diff options
Diffstat (limited to '')
48 files changed, 981 insertions, 1640 deletions
diff --git a/compiler/rustc_target/Cargo.toml b/compiler/rustc_target/Cargo.toml index fc37fdb1c..568c916a1 100644 --- a/compiler/rustc_target/Cargo.toml +++ b/compiler/rustc_target/Cargo.toml @@ -7,6 +7,7 @@ edition = "2021" bitflags = "1.2.1" tracing = "0.1" serde_json = "1.0.59" +rustc_abi = { path = "../rustc_abi" } rustc_data_structures = { path = "../rustc_data_structures" } rustc_feature = { path = "../rustc_feature" } rustc_index = { path = "../rustc_index" } diff --git a/compiler/rustc_target/src/abi/call/loongarch.rs b/compiler/rustc_target/src/abi/call/loongarch.rs new file mode 100644 index 000000000..d29b479de --- /dev/null +++ b/compiler/rustc_target/src/abi/call/loongarch.rs @@ -0,0 +1,342 @@ +use crate::abi::call::{ArgAbi, ArgExtension, CastTarget, FnAbi, PassMode, Reg, RegKind, Uniform}; +use crate::abi::{self, Abi, FieldsShape, HasDataLayout, Size, TyAbiInterface, TyAndLayout}; +use crate::spec::HasTargetSpec; + +#[derive(Copy, Clone)] +enum RegPassKind { + Float(Reg), + Integer(Reg), + Unknown, +} + +#[derive(Copy, Clone)] +enum FloatConv { + FloatPair(Reg, Reg), + Float(Reg), + MixedPair(Reg, Reg), +} + +#[derive(Copy, Clone)] +struct CannotUseFpConv; + +fn is_loongarch_aggregate<'a, Ty>(arg: &ArgAbi<'a, Ty>) -> bool { + match arg.layout.abi { + Abi::Vector { .. } => true, + _ => arg.layout.is_aggregate(), + } +} + +fn should_use_fp_conv_helper<'a, Ty, C>( + cx: &C, + arg_layout: &TyAndLayout<'a, Ty>, + xlen: u64, + flen: u64, + field1_kind: &mut RegPassKind, + field2_kind: &mut RegPassKind, +) -> Result<(), CannotUseFpConv> +where + Ty: TyAbiInterface<'a, C> + Copy, +{ + match arg_layout.abi { + Abi::Scalar(scalar) => match scalar.primitive() { + abi::Int(..) | abi::Pointer => { + if arg_layout.size.bits() > xlen { + return Err(CannotUseFpConv); + } + match (*field1_kind, *field2_kind) { + (RegPassKind::Unknown, _) => { + *field1_kind = RegPassKind::Integer(Reg { + kind: RegKind::Integer, + size: arg_layout.size, + }); + } + (RegPassKind::Float(_), RegPassKind::Unknown) => { + *field2_kind = RegPassKind::Integer(Reg { + kind: RegKind::Integer, + size: arg_layout.size, + }); + } + _ => return Err(CannotUseFpConv), + } + } + abi::F32 | abi::F64 => { + if arg_layout.size.bits() > flen { + return Err(CannotUseFpConv); + } + match (*field1_kind, *field2_kind) { + (RegPassKind::Unknown, _) => { + *field1_kind = + RegPassKind::Float(Reg { kind: RegKind::Float, size: arg_layout.size }); + } + (_, RegPassKind::Unknown) => { + *field2_kind = + RegPassKind::Float(Reg { kind: RegKind::Float, size: arg_layout.size }); + } + _ => return Err(CannotUseFpConv), + } + } + }, + Abi::Vector { .. } | Abi::Uninhabited => return Err(CannotUseFpConv), + Abi::ScalarPair(..) | Abi::Aggregate { .. } => match arg_layout.fields { + FieldsShape::Primitive => { + unreachable!("aggregates can't have `FieldsShape::Primitive`") + } + FieldsShape::Union(_) => { + if !arg_layout.is_zst() { + return Err(CannotUseFpConv); + } + } + FieldsShape::Array { count, .. } => { + for _ in 0..count { + let elem_layout = arg_layout.field(cx, 0); + should_use_fp_conv_helper( + cx, + &elem_layout, + xlen, + flen, + field1_kind, + field2_kind, + )?; + } + } + FieldsShape::Arbitrary { .. } => { + match arg_layout.variants { + abi::Variants::Multiple { .. } => return Err(CannotUseFpConv), + abi::Variants::Single { .. } => (), + } + for i in arg_layout.fields.index_by_increasing_offset() { + let field = arg_layout.field(cx, i); + should_use_fp_conv_helper(cx, &field, xlen, flen, field1_kind, field2_kind)?; + } + } + }, + } + Ok(()) +} + +fn should_use_fp_conv<'a, Ty, C>( + cx: &C, + arg: &TyAndLayout<'a, Ty>, + xlen: u64, + flen: u64, +) -> Option<FloatConv> +where + Ty: TyAbiInterface<'a, C> + Copy, +{ + let mut field1_kind = RegPassKind::Unknown; + let mut field2_kind = RegPassKind::Unknown; + if should_use_fp_conv_helper(cx, arg, xlen, flen, &mut field1_kind, &mut field2_kind).is_err() { + return None; + } + match (field1_kind, field2_kind) { + (RegPassKind::Integer(l), RegPassKind::Float(r)) => Some(FloatConv::MixedPair(l, r)), + (RegPassKind::Float(l), RegPassKind::Integer(r)) => Some(FloatConv::MixedPair(l, r)), + (RegPassKind::Float(l), RegPassKind::Float(r)) => Some(FloatConv::FloatPair(l, r)), + (RegPassKind::Float(f), RegPassKind::Unknown) => Some(FloatConv::Float(f)), + _ => None, + } +} + +fn classify_ret<'a, Ty, C>(cx: &C, arg: &mut ArgAbi<'a, Ty>, xlen: u64, flen: u64) -> bool +where + Ty: TyAbiInterface<'a, C> + Copy, +{ + if let Some(conv) = should_use_fp_conv(cx, &arg.layout, xlen, flen) { + match conv { + FloatConv::Float(f) => { + arg.cast_to(f); + } + FloatConv::FloatPair(l, r) => { + arg.cast_to(CastTarget::pair(l, r)); + } + FloatConv::MixedPair(l, r) => { + arg.cast_to(CastTarget::pair(l, r)); + } + } + return false; + } + + let total = arg.layout.size; + + // "Scalars wider than 2✕XLEN are passed by reference and are replaced in + // the argument list with the address." + // "Aggregates larger than 2✕XLEN bits are passed by reference and are + // replaced in the argument list with the address, as are C++ aggregates + // with nontrivial copy constructors, destructors, or vtables." + if total.bits() > 2 * xlen { + // We rely on the LLVM backend lowering code to lower passing a scalar larger than 2*XLEN. + if is_loongarch_aggregate(arg) { + arg.make_indirect(); + } + return true; + } + + let xlen_reg = match xlen { + 32 => Reg::i32(), + 64 => Reg::i64(), + _ => unreachable!("Unsupported XLEN: {}", xlen), + }; + if is_loongarch_aggregate(arg) { + if total.bits() <= xlen { + arg.cast_to(xlen_reg); + } else { + arg.cast_to(Uniform { unit: xlen_reg, total: Size::from_bits(xlen * 2) }); + } + return false; + } + + // "When passed in registers, scalars narrower than XLEN bits are widened + // according to the sign of their type up to 32 bits, then sign-extended to + // XLEN bits." + extend_integer_width(arg, xlen); + false +} + +fn classify_arg<'a, Ty, C>( + cx: &C, + arg: &mut ArgAbi<'a, Ty>, + xlen: u64, + flen: u64, + is_vararg: bool, + avail_gprs: &mut u64, + avail_fprs: &mut u64, +) where + Ty: TyAbiInterface<'a, C> + Copy, +{ + if !is_vararg { + match should_use_fp_conv(cx, &arg.layout, xlen, flen) { + Some(FloatConv::Float(f)) if *avail_fprs >= 1 => { + *avail_fprs -= 1; + arg.cast_to(f); + return; + } + Some(FloatConv::FloatPair(l, r)) if *avail_fprs >= 2 => { + *avail_fprs -= 2; + arg.cast_to(CastTarget::pair(l, r)); + return; + } + Some(FloatConv::MixedPair(l, r)) if *avail_fprs >= 1 && *avail_gprs >= 1 => { + *avail_gprs -= 1; + *avail_fprs -= 1; + arg.cast_to(CastTarget::pair(l, r)); + return; + } + _ => (), + } + } + + let total = arg.layout.size; + let align = arg.layout.align.abi.bits(); + + // "Scalars wider than 2✕XLEN are passed by reference and are replaced in + // the argument list with the address." + // "Aggregates larger than 2✕XLEN bits are passed by reference and are + // replaced in the argument list with the address, as are C++ aggregates + // with nontrivial copy constructors, destructors, or vtables." + if total.bits() > 2 * xlen { + // We rely on the LLVM backend lowering code to lower passing a scalar larger than 2*XLEN. + if is_loongarch_aggregate(arg) { + arg.make_indirect(); + } + if *avail_gprs >= 1 { + *avail_gprs -= 1; + } + return; + } + + let double_xlen_reg = match xlen { + 32 => Reg::i64(), + 64 => Reg::i128(), + _ => unreachable!("Unsupported XLEN: {}", xlen), + }; + + let xlen_reg = match xlen { + 32 => Reg::i32(), + 64 => Reg::i64(), + _ => unreachable!("Unsupported XLEN: {}", xlen), + }; + + if total.bits() > xlen { + let align_regs = align > xlen; + if is_loongarch_aggregate(arg) { + arg.cast_to(Uniform { + unit: if align_regs { double_xlen_reg } else { xlen_reg }, + total: Size::from_bits(xlen * 2), + }); + } + if align_regs && is_vararg { + *avail_gprs -= *avail_gprs % 2; + } + if *avail_gprs >= 2 { + *avail_gprs -= 2; + } else { + *avail_gprs = 0; + } + return; + } else if is_loongarch_aggregate(arg) { + arg.cast_to(xlen_reg); + if *avail_gprs >= 1 { + *avail_gprs -= 1; + } + return; + } + + // "When passed in registers, scalars narrower than XLEN bits are widened + // according to the sign of their type up to 32 bits, then sign-extended to + // XLEN bits." + if *avail_gprs >= 1 { + extend_integer_width(arg, xlen); + *avail_gprs -= 1; + } +} + +fn extend_integer_width<'a, Ty>(arg: &mut ArgAbi<'a, Ty>, xlen: u64) { + if let Abi::Scalar(scalar) = arg.layout.abi { + if let abi::Int(i, _) = scalar.primitive() { + // 32-bit integers are always sign-extended + if i.size().bits() == 32 && xlen > 32 { + if let PassMode::Direct(ref mut attrs) = arg.mode { + attrs.ext(ArgExtension::Sext); + return; + } + } + } + } + + arg.extend_integer_width_to(xlen); +} + +pub fn compute_abi_info<'a, Ty, C>(cx: &C, fn_abi: &mut FnAbi<'a, Ty>) +where + Ty: TyAbiInterface<'a, C> + Copy, + C: HasDataLayout + HasTargetSpec, +{ + let xlen = cx.data_layout().pointer_size.bits(); + let flen = match &cx.target_spec().llvm_abiname[..] { + "ilp32f" | "lp64f" => 32, + "ilp32d" | "lp64d" => 64, + _ => 0, + }; + + let mut avail_gprs = 8; + let mut avail_fprs = 8; + + if !fn_abi.ret.is_ignore() && classify_ret(cx, &mut fn_abi.ret, xlen, flen) { + avail_gprs -= 1; + } + + for (i, arg) in fn_abi.args.iter_mut().enumerate() { + if arg.is_ignore() { + continue; + } + classify_arg( + cx, + arg, + xlen, + flen, + i >= fn_abi.fixed_count as usize, + &mut avail_gprs, + &mut avail_fprs, + ); + } +} diff --git a/compiler/rustc_target/src/abi/call/mod.rs b/compiler/rustc_target/src/abi/call/mod.rs index 9e5f0e4d1..a5ffaebea 100644 --- a/compiler/rustc_target/src/abi/call/mod.rs +++ b/compiler/rustc_target/src/abi/call/mod.rs @@ -3,6 +3,7 @@ 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; @@ -10,6 +11,7 @@ mod arm; mod avr; mod bpf; mod hexagon; +mod loongarch; mod m68k; mod mips; mod mips64; @@ -260,7 +262,7 @@ impl CastTarget { let mut size = self.rest.total; for i in 0..self.prefix.iter().count() { match self.prefix[i] { - Some(v) => size += Size { raw: v.size.bytes() }, + Some(v) => size += v.size, None => {} } } @@ -696,6 +698,7 @@ impl<'a, Ty> FnAbi<'a, Ty> { "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), @@ -735,6 +738,33 @@ impl<'a, Ty> FnAbi<'a, Ty> { } } +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)), + } + } +} + // Some types are used a lot. Make sure they don't unintentionally get bigger. #[cfg(all(target_arch = "x86_64", target_pointer_width = "64"))] mod size_asserts { diff --git a/compiler/rustc_target/src/abi/call/sparc64.rs b/compiler/rustc_target/src/abi/call/sparc64.rs index 1b74959ad..c8b6ac5ae 100644 --- a/compiler/rustc_target/src/abi/call/sparc64.rs +++ b/compiler/rustc_target/src/abi/call/sparc64.rs @@ -78,7 +78,7 @@ fn arg_scalar_pair<C>( where C: HasDataLayout, { - data = arg_scalar(cx, &scalar1, offset, data); + data = arg_scalar(cx, scalar1, offset, data); match (scalar1.primitive(), scalar2.primitive()) { (abi::F32, _) => offset += Reg::f32().size, (_, abi::F64) => offset += Reg::f64().size, @@ -87,10 +87,10 @@ where _ => {} } - if (offset.raw % 4) != 0 && scalar2.primitive().is_float() { - offset.raw += 4 - (offset.raw % 4); + if (offset.bytes() % 4) != 0 && scalar2.primitive().is_float() { + offset += Size::from_bytes(4 - (offset.bytes() % 4)); } - data = arg_scalar(cx, &scalar2, offset, data); + data = arg_scalar(cx, scalar2, offset, data); return data; } @@ -169,14 +169,14 @@ where has_float: false, arg_attribute: ArgAttribute::default(), }, - Size { raw: 0 }, + Size::ZERO, ); if data.has_float { // Structure { float, int, int } doesn't like to be handled like // { float, long int }. Other way around it doesn't mind. if data.last_offset < arg.layout.size - && (data.last_offset.raw % 8) != 0 + && (data.last_offset.bytes() % 8) != 0 && data.prefix_index < data.prefix.len() { data.prefix[data.prefix_index] = Some(Reg::i32()); @@ -185,7 +185,7 @@ where } let mut rest_size = arg.layout.size - data.last_offset; - if (rest_size.raw % 8) != 0 && data.prefix_index < data.prefix.len() { + if (rest_size.bytes() % 8) != 0 && data.prefix_index < data.prefix.len() { data.prefix[data.prefix_index] = Some(Reg::i32()); rest_size = rest_size - Reg::i32().size; } @@ -214,13 +214,13 @@ where C: HasDataLayout, { if !fn_abi.ret.is_ignore() { - classify_arg(cx, &mut fn_abi.ret, Size { raw: 32 }); + classify_arg(cx, &mut fn_abi.ret, Size::from_bytes(32)); } for arg in fn_abi.args.iter_mut() { if arg.is_ignore() { continue; } - classify_arg(cx, arg, Size { raw: 16 }); + classify_arg(cx, arg, Size::from_bytes(16)); } } diff --git a/compiler/rustc_target/src/abi/mod.rs b/compiler/rustc_target/src/abi/mod.rs index 7171ca7bf..53c9878ab 100644 --- a/compiler/rustc_target/src/abi/mod.rs +++ b/compiler/rustc_target/src/abi/mod.rs @@ -2,284 +2,16 @@ pub use Integer::*; pub use Primitive::*; use crate::json::{Json, ToJson}; -use crate::spec::Target; -use std::convert::{TryFrom, TryInto}; use std::fmt; -use std::iter::Step; -use std::num::{NonZeroUsize, ParseIntError}; -use std::ops::{Add, AddAssign, Deref, Mul, RangeInclusive, Sub}; -use std::str::FromStr; +use std::ops::Deref; use rustc_data_structures::intern::Interned; -use rustc_index::vec::{Idx, IndexVec}; use rustc_macros::HashStable_Generic; pub mod call; -/// Parsed [Data layout](https://llvm.org/docs/LangRef.html#data-layout) -/// for a target, which contains everything needed to compute layouts. -pub struct TargetDataLayout { - pub endian: Endian, - pub i1_align: AbiAndPrefAlign, - pub i8_align: AbiAndPrefAlign, - pub i16_align: AbiAndPrefAlign, - pub i32_align: AbiAndPrefAlign, - pub i64_align: AbiAndPrefAlign, - pub i128_align: AbiAndPrefAlign, - pub f32_align: AbiAndPrefAlign, - pub f64_align: AbiAndPrefAlign, - pub pointer_size: Size, - pub pointer_align: AbiAndPrefAlign, - pub aggregate_align: AbiAndPrefAlign, - - /// Alignments for vector types. - pub vector_align: Vec<(Size, AbiAndPrefAlign)>, - - pub instruction_address_space: AddressSpace, - - /// Minimum size of #[repr(C)] enums (default I32 bits) - pub c_enum_min_size: Integer, -} - -impl Default for TargetDataLayout { - /// Creates an instance of `TargetDataLayout`. - fn default() -> TargetDataLayout { - let align = |bits| Align::from_bits(bits).unwrap(); - TargetDataLayout { - endian: Endian::Big, - i1_align: AbiAndPrefAlign::new(align(8)), - i8_align: AbiAndPrefAlign::new(align(8)), - i16_align: AbiAndPrefAlign::new(align(16)), - i32_align: