This branch removes the trapif and trapff instructions, in favor of using an explicit comparison and trapnz. This moves us closer to removing iflags and fflags, but introduces the need to implement instructions like iadd_cout in the x64 and aarch64 backends.
- Allow bitcast for vectors with differing lane widths
- Remove raw_bitcast IR instruction
- Change all users of raw_bitcast to bitcast
- Implement support for no-op bitcast cases across backends
This implements the second step of the plan outlined here:
https://github.com/bytecodealliance/wasmtime/issues/4566#issuecomment-1234819394
Adds Bswap to the Cranelift IR. Implements the Bswap instruction
in the x64 and aarch64 codegen backends. Cranelift users can now:
```
builder.ins().bswap(value)
```
to get a native byteswap instruction.
* x64: implements the 32- and 64-bit bswap instruction, following
the pattern set by similar unary instrutions (Neg and Not) - it
only operates on a dst register, but is parameterized with both
a src and dst which are expected to be the same register.
As x64 bswap instruction is only for 32- or 64-bit registers,
the 16-bit swap is implemented as a rotate left by 8.
Updated x64 RexFlags type to support emitting for single-operand
instructions like bswap
* aarch64: Bswap gets emitted as aarch64 rev16, rev32,
or rev64 instruction as appropriate.
* s390x: Bswap was already supported in backend, just had to add
a bit of plumbing
* For completeness, added bswap to the interpreter as well.
* added filetests and runtests for each ISA
* added bswap to fuzzgen, thanks to afonso360 for the code there
* 128-bit swaps are not yet implemented, that can be done later
Add a new instruction uadd_overflow_trap, which is a fused version of iadd_ifcout and trapif. Adding this instruction removes a dependency on the iflags type, and would allow us to move closer to removing it entirely.
The instruction is defined for the i32 and i64 types only, and is currently only used in the legalization of heap_addr.
As discussed in the 2022/10/19 meeting, this PR removes many of the branch and select instructions that used iflags, in favor if using brz/brnz and select in their place. Additionally, it reworks selectif_spectre_guard to take an i8 input instead of an iflags input.
For reference, the removed instructions are: br_icmp, brif, brff, trueif, trueff, and selectif.
Remove the boolean types from cranelift, and the associated instructions breduce, bextend, bconst, and bint. Standardize on using 1/0 for the return value from instructions that produce scalar boolean results, and -1/0 for boolean vector elements.
Fixes#3205
Co-authored-by: Afonso Bordado <afonso360@users.noreply.github.com>
Co-authored-by: Ulrich Weigand <ulrich.weigand@de.ibm.com>
Co-authored-by: Chris Fallin <chris@cfallin.org>
* Cranelift: use regalloc2 constraints on caller side of ABI code.
This PR updates the shared ABI code and backends to use register-operand
constraints rather than explicit pinned-vreg moves for register
arguments and return values.
The s390x backend was not updated, because it has its own implementation
of ABI code. Ideally we could converge back to the code shared by x64
and aarch64 (which didn't exist when s390x ported calls to ISLE, so the
current situation is underestandable, to be clear!). I'll leave this for
future work.
This PR exposed several places where regalloc2 needed to be a bit more
flexible with constraints; it requires regalloc2#74 to be merged and
pulled in.
* Update to regalloc2 0.3.3.
In addition to version bump, this required removing two asserts as
`SpillSlot`s no longer carry their class (so we can't assert that they
have the correct class).
* Review comments.
* Filetest updates.
* Add cargo-vet audit for regalloc2 0.3.2 -> 0.3.3 upgrade.
* Update to regalloc2 0.4.0.
* Cranelift: Deduplicate ABI signatures during lowering
This commit creates the `SigSet` type which interns and deduplicates the ABI
signatures that we create from `ir::Signature`s. The ABI signatures are now
referred to indirectly via a `Sig` (which is a `cranelift_entity` ID), and we
pass around a `SigSet` to anything that needs to access the actual underlying
`SigData` (which is what `ABISig` used to be).
I had to change a couple methods to return a `SmallInstVec` instead of emitting
directly to work around what would otherwise be shared and exclusive borrows of
the lowering context overlapping. I don't expect any of these to heap allocate
in practice.
This does not remove the often-unnecessary allocations caused by
`ensure_struct_return_ptr_is_returned`. That is left for follow up work.
