Commit graph

1240 commits

Author SHA1 Message Date
Richard Henderson cc7d3fe9da
target/arm: Convert T16, extract
Backports commit e6f69612cc79e2acc05dafda8695f791a916946f from qemu
2019-11-28 02:52:06 -05:00
Richard Henderson 40282af492
target/arm: Convert T16 adjust sp (immediate)
Backports commit 2e6a646d7b1304d9106baad73c655132e2736c6c from qemu
2019-11-28 02:51:54 -05:00
Richard Henderson 927fb85b51
target/arm: Convert T16 add, compare, move (two high registers)
Backports commit 90aa042115a0fe39fe4cb3bcae4c4f728e2f3fdb from qemu
2019-11-28 02:51:46 -05:00
Richard Henderson 7ca1b3f817
target/arm: Convert T16 branch and exchange
Backports commit a0ef07740425b679d010fac7d9954ae003c1b191 from qemu
2019-11-28 02:51:39 -05:00
Richard Henderson c690f562c4
target/arm: Convert T16 one low register and immediate
Backports commit 6c6d237a865041972ec5b226657398f3b3018561 from qemu
2019-11-28 02:51:31 -05:00
Richard Henderson d9184b16a9
target/arm: Convert T16 add/sub (3 low, 2 low and imm)
Backports commit c4d3095bb62bdac0b4f9cb180bd7aa0b40c2c270 from qemu
2019-11-28 02:51:24 -05:00
Richard Henderson c52cfb9aa6
target/arm: Convert T16 load/store multiple
Backports commit 6e8514ba408f3cc758cd47e2da5475d8684507ec from qemu
2019-11-28 02:51:16 -05:00
Richard Henderson 10c8008266
target/arm: Convert T16 add pc/sp (immediate)
Backports commit 1cb1323433dca657a42483b2291c1ae923a91726 from qemu
2019-11-28 02:51:08 -05:00
Richard Henderson 7f79c0f2a1
target/arm: Convert T16 load/store (immediate offset)
Backports commit 07afd747f9fdd79fabf3a51416c7d795f873d297 from qemu
2019-11-28 02:51:01 -05:00
Richard Henderson 0ed7d59e35
target/arm: Convert T16 load/store (register offset)
Backports commit d1d229179c6b011cc3fa124d4b6b649866470530 from qemu
2019-11-28 02:50:48 -05:00
Richard Henderson e30f636e8a
target/arm: Convert T16 data-processing (two low regs)
Backports commit 080c4eadcbbaf95a6fcc4668cf16e4580f2bfe11 from qemu
2019-11-28 02:50:40 -05:00
Richard Henderson 0b2f37afaf
target/arm: Add skeleton for T16 decodetree
Backports commit f97b454e9e7f5d018d34b5ea85a66cff016bd3b7 from qemu
2019-11-28 02:50:27 -05:00
Richard Henderson 19f1da260f
target/arm: Simplify disas_arm_insn
Fold away all of the cases that now just goto illegal_op,
because all of their internal bits are now in decodetree.

Backports commit 590057d969a54de5d97261701c5702b3bebc9c07 from qemu
2019-11-28 02:50:03 -05:00
Richard Henderson e402eef2f0
target/arm: Simplify disas_thumb2_insn
Fold away all of the cases that now just goto illegal_op,
because all of their internal bits are now in decodetree.

Backports commit f843e77144c9334e244a422848177f2fbef5eb05 from qemu
2019-11-28 02:48:20 -05:00
Richard Henderson 1b5c72935d
target/arm: Convert TT
Backports commit d449f174e820b15ca1a1f5f3ec19999eeb7da14c from qemu
2019-11-28 02:48:06 -05:00
Richard Henderson 0e03a1f59c
target/arm: Convert SG
Backports commit 35d240acf1b6a89558e74b490feb13267415b236 from qemu
2019-11-28 02:47:57 -05:00
Richard Henderson 0afb6ab7af
target/arm: Convert Table Branch
Backports commit 808092bbe356eef0897476be50193d0778596877 from qemu
2019-11-28 02:47:48 -05:00
Richard Henderson e6b4480ca9
target/arm: Convert Unallocated memory hint
Backports commit 610f4e1764aa2049fa1711893ff62faf777813f3 from qemu
2019-11-28 02:47:41 -05:00
Richard Henderson 4593c67444
target/arm: Convert PLI, PLD, PLDW
Backports commit beb595f657d615856fee904f1e0f74f5e1e299a3 from qemu
2019-11-28 02:47:33 -05:00
Richard Henderson 5a23a1f020
target/arm: Convert SETEND
Backports commit 48c04a5dfaf2c08e00b659a22c502ec098999cf1 from qemu
2019-11-28 02:47:26 -05:00
Richard Henderson 55390520d6
target/arm: Convert CPS (privileged)
Backports commit 52f83b9c68bdde8d3da5f49292d3561bd474651d from qemu
2019-11-28 02:47:19 -05:00
Richard Henderson 15558cfa7e
target/arm: Convert Clear-Exclusive, Barriers
Backports commit 519b84711ea36bb8a339096e207b6b9b65cd2051 from qemu
2019-11-28 02:47:11 -05:00
Richard Henderson eff475c9a9
target/arm: Convert RFE and SRS
Backports commit 885782a78c6d05932c5d8f463dc50fc8312e3eb9 from qemu
2019-11-28 02:47:04 -05:00
Richard Henderson 87ff6a8bdf
target/arm: Convert SVC
Backports commit 542f5188a14758d64f7504580a9bd3cae973f546 from qemu
2019-11-28 02:46:55 -05:00
Richard Henderson a119870e57
target/arm: Convert B, BL, BLX (immediate)
Backports commit 360144f3b99f9a626ffcc6b9d76537e3a3e0e708 from qemu
2019-11-28 02:46:47 -05:00
Richard Henderson ed9b8ad2ea
target/arm: Diagnose base == pc for LDM/STM
We have been using store_reg and not store_reg_for_load when writing
back a loaded value into the base register. At first glance this is
incorrect when base == pc, however that case is UNPREDICTABLE.

Backports commit b0e382b8cf365fed8b8c43482029ac7655961a85 from qemu
2019-11-28 02:46:40 -05:00
Richard Henderson 1a0986ee25
target/arm: Diagnose too few registers in list for LDM/STM
This has been a TODO item for quite a while. The minimum bit
count for A32 and T16 is 1, and for T32 is 2.

Backports commit 4b222545dbf30b60c033e1cd6eddda612575fd8c from qemu
2019-11-28 02:46:33 -05:00
Richard Henderson fc81b12631
target/arm: Diagnose writeback register in list for LDM for v7
Prior to v7, for the A32 encoding, this operation wrote an UNKNOWN
value back to the base register. Starting in v7 this is UNPREDICTABLE.

Backports commit 3949f4675d13c587078f8f423845a3a537a22595 from qemu
2019-11-28 02:46:24 -05:00
Richard Henderson a501800ba6
target/arm: Convert LDM, STM
This includes a minor bug fix to LDM (user), which requires
bit 21 to be 0, which means no writeback.

Backports commit c5c426d4c680f908a1e262091a17b088b5709200 from qemu
2019-11-28 02:46:04 -05:00
Richard Henderson e4ca88f9d6
target/arm: Convert MOVW, MOVT
Backports commit 8f4451274b7010c1f50e0baa5bb608f19f02b90f from qemu
2019-11-28 02:46:04 -05:00
Richard Henderson b35749e239
target/arm: Convert Signed multiply, signed and unsigned divide
Backports commit 2c7c4e090409189488149869797da4acf895bad0 from qemu
2019-11-28 02:45:33 -05:00
Richard Henderson 987641cf10
target/arm: Convert packing, unpacking, saturation, and reversal
Backports commit 46497f6af73bb33c1064d43a28a48cbb4d233a23 from qemu
2019-11-28 02:44:55 -05:00
Richard Henderson 83cced6170
target/arm: Convert Parallel addition and subtraction
Backports commit adf1a5662a47d5b5b96f4f1e440e34c26b14a154 from qemu
2019-11-28 02:44:20 -05:00
Richard Henderson 21df423e47
target/arm: Convert USAD8, USADA8, SBFX, UBFX, BFC, BFI, UDF
In op_bfx, note that tcg_gen_{,s}extract_i32 already checks
for width == 32, so we don't need to special case that here.

Backports commit 86d21e4b509a2835ed79f234f476a4c5191d435b from qemu
2019-11-28 02:44:20 -05:00
Richard Henderson dbcc67ab20
target/arm: Diagnose UNPREDICTABLE ldrex/strex cases
Backports commit af2882289951e58363d714afd16f80050685fa29 from qemu
2019-11-28 02:44:20 -05:00
Richard Henderson 3ac019eb98
target/arm: Convert Synchronization primitives
Backports commit 1efdd407a25f617129e2e0d5c009c07cbe847990 from qemu
2019-11-28 02:44:18 -05:00
Richard Henderson c794962c42
target/arm: Convert load/store (register, immediate, literal)
Backports commit 5e291fe16846d216d5a69569b1c59f497dff96e4 from qemu
2019-11-28 02:42:01 -05:00
Richard Henderson d5d98450f3
target/arm: Convert T32 ADDW/SUBW
Backports commit 145952e87fb86aaa9434d768c31eedbd323f7157 from qemu
2019-11-28 02:42:01 -05:00
Richard Henderson 7b9025910d
target/arm: Convert the rest of A32 Miscelaneous instructions
Backports commit 2cde9ea57dbc4cdee3677a1a335574537810fe2e from qemu
2019-11-28 02:42:01 -05:00
Richard Henderson be2a259d3c
target/arm: Convert ERET
Pass the T5 encoding of SUBS PC, LR, #IMM through the normal SUBS path
to make it clear exactly what's happening -- we hit ALUExceptionReturn
along that path.

Backports commit ef11bc3c461e2c650e8bef552146a4b08f81884e from qemu
2019-11-28 02:42:00 -05:00
Richard Henderson 74040da34c
target/arm: Convert CLZ
Document our choice about the T32 CONSTRAINED UNPREDICTABLE behaviour.
This matches the undocumented choice made by the legacy decoder.

Backports commit 4c97f5b2f0fa9b37f9ff497f15411d809e6fd098 from qemu
2019-11-28 02:42:00 -05:00
Richard Henderson 94968602b8
target/arm: Convert BX, BXJ, BLX (register)
Backports commit 4ed95abd700e43dee8e032f754b53bec2b047f75 from qemu
2019-11-28 02:42:00 -05:00
Richard Henderson 831e17d970
target/arm: Convert Cyclic Redundancy Check
Backports commit 6c35d53f1bde7fe327c074473c3048d6e6f15e95 from qemu
2019-11-28 02:42:00 -05:00
Richard Henderson fdd135c7d2
target/arm: Convert MRS/MSR (banked, register)
The m-profile and a-profile decodings overlap. Only return false
for the case of wrong profile; handle UNDEFINED for permission failure
directly. This ensures that we don't accidentally pass an insn that
applies to the wrong profile.

Backports commit d0b26644502103ca97093ef67749812dc1df7eea from qemu
2019-11-28 02:42:00 -05:00
Richard Henderson 571d879c49
target/arm: Convert MSR (immediate) and hints
Backports commit 6313059623dc512308681ba160ed862ac387e2fb from qemu
2019-11-28 02:41:59 -05:00
Richard Henderson a011318794
target/arm: Simplify op_smlawx for SMLAW*
By shifting the 16-bit input left by 16, we can align the desired
portion of the 48-bit product and use tcg_gen_muls2_i32.

Backports commit 485b607d4f393e0de92c922806a68aef22340c98 from qemu
2019-11-28 02:40:01 -05:00
Richard Henderson 201be7b8b1
target/arm: Simplify op_smlaxxx for SMLAL*
Since all of the inputs and outputs are i32, dispense with
the intermediate promotion to i64 and use tcg_gen_add2_i32.

Backports commit ea96b374641bc429269096d88d4e91ee544273e9 from qemu
2019-11-28 02:40:00 -05:00
Richard Henderson 543b598d45
target/arm: Convert Halfword multiply and multiply accumulate
Backports commit 26c6923de7131fa1cf223ab67131d1992dc17001 from qemu
2019-11-28 02:40:00 -05:00
Richard Henderson 44416a6794
target/arm: Convert Saturating addition and subtraction
Backports commit 6d0730a82417e3a4a1911eb8e0246f3ba996f932 from qemu
2019-11-28 02:40:00 -05:00
Richard Henderson 45566b2780
target/arm: Simplify UMAAL
Since all of the inputs and outputs are i32, dispense with
the intermediate promotion to i64 and use tcg_gen_mulu2_i32
and tcg_gen_add2_i32.

Backports commit 2409d56454f0d028619fb1002eda86bf240906dd from qemu
2019-11-28 02:40:00 -05:00
Richard Henderson 5e5ae4c0d0
target/arm: Convert multiply and multiply accumulate
Backports commit bd92fe353bda4412ffc46c0f7415207a684b45f2 from qemu
2019-11-28 02:40:00 -05:00
Richard Henderson 677cf191d2
target/arm: Convert Data Processing (immediate)
Convert the modified immediate form of the data processing insns.
For A32, we can finally remove any code that was intertwined with
the register and register-shifted-register forms.

Backports commit 581c6ebd17c8f56ad52772216e6c6d8cc8997e8b from qemu
2019-11-28 02:39:16 -05:00
Richard Henderson 1b21ced6a1
target/arm: Convert Data Processing (reg-shifted-reg)
Convert the register shifted by register form of the data
processing insns. For A32, we cannot yet remove any code
because the legacy decoder intertwines the immediate form.

