Currently, when a program header type is unknown, we dont print anything:
```
ProgramHeader {
Type: (0x60000000)
```
With this patch the output will be:
```
ProgramHeader {
Type: Unknown (0x60000000)
```
It was discussed in D85526 and consistent with what we print for
'--sections' already, e.g.:
```
Section {
Name: .sec
Type: Unknown (0x7FFFFFFF)
}
```
Differential revision: https://reviews.llvm.org/D86213
The global variable outputSections in the COFF writer was not
cleared between runs which caused successive calls to lld::coff::link
to generate invalid binaries. These binaries when loaded would result
in "invalid win32 applications" and/or "bad image" errors.
Differential Revision: https://reviews.llvm.org/D86401
D80298 made Timer::total atomic, but this requires linking libatomic
on some targets.
Reviewed By: aaronpuchert
Differential Revision: https://reviews.llvm.org/D85691
The function `__tls_get_addr` is used to get the address of an object that is Thread Local Storage.
It needs to have two relocations on it.
One relocation is for the function call itself and it is either R_PPC64_REL24 or R_PPC64_REL24_NOTOC.
The other is R_PPC64_TLSGD or R_PPC64_TLSLD for the symbol that is having its address computed.
In the early days of the transition from the ELFv1 ABI that is used for big endian PowerPC Linux distributions to the ELFv2 ABI that is used for little endian PowerPC Linux distributions, there was some ambiguity in the specification of the relocations for TLS. The GNU linker has implemented support for correct handling of calls to __tls_get_addr with a missing relocation. Unfortunately, we didn't notice that the IBM XL compiler did not handle TLS according to the updated ABI until we tried linking XL compiled libraries with LLD. As a result, there is a lot of code out there in various libraries compiled with XL that have this problem.
This patch adds a new error check in LLD that makes sure calls to `__tls_get_addr` are not missing the TLSGD/TLSLD relocation.
Reviewed By: MaskRay
Differential Revision: https://reviews.llvm.org/D85994
PR46970: for `alias = aliasee`, the alias can be used in relocation processing
and on ARM st_type does affect Thumb interworking. It is thus desirable for the
alias to get the same st_type.
Note that the st_size field should not be inherited because some tools use
st_size=0 as a heuristic to detect aliases. Retaining st_size can thwart such
heuristics and cause aliases to be preferred over the original symbols.
Differential Revision: https://reviews.llvm.org/D86263
Otherwise the docs-lld-html target fails to build using recent Sphinx
with the following not very helpful error message:
An error happened in rendering the page index.
Reason: TemplateNotFound()
It turns out the values in the html_sidebars dictionary always need to be lists
now. See https://github.com/sphinx-doc/sphinx/issues/6186
* GNU ld places non-SHF_ALLOC sections after SHF_ALLOC sections. This has the
advantage that the file offsets of a non-SHF_ALLOC cannot be contained in
a PT_LOAD. This patch matches the behavior.
* For non-SHF_ALLOC non-orphan sections, GNU ld may assign non-zero sh_addr and
treat them similar to SHT_NOBITS (not advance location counter). This
is an alternative approach to what we have done in D85100.
By placing non-SHF_ALLOC sections at the end, we can drop special
cases in createSection and findOrphanPos added by D85100.
Different from GNU ld, we set sh_addr to 0 for non-SHF_ALLOC sections. 0
arguably is better because non-SHF_ALLOC sections don't appear in the memory
image.
ELF spec says:
> sh_addr - If the section will appear in the memory image of a process, this
> member gives the address at which the section's first byte should
> reside. Otherwise, the member contains 0.
D85100 appeared to take a detour. If we take a combined view on D85100 and this
patch, the overall complexity slightly increases (one more 3-line loop) and
compatibility with GNU ld improves.
The behavior we don't want to match is the special treatment of .symtab
.shstrtab .strtab: they can be matched in LLD but not in GNU ld.
Reviewed By: jhenderson, psmith
Differential Revision: https://reviews.llvm.org/D85867
LLD currently does not allow non-contiguous SHF_LINK_ORDER components in an
output section. This makes it infeasible to add SHF_LINK_ORDER to an existing
metadata section if backward compatibility with older object files are
concerned.
We did not allow mixed components (like GNU ld) and D77007 relaxed to allow
non-contiguous SHF_LINK_ORDER components. This patch allows arbitrary mix, with
sorting performed within an InputSectionDescription. For example,
`.rodata : {*(.rodata.foo) *(.rodata.bar)}`, has two InputSectionDescription's.
If there is at least one SHF_LINK_ORDER and at least one non-SHF_LINK_ORDER in
.rodata.foo, they are ordered within `*(.rodata.foo)`: we arbitrarily place
SHF_LINK_ORDER components before non-SHF_LINK_ORDER components (like Solaris ld).
`*(.rodata.bar)` is ordered similarly, but the two InputSectionDescription's
don't interact. It can be argued that this is more reasonable than the previous
behavior where written order was not respected.
