This commit adds the inital support to allow reftypes to flow through
the program when targetting aarch64. It also adds a fix to the
`ModuleTranslationState` needed to send R32/R64 types over from the
SpiderMonkey embedding.
This commit does not include any support for safepoints in aarch64
or the `MachInst` infrastructure; that is in the next commit.
This commit also makes a drive-by improvement to `Bint`, avoiding an
unneeded zero-extension op when the extended value comes directly from a
conditional-set (which produces a full-width 0 or 1).
The failure to mask the amount triggered a panic due to a subtraction
overflow check; see
https://bugzilla.mozilla.org/show_bug.cgi?id=1649432. Attempting to
shift by an out-of-range amount should be defined to shift by an amount
mod the operand size (i.e., masked to 5 bits for 32-bit shifts, or 6
bits for 64-bit shifts).
From discussion with Julian and Ben, this PR makes a few documentation-
and naming-level changes (no functionality change):
- Document that the `LowerCtx`-provided output register can be used as a
scratch register during the lowered instruction sequence before
placing the final result in it.
- Rename `input_to_*` helpers in the AArch64 backend to
`put_input_in_*`, emphasizing that these are side-effecting helpers
that potentially generate code (e.g., sign/zero-extensions) to ensure
an input value is in a register.
When a load/store instruction needs an address of the form `v0 +
uextend(v1)` or `v0 + sextend(v1)` (or the commuted forms thereof), we
currently generate a separate zero/sign-extend operation and then use a
plain `[rA, rB]` addressing mode. This patch extends `lower_address()`
to look at both addends of an address if it has two addends and a zero
offset, recognize extension operations, and incorporate them directly
into a `[rA, rB, UXTW]` or `[rA, rB, SXTW]` form. This should improve
our performence on WebAssembly workloads, at least, because we often see
a 64-bit linear memory base indexed by a 32-bit (Wasm) pointer value.
- Properly mask constant values down to appropriate width when
generating a constant value directly in aarch64 backend. This was a
miscompilation introduced in the new-isel refactor. In combination
with failure to respect NarrowValueMode, this resulted in a very
subtle bug when an `i32` constant was used in bit-twiddling logic.
- Add support for `iadd_ifcout` in aarch64 backend as used in explicit
heap-check mode. With this change, we no longer fail heap-related
tests with the huge-heap-region mode disabled.
- Remove a panic that was occurring in some tests that are currently
ignored on aarch64, by simply returning empty/default information in
`value_label` functionality rather than touching unimplemented APIs.
This is not a bugfix per-se, but removes confusing panic messages from
`cargo test` output that might otherwise mislead.
This patch includes:
- A complete rework of the way that CLIF blocks and edge blocks are
lowered into VCode blocks. The new mechanism in `BlockLoweringOrder`
computes RPO over the CFG, but with a twist: it merges edge blocks intto
heads or tails of original CLIF blocks wherever possible, and it does
this without ever actually materializing the full nodes-plus-edges
graph first. The backend driver lowers blocks in final order so
there's no need to reshuffle later.
- A new `MachBuffer` that replaces the `MachSection`. This is a special
version of a code-sink that is far more than a humble `Vec<u8>`. In
particular, it keeps a record of label definitions and label uses,
with a machine-pluggable `LabelUse` trait that defines various types
of fixups (basically internal relocations).
Importantly, it implements some simple peephole-style branch rewrites
*inline in the emission pass*, without any separate traversals over
the code to use fallthroughs, swap taken/not-taken arms, etc. It
tracks branches at the tail of the buffer and can (i) remove blocks
that are just unconditional branches (by redirecting the label), (ii)
understand a conditional/unconditional pair and swap the conditional
polarity when it's helpful; and (iii) remove branches that branch to
the fallthrough PC.
The `MachBuffer` also implements branch-island support. On
architectures like AArch64, this is needed to allow conditional
branches within plausibly-attainable ranges (+/- 1MB on AArch64
specifically). It also does this inline while streaming through the
emission, without any sort of fixpoint algorithm or later moving of
code, by simply tracking outstanding references and "deadlines" and
emitting an island just-in-time when we're in danger of going out of
range.