AbiAndPrefAlign::new(align(32)), - i64_align: AbiAndPrefAlign { abi: align(32), pref: align(64) }, - i128_align: AbiAndPrefAlign { abi: align(32), pref: align(64) }, - f32_align: AbiAndPrefAlign::new(align(32)), - f64_align: AbiAndPrefAlign::new(align(64)), - pointer_size: Size::from_bits(64), - pointer_align: AbiAndPrefAlign::new(align(64)), - aggregate_align: AbiAndPrefAlign { abi: align(0), pref: align(64) }, - vector_align: vec![ - (Size::from_bits(64), AbiAndPrefAlign::new(align(64))), - (Size::from_bits(128), AbiAndPrefAlign::new(align(128))), - ], - instruction_address_space: AddressSpace::DATA, - c_enum_min_size: Integer::I32, - } - } -} - -pub enum TargetDataLayoutErrors<'a> { - InvalidAddressSpace { addr_space: &'a str, cause: &'a str, err: ParseIntError }, - InvalidBits { kind: &'a str, bit: &'a str, cause: &'a str, err: ParseIntError }, - MissingAlignment { cause: &'a str }, - InvalidAlignment { cause: &'a str, err: String }, - InconsistentTargetArchitecture { dl: &'a str, target: &'a str }, - InconsistentTargetPointerWidth { pointer_size: u64, target: u32 }, - InvalidBitsSize { err: String }, -} - -impl TargetDataLayout { - pub fn parse<'a>(target: &'a Target) -> Result<TargetDataLayout, TargetDataLayoutErrors<'a>> { - // Parse an address space index from a string. - let parse_address_space = |s: &'a str, cause: &'a str| { - s.parse::<u32>().map(AddressSpace).map_err(|err| { - TargetDataLayoutErrors::InvalidAddressSpace { addr_space: s, cause, err } - }) - }; - - // Parse a bit count from a string. - let parse_bits = |s: &'a str, kind: &'a str, cause: &'a str| { - s.parse::<u64>().map_err(|err| TargetDataLayoutErrors::InvalidBits { - kind, - bit: s, - cause, - err, - }) - }; - - // Parse a size string. - let size = |s: &'a str, cause: &'a str| parse_bits(s, "size", cause).map(Size::from_bits); - - // Parse an alignment string. - let align = |s: &[&'a str], cause: &'a str| { - if s.is_empty() { - return Err(TargetDataLayoutErrors::MissingAlignment { cause }); - } - let align_from_bits = |bits| { - Align::from_bits(bits) - .map_err(|err| TargetDataLayoutErrors::InvalidAlignment { cause, err }) - }; - let abi = parse_bits(s[0], "alignment", cause)?; - let pref = s.get(1).map_or(Ok(abi), |pref| parse_bits(pref, "alignment", cause))?; - Ok(AbiAndPrefAlign { abi: align_from_bits(abi)?, pref: align_from_bits(pref)? }) - }; - - let mut dl = TargetDataLayout::default(); - let mut i128_align_src = 64; - for spec in target.data_layout.split('-') { - let spec_parts = spec.split(':').collect::<Vec<_>>(); - - match &*spec_parts { - ["e"] => dl.endian = Endian::Little, - ["E"] => dl.endian = Endian::Big, - [p] if p.starts_with('P') => { - dl.instruction_address_space = parse_address_space(&p[1..], "P")? - } - ["a", ref a @ ..] => dl.aggregate_align = align(a, "a")?, - ["f32", ref a @ ..] => dl.f32_align = align(a, "f32")?, - ["f64", ref a @ ..] => dl.f64_align = align(a, "f64")?, - [p @ "p", s, ref a @ ..] | [p @ "p0", s, ref a @ ..] => { - dl.pointer_size = size(s, p)?; - dl.pointer_align = align(a, p)?; - } - [s, ref a @ ..] if s.starts_with('i') => { - let Ok(bits) = s[1..].parse::<u64>() else { - size(&s[1..], "i")?; // For the user error. - continue; - }; - let a = align(a, s)?; - match bits { - 1 => dl.i1_align = a, - 8 => dl.i8_align = a, - 16 => dl.i16_align = a, - 32 => dl.i32_align = a, - 64 => dl.i64_align = a, - _ => {} - } - if bits >= i128_align_src && bits <= 128 { - // Default alignment for i128 is decided by taking the alignment of - // largest-sized i{64..=128}. - i128_align_src = bits; - dl.i128_align = a; - } - } - [s, ref a @ ..] if s.starts_with('v') => { - let v_size = size(&s[1..], "v")?; - let a = align(a, s)?; - if let Some(v) = dl.vector_align.iter_mut().find(|v| v.0 == v_size) { - v.1 = a; - continue; - } - // No existing entry, add a new one. - dl.vector_align.push((v_size, a)); - } - _ => {} // Ignore everything else. - } - } - - // Perform consistency checks against the Target information. - if dl.endian != target.endian { - return Err(TargetDataLayoutErrors::InconsistentTargetArchitecture { - dl: dl.endian.as_str(), - target: target.endian.as_str(), - }); - } - - let target_pointer_width: u64 = target.pointer_width.into(); - if dl.pointer_size.bits() != target_pointer_width { - return Err(TargetDataLayoutErrors::InconsistentTargetPointerWidth { - pointer_size: dl.pointer_size.bits(), - target: target.pointer_width, - }); - } - - dl.c_enum_min_size = match Integer::from_size(Size::from_bits(target.c_enum_min_bits)) { - Ok(bits) => bits, - Err(err) => return Err(TargetDataLayoutErrors::InvalidBitsSize { err }), - }; - - Ok(dl) - } - - /// Returns exclusive upper bound on object size. - /// - /// The theoretical maximum object size is defined as the maximum positive `isize` value. - /// This ensures that the `offset` semantics remain well-defined by allowing it to correctly - /// index every address within an object along with one byte past the end, along with allowing - /// `isize` to store the difference between any two pointers into an object. - /// - /// The upper bound on 64-bit currently needs to be lower because LLVM uses a 64-bit integer - /// to represent object size in bits. It would need to be 1 << 61 to account for this, but is - /// currently conservatively bounded to 1 << 47 as that is enough to cover the current usable - /// address space on 64-bit ARMv8 and x86_64. - #[inline] - pub fn obj_size_bound(&self) -> u64 { - match self.pointer_size.bits() { - 16 => 1 << 15, - 32 => 1 << 31, - 64 => 1 << 47, - bits => panic!("obj_size_bound: unknown pointer bit size {}", bits), - } - } - - #[inline] - pub fn ptr_sized_integer(&self) -> Integer { - match self.pointer_size.bits() { - 16 => I16, - 32 => I32, - 64 => I64, - bits => panic!("ptr_sized_integer: unknown pointer bit size {}", bits), - } - } - - #[inline] - pub fn vector_align(&self, vec_size: Size) -> AbiAndPrefAlign { - for &(size, align) in &self.vector_align { - if size == vec_size { - return align; - } - } - // Default to natural alignment, which is what LLVM does. - // That is, use the size, rounded up to a power of 2. - AbiAndPrefAlign::new(Align::from_bytes(vec_size.bytes().next_power_of_two()).unwrap()) - } -} - -pub trait HasDataLayout { - fn data_layout(&self) -> &TargetDataLayout; -} - -impl HasDataLayout for TargetDataLayout { - #[inline] - fn data_layout(&self) -> &TargetDataLayout { - self - } -} - -/// Endianness of the target, which must match cfg(target-endian). -#[derive(Copy, Clone, PartialEq)] -pub enum Endian { - Little, - Big, -} - -impl Endian { - pub fn as_str(&self) -> &'static str { - match self { - Self::Little => "little", - Self::Big => "big", - } - } -} - -impl fmt::Debug for Endian { - fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { - f.write_str(self.as_str()) - } -} - -impl FromStr for Endian { - type Err = String; - - fn from_str(s: &str) -> Result<Self, Self::Err> { - match s { - "little" => Ok(Self::Little), - "big" => Ok(Self::Big), - _ => Err(format!(r#"unknown endian: "{}""#, s)), - } - } -} +pub use rustc_abi::*; impl ToJson for Endian { fn to_json(&self) -> Json { @@ -287,1025 +19,15 @@ impl ToJson for Endian { } } -/// Size of a type in bytes. -#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Encodable, Decodable)] -#[derive(HashStable_Generic)] -pub struct Size { - raw: u64, -} - -// This is debug-printed a lot in larger structs, don't waste too much space there -impl fmt::Debug for Size { - fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { - write!(f, "Size({} bytes)", self.bytes()) - } -} - -impl Size { - pub const ZERO: Size = Size { raw: 0 }; - - /// Rounds `bits` up to the next-higher byte boundary, if `bits` is - /// not a multiple of 8. - pub fn from_bits(bits: impl TryInto<u64>) -> Size { - let bits = bits.try_into().ok().unwrap(); - // Avoid potential overflow from `bits + 7`. - Size { raw: bits / 8 + ((bits % 8) + 7) / 8 } - } - - #[inline] - pub fn from_bytes(bytes: impl TryInto<u64>) -> Size { - let bytes: u64 = bytes.try_into().ok().unwrap(); - Size { raw: bytes } - } - - #[inline] - pub fn bytes(self) -> u64 { - self.raw - } - - #[inline] - pub fn bytes_usize(self) -> usize { - self.bytes().try_into().unwrap() - } - - #[inline] - pub fn bits(self) -> u64 { - #[cold] - fn overflow(bytes: u64) -> ! { - panic!("Size::bits: {} bytes in bits doesn't fit in u64", bytes) - } - - self.bytes().checked_mul(8).unwrap_or_else(|| overflow(self.bytes())) - } - - #[inline] - pub fn bits_usize(self) -> usize { - self.bits().try_into().unwrap() - } - - #[inline] - pub fn align_to(self, align: Align) -> Size { - let mask = align.bytes() - 1; - Size::from_bytes((self.bytes() + mask) & !mask) - } - - #[inline] - pub fn is_aligned(self, align: Align) -> bool { - let mask = align.bytes() - 1; - self.bytes() & mask == 0 - } - - #[inline] - pub fn checked_add<C: HasDataLayout>(self, offset: Size, cx: &C) -> Option<Size> { - let dl = cx.data_layout(); - - let bytes = self.bytes().checked_add(offset.bytes())?; - - if bytes < dl.obj_size_bound() { Some(Size::from_bytes(bytes)) } else { None } - } - - #[inline] - pub fn checked_mul<C: HasDataLayout>(self, count: u64, cx: &C) -> Option<Size> { - let dl = cx.data_layout(); - - let bytes = self.bytes().checked_mul(count)?; - if bytes < dl.obj_size_bound() { Some(Size::from_bytes(bytes)) } else { None } - } - - /// Truncates `value` to `self` bits and then sign-extends it to 128 bits - /// (i.e., if it is negative, fill with 1's on the left). - #[inline] - pub fn sign_extend(self, value: u128) -> u128 { - let size = self.bits(); - if size == 0 { - // Truncated until nothing is left. - return 0; - } - // Sign-extend it. - let shift = 128 - size; - // Shift the unsigned value to the left, then shift back to the right as signed - // (essentially fills with sign bit on the left). - (((value << shift) as i128) >> shift) as u128 - } - - /// Truncates `value` to `self` bits. - #[inline] - pub fn truncate(self, value: u128) -> u128 { - let size = self.bits(); - if size == 0 { - // Truncated until nothing is left. - return 0; - } - let shift = 128 - size; - // Truncate (shift left to drop out leftover values, shift right to fill with zeroes). - (value << shift) >> shift - } - - #[inline] - pub fn signed_int_min(&self) -> i128 { - self.sign_extend(1_u128 << (self.bits() - 1)) as i128 - } - - #[inline] - pub fn signed_int_max(&self) -> i128 { - i128::MAX >> (128 - self.bits()) - } - - #[inline] - pub fn unsigned_int_max(&self) -> u128 { - u128::MAX >> (128 - self.bits()) - } -} - -// Panicking addition, subtraction and multiplication for convenience. -// Avoid during layout computation, return `LayoutError` instead. - -impl Add for Size { - type Output = Size; - #[inline] - fn add(self, other: Size) -> Size { - Size::from_bytes(self.bytes().checked_add(other.bytes()).unwrap_or_else(|| { - panic!("Size::add: {} + {} doesn't fit in u64", self.bytes(), other.bytes()) - })) - } -} - -impl Sub for Size { - type Output = Size; - #[inline] - fn sub(self, other: Size) -> Size { - Size::from_bytes(self.bytes().checked_sub(other.bytes()).unwrap_or_else(|| { - panic!("Size::sub: {} - {} would result in negative size", self.bytes(), other.bytes()) - })) - } -} - -impl Mul<Size> for u64 { - type Output = Size; - #[inline] - fn mul(self, size: Size) -> Size { - size * self - } -} - -impl Mul<u64> for Size { - type Output = Size; - #[inline] - fn mul(self, count: u64) -> Size { - match self.bytes().checked_mul(count) { - Some(bytes) => Size::from_bytes(bytes), - None => panic!("Size::mul: {} * {} doesn't fit in u64", self.bytes(), count), - } - } -} - -impl AddAssign for Size { - #[inline] - fn add_assign(&mut self, other: Size) { - *self = *self + other; - } -} - -impl Step for Size { - #[inline] - fn steps_between(start: &Self, end: &Self) -> Option<usize> { - u64::steps_between(&start.bytes(), &end.bytes()) - } - - #[inline] - fn forward_checked(start: Self, count: usize) -> Option<Self> { - u64::forward_checked(start.bytes(), count).map(Self::from_bytes) - } - - #[inline] - fn forward(start: Self, count: usize) -> Self { - Self::from_bytes(u64::forward(start.bytes(), count)) - } - - #[inline] - unsafe fn forward_unchecked(start: Self, count: usize) -> Self { - Self::from_bytes(u64::forward_unchecked(start.bytes(), count)) - } - - #[inline] - fn backward_checked(start: Self, count: usize) -> Option<Self> { - u64::backward_checked(start.bytes(), count).map(Self::from_bytes) - } - - #[inline] - fn backward(start: Self, count: usize) -> Self { - Self::from_bytes(u64::backward(start.bytes(), count)) - } - - #[inline] - unsafe fn backward_unchecked(start: Self, count: usize) -> Self { - Self::from_bytes(u64::backward_unchecked(start.bytes(), count)) - } -} - -/// Alignment of a type in bytes (always a power of two). -#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Encodable, Decodable)] -#[derive(HashStable_Generic)] -pub struct Align { - pow2: u8, -} - -// This is debug-printed a lot in larger structs, don't waste too much space there -impl fmt::Debug for Align { - fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { - write!(f, "Align({} bytes)", self.bytes()) - } -} - -impl Align { - pub const ONE: Align = Align { pow2: 0 }; - pub const MAX: Align = Align { pow2: 29 }; - - #[inline] - pub fn from_bits(bits: u64) -> Result<Align, String> { - Align::from_bytes(Size::from_bits(bits).bytes()) - } - - #[inline] - pub fn from_bytes(align: u64) -> Result<Align, String> { - // Treat an alignment of 0 bytes like 1-byte alignment. - if align == 0 { - return Ok(Align::ONE); - } - - #[cold] - fn not_power_of_2(align: u64) -> String { - format!("`{}` is not a power of 2", align) - } - - #[cold] - fn too_large(align: u64) -> String { - format!