195bf0e29a
* Fully support multiple returns in Wasmtime For quite some time now Wasmtime has "supported" multiple return values, but only in the mose bare bones ways. Up until recently you couldn't get a typed version of functions with multiple return values, and never have you been able to use `Func::wrap` with functions that return multiple values. Even recently where `Func::typed` can call functions that return multiple values it uses a double-indirection by calling a trampoline which calls the real function. The underlying reason for this lack of support is that cranelift's ABI for returning multiple values is not possible to write in Rust. For example if a wasm function returns two `i32` values there is no Rust (or C!) function you can write to correspond to that. This commit, however fixes that. This commit adds two new ABIs to Cranelift: `WasmtimeSystemV` and `WasmtimeFastcall`. The intention is that these Wasmtime-specific ABIs match their corresponding ABI (e.g. `SystemV` or `WindowsFastcall`) for everything *except* how multiple values are returned. For multiple return values we simply define our own version of the ABI which Wasmtime implements, which is that for N return values the first is returned as if the function only returned that and the latter N-1 return values are returned via an out-ptr that's the last parameter to the function. These custom ABIs provides the ability for Wasmtime to bind these in Rust meaning that `Func::wrap` can now wrap functions that return multiple values and `Func::typed` no longer uses trampolines when calling functions that return multiple values. Although there's lots of internal changes there's no actual changes in the API surface area of Wasmtime, just a few more impls of more public traits which means that more types are supported in more places! Another change made with this PR is a consolidation of how the ABI of each function in a wasm module is selected. The native `SystemV` ABI, for example, is more efficient at returning multiple values than the wasmtime version of the ABI (since more things are in more registers). To continue to take advantage of this Wasmtime will now classify some functions in a wasm module with the "fast" ABI. Only functions that are not reachable externally from the module are classified with the fast ABI (e.g. those not exported, used in tables, or used with `ref.func`). This should enable purely internal functions of modules to have a faster calling convention than those which might be exposed to Wasmtime itself. Closes #1178 * Tweak some names and add docs * "fix" lightbeam compile * Fix TODO with dummy environ * Unwind info is a property of the target, not the ABI * Remove lightbeam unused imports * Attempt to fix arm64 * Document new ABIs aren't stable * Fix filetests to use the right target * Don't always do 64-bit stores with cranelift This was overwriting upper bits when 32-bit registers were being stored into return values, so fix the code inline to do a sized store instead of one-size-fits-all store. * At least get tests passing on the old backend * Fix a typo * Add some filetests with mixed abi calls * Get `multi` example working * Fix doctests on old x86 backend * Add a mixture of wasmtime/system_v tests
135 lines
5.1 KiB
Rust
135 lines
5.1 KiB
Rust
use crate::settings::{self, LibcallCallConv};
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use core::fmt;
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use core::str;
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use target_lexicon::{CallingConvention, Triple};
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#[cfg(feature = "enable-serde")]
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use serde::{Deserialize, Serialize};
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/// Calling convention identifiers.
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#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
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#[cfg_attr(feature = "enable-serde", derive(Serialize, Deserialize))]
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pub enum CallConv {
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/// Best performance, not ABI-stable.
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Fast,
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/// Smallest caller code size, not ABI-stable.
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Cold,
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/// System V-style convention used on many platforms.
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SystemV,
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/// Windows "fastcall" convention, also used for x64 and ARM.
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WindowsFastcall,
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/// Mac aarch64 calling convention, which is a tweak aarch64 ABI.
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AppleAarch64,
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/// SpiderMonkey WebAssembly convention on systems using natively SystemV.
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BaldrdashSystemV,
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/// SpiderMonkey WebAssembly convention on Windows.
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BaldrdashWindows,
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/// SpiderMonkey WebAssembly convention for "ABI-2020", with extra TLS
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/// register slots in the frame.
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Baldrdash2020,
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/// Specialized convention for the probestack function.
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Probestack,
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/// Wasmtime equivalent of SystemV, not ABI-stable.
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///
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/// Currently only differs in how multiple return values are handled,
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/// returning the first return value in a register and everything else
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/// through a return-pointer.
