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Restructure the architecture extensions table, add a new table for architecture
version dependencies, add missing architecture extensions, and improve some
extension descriptions.
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The usual convention is to use tabs. Not all test are following this,
but at least when using tabs, let's use it consistently throughout the
file.
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Commit f530d5f1bab6 ("Update x86/APX: VROUND{P,S}{S,D} can generally be
encoded") took care of only half of the remaining issue. Add #pass here
as well.
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For two register macros (e.g. la.local $t0, $t1, symbol) used in extreme code
model, do not emit R_LARCH_RELAX relocations.
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Append "#pass" to APX tests for targets which pad text sections with NOPs.
* testsuite/gas/i386/x86-64-apx-evex-promoted-intel.d: Append
"#pass".
* testsuite/gas/i386/x86-64-apx-evex-promoted.d: Likewise.
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VRNDSCALE{P,S}{S,D} is the AVX512 generalization of these AVX insns. As
long as the immediate has the top 4 bits clear, they are equivalent to
the earlier VEX-encoded insns, and hence can be used to permit use of
eGPR-s in the memory operand. Since this is the normal way of using
these insns, also alter the resulting diagnostic to complain about the
immediate, not the eGPR use.
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When there's a suitably disambiguating register operand, suffixes are
generally omitted (unless in suffix-always mode). All NDD insns have a
suitable register operand, so they shouldn't have suffixes by default.
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This was missed in 6177c84d5edc ("Support APX GPR32 with extend evex
prefix").
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Since SCFI isn't supported on x32:
Fatal error: SCFI is not supported for this ABI
skip SCFI tests for x32 targets.
PR gas/31245
* testsuite/gas/scfi/x86_64/scfi-x86-64.exp: Skip for x32
targets.
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Along with the relevant unit-tests, this adds the following rcpc3
instructions:
STL1 { <Vt>.D }[<index>], [<Xn|SP>]
LDAP1 { <Vt>.D }[<index>], [<Xn|SP>]
LDAPUR <Bt>, [<Xn|SP>{, #<simm>}]
LDAPUR <Ht>, [<Xn|SP>{, #<simm>}]
LDAPUR <St>, [<Xn|SP>{, #<simm>}]
LDAPUR <Dt>, [<Xn|SP>{, #<simm>}]
LDAPUR <Qt>, [<Xn|SP>{, #<simm>}]
STLUR <Bt>, [<Xn|SP>{, #<simm>}]
STLUR <Ht>, [<Xn|SP>{, #<simm>}]
STLUR <St>, [<Xn|SP>{, #<simm>}]
STLUR <Dt>, [<Xn|SP>{, #<simm>}]
STLUR <Qt>, [<Xn|SP>{, #<simm>}]
with `#<simm>' taking on a signed 8-bit integer value in the range
[-256,255] and `index' the values 0 or 1.
Co-authored-by: Srinath Parvathaneni <srinath.parvathaneni@arm.com>
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Along with the relevant unit tests and updates to the existing
regression tests, this adds support for the following novel rcpc3
insns:
LDIAPP <Wt1>, <Wt2>, [<Xn|SP>]
LDIAPP <Wt1>, <Wt2>, [<Xn|SP>], #8
LDIAPP <Xt1>, <Xt2>, [<Xn|SP>]
LDIAPP <Xt1>, <Xt2>, [<Xn|SP>], #16
STILP <Wt1>, <Wt2>, [<Xn|SP>]
STILP <Wt1>, <Wt2>, [<Xn|SP>, #-8]!
STILP <Xt1>, <Xt2>, [<Xn|SP>]
STILP <Xt1>, <Xt2>, [<Xn|SP>, #-16]!
LDAPR <Wt>, [<Xn|SP>], #4
LDAPR <Xt>, [<Xn|SP>], #8
STLR <Wt>, [<Xn|SP>, #-4]!
STLR <Xt>, [<Xn|SP>, #-8]!
