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use crate::abi::{self, Abi, Align, FieldsShape, Size};
use crate::abi::{HasDataLayout, TyAbiInterface, TyAndLayout};
use crate::spec::{self, HasTargetSpec};
use rustc_span::Symbol;
use std::fmt;
use std::str::FromStr;
mod aarch64;
mod amdgpu;
mod arm;
mod avr;
mod bpf;
mod hexagon;
mod loongarch;
mod m68k;
mod mips;
mod mips64;
mod msp430;
mod nvptx64;
mod powerpc;
mod powerpc64;
mod riscv;
mod s390x;
mod sparc;
mod sparc64;
mod wasm;
mod x86;
mod x86_64;
mod x86_win64;
#[derive(PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub enum PassMode {
Ignore,
Direct(ArgAttributes),
Pair(ArgAttributes, ArgAttributes),
Cast(Box<CastTarget>, bool),
Indirect { attrs: ArgAttributes, extra_attrs: Option<ArgAttributes>, on_stack: bool },
}
pub use attr_impl::ArgAttribute;
#[allow(non_upper_case_globals)]
#[allow(unused)]
mod attr_impl {
bitflags::bitflags! {
#[derive(Default, HashStable_Generic)]
pub struct ArgAttribute: u16 {
const NoAlias = 1 << 1;
const NoCapture = 1 << 2;
const NonNull = 1 << 3;
const ReadOnly = 1 << 4;
const InReg = 1 << 5;
const NoAliasMutRef = 1 << 6;
const NoUndef = 1 << 7;
}
}
}
#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub enum ArgExtension {
None,
Zext,
Sext,
}
#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub struct ArgAttributes {
pub regular: ArgAttribute,
pub arg_ext: ArgExtension,
pub pointee_size: Size,
pub pointee_align: Option<Align>,
}
impl ArgAttributes {
pub fn new() -> Self {
ArgAttributes {
regular: ArgAttribute::default(),
arg_ext: ArgExtension::None,
pointee_size: Size::ZERO,
pointee_align: None,
}
}
pub fn ext(&mut self, ext: ArgExtension) -> &mut Self {
assert!(
self.arg_ext == ArgExtension::None || self.arg_ext == ext,
"cannot set {:?} when {:?} is already set",
ext,
self.arg_ext
);
self.arg_ext = ext;
self
}
pub fn set(&mut self, attr: ArgAttribute) -> &mut Self {
self.regular |= attr;
self
}
pub fn contains(&self, attr: ArgAttribute) -> bool {
self.regular.contains(attr)
}
}
#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub enum RegKind {
Integer,
Float,
Vector,
}
#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub struct Reg {
pub kind: RegKind,
pub size: Size,
}
macro_rules! reg_ctor {
($name:ident, $kind:ident, $bits:expr) => {
pub fn $name() -> Reg {
Reg { kind: RegKind::$kind, size: Size::from_bits($bits) }
}
};
}
impl Reg {
reg_ctor!(i8, Integer, 8);
reg_ctor!(i16, Integer, 16);
reg_ctor!(i32, Integer, 32);
reg_ctor!(i64, Integer, 64);
reg_ctor!(i128, Integer, 128);
reg_ctor!(f32, Float, 32);
reg_ctor!(f64, Float, 64);
}
impl Reg {
pub fn align<C: HasDataLayout>(&self, cx: &C) -> Align {
let dl = cx.data_layout();
match self.kind {
RegKind::Integer => match self.size.bits() {
1 => dl.i1_align.abi,
2..=8 => dl.i8_align.abi,
9..=16 => dl.i16_align.abi,
17..=32 => dl.i32_align.abi,
33..=64 => dl.i64_align.abi,
65..=128 => dl.i128_align.abi,
_ => panic!("unsupported integer: {:?}", self),
},
RegKind::Float => match self.size.bits() {
32 => dl.f32_align.abi,
64 => dl.f64_align.abi,
_ => panic!("unsupported float: {:?}", self),
},
RegKind::Vector => dl.vector_align(self.size).abi,
}
}
}
#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub struct Uniform {
pub unit: Reg,
pub total: Size,
}
impl From<Reg> for Uniform {
