
>> I think if we more to CU-at-a-time DWARF emission it'll be more
obvious
>> that this invariant is true and cannot be violated.
>>
>>
>>>
>>>
>>>>  If we can demonstrate a case where this isn't true, then
we should
>>>> work to address that problem - until we demonstrate that, we
should not
>>>> (though we might want to search for such cases - but without
type units I
>>>> can't imagine how they could occur - we build the DIE tree
for one CU at a
>>>> time, at no point do we have DIEs under construction for
multiple CUs).
>>>>
>>>> So if we want to build a reference to a DIE, if the DIE is not
in
>>>> another CU we should use ref4. (then the only other case is
that it's
>>>> either in this CU or it's in no known CU at all - in which
case it's under
>>>> construction and, without evidence to the contrary, will be
added to the
>>>> current CU when it's done).
>>>>
>>>> About the only assertion we could add would involve keeping a
>>>> side-table of "assumptions" ("we expect this DIE
will be added to this CU")
>>>> and check that those assumptions are fulfilled at some point.
>>>>
>>> In my opinion, if we can't verify the assumption with a
reasonable
>>> amount of effort, then we should not make the assumption.
>>>
>>
>> This leads to unbounded, unjustified complexity that makes the codebase
>> impossible to maintain. It just cannot be an acceptable method of
>> development.
>>
>> - David
>>
>>
>>>
>>> Manman
>>>
>>>
>>>>
>>>>> For that case, we can't assume ref4 should be used. I
don't think we
>>>>> can enforce that all DIEs must be added to a parent before
calling
>>>>> addDIEEntry.
>>>>>
>>>>> For the specific testing case, when constructing children
of a scope
>>>>> DIE, we call addDIEEntry on the children, after that, we
add the children
>>>>> to the scope DIE.
>>>>> cat foo.cpp
>>>>>
>>>>> #include "a.hpp"
>>>>> void f(int a) {
>>>>>   Base t;
>>>>> }
>>>>> cat bar.cpp
>>>>>
>>>>> #include "a.hpp"
>>>>> void f(int);
>>>>> void g(int a) {
>>>>>   Base t;
>>>>> }
>>>>> int main() {
>>>>>   f(0);
>>>>>   g(1);
>>>>>   return 0;
>>>>> }
>>>>> cat a.hpp
>>>>> struct Base {
>>>>>   int a;
>>>>> };
>>>>>
>>>>> Let me know if I should investigate further.
>>>>>
>>>>> Thanks,
>>>>> Manman
>>>>>
>>>>>
>>>>>>
>>>>>>
>>>>>>>
>>>>>>> Let me know which one you prefer.
>>>>>>>
>>>>>>> Do you have any comments on the ref_addr patch (the
1st patch of the
>>>>>>> two)?
>>>>>>>
>>>>>>
>>>>>> Nothing much - I wouldn't mind Eric taking a look
(& would rather you
>>>>>> not commit this until you're committing the second
patch, since it's
>>>>>> otherwise untested/unjustified code) on the
label/offset related stuff
>>>>>> since I'm less familiar with that.
>>>>>>
>>>>>> There's one or two cases of {} on single-statement
blocks you could
>>>>>> fix up.
>>>>>>
>>>>>> "DebugInfoOffset" (both the member and the
functions to set/get it)
>>>>>> might be more meaningfully named
"SectionOffset" - but I'm not sure. Eric?
>>>>>> Other names (DebugInfoSectionOffset?)?
>>>>>>
>>>>>> - David
>>>>>>
>>>>>
>>>>>
>>>>
>>>
>>
>
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On Tue, Oct 15, 2013 at 5:22 PM, David Blaikie <dblaikie at gmail.com>
wrote:
>
>
>
> On Tue, Oct 15, 2013 at 4:59 PM, Manman Ren <manman.ren at gmail.com>
wrote:
>
>>
>>
>>
>> On Tue, Oct 15, 2013 at 2:24 PM, David Blaikie <dblaikie at
gmail.com>wrote:
>>
>>>
>>>
>>>
>>> On Tue, Oct 15, 2013 at 1:56 PM, Manman Ren <manman.ren at
gmail.com>wrote:
>>>
>>>>
>>>>
>>>>
>>>> On Tue, Oct 15, 2013 at 1:37 PM, David Blaikie <dblaikie at
gmail.com>wrote:
>>>>
>>>>>
>>>>>
>>>>>
>>>>> On Tue, Oct 15, 2013 at 1:22 PM, Manman Ren <manman.ren
at gmail.com>wrote:
>>>>>
>>>>>>
>>>>>>
>>>>>>
>>>>>> On Tue, Oct 15, 2013 at 11:34 AM, David Blaikie
<dblaikie at gmail.com>wrote:
>>>>>>
>>>>>>>
>>>>>>>
>>>>>>>
>>>>>>> On Tue, Oct 15, 2013 at 10:51 AM, Manman Ren
<manman.ren at gmail.com>wrote:
>>>>>>>
>>>>>>>>
>>>>>>>>
>>>>>>>>
>>>>>>>> On Tue, Oct 15, 2013 at 10:10 AM, David Blaikie
<dblaikie at gmail.com
>>>>>>>> > wrote:
>>>>>>>>
>>>>>>>>>
>>>>>>>>>
>>>>>>>>>
>>>>>>>>> On Tue, Oct 15, 2013 at 10:05 AM, Manman
Ren <manman.ren at gmail.com
>>>>>>>>> > wrote:
>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>> On Wed, Oct 9, 2013 at 5:22 PM, Manman
Ren <manman.ren at gmail.com>wrote:
>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> On Wed, Oct 9, 2013 at 1:32 PM,
Manman Ren <manman.ren at gmail.com
>>>>>>>>>>> > wrote:
>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> David,
>>>>>>>>>>>>
>>>>>>>>>>>> Thanks for reviewing!
