Commit Graph

3429 Commits

Author SHA1 Message Date
Paul Robinson 75aa3d520d Add a DIExpression const-folder to prevent silly expressions.
It's entirely possible (because it actually happened) for a bool
variable to end up with a 256-bit DW_AT_const_value.  This came about
when a local bool variable was initialized from a bitfield in a
32-byte struct of bitfields, and after inlining and constant
propagation, the variable did have a constant value. The sequence of
optimizations had it carrying "i256" values around, but once the
constant made it into the llvm.dbg.value, no further IR changes could
affect it.

Technically the llvm.dbg.value did have a DIExpression to reduce it
back down to 8 bits, but the compiler is in no way ready to emit an
oversized constant *and* a DWARF expression to manipulate it.
Depending on the circumstances, we had either just the very fat bool
value, or an expression with no starting value.

The sequence of optimizations that led to this state did seem pretty
reasonable, so the solution I came up with was to invent a DWARF
constant expression folder.  Currently it only does convert ops, but
there's no reason it couldn't do other ops if that became useful.

This broke three tests that depended on having convert ops survive
into the DWARF, so I added an operator that would abort the folder to
each of those tests.

Differential Revision: https://reviews.llvm.org/D106915
2021-08-05 06:14:40 -07:00
Alexander Yermolovich 5a865b0b1e [DWARF] Don't process .debug_info relocations for DWO Context
When we build with split dwarf in single mode the .o files that contain both "normal" debug sections and dwo sections, along with relocaiton sections for "normal" debug sections.
When we create DWARF context in DWARFObjInMemory we process relocations and store them in the map for .debug_info, etc section.
For DWO Context we also do it for non dwo dwarf sections. Which I believe is not necessary. This leads to a lot of memory being wasted. We observed 70GB extra memory being used.

I went with context sensitive approach, flag is passed in. I am not sure if it's always safe not to process relocations for regular debug sections if Obj contains .dwo sections.
If it is alternatvie might be just to scan, in constructor, sections and if there are .dwo sections not to process regular debug ones.

Reviewed By: dblaikie

Differential Revision: https://reviews.llvm.org/D106624
2021-08-02 10:41:47 -07:00
Adrian Prantl c5d84d2eb3 GlobalISel/AArch64: don't optimize away redundant branches at -O0
This patch prevents GlobalISel from optimizing out redundant branch
instructions when compiling without optimizations.

The motivating example is code like the following common pattern in
Swift, where users expect to be able to set a breakpoint on the early
exit:

public func f(b: Bool) {
  guard b else {
    return // I would like to set a breakpoint here.
  }
  ...
}

The patch modifies two places in GlobalISEL: The first one is in
IRTranslator.cpp where the removal of redundant branches is made
conditional on the optimization level. The second one is in
AArch64InstructionSelector.cpp where an -O0 *only* optimization is
being removed.

Disabling these optimizations increases code size at -O0 by
~8%. However, doing so improves debuggability, and debug builds are
the primary reason why developers compile without optimizations. We
thus concluded that this is the right trade-off.

rdar://79515454

This tenatively reapplies the patch without modifications, the LLDB
test that has blocked this from landing previously has since been
modified to hopefully no longer be sensitive to this change.

Differential Revision: https://reviews.llvm.org/D105238
2021-07-29 16:04:22 -07:00
Alexander Yermolovich 5856632252 [DWARF] Refactor test to remove relocations for DWO
The way this test generates object file results in relocation sections for .dwo sections. This is not legal. Re-wrote it to avoid those relocation sections.

Reviewed By: dblaikie

Differential Revision: https://reviews.llvm.org/D107012
2021-07-29 13:14:25 -07:00
Jeremy Morse 8612417e5a [DebugInfo][InstrRef] Don't break up ret-sequences on debug-info instrs
When we have a terminator sequence (i.e. a tailcall or return),
MIIsInTerminatorSequence is used to work out where the preceding ABI-setup
instructions end, i.e. the parts that were glued to the terminator
instruction. This allows LLVM to split blocks safely without having to
worry about ABI stuff.

