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wrap.go
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wrap.go
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//go:build darwin
package fsevents
/*
#cgo LDFLAGS: -framework CoreServices
#include <CoreServices/CoreServices.h>
#include <sys/stat.h>
static CFArrayRef ArrayCreateMutable(int len) {
return CFArrayCreateMutable(NULL, len, &kCFTypeArrayCallBacks);
}
extern void fsevtCallback(FSEventStreamRef p0, uintptr_t info, size_t p1, char** p2, FSEventStreamEventFlags* p3, FSEventStreamEventId* p4);
static FSEventStreamRef EventStreamCreateRelativeToDevice(FSEventStreamContext * context, uintptr_t info, dev_t dev, CFArrayRef paths, FSEventStreamEventId since, CFTimeInterval latency, FSEventStreamCreateFlags flags) {
context->info = (void*) info;
return FSEventStreamCreateRelativeToDevice(NULL, (FSEventStreamCallback) fsevtCallback, context, dev, paths, since, latency, flags);
}
static FSEventStreamRef EventStreamCreate(FSEventStreamContext * context, uintptr_t info, CFArrayRef paths, FSEventStreamEventId since, CFTimeInterval latency, FSEventStreamCreateFlags flags) {
context->info = (void*) info;
return FSEventStreamCreate(NULL, (FSEventStreamCallback) fsevtCallback, context, paths, since, latency, flags);
}
static void DispatchQueueRelease(dispatch_queue_t queue) {
dispatch_release(queue);
}
*/
import "C"
import (
"fmt"
"log"
"path/filepath"
"reflect"
"runtime"
"time"
"unsafe"
)
// CreateFlags specifies what events will be seen in an event stream.
type CreateFlags uint32
const (
// NoDefer sends events on the leading edge (for interactive applications).
// By default events are delivered after latency seconds (for background tasks).
//
// Affects the meaning of the EventStream.Latency parameter. If you specify
// this flag and more than latency seconds have elapsed since
// the last event, your app will receive the event immediately.
// The delivery of the event resets the latency timer and any
// further events will be delivered after latency seconds have
// elapsed. This flag is useful for apps that are interactive
// and want to react immediately to changes but avoid getting
// swamped by notifications when changes are occurring in rapid
// succession. If you do not specify this flag, then when an
// event occurs after a period of no events, the latency timer
// is started. Any events that occur during the next latency
// seconds will be delivered as one group (including that first
// event). The delivery of the group of events resets the
// latency timer and any further events will be delivered after
// latency seconds. This is the default behavior and is more
// appropriate for background, daemon or batch processing apps.
NoDefer = CreateFlags(C.kFSEventStreamCreateFlagNoDefer)
// WatchRoot requests notifications of changes along the path to
// the path(s) you're watching. For example, with this flag, if
// you watch "/foo/bar" and it is renamed to "/foo/bar.old", you
// would receive a RootChanged event. The same is true if the
// directory "/foo" were renamed. The event you receive is a
// special event: the path for the event is the original path
// you specified, the flag RootChanged is set and event ID is
// zero. RootChanged events are useful to indicate that you
// should rescan a particular hierarchy because it changed
// completely (as opposed to the things inside of it changing).
// If you want to track the current location of a directory, it
// is best to open the directory before creating the stream so
// that you have a file descriptor for it and can issue an
// F_GETPATH fcntl() to find the current path.
WatchRoot = CreateFlags(C.kFSEventStreamCreateFlagWatchRoot)
// IgnoreSelf doesn't send events triggered by the current process (macOS 10.6+).
//
// Don't send events that were triggered by the current process.
// This is useful for reducing the volume of events that are
// sent. It is only useful if your process might modify the file
// system hierarchy beneath the path(s) being monitored. Note:
// this has no effect on historical events, i.e., those
// delivered before the HistoryDone sentinel event.
