It is often useful to know which die is the parent of the current die.
This patch adds information about parent offset into the dump:
0x0000000b: DW_TAG_compile_unit
DW_AT_producer ("by_hand")
0x00000014: DW_TAG_base_type (0x0000000b) <<<<<<<<<<<<<<
DW_AT_name ("int")
Now it is easy to see which die is the parent of the current die.
This patch makes that behaviour to be default.
We can make it to be opt-in if neccessary.
This functionality differs from already existed "--show-parents"
in that sence that parent information is shown for all dies and
only link to the immediate parent is shown.
Differential Revision: https://reviews.llvm.org/D113406
Matching a recent clang change I've made, now 'int[3]' is formatted
without the space between the type and array bound. This commit updates
libDebugInfoDWARF/llvm-dwarfdump to match that formatting.
Actually we can, for now, remove the explicit "operator" handling
entirely - since clang currently won't try to flag any of these as
rebuildable. That seems like a reasonable state for now, but it could be
narrowed down to only apply to conversion operators, most likely - but
would need more nuance for op> and op>> since they would be incorrectly
flagged as already having their template arguments (due to the trailing
'>').
Functions in different sections (common in object files - inline
functions, -ffunction-sections, etc) can't overlap, so factor in the
section when diagnosing overlapping address ranges.
This removes a major false-positive when running llvm-dwarfdump on
unlinked code.
Some dwarf loaders in LLVM are hard-coded to only accept 4-byte and 8-byte address sizes. This patch generalizes acceptance into `DWARFContext::isAddressSizeSupported` and provides a common way to generate rejection errors.
The MSP430 target has been given new tests to cover dwarf loading cases that previously failed due to 2-byte addresses.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D111953
Clang will encode names that should be able to be simplified as
"_STNname|<template, args>" (eg: "_STNt1|<int>") - this verification
mode will detect these names, decode them, create the original name
("t1<int>") and the simple name ("t1") - letting the simple name run
through the usual rebuilding logic - then compare the two sources of the
full name - the rebuilt and the _STN encoding.
This helps ensure that -gsimple-template-names is lossless.
This should probably be rendered as "std::nullptr_t" but for now clang
uses the unqualified name (which is ambiguous with possible user defined
name in the global namespace), so match that here.
Move most type tests to a pre-generated assembly file to make it easier
to add more weird cases without having to hand craft more DWARF.
Move the novel array types that aren't reachable via clang-generated
DWARF to a separate file for easy maintenance.
This does add some extra superfluous whitespace (eg: "int *") intended
to make the Simplified Template Names work easier - this makes the
DIE-based names match more exactly the clang-generated names, so it's
easier to identify cases that don't generate matching names.
(arguably we could change clang to skip that whitespace or add some
fuzzy matching to accommodate differences in certain whitespace - but
this seemed easier and fairly low-impact)
verifyDieRanges function checks for the intersected address ranges.
It adds child DieRangeInfo into parent DieRangeInfo to check
whether children have overlapping address ranges. It is safe to not add
DieRangeInfo with empty address range into parent's children list.
This decreases the number of children which should be navigated and as a result
decreases execution time(parents having a lot of children with empty ranges
spend much time navigating them). For this command: "llvm-dwarfdump --verify clang-repl"
execution time decreased from 220 sec till 75 sec.
Differential Revision: https://reviews.llvm.org/D107554
This ensures that debug_types references aren't looked for in
debug_info section.
Behavior is still going to be questionable in an unlinked object file -
since cross-cu references could refer to symbols in another .debug_info
(or, in theory, .debug_types) chunk - but if a producer only uses
ref_addr to refer to things within the same .debug_info chunk in an
object file (eg: whole program optimization/LTO - producing two CUs into
a single .debug_info section in an object file - the ref_addrs there
could be resolved relative to that .debug_info chunk, not needing to
consider comdat (DWARFv5 type units or other creatures) chunks of
.debug_info, etc)
Improves maintainability (edit/modify the tests without recompiling) and
error messages (previously the failure would be a gtest failure
mentioning nothing of the input or desired text) and the option to
improve tests with more checks.
(maybe these tests shouldn't all be in separate files - we could
probably have DWARF yaml that contains multiple errors while still being
fairly maintainable - the various invalid offsets (ref_addr, rnglists,
ranges, etc) could probably be all in one test, but for the simple sake
of the migration I just did the mechanical thing here)
list for attributes that don't have the loclist class.
Summary: The overflow error occurs when we try to dump
location list for those attributes that do not have the
loclist class, like DW_AT_count and DW_AT_byte_size.
After re-reviewed the entire list, I sorted those
attributes into two parts, one for dumping location list
and one for dumping the location expression.