The function only ignores DBG_VALUE instructions, meaning that the two
debug instructions I recently added can end terminator sequences early,
causing various MachineVerifier errors. This patch promotes the test for
debug instructions from "isDebugValue" to "isDebugInstr", thus avoiding any
debug-info interfering with this function.

Differential Revision: https://reviews.llvm.org/D106660
2021-07-28 15:56:00 +01:00
Jeremy Morse 7dc9d73731 [DebugInfo][InstrRef] Handle llvm.frameaddress intrinsics gracefully
When working out which instruction defines a value, the
instruction-referencing variable location code has a few special cases for
physical registers:
 * Arguments are never defined by instructions,
 * Constant physical registers always read the same value, are never def'd

This patch adds a third case for the llvm.frameaddress intrinsics: you can
read the framepointer in any block if you so choose, and use it as a
variable location, as shown in the added test.

This rather violates one of the assumptions behind instruction referencing,
that LLVM-ir shouldn't be able to read from an arbitrary register at some
arbitrary point in the program. The solution for now is to just emit a
DBG_PHI that reads the register value: this works, but if we wanted to do
something clever with DBG_PHIs in the future then this would probably get
in the way. As it stands, this patch avoids a crash.

Differential Revision: https://reviews.llvm.org/D106659
2021-07-27 13:44:37 +01:00
Matheus Izvekov f84c70a379 [CodeView] Saturate values bigger than supported by APInt.
This fixes an assert firing when compiling code which involves 128 bit
integrals.

This would trigger runtime checks similar to this:
```
Assertion failed: getMinSignedBits() <= 64 && "Too many bits for int64_t", file llvm/include/llvm/ADT/APInt.h, line 1646
```

To get around this, we just saturate those big values.

Reviewed By: rnk

Differential Revision: https://reviews.llvm.org/D105320
2021-07-26 22:15:26 +02:00
Jeremy Morse f86694cb80 [InstrRef][AArch64][1/4] Accept constant physreg variable locations
Late in SelectionDAG we join up instruction numbers with their defining
instructions, if it couldn't be done during the main part of SelectionDAG.
One exception is function arguments, where we have to point a DBG_PHI
instruction at the incoming live register, as they don't have a defining
instruction. This patch adds another exception, for constant physregs, like
aarch64 has.

It may seem wasteful to use two instructions where we could use a single
DBG_VALUE, however the whole point of instruction referencing is to
decouple the identification of values from the specification of where
variable location ranges start.

(Part of my aarch64 work to ease adoption of  instruction referencing, as
in the meta comment on D104520)

Differential Revision: https://reviews.llvm.org/D104520
2021-07-26 15:26:15 +01:00
Esme-Yi 0d3e4d9d4d [Debug-Info][llvm-dwarfdump] Don't use DW_FORM_data4/8
to encode the constants for DW_AT_data_member_location.

Summary: In DWARF v3, DW_FORM_data4/8 in
DW_AT_data_member_location are interpreted as location
list pointers. Interpreting constants as pointers is
not expected, so we use DW_FORM_udata to encode the
constants.

Reviewed By: probinson

Differential Revision: https://reviews.llvm.org/D105687
2021-07-26 03:47:02 +00:00
Fangrui Song 2f75fda5dc [test] Avoid llvm-symbolizer/llvm-addr2line one-dash long options 2021-07-20 09:34:35 -07:00
Jeremy Morse 241f3e386c [DebugInfo][InstrRef] Fix a broken substitution method, add test coverage
This patch fixes a clearly-broken function that I absent-mindedly bodged
many months ago.

Over in D85749 I landed the substituteDebugValuesForInst, that creates
substitution records for all the def operands from one debug-labelled
instruction to the new one. Unfortunately it would crash if the two
instructions had different numbers of operands; I tried to fix this in
537f0fbe82 by adding a "max operand" parameter to the method, but then
didn't actually change the loop bound to take account of this. It passed
all the tests because.... well there wasn't any real test coverage of this
method.

This patch fixes up the loop to be bounded by the MaxOperand bound; and
adds test coverage for the x86-fixup-LEAs calls to this method, so that
it's actually tested.