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The particular choices of address indexing, along with their encoding
for RCPC3 instructions lead to the requirement of a new set of operand
descriptions, along with the relevant inserter/extractor set.
That is, for the integer load/stores, there is only a single valid
indexing offset quantity and offset mode is allowed - The value is
always equivalent to the amount of data read/stored by the
operation and the offset is post-indexed for Load-Acquire RCpc, and
pre-indexed with writeback for Store-Release insns.
This indexing quantity/mode pair is selected by the setting of a
single bit in the instruction. To represent these insns, we add the
following operand types:
- AARCH64_OPND_RCPC3_ADDR_OPT_POSTIND
- AARCH64_OPND_RCPC3_ADDR_OPT_PREIND_WB
In the case of loads and stores involving SIMD/FP registers, the
optional offset is encoded as an 8-bit signed immediate, but neither
post-indexing or pre-indexing with writeback is available. This
created the need for an operand type similar to
AARCH64_OPND_ADDR_OFFSET, with the difference that FLD_index should
not be checked.
We thus introduce the AARCH64_OPND_RCPC3_ADDR_OFFSET operand, a
variant of AARCH64_OPND_ADDR_OFFSET, w/o the FLD_index bitfield.
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Indicating the presence of the Armv8.2-a feature adding further
support for the Release Consistency Model, the `+rcpc3' architectural
extension flag is added to the list of possible `-march' options in
Binutils, together with the necessary macro for encoding rcpc3
instructions.
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There are some tlbi operations that don't have a corresponding tlbip operation,
but we were incorrectly using the same list for both. Add the missing tlbi
*nxs operations, and use the F_REG_128 flag to filter tlbi operations that
don't have a tlbip analogue. For increased clarity, I have also used a macro
to reduce duplication between the 'nxs' and non-'nxs' variants, and added a
test to verify that no invalid combinations are accepted.
Additionally, fix two missing checks for AARCH64_OPND_SYSREG_TLBIP that were
preventing disassembly of tlbip instructions.
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Add an aarch64_feature_set field to aarch64_sys_ins_reg, and use this for
feature checks instead of testing against a list of operand codes.
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Hi,
This patch add support for SVE2.1 instructions ld1q,
ld2q, ld3q and ld4q, st1q, st2q, st3q and st4q.
Regression testing for aarch64-none-elf target and found no regressions.
Ok for binutils-master?
Regards,
Srinath.
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Hi,
This patch add support for SVE2.1 instruction faddqv,
fmaxnmqv, fmaxqv, fminnmqv and fminqv.
Regression testing for aarch64-none-elf target and found no regressions.
Ok for binutils-master?
Regards,
Srinath.
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Hi,
This patch add support for SVE2.1 instruction dupq, eorqv and extq.
Regression testing for aarch64-none-elf target and found no regressions.
Ok for binutils-master?
Regards,
Srinath.
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Hi,
This patch add support for FEAT_SVE2p1 (SVE2.1 Extension) feature
along with +sve2p1 optional flag to enabe this feature.
Also support for following SVE2p1 instructions is added
addqv, andqv, smaxqv, sminqv, umaxqv, uminqv and uminqv.
Regression testing for aarch64-none-elf target and found no regressions.
Ok for binutils-master?
Regards,
Srinath.
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Hi,
This patch add support for FEAT_SME2p1 and "movaz" instructions
along with the optional flag +sme2p1.
Following "movaz" instructions are add:
Move and zero two ZA tile slices to vector registers.
Move and zero four ZA tile slices to vector registers.
Regression testing for aarch64-none-elf target and found no regressions.
Ok for binutils-master?
Regards,
Srinath.
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Hi,
This patch add support for SVE2.1 and SME2.1 non-widening BFloat16
(FEAT_B16B16) instructions.
Following instructions predicated, unpredicated and indexed
variants are added in this patch.
bfadd, bfclamp, bfmax bfmaxnm, bfmin,bfminnm,
bfmla,bfmls,bfmul and bfsub.
Regression testing for aarch64-none-elf target and found no regressions.
Ok for binutils-master?
