xgbsel/v2/claim.go

320 lines
11 KiB
Go

package xgbsel
import "io"
import "errors"
import "github.com/jezek/xgb"
import "github.com/jezek/xgbutil"
import "github.com/jezek/xgb/xproto"
import "github.com/jezek/xgbutil/xprop"
import "github.com/jezek/xgbutil/xevent"
import "github.com/jezek/xgbutil/xwindow"
const format8bit byte = 8
const format16bit byte = 16
const format32bit byte = 32
type claimRequest struct {
reader io.ReadSeekCloser
ty xproto.Atom // must be "INCR"
event xevent.SelectionRequestEvent
}
// Claim represents a claim that a window has on a particular selection.
type Claim struct {
window *xwindow.Window
data Data
selection xproto.Atom
timestamp xproto.Timestamp
open bool
requests map[xproto.Atom] claimRequest
}
// NewClaim claims ownership of a specified selection, and allows using data
// passed to it to fulfill requests for the selection's contents. The timestamp
// should be set to that of the event that triggered the claim, such as a Ctrl+C
// event, or a mouse motion that led to text being selected. If the claim was
// not triggered by an event, specify xproto.TimeCurrentTime.
func NewClaim (window *xwindow.Window, selection xproto.Atom, data Data, timestamp xproto.Timestamp) (*Claim, error) {
// Follow:
// https://tronche.com/gui/x/icccm/sec-2.html#s-2.1
// A client wishing to acquire ownership of a particular selection
// should call SetSelectionOwner. The client should set the specified
// selection to the atom that represents the selection, set the
// specified owner to some window that the client created, and set the
// specified time to some time between the current last-change time of
// the selection concerned and the current server time. This time value
// usually will be obtained from the timestamp of the event that
// triggers the acquisition of the selection. Clients should not set the
// time value to CurrentTime, because if they do so, they have no way of
// finding when they gained ownership of the selection. Clients must use
// a window they created so that requestors can route events to the
// owner of the selection.
err := xproto.SetSelectionOwnerChecked (
window.X.Conn(),
window.Id, selection, timestamp).Check()
if err != nil { return nil, err }
ownerReply, err := xproto.GetSelectionOwner (
window.X.Conn(), selection).Reply()
if err != nil { return nil, err }
if ownerReply.Owner != window.Id {
return nil, errors.New("someone else took the selection")
}
return &Claim {
open: true,
window: window,
data: data,
selection: selection,
timestamp: timestamp,
requests: make(map[xproto.Atom] claimRequest),
}, nil
}
func (claim *Claim) refuseSelectionRequest (request xevent.SelectionRequestEvent) {
// ... refuse the SelectionRequest by sending the requestor window a
// SelectionNotify event with the property set to None (by means of a
// SendEvent request with an empty event mask).
event := xproto.SelectionNotifyEvent {
Requestor: request.Requestor,
Selection: request.Selection,
Target: request.Target,
Property: 0,
}.Bytes()
xproto.SendEvent (
claim.window.X.Conn(),
false, request.Requestor, 0, string(event))
}
func (claim *Claim) fulfillSelectionRequest (
data []byte,
format byte,
ty xproto.Atom,
request xevent.SelectionRequestEvent,
) {
die := func () { claim.refuseSelectionRequest(request) }
// If the specified property is not None, the owner should place the
// data resulting from converting the selection into the specified
// property on the requestor window and should set the property's type
// to some appropriate value, which need not be the same as the
// specified target.
err := xproto.ChangePropertyChecked (
claim.window.X.Conn(),
xproto.PropModeReplace, request.Requestor,
request.Property,
ty, format,
uint32(len(data) / (int(format) / 8)), data).Check()
if err != nil { die() }
// If the property is successfully stored, the owner should acknowledge
// the successful conversion by sending the requestor window a
// SelectionNotify event (by means of a SendEvent request with an empty
// mask).
event := xproto.SelectionNotifyEvent {
Requestor: request.Requestor,
Selection: request.Selection,
Target: request.Target,
Property: request.Property,
}.Bytes()
xproto.SendEvent (
claim.window.X.Conn(),
false, request.Requestor, 0, string(event))
}
// While the selection claim is active, HandleSelectionRequest should be called
// when the owner window recieves a SelectionRequest event. This must be
// registered as an event handler manually.
func (claim *Claim) HandleSelectionRequest (
connection *xgbutil.XUtil,
event xevent.SelectionRequestEvent,
) {
// do not fulfill *new* selection requests after the claim has been
// relinquished
if !claim.open { return }
// Follow:
// https://tronche.com/gui/x/icccm/sec-2.html#s-2.2
die := func () { claim.refuseSelectionRequest(event) }
// When a requestor wants the value of a selection, the owner receives a
// SelectionRequest event. The specified owner and selection will be the
// values that were specified in the SetSelectionOwner request. The
// owner should compare the timestamp with the period it has owned the
// selection and, if the time is outside, refuse the SelectionRequest.
if event.Selection != claim.selection { die(); return }
// If the specified property is None, the requestor is an obsolete
// client. Owners are encouraged to support these clients by using the
// specified target atom as the property name to be used for the reply.