Differential Revision: https://reviews.llvm.org/D105820
2021-07-20 11:45:13 +01:00
Jeremy Morse f46321207f [InstrRef][X86] Drop debug instruction numbers from x87 instructions
Avoid a crash when using instruction referencing if x87 floating point
instructions are used. These instructions are significantly mutated when
they're rewritten from referring to registers, to referring to
floating-point-stack positions. As a result, their operands are re-ordered,
and (InstrRef) LiveDebugValues asserts when it sees a DBG_INSTR_REF
referring to a non-reg non-def register operand.

To fix this, drop the instruction numbers, and thus variable locations.
This patch adds a helper utility do do that.

Dropping the variable locations is sub-optimal, but applying DBG_VALUEs to
the $fp0 and similar registers is dropped on emission too. It seems we've
never done well at describing variables that live in x87 registers, at all.

Differential Revision: https://reviews.llvm.org/D105657
2021-07-19 15:08:27 +01:00
Jeremy Morse 231bf52119 [InstrRef][FastISel] Support emitting DBG_INSTR_REF from fast-isel
If you attach __attribute__((optnone)) to a function when using
optimisations, that function will use fast-isel instead of the usual
SelectionDAG method. This is a problem for instruction referencing,
because it means DBG_VALUEs of virtual registers will be created,
triggering some safety assertions in LiveDebugVariables. Those assertions
exist to detect exactly this scenario, where an unexpected piece of code is
generating virtual register references in instruction referencing mode.

Fix this by transforming the DBG_VALUEs created by fast-isel into
half-formed DBG_INSTR_REFs, after which they get patched up in
finalizeDebugInstrRefs. The test modified adds a fast-isel mode to the
instruction referencing isel test.

Differential Revision: https://reviews.llvm.org/D105694
2021-07-16 13:56:15 +01:00
Fangrui Song aa3df8ddcd [test] Avoid llvm-readelf/llvm-readobj one-dash long options and deprecated aliases (e.g. --file-headers) 2021-07-15 10:26:21 -07:00
Stephen Tozer 47633af9d4 Reapply "[DebugInfo] Enable variadic debug value salvaging"
Reapplied after previous build failures were fixed in 14b62f7e2.

This reverts commit 540b4a5fb3.
2021-07-15 12:54:51 +01:00
Djordje Todorovic fa2daaeff8 [2/2][RemoveRedundantDebugValues] Add a Pass that removes redundant DBG_VALUEs
This patch adds the forward scan for finding redundant DBG_VALUEs.

This analysis aims to remove redundant DBG_VALUEs by going forward
in the basic block by considering the first DBG_VALUE as a valid
until its first (location) operand is not clobbered/modified.
For example:

(1) DBG_VALUE $edi, !"var1", ...
(2) <block of code that does affect $edi>
(3) DBG_VALUE $edi, !"var1", ...
 ...
in this case, we can remove (3).

Differential Revision: https://reviews.llvm.org/D105280
2021-07-15 00:08:31 -07:00
Wolfgang Pieb d1116697be [ARM] Fix RELA relocations for 32bit ARM.
RELA relocations for 32 bit ARM ignored the addend. Some tools generate
them instead of REL type relocations. This fixes PR50473.

    Reviewed By: MaskRay, peter.smith

    Differential Revision: https://reviews.llvm.org/D105214
2021-07-14 14:27:15 -07:00
Djordje Todorovic df686842bc [RemoveRedundantDebugValues] Add a Pass that removes redundant DBG_VALUEs
This new MIR pass removes redundant DBG_VALUEs.

After the register allocator is done, more precisely, after
the Virtual Register Rewriter, we end up having duplicated
DBG_VALUEs, since some virtual registers are being rewritten
into the same physical register as some of existing DBG_VALUEs.
Each DBG_VALUE should indicate (at least before the LiveDebugValues)
variables assignment, but it is being clobbered for function
parameters during the SelectionDAG since it generates new DBG_VALUEs
after COPY instructions, even though the parameter has no assignment.
For example, if we had a DBG_VALUE $regX as an entry debug value
representing the parameter, and a COPY and after the COPY,
DBG_VALUE $virt_reg, and after the virtregrewrite the $virt_reg gets
rewritten into $regX, we'd end up having redundant DBG_VALUE.