IgnoreSelf = CreateFlags(C.kFSEventStreamCreateFlagIgnoreSelf)
// FileEvents sends events about individual files, generating significantly
// more events (macOS 10.7+) than directory level notifications.
FileEvents = CreateFlags(C.kFSEventStreamCreateFlagFileEvents)
)
// EventFlags passed to the FSEventStreamCallback function.
// These correspond directly to the flags as described here:
// https://developer.apple.com/documentation/coreservices/1455361-fseventstreameventflags
type EventFlags uint32
const (
// MustScanSubDirs indicates that events were coalesced hierarchically.
//
// Your application must rescan not just the directory given in
// the event, but all its children, recursively. This can happen
// if there was a problem whereby events were coalesced
// hierarchically. For example, an event in /Users/jsmith/Music
// and an event in /Users/jsmith/Pictures might be coalesced
// into an event with this flag set and path=/Users/jsmith. If
// this flag is set you may be able to get an idea of whether
// the bottleneck happened in the kernel (less likely) or in
// your client (more likely) by checking for the presence of the
// informational flags UserDropped or KernelDropped.
MustScanSubDirs EventFlags = EventFlags(C.kFSEventStreamEventFlagMustScanSubDirs)
// KernelDropped or UserDropped may be set in addition
// to the MustScanSubDirs flag to indicate that a problem
// occurred in buffering the events (the particular flag set
// indicates where the problem occurred) and that the client
// must do a full scan of any directories (and their
// subdirectories, recursively) being monitored by this stream.
// If you asked to monitor multiple paths with this stream then
// you will be notified about all of them. Your code need only
// check for the MustScanSubDirs flag; these flags (if present)
// only provide information to help you diagnose the problem.
KernelDropped = EventFlags(C.kFSEventStreamEventFlagKernelDropped)
// UserDropped is related to UserDropped above.
UserDropped = EventFlags(C.kFSEventStreamEventFlagUserDropped)
// EventIDsWrapped indicates the 64-bit event ID counter wrapped around.
//
// If EventIdsWrapped is set, it means
// the 64-bit event ID counter wrapped around. As a result,
// previously-issued event ID's are no longer valid
// for the EventID field when using EventStream.Resume.
EventIDsWrapped = EventFlags(C.kFSEventStreamEventFlagEventIdsWrapped)
// HistoryDone is a sentinel event when retrieving events with EventStream.Resume.
//
// Denotes a sentinel event sent to mark the end of the
// "historical" events sent as a result of specifying
// EventStream.Resume.
//
// After sending all the "historical" events that occurred before now,
// an event will be sent with the HistoryDone flag set. The client
// should ignore the path supplied in that event.
HistoryDone = EventFlags(C.kFSEventStreamEventFlagHistoryDone)
// RootChanged indicates a change to a directory along the path being watched.
//
// Denotes a special event sent when there is a change to one of
// the directories along the path to one of the directories you
// asked to watch. When this flag is set, the event ID is zero
// and the path corresponds to one of the paths you asked to
// watch (specifically, the one that changed). The path may no
// longer exist because it or one of its parents was deleted or
// renamed. Events with this flag set will only be sent if you
// passed the flag WatchRoot when you created the stream.
RootChanged = EventFlags(C.kFSEventStreamEventFlagRootChanged)
// Mount for a volume mounted underneath the path being monitored.
//
// Denotes a special event sent when a volume is mounted
// underneath one of the paths being monitored. The path in the
// event is the path to the newly-mounted volume. You will
// receive one of these notifications for every volume mount
// event inside the kernel (independent of DiskArbitration).
// Beware that a newly-mounted volume could contain an
// arbitrarily large directory hierarchy. Avoid pitfalls like
// triggering a recursive scan of a non-local filesystem, which
// you can detect by checking for the absence of the MNT_LOCAL
// flag in the f_flags returned by statfs(). Also be aware of
// the MNT_DONTBROWSE flag that is set for volumes which should
// not be displayed by user interface elements.