fn from(unit: Reg) -> Uniform {
Uniform { unit, total: unit.size }
}
}
impl Uniform {
pub fn align<C: HasDataLayout>(&self, cx: &C) -> Align {
self.unit.align(cx)
}
}
#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub struct CastTarget {
pub prefix: [Option<Reg>; 8],
pub rest: Uniform,
pub attrs: ArgAttributes,
}
impl From<Reg> for CastTarget {
fn from(unit: Reg) -> CastTarget {
CastTarget::from(Uniform::from(unit))
}
}
impl From<Uniform> for CastTarget {
fn from(uniform: Uniform) -> CastTarget {
CastTarget {
prefix: [None; 8],
rest: uniform,
attrs: ArgAttributes {
regular: ArgAttribute::default(),
arg_ext: ArgExtension::None,
pointee_size: Size::ZERO,
pointee_align: None,
},
}
}
}
impl CastTarget {
pub fn pair(a: Reg, b: Reg) -> CastTarget {
CastTarget {
prefix: [Some(a), None, None, None, None, None, None, None],
rest: Uniform::from(b),
attrs: ArgAttributes {
regular: ArgAttribute::default(),
arg_ext: ArgExtension::None,
pointee_size: Size::ZERO,
pointee_align: None,
},
}
}
pub fn size<C: HasDataLayout>(&self, _cx: &C) -> Size {
let mut size = self.rest.total;
for i in 0..self.prefix.iter().count() {
match self.prefix[i] {
Some(v) => size += v.size,
None => {}
}
}
return size;
}
pub fn align<C: HasDataLayout>(&self, cx: &C) -> Align {
self.prefix
.iter()
.filter_map(|x| x.map(|reg| reg.align(cx)))
.fold(cx.data_layout().aggregate_align.abi.max(self.rest.align(cx)), |acc, align| {
acc.max(align)
})
}
}
#[derive(Copy, Clone, Debug)]
pub enum HomogeneousAggregate {
Homogeneous(Reg),
NoData,
}
#[derive(Copy, Clone, Debug)]
pub struct Heterogeneous;
impl HomogeneousAggregate {
pub fn unit(self) -> Option<Reg> {
match self {
HomogeneousAggregate::Homogeneous(reg) => Some(reg),
HomogeneousAggregate::NoData => None,
}
}
fn merge(self, other: HomogeneousAggregate) -> Result<HomogeneousAggregate, Heterogeneous> {
match (self, other) {
(x, HomogeneousAggregate::NoData) | (HomogeneousAggregate::NoData, x) => Ok(x),
(HomogeneousAggregate::Homogeneous(a), HomogeneousAggregate::Homogeneous(b)) => {
if a != b {
return Err(Heterogeneous);
}
Ok(self)
}
}
}
}
impl<'a, Ty> TyAndLayout<'a, Ty> {
fn is_aggregate(&self) -> bool {
match self.abi {
Abi::Uninhabited | Abi::Scalar(_) | Abi::Vector { .. } => false,
Abi::ScalarPair(..) | Abi::Aggregate { .. } => true,
}
}
pub fn homogeneous_aggregate<C>(&self, cx: &C) -> Result<HomogeneousAggregate, Heterogeneous>
where
Ty: TyAbiInterface<'a, C> + Copy,
{
match self.abi {
Abi::Uninhabited => Err(Heterogeneous),
Abi::Scalar(scalar) => {
let kind = match scalar.primitive() {
abi::Int(..) | abi::Pointer => RegKind::Integer,
abi::F32 | abi::F64 => RegKind::Float,
};
Ok(HomogeneousAggregate::Homogeneous(Reg { kind, size: self.size }))
}
Abi::Vector { .. } => {
assert!(!self.is_zst());
Ok(HomogeneousAggregate::Homogeneous(Reg {
kind: RegKind::Vector,
size: self.size,
}))
}
Abi::ScalarPair(..) | Abi::Aggregate { .. } => {
let from_fields_at =
|layout: Self,
start: Size|
-> Result<(HomogeneousAggregate, Size), Heterogeneous> {
let is_union = match layout.fields {
FieldsShape::Primitive => {
unreachable!("aggregates can't have `FieldsShape::Primitive`")
}
FieldsShape::Array { count, .. } => {
assert_eq!(start, Size::ZERO);
let result = if count > 0 {
layout.field(cx, 0).homogeneous_aggregate(cx)?