It would be nice if the two different semantics (ordering requirement & garbage
collection) were not overloaded on one section flag, however, it is probably
difficult to obtain a generic flag at this point
(https://groups.google.com/forum/#!topic/generic-abi/hgx_m1aXqUo
"SHF_LINK_ORDER's original semantics make upgrade difficult").
(Actually, without the GC semantics, SHF_LINK_ORDER would still have the
sh_link!=0 & sh_link=0 issue. It is just that people find the GC semantics more
useful and tend to use the feature more often.)
GNU ld feature request: https://sourceware.org/bugzilla/show_bug.cgi?id=16833
Differential Revision: https://reviews.llvm.org/D84001
This patch implements the handling for the R_PPC64_PCREL_OPT relocation as well
as the GOT relocation for the associated R_PPC64_GOT_PCREL34 relocation.
On Power10 targets with PC-Relative addressing, the linker can relax
GOT-relative accesses to PC-Relative under some conditions. Since the sequence
consists of a prefixed load, followed by a non-prefixed access (load or store),
the linker needs to replace the first instruction (as the replacement
instruction will be prefixed). The compiler communicates to the linker that
this optimization is safe by placing the two aforementioned relocations on the
GOT load (of the address).
The linker then does two things:
- Convert the load from the got into a PC-Relative add to compute the address
relative to the PC
- Find the instruction referred to by the second relocation (R_PPC64_PCREL_OPT)
and replace the first with the PC-Relative version of it
It is important to synchronize the mapping from legacy memory instructions to
their PC-Relative form. Hence, this patch adds a file to be included by both
the compiler and the linker so they're always in agreement.
Differential revision: https://reviews.llvm.org/D84360
Thunk alignment is added in thie patch when using pc-rel instructions
to avoid crossing the 64 byte boundary.
Patched by: nemanjai, NeHuang
Reviewed By: sfertile, MaskRay
Differential Revision: https://reviews.llvm.org/D85973
This makes the test introduced in 537f5483fe more robust with respect
to the actual version number. The previous regex restricted the version
to start with a leading `1` which was overly restrictive.
-gdwarf-5 -fdebug-types-section may produce multiple .debug_info sections. All
except one are type units (.debug_types before DWARF v5). When constructing
.gdb_index, we should ignore these type units. We use a simple heuristic: the
compile unit does not have the SHF_GROUP flag. (This needs to be revisited if
people place compile unit .debug_info in COMDAT groups.)
This issue manifests as a data race: because an object file may have multiple
.debug_info sections, we may concurrently construct `LLDDwarfObj` for the same
file in multiple threads. The threads may access `InputSectionBase::data()`
concurrently on the same input section. `InputSectionBase::data()` does a lazy
uncompress() and rewrites the member variable `rawData`. A thread running zlib
`inflate()` (transitively called by uncompress()) on a buffer with `rawData`
tampered by another thread may fail with `uncompress failed: zlib error: Z_DATA_ERROR`.
Even if no data race occurred in an optimistic run, if there are N .debug_info,
one CU entry and its address ranges will be replicated N times. The result
.gdb_index can be much larger than a correct one.
The new test gdb-index-dwarf5-type-unit.s actually has two compile units. This
cannot be produced with regular approaches (it can be produced with -r
--unique). This is used to demonstrate that the .gdb_index construction code
only considers the last non-SHF_GROUP .debug_info
Reviewed By: grimar
Differential Revision: https://reviews.llvm.org/D85579
* For .cfi_*, GCC/GNU as emits SHT_PROGBITS type .eh_frame sections.
* Since rL252300, clang emits SHT_X86_64_UNWIND type .eh_frame sections
(originated from Solaris, documented in the x86-64 psABI).
* Some assembly use `.section .eh_frame,"a",@unwind` to generate
SHT_X86_64_UNWIND .eh_frame sections.
In a non-relocatable link, input .eh_frame are combined and there is
only one SyntheticSection .eh_frame in the output section, so the
"section type mismatch" diagnostic does not fire.
In a relocatable link, there is no SyntheticSection .eh_frame. .eh_frame of
mixed types can trigger the diagnostic. This patch fixes it by adding another
special case 0x70000001 (= SHT_X86_64_UNWIND) to canMergeToProgbits().
ld.lld -r gcc.o clang.o => error: section type mismatch for .eh_frame
There was a discussion "RFC: Usefulness of SHT_X86_64_UNWIND" on the x86-64-abi
mailing list. Folks are not wild about making the psABI value 0x70000001 into
gABI, but a few think defining 0x70000001 for .eh_frame may be a good idea for a
new architecture.
Reviewed By: grimar
Differential Revision: https://reviews.llvm.org/D85785
Pretty straightforward; just emits LC_RPATH for dyld to consume.
Note that lld itself does not yet support dylib lookup via @rpath.
Reviewed By: #lld-macho, compnerd
Differential Revision: https://reviews.llvm.org/D85701
It's similar to lld-ELF's `-whole-archive`, but applied to individual
archives instead of to a series of them.
