From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- .../portable-atomic/src/imp/atomic128/powerpc64.rs | 947 --------------------- 1 file changed, 947 deletions(-) delete mode 100644 vendor/portable-atomic/src/imp/atomic128/powerpc64.rs (limited to 'vendor/portable-atomic/src/imp/atomic128/powerpc64.rs') diff --git a/vendor/portable-atomic/src/imp/atomic128/powerpc64.rs b/vendor/portable-atomic/src/imp/atomic128/powerpc64.rs deleted file mode 100644 index 5edc147..0000000 --- a/vendor/portable-atomic/src/imp/atomic128/powerpc64.rs +++ /dev/null @@ -1,947 +0,0 @@ -// SPDX-License-Identifier: Apache-2.0 OR MIT - -// Atomic{I,U}128 implementation on PowerPC64. -// -// powerpc64 on pwr8+ support 128-bit atomics: -// https://github.com/llvm/llvm-project/commit/549e118e93c666914a1045fde38a2cac33e1e445 -// https://github.com/llvm/llvm-project/blob/llvmorg-17.0.0-rc2/llvm/test/CodeGen/PowerPC/atomics-i128-ldst.ll -// https://github.com/llvm/llvm-project/blob/llvmorg-17.0.0-rc2/llvm/test/CodeGen/PowerPC/atomics-i128.ll -// -// powerpc64le is pwr8+ by default https://github.com/llvm/llvm-project/blob/llvmorg-17.0.0-rc2/llvm/lib/Target/PowerPC/PPC.td#L663 -// See also https://github.com/rust-lang/rust/issues/59932 -// -// Note that we do not separate LL and SC into separate functions, but handle -// them within a single asm block. This is because it is theoretically possible -// for the compiler to insert operations that might clear the reservation between -// LL and SC. See aarch64.rs for details. -// -// Note: On Miri and ThreadSanitizer which do not support inline assembly, we don't use -// this module and use intrinsics.rs instead. -// -// Refs: -// - Power ISA https://openpowerfoundation.org/specifications/isa -// - AIX Assembler language reference https://www.ibm.com/docs/en/aix/7.3?topic=aix-assembler-language-reference -// - atomic-maybe-uninit https://github.com/taiki-e/atomic-maybe-uninit -// -// Generated asm: -// - powerpc64 (pwr8) https://godbolt.org/z/nG5dGa38a -// - powerpc64le https://godbolt.org/z/6c99s75e4 - -include!("macros.rs"); - -#[cfg(not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -)))] -#[path = "../fallback/outline_atomics.rs"] -mod fallback; - -// On musl with static linking, it seems that getauxval is not always available. -// See detect/auxv.rs for more. -#[cfg(not(portable_atomic_no_outline_atomics))] -#[cfg(any(test, portable_atomic_outline_atomics))] // TODO(powerpc64): currently disabled by default -#[cfg(any( - test, - not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - )), -))] -#[cfg(any( - all( - target_os = "linux", - any( - target_env = "gnu", - all(any(target_env = "musl", target_env = "ohos"), not(target_feature = "crt-static")), - portable_atomic_outline_atomics, - ), - ), - target_os = "android", - target_os = "freebsd", -))] -#[path = "detect/auxv.rs"] -mod detect; - -use core::{arch::asm, sync::atomic::Ordering}; - -use crate::utils::{Pair, U128}; - -macro_rules! debug_assert_pwr8 { - () => { - #[cfg(not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - )))] - { - debug_assert!