X Version 11, Release 7.7
Version 1.0
Copyright © 1996 X Consortium
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X Window System is a trademark of The OpenGroup.
Low Bandwidth X (LBX) is a network-transparent protocol for running X Window System applications over transport channels whose bandwidth and latency are significantly worse than that used in local area networks. It combines a variety of caching and reencoding techniques to reduce the volume of data that must be sent over the wire. It can be used with existing clients by placing a proxy between the clients and server, so that the low bandwidth/high latency communication occurs between the proxy and server.
This extension was designed and implemented by Jim Fulton, David Lemke, Keith Packard, and Dale Tonogai, all of Network Computing Devices (NCD). Chris Kent Kantarjiev (Xerox PARC) participated in early design discussions. Ralph Mor (X Consortium) designed and implemented additional sections. Donna Converse (X Consortium) authored the protocol description and encoding from design notes and the implementation. Ray Tice (X Consortium) resolved the open issues in the design and specification. Bob Scheifler (X Consortium) helped out in many areas.
The extension name is "LBX".
The design center for LBX is to use a proxy as an intermediary between the client and server. The proxy reencodes and compresses requests, events, replies and errors, as well as the resulting data stream. Additionally, the proxy can cache information from the server to provide low-latency replies to clients. This reply generation by the proxy is known as short-circuiting. A proxy can handle multiple clients for a given server, but does not prevent clients from connecting directly to the server. The design allows the proxy to multiplex multiple clients into a single data stream to the server.
Much of LBX is implemented as an extension. The compression and reencoding changes can be isolated to the transport and dispatch portions of the server, while short-circuiting requires minor changes to the server’s colormap and property code.
LBX employs several different compression and short-circuiting methods. Use of these methods is negotiable, and in some cases, the algorithm used by a given method is negotiable as well. LBX also provides for negotiation of extensions to LBX.
The LBX data stream goes through a number of layers:
Client requests
Read by LBX and potential byte-swapping
Request-specific compression
Potential byte swapping
Multiplexing of client request streams
Delta replacement
Stream compression
Transport
Stream decompression
Delta substitution
Demultiplexing of client request streams
Potential byte swapping
Reencoding
Request processing
The reverse process occurs with X server replies, events, and errors.
Tags are used to support caching of large data items that are expected to be queried multiple times. Such things as the keyboard map and font metrics are often requested by multiple clients. Rather than send the data each time, the first time the data is sent it includes a tag. The proxy saves this data, so that subsequent requests can send only the tag to refer to that same data. The different types of tags are used for connection information, keyboard maps, modifier maps, fonts information and properties.
Tag usage is negotiated as a boolean in the LbxStartProxy message. The proxy controls how many tags are stored in the proxy. The server may wish to observe the proxy’s InvalidateTag behavior to limit how many tags are cached at any one time. Tagged data is not shared across types of tags, but the number space used for the tag ids is. The tag ids are generated by the server.
The X server keeps track of what tags are known to the proxy. The proxy can invalidate a tag if no tag bearing replies of that type are pending. The proxy sends an LbxInvalidateTag message to release the tagged data. The proxy must not invalidate connection tags unless instructed to do so by the server.
If the server wishes to discard tagged data, it must either have received an LbxInvalidateTag request from the proxy or send an LbxInvalidateTag event to the proxy for that tag.
Many substitution requests have a tag field, followed by fields marked optional. For these requests, if the optional fields are present, the data in them is stored in the indicated tag, unless the tag is 0. If the optional fields are absent, the tag field indicates the tag that contains the data for the "optional" fields.
Property data makes special use of tags. A common use of properties is for inter-client communication. If both clients use the proxy, it is wasteful to send the data to the server and then back, when the server may never need it. LbxChangeProperty request does the same work as the core ChangeProperty request, but it does not send the data. The reply to this request contains a tag id corresponding to the data. If the property information is used locally, the server responds to LbxGetProperty with the tag, and the property data need never be sent to the server. If the server does require the data, it can issue an LbxQueryTag message. The proxy can also send the data on at any time if it judges it appropriate (i.e., when the wire goes idle). Since the proxy owns the property data, it must not invalidate the tag before sending the data back to the server via an LbxTagData request.
Short-circuiting is used to handle constant data. This includes atoms, color name/RGB mappings, and AllocColor calls. Atoms and color name/RGB mappings stay constant for the life of the server. AllocColor replies are constant for each colormap. Short-circuiting replaces round-trip requests with one-way requests, and can sometimes use one in place of many.