("`{}` is too large", align) - } - - let mut bytes = align; - let mut pow2: u8 = 0; - while (bytes & 1) == 0 { - pow2 += 1; - bytes >>= 1; - } - if bytes != 1 { - return Err(not_power_of_2(align)); - } - if pow2 > Self::MAX.pow2 { - return Err(too_large(align)); - } - - Ok(Align { pow2 }) - } - - #[inline] - pub fn bytes(self) -> u64 { - 1 << self.pow2 - } - - #[inline] - pub fn bits(self) -> u64 { - self.bytes() * 8 - } - - /// Computes the best alignment possible for the given offset - /// (the largest power of two that the offset is a multiple of). - /// - /// N.B., for an offset of `0`, this happens to return `2^64`. - #[inline] - pub fn max_for_offset(offset: Size) -> Align { - Align { pow2: offset.bytes().trailing_zeros() as u8 } - } - - /// Lower the alignment, if necessary, such that the given offset - /// is aligned to it (the offset is a multiple of the alignment). - #[inline] - pub fn restrict_for_offset(self, offset: Size) -> Align { - self.min(Align::max_for_offset(offset)) - } -} - -/// A pair of alignments, ABI-mandated and preferred. -#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug)] -#[derive(HashStable_Generic)] -pub struct AbiAndPrefAlign { - pub abi: Align, - pub pref: Align, -} - -impl AbiAndPrefAlign { - #[inline] - pub fn new(align: Align) -> AbiAndPrefAlign { - AbiAndPrefAlign { abi: align, pref: align } - } - - #[inline] - pub fn min(self, other: AbiAndPrefAlign) -> AbiAndPrefAlign { - AbiAndPrefAlign { abi: self.abi.min(other.abi), pref: self.pref.min(other.pref) } - } - - #[inline] - pub fn max(self, other: AbiAndPrefAlign) -> AbiAndPrefAlign { - AbiAndPrefAlign { abi: self.abi.max(other.abi), pref: self.pref.max(other.pref) } - } -} - -/// Integers, also used for enum discriminants. -#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, HashStable_Generic)] -pub enum Integer { - I8, - I16, - I32, - I64, - I128, -} - -impl Integer { - #[inline] - pub fn size(self) -> Size { - match self { - I8 => Size::from_bytes(1), - I16 => Size::from_bytes(2), - I32 => Size::from_bytes(4), - I64 => Size::from_bytes(8), - I128 => Size::from_bytes(16), - } - } - - pub fn align<C: HasDataLayout>(self, cx: &C) -> AbiAndPrefAlign { - let dl = cx.data_layout(); - - match self { - I8 => dl.i8_align, - I16 => dl.i16_align, - I32 => dl.i32_align, - I64 => dl.i64_align, - I128 => dl.i128_align, - } - } - - /// Finds the smallest Integer type which can represent the signed value. - #[inline] - pub fn fit_signed(x: i128) -> Integer { - match x { - -0x0000_0000_0000_0080..=0x0000_0000_0000_007f => I8, - -0x0000_0000_0000_8000..=0x0000_0000_0000_7fff => I16, - -0x0000_0000_8000_0000..=0x0000_0000_7fff_ffff => I32, - -0x8000_0000_0000_0000..=0x7fff_ffff_ffff_ffff => I64, - _ => I128, - } - } - - /// Finds the smallest Integer type which can represent the unsigned value. - #[inline] - pub fn fit_unsigned(x: u128) -> Integer { - match x { - 0..=0x0000_0000_0000_00ff => I8, - 0..=0x0000_0000_0000_ffff => I16, - 0..=0x0000_0000_ffff_ffff => I32, - 0..=0xffff_ffff_ffff_ffff => I64, - _ => I128, - } - } - - /// Finds the smallest integer with the given alignment. - pub fn for_align<C: HasDataLayout>(cx: &C, wanted: Align) -> Option<Integer> { - let dl = cx.data_layout(); - - for candidate in [I8, I16, I32, I64, I128] { - if wanted == candidate.align(dl).abi && wanted.bytes() == candidate.size().bytes() { - return Some(candidate); - } - } - None - } - - /// Find the largest integer with the given alignment or less. - pub fn approximate_align<C: HasDataLayout>(cx: &C, wanted: Align) -> Integer { - let dl = cx.data_layout(); - - // FIXME(eddyb) maybe include I128 in the future, when it works everywhere. - for candidate in [I64, I32, I16] { - if wanted >= candidate.align(dl).abi && wanted.bytes() >= candidate.size().bytes() { - return candidate; - } - } - I8 - } - - // FIXME(eddyb) consolidate this and other methods that find the appropriate - // `Integer` given some requirements. - #[inline] - fn from_size(size: Size) -> Result<Self, String> { - match size.bits() { - 8 => Ok(Integer::I8), - 16 => Ok(Integer::I16), - 32 => Ok(Integer::I32), - 64 => Ok(Integer::I64), - 128 => Ok(Integer::I128), - _ => Err(format!("rust does not support integers with {} bits", size.bits())), - } - } -} - -/// Fundamental unit of memory access and layout. -#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug, HashStable_Generic)] -pub enum Primitive { - /// The `bool` is the signedness of the `Integer` type. - /// - /// One would think we would not care about such details this low down, - /// but some ABIs are described in terms of C types and ISAs where the - /// integer arithmetic is done on {sign,zero}-extended registers, e.g. - /// a negative integer passed by zero-extension will appear positive in - /// the callee, and most operations on it will produce the wrong values. - Int(Integer, bool), - F32, - F64, - Pointer, -} - -impl Primitive { - pub fn size<C: HasDataLayout>(self, cx: &C) -> Size { - let dl = cx.data_layout(); - - match self { - Int(i, _) => i.size(), - F32 => Size::from_bits(32), - F64 => Size::from_bits(64), - Pointer => dl.pointer_size, - } - } - - pub fn align<C: HasDataLayout>(self, cx: &C) -> AbiAndPrefAlign { - let dl = cx.data_layout(); - - match self { - Int(i, _) => i.align(dl), - F32 => dl.f32_align, - F64 => dl.f64_align, - Pointer => dl.pointer_align, - } - } - - // FIXME(eddyb) remove, it's trivial thanks to `matches!`. - #[inline] - pub fn is_float(self) -> bool { - matches!(self, F32 | F64) - } - - // FIXME(eddyb) remove, it's completely unused. - #[inline] - pub fn is_int(self) -> bool { - matches!(self, Int(..)) - } - - #[inline] - pub fn is_ptr(self) -> bool { - matches!(self, Pointer) - } -} - -/// Inclusive wrap-around range of valid values, that is, if -/// start > end, it represents `start..=MAX`, -/// followed by `0..=end`. -/// -/// That is, for an i8 primitive, a range of `254..=2` means following -/// sequence: -/// -/// 254 (-2), 255 (-1), 0, 1, 2 -/// -/// This is intended specifically to mirror LLVM’s `!range` metadata semantics. -#[derive(Clone, Copy, PartialEq, Eq, Hash)] -#[derive(HashStable_Generic)] -pub struct WrappingRange { - pub start: u128, - pub end: u128, -} - -impl WrappingRange { - pub fn full(size: Size) -> Self { - Self { start: 0, end: size.unsigned_int_max() } - } - - /// Returns `true` if `v` is contained in the range. - #[inline(always)] - pub fn contains(&self, v: u128) -> bool { - if self.start <= self.end { - self.start <= v && v <= self.end - } else { - self.start <= v || v <= self.end - } - } - - /// Returns `self` with replaced `start` - #[inline(always)] - pub fn with_start(mut self, start: u128) -> Self { - self.start = start; - self - } - - /// Returns `self` with replaced `end` - #[inline(always)] - pub fn with_end(mut self, end: u128) -> Self { - self.end = end; - self - } - - /// Returns `true` if `size` completely fills the range. - #[inline] - pub fn is_full_for(&self, size: Size) -> bool { - let max_value = size.unsigned_int_max(); - debug_assert!(self.start <= max_value && self.end <= max_value); - self.start == (self.end.wrapping_add(1) & max_value) - } -} - -impl fmt::Debug for WrappingRange { - fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { - if self.start > self.end { - write!(fmt, "(..={}) | ({}..)", self.end, self.start)?; - } else { - write!(fmt, "{}..={}", self.start, self.end)?; - } - Ok(()) - } -} - -/// Information about one scalar component of a Rust type. -#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug)] -#[derive(HashStable_Generic)] -pub enum Scalar { - Initialized { - value: Primitive, - - // FIXME(eddyb) always use the shortest range, e.g., by finding - // the largest space between two consecutive valid values and - // taking everything else as the (shortest) valid range. - valid_range: WrappingRange, - }, - Union { - /// Even for unions, we need to use the correct registers for the kind of - /// values inside the union, so we keep the `Primitive` type around. We - /// also use it to compute the size of the scalar. - /// However, unions never have niches and even allow undef, - /// so there is no `valid_range`. - value: Primitive, - }, -} - -impl Scalar { - #[inline] - pub fn is_bool(&self) -> bool { - matches!( - self, - Scalar::Initialized { - value: Int(I8, false), - valid_range: WrappingRange { start: 0, end: 1 } - } - ) - } - - /// Get the primitive representation of this type, ignoring the valid range and whether the - /// value is allowed to be undefined (due to being a union). - pub fn primitive(&self) -> Primitive { - match *self { - Scalar::Initialized { value, .. } | Scalar::Union { value } => value, - } - } - - pub fn align(self, cx: &impl HasDataLayout) -> AbiAndPrefAlign { - self.primitive().align(cx) - } - - pub fn size(self, cx: &impl HasDataLayout) -> Size { - self.primitive().size(cx) - } - - #[inline] - pub fn to_union(&self) -> Self { - Self::Union { value: self.primitive() } - } - - #[inline] - pub fn valid_range(&self, cx: &impl HasDataLayout) -> WrappingRange { - match *self { - Scalar::Initialized { valid_range, .. } => valid_range, - Scalar::Union { value } => WrappingRange::full(value.size(cx)), - } - } - - #[inline] - /// Allows the caller to mutate the valid range. This operation will panic if attempted on a union. - pub fn valid_range_mut(&mut self) -> &mut WrappingRange { - match self { - Scalar::Initialized { valid_range, .. } => valid_range, - Scalar::Union { .. } => panic!("cannot change the valid range of a union"), - } - } - - /// Returns `true` if all possible numbers are valid, i.e `valid_range` covers the whole layout - #[inline] - pub fn is_always_valid<C: HasDataLayout>(&self, cx: &C) -> bool { - match *self { - Scalar::Initialized { valid_range, .. } => valid_range.is_full_for(self.size(cx)), - Scalar::Union { .. } => true, - } - } - - /// Returns `true` if this type can be left uninit. - #[inline] - pub fn is_uninit_valid(&self) -> bool { - match *self { - Scalar::Initialized { .. } => false, - Scalar::Union { .. } => true, - } - } -} - -/// Describes how the fields of a type are located in memory. -#[derive(PartialEq, Eq, Hash, Debug, HashStable_Generic)] -pub enum FieldsShape { - /// Scalar primitives and `!`, which never have fields. - Primitive, - - /// All fields start at no offset. The `usize` is the field count. - Union(NonZeroUsize), - - /// Array/vector-like placement, with all fields of identical types. - Array { stride: Size, count: u64 }, - - /// Struct-like placement, with precomputed offsets. - /// - /// Fields are guaranteed to not overlap, but note that gaps - /// before, between and after all the fields are NOT always - /// padding, and as such their contents may not be discarded. - /// For example, enum variants leave a gap at the start, - /// where the discriminant field in the enum layout goes. - Arbitrary { - /// Offsets for the first byte of each field, - /// ordered to match the source definition order. - /// This vector does not go in increasing order. - // FIXME(eddyb) use small vector optimization for the common case. - offsets: Vec<Size>, - - /// Maps source order field indices to memory order indices, - /// depending on how the fields were reordered (if at all). - /// This is a permutation, with both the source order and the - /// memory order using the same (0..n) index ranges. - /// - /// Note that during computation of `memory_index`, sometimes - /// it is easier to operate on the inverse mapping (that is, - /// from memory order to source order), and that is usually - /// named `inverse_memory_index`. - /// - // FIXME(eddyb) build a better abstraction for permutations, if possible. - // FIXME(camlorn) also consider small vector optimization here. - memory_index: Vec<u32>, - }, -} - -impl FieldsShape { - #[inline] - pub fn count(&self) -> usize { - match *self { - FieldsShape::Primitive => 0, - FieldsShape::Union(count) => count.get(), - FieldsShape::Array { count, .. } => count.try_into().unwrap(), - FieldsShape::Arbitrary { ref offsets, .. } => offsets.len(), - } - } - - #[inline] - pub fn offset(&self, i: usize) -> Size { - match *self { - FieldsShape::Primitive => { - unreachable!("FieldsShape::offset: `Primitive`s have no fields") - } - FieldsShape::Union(count) => { - assert!( - i < count.get(), - "tried to access field {} of union with {} fields", - i, - count - ); - Size::ZERO - } - FieldsShape::Array { stride, count } => { - let i = u64::try_from(i).unwrap(); - assert!(i < count); - stride * i - } - FieldsShape::Arbitrary { ref offsets, .. } => offsets[i], - } - } - - #[inline] - pub fn memory_index(&self, i: usize) -> usize { - match *self { - FieldsShape::Primitive => { - unreachable!("FieldsShape::memory_index: `Primitive`s have no fields") - } - FieldsShape::Union(_) | FieldsShape::Array { .. } => i, - FieldsShape::Arbitrary { ref memory_index, .. } => memory_index[i].try_into().unwrap(), - } - } - - /// Gets source indices of the fields by increasing offsets. - #[inline] - pub fn index_by_increasing_offset<'a>(&'a self) -> impl Iterator<Item = usize> + 'a { - let mut inverse_small = [0u8; 64]; - let mut inverse_big = vec![]; - let use_small = self.count() <= inverse_small.len(); - - // We have to write this logic twice in order to keep the array small. - if let FieldsShape::Arbitrary { ref memory_index, .. } = *self { - if use_small { - for i in 0..self.count() { - inverse_small[memory_index[i] as usize] = i as u8; - } - } else { - inverse_big = vec![0; self.count()]; - for i in 0..self.count() { - inverse_big[memory_index[i] as usize] = i as u32; - } - } - } - - (0..self.count()).map(move |i| match *self { - FieldsShape::Primitive | FieldsShape::Union(_) | FieldsShape::Array { .. } => i, - FieldsShape::Arbitrary { .. } => { - if use_small { - inverse_small[i] as usize - } else { - inverse_big[i] as usize - } - } - }) - } -} - -/// An identifier that specifies the address space that some operation -/// should operate on. Special address spaces have an effect on code generation, -/// depending on the target and the address spaces it implements. -#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord)] -pub struct AddressSpace(pub u32); - -impl AddressSpace { - /// The default address space, corresponding to data space. - pub const DATA: Self = AddressSpace(0); -} - -/// Describes how values of the type are passed by target ABIs, -/// in terms of categories of C types there are ABI rules for. -#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, HashStable_Generic)] -pub enum Abi { - Uninhabited, - Scalar(Scalar), - ScalarPair(Scalar, Scalar), - Vector { - element: Scalar, - count: u64, - }, - Aggregate { - /// If true, the size is exact, otherwise it's only a lower bound. - sized: bool, - }, -} - -impl Abi { - /// Returns `true` if the layout corresponds to an unsized type. - #[inline] - pub fn is_unsized(&self) -> bool { - match *self { - Abi::Uninhabited | Abi::Scalar(_) | Abi::ScalarPair(..) | Abi::Vector { .. } => false, - Abi::Aggregate { sized } => !sized, - } - } - - /// Returns `true` if this is a single signed integer scalar - #[inline] - pub fn is_signed(&self) -> bool { - match self { - Abi::Scalar(scal) => match scal.primitive() { - Primitive::Int(_, signed) => signed, - _ => false, - }, - _ => panic!("`is_signed` on non-scalar ABI {:?