With this, libclang_rt.profile_osx.a can be linked, that is coverage
and PGO-instrumented builds should now work with lld.
section$start and section$end symbols can create non-existing sections.
They're also undefined symbols that are only magic if there isn't a
regular symbol with their name, which means the need to be handled
in treatUndefined() instead of just looping over all existing
sections and adding start and end symbols like the ELF port does.
To represent the actual symbols, this uses absolute symbols that
get their value updated once an output section is layed out.
segment$start and segment$end are still missing for now, but they produce a
nicer error message after this patch.
Main part of PR50760.
Differential Revision: https://reviews.llvm.org/D106629
We lacked a test for bitcode symbol precedence. We assumed that
they followed the same rules as their regular symbol counterparts, but
never had a test to verify that we were matching ld64's behavior. It
turns out that we were largely correct, though we deviate from ld64 when
there are bitcode and non-bitcode symbols of the same name. The test
added in this diff both verifies our behavior and documents the
differences.
Reviewed By: #lld-macho, thakis
Differential Revision: https://reviews.llvm.org/D106596
We had a comment that claimed that defined symbols had priority
over common symbols if they occurred in the same archive. In fact, they
appear to have equal precedence. Our implementation already does this,
so I'm just updating the test comment. Also added a few other test
comments along the way for readability.
Reviewed By: #lld-macho, thakis
Differential Revision: https://reviews.llvm.org/D106595
I found icf.s a bit hard to work with as it was not possible to
extend any of the functions `_a` ... `_k` to test new relocation /
referent types without modifying every single one of them. Additionally,
their one-letter names were not descriptive (though the comments
helped).
I've renamed all the functions to reflect the feature they are testing,
and shrunk them so that they contain just enough to test that one
feature.
I've also added tests for non-zero addends (via the
`_abs1a_ref_with_addend` and `_defined_ref_with_addend_1` functions).
Reviewed By: #lld-macho, gkm
Differential Revision: https://reviews.llvm.org/D106211
Absolute symbols have a nullptr isec. buildInputSectionPriorities()
would defer isec, causing crashes. Ordering absolute symbols doesn't
make sense, so just ignore them. This seems to match ld64.
Differential Revision: https://reviews.llvm.org/D106628
Ported from COFF/ELF; test is adapted from
test/COFF/thinlto-archivecollision.ll
LTO expects every bitcode file to have a unique name. If given multiple bitcode
files with the same name, it errors with "Expected at most one ThinLTO module
per bitcode file".
This change incorporates the archive name, to disambiguate members with the
same name in different archives and the offset in archive to disambiguate
members with the same name in the same archive.
Differential Revision: https://reviews.llvm.org/D106179
This generalizes D70146 (SHT_NOTE) to more reserved sections and makes our rules
more consistent. Now SHF_GROUP is more similar to SHF_LINK_ORDER.
For SHT_INIT_ARRAY/SHT_FINI_ARRAY, the rule will be closer to PE/COFF link.exe.
Previously sanitizers use llvm.global_ctors to make module_ctor a GC
root, which is considered an abuse.
https://groups.google.com/g/generic-abi/c/TpleUEkNoQI
We can squeak through on compatibility issues because compilers otherwise don't
use SHF_GROUP special sections.
In ld64, `-U section$start$FOO$bar` handles `section$start$FOO$bar`
as a regular `section$start` symbol, that is section$start processing
happens before -U processing.
Likely, nobody uses that in practice so it doesn't seem very important
to be compatible with this, but it also moves the -U handling code next
to the `-undefined dynamic_lookup` handling code, which is nice because
they do the same thing. And, in fact, this did identify a bug in a corner
case in the intersection of `-undefined dynamic_lookup` and dead-stripping
(fix for that in D106565).
Vaguely related to PR50760.
No interesting behavior change.
Differential Revision: https://reviews.llvm.org/D106566
We lost the `used` bit on the Undefined when we replaced it with a DylibSymbol
in treatUndefined().
Differential Revision: https://reviews.llvm.org/D106565
The guid of a local linkage variable has the module path encoded, so the
order between a local linkage variable and a non-local linkage variable
isn't guaranteed.
Implement pass 3 of bind opcodes from ld64 (which supports both 32-bit and 64-bit).
Pass 3 implementation condenses BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB opcode
to BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED. This change is already behind an
O2 flag so it shouldn't impact current performance. I verified ld64's output with x86_64 LLD
and they were both emitting the same optimized bind opcodes (although in a slightly different
order). Tested with arm64_32 LLD and compared that with x86 LLD that the order of the bind
opcodes are the same (offset values are different which should be expected).
Reviewed By: int3, #lld-macho, MaskRay
Differential Revision: https://reviews.llvm.org/D106128
In PGO, a C++ external linkage function `foo` has a private counter
`__profc_foo` and a private `__profd_foo` in a `comdat nodeduplicate`.