if event.Property == 0 {
event.Property = event.Target
}
// Otherwise, the owner should use the target to decide the form into
// which the selection should be converted. Some targets may be defined
// such that requestors can pass parameters along with the request. The
// owner will find these parameters in the property named in the
// selection request. The type, format, and contents of this property
// are dependent upon the definition of the target. If the target is not
// defined to have parameters, the owner should ignore the property if
// it is present. If the selection cannot be converted into a form based
// on the target (and parameters, if any), the owner should refuse the
// SelectionRequest as previously described.
targetName, err := xprop.AtomName(claim.window.X, event.Target)
if err != nil { die(); return }
switch targetName {
case "TARGETS":
// generate a list of supported targets
targetNames := []Target { "TARGETS" }
targetNames = append(targetNames, claim.data.Supported()...)
data := make([]byte, len(targetNames) * 4)
for index, name := range targetNames {
atom, err := xprop.Atm(claim.window.X, string(name))
if err != nil { die(); return }
xgb.Put32(data[(index) * 4:], uint32(atom))
}
// send that list to the requestor
atomAtom, err := xprop.Atm(claim.window.X, "ATOM")
if err != nil { die(); return }
claim.fulfillSelectionRequest(data, format32bit, atomAtom, event)
default:
// respond with data
reader, ok := claim.data.Convert(Target(targetName))
if !ok { die(); return }
reader.Seek(0, io.SeekStart)
data, err := io.ReadAll(reader)
reader.Close()
if err != nil { die() }
claim.fulfillSelectionRequest(data, format8bit, event.Target, event)
}
}
// While the selection claim is active, HandlePropertyNotify should be called
// when the requesting window recieves a PropertyNotify event. This must be
// registered as an event handler manually.
func (claim *Claim) HandlePropertyNotify (
connection *xgbutil.XUtil,
event xevent.PropertyNotifyEvent,
) {
// The selection owner then:
// ... Waits between each append for a PropertyNotify (state==Deleted)
// event that shows that the requestor has read the data. The reason for
// doing this is to limit the consumption of space in the server.
// FIXME check for state==Deleted
// if the request does not exist, the property was either modified in
// error or the request has already finished. either way, we simply
// exit.
request, ok := claim.requests[event.Atom]
if !ok { return }
done := func () {
request.reader.Close()
delete(claim.requests, request.event.Property)
}
die := func () {
done()
claim.refuseSelectionRequest(request.event)
}
// FIXME change the length of this if maximum-request-size is smaller
buffer := [1024]byte { }
size, err := request.reader.Read(buffer[:])
if err != nil { die(); return }
dataRead := buffer[:size]
if len(dataRead) > 0 {
// there is more data to send
// ... Appends the data in suitable-size chunks to the same property on
// the same window as the selection reply with a type corresponding to
// the actual type of the converted selection. The size should be less
// than the maximum-request-size in the connection handshake.
format := format8bit
err = xproto.ChangePropertyChecked (
claim.window.X.Conn(),
xproto.PropModeAppend, request.event.Requestor,
request.event.Property,
request.ty, format,
uint32(len(dataRead) / (int(format) / 8)), dataRead).Check()
if err != nil { die(); return }
} else {
// all data has been sent
// ... Waits (after the entire data has been transferred to the
// server) until a PropertyNotify (state==Deleted) event that
// shows that the data has been read by the requestor and then
// writes zero-length data to the property.
format := format8bit
err := xproto.ChangePropertyChecked (
claim.window.X.Conn(),
xproto.PropModeAppend, request.event.Requestor,
request.event.Property,
request.ty, format,
0, nil).Check()
if err != nil { die(); return }
done()
}
}
// While the selection claim is active, HandleSelectionClear should be called
// when the requesting window recieves a SelectionClear event. This must be
// registered as an event handler manually.
func (claim *Claim) HandleSelectionClear (
connection *xgbutil.XUtil,
event xevent.SelectionClearEvent,
) {
// When some other client acquires a selection, the previous owner
// receives a SelectionClear event. The timestamp argument is the time
// at which the ownership changed hands, and the owner argument is the
// window the previous owner specified in its SetSelectionOwner request.
// If an owner loses ownership while it has a transfer in progress (that
// is, before it receives notification that the requestor has received
// all the data), it must continue to service the ongoing transfer until
// it is complete.
claim.open = false
}
// Open returns false if the claim has been relinquished, either from recieving
// a SelectionClear event or with the Close method.
func (claim *Claim) Open () bool {
return claim.open
}
// Active returns true if requests are currently being fulfilled. While this is
// true, the claim should still be forwarded events regardless if it is closed
// or not. It is safe to forward the same event to multiple claims.
func (claim *Claim) Active () bool {
return len(claim.requests) > 0
}
// Close voluntarily relinquishes the selection claim. This will inform the X
// server that the selection is being voluntarily given up, and cause the claim
// to stop fulfilling new requests.
func (claim *Claim) Close () error {
if !claim.open { return nil }
claim.open = false
// To relinquish ownership of a selection voluntarily, a client should
// execute a SetSelectionOwner request for that selection atom, with
// owner specified as None and the time specified as the timestamp that
// was used to acquire the selection.
err := xproto.SetSelectionOwnerChecked (
claim.window.X.Conn(),
0, claim.selection, claim.timestamp).Check()
if err != nil { return err }
return nil
}