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hid_darwin.go
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hid_darwin.go
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package hid
/*
#cgo LDFLAGS: -L . -L/usr/local/lib -framework CoreFoundation -framework IOKit
#include <IOKit/hid/IOHIDManager.h>
#include <CoreFoundation/CoreFoundation.h>
static inline CFIndex cfstring_utf8_length(CFStringRef str, CFIndex *need) {
CFIndex n, usedBufLen;
CFRange rng = CFRangeMake(0, CFStringGetLength(str));
return CFStringGetBytes(str, rng, kCFStringEncodingUTF8, 0, 0, NULL, 0, need);
}
void deviceUnplugged(IOHIDDeviceRef osd, IOReturn ret, void *dev);
void reportCallback(void *context, IOReturn result, void *sender, IOHIDReportType report_type, uint32_t report_id, uint8_t *report, CFIndex report_length);
*/
import "C"
import (
"errors"
"fmt"
"reflect"
"runtime"
"sync"
"unsafe"
)
func ioReturnToErr(ret C.IOReturn) error {
switch ret {
case C.kIOReturnSuccess:
return nil
case C.kIOReturnError:
return errors.New("hid: general error")
case C.kIOReturnNoMemory:
return errors.New("hid: can't allocate memory")
case C.kIOReturnNoResources:
return errors.New("hid: resource shortage")
case C.kIOReturnIPCError:
return errors.New("hid: error during IPC")
case C.kIOReturnNoDevice:
return errors.New("hid: no such device")
case C.kIOReturnNotPrivileged:
return errors.New("hid: privilege violation")
case C.kIOReturnBadArgument:
return errors.New("hid: invalid argument")
case C.kIOReturnLockedRead:
return errors.New("hid: device read locked")
case C.kIOReturnLockedWrite:
return errors.New("hid: device write locked")
case C.kIOReturnExclusiveAccess:
return errors.New("hid: exclusive access and device already open")
case C.kIOReturnBadMessageID:
return errors.New("hid: sent/received messages had different msg_id")
case C.kIOReturnUnsupported:
return errors.New("hid: unsupported function")
case C.kIOReturnVMError:
return errors.New("hid: misc. VM failure")
case C.kIOReturnInternalError:
return errors.New("hid: internal error")
case C.kIOReturnIOError:
return errors.New("hid: general I/O error")
case C.kIOReturnCannotLock:
return errors.New("hid: can't acquire lock")
case C.kIOReturnNotOpen:
return errors.New("hid: device not open")
case C.kIOReturnNotReadable:
return errors.New("hid: read not supported")
case C.kIOReturnNotWritable:
return errors.New("hid: write not supported")
case C.kIOReturnNotAligned:
return errors.New("hid: alignment error")
case C.kIOReturnBadMedia:
return errors.New("hid: media Error")
case C.kIOReturnStillOpen:
return errors.New("hid: device(s) still open")
case C.kIOReturnRLDError:
return errors.New("hid: rld failure")
case C.kIOReturnDMAError:
return errors.New("hid: DMA failure")
case C.kIOReturnBusy:
return errors.New("hid: device Busy")
case C.kIOReturnTimeout:
return errors.New("hid: i/o timeout")
case C.kIOReturnOffline:
return errors.New("hid: device offline")
case C.kIOReturnNotReady:
return errors.New("hid: not ready")
case C.kIOReturnNotAttached:
return errors.New("hid: device not attached")
case C.kIOReturnNoChannels:
return errors.New("hid: no DMA channels left")
case C.kIOReturnNoSpace:
return errors.New("hid: no space for data")
case C.kIOReturnPortExists:
return errors.New("hid: port already exists")
case C.kIOReturnCannotWire:
return errors.New("hid: can't wire down physical memory")
case C.kIOReturnNoInterrupt:
return errors.New("hid: no interrupt attached")
case C.kIOReturnNoFrames:
return errors.New("hid: no DMA frames enqueued")
case C.kIOReturnMessageTooLarge:
return errors.New("hid: oversized msg received on interrupt port")
case C.kIOReturnNotPermitted:
return errors.New("hid: not permitted")
case C.kIOReturnNoPower:
return errors.New("hid: no power to device")
case C.kIOReturnNoMedia:
return errors.New("hid: media not present")
case C.kIOReturnUnformattedMedia:
return errors.New("hid: media not formatted")
case C.kIOReturnUnsupportedMode:
return errors.New("hid: no such mode")
case C.kIOReturnUnderrun:
return errors.New("hid: data underrun")
case C.kIOReturnOverrun:
return errors.New("hid: data overrun")
case C.kIOReturnDeviceError:
return errors.New("hid: the device is not working properly!")
