366 lines
10 KiB
Go
366 lines
10 KiB
Go
// hpcu unifies the PRIMARY and CLIPBOARD X11 selections for text contents.
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package main
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import (
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"errors"
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"janouch.name/haven/nexgb"
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"janouch.name/haven/nexgb/xfixes"
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"janouch.name/haven/nexgb/xproto"
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"log"
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)
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type selectionState struct {
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name string // name of the selection
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inProgress xproto.Timestamp // timestamp of retrieved selection
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buffer []byte // UTF-8 text buffer
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incr bool // INCR running
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incrFailed bool // INCR failure indicator
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owning xproto.Timestamp // since when we own the selection
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}
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var (
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X *nexgb.Conn
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setup *xproto.SetupInfo
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screen *xproto.ScreenInfo
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atomCLIPBOARD xproto.Atom // X11 atom for CLIPBOARD
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atomUTF8String xproto.Atom // X11 atom for UTF8_STRING
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atomINCR xproto.Atom // X11 atom for INCR
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atomTARGETS xproto.Atom // X11 atom for TARGETS
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atomTIMESTAMP xproto.Atom // X11 atom for TIMESTAMP
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wid xproto.Window // auxiliary window
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selections map[xproto.Atom]*selectionState
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contents string // current shared selection contents
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)
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// resolveAtoms resolves a few required atoms that are not in the core protocol.
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func resolveAtoms() error {
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for _, i := range []struct {
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placement *xproto.Atom
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name string
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}{
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{&atomCLIPBOARD, "CLIPBOARD"},
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{&atomUTF8String, "UTF8_STRING"},
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{&atomINCR, "INCR"},
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{&atomTARGETS, "TARGETS"},
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{&atomTIMESTAMP, "TIMESTAMP"},
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} {
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if reply, err := xproto.InternAtom(X,
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false, uint16(len(i.name)), i.name).Reply(); err != nil {
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return err
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} else {
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*i.placement = reply.Atom
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}
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}
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return nil
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}
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// setupAuxiliaryWindow creates a window that receives notifications about
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// changed selection contents, and serves
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func setupAuxiliaryWindow() error {
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var err error
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if wid, err = xproto.NewWindowId(X); err != nil {
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return err
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}
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_ = xproto.CreateWindow(X, screen.RootDepth, wid, screen.Root, 0, 0, 1, 1,
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0, xproto.WindowClassInputOutput, screen.RootVisual, xproto.CwEventMask,
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[]uint32{xproto.EventMaskPropertyChange})
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for _, selection := range []xproto.Atom{xproto.AtomPrimary, atomCLIPBOARD} {
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_ = xfixes.SelectSelectionInput(X, wid, selection,
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xfixes.SelectionEventMaskSetSelectionOwner|
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xfixes.SelectionEventMaskSelectionWindowDestroy|
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xfixes.SelectionEventMaskSelectionClientClose)
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}
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return nil
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}
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// getProperty reads a window property in a memory-efficient manner.
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func getProperty(window xproto.Window, property xproto.Atom) (
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*xproto.GetPropertyReply, error) {
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// xorg-xserver doesn't seem to limit the length of replies or even
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// the length of properties in the first place. It only has a huge
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// (0xffffffff - sizeof(xChangePropertyReq))/4 limit for ChangeProperty
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// requests, even though I can't XChangeProperty more than 0xffffe0
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// bytes at a time.
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//
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// Since the XGB API doesn't let us provide our own buffer for
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// value data, let us avoid multiplying the amount of consumed memory in
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// pathological cases where properties are several gigabytes in size by
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// chunking the requests. This has a cost of losing atomicity, although
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// it shouldn't pose a problem except for timeout-caused INCR races.