(detect::detect().has_quadword_atomics()); - } - }; -} - -// Refs: https://www.ibm.com/docs/en/aix/7.3?topic=ops-machine-pseudo-op -// -// This is similar to #[target_feature(enable = "quadword-atomics")], except that there are -// no compiler guarantees regarding (un)inlining, and the scope is within an asm -// block rather than a function. We use this directive because #[target_feature(enable = "quadword-atomics")] -// is not supported as of Rust 1.70-nightly. -// -// start_pwr8 and end_pwr8 must be used in pairs. -// -// Note: If power8 instructions are not available at compile-time, we must guarantee that -// the function that uses it is not inlined into a function where it is not -// clear whether power8 instructions are available. Otherwise, (even if we checked whether -// power8 instructions are available at run-time) optimizations that reorder its -// instructions across the if condition might introduce undefined behavior. -// (see also https://rust-lang.github.io/rfcs/2045-target-feature.html#safely-inlining-target_feature-functions-on-more-contexts) -// However, our code uses the ifunc helper macro that works with function pointers, -// so we don't have to worry about this unless calling without helper macro. -macro_rules! start_pwr8 { - () => { - ".machine push\n.machine power8" - }; -} -macro_rules! end_pwr8 { - () => { - ".machine pop" - }; -} - -macro_rules! atomic_rmw { - ($op:ident, $order:ident) => { - match $order { - Ordering::Relaxed => $op!("", ""), - Ordering::Acquire => $op!("lwsync", ""), - Ordering::Release => $op!("", "lwsync"), - Ordering::AcqRel => $op!("lwsync", "lwsync"), - Ordering::SeqCst => $op!("lwsync", "sync"), - _ => unreachable!("{:?}", $order), - } - }; -} - -// Extracts and checks the EQ bit of cr0. -#[inline] -fn extract_cr0(r: u64) -> bool { - r & 0x20000000 != 0 -} - -#[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -))] -use atomic_load_pwr8 as atomic_load; -#[cfg(not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -)))] -#[inline] -unsafe fn atomic_load(src: *mut u128, order: Ordering) -> u128 { - fn_alias! { - // inline(never) is just a hint and also not strictly necessary - // because we use ifunc helper macro, but used for clarity. - #[inline(never)] - unsafe fn(src: *mut u128) -> u128; - atomic_load_pwr8_relaxed = atomic_load_pwr8(Ordering::Relaxed); - atomic_load_pwr8_acquire = atomic_load_pwr8(Ordering::Acquire); - atomic_load_pwr8_seqcst = atomic_load_pwr8(Ordering::SeqCst); - } - // SAFETY: the caller must uphold the safety contract. - // we only calls atomic_load_pwr8 if quadword-atomics is available. - unsafe { - match order { - Ordering::Relaxed => { - ifunc!(unsafe fn(src: *mut u128) -> u128 { - if detect::detect().has_quadword_atomics() { - atomic_load_pwr8_relaxed - } else { - fallback::atomic_load_non_seqcst - } - }) - } - Ordering::Acquire => { - ifunc!(unsafe fn(src: *mut u128) -> u128 { - if detect::detect().has_quadword_atomics() { - atomic_load_pwr8_acquire - } else { - fallback::atomic_load_non_seqcst - } - }) - } - Ordering::SeqCst => { - ifunc!(unsafe fn(src: *mut u128) -> u128 { - if detect::detect().has_quadword_atomics() { - atomic_load_pwr8_seqcst - } else { - fallback::atomic_load_seqcst - } - }) - } - _ => unreachable!("{:?}", order), - } - } -} -#[inline] -unsafe fn atomic_load_pwr8(src: *mut u128, order: Ordering) -> u128 { - debug_assert!(src as usize % 16 == 0); - debug_assert_pwr8!(); - - // SAFETY: the caller must uphold the safety contract. - // - // Refs: "3.3.4 Fixed Point Load and Store Quadword Instructions" of Power ISA - unsafe { - let (out_hi, out_lo); - macro_rules! atomic_load_acquire { - ($release:tt) => { - asm!( - start_pwr8!(), - $release, - "lq %r4, 0({src})", - // Lightweight acquire sync - // Refs: https://github.com/boostorg/atomic/blob/boost-1.79.0/include/boost/atomic/detail/core_arch_ops_gcc_ppc.hpp#L47-L62 - "cmpd %cr7, %r4, %r4", - "bne- %cr7, 2f", - "2:", - "isync", - end_pwr8!(), - src = in(reg_nonzero) ptr_reg!