Přemysl Janouch
48fb710f35
AUTHORS, CONTRIBUTORS: still useful, add people from git log, clean up. LICENSE: Google doesn't really grant you shit anymore. The EU doesn't have software patents either, so it doesn't affect me directly. README, doc.go: erase mentions of unmaintained xgbutil.
555 lines
18 KiB
Go
555 lines
18 KiB
Go
package nexgb
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import (
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"errors"
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"io"
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"log"
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"net"
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"os"
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"sync"
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)
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var (
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// Where to log error-messages. Defaults to stderr.
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// To disable logging, just set this to log.New(ioutil.Discard, "", 0)
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Logger = log.New(os.Stderr, "XGB: ", log.Lshortfile)
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)
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const (
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// cookieBuffer represents the queue size of cookies existing at any
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// point in time. The size of the buffer is really only important when
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// there are many requests without replies made in sequence. Once the
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// buffer fills, a round trip request is made to clear the buffer.
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cookieBuffer = 1000
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// xidBuffer represents the queue size of the xid channel.
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// I don't think this value matters much, since xid generation is not
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// that expensive.
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xidBuffer = 5
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// seqBuffer represents the queue size of the sequence number channel.
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// I don't think this value matters much, since sequence number generation
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// is not that expensive.
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seqBuffer = 5
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// reqBuffer represents the queue size of the number of requests that
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// can be made until new ones block. This value seems OK.
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reqBuffer = 100
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// eventBuffer represents the queue size of the number of events or errors
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// that can be loaded off the wire and not grabbed with WaitForEvent
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// until reading an event blocks. This value should be big enough to handle
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// bursts of events.
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eventBuffer = 5000
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)
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// A Conn represents a connection to an X server.
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type Conn struct {
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host string
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conn net.Conn
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display string
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DisplayNumber int
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DefaultScreen int
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SetupBytes []byte
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setupResourceIdBase uint32
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setupResourceIdMask uint32
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eventChan chan eventOrError
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cookieChan chan *Cookie
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xidChan chan xid
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seqChan chan uint16
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reqChan chan *request
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closing chan chan struct{}
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// ExtLock is a lock used whenever new extensions are initialized.
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// It should not be used. It is exported for use in the extension
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// sub-packages.
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ExtLock sync.RWMutex
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// Extensions is a map from extension name to major opcode. It should
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// not be used. It is exported for use in the extension sub-packages.
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Extensions map[string]byte
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}
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// NewConn creates a new connection instance. It initializes locks, data
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// structures, and performs the initial handshake. (The code for the handshake
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// has been relegated to conn.go.)
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func NewConn() (*Conn, error) {
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return NewConnDisplay("")
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}
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// NewConnDisplay is just like NewConn, but allows a specific DISPLAY
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// string to be used.
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// If 'display' is empty it will be taken from os.Getenv("DISPLAY").
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//
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// Examples:
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// NewConn(":1") -> net.Dial("unix", "", "/tmp/.X11-unix/X1")
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// NewConn("/tmp/launch-12/:0") -> net.Dial("unix", "", "/tmp/launch-12/:0")
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// NewConn("hostname:2.1") -> net.Dial("tcp", "", "hostname:6002")
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// NewConn("tcp/hostname:1.0") -> net.Dial("tcp", "", "hostname:6001")
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func NewConnDisplay(display string) (*Conn, error) {
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conn := &Conn{}
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// First connect. This reads authority, checks DISPLAY environment
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// variable, and loads the initial Setup info.
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err := conn.connect(display)
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if err != nil {
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return nil, err
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}
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return postNewConn(conn)
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}
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// NewConnDisplay is just like NewConn, but allows a specific net.Conn
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// to be used.
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func NewConnNet(netConn net.Conn) (*Conn, error) {
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conn := &Conn{}
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// First connect. This reads authority, checks DISPLAY environment
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// variable, and loads the initial Setup info.