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var result xproto.GetPropertyReply
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for (result.Sequence == 0 && result.Length == 0) || result.BytesAfter > 0 {
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reply, err := xproto.GetProperty(X, false, /* delete */
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window, property, xproto.GetPropertyTypeAny,
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uint32(len(result.Value))/4,
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uint32(setup.MaximumRequestLength)).Reply()
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if err != nil {
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return nil, err
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}
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if result.Length != 0 &&
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(reply.Format != result.Format || reply.Type != result.Type) {
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return nil, errors.New("property type changed during read")
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}
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reply.Value = append(result.Value, reply.Value...)
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reply.ValueLen += result.ValueLen
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result = *reply
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}
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return &result, nil
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}
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// appendText tries to append UTF-8 text to the selection state buffer.
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func appendText(state *selectionState, prop *xproto.GetPropertyReply) bool {
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if prop.Type == atomUTF8String && prop.Format == 8 {
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state.buffer = append(state.buffer, prop.Value...)
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return true
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}
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return false
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}
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func requestOwnership(origin *selectionState, time xproto.Timestamp) {
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contents = string(origin.buffer)
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for selection, state := range selections {
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// We might want to replace the originator as well but it might have
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// undesirable effects, mainly with PRIMARY.
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if state != origin {
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// No need to GetSelectionOwner, XFIXES is more reliable.
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_ = xproto.SetSelectionOwner(X, wid, selection, time)
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}
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}
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}
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func handleXfixesSelectionNotify(e xfixes.SelectionNotifyEvent) {
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state, ok := selections[e.Selection]
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if !ok {
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return
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}
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// Ownership request has been granted, don't ask ourselves for data.
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if e.Owner == wid {
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state.owning = e.SelectionTimestamp
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return
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}
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// This should always be true.
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if state.owning < e.SelectionTimestamp {
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state.owning = 0
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}
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// Not checking whether we should give up when our current retrieval
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// attempt is interrupted--the timeout mostly solves this.
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if e.Owner == xproto.WindowNone {
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return
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}
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// Don't try to process two things at once. Each request gets a few
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// seconds to finish, then we move on, hoping that a property race
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// doesn't commence. Ideally we'd set up a separate queue for these
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// skipped requests and process them later.
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if state.inProgress != 0 && e.Timestamp-state.inProgress < 5000 {
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return
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}
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// ICCCM says we should ensure the named property doesn't exist.
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_ = xproto.DeleteProperty(X, e.Window, e.Selection)
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_ = xproto.ConvertSelection(X, e.Window, e.Selection,
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atomUTF8String, e.Selection, e.Timestamp)
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state.inProgress = e.Timestamp
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state.incr = false
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}
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func handleSelectionNotify(e xproto.SelectionNotifyEvent) {
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state, ok := selections[e.Selection]
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if e.Requestor != wid || !ok || e.Time != state.inProgress {
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return
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}
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state.inProgress = 0
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if e.Property == xproto.AtomNone {
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return
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}
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state.buffer = nil
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reply, err := getProperty(e.Requestor, e.Property)
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if err != nil {
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return
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}
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// When you select a lot of text in VIM, it starts the ICCCM
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// INCR mechanism, from which there is no opt-out.
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if reply.Type == atomINCR {
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state.inProgress = e.Time
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state.incr = true
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state.incrFailed = false
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} else if appendText(state, reply) {
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requestOwnership(state, e.Time)
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}
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_ = xproto.DeleteProperty(X, e.Requestor, e.Property)
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}
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func handlePropertyNotify(e xproto.PropertyNotifyEvent) {
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state, ok := selections[e.Atom]
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if e.Window != wid || e.State != xproto.PropertyNewValue ||
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!ok || !state.incr {
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return
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}
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reply, err := getProperty(e.Window, e.Atom)
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if err != nil {
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state.incrFailed = true
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return
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}
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if !appendText(state, reply) {
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// We need to keep deleting the property.
