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//go:build baremetal && !tinygo.wasm
// +build baremetal,!tinygo.wasm
// Automatically generated file. DO NOT EDIT.
// This file implements standins for non-native atomics using critical sections.
package runtime
import (
"runtime/interrupt"
_ "unsafe"
)
// Documentation:
// * https://llvm.org/docs/Atomics.html
// * https://gcc.gnu.org/onlinedocs/gcc/_005f_005fsync-Builtins.html
//
// Some atomic operations are emitted inline while others are emitted as libcalls.
// How many are emitted as libcalls depends on the MCU arch and core variant.
// 16-bit atomics.
//export __atomic_load_2
func __atomic_load_2(ptr *uint16, ordering uintptr) uint16 {
// The LLVM docs for this say that there is a val argument after the pointer.
// That is a typo, and the GCC docs omit it.
mask := interrupt.Disable()
val := *ptr
interrupt.Restore(mask)
return val
}
//export __atomic_store_2
func __atomic_store_2(ptr *uint16, val uint16, ordering uintptr) {
mask := interrupt.Disable()
*ptr = val
interrupt.Restore(mask)
}
//go:inline
func doAtomicCAS16(ptr *uint16, expected, desired uint16) uint16 {
mask := interrupt.Disable()
old := *ptr
if old == expected {
*ptr = desired
}
interrupt.Restore(mask)
return old
}
//export __sync_val_compare_and_swap_2
func __sync_val_compare_and_swap_2(ptr *uint16, expected, desired uint16) uint16 {
return doAtomicCAS16(ptr, expected, desired)
}
//export __atomic_compare_exchange_2
func __atomic_compare_exchange_2(ptr, expected *uint16, desired uint16, successOrder, failureOrder uintptr) bool {
exp := *expected
old := doAtomicCAS16(ptr, exp, desired)
return old == exp
}
//go:inline
func doAtomicSwap16(ptr *uint16, new uint16) uint16 {
mask := interrupt.Disable()
old := *ptr
*ptr = new
interrupt.Restore(mask)
return old
}
//export __sync_lock_test_and_set_2
func __sync_lock_test_and_set_2(ptr *uint16, new uint16) uint16 {
return doAtomicSwap16(ptr, new)
}
//export __atomic_exchange_2
func __atomic_exchange_2(ptr *uint16, new uint16, ordering uintptr) uint16 {
return doAtomicSwap16(ptr, new)
}
//go:inline
func doAtomicAdd16(ptr *uint16, value uint16) (old, new uint16) {
mask := interrupt.Disable()
old = *ptr
new = old + value
*ptr = new
interrupt.Restore(mask)
return old, new
}
//export __atomic_fetch_add_2
func __atomic_fetch_add_2(ptr *uint16, value uint16, ordering uintptr) uint16 {
old, _ := doAtomicAdd16(ptr, value)
return old
}
//export __sync_fetch_and_add_2
func __sync_fetch_and_add_2(ptr *uint16, value uint16) uint16 {
old, _ := doAtomicAdd16(ptr, value)
return old
}
//export __atomic_add_fetch_2
func __atomic_add_fetch_2(ptr *uint16, value uint16, ordering uintptr) uint16 {
_, new := doAtomicAdd16(ptr, value)
return new
}
// 32-bit atomics.
//export __atomic_load_4
func __atomic_load_4(ptr *uint32, ordering uintptr) uint32 {
// The LLVM docs for this say that there is a val argument after the pointer.
// That is a typo, and the GCC docs omit it.