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err := conn.connectNet(netConn)
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if err != nil {
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return nil, err
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}
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return postNewConn(conn)
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}
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func postNewConn(conn *Conn) (*Conn, error) {
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conn.Extensions = make(map[string]byte)
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conn.cookieChan = make(chan *Cookie, cookieBuffer)
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conn.xidChan = make(chan xid, xidBuffer)
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conn.seqChan = make(chan uint16, seqBuffer)
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conn.reqChan = make(chan *request, reqBuffer)
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conn.eventChan = make(chan eventOrError, eventBuffer)
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conn.closing = make(chan chan struct{}, 1)
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go conn.generateXIds()
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go conn.generateSeqIds()
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go conn.sendRequests()
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go conn.readResponses()
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return conn, nil
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}
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// Close gracefully closes the connection to the X server.
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func (c *Conn) Close() {
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close(c.reqChan)
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}
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// Event is an interface that can contain any of the events returned by the
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// server. Use a type assertion switch to extract the Event structs.
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type Event interface {
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Bytes() []byte
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String() string
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}
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// NewEventFun is the type of function use to construct events from raw bytes.
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// It should not be used. It is exported for use in the extension sub-packages.
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type NewEventFun func(buf []byte) Event
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// NewEventFuncs is a map from event numbers to functions that create
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// the corresponding event. It should not be used. It is exported for use
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// in the extension sub-packages.
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var NewEventFuncs = make(map[int]NewEventFun)
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// NewExtEventFuncs is a temporary map that stores event constructor functions
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// for each extension. When an extension is initialized, each event for that
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// extension is added to the 'NewEventFuncs' map. It should not be used. It is
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// exported for use in the extension sub-packages.
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var NewExtEventFuncs = make(map[string]map[int]NewEventFun)
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// Error is an interface that can contain any of the errors returned by
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// the server. Use a type assertion switch to extract the Error structs.
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type Error interface {
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SequenceId() uint16
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BadId() uint32
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Error() string
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}
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// NewErrorFun is the type of function use to construct errors from raw bytes.
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// It should not be used. It is exported for use in the extension sub-packages.
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type NewErrorFun func(buf []byte) Error
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// NewErrorFuncs is a map from error numbers to functions that create
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// the corresponding error. It should not be used. It is exported for use in
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// the extension sub-packages.
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var NewErrorFuncs = make(map[int]NewErrorFun)
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// NewExtErrorFuncs is a temporary map that stores error constructor functions
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// for each extension. When an extension is initialized, each error for that
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// extension is added to the 'NewErrorFuncs' map. It should not be used. It is
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// exported for use in the extension sub-packages.
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var NewExtErrorFuncs = make(map[string]map[int]NewErrorFun)
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// eventOrError corresponds to values that can be either an event or an
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// error.
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type eventOrError interface{}
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// NewId generates a new unused ID for use with requests like CreateWindow.
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// If no new ids can be generated, the id returned is 0 and error is non-nil.
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// This shouldn't be used directly, and is exported for use in the extension
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// sub-packages.
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// If you need identifiers, use the appropriate constructor.
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// e.g., For a window id, use xproto.NewWindowId. For
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// a new pixmap id, use xproto.NewPixmapId. And so on.
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func (c *Conn) NewId() (uint32, error) {
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xid := <-c.xidChan
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if xid.err != nil {
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return 0, xid.err
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}
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return xid.id, nil
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}
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// xid encapsulates a resource identifier being sent over the Conn.xidChan
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// channel. If no new resource id can be generated, id is set to 0 and a
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// non-nil error is set in xid.err.
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type xid struct {
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id uint32
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err error
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}
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// generateXids sends new Ids down the channel for NewId to use.
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// generateXids should be run in its own goroutine.
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// This needs to be updated to use the XC Misc extension once we run out of
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// new ids.
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// Thanks to libxcb/src/xcb_xid.c. This code is greatly inspired by it.