>>>>>>>>>>>>
>>>>>>>>>>>> On Wed, Oct 9, 2013 at 11:36
AM, David Blaikie <
>>>>>>>>>>>> dblaikie at gmail.com>
wrote:
>>>>>>>>>>>>
>>>>>>>>>>>>> Might be easier if these
were on Phabricator, but here are
>>>>>>>>>>>>> some thoughts:
>>>>>>>>>>>>>
>>>>>>>>>>>>> 0001:
>>>>>>>>>>>>>   This patch generally,
while separated for legibility, is
>>>>>>>>>>>>> untested & difficult to
discuss in isolation.
>>>>>>>>>>>>>
>>>>>>>>>>>> I agree, this patch adds the
functionality but does not use it,
>>>>>>>>>>>> the 2nd patch uses ref_addr.
>>>>>>>>>>>> If you think I should merge the
two and commit as a single
>>>>>>>>>>>> patch, let me know.
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>>  I may need to refer to the
second patch in reviewing this
>>>>>>>>>>>>> first one.
>>>>>>>>>>>>>   DwarfDebug.cpp:
>>>>>>>>>>>>>     computeSizeAndOffsets:
>>>>>>>>>>>>>       I believe this
produces the wrong offset for the 3rd CU
>>>>>>>>>>>>> and onwards.
computeSizeAndOffset returns the EndOffset which is absolute,
>>>>>>>>>>>>> not relative to the Offset
passed in, so it should be assigned to
>>>>>>>>>>>>> SecOffset, not added to it.
(eg: if you have CUs at 0, 42, and 57 - the
>>>>>>>>>>>>> first pass through
SecOffset will be zero, then it'll be 0 + 42, then on
>>>>>>>>>>>>> the 3rd it'll be (0 +
42) + 57 which isn't right, it should just be 57).
>>>>>>>>>>>>> Please add more test
coverage while fixing this issue.
>>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> computeSizeAndOffset takes an
offset that is relative to the
>>>>>>>>>>>> start of the CU and returns the
offset relative to the CU after laying out
>>>>>>>>>>>> the DIE.
>>>>>>>>>>>> The initial offset before
laying out the CU DIE is the header
>>>>>>>>>>>> size, EndOffset will be the
offset relative to the CU after laying out the
>>>>>>>>>>>> whole CU DIE.
>>>>>>>>>>>> We can think of EndOffset as
the size of the whole CU DIE.
>>>>>>>>>>>> SecOffset is the offset from
the Debug Info section, so we can update it by
>>>>>>>>>>>> adding the CU size.
>>>>>>>>>>>>
>>>>>>>>>>>>   // Offset from the beginning
of debug info section.
>>>>>>>>>>>>   unsigned SecOffset = 0;
>>>>>>>>>>>>   for
(SmallVectorImpl<CompileUnit *>::iterator I = CUs.begin(),
>>>>>>>>>>>>          E = CUs.end(); I != E;
++I) {
>>>>>>>>>>>>    
(*I)->setDebugInfoOffset(SecOffset);
>>>>>>>>>>>>      unsigned Offset
>>>>>>>>>>>>       sizeof(int32_t) + //
Length of Compilation Unit Info
>>>>>>>>>>>>       sizeof(int16_t) + //
DWARF version number
>>>>>>>>>>>>       sizeof(int32_t) + //
Offset Into Abbrev. Section
>>>>>>>>>>>>       sizeof(int8_t);   //
Pointer Size (in bytes)
>>>>>>>>>>>>
>>>>>>>>>>>>     unsigned EndOffset =
computeSizeAndOffset((*I)->getCUDie(),
>>>>>>>>>>>> Offset);
>>>>>>>>>>>>     SecOffset += EndOffset;
>>>>>>>>>>>>   }
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> Added more comments in attached
patch.
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>> Eric/Manman: rough design
question: compute the absolute
>>>>>>>>>>>>> offset of each CU within
the debug_info section and describe them all
>>>>>>>>>>>>> relative to a single symbol
at the start of the debug_info section, or
>>>>>>>>>>>>> should we put a label at
the start of each CU?