Backports commit 5be2c12337f4cbdbda4efe6ab485350f730faaad from qemu
2019-11-28 02:39:16 -05:00
Richard Henderson e151696a65
target/arm: Convert Data Processing (register)
Convert the register shifted by immediate form of the data
processing insns. For A32, we cannot yet remove any code
because the legacy decoder intertwines the reg-shifted-reg
and immediate forms.

Backports commit 25ae32c558182c07fc6ad01b936e9151cbf00c44 from qemu
2019-11-28 02:38:58 -05:00
Richard Henderson 9fc793b566
target/arm: Add stubs for aa32 decodetree
Add the infrastructure that will become the new decoder.
No instructions adjusted so far.

Backports commit 51409b9e8cfe997b1ac3365df7400e0c6e844437 from qemu
2019-11-28 02:38:49 -05:00
Richard Henderson 6ec6c71d50
target/arm: Use store_reg_from_load in thumb2 code
This function already includes the test for an interworking write
to PC from a load. Change the T32 LDM implementation to match the
A32 LDM implementation.

For LDM, the reordering of the tests does not change valid
behaviour because the only case that differs is has rn == 15,
which is UNPREDICTABLE.

Backports commit 69be3e13764111737e1a7a13bb0c231e4d5be756 from qemu
2019-11-28 02:38:42 -05:00
Richard Henderson 46a8dfff59
target/arm: Fix SMMLS argument order
The previous simplification got the order of operands to the
subtraction wrong. Since the 64-bit product is the subtrahend,
we must use a 64-bit subtract to properly compute the borrow
from the low-part of the product.

Fixes: 5f8cd06ebcf5 ("target/arm: Simplify SMMLA, SMMLAR, SMMLS, SMMLSR")

Backports commit e0a0c8322b8ebcdad674f443a3e86db8708d6738 from qemu
2019-11-20 17:24:44 -05:00
Peter Maydell 9fb54a7f72
target/arm: Take exceptions on ATS instructions when needed
The translation table walk for an ATS instruction can result in
various faults. In general these are just reported back via the
PAR_EL1 fault status fields, but in some cases the architecture
requires that the fault is turned into an exception:
* synchronous stage 2 faults of any kind during AT S1E0* and
AT S1E1* instructions executed from NS EL1 fault to EL2 or EL3
* synchronous external aborts are taken as Data Abort exceptions

(This is documented in the v8A Arm ARM DDI0487A.e D5.2.11 and
G5.13.4.)

Backports commit 0710b2fa84a4aeb925422e1e88edac49ed407c79 from qemu
2019-11-20 17:24:44 -05:00
Peter Maydell 56b54f361e
target/arm: Allow ARMCPRegInfo read/write functions to throw exceptions
Currently the only part of an ARMCPRegInfo which is allowed to cause
a CPU exception is the access function, which returns a value indicating
that some flavour of UNDEF should be generated.

For the ATS system instructions, we would like to conditionally
generate exceptions as part of the writefn, because some faults
during the page table walk (like external aborts) should cause
an exception to be raised rather than returning a value.

There are several ways we could do this:
* plumb the GETPC() value from the top level set_cp_reg/get_cp_reg
helper functions through into the readfn and writefn hooks
* add extra readfn_with_ra/writefn_with_ra hooks that take the GETPC()
value
* require the ATS instructions to provide a dummy accessfn,
which serves no purpose except to cause the code generation
to emit TCG ops to sync the CPU state
* add an ARM_CP_ flag to mark the ARMCPRegInfo as possibly
throwing an exception in its read/write hooks, and make the
codegen sync the CPU state before calling the hooks if the
flag is set

This patch opts for the last of these, as it is fairly simple
to implement and doesn't require invasive changes like updating
the readfn/writefn hook function prototype signature.

Backports commit 37ff584c15bc3e1dd2c26b1998f00ff87189538c from qemu
2019-11-20 17:24:37 -05:00
Richard Henderson 87c06b7fae
target/arm: Factor out unallocated_encoding for aarch32
Make this a static function private to translate.c.
Thus we can use the same idiom between aarch64 and aarch32
without actually sharing function implementations.

Backports commit 1ce21ba1eaf08b22da5925f3e37fc0b4322da858 from qemu
2019-11-18 23:51:45 -05:00
Richard Henderson 1f59a43544
Revert "target/arm: Use unallocated_encoding for aarch32"
Despite the fact that the text for the call to gen_exception_insn
is identical for aarch64 and aarch32, the implementation inside
gen_exception_insn is totally different.

This fixes exceptions raised from aarch64.

This reverts commit fb2d3c9a9a.
2019-11-18 23:49:47 -05:00
Richard Henderson 9d2a3064af
target/arm: Use tcg_gen_extrh_i64_i32 to extract the high word
Separate shift + extract low will result in one extra insn
for hosts like RISC-V, MIPS, and Sparc.

Backports commit 664b7e3b97d6376f3329986c465b3782458b0f8b from qemu
2019-11-18 20:36:19 -05:00
Richard Henderson 93c016a3e7
target/arm: Simplify SMMLA, SMMLAR, SMMLS, SMMLSR
All of the inputs to these instructions are 32-bits. Rather than
extend each input to 64-bits and then extract the high 32-bits of
the output, use tcg_gen_muls2_i32 and other 32-bit generator functions.

Backports commit 5f8cd06ebcf57420be8fea4574de2e074de46709 from qemu
2019-11-18 20:31:12 -05:00
Richard Henderson 4a1cc16eef
target/arm: Use tcg_gen_rotri_i32 for gen_swap_half
Rotate is the more compact and obvious way to swap 16-bit
elements of a 32-bit word.

Backports commit adefba76e8bf10dfb342094d2f5debfeedb1a74d from qemu
2019-11-18 20:27:12 -05:00
Richard Henderson 751ab7b24b
target/arm: Use ror32 instead of open-coding the operation
The helper function is more documentary, and also already
handles the case of rotate by zero.

Backports commit dd861b3f29be97a9e3cdb9769dcbc0c7d7825185 from qemu
2019-11-18 20:25:51 -05:00
Richard Henderson df4c773ed2
target/arm: Remove redundant shift tests
The immediate shift generator functions already test for,
and eliminate, the case of a shift by zero.

Backports commit 464eaa9571fae5867d9aea7d7209c091c8a50223 from qemu
2019-11-18 20:24:39 -05:00
Richard Henderson 4dd30ebfbd
target/arm: Use tcg_gen_deposit_i32 for PKHBT, PKHTB
Use deposit as the composit operation to merge the
bits from the two inputs.

Backports commit d1f8755fc93911f5b27246b1da794542d222fa1b from qemu
2019-11-18 20:22:00 -05:00
Richard Henderson 25ccd28e78
target/arm: Use tcg_gen_extract_i32 for shifter_out_im
Extract is a compact combination of shift + and.

Backports commit 191f4bfe8d6cf0c7d5cd7f84cd7076e32e3745dd from qemu
2019-11-18 20:19:40 -05:00
Andrew Jones ad63ee7509
target/arm/cpu: Use div-round-up to determine predicate register array size
Unless we're guaranteed to always increase ARM_MAX_VQ by a multiple of
four, then we should use DIV_ROUND_UP to ensure we get an appropriate
array size.

Backports commit 46417784d21c89446763f2047228977bdc267895 from qemu
2019-11-18 20:16:46 -05:00
Andrew Jones bb8b3bc42b
target/arm/helper: zcr: Add build bug next to value range assumption
The current implementation of ZCR_ELx matches the architecture, only
implementing the lower four bits, with the rest RAZ/WI. This puts
a strict limit on ARM_MAX_VQ of 16. Make sure we don't let ARM_MAX_VQ
grow without a corresponding update here.

Backports commit 7b351d98709d3f77d6bb18562e1bf228862b0d57 from qemu
2019-11-18 20:14:42 -05:00
Richard Henderson 3d3d56056b
target/arm: Remove helper_double_saturate
Replace x = double_saturate(y) with x = add_saturate(y, y).
There is no need for a separate more specialized helper.

Backports commit 640581a06d14e2d0d3c3ba79b916de6bc43578b0 from qemu
2019-11-18 20:13:21 -05:00
Richard Henderson fb2d3c9a9a
target/arm: Use unallocated_encoding for aarch32
Promote this function from aarch64 to fully general use.
Use it to unify the code sequences for generating illegal
opcode exceptions.

Backports commit 3cb36637157088892e9e33ddb1034bffd1251d3b from qemu
2019-11-18 20:10:50 -05:00
Richard Henderson d562bea784
target/arm: Remove offset argument to gen_exception_bkpt_insn
Unlike the other more generic gen_exception{,_internal}_insn
interfaces, breakpoints always refer to the current instruction.

Backports commit 06bcbda3f64d464b6ecac789bce4bd69f199cd68 from qemu
2019-11-18 20:05:45 -05:00
Richard Henderson f19b4df20d
target/arm: Replace offset with pc in gen_exception_internal_insn
The offset is variable depending on the instruction set.
Passing in the actual value is clearer in intent.

Backpors commit aee828e7541a5895669ade3a4b6978382b6b094a from qemu
2019-11-18 20:05:23 -05:00
Richard Henderson 00fbadf637
target/arm: Replace s->pc with s->base.pc_next
We must update s->base.pc_next when we return from the translate_insn
hook to the main translator loop. By incrementing s->base.pc_next
immediately after reading the insn word, "pc_next" contains the address
of the next instruction throughout translation.

All remaining uses of s->pc are referencing the address of the next insn,
so this is now a simple global replacement. Remove the "s->pc" field.

Backports commit a04159166b880b505ccadc16f2fe84169806883d from qemu
2019-11-18 17:32:53 -05:00
Richard Henderson 7d1fcef722
target/arm: Remove redundant s->pc & ~1
The thumb bit has already been removed from s->pc, and is always even.

Backports commit 4818c3743b0e0095fdcecd24457da9b3443730ab from qemu
2019-11-18 17:32:53 -05:00
Richard Henderson a2e60445de
target/arm: Introduce add_reg_for_lit
Provide a common routine for the places that require ALIGN(PC, 4)
as the base address as opposed to plain PC. The two are always
the same for A32, but the difference is meaningful for thumb mode.

Backports commit 16e0d8234ef9291747332d2c431e46808a060472 from qemu
2019-11-18 17:32:49 -05:00
Richard Henderson 1c0914e58c
target/arm: Introduce read_pc
We currently have 3 different ways of computing the architectural
value of "PC" as seen in the ARM ARM.

The value of s->pc has been incremented past the current insn,
but that is all. Thus for a32, PC = s->pc + 4; for t32, PC = s->pc;
for t16, PC = s->pc + 2. These differing computations make it
impossible at present to unify the various code paths.

With the newly introduced s->pc_curr, we can compute the correct
value for all cases, using the formula given in the ARM ARM.

This changes the behaviour for load_reg() and load_reg_var()
when called with reg==15 from a 32-bit Thumb instruction:
previously they would have returned the incorrect value
of pc_curr + 6, and now they will return the architecturally
correct value of PC, which is pc_curr + 4. This will not
affect well-behaved guest software, because all of the places
we call these functions from T32 code are instructions where
using r15 is UNPREDICTABLE. Using the architectural PC value
here is more consistent with the T16 and A32 behaviour.

Backports commit fdbcf6329d0c2984c55d7019419a72bf8e583c36 from qemu
2019-11-18 17:04:50 -05:00
Richard Henderson 0048f3e887
target/arm: Introduce pc_curr
Add a new field to retain the address of the instruction currently
being translated. The 32-bit uses are all within subroutines used
by a32 and t32. This will become less obvious when t16 support is
merged with a32+t32, and having a clear definition will help.

Convert aarch64 as well for consistency. Note that there is one
instance of a pre-assert fprintf that used the wrong value for the
address of the current instruction.

Backports commit 43722a6d4f0c92f7e7e1e291580039b0f9789df1 from qemu
2019-11-18 16:58:40 -05:00
Richard Henderson 1aa3c685a8
target/arm: Pass in pc to thumb_insn_is_16bit
This function is used in two different contexts, and it will be
clearer if the function is given the address to which it applies.

Backports commit 331b1ca616cb708db30dab68e3262d286e687f24 from qemu
2019-11-18 16:52:35 -05:00
Peter Maydell c61e22627d
target/arm: Fix routing of singlestep exceptions
When generating an architectural single-step exception we were
routing it to the "default exception level", which is to say
the same exception level we execute at except that EL0 exceptions
go to EL1. This is incorrect because the debug exception level
can be configured by the guest for situations such as single
stepping of EL0 and EL1 code by EL2.

We have to track the target debug exception level in the TB
flags, because it is dependent on CPU state like HCR_EL2.TGE
and MDCR_EL2.TDE. (That we were previously calling the
arm_debug_target_el() function to determine dc->ss_same_el
is itself a bug, though one that would only have manifested
as incorrect syndrome information.) Since we are out of TB
flag bits unless we want to expand into the cs_base field,
we share some bits with the M-profile only HANDLER and
STACKCHECK bits, since only A-profile has this singlestep.

Fixes: https://bugs.launchpad.net/qemu/+bug/1838913

Backports commit 8bd587c1066f4456ddfe611b571d9439a947d74c from qemu
2019-11-18 16:50:15 -05:00
Peter Maydell 3f531fac61
target/arm: Factor out 'generate singlestep exception' function
Factor out code to 'generate a singlestep exception', which is
currently repeated in four places.

To do this we need to also pull the identical copies of the
gen-exception() function out of translate-a64.c and translate.c
into translate.h.