(src), - // Quadword atomic instructions work with even/odd pair of specified register and subsequent register. - // We cannot use r1 (sp) and r2 (system reserved), so start with r4 or grater. - out("r4") out_hi, - out("r5") out_lo, - out("cr7") _, - options(nostack, preserves_flags), - ) - }; - } - match order { - Ordering::Relaxed => { - asm!( - start_pwr8!(), - "lq %r4, 0({src})", - end_pwr8!(), - src = in(reg_nonzero) ptr_reg!(src), - // Quadword atomic instructions work with even/odd pair of specified register and subsequent register. - // We cannot use r1 (sp) and r2 (system reserved), so start with r4 or grater. - out("r4") out_hi, - out("r5") out_lo, - options(nostack, preserves_flags, readonly), - ); - } - Ordering::Acquire => atomic_load_acquire!(""), - Ordering::SeqCst => atomic_load_acquire!("sync"), - _ => unreachable!("{:?}", order), - } - U128 { pair: Pair { hi: out_hi, lo: out_lo } }.whole - } -} - -#[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -))] -use atomic_store_pwr8 as atomic_store; -#[cfg(not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -)))] -#[inline] -unsafe fn atomic_store(dst: *mut u128, val: u128, order: Ordering) { - fn_alias! { - // inline(never) is just a hint and also not strictly necessary - // because we use ifunc helper macro, but used for clarity. - #[inline(never)] - unsafe fn(dst: *mut u128, val: u128); - atomic_store_pwr8_relaxed = atomic_store_pwr8(Ordering::Relaxed); - atomic_store_pwr8_release = atomic_store_pwr8(Ordering::Release); - atomic_store_pwr8_seqcst = atomic_store_pwr8(Ordering::SeqCst); - } - // SAFETY: the caller must uphold the safety contract. - // we only calls atomic_store_pwr8 if quadword-atomics is available. - unsafe { - match order { - Ordering::Relaxed => { - ifunc!(unsafe fn(dst: *mut u128, val: u128) { - if detect::detect().has_quadword_atomics() { - atomic_store_pwr8_relaxed - } else { - fallback::atomic_store_non_seqcst - } - }); - } - Ordering::Release => { - ifunc!(unsafe fn(dst: *mut u128, val: u128) { - if detect::detect().has_quadword_atomics() { - atomic_store_pwr8_release - } else { - fallback::atomic_store_non_seqcst - } - }); - } - Ordering::SeqCst => { - ifunc!(unsafe fn(dst: *mut u128, val: u128) { - if detect::detect().has_quadword_atomics() { - atomic_store_pwr8_seqcst - } else { - fallback::atomic_store_seqcst - } - }); - } - _ => unreachable!("{:?}", order), - } - } -} -#[inline] -unsafe fn atomic_store_pwr8(dst: *mut u128, val: u128, order: Ordering) { - debug_assert!(dst as usize % 16 == 0); - debug_assert_pwr8!(); - - // SAFETY: the caller must uphold the safety contract. - // - // Refs: "3.3.4 Fixed Point Load and Store Quadword Instructions" of Power ISA - unsafe { - let val = U128 { whole: val }; - macro_rules! atomic_store { - ($release:tt) => { - asm!( - start_pwr8!(), - $release, - "stq %r4, 0({dst})", - end_pwr8!(), - dst = in(reg_nonzero) ptr_reg!(dst), - // Quadword atomic instructions work with even/odd pair of specified register and subsequent register. - // We cannot use r1 (sp) and r2 (system reserved), so start with r4 or grater. - in("r4") val.pair.hi, - in("r5") val.pair.lo, - options(nostack, preserves_flags), - ) - }; - } - match order { - Ordering::Relaxed => atomic_store!(""), - Ordering::Release => atomic_store!("lwsync"), - Ordering::SeqCst => atomic_store!("sync"), - _ => unreachable!("{:?