>>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> Either way should work. But
since we already have the section
>>>>>>>>>>>> offset for each CU, describing
relative to the start of debug_info section
>>>>>>>>>>>> saves us a few symbols :)
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>>
>>>>>>>>>>>>> 0002:
>>>>>>>>>>>>>   ref_addr_relocation.ll:
>>>>>>>>>>>>>     seems a bit vague in
terms of how you test for the
>>>>>>>>>>>>> relocation. I think
it'd make more sense to test the assembly, than the
>>>>>>>>>>>>> reafobj output, that way
you can test that the correct bytes have the
>>>>>>>>>>>>> relocation rather than just
that there's "some" .debug_info relocation in
>>>>>>>>>>>>> the file. For an example,
see test/DebugInfo/X86/tls.ll I wrote - it has
>>>>>>>>>>>>> some
"unannotated" bytes because we still don't have a nice way to
annotate
>>>>>>>>>>>>> location bytes that are
DWARF expressions, but it's close - I guess those
>>>>>>>>>>>>> should be CHECK-NEXTs,
though. In any case, you should be able to check a
>>>>>>>>>>>>> few lines of assembly with
the # DW_AT/DW_TAG annotation comments.
>>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> I can check for ".quad
.Lsection_info+38 #DW_AT_type".
>>>>>>>>>>>>
>>>>>>>>>>> Done in attached patch.
>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>>      You'd need to add
the tu3.cpp from my example if you want
>>>>>>>>>>>>> to demonstrate that the
relocation is actually working as intended and
>>>>>>>>>>>>> avoiding the bogus result I
showed.
>>>>>>>>>>>>>   type-unique-simple-a.ll
>>>>>>>>>>>>>     While I agree that
having common test cases helps reduce
>>>>>>>>>>>>> the number of separate
invocations we have, this test case seems like it
>>>>>>>>>>>>> might be becoming a little
hard to follow what's under test. Just going
>>>>>>>>>>>>> from the diff I'm not
sure what's what. Could you give a brief description
>>>>>>>>>>>>> of the state of
type-unique-simple2 files? What's involved? What's it meant
>>>>>>>>>>>>> to test? What's it
actually testing?
>>>>>>>>>>>>>
>>>>>>>>>>>> I can add more comments. The
source files are included in the
>>>>>>>>>>>> testing case. I am checking
that llvm-link only generates a single copy of
>>>>>>>>>>>> the struct and the backend
generates a single DIE and uses ref_addr.
>>>>>>>>>>>> The changes are to check
"the backend generates a single DIE
>>>>>>>>>>>> and uses ref_addr".
>>>>>>>>>>>>
>>>>>>>>>>> Done in attached patch.
>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>    DIE.h:
>>>>>>>>>>>>>     checkCompileUnit could
probably be called
>>>>>>>>>>>>>
"getCompileUnitOrNull", the name "check*" seems to imply
that it does some
>>>>>>>>>>>>> checking, which isn't
true.
>>>>>>>>>>>>>
>>>>>>>>>>>>  Will do.
>>>>>>>>>>>>
>>>>>>>>>>> Done in attached patch.
>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>>   DwarfCompileUnit.cpp:
>>>>>>>>>>>>>     the "istype ||
issubprogram" check should probably be
>>>>>>>>>>>>> pulled out into a separate
function, something like "isShareableAcrossCUs"
>>>>>>>>>>>>> or something like that
(please, that's not the best name, let's discuss it
>>>>>>>>>>>>> further before we settle on
a name) so that getDIE and insertDIE are sure
>>>>>>>>>>>>> to use the same test at all
times.
>>>>>>>>>>>>>
>>>>>>>>>>>> Yes, the condition is shared
between getDIE and insertDIE. I
>>>>>>>>>>>> like isSharableAcrossCUs,
because that is why the map is in DwarfDebug
>>>>>>>>>>>> instead of CompileUnit.
>>>>>>>>>>>>
>>>>>>>>>>> Done in attached patch.
>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>>    Why does addDIEEntry
take a form? When does the caller get
>>>>>>>>>>>>> to choose the form rather
than the callee deciding between ref4 and
>>>>>>>>>>>>> ref_addr based on context?
>>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> addDIEEntry took a form before
my change and I didn't check why
>>>>>>>>>>>> it did.
>>>>>>>>>>>> I will check if all callers
always use ref4, if it it true, I
>>>>>>>>>>>> will submit a cleanup patch
first.
>>>>>>>>>>>>
>>>>>>>>>>> Done in attached patch.
>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>>   I'm still unsure about
this worklist thing - do your current
>>>>>>>>>>>>> tests cover the need for
the worklist? ie: if we removed that logic, would
>>>>>>>>>>>>> tests fail? Can you
describe a specific sequence where the worklist is
>>>>>>>>>>>>> necessary?
>>>>>>>>>>>>>
>>>>>>>>>>>>
>>>>>>>>>>>> If we are sure that DIEs are
always added to an owner before
>>>>>>>>>>>> calling addDIEEntry, we
don't need the worklist.
>>>>>>>>>>>> But I saw cases where that was
not true, I will get a reduced
>>>>>>>>>>>> testing case.