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state.incrFailed = true
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}
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if reply.ValueLen == 0 {
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if !state.incrFailed {
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requestOwnership(state, e.Time)
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}
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state.inProgress = 0
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state.incr = false
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}
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_ = xproto.DeleteProperty(X, e.Window, e.Atom)
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}
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func handleSelectionRequest(e xproto.SelectionRequestEvent) {
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property := e.Property
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if property == xproto.AtomNone {
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property = e.Target
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}
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state, ok := selections[e.Selection]
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if e.Owner != wid || !ok {
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return
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}
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var (
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typ xproto.Atom
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format byte
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data []byte
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)
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// XXX: We should also support the MULTIPLE target but it seems to be
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// unimportant and largely abandoned today.
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targets := []xproto.Atom{atomTARGETS, atomTIMESTAMP, atomUTF8String}
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switch e.Target {
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case atomTARGETS:
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typ = xproto.AtomAtom
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format = 32
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data = make([]byte, len(targets)*4)
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for i, atom := range targets {
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nexgb.Put32(data[i*4:], uint32(atom))
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}
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case atomTIMESTAMP:
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typ = xproto.AtomInteger
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format = 32
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data = make([]byte, 4)
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nexgb.Put32(data, uint32(state.owning))
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case atomUTF8String:
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typ = atomUTF8String
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format = 8
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data = []byte(contents)
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}
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response := xproto.SelectionNotifyEvent{
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Time: e.Time,
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Requestor: e.Requestor,
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Selection: e.Selection,
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Target: e.Target,
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Property: xproto.AtomNone,
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}
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if typ == 0 || len(data) > int(setup.MaximumRequestLength)*4-64 ||
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state.owning == 0 || e.Time < state.owning {
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// TODO: Use the INCR mechanism for large data transfers instead
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// of refusing the request, or at least use PropModeAppend.
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//
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// According to the ICCCM we need to set up a queue for concurrent
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// (requestor, selection, target, timestamp) requests that differ
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// only in the target property, and process them in order. The ICCCM
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// has a nice rationale. It seems to only concern INCR. The queue
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// might be a map[(who, what, how, when)][](where, data, offset).
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//
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// NOTE: Even with BigRequests support, it may technically be
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// missing on the particular X server, and XGB copies buffers to yet
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// another buffer, making very large transfers a very bad idea.
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} else if xproto.ChangePropertyChecked(X, xproto.PropModeReplace,
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e.Requestor, property, typ, format,
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uint32(len(data)/int(format/8)), data).Check() == nil {
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response.Property = property
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}
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_ = xproto.SendEvent(X, false /* propagate */, e.Requestor,
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0 /* event mask */, string(response.Bytes()))
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}
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func handleXEvent(ev nexgb.Event) {
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switch e := ev.(type) {
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case xfixes.SelectionNotifyEvent:
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handleXfixesSelectionNotify(e)
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case xproto.SelectionNotifyEvent:
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handleSelectionNotify(e)
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case xproto.PropertyNotifyEvent:
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handlePropertyNotify(e)
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case xproto.SelectionRequestEvent:
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handleSelectionRequest(e)
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}
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}
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func main() {
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var err error
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if X, err = nexgb.NewConn(); err != nil {
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log.Fatalln(err)
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}
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if err = xfixes.Init(X); err != nil {
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log.Fatalln(err)
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}
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// Enable the extension.
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_ = xfixes.QueryVersion(X, xfixes.MajorVersion, xfixes.MinorVersion)
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setup = xproto.Setup(X)
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screen = setup.DefaultScreen(X)
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if err = resolveAtoms(); err != nil {
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log.Fatalln(err)
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}
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if err = setupAuxiliaryWindow(); err != nil {
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log.Fatalln(err)
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}
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// Now that we have our atoms, we can initialize state.
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selections = map[xproto.Atom]*selectionState{
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xproto.AtomPrimary: {name: "PRIMARY"},
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atomCLIPBOARD: {name: "CLIPBOARD"},
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}
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for {
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ev, xerr := X.WaitForEvent()
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if xerr != nil {
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log.Printf("Error: %s\n", xerr)
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return
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}
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if ev != nil {
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handleXEvent(ev)
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}
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}
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}
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