}", self), - } - } - - /// Returns `true` if this is an uninhabited type - #[inline] - pub fn is_uninhabited(&self) -> bool { - matches!(*self, Abi::Uninhabited) - } - - /// Returns `true` is this is a scalar type - #[inline] - pub fn is_scalar(&self) -> bool { - matches!(*self, Abi::Scalar(_)) - } -} - rustc_index::newtype_index! { pub struct VariantIdx { derive [HashStable_Generic] } } -#[derive(PartialEq, Eq, Hash, Debug, HashStable_Generic)] -pub enum Variants<'a> { - /// Single enum variants, structs/tuples, unions, and all non-ADTs. - Single { index: VariantIdx }, - - /// Enum-likes with more than one inhabited variant: each variant comes with - /// a *discriminant* (usually the same as the variant index but the user can - /// assign explicit discriminant values). That discriminant is encoded - /// as a *tag* on the machine. The layout of each variant is - /// a struct, and they all have space reserved for the tag. - /// For enums, the tag is the sole field of the layout. - Multiple { - tag: Scalar, - tag_encoding: TagEncoding, - tag_field: usize, - variants: IndexVec<VariantIdx, Layout<'a>>, - }, -} - -#[derive(PartialEq, Eq, Hash, Debug, HashStable_Generic)] -pub enum TagEncoding { - /// The tag directly stores the discriminant, but possibly with a smaller layout - /// (so converting the tag to the discriminant can require sign extension). - Direct, - - /// Niche (values invalid for a type) encoding the discriminant: - /// Discriminant and variant index coincide. - /// The variant `untagged_variant` contains a niche at an arbitrary - /// offset (field `tag_field` of the enum), which for a variant with - /// discriminant `d` is set to - /// `(d - niche_variants.start).wrapping_add(niche_start)`. - /// - /// For example, `Option<(usize, &T)>` is represented such that - /// `None` has a null pointer for the second tuple field, and - /// `Some` is the identity function (with a non-null reference). - Niche { - untagged_variant: VariantIdx, - niche_variants: RangeInclusive<VariantIdx>, - niche_start: u128, - }, -} - -#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, HashStable_Generic)] -pub struct Niche { - pub offset: Size, - pub value: Primitive, - pub valid_range: WrappingRange, -} - -impl Niche { - pub fn from_scalar<C: HasDataLayout>(cx: &C, offset: Size, scalar: Scalar) -> Option<Self> { - let Scalar::Initialized { value, valid_range } = scalar else { return None }; - let niche = Niche { offset, value, valid_range }; - if niche.available(cx) > 0 { Some(niche) } else { None } - } - - pub fn available<C: HasDataLayout>(&self, cx: &C) -> u128 { - let Self { value, valid_range: v, .. } = *self; - let size = value.size(cx); - assert!(size.bits() <= 128); - let max_value = size.unsigned_int_max(); - - // Find out how many values are outside the valid range. - let niche = v.end.wrapping_add(1)..v.start; - niche.end.wrapping_sub(niche.start) & max_value - } - - pub fn reserve<C: HasDataLayout>(&self, cx: &C, count: u128) -> Option<(u128, Scalar)> { - assert!(count > 0); - - let Self { value, valid_range: v, .. } = *self; - let size = value.size(cx); - assert!(size.bits() <= 128); - let max_value = size.unsigned_int_max(); - - let niche = v.end.wrapping_add(1)..v.start; - let available = niche.end.wrapping_sub(niche.start) & max_value; - if count > available { - return None; - } - - // Extend the range of valid values being reserved by moving either `v.start` or `v.end` bound. - // Given an eventual `Option<T>`, we try to maximize the chance for `None` to occupy the niche of zero. - // This is accomplished by preferring enums with 2 variants(`count==1`) and always taking the shortest path to niche zero. - // Having `None` in niche zero can enable some special optimizations. - // - // Bound selection criteria: - // 1. Select closest to zero given wrapping semantics. - // 2. Avoid moving past zero if possible. - // - // In practice this means that enums with `count > 1` are unlikely to claim niche zero, since they have to fit perfectly. - // If niche zero is already reserved, the selection of bounds are of little interest. - let move_start = |v: WrappingRange| { - let start = v.start.wrapping_sub(count) & max_value; - Some((start, Scalar::Initialized { value, valid_range: v.with_start(start) })) - }; - let move_end = |v: WrappingRange| { - let start = v.end.wrapping_add(1) & max_value; - let end = v.end.wrapping_add(count) & max_value; - Some((start, Scalar::Initialized { value, valid_range: v.with_end(end) })) - }; - let distance_end_zero = max_value - v.end; - if v.start > v.end { - // zero is unavailable because wrapping occurs - move_end(v) - } else if v.start <= distance_end_zero { - if count <= v.start { - move_start(v) - } else { - // moved past zero, use other bound - move_end(v) - } - } else { - let end = v.end.wrapping_add(count) & max_value; - let overshot_zero = (1..=v.end).contains(&end); - if overshot_zero { - // moved past zero, use other bound - move_start(v) - } else { - move_end(v) - } - } - } -} - -#[derive(PartialEq, Eq, Hash, HashStable_Generic)] -pub struct LayoutS<'a> { - /// Says where the fields are located within the layout. - pub fields: FieldsShape, - - /// Encodes information about multi-variant layouts. - /// Even with `Multiple` variants, a layout still has its own fields! Those are then - /// shared between all variants. One of them will be the discriminant, - /// but e.g. generators can have more. - /// - /// To access all fields of this layout, both `fields` and the fields of the active variant - /// must be taken into account. - pub variants: Variants<'a>, - - /// The `abi` defines how this data is passed between functions, and it defines - /// value restrictions via `valid_range`. - /// - /// Note that this is entirely orthogonal to the recursive structure defined by - /// `variants` and `fields`; for example, `ManuallyDrop<Result<isize, isize>>` has - /// `Abi::ScalarPair`! So, even with non-`Aggregate` `abi`, `fields` and `variants` - /// have to be taken into account to find all fields of this layout. - pub abi: Abi, - - /// The leaf scalar with the largest number of invalid values - /// (i.e. outside of its `valid_range`), if it exists. - pub largest_niche: Option<Niche>, - - pub align: AbiAndPrefAlign, - pub size: Size, -} - -impl<'a> LayoutS<'a> { - pub fn scalar<C: HasDataLayout>(cx: &C, scalar: Scalar) -> Self { - let largest_niche = Niche::from_scalar(cx, Size::ZERO, scalar); - let size = scalar.size(cx); - let align = scalar.align(cx); - LayoutS { - variants: Variants::Single { index: VariantIdx::new(0) }, - fields: FieldsShape::Primitive, - abi: Abi::Scalar(scalar), - largest_niche, - size, - align, - } - } -} - -impl<'a> fmt::Debug for LayoutS<'a> { - fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { - // This is how `Layout` used to print before it become - // `Interned<LayoutS>`. We print it like this to avoid having to update - // expected output in a lot of tests. - let LayoutS { size, align, abi, fields, largest_niche, variants } = self; - f.debug_struct("Layout") - .field("size", size) - .field("align", align) - .field("abi", abi) - .field("fields", fields) - .field("largest_niche", largest_niche) - .field("variants", variants) - .finish() - } -} - #[derive(Copy, Clone, PartialEq, Eq, Hash, HashStable_Generic)] #[rustc_pass_by_value] -pub struct Layout<'a>(pub Interned<'a, LayoutS<'a>>); +pub struct Layout<'a>(pub Interned<'a, LayoutS<VariantIdx>>); impl<'a> fmt::Debug for Layout<'a> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { @@ -1319,7 +41,7 @@ impl<'a> Layout<'a> { &self.0.0.fields } - pub fn variants(self) -> &'a Variants<'a> { + pub fn variants(self) -> &'a Variants<VariantIdx> { &self.0.0.variants } @@ -1354,47 +76,12 @@ pub struct TyAndLayout<'a, Ty> { } impl<'a, Ty> Deref for TyAndLayout<'a, Ty> { - type Target = &'a LayoutS<'a>; - fn deref(&self) -> &&'a LayoutS<'a> { + type Target = &'a LayoutS<VariantIdx>; + fn deref(&self) -> &&'a LayoutS<VariantIdx> { &self.layout.0.0 } } -#[derive(Copy, Clone, PartialEq, Eq, Debug)] -pub enum PointerKind { - /// Most general case, we know no restrictions to tell LLVM. - SharedMutable, - - /// `&T` where `T` contains no `UnsafeCell`, is `dereferenceable`, `noalias` and `readonly`. - Frozen, - - /// `&mut T` which is `dereferenceable` and `noalias` but not `readonly`. - UniqueBorrowed, - - /// `&mut !Unpin`, which is `dereferenceable` but neither `noalias` nor `readonly`. - UniqueBorrowedPinned, - - /// `Box<T>`, which is `noalias` (even on return types, unlike the above) but neither `readonly` - /// nor `dereferenceable`. - UniqueOwned, -} - -#[derive(Copy, Clone, Debug)] -pub struct PointeeInfo { - pub size: Size, - pub align: Align, - pub safe: Option<PointerKind>, - pub address_space: AddressSpace, -} - -/// Used in `might_permit_raw_init` to indicate the kind of initialisation -/// that is checked to be valid -#[derive(Copy, Clone, Debug, PartialEq, Eq)] -pub enum InitKind { - Zero, - UninitMitigated0x01Fill, -} - /// Trait that needs to be implemented by the higher-level type representation /// (e.g. `rustc_middle::ty::Ty`), to provide `rustc_target::abi` functionality. pub trait TyAbiInterface<'a, C>: Sized { @@ -1490,6 +177,11 @@ impl<'a, Ty> TyAndLayout<'a, Ty> { self.abi.is_unsized() } + #[inline] + pub fn is_sized(&self) -> bool { + self.abi.is_sized() + } + /// Returns `true` if the type is a ZST and not unsized. pub fn is_zst(&self) -> bool { match self.abi { diff --git a/compiler/rustc_target/src/json.rs b/compiler/rustc_target/src/json.rs index b5d926352..75bb76a9d 100644 --- a/compiler/rustc_target/src/json.rs +++ b/compiler/rustc_target/src/json.rs @@ -89,3 +89,28 @@ impl<A: ToJson> ToJson for Option<A> { } } } + +impl ToJson for crate::abi::call::Conv { + fn to_json(&self) -> Json { + let s = match self { + Self::C => "C", + Self::Rust => "Rust", + Self::RustCold => "RustCold", + Self::ArmAapcs => "ArmAapcs", + Self::CCmseNonSecureCall => "CCmseNonSecureCall", + Self::Msp430Intr => "Msp430Intr", + Self::PtxKernel => "PtxKernel", + Self::X86Fastcall => "X86Fastcall", + Self::X86Intr => "X86Intr", + Self::X86Stdcall => "X86Stdcall", + Self::X86ThisCall => "X86ThisCall", + Self::X86VectorCall => "X86VectorCall", + Self::X86_64SysV => "X86_64SysV", + Self::X86_64Win64 => "X86_64Win64", + Self::AmdGpuKernel => "AmdGpuKernel", + Self::AvrInterrupt => "AvrInterrupt", + Self::AvrNonBlockingInterrupt => "AvrNonBlockingInterrupt", + }; + Json::String(s.to_owned()) + } +} diff --git a/compiler/rustc_target/src/lib.rs b/compiler/rustc_target/src/lib.rs index aaba0d7f0..b69a0a645 100644 --- a/compiler/rustc_target/src/lib.rs +++ b/compiler/rustc_target/src/lib.rs @@ -35,10 +35,7 @@ pub mod spec; #[cfg(test)] mod tests; -/// Requirements for a `StableHashingContext` to be used in this crate. -/// This is a hack to allow using the `HashStable_Generic` derive macro -/// instead of implementing everything in `rustc_middle`. -pub trait HashStableContext {} +pub use rustc_abi::HashStableContext; /// The name of rustc's own place to organize libraries. /// diff --git a/compiler/rustc_target/src/spec/aarch64_apple_darwin.rs b/compiler/rustc_target/src/spec/aarch64_apple_darwin.rs index 6d919a4c2..e72cab629 100644 --- a/compiler/rustc_target/src/spec/aarch64_apple_darwin.rs +++ b/compiler/rustc_target/src/spec/aarch64_apple_darwin.rs @@ -1,26 +1,23 @@ +use super::apple_base::{macos_llvm_target, opts, Arch}; use crate::spec::{FramePointer, SanitizerSet, Target, TargetOptions}; pub fn target() -> Target { - let arch = "arm64"; - let mut base = super::apple_base::opts("macos", arch, ""); + let arch = Arch::Arm64; + let mut base = opts("macos", arch); base.cpu = "apple-a14".into(); base.max_atomic_width = Some(128); // FIXME: The leak sanitizer currently fails the tests, see #88132. base.supported_sanitizers = SanitizerSet::ADDRESS | SanitizerSet::CFI | SanitizerSet::THREAD; - base.link_env_remove.to_mut().extend(super::apple_base::macos_link_env_remove()); - - // Clang automatically chooses a more specific target based on - // MACOSX_DEPLOYMENT_TARGET. To enable cross-language LTO to work - // correctly, we do too. - let llvm_target = super::apple_base::macos_llvm_target(arch); - Target { - llvm_target: llvm_target.into(), + // Clang automatically chooses a more specific target based on + // MACOSX_DEPLOYMENT_TARGET. To enable cross-language LTO to work + // correctly, we do too. + llvm_target: macos_llvm_target(arch).into(), pointer_width: 64, data_layout: "e-m:o-i64:64-i128:128-n32:64-S128".into(), - arch: "aarch64".into(), + arch: arch.target_arch(), options: TargetOptions { mcount: "\u{1}mcount".into(), frame_pointer: FramePointer::NonLeaf, diff --git a/compiler/rustc_target/src/spec/aarch64_apple_ios.rs b/compiler/rustc_target/src/spec/aarch64_apple_ios.rs index beb904239..b5f9eb125 100644 --- a/compiler/rustc_target/src/spec/aarch64_apple_ios.rs +++ b/compiler/rustc_target/src/spec/aarch64_apple_ios.rs @@ -1,19 +1,17 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{ios_llvm_target, opts, Arch}; use crate::spec::{FramePointer, Target, TargetOptions}; pub fn target() -> Target { - // Clang automatically chooses a more specific target based on - // IPHONEOS_DEPLOYMENT_TARGET. - // This is required for the target to pick the right - // MACH-O commands, so we do too. - let arch = "arm64"; - let llvm_target = super::apple_base::ios_llvm_target(arch); - + let arch = Arch::Arm64; Target { - llvm_target: llvm_target.into(), + // Clang automatically chooses a more specific target based on + // IPHONEOS_DEPLOYMENT_TARGET. + // This is required for the target to pick the right + // MACH-O commands, so we do too. + llvm_target: ios_llvm_target(arch).into(), pointer_width: 64, data_layout: "e-m:o-i64:64-i128:128-n32:64-S128".into(), - arch: "aarch64".into(), + arch: arch.target_arch(), options: TargetOptions { features: "+neon,+fp-armv8,+apple-a7".into(), max_atomic_width: Some(128), @@ -30,7 +28,7 @@ pub fn target() -> Target { darwinpcs\0\ -Os\0" .into(), - ..opts("ios", Arch::Arm64) + ..opts("ios", arch) }, } } diff --git a/compiler/rustc_target/src/spec/aarch64_apple_ios_macabi.rs b/compiler/rustc_target/src/spec/aarch64_apple_ios_macabi.rs index 2d2671549..0009972cf 100644 --- a/compiler/rustc_target/src/spec/aarch64_apple_ios_macabi.rs +++ b/compiler/rustc_target/src/spec/aarch64_apple_ios_macabi.rs @@ -1,17 +1,18 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, Arch}; use crate::spec::{Cc, FramePointer, LinkerFlavor, Lld, Target, TargetOptions}; pub fn target() -> Target { let