>>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> If we try to assert both DIEs have
owner in addDIEEntry, the
>>>>>>>>>>> following testing cases will fail:
>>>>>>>>>>>     LLVM ::
DebugInfo/X86/multiple-aranges.ll
>>>>>>>>>>>     LLVM ::
DebugInfo/X86/ref_addr_relocation.ll
>>>>>>>>>>>     LLVM ::
DebugInfo/X86/stmt-list-multiple-compile-units.ll
>>>>>>>>>>>     LLVM ::
DebugInfo/two-cus-from-same-file.ll
>>>>>>>>>>>     LLVM ::
Linker/type-unique-simple-a.ll
>>>>>>>>>>>     LLVM ::
Linker/type-unique-simple2.ll
>>>>>>>>>>>
>>>>>>>>>>> For ref_addr_relocation, it failed
in
>>>>>>>>>>> #5  0x0000000100b169ba in
llvm::DwarfDebug::addDIEEntry
>>>>>>>>>>> (this=0x103023600, Die=0x102e14090,
Attribute=73, Entry=0x10302a9d0) at
>>>>>>>>>>>
/Users/manmanren/llvm_git/llvm/lib/CodeGen/AsmPrinter/DwarfDebug.cpp:3071
>>>>>>>>>>> #6  0x0000000100b040e0 in
llvm::CompileUnit::addType
>>>>>>>>>>> (this=0x102e13ec0,
Entity=0x102e14090, Ty={<llvm::DIScope>
>>>>>>>>>>> {<llvm::DIDescriptor> =
{DbgNode = 0x102e05f30}, <No data fields>}, <No
>>>>>>>>>>> data fields>}, Attribute=73) at
>>>>>>>>>>>
/Users/manmanren/llvm_git/llvm/lib/CodeGen/AsmPrinter/DwarfCompileUnit.cpp:910
>>>>>>>>>>> #7  0x0000000100b05bff in
>>>>>>>>>>>
llvm::CompileUnit::createGlobalVariableDIE (this=0x102e13ec0,
>>>>>>>>>>> N=0x102e068c0) at
>>>>>>>>>>>
/Users/manmanren/llvm_git/llvm/lib/CodeGen/AsmPrinter/DwarfCompileUnit.cpp:1505
>>>>>>>>>>>
>>>>>>>>>>> If we look at DwarfCompileUnit.cpp:
>>>>>>>>>>>     VariableDIE = new
DIE(GV.getTag());
>>>>>>>>>>>     // Add to map.
>>>>>>>>>>>     insertDIE(N, VariableDIE);
>>>>>>>>>>>
>>>>>>>>>>>     // Add name and type.
>>>>>>>>>>>     addString(VariableDIE,
dwarf::DW_AT_name,
>>>>>>>>>>> GV.getDisplayName());
>>>>>>>>>>>     addType(VariableDIE, GTy);
>>>>>>>>>>>
>>>>>>>>>>> The VariableDIE is not added to an
owner yet when calling
>>>>>>>>>>> addType.
>>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>>> I believe I have addressed all review
comments, the patches are
>>>>>>>>>> re-attached here for convenience.
>>>>>>>>>>
>>>>>>>>>
>>>>>>>>> So I'm still thinking about the work
list work.
>>>>>>>>>
>>>>>>>>> If we don't know which CU a DIE is in -
isn't it, necessarily,
>>>>>>>>> going to be in the current CU (& thus
referenced by ref_data4 (using a
>>>>>>>>> CU-local offset), not ref_addr)?
>>>>>>>>>
>>>>>>>>
>>>>>>>> That may be true. But can we prove that?
>>>>>>>>
>>>>>>>
>>>>>>> We really shouldn't add extra complexity to the
codebase just
>>>>>>> because we don't know how the codebase works -
that's what leads to the
>>>>>>> kind of complexity we see in the debug info
handling today.
>>>>>>>
>>>>>>
>>>>>>>
>>>>>>>>  There are two ways of handling this:
>>>>>>>> 1> use a worklist to be conservative
>>>>>>>> 2> do not use a worklist, but add an
assertion when emitting a DIE
>>>>>>>> A, make sure the DIE referenced with ref4 is
indeed in the same CU as DIE A.
>>>>>>>>
>>>>>>>
>>>>>>> Please just add this assertion. If it fires
we'll have a test case
>>>>>>> and a concrete justification for this complexity
such that should anyone
>>>>>>> remove it later because it looked unnecessary,
they'll at least have a
>>>>>>> failing test to explain why it was there in the
first plac .
>>>>>>>
>>>>>>
>>>>>> The assertion fails even with a simple testing case
when the
>>>>>> referenced DIE has an owner and the DIE itself does not
have an owner.
>>>>>>
>>>>>
>>>>> OK, sorry - I should've read your description of the
assertion more
>>>>> carefully. I believe the assertion you added wasn't the
right thing to test
>>>>> for.
>>>>>
>>>>> I'm not sure there is a correct assertion to add here
to detect the
>>>>> case you're describing - perhaps a complex verification
after-the-fact
>>>>> could be done, but essentially if we have a DIE that's
partially
>>>>> constructed/has no parent we should assume it's in the
current unit.