This breaks the definition of the DBG_VALUE since some analysis passes
might be built on top of that premise..., and this patch tries to fix
the MIR with the respect to that.

This first patch performs bacward scan, by trying to detect a sequence of
consecutive DBG_VALUEs, and to remove all DBG_VALUEs describing one
variable but the last one:

For example:

(1) DBG_VALUE $edi, !"var1", ...
(2) DBG_VALUE $esi, !"var2", ...
(3) DBG_VALUE $edi, !"var1", ...
 ...

in this case, we can remove (1).

By combining the forward scan that will be introduced in the next patch
(from this stack), by inspecting the statistics, the RemoveRedundantDebugValues
removes 15032 instructions by using gdb-7.11 as a testbed.

Differential Revision: https://reviews.llvm.org/D105279
2021-07-14 04:29:42 -07:00
Stephen Tozer 810e4c3c66 [DebugInfo] Correctly update dbg.values with duplicated location ops
This patch fixes code that incorrectly handled dbg.values with duplicate
location operands, i.e. !DIArgList(i32 %a, i32 %a). The errors in
question were caused by either applying an update to dbg.value multiple
times when the update is only valid once, or by updating the
DIExpression for only the first instance of a value that appears
multiple times.

Differential Revision: https://reviews.llvm.org/D105831
2021-07-14 11:17:24 +01:00
Fangrui Song fada2782cf [llc] Default MCUseDwarfDirectory to true
For Clang, `MCUseDwarfDirectory` is true by default for the majority cases
(-fintegrated-as or -gdwarf-5; most targets use -fintegrated-as by default).
Defaulting MCUseDwarfDirectory to true can reduce the differences between clang
and llc.

Reviewed By: #debug-info, dblaikie

Differential Revision: https://reviews.llvm.org/D105856
2021-07-12 17:44:02 -07:00
David Blaikie 09cdcf09b5 Fix windows directory separator some more for test from b447b9dce0 2021-07-10 19:07:41 -07:00
David Blaikie b447b9dce0 Reapply "llvm-symbolizer: Fix "start file" to work with Split DWARF"
Originally committed as 04c203e310
Reverted in 768510632c due to the test
failing when encountering windows directory separators.

Fix the path separator platform issue with a FileCheck pattern {{[/\\]}}

Original commit message:

A followup to the feature added in 69da27c749
that added the optional "start file name" to match "start line" - but this
didn't work with Split DWARF because of the need for the decl file number
resolution code to refer back to the skeleton unit to find its .debug_line
contribution. So this patch adds the necessary infrastructure to track the
skeleton unit corresponding to a split full unit for the purpose of this
lookup.
2021-07-10 18:50:55 -07:00
Nico Weber 768510632c Revert "llvm-symbolizer: Fix "start file" to work with Split DWARF"
This reverts commit 04c203e310.
Test fails on Windows.
2021-07-10 13:35:05 -04:00
David Blaikie 04c203e310 llvm-symbolizer: Fix "start file" to work with Split DWARF
A followup to the feature added in
69da27c749 that added the optional "start
file name" to match "start line" - but this didn't work with Split DWARF
because of the need for the decl file number resolution code to refer
back to the skeleton unit to find its .debug_line contribution. So this
patch adds the necessary infrastructure to track the skeleton unit
corresponding to a split full unit for the purpose of this lookup.
2021-07-09 18:31:32 -07:00
Jeremy Morse 30cce54dad [X86] Return src/dest register from stack spill/restore recogniser
LLVM provides target hooks to recognise stack spill and restore
instructions, such as isLoadFromStackSlot, and it also provides post frame
elimination versions such as isLoadFromStackSlotPostFE. These are supposed
to return the store-source and load-destination registers; unfortunately on
X86, the PostFE recognisers just return "1", apparently to signify "yes
it's a spill/load". This patch alters the hooks to correctly return the
store-source and load-destination registers:

This is really useful for debug-info as we it helps follow variable values
as they move on/off the stack. There should be no codegen changes: the only
other users of these PostFE target hooks are MachineInstr::getRestoreSize
and MachineInstr::getSpillSize, which don't attempt to interpret the
returned register location.