} else {
HomogeneousAggregate::NoData
};
return Ok((result, layout.size));
}
FieldsShape::Union(_) => true,
FieldsShape::Arbitrary { .. } => false,
};
let mut result = HomogeneousAggregate::NoData;
let mut total = start;
for i in 0..layout.fields.count() {
if !is_union && total != layout.fields.offset(i) {
return Err(Heterogeneous);
}
let field = layout.field(cx, i);
result = result.merge(field.homogeneous_aggregate(cx)?)?;
let size = field.size;
if is_union {
total = total.max(size);
} else {
total += size;
}
}
Ok((result, total))
};
let (mut result, mut total) = from_fields_at(*self, Size::ZERO)?;
match &self.variants {
abi::Variants::Single { .. } => {}
abi::Variants::Multiple { variants, .. } => {
let variant_start = total;
for variant_idx in variants.indices() {
let (variant_result, variant_total) =
from_fields_at(self.for_variant(cx, variant_idx), variant_start)?;
result = result.merge(variant_result)?;
total = total.max(variant_total);
}
}
}
if total != self.size {
Err(Heterogeneous)
} else {
match result {
HomogeneousAggregate::Homogeneous(_) => {
assert_ne!(total, Size::ZERO);
}
HomogeneousAggregate::NoData => {
assert_eq!(total, Size::ZERO);
}
}
Ok(result)
}
}
}
}
}
#[derive(PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub struct ArgAbi<'a, Ty> {
pub layout: TyAndLayout<'a, Ty>,
pub mode: PassMode,
}
impl<'a, Ty> ArgAbi<'a, Ty> {
pub fn new(
cx: &impl HasDataLayout,
layout: TyAndLayout<'a, Ty>,
scalar_attrs: impl Fn(&TyAndLayout<'a, Ty>, abi::Scalar, Size) -> ArgAttributes,
) -> Self {
let mode = match layout.abi {
Abi::Uninhabited => PassMode::Ignore,
Abi::Scalar(scalar) => PassMode::Direct(scalar_attrs(&layout, scalar, Size::ZERO)),
Abi::ScalarPair(a, b) => PassMode::Pair(
scalar_attrs(&layout, a, Size::ZERO),
scalar_attrs(&layout, b, a.size(cx).align_to(b.align(cx).abi)),
),
Abi::Vector { .. } => PassMode::Direct(ArgAttributes::new()),
Abi::Aggregate { .. } => PassMode::Direct(ArgAttributes::new()),
};
ArgAbi { layout, mode }
}
fn indirect_pass_mode(layout: &TyAndLayout<'a, Ty>) -> PassMode {
let mut attrs = ArgAttributes::new();
attrs
.set(ArgAttribute::NoAlias)
.set(ArgAttribute::NoCapture)
.set(ArgAttribute::NonNull)
.set(ArgAttribute::NoUndef);
attrs.pointee_size = layout.size;
let extra_attrs = layout.is_unsized().then_some(ArgAttributes::new());
PassMode::Indirect { attrs, extra_attrs, on_stack: false }
}
pub fn make_indirect(&mut self) {
match self.mode {
PassMode::Direct(_) | PassMode::Pair(_, _) => {}
PassMode::Indirect { attrs: _, extra_attrs: None, on_stack: false } => return,
_ => panic!("Tried to make {:?} indirect", self.mode),
}
self.mode = Self::indirect_pass_mode(&self.layout);
}
pub fn make_indirect_byval(&mut self) {
self.make_indirect();
