use crate::compiler::CraneliftCompiler;
use cranelift_codegen::isa::{lookup, TargetIsa};
use cranelift_codegen::settings::{self, Configurable};
use cranelift_codegen::CodegenResult;
use std::sync::Arc;
use wasmer_compiler::{Compiler, CompilerConfig, Engine, EngineBuilder, ModuleMiddleware};
use wasmer_types::{Architecture, CpuFeature, Target};
#[non_exhaustive]
#[derive(Clone, Debug)]
pub enum CraneliftOptLevel {
None,
Speed,
SpeedAndSize,
}
#[derive(Debug, Clone)]
pub struct Cranelift {
enable_nan_canonicalization: bool,
enable_verifier: bool,
enable_pic: bool,
opt_level: CraneliftOptLevel,
pub(crate) middlewares: Vec<Arc<dyn ModuleMiddleware>>,
}
impl Cranelift {
pub fn new() -> Self {
Self {
enable_nan_canonicalization: false,
enable_verifier: false,
opt_level: CraneliftOptLevel::Speed,
enable_pic: false,
middlewares: vec![],
}
}
pub fn canonicalize_nans(&mut self, enable: bool) -> &mut Self {
self.enable_nan_canonicalization = enable;
self
}
pub fn opt_level(&mut self, opt_level: CraneliftOptLevel) -> &mut Self {
self.opt_level = opt_level;
self
}
pub fn isa(&self, target: &Target) -> CodegenResult<Box<dyn TargetIsa>> {
let mut builder =
lookup(target.triple().clone()).expect("construct Cranelift ISA for triple");
let cpu_features = target.cpu_features();
if target.triple().architecture == Architecture::X86_64
&& !cpu_features.contains(CpuFeature::SSE2)
{
panic!("x86 support requires SSE2");
}
if cpu_features.contains(CpuFeature::SSE3) {
builder.enable("has_sse3").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::SSSE3) {
builder.enable("has_ssse3").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::SSE41) {
builder.enable("has_sse41").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::SSE42) {
builder.enable("has_sse42").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::POPCNT) {
builder.enable("has_popcnt").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::AVX) {
builder.enable("has_avx").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::BMI1) {
builder.enable("has_bmi1").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::BMI2) {
builder.enable("has_bmi2").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::AVX2) {
builder.enable("has_avx2").expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::AVX512DQ) {
builder
.enable("has_avx512dq")
.expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::AVX512VL) {
builder
.enable("has_avx512vl")
.expect("should be valid flag");
}
if cpu_features.contains(CpuFeature::LZCNT) {
builder.enable("has_lzcnt").expect("should be valid flag");
}
builder.finish(self.flags(target))
}
pub fn flags(&self, target: &Target) -> settings::Flags {
let is_riscv = matches!(target.triple().architecture, Architecture::Riscv64(_));
let mut flags = settings::builder();
flags
.enable("enable_probestack")
.expect("should be valid flag");
if matches!(target.triple().architecture, Architecture::Aarch64(_)) {
flags
.set("probestack_strategy", "inline")
.expect("should be valid flag");
}
flags
.enable("avoid_div_traps")
.expect("should be valid flag");
if self.enable_pic {
flags.enable("is_pic").expect("should be a valid flag");
}
flags
.enable("use_colocated_libcalls")
.expect("should be a valid flag");
let enable_verifier = if self.enable_verifier {
"true"
} else {
"false"
};
flags
.set("enable_verifier", enable_verifier)
.expect("should be valid flag");
flags
.set("enable_safepoints", "true")
.expect("should be valid flag");
flags
.set(
"opt_level",
match self.opt_level {
CraneliftOptLevel::None => "none",
CraneliftOptLevel::Speed => "speed",
CraneliftOptLevel::SpeedAndSize => "speed_and_size",
},
)
.expect("should be valid flag");
if is_riscv {
flags
.set("enable_simd", "false")
.expect("should be valid flag");
} else {
flags
.set("enable_simd", "true")
.expect("should be valid flag");
}
let enable_nan_canonicalization = if self.enable_nan_canonicalization {
"true"
} else {
"false"
};
flags
.set("enable_nan_canonicalization", enable_nan_canonicalization)
.expect("should be valid flag");
settings::Flags::new(flags)
}
}
impl CompilerConfig for Cranelift {
fn enable_pic(&mut self) {
self.enable_pic = true;
}
fn enable_verifier(&mut self) {
self.enable_verifier = true;
}
fn canonicalize_nans(&mut self, enable: bool) {
self.enable_nan_canonicalization = enable;
}
fn compiler(self: Box<Self>) -> Box<dyn Compiler> {
Box::new(CraneliftCompiler::new(*self))
}
fn push_middleware(&mut self, middleware: Arc<dyn ModuleMiddleware>) {
self.middlewares.push(middleware);
}
}
impl Default for Cranelift {
fn default() -> Self {
Self::new()
}
}
impl From<Cranelift> for Engine {
fn from(config: Cranelift) -> Self {
EngineBuilder::new(config).engine()
}
}