While we're here, delete the (InstrRef) LiveDebugValues heuristic that
tries to find the spill source register by looking for a killed reg -- we
should be able to rely on the target hooks for that. This involves
temporarily turning off a n InstrRef LivedDebugValues test on aarch64
(patch to re-enable it is in D104521).

Differential Revision: https://reviews.llvm.org/D105428
2021-07-09 18:12:30 +01:00
zhijian 841077a7e9 [AIX][XCOFF] Use bit order of has_vec and longtbtable bits as defined in AIX header debug.h
Summary:

  The bit order of the has_vec and longtbtable bits in the traceback table generated by the XL compiler flipped at some point after v12.1. This is different from the definition is the AIX header debug.h. The change in the XL compiler that caused the deviation from the OS header definition was unintentional. Since both orderings are extant and the XL compiler runtime also expects the ordering defined by the OS, we will correct the output from LLVM to match the defined ordering given by the OS (which is also consistent with the Assembler Language Reference). Mitigation for traceback tables encoded with the wrong ordering is required for either ordering.

Reviewers: XingXue, HubertTong
Differential Revision: https://reviews.llvm.org/D105487
2021-07-09 11:06:46 -04:00
Muhammad Omair Javaid 932e3d9960 Revert "GlobalISel/AArch64: don't optimize away redundant branches at -O0"
This reverts commit 458c230b5e.

This broke LLDB buildbot testcase where breakpoint set at start of loop
failed to hit. https://lab.llvm.org/buildbot/#/builders/96/builds/9404

https://github.com/llvm/llvm-project/blob/main/lldb/test/API/commands/process/attach/main.cpp#L15

Differential Revision: https://reviews.llvm.org/D105238
2021-07-09 08:23:36 +05:00
Jeremy Morse 63cc251eb9 [DebugInfo][InstrRef][4/4] Support DBG_INSTR_REF through all backend passes
This is a cleanup patch -- we're now able to support all flavours of
variable location in instruction referencing mode. This patch updates
various tests for debug instructions to be broader: numerous code paths
try to ignore debug isntructions, and they now have to ignore the
additional DBG_PHI and DBG_INSTR_REFs that we can generate.

A small amount of rework happens for LiveDebugVariables: as we don't need
to track live intervals through regalloc any more, we can get away with
unlinking debug instructions before regalloc, then re-inserting them after.
Note that this isn't (yet) true of DBG_VALUE_LISTs, they still have to go
through live interval tracking.

In SelectionDAG, add a helper lambda that emits half-formed DBG_INSTR_REFs
for arguments in instr-ref mode, DBG_VALUE otherwise. This is one of the
final locations where DBG_VALUEs are emitted for vreg arguments.

X86InstrInfo now un-sets the debug instr number on SUB instructions that
get mutated into CMP instructions. As the instruction no longer computes a
subtraction, we can't use it for variable locations.

Differential Revision: https://reviews.llvm.org/D88898
2021-07-08 16:42:24 +01:00
Adrian Prantl 458c230b5e GlobalISel/AArch64: don't optimize away redundant branches at -O0
This patch prevents GlobalISel from optimizing out redundant branch
instructions when compiling without optimizations.

The motivating example is code like the following common pattern in
Swift, where users expect to be able to set a breakpoint on the early
exit:

public func f(b: Bool) {
  guard b else {
    return // I would like to set a breakpoint here.
  }
  ...
}

The patch modifies two places in GlobalISEL: The first one is in
IRTranslator.cpp where the removal of redundant branches is made
conditional on the optimization level. The second one is in
AArch64InstructionSelector.cpp where an -O0 *only* optimization is
being removed.

Disabling these optimizations increases code size at -O0 by
~8%. However, doing so improves debuggability, and debug builds are
the primary reason why developers compile without optimizations. We
thus concluded that this is the right trade-off.

rdar://79515454

Differential Revision: https://reviews.llvm.org/D105238
2021-07-07 12:51:55 -07:00
Jeremy Morse 2b2ffb7bdc [DebugInfo][InstrRef][3/4] Produce DBG_INSTR_REFs for all variable locations
This patch emits DBG_INSTR_REFs for two remaining flavours of variable
locations that weren't supported: copies, and inter-block VRegs. There are
still some locations that must be represented by DBG_VALUE such as
constants, but they're mostly independent of optimisations.

