This lets external consumers customize the output, similar to how
AssemblyAnnotationWriter lets the caller define callbacks when printing
IR. The array of handlers already existed, this just cleans up the code
so that it can be exposed publically.
Differential Revision: https://reviews.llvm.org/D74158
The patch fixes emitting flags and the debug_line_offset field in
the header, as well as the reference to the macro string for
a pre-standard GNU .debug_macro extension.
Differential Revision: https://reviews.llvm.org/D87024
The transition is done by using methods of AsmPrinter which
automatically emit values in compliance with the selected DWARF format.
Differential Revision: https://reviews.llvm.org/D87013
The patch fixes calculating the size of the table and emitting
the fields which depend on the DWARF format by using methods that
choose appropriate sizes automatically.
Differential Revision: https://reviews.llvm.org/D87012
The patch also adds a method to choose an appropriate DWARF form
to represent section offsets according to the version and the format
of producing debug info.
Differential Revision: https://reviews.llvm.org/D87014
The patch adds a switch to enable emitting debug info in the 64-bit
DWARF format. Most emitter for sections will be updated in the subsequent
patches, whereas for .debug_line and .debug_frame the emitters are in
the MC library, which is already updated.
For now, the switch is enabled only for 64-bit ELF targets.
Differential Revision: https://reviews.llvm.org/D87011
This reverts commit b9d977b0ca.
This cutoff is no longer required. The commit 34ffa7fc501 (D86153) introduces a
performance improvement which was tested against the motivating case for this
patch.
Discussed in differential revision: https://reviews.llvm.org/D86153
Almost NFC (see end).
The backwards scan in validThroughout significantly contributed to compile time
for a pathological case, causing the 'X86 Assembly Printer' pass to account for
roughly 70% of the run time. This patch guards the loop against running
unnecessarily, bringing the pass contribution down to 4%.
Almost NFC: There is a hack in validThroughout which promotes single constant
value DBG_VALUEs in the prologue to be live throughout the function. We're more
likely to hit this code path with this patch applied. Similarly to the parent
patches there is a small coverage change reported in the order of 10s of bytes.
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D86153
With the changes introduced in D86151 we can now check for single locations
which span multiple blocks for inlined scopes and blocks.
D86151 introduced the InstructionOrdering parameter, replacing a scan through
MBB instructions. The functionality to compare instruction positions across
blocks was add there, and this patch just removes the exit checks that were
previously (but no longer) required.
CTMark shows a geomean binary size reduction of 2.2% for RelWithDebInfo builds.
llvm-locstats (using D85636) shows a very small variable location coverage
change in 5 of 10 binaries, but just like in D86151 it is only in the order of
10s of bytes.
Reviewed By: djtodoro
Differential Revision: https://reviews.llvm.org/D86152
With this patch we're now accounting for two more cases which should be
considered 'valid throughout': First, where RangeEnd is ScopeEnd. Second, where
RangeEnd comes before ScopeEnd when including meta instructions, but are both
preceded by the same non-meta instruction.
CTMark shows a geomean binary size reduction of 1.5% for RelWithDebInfo builds.
`llvm-locstats` (using D85636) shows a very small variable location coverage
change in 2 of 10 binaries, but it is in the order of 10s of bytes which lines
up with my expectations.
I've added a test which checks both of these new cases. The first check in the
test isn't strictly necessary for this patch. But I'm not sure that it is
explicitly tested anywhere else, and is useful for the final patch in the
series.
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D86151
This patch was reverted in 7c182663a8 due to some failures
observed on PCC based machines. Failures were due to Endianness issue and
long double representation issues.
Patch is revised to address Endianness issue. Furthermore, support
for emission of `DW_OP_implicit_value` for `long double` has been removed
(since it was unclean at the moment). Planning to handle this in
a clean way soon!
For more context, please refer to following review link.
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D83560
llvm is missing support for DW_OP_implicit_value operation.
DW_OP_implicit_value op is indispensable for cases such as
optimized out long double variables.