Atoms are used heavily for ICCCM communication. Once the proxy knows the string to atom mapping, it has no need to send subsequent requests for this atom to the server.
Colorname/RGB mappings are constant, so once the proxy sees the response from LookupColor , it need not forward any subsequent requests.
Clients often use the same color cells, so once a read-only color allocation has occurred, the proxy knows what RGB values should be returned to the client. The proxy doesn't need to forward any AllocColor requests it can resolve, but it must tell the server to modify the color cell's reference count. LbxIncrementPixel is used to support this.
For all three classes of short-circuiting, the proxy must still tell the server a request has occurred, so that the request sequence numbers stay in sync. This is done with LbxModifySequence .
Sequence numbers cause the major complication with short-circuiting. X guarantees that any replies, events or errors generated by a previous request will be sent before those of a later request. This means that any requests that can be handled by the proxy must have their reply sent after any previous events or errors.
If a proxy’s applications do not require strict adherence to the X protocol ordering of errors or events, a proxy might provide further optimization by avoiding the overhead of maintaining this ordering, however, the resulting protocol is not strictly X11 compliant.
The LBX proxy attempts to reencode PolyPoint, PolyLine, PolySegment, PolyRectangle, PolyArc, FillPoly, PolyFillRectangle, PolyFillArc, CopyArea, CopyPlane, PolyText8, PolyText16, ImageText8, and ImageText16 requests. If the request can be reencoded, it may be replaced by an equivalent LBX form of the request. The requests are reencoded by attempting to reduce 2-byte coordinate, length, width and angle fields to 1 byte. Where applicable, the coordinate mode is also converted to Previous to improve the compressibility of the resulting data. In image requests, the image data may also be compressed.
To prevent clogging the wire with MotionNotify events, the server and proxy work together to control the number of events on the wire. This is done with the LbxAllowMotion request. The request adds an amount to an allowed motion count in the server, which is kept on a per-proxy basis. Every motion notify event sent to the proxy decrements the allowed motion counter. If the allowed motion count is less than or equal to zero, motion events not required by the X protocol definition are not sent to the proxy. The allowed motion counter has a minimum value of -2^31.
In the core protocol, all events are padded as needed to be 32 bytes long. The LBX extension reduces traffic by removing padding at the end of events, and implying the event length from its type. This is known as squishing.
When the initial X connection between the proxy and the server is converted to LBX mode, the proxy itself becomes the master client. New client requests and some tag messages are sent in the context of the master client.
The LBX proxy multiplexes the data streams of all its clients into one stream, and then splits them apart again when they are received. The LbxSwitch message is used to tell each end which client is using the wire at the time.
The server should process delta requests in the order that they appear on the LBX connection. If the server does not maintain the interclient request order for requests sent by the proxy, it must still obey the semantics implied by the interclient request order so that the delta cache functions correctly.
The server can affect the multiplexing of clients by the proxy using the LbxListenToOne and LbxListenToAll messages. This is useful during grabs, since the master connection can not be blocked during grabs like other clients. The proxy is responsible for tracking server grabs issued by its clients so that the proxy can multiplex the client streams in an order executable by the server.
Replies must be ordered in the multiplexed data stream from the server to the proxy such that the reply carrying tagged data precedes replies that refer to that tagged data.
Swapping is handled as with any X extension, with one caveat. Since a proxy can be supporting clients with different byte orders, and they all share the same wire, the length fields of all messages between the server and proxy are expressed in the proxy byte order. This prevents any problems with length computation that may occur when clients are switched.
LBX takes advantage of the fact that an X message may be very similar to one that has been previously sent. For example, a KeyPress event may differ from a previous KeyPress event in just a few bytes. By sending just the bytes that differ (or "deltas"), the number of bytes sent over the wire can be substantially reduced. Delta compaction is used on requests being sent by the proxy as well as on replies and events being sent by the server.
The server and the proxy each keep per-proxy request and response caches. The response cache contains events, errors and replies. All messages are saved in the appropriate delta cache if they are of an appropriate type and more than 8 bytes long but fit within the delta cache. The number of entries in the delta cache and the maximum saved message size are negotiated in the LbxStartProxy request.
