DUP (indexed) can duplicate 128-bit elements, so using esz
unconditionally can assert in tcg_gen_gvec_dup_imm.
Fixes: 8711e71f9cbb
Backports commit 7e17d50ebd359ee5fa3d65d7fdc0fe0336d60694 from qemu
Now that we can pass 7 parameters, do not encode register
operands within simd_data.
Backports commit 08975da9f0bfcfa654628cae71201a351ba5449a from qemu
Move the common set_feature() and unset_feature() functions
from cpu.c and cpu64.c to cpu.h.
Backports commit 5fda95041d7237ab35733ceb66e0cb89f6107169 from qemu
Since on the aarch64-linux-user build, arm_cpus[] is empty, add
the cpu_count variable and only iterate when it is non-zero.
Backports commit 92b6a659388ab3735e5fbb17ac486923b681f57f from qemu
Calling access_el3_aa32ns() works for AArch32 only cores
but it does not handle 32-bit EL2 on top of 64-bit EL3
for mixed 32/64-bit cores.
Merge access_el3_aa32ns_aa64any() into access_el3_aa32ns()
and only use the latter.
Fixes: 68e9c2fe65 ("target-arm: Add VTCR_EL2")
Backports commit 93dd1e6140e2652347cfe7208591d4cd32762d08 from qemu
For the benefit of compatibility of function pointer types,
we have standardized on int32_t and int64_t as the integral
argument to tcg expanders.
We converted most of them in 474b2e8f0f7, but missed the rotates.
Backports commit 07dada0336a83002dfa8673a9220a88e13d9a45c from qemu
We have this same parameter for GVecGen2i, GVecGen3,
and GVecGen3i. This will make some SVE2 insns easier
to parameterize.
Backports commit ac09ae627e9a2c65c8a452b69c3dac33c29d0719 from qemu
For use when a target needs to pass a configure-specific
target_ulong value to duplicate.
Backports commit 0f039e3ad9131966d9fe509c231b756868b015e2 from qemu
Add a version of tcg_gen_dup_* that takes both immediate and
a vector element size operand. This will replace the set of
tcg_gen_gvec_dup{8,16,32,64}i functions that encode the element
size within the function name.
Backports commit 44c94677febd15488f9190b11eaa4a08e8ac696b from qemu
We're going to want at least some of the NeonGen* typedefs
for the refactored 32-bit Neon decoder, so move them all
to translate.h since it makes more sense to keep them in
one group.
Backports commit 9aefc6cf9b73f66062d2f914a0136756e7a28211 from qemu
Convert the Neon VMUL, VMLA, VMLS and VSHL insns in the
3-reg-same grouping to decodetree.
Backports commit 0de34fd48ad4e44bf5caa2330657ebefa93cea7d from qemu
Convert the Neon logic ops in the 3-reg-same grouping to decodetree.
Note that for the logic ops the 'size' field forms part of their
decode and the actual operations are always bitwise.
Backports commit 35a548edb6f5043386183b9f6b4139d99d1f130a from qemu
Convert the Neon 3-reg-same VADD and VSUB insns to decodetree.
Note that we don't need the neon_3r_sizes[op] check here because all
size values are OK for VADD and VSUB; we'll add this when we convert
the first insn that has size restrictions.
For this we need one of the GVecGen*Fn typedefs currently in
translate-a64.h; move them all to translate.h as a block so they
are visible to the 32-bit decoder.
Backports commit a4e143ac5b9185f670d2f17ee9cc1a430047cb65 from qemu
Convert the Neon "load/store single structure to one lane" insns to
decodetree.
As this is the last set of insns in the neon load/store group,
we can remove the whole disas_neon_ls_insn() function.
Backports commit 123ce4e3daba26b760b472687e1fb1ad82cf1993 from qemu
Convert the VFM[AS]L (scalar) insns in the 2reg-scalar-ext group
to decodetree. These are the last ones in the group so we can remove
all the legacy decode for the group.
Note that in disas_thumb2_insn() the parts of this encoding space
where the decodetree decoder returns false will correctly be directed
to illegal_op by the "(insn & (1 << 28))" check so they won't fall
into disas_coproc_insn() by mistake.
Backports commit d27e82f7d02f35e5919bd9cbbcb157f3537069a0 from qemu
Convert the VFM[AS]L (vector) insns to decodetree. This is the last
insn in the legacy decoder for the 3same_ext group, so we can
delete the legacy decoder function for the group entirely.
Note that in disas_thumb2_insn() the parts of this encoding space
where the decodetree decoder returns false will correctly be directed
to illegal_op by the "(insn & (1 << 28))" check so they won't fall
into disas_coproc_insn() by mistake.
Backports commit 9a107e7b8a3c87ab63ec830d3d60f319fc577ff7 from qemu
Add the infrastructure for building and invoking a decodetree decoder
for the AArch32 Neon encodings. At the moment the new decoder covers
nothing, so we always fall back to the existing hand-written decode.
We follow the same pattern we did for the VFP decodetree conversion
(commit 78e138bc1f672c145ef6ace74617d and following): code that deals
with Neon will be moving gradually out to translate-neon.vfp.inc,
which we #include into translate.c.
In order to share the decode files between A32 and T32, we
split Neon into 3 parts:
* data-processing
* load-store
* 'shared' encodings
The first two groups of instructions have similar but not identical
A32 and T32 encodings, so we need to manually transform the T32
encoding into the A32 one before calling the decoder; the third group
covers the Neon instructions which are identical in A32 and T32.