}", order), - } - } -} - -#[inline] -unsafe fn atomic_compare_exchange( - dst: *mut u128, - old: u128, - new: u128, - success: Ordering, - failure: Ordering, -) -> Result { - let success = crate::utils::upgrade_success_ordering(success, failure); - - #[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - ))] - // SAFETY: the caller must uphold the safety contract. - // cfg guarantees that quadword atomics instructions are available at compile-time. - let (prev, ok) = unsafe { atomic_compare_exchange_pwr8(dst, old, new, success) }; - #[cfg(not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - )))] - // SAFETY: the caller must uphold the safety contract. - let (prev, ok) = unsafe { atomic_compare_exchange_ifunc(dst, old, new, success) }; - if ok { - Ok(prev) - } else { - Err(prev) - } -} -#[inline] -unsafe fn atomic_compare_exchange_pwr8( - dst: *mut u128, - old: u128, - new: u128, - order: Ordering, -) -> (u128, bool) { - debug_assert!(dst as usize % 16 == 0); - debug_assert_pwr8!(); - - // SAFETY: the caller must uphold the safety contract. - // - // Refs: "4.6.2.2 128-bit Load And Reserve and Store Conditional Instructions" of Power ISA - unsafe { - let old = U128 { whole: old }; - let new = U128 { whole: new }; - let (mut prev_hi, mut prev_lo); - let mut r; - macro_rules! cmpxchg { - ($acquire:tt, $release:tt) => { - asm!( - start_pwr8!(), - $release, - "2:", - "lqarx %r8, 0, {dst}", - "xor {tmp_lo}, %r9, {old_lo}", - "xor {tmp_hi}, %r8, {old_hi}", - "or. {tmp_lo}, {tmp_lo}, {tmp_hi}", - "bne %cr0, 3f", // jump if compare failed - "stqcx. %r6, 0, {dst}", - "bne %cr0, 2b", // continue loop if store failed - "3:", - // if compare failed EQ bit is cleared, if stqcx succeeds EQ bit is set. - "mfcr {tmp_lo}", - $acquire, - end_pwr8!(), - dst = in(reg_nonzero) ptr_reg!(dst), - old_hi = in(reg) old.pair.hi, - old_lo = in(reg) old.pair.lo, - tmp_hi = out(reg) _, - tmp_lo = out(reg) r, - // Quadword atomic instructions work with even/odd pair of specified register and subsequent register. - // We cannot use r1 (sp) and r2 (system reserved), so start with r4 or grater. - in("r6") new.pair.hi, - in("r7") new.pair.lo, - out("r8") prev_hi, - out("r9") prev_lo, - out("cr0") _, - options(nostack, preserves_flags), - ) - }; - } - atomic_rmw!(cmpxchg, order); - (U128 { pair: Pair { hi: prev_hi, lo: prev_lo } }.whole, extract_cr0(r)) - } -} - -// Always use strong CAS for outline-atomics. -#[cfg(not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -)))] -use atomic_compare_exchange as atomic_compare_exchange_weak; -#[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -))] -#[inline] -unsafe fn atomic_compare_exchange_weak( - dst: *mut u128, - old: u128, - new: u128, - success: Ordering, - failure: Ordering, -) -> Result { - let success = crate::utils::upgrade_success_ordering(success, failure); - - // SAFETY: the caller must uphold the safety contract. - // cfg guarantees that quadword atomics instructions are available at compile-time. - let (prev, ok) = unsafe { atomic_compare_exchange_weak_pwr8(dst, old, new, success) }; - if ok { - Ok(prev) - } else { - Err(prev) - } -} -#[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -))] -#[inline] -unsafe fn atomic_compare_exchange_weak_pwr8( - dst: *mut u128, - old: u128, - new: u128, - order: Ordering, -) -> (u128, bool) { - debug_assert!(dst as usize % 16 == 0); - debug_assert_pwr8!(); - - // SAFETY: the caller must uphold the safety contract. - // - // Refs: "4.6.2.2 128-bit Load And Reserve and Store Conditional Instructions" of Power ISA - unsafe { - let old = U128 { whole: old }; - let new = U128 { whole: new }; - let (mut prev_hi, mut prev_lo); - let mut r; - macro_rules! cmpxchg_weak { - ($acquire:tt, $release:tt) => { - asm!( - start_pwr8!