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func (conn *Conn) generateXIds() {
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defer close(conn.xidChan)
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// This requires some explanation. From the horse's mouth:
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// "The resource-id-mask contains a single contiguous set of bits (at least
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// 18). The client allocates resource IDs for types WINDOW, PIXMAP,
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// CURSOR, FONT, GCONTEXT, and COLORMAP by choosing a value with only some
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// subset of these bits set and ORing it with resource-id-base. Only values
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// constructed in this way can be used to name newly created resources over
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// this connection."
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// So for example (using 8 bit integers), the mask might look like:
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// 00111000
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// So that valid values would be 00101000, 00110000, 00001000, and so on.
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// Thus, the idea is to increment it by the place of the last least
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// significant '1'. In this case, that value would be 00001000. To get
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// that value, we can AND the original mask with its two's complement:
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// 00111000 & 11001000 = 00001000.
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// And we use that value to increment the last resource id to get a new one.
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// (And then, of course, we OR it with resource-id-base.)
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inc := conn.setupResourceIdMask & -conn.setupResourceIdMask
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max := conn.setupResourceIdMask
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last := uint32(0)
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for {
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// TODO: Use the XC Misc extension to look for released ids.
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if last > 0 && last >= max-inc+1 {
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conn.xidChan <- xid{
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id: 0,
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err: errors.New("There are no more available resource" +
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"identifiers."),
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}
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}
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last += inc
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conn.xidChan <- xid{
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id: last | conn.setupResourceIdBase,
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err: nil,
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}
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}
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}
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// newSeqId fetches the next sequence id from the Conn.seqChan channel.
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func (c *Conn) newSequenceId() uint16 {
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return <-c.seqChan
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}
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// generateSeqIds returns new sequence ids. It is meant to be run in its
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// own goroutine.
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// A sequence id is generated for *every* request. It's the identifier used
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// to match up replies with requests.
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// Since sequence ids can only be 16 bit integers we start over at zero when it
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// comes time to wrap.
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// N.B. As long as the cookie buffer is less than 2^16, there are no limitations
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// on the number (or kind) of requests made in sequence.
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func (c *Conn) generateSeqIds() {
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defer close(c.seqChan)
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seqid := uint16(1)
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for {
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c.seqChan <- seqid
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if seqid == uint16((1<<16)-1) {
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seqid = 0
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} else {
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seqid++
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}
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}
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}
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// request encapsulates a buffer of raw bytes (containing the request data)
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// and a cookie, which when combined represents a single request.
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// The cookie is used to match up the reply/error.
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type request struct {
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buf []byte
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cookie *Cookie
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// seq is closed when the request (cookie) has been sequenced by the Conn.
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seq chan struct{}
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}
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// NewRequest takes the bytes and a cookie of a particular request, constructs
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// a request type, and sends it over the Conn.reqChan channel.
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// Note that the sequence number is added to the cookie after it is sent
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// over the request channel, but before it is sent to X.
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//
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// Note that you may safely use NewRequest to send arbitrary byte requests
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// to X. The resulting cookie can be used just like any normal cookie and
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// abides by the same rules, except that for replies, you'll get back the
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// raw byte data. This may be useful for performance critical sections where
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// every allocation counts, since all X requests in XGB allocate a new byte
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// slice. In contrast, NewRequest allocates one small request struct and
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// nothing else. (Except when the cookie buffer is full and has to be flushed.)
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//
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// If you're using NewRequest manually, you'll need to use NewCookie to create
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// a new cookie.
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//
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// In all likelihood, you should be able to copy and paste with some minor
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// edits the generated code for the request you want to issue.
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func (c *Conn) NewRequest(buf []byte, cookie *Cookie) {
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seq := make(chan struct{})
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c.reqChan <- &request{buf: buf, cookie: cookie, seq: seq}
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<-seq
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}
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// sendRequests is run as a single goroutine that takes requests and writes
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// the bytes to the wire and adds the cookie to the cookie queue.