Reviewed By: probinson
Differential Revision: https://reviews.llvm.org/D105613
This call would incorrectly overwrite (with the .debug_rnglists.dwo from
the executable, if there was one) the rnglists section instead of the
correct value (from the .debug_rnglists.dwo in the .dwo file) that's
applied in DWARFUnit::tryExtractDIEsIfNeeded
llvm-dwarfdump was silent even when the format of DWARF was invalid
and/or llvm-dwarfdump did not understand/support some of the constructs.
This can be pretty confusing as llvm-dwarfdump is a tool for DWARF
producers+consumers development.
Review comments also by @dblaikie.
Reviewed By: jhenderson
Differential Revision: https://reviews.llvm.org/D104271
Without this patch we're only showing a generic error message derived
from the error code to the end user.
rdar://79378794
Differential Revision: https://reviews.llvm.org/D104483
This testcase is failing on z/OS because the regex doesn't match the spelling. This patch modifies the testcase to use the error substitution so it will pass on all platforms.
Reviewed By: jhenderson
Differential Revision: https://reviews.llvm.org/D103804
The CHECK-NOT directives in
tools/llvm-dwarfdump/X86/parent_recurse_depth.s can accidentally match
something in the path of the object file created by yaml2obj, for
example:
llvm-project/llvm/test/tools/llvm-dwarfdump/X86/parent_recurse_depth.s:13:12:
error: ONE-NOT: excluded string found in input
^
<stdin>:1:22: note: found here
builds/llvm-projects/mainline/release/test/tools/llvm-dwarfdump/X86/Output/parent_recurse_depth.s.tmp.o: file format elf64-x86-64
^~~~
This commit alleviate this issue by consuming the file name from the
output, forcing all the CHECK-NOT to match what comes after.
Reviewed By: Higuoxing
Differential Revision: https://reviews.llvm.org/D103676
This change adds tests specifically for --parent-recurse-depth, --quiet
and -o. The test for -o found a typo in an error message which is also
fixed in this change.
Differential Revision: https://reviews.llvm.org/D103250
There are cases where a concrete DIE with DW_TAG_subprogram can have
abstract_origin attribute, so we handle that situation as well.
Differential Revision: https://reviews.llvm.org/D101025
Initial (D96045) patch didn't handle split dwarf cases,
so this fixes that bug.
In addition, before applying this patch, we had a slowdown
that happened after the D96045. With this patch,
the slowdown will be fixed as well.
Differential Revision: https://reviews.llvm.org/D100951
See original comment in 560ce2c70f
Baiscally the default seed value results in less collision, but changes the
iteration order, which matters for a few test cases.
Differential Revision: https://reviews.llvm.org/D97396
The presence or absence of an inline variable (as well as formal
parameter) with only an abstract_origin ref (without DW_AT_location)
should not change the location coverage.
It means, for both:
DW_TAG_inlined_subroutine
DW_AT_abstract_origin (0x0000004e "f")
DW_AT_low_pc (0x0000000000000010)
DW_AT_high_pc (0x0000000000000013)
DW_TAG_formal_parameter
DW_AT_abstract_origin (0x0000005a "b")
and,
DW_TAG_inlined_subroutine
DW_AT_abstract_origin (0x0000004e "f")
DW_AT_low_pc (0x0000000000000010)
DW_AT_high_pc (0x0000000000000013)
we should report 0% location coverage. If we add DW_AT_location,
for both cases the coverage should be improved.
Differential Revision: https://reviews.llvm.org/D96045
Recognize the __apple_ sections as debug info sections and make sure
they're included in the --show-sections-sizes output.
Differential revision: https://reviews.llvm.org/D90433
There's no way to know whether there's a loclist contribution to parse
if there's no loclistx encoding - and if there is one, there's no need
to walk back from the loclist_base (or, uin the case of
info.dwo/loclist.dwo - starting at 0 in the contribution) to parse the
header, instead rely on the DWARF32/64 and address size in the CU
that's already available.
This would come up in split DWARF (non-split wouldn't try to read a
loclist header in the absence of a loclist_base) when one unit had
location lists and another does not (because the loclists.dwo section
would be non-empty in that case - in the case where it's empty the
parsing would silently skip).
Simplify the testing a bit, rather than needing a whole dwp, etc - by
creating a malformed loclists.dwo section (and use single file Split
DWARF) that would trip up any attempt to parse it - but no attempt
should be made.
This patch rewrites test case verify_die_ranges.s in YAML which helps
simplify the test.
Reviewed By: jhenderson, JDevlieghere, dblaikie
Differential Revision: https://reviews.llvm.org/D88200
It's not possible to do this in complete generality - a CU using a
sec_offset DW_AT_ranges has no way of knowing where its rnglists
contribution starts, so should not attempt to parse any full rnglist
table/header to do so. And even using FORM_rnglistx there's no need to
parse the header - the offset can be computed using the CU's DWARF
format (32 or 64) to compute offset entry sizes, and then the list
parsed at that offset without ever trying to find a rnglist contribution
header immediately prior to the rnglists_base.
David Blaikie