Mount = EventFlags(C.kFSEventStreamEventFlagMount)
// Unmount event occurs after a volume is unmounted.
//
// Denotes a special event sent when a volume is unmounted
// underneath one of the paths being monitored. The path in the
// event is the path to the directory from which the volume was
// unmounted. You will receive one of these notifications for
// every volume unmount event inside the kernel. This is not a
// substitute for the notifications provided by the
// DiskArbitration framework; you only get notified after the
// unmount has occurred. Beware that unmounting a volume could
// uncover an arbitrarily large directory hierarchy, although
// macOS never does that.
Unmount = EventFlags(C.kFSEventStreamEventFlagUnmount)
// The following flags are only set when using FileEvents.
// ItemCreated indicates that a file or directory has been created.
ItemCreated = EventFlags(C.kFSEventStreamEventFlagItemCreated)
// ItemRemoved indicates that a file or directory has been removed.
ItemRemoved = EventFlags(C.kFSEventStreamEventFlagItemRemoved)
// ItemInodeMetaMod indicates that a file or directory's metadata has has been modified.
ItemInodeMetaMod = EventFlags(C.kFSEventStreamEventFlagItemInodeMetaMod)
// ItemRenamed indicates that a file or directory has been renamed.
// TODO is there any indication what it might have been renamed to?
ItemRenamed = EventFlags(C.kFSEventStreamEventFlagItemRenamed)
// ItemModified indicates that a file has been modified.
ItemModified = EventFlags(C.kFSEventStreamEventFlagItemModified)
// ItemFinderInfoMod indicates the the item's Finder information has been
// modified.
// TODO the above is just a guess.
ItemFinderInfoMod = EventFlags(C.kFSEventStreamEventFlagItemFinderInfoMod)
// ItemChangeOwner indicates that the file has changed ownership.
ItemChangeOwner = EventFlags(C.kFSEventStreamEventFlagItemChangeOwner)
// ItemXattrMod indicates that the files extended attributes have changed.
ItemXattrMod = EventFlags(C.kFSEventStreamEventFlagItemXattrMod)
// ItemIsFile indicates that the item is a file.
ItemIsFile = EventFlags(C.kFSEventStreamEventFlagItemIsFile)
// ItemIsDir indicates that the item is a directory.
ItemIsDir = EventFlags(C.kFSEventStreamEventFlagItemIsDir)
// ItemIsSymlink indicates that the item is a symbolic link.
ItemIsSymlink = EventFlags(C.kFSEventStreamEventFlagItemIsSymlink)
)
const (
nullCFStringRef = C.CFStringRef(0)
nullCFUUIDRef = C.CFUUIDRef(0)
// eventIDSinceNow is a sentinel to begin watching events "since now".
eventIDSinceNow = uint64(C.kFSEventStreamEventIdSinceNow)
)
// GetDeviceUUID retrieves the UUID required to identify an EventID
// in the FSEvents database
func GetDeviceUUID(deviceID int32) string {
uuid := C.FSEventsCopyUUIDForDevice(C.dev_t(deviceID))
if uuid == nullCFUUIDRef {
return ""
}
return cfStringToGoString(C.CFUUIDCreateString(C.kCFAllocatorDefault, uuid))
}
// LatestEventID returns the most recently generated event ID, system-wide.
func LatestEventID() uint64 {
return uint64(C.FSEventsGetCurrentEventId())
}
// arguments are released by C at the end of the callback. Ensure copies
// are made if data is expected to persist beyond this function ending.