A `__attribute__((weak))` function `foo` has a weak hidden counter `__profc_foo`
and a private `__profd_foo` in a `comdat nodeduplicate`.
In `ld.lld a.o b.o`, say a.o defines an external linkage `foo` and b.o
defines a weak `foo`. Currently we treat `comdat nodeduplicate` as `comdat any`,
ld.lld will incorrectly consider `b.o:__profc_foo` non-prevailing. In the worst
case when `b.o:__profd_foo` is retained and `b.o:__profc_foo` isn't, there will
be dangling reference causing an `undefined hidden symbol` error.
Add SelectionKind to `Comdat` in IRSymtab and let linkers ignore nodeduplicate comdat.
Differential Revision: https://reviews.llvm.org/D106228
This reverts commit 321b2bef09.
`for (BindIR *p = &opcodes[0]; p->opcode != BIND_OPCODE_DONE; ++p) {` has a heap-buffer-overflow with test/MachO/bind-opcodes.
Implement pass 3 of bind opcodes from ld64 (which supports both 32-bit and 64-bit).
Pass 3 implementation condenses BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB opcode
to BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED. This change is already behind an
O2 flag so it shouldn't impact current performance. I verified ld64's output with x86_64 LLD
and they were both emitting the same optimized bind opcodes (although in a slightly different
order). Tested with arm64_32 LLD and compared that with x86 LLD that the order of the bind
opcodes are the same (offset values are different which should be expected).
Reviewed By: int3, #lld-macho
Differential Revision: https://reviews.llvm.org/D106128
Debug info sections need R_WASM_FUNCTION_OFFSET_I32 relocs (with FK_Data_4 fixup
kinds) to refer to functions (instead of R_WASM_TABLE_INDEX as is used in data
sections). Usually this is done in a convoluted way, with unnamed temp data
symbols which target the start of the function, in which case
WasmObjectWriter::recordRelocation converts it to use the section symbol
instead. However in some cases the function can actually be undefined; in this
case the dwarf generator uses the function symbol (a named undefined function
symbol) instead. In that case the section-symbol transform doesn't work and we
need to generate the correct reloc type a different way. In this change
WebAssemblyWasmObjectWriter::getRelocType takes the fixup section type into
account to choose the correct reloc type.
Fixes PR50408
Differential Revision: https://reviews.llvm.org/D103557
ICF previously operated only within a given OutputSection. We would
merge all CFStrings first, then merge all regular code sections in a
second phase. This worked fine since CFStrings would never reference
regular `__text` sections. However, I would like to expand ICF to merge
functions that reference unwind info. Unwind info references the LSDA
section, which can in turn reference the `__text` section, so we cannot
perform ICF in phases.
In order to have ICF operate on InputSections spanning multiple
OutputSections, we need a way to distinguish InputSections that are
destined for different OutputSections, so that we don't fold across
section boundaries. We achieve this by creating OutputSections early,
and setting `InputSection::parent` to point to them. This is what
LLD-ELF does. (This change should also make it easier to implement the
`section$start$` symbols.)
This diff also folds InputSections w/o checking their flags, which I
think is the right behavior -- if they are destined for the same
OutputSection, they will have the same flags in the output (even if
their input flags differ). I.e. the `parent` pointer check subsumes the
`flags` check. In practice this has nearly no effect (ICF did not become
any more effective on chromium_framework).
I've also updated ICF.cpp's block comment to better reflect its current
status.
Reviewed By: #lld-macho, smeenai
Differential Revision: https://reviews.llvm.org/D105641
In D105866, we used an intermediate container to store a list of opcodes. Here,
we use that data structure to help us perform optimization passes that would allow
a more efficient encoding of bind opcodes. Currently, the functionality mirrors the
optimization pass {1,2} done in ld64 for bind opcodes under optimization gate
to prevent slight regressions.
Reviewed By: int3, #lld-macho
Differential Revision: https://reviews.llvm.org/D105867
`clang -fuse-ld=lld -static-pie -fpie` produced executable
currently crashes and this patch makes it work.
See https://sourceware.org/bugzilla/show_bug.cgi?id=27164
and https://sourceware.org/pipermail/libc-alpha/2021-July/128810.html
While it seems unreasonable to keep csu/libc-start.c ARCH_APPLY_IREL unclear in
static-pie mode and have an unneeded diff -u =(ld.bfd --verbose) =(ld.bfd -pie
--verbose) difference, glibc folks don't want to fix their code.
I feel sad about that but this patch can remove an iffy condition for lld/ELF
as well: `needsInterpSection()`.
This adds support for the lld-only `--thinlto-cache-policy` option, as well as
implementations for ld64's `-cache_path_lto`, `-prune_interval_lto`,
`-prune_after_lto`, and `-max_relative_cache_size_lto`.