Regards,
Srinath.
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The testsuite for SCFI contains target-specific tests.
When a test is executed with --scfi=experimental command line option,
the CFI annotations in the test .s files are skipped altogether by the
GAS for processing. The CFI directives in the input assembly files are,
however, validated by running the assembler one more time without
--scfi=experimental.
Some testcases are used to highlight those asm constructs that the SCFI
machinery in GAS currently does not support:
- Only System V AMD64 ABI is supported for now. Using either --32 or
--x32 with SCFI results in hard error.
See scfi-unsupported-1.s.
- Untraceable stack-pointer manipulation in function epilougue and prologue.
See scfi-unsupported-2.s.
- Using Dynamically Realigned Arguement Pointer (DRAP) register to
realign the stack. For SCFI, the CFA must be only REG_SP or REG_FP
based. See scfi-unsupported-drap-1.s
Some testcases are used to highlight some diagnostics that the SCFI
machinery in GAS currently issues, with an intent to help user correct
inadvertent errors in their hand-written asm. An error is issued when
GAS finds that input asm is not amenable to correct CFI synthesis.
- (#1) "Warning: SCFI: Asymetrical register restore"
- (#2) "Error: SCFI: usage of REG_FP as scratch not supported"
- (#3) "Error: SCFI: unsupported stack manipulation pattern"
In case of (#2) and (#3), SCFI generation is skipped for the respective
function. Above is a subset of the warnings/errors implemented in the
code.
gas/testsuite/:
* gas/scfi/README: New test.
* gas/scfi/x86_64/ginsn-add-1.l: New test.
* gas/scfi/x86_64/ginsn-add-1.s: New test.
* gas/scfi/x86_64/ginsn-dw2-regnum-1.l: New test.
* gas/scfi/x86_64/ginsn-dw2-regnum-1.s: New test.
* gas/scfi/x86_64/ginsn-pop-1.l: New test.
* gas/scfi/x86_64/ginsn-pop-1.s: New test.
* gas/scfi/x86_64/ginsn-push-1.l: New test.
* gas/scfi/x86_64/ginsn-push-1.s: New test.
* gas/scfi/x86_64/scfi-add-1.d: New test.
* gas/scfi/x86_64/scfi-add-1.l: New test.
* gas/scfi/x86_64/scfi-add-1.s: New test.
* gas/scfi/x86_64/scfi-add-2.d: New test.
* gas/scfi/x86_64/scfi-add-2.l: New test.
* gas/scfi/x86_64/scfi-add-2.s: New test.
* gas/scfi/x86_64/scfi-asm-marker-1.d: New test.
* gas/scfi/x86_64/scfi-asm-marker-1.l: New test.
* gas/scfi/x86_64/scfi-asm-marker-1.s: New test.
* gas/scfi/x86_64/scfi-asm-marker-2.d: New test.
* gas/scfi/x86_64/scfi-asm-marker-2.l: New test.
* gas/scfi/x86_64/scfi-asm-marker-2.s: New test.
* gas/scfi/x86_64/scfi-asm-marker-3.d: New test.
* gas/scfi/x86_64/scfi-asm-marker-3.l: New test.
* gas/scfi/x86_64/scfi-asm-marker-3.s: New test.
* gas/scfi/x86_64/scfi-bp-sp-1.d: New test.
* gas/scfi/x86_64/scfi-bp-sp-1.l: New test.
* gas/scfi/x86_64/scfi-bp-sp-1.s: New test.
* gas/scfi/x86_64/scfi-bp-sp-2.d: New test.
* gas/scfi/x86_64/scfi-bp-sp-2.l: New test.
* gas/scfi/x86_64/scfi-bp-sp-2.s: New test.
* gas/scfi/x86_64/scfi-callee-saved-1.d: New test.
* gas/scfi/x86_64/scfi-callee-saved-1.l: New test.
* gas/scfi/x86_64/scfi-callee-saved-1.s: New test.
* gas/scfi/x86_64/scfi-callee-saved-2.d: New test.