(), - $release, - "lqarx %r8, 0, {dst}", - "xor {tmp_lo}, %r9, {old_lo}", - "xor {tmp_hi}, %r8, {old_hi}", - "or. {tmp_lo}, {tmp_lo}, {tmp_hi}", - "bne %cr0, 3f", // jump if compare failed - "stqcx. %r6, 0, {dst}", - "3:", - // if compare or stqcx failed EQ bit is cleared, if stqcx succeeds EQ bit is set. - "mfcr {tmp_lo}", - $acquire, - end_pwr8!(), - dst = in(reg_nonzero) ptr_reg!(dst), - old_hi = in(reg) old.pair.hi, - old_lo = in(reg) old.pair.lo, - tmp_hi = out(reg) _, - tmp_lo = out(reg) r, - // Quadword atomic instructions work with even/odd pair of specified register and subsequent register. - // We cannot use r1 (sp) and r2 (system reserved), so start with r4 or grater. - in("r6") new.pair.hi, - in("r7") new.pair.lo, - out("r8") prev_hi, - out("r9") prev_lo, - out("cr0") _, - options(nostack, preserves_flags), - ) - }; - } - atomic_rmw!(cmpxchg_weak, order); - (U128 { pair: Pair { hi: prev_hi, lo: prev_lo } }.whole, extract_cr0(r)) - } -} - -#[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -))] -use atomic_swap_pwr8 as atomic_swap; -// Do not use atomic_rmw_ll_sc_3 because it needs extra MR to implement swap. -#[inline] -unsafe fn atomic_swap_pwr8(dst: *mut u128, val: u128, order: Ordering) -> u128 { - debug_assert!(dst as usize % 16 == 0); - debug_assert_pwr8!(); - - // SAFETY: the caller must uphold the safety contract. - unsafe { - let val = U128 { whole: val }; - let (mut prev_hi, mut prev_lo); - macro_rules! swap { - ($acquire:tt, $release:tt) => { - asm!( - start_pwr8!(), - $release, - "2:", - "lqarx %r6, 0, {dst}", - "stqcx. %r8, 0, {dst}", - "bne %cr0, 2b", - $acquire, - end_pwr8!(), - dst = in(reg_nonzero) ptr_reg!(dst), - // Quadword atomic instructions work with even/odd pair of specified register and subsequent register. - // We cannot use r1 (sp) and r2 (system reserved), so start with r4 or grater. - out("r6") prev_hi, - out("r7") prev_lo, - in("r8") val.pair.hi, - in("r9") val.pair.lo, - out("cr0") _, - options(nostack, preserves_flags), - ) - }; - } - atomic_rmw!(swap, order); - U128 { pair: Pair { hi: prev_hi, lo: prev_lo } }.whole - } -} - -/// Atomic RMW by LL/SC loop (3 arguments) -/// `unsafe fn(dst: *mut u128, val: u128, order: Ordering) -> u128;` -/// -/// $op can use the following registers: -/// - val_hi/val_lo pair: val argument (read-only for `$op`) -/// - r6/r7 pair: previous value loaded by ll (read-only for `$op`) -/// - r8/r9 pair: new value that will be stored by sc -macro_rules! atomic_rmw_ll_sc_3 { - ($name:ident as $reexport_name:ident, [$($reg:tt)*], $($op:tt)*) => { - #[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - ))] - use $name as $reexport_name; - #[inline] - unsafe fn $name(dst: *mut u128, val: u128, order: Ordering) -> u128 { - debug_assert!(dst as usize % 16 == 0); - debug_assert_pwr8!(); - // SAFETY: the caller must uphold the safety contract. - unsafe { - let val = U128 { whole: val }; - let (mut prev_hi, mut prev_lo); - macro_rules! op { - ($acquire:tt, $release:tt) => { - asm!( - start_pwr8!(), - $release, - "2:", - "lqarx %r6, 0, {dst}", - $($op)* - "stqcx. %r8, 0, {dst}", - "bne %cr0, 2b", - $acquire, - end_pwr8!(), - dst = in(reg_nonzero) ptr_reg!(dst), - val_hi = in(reg) val.pair.hi, - val_lo = in(reg) val.pair.lo, - $($reg)* - // Quadword atomic instructions work with even/odd pair of specified register and subsequent register. - // We cannot use r1 (sp) and r2 (system reserved), so start with r4 or grater. - out("r6") prev_hi, - out("r7") prev_lo, - out("r8") _, // new (hi) - out("r9") _, // new (lo) - out("cr0") _, - options(nostack, preserves_flags), - ) - }; - } - atomic_rmw!