For variable locations that refer to values defined in different blocks,
vregs are allocated before isel begins, but the defining instruction
might not exist until late in isel. To get around this, emit
DBG_INSTR_REFs in a "half done" state, where the first operand refers to a
VReg. Then at the end of isel, patch these back up to refer to
instructions, using the finalizeDebugInstrRefs method.

Copies are something that I complained about the original RFC, and I
really don't want to have to put instruction numbers on copies. They don't
define a value: they move them. To address this isel, salvageCopySSA
interprets:
 * COPYs,
 * SUBREG_TO_REG,
 * Anything that isCopyInstr thinks is a copy.
And follows chains of copies back to the defining instruction that they
read from. This relies on any physical registers that COPYs read being
defined in the same block, or being entry-block arguments. For the former
we can put an instruction number on the defining instruction; for the
latter we can drop a DBG_PHI that reads the incoming value.

Differential Revision: https://reviews.llvm.org/D88896
2021-07-06 18:31:38 +01:00
Stephen Tozer 14b62f7e2f [DebugInfo] CGP+HWasan: Handle dbg.values with duplicate location ops
This patch fixes an issue which occurred in CodeGenPrepare and
HWAddressSanitizer, which both at some point create a map of Old->New
instructions and update dbg.value uses of these. They did this by
iterating over the dbg.value's location operands, and if an instance of
the old instruction was found, replaceVariableLocationOp would be
called on that dbg.value. This would cause an error if the same operand
appeared multiple times as a location operand, as the first call to
replaceVariableLocationOp would update all uses of the old instruction,
invalidating the old iterator and eventually hitting an assertion.

This has been fixed by no longer iterating over the dbg.value's location
operands directly, but by first collecting them into a set and then
iterating over that, ensuring that we never attempt to replace a
duplicated operand multiple times.

Differential Revision: https://reviews.llvm.org/D105129
2021-07-05 10:35:19 +01:00
Jeremy Morse e9641c911e [DebugInfo][InstrRef][2/4] Use subreg substitutions in LiveDebugValues
Added in 47c3fe2a22, we sometimes need to describe a variable value
substitution with a subregister qualifier, to say that "the value is the
lower 32 bits of this 64 bit register def" for example. That then needs
support during LiveDebugValues to interpret the subregister qualifiers,
which is what this patch adds.

Whenever we encounter a DBG_INSTR_REF and find its value by using a
substitution, collect any subregister qualifiers seen. Then, accumulate the
effects of the qualifiers to work out what offset and what size should be
extracted from the defined register. Finally, for the target ValueIDNum,
extract whatever subregister is in the correct position

Currently, describing a subregister field of a larger value that has been
spilt to the stack, is unimplemented.

Differential Revision: https://reviews.llvm.org/D88894
2021-07-01 13:07:16 +01:00
Jeremy Morse 47c3fe2a22 [DebugInfo][InstrRef][1/4] Support transformations that widen values
Very late in compilation, backends like X86 will perform optimisations like
this:

    $cx = MOV16rm $rax, ...
    ->
    $rcx = MOV64rm $rax, ...

Widening the load from 16 bits to 64 bits. SEeing how the lower 16 bits
remain the same, this doesn't affect execution. However, any debug
instruction reference to the defined operand now refers to a 64 bit value,
nto a 16 bit one, which might be unexpected. Elsewhere in codegen, there's
often this pattern:

    CALL64pcrel32 @foo, implicit-def $rax
    %0:gr64 = COPY $rax
    %1:gr32 = COPY %0.sub_32bit

Where we want to refer to the definition of $eax by the call, but don't
want to refer the copies (they don't define values in the way
LiveDebugValues sees it). To solve this, add a subregister field to the
existing "substitutions" facility, so that we can describe a field within
a larger value definition. I would imagine that this would be used most
often when a value is widened, and we need to refer to the original,
narrower definition.