* gas/scfi/x86_64/scfi-callee-saved-2.l: New test.
* gas/scfi/x86_64/scfi-callee-saved-2.s: New test.
* gas/scfi/x86_64/scfi-callee-saved-3.d: New test.
* gas/scfi/x86_64/scfi-callee-saved-3.l: New test.
* gas/scfi/x86_64/scfi-callee-saved-3.s: New test.
* gas/scfi/x86_64/scfi-callee-saved-4.d: New test.
* gas/scfi/x86_64/scfi-callee-saved-4.l: New test.
* gas/scfi/x86_64/scfi-callee-saved-4.s: New test.
* gas/scfi/x86_64/scfi-cfg-1.d: New test.
* gas/scfi/x86_64/scfi-cfg-1.l: New test.
* gas/scfi/x86_64/scfi-cfg-1.s: New test.
* gas/scfi/x86_64/scfi-cfg-2.d: New test.
* gas/scfi/x86_64/scfi-cfg-2.l: New test.
* gas/scfi/x86_64/scfi-cfg-2.s: New test.
* gas/scfi/x86_64/scfi-cfi-label-1.d: New test.
* gas/scfi/x86_64/scfi-cfi-label-1.l: New test.
* gas/scfi/x86_64/scfi-cfi-label-1.s: New test.
* gas/scfi/x86_64/scfi-cfi-sections-1.d: New test.
* gas/scfi/x86_64/scfi-cfi-sections-1.l: New test.
* gas/scfi/x86_64/scfi-cfi-sections-1.s: New test.
* gas/scfi/x86_64/scfi-cofi-1.d: New test.
* gas/scfi/x86_64/scfi-cofi-1.l: New test.
* gas/scfi/x86_64/scfi-cofi-1.s: New test.
* gas/scfi/x86_64/scfi-diag-1.l: New test.
* gas/scfi/x86_64/scfi-diag-1.s: New test.
* gas/scfi/x86_64/scfi-diag-2.l: New test.
* gas/scfi/x86_64/scfi-diag-2.s: New test.
* gas/scfi/x86_64/scfi-dyn-stack-1.d: New test.
* gas/scfi/x86_64/scfi-dyn-stack-1.l: New test.
* gas/scfi/x86_64/scfi-dyn-stack-1.s: New test.
* gas/scfi/x86_64/scfi-enter-1.d: New test.
* gas/scfi/x86_64/scfi-enter-1.l: New test.
* gas/scfi/x86_64/scfi-enter-1.s: New test.
* gas/scfi/x86_64/scfi-fp-diag-2.l: New test.
* gas/scfi/x86_64/scfi-fp-diag-2.s: New test.
* gas/scfi/x86_64/scfi-indirect-mov-1.d: New test.
* gas/scfi/x86_64/scfi-indirect-mov-1.l: New test.
* gas/scfi/x86_64/scfi-indirect-mov-1.s: New test.
* gas/scfi/x86_64/scfi-indirect-mov-2.d: New test.
* gas/scfi/x86_64/scfi-indirect-mov-2.l: New test.
* gas/scfi/x86_64/scfi-indirect-mov-2.s: New test.
* gas/scfi/x86_64/scfi-indirect-mov-3.d: New test.
* gas/scfi/x86_64/scfi-indirect-mov-3.l: New test.
* gas/scfi/x86_64/scfi-indirect-mov-3.s: New test.
* gas/scfi/x86_64/scfi-indirect-mov-4.d: New test.
* gas/scfi/x86_64/scfi-indirect-mov-4.l: New test.
* gas/scfi/x86_64/scfi-indirect-mov-4.s: New test.
* gas/scfi/x86_64/scfi-indirect-mov-5.s: New test.
* gas/scfi/x86_64/scfi-lea-1.d: New test.
* gas/scfi/x86_64/scfi-lea-1.l: New test.
* gas/scfi/x86_64/scfi-lea-1.s: New test.
* gas/scfi/x86_64/scfi-leave-1.d: New test.