llvm_target = "arm64-apple-ios14.0-macabi"; - let mut base = opts("ios", Arch::Arm64_macabi); + let arch = Arch::Arm64_macabi; + let mut base = opts("ios", arch); base.add_pre_link_args(LinkerFlavor::Darwin(Cc::Yes, Lld::No), &["-target", llvm_target]); Target { llvm_target: llvm_target.into(), pointer_width: 64, data_layout: "e-m:o-i64:64-i128:128-n32:64-S128".into(), - arch: "aarch64".into(), + arch: arch.target_arch(), options: TargetOptions { features: "+neon,+fp-armv8,+apple-a12".into(), max_atomic_width: Some(128), diff --git a/compiler/rustc_target/src/spec/aarch64_apple_ios_sim.rs b/compiler/rustc_target/src/spec/aarch64_apple_ios_sim.rs index b4e135f66..3374755e2 100644 --- a/compiler/rustc_target/src/spec/aarch64_apple_ios_sim.rs +++ b/compiler/rustc_target/src/spec/aarch64_apple_ios_sim.rs @@ -1,21 +1,17 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{ios_sim_llvm_target, opts, Arch}; use crate::spec::{FramePointer, Target, TargetOptions}; pub fn target() -> Target { - let base = opts("ios", Arch::Arm64_sim); - - // Clang automatically chooses a more specific target based on - // IPHONEOS_DEPLOYMENT_TARGET. - // This is required for the simulator target to pick the right - // MACH-O commands, so we do too. - let arch = "arm64"; - let llvm_target = super::apple_base::ios_sim_llvm_target(arch); - + let arch = Arch::Arm64_sim; Target { - llvm_target: llvm_target.into(), + // Clang automatically chooses a more specific target based on + // IPHONEOS_DEPLOYMENT_TARGET. + // This is required for the simulator target to pick the right + // MACH-O commands, so we do too. + llvm_target: ios_sim_llvm_target(arch).into(), pointer_width: 64, data_layout: "e-m:o-i64:64-i128:128-n32:64-S128".into(), - arch: "aarch64".into(), + arch: arch.target_arch(), options: TargetOptions { features: "+neon,+fp-armv8,+apple-a7".into(), max_atomic_width: Some(128), @@ -32,7 +28,7 @@ pub fn target() -> Target { darwinpcs\0\ -Os\0" .into(), - ..base + ..opts("ios", arch) }, } } diff --git a/compiler/rustc_target/src/spec/aarch64_apple_tvos.rs b/compiler/rustc_target/src/spec/aarch64_apple_tvos.rs index 2e31d16dc..bb7c39ff2 100644 --- a/compiler/rustc_target/src/spec/aarch64_apple_tvos.rs +++ b/compiler/rustc_target/src/spec/aarch64_apple_tvos.rs @@ -1,18 +1,19 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, Arch}; use crate::spec::{FramePointer, Target, TargetOptions}; pub fn target() -> Target { + let arch = Arch::Arm64; Target { llvm_target: "arm64-apple-tvos".into(), pointer_width: 64, data_layout: "e-m:o-i64:64-i128:128-n32:64-S128".into(), - arch: "aarch64".into(), + arch: arch.target_arch(), options: TargetOptions { features: "+neon,+fp-armv8,+apple-a7".into(), max_atomic_width: Some(128), forces_embed_bitcode: true, frame_pointer: FramePointer::NonLeaf, - ..opts("tvos", Arch::Arm64) + ..opts("tvos", arch) }, } } diff --git a/compiler/rustc_target/src/spec/aarch64_apple_watchos_sim.rs b/compiler/rustc_target/src/spec/aarch64_apple_watchos_sim.rs index 3059f4214..e4af4127c 100644 --- a/compiler/rustc_target/src/spec/aarch64_apple_watchos_sim.rs +++ b/compiler/rustc_target/src/spec/aarch64_apple_watchos_sim.rs @@ -1,21 +1,17 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, watchos_sim_llvm_target, Arch}; use crate::spec::{FramePointer, Target, TargetOptions}; pub fn target() -> Target { - let base = opts("watchos", Arch::Arm64_sim); - - // Clang automatically chooses a more specific target based on - // WATCHOS_DEPLOYMENT_TARGET. - // This is required for the simulator target to pick the right - // MACH-O commands, so we do too. - let arch = "arm64"; - let llvm_target = super::apple_base::watchos_sim_llvm_target(arch); - + let arch = Arch::Arm64_sim; Target { - llvm_target: llvm_target.into(), + // Clang automatically chooses a more specific target based on + // WATCHOS_DEPLOYMENT_TARGET. + // This is required for the simulator target to pick the right + // MACH-O commands, so we do too. + llvm_target: watchos_sim_llvm_target(arch).into(), pointer_width: 64, data_layout: "e-m:o-i64:64-i128:128-n32:64-S128".into(), - arch: "aarch64".into(), + arch: arch.target_arch(), options: TargetOptions { features: "+neon,+fp-armv8,+apple-a7".into(), max_atomic_width: Some(128), @@ -32,7 +28,7 @@ pub fn target() -> Target { darwinpcs\0\ -Os\0" .into(), - ..base + ..opts("watchos", arch) }, } } diff --git a/compiler/rustc_target/src/spec/aarch64_unknown_nto_qnx_710.rs b/compiler/rustc_target/src/spec/aarch64_unknown_nto_qnx_710.rs new file mode 100644 index 000000000..916b6137b --- /dev/null +++ b/compiler/rustc_target/src/spec/aarch64_unknown_nto_qnx_710.rs @@ -0,0 +1,28 @@ +use super::nto_qnx_base; +use crate::spec::{Cc, LinkerFlavor, Lld, Target, TargetOptions}; + +pub fn target() -> Target { + Target { + llvm_target: "aarch64-unknown-unknown".into(), + pointer_width: 64, + // from: https://llvm.org/docs/LangRef.html#data-layout + // e = little endian + // m:e = ELF mangling: Private symbols get a .L prefix + // i8:8:32 = 8-bit-integer, minimum_alignment=8, preferred_alignment=32 + // i16:16:32 = 16-bit-integer, minimum_alignment=16, preferred_alignment=32 + // i64:64 = 64-bit-integer, minimum_alignment=64, preferred_alignment=64 + // i128:128 = 128-bit-integer, minimum_alignment=128, preferred_alignment=128 + // n32:64 = 32 and 64 are native integer widths; Elements of this set are considered to support most general arithmetic operations efficiently. + // S128 = 128 bits are the natural alignment of the stack in bits. + data_layout: "e-m:e-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128".into(), + arch: "aarch64".into(), + options: TargetOptions { + max_atomic_width: Some(128), + pre_link_args: TargetOptions::link_args( + LinkerFlavor::Gnu(Cc::Yes, Lld::No), + &["-Vgcc_ntoaarch64le_cxx"], + ), + ..nto_qnx_base::opts() + }, + } +} diff --git a/compiler/rustc_target/src/spec/abi.rs b/compiler/rustc_target/src/spec/abi.rs index ce45fa139..cb2a0c04c 100644 --- a/compiler/rustc_target/src/spec/abi.rs +++ b/compiler/rustc_target/src/spec/abi.rs @@ -40,6 +40,28 @@ pub enum Abi { RustCold, } +impl Abi { + pub fn supports_varargs(self) -> bool { + // * C and Cdecl obviously support varargs. + // * C can be based on SysV64 or Win64, so they must support varargs. + // * EfiApi is based on Win64 or C, so it also supports it. + // + // * Stdcall does not, because it would be impossible for the callee to clean + // up the arguments. (callee doesn't know how many arguments are there) + // * Same for Fastcall, Vectorcall and Thiscall. + // * System can become Stdcall, so is also a no-no. + // * Other calling conventions are related to hardware or the compiler itself. + match self { + Self::C { .. } + | Self::Cdecl { .. } + | Self::Win64 { .. } + | Self::SysV64 { .. } + | Self::EfiApi => true, + _ => false, + } + } +} + #[derive(Copy, Clone)] pub struct AbiData { abi: Abi, diff --git a/compiler/rustc_target/src/spec/aix_base.rs b/compiler/rustc_target/src/spec/aix_base.rs new file mode 100644 index 000000000..c71c4ba2c --- /dev/null +++ b/compiler/rustc_target/src/spec/aix_base.rs @@ -0,0 +1,32 @@ +use crate::abi::Endian; +use crate::spec::{crt_objects, cvs, Cc, CodeModel, LinkOutputKind, LinkerFlavor, TargetOptions}; + +pub fn opts() -> TargetOptions { + TargetOptions { + abi: "vec-extabi".into(), + code_model: Some(CodeModel::Small), + cpu: "pwr7".into(), + os: "aix".into(), + vendor: "ibm".into(), + dynamic_linking: true, + endian: Endian::Big, + executables: true, + archive_format: "aix_big".into(), + families: cvs!["unix"], + has_rpath: false, + has_thread_local: true, + crt_static_respected: true, + linker_flavor: LinkerFlavor::Unix(Cc::No), + linker: Some("ld".into()), + eh_frame_header: false, + is_like_aix: true, + default_dwarf_version: 3, + function_sections: true, + pre_link_objects: crt_objects::new(&[ + (LinkOutputKind::DynamicNoPicExe, &["/usr/lib/crt0_64.o", "/usr/lib/crti_64.o"]), + (LinkOutputKind::DynamicPicExe, &["/usr/lib/crt0_64.o", "/usr/lib/crti_64.o"]), + ]), + dll_suffix: ".a".into(), + ..Default::default() + } +} diff --git a/compiler/rustc_target/src/spec/apple/tests.rs b/compiler/rustc_target/src/spec/apple/tests.rs new file mode 100644 index 000000000..3c90a5e7e --- /dev/null +++ b/compiler/rustc_target/src/spec/apple/tests.rs @@ -0,0 +1,35 @@ +use crate::spec::{ + aarch64_apple_darwin, aarch64_apple_ios_sim, aarch64_apple_watchos_sim, i686_apple_darwin, + x86_64_apple_darwin, x86_64_apple_ios, x86_64_apple_tvos, x86_64_apple_watchos_sim, +}; + +#[test] +fn simulator_targets_set_abi() { + let all_sim_targets = [ + x86_64_apple_ios::target(), + x86_64_apple_tvos::target(), + x86_64_apple_watchos_sim::target(), + aarch64_apple_ios_sim::target(), + // Note: There is currently no ARM64 tvOS simulator target + aarch64_apple_watchos_sim::target(), + ]; + + for target in all_sim_targets { + assert_eq!(target.abi, "sim") + } +} + +#[test] +fn macos_link_environment_unmodified() { + let all_macos_targets = [ + aarch64_apple_darwin::target(), + i686_apple_darwin::target(), + x86_64_apple_darwin::target(), + ]; + + for target in all_macos_targets { + // macOS targets should only remove information for cross-compiling, but never + // for the host. + assert_eq!(target.link_env_remove, crate::spec::cvs!["IPHONEOS_DEPLOYMENT_TARGET"]); + } +} diff --git a/compiler/rustc_target/src/spec/apple_base.rs b/compiler/rustc_target/src/spec/apple_base.rs index 40bc59ca1..7f8160b5d 100644 --- a/compiler/rustc_target/src/spec/apple_base.rs +++ b/compiler/rustc_target/src/spec/apple_base.rs @@ -3,7 +3,78 @@ use std::{borrow::Cow, env}; use crate::spec::{cvs, Cc, DebuginfoKind, FramePointer, LinkArgs}; use crate::spec::{LinkerFlavor, Lld, SplitDebuginfo, StaticCow, TargetOptions}; -fn pre_link_args(os: &'static str, arch: &'static str, abi: &'static str) -> LinkArgs { +#[cfg(test)] +#[path = "apple/tests.rs"] +mod tests; + +use Arch::*; +#[allow(non_camel_case_types)] +#[derive(Copy, Clone)] +pub enum Arch { + Armv7, + Armv7k, + Armv7s, + Arm64, + Arm64_32, + I386, + I686, + X86_64, + X86_64_sim, + X86_64_macabi, + Arm64_macabi, + Arm64_sim, +} + +impl Arch { + pub fn target_name(self) -> &'static str { + match self { + Armv7 => "armv7", + Armv7k => "armv7k", + Armv7s => "armv7s", + Arm64 | Arm64_macabi | Arm64_sim => "arm64", + Arm64_32 => "arm64_32", + I386 => "i386", + I686 => "i686", + X86_64 | X86_64_sim | X86_64_macabi => "x86_64", + } + } + + pub fn target_arch(self) -> Cow<'static, str> { + Cow::Borrowed(match self { + Armv7 | Armv7k | Armv7s => "arm", + Arm64 | Arm64_32 | Arm64_macabi | Arm64_sim => "aarch64", + I386 | I686 => "x86", + X86_64 | X86_64_sim | X86_64_macabi => "x86_64", + }) + } + + fn target_abi(self) -> &'static str { + match self { + Armv7 | Armv7k | Armv7s | Arm64 | Arm64_32 | I386 | I686 | X86_64 => "", + X86_64_macabi | Arm64_macabi => "macabi", + // x86_64-apple-ios is a simulator target, even though it isn't + // declared that way in the target like the other ones... + Arm64_sim | X86_64_sim => "sim", + } + } + + fn target_cpu(self) -> &'static str { + match self { + Armv7 => "cortex-a8", // iOS7 is supported on iPhone 4 and higher + Armv7k => "cortex-a8", + Armv7s => "cortex-a9", + Arm64 => "apple-a7", + Arm64_32 => "apple-s4", + I386 | I686 => "yonah", + X86_64 | X86_64_sim => "core2", + X86_64_macabi => "core2", + Arm64_macabi => "apple-a12", + Arm64_sim => "apple-a12", + } + } +} + +fn pre_link_args(os: &'static str, arch: Arch, abi: &'static str) -> LinkArgs { let platform_name: StaticCow<str> = match abi { "sim" => format!("{}-simulator", os).into(), "macabi" => "mac-catalyst".into(), @@ -19,6 +90,8 @@ fn pre_link_args(os: &'static str, arch: &'static str, abi: &'static str) -> Lin } .into(); + let arch = arch.target_name(); + let mut args = TargetOptions::link_args( LinkerFlavor::Darwin(Cc::No, Lld::No), &["-arch", arch, "-platform_version"], @@ -35,24 +108,29 @@ fn pre_link_args(os: &'static str, arch: &'static str, abi: &'static str) -> Lin args } -pub fn opts(os: &'static str, arch: &'static str, abi: &'static str) -> TargetOptions { - // ELF TLS is only available in macOS 10.7+. If you try to compile for 10.6 +pub fn opts(os: &'static str, arch: Arch) -> TargetOptions { + // Static TLS is only available in macOS 10.7+. If you try to compile for 10.6 // either the linker will complain if it is used or the binary will end up // segfaulting at runtime when run on 10.6. Rust by default supports macOS // 10.7+, but there is a standard environment variable, // MACOSX_DEPLOYMENT_TARGET, which is used to signal targeting older // versions of macOS. For example compiling on 10.10 with // MACOSX_DEPLOYMENT_TARGET set to 10.6 will cause the linker to generate - // warnings about the usage of ELF TLS. + // warnings about the usage of static TLS. // - // Here we detect what version is being requested, defaulting to 10.7. ELF + // Here we detect what version is being requested, defaulting to 10.7. Static // TLS is flagged as enabled if it looks to be supported. The architecture // only matters for default deployment target which is 11.0 for ARM64 and // 10.7 for everything else. - let has_thread_local = macos_deployment_target("x86_64") >= (10, 7); + let has_thread_local = os == "macos" && macos_deployment_target(Arch::X86_64) >= (10, 7); + + let abi = arch.target_abi(); TargetOptions { + abi: abi.into(), os: os.into(), + cpu: arch.target_cpu().into(), + link_env_remove: link_env_remove(arch, os), vendor: "apple".into(), linker_flavor: LinkerFlavor::Darwin(Cc::Yes, Lld::No), // macOS has -dead_strip, which doesn't rely on function_sections @@ -103,46 +181,65 @@ fn deployment_target(var_name: &str) -> Option<(u32, u32)> { .and_then(|(a, b)| a.parse::<u32>().and_then(|a| b.parse::<u32>().map(|b| (a, b))).ok()) } -fn macos_default_deployment_target(arch: &str) -> (u32, u32) { - if arch == "arm64" { (11, 0) } else { (10, 7) } +fn macos_default_deployment_target(arch: Arch) -> (u32, u32) { + // Note: Arm64_sim is not included since macOS has no simulator. + if matches!(arch, Arm64 | Arm64_macabi) { (11, 0) } else { (10, 7) } } -fn macos_deployment_target(arch: &str) -> (u32, u32) { +fn macos_deployment_target(arch: Arch) -> (u32, u32) { deployment_target("MACOSX_DEPLOYMENT_TARGET") .unwrap_or_else(|| macos_default_deployment_target(arch)) } -fn macos_lld_platform_version(arch: &str) -> String { +fn macos_lld_platform_version(arch: Arch) -> String { let (major, minor) = macos_deployment_target(arch); format!("{}.