>>>>>
>>>>
>>>> Why should we make the assumption that a DIE without a parent
at some
>>>> point should belong to the CU that is constructing the DIE?
>>>>
>>>
>>> Because the code we have today only constructs one CU at a time. I
know
>>> of no code that adds anything to prior CUs. Indeed this may become
an
>>> invariant one day when we do CU-at-a-time DWARF emission to reduce
memory
>>> overhead. There's nothing in the design today that I know of
that would
>>> make CU-at-a-time DWARF emission anything other than trivial. We
build all
>>> the DIEs for a CU in one go, then move on to the next CU - the
CU_Nodes
>>> loop in beginModule does this.
>>>
>>
>> In beginModule, we construct the CUs, but not all the DIEs that belong
to
>> the CU.
>> In endFunction, we started to construct the scope DIEs. So in some
sense,
>> we are adding things to prior CUs.
>>
>> Looking at void CompileUnit::addDIEEntry(DIE *Die, uint16_t Attribute,
>> DIE *Entry), we can possibly have 3 CUs, this CU,
>> the CU Die belongs to (i.e. the CU the parent chain points to), the CU
>> Entry belongs to.
>>
>
> When does "this CU" differ from both the Die and the Entry?
>
The signature of addDIEEntry didn't say that "this CU" should be
the same
as either Die's CU or Entry's CU.
If you think it should not happen, we should put a comment in so other
developers will not violate it.
But that is irrelevant if we are going to make a single assumption:
  "in addDIEEntry, if a DIE is without a parent, it belongs to the CU we
call addDIEEntry on".

>
>
>> When Die or CU does not have an owner, what assumption should we make
>> to decide between ref_addr and ref4 inside addDIEEntry?
>>
>
> The claim Eric and I are making/discussed is that we should assume any DIE
> without a parent is in the current CU and/or that it possibly should never
> come up (I haven't thought through the codepaths carefully here - if we
add
> CUs to their parent before creating their members, I think it should never
> come up).
>
Does "current CU" mean the CU we are calling addDIEEntry on?

>
>
>> If we assume that if Die or Entry does not have an owner, it should
>> belong to this CU, it means:
>> 1> Die or Entry should be constructed by this CU.
>> 2> DIEs that are constructed by CU A should belong to CU A.
>> 3> About DIEs that are constructed directly in DwarfDebug, they
should be
>> added to a CU before calling addDIEEntry.
>>      Another option is to wrap all DIE constructions in a CU, which
>> sounds reasonable for emit-a-CU-at-a-time.
>>
>
> I'm not really sure what you mean by "wrap all DIE constructions
in a CU".
> Even with your change the DIEs are constructed by CUs and just added to the
> appropriate cache (either CU-local, or cross-CU), they're never
constructed
> outside of a CU, are they?
>
I am referring to the "new DIE" in DwarfDebug.cpp, and saying that we
should instead call getOrCreate function on a CU.

>
>
>> How much effort is required to make sure these assumptions are true? We
>> also should have the corresponding assertions to make sure the
assumptions
>> are not violated.
>>
>
> Personally, I'm OK saying "this is the intended design, anything
else is a
> bug" and leaving it at that. If we want to add in the necessary
> infrastructure to assert this is the case, I'm OK with that too.
>
Okay, let's go with the assumption that "in addDIEEntry, if a DIE is
without a parent, it belongs to the CU we can addDIEEntry on".

>
>
>> To implement the assertions, we need to keep a list of all DIEs that
are
>> constructed by a CU.
>>
>
> It shouldn't be hard - we'd add a map of assumptions "we found
this DIE
> without a parent and assumed it was in this CU" then whenever we add a
DIE
> to a parent we would check that map and remove the entry (assert-fail if
> there was a mismatch between assumption and reality).
>
Yes that will verify the single assumption. So in addDIEEntry, if a DIE
(either Die or Entry) has no parent, add it to a map, and in DIE::addChild,
verify the assumption is true and remove it from the map.

>
>> With the ConstructedDIEs, we can verify 1> in addDIEEntry, 2> in
finalize
>> 3> by wrapping all DIE constructions in a CU.
>>
>> I am wondering whether we should make the type uniquing patches depend
on
>> the invariants/assumptions.
>>
>
> If the alternative is introducing defensive and unjustified/untested
> complexity, yes - we must. We cannot tolerate introducing unjustified
> complexity into the codebase - it's the only way we can strive to move
the
> code in a maintainable direction (I contend that it's not maintainable
at
> the moment and it isn't because of changes like this - adding more is
> untenable, removing them is admirable, but hard and something we'll be
> working on for a long time to come).
>
I agree that the backend is not that clean and we should try to clean it
up. But that single assumption seems not really generic. Instead I think
"DIEs that are constructed by CU A should belong to CU A" is more
generic
and it may help us in emit-one-CU-at-a-time.

Manman

>
> - David
>
>
>>
>> Manman
>>
>>
>>>
>>>> The CU constructing a DIE will add the DIE to the context
owner, which
>>>> may not belong to the CU itself.