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// It is meant to be run as its own goroutine.
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func (c *Conn) sendRequests() {
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defer close(c.cookieChan)
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for req := range c.reqChan {
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// ho there! if the cookie channel is nearly full, force a round
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// trip to clear out the cookie buffer.
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// Note that we circumvent the request channel, because we're *in*
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// the request channel.
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if len(c.cookieChan) == cookieBuffer-1 {
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if err := c.noop(); err != nil {
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// Shut everything down.
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break
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}
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}
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req.cookie.Sequence = c.newSequenceId()
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c.cookieChan <- req.cookie
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c.writeBuffer(req.buf)
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close(req.seq)
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}
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response := make(chan struct{})
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c.closing <- response
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c.noop() // Flush the response reading goroutine, ignore error.
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<-response
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c.conn.Close()
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}
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// noop circumvents the usual request sending goroutines and forces a round
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// trip request manually.
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func (c *Conn) noop() error {
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cookie := c.NewCookie(true, true)
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cookie.Sequence = c.newSequenceId()
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c.cookieChan <- cookie
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if err := c.writeBuffer(c.getInputFocusRequest()); err != nil {
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return err
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}
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cookie.Reply() // wait for the buffer to clear
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return nil
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}
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// writeBuffer is a convenience function for writing a byte slice to the wire.
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func (c *Conn) writeBuffer(buf []byte) error {
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if _, err := c.conn.Write(buf); err != nil {
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Logger.Printf("A write error is unrecoverable: %s", err)
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return err
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} else {
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return nil
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}
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}
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// readResponses is a goroutine that reads events, errors and
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// replies off the wire.
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// When an event is read, it is always added to the event channel.
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// When an error is read, if it corresponds to an existing checked cookie,
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// it is sent to that cookie's error channel. Otherwise it is added to the
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// event channel.
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// When a reply is read, it is added to the corresponding cookie's reply
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// channel. (It is an error if no such cookie exists in this case.)
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// Finally, cookies that came "before" this reply are always cleaned up.
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func (c *Conn) readResponses() {
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defer close(c.eventChan)
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var (
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err Error
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seq uint16
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replyBytes []byte
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)
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for {
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select {
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case respond := <-c.closing:
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respond <- struct{}{}
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return
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default:
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}
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buf := make([]byte, 32)
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err, seq = nil, 0
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if _, err := io.ReadFull(c.conn, buf); err != nil {
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Logger.Printf("A read error is unrecoverable: %s", err)
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c.eventChan <- err
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c.Close()
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continue
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}
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switch buf[0] {
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case 0: // This is an error
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// Use the constructor function for this error (that is auto
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// generated) by looking it up by the error number.
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newErrFun, ok := NewErrorFuncs[int(buf[1])]
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if !ok {
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Logger.Printf("BUG: Could not find error constructor function "+
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"for error with number %d.", buf[1])
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continue
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}
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err = newErrFun(buf)
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seq = err.SequenceId()
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// This error is either sent to the event channel or a specific
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// cookie's error channel below.
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case 1: // This is a reply
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seq = Get16(buf[2:])
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// check to see if this reply has more bytes to be read
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size := Get32(buf[4:])
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if size > 0 {
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byteCount := 32 + size*4
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biggerBuf := make([]byte, byteCount)
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copy(biggerBuf[:32], buf)
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if _, err := io.ReadFull(c.conn, biggerBuf[32:]); err != nil {
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Logger.Printf("A read error is unrecoverable: %s", err)
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c.eventChan <- err
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c.Close()
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continue
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}
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replyBytes = biggerBuf
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} else {
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replyBytes = buf
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}
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// This reply is sent to its corresponding cookie below.
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default: // This is an event
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// Use the constructor function for this event (like for errors,
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// and is also auto generated) by looking it up by the event number.
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// Note that we AND the event number with 127 so that we ignore
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// the most significant bit (which is set when it was sent from
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// a SendEvent request).