//
//export fsevtCallback
func fsevtCallback(stream C.FSEventStreamRef, info uintptr, numEvents C.size_t, cpaths **C.char, cflags *C.FSEventStreamEventFlags, cids *C.FSEventStreamEventId) {
l := int(numEvents)
events := make([]Event, l)
es := registry.Get(info)
if es == nil {
log.Printf("failed to retrieve registry %d", info)
return
}
// These slices are backed by C data. Ensure data is copied out
// if it expected to exist outside of this function.
paths := (*[1 << 30]*C.char)(unsafe.Pointer(cpaths))[:l:l]
ids := (*[1 << 30]C.FSEventStreamEventId)(unsafe.Pointer(cids))[:l:l]
flags := (*[1 << 30]C.FSEventStreamEventFlags)(unsafe.Pointer(cflags))[:l:l]
for i := range events {
events[i] = Event{
Path: C.GoString(paths[i]),
Flags: EventFlags(flags[i]),
ID: uint64(ids[i]),
}
es.EventID = uint64(ids[i])
}
es.Events <- events
}
type fsDispatchQueueRef C.dispatch_queue_t
// fsEventStreamRef wraps C.FSEventStreamRef
type fsEventStreamRef C.FSEventStreamRef
// getStreamRefEventID retrieves the last EventID from the ref
func getStreamRefEventID(f fsEventStreamRef) uint64 {
return uint64(C.FSEventStreamGetLatestEventId(f))
}
// getStreamRefDeviceID retrieves the device ID the stream is watching
func getStreamRefDeviceID(f fsEventStreamRef) int32 {
return int32(C.FSEventStreamGetDeviceBeingWatched(f))
}
// getStreamRefDescription retrieves debugging description information
// about the StreamRef
func getStreamRefDescription(f fsEventStreamRef) string {
return cfStringToGoString(C.FSEventStreamCopyDescription(f))
}
// getStreamRefPaths returns a copy of the paths being watched by
// this stream
func getStreamRefPaths(f fsEventStreamRef) []string {
arr := C.FSEventStreamCopyPathsBeingWatched(f)
l := cfArrayLen(arr)
ss := make([]string, l)
for i := range ss {
void := C.CFArrayGetValueAtIndex(arr, C.CFIndex(i))
ss[i] = cfStringToGoString(C.CFStringRef(void))
}
return ss
}
func cfStringToGoString(cfs C.CFStringRef) string {
if cfs == nullCFStringRef {
return ""
}
cfStr := copyCFString(cfs)
length := C.CFStringGetLength(cfStr)
if length == 0 {
// short-cut for empty strings
return ""
}
cfRange := C.CFRange{0, length}
enc := C.CFStringEncoding(C.kCFStringEncodingUTF8)
// first find the buffer size necessary
var usedBufLen C.CFIndex
if C.CFStringGetBytes(cfStr, cfRange, enc, 0, C.false, nil, 0, &usedBufLen) == 0 {
return ""
}
bs := make([]byte, usedBufLen)
buf := (*C.UInt8)(unsafe.Pointer(&bs[0]))
if C.CFStringGetBytes(cfStr, cfRange, enc, 0, C.false, buf, usedBufLen, nil) == 0 {
return ""
}
// Create a string (byte array) backed by C byte array
header := (*reflect.SliceHeader)(unsafe.Pointer(&bs))
strHeader := &reflect.StringHeader{
Data: header.Data,
Len: header.Len,
}
return *(*string)(unsafe.Pointer(strHeader))
}
// copyCFString makes an immutable copy of a string with CFStringCreateCopy.
func copyCFString(cfs C.CFStringRef) C.CFStringRef {
return C.CFStringCreateCopy(C.kCFAllocatorDefault, cfs)
}
// EventIDForDeviceBeforeTime returns an event ID before a given time.