* gas/scfi/x86_64/scfi-leave-1.l: New test.
* gas/scfi/x86_64/scfi-leave-1.s: New test.
* gas/scfi/x86_64/scfi-pushq-1.d: New test.
* gas/scfi/x86_64/scfi-pushq-1.l: New test.
* gas/scfi/x86_64/scfi-pushq-1.s: New test.
* gas/scfi/x86_64/scfi-pushsection-1.d: New test.
* gas/scfi/x86_64/scfi-pushsection-1.l: New test.
* gas/scfi/x86_64/scfi-pushsection-1.s: New test.
* gas/scfi/x86_64/scfi-pushsection-2.d: New test.
* gas/scfi/x86_64/scfi-pushsection-2.l: New test.
* gas/scfi/x86_64/scfi-pushsection-2.s: New test.
* gas/scfi/x86_64/scfi-selfalign-func-1.d: New test.
* gas/scfi/x86_64/scfi-selfalign-func-1.l: New test.
* gas/scfi/x86_64/scfi-selfalign-func-1.s: New test.
* gas/scfi/x86_64/scfi-simple-1.d: New test.
* gas/scfi/x86_64/scfi-simple-1.l: New test.
* gas/scfi/x86_64/scfi-simple-1.s: New test.
* gas/scfi/x86_64/scfi-simple-2.d: New test.
* gas/scfi/x86_64/scfi-simple-2.l: New test.
* gas/scfi/x86_64/scfi-simple-2.s: New test.
* gas/scfi/x86_64/scfi-sub-1.d: New test.
* gas/scfi/x86_64/scfi-sub-1.l: New test.
* gas/scfi/x86_64/scfi-sub-1.s: New test.
* gas/scfi/x86_64/scfi-sub-2.d: New test.
* gas/scfi/x86_64/scfi-sub-2.l: New test.
* gas/scfi/x86_64/scfi-sub-2.s: New test.
* gas/scfi/x86_64/scfi-unsupported-1.l: New test.
* gas/scfi/x86_64/scfi-unsupported-1.s: New test.
* gas/scfi/x86_64/scfi-unsupported-2.l: New test.
* gas/scfi/x86_64/scfi-unsupported-2.s: New test.
* gas/scfi/x86_64/scfi-unsupported-3.l: New test.
* gas/scfi/x86_64/scfi-unsupported-3.s: New test.
* gas/scfi/x86_64/scfi-unsupported-4.l: New test.
* gas/scfi/x86_64/scfi-unsupported-4.s: New test.
* gas/scfi/x86_64/scfi-unsupported-cfg-1.l: New test.
* gas/scfi/x86_64/scfi-unsupported-cfg-1.s: New test.
* gas/scfi/x86_64/scfi-unsupported-cfg-2.l: New test.
* gas/scfi/x86_64/scfi-unsupported-cfg-2.s: New test.
* gas/scfi/x86_64/scfi-unsupported-drap-1.l: New test.
* gas/scfi/x86_64/scfi-unsupported-drap-1.s: New test.
* gas/scfi/x86_64/scfi-unsupported-insn-1.l: New test.
* gas/scfi/x86_64/scfi-unsupported-insn-1.s: New test.
* gas/scfi/x86_64/scfi-x86-64.exp: New file.
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Add a new listing option, -i, to emit ginsn in the listing output. We
may also emit other SCFI information if necessary in the future.
ginsn are most useful when seen alongside the assembly instructions.
Hence, they are emitted when the user includes the assembly instructions
in the listing output, i.e., "-ali=FILE".
gas/doc/:
* as.texi: Add documentation for the new listing option, -i.
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This patch adds support in GAS to create generic GAS instructions
(a.k.a., the ginsn) for the x86 backend (AMD64 ABI only at this time).
Using this ginsn infrastructure, GAS can then synthesize CFI for
hand-written asm for x86_64.
A ginsn is a target-independent representation of the machine
instructions. One machine instruction may need one or more ginsn.
