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gommap.go
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gommap.go
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// +build !windows
// This package offers the MMap type that manipulates a memory mapped file or
// device.
//
// IMPORTANT NOTE (1): The MMap type is backed by an unsafe memory region,
// which is not covered by the normal rules of Go's memory management. If a
// slice is taken out of it, and then the memory is explicitly unmapped through
// one of the available methods, both the MMap value itself and the slice
// obtained will now silently point to invalid memory. Attempting to access
// data in them will crash the application.
package gommap
import (
"os"
"reflect"
"syscall"
"unsafe"
)
// The MMap type represents a memory mapped file or device. The slice offers
// direct access to the memory mapped content.
//
// IMPORTANT: Please see note in the package documentation regarding the way
// in which this type behaves.
type MMap []byte
// Map creates a new mapping in the virtual address space of the calling process.
// This function will attempt to map the entire file by using the fstat system
// call with the provided file descriptor to discover its length.
func Map(fd uintptr, prot ProtFlags, flags MapFlags) (MMap, error) {
mmap, err := MapAt(0, fd, 0, -1, prot, flags)
return mmap, err
}
// MapRegion creates a new mapping in the virtual address space of the calling
// process, using the specified region of the provided file or device. If -1 is
// provided as length, this function will attempt to map until the end of the
// provided file descriptor by using the fstat system call to discover its
// length.
func MapRegion(fd uintptr, offset, length int64, prot ProtFlags, flags MapFlags) (MMap, error) {
mmap, err := MapAt(0, fd, offset, length, prot, flags)
return mmap, err
}
// MapAt creates a new mapping in the virtual address space of the calling
// process, using the specified region of the provided file or device. The
// provided addr parameter will be used as a hint of the address where the
// kernel should position the memory mapped region. If -1 is provided as
// length, this function will attempt to map until the end of the provided
// file descriptor by using the fstat system call to discover its length.
func MapAt(addr uintptr, fd uintptr, offset, length int64, prot ProtFlags, flags MapFlags) (MMap, error) {
if length == -1 {
var stat syscall.Stat_t
if err := syscall.Fstat(int(fd), &stat); err != nil {
return nil, err
}
length = stat.Size
}
addr, err := mmap_syscall(addr, uintptr(length), uintptr(prot), uintptr(flags), fd, offset)
if err != syscall.Errno(0) {
return nil, err
}
mmap := MMap{}
dh := (*reflect.SliceHeader)(unsafe.Pointer(&mmap))
dh.Data = addr
dh.Len = int(length) // Hmmm.. truncating here feels like trouble.
dh.Cap = dh.Len
return mmap, nil
}
// UnsafeUnmap deletes the memory mapped region defined by the mmap slice. This
// will also flush any remaining changes, if necessary. Using mmap or any
// other slices based on it after this method has been called will crash the
// application.
func (mmap MMap) UnsafeUnmap() error {
rh := *(*reflect.SliceHeader)(unsafe.Pointer(&mmap))
_, _, err := syscall.Syscall(syscall.SYS_MUNMAP, uintptr(rh.Data), uintptr(rh.Len), 0)
if err != 0 {
return err
}
return nil
}
// Sync flushes changes made to the region determined by the mmap slice
// back to the device. Without calling this method, there are no guarantees
// that changes will be flushed back before the region is unmapped. The
// flags parameter specifies whether flushing should be done synchronously
// (before the method returns) with MS_SYNC, or asynchronously (flushing is just
// scheduled) with MS_ASYNC.
func (mmap MMap) Sync(flags SyncFlags) error {
rh := *(*reflect.SliceHeader)(unsafe.Pointer(&mmap))
_, _, err := syscall.Syscall(syscall.SYS_MSYNC, uintptr(rh.Data), uintptr(rh.Len), uintptr(flags))
if err != 0 {
return err
}
return nil
}
// Advise advises the kernel about how to handle the mapped memory
// region in terms of input/output paging within the memory region
// defined by the mmap slice.
func (mmap MMap) Advise(advice AdviseFlags) error {
rh := *(*reflect.SliceHeader)(unsafe.Pointer(&mmap))
_, _, err := syscall.Syscall(syscall.SYS_MADVISE, uintptr(rh.Data), uintptr(rh.Len), uintptr(advice))
if err != 0 {
return err
}
return nil
}
// Protect changes the protection flags for the memory mapped region
// defined by the mmap slice.
func (mmap MMap) Protect(prot ProtFlags) error {
rh := *(*reflect.SliceHeader)(unsafe.Pointer(&mmap))
_, _, err := syscall.Syscall(syscall.SYS_MPROTECT, uintptr(rh.Data), uintptr(rh.Len), uintptr(prot))
if err != 0 {
return err
}
return nil
}
// Lock locks the mapped region defined by the mmap slice,
// preventing it from being swapped out.
func (mmap MMap) Lock() error {
rh := *(*reflect.SliceHeader)(unsafe.Pointer(&mmap))
_, _, err := syscall.Syscall(syscall.SYS_MLOCK, uintptr(rh.Data), uintptr(rh.Len), 0)
if err != 0 {
return err
}
return nil
}
// Unlock unlocks the mapped region defined by the mmap slice,
// allowing it to swap out again.
func (mmap MMap) Unlock() error {
rh := *(*reflect.SliceHeader)(unsafe.Pointer(&mmap))
_, _, err := syscall.Syscall(syscall.SYS_MUNLOCK, uintptr(rh.Data), uintptr(rh.Len), 0)
if err != 0 {
return err
}
return nil
}
// IsResident returns a slice of booleans informing whether the respective
// memory page in mmap was mapped at the time the call was made.
func (mmap MMap) IsResident() ([]bool, error) {
pageSize := os.Getpagesize()
result := make([]bool, (len(mmap)+pageSize-1)/pageSize)
rh := *(*reflect.SliceHeader)(unsafe.Pointer(&mmap))
resulth := *(*reflect.SliceHeader)(unsafe.Pointer(&result))
_, _, err := syscall.Syscall(syscall.SYS_MINCORE, uintptr(rh.Data), uintptr(rh.Len), uintptr(resulth.Data))
for i := range result {
*(*uint8)(unsafe.Pointer(&result[i])) &= 1
}
if err != 0 {
return nil, err
}
return result, nil
}