The LBX requests that are never stored in the request delta cache are the LbxQueryVersion , LbxStartProxy , LbxSwitch , LbxNewClient , LbxAllowMotion , LbxDelta , LbxQueryExtension , LbxPutImage , LbxGetImage , LbxBeginLargeRequest , LbxLargeRequestData , LbxEndLargeRequest and LbxInternAtoms requests. The responses that are never stored in the response cache are LbxSwitchEvent and LbxDeltaResponse . The message carried by a delta message is also cached, if it meets the other requirements. Messages after the LbxStartProxy request are cached starting at index 0, and incrementing the index, modulo the number of entries, thereafter. The request and response caches are independently indexed.
If the current message is cachable and the same length as a message in the corresponding delta cache, a delta message may be substituted in place of the original message in the protocol stream.
Before being passed down to the transport layer messages can be passed through a general purpose data compressor. The choice of compression algorithm is negotiated with See LbxStartProxy. The proxy and server are not required to support any specific stream compressor. As an example, however, the X Consortium implementation of a ZLIB based compressor is described below.
The XC-ZLIB compressor is presented with a simple byte stream - the X and LBX message boundaries are not apparent. The data is broken up into fixed sized blocks. Each block is compressed using zlib 1.0 (by Gailly & Adler), then a two byte header is prepended, and then the entire packet is transmitted. The header has the following information:
out[0] = (length & 0xfff) >> 8 | ((compflag) ? 0x80 : 0); out[1] = length & 0xff;
The current version of LBX does not support multipass authentication protocols for clients of the proxy. These authentication protocols return an Authenticate message in response to a connection setup request, and require additional authentication data from the client after the LbxNewClient request, and before the reply to LbxNewClient . One example of such a protocol is XC-QUERY-SECURITY-1.
The C Library routines for LBX are in the Xext library. The prototypes are located in a file named "XLbx.h".
In a proxy environment, applications do not need to call these routines to take advantage of LBX. Clients can, however, obtain information about the LBX extension to the server using this interface. Use of this routine may be altered when connected through a proxy, as described in See C Library Interfaces.
To determine the version of LBX supported by the X server, call XLbxQueryVersion .
Bool XLbxQueryVersion(
Display * display, int * major_version_return, int * minor_version_return)
;
display | Specifies the connection to the X server. |
major_version_return | Returns the extension major version number. |
minor_version_return | Returns the extension minor version number. |
The XLbxQueryVersion function determines if the LBX extension is present. If the extension is not present, XLbxQueryVersion returns False ; otherwise, it returns True . If the extension is present, XLbxQueryVersion returns the major and minor version numbers of the extension as supported by the X server.
The following interfaces are intended for use by the proxy.
To determine the dynamically assigned codes for the extension, use the Xlib function XQueryExtension or the LBX function XLbxQueryExtension .
Bool XLbxQueryExtension(
Display * display, int * major_opcode_return, int * first_event_return, int * first_error_return)
;
display | Specifies the connection to the X server. |
major_opcode_return | Returns the major opcode. |
first_event_return | Returns the first event code. |
first_error_return | Returns the first error code. |
The XLbxQueryExtension function determines if the LBX extension is present. If the extension is not present, XLbxQueryExtension returns False ; otherwise, it returns True . If the extension is present, XLbxQueryExtension returns the major opcode for the extension to major_opcode_return, the base event type code to first_event_return, and the base error code to first_error_return; otherwise, the return values are undefined.
To determine the base event type code, use the Xlib function XQueryExtension or the LBX function XLbxGetEventBase.
int XLbxGetEventBase(
Display * display)
;
display | Specifies the connection to the X server. |
The XLbxGetEventBase function returns the base event type code if the extension is present; otherwise, it returns -1.
Please refer to the X Window System Protocol specification, as this document uses the syntactic conventions established there and references types defined there.
The following additional types are defined by this extension:
DIFFITEM
1 CARD8 offset
1 CARD8 diff
LBXANGLE: CARD8 or 2 BYTE
where (in order of precedence):
(0 <= in <= A(95)) && !(in % A(5)) out = 0x5a + (in /
A(5))
A(105) <= in <= A(360) && !(in % A(15)) out = 0x67 +
(in / A(15))
-A(100) <= in <= -A(5) && !(in % A(5)) out = 0xa6 +
(in / A(5))
-A(360) < in <= -A(105) && !(in % A(15)) out = 0x98 +
(in / A(15))
-A(360) < in <= A(360) out[0] = in >> 8; out[1] = in
LBXARC:
[x, y: LBXINT16,
width, height: LBXCARD16,
angle1, angle2: LBXANGLE]
Within a list of arcs, after the first arc, x and y are relative to the corresponding fields of the prior arc.