>>>>
>>>
>>> That's the question, isn't it? When is it ever /not/ the
current CU
>>> under construction?
>>>
>>>
>>>>  In the case that a DIE is added to an owner in DwarfDebug, I
don't
>>>> think we should try to enforce that DwarfDebug will add the DIE
to the CU
>>>> that constructed the DIE earlier.
>>>>
>>>
>>> My claim is that this is already an invariant. That the code you
are
>>> adding is never needed and thus is additional, unjustified/unused
>>> complexity that comes at a cost to all future
developers/development. This
>>> codebase needs /much/ less of this than it already has, let alone
adding
>>> more of it. Though I wouldn't mind an assertion, I suspect
it'll be more
>>> code than is really worth it to keep track of this
information/state.
>>>
>>> I think if we more to CU-at-a-time DWARF emission it'll be more
obvious
>>> that this invariant is true and cannot be violated.
>>>
>>>
>>>>
>>>>
>>>>>  If we can demonstrate a case where this isn't true,
then we should
>>>>> work to address that problem - until we demonstrate that,
we should not
>>>>> (though we might want to search for such cases - but
without type units I
>>>>> can't imagine how they could occur - we build the DIE
tree for one CU at a
>>>>> time, at no point do we have DIEs under construction for
multiple CUs).
>>>>>
>>>>> So if we want to build a reference to a DIE, if the DIE is
not in
>>>>> another CU we should use ref4. (then the only other case is
that it's
>>>>> either in this CU or it's in no known CU at all - in
which case it's under
>>>>> construction and, without evidence to the contrary, will be
added to the
>>>>> current CU when it's done).
>>>>>
>>>>> About the only assertion we could add would involve keeping
a
>>>>> side-table of "assumptions" ("we expect this
DIE will be added to this CU")
>>>>> and check that those assumptions are fulfilled at some
point.
>>>>>
>>>> In my opinion, if we can't verify the assumption with a
reasonable
>>>> amount of effort, then we should not make the assumption.
>>>>
>>>
>>> This leads to unbounded, unjustified complexity that makes the
codebase
>>> impossible to maintain. It just cannot be an acceptable method of
>>> development.
>>>
>>> - David
>>>
>>>
>>>>
>>>> Manman
>>>>
>>>>
>>>>>
>>>>>> For that case, we can't assume ref4 should be used.
I don't think we
>>>>>> can enforce that all DIEs must be added to a parent
before calling
>>>>>> addDIEEntry.
>>>>>>
>>>>>> For the specific testing case, when constructing
children of a scope
>>>>>> DIE, we call addDIEEntry on the children, after that,
we add the children
>>>>>> to the scope DIE.
>>>>>> cat foo.cpp
>>>>>>
>>>>>> #include "a.hpp"
>>>>>> void f(int a) {
>>>>>>   Base t;
>>>>>> }
>>>>>> cat bar.cpp
>>>>>>
>>>>>> #include "a.hpp"
>>>>>> void f(int);
>>>>>> void g(int a) {
>>>>>>   Base t;
>>>>>> }
>>>>>> int main() {
>>>>>>   f(0);
>>>>>>   g(1);
>>>>>>   return 0;
>>>>>> }
>>>>>> cat a.hpp
>>>>>> struct Base {
>>>>>>   int a;
>>>>>> };
>>>>>>
>>>>>> Let me know if I should investigate further.
>>>>>>
>>>>>> Thanks,
>>>>>> Manman
>>>>>>
>>>>>>
>>>>>>>
>>>>>>>
>>>>>>>>
>>>>>>>> Let me know which one you prefer.
>>>>>>>>
>>>>>>>> Do you have any comments on the ref_addr patch
(the 1st patch of
>>>>>>>> the two)?
>>>>>>>>
>>>>>>>
>>>>>>> Nothing much - I wouldn't mind Eric taking a
look (& would rather
>>>>>>> you not commit this until you're committing the
second patch, since it's
>>>>>>> otherwise untested/unjustified code) on the
label/offset related stuff
>>>>>>> since I'm less familiar with that.
>>>>>>>
>>>>>>> There's one or two cases of {} on
single-statement blocks you could
>>>>>>> fix up.
>>>>>>>
>>>>>>> "DebugInfoOffset" (both the member and
the functions to set/get it)
>>>>>>> might be more meaningfully named
"SectionOffset" - but I'm not sure. Eric?
>>>>>>> Other names (DebugInfoSectionOffset?)?
>>>>>>>
>>>>>>> - David
>>>>>>>
>>>>>>
>>>>>>
>>>>>
>>>>
>>>
>>
>
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> In beginModule, we construct the CUs, but not all the DIEs that belong to
>>> the CU.
>>> In endFunction, we started to construct the scope DIEs. So in some
>>> sense, we are adding things to prior CUs.
>>>
>>> Looking at void CompileUnit::addDIEEntry(DIE *Die, uint16_t
Attribute,
>>> DIE *Entry), we can possibly have 3 CUs, this CU,
>>> the CU Die belongs to (i.e. the CU the parent chain points to), the
CU
>>> Entry belongs to.