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WasmtimeSystemV,
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/// Wasmtime equivalent of WindowsFastcall, not ABI-stable.
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///
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/// Differs from fastcall in the same way as `WasmtimeSystemV`.
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WasmtimeFastcall,
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}
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impl CallConv {
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/// Return the default calling convention for the given target triple.
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pub fn triple_default(triple: &Triple) -> Self {
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match triple.default_calling_convention() {
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// Default to System V for unknown targets because most everything
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// uses System V.
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Ok(CallingConvention::SystemV) | Err(()) => Self::SystemV,
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Ok(CallingConvention::AppleAarch64) => Self::AppleAarch64,
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Ok(CallingConvention::WindowsFastcall) => Self::WindowsFastcall,
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Ok(unimp) => unimplemented!("calling convention: {:?}", unimp),
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}
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}
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/// Returns the calling convention used for libcalls according to the current flags.
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pub fn for_libcall(flags: &settings::Flags, default_call_conv: CallConv) -> Self {
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match flags.libcall_call_conv() {
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LibcallCallConv::IsaDefault => default_call_conv,
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LibcallCallConv::Fast => Self::Fast,
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LibcallCallConv::Cold => Self::Cold,
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LibcallCallConv::SystemV => Self::SystemV,
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LibcallCallConv::WindowsFastcall => Self::WindowsFastcall,
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LibcallCallConv::AppleAarch64 => Self::AppleAarch64,
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LibcallCallConv::BaldrdashSystemV => Self::BaldrdashSystemV,
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LibcallCallConv::BaldrdashWindows => Self::BaldrdashWindows,
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LibcallCallConv::Baldrdash2020 => Self::Baldrdash2020,
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LibcallCallConv::Probestack => Self::Probestack,
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}
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}
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/// Is the calling convention extending the Windows Fastcall ABI?
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pub fn extends_windows_fastcall(self) -> bool {
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match self {
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Self::WindowsFastcall | Self::BaldrdashWindows | Self::WasmtimeFastcall => true,
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_ => false,
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}
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}
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/// Is the calling convention extending the Baldrdash ABI?
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pub fn extends_baldrdash(self) -> bool {
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match self {
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Self::BaldrdashSystemV | Self::BaldrdashWindows | Self::Baldrdash2020 => true,
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_ => false,
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}
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}
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/// Is the calling convention extending the Wasmtime ABI?
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pub fn extends_wasmtime(self) -> bool {
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match self {
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Self::WasmtimeSystemV | Self::WasmtimeFastcall => true,
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_ => false,
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}
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}
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}
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impl fmt::Display for CallConv {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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f.write_str(match *self {
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Self::Fast => "fast",
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Self::Cold => "cold",
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Self::SystemV => "system_v",
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Self::WindowsFastcall => "windows_fastcall",
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Self::AppleAarch64 => "apple_aarch64",
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Self::BaldrdashSystemV => "baldrdash_system_v",
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Self::BaldrdashWindows => "baldrdash_windows",
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Self::Baldrdash2020 => "baldrdash_2020",
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Self::Probestack => "probestack",
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Self::WasmtimeSystemV => "wasmtime_system_v",
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Self::WasmtimeFastcall => "wasmtime_fastcall",
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})
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}
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}
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impl str::FromStr for CallConv {
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type Err = ();
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fn from_str(s: &str) -> Result<Self, Self::Err> {
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match s {
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"fast" => Ok(Self::Fast),
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"cold" => Ok(Self::Cold),
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"system_v" => Ok(Self::SystemV),
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"windows_fastcall" => Ok(Self::WindowsFastcall),
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"apple_aarch64" => Ok(Self::AppleAarch64),
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"baldrdash_system_v" => Ok(Self::BaldrdashSystemV),
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"baldrdash_windows" => Ok(Self::BaldrdashWindows),
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"baldrdash_2020" => Ok(Self::Baldrdash2020),
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"probestack" => Ok(Self::Probestack),
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"wasmtime_system_v" => Ok(Self::WasmtimeSystemV),
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"wasmtime_fastcall" => Ok(Self::WasmtimeFastcall),
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_ => Err(()),
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}
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}
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}
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