For intro refer: DWARFv5 Spec Pg: 40 2.6.1.1.4 Implicit Location Descriptions
Consider the following example:
```
int main() {
long double ld = 3.14;
printf("dummy\n");
ld *= ld;
return 0;
}
```
when compiled with tunk `clang` as
`clang test.c -g -O1` produces following location description
of variable `ld`:
```
DW_AT_location (0x00000000:
[0x0000000000201691, 0x000000000020169b): DW_OP_constu 0xc8f5c28f5c28f800, DW_OP_stack_value, DW_OP_piece 0x8, DW_OP_constu 0x4000, DW_OP_stack_value, DW_OP_bit_piece 0x10 0x40, DW_OP_stack_value)
DW_AT_name ("ld")
```
Here one may notice that this representation is incorrect(DWARF4
stack could only hold integers(and only up to the size of address)).
Here the variable size itself is `128` bit.
GDB and LLDB confirms this:
```
(gdb) p ld
$1 = <invalid float value>
(lldb) frame variable ld
(long double) ld = <extracting data from value failed>
```
GCC represents/uses DW_OP_implicit_value in these sort of situations.
Based on the discussion with Jakub Jelinek regarding GCC's motivation
for using this, I concluded that DW_OP_implicit_value is most appropriate
in this case.
Link: https://gcc.gnu.org/pipermail/gcc/2020-July/233057.html
GDB seems happy after this patch:(LLDB doesn't have support
for DW_OP_implicit_value)
```
(gdb) p ld
p ld
$1 = 3.14000000000000012434
```
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D83560
Theory was that we should never reach a non-type unit (eg: type in an
anonymous namespace) when we're already in the invalid "encountered an
address-use, so stop emitting types for now, until we throw out the
whole type tree to restart emitting in non-type unit" state. But that's
not the case (prior commit cleaned up one reason this wasn't exposed
sooner - but also makes it easier to test/demonstrate this issue)
Allow the GNU .debug_macro extension to be emitted for DWARF versions
earlier than 5. The extension is basically what became DWARF 5's format,
except that a DW_AT_GNU_macros attribute is emitted, and some entries
like the strx entries are missing. In this patch I emit GNU's indirect
entries, which are the same as DWARF 5's strp entries.
This patch adds the extension behind a hidden LLVM flag,
-use-gnu-debug-macro. I would later want to enable it by default when
tuning for GDB and targeting DWARF versions earlier than 5.
The size of a Clang 8.0 binary built with RelWithDebInfo and the flags
"-gdwarf-4 -fdebug-macro" reduces from 1533 MB to 1349 MB with
.debug_macro (compared to 1296 MB without -fdebug-macro).
Reviewed By: SouraVX, dblaikie
Differential Revision: https://reviews.llvm.org/D82975
Broken out from a review comment on D82975. This is an NFC expect for
that the Macinfo macro string is now emitted using a single emitBytes()
invocation, so it can be done using a single string directive.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D83557
Move the Dwarf version checks that determine if the .debug_macro section
should be emitted, into a DwarfDebug member. This is a preparatory
refactoring for allowing the GNU .debug_macro extension, which is a
precursor to the DWARF 5 format, to be emitted by LLVM for earlier DWARF
versions.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D82971
SONY debugger does not prefer debug entry values feature, so
the plan is to avoid production of the entry values
by default when the tuning is SCE debugger.
The feature still can be enabled with the -debug-entry-values
option for the testing/development purposes.
This patch addresses PR46643.
Differential Revision: https://reviews.llvm.org/D83462
Test case `test/CodeGen/WebAssembly/stackified-debug.ll`
was failing due to malformed DwarfExpression.
This failure has been seen in lot of bots, for instance in:
http://lab.llvm.org:8011/builders/lld-x86_64-ubuntu-fast/builds/18794
: 'RUN: at line 1'
/home/buildbot/as-builder-4/lld-x86_64-ubuntu-fast/build/bin/llc
/home/buildbot/as-builder-4/lld-x86_64-ubuntu-fast/build/bin/FileCheck /home/buildbot/as-builder-4/lld-x86_64-ubuntu-fast/llvm-project/llvm/test/CodeGen/WebAssembly/stackified-debug.ll
home/buildbot/as-builder-4/lld-x86_64-ubuntu-fast/llvm-project/llvm/test/CodeGen/WebAssembly/stackified-debug.ll:26:10: error: CHECK: expected string not found in input
CHECK: .int16 4 # Loc expr size
^
<stdin>:34:2: note: scanning from here
.int16 3 # Loc expr size
Differential Revision: https://reviews.llvm.org/D83560
This patch was reverted in 9d2da6759b due to assertion failure seen
in `test/DebugInfo/Sparc/subreg.ll`. Assertion failure was happening
due to malformed/unhandeled DwarfExpression.