Differential Revision: https://reviews.llvm.org/D88891
2021-07-01 11:19:27 +01:00
Jeremy Morse 1575583f2a [LiveDebugValues][InstrRef][2/2] Emit entry value variable locations
This patch adds support to the instruction-referencing LiveDebugValues
implementation for emitting entry values. The instruction referencing
implementations tracking by value rather than location means that we can
get around two of the issues with VarLocs. DBG_VALUE instructions that
re-assign the same value to a variable are no longer a problem, because we
can "see through" to the value being assigned. We also don't need to do
anything special during the dataflow stages: the "variable value problem"
doesn't need to know whether a value is available most of the time, and the
times it deoes need to know are always when entry values need to be
terminated.

The patch modifies the "TransferTracker" class, adding methods to identify
when a variable ias an entry value candidate, and when a machine value is
an entry value. recoverAsEntryValue tests these two things and emits an
entry-value expression if they're true. It's used when we clobber or
otherwise lose a value and can't find a replacement location for the value
it contained.

Differential Revision: https://reviews.llvm.org/D88406
2021-06-30 23:07:39 +01:00
Matt Arsenault fae05692a3 CodeGen: Print/parse LLTs in MachineMemOperands
This will currently accept the old number of bytes syntax, and convert
it to a scalar. This should be removed in the near future (I think I
converted all of the tests already, but likely missed a few).

Not sure what the exact syntax and policy should be. We can continue
printing the number of bytes for non-generic instructions to avoid
test churn and only allow non-scalar types for generic instructions.

This will currently print the LLT in parentheses, but accept parsing
the existing integers and implicitly converting to scalar. The
parentheses are a bit ugly, but the parser logic seems unable to deal
without either parentheses or some keyword to indicate the start of a
type.
2021-06-30 16:54:13 -04:00
Jeremy Morse 4955544162 [LiveDebugValues][InstrRef][1/2] Recover more clobbered variable locations
In various circumstances, when we clobber a register there may be
alternative locations that the value is live in. The classic example would
be a value loaded from the stack, and then clobbered: the value is still
available on the stack. InstrRefBasedLDV was coping with this at block
starts where it's forced to pick a location, however it wasn't searching
for alternative locations when values were clobbered.

This patch notifies the "Transfer Tracker" object when clobbers occur, and
it's able to find alternatives and issue DBG_VALUEs for that location. See:
the added test.

Differential Revision: https://reviews.llvm.org/D88405
2021-06-30 16:56:25 +01:00
Jeremy Morse 010108bb2c [DebugInstrRef][3/3] Follow DBG_PHI instructions through LiveDebugValues
This patch reads machine value numbers from DBG_PHI instructions (marking
where SSA PHIs used to be), and matches them up with DBG_INSTR_REF
instructions that refer to them. Essentially they are two separate parts of
a DBG_VALUE: the place to read the value (register and program position),
and where the variable is assigned that value.

Sometimes these DBG_PHIs can be duplicated, usually by tail duplication.
This corresponds to the SSA structure of the program being destroyed, and
the original PHI being split. When this happens: run LLVMs standard
SSAUpdater utility, to work out what values should appear in which blocks.
The majority of this patch is boilerplate to make use of SSAUpdater.

If there are any additional PHIs on the path between multiple DBG_PHIs and
their using DBG_INSTR_REF, their existance is validated, just in case a
value gets clobbered along the way (see dbg-phis-with-loops.mir for
several examples).

Differential Revision: https://reviews.llvm.org/D86814
2021-06-29 14:45:13 +01:00
Soham Dixit 51d969dc27 [DebugInfo] Bug 41152 - Improve dumping of empty location expressions
Fixes PR41152 (https://bugs.llvm.org/show_bug.cgi?id=41152).

Reviewed by: jhenderson, dblaikie, SouraVX

Differential Revision: https://reviews.llvm.org/D103502
2021-06-29 09:21:00 +01:00
Nico Weber 540b4a5fb3 Revert "[DebugInfo] Enable variadic debug value salvaging"
This reverts commit adace79652.
Still breaks things, see comment on https://reviews.llvm.org/D91722
2021-06-28 11:25:09 -04:00
David Blaikie 1b112c80a6 PR37255: DebugInfo: LTO with -g inlined into -gmlt combined with Split DWARF without CU cross-references
A combination of features ^ that lead to a mismatch of expectations
about how a subprogram definition DIE would be produced with/without a
declaration when taking full -g debug info and inlining it into a -gmlt
CU - specifically when using Split DWARF that doesn't support cross-CU
references, so we have to put the -g debug info into the -gmlt CU, which
gets confusing about which mode is respected.