case C.kIOReturnNoCompletion:
return errors.New("hid: a completion routine is required")
case C.kIOReturnAborted:
return errors.New("hid: operation aborted")
case C.kIOReturnNoBandwidth:
return errors.New("hid: bus bandwidth would be exceeded")
case C.kIOReturnNotResponding:
return errors.New("hid: device not responding")
case C.kIOReturnIsoTooOld:
return errors.New("hid: isochronous I/O request for distant past!")
case C.kIOReturnIsoTooNew:
return errors.New("hid: isochronous I/O request for distant future")
case C.kIOReturnNotFound:
return errors.New("hid: data was not found")
default:
return errors.New("hid: unknown error")
}
}
var deviceCtxMtx sync.Mutex
var deviceCtx = make(map[C.IOHIDDeviceRef]*osxDevice)
type cleanupDeviceManagerFn func()
type osxDevice struct {
mtx sync.Mutex
osDevice C.IOHIDDeviceRef
disconnected bool
closeDM cleanupDeviceManagerFn
readSetup sync.Once
readCh chan []byte
readErr error
readBuf []byte
runLoop C.CFRunLoopRef
}
func cfstring(s string) C.CFStringRef {
n := C.CFIndex(len(s))
return C.CFStringCreateWithBytes(C.kCFAllocatorDefault, *(**C.UInt8)(unsafe.Pointer(&s)), n, C.kCFStringEncodingUTF8, 0)
}
func gostring(cfs C.CFStringRef) string {
if cfs == nilCfStringRef {
return ""
}
var usedBufLen C.CFIndex
n := C.cfstring_utf8_length(cfs, &usedBufLen)
if n <= 0 {
return ""
}
rng := C.CFRange{location: C.CFIndex(0), length: n}
buf := make([]byte, int(usedBufLen))
bufp := unsafe.Pointer(&buf[0])
C.CFStringGetBytes(cfs, rng, C.kCFStringEncodingUTF8, 0, 0, (*C.UInt8)(bufp), C.CFIndex(len(buf)), &usedBufLen)
sh := &reflect.StringHeader{
Data: uintptr(bufp),
Len: int(usedBufLen),
}
return *(*string)(unsafe.Pointer(sh))
}
func getIntProp(device C.IOHIDDeviceRef, key C.CFStringRef) int32 {
var value int32
ref := C.IOHIDDeviceGetProperty(device, key)
if ref == nilCfTypeRef {
return 0
}
if C.CFGetTypeID(ref) != C.CFNumberGetTypeID() {
return 0
}
C.CFNumberGetValue(C.CFNumberRef(ref), C.kCFNumberSInt32Type, unsafe.Pointer(&value))
return value
}
func getStringProp(device C.IOHIDDeviceRef, key C.CFStringRef) string {
s := C.IOHIDDeviceGetProperty(device, key)
return gostring(C.CFStringRef(s))
}
func getPath(osDev C.IOHIDDeviceRef) string {
return fmt.Sprintf("%s_%04x_%04x_%08x",
getStringProp(osDev, cfstring(C.kIOHIDTransportKey)),
uint16(getIntProp(osDev, cfstring(C.kIOHIDVendorIDKey))),
uint16(getIntProp(osDev, cfstring(C.kIOHIDProductIDKey))),
uint32(getIntProp(osDev, cfstring(C.kIOHIDLocationIDKey))))
}
func iterateDevices(action func(device C.IOHIDDeviceRef) bool) cleanupDeviceManagerFn {
var mgr C.IOHIDManagerRef
mgr = C.IOHIDManagerCreate(C.kCFAllocatorDefault, C.kIOHIDOptionsTypeNone)