mask := interrupt.Disable()
val := *ptr
interrupt.Restore(mask)
return val
}
//export __atomic_store_4
func __atomic_store_4(ptr *uint32, val uint32, ordering uintptr) {
mask := interrupt.Disable()
*ptr = val
interrupt.Restore(mask)
}
//go:inline
func doAtomicCAS32(ptr *uint32, expected, desired uint32) uint32 {
mask := interrupt.Disable()
old := *ptr
if old == expected {
*ptr = desired
}
interrupt.Restore(mask)
return old
}
//export __sync_val_compare_and_swap_4
func __sync_val_compare_and_swap_4(ptr *uint32, expected, desired uint32) uint32 {
return doAtomicCAS32(ptr, expected, desired)
}
//export __atomic_compare_exchange_4
func __atomic_compare_exchange_4(ptr, expected *uint32, desired uint32, successOrder, failureOrder uintptr) bool {
exp := *expected
old := doAtomicCAS32(ptr, exp, desired)
return old == exp
}
//go:inline
func doAtomicSwap32(ptr *uint32, new uint32) uint32 {
mask := interrupt.Disable()
old := *ptr
*ptr = new
interrupt.Restore(mask)
return old
}
//export __sync_lock_test_and_set_4
func __sync_lock_test_and_set_4(ptr *uint32, new uint32) uint32 {
return doAtomicSwap32(ptr, new)
}
//export __atomic_exchange_4
func __atomic_exchange_4(ptr *uint32, new uint32, ordering uintptr) uint32 {
return doAtomicSwap32(ptr, new)
}
//go:inline
func doAtomicAdd32(ptr *uint32, value uint32) (old, new uint32) {
mask := interrupt.Disable()
old = *ptr
new = old + value
*ptr = new
interrupt.Restore(mask)
return old, new
}
//export __atomic_fetch_add_4
func __atomic_fetch_add_4(ptr *uint32, value uint32, ordering uintptr) uint32 {
old, _ := doAtomicAdd32(ptr, value)
return old
}
//export __sync_fetch_and_add_4
func __sync_fetch_and_add_4(ptr *uint32, value uint32) uint32 {
old, _ := doAtomicAdd32(ptr, value)
return old
}
//export __atomic_add_fetch_4
func __atomic_add_fetch_4(ptr *uint32, value uint32, ordering uintptr) uint32 {
_, new := doAtomicAdd32(ptr, value)
return new
}
// 64-bit atomics.
//export __atomic_load_8
func __atomic_load_8(ptr *uint64, ordering uintptr) uint64 {
// The LLVM docs for this say that there is a val argument after the pointer.
// That is a typo, and the GCC docs omit it.
mask := interrupt.Disable()
val := *ptr
interrupt.Restore(mask)
return val
}
//export __atomic_store_8
func __atomic_store_8(ptr *uint64, val uint64, ordering uintptr) {
mask := interrupt.Disable()
*ptr = val
interrupt.Restore(mask)
}
//go:inline
func doAtomicCAS64(ptr *uint64, expected, desired uint64) uint64 {
mask := interrupt.Disable()
old := *ptr
if old == expected {
*ptr = desired
}
interrupt.Restore(mask)
return old
}
//export __sync_val_compare_and_swap_8
func __sync_val_compare_and_swap_8(ptr *uint64, expected, desired uint64) uint64 {
return doAtomicCAS64(ptr, expected, desired)
}
//export __atomic_compare_exchange_8
func __atomic_compare_exchange_8(ptr, expected *uint64, desired uint64, successOrder, failureOrder uintptr) bool {
exp := *expected
old := doAtomicCAS64(ptr, exp, desired)
return old == exp
}
//go:inline
func doAtomicSwap64(ptr *uint64, new uint64) uint64 {
mask := interrupt.Disable()
old := *ptr
*ptr = new
interrupt.Restore(mask)
return old
}
//export __sync_lock_test_and_set_8
func __sync_lock_test_and_set_8(ptr *uint64, new uint64) uint64 {
return doAtomicSwap64(ptr, new)
}
//export __atomic_exchange_8
func __atomic_exchange_8(ptr *uint64, new uint64, ordering uintptr) uint64 {
return doAtomicSwap64(ptr, new)
}
//go:inline
func doAtomicAdd64(ptr *uint64, value uint64) (old, new uint64) {
mask := interrupt.Disable()
old = *ptr
new = old + value
*ptr = new
interrupt.Restore(mask)
return old, new
}
//export __atomic_fetch_add_8
func __atomic_fetch_add_8(ptr *uint64, value uint64, ordering uintptr) uint64 {
old, _ := doAtomicAdd64(ptr, value)
return old
}
//export __sync_fetch_and_add_8
func __sync_fetch_and_add_8(ptr *uint64, value uint64) uint64 {
old, _ := doAtomicAdd64(ptr, value)
return old
}
//export __atomic_add_fetch_8
func __atomic_add_fetch_8(ptr *uint64, value uint64, ordering uintptr) uint64 {
_, new := doAtomicAdd64(ptr, value)
return new
}
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