match self.mode {
PassMode::Indirect { attrs: _, extra_attrs: _, ref mut on_stack } => {
*on_stack = true;
}
_ => unreachable!(),
}
}
pub fn extend_integer_width_to(&mut self, bits: u64) {
if let Abi::Scalar(scalar) = self.layout.abi {
if let abi::Int(i, signed) = scalar.primitive() {
if i.size().bits() < bits {
if let PassMode::Direct(ref mut attrs) = self.mode {
if signed {
attrs.ext(ArgExtension::Sext)
} else {
attrs.ext(ArgExtension::Zext)
};
}
}
}
}
}
pub fn cast_to<T: Into<CastTarget>>(&mut self, target: T) {
self.mode = PassMode::Cast(Box::new(target.into()), false);
}
pub fn cast_to_and_pad_i32<T: Into<CastTarget>>(&mut self, target: T, pad_i32: bool) {
self.mode = PassMode::Cast(Box::new(target.into()), pad_i32);
}
pub fn is_indirect(&self) -> bool {
matches!(self.mode, PassMode::Indirect { .. })
}
pub fn is_sized_indirect(&self) -> bool {
matches!(self.mode, PassMode::Indirect { attrs: _, extra_attrs: None, on_stack: _ })
}
pub fn is_unsized_indirect(&self) -> bool {
matches!(self.mode, PassMode::Indirect { attrs: _, extra_attrs: Some(_), on_stack: _ })
}
pub fn is_ignore(&self) -> bool {
matches!(self.mode, PassMode::Ignore)
}
}
#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub enum Conv {
C,
Rust,
RustCold,
ArmAapcs,
CCmseNonSecureCall,
Msp430Intr,
PtxKernel,
X86Fastcall,
X86Intr,
X86Stdcall,
X86ThisCall,
X86VectorCall,
X86_64SysV,
X86_64Win64,
AmdGpuKernel,
AvrInterrupt,
AvrNonBlockingInterrupt,
}
#[derive(PartialEq, Eq, Hash, Debug, HashStable_Generic)]
pub struct FnAbi<'a, Ty> {
pub args: Box<[ArgAbi<'a, Ty>]>,
pub ret: ArgAbi<'a, Ty>,
pub c_variadic: bool,
pub fixed_count: u32,
pub conv: Conv,
pub can_unwind: bool,
}
#[derive(Copy, Clone, Debug, HashStable_Generic)]
pub enum AdjustForForeignAbiError {
Unsupported { arch: Symbol, abi: spec::abi::Abi },
}
impl fmt::Display for AdjustForForeignAbiError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::Unsupported { arch, abi } => {
write!(f, "target architecture {:?} does not support `extern {}` ABI", arch, abi)
}
}
}
}
impl<'a, Ty> FnAbi<'a, Ty> {
pub fn adjust_for_foreign_abi<C>(
&mut self,
cx: &C,
abi: spec::abi::Abi,
) -> Result<(), AdjustForForeignAbiError>
where
Ty: TyAbiInterface<'a, C> + Copy,
C: HasDataLayout + HasTargetSpec,
{
if abi == spec::abi::Abi::X86Interrupt {
if let Some(arg) = self.args.first_mut() {
arg.make_indirect_byval();
}
return Ok(());
}
match &cx.target_spec().arch[..] {
"x86" => {
let flavor = if let spec::abi::Abi::Fastcall { .. }
| spec::abi::Abi::Vectorcall { .. } = abi
{
x86::Flavor::FastcallOrVectorcall
} else {
x86::Flavor::General
};
x86::compute_abi_info(cx, self, flavor);
}
"x86_64" => match abi {
spec::abi::Abi::SysV64 { .. } => x86_64::compute_abi_info(cx, self),