(There is a bug in the code: we're taking the exception to the wrong
target EL. This will be simpler to fix if there's only one place to
do it.)

Backports commit c1d5f50f094ab204accfacc2ee6aafc9601dd5c4 from qemu
2019-11-18 16:47:08 -05:00
Alex Bennée 0d6ed39333
target/arm: generate a custom MIDR for -cpu max
While most features are now detected by probing the ID_* registers
kernels can (and do) use MIDR_EL1 for working out of they have to
apply errata. This can trip up warnings in the kernel as it tries to
work out if it should apply workarounds to features that don't
actually exist in the reported CPU type.

Avoid this problem by synthesising our own MIDR value.

Backports commit 2bd5f41c00686a1f847a60824d0375f3df2c26bf from qemu
2019-11-18 16:42:51 -05:00
Christophe Lyon 8264cb84fe
target/arm: Allow reading flags from FPSCR for M-profile
rt==15 is a special case when reading the flags: it means the
destination is APSR. This patch avoids rejecting vmrs apsr_nzcv, fpscr
as illegal instruction.

Backports commit cdc6896659b85f7ed8f7552850312e55170de0c5 from qemu
2019-11-18 16:32:06 -05:00
Peter Maydell 3fc86e1901
target/arm: Don't abort on M-profile exception return in linux-user mode
An attempt to do an exception-return (branch to one of the magic
addresses) in linux-user mode for M-profile should behave like
a normal branch, because linux-user mode is always going to be
in 'handler' mode. This used to work, but we broke it when we added
support for the M-profile security extension in commit d02a8698d7ae2bfed.

In that commit we allowed even handler-mode calls to magic return
values to be checked for and dealt with by causing an
EXCP_EXCEPTION_EXIT exception to be taken, because this is
needed for the FNC_RETURN return-from-non-secure-function-call
handling. For system mode we added a check in do_v7m_exception_exit()
to make any spurious calls from Handler mode behave correctly, but
forgot that linux-user mode would also be affected.

How an attempted return-from-non-secure-function-call in linux-user
mode should be handled is not clear -- on real hardware it would
result in return to secure code (not to the Linux kernel) which
could then handle the error in any way it chose. For QEMU we take
the simple approach of treating this erroneous return the same way
it would be handled on a CPU without the security extensions --
treat it as a normal branch.

The upshot of all this is that for linux-user mode we should never
do any of the bx_excret magic, so the code change is simple.

This ought to be a weird corner case that only affects broken guest
code (because Linux user processes should never be attempting to do
exception returns or NS function returns), except that the code that
assigns addresses in RAM for the process and stack in our linux-user
code does not attempt to avoid this magic address range, so
legitimate code attempting to return to a trampoline routine on the
stack can fall into this case. This change fixes those programs,
but we should also look at restricting the range of memory we
use for M-profile linux-user guests to the area that would be
real RAM in hardware.

Backports commit 9027d3fba605d8f6093342ebe4a1da450d374630 from qemu
2019-11-18 16:30:43 -05:00
Peter Maydell 8f7f19ce43
target/arm: Free TCG temps in trans_VMOV_64_sp()
The function neon_store_reg32() doesn't free the TCG temp that it
is passed, so the caller must do that. We got this right in most
places but forgot to free the TCG temps in trans_VMOV_64_sp().

Backports commit 38fb634853ac6547326d9f88b9a068d9fc6b4ad4 from qemu
2019-11-18 16:27:21 -05:00
Peter Maydell c6041bf94b
target/arm: Avoid bogus NSACR traps on M-profile without Security Extension
In Arm v8.0 M-profile CPUs without the Security Extension and also in
v7M CPUs, there is no NSACR register. However, the code we have to handle
the FPU does not always check whether the ARM_FEATURE_M_SECURITY bit
is set before testing whether env->v7m.nsacr permits access to the
FPU. This means that for a CPU with an FPU but without the Security
Extension we would always take a bogus fault when trying to stack
the FPU registers on an exception entry.

We could fix this by adding extra feature bit checks for all uses,
but it is simpler to just make the internal value of nsacr 0xcff
("all non-secure accesses allowed"), since this is not guest
visible when the Security Extension is not present. This allows
us to continue to follow the Arm ARM pseudocode which takes a
similar approach. (In particular, in the v8.1 Arm ARM the register
is documented as reading as 0xcff in this configuration.)

Fixes: https://bugs.launchpad.net/qemu/+bug/1838475

Backports commit 02ac2f7f613b47f6a5b397b20ab0e6b2e7fb89fa from qemu
2019-08-08 19:56:56 -04:00
Lioncash 59d808cf21
target/arm: Supply uc_struct instance to tcg_enabled() 2019-08-08 19:55:12 -04:00
Peter Maydell ecd3f0a5df
target/arm: Deliver BKPT/BRK exceptions to correct exception level
Most Arm architectural debug exceptions (eg watchpoints) are ignored
if the configured "debug exception level" is below the current
exception level (so for example EL1 can't arrange to get debug exceptions
for EL2 execution). Exceptions generated by the BRK or BPKT instructions
are a special case -- they must always cause an exception, so if
we're executing above the debug exception level then we
must take them to the current exception level.

This fixes a bug where executing BRK at EL2 could result in an
exception being taken at EL1 (which is strictly forbidden by the
architecture).

Fixes: https://bugs.launchpad.net/qemu/+bug/1838277

Backports commit 987a23224218fa3bb3aa0024ad236dcf29ebde9e from qemu
2019-08-08 19:53:30 -04:00
Peter Maydell fbbd582fb9
target/arm: Limit ID register assertions to TCG
In arm_cpu_realizefn() we make several assertions about the values of
guest ID registers:
* if the CPU provides AArch32 v7VE or better it must advertise the
ARM_DIV feature
* if the CPU provides AArch32 A-profile v6 or better it must
advertise the Jazelle feature

These are essentially consistency checks that our ID register
specifications in cpu.c didn't accidentally miss out a feature,
because increasingly the TCG emulation gates features on the values
in ID registers rather than using old-style checks of ARM_FEATURE_FOO
bits.

Unfortunately, these asserts can cause problems if we're running KVM,
because in that case we don't control the values of the ID registers
-- we read them from the host kernel. In particular, if the host
kernel is older than 4.15 then it doesn't expose the ID registers via
the KVM_GET_ONE_REG ioctl, and we set up dummy values for some
registers and leave the rest at zero. (See the comment in
target/arm/kvm64.c kvm_arm_get_host_cpu_features().) This set of
dummy values is not sufficient to pass our assertions, and so on
those kernels running an AArch32 guest on AArch64 will assert.

We could provide a more sophisticated set of dummy ID registers in
this case, but that still leaves the possibility of a host CPU which
reports bogus ID register values that would cause us to assert. It's
more robust to only do these ID register checks if we're using TCG,
as that is the only case where this is truly a QEMU code bug.

Backports commit 8f4821d77e465bc2ef77302d47640d5a43d92b30 from qemu
2019-08-08 19:44:16 -04:00
Philippe Mathieu-Daudé 9bd010263a
target/arm: Add missing break statement for Hypervisor Trap Exception
Reported by GCC9 when building with -Wimplicit-fallthrough=2:

target/arm/helper.c: In function ‘arm_cpu_do_interrupt_aarch32_hyp’:
target/arm/helper.c:7958:14: error: this statement may fall through [-Werror=implicit-fallthrough=]
7958 | addr = 0x14;
| ~~~~~^~~~~~
target/arm/helper.c:7959:5: note: here
7959 | default:
| ^~~~~~~
cc1: all warnings being treated as errors

Backports commit 9bbb4ef991fa93323f87769a6e217c2b9273a128 from qemu
2019-08-08 19:43:01 -04:00
Peter Maydell cdb9422f3a
target/arm: NS BusFault on vector table fetch escalates to NS HardFault
In the M-profile architecture, when we do a vector table fetch and it
fails, we need to report a HardFault. Whether this is a Secure HF or
a NonSecure HF depends on several things. If AIRCR.BFHFNMINS is 0
then HF is always Secure, because there is no NonSecure HardFault.
Otherwise, the answer depends on whether the 'underlying exception'
(MemManage, BusFault, SecureFault) targets Secure or NonSecure. (In
the pseudocode, this is handled in the Vector() function: the final
exc.isSecure is calculated by looking at the exc.isSecure from the
exception returned from the memory access, not the isSecure input
argument.)

We weren't doing this correctly, because we were looking at
the target security domain of the exception we were trying to
load the vector table entry for. This produces errors of two kinds:
* a load from the NS vector table which hits the "NS access
to S memory" SecureFault should end up as a Secure HardFault,
but we were raising an NS HardFault
* a load from the S vector table which causes a BusFault
should raise an NS HardFault if BFHFNMINS == 1 (because
in that case all BusFaults are NonSecure), but we were raising
a Secure HardFault

Correct the logic.

We also fix a comment error where we claimed that we might
be escalating MemManage to HardFault, and forgot about SecureFault.
(Vector loads can never hit MPU access faults, because they're
always aligned and always use the default address map.)

Backports commit 51c9122e92b776a3f16af0b9282f1dc5012e2a19 from qemu
2019-08-08 19:32:53 -04:00
Peter Maydell 8ec683b874
target/arm: Set VFP-related MVFR0 fields for arm926 and arm1026
The ARMv5 architecture didn't specify detailed per-feature ID
registers. Now that we're using the MVFR0 register fields to
gate the existence of VFP instructions, we need to set up
the correct values in the cpu->isar structure so that we still
provide an FPU to the guest.

This fixes a regression in the arm926 and arm1026 CPUs, which
are the only ones that both have VFP and are ARMv5 or earlier.
This regression was introduced by the VFP refactoring, and more
specifically by commits 1120827fa182f0e76 and 266bd25c485597c,
which accidentally disabled VFP short-vector support and
double-precision support on these CPUs.

Backports commit cb7cef8b32033f6284a47d797edd5c19c5491698 from qemu
2019-08-08 19:29:56 -04:00
Alex Bennée f893ff0b89
target/arm: report ARMv8-A FP support for AArch32 -cpu max
When we converted to using feature bits in 602f6e42cfbf we missed out
the fact (dp && arm_dc_feature(s, ARM_FEATURE_V8)) was supported for
-cpu max configurations. This caused a regression in the GCC test
suite. Fix this by setting the appropriate bits in mvfr1.FPHP to
report ARMv8-A with FP support (but not ARMv8.2-FP16).

Fixes: https://bugs.launchpad.net/qemu/+bug/1836078

Backports commit 45b1a243b81a7c9ae56235937280711dd9914ca7 from qemu
2019-08-08 19:28:39 -04:00
Philippe Mathieu-Daudé 6f8c8046d8
target/arm/vfp_helper: Call set_fpscr_to_host before updating to FPSCR
In commit e9d652824b0 we extracted the vfp_set_fpscr_to_host()
function but failed at calling it in the correct place, we call
it after xregs[ARM_VFP_FPSCR] is modified.

Fix by calling this function before we update FPSCR.

Backports commit 85795187f416326f87177cabc39fae1911f04c50 from qemu
2019-08-08 19:21:28 -04:00
Richard Henderson c687259bf6
target/arm: Fix sve_zcr_len_for_el
Off by one error in the EL2 and EL3 tests. Remove the test
against EL3 entirely, since it must always be true.

Backports commit 6a02a73211c5bc634fccd652777230954b83ccba from qemu
2019-08-08 19:20:35 -04:00
Peter Maydell 1f4c3d6bcc
target/arm: Correct VMOV_imm_dp handling of short vectors
Coverity points out (CID 1402195) that the loop in trans_VMOV_imm_dp()
that iterates over the destination registers in a short-vector VMOV
accidentally throws away the returned updated register number
from vfp_advance_dreg(). Add the missing assignment. (We got this
correct in trans_VMOV_imm_sp().)

Backports commit 89a11ff756410aecb87d2c774df6e45dbf4105c1 from qemu
2019-08-08 18:08:55 -04:00
Peter Maydell 0d89bce217
target/arm: Execute Thumb instructions when their condbits are 0xf
Thumb instructions in an IT block are set up to be conditionally
executed depending on a set of condition bits encoded into the IT
bits of the CPSR/XPSR. The architecture specifies that if the
condition bits are 0b1111 this means "always execute" (like 0b1110),
not "never execute"; we were treating it as "never execute". (See
the ConditionHolds() pseudocode in both the A-profile and M-profile
Arm ARM.)

This is a bit of an obscure corner case, because the only legal
way to get to an 0b1111 set of condbits is to do an exception
return which sets the XPSR/CPSR up that way. An IT instruction
which encodes a condition sequence that would include an 0b1111 is
UNPREDICTABLE, and for v8A the CONSTRAINED UNPREDICTABLE choices
for such an IT insn are to NOP, UNDEF, or treat 0b1111 like 0b1110.
Add a comment noting that we take the latter option.

Backports commit 5529de1e5512c05276825fa8b922147663fd6eac from qemu
2019-08-08 18:07:57 -04:00
Peter Maydell 9d01d50db8
target/arm: Use _ra versions of cpu_stl_data() in v7M helpers
In the various helper functions for v7M/v8M instructions, use
the _ra versions of cpu_stl_data() and friends. Otherwise we
may get wrong behaviour or an assert() due to not being able
to locate the TB if there is an exception on the memory access
or if it performs an IO operation when in icount mode

Backports commit 2884fbb60412049ec92389039ae716b32057382e from qemu
2019-08-08 18:06:23 -04:00
Philippe Mathieu-Daudé bde186433d
target/arm/helper: Move M profile routines to m_helper.c
In preparation for supporting TCG disablement on ARM, we move most
of TCG related v7m/v8m helpers and APIs into their own file.