This patch also adds skeleton support for printing ginsn in the listing
output for debugging purposes.
Since the current use-case of ginsn is to synthesize CFI, the x86 target
needs to generate ginsns necessary for the following machine
instructions only:
- All change of flow instructions, including all conditional and
unconditional branches, call and return from functions.
- All register saves and unsaves to the stack.
- All instructions affecting the two registers that could potentially
be used as the base register for CFA tracking. For SCFI, the base
register for CFA tracking is limited to REG_SP and REG_FP only for
now.
The representation of ginsn is kept simple:
- GAS instruction has GINSN_NUM_SRC_OPNDS (defined to be 2 at this time)
number of source operands and one destination operand at this time.
- GAS instruction uses DWARF register numbers in its representation and
does not track register size.
- GAS instructions carry location information (file name and line
number).
- GAS instructions are ID's with a natural number in order of their
addtion to the list. This can be used as a proxy for the static
program order of the corresponding machine instructions.
Note that, GAS instruction (ginsn) format does not support
GINSN_TYPE_PUSH and GINSN_TYPE_POP. Some architectures, like aarch64,
do not have push and pop instructions, but rather STP/LDP/STR/LDR etc.
instructions. Further these instructions have a variety of addressing
modes, like offset, pre-indexing and post-indexing etc. Among other
things, one of differences in these addressing modes is _when_ the addr
register is updated with the result of the address calculation: before
or after the memory operation. To best support such needs, the generic
instructions like GINSN_TYPE_LOAD, GINSN_TYPE_STORE together with
GINSN_TYPE_ADD, and GINSN_TYPE_SUB may be used.
The functionality provided in ginsn.c and scfi.c is compiled in when a
target defines TARGET_USE_SCFI and TARGET_USE_GINSN. This can be
revisited later when there are other use-cases of creating ginsn's in
GAS, apart from the current use-case of synthesizing CFI for
hand-written asm.
Support is added only for System V AMD64 ABI for ELF at this time. If
the user enables SCFI with --32, GAS issues an error:
"Fatal error: SCFI is not supported for this ABI"
For synthesizing (DWARF) CFI, the SCFI machinery requires the programmer
to adhere to some pre-requisites for their asm:
- Hand-written asm block must begin with a .type foo, @function
It is highly recommended to, additionally, also ensure that:
- Hand-written asm block ends with a .size foo, .-foo
The SCFI machinery encodes some rules which align with the standard
calling convention specified by the ABI. Apart from the rules, the SCFI
machinery employs some heuristics. For example:
- The base register for CFA tracking may be either REG_SP or REG_FP.
- If the base register for CFA tracking is REG_SP, the precise amount of
stack usage (and hence, the value of REG_SP) must be known at all times.
- If using dynamic stack allocation, the function must switch to
FP-based CFA. This means using instructions like the following (in
AMD64) in prologue:
pushq %rbp
movq %rsp, %rbp
and analogous instructions in epilogue.
- Save and Restore of callee-saved registers must be symmetrical.
However, the SCFI machinery at this time only warns if any such
asymmetry is seen.
These heuristics/rules are architecture-independent and are meant to
employed for all architectures/ABIs using SCFI in the future.
gas/
* Makefile.am: Add new files.
* Makefile.in: Regenerated.
* as.c (defined): Handle documentation and listing option for
ginsns and SCFI.
* config/obj-elf.c (obj_elf_size): Invoke ginsn_data_end.
(obj_elf_type): Invoke ginsn_data_begin.
* config/tc-i386.c (x86_scfi_callee_saved_p): New function.
(ginsn_prefix_66H_p): Likewise.
(ginsn_dw2_regnum): Likewise.
(x86_ginsn_addsub_reg_mem): Likewise.
(x86_ginsn_addsub_mem_reg): Likewise.
(x86_ginsn_alu_imm): Likewise.
(x86_ginsn_move): Likewise.
(x86_ginsn_lea): Likewise.
(x86_ginsn_jump): Likewise.
(x86_ginsn_jump_cond): Likewise.