This also opens the door for further shuffling of signature data into more
efficient representations in the future, now that we have `SigSet` to store it
all in one place and it is threaded through all the code. We could potentially
move each signature's parameter and return vectors into one big vector shared
between all signatures, for example, which could cut down on allocations and
shrink the size of `SigData` since those `SmallVec`s have pretty large inline
capacity.
Overall, this refactoring gives a 1-7% speedup for compilation on
`pulldown-cmark`:
```
compilation :: cycles :: benchmarks/pulldown-cmark/benchmark.wasm
Δ = 8754213.66 ± 7526266.23 (confidence = 99%)
dedupe.so is 1.01x to 1.07x faster than main.so!
[191003295 234620642.20 280597986] dedupe.so
[197626699 243374855.86 321816763] main.so
compilation :: cycles :: benchmarks/bz2/benchmark.wasm
No difference in performance.
[170406200 194299792.68 253001201] dedupe.so
[172071888 193230743.11 223608329] main.so
compilation :: cycles :: benchmarks/spidermonkey/benchmark.wasm
No difference in performance.
[3870997347 4437735062.59 5216007266] dedupe.so
[4019924063 4424595349.24 4965088931] main.so
```
* Use full path instead of import to avoid warnings in some build configurations
Warnings will then cause CI to fail.
* Move `SigSet` into `VCode`
Lower nop in ISLE in the x64 backend, and remove the final Ok(()) from the lower function to assert that all cases that aren't handled in ISLE will panic.
Lower extractlane, scalar_to_vector and splat in ISLE.
This PR also makes some changes to the SinkableLoad api
* change the return type of sink_load to RegMem as there are more functions available for dealing with RegMem
* add reg_mem_to_reg_mem_imm and register it as an automatic conversion
Lower `shuffle` and `swizzle` in ISLE.
This PR surfaced a bug with the lowering of `shuffle` when avx512vl and avx512vbmi are enabled: we use `vpermi2b` as the implementation, but panic if the immediate shuffle mask contains any out-of-bounds values. The behavior when the avx512 extensions are not present is that out-of-bounds values are turned into `0` in the result.
I've resolved this by detecting when the shuffle immediate has out-of-bounds indices in the avx512-enabled lowering, and generating an additional mask to zero out the lanes where those indices occur. This brings the avx512 case into line with the semantics of the `shuffle` op: 94bcbe8446/cranelift/codegen/meta/src/shared/instructions.rs (L1495-L1498)
Lower stack_addr, udiv, sdiv, urem, srem, umulhi, and smulhi in ISLE.
For udiv, sdiv, urem, and srem I opted to move the original lowering into an extern constructor, as the interactions with rax and rdx for the div instruction didn't seem meaningful to implement in ISLE. However, I'm happy to revisit this choice and move more of the embedding into ISLE.
* Add a test for iadd_pairwise with swiden input
* Implement iadd_pairwise for swiden_{low,high} input
* Add a test case for iadd_pairwise with uwiden input
* Implement iadd_pairwise with uwiden
* Cranelift: Remove the `ABICaller` trait
It has only one implementation: the `ABICallerImpl` struct. We can just use that
directly rather than having extra, unnecessary layers of generics and abstractions.
* Cranelift: Rename `ABICallerImpl` to `Caller`
The trait had only one implementation: the `Lower` struct. It is easier to just
use that directly, and not introduce unnecessary layers of generics and
abstractions.
Once upon a time, there was hope that we would have other implementations of the
`LowerCtx` trait, that did things like lower CLIF to SMTLIB for
verification. However, this is not practical these days given the way that the
trait has evolved over time, and our verification efforts are focused on ISLE
now anyways, and we're actually making some progress on that front (much more
than anyone ever did on a second `LowerCtx` trait implementation!)
* Add a test for the existing behavior of fcvt_from_unit
* Migrate the I8, I16, I32 cases of fcvt_from_uint
* Implement the I64 case of fcvt_from_uint
* Add a test for the existing behavior of fcvt_from_uint.f64x2
* Migrate fcvt_from_uint.f64x2 to ISLE
* Lower the last case of `fcvt_from_uint`
* Add a test for `fcvt_from_uint`
* Finish lowering fcmp_from_uint
* Format
* Cranelift: Add instructions for getting the current stack/frame pointers and return address
This is the initial part of https://github.com/bytecodealliance/wasmtime/issues/4535
* x64: Remove `Amode::RbpOffset` and use `Amode::ImmReg` instead
We just special case getting operands from `Amode`s now.