LBXCARD16: CARD8 or 2 BYTE
where:
0x0000 <= in < 0x00F0 CARD8
0x00F0 <= in < 0x10F0 out[0] = 0xF0 | ((in - 0xF0) >>
8)
out[1] = in - 0xF0
LBXGCANDDRAWENT
[ gc-cache-index, drawable-cache-index: CARD4 ]
LBXGCANDDRAWUPDATE
drawable: DRAWABLE /* present only if
drawable-cache-index
== 0 */
gc: GC] /* present only if gc-cache-index == 0 */
LBXGCANDDRAWABLE
cache-entries: LBXGCANDDRAWENT
updates: LBXGCANDDRAWUPDATE
LBXINT16: INT8 or 2 BYTE
where:
0xF790 <= in < 0xFF90 out[0] = 0x80 | (((in + 0x70) >>
8) & 0x0F)
out[1] = in + 0x70
0xFF90 <= in < 0x0080 CARD8
0x0080 <= in < 0x0880 out[0] = 0x80 | (((in - 0x80) >>
8) & 0x0F)
out[1] = in - 0x80
LBXPINT16: CARD8 or 2 BYTE /* for
usually positive numbers */
where:
0xFE00 <= in < 0x0000 out[0] = 0xF0 | (((in + 0x1000)
>> 8) & 0x0F)
out[1] = in + 0x1000
0x0000 <= in < 0x00F0 CARD8
0x00F0 <= in < 0x0EF0 out[0] = 0xF0 | ((in - 0xF0) >>8)
out[1] = in - 0xF0
LBXPOINT: [x, y: LBXINT16]
Within a list of points, after the first rectangle, x and y are
relative to the corresponding fields of the prior point.
LBXRECTANGLE:
[x, y: LBXINT16,
width, height: LBXCARD16]
Within a list of rectangles, after the first rectangle, x and y are relative to the corresponding fields of the prior rectangle.
MASK: CARD8
As with the X11 protocol, when a request terminates with an error, the request has no side effects (that is, there is no partial execution).
There is one error, LbxClient . This error indicates that the client field of an LBX request was invalid, or that the proxy’s connection was in an invalid state for a start or stop proxy request.
There is one request that is expected to be used only by the client: LbxQueryVersion
There is one request that is expected to be used by the client or the proxy: LbxQueryExtension .
The following requests are expected to be used only by the proxy, and are instigated by the proxy: LbxStartProxy , LbxStopProxy , LbxNewClient , LbxSwitch , LbxCloseClient , LbxModifySequence , LbxAllowMotion , LbxInvalidateTag , LbxTagData and LbxQueryTag .
All other requests are sent by the proxy to the LBX server and are instigated by reception of an X request from the client. They replace the X request.
LbxQueryVersion |
---|
=>; |
majorVersion: CARD16 |
minorVersion: CARD16 |
This request returns the major and minor version numbers of the LBX protocol.
The encoding of this request is on See LbxQueryVersion.
LbxQueryExtension |
---|
nbytes : CARD32 |
name : STRING8 |
=> |
num-requests: CARD8 |
present: BOOL |
major-opcode: CARD8 |
first-event: CARD8 |
first-error: CARD8 |
reply-mask: LISTofMASK /* optional */ |
event-mask:LISTofMASK /* optional */ |
Errors: Alloc |
This request is identical to the QueryExtension request, with an additional field, and two optional additional fields. When the client issues an QueryExtension request, the proxy will substitute an LbxQueryExtension request.
This request determines if the named extension is present. If so, the major opcode for the extension is returned, if it has one. Otherwise, zero is returned. Any minor opcode and the request formats are specific to the extension. If the extension involves additional event types, the base event type code is returned. Otherwise, zero is returned. The format of events is specific to the extension. If the extension involves additional error codes, the base error code is returned. Otherwise, zero is returned. The format of additional data in the errors is specific to the extension.