C.IOHIDManagerSetDeviceMatching(mgr, nilCfDictionaryRef)
C.IOHIDManagerOpen(mgr, C.kIOHIDOptionsTypeNone)
var allDevicesSet C.CFSetRef
allDevicesSet = C.IOHIDManagerCopyDevices(mgr)
if allDevicesSet == nilCfSetRef {
return func() {}
}
defer C.CFRelease((C.CFTypeRef)(allDevicesSet))
devCnt := C.CFSetGetCount(allDevicesSet)
allDevices := make([]unsafe.Pointer, uint64(devCnt))
C.CFSetGetValues(allDevicesSet, &allDevices[0])
for _, pDev := range allDevices {
if !action(C.IOHIDDeviceRef(pDev)) {
break
}
}
return func() {
C.IOHIDManagerClose(mgr, C.kIOHIDOptionsTypeNone)
C.CFRelease(C.CFTypeRef(mgr))
}
}
func Devices() ([]*DeviceInfo, error) {
var result []*DeviceInfo
iterateDevices(func(device C.IOHIDDeviceRef) bool {
result = append(result, &DeviceInfo{
VendorID: uint16(getIntProp(device, cfstring(C.kIOHIDVendorIDKey))),
ProductID: uint16(getIntProp(device, cfstring(C.kIOHIDProductIDKey))),
VersionNumber: uint16(getIntProp(device, cfstring(C.kIOHIDVersionNumberKey))),
Manufacturer: getStringProp(device, cfstring(C.kIOHIDManufacturerKey)),
Product: getStringProp(device, cfstring(C.kIOHIDProductKey)),
UsagePage: uint16(getIntProp(device, cfstring(C.kIOHIDPrimaryUsagePageKey))),
Usage: uint16(getIntProp(device, cfstring(C.kIOHIDPrimaryUsageKey))),
InputReportLength: uint16(getIntProp(device, cfstring(C.kIOHIDMaxInputReportSizeKey))),
OutputReportLength: uint16(getIntProp(device, cfstring(C.kIOHIDMaxOutputReportSizeKey))),
Path: getPath(device),
})
return true
})()
return result, nil
}
func ByPath(path string) (*DeviceInfo, error) {
devices, err := Devices()
if err != nil {
return nil, err
}
for _, d := range devices {
if d.Path == path {
return d, nil
}
}
return nil, errors.New("hid: device not found")
}
func (di *DeviceInfo) Open() (Device, error) {
err := errors.New("hid: device not found")
var dev *osxDevice
closeDM := iterateDevices(func(device C.IOHIDDeviceRef) bool {
if getPath(device) == di.Path {
res := C.IOHIDDeviceOpen(device, C.kIOHIDOptionsTypeSeizeDevice)
if res == C.kIOReturnSuccess {
C.CFRetain(C.CFTypeRef(device))
dev = &osxDevice{osDevice: device}
err = nil
deviceCtxMtx.Lock()
deviceCtx[device] = dev
deviceCtxMtx.Unlock()
C.IOHIDDeviceRegisterRemovalCallback(device, (C.IOHIDCallback)(unsafe.Pointer(C.deviceUnplugged)), unsafe.Pointer(device))
} else {
err = ioReturnToErr(res)
}
return false
}
return true
})
if dev != nil {
dev.closeDM = closeDM
dev.readBuf = make([]byte, int(di.InputReportLength))
}
return dev, err
}
//export deviceUnplugged
func deviceUnplugged(osdev C.IOHIDDeviceRef, result C.IOReturn, dev unsafe.Pointer) {
deviceCtxMtx.Lock()
od := deviceCtx[C.IOHIDDeviceRef(dev)]
deviceCtxMtx.Unlock()