{}", major, minor) } -pub fn macos_llvm_target(arch: &str) -> String { +pub fn macos_llvm_target(arch: Arch) -> String { let (major, minor) = macos_deployment_target(arch); - format!("{}-apple-macosx{}.{}.0", arch, major, minor) + format!("{}-apple-macosx{}.{}.0", arch.target_name(), major, minor) } -pub fn macos_link_env_remove() -> Vec<StaticCow<str>> { - let mut env_remove = Vec::with_capacity(2); - // Remove the `SDKROOT` environment variable if it's clearly set for the wrong platform, which - // may occur when we're linking a custom build script while targeting iOS for example. - if let Ok(sdkroot) = env::var("SDKROOT") { - if sdkroot.contains("iPhoneOS.platform") || sdkroot.contains("iPhoneSimulator.platform") { - env_remove.push("SDKROOT".into()) +fn link_env_remove(arch: Arch, os: &'static str) -> StaticCow<[StaticCow<str>]> { + // Apple platforms only officially support macOS as a host for any compilation. + // + // If building for macOS, we go ahead and remove any erronous environment state + // that's only applicable to cross-OS compilation. Always leave anything for the + // host OS alone though. + if os == "macos" { + let mut env_remove = Vec::with_capacity(2); + // Remove the `SDKROOT` environment variable if it's clearly set for the wrong platform, which + // may occur when we're linking a custom build script while targeting iOS for example. + if let Ok(sdkroot) = env::var("SDKROOT") { + if sdkroot.contains("iPhoneOS.platform") || sdkroot.contains("iPhoneSimulator.platform") + { + env_remove.push("SDKROOT".into()) + } + } + // Additionally, `IPHONEOS_DEPLOYMENT_TARGET` must not be set when using the Xcode linker at + // "/Applications/Xcode.app/Contents/Developer/Toolchains/XcodeDefault.xctoolchain/usr/bin/ld", + // although this is apparently ignored when using the linker at "/usr/bin/ld". + env_remove.push("IPHONEOS_DEPLOYMENT_TARGET".into()); + env_remove.into() + } else { + // Otherwise if cross-compiling for a different OS/SDK, remove any part + // of the linking environment that's wrong and reversed. + match arch { + Armv7 | Armv7k | Armv7s | Arm64 | Arm64_32 | I386 | I686 | X86_64 | X86_64_sim + | Arm64_sim => { + cvs!["MACOSX_DEPLOYMENT_TARGET"] + } + X86_64_macabi | Arm64_macabi => cvs!["IPHONEOS_DEPLOYMENT_TARGET"], } } - // Additionally, `IPHONEOS_DEPLOYMENT_TARGET` must not be set when using the Xcode linker at - // "/Applications/Xcode.app/Contents/Developer/Toolchains/XcodeDefault.xctoolchain/usr/bin/ld", - // although this is apparently ignored when using the linker at "/usr/bin/ld". - env_remove.push("IPHONEOS_DEPLOYMENT_TARGET".into()); - env_remove } fn ios_deployment_target() -> (u32, u32) { deployment_target("IPHONEOS_DEPLOYMENT_TARGET").unwrap_or((7, 0)) } -pub fn ios_llvm_target(arch: &str) -> String { +pub fn ios_llvm_target(arch: Arch) -> String { // Modern iOS tooling extracts information about deployment target // from LC_BUILD_VERSION. This load command will only be emitted when // we build with a version specific `llvm_target`, with the version @@ -150,7 +247,7 @@ pub fn ios_llvm_target(arch: &str) -> String { // to pick it up (since std and core are still built with the fallback // of version 7.0 and hence emit the old LC_IPHONE_MIN_VERSION). let (major, minor) = ios_deployment_target(); - format!("{}-apple-ios{}.{}.0", arch, major, minor) + format!("{}-apple-ios{}.{}.0", arch.target_name(), major, minor) } fn ios_lld_platform_version() -> String { @@ -158,9 +255,9 @@ fn ios_lld_platform_version() -> String { format!("{}.{}", major, minor) } -pub fn ios_sim_llvm_target(arch: &str) -> String { +pub fn ios_sim_llvm_target(arch: Arch) -> String { let (major, minor) = ios_deployment_target(); - format!("{}-apple-ios{}.{}.0-simulator", arch, major, minor) + format!("{}-apple-ios{}.{}.0-simulator", arch.target_name(), major, minor) } fn tvos_deployment_target() -> (u32, u32) { @@ -181,7 +278,7 @@ fn watchos_lld_platform_version() -> String { format!("{}.{}", major, minor) } -pub fn watchos_sim_llvm_target(arch: &str) -> String { +pub fn watchos_sim_llvm_target(arch: Arch) -> String { let (major, minor) = watchos_deployment_target(); - format!("{}-apple-watchos{}.{}.0-simulator", arch, major, minor) + format!("{}-apple-watchos{}.{}.0-simulator", arch.target_name(), major, minor) } diff --git a/compiler/rustc_target/src/spec/apple_sdk_base.rs b/compiler/rustc_target/src/spec/apple_sdk_base.rs deleted file mode 100644 index 49e302676..000000000 --- a/compiler/rustc_target/src/spec/apple_sdk_base.rs +++ /dev/null @@ -1,72 +0,0 @@ -use crate::spec::{cvs, TargetOptions}; -use std::borrow::Cow; - -use Arch::*; -#[allow(non_camel_case_types)] -#[derive(Copy, Clone)] -pub enum Arch { - Armv7, - Armv7k, - Armv7s, - Arm64, - Arm64_32, - I386, - X86_64, - X86_64_macabi, - Arm64_macabi, - Arm64_sim, -} - -fn target_arch_name(arch: Arch) -> &'static str { - match arch { - Armv7 => "armv7", - Armv7k => "armv7k", - Armv7s => "armv7s", - Arm64 | Arm64_macabi | Arm64_sim => "arm64", - Arm64_32 => "arm64_32", - I386 => "i386", - X86_64 | X86_64_macabi => "x86_64", - } -} - -fn target_abi(arch: Arch) -> &'static str { - match arch { - Armv7 | Armv7k | Armv7s | Arm64 | Arm64_32 | I386 | X86_64 => "", - X86_64_macabi | Arm64_macabi => "macabi", - Arm64_sim => "sim", - } -} - -fn target_cpu(arch: Arch) -> &'static str { - match arch { - Armv7 => "cortex-a8", // iOS7 is supported on iPhone 4 and higher - Armv7k => "cortex-a8", - Armv7s => "cortex-a9", - Arm64 => "apple-a7", - Arm64_32 => "apple-s4", - I386 => "yonah", - X86_64 => "core2", - X86_64_macabi => "core2", - Arm64_macabi => "apple-a12", - Arm64_sim => "apple-a12", - } -} - -fn link_env_remove(arch: Arch) -> Cow<'static, [Cow<'static, str>]> { - match arch { - Armv7 | Armv7k | Armv7s | Arm64 | Arm64_32 | I386 | X86_64 | Arm64_sim => { - cvs!["MACOSX_DEPLOYMENT_TARGET"] - } - X86_64_macabi | Arm64_macabi => cvs!["IPHONEOS_DEPLOYMENT_TARGET"], - } -} - -pub fn opts(os: &'static str, arch: Arch) -> TargetOptions { - TargetOptions { - abi: target_abi(arch).into(), - cpu: target_cpu(arch).into(), - link_env_remove: link_env_remove(arch), - has_thread_local: false, - ..super::apple_base::opts(os, target_arch_name(arch), target_abi(arch)) - } -} diff --git a/compiler/rustc_target/src/spec/arm64_32_apple_watchos.rs b/compiler/rustc_target/src/spec/arm64_32_apple_watchos.rs index cb7f5f2a5..52ee68e75 100644 --- a/compiler/rustc_target/src/spec/arm64_32_apple_watchos.rs +++ b/compiler/rustc_target/src/spec/arm64_32_apple_watchos.rs @@ -1,4 +1,4 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, Arch}; use crate::spec::{Target, TargetOptions}; pub fn target() -> Target { @@ -12,6 +12,8 @@ pub fn target() -> Target { features: "+neon,+fp-armv8,+apple-a7".into(), max_atomic_width: Some(128), forces_embed_bitcode: true, + dynamic_linking: false, + position_independent_executables: true, // These arguments are not actually invoked - they just have // to look right to pass App Store validation. bitcode_llvm_cmdline: "-triple\0\ diff --git a/compiler/rustc_target/src/spec/armv7_apple_ios.rs b/compiler/rustc_target/src/spec/armv7_apple_ios.rs index 57fd74a36..3259c8547 100644 --- a/compiler/rustc_target/src/spec/armv7_apple_ios.rs +++ b/compiler/rustc_target/src/spec/armv7_apple_ios.rs @@ -1,18 +1,21 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{ios_llvm_target, opts, Arch}; use crate::spec::{Target, TargetOptions}; pub fn target() -> Target { - let llvm_target = super::apple_base::ios_llvm_target("armv7"); - + let arch = Arch::Armv7; Target { - llvm_target: llvm_target.into(), + // Clang automatically chooses a more specific target based on + // IPHONEOS_DEPLOYMENT_TARGET. + // This is required for the target to pick the right + // MACH-O commands, so we do too. + llvm_target: ios_llvm_target(arch).into(), pointer_width: 32, data_layout: "e-m:o-p:32:32-Fi8-f64:32:64-v64:32:64-v128:32:128-a:0:32-n32-S32".into(), - arch: "arm".into(), + arch: arch.target_arch(), options: TargetOptions { features: "+v7,+vfp3,+neon".into(), max_atomic_width: Some(64), - ..opts("ios", Arch::Armv7) + ..opts("ios", arch) }, } } diff --git a/compiler/rustc_target/src/spec/armv7k_apple_watchos.rs b/compiler/rustc_target/src/spec/armv7k_apple_watchos.rs index af5d1c2ff..6e1d00d1f 100644 --- a/compiler/rustc_target/src/spec/armv7k_apple_watchos.rs +++ b/compiler/rustc_target/src/spec/armv7k_apple_watchos.rs @@ -1,17 +1,19 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, Arch}; use crate::spec::{Target, TargetOptions}; pub fn target() -> Target { - let base = opts("watchos", Arch::Armv7k); + let arch = Arch::Armv7k; Target { llvm_target: "armv7k-apple-watchos".into(), pointer_width: 32, data_layout: "e-m:o-p:32:32-Fi8-i64:64-a:0:32-n32-S128".into(), - arch: "arm".into(), + arch: arch.target_arch(), options: TargetOptions { features: "+v7,+vfp4,+neon".into(), max_atomic_width: Some(64), forces_embed_bitcode: true, + dynamic_linking: false, + position_independent_executables: true, // These arguments are not actually invoked - they just have // to look right to pass App Store validation. bitcode_llvm_cmdline: "-triple\0\ @@ -22,7 +24,7 @@ pub fn target() -> Target { darwinpcs\0\ -Os\0" .into(), - ..base + ..opts("watchos", arch) }, } } diff --git a/compiler/rustc_target/src/spec/armv7s_apple_ios.rs b/compiler/rustc_target/src/spec/armv7s_apple_ios.rs index cc17265b2..be4bc6758 100644 --- a/compiler/rustc_target/src/spec/armv7s_apple_ios.rs +++ b/compiler/rustc_target/src/spec/armv7s_apple_ios.rs @@ -1,16 +1,17 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, Arch}; use crate::spec::{Target, TargetOptions}; pub fn target() -> Target { + let arch = Arch::Armv7s; Target { llvm_target: "armv7s-apple-ios".into(), pointer_width: 32, data_layout: "e-m:o-p:32:32-Fi8-f64:32:64-v64:32:64-v128:32:128-a:0:32-n32-S32".into(), - arch: "arm".into(), + arch: arch.target_arch(), options: TargetOptions { features: "+v7,+vfp4,+neon".into(), max_atomic_width: Some(64), - ..opts("ios", Arch::Armv7s) + ..opts("ios", arch) }, } } diff --git a/compiler/rustc_target/src/spec/i386_apple_ios.rs b/compiler/rustc_target/src/spec/i386_apple_ios.rs index b85214a9c..581998161 100644 --- a/compiler/rustc_target/src/spec/i386_apple_ios.rs +++ b/compiler/rustc_target/src/spec/i386_apple_ios.rs @@ -1,21 +1,23 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{ios_sim_llvm_target, opts, Arch}; use crate::spec::{StackProbeType, Target, TargetOptions}; pub fn target() -> Target { - let base = opts("ios", Arch::I386); - let llvm_target = super::apple_base::ios_sim_llvm_target("i386"); - + let arch = Arch::I386; Target { - llvm_target: llvm_target.into(), + // Clang automatically chooses a more specific target based on + // IPHONEOS_DEPLOYMENT_TARGET. + // This is required for the target to pick the right + // MACH-O commands, so we do too. + llvm_target: ios_sim_llvm_target(arch).into(), pointer_width: 32, data_layout: "e-m:o-p:32:32-p270:32:32-p271:32:32-p272:64:64-\ f64:32:64-f80:128-n8:16:32-S128" .into(), - arch: "x86".into(), + arch: arch.target_arch(), options: TargetOptions { max_atomic_width: Some(64), stack_probes: StackProbeType::X86, - ..base + ..opts("ios", arch) }, } } diff --git a/compiler/rustc_target/src/spec/i686_apple_darwin.rs b/compiler/rustc_target/src/spec/i686_apple_darwin.rs index 15607c12e..ad22467ba 100644 --- a/compiler/rustc_target/src/spec/i686_apple_darwin.rs +++ b/compiler/rustc_target/src/spec/i686_apple_darwin.rs @@ -1,28 +1,27 @@ +use super::apple_base::{macos_llvm_target, opts, Arch}; use crate::spec::{Cc, FramePointer, LinkerFlavor, Lld, StackProbeType, Target, TargetOptions}; pub fn target() -> Target { - // ld64 only understand i386 and not i686 - let mut base = super::apple_base::opts("macos", "i386", ""); - base.cpu = "yonah".into(); + // ld64 only understands i386 and not i686 + let arch = Arch::I386; + let mut base = opts("macos", arch); base.max_atomic_width = Some(64); base.add_pre_link_args(LinkerFlavor::Darwin(Cc::Yes, Lld::No), &["-m32"]); - base.link_env_remove.to_mut().extend(super::apple_base::macos_link_env_remove()); base.stack_probes = StackProbeType::X86; base.frame_pointer = FramePointer::Always; - // Clang automatically chooses a more specific target based on - // MACOSX_DEPLOYMENT_TARGET. To enable cross-language LTO to work - // correctly, we do too. - let arch = "i686"; - let llvm_target = super::apple_base::macos_llvm_target(&arch); - Target { - llvm_target: llvm_target.into(), + // Clang automatically chooses a more specific target based on + // MACOSX_DEPLOYMENT_TARGET. To enable cross-language LTO to work + // correctly, we do too. + // + // While ld64 doesn't understand i686, LLVM does. + llvm_target: macos_llvm_target(Arch::I686).into(), pointer_width: 32, data_layout: "e-m:o-p:32:32-p270:32:32-p271:32:32-p272:64:64-\ f64:32:64-f80:128-n8:16:32-S128" .into(), - arch: "x86".into(), + arch: arch.target_arch(), options: TargetOptions { mcount: "\u{1}mcount".into(), ..base }, } } diff --git a/compiler/rustc_target/src/spec/linux_kernel_base.rs b/compiler/rustc_target/src/spec/linux_kernel_base.rs deleted file mode 100644 index f41533a95..000000000 --- a/compiler/rustc_target/src/spec/linux_kernel_base.rs +++ /dev/null @@ -1,18 +0,0 @@ -use crate::spec::TargetOptions; -use crate::spec::{FramePointer, PanicStrategy, RelocModel, RelroLevel, StackProbeType}; - -pub fn opts() -> TargetOptions { - TargetOptions { - env: "gnu".into(), - disable_redzone: true, - panic_strategy: PanicStrategy::Abort, - stack_probes: StackProbeType::X86, - frame_pointer: FramePointer::Always, - position_independent_executables: true, - needs_plt: true, - relro_level: RelroLevel::Full, - relocation_model: RelocModel::Static, - - ..Default::default() - } -} diff --git a/compiler/rustc_target/src/spec/mipsel_sony_psx.rs b/compiler/rustc_target/src/spec/mipsel_sony_psx.rs new file mode 100644 index 000000000..12a66efdd --- /dev/null +++ b/compiler/rustc_target/src/spec/mipsel_sony_psx.rs @@ -0,0 +1,37 @@ +use crate::spec::{cvs, Cc, LinkerFlavor, Lld, PanicStrategy, RelocModel, Target, TargetOptions}; + +pub fn target() -> Target { + Target { + llvm_target: "mipsel-sony-psx".into(), + pointer_width: 32, + data_layout: "e-m:m-p:32:32-i8:8:32-i16:16:32-i64:64-n32-S64".into(), + arch: "mips".into(), + + options: TargetOptions { + os: "none".into(), + env: "psx".into(), + vendor: "sony".into(), + linker_flavor: LinkerFlavor::Gnu(Cc::No, Lld::Yes), + cpu: "mips1".into(), + executables: true, + linker: Some("rust-lld".into()), + relocation_model: RelocModel::Static, + exe_suffix: ".exe".into(), + + // PSX doesn't natively support floats. + features: "+soft-float".into(), + + // This should be 16 bits, but LLVM incorrectly tries emitting MIPS-II SYNC instructions + // for atomic loads and stores. This crashes rustc so we have to disable the Atomic* API + // until this is fixed upstream. See https://reviews.llvm.org/D122427#3420144 for more + // info. + max_atomic_width: Some(0), + + // PSX does not support trap-on-condition instructions. + llvm_args: cvs!