In addition, the number of requests defined by the named extension is returned. If the number of requests is nonzero, and if the information is available, reply-mask and event-mask will be included in the reply. The reply-mask represents a bit-wise one-to-one correspondence with the extension requests. The least significant bit corresponds to the first request, and the next bit corresponds to the next request, and so on. Each element in the list contains eight meaningful bits, except for the last element, which contains eight or fewer meaningful bits. Unused bits are not guaranteed to be zero. The bit corresponding to a request is set if the request could generate a reply, otherwise it is zero. In the same way, the event-mask represents a bit-wise one-to-one correspondence with the extension requests. A bit is set if the corresponding request could result in the generation of one or more extension or X11 events. If reply-mask is present in the reply, event-mask will also be present.
The encoding of this request is on See LbxQueryExtension.
LbxStartProxy |
---|
options : LISTofOPTION |
=> |
choices: LISTofCHOICE |
Errors: LbxClient , Alloc |
where: |
OPTION [optcode: CARD8, |
len: OPTLEN, |
option: (See See StartProxy Options) ] |
CHOICE [optcode: CARD8, |
len: OPTLEN, |
choice: (See See StartProxy Options) ] |
Table 1. StartProxy Options
optcode | option | choice | default |
---|---|---|---|
delta-proxy | DELTAOPT | DELTACHOICE | entries=16, maxlen=64 |
delta-server | DELTAOPT | DELTACHOICE | entries=16, maxlen=64 |
stream-comp | LISTofNAMEDOPT | INDEXEDCHOICE | No Compression |
bitmap-comp | LISTofSTRING8 | LISTofINDEXEDOPT | No Compression |
pixmap-comp | LISTofPIXMAPMETHOD | LISTofPIXMAPCHOICE | No Compression |
use-squish | BOOL | BOOL | True |
use-tags | BOOL | BOOL | True |
colormap | LISTofSTRING8 | INDEXEDCHOICE | No Colormap Grabbing |
extension | NAMEDOPT | INDEXEDCHOICE | Extension Disabled |
DELTAOPT [minN, maxN, prefN: CARD8 |
minMaxMsgLen, maxMaxMsgLen, prefMaxMsgLen: CARD8] |
DELTACHOICE [entries, maxlen: CARD8] |
INDEXEDCHOICE [index: CARD8, |
data: LISTofBYTE] |
INDEXEDOPT [index, opcode: CARD8] |
NAMEDOPT [name: STRING8, |
detail: LISTofBYTE] |
OPTLEN 1 or 3 CARD8 |
where: |
(0 < in <= 0xFF): out = in |
(0 <= in<= 0xFFFF): out[0] = 0; out[1] = in >> 8; out[2] = in& 0xFF; |
PIXMAPMETHOD [name: STRING8, |
format-mask: BITMASK, |
depths: LISTofCARD8] |
PIXMAPCHOICE [index, opcode: CARD8, |
format-mask: BITMASK, |
depths: LISTofCARD8] |
This request negotiates LBX protocol options, and switches the proxy-server connection from X11 protocol to LBX protocol.
The proxy gives the preferred protocol options in the request. The server chooses from the given options and informs the proxy which to use. The options may be listed in any order, and the proxy may choose which options to negotiate. If an option is not successfully negotiated, the default is used.
The server delta cache and proxy delta caches can be configured for number of entries, and the length of entries. (See See Delta cache for details.) The delta caches are configured using the delta-server and delta-proxy options. To configure a cache, the proxy sends the minimum, maximum and preferred values for the number of cache entries, ( minN, maxN, prefN ), and the length of the cache entries, ( minMaxMsgLen, maxMaxMsgLen, prefMaxMsgLen ). The server’s reply fields, entries and maxlen , contains the values to use. These values must be within the ranges specified by the proxy. The server may also specify an entries value of 0 to disable delta caching. The cache entry lengths are specified in units of 4 bytes.
The stream compression algorithm is selected using the stream-comp option. (Stream compression is described in See Stream Compression.) Each algorithm has a name that follows the naming conventions in See Algorithm Naming. To negotiate using the stream-comp option, the proxy lists its available compressors. For each candidate algorithm, the proxy sends the name in the name field, and uses the detail field to send any additional data specific to each compression algorithm. The reply contains a 0-based index into the list of algorithms to indicate which algorithm to use, followed by data specific to that algorithm.