(op, order); - U128 { pair: Pair { hi: prev_hi, lo: prev_lo } }.whole - } - } - }; -} -/// Atomic RMW by LL/SC loop (2 arguments) -/// `unsafe fn(dst: *mut u128, order: Ordering) -> u128;` -/// -/// $op can use the following registers: -/// - r6/r7 pair: previous value loaded by ll (read-only for `$op`) -/// - r8/r9 pair: new value that will be stored by sc -macro_rules! atomic_rmw_ll_sc_2 { - ($name:ident as $reexport_name:ident, [$($reg:tt)*], $($op:tt)*) => { - #[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - ))] - use $name as $reexport_name; - #[inline] - unsafe fn $name(dst: *mut u128, order: Ordering) -> u128 { - debug_assert!(dst as usize % 16 == 0); - debug_assert_pwr8!(); - // SAFETY: the caller must uphold the safety contract. - unsafe { - let (mut prev_hi, mut prev_lo); - macro_rules! op { - ($acquire:tt, $release:tt) => { - asm!( - start_pwr8!(), - $release, - "2:", - "lqarx %r6, 0, {dst}", - $($op)* - "stqcx. %r8, 0, {dst}", - "bne %cr0, 2b", - $acquire, - end_pwr8!(), - dst = in(reg_nonzero) ptr_reg!(dst), - $($reg)* - // Quadword atomic instructions work with even/odd pair of specified register and subsequent register. - // We cannot use r1 (sp) and r2 (system reserved), so start with r4 or grater. - out("r6") prev_hi, - out("r7") prev_lo, - out("r8") _, // new (hi) - out("r9") _, // new (lo) - out("cr0") _, - options(nostack, preserves_flags), - ) - }; - } - atomic_rmw!(op, order); - U128 { pair: Pair { hi: prev_hi, lo: prev_lo } }.whole - } - } - }; -} - -atomic_rmw_ll_sc_3! { - atomic_add_pwr8 as atomic_add, [out("xer") _,], - "addc %r9, {val_lo}, %r7", - "adde %r8, {val_hi}, %r6", -} -atomic_rmw_ll_sc_3! { - atomic_sub_pwr8 as atomic_sub, [out("xer") _,], - "subc %r9, %r7, {val_lo}", - "subfe %r8, {val_hi}, %r6", -} -atomic_rmw_ll_sc_3! { - atomic_and_pwr8 as atomic_and, [], - "and %r9, {val_lo}, %r7", - "and %r8, {val_hi}, %r6", -} -atomic_rmw_ll_sc_3! { - atomic_nand_pwr8 as atomic_nand, [], - "nand %r9, {val_lo}, %r7", - "nand %r8, {val_hi}, %r6", -} -atomic_rmw_ll_sc_3! { - atomic_or_pwr8 as atomic_or, [], - "or %r9, {val_lo}, %r7", - "or %r8, {val_hi}, %r6", -} -atomic_rmw_ll_sc_3! { - atomic_xor_pwr8 as atomic_xor, [], - "xor %r9, {val_lo}, %r7", - "xor %r8, {val_hi}, %r6", -} -atomic_rmw_ll_sc_3! { - atomic_max_pwr8 as atomic_max, [out("cr1") _,], - "cmpld %r7, {val_lo}", // (unsigned) compare lo 64-bit, store result to cr0 - "iselgt %r9, %r7, {val_lo}", // select lo 64-bit based on GT bit in cr0 - "cmpd %cr1, %r6, {val_hi}", // (signed) compare hi 64-bit, store result to cr1 - "isel %r8, %r7, {val_lo}, 5", // select lo 64-bit based on GT bit in cr1 - "cmpld %r6, {val_hi}", // (unsigned) compare hi 64-bit, store result to cr0 - "iseleq %r9, %r9, %r8", // select lo 64-bit based on EQ bit in cr0 - "isel %r8, %r6, {val_hi}, 5", // select hi 64-bit based on GT bit in cr1 -} -atomic_rmw_ll_sc_3! { - atomic_umax_pwr8 as atomic_umax, [], - "cmpld %r7, {val_lo}", // compare lo 64-bit, store result to cr0 - "iselgt %r9, %r7, {val_lo}", // select lo 64-bit based on GT bit in cr0 - "cmpld %r6, {val_hi}", // compare hi 64-bit, store result to cr0 - "iselgt %r8, %r7, {val_lo}", // select lo 64-bit based on GT bit in cr0 - "iseleq %r9, %r9, %r8", // select lo 64-bit based on EQ bit in cr0 - "iselgt %r8, %r6, {val_hi}", // select hi 64-bit based on GT bit in cr0 -} -atomic_rmw_ll_sc_3! { - atomic_min_pwr8 as atomic_min, [out("cr1") _,], - "cmpld %r7, {val_lo}", // (unsigned) compare lo 64-bit, store result to cr0 - "isellt %r9, %r7, {val_lo}", // select lo 64-bit based on LT bit in cr0 - "cmpd %cr1, %r6, {val_hi}", // (signed) compare hi 64-bit, store