//go:build unix package alloc import ( "math" "github.com/tetratelabs/wazero/experimental" "golang.org/x/sys/unix" ) func NewMemory(_, max uint64) experimental.LinearMemory { // Round up to the page size. rnd := uint64(unix.Getpagesize() - 1) max = (max + rnd) &^ rnd if max > math.MaxInt { // This ensures int(max) overflows to a negative value, // and unix.Mmap returns EINVAL. max = math.MaxUint64 } // Reserve max bytes of address space, to ensure we won't need to move it. // A protected, private, anonymous mapping should not commit memory. b, err := unix.Mmap(-1, 0, int(max), unix.PROT_NONE, unix.MAP_PRIVATE|unix.MAP_ANON) if err != nil { panic(err) } return &mmappedMemory{buf: b[:0]} } // The slice covers the entire mmapped memory: // - len(buf) is the already committed memory, // - cap(buf) is the reserved address space. type mmappedMemory struct { buf []byte } func (m *mmappedMemory) Reallocate(size uint64) []byte { com := uint64(len(m.buf)) res := uint64(cap(m.buf)) if com < size && size <= res { // Round up to the page size. rnd := uint64(unix.Getpagesize() - 1) new := (size + rnd) &^ rnd // Commit additional memory up to new bytes. err := unix.Mprotect(m.buf[com:new], unix.PROT_READ|unix.PROT_WRITE) if err != nil { return nil } // Update committed memory. m.buf = m.buf[:new] } // Limit returned capacity because bytes beyond // len(m.buf) have not yet been committed. return m.buf[:size:len(m.buf)] } func (m *mmappedMemory) Free() { err := unix.Munmap(m.buf[:cap(m.buf)]) if err != nil { panic(err) } m.buf = nil }