Note: It is easier to review this commit using the 'histogram'
diff algorithm:

$ git diff --diff-algorithm=histogram ...
or
$ git diff --histogram ...

Backports commit 7aab5a8c8bb525ea390b4ebc17ab82c0835cfdb6 from qemu
2019-08-08 18:04:08 -04:00
Philippe Mathieu-Daudé 199e2f8a7d
target/arm: Restrict semi-hosting to TCG
Semihosting hooks either SVC or HLT instructions, and inside KVM
both of those go to EL1, ie to the guest, and can't be trapped to
KVM.

Let check_for_semihosting() return False when not running on TCG.

backports commit 91f78c58da9ba78c8ed00f5d822b701765be8499 from qemu
2019-08-08 17:48:34 -04:00
Philippe Mathieu-Daudé 6295fd7156
target/arm: Move debug routines to debug_helper.c
These routines are TCG specific.

Backports commit 9dd5cca42448770a940fa2145f1ff18cdc7b01a9 from qemu
2019-08-08 17:46:56 -04:00
Philippe Mathieu-Daudé fa2a772c7b
target/arm: Declare some M-profile functions publicly
In the next commit we will split the M-profile functions from this
file. Some function will be called out of helper.c. Declare them in
the "internals.h" header.

Backports commit 787a7e76c2e93a48c47b324fea592c9910a70483 from qemu
2019-08-08 15:37:01 -04:00
Philippe Mathieu-Daudé 4eacf0ce98
target/arm: Restrict PSCI to TCG
Under KVM, the kernel gets the HVC call and handle the PSCI requests.

Backports commit 21fbea8c8af72817d8e21570fa4edbfae417341b from qemu
2019-08-08 15:32:19 -04:00
Philippe Mathieu-Daudé 5aaf004bb2
target/arm/vfp_helper: Restrict the SoftFloat use to TCG
This code is specific to the SoftFloat floating-point
implementation, which is only used by TCG.

Backports commit 4a15527c9feecfd2fa2807d5e698abbc19feb35f from qemu
2019-08-08 15:30:47 -04:00
Philippe Mathieu-Daudé 4e214e5d64
target/arm/vfp_helper: Extract vfp_set_fpscr_from_host()
The vfp_set_fpscr() helper contains code specific to the host
floating point implementation (here the SoftFloat library).
Extract this code to vfp_set_fpscr_from_host().

Backports commit 0c6ad94809b37a1f0f1f75d3cd0e4a24fb77e65c from qemu
2019-08-08 15:28:38 -04:00
Philippe Mathieu-Daudé 2b5d731f56
target/arm/vfp_helper: Extract vfp_set_fpscr_to_host()
The vfp_set_fpscr() helper contains code specific to the host
floating point implementation (here the SoftFloat library).
Extract this code to vfp_set_fpscr_to_host().

Backports commit e9d652824b05845f143ef4797d707fae47d4b3ed from qemu
2019-08-08 15:27:27 -04:00
Philippe Mathieu-Daudé 76bae63014
target/arm/vfp_helper: Move code around
To ease the review of the next commit,
move the vfp_exceptbits_to_host() function directly after
vfp_exceptbits_from_host(). Amusingly the diff shows we
are moving vfp_get_fpscr().

Backports commit 20e62dd8c831c9065ed4a8e64813c93ad61c50d7 from qemu.
2019-08-08 15:26:03 -04:00
Philippe Mathieu-Daudé 91e264823e
target/arm: Move TLB related routines to tlb_helper.c
These routines are TCG specific.
The arm_deliver_fault() function is only used within the new
helper. Make it static.

Backports commit e21b551cb652663f2f2405a64d63ef6b4a1042b7 from qemu
2019-08-08 15:24:26 -04:00
Philippe Mathieu-Daudé 1af5deaf52
target/arm: Declare get_phys_addr() function publicly
In the next commit we will split the TLB related routines of
this file, and this function will also be called in the new
file. Declare it in the "internals.h" header.

Backports commit ebae861fc6c385a7bcac72dde4716be06e6776f1 from qemu
2019-08-08 15:14:45 -04:00
Samuel Ortiz 9296465289
target/arm: Move the DC ZVA helper into op_helper
Those helpers are a software implementation of the ARM v8 memory zeroing
op code. They should be moved to the op helper file, which is going to
eventually be built only when TCG is enabled.

Backports commit 6cdca173ef81a9dbcee9e142f1a5a34ad9c44b75 from qemu
2019-08-08 15:10:46 -04:00
Philippe Mathieu-Daudé f77b60d7e9
target/arm: Fix coding style issues
Since we'll move this code around, fix its style first.

Backports commit 9798ac7162c8a720c5d28f4d1fc9e03c7ab4f015 from qemu
2019-08-08 15:05:57 -04:00
Philippe Mathieu-Daudé 4f71266524
target/arm: Fix multiline comment syntax
Since commit 8c06fbdf36b checkpatch.pl enforce a new multiline
comment syntax. Since we'll move this code around, fix its style
first.

Backports commit 9a223097e44d5320f5e0546710263f22d11f12fc from qemu
2019-08-08 15:05:37 -04:00
Philippe Mathieu-Daudé 0a5152caf8
target/arm/helper: Remove unused include
Backports commit 2c8ec397f8438eea5e52be4898dfcf12a1f88267 from qemu
2019-08-08 14:43:57 -04:00
Philippe Mathieu-Daudé 8a0bae93ff
target/arm: Add copyright boilerplate
Backports commit ed3baad15b0b0edc480373f9c1d805d6b8e7e78c from qemu
2019-08-08 14:43:32 -04:00
Philippe Mathieu-Daudé b028a37fdb
target/arm: Makefile cleanup (softmmu)
Group SOFTMMU objects together.
Since PSCI is TCG specific, keep it separate.

Backports commit b601e0cd78c2c57548a468c6fdb566d514c05b89 from qemu
2019-08-08 14:42:00 -04:00
Philippe Mathieu-Daudé 348b813c03
target/arm: Makefile cleanup (ARM)
Group ARM objects together, TCG related ones at the bottom.
This will help when restricting TCG-only objects.

Backports commit 07774d584267488c8c2f104ae5b552791961908a from qemu
2019-08-08 14:39:52 -04:00
Lioncash 76d33b34e1
target/arm: Fix bad patch merge in arm_tr_init_disas_context 2019-08-08 14:37:38 -04:00
Philippe Mathieu-Daudé 5c0cff59f2
target/arm: Makefile cleanup (Aarch64)
Group Aarch64 rules together, TCG related ones at the bottom.
This will help when restricting TCG-only objects.

Backports commit 87f4f183484dba7a460c59e99dac0dbb9f42ed87 from qemu
2019-08-08 14:31:24 -04:00
Peter Maydell fa19f96e8c
target/arm: Check for dp support for dp VFM, not sp
In commit 1120827fa182f0e7622 we accidentally put the
"UNDEF unless FPU has double-precision support" check in
the single-precision VFM function. Put it in the dp
function where it belongs.

Backports commit 34bea4edb9bbe8edf4b8606276482acdff5ca58b from qemu
2019-06-25 18:56:34 -05:00
Peter Maydell dc1f2247ec
target/arm: Only implement doubles if the FPU supports them
The architecture permits FPUs which have only single-precision
support, not double-precision; Cortex-M4 and Cortex-M33 are
both like that. Add the necessary checks on the MVFR0 FPDP
field so that we UNDEF any double-precision instructions on
CPUs like this.

Note that even if FPDP==0 the insns like VMOV-to/from-gpreg,
VLDM/VSTM, VLDR/VSTR which take double precision registers
still exist.

Backports commit 1120827fa182f0e76226df7ffe7a86598d1df54f from qemu
2019-06-25 18:55:25 -05:00
Peter Maydell cfac686c95
target/arm: Fix typos in trans function prototypes
In several places cut and paste errors meant we were using the wrong
type for the 'arg' struct in trans_ functions called by the
decodetree decoder, because we were using the _sp version of the
struct in the _dp function. These were harmless, because the two
structs were identical and so decodetree made them typedefs of the
same underlying structure (and we'd have had a compile error if they
were not harmless), but we should clean them up anyway.

Backports commit 83655223ac6143a563e981906ce13fd6f2cfbefd from qemu
2019-06-25 18:48:34 -05:00
Peter Maydell 318a1ddf39
target/arm: Remove unused cpu_F0s, cpu_F0d, cpu_F1s, cpu_F1d
Remove the now unused TCG globals cpu_F0s, cpu_F0d, cpu_F1s, cpu_F1d.

cpu_M0 is still used by the iwmmxt code, and cpu_V0 and
cpu_V1 are used by both iwmmxt and Neon.

Backports commit d9eea52c67c04c58ecceba6ffe5a93d1d02051fa from qemu
2019-06-25 18:45:53 -05:00
Peter Maydell 74168c20f2
target/arm: Stop using deprecated functions in NEON_2RM_VCVT_F32_F16
Remove some old constructns from NEON_2RM_VCVT_F16_F32 code:
* don't use CPU_F0s
* don't use tcg_gen_st_f32

Backports commit b66f6b9981004bbf120b8d17c20f92785179bdf2 from qemu
2019-06-25 18:43:40 -05:00
Peter Maydell 8ae25f6e4c
target/arm: stop using deprecated functions in NEON_2RM_VCVT_F16_F32
Remove some old constructs from NEON_2RM_VCVT_F16_F32 code:
* don't use cpu_F0s
* don't use tcg_gen_ld_f32

Backports commit 58f2682eee738e8890f9cfe858e0f4f68b00d45d from qemu
2019-06-25 18:39:43 -05:00
Peter Maydell d419fbc270
target/arm: Stop using cpu_F0s in Neon VCVT fixed-point ops
Stop using cpu_F0s in the Neon VCVT fixed-point operations.

Backports commit c253dd7832bc6b4e140a0da56410a9336cce05bc from qemu
2019-06-25 18:35:33 -05:00
Peter Maydell 46216ae382
target/arm: Stop using cpu_F0s for Neon f32/s32 VCVT
Stop using cpu_F0s for the Neon f32/s32 VCVT operations.
Since this is the last user of cpu_F0s in the Neon 2rm-op
loop, we can remove the handling code for it too.

Backports commit 60737ed5785b9c1c6f1c85575dfdd1e9eec91878 from qemu
2019-06-25 18:32:32 -05:00
Peter Maydell 2fbe9c1d1d
target/arm: Stop using cpu_F0s for NEON_2RM_VRECPE_F and NEON_2RM_VRSQRTE_F
Stop using cpu_F0s for NEON_2RM_VRECPE_F and NEON_2RM_VRSQRTE_F.

Backports commit 9a011fece7201f8e268c982df8c7836f3335bbe6 from qemu
2019-06-25 18:29:22 -05:00
Peter Maydell f82ea34369
target/arm: Stop using cpu_F0s for NEON_2RM_VCVT[ANPM][US]
Stop using cpu_F0s for the NEON_2RM_VCVT[ANPM][US] ops.

Backports commit 30bf0a018f6c706913c8c0ea57b386907f4229be from qemu
2019-06-25 18:28:03 -05:00
Peter Maydell 0d4535bf16
target/arm: Stop using cpu_F0s for NEON_2RM_VRINT*
Switch NEON_2RM_VRINT* away from using cpu_F0s.

Backports commit 3b52ad1fae804acdc2fdc41b418a65249beae430 from qemu
2019-06-25 18:26:24 -05:00
Peter Maydell a62cbc7ac5
target/arm: Stop using cpu_F0s for NEON_2RM_VNEG_F
Switch NEON_2RM_VABS_F away from using cpu_F0s.

Backports commit cedcc96fc7c8e520a190a010ac97dbb53e57d7d2 from qemu
2019-06-25 18:24:01 -05:00
Peter Maydell 63d7f92eba
target/arm: Stop using cpu_F0s for NEON_2RM_VABS_F
Where Neon instructions are floating point operations, we
mostly use the old VFP utility functions like gen_vfp_abs()
which work on the TCG globals cpu_F0s and cpu_F1s. The
Neon for-each-element loop conditionally loads the inputs
into either a plain old TCG temporary for most operations
or into cpu_F0s for float operations, and similarly stores
back either cpu_F0s or the temporary.

Switch NEON_2RM_VABS_F away from using cpu_F0s, and
update neon_2rm_is_float_op() accordingly.

Backports commit fd8a68cdcf81d70eebf866a132e9780d4108da9c from qemu
2019-06-25 18:22:05 -05:00
Peter Maydell ba0ddd3459
target/arm: Use vfp_expand_imm() for AArch32 VFP VMOV_imm
The AArch32 VMOV (immediate) instruction uses the same VFP encoded
immediate format we already handle in vfp_expand_imm(). Use that
function rather than hand-decoding it.

Backports commit 9bee50b498410ed6466018b26464d7384c7879e9 from qemu
2019-06-25 18:20:19 -05:00
Peter Maydell b2dc290454
target/arm: Move vfp_expand_imm() to translate.[ch]
We want to use vfp_expand_imm() in the AArch32 VFP decode;
move it from the a64-only header/source file to the
AArch32 one (which is always compiled even for AArch64).