result to cr1 - "isel %r8, %r7, {val_lo}, 4", // select lo 64-bit based on LT bit in cr1 - "cmpld %r6, {val_hi}", // (unsigned) compare hi 64-bit, store result to cr0 - "iseleq %r9, %r9, %r8", // select lo 64-bit based on EQ bit in cr0 - "isel %r8, %r6, {val_hi}, 4", // select hi 64-bit based on LT bit in cr1 -} -atomic_rmw_ll_sc_3! { - atomic_umin_pwr8 as atomic_umin, [], - "cmpld %r7, {val_lo}", // compare lo 64-bit, store result to cr0 - "isellt %r9, %r7, {val_lo}", // select lo 64-bit based on LT bit in cr0 - "cmpld %r6, {val_hi}", // compare hi 64-bit, store result to cr0 - "isellt %r8, %r7, {val_lo}", // select lo 64-bit based on LT bit in cr0 - "iseleq %r9, %r9, %r8", // select lo 64-bit based on EQ bit in cr0 - "isellt %r8, %r6, {val_hi}", // select hi 64-bit based on LT bit in cr0 -} - -#[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -))] -use atomic_not_pwr8 as atomic_not; -#[inline] -unsafe fn atomic_not_pwr8(dst: *mut u128, order: Ordering) -> u128 { - // SAFETY: the caller must uphold the safety contract. - unsafe { atomic_xor_pwr8(dst, !0, order) } -} - -#[cfg(portable_atomic_llvm_16)] -atomic_rmw_ll_sc_2! { - atomic_neg_pwr8 as atomic_neg, [out("xer") _,], - "subfic %r9, %r7, 0", - "subfze %r8, %r6", -} -// LLVM 15 miscompiles subfic. -#[cfg(not(portable_atomic_llvm_16))] -atomic_rmw_ll_sc_2! { - atomic_neg_pwr8 as atomic_neg, [zero = in(reg) 0_u64, out("xer") _,], - "subc %r9, {zero}, %r7", - "subfze %r8, %r6", -} - -macro_rules! atomic_rmw_with_ifunc { - ( - unsafe fn $name:ident($($arg:tt)*) $(-> $ret_ty:ty)?; - pwr8 = $pwr8_fn:ident; - non_seqcst_fallback = $non_seqcst_fallback_fn:ident; - seqcst_fallback = $seqcst_fallback_fn:ident; - ) => { - #[cfg(not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - )))] - #[inline] - unsafe fn $name($($arg)*, order: Ordering) $(-> $ret_ty)? { - fn_alias! { - // inline(never) is just a hint and also not strictly necessary - // because we use ifunc helper macro, but used for clarity. - #[inline(never)] - unsafe fn($($arg)*) $(-> $ret_ty)?; - pwr8_relaxed_fn = $pwr8_fn(Ordering::Relaxed); - pwr8_acquire_fn = $pwr8_fn(Ordering::Acquire); - pwr8_release_fn = $pwr8_fn(Ordering::Release); - pwr8_acqrel_fn = $pwr8_fn(Ordering::AcqRel); - pwr8_seqcst_fn = $pwr8_fn(Ordering::SeqCst); - } - // SAFETY: the caller must uphold the safety contract. - // we only calls pwr8_fn if quadword-atomics is available. - unsafe { - match order { - Ordering::Relaxed => { - ifunc!(unsafe fn($($arg)*) $(-> $ret_ty)? { - if detect::detect().has_quadword_atomics() { - pwr8_relaxed_fn - } else { - fallback::$non_seqcst_fallback_fn - } - }) - } - Ordering::Acquire => { - ifunc!(unsafe fn($($arg)*) $(-> $ret_ty)? { - if detect::detect().has_quadword_atomics() { - pwr8_acquire_fn - } else { - fallback::$non_seqcst_fallback_fn - } - }) - } - Ordering::Release => { - ifunc!(unsafe fn($($arg)*) $(-> $ret_ty)? { - if detect::detect().has_quadword_atomics() { - pwr8_release_fn - } else { - fallback::$non_seqcst_fallback_fn - } - }) - } - Ordering::AcqRel => { - ifunc!(unsafe fn($($arg)*) $(-> $ret_ty)? { - if detect::detect().has_quadword_atomics() { - pwr8_acqrel_fn - } else { - fallback::$non_seqcst_fallback_fn - } - }) - } - Ordering::SeqCst => { - ifunc!(unsafe fn($($arg)*) $(-> $ret_ty)? { - if detect::detect().has_quadword_atomics() { - pwr8_seqcst_fn - } else { - fallback::$seqcst_fallback_fn - } - }) - } - _ => unreachable!("{:?