This patch comes down on respecting the CU the debug info is emitted
into, rather than preserving the full debug info when it's emitted into
the gmlt CU.
2021-06-27 14:40:38 -07:00
Stephen Tozer adace79652 [DebugInfo] Enable variadic debug value salvaging
This patch enables the salvaging of debug values that may be calculated
from more than one SSA value, such as with binary operators that do not
use a constant argument. The actual functionality for this behaviour is
added in a previous commit (c7270567), but with the ability to actually
emit the resulting debug values switched off.

The reason for this is that the prior patch has been reverted several
times due to issues discovered downstream, some time after the actual
landing of the patch. The patch in question is rather large and touches
several widely used header files, and all issues discovered are more
related to the handling of variadic debug values as a whole rather than
the details of the patch itself. Therefore, to minimize the build time
impact and risk of conflicts involved in any potential future
revert/reapply of that patch, this significantly smaller patch (that
touches no header files) will instead be used as the capstone to enable
variadic debug value salvaging.

The review linked to this patch is mostly implemented by the previous
commit, c7270567, but also contains the changes in this patch.

Differential Revision: https://reviews.llvm.org/D91722
2021-06-24 13:16:29 +01:00
Stephen Tozer c72705678c Partial Reapply "[DebugInfo] Use variadic debug values to salvage BinOps and GEP instrs with non-const operands"
This is a partial reapply of the original commit and the followup commit
that were previously reverted; this reapply also includes a small fix
for a potential source of non-determinism, but also has a small change
to turn off variadic debug value salvaging, to ensure that any future
revert/reapply steps to disable and renable this feature do not risk
causing conflicts.

Differential Revision: https://reviews.llvm.org/D91722

This reverts commit 386b66b2fc.
2021-06-24 09:46:38 +01:00
Adrian Prantl 7a38a757a1 Move dwarfdump-invalid.test into the tools/llvm-dwarfdump directory. 2021-06-23 12:00:34 -07:00
Adrian Prantl 5076d27ff0 Update test after https://reviews.llvm.org/D104483 2021-06-23 11:50:39 -07:00
Hendrik Greving 96994427f2 RegisterCoalescer: Fix iterating through use operands.
Fixes a minor bug when trying to iterate through use operands when
updating debug use operands.

Extends a test to include above.

Differential Revision: https://reviews.llvm.org/D104576
2021-06-21 09:17:54 -07:00
Krzysztof Parzyszek c1e6d25a02 XFAIL a testcase on Hexagon (missing-abstract-variable.ll)
This seems to be a common problem among several architectures.
2021-06-18 13:15:19 -05:00
Andrew Litteken 2c21278e74 [IROutliner] Adding DebugInfo handling for IR Outlined Functions
This adds support for functions outlined by the IR Outliner to be
recognized by the debugger.  The expected behavior is that it will
skip over the instructions included in that section.  This is due to the
fact that we can not say which of the original locations the
instructions originated from.

These functions will show up in the call stack, but you cannot step
through them.

Reviewers: paquette, vsk, djtodoro

Differential Revision: https://reviews.llvm.org/D87302
2021-06-15 10:57:08 -05:00
CarlosAlbertoEnciso 5e92cbddb9 Revert "[NFC] This is a test commit to check commit access."
This reverts commit b4d40e19de.
2021-06-15 06:25:22 +01:00
Carlos Alberto Enciso b4d40e19de [NFC] This is a test commit to check commit access.
Add full stop at the end of comment.
2021-06-15 06:20:31 +01:00
zhijian 7ed515d168 [AIX][XCOFF] emit vector info of traceback table.
Summary:

emit vector info of traceback table.

Reviewers: Jason Liu,Hubert Tong
Differential Revision: https://reviews.llvm.org/D93659
2021-06-14 11:15:22 -04:00