Backports commit 625e3dd44a15dfbe9532daa6454df3f86cf04d3e from qemu
We were accidentally permitting decode of Thumb Neon insns even if
the CPU didn't have the FEATURE_NEON bit set, because the feature
check was being done before the call to disas_neon_data_insn() and
disas_neon_ls_insn() in the Arm decoder but was omitted from the
Thumb decoder. Push the feature bit check down into the called
functions so it is done for both Arm and Thumb encodings.
Backports commit d1a6d3b594157425232a1ae5ea7f51b7a1c1aa2e from qemu
Somewhere along theline we accidentally added a duplicate
"using D16-D31 when they don't exist" check to do_vfm_dp()
(probably an artifact of a patchseries rebase). Remove it.
Backports commit 0d787cf1f3c88fa29477e054f8523f6d82d91c98 from qemu
MIDR_EL1 is a 64-bit system register with the top 32-bit being RES0.
Represent it in QEMU's ARMCPU struct with a uint64_t, not a
uint32_t.
This fixes an error when compiling with -Werror=conversion
because we were manipulating the register value using a
local uint64_t variable:
target/arm/cpu64.c: In function ‘aarch64_max_initfn’:
target/arm/cpu64.c:628:21: error: conversion from ‘uint64_t’ {aka ‘long unsigned int’} to ‘uint32_t’ {aka ‘unsigned int’} may change value [-Werror=conversion]
628 | cpu->midr = t;
| ^
and future-proofs us against a possible future architecture
change using some of the top 32 bits.
Backports commit e544f80030121040c8932ff1bd4006f390266c0f from qemu
In aarch64_max_initfn() we update both 32-bit and 64-bit ID
registers. The intended pattern is that for 64-bit ID registers we
use FIELD_DP64 and the uint64_t 't' register, while 32-bit ID
registers use FIELD_DP32 and the uint32_t 'u' register. For
ID_AA64DFR0 we accidentally used 'u', meaning that the top 32 bits of
this 64-bit ID register would end up always zero. Luckily at the
moment that's what they should be anyway, so this bug has no visible
effects.
Use the right-sized variable.
Backports commit 5a89dd2385a193aa954a7c9bf4e381f2ba6ae359 from qemu
The ARMv8.2-TTS2UXN feature extends the XN field in stage 2
translation table descriptors from just bit [54] to bits [54:53],
allowing stage 2 to control execution permissions separately for EL0
and EL1. Implement the new semantics of the XN field and enable
the feature for our 'max' CPU.
Backports commit ce3125bed935a12e619a8253c19340ecaa899347 from qemu
For ARMv8.2-TTS2UXN, the stage 2 page table walk wants to know
whether the stage 1 access is for EL0 or not, because whether
exec permission is given can depend on whether this is an EL0
or EL1 access. Add a new argument to get_phys_addr_lpae() so
the call sites can pass this information in.
Since get_phys_addr_lpae() doesn't already have a doc comment,
add one so we have a place to put the documentation of the
semantics of the new s1_is_el0 argument.
Backports commit ff7de2fc2c994030bfb83af9ddc9a3cd70ce3e88 from qemu
The access_type argument to get_phys_addr_lpae() is an MMUAccessType;
use the enum constant MMU_DATA_LOAD rather than a literal 0 when we
call it in S1_ptw_translate().
Backports commit 59dff859cd850876df2cfa561c7bcfc4bdda4599 from qemu
We define ARMMMUIdx_Stage2 as being an MMU index which uses a QEMU
TLB. However we never actually use the TLB -- all stage 2 lookups
are done by direct calls to get_phys_addr_lpae() followed by a
physical address load via address_space_ld*().
Remove Stage2 from the list of ARM MMU indexes which correspond to
real core MMU indexes, and instead put it in the set of "NOTLB" ARM
MMU indexes.
This allows us to drop NB_MMU_MODES to 11. It also means we can
safely add support for the ARMv8.3-TTS2UXN extension, which adds
permission bits to the stage 2 descriptors which define execute
permission separatel for EL0 and EL1; supporting that while keeping
Stage2 in a QEMU TLB would require us to use separate TLBs for
"Stage2 for an EL0 access" and "Stage2 for an EL1 access", which is a
lot of extra complication given we aren't even using the QEMU TLB.
In the process of updating the comment on our MMU index use,
fix a couple of other minor errors:
* NS EL2 EL2&0 was missing from the list in the comment
* some text hadn't been updated from when we bumped NB_MMU_MODES
above 8
Backports commit bf05340cb655637451162c02dadcd6581a05c02c from qemu
According to Arm ARM, VQDMULL is only valid when U=0, while having
U=1 is unallocated.
Backports commit ab553ef74ee52c0889679d0bd0da084aaf938f5c from qemu
We will move this code in the next commit. Clean it up
first to avoid checkpatch.pl errors.
Backports commit 51c510aa5876a681cd0059ed3bacaa17590dc2d5 from qemu
Make cpu_register() (renamed to arm_cpu_register()) available
from internals.h so we can register CPUs also from other files
in the future.
Backports commit 37bcf244454f4efb82e2c0c64bbd7eabcc165a0c from qemu
Under KVM these registers are written by the hardware.
Restrict the writefn handlers to TCG to avoid when building
without TCG:
LINK aarch64-softmmu/qemu-system-aarch64
target/arm/helper.o: In function `do_ats_write':
target/arm/helper.c:3524: undefined reference to `raise_exception'
Backports commit 9fb005b02dbda7f47b789b7f19bf5f73622a4756 from qemu
These instructions are often used in glibc's string routines.
They were the final uses of the 32-bit at a time neon helpers.
Backports commit 6b375d3546b009d1e63e07397ec9c6af256e15e9 from qemu
The sifive-e34 cpu type is the same as the sifive-e31 with the
single precision floating-point extension enabled.
Backports commit d784733bf1875c1ba355c69739518f24d56f1260 from qemu