}", order), - } - } - } - }; -} - -atomic_rmw_with_ifunc! { - unsafe fn atomic_compare_exchange_ifunc(dst: *mut u128, old: u128, new: u128) -> (u128, bool); - pwr8 = atomic_compare_exchange_pwr8; - non_seqcst_fallback = atomic_compare_exchange_non_seqcst; - seqcst_fallback = atomic_compare_exchange_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_swap(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_swap_pwr8; - non_seqcst_fallback = atomic_swap_non_seqcst; - seqcst_fallback = atomic_swap_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_add(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_add_pwr8; - non_seqcst_fallback = atomic_add_non_seqcst; - seqcst_fallback = atomic_add_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_sub(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_sub_pwr8; - non_seqcst_fallback = atomic_sub_non_seqcst; - seqcst_fallback = atomic_sub_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_and(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_and_pwr8; - non_seqcst_fallback = atomic_and_non_seqcst; - seqcst_fallback = atomic_and_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_nand(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_nand_pwr8; - non_seqcst_fallback = atomic_nand_non_seqcst; - seqcst_fallback = atomic_nand_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_or(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_or_pwr8; - non_seqcst_fallback = atomic_or_non_seqcst; - seqcst_fallback = atomic_or_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_xor(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_xor_pwr8; - non_seqcst_fallback = atomic_xor_non_seqcst; - seqcst_fallback = atomic_xor_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_max(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_max_pwr8; - non_seqcst_fallback = atomic_max_non_seqcst; - seqcst_fallback = atomic_max_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_umax(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_umax_pwr8; - non_seqcst_fallback = atomic_umax_non_seqcst; - seqcst_fallback = atomic_umax_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_min(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_min_pwr8; - non_seqcst_fallback = atomic_min_non_seqcst; - seqcst_fallback = atomic_min_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_umin(dst: *mut u128, val: u128) -> u128; - pwr8 = atomic_umin_pwr8; - non_seqcst_fallback = atomic_umin_non_seqcst; - seqcst_fallback = atomic_umin_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_not(dst: *mut u128) -> u128; - pwr8 = atomic_not_pwr8; - non_seqcst_fallback = atomic_not_non_seqcst; - seqcst_fallback = atomic_not_seqcst; -} -atomic_rmw_with_ifunc! { - unsafe fn atomic_neg(dst: *mut u128) -> u128; - pwr8 = atomic_neg_pwr8; - non_seqcst_fallback = atomic_neg_non_seqcst; - seqcst_fallback = atomic_neg_seqcst; -} - -#[inline] -fn is_lock_free() -> bool { - #[cfg(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - ))] - { - // lqarx and stqcx. instructions are statically available. - true - } - #[cfg(not(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", - )))] - { - detect::detect().has_quadword_atomics() - } -} -const IS_ALWAYS_LOCK_FREE: bool = cfg!(any( - target_feature = "quadword-atomics", - portable_atomic_target_feature = "quadword-atomics", -)); - -atomic128!(AtomicI128, i128, atomic_max, atomic_min); -atomic128!(AtomicU128, u128, atomic_umax, atomic_umin); - -#[cfg(test)] -mod tests { - use super::*; - - test_atomic_int!(i128); - test_atomic_int!(u128); - - // load/store/swap implementation is not affected by signedness, so it is - // enough to test only unsigned types. - stress_test!(u128); -} -- cgit v1.2.3