Bitmap compression is negotiated using the bitmap-comp option. The proxy sends a list of names of available algorithms, and the server reply lists the algorithms to use. For each bitmap algorithm in the reply, a 0-based index into the list of algorithms indicates the algorithm, and the opcode field gives the value for use in requests. The algorithm names follow the conventions in See Algorithm Naming.
Pixmap compression is negotiated using the pixmap-comp option. The proxy sends a list of available algorithms. For each algorithm, the list includes, the name, a bitmask of supported formats, and a list of depths that the format supports. The server reply lists the algorithms to use. For each pixmap algorithm in the reply, the reply contains a 0-based index into the list of proxy algorithms, the opcode to use in requests when referring to this algorithm, a mask of valid formats, and a list of valid depths. Algorithm names follow the conventions in See Algorithm Naming.
Squishing is negotiated using the use-squish option. If the proxy desires squishing, it sends a true value. The reply from the server indicates whether to do squishing, and will indicate squishing only if use-squish is set to true in the request.
Tag caching, described in See Tags, is negotiated using the use-tag option. If the proxy desires tag caching, it sends a true value. The reply from the server indicates whether to do tag caching, and will demand caching only if use-tag is set to true in the request.
The colormap option is used to negotiate what color matching algorithm will be used by the proxy when the proxy uses the LbxAllocColor request to allocate pixels in a grabbed colormap. To negotiate using the colormap option, the proxy lists the names of available colormap algorithms. The choice in the reply contains a 0-based index into the list of algorithms to indicate which algorithm to use, followed by data specific to that algorithm. If no colormap algorithm is successfully negotiated, then the LbxAllocColor , LbxGrabCmap , and LbxReleaseCmap requests will not be used.
The extension option is used to control extensions to LBX. These extensions may, for example, enable other types of compression. To negotiate an extension, the name of the extension is sent, followed by any data specific to that extension. The extension name follows the conventions in See Algorithm Naming. The extension option may occur multiple times in the start proxy message, since multiple extensions can be negotiated. The reply to an extension option contains the zero-based index of the extension option, as counted in the LbxStartProxy message. This index is followed by extension-specific information. The server does not respond to extensions it does not recognize.
An LbxClient error is returned when a client which is already communicating through an LBX proxy to the X server sends a LbxStartProxy request.
The encoding for this request is on See LbxStartProxy.
LbxStopProxy |
---|
Errors: LbxClient |
This request terminates the connection between the proxy and X server, and terminates any clients connected through the proxy.
The encoding for this request is on See LbxStopProxy.
An LbxClient error is returned if the requesting client is not an LBX proxy.
LbxNewClient |
---|
byte-order : CARD8 |
client-id : CARD32 |
protocol-major-version : CARD16 |
protocol-minor-version: CARD16 |
authorization-protocol-name : STRING8 |
authorization-protocol-data : STRING8 |
=> |
Core X reply (if connection is rejected) |
OR |
success: BOOL |
change-type: {NoDeltas, NormalClientDeltas, AppGroupDeltas} |
protocol-major-version: CARD16 |
protocol-minor-version: CARD16 |
tag-id: CARD32 |
length: CARD16 |
connection-data: CONINFO or CONDIF or CONDIFROOT |
where: |
CONINFO: (the "additional data" portion of the core connection reply for successes) |
CONDIF: [resource-id-base: CARD32, |
root-input-masks: LISTofSETofEVENT] |
CONDIFROOT: [resource-id-base: CARD32, |
root: WINDOW |
root-visual: VISUALID |
default-colormap: COLORMAP |
white-pixel, black-pixel: CARD32 |
root-input-masks: LISTofSETofEVENT] |
Errors: LbxClient, Alloc
This request, which is sent by the proxy over the control connection, creates a new virtual connection to the server.
Much of the information in the LbxNewClient request and reply is identical to the connection setup and reply information in the core X protocol.
For the LbxNewClient request, the field unique to LBX is client-id. For the LbxNewClient reply, tag-id and change-type are fields unique to LBX, and the contents of connection-data may be different in LBX from the core X protocol (see below).
The proxy assigns each virtual connection a unique identifier using the client-id field in the LbxNewClient request. This client-id is used in the LBX protocol to specify the current client (see the LbxSwitch request and the LbxSwitchEvent ). client-id 0 is reserved for the proxy control connection. An LbxClient error will result if the LbxNewClient request contains a client-id of 0 or an already in use client-id.
