On 2020-01-08, Fangrui Song wrote:
On 2020-01-07, Szabolcs Nagy wrote:
On 07/01/2020 07:25, Fangrui Song wrote:
On 2020-01-06, Fangrui Song wrote:
The addresses of NOPs are collected in a section named
__patchable_function_entries.
A __patchable_function_entries entry is relocated by a symbolic relocation
(e.g. R_X86_64_64, R_AARCH64_ABS64, R_PPC64_ADDR64).
In -shared or -pie mode, the linker will create a dynamic relocation
(non-preemptible: relative relocation (e.g. R_X86_64_RELATIVE);
preemptible: symbolic relocation (e.g. R_X86_64_64)).
In either case, the section contents will be modified at runtime.
Thus, the section should have the SHF_WRITE flag to avoid text relocations
(DF_TEXTREL).
pie/pic should either imply writable __patchable_function_entries,
or __patchable_function_entries should be documented to be offsets
from some base address in the module: the users of it have to modify
.text and do lowlevel hacks so they should be able to handle such
arithmetics.
i think it's worth opening a gcc bug report.
https://gcc.gnu.org/bugzilla/show_bug.cgi?id=93194 patch posted to gcc-patches.
PC-relative relocation types (R_X86_64_64, R_AARCH64_PREL64,
R_PPC64_REL64) can avoid dynamic relocations, and avoid the need for
SHF_WRITE. Unfortunately, it seems we cannot re-interpret
__patchable_function_entries. I have found 2 other problems with the
current __patchable_function_entries. Perhaps we need a new design.
* https://gcc.gnu.org/bugzilla/show_bug.cgi?id=93197
__patchable_function_entries will always be collected by --gc-sections
(.tmp_vmlinux1 is not linked with --gc-sections, so it appears that
the Linux kernel is not affected.)
I think the solution requires a GNU ld and gold side fix:
https://sourceware.org/bugzilla/show_bug.cgi?id=24526
If you clang>=8, you can play with clang -fstack-size-section -c a.cc
Basically I think __patchable_function_entry has to behave like .stack_sizes .
* https://gcc.gnu.org/bugzilla/show_bug.cgi?id=93195
__patchable_function_entries should consider comdat groups.
It can cause linker failures (GNU ld, gold and lld). It is fairly
easy to trigger with C++ inline.
(OK, the Linux kernel does not speak C++.)
(Clang's function multi-versioning implementation uses comdat, even in
C. I don't have an example with GCC. My GCC __attribute__((target(..))) is
broken.)
The two issues make -fpatchable-function-entry useless for user
applications. I still hope we can make the solution more general, not
restricted to the Linux kernel. We've already implemented enough GCC
options for dynamic ftrace (with regs) and live patching: -mfentry
-mnop-mcount -mrecord-mcount -mhotpatch -fpatchable-function-entry.
FWIW I am working on a clang/llvm patch https://reviews.llvm.org/D72215
I have tried resolving these problems.
("o" (SHF_LINK_ORDER+sh_link) is not recognized by GNU as.)
The LLVM 10.0 release branch is scheduled next week. I want to
contribute my clang -fpatchable-function-entry patches before that
(already approved), so that clang built Linux people can play with it
with Clang 10.0 .
Can we agree on the syntax of the new option before 2020-01-15?
We can reuse the option name, just overload the value by adding the
third argument, "pcrel":
-fpatchable-function-entry=2,0,pcrel
If "pcrel" is seen, GCC should emit the __patchable_function_entries
section which contains PC-relative addresses, instead of absolute
addresses. This is backward compatible.
% stage1-gcc/xgcc -B stage1-gcc -fpatchable-function-entry=1,a -xc /dev/null
cc1: error: invalid arguments for ‘-fpatchable_function_entry’
(OK, another bug: incorrect option name in the diagnostic.)
I can teach Clang to only recognize the pcrel form.
The function attribute does not need any change:
__attribute__((patchable_function_entry(N,M)))