["-mno-check-zero-division"], + llvm_abiname: "o32".into(), + panic_strategy: PanicStrategy::Abort, + ..Default::default() + }, + } +} diff --git a/compiler/rustc_target/src/spec/mod.rs b/compiler/rustc_target/src/spec/mod.rs index 8909cf33a..d05b8aa42 100644 --- a/compiler/rustc_target/src/spec/mod.rs +++ b/compiler/rustc_target/src/spec/mod.rs @@ -34,7 +34,8 @@ //! the target's settings, though `target-feature` and `link-args` will *add* //! to the list specified by the target, rather than replace. -use crate::abi::Endian; +use crate::abi::call::Conv; +use crate::abi::{Endian, Integer, Size, TargetDataLayout, TargetDataLayoutErrors}; use crate::json::{Json, ToJson}; use crate::spec::abi::{lookup as lookup_abi, Abi}; use crate::spec::crt_objects::{CrtObjects, LinkSelfContainedDefault}; @@ -57,9 +58,9 @@ use rustc_macros::HashStable_Generic; pub mod abi; pub mod crt_objects; +mod aix_base; mod android_base; mod apple_base; -mod apple_sdk_base; mod avr_gnu_base; mod bpf_base; mod dragonfly_base; @@ -71,11 +72,11 @@ mod illumos_base; mod l4re_base; mod linux_base; mod linux_gnu_base; -mod linux_kernel_base; mod linux_musl_base; mod linux_uclibc_base; mod msvc_base; mod netbsd_base; +mod nto_qnx_base; mod openbsd_base; mod redox_base; mod solaris_base; @@ -115,7 +116,7 @@ pub enum Lld { /// relevant now. /// /// The second goal is to keep the number of flavors to the minimum if possible. -/// LLD somewhat forces our hand here because that linker is self-sufficent only if its executable +/// LLD somewhat forces our hand here because that linker is self-sufficient only if its executable /// (`argv[0]`) is named in specific way, otherwise it doesn't work and requires a /// `-flavor LLD_FLAVOR` argument to choose which logic to use. Our shipped `rust-lld` in /// particular is not named in such specific way, so it needs the flavor option, so we make our @@ -1003,7 +1004,7 @@ macro_rules! supported_targets { $( #[test] // `#[test]` fn $module() { - tests_impl::test_target(super::$module::target(), $triple); + tests_impl::test_target(super::$module::target()); } )+ } @@ -1027,6 +1028,7 @@ supported_targets! { ("powerpc-unknown-linux-gnu", powerpc_unknown_linux_gnu), ("powerpc-unknown-linux-gnuspe", powerpc_unknown_linux_gnuspe), ("powerpc-unknown-linux-musl", powerpc_unknown_linux_musl), + ("powerpc64-ibm-aix", powerpc64_ibm_aix), ("powerpc64-unknown-linux-gnu", powerpc64_unknown_linux_gnu), ("powerpc64-unknown-linux-musl", powerpc64_unknown_linux_musl), ("powerpc64le-unknown-linux-gnu", powerpc64le_unknown_linux_gnu), @@ -1071,8 +1073,6 @@ supported_targets! { ("thumbv7neon-linux-androideabi", thumbv7neon_linux_androideabi), ("aarch64-linux-android", aarch64_linux_android), - ("x86_64-unknown-none-linuxkernel", x86_64_unknown_none_linuxkernel), - ("aarch64-unknown-freebsd", aarch64_unknown_freebsd), ("armv6-unknown-freebsd", armv6_unknown_freebsd), ("armv7-unknown-freebsd", armv7_unknown_freebsd), @@ -1222,6 +1222,7 @@ supported_targets! { ("armv7a-kmc-solid_asp3-eabihf", armv7a_kmc_solid_asp3_eabihf), ("mipsel-sony-psp", mipsel_sony_psp), + ("mipsel-sony-psx", mipsel_sony_psx), ("mipsel-unknown-none", mipsel_unknown_none), ("thumbv4t-none-eabi", thumbv4t_none_eabi), ("armv4t-none-eabi", armv4t_none_eabi), @@ -1245,6 +1246,9 @@ supported_targets! { ("x86_64-unknown-none", x86_64_unknown_none), ("mips64-openwrt-linux-musl", mips64_openwrt_linux_musl), + + ("aarch64-unknown-nto-qnx710", aarch64_unknown_nto_qnx_710), + ("x86_64-pc-nto-qnx710", x86_64_pc_nto_qnx710), } /// Cow-Vec-Str: Cow<'static, [Cow<'static, str>]> @@ -1313,6 +1317,35 @@ pub struct Target { pub options: TargetOptions, } +impl Target { + pub fn parse_data_layout<'a>(&'a self) -> Result<TargetDataLayout, TargetDataLayoutErrors<'a>> { + let mut dl = TargetDataLayout::parse_from_llvm_datalayout_string(&self.data_layout)?; + + // Perform consistency checks against the Target information. + if dl.endian != self.endian { + return Err(TargetDataLayoutErrors::InconsistentTargetArchitecture { + dl: dl.endian.as_str(), + target: self.endian.as_str(), + }); + } + + let target_pointer_width: u64 = self.pointer_width.into(); + if dl.pointer_size.bits() != target_pointer_width { + return Err(TargetDataLayoutErrors::InconsistentTargetPointerWidth { + pointer_size: dl.pointer_size.bits(), + target: self.pointer_width, + }); + } + + dl.c_enum_min_size = match Integer::from_size(Size::from_bits(self.c_enum_min_bits)) { + Ok(bits) => bits, + Err(err) => return Err(TargetDataLayoutErrors::InvalidBitsSize { err }), + }; + + Ok(dl) + } +} + pub trait HasTargetSpec { fn target_spec(&self) -> &Target; } @@ -1452,6 +1485,9 @@ pub struct TargetOptions { pub families: StaticCow<[StaticCow<str>]>, /// Whether the target toolchain's ABI supports returning small structs as an integer. pub abi_return_struct_as_int: bool, + /// Whether the target toolchain is like AIX's. Linker options on AIX are special and it uses + /// XCOFF as binary format. Defaults to false. + pub is_like_aix: bool, /// Whether the target toolchain is like macOS's. Only useful for compiling against iOS/macOS, /// in particular running dsymutil and some other stuff like `-dead_strip`. Defaults to false. /// Also indiates whether to use Apple-specific ABI changes, such as extending function @@ -1526,9 +1562,9 @@ pub struct TargetOptions { /// Flag indicating whether #[thread_local] is available for this target. pub has_thread_local: bool, - // This is mainly for easy compatibility with emscripten. - // If we give emcc .o files that are actually .bc files it - // will 'just work'. + /// This is mainly for easy compatibility with emscripten. + /// If we give emcc .o files that are actually .bc files it + /// will 'just work'. pub obj_is_bitcode: bool, /// Whether the target requires that emitted object code includes bitcode. pub forces_embed_bitcode: bool, @@ -1667,6 +1703,14 @@ pub struct TargetOptions { /// Whether the target supports stack canary checks. `true` by default, /// since this is most common among tier 1 and tier 2 targets. pub supports_stack_protector: bool, + + /// The name of entry function. + /// Default value is "main" + pub entry_name: StaticCow<str>, + + /// The ABI of entry function. + /// Default value is `Conv::C`, i.e. C call convention + pub entry_abi: Conv, } /// Add arguments for the given flavor and also for its "twin" flavors @@ -1807,6 +1851,7 @@ impl Default for TargetOptions { staticlib_suffix: ".a".into(), families: cvs![], abi_return_struct_as_int: false, + is_like_aix: false, is_like_osx: false, is_like_solaris: false, is_like_windows: false, @@ -1883,6 +1928,8 @@ impl Default for TargetOptions { c_enum_min_bits: 32, generate_arange_section: true, supports_stack_protector: true, + entry_name: "main".into(), + entry_abi: Conv::C, } } } @@ -1914,6 +1961,7 @@ impl Target { Abi::Stdcall { unwind } } Abi::System { unwind } => Abi::C { unwind }, + Abi::EfiApi if self.arch == "arm" => Abi::Aapcs { unwind: false }, Abi::EfiApi if self.arch == "x86_64" => Abi::Win64 { unwind: false }, Abi::EfiApi => Abi::C { unwind: false }, @@ -1940,8 +1988,10 @@ impl Target { | PlatformIntrinsic | Unadjusted | Cdecl { .. } - | EfiApi | RustCold => true, + EfiApi => { + ["arm", "aarch64", "riscv32", "riscv64", "x86", "x86_64"].contains(&&self.arch[..]) + } X86Interrupt => ["x86", "x86_64"].contains(&&self.arch[..]), Aapcs { .. } => "arm" == self.arch, CCmseNonSecureCall => ["arm", "aarch64"].contains(&&self.arch[..]), @@ -2400,6 +2450,18 @@ impl Target { } } } ); + ($key_name:ident, Conv) => ( { + let name = (stringify!($key_name)).replace("_", "-"); + obj.remove(&name).and_then(|o| o.as_str().and_then(|s| { + match Conv::from_str(s) { + Ok(c) => { + base.$key_name = c; + Some(Ok(())) + } + Err(e) => Some(Err(e)) + } + })).unwrap_or(Ok(())) + } ); } if let Some(j) = obj.remove("target-endian") { @@ -2461,6 +2523,7 @@ impl Target { key!(staticlib_suffix); key!(families, TargetFamilies); key!(abi_return_struct_as_int, bool); + key!(is_like_aix, bool); key!(is_like_osx, bool); key!(is_like_solaris, bool); key!(is_like_windows, bool); @@ -2519,6 +2582,8 @@ impl Target { key!(c_enum_min_bits, u64); key!(generate_arange_section, bool); key!(supports_stack_protector, bool); + key!(entry_name); + key!(entry_abi, Conv)?; if base.is_builtin { // This can cause unfortunate ICEs later down the line. @@ -2593,7 +2658,7 @@ impl Target { // Additionally look in the sysroot under `lib/rustlib/<triple>/target.json` // as a fallback. - let rustlib_path = crate::target_rustlib_path(&sysroot, &target_triple); + let rustlib_path = crate::target_rustlib_path(sysroot, target_triple); let p = PathBuf::from_iter([ Path::new(sysroot), Path::new(&rustlib_path), @@ -2712,6 +2777,7 @@ impl ToJson for Target { target_option_val!(staticlib_suffix); target_option_val!(families, "target-family"); target_option_val!(abi_return_struct_as_int); + target_option_val!(is_like_aix); target_option_val!(is_like_osx); target_option_val!(is_like_solaris); target_option_val!(is_like_windows); @@ -2769,6 +2835,8 @@ impl ToJson for Target { target_option_val!(c_enum_min_bits); target_option_val!(generate_arange_section); target_option_val!(supports_stack_protector); + target_option_val!(entry_name); + target_option_val!(entry_abi); if let Some(abi) = self.default_adjusted_cabi { d.insert("default-adjusted-cabi".into(), Abi::name(abi).to_json()); diff --git a/compiler/rustc_target/src/spec/nto_qnx_base.rs b/compiler/rustc_target/src/spec/nto_qnx_base.rs new file mode 100644 index 000000000..6fb581ef5 --- /dev/null +++ b/compiler/rustc_target/src/spec/nto_qnx_base.rs @@ -0,0 +1,19 @@ +use crate::spec::{cvs, RelroLevel, TargetOptions}; + +pub fn opts() -> TargetOptions { + TargetOptions { + crt_static_respected: true, + dynamic_linking: true, + env: "nto71".into(), + executables: true, + families: cvs!["unix"], + has_rpath: true, + has_thread_local: false, + linker: Some("qcc".into()), + os: "nto".into(), + position_independent_executables: true, + static_position_independent_executables: true, + relro_level: RelroLevel::Full, + ..Default::default() + } +} diff --git a/compiler/rustc_target/src/spec/powerpc64_ibm_aix.rs b/compiler/rustc_target/src/spec/powerpc64_ibm_aix.rs new file mode 100644 index 000000000..e3eb9bccd --- /dev/null +++ b/compiler/rustc_target/src/spec/powerpc64_ibm_aix.rs @@ -0,0 +1,23 @@ +use crate::spec::{Cc, LinkerFlavor, Target}; + +pub fn target() -> Target { + let mut base = super::aix_base::opts(); + base.max_atomic_width = Some(64); + base.add_pre_link_args( + LinkerFlavor::Unix(Cc::No), + &[ + "-b64".into(), + "-bpT:0x100000000".into(), + "-bpD:0x110000000".into(), + "-bcdtors:all:0:s".into(), + ], + ); + + Target { + llvm_target: "powerpc64-ibm-aix".into(), + pointer_width: 64, + data_layout: "E-m:a-i64:64-n32:64-S128-v256:256:256-v512:512:512".into(), + arch: "powerpc64".into(), + options: base, + } +} diff --git a/compiler/rustc_target/src/spec/riscv64gc_unknown_freebsd.rs b/compiler/rustc_target/src/spec/riscv64gc_unknown_freebsd.rs index 0539eca6c..8281bac10 100644 --- a/compiler/rustc_target/src/spec/riscv64gc_unknown_freebsd.rs +++ b/compiler/rustc_target/src/spec/riscv64gc_unknown_freebsd.rs @@ -4,7 +4,7 @@ pub fn target() -> Target { Target { llvm_target: "riscv64-unknown-freebsd".into(), pointer_width: 64, - data_layout: "e-m:e-p:64:64-i64:64-i128:128-n64-S128".into(), + data_layout: "e-m:e-p:64:64-i64:64-i128:128-n32:64-S128".into(), arch: "riscv64".into(), options: TargetOptions { code_model: Some(CodeModel::Medium), diff --git a/compiler/rustc_target/src/spec/riscv64gc_unknown_linux_gnu.rs b/compiler/rustc_target/src/spec/riscv64gc_unknown_linux_gnu.rs index 7d1bf228c..90dccb280 100644 --- a/compiler/rustc_target/src/spec/riscv64gc_unknown_linux_gnu.rs +++ b/compiler/rustc_target/src/spec/riscv64gc_unknown_linux_gnu.rs @@ -4,7 +4,7 @@ pub fn target() -> Target { Target { llvm_target: "riscv64-unknown-linux-gnu".into(), pointer_width: 64, - data_layout: "e-m:e-p:64:64-i64:64-i128:128-n64-S128".into(), + data_layout: "e-m:e-p:64:64-i64:64-i128:128-n32:64-S128".into(), arch: "riscv64".into(), options: TargetOptions { code_model: Some(CodeModel::Medium), diff --git a/compiler/rustc_target/src/spec/riscv64gc_unknown_linux_musl.rs b/compiler/rustc_target/src/spec/riscv64gc_unknown_linux_musl.rs index f04f8a48b..1a56c78e6 100644 --- a/compiler/rustc_target/src/spec/riscv64gc_unknown_linux_musl.rs +++ b/compiler/rustc_target/src/spec/riscv64gc_unknown_linux_musl.rs @@ -4,7 +4,7 @@ pub fn target() -> Target { Target { llvm_target: "riscv64-unknown-linux-musl".into(), pointer_width: 64, - data_layout: "e-m:e-p:64:64-i64:64-i128:128-n64-S128".into(), + data_layout: "e-m:e-p:64:64-i64:64-i128:128-n32:64-S128".into(), arch: "riscv64".into(), options: TargetOptions { code_model: Some(CodeModel::Medium), diff --git a/compiler/rustc_target/src/spec/riscv64gc_unknown_none_elf.rs b/compiler/rustc_target/src/spec/riscv64gc_unknown_none_elf.rs index 67806d578..409b0b269 100644 --- a/compiler/rustc_target/src/spec/riscv64gc_unknown_none_elf.rs +++ b/compiler/rustc_target/src/spec/riscv64gc_unknown_none_elf.rs @@ -3,7 +3,7 @@ use crate::spec::{RelocModel, Target, TargetOptions}; pub fn target() -> Target { Target { - data_layout: "e-m:e-p:64:64-i64:64-i128:128-n64-S128".into(), + data_layout: "e-m:e-p:64:64-i64:64-i128:128-n32:64-S128".into(), llvm_target: "riscv64".into(), pointer_width: 64, arch: "riscv64".into(), diff --git a/compiler/rustc_target/src/spec/riscv64gc_unknown_openbsd.rs b/compiler/rustc_target/src/spec/riscv64gc_unknown_openbsd.rs index cd10f3afa..ade9d7762 100644 --- a/compiler/rustc_target/src/spec/riscv64gc_unknown_openbsd.rs +++ b/compiler/rustc_target/src/spec/riscv64gc_unknown_openbsd.rs @@ -4,7 +4,7 @@ pub fn target() -> Target { Target { llvm_target: "riscv64-unknown-openbsd".into(), pointer_width: 64, - data_layout: "e-m:e-p:64:64-i64:64-i128:128-n64-S128".into(), + data_layout: "e-m:e-p:64:64-i64:64-i128:128-n32:64-S128".into(), arch: "riscv64".into(), options: TargetOptions { code_model: Some(CodeModel::Medium), diff --git a/compiler/rustc_target/src/spec/riscv64imac_unknown_none_elf.rs b/compiler/rustc_target/src/spec/riscv64imac_unknown_none_elf.rs index f371e09be..87aba9171 100644 --- a/compiler/rustc_target/src/spec/riscv64imac_unknown_none_elf.rs +++ b/compiler/rustc_target/src/spec/riscv64imac_unknown_none_elf.rs @@ -3,7 +3,7 @@ use crate::spec::{RelocModel, Target, TargetOptions}; pub fn target() -> Target { Target { - data_layout: "e-m:e-p:64:64-i64:64-i128:128-n64-S128".into(), + data_layout: "e-m:e-p:64:64-i64:64-i128:128-n32:64-S128".into(), llvm_target: "riscv64".into(), pointer_width: 64, arch: "riscv64".into(), diff --git a/compiler/rustc_target/src/spec/tests/tests_impl.rs b/compiler/rustc_target/src/spec/tests/tests_impl.rs index 172da0ed5..e0ecf8037 100644 --- a/compiler/rustc_target/src/spec/tests/tests_impl.rs +++ b/compiler/rustc_target/src/spec/tests/tests_impl.rs @@ -2,15 +2,15 @@ use super::super::*; use std::assert_matches::assert_matches; // Test target self-consistency and JSON encoding/decoding roundtrip. -pub(super) fn test_target(mut target: Target, triple: &str) { +pub(super) fn test_target(mut target: Target) { let recycled_target = Target::from_json(target.to_json()).map(|(j, _)| j); target.update_to_cli(); - target.check_consistency(triple); + target.check_consistency(); assert_eq!