Reviewed By: #lld-macho, smeenai
Differential Revision: https://reviews.llvm.org/D85550
Do folks care if we don't have a test for this? Creating 16
dylibs to trigger this straightforward code path seems a little tedious
Reviewed By: #lld-macho, smeenai
Differential Revision: https://reviews.llvm.org/D85467
Previously, lld would crash while complaining that `Expected<T>
must be checked before access or destruction`.
Reviewed By: #lld-macho, compnerd
Differential Revision: https://reviews.llvm.org/D85403
DylibFile doesn't store a pointer to its InterfaceFile
parameter, so there's no need to use a shared_ptr.
Reviewed By: #lld-macho, compnerd
Differential Revision: https://reviews.llvm.org/D85402
References to symbols in dylibs work very similarly regardless of
whether the symbol is a TLV. The main difference is that we have a
separate `__thread_ptrs` section that acts as the GOT for these
thread-locals.
We can identify thread-locals in dylibs by a flag in their export trie
entries, and we cross-check it with the relocations that refer to them
to ensure that we are not using a GOT relocation to reference a
thread-local (or vice versa).
Reviewed By: #lld-macho, smeenai
Differential Revision: https://reviews.llvm.org/D85081
Rather than handling zlib handling manually, use find_package from CMake
to find zlib properly. Use this to normalize the LLVM_ENABLE_ZLIB,
HAVE_ZLIB, HAVE_ZLIB_H. Furthermore, require zlib if LLVM_ENABLE_ZLIB is
set to YES, which requires the distributor to explicitly select whether
zlib is enabled or not. This simplifies the CMake handling and usage in
the rest of the tooling.
This is a reland of abb0075 with all followup changes and fixes that
should address issues that were reported in PR44780.
Differential Revision: https://reviews.llvm.org/D79219
For an InputSection, the `buf` argument of `InputSectionBase::relocate` points
to the content of the containing OutputSection, instead of the content of the
InputSection itself, so `outSecOff` needs to be added in its callees. This is
counter-intuitive and leads to many `- outSecOff` and `+ outSecOff`.
This patch makes `InputSection::writeTo` call `InputSectionBase::relocate` with
`outSecOff` added. relocAlloc/relocNonAlloc/relocateNonAllocForRelocatable can
thus be simplified now.
Updated test:
* non-abs-reloc.s: A minor offset bug is fixed for a diagnostic in `relocateNonAlloc`
Reviewed By: grimar
Differential Revision: https://reviews.llvm.org/D85618
It turns that gnu-ifunc-plt-i386.s and gnu-ifunc-plt.s tests are broken.
Initially they were implemented in D27581 and tested that `IRELATIVE` relocations
are placed after other relocations in `.rel.plt`.
Later, we started to place `IRELATIVE` relocations to `.rela.dyn` (D65651).
Also, at some point `.plt` was renamed to `.iplt` (D71520).
Now, `gnu-ifunc*` tests mentioned do not test what they intended to test initially:
they should test that `IRELATIVE` relocations are placed after other ones in
`.rela.dyn`. Also, comments needs to be updated accordingly after changes performed.
This patch updates them.
Differential revision: https://reviews.llvm.org/D85642
This improves the handling of `-platform_version` by addressing the FIXME in the code to process the arguments.
Reviewed By: int3, #lld-macho
Differential Revision: https://reviews.llvm.org/D81413
Handle command-line option `-sectcreate SEG SECT FILE`, which inputs a binary blob from `FILE` into `SEG,SECT`
Reviewed By: int3
Differential Revision: https://reviews.llvm.org/D85501
This patch adds the missing information to the LF_BUILDINFO record, which allows for rebuilding a .CPP without any external dependency but the .OBJ itself (other than the compiler).
Some external tools that we are using (Recode, Live++) are extracting the information to reproduce a build without any knowledge of the build system. The LF_BUILDINFO stores a full path to the compiler, the PWD (CWD at program startup), a relative or absolute path to the TU, and the full CC1 command line. The command line needs to be freestanding (not depend on any environment variables). In the same way, MSVC doesn't store the provided command-line, but an expanded version (somehow their equivalent of CC1) which is also freestanding.
For more information see PR36198 and D43002.
Differential Revision: https://reviews.llvm.org/D80833
Currently both sections will be placed in the same PT_LOAD and therefore
lld generates a contiguous output file containing both sections.
By using AT(0xffff0000) the .vectors is placed a separate PT_LOAD and the
resulting file is now only a few kilobytes.
Reviewed By: psmith
Differential Revision: https://reviews.llvm.org/D85661
When a weak reference of a lazy symbol occurs we were not correctly
updating the lazy symbol. We need to tag the existing lazy symbol
as weak and, in the case of a function symbol, give it a signature.
Without the signature we can't then create the dummy function which
is needed when an weakly undefined function is called.
We had tests for weakly referenced lazy symbols but we were only
tests in the case where the reference was seen before the lazy
symbol.
See: https://github.com/WebAssembly/wasi-libc/pull/214
Differential Revision: https://reviews.llvm.org/D85567
Jez Ng