Backports commit d6a092d479333b5f20a647a912a31b0102d37335 from qemu
2019-06-25 18:17:49 -05:00
Peter Maydell 021da28bfd
target/arm: Fix short-vector increment behaviour
For VFP short vectors, the VFP registers are divided into a
series of banks: for single-precision these are s0-s7, s8-s15,
s16-s23 and s24-s31; for double-precision they are d0-d3,
d4-d7, ... d28-d31. Some banks are "scalar" meaning that
use of a register within them triggers a pure-scalar or
mixed vector-scalar operation rather than a full vector
operation. The scalar banks are s0-s7, d0-d3 and d16-d19.
When using a bank as part of a vector operation, we
iterate through it, increasing the register number by
the specified stride each time, and wrapping around to
the beginning of the bank.

Unfortunately our calculation of the "increment" part of this
was incorrect:
vd = ((vd + delta_d) & (bank_mask - 1)) | (vd & bank_mask)
will only do the intended thing if bank_mask has exactly
one set high bit. For instance for doubles (bank_mask = 0xc),
if we start with vd = 6 and delta_d = 2 then vd is updated
to 12 rather than the intended 4.

This only causes problems in the unlikely case that the
starting register is not the first in its bank: if the
register number doesn't have to wrap around then the
expression happens to give the right answer.

Fix this bug by abstracting out the "check whether register
is in a scalar bank" and "advance register within bank"
operations to utility functions which use the right
bit masking operations

Backports commit 18cf951af9a27ae573a6fa17f9d0c103f7b7679b from qemu
2019-06-13 19:44:27 -04:00
Peter Maydell 1a0d31c05e
target/arm: Convert float-to-integer VCVT insns to decodetree
Convert the float-to-integer VCVT instructions to decodetree.
Since these are the last unconverted instructions, we can
delete the old decoder structure entirely now.

Backports commit 3111bfc2da6ba0c8396dc97ca479942d711c6146 from qemu
2019-06-13 19:40:02 -04:00
Peter Maydell f6c67559d4
target/arm: Convert VCVT fp/fixed-point conversion insns to decodetree
Convert the VCVT (between floating-point and fixed-point) instructions
to decodetree.

Backports commit e3d6f4290c788e850c64815f0b3e331600a4bcc0 from qemu
2019-06-13 19:35:51 -04:00
Peter Maydell c66d477359
target/arm: Convert VJCVT to decodetree
Convert the VJCVT instruction to decodetree.

Backports commit 92073e947487e2109f3dfebfeaa48d6323cbd981 from qemu
2019-06-13 19:31:35 -04:00
Peter Maydell 7be9e6f9b4
target/arm: Convert integer-to-float insns to decodetree
Convert the VCVT integer-to-float instructions to decodetree.

Backports commit 8fc9d8918cde342c71923e361b9f2193e36ed18b from qemu
2019-06-13 19:20:41 -04:00
Peter Maydell e0e4f99103
target/arm: Convert double-single precision conversion insns to decodetree
Convert the VCVT double/single precision conversion insns to decodetree.

Backports commit 6ed7e49c3693ed8411773c4880f42b2932beb12d from qemu
2019-06-13 19:18:01 -04:00
Peter Maydell ab9d0235ed
target/arm: Convert VFP round insns to decodetree
Convert the VFP round-to-integer instructions VRINTR, VRINTZ and
VRINTX to decodetree.

These instructions were only introduced as part of the "VFP misc"
additions in v8A, so we check this. The old decoder's implementation
was incorrectly providing them even for v7A CPUs.

Backports commit e25155f55dc4abb427a88dfe58bbbc550fe7d643 from qemu
2019-06-13 19:15:05 -04:00
Peter Maydell 9e842a0f2a
target/arm: Convert the VCVT-to-f16 insns to decodetree
Convert the VCVTT and VCVTB instructions which convert from
f32 and f64 to f16 to decodetree.

Since we're no longer constrained to the old decoder's style
using cpu_F0s and cpu_F0d we can perform a direct 16 bit
store of the right half of the input single-precision register
rather than doing a load/modify/store sequence on the full
32 bits.

Backports commit cdfd14e86ab0b1ca29a702d13a8e4af2e902a9bf from qemu
2019-06-13 19:03:59 -04:00
Peter Maydell 7d927b2d0e
target/arm: Convert the VCVT-from-f16 insns to decodetree
Convert the VCVTT, VCVTB instructions that deal with conversion
from half-precision floats to f32 or 64 to decodetree.

Since we're no longer constrained to the old decoder's style
using cpu_F0s and cpu_F0d we can perform a direct 16 bit
load of the right half of the input single-precision register
rather than loading the full 32 bits and then doing a
separate shift or sign-extension.

Backports commit b623d803dda805f07aadcbf098961fde27315c19 from qemu
2019-06-13 19:00:23 -04:00
Peter Maydell e6cc2616d2
target/arm: Convert VFP comparison insns to decodetree
Convert the VFP comparison instructions to decodetree.

Note that comparison instructions should not honour the VFP
short-vector length and stride information: they are scalar-only
operations. This applies to all the 2-operand instructions except
for VMOV, VABS, VNEG and VSQRT. (In the old decoder this is
implemented via the "if (op == 15 && rn > 3) { veclen = 0; }" check.)

Backports commit 386bba2368842fc74388a3c1651c6c0c0c70adbd from qemu
2019-06-13 18:55:53 -04:00
Peter Maydell a75a3e321f
target/arm: Convert VMOV (register) to decodetree
Backports commit 17552b979ebb9848a534c25ebed18a1072710058 from qemu
2019-06-13 18:49:49 -04:00
Peter Maydell ee30962891
target/arm: Convert VSQRT to decodetree
Convert the VSQRT instruction to decodetree.

Backports commit b8474540cbce4e2fa45010416375d1bcbe86dc15 from qemu
2019-06-13 18:47:32 -04:00
Peter Maydell 7aea3da6b7
target/arm: Convert VNEG to decodetree
Convert the VNEG instruction to decodetree.

Backports commit 1882651afdb0ca44f0631192fbe65a71c660d809 from qemu
2019-06-13 18:43:50 -04:00
Peter Maydell 1032d86ad3
target/arm: Convert VABS to decodetree
Convert the VFP VABS instruction to decodetree.

Unlike the 3-op versions, we don't pass fpst to the VFPGen2OpSPFn or
VFPGen2OpDPFn because none of the operations which use this format
and support short vectors will need it.

Backports commit 90287e22c987e9840704345ed33d237cbe759dd9 from qemu
2019-06-13 18:41:43 -04:00
Peter Maydell 7a16bc6876
target/arm: Convert VMOV (imm) to decodetree
Convert the VFP VMOV (immediate) instruction to decodetree.

Backports commit b518c753f0b94e14e01e97b4ec42c100dafc0cc2 from qemu
2019-06-13 18:37:58 -04:00
Peter Maydell 0ebb6b8b90
target/arm: Convert VFP fused multiply-add insns to decodetree
Convert the VFP fused multiply-add instructions (VFNMA, VFNMS,
VFMA, VFMS) to decodetree.

Note that in the old decode structure we were implementing
these to honour the VFP vector stride/length. These instructions
were introduced in VFPv4, and in the v7A architecture they
are UNPREDICTABLE if the vector stride or length are non-zero.
In v8A they must UNDEF if stride or length are non-zero, like
all VFP instructions; we choose to UNDEF always.

Backports commit d4893b01d23060845ee3855bc96626e16aad9ab5 from qemu
2019-06-13 18:24:36 -04:00
Peter Maydell 321bcc822b
target/arm: Convert VDIV to decodetree
Convert the VDIV instruction to decodetree.

Backports commit 519ee7ae31e050eb0ff9ad35c213f0bd7ab1c03e from qemu
2019-06-13 18:19:47 -04:00
Peter Maydell 76c74bc657
target/arm: Convert VSUB to decodetree
Convert the VSUB instruction to decodetree.

Backports commit 8fec9a119264b7936503abce3c106fad7e3ccb76 from qemu.
2019-06-13 18:18:00 -04:00
Peter Maydell f56f0342ad
target/arm: Convert VADD to decodetree
Convert the VADD instruction to decodetree.

Backports commit ce28b303716e7eca3f3765bf6776d722ebbe1122 from qemu
2019-06-13 18:15:52 -04:00
Peter Maydell 06584edf61
target/arm: Convert VNMUL to decodetree
Convert the VNMUL instruction to decodetree.

Backports commit 43c4be1236c105090d134540da1036073d157cd4 from qemu
2019-06-13 18:14:16 -04:00
Peter Maydell 2c5e102017
target/arm: Convert VMUL to decodetree
Convert the VMUL instruction to decodetree.

Backports commit 88c5188ced60e9f2b8cc3af3b9bc4a8031c8c996 from qemu
2019-06-13 18:12:03 -04:00
Peter Maydell b26b6a12a2
target/arm: Convert VFP VNMLA to decodetree
Convert the VFP VNMLA instruction to decodetree.

Backports commit 8a483533adc1bdc2decb8f456dbe930a2d245a8b from qemu
2019-06-13 18:09:57 -04:00
Peter Maydell 638b90de31
target/arm: Convert VFP VNMLS to decodetree
Convert the VFP VNMLS instruction to decodetree.

Backports commit c54a416cc6d60efbc79dd37aaf0c8918c05b5815 from qemu
2019-06-13 18:06:59 -04:00
Peter Maydell 67ad40ffa4
target/arm: Convert VFP VMLS to decodetree
Convert the VFP VMLS instruction to decodetree.

Backports commit e7258280d46af4ab6a0cc93ccfe8f6614defb4b7 from qemu
2019-06-13 18:02:37 -04:00
Peter Maydell edf81eb214
target/arm: Convert VFP VMLA to decodetree
Convert the VFP VMLA instruction to decodetree.

This is the first of the VFP 3-operand data processing instructions,
so we include in this patch the code which loops over the elements
for an old-style VFP vector operation. The existing code to do this
looping uses the deprecated cpu_F0s/F0d/F1s/F1d TCG globals; since
we are going to be converting instructions one at a time anyway
we can take the opportunity to make the new loop use TCG temporaries,
which means we can do that conversion one operation at a time
rather than needing to do it all in one go.

We include an UNDEF check which was missing in the old code:
short-vector operations (with stride or length non-zero) were
deprecated in v7A and must UNDEF in v8A, so if the MVFR0 FPShVec
field does not indicate that support for short vectors is present
we UNDEF the operations that would use them. (This is a change
of behaviour for Cortex-A7, Cortex-A15 and the v8 CPUs, which
previously were all incorrectly allowing short-vector operations.)

Note that the conversion fixes a bug in the old code for the
case of VFP short-vector "mixed scalar/vector operations". These
happen where the destination register is in a vector bank but
but the second operand is in a scalar bank. For example
vmla.f64 d10, d1, d16 with length 2 stride 2
is equivalent to the pair of scalar operations
vmla.f64 d10, d1, d16
vmla.f64 d8, d3, d16
where the destination and first input register cycle through
their vector but the second input is scalar (d16). In the
old decoder the gen_vfp_F1_mul() operation uses cpu_F1{s,d}
as a temporary output for the multiply, which trashes the
second input operand. For the fully-scalar case (where we
never do a second iteration) and the fully-vector case
(where the loop loads the new second input operand) this
doesn't matter, but for the mixed scalar/vector case we
will end up using the wrong value for later loop iterations.
In the new code we use TCG temporaries and so avoid the bug.
This bug is present for all the multiply-accumulate insns
that operate on short vectors: VMLA, VMLS, VNMLA, VNMLS.

Note 2: the expression used to calculate the next register
number in the vector bank is not in fact correct; we leave
this behaviour unchanged from the old decoder and will
fix this bug later in the series.

Backports commit 266bd25c485597c94209bfdb3891c1d0c573c164 from qemu
2019-06-13 17:59:16 -04:00
Peter Maydell 93fe4cbe9e
target/arm: Remove VLDR/VSTR/VLDM/VSTM use of cpu_F0s and cpu_F0d
Expand out the sequences in the new decoder VLDR/VSTR/VLDM/VSTM trans
functions which perform the memory accesses by going via the TCG
globals cpu_F0s and cpu_F0d, to use local TCG temps instead.

Backports commit 3993d0407dff7233e42f2251db971e126a0497e9 from qemu
2019-06-13 17:31:28 -04:00
Peter Maydell ff7042567e
target/arm: Convert the VFP load/store multiple insns to decodetree
Convert the VFP load/store multiple insns to decodetree.
This includes tightening up the UNDEF checking for pre-VFPv3
CPUs which only have D0-D15 : they now UNDEF for any access
to D16-D31, not merely when the smallest register in the
transfer list is in D16-D31.

This conversion does not try to share code between the single
precision and the double precision versions; this looks a bit
duplicative of code, but it leaves the door open for a future
refactoring which gets rid of the use of the "F0" registers
by inlining the various functions like gen_vfp_ld() and
gen_mov_F0_reg() which are hiding "if (dp) { ... } else { ... }"
conditionalisation.

Backports commit fa288de272c5c8a66d5eb683b123706a52bc7ad6 from qemu
2019-06-13 17:26:52 -04:00
Peter Maydell 6f0633ce80
target/arm: Convert VFP VLDR and VSTR to decodetree
Convert the VFP single load/store insns VLDR and VSTR to decodetree.

Backports commit 79b02a3b5231c5b8cd31e50cd549968dd0a05c49 from qemu
2019-06-13 17:22:48 -04:00
Peter Maydell fe98885ff2
target/arm: Convert VFP two-register transfer insns to decodetree
Convert the VFP two-register transfer instructions to decodetree
(in the v8 Arm ARM these are the "Advanced SIMD and floating-point
64-bit move" encoding group).

Again, we expand out the sequences involving gen_vfp_msr() and
gen_msr_vfp().