func EventIDForDeviceBeforeTime(dev int32, before time.Time) uint64 {
tm := C.CFAbsoluteTime(before.Unix())
return uint64(C.FSEventsGetLastEventIdForDeviceBeforeTime(C.dev_t(dev), tm))
}
// createPaths accepts the user defined set of paths and returns FSEvents
// compatible array of paths
func createPaths(paths []string) (C.CFArrayRef, error) {
cPaths := C.ArrayCreateMutable(C.int(len(paths)))
var errs []error
for _, path := range paths {
p, err := filepath.Abs(path)
if err != nil {
// hack up some reporting errors, but don't prevent execution
// because of them
errs = append(errs, err)
}
str := makeCFString(p)
C.CFArrayAppendValue(C.CFMutableArrayRef(cPaths), unsafe.Pointer(str))
}
var err error
if len(errs) > 0 {
err = fmt.Errorf("%q", errs)
}
return cPaths, err
}
// makeCFString makes an immutable string with CFStringCreateWithCString.
func makeCFString(str string) C.CFStringRef {
s := C.CString(str)
defer C.free(unsafe.Pointer(s))
return C.CFStringCreateWithCString(C.kCFAllocatorDefault, s, C.kCFStringEncodingUTF8)
}
// CFArrayLen retrieves the length of CFArray type
// See https://developer.apple.com/library/mac/documentation/CoreFoundation/Reference/CFArrayRef/#//apple_ref/c/func/CFArrayGetCount
func cfArrayLen(ref C.CFArrayRef) int {
// FIXME: this will probably crash on 32bit, untested
// requires OS X v10.0
return int(C.CFArrayGetCount(ref))
}
func setupStream(paths []string, flags CreateFlags, callbackInfo uintptr, eventID uint64, latency time.Duration, deviceID int32) fsEventStreamRef {
cPaths, err := createPaths(paths)
if err != nil {
log.Printf("Error creating paths: %s", err)
}
defer C.CFRelease(C.CFTypeRef(cPaths))
since := C.FSEventStreamEventId(eventID)
context := C.FSEventStreamContext{}
info := C.uintptr_t(callbackInfo)
cfinv := C.CFTimeInterval(float64(latency) / float64(time.Second))
var ref C.FSEventStreamRef
if deviceID != 0 {
ref = C.EventStreamCreateRelativeToDevice(&context, info,
C.dev_t(deviceID), cPaths, since, cfinv,
C.FSEventStreamCreateFlags(flags))
} else {
ref = C.EventStreamCreate(&context, info, cPaths, since,
cfinv, C.FSEventStreamCreateFlags(flags))
}
return fsEventStreamRef(ref)
}
func (es *EventStream) start(paths []string, callbackInfo uintptr) error {
since := eventIDSinceNow
if es.Resume {
since = es.EventID
}
es.stream = setupStream(paths, es.Flags, callbackInfo, since, es.Latency, es.Device)
es.qref = fsDispatchQueueRef(C.dispatch_queue_create(nil, nil))
C.FSEventStreamSetDispatchQueue(es.stream, es.qref)
if C.FSEventStreamStart(es.stream) == 0 {
// cleanup stream
C.FSEventStreamInvalidate(es.stream)
C.FSEventStreamRelease(es.stream)
es.stream = nil
C.DispatchQueueRelease(es.qref)
es.qref = nil
return fmt.Errorf("failed to start eventstream")
}
if !es.hasFinalizer {
// TODO: There is no guarantee this run before program exit
// and could result in panics at exit.
runtime.SetFinalizer(es, finalizer)
es.hasFinalizer = true
}
return nil
}
func finalizer(es *EventStream) {
// If an EventStream is freed without Stop being called it will
// cause a panic. This avoids that, and closes the stream instead.
es.Stop()
}
// flush drains the event stream of undelivered events
func flush(stream fsEventStreamRef, sync bool) {
if sync {
C.FSEventStreamFlushSync(stream)
} else {
C.FSEventStreamFlushAsync(stream)
}
}
// stop requests fsevents stops streaming events
func stop(stream fsEventStreamRef, qref fsDispatchQueueRef) {
C.FSEventStreamStop(stream)
C.FSEventStreamInvalidate(stream)
C.FSEventStreamRelease(stream)
C.DispatchQueueRelease(qref)
}