- A rework of the instruction selector driver. This is largely following
the same algorithm as before, but is cleaned up significantly, in
particular in the API: the machine backend can ask for an input arg
and get any of three forms (constant, register, producing
instruction), indicating it needs the register or can merge the
constant or producing instruction as appropriate. This new driver
takes special care to emit constants right at use-sites (and at phi
inputs), minimizing their live-ranges, and also special-cases the
"pinned register" to avoid superfluous moves.
Overall, on `bz2.wasm`, the results are:
wasmtime full run (compile + runtime) of bz2:
baseline: 9774M insns, 9742M cycles, 3.918s
w/ changes: 7012M insns, 6888M cycles, 2.958s (24.5% faster, 28.3% fewer insns)
clif-util wasm compile bz2:
baseline: 2633M insns, 3278M cycles, 1.034s
w/ changes: 2366M insns, 2920M cycles, 0.923s (10.7% faster, 10.1% fewer insns)
All numbers are averages of two runs on an Ampere eMAG.
This splits off lower.rs into two files: lower.rs keeps all the utility
functions, while lower_inst.rs contains the (gigantic!) function
lowering a single Cranelift instruction into vcode.
This is done to satisfy a check done on the maximal file's size when
vendoring Rust source code into Mozilla central's repository.
Given an integer size N, a left rotation of K places is the same as a
right rotation of N - K places. This means we can use right rotations to
implement left rotations too.
The Cranelift's rotation semantics are inherited from WebAssembly, which
mean the rotation count is truncated modulo the operand's bit size. Note
the ROR aarch64 instruction has the same semantics, when both input
operands are registers.
Previously, `fcopysign` was mysteriously failing to pass the
`float_misc` spec test. This was tracked down to bad logical-immediate
masks used to separate the sign and not-sign bits. In particular, the
masks for the and-not operations were wrong. The `invert()` function on
an `ImmLogic` immediate, it turns out, assumed every immediate would be
used by a 64-bit instruction; `ImmLogic` immediates are subtly different
for 32-bit instructions. This change tracks the instruction size (32 or
64 bits) intended for use with each such immediate, and passes it back
into `maybe_from_u64` when computing the inverted immediate.
Addresses several of the failures (`float_misc`, `f32_bitwise`) for
#1521 (test failures) and presumably helps #1519 (SpiderMonkey
integration).
Includes a temporary bugfix for popcnt with 32-bit operand. The popcnt
issue was initially identified by Benjamin Bouvier <public@benj.me>, and
the root cause was debugged by Joey Gouly <joey.gouly@arm.com>. This
patch is simply a quick fix that zero-extends the operand to 64 bits;
Joey plans to contribute a more permanent fix shortly (tracked in
#1537).
- Added a filetest for the vcode output of lowering every handled FP opcode.
- Fixed two bugs that were discovered while going through the lowerings:
- Saturating FP->int operators would return `u{32,64}::MIN` rather than
`0` for a NaN input.
- `fcopysign` did not mask off the sign bit of the value whose sign is
overwritten.
These probably would have been caught by Wasm conformance tests soon
(and the validity of these lowerings will ultimately be tested this way)
but let's get them right by inspection, too!
- Undo temporary changes to default features (`all-arch`) and a
signal-handler test.
- Remove `SIGTRAP` handler: no longer needed now that we've found an
"undefined opcode" option on ARM64.
- Rename pp.rs to pretty_print.rs in machinst/.
- Only use empty stack-probe on non-x86. As per a comment in
rust-lang/compiler-builtins [1], LLVM only supports stack probes on
x86 and x86-64. Thus, on any other CPU architecture, we cannot refer
to `__rust_probestack`, because it does not exist.
- Rename arm64 to aarch64.
- Use `target` directive in vcode filetests.
- Run the flags verifier, but without encinfo, when using new backends.
- Clean up warning overrides.
- Fix up use of casts: use u32::from(x) and siblings when possible,
u32::try_from(x).unwrap() when not, to avoid silent truncation.
- Take immutable `Function` borrows as input; we don't actually
mutate the input IR.
- Lots of other miscellaneous cleanups.
[1] cae3e6ea23/src/probestack.rs (L39)