Backports commit 81f681106eabe21c55118a5a41999fb7387fb714 from qemu
2019-06-13 17:20:00 -04:00
Peter Maydell 3fb3403b82
target/arm: Convert single-precision register moves to decodetree
Convert the "single-precision" register moves to decodetree:
* VMSR
* VMRS
* VMOV between general purpose register and single precision

Note that the VMSR/VMRS conversions make our handling of
the "should this UNDEF?" checks consistent between the two
instructions:
* VMSR to MVFR0, MVFR1, MVFR2 now UNDEF from EL0
  (previously was a nop)
* VMSR to FPSID now UNDEFs from EL0 or if VFPv3 or better
  (previously was a nop)
* VMSR to FPINST and FPINST2 now UNDEF if VFPv3 or better
  (previously would write to the register, which had no
  guest-visible effect because we always UNDEF reads)

We also tighten up the decode: we were previously underdecoding
some SBZ or SBO bits.

The conversion of VMOV_single includes the expansion out of the
gen_mov_F0_vreg()/gen_vfp_mrs() and gen_mov_vreg_F0()/gen_vfp_msr()
sequences into the simpler direct load/store of the TCG temp via
neon_{load,store}_reg32(): we know in the new function that we're
always single-precision, we don't need to use the old-and-deprecated
cpu_F0* TCG globals, and we don't happen to have the declaration of
gen_vfp_msr() and gen_vfp_mrs() at the point in the file where the
new function is.

Backports commit a9ab50011aeda2dd012da99069e078379315ea18 from qemu
2019-06-13 17:16:38 -04:00
Peter Maydell 694058da94
target/arm: Convert double-precision register moves to decodetree
Convert the "double-precision" register moves to decodetree:
this covers VMOV scalar-to-gpreg, VMOV gpreg-to-scalar and VDUP.

Note that the conversion process has tightened up a few of the
UNDEF encoding checks: we now correctly forbid:
* VMOV-to-gpr with U:opc1:opc2 == 10x00 or x0x10
* VMOV-from-gpr with opc1:opc2 == 0x10
* VDUP with B:E == 11
* VDUP with Q == 1 and Vn<0> == 1

Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
---
The accesses of elements < 32 bits could be improved by doing
direct ld/st of the right size rather than 32-bit read-and-shift
or read-modify-write, but we leave this for later cleanup,
since this series is generally trying to stick to fixing
the decode.

Backports commit 9851ed9269d214c0c6feba960dd14ff09e6c34b4 from qemu
2019-06-13 17:11:56 -04:00
Peter Maydell 7265161108
target/arm: Add helpers for VFP register loads and stores
The current VFP code has two different idioms for
loading and storing from the VFP register file:
 1 using the gen_mov_F0_vreg() and similar functions,
   which load and store to a fixed set of TCG globals
   cpu_F0s, CPU_F0d, etc
 2 by direct calls to tcg_gen_ld_f64() and friends

We want to phase out idiom 1 (because the use of the
fixed globals is a relic of a much older version of TCG),
but idiom 2 is quite longwinded:
  tcg_gen_ld_f64(tmp, cpu_env, vfp_reg_offset(true, reg))
requires us to specify the 64-bitness twice, once in
the function name and once by passing 'true' to
vfp_reg_offset(). There's no guard against accidentally
passing the wrong flag.

Instead, let's move to a convention of accessing 64-bit
registers via the existing neon_load_reg64() and
neon_store_reg64(), and provide new neon_load_reg32()
and neon_store_reg32() for the 32-bit equivalents.

Implement the new functions and use them in the code in
translate-vfp.inc.c. We will convert the rest of the VFP
code as we do the decodetree conversion in subsequent
commits.

Backports commit 160f3b64c5cc4c8a09a1859edc764882ce6ad6bf from qemu
2019-06-13 17:01:59 -04:00
Peter Maydell 033a386ffb
target/arm: Move the VFP trans_* functions to translate-vfp.inc.c
Move the trans_*() functions we've just created from translate.c
to translate-vfp.inc.c. This is pure code motion with no textual
changes (this can be checked with 'git show --color-moved').

Backports commit f7bbb8f31f0761edbf0c64b7ab3c3f49c13612ea from qemu
2019-06-13 16:56:24 -04:00
Peter Maydell e55d31a5ac
target/arm: Convert VCVTA/VCVTN/VCVTP/VCVTM to decodetree
Convert the VCVTA/VCVTN/VCVTP/VCVTM instructions to decodetree.
trans_VCVT() is temporarily left in translate.c.

Backports commit c2a46a914cd5c38fd0ee57ff0befc1c5bde27bcf from qemu
2019-06-13 16:54:42 -04:00
Peter Maydell 9fb01cb526
target/arm: Convert VRINTA/VRINTN/VRINTP/VRINTM to decodetree
Convert the VRINTA/VRINTN/VRINTP/VRINTM instructions to decodetree.
Again, trans_VRINT() is temporarily left in translate.c.

Backports commit e3bb599d16e4678b228d80194cee328f894b1ceb from qemu
2019-06-13 16:50:36 -04:00
Peter Maydell 4501daf010
target/arm: Convert VMINNM, VMAXNM to decodetree
Convert the VMINNM and VMAXNM instructions to decodetree.
As with VSEL, we leave the trans_VMINMAXNM() function
in translate.c for the moment.

Backports commit f65988a1efdb42f9058db44297591491842e697c from qemu
2019-06-13 16:43:50 -04:00
Peter Maydell 3994dfd079
target/arm: Convert the VSEL instructions to decodetree
Convert the VSEL instructions to decodetree.
We leave trans_VSEL() in translate.c for now as this allows
the patch to show just the changes from the old handle_vsel().

In the old code the check for "do D16-D31 exist" was hidden in
the VFP_DREG macro, and assumed that VFPv3 always implied that
D16-D31 exist. In the new code we do the correct ID register test.
This gives identical behaviour for most of our CPUs, and fixes
previously incorrect handling for Cortex-R5F, Cortex-M4 and
Cortex-M33, which all implement VFPv3 or better with only 16
double-precision registers.

Backports commit b3ff4b87b4ae08120a51fe12592725e1dca8a085 from qemu
2019-06-13 16:41:22 -04:00
Peter Maydell 93adaa7de2
target/arm: Explicitly enable VFP short-vectors for aarch32 -cpu max
At the moment our -cpu max for AArch32 supports VFP short-vectors
because we always implement them, even for CPUs which should
not have them. The following commits are going to switch to
using the correct ID-register-check to enable or disable short
vector support, so we need to turn it on explicitly for -cpu max,
because Cortex-A15 doesn't implement it.

We don't enable this for the AArch64 -cpu max, because the v8A
architecture never supports short-vectors.

Backports commit 973751fd798d41402d34f9f705c0c6d1633d0cda from qemu
2019-06-13 16:38:01 -04:00
Peter Maydell 808d929d7c
target/arm: Fix Cortex-R5F MVFR values
The Cortex-R5F initfn was not correctly setting up the MVFR
ID register values. Fill these in, since some subsequent patches
will use ID register checks rather than CPU feature bit checks.

Backports commit 3de79d335c9aa7d726865e3933d9b21781032183 from qemu
2019-06-13 16:36:48 -04:00
Lioncash b3cfede44f
target/arm: Make load_cpu_offset() take a DisasContext* instead of uc_struct*
Keeps it consistent with store_cpu_offset
2019-06-13 16:35:31 -04:00
Peter Maydell 78997058e4
target/arm: Factor out VFP access checking code
Factor out the VFP access checking code so that we can use it in the
leaf functions of the decodetree decoder.

We call the function full_vfp_access_check() so we can keep
the more natural vfp_access_check() for a version which doesn't
have the 'ignore_vfp_enabled' flag -- that way almost all VFP
insns will be able to use vfp_access_check(s) and only the
special-register access function will have to use
full_vfp_access_check(s, ignore_vfp_enabled).

Backports commit 06db8196bba34776829020192ed623a0b22e6557 from qemu
2019-06-13 16:33:38 -04:00
Peter Maydell 9732ebba5c
target/arm: Add stubs for AArch32 VFP decodetree
Add the infrastructure for building and invoking a decodetree decoder
for the AArch32 VFP encodings. At the moment the new decoder covers
nothing, so we always fall back to the existing hand-written decode.

We need to have one decoder for the unconditional insns and one for
the conditional insns, as otherwise the patterns for conditional
insns would incorrectly match against the unconditional ones too.

Since translate.c is over 14,000 lines long and we're going to be
touching pretty much every line of the VFP code as part of the
decodetree conversion, we create a new translate-vfp.inc.c to hold
the code which deals with VFP in the new scheme. It should be
possible to convert this into a standalone translation unit
eventually, but the conversion process will be much simpler if we
simply #include it midway through translate.c to start with.

Backports commit 78e138bc1f672c145ef6ace74617db00eebaa2ba from qemu
2019-06-13 16:24:37 -04:00
Richard Henderson afaea6a291
target/arm: Fix output of PAuth Auth
The ARM pseudocode installs the error_code into the original
pointer, not the encrypted pointer. The difference applies
within the 7 bits of pac data; the result should be the sign
extension of bit 55.

Add a testcase to that effect.

Backports commit d67ebada159148bfdfde84871338738e4465e985 from qemu
2019-06-13 16:17:00 -04:00
Peter Maydell 230f8a091a
target/arm: Implement NSACR gating of floating point
The NSACR register allows secure code to configure the FPU
to be inaccessible to non-secure code. If the NSACR.CP10
bit is set then:
* NS accesses to the FPU trap as UNDEF (ie to NS EL1 or EL2)
* CPACR.{CP10,CP11} behave as if RAZ/WI
* HCPTR.{TCP11,TCP10} behave as if RAO/WI

Note that we do not implement the NSACR.NSASEDIS bit which
gates only access to Advanced SIMD, in the same way that
we don't implement the equivalent CPACR.ASEDIS and HCPTR.TASE.

Backports commit fc1120a7f5f2d4b601003205c598077d3eb11ad2 from qemu
2019-06-13 16:15:28 -04:00
Richard Henderson 7c32498b7f
target/arm: Use tcg_gen_gvec_bitsel
This replaces 3 target-specific implementations for BIT, BIF, and BSL.

Backports commit 3a7a2b4e5cf0d49cd8b14e8225af0310068b7d20 from qemu
2019-06-13 16:12:56 -04:00
Richard Henderson 8f53f09a05
cpu: Introduce CPUNegativeOffsetState
Nothing in there so far, but all of the plumbing done
within the target ArchCPU state.

Backports commit 5b146dc716cfd247f99556c04e6e46fbd67565a0 from qemu
2019-06-13 15:08:25 -04:00
Richard Henderson a672b89e3b
cpu: Introduce cpu_set_cpustate_pointers
Consolidate some boilerplate from foo_cpu_initfn.

Backports commit 7506ed902eb97fe4e2a1dd16766c621d32ecc40d from qemu
2019-06-12 12:27:16 -04:00
Richard Henderson ac176ccb38
cpu: Move ENV_OFFSET to exec/gen-icount.h
Now that we have ArchCPU, we can define this generically,
in the one place that needs it.

Backports commit 677c4d69ac21961e76a386f9bfc892a44923acc0 from qemu
2019-06-12 12:20:21 -04:00
Richard Henderson b8bd543390
target/arm: Use env_cpu, env_archcpu
Cleanup in the boilerplate that each target must define.
Replace arm_env_get_cpu with env_archcpu. The combination
CPU(arm_env_get_cpu) should have used ENV_GET_CPU to begin;
use env_cpu now.

Backports commit 2fc0cc0e1e034582f4718b1a2d57691474ccb6aa from qemu
2019-06-12 11:34:08 -04:00
Richard Henderson fbf91a6535
cpu: Replace ENV_GET_CPU with env_cpu
Now that we have both ArchCPU and CPUArchState, we can define
this generically instead of via macro in each target's cpu.h.

Backports commit 29a0af618ddd21f55df5753c3e16b0625f534b3c from qemu
2019-06-12 11:16:16 -04:00
Richard Henderson ae94fb5992
cpu: Define ArchCPU
For all targets, do this just before including exec/cpu-all.h.

Backports commit 2161a612b4e1d388046320bc464adefd6bba01a0 from qemu
2019-06-12 11:08:39 -04:00
Richard Henderson e3f1f25996
cpu: Define CPUArchState with typedef
For all targets, do this just before including exec/cpu-all.h.

Backports commit 4f7c64b3819d559417615ed2b1d028ebc1a49580 from qemu
2019-06-12 11:06:36 -04:00
Richard Henderson df2a890bd7
tcg: Split out target/arch/cpu-param.h
For all targets, into this new file move TARGET_LONG_BITS,
TARGET_PAGE_BITS, TARGET_PHYS_ADDR_SPACE_BITS,
TARGET_VIRT_ADDR_SPACE_BITS, and NB_MMU_MODES.

Include this new file from exec/cpu-defs.h.

This now removes the somewhat odd requirement that target/arch/cpu.h
defines TARGET_LONG_BITS before including exec/cpu-defs.h, so push the
bulk of the includes within target/arch/cpu.h to the top.