Differential Revision: https://reviews.llvm.org/D83560
Summary:
llvm is missing support for DW_OP_implicit_value operation.
DW_OP_implicit_value op is indispensable for cases such as
optimized out long double variables.
For intro refer: DWARFv5 Spec Pg: 40 2.6.1.1.4 Implicit Location Descriptions
Consider the following example:
```
int main() {
long double ld = 3.14;
printf("dummy\n");
ld *= ld;
return 0;
}
```
when compiled with tunk `clang` as
`clang test.c -g -O1` produces following location description
of variable `ld`:
```
DW_AT_location (0x00000000:
[0x0000000000201691, 0x000000000020169b): DW_OP_constu 0xc8f5c28f5c28f800, DW_OP_stack_value, DW_OP_piece 0x8, DW_OP_constu 0x4000, DW_OP_stack_value, DW_OP_bit_piece 0x10 0x40, DW_OP_stack_value)
DW_AT_name ("ld")
```
Here one may notice that this representation is incorrect(DWARF4
stack could only hold integers(and only up to the size of address)).
Here the variable size itself is `128` bit.
GDB and LLDB confirms this:
```
(gdb) p ld
$1 = <invalid float value>
(lldb) frame variable ld
(long double) ld = <extracting data from value failed>
```
GCC represents/uses DW_OP_implicit_value in these sort of situations.
Based on the discussion with Jakub Jelinek regarding GCC's motivation
for using this, I concluded that DW_OP_implicit_value is most appropriate
in this case.
Link: https://gcc.gnu.org/pipermail/gcc/2020-July/233057.html
GDB seems happy after this patch:(LLDB doesn't have support
for DW_OP_implicit_value)
```
(gdb) p ld
p ld
$1 = 3.14000000000000012434
```
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D83560
This is an alternative proposal to D81476 (and D82084) - the details were sufficiently confusing to me it seemed easier to write some code and see how it looks.
Reviewers: SouraVX
Differential Revision: https://reviews.llvm.org/D84278
Occasionally we see absolutely massive basic blocks, typically in global
constructors that are vulnerable to heavy inlining. When these blocks are
dense with DBG_VALUE instructions, we can hit near quadratic complexity in
DwarfDebug's validThroughout function. The problem is caused by:
* validThroughout having to step through all instructions in the block to
examine their lexical scope,
* and a high proportion of instructions in that block being DBG_VALUEs
for a unique variable fragment,
Leading to us stepping through every instruction in the block, for (nearly)
each instruction in the block.
By adding this guard, we force variables in large blocks to use a location
list rather than a single-location expression, as shown in the added test.
This shouldn't change the meaning of the output DWARF at all: instead we
use a less efficient DWARF encoding to avoid a poor-performance code path.
Differential Revision: https://reviews.llvm.org/D83236
This patch uses ranges for debug information when a function contains basic block sections rather than using [lowpc, highpc]. This is also the first in a series of patches for debug info and does not contain the support for linker relaxation. That will be done as a follow up patch.
Differential Revision: https://reviews.llvm.org/D78851
Following on from this RFC[0] from a while back, this is the first patch towards
implementing variadic debug values.
This patch specifically adds a set of functions to MachineInstr for performing
operations specific to debug values, and replacing uses of the more general
functions where appropriate. The most prevalent of these is replacing
getOperand(0) with getDebugOperand(0) for debug-value-specific code, as the
operands corresponding to values will no longer be at index 0, but index 2 and
upwards: getDebugOperand(x) == getOperand(x+2). Similar replacements have been
added for the other operands, along with some helper functions to replace
oft-repeated code and operate on a variable number of value operands.