(recycled_target, Ok(target)); } impl Target { - fn check_consistency(&self, triple: &str) { + fn check_consistency(&self) { assert_eq!(self.is_like_osx, self.vendor == "apple"); assert_eq!(self.is_like_solaris, self.os == "solaris" || self.os == "illumos"); assert_eq!(self.is_like_windows, self.os == "windows" || self.os == "uefi"); @@ -129,8 +129,7 @@ impl Target { if self.dynamic_linking && !(self.is_like_wasm && self.os != "emscripten") { assert_eq!(self.relocation_model, RelocModel::Pic); } - // PIEs are supported but not enabled by default with linuxkernel target. - if self.position_independent_executables && !triple.ends_with("-linuxkernel") { + if self.position_independent_executables { assert_eq!(self.relocation_model, RelocModel::Pic); } // The UEFI targets do not support dynamic linking but still require PIC (#101377). diff --git a/compiler/rustc_target/src/spec/wasm32_unknown_unknown.rs b/compiler/rustc_target/src/spec/wasm32_unknown_unknown.rs index 8dad941b5..06529c2e4 100644 --- a/compiler/rustc_target/src/spec/wasm32_unknown_unknown.rs +++ b/compiler/rustc_target/src/spec/wasm32_unknown_unknown.rs @@ -33,12 +33,6 @@ pub fn target() -> Target { // For now this target just never has an entry symbol no matter the output // type, so unconditionally pass this. "--no-entry", - // Rust really needs a way for users to specify exports and imports in - // the source code. --export-dynamic isn't the right tool for this job, - // however it does have the side effect of automatically exporting a lot - // of symbols, which approximates what people want when compiling for - // wasm32-unknown-unknown expect, so use it for now. - "--export-dynamic", ], ); options.add_pre_link_args( @@ -48,7 +42,6 @@ pub fn target() -> Target { // otherwise "--target=wasm32-unknown-unknown", "-Wl,--no-entry", - "-Wl,--export-dynamic", ], ); diff --git a/compiler/rustc_target/src/spec/wasm32_wasi.rs b/compiler/rustc_target/src/spec/wasm32_wasi.rs index 93a956403..a0476d542 100644 --- a/compiler/rustc_target/src/spec/wasm32_wasi.rs +++ b/compiler/rustc_target/src/spec/wasm32_wasi.rs @@ -72,7 +72,8 @@ //! best we can with this target. Don't start relying on too much here unless //! you know what you're getting in to! -use super::{crt_objects, wasm_base, Cc, LinkerFlavor, Target}; +use super::crt_objects::{self, LinkSelfContainedDefault}; +use super::{wasm_base, Cc, LinkerFlavor, Target}; pub fn target() -> Target { let mut options = wasm_base::options(); @@ -83,6 +84,9 @@ pub fn target() -> Target { options.pre_link_objects_self_contained = crt_objects::pre_wasi_self_contained(); options.post_link_objects_self_contained = crt_objects::post_wasi_self_contained(); + // FIXME: Figure out cases in which WASM needs to link with a native toolchain. + options.link_self_contained = LinkSelfContainedDefault::True; + // Right now this is a bit of a workaround but we're currently saying that // the target by default has a static crt which we're taking as a signal // for "use the bundled crt". If that's turned off then the system's crt @@ -100,6 +104,10 @@ pub fn target() -> Target { // `args::args()` makes the WASI API calls itself. options.main_needs_argc_argv = false; + // And, WASI mangles the name of "main" to distinguish between different + // signatures. + options.entry_name = "__main_void".into(); + Target { llvm_target: "wasm32-wasi".into(), pointer_width: 32, diff --git a/compiler/rustc_target/src/spec/wasm_base.rs b/compiler/rustc_target/src/spec/wasm_base.rs index 528a84a8b..625d3b37c 100644 --- a/compiler/rustc_target/src/spec/wasm_base.rs +++ b/compiler/rustc_target/src/spec/wasm_base.rs @@ -1,4 +1,3 @@ -use super::crt_objects::LinkSelfContainedDefault; use super::{cvs, Cc, LinkerFlavor, PanicStrategy, RelocModel, TargetOptions, TlsModel}; pub fn options() -> TargetOptions { @@ -95,9 +94,6 @@ pub fn options() -> TargetOptions { pre_link_args, - // FIXME: Figure out cases in which WASM needs to link with a native toolchain. - link_self_contained: LinkSelfContainedDefault::True, - // This has no effect in LLVM 8 or prior, but in LLVM 9 and later when // PIC code is implemented this has quite a drastic effect if it stays // at the default, `pic`. In an effort to keep wasm binaries as minimal diff --git a/compiler/rustc_target/src/spec/windows_gnullvm_base.rs b/compiler/rustc_target/src/spec/windows_gnullvm_base.rs index 58210c75a..cada28652 100644 --- a/compiler/rustc_target/src/spec/windows_gnullvm_base.rs +++ b/compiler/rustc_target/src/spec/windows_gnullvm_base.rs @@ -1,4 +1,5 @@ -use crate::spec::{cvs, Cc, LinkerFlavor, Lld, TargetOptions}; +use crate::spec::{cvs, Cc, DebuginfoKind, LinkerFlavor, Lld, SplitDebuginfo, TargetOptions}; +use std::borrow::Cow; pub fn opts() -> TargetOptions { // We cannot use `-nodefaultlibs` because compiler-rt has to be passed @@ -36,7 +37,10 @@ pub fn opts() -> TargetOptions { eh_frame_header: false, no_default_libraries: false, has_thread_local: true, - + // FIXME(davidtwco): Support Split DWARF on Windows GNU - may require LLVM changes to + // output DWO, despite using DWARF, doesn't use ELF.. + debuginfo_kind: DebuginfoKind::Pdb, + supported_split_debuginfo: Cow::Borrowed(&[SplitDebuginfo::Off]), ..Default::default() } } diff --git a/compiler/rustc_target/src/spec/x86_64_apple_darwin.rs b/compiler/rustc_target/src/spec/x86_64_apple_darwin.rs index 087be1b95..9a3e7a805 100644 --- a/compiler/rustc_target/src/spec/x86_64_apple_darwin.rs +++ b/compiler/rustc_target/src/spec/x86_64_apple_darwin.rs @@ -1,29 +1,26 @@ +use super::apple_base::{macos_llvm_target, opts, Arch}; use crate::spec::{Cc, FramePointer, LinkerFlavor, Lld, SanitizerSet}; use crate::spec::{StackProbeType, Target, TargetOptions}; pub fn target() -> Target { - let arch = "x86_64"; - let mut base = super::apple_base::opts("macos", arch, ""); - base.cpu = "core2".into(); - base.max_atomic_width = Some(128); // core2 support cmpxchg16b + let arch = Arch::X86_64; + let mut base = opts("macos", arch); + base.max_atomic_width = Some(128); // core2 supports cmpxchg16b base.frame_pointer = FramePointer::Always; base.add_pre_link_args(LinkerFlavor::Darwin(Cc::Yes, Lld::No), &["-m64"]); - base.link_env_remove.to_mut().extend(super::apple_base::macos_link_env_remove()); base.stack_probes = StackProbeType::X86; base.supported_sanitizers = SanitizerSet::ADDRESS | SanitizerSet::CFI | SanitizerSet::LEAK | SanitizerSet::THREAD; - // Clang automatically chooses a more specific target based on - // MACOSX_DEPLOYMENT_TARGET. To enable cross-language LTO to work - // correctly, we do too. - let llvm_target = super::apple_base::macos_llvm_target(&arch); - Target { - llvm_target: llvm_target.into(), + // Clang automatically chooses a more specific target based on + // MACOSX_DEPLOYMENT_TARGET. To enable cross-language LTO to work + // correctly, we do too. + llvm_target: macos_llvm_target(arch).into(), pointer_width: 64, data_layout: "e-m:o-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" .into(), - arch: arch.into(), + arch: arch.target_arch(), options: TargetOptions { mcount: "\u{1}mcount".into(), ..base }, } } diff --git a/compiler/rustc_target/src/spec/x86_64_apple_ios.rs b/compiler/rustc_target/src/spec/x86_64_apple_ios.rs index e6143025d..fbd3ebd4d 100644 --- a/compiler/rustc_target/src/spec/x86_64_apple_ios.rs +++ b/compiler/rustc_target/src/spec/x86_64_apple_ios.rs @@ -1,20 +1,18 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{ios_sim_llvm_target, opts, Arch}; use crate::spec::{StackProbeType, Target, TargetOptions}; pub fn target() -> Target { - let base = opts("ios", Arch::X86_64); - let llvm_target = super::apple_base::ios_sim_llvm_target("x86_64"); - + let arch = Arch::X86_64_sim; Target { - llvm_target: llvm_target.into(), + llvm_target: ios_sim_llvm_target(arch).into(), pointer_width: 64, data_layout: "e-m:o-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" .into(), - arch: "x86_64".into(), + arch: arch.target_arch(), options: TargetOptions { max_atomic_width: Some(64), stack_probes: StackProbeType::X86, - ..base + ..opts("ios", arch) }, } } diff --git a/compiler/rustc_target/src/spec/x86_64_apple_ios_macabi.rs b/compiler/rustc_target/src/spec/x86_64_apple_ios_macabi.rs index 13259205a..0f3f85199 100644 --- a/compiler/rustc_target/src/spec/x86_64_apple_ios_macabi.rs +++ b/compiler/rustc_target/src/spec/x86_64_apple_ios_macabi.rs @@ -1,10 +1,11 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, Arch}; use crate::spec::{Cc, LinkerFlavor, Lld, StackProbeType, Target, TargetOptions}; pub fn target() -> Target { let llvm_target = "x86_64-apple-ios13.0-macabi"; - let mut base = opts("ios", Arch::X86_64_macabi); + let arch = Arch::X86_64_macabi; + let mut base = opts("ios", arch); base.add_pre_link_args(LinkerFlavor::Darwin(Cc::Yes, Lld::No), &["-target", llvm_target]); Target { @@ -12,7 +13,7 @@ pub fn target() -> Target { pointer_width: 64, data_layout: "e-m:o-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" .into(), - arch: "x86_64".into(), + arch: arch.target_arch(), options: TargetOptions { max_atomic_width: Some(64), stack_probes: StackProbeType::X86, diff --git a/compiler/rustc_target/src/spec/x86_64_apple_tvos.rs b/compiler/rustc_target/src/spec/x86_64_apple_tvos.rs index 3d54da086..550ce0b9c 100644 --- a/compiler/rustc_target/src/spec/x86_64_apple_tvos.rs +++ b/compiler/rustc_target/src/spec/x86_64_apple_tvos.rs @@ -1,17 +1,17 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, Arch}; use crate::spec::{StackProbeType, Target, TargetOptions}; pub fn target() -> Target { - let base = opts("tvos", Arch::X86_64); + let arch = Arch::X86_64_sim; Target { llvm_target: "x86_64-apple-tvos".into(), pointer_width: 64, data_layout: "e-m:o-i64:64-f80:128-n8:16:32:64-S128".into(), - arch: "x86_64".into(), + arch: arch.target_arch(), options: TargetOptions { max_atomic_width: Some(64), stack_probes: StackProbeType::X86, - ..base + ..opts("tvos", arch) }, } } diff --git a/compiler/rustc_target/src/spec/x86_64_apple_watchos_sim.rs b/compiler/rustc_target/src/spec/x86_64_apple_watchos_sim.rs index e499b1985..75ce02cba 100644 --- a/compiler/rustc_target/src/spec/x86_64_apple_watchos_sim.rs +++ b/compiler/rustc_target/src/spec/x86_64_apple_watchos_sim.rs @@ -1,18 +1,14 @@ -use super::apple_sdk_base::{opts, Arch}; +use super::apple_base::{opts, watchos_sim_llvm_target, Arch}; use crate::spec::{StackProbeType, Target, TargetOptions}; pub fn target() -> Target { - let base = opts("watchos", Arch::X86_64); - - let arch = "x86_64"; - let llvm_target = super::apple_base::watchos_sim_llvm_target(arch); - + let arch = Arch::X86_64_sim; Target { - llvm_target: llvm_target.into(), + llvm_target: watchos_sim_llvm_target(arch).into(), pointer_width: 64, data_layout: "e-m:o-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" .into(), - arch: "x86_64".into(), + arch: arch.target_arch(), options: TargetOptions { max_atomic_width: Some(64), stack_probes: StackProbeType::X86, @@ -28,7 +24,7 @@ pub fn target() -> Target { darwinpcs\0\ -Os\0" .into(), - ..base + ..opts("watchos", arch) }, } } diff --git a/compiler/rustc_target/src/spec/x86_64_pc_nto_qnx710.rs b/compiler/rustc_target/src/spec/x86_64_pc_nto_qnx710.rs new file mode 100644 index 000000000..e9b3acee2 --- /dev/null +++ b/compiler/rustc_target/src/spec/x86_64_pc_nto_qnx710.rs @@ -0,0 +1,21 @@ +use super::nto_qnx_base; +use crate::spec::{Cc, LinkerFlavor, Lld, Target, TargetOptions}; + +pub fn target() -> Target { + Target { + llvm_target: "x86_64-pc-unknown".into(), + pointer_width: 64, + data_layout: "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" + .into(), + arch: "x86_64".into(), + options: TargetOptions { + cpu: "x86-64".into(), + max_atomic_width: Some(64), + pre_link_args: TargetOptions::link_args( + LinkerFlavor::Gnu(Cc::Yes, Lld::No), + &["-Vgcc_ntox86_64_cxx"], + ), + ..nto_qnx_base::opts() + }, + } +} diff --git a/compiler/rustc_target/src/spec/x86_64_unknown_none_linuxkernel.rs b/compiler/rustc_target/src/spec/x86_64_unknown_none_linuxkernel.rs deleted file mode 100644 index ebd9636ff..000000000 --- a/compiler/rustc_target/src/spec/x86_64_unknown_none_linuxkernel.rs +++ /dev/null @@ -1,28 +0,0 @@ -// This defines the amd64 target for the Linux Kernel. See the linux-kernel-base module for -// generic Linux kernel options. - -use crate::spec::{Cc, CodeModel, LinkerFlavor, Lld, Target}; - -pub fn target() -> Target { - let mut base = super::linux_kernel_base::opts(); - base.cpu = "x86-64".into(); - base.max_atomic_width = Some(64); - base.features = - "-mmx,-sse,-sse2,-sse3,-ssse3,-sse4.1,-sse4.2,-3dnow,-3dnowa,-avx,-avx2,+soft-float".into(); - base.code_model = Some(CodeModel::Kernel); - base.add_pre_link_args(LinkerFlavor::Gnu(Cc::Yes, Lld::No), &["-m64"]); - - Target { - // FIXME: Some dispute, the linux-on-clang folks think this should use - // "Linux". We disagree because running *on* Linux is nothing like - // running *as" linux, and historically the "os" component as has always - // been used to mean the "on" part. - llvm_target: "x86_64-unknown-none-elf".into(), - pointer_width: 64, - data_layout: "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" - .into(), - arch: "x86_64".into(), - - options: base, - } -} |