Backports commit 74433bf083b0766aba81534f92de13194f23ff3e from qemu
2019-06-10 19:35:46 -04:00
Alistair Francis f8f3e50372
target/arm: Fix vector operation segfault
Commit 89e68b575 "target/arm: Use vector operations for saturation"
causes this abort() when booting QEMU ARM with a Cortex-A15:

0 0x00007ffff4c2382f in raise () at /usr/lib/libc.so.6
1 0x00007ffff4c0e672 in abort () at /usr/lib/libc.so.6
2 0x00005555559c1839 in disas_neon_data_insn (insn=<optimized out>, s=<optimized out>) at ./target/arm/translate.c:6673
3 0x00005555559c1839 in disas_neon_data_insn (s=<optimized out>, insn=<optimized out>) at ./target/arm/translate.c:6386
4 0x00005555559cd8a4 in disas_arm_insn (insn=4081107068, s=0x7fffe59a9510) at ./target/arm/translate.c:9289
5 0x00005555559cd8a4 in arm_tr_translate_insn (dcbase=0x7fffe59a9510, cpu=<optimized out>) at ./target/arm/translate.c:13612
6 0x00005555558d1d39 in translator_loop (ops=0x5555561cc580 <arm_translator_ops>, db=0x7fffe59a9510, cpu=0x55555686a2f0, tb=<optimized out>, max_insns=<optimized out>) at ./accel/tcg/translator.c:96
7 0x00005555559d10d4 in gen_intermediate_code (cpu=cpu@entry=0x55555686a2f0, tb=tb@entry=0x7fffd7840080 <code_gen_buffer+126091347>, max_insns=max_insns@entry=512) at ./target/arm/translate.c:13901
8 0x00005555558d06b9 in tb_gen_code (cpu=cpu@entry=0x55555686a2f0, pc=3067096216, cs_base=0, flags=192, cflags=-16252928, cflags@entry=524288) at ./accel/tcg/translate-all.c:1736
9 0x00005555558ce467 in tb_find (cf_mask=524288, tb_exit=1, last_tb=0x7fffd783e640 <code_gen_buffer+126084627>, cpu=0x1) at ./accel/tcg/cpu-exec.c:407
10 0x00005555558ce467 in cpu_exec (cpu=cpu@entry=0x55555686a2f0) at ./accel/tcg/cpu-exec.c:728
11 0x000055555588b0cf in tcg_cpu_exec (cpu=0x55555686a2f0) at ./cpus.c:1431
12 0x000055555588d223 in qemu_tcg_cpu_thread_fn (arg=0x55555686a2f0) at ./cpus.c:1735
13 0x000055555588d223 in qemu_tcg_cpu_thread_fn (arg=arg@entry=0x55555686a2f0) at ./cpus.c:1709
14 0x0000555555d2629a in qemu_thread_start (args=<optimized out>) at ./util/qemu-thread-posix.c:502
15 0x00007ffff4db8a92 in start_thread () at /usr/lib/libpthread.

This patch ensures that we don't hit the abort() in the second switch
case in disas_neon_data_insn() as we will return from the first case.

Backports commit 2f143d3ad1c05e91cf2cdf5de06d59a80a95e6c8 from qemu
2019-05-24 18:02:32 -04:00
Richard Henderson 9287750362
target/arm: Simplify BFXIL expansion
The mask implied by the extract is redundant with the one
implied by the deposit. Also, fix spelling of BFXIL.

Backports commit 87eb65a3c45c788a309986d48170a54a0d1c0705 from qemu
2019-05-24 18:01:26 -04:00
Richard Henderson 1778828644
target/arm: Use extract2 for EXTR
This is, after all, how we implement extract2 in tcg/aarch64.

Backports commit 80ac954c369e7e61bd1ed00cef07b63e11f9c734 from qemu
2019-05-24 17:58:58 -04:00
Richard Henderson 3dd7358a53
target/arm: Implement ARMv8.5-RNG
Use the newly introduced infrastructure for guest random numbers.

Backports commit de390645675966cce113bf5394445bc1f8d07c85 from qemu

(with the actual RNG portion disabled to preserve determinism for the
time being).
2019-05-23 15:03:23 -04:00
Richard Henderson a8df33c37c
target/arm: Put all PAC keys into a structure
This allows us to use a single syscall to initialize them all.

Backports commit 108b3ba891408c4dce93df78261ec4aca38c0e2e from qemu
2019-05-23 14:54:06 -04:00
Richard Henderson 2a4a7b9391
tcg: Use tlb_fill probe from tlb_vaddr_to_host
Most of the existing users would continue around a loop which
would fault the tlb entry in via a normal load/store.

But for AArch64 SVE we have an existing emulation bug wherein we
would mark the first element of a no-fault vector load as faulted
(within the FFR, not via exception) just because we did not have
its address in the TLB. Now we can properly only mark it as faulted
if there really is no valid, readable translation, while still not
raising an exception. (Note that beyond the first element of the
vector, the hardware may report a fault for any reason whatsoever;
with at least one element loaded, forward progress is guaranteed.)

Backports commit 4811e9095c0491bc6f5450e5012c9c4796b9e59d from qemu
2019-05-16 18:27:03 -04:00
Richard Henderson dab0061a0d
tcg: Use CPUClass::tlb_fill in cputlb.c
We can now use the CPUClass hook instead of a named function.

Create a static tlb_fill function to avoid other changes within
cputlb.c. This also isolates the asserts within. Remove the
named tlb_fill function from all of the targets.

Backports commit c319dc13579a92937bffe02ad2c9f1a550e73973 from qemu
2019-05-16 17:35:37 -04:00
Richard Henderson 31ecdb5341
target/arm: Convert to CPUClass::tlb_fill
Backports commit 7350d553b5066abdc662045d7db5cdb73d0f9d53 from qemu
2019-05-16 16:55:12 -04:00
Richard Henderson 552e48f14e
target/arm: Use tcg_gen_abs_i64 and tcg_gen_gvec_abs
Backports commit 4e027a710673f5d4dc6cff88728bcfd32e4c47b0 from qemu
2019-05-16 16:43:02 -04:00
Richard Henderson 6d1730048d
tcg: Add support for integer absolute value
Remove a function of the same name from target/arm/.
Use a branchless implementation of abs gleaned from gcc.

Backports commit ff1f11f7f8710a768f9313f24bd7f509d3db27e5 from qemu
2019-05-16 16:25:15 -04:00
Richard Henderson c54b2776f6
tcg: Specify optional vector requirements with a list
Replace the single opcode in .opc with a null-terminated
array in .opt_opc. We still require that all opcodes be
used with the same .vece.

Validate the contents of this list with CONFIG_DEBUG_TCG.
All tcg_gen_*_vec functions will check any list active
during .fniv expansion. Swap the active list in and out
as we expand other opcodes, or take control away from the
front-end function.

Convert all existing vector aware front ends.

Backports commit 53229a7703eeb2bbe101a19a33ef22aaf960c65b from qemu
2019-05-16 15:05:02 -04:00
Peter Maydell 26cb1b8767
target/arm: Stop using variable length array in dc_zva
Currently the dc_zva helper function uses a variable length
array. In fact we know (as the comment above remarks) that
the length of this array is bounded because the architecture
limits the block size and QEMU limits the target page size.
Use a fixed array size and assert that we don't run off it.

Backports commit 63159601fb3e396b28da14cbb71e50ed3f5a0331 from qemu
2019-05-09 17:48:25 -04:00
Peter Maydell 7861820e94
target/arm: Implement XPSR GE bits
In the M-profile architecture, if the CPU implements the DSP extension
then the XPSR has GE bits, in the same way as the A-profile CPSR. When
we added DSP extension support we forgot to add support for reading
and writing the GE bits, which are stored in env->GE. We did put in
the code to add XPSR_GE to the mask of bits to update in the v7m_msr
helper, but forgot it in v7m_mrs. We also must not allow the XPSR we
pull off the stack on exception return to set the nonexistent GE bits.
Correct these errors:
* read and write env->GE in xpsr_read() and xpsr_write()
* only set GE bits on exception return if DSP present
* read GE bits for MRS if DSP present

Backports commit f1e2598c46d480c9e21213a244bc514200762828 from qemu
2019-05-09 17:46:31 -04:00
Lioncash a71c027063
decodetree: Add DisasContext argument to !function expanders
This does require adjusting all existing users.

Backports commit 451e4ffdb0003ab5ed0d98bd37b385c076aba183 from qemu
2019-05-09 17:40:45 -04:00
Emilio G. Cota 1715f382b4
target/arm: check CF_PARALLEL instead of parallel_cpus
Thereby decoupling the resulting translated code from the current state
of the system.

Backports commit 2399d4e7cec22ecf1c51062d2ebfd45220dbaace from qemu
2019-05-04 22:44:32 -04:00
Peter Maydell d4549fccfb
target/arm: Enable FPU for Cortex-M4 and Cortex-M33
Enable the FPU by default for the Cortex-M4 and Cortex-M33.

Backports commit 14fd0c31e26b88a2189b3f459b864d5e1faf302a from qemu
2019-04-30 11:29:26 -04:00
Peter Maydell 77ae3982b4
target/arm: Implement VLLDM for v7M CPUs with an FPU
Implement the VLLDM instruction for v7M for the FPU present cas.

Backports commit 956fe143b4f254356496a0a1c479fa632376dfec from qemu
2019-04-30 11:27:54 -04:00
Peter Maydell b483951046
target/arm: Implement VLSTM for v7M CPUs with an FPU
Implement the VLSTM instruction for v7M for the FPU present case.

Backports commit 019076b036da4444494de38388218040d9d3a26c from qemu
2019-04-30 11:25:44 -04:00
Peter Maydell a976d7642a
target/arm: Implement M-profile lazy FP state preservation
The M-profile architecture floating point system supports
lazy FP state preservation, where FP registers are not
pushed to the stack when an exception occurs but are instead
only saved if and when the first FP instruction in the exception
handler is executed. Implement this in QEMU, corresponding
to the check of LSPACT in the pseudocode ExecuteFPCheck().

Backports commit e33cf0f8d8c9998a7616684f9d6aa0d181b88803 from qemu
2019-04-30 11:21:50 -04:00
Peter Maydell 72e5ae480d
target/arm: Add lazy-FP-stacking support to v7m_stack_write()
Pushing registers to the stack for v7M needs to handle three cases:
* the "normal" case where we pend exceptions
* an "ignore faults" case where we set FSR bits but
do not pend exceptions (this is used when we are
handling some kinds of derived exception on exception entry)
* a "lazy FP stacking" case, where different FSR bits
are set and the exception is pended differently

Implement this by changing the existing flag argument that
tells us whether to ignore faults or not into an enum that
specifies which of the 3 modes we should handle.

Backports commit a356dacf647506bccdf8ecd23574246a8bf615ac from qemu
2019-04-30 10:59:53 -04:00
Peter Maydell b1d6bd2792
target/arm: New function armv7m_nvic_set_pending_lazyfp()
In the v7M architecture, if an exception is generated in the process
of doing the lazy stacking of FP registers, the handling of
possible escalation to HardFault is treated differently to the normal
approach: it works based on the saved information about exception
readiness that was stored in the FPCCR when the stack frame was
created. Provide a new function armv7m_nvic_set_pending_lazyfp()
which pends exceptions during lazy stacking, and implements
this logic.

This corresponds to the pseudocode TakePreserveFPException().

Backports the relevant parts of commit
a99ba8ab1601904e0fa20325192fc850362ce80e from qemu
2019-04-30 10:56:54 -04:00
Peter Maydell 3fff653e20
target/arm: New helper function arm_v7m_mmu_idx_all()
Add a new helper function which returns the MMU index to use
for v7M, where the caller specifies all of the security
state, privilege level and whether the execution priority
is negative, and reimplement the existing
arm_v7m_mmu_idx_for_secstate_and_priv() in terms of it.

We are going to need this for the lazy-FP-stacking code.

Backports commit fa6252a988dbe440cd6087bf93cbe0887f0c401b from qemu
2019-04-30 10:54:26 -04:00
Peter Maydell 719231b4c0
target/arm: Activate M-profile floating point context when FPCCR.ASPEN is set
The M-profile FPCCR.ASPEN bit indicates that automatic floating-point
context preservation is enabled. Before executing any floating-point
instruction, if FPCCR.ASPEN is set and the CONTROL FPCA/SFPA bits
indicate that there is no active floating point context then we
must create a new context (by initializing FPSCR and setting
FPCA/SFPA to indicate that the context is now active). In the
pseudocode this is handled by ExecuteFPCheck().

Implement this with a new TB flag which tracks whether we
need to create a new FP context.

Backports commit 6000531e19964756673a5f4b694a649ef883605a from qemu
2019-04-30 10:51:31 -04:00
Peter Maydell 87c8c0fde7
target/arm: Set FPCCR.S when executing M-profile floating point insns
The M-profile FPCCR.S bit indicates the security status of
the floating point context. In the pseudocode ExecuteFPCheck()
function it is unconditionally set to match the current
security state whenever a floating point instruction is
executed.

Implement this by adding a new TB flag which tracks whether
FPCCR.S is different from the current security state, so
that we only need to emit the code to update it in the
less-common case when it is not already set correctly.

Note that we will add the handling for the other work done
by ExecuteFPCheck() in later commits.

Backports commit 6d60c67a1a03be32c3342aff6604cdc5095088d1 from qemu
2019-04-30 10:50:17 -04:00
Peter Maydell 8d726490ff
target/arm: Overlap VECSTRIDE and XSCALE_CPAR TB flags
We are close to running out of TB flags for AArch32; we could
start using the cs_base word, but before we do that we can
economise on our usage by sharing the same bits for the VFP
VECSTRIDE field and the XScale XSCALE_CPAR field. This
works because no XScale CPU ever had VFP.

Backports commit ea7ac69d124c94c6e5579145e727adec9ccbefef from qemu
2019-04-30 10:45:14 -04:00
Peter Maydell 3c1f3548c4
target/arm: Move NS TBFLAG from bit 19 to bit 6
Move the NS TBFLAG down from bit 19 to bit 6, which has not
been used since commit c1e3781090b9d36c60 in 2015, when we
started passing the entire MMU index in the TB flags rather
than just a 'privilege level' bit.