* Fix s390x `get_return_address`; require `preserve_frame_pointers=true`
* Assert that `Amode::ImmRegRegShift` doesn't use rbp/rsp
* Handle non-allocatable registers in Amode::with_allocs
* Use "stack" instead of "r15" on s390x
* r14 is an allocatable register on s390x, so it shouldn't be used with `MovPReg`
* Cranellift: remove Baldrdash support and related features.
As noted in Mozilla's bugzilla bug 1781425 [1], the SpiderMonkey team
has recently determined that their current form of integration with
Cranelift is too hard to maintain, and they have chosen to remove it
from their codebase. If and when they decide to build updated support
for Cranelift, they will adopt different approaches to several details
of the integration.
In the meantime, after discussion with the SpiderMonkey folks, they
agree that it makes sense to remove the bits of Cranelift that exist
to support the integration ("Baldrdash"), as they will not need
them. Many of these bits are difficult-to-maintain special cases that
are not actually tested in Cranelift proper: for example, the
Baldrdash integration required Cranelift to emit function bodies
without prologues/epilogues, and instead communicate very precise
information about the expected frame size and layout, then stitched
together something post-facto. This was brittle and caused a lot of
incidental complexity ("fallthrough returns", the resulting special
logic in block-ordering); this is just one example. As another
example, one particular Baldrdash ABI variant processed stack args in
reverse order, so our ABI code had to support both traversal
orders. We had a number of other Baldrdash-specific settings as well
that did various special things.
This PR removes Baldrdash ABI support, the `fallthrough_return`
instruction, and pulls some threads to remove now-unused bits as a
result of those two, with the understanding that the SpiderMonkey folks
will build new functionality as needed in the future and we can perhaps
find cleaner abstractions to make it all work.
[1] https://bugzilla.mozilla.org/show_bug.cgi?id=1781425
* Review feedback.
* Fix (?) DWARF debug tests: add `--disable-cache` to wasmtime invocations.
The debugger tests invoke `wasmtime` from within each test case under
the control of a debugger (gdb or lldb). Some of these tests started to
inexplicably fail in CI with unrelated changes, and the failures were
only inconsistently reproducible locally. It seems to be cache related:
if we disable cached compilation on the nested `wasmtime` invocations,
the tests consistently pass.
* Review feedback.
* x64: Add VEX Instruction Encoder
This uses a similar builder pattern to the EVEX Encoder.
Does not yet support memory accesses.
* x64: Add FMA Flag
* x64: Implement SIMD `fma`
* x64: Use 4 register Vex Inst
* x64: Reorder VEX pretty print args
* cranelift: Restrict `br_table` to `i32` indices
In #4498 it was proposed that we should only accept `i32` indices
to `br_table`. The rationale for this is that larger types lead the
users to a false sense of flexibility (since we don't support jump
tables larger than u32's), and narrower types are not well tested
paths that would be safer if we removed them.
* cranelift: Reduce directly from i128 to i32 in Switch
Introduce a new concept in the IR that allows a producer to create
dynamic vector types. An IR function can now contain global value(s)
that represent a dynamic scaling factor, for a given fixed-width
vector type. A dynamic type is then created by 'multiplying' the
corresponding global value with a fixed-width type. These new types
can be used just like the existing types and the type system has a
set of hard-coded dynamic types, such as I32X4XN, which the user
defined types map onto. The dynamic types are also used explicitly
to create dynamic stack slots, which have no set size like their
existing counterparts. New IR instructions are added to access these
new stack entities.
Currently, during codegen, the dynamic scaling factor has to be
lowered to a constant so the dynamic slots do eventually have a
compile-time known size, as do spill slots.
The current lowering for aarch64 just targets Neon, using a dynamic
scale of 1.
Copyright (c) 2022, Arm Limited.
* x64: port `atomic_rmw` to ISLE
This change ports `atomic_rmw` to ISLE for the x64 backend. It does not
change the lowering in any way, though it seems possible that the fixed
regs need not be as fixed and that there are opportunities for single
instruction lowerings. It does rename `inst_common::AtomicRmwOp` to
`MachAtomicRmwOp` to disambiguate with the IR enum with the same name.
* x64: remove remaining hardcoded register constraints for `atomic_rmw`
* x64: use `SyntheticAmode` in `AtomicRmwSeq`
* review: add missing reg collector for amode
* review: collect memory registers in the 'late' phase