>>>
>>
>> When does "this CU" differ from both the Die and the Entry?
>>
>
> The signature of addDIEEntry didn't say that "this CU" should
be the same
> as either Die's CU or Entry's CU.
>
No, but the code prior to your patch that's the only really sane thing for
it to do, right? Why would one CompileUnit be dealing with some other CU's
DIEs?

This is why we should carefully think about the new semantics we're
introducing by doing cross-CU DIE references.

> If you think it should not happen, we should put a comment in so other
> developers will not violate it.
> But that is irrelevant if we are going to make a single assumption:
>   "in addDIEEntry, if a DIE is without a parent, it belongs to the CU
we
> call addDIEEntry on".
>
I'm not entirely sure that will be true. In the case of implicit special
members, such as the copy ctor, what could happen is that a later CU might
want to add a member function to an earlier CU. That member function DIE
will be being constructed from within the latter CompileUnit, but its
parent will be the former CU. Walking the parent chain will find the
correct (older CU) because we build the context for a member function and
attach the member function to that context before we build any of its
parameters, template arguments, etc.

>
>
>>
>>
>>> When Die or CU does not have an owner, what assumption should we
make
>>> to decide between ref_addr and ref4 inside addDIEEntry?
>>>
>>
>> The claim Eric and I are making/discussed is that we should assume any
>> DIE without a parent is in the current CU and/or that it possibly
should
>> never come up (I haven't thought through the codepaths carefully
here - if
>> we add CUs to their parent before creating their members, I think it
should
>> never come up).
>>
>
> Does "current CU" mean the CU we are calling addDIEEntry on?
>
Yes, I think that's a reasonable interpretation.

>
>
>>
>>
>>> If we assume that if Die or Entry does not have an owner, it should
>>> belong to this CU, it means:
>>> 1> Die or Entry should be constructed by this CU.
>>> 2> DIEs that are constructed by CU A should belong to CU A.
>>> 3> About DIEs that are constructed directly in DwarfDebug, they
should
>>> be added to a CU before calling addDIEEntry.
>>>      Another option is to wrap all DIE constructions in a CU, which
>>> sounds reasonable for emit-a-CU-at-a-time.
>>>
>>
>> I'm not really sure what you mean by "wrap all DIE
constructions in a
>> CU". Even with your change the DIEs are constructed by CUs and
just added
>> to the appropriate cache (either CU-local, or cross-CU), they're
never
>> constructed outside of a CU, are they?
>>
> I am referring to the "new DIE" in DwarfDebug.cpp, and saying
that we
> should instead call getOrCreate function on a CU.
>
Perhaps I'll need to go back and check your patch, but generally, I tend to
think we should be calling into a CU to build anything ratehr than doing it
'raw' in DwarfDebug.cpp.

>
>
>>
>>
>>> How much effort is required to make sure these assumptions are
true? We
>>> also should have the corresponding assertions to make sure the
assumptions
>>> are not violated.
>>>
>>
>> Personally, I'm OK saying "this is the intended design,
anything else is
>> a bug" and leaving it at that. If we want to add in the necessary
>> infrastructure to assert this is the case, I'm OK with that too.
>>
>
> Okay, let's go with the assumption that "in addDIEEntry, if a DIE
is
> without a parent, it belongs to the CU we can addDIEEntry on".
>
Above counter-example I believe to be true. You should verify that and
other such examples, please.

>
>
>>
>>
>>> To implement the assertions, we need to keep a list of all DIEs
that are
>>> constructed by a CU.
>>>
>>
>> It shouldn't be hard - we'd add a map of assumptions "we
found this DIE
>> without a parent and assumed it was in this CU" then whenever we
add a DIE
>> to a parent we would check that map and remove the entry (assert-fail
if
>> there was a mismatch between assumption and reality).
>>
>
> Yes that will verify the single assumption. So in addDIEEntry, if a DIE
> (either Die or Entry) has no parent, add it to a map, and in DIE::addChild,
> verify the assumption is true and remove it from the map.
>
>
>>
>>> With the ConstructedDIEs, we can verify 1> in addDIEEntry, 2>
in
>>> finalize 3> by wrapping all DIE constructions in a CU.
>>>
>>> I am wondering whether we should make the type uniquing patches
depend
>>> on the invariants/assumptions.
>>>
>>
>> If the alternative is introducing defensive and unjustified/untested
>> complexity, yes - we must. We cannot tolerate introducing unjustified
>> complexity into the codebase - it's the only way we can strive to
move the
>> code in a maintainable direction (I contend that it's not
maintainable at
>> the moment and it isn't because of changes like this - adding more
is
>> untenable, removing them is admirable, but hard and something we'll
be
>> working on for a long time to come).
>>
>
> I agree that the backend is not that clean and we should try to clean it
> up. But that single assumption seems not really generic. Instead I think
> "DIEs that are constructed by CU A should belong to CU A" is more
generic
> and it may help us in emit-one-CU-at-a-time.