This rearrangement is not strictly necessary, but means that
we can put M-profile-only bits next to each other rather
than scattered across the flag word.

Backports commit 7fbb535f7aeb22896fedfcf18a1eeff48165f1d7 from qemu
2019-04-30 10:41:04 -04:00
Peter Maydell 86776d451e
target/arm: Handle floating point registers in exception return
Handle floating point registers in exception return.
This corresponds to pseudocode functions ValidateExceptionReturn(),
ExceptionReturn(), PopStack() and ConsumeExcStackFrame().

Backports commit 6808c4d2d2826920087533f517472c09edc7b0d2 from qemu
2019-04-30 10:40:12 -04:00
Peter Maydell 2244bb085a
target/arm: Allow for floating point in callee stack integrity check
The magic value pushed onto the callee stack as an integrity
check is different if floating point is present.

Backports commit 0dc51d66fcfcc4c72011cdafb401fd876ca216e7 from qemu
2019-04-30 10:36:58 -04:00
Peter Maydell 746d377221
target/arm: Clean excReturn bits when tail chaining
The TailChain() pseudocode specifies that a tail chaining
exception should sanitize the excReturn all-ones bits and
(if there is no FPU) the excReturn FType bits; we weren't
doing this.

Backports commit 60fba59a2f9a092a44b688df5d058cdd6dd9c276 from qemu
2019-04-30 10:35:36 -04:00
Peter Maydell ca0ac5dca9
target/arm: Clear CONTROL.SFPA in BXNS and BLXNS
For v8M floating point support, transitions from Secure
to Non-secure state via BLNS and BLXNS must clear the
CONTROL.SFPA bit. (This corresponds to the pseudocode
BranchToNS() function.)

Backports commit 3cd6726f0ba7cc77342ee721bd86094e13b2a42a from qemu
2019-04-30 10:33:25 -04:00
Peter Maydell c7f5633cfe
target/arm: Implement v7m_update_fpccr()
Implement the code which updates the FPCCR register on an
exception entry where we are going to use lazy FP stacking.
We have to defer to the NVIC to determine whether the
various exceptions are currently ready or not.

Backports commit b593c2b81287040ab6f452afec6281e2f7ee487b from qemu
2019-04-30 10:32:12 -04:00
Peter Maydell 065e60503f
target/arm: Handle floating point registers in exception entry
Handle floating point registers in exception entry.
This corresponds to the FP-specific parts of the pseudocode
functions ActivateException() and PushStack().

We defer the code corresponding to UpdateFPCCR() to a later patch.

Backports commit 0ed377a8013f40653a83f6ad2c9693897522d7dc from qemu
2019-04-30 10:25:23 -04:00
Peter Maydell c164a9f191
target/arm/helper: don't return early for STKOF faults during stacking
Currently the code in v7m_push_stack() which detects a violation
of the v8M stack limit simply returns early if it does so. This
is OK for the current integer-only code, but won't work for the
floating point handling we're about to add. We need to continue
executing the rest of the function so that we check for other
exceptions like not having permission to use the FPU and so
that we correctly set the FPCCR state if we are doing lazy
stacking. Refactor to avoid the early return.

Backports commit 3432c79a4e7345818d2defcf9e61a1bcb2907f9f from qemu
2019-04-30 10:22:36 -04:00
Peter Maydell 05add081a3
target/arm: Handle SFPA and FPCA bits in reads and writes of CONTROL
The M-profile CONTROL register has two bits -- SFPA and FPCA --
which relate to floating-point support, and should be RES0 otherwise.
Handle them correctly in the MSR/MRS register access code.
Neither is banked between security states, so they are stored
in v7m.control[M_REG_S] regardless of current security state.

Backports commit 2e1c5bcd32014c9ede1b604ae6c2c653de17fc53 from qemu
2019-04-30 10:21:24 -04:00
Peter Maydell c0cebeb5b5
target/arm: Clear CONTROL_S.SFPA in SG insn if FPU present
If the floating point extension is present, then the SG instruction
must clear the CONTROL_S.SFPA bit. Implement this.

(On a no-FPU system the bit will always be zero, so we don't need
to make the clearing of the bit conditional on ARM_FEATURE_VFP.)

Backports commit 1702071302934af77a072b7ee7c5eadc45b37573 from qemu
2019-04-30 10:20:45 -04:00
Peter Maydell 89baa5cffa
target/arm: Decode FP instructions for M profile
Correct the decode of the M-profile "coprocessor and
floating-point instructions" space:
* op0 == 0b11 is always unallocated
* if the CPU has an FPU then all insns with op1 == 0b101
are floating point and go to disas_vfp_insn()

For the moment we leave VLLDM and VLSTM as NOPs; in
a later commit we will fill in the proper implementation
for the case where an FPU is present.

Backports commit 8859ba3c9625e7ceb5599f457a344bcd7c5e112b from qemu
2019-04-30 10:19:45 -04:00
Peter Maydell 18bb21c035
target/arm: Honour M-profile FP enable bits
Like AArch64, M-profile floating point has no FPEXC enable
bit to gate floating point; so always set the VFPEN TB flag.

M-profile also has CPACR and NSACR similar to A-profile;
they behave slightly differently:
* the CPACR is banked between Secure and Non-Secure
* if the NSACR forces a trap then this is taken to
the Secure state, not the Non-Secure state

Honour the CPACR and NSACR settings. The NSACR handling
requires us to borrow the exception.target_el field
(usually meaningless for M profile) to distinguish the
NOCP UsageFault taken to Secure state from the more
usual fault taken to the current security state.

Backports commit d87513c0abcbcd856f8e1dee2f2d18903b2c3ea2 from qemu
2019-04-30 10:18:21 -04:00
Peter Maydell c6bb8d483d
target/arm: Disable most VFP sysregs for M-profile
The only "system register" that M-profile floating point exposes
via the VMRS/VMRS instructions is FPSCR, and it does not have
the odd special case for rd==15. Add a check to ensure we only
expose FPSCR.

Backports commit ef9aae2522c22c05df17dd898099dd5c3f20d688 from qemu
2019-04-30 10:15:25 -04:00
Peter Maydell a4f332f3e9
target/arm: Implement dummy versions of M-profile FP-related registers
The M-profile floating point support has three associated config
registers: FPCAR, FPCCR and FPDSCR. It also makes the registers
CPACR and NSACR have behaviour other than reads-as-zero.
Add support for all of these as simple reads-as-written registers.
We will hook up actual functionality later.

The main complexity here is handling the FPCCR register, which
has a mix of banked and unbanked bits.

Note that we don't share storage with the A-profile
cpu->cp15.nsacr and cpu->cp15.cpacr_el1, though the behaviour
is quite similar, for two reasons:
* the M profile CPACR is banked between security states
* it preserves the invariant that M profile uses no state
inside the cp15 substruct

Backports commit d33abe82c7c9847284a23e575e1078cccab540b5 from qemu
2019-04-30 10:13:41 -04:00
Peter Maydell 978cd9c524
target/arm: Make sure M-profile FPSCR RES0 bits are not settable
Enforce that for M-profile various FPSCR bits which are RES0 there
but have defined meanings on A-profile are never settable. This
ensures that M-profile code can't enable the A-profile behaviour
(notably vector length/stride handling) by accident.

Backports commit 5bcf8ed9401e62c73158ba110864ee1375558bf7 from qemu
2019-04-30 10:12:17 -04:00
Richard Henderson bca82cde84
tcg: Hoist max_insns computation to tb_gen_code
In order to handle TB's that translate to too much code, we
need to place the control of the length of the translation
in the hands of the code gen master loop.

Backports commit 8b86d6d25807e13a63ab6ea879f976b9f18cc45a from qemu
2019-04-30 09:49:57 -04:00
Lioncash f6911ea73d
target/arm: Handle AArch32 CRC instructions 2019-04-27 10:50:25 -04:00
Lioncash c3df12e534
target/arm/translate: Synchronize with Qemu 2019-04-27 10:13:01 -04:00
Lioncash 6d80445fe1
unicorn_arm: Treat registers as unsigned values in casts
It isn't particularly advisable to treat these as signed values, given
the registers themselves have no notion of signedness associated with
them.
2019-04-26 08:48:31 -04:00
Lioncash f419015aa3
unicorn_arm: Don't steamroll CPSR bits defined as RAZ/SBZP
Prevents bits from being set that should always read as zero according
to the ARM architecture reference manual.
2019-04-26 08:47:50 -04:00
Lioncash d844d7cc9d
exec: Backport tb_cflags accessor 2019-04-22 06:12:59 -04:00
Lioncash 14f1cb03e9
target/arm/unicorn_arm: Get rid of magic constants where applicable 2019-04-19 20:23:41 -04:00
Lioncash 5968b3d96f
target/arm: Synchronize with qemu 2019-04-19 15:31:18 -04:00
Lioncash bf6dfeb175
target/arm/translate: Synchronize with qemu
Backports a few other missing pieces from mainline qemu.
2019-04-18 06:22:36 -04:00
Lioncash 5b062dacf2
target/arm: Simplify and correct thumb instruction tracing
This wasn't subtracting the size of the instruction off the PC like how
the ARM mode tracing was performing the tracing. This simplifies it and
makes the behavior identical.
2019-04-18 06:00:15 -04:00
Lioncash 5d6ddec7fb
target/arm/translate: Subtract PC value properly for thumb tracecode calls 2019-04-18 05:44:48 -04:00
Lioncash 3521e72580
target/arm: Sychronize with qemu
Synchronizes with bits and pieces that were missed due to merging
incorrectly (sorry :<)
2019-04-18 04:49:11 -04:00
Lioncash ddcf400955
arm: Always enable access to coprocessors initially
Allows non-AArch64 environments to always access coprocessors initially.
Removes the need to do avoidable register management when testing
floating-point code.
2019-04-13 19:49:43 -04:00
Richard Henderson f5cb1a5865
target/arm: Set SIMDMISC and FPMISC for 32-bit -cpu max
Fixes: https://bugs.launchpad.net/bugs/1821430

Backports commit c8877d0f2f662bf01346a03bc9fd279954b4132d from qemu
2019-03-26 20:41:01 -04:00
Andrew Jones 8719b3edb3
target/arm: make pmccntr_op_start/finish static
These functions are not used outside helper.c

Backports commit f2b2f53f6429b5abd7cd86bd65747f5f13e195eb from qemu
2019-03-26 20:35:34 -04:00
Andrew Jones 6482182ba5
target/arm: cortex-a7 and cortex-a15 have pmus
cortex-a7 and cortex-a15 have pmus (PMUv2) and they advertise
them in ID_DFR0. Let's allow them to function. This also enables
the pmu cpu property to work with these cpu types, i.e. we can
now do '-cpu cortex-a15,pmu=off' to remove the pmu.

Backports commit a46118fc16537a593119e5b316052a98514046bb from qemu
2019-03-26 20:34:11 -04:00
Andrew Jones 3c50e72c40
target/arm: fix crash on pmu register access
Fix a QEMU NULL derefence that occurs when the guest attempts to
enable PMU counters with a non-v8 cpu model or a v8 cpu model
which has not configured a PMU.

Backports commit cbbb3041fe2f57a475cef5d6b0ef836118aad106 from qemu
2019-03-26 20:32:49 -04:00
Richard Henderson 2427ace0c0
target/arm: Fix non-parallel expansion of CASP
The second word has been loaded from the unincremented
address since the first commit.

Backports commit a036f5302c13634f3d375615b2949fd1fa1657b6 from qemu
2019-03-26 20:31:01 -04:00
Amir Charif 2392d8b8ab
target/arm: Check access permission to ADDVL/ADDPL/RDVL
These instructions do not trap when SVE is disabled in EL0,
causing them to be executed with wrong size information.

Backports commit 5de56742a3c91de3d646326bec43a989bba83ca4 from qemu
2019-03-19 05:42:59 -04:00
Dongjiu Geng 4dc3d59fd3
target/arm: change arch timer registers access permission
Some generic arch timer registers are Config-RW in the EL0,
which means the EL0 exception level can have write permission
if it is appropriately configured.

When VM access registers, QEMU firstly checks whether they have RW
permission, then check whether it is appropriately configured.
If they are defined to read only in EL0, even though they have been
appropriately configured, they still do not have write permission.
So need to add the write permission according to ARMV8 spec when
define it.

Backports commit daf1dc5f82cefe2a57f184d5053e8b274ad2ba9a from qemu
2019-03-19 05:40:44 -04:00
yhql 1723cb1015
Add ARM MSP, PSP and CONTROL register access (#1071)
Necessary for NVIC exception emulation from user.

Backports commit 31851280316d37305f412fff42f45bb375999074 from unicorn
2019-03-08 02:24:49 -05:00
Lioncash 5075a0158a
target/arm: Restore Qemu's organization of coprocessor registers
These changes were mostly made in upstream unicorn for what I can guess,
was to support old versions of MSVC's compiler.

This is also a pain to maintain, since everything needs to be done
manually and can be a source of errors. It also makes it take more work
than it needs to, to backport changes from qemu.

Because of that, this change restores Qemu's organization of the
coprocessor registers.
2019-03-08 01:32:47 -05:00
Richard Henderson f116560d2c
target/arm: Implement ARMv8.5-FRINT
Backports 6bea25631af92531027d3bf3ef972a4d51d62e7c from qemu.
2019-03-05 23:17:33 -05:00