Test is adapted from lld/test/ELF/lto/cache.ll
Differential Revision: https://reviews.llvm.org/D105922
The ELF specification says "The link editor honors the common definition and
ignores the weak ones." GNU ld and our Symbol::compare follow this, but the
--fortran-common code (D86142) made a mistake on the precedence.
Fixes https://bugs.llvm.org/show_bug.cgi?id=51082
Reviewed By: peter.smith, sfertile
Differential Revision: https://reviews.llvm.org/D105945
This is a follow up to https://reviews.llvm.org/D104080, and ca3bdb57fa (diff-e64a48fabe31db213a631fdc5f2acb51bdddf3f16a8fb2928784f4c579229585). The implementation of call graph profile was changed from a black box section to relocation approach. This was done to be compatible with post processing tools like strip/objcopy, and llvm equivalent. When they are invoked on object file before the final linking step with this new approach the symbol indices correctness is preserved.
The GNU binutils tools change the REL section to RELA section, unlike llvm tools. For example when strip -S is run on the ELF object files, as an intermediate step before linking. To preserve compatibility this patch extends implementation in LLD and ELFDumper to support both REL and RELA sections for call graph profile.
Reviewed By: MaskRay, jhenderson
Differential Revision: https://reviews.llvm.org/D105217
This patch is a followup patch to https://reviews.llvm.org/D105760 which adds this relocation. This handles the relocation in lld.
The s_branch family of instruction does the following:
PC = PC + signext(simm * 4) + 4
so we we do the opposite on the target address before writing it in the instruction stream.
Reviewed By: MaskRay
Differential Revision: https://reviews.llvm.org/D105761
* Adjust strsize so llvm-objdump doesn't complain about it extending
past the end of file
* Remove symbol that was referencing a deleted section
* Adjust n_sect of the remaining `_main` symbol to point at the right
section
lld currently only references dyld_stub_binder when it's needed.
ld64 always references it when libSystem is linked.
Match ld64.
The (somewhat lame) motivation is that `nm` on a binary without any
export writes a "no symbols" warning to stderr, and this change makes
it so that every binary in practice has at least a reference to
dyld_stub_binder, which suppresses that.
Every "real" output file will reference dyld_stub_binder, so most
of the time this shouldn't make much of a difference. And if you
really don't want to have this reference for whatever reason, you
can stop passing -lSystem, like you have to for ld64 anyways.
(After linking any dylib, we dump the exported list of symbols to
a txt file with `nm` and only relink downstream deps if that txt
file changes. A nicer fix is to make lld optionally write .tbd files
with the public interface of a linked dylib and use that instead,
but for now the txt files are what we do.)
Differential Revision: https://reviews.llvm.org/D105782
This is for aesthetic reasons, I'm not aware of anything that needs
this in practice. It does have a few effects:
- `-undefined dynamic_lookup` now has an effect for dyld_stub_binder.
This matches ld64.
- `-U dyld_stub_binder` now works like you'd expect (it doesn't work in ld64).
- The error message for a missing dyld_stub_binder symbol now looks like
other undefined reference symbols, it changes from
symbol dyld_stub_binder not found (normally in libSystem.dylib). Needed to perform lazy binding.
to
error: undefined symbol: dyld_stub_binder
>>> referenced by lazy binding (normally in libSystem.dylib)
Also add test coverage for that error message.
But in practice, this should have no interesting effects since everything links
in dyld_stub_binder via libSystem anyways.
Differential Revision: https://reviews.llvm.org/D105781
Add a bit more detail to the comments, and check that the final binary
does indeed have a `__unwind_info` section (D105557 previosly regressed
this).
Also rename the test to emphasize that we are testing relocations
compact unwind, not relocations in general.
Two changess:
- Drop assertions that all symbols are in GOT
- Set allEntriesAreOmitted correctly
Related bug: 50812
Differential Revision: https://reviews.llvm.org/D105364
This to protect against non-sensical instruction sequences being assembled,
which would either cause asserts/crashes further down, or a Wasm module being output that doesn't validate.
Unlike a validator, this type checker is able to give type-errors as part of the parsing process, which makes the assembler much friendlier to be used by humans writing manual input.
Because the MC system is single pass (instructions aren't even stored in MC format, they are directly output) the type checker has to be single pass as well, which means that from now on .globaltype and .functype decls must come before their use. An extra pass is added to Codegen to collect information for this purpose, since AsmPrinter is normally single pass / streaming as well, and would otherwise generate this information on the fly.
A `-no-type-check` flag was added to llvm-mc (and any other tools that take asm input) that surpresses type errors, as a quick escape hatch for tests that were not intended to be type correct.
This is a first version of the type checker that ignores control flow, i.e. it checks that types are correct along the linear path, but not the branch path. This will still catch most errors. Branch checking could be added in the future.
Differential Revision: https://reviews.llvm.org/D104945
Nico Weber