isExported, intended to replace exportDynamic, is primarily set in two
locations, (a) after parseSymbolVersion and (b) during demoteSymbols.
In the future, we should try removing exportDynamic. Currently,
merging exportDynamic/isExported would cause
riscv-gp.s to fail:
* The first isExported computation considers the undefined symbol exported
* Defined as a linker-synthesized symbol
* isExported remains true, while it should be false
so that we can remove the global `ctx` from toString implementations.
Rename lld::toString (to lld:🧝:toStr) to simplify name lookup (we
have many llvm::toString and another lld::toString(const llvm::opt::Arg
&)).
Remove the global variable `symtab` and add a member variable
(`std::unique_ptr<SymbolTable>`) to `Ctx` instead.
This is one step toward eliminating global states.
Pull Request: https://github.com/llvm/llvm-project/pull/109612
Ctx was introduced in March 2022 as a more suitable place for such
singletons.
We now use default-initialization for `LinkerScript` and should pay
attention to non-class types (e.g. `dot` is initialized by commit
503907dc505db1e439e7061113bf84dd105f2e35).
... using the temporary section type code 0x40000020
(`clang -c -Wa,--crel,--allow-experimental-crel`). LLVM will change the
code and break compatibility (Clang and lld of different versions are
not guaranteed to cooperate, unlike other features). CREL with implicit
addends are not supported.
---
Introduce `RelsOrRelas::crels` to iterate over SHT_CREL sections and
update users to check `crels`.
(The decoding performance is critical and error checking is difficult.
Follow `skipLeb` and `R_*LEB128` handling, do not use
`llvm::decodeULEB128`, whichs compiles to a lot of code.)
A few users (e.g. .eh_frame, LLDDwarfObj, s390x) require random access. Pass
`/*supportsCrel=*/false` to `relsOrRelas` to allocate a buffer and
convert CREL to RELA (`relas` instead of `crels` will be used). Since
allocating a buffer increases, the conversion is only performed when
absolutely necessary.
---
Non-alloc SHT_CREL sections may be created in -r and --emit-relocs
links. SHT_CREL and SHT_RELA components need reencoding since
r_offset/r_symidx/r_type/r_addend may change. (r_type may change because
relocations referencing a symbol in a discarded section are converted to
`R_*_NONE`).
* SHT_CREL components: decode with `RelsOrRelas` and re-encode (`OutputSection::finalizeNonAllocCrel`)
* SHT_RELA components: convert to CREL (`relToCrel`). An output section can only have one relocation section.
* SHT_REL components: print an error for now.
SHT_REL to SHT_CREL conversion for -r/--emit-relocs is complex and
unsupported yet.
Link: https://discourse.llvm.org/t/rfc-crel-a-compact-relocation-format-for-elf/77600
Pull Request: https://github.com/llvm/llvm-project/pull/98115
This commit provides linker support for Cortex-M Security Extensions (CMSE).
The specification for this feature can be found in ARM v8-M Security Extensions:
Requirements on Development Tools.
The linker synthesizes a security gateway veneer in a special section;
`.gnu.sgstubs`, when it finds non-local symbols `__acle_se_<entry>` and `<entry>`,
defined relative to the same text section and having the same address. The
address of `<entry>` is retargeted to the starting address of the
linker-synthesized security gateway veneer in section `.gnu.sgstubs`.
In summary, the linker translates input:
```
.text
entry:
__acle_se_entry:
[entry_code]
```
into:
```
.section .gnu.sgstubs
entry:
SG
B.W __acle_se_entry
.text
__acle_se_entry:
[entry_code]
```
If addresses of `__acle_se_<entry>` and `<entry>` are not equal, the linker
considers that `<entry>` already defines a secure gateway veneer so does not
synthesize one.
If `--out-implib=<out.lib>` is specified, the linker writes the list of secure
gateway veneers into a CMSE import library `<out.lib>`. The CMSE import library
will have 3 sections: `.symtab`, `.strtab`, `.shstrtab`. For every secure gateway
veneer <entry> at address `<addr>`, `.symtab` contains a `SHN_ABS` symbol `<entry>` with
value `<addr>`.
If `--in-implib=<in.lib>` is specified, the linker reads the existing CMSE import
library `<in.lib>` and preserves the entry function addresses in the resulting
executable and new import library.
Reviewed By: MaskRay, peter.smith
Differential Revision: https://reviews.llvm.org/D139092
This reverts commit 9246df7049b0bb83743f860caff4221413c63de2.
Reason: This patch broke the UBSan buildbots. See more information in
the original phabricator review: https://reviews.llvm.org/D139092
This reverts commit c4fea3905617af89d1ad87319893e250f5b72dd6.
I am reverting this for now until I figure out how to fix
the build bot errors and warnings.
Errors:
llvm-project/lld/ELF/Arch/ARM.cpp:1300:29: error: expected primary-expression before ‘>’ token
osec->writeHeaderTo<ELFT>(++sHdrs);
Warnings:
llvm-project/lld/ELF/Arch/ARM.cpp:1306:31: warning: left operand of comma operator has no effect [-Wunused-value]
This commit provides linker support for Cortex-M Security Extensions (CMSE).