If the server rejects this new virtual connection, the server sends a core X connection failure reply to the proxy. The current version of LBX does not support the return of an Authenticate reply.
If the change-type field is set to NoDeltas , then connection-data is sent using the CONINFO structure, which is identical to the additional data of the core connection reply. If the tag-id is non-zero, then the connection-data is stored by the proxy using this tag value. Tagged connection data must be stored by the proxy, and can not be invalidated by the proxy until an LbxInvalidateTag event is received for that tag.
When the change-type field is not set to NoDeltas , then connection data is sent as changes against connection information previously sent to the proxy. The tag-id field, if non-zero, has the tag of the previously sent data to apply the changes to. A zero tag-id indicates that the changes are with respect to the connection information sent when the proxy connected to the server.
If the change-type field is set to NormalClientDeltas , then connection-data is sent using the CONDIF structure. The values in the CONDIF structure are substituted for the identically named fields of the connection information for the new connection.
If the change-type field is set to AppGroupDeltas , then connection-data is sent using the CONDIFROOT structure. The root , root-visual , and default-colormap fields, when nonzero, are substituted for the corresponding fields in the reference connection information. The white-pixel and black-pixel fields are substituted only when the default-colormap field of the reply is non-zero. When default-colormap field of the reply is zero, so are white-pixel and black-pixel . The first entry in the root-input-masks field is the current-input-mask for the default root window. The remaining entries in root-input-masks are input masks for non-video screens, as defined by the X Print Extension. The number of non-video screens is one less than the number of entries in root-input-masks . These screens are at the end of screen list in the reference connection information.
The encoding for this request is on See The description of this request is on page 13..
LbxCloseClient |
---|
client : CARD32 |
Errors: LbxClient |
This requests the server to close down the connection represented by the specified proxy’s client identifier. If the specified client wasn’t previously registered with the server by a LbxNewClient request, the server will send the LbxClient error.
The encoding for this request is on See The description of this request is on page 12..
LbxSwitch |
---|
client : CARD32 |
Errors: LbxClient |
This request causes the X server to treat subsequent requests as being from a connection to the X server represented by the specified client identifier.
If the client making the request is not the proxy, or if the client identifier sent in the request was not previously sent in a LbxNewClient request, an LbxClient error is returned.
The encoding for this request is on See LbxSwitch.
LbxSync |
---|
=> |
The sync request causes the server to send a reply when all requests before the sync request have been processed.
The encoding for this client is on See LbxSync.
LbxModifySequence |
---|
adjust : CARD32 |
Errors: None |
This request advances the sequence number of the virtual client connection by the specified amount. The proxy sends the LbxModifySequence request to the server when it replies to a client request without forwarding the client request on to the X server.
The encoding for this client is on See The description of this request is on page 13..
LbxAllowMotion |
---|
num : CARD32 |
Errors: None |
This request controls the delivery of optional motion notify events, as described in See Motion events. The num field specifies an increase in the allowed number of motion notify events sent.
The encoding for this request is on See The description of this request is on page 14..
LbxInvalidateTag |
---|
tag : CARD32 |
The LBX proxy sends this notification to the X server when it refuses to store tagged data, or when it releases tagged data which was previously stored and which was not invalidated by a notification from the X server.
The encoding for this request is on See LbxInvalidateTag.
LbxTagData |
---|
tag : CARD32 |
real-length : CARD32 |
data : LISTofBYTE |
This request specifies the data associated with a previously assigned tag. It is sent in two circumstances: in response to receiving a SendTagDataEvent , and spontaneously, when the proxy must rely on the server to store data which was not previously received from the server. The data is carried in the byte order and structure as would have originally been sent in the core protocol request.
The encoding for this request is on See LbxTagData.