[0] http://lists.llvm.org/pipermail/llvm-dev/2020-February/139376.html<Paste>
Differential Revision: https://reviews.llvm.org/D81852
This adds call site info support for call instructions with delay slot.
Search for instructions inside call delay slot, which load value
into parameter forwarding registers.
Return address of the call points to instruction after call delay slot,
which is not the one, immediately after the call instruction.
Patch by Nikola Tesic
Differential revision: https://reviews.llvm.org/D78107
The collectCallSiteParameters() method searches for instructions
which load values into registers used for parameters passing.
Previously, interpretation of those values, loaded by one such
instruction, was implemented inside collectCallSiteParameters() method.
This patch moves the interpretation code from collectCallSiteParameters()
method into a separate static method named interpretValue. New method is
called from collectCallSiteParameters() to process each instruction from
targeted instruction scope.
The collectCallSiteParameters() searches for loaded parameter value
among instructions which precede the call instruction, inside the same
basic block. When needed, new method (interpretValue) could be used for
searching any instruction scope.
This is preparation for search of parameter value, loaded inside call
delay slot.
Patch by Nikola Tesic
Differential revision: https://reviews.llvm.org/D78106
This patch adds support for emission of following DWARFv5 macro
forms in .debug_macro.dwo section:
- DW_MACRO_start_file
- DW_MACRO_end_file
- DW_MACRO_define_strx
- DW_MACRO_undef_strx
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D78866
DW_MACRO_define_strx forms are supported now in llvm-dwarfdump and these
forms can be used in both debug_macro[.dwo] sections. An added advantage
for using strx forms over strp forms is that it uses indices
approach instead of a relocation to debug_str section.
This patch unify the emission for debug_macro section.
Reviewed by: dblaikie, ikudrin
Differential Revision: https://reviews.llvm.org/D78865
Summary:
A struct argument can be passed-by-value to a callee via a pointer to a
temporary stack copy. Add support for emitting an entry value DBG_VALUE
when an indirect parameter DBG_VALUE becomes unavailable. This is done
by omitting DW_OP_stack_value from the entry value expression, to make
the expression describe the location of an object.
rdar://63373691
Reviewers: djtodoro, aprantl, dstenb
Subscribers: hiraditya, lldb-commits, llvm-commits
Tags: #lldb, #llvm
Differential Revision: https://reviews.llvm.org/D80345
for variables in nested scopes (including inlined functions) if there is a
single location which covers the entire scope and the scope is contained in a
single block.
Based on work by @jmorse.
Reviewed By: vsk, aprantl
Differential Revision: https://reviews.llvm.org/D79571
This is a no-op/NFC at the moment & generally makes the code /somewhat/
cleaner/less reliant on assumptions about what will produce a debug_addr
section.
It's still a bit "spooky action at a distance" - the add ranges code
pre-emptively inserts addresses into the address pool it knows will
eventually be used by the range emission code (or low/high pc).
The 'ideal' would be either to actually compute the addresses needed for
range (& loc) emission earlier - which would mean decanonicalizing the
range/loc representation earlier to account for whether it was going to
use addrx encodings or not (which would be unfortunate, but could be
refactored to be relatively unobtrusive).
Alternatively, emitting the range/loc sections earlier would cause them
to request the needed addresses sooner - but then you endup having to
split finalizeModuleInfo because some things need to be handled there
before the ranges/locs are emitted, I think...
It is bad practice to capture by default (via [&] in this case) when
using lambdas, so we should avoid that as much as possible.
This patch fixes that in the getForwardingRegsDefinedByMI
from DwarfDebug module.
Differential Revision: https://reviews.llvm.org/D79616
We should use explicit type instead of auto type deduction when
the type is so obvious. In addition, we remove ambiguity, since auto
type deduction sometimes is not that intuitive, so that could lead
us to some unwanted behavior.
This patch fixes that in the collectCallSiteParameters() from
DwarfDebug module.
Differential Revision: https://reviews.llvm.org/D79624
With a fix to uninitialized EndOffset.
DW_OP_call_ref is the only operation that has an operand which depends
on the DWARF format. The patch fixes handling that operation in DWARF64
units.
Differential Revision: https://reviews.llvm.org/D79501
Jameson Nash