The specification for this feature can be found in ARM v8-M Security Extensions:
Requirements on Development Tools.
The linker synthesizes a security gateway veneer in a special section;
`.gnu.sgstubs`, when it finds non-local symbols `__acle_se_<entry>` and `<entry>`,
defined relative to the same text section and having the same address. The
address of `<entry>` is retargeted to the starting address of the
linker-synthesized security gateway veneer in section `.gnu.sgstubs`.
In summary, the linker translates input:
```
.text
entry:
__acle_se_entry:
[entry_code]
```
into:
```
.section .gnu.sgstubs
entry:
SG
B.W __acle_se_entry
.text
__acle_se_entry:
[entry_code]
```
If addresses of `__acle_se_<entry>` and `<entry>` are not equal, the linker
considers that `<entry>` already defines a secure gateway veneer so does not
synthesize one.
If `--out-implib=<out.lib>` is specified, the linker writes the list of secure
gateway veneers into a CMSE import library `<out.lib>`. The CMSE import library
will have 3 sections: `.symtab`, `.strtab`, `.shstrtab`. For every secure gateway
veneer <entry> at address `<addr>`, `.symtab` contains a `SHN_ABS` symbol `<entry>` with
value `<addr>`.
If `--in-implib=<in.lib>` is specified, the linker reads the existing CMSE import
library `<in.lib>` and preserves the entry function addresses in the resulting
executable and new import library.
Reviewed By: MaskRay, peter.smith
Differential Revision: https://reviews.llvm.org/D139092
Add LLVM_LIBRARY_VISIBILITY to remove unneeded GOT and unique_ptr
indirection. We can move other global variables into ctx without
indirection concern. In the long term we may consider passing Ctx
as a parameter to various functions and eliminate global state as
much as possible and then remove `Ctx::reset`.
This change renames this method match its original name and the name
used in the wasm linker.
Back in d8f8abbd4a2823f223bd7bc56445541fb221b512 the ELF SymbolTable
method `getSymbols()` was replaced with `forEachSymbol`.
Then in a2fc96441788fba1e4709d63677f34ed8e321dae `forEachSymbol` was
replaced with a `llvm::iterator_range`.
Then in e9262edf0d11a907763098d8e101219ccd9c43e9 we came full circle
and the `llvm::iterator_range` was replaced with a `symbols()` accessor
that was identical the original `getSymbols()`.
`getSymbols` also matches the name used elsewhere in the ELF linker as
well as in both COFF and wasm backend (e.g. `InputFiles.h` and
`SyntheticSections.h`)
Differential Revision: https://reviews.llvm.org/D130787
This simplifies code, removes a read32 (for id==0 check), and makes it feasible
to combine some operations in EhInputSection::split and EhFrameSection::addRecords.
Mostly NFC, but fixes "Relocation not in any piece" assertion failure in an
erroneous case when a relocation offset precedes all CIE/FDE pices.
inputSections temporarily contains EhInputSection objects mainly for
combineEhSections. Place EhInputSection objects into a new vector
ehInputSections instead of inputSections.
Symbol.h depends on InputFiles.h. This change moves us toward dropping the
weird dependency.
The call sites will become slightly uglier (`cast<SharedFile>(s->file)`), but
the compromise is acceptable.
In many call sites we know uncompression cannot happen (non-SHF_ALLOC, or the
data (even if compressed) must have been uncompressed by a previous pass).
Prefer rawData in these cases. data() increases code size and prevents
optimization on rawData.
Previously an InputSectionBase is dead (`partition==0`) by default.
SyntheticSection calls markLive and BssSection overrides that with markDead.
It is more natural to make InputSectionBase live by default and let
--gc-sections mark InputSectionBase dead.
When linking a Release build of clang:
* --no-gc-sections:, the removed `inputSections` loop decreases markLive time from 4ms to 1ms.
* --gc-sections: the extra `inputSections` loop increases markLive time from 0.181296s to 0.188526s.
This is as of we lose the removing one `inputSections` loop optimization (4374824ccf6e7ae68264d996a9ae5bb5e3be7fc5).
I believe the loss can be mitigated if we refactor markLive.
Move all variables at file-scope or function-static-scope into a hosting structure (lld::CommonLinkerContext) that lives at lldMain()-scope. Drivers will inherit from this structure and add their own global state, in the same way as for the existing COFFLinkerContext.
See discussion in https://lists.llvm.org/pipermail/llvm-dev/2021-June/151184.html
Differential Revision: https://reviews.llvm.org/D108850
Older Go cmd/link used SHT_PROGBITS for .init_array .
Work around the lack of https://golang.org/cl/373734 for a while.
It does not generate .fini_array or .preinit_array
For `InputSection` `.foo`, its `InputBaseSection::{areRelocsRela,firstRelocation,numRelocation}` basically
encode the information of `.rel[a].foo`. However, one uint32_t (the relocation section index)
suffices. See the implementation of `relsOrRelas`.
This change decreases sizeof(InputSection) from 184 to 176 on 64-bit Linux.
The maximum resident set size linking a large application (1.2G output) decreases by 0.39%.
Differential Revision: https://reviews.llvm.org/D112513
