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//go:build tinygo.riscv && virt && qemu
package runtime
import (
"device/riscv"
"runtime/volatile"
"unsafe"
)
// This file implements the VirtIO RISC-V interface implemented in QEMU, which
// is an interface designed for emulation.
type timeUnit int64
var timestamp timeUnit
//export main
func main() {
preinit()
run()
exit(0)
}
func ticksToNanoseconds(ticks timeUnit) int64 {
return int64(ticks)
}
func nanosecondsToTicks(ns int64) timeUnit {
return timeUnit(ns)
}
func sleepTicks(d timeUnit) {
// TODO: actually sleep here for the given time.
timestamp += d
}
func ticks() timeUnit {
return timestamp
}
// Memory-mapped I/O as defined by QEMU.
// Source: https://github.com/qemu/qemu/blob/master/hw/riscv/virt.c
// Technically this is an implementation detail but hopefully they won't change
// the memory-mapped I/O registers.
var (
// UART0 output register.
stdoutWrite = (*volatile.Register8)(unsafe.Pointer(uintptr(0x10000000)))
// SiFive test finisher
testFinisher = (*volatile.Register32)(unsafe.Pointer(uintptr(0x100000)))
)
func putchar(c byte) {
stdoutWrite.Set(uint8(c))
}
func getchar() byte {
// dummy, TODO
return 0
}
func buffered() int {
// dummy, TODO
return 0
}
func abort() {
exit(1)
}
func exit(code int) {
// Make sure the QEMU process exits.
if code == 0 {
testFinisher.Set(0x5555) // FINISHER_PASS
} else {
// Exit code is stored in the upper 16 bits of the 32 bit value.
testFinisher.Set(uint32(code)<<16 | 0x3333) // FINISHER_FAIL
}
// Lock up forever (as a fallback).
for {
riscv.Asm("wfi")
}
}
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