(x86_ginsn_enter): Likewise.
(x86_ginsn_safe_to_skip): Likewise.
(x86_ginsn_unhandled): Likewise.
(x86_ginsn_new): New functionality to generate ginsns.
(md_assemble): Invoke x86_ginsn_new.
(s_insn): Likewise.
(i386_target_format): Add hard error for usage of SCFI with non AMD64 ABIs.
* config/tc-i386.h (TARGET_USE_GINSN): New definition.
(TARGET_USE_SCFI): Likewise.
(SCFI_MAX_REG_ID): Likewise.
(REG_FP): Likewise.
(REG_SP): Likewise.
(SCFI_INIT_CFA_OFFSET): Likewise.
(SCFI_CALLEE_SAVED_REG_P): Likewise.
(x86_scfi_callee_saved_p): Likewise.
* gas/listing.h (LISTING_GINSN_SCFI): New define for ginsn and
SCFI.
* gas/read.c (read_a_source_file): Close SCFI processing at end
of file read.
* gas/scfidw2gen.c (scfi_process_cfi_label): Add implementation.
(scfi_process_cfi_signal_frame): Likewise.
* subsegs.h (struct frch_ginsn_data): New forward declaration.
(struct frchain): New member for ginsn data.
* gas/subsegs.c (subseg_set_rest): Initialize the new member.
* symbols.c (colon): Invoke ginsn_frob_label to convey
user-defined labels to ginsn infrastructure.
* ginsn.c: New file.
* ginsn.h: New file.
* scfi.c: New file.
* scfi.h: New file.
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Rex2 is currently an operand constraint. For the upcoming SCFI
implementation in GAS, we need to identify operations which implicitly
update the stack pointer. An operand constraint enumerator for implicit
stack op seems more appropriate than an attribute. However, two opcodes
currently necessitate both Rex2 and an implicit stack op marker; this
prompts revisiting the current representations a bit.
Make Rex2 a standalone attribute, so that later a new operand constraint
may be added for IMPLICIT_STACK_OP.
ChangeLog:
* gas/config/tc-i386.c (is_apx_rex2_encoding): Update the check.
* opcodes/i386-gen.c: Add a new BITFIELD for Rex2.
* opcodes/i386-opc.h (REX2_REQUIRED): Remove.
* opcodes/i386-opc.tbl: Remove Rex2 operand constraint.
* opcodes/i386-tbl.h: Regenerated.
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Define a new set of handlers for CFI directives for the purpose of SCFI.
The SCFI machinery ignores many of the user-specified CFI direcives when
SCFI is in effect. A warning ("Warning: SCFI ignores most
user-specified CFI directives") is issued once per file. The following
CFI directives, however, are not ignored:
- .cfi_sections
- .cfi_label
- .cfi_signal_frame
gas/
* Makefile.am: Add new files to GAS_CFILES and HFILES.
* Makefile.in: Likewise.
* gas/read.c (scfi_pop_insert): New define.
(pobegin): Use the SCFI handlers.
* scfidw2gen.c: New file.
* scfidw2gen.h: New file.
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When the command line option --scfi=experimenta is passed to the GNU
assembler, it will synthesize DWARF call frame information (CFI) for the
input assembly.
The option --scfi=experimental will also ignore most of the existing
.cfi_* directives, if already contained in the provided input file.
Only the following CFI directives will not be ignored:
- .cfi_sections,
- .cfi_label,
- .cfi_signal_frame
To use SCFI, a target will need to:
- define TARGET_USE_SCFI and TARGET_USE_GINSN, and other necessary
definitions,
- provide means to help GAS understand the target specific instruction
semantics by creating ginsns.
The upcoming support for SCFI is inteded to be experimental, hence the
option --scfi=experimental. The --scfi= may see more options like
--scfi=[all,none] added in future, once the SCFI support in GAS is
mature and robust. The offering may also see for example, an
--scfi=inline option for dealing with inline asm may be added in the
future. In --scfi=inline option, the GNU assembler may consume (and not
ignore) the compiler generated CFI for the code surrounding the inline
asm.
