Add windows memory map functions to storage package

This commit is contained in:
j.laycock 2019-08-23 16:19:00 +01:00
parent b439055640
commit 1e89e719b3

View file

@ -0,0 +1,216 @@
// +build windows
package storage
import (
"reflect"
"syscall"
"unsafe"
"golang.org/x/sys/windows"
)
type DWORD = uint32
type WORD = uint16
type memory_buffer struct {
aligned_length uint64
length uint64
aligned_ptr uintptr
ptr uintptr
buffer []byte
}
type memory_map struct {
file_handle windows.Handle
file_memory_map_handle windows.Handle
write_map_views []memory_buffer
max_length uint64
// read_map_views []memory_buffer
}
var (
procGetSystemInfo = syscall.NewLazyDLL("kernel32.dll").NewProc("GetSystemInfo")
)
var system_info, err = getSystemInfo()
var chunk_size = uint64(system_info.dwAllocationGranularity) * 512
func CreateMemoryMap(hFile windows.Handle, maxlength uint64) memory_map {
mem_map := memory_map{}
maxlength_high := uint32(maxlength >> 32)
maxlength_low := uint32(maxlength & 0xFFFFFFFF)
file_memory_map_handle, err := windows.CreateFileMapping(hFile, nil, windows.PAGE_READWRITE, maxlength_high, maxlength_low, nil)
if err != nil {
mem_map.file_handle = hFile
mem_map.file_memory_map_handle = file_memory_map_handle
mem_map.max_length = maxlength
}
return mem_map
}
func DeleteFileAndMemoryMap(mem_map memory_map) {
windows.CloseHandle(mem_map.file_memory_map_handle)
windows.CloseHandle(mem_map.file_handle)
for _, view := range mem_map.write_map_views {
ReleaseMemory(view)
}
mem_map.write_map_views = nil
mem_map.max_length = 0
}
func min(x, y uint64) uint64 {
if x < y {
return x
}
return y
}
func WriteMemory(mem_map memory_map, offset uint64, length uint64, data []byte) {
for {
if ((offset+length)/chunk_size)+1 > uint64(len(mem_map.write_map_views)) {
allocateChunk(mem_map)
} else {
break
}
}
remaining_length := length
slice_index := offset / chunk_size
slice_offset := offset - (slice_index * chunk_size)
data_offset := uint64(0)
for {
write_end := min(remaining_length, chunk_size)
copy(mem_map.write_map_views[slice_index].buffer[slice_offset:write_end], data[data_offset:])
remaining_length -= (write_end - slice_offset)
data_offset += (write_end - slice_offset)
if remaining_length > 0 {
slice_index += 1
slice_offset = 0
} else {
break
}
}
}
func ReadMemory(mem_map memory_map, offset uint64, length uint64) (memory_buffer, error) {
return allocate(mem_map.file_memory_map_handle, offset, length, false)
}
func ReleaseMemory(mem_buffer memory_buffer) {
windows.UnmapViewOfFile(mem_buffer.aligned_ptr)
mem_buffer.ptr = 0
mem_buffer.aligned_ptr = 0
mem_buffer.length = 0
mem_buffer.aligned_length = 0
mem_buffer.buffer = nil
}
func allocateChunk(mem_map memory_map) {
start := uint64(len(mem_map.write_map_views)-1) * chunk_size
mem_buffer, err := allocate(mem_map.file_memory_map_handle, start, chunk_size, true)
if err == nil {
mem_map.write_map_views = append(mem_map.write_map_views, mem_buffer)
}
}
func allocate(hMapFile windows.Handle, offset uint64, length uint64, write bool) (memory_buffer, error) {
mem_buffer := memory_buffer{}
dwSysGran := system_info.dwAllocationGranularity
start := (offset / uint64(dwSysGran)) * uint64(dwSysGran)
diff := offset - start
aligned_length := diff + length
offset_high := uint32(start >> 32)
offset_low := uint32(start & 0xFFFFFFFF)
access := windows.FILE_MAP_READ
if write {
access = windows.FILE_MAP_WRITE
}
addr_ptr, errno := windows.MapViewOfFile(hMapFile,
uint32(access), // read/write permission
offset_high,
offset_low,
uintptr(aligned_length))
if addr_ptr == 0 {
return mem_buffer, errno
}
mem_buffer.aligned_ptr = addr_ptr
mem_buffer.aligned_length = aligned_length
mem_buffer.ptr = addr_ptr + uintptr(diff)
mem_buffer.length = length
slice_header := (*reflect.SliceHeader)(unsafe.Pointer(&mem_buffer.buffer))
slice_header.Data = addr_ptr + uintptr(diff)
slice_header.Len = int(length)
slice_header.Cap = int(length)
return mem_buffer, nil
}
// typedef struct _SYSTEM_INFO {
// union {
// DWORD dwOemId;
// struct {
// WORD wProcessorArchitecture;
// WORD wReserved;
// };
// };
// DWORD dwPageSize;
// LPVOID lpMinimumApplicationAddress;
// LPVOID lpMaximumApplicationAddress;
// DWORD_PTR dwActiveProcessorMask;
// DWORD dwNumberOfProcessors;
// DWORD dwProcessorType;
// DWORD dwAllocationGranularity;
// WORD wProcessorLevel;
// WORD wProcessorRevision;
// } SYSTEM_INFO;
// https://msdn.microsoft.com/en-us/library/ms724958(v=vs.85).aspx
type _SYSTEM_INFO struct {
dwOemId DWORD
dwPageSize DWORD
lpMinimumApplicationAddress uintptr
lpMaximumApplicationAddress uintptr
dwActiveProcessorMask uintptr
dwNumberOfProcessors DWORD
dwProcessorType DWORD
dwAllocationGranularity DWORD
wProcessorLevel WORD
wProcessorRevision WORD
}
// void WINAPI GetSystemInfo(
// _Out_ LPSYSTEM_INFO lpSystemInfo
// );
// https://msdn.microsoft.com/en-us/library/ms724381(VS.85).aspx
func getSystemInfo() (_SYSTEM_INFO, error) {
var si _SYSTEM_INFO
_, _, err := procGetSystemInfo.Call(
uintptr(unsafe.Pointer(&si)),
)
if err != syscall.Errno(0) {
return si, err
}
return si, nil
}