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evNum := int(buf[0] & 127)
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newEventFun, ok := NewEventFuncs[evNum]
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if !ok {
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Logger.Printf("BUG: Could not find event construct function "+
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"for event with number %d.", evNum)
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continue
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}
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c.eventChan <- newEventFun(buf)
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continue
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}
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// At this point, we have a sequence number and we're either
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// processing an error or a reply, which are both responses to
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// requests. So all we have to do is find the cookie corresponding
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// to this error/reply, and send the appropriate data to it.
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// In doing so, we make sure that any cookies that came before it
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// are marked as successful if they are void and checked.
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// If there's a cookie that requires a reply that is before this
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// reply, then something is wrong.
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for cookie := range c.cookieChan {
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// This is the cookie we're looking for. Process and break.
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if cookie.Sequence == seq {
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if err != nil { // this is an error to a request
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// synchronous processing
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if cookie.errorChan != nil {
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cookie.errorChan <- err
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} else { // asynchronous processing
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c.eventChan <- err
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// if this is an unchecked reply, ping the cookie too
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if cookie.pingChan != nil {
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cookie.pingChan <- true
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}
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}
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} else { // this is a reply
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if cookie.replyChan == nil {
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Logger.Printf("Reply with sequence id %d does not "+
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"have a cookie with a valid reply channel.", seq)
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continue
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} else {
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cookie.replyChan <- replyBytes
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}
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}
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break
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}
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switch {
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// Checked requests with replies
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case cookie.replyChan != nil && cookie.errorChan != nil:
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Logger.Printf("Found cookie with sequence id %d that is "+
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"expecting a reply but will never get it. Currently "+
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"on sequence number %d", cookie.Sequence, seq)
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// Unchecked requests with replies
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case cookie.replyChan != nil && cookie.pingChan != nil:
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Logger.Printf("Found cookie with sequence id %d that is "+
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|
"expecting a reply (and not an error) but will never "+
|
|
"get it. Currently on sequence number %d",
|
|
cookie.Sequence, seq)
|
|
// Checked requests without replies
|
|
case cookie.pingChan != nil && cookie.errorChan != nil:
|
|
cookie.pingChan <- true
|
|
// Unchecked requests without replies don't have any channels,
|
|
// so we can't do anything with them except let them pass by.
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
// processEventOrError takes an eventOrError, type switches on it,
|
|
// and returns it in Go idiomatic style.
|
|
func processEventOrError(everr eventOrError) (Event, Error) {
|
|
switch ee := everr.(type) {
|
|
case Event:
|
|
return ee, nil
|
|
case Error:
|
|
return nil, ee
|
|
default:
|
|
Logger.Printf("Invalid event/error type: %T", everr)
|
|
return nil, nil
|
|
}
|
|
}
|
|
|
|
// WaitForEvent returns the next event from the server.
|
|
// It will block until an event is available.
|
|
// WaitForEvent returns either an Event or an Error. (Returning both
|
|
// is a bug.) Note than an Error here is an X error and not an XGB error. That
|
|
// is, X errors are sometimes completely expected (and you may want to ignore
|
|
// them in some cases).
|
|
//
|
|
// If both the event and error are nil, then the connection has been closed.
|
|
func (c *Conn) WaitForEvent() (Event, Error) {
|
|
return processEventOrError(<-c.eventChan)
|
|
}
|
|
|
|
// PollForEvent returns the next event from the server if one is available in
|
|
// the internal queue without blocking. Note that unlike WaitForEvent, both
|
|
// Event and Error could be nil. Indeed, they are both nil when the event queue
|
|
// is empty.
|
|
func (c *Conn) PollForEvent() (Event, Error) {
|
|
select {
|
|
case everr := <-c.eventChan:
|
|
return processEventOrError(everr)
|
|
default:
|
|
return nil, nil
|
|
}
|
|
}
|