>
> Manman
>
>
>>
>> - David
>>
>>
>>>
>>> Manman
>>>
>>>
>>>>
>>>>> The CU constructing a DIE will add the DIE to the context
owner, which
>>>>> may not belong to the CU itself.
>>>>>
>>>>
>>>> That's the question, isn't it? When is it ever /not/
the current CU
>>>> under construction?
>>>>
>>>>
>>>>>  In the case that a DIE is added to an owner in DwarfDebug,
I don't
>>>>> think we should try to enforce that DwarfDebug will add the
DIE to the CU
>>>>> that constructed the DIE earlier.
>>>>>
>>>>
>>>> My claim is that this is already an invariant. That the code
you are
>>>> adding is never needed and thus is additional,
unjustified/unused
>>>> complexity that comes at a cost to all future
developers/development. This
>>>> codebase needs /much/ less of this than it already has, let
alone adding
>>>> more of it. Though I wouldn't mind an assertion, I suspect
it'll be more
>>>> code than is really worth it to keep track of this
information/state.
>>>>
>>>> I think if we more to CU-at-a-time DWARF emission it'll be
more obvious
>>>> that this invariant is true and cannot be violated.
>>>>
>>>>
>>>>>
>>>>>
>>>>>>  If we can demonstrate a case where this isn't
true, then we should
>>>>>> work to address that problem - until we demonstrate
that, we should not
>>>>>> (though we might want to search for such cases - but
without type units I
>>>>>> can't imagine how they could occur - we build the
DIE tree for one CU at a
>>>>>> time, at no point do we have DIEs under construction
for multiple CUs).
>>>>>>
>>>>>> So if we want to build a reference to a DIE, if the DIE
is not in
>>>>>> another CU we should use ref4. (then the only other
case is that it's
>>>>>> either in this CU or it's in no known CU at all -
in which case it's under
>>>>>> construction and, without evidence to the contrary,
will be added to the
>>>>>> current CU when it's done).
>>>>>>
>>>>>> About the only assertion we could add would involve
keeping a
>>>>>> side-table of "assumptions" ("we expect
this DIE will be added to this CU")
>>>>>> and check that those assumptions are fulfilled at some
point.
>>>>>>
>>>>> In my opinion, if we can't verify the assumption with a
reasonable
>>>>> amount of effort, then we should not make the assumption.
>>>>>
>>>>
>>>> This leads to unbounded, unjustified complexity that makes the
codebase
>>>> impossible to maintain. It just cannot be an acceptable method
of
>>>> development.
>>>>
>>>> - David
>>>>
>>>>
>>>>>
>>>>> Manman
>>>>>
>>>>>
>>>>>>
>>>>>>> For that case, we can't assume ref4 should be
used. I don't think we
>>>>>>> can enforce that all DIEs must be added to a parent
before calling
>>>>>>> addDIEEntry.
>>>>>>>
>>>>>>> For the specific testing case, when constructing
children of a scope
>>>>>>> DIE, we call addDIEEntry on the children, after
that, we add the children
>>>>>>> to the scope DIE.
>>>>>>> cat foo.cpp
>>>>>>>
>>>>>>> #include "a.hpp"
>>>>>>> void f(int a) {
>>>>>>>   Base t;
>>>>>>> }
>>>>>>> cat bar.cpp
>>>>>>>
>>>>>>> #include "a.hpp"
>>>>>>> void f(int);
>>>>>>> void g(int a) {
>>>>>>>   Base t;
>>>>>>> }
>>>>>>> int main() {
>>>>>>>   f(0);
>>>>>>>   g(1);
>>>>>>>   return 0;
>>>>>>> }
>>>>>>> cat a.hpp
>>>>>>> struct Base {
>>>>>>>   int a;
>>>>>>> };
>>>>>>>
>>>>>>> Let me know if I should investigate further.
>>>>>>>
>>>>>>> Thanks,
>>>>>>> Manman
>>>>>>>
>>>>>>>
>>>>>>>>
>>>>>>>>
>>>>>>>>>
>>>>>>>>> Let me know which one you prefer.
>>>>>>>>>
>>>>>>>>> Do you have any comments on the ref_addr
patch (the 1st patch of
>>>>>>>>> the two)?
>>>>>>>>>
>>>>>>>>
>>>>>>>> Nothing much - I wouldn't mind Eric taking
a look (& would rather
>>>>>>>> you not commit this until you're committing
the second patch, since it's
>>>>>>>> otherwise untested/unjustified code) on the
label/offset related stuff
>>>>>>>> since I'm less familiar with that.
>>>>>>>>
>>>>>>>> There's one or two cases of {} on
single-statement blocks you could
>>>>>>>> fix up.
>>>>>>>>
>>>>>>>> "DebugInfoOffset" (both the member
and the functions to set/get it)
>>>>>>>> might be more meaningfully named
"SectionOffset" - but I'm not sure. Eric?
>>>>>>>> Other names (DebugInfoSectionOffset?)?
>>>>>>>>
>>>>>>>> - David
>>>>>>>>
>>>>>>>
>>>>>>>
>>>>>>
>>>>>
>>>>
>>>
>>
>
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