od.readErr = errors.New("hid: device unplugged")
od.close(true)
}
func (dev *osxDevice) Close() {
dev.readErr = errors.New("hid: device closed")
dev.close(false)
}
func (dev *osxDevice) close(disconnected bool) {
dev.mtx.Lock()
defer dev.mtx.Unlock()
if dev.disconnected {
return
}
if dev.readCh != nil {
if !disconnected {
C.IOHIDDeviceRegisterInputReportCallback(dev.osDevice, (*C.uint8_t)(&dev.readBuf[0]), C.CFIndex(len(dev.readBuf)), nil, unsafe.Pointer(dev.osDevice))
C.IOHIDDeviceUnscheduleFromRunLoop(dev.osDevice, dev.runLoop, C.kCFRunLoopDefaultMode)
}
C.CFRunLoopStop(dev.runLoop)
}
if !disconnected {
C.IOHIDDeviceRegisterRemovalCallback(dev.osDevice, nil, nil)
C.IOHIDDeviceClose(dev.osDevice, C.kIOHIDOptionsTypeSeizeDevice)
}
deviceCtxMtx.Lock()
delete(deviceCtx, dev.osDevice)
deviceCtxMtx.Unlock()
C.CFRelease(C.CFTypeRef(dev.osDevice))
dev.osDevice = nilIOHIDDeviceRef
dev.closeDM()
dev.disconnected = true
}
func (dev *osxDevice) setReport(typ C.IOHIDReportType, data []byte) error {
dev.mtx.Lock()
defer dev.mtx.Unlock()
if dev.disconnected {
return errors.New("hid: device disconnected")
}
reportNo := int32(data[0])
if reportNo == 0 {
data = data[1:]
}
res := C.IOHIDDeviceSetReport(dev.osDevice, typ, C.CFIndex(reportNo), (*C.uint8_t)(&data[0]), C.CFIndex(len(data)))
if res != C.kIOReturnSuccess {
return ioReturnToErr(res)
}
return nil
}
func (dev *osxDevice) Write(data []byte) error {
return dev.setReport(C.kIOHIDReportTypeOutput, data)
}
func (dev *osxDevice) ReadCh() <-chan []byte {
dev.readSetup.Do(dev.startReadThread)
return dev.readCh
}
func (dev *osxDevice) startReadThread() {
dev.mtx.Lock()
dev.readCh = make(chan []byte, 30)
dev.mtx.Unlock()
go func() {
runtime.LockOSThread()
dev.mtx.Lock()
dev.runLoop = C.CFRunLoopGetCurrent()
C.IOHIDDeviceScheduleWithRunLoop(dev.osDevice, dev.runLoop, C.kCFRunLoopDefaultMode)
C.IOHIDDeviceRegisterInputReportCallback(dev.osDevice, (*C.uint8_t)(&dev.readBuf[0]), C.CFIndex(len(dev.readBuf)), (C.IOHIDReportCallback)(unsafe.Pointer(C.reportCallback)), unsafe.Pointer(dev.osDevice))
dev.mtx.Unlock()
C.CFRunLoopRun()
close(dev.readCh)
}()
}
func (dev *osxDevice) ReadError() error {
return dev.readErr
}
//export reportCallback
func reportCallback(context unsafe.Pointer, result C.IOReturn, sender unsafe.Pointer, reportType C.IOHIDReportType, reportID uint32, report *C.uint8_t, reportLength C.CFIndex) {
deviceCtxMtx.Lock()
dev, ok := deviceCtx[(C.IOHIDDeviceRef)(context)]
deviceCtxMtx.Unlock()
if !ok {
return
}
data := C.GoBytes(unsafe.Pointer(report), C.int(reportLength))
// readCh is buffered, drop the data if we can't send to avoid blocking the
// run loop
select {
case dev.readCh <- data:
default:
}
}