spec::abi::Abi::Win64 { .. } => x86_win64::compute_abi_info(self),
_ => {
if cx.target_spec().is_like_windows {
x86_win64::compute_abi_info(self)
} else {
x86_64::compute_abi_info(cx, self)
}
}
},
"aarch64" => {
let param_policy = if cx.target_spec().is_like_osx {
aarch64::ParamExtension::ExtendTo32Bits
} else {
aarch64::ParamExtension::NoExtension
};
aarch64::compute_abi_info(cx, self, param_policy)
}
"amdgpu" => amdgpu::compute_abi_info(cx, self),
"arm" => arm::compute_abi_info(cx, self),
"avr" => avr::compute_abi_info(self),
"loongarch64" => loongarch::compute_abi_info(cx, self),
"m68k" => m68k::compute_abi_info(self),
"mips" => mips::compute_abi_info(cx, self),
"mips64" => mips64::compute_abi_info(cx, self),
"powerpc" => powerpc::compute_abi_info(self),
"powerpc64" => powerpc64::compute_abi_info(cx, self),
"s390x" => s390x::compute_abi_info(cx, self),
"msp430" => msp430::compute_abi_info(self),
"sparc" => sparc::compute_abi_info(cx, self),
"sparc64" => sparc64::compute_abi_info(cx, self),
"nvptx64" => {
if cx.target_spec().adjust_abi(abi) == spec::abi::Abi::PtxKernel {
nvptx64::compute_ptx_kernel_abi_info(cx, self)
} else {
nvptx64::compute_abi_info(self)
}
}
"hexagon" => hexagon::compute_abi_info(self),
"riscv32" | "riscv64" => riscv::compute_abi_info(cx, self),
"wasm32" | "wasm64" => {
if cx.target_spec().adjust_abi(abi) == spec::abi::Abi::Wasm {
wasm::compute_wasm_abi_info(self)
} else {
wasm::compute_c_abi_info(cx, self)
}
}
"asmjs" => wasm::compute_c_abi_info(cx, self),
"bpf" => bpf::compute_abi_info(self),
arch => {
return Err(AdjustForForeignAbiError::Unsupported {
arch: Symbol::intern(arch),
abi,
});
}
}
Ok(())
}
}
impl FromStr for Conv {
type Err = String;
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s {
"C" => Ok(Conv::C),
"Rust" => Ok(Conv::Rust),
"RustCold" => Ok(Conv::Rust),
"ArmAapcs" => Ok(Conv::ArmAapcs),
"CCmseNonSecureCall" => Ok(Conv::CCmseNonSecureCall),
"Msp430Intr" => Ok(Conv::Msp430Intr),
"PtxKernel" => Ok(Conv::PtxKernel),
"X86Fastcall" => Ok(Conv::X86Fastcall),
"X86Intr" => Ok(Conv::X86Intr),
"X86Stdcall" => Ok(Conv::X86Stdcall),
"X86ThisCall" => Ok(Conv::X86ThisCall),
"X86VectorCall" => Ok(Conv::X86VectorCall),
"X86_64SysV" => Ok(Conv::X86_64SysV),
"X86_64Win64" => Ok(Conv::X86_64Win64),
"AmdGpuKernel" => Ok(Conv::AmdGpuKernel),
"AvrInterrupt" => Ok(Conv::AvrInterrupt),
"AvrNonBlockingInterrupt" => Ok(Conv::AvrNonBlockingInterrupt),
_ => Err(format!("'{}' is not a valid value for entry function call convetion.", s)),
}
}
}
#[cfg(all(target_arch = "x86_64", target_pointer_width = "64"))]
mod size_asserts {
use super::*;
use rustc_data_structures::static_assert_size;
static_assert_size!(ArgAbi<'_, usize>, 56);
static_assert_size!(FnAbi<'_, usize>, 80);
}