Also document the option.
gas/
* as.c (show_usage): Add support for --scfi=experimental.
(parse_args): Likewise.
* as.h (enum synth_cfi_type): Define new type.
* doc/as.texi: Document the new option.
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gas/
* dw2gencfi.h: Declare all_cfi_sections as extern.
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scfidw2gen will use this for processing the .cfi_sections directive.
gas/
* dw2gencfi.c (dot_cfi_sections): Not static anymore.
* dw2gencfi.h (dot_cfi_sections): Mark as extern.
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Move the following three defines to the header file, so the SCFI
machinery can use them:
- tc_cfi_frame_initial_instructions
- tc_cfi_startproc
- tc_cfi_endproc
gas/
* dw2gencfi.c: Move from ...
* dw2gencfi.h: ... to here.
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gas/
* dw2gencfi.c (cfi_set_last_fde): New definition.
(dot_cfi_endproc): Use it.
(dot_cfi_fde_data): Likewise.
(dot_cfi_inline_lsda): Likewise.
* dw2gencfi.h (struct fde_entry): New declaration.
(cfi_set_last_fde): Likewise.
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The code in dw2gencfi.c was checking variable cfi_sections and
all_cfi_sections seemingly randomly. Accessing all_cfi_sections seems
to the correct variable to access.
The data in cfi_sections has already been propagated to all_cfi_sections
once cfi_dot_startproc () has been called.
gas/
* dw2gencfi.c (dot_cfi_startproc): Use all_cfi_sections
instead.
(dot_cfi_endproc): Likewise.
(dot_cfi_fde_data): Likewise.
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cfi_sections_set is best set to true in cfi_dot_startproc (). Setting
it to true again in other APIs (dot_cfi_endproc, dot_cfi_fde_data, and
cfi_finish) is unnecessary. Also, move setting the global var
all_cfi_sections into cfi_set_sections ().
gas/
* dw2gencfi.c (cfi_set_sections): Set cfi_sections_set and
cfi_sections here.
(dot_cfi_startproc): Remove unnecessarily setting
cfi_set_sections to true.
(dot_cfi_endproc): Likewise.
(dot_cfi_fde_data): Likewise.
(cfi_finish): Likewise.
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Relocations installed by the BPF ELF backend were sometimes incorrectly
adding the symbol value to the relocation entry addend, when the correct
relocation value was already stored in the addend. This could lead to a
relocation effectively adding the symbol value twice.
Fix that by making bpf_elf_generic_reloc () more similar to the flow of
bfd_install_relocation in the case where howto->install_addend is set,
which is how it ought to behave.
bfd/
* bpf-reloc.def (R_BPF_64_ABS32, R_BPF_64_ABS64)
(R_BPF_64_NODYLD32): Set partial_inplace to true.
* elf64-bpf.c (bpf_elf_generic_reloc): Do not include the value
of the symbol when installing relocation. Copy some additional
logic from bfd_elf_generic_reloc.
gas/
* testsuite/gas/bpf/bpf.exp: Run new test.
* testsuite/gas/bpf/elf-relo-1.d: New.
* testsuite/gas/bpf/elf-relo-1.s: New.
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There's no reason to disallow the aliases when the aliased instructions are
always available. The new behaviour matches existing LLVM behaviour.
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Additionally, change FEAT_XS tlbi variants to be gated on "+xs" instead of
"+d128". This is an incremental improvement; there are still some FEAT_XS tlbi
variants that are gated incorrectly or missing entirely.
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Add "+rdm" as an explicit alias for "+rdma", to maintain existing compatibility
with Clang.
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Fix PR gas/31213.
gas/
PR gas/31213
* gen-sframe.c (sframe_do_cfi_insn): Add new warning.
gas/testsuite/
* gas/cfi-sframe/common-empty-1.d: Test the new warning as well.
* gas/cfi-sframe/common-empty-2.d: Likewise.
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