LbxGrabCmap |
---|
cmap : Colormap |
=> |
smart-grab : BOOL |
large-pixel: BOOL /* optional */ |
auto-release: BOOL /* optional */ |
three-channels : BOOL /* optional */ |
bits-per-rgb: CARD4 /* optional */ |
cells : LISTofCHAN /* optional */ |
where: |
CHAN: LISTofLBXPIXEL |
LBXPIXEL: PIXELPRIVATE or PIXELPRIVATERANGE or |
PIXELALLOC or PIXELALLOCRANGE |
PIXEL: CARD8 or CARD16 |
PIXELPRIVATE: [ pixel: PIXEL ] |
PIXELPRIVATERANGE: [ first-pixel, last-pixel: PIXEL] |
PIXELALLOC: [ pixel: PIXEL, |
color: COLORSINGLE or COLORTRIPLE] |
PIXELALLOCRANGE: [ first-pixel, last-pixel: PIXEL, |
colors: LISTofCOLORSINGLE or LISTofCOLORTRIPLE] |
COLORSINGLE: [ value: CARD8 or CARD16 ] |
COLORTRIPLE: [ r, g, b: COLORSINGLE] |
Errors: Colormap |
This request asks the server for control of allocating new colormap cells in the specified colormap. The server grants control by replying to this request. If no changes have occurred since the last time this proxy grabbed this colormap, then the smart-grab field of the reply is set to true, and the optional fields are not sent. Otherwise, the current contents of the colormap are placed in the reply, as described later in this section.
Once the proxy has received the reply, it can use the LbxAllocColor request to allocate new colormap cells without the performance penalty of round trips. The proxy is still permitted to use the normal colormap and LbxIncrementPixel requests while the colormap is grabbed. The grab is valid across all virtual connections of the proxy.
The LbxGrabCmap request is limited to colormaps for the visual types negotiated as part of the colormap algorithm negotiation in the start proxy request at connection setup.
The server and other proxies may not allocate new colormap cells in the colormap while the colormap is grabbed by this proxy. If the server or another proxy needs to allocate new colormap cells, the server sends a Lbx ReleaseCmap event to the proxy holding the grab, which then issues an LbxReleaseCmap request.
The server and other proxies may free colormap cells in a colormap grabbed by a proxy. The server will send an LbxFreeCells event to the proxy that currently has the colormap grabbed when the cell reference count reaches 0.
If the colormap is a of a static visual type, such as StaticGray , StaticColor , GrayScale , or TrueColor , then the proxy’s grab is immediately released by the server, and the proxy must use LbxIncrementPixel requests in place of LbxAllocColor requests for this colormap.
If the cmap field does not refer to a valid colormap or the colormap is already grabbed by this proxy then a Colormap error is generated.
The reply describes the contents of the colormap via several arguments and a descriptive list containing one or three channels, with each channel describing allocations in the colormap.
The large-pixel argument, if True, specifies that PIXEL indices will be listed as CARD16 quantities instead of CARD8. The auto-release field, if True, indicates that this colormap is of a static visual type and the proxy’s grab is immediately released by the server.
If three-channels is False, a single channel is enclosed and color values are described using COLORTRIPLE, which has fields for red, green and blue. A single channel is used when the visual type is not DirectColor or TrueColor .
If three-channels is True, separate red, green and blue channel lists are enclosed, for describing a DirectColor or TrueColor colormap. Color values for entries in each channel are sent using COLORSINGLE and the corresponding PIXEL value refers to the RGB subfield of the current channel, as defined by the corresponding red-mask, green-mask and blue-mask of the visual.
The bits-per-rgb value is one less than the bits-per-rgb-value field of the visual that the colormap belongs to. If the value is 7 or less, then COLORSINGLE values in the descriptive list are sent using CARD8 fields. Otherwise these values are sent using CARD16 fields.
The list describing current colormap allocations contains entries of the following types:
An LBXPIXELPRIVATE entry indicates that the pixel in the pixel field is unavailable for allocation.
An LBXPIXELPRIVATERANGE entry indicates that a contiguous range of pixels are unavailable for allocation. The range is first-pixel to last-pixel , and includes last-pixel .
An LBXPIXELALLOC entry indicates that the pixel in the pixel field is allocated as a read-only pixel. The color field carries the color information of the pixel.
An LBXPIXELALLOCRANGE entry indicates that a contiguous range of pixels are allocated as read-only. The range starts first-pixel to last-pixel , and includes last-pixel . These fields are followed by a list of COLORSINGLE or COLORTRIPLE, depending on the value of three-channels .
A NEXTCHANNEL entry indicates that the next channel of the colormap will be described.
A LISTEND entry indicates the end of the colormap description.
All pixels not described in the reply are unallocated.
The encoding for this request is on See LbxGrabCmap.
LbxReleaseCmap |
---|
cmap : Colormap |
This request releases the specified grabbed colormap. If the cmap field does not refer to a colormap, a BadColormap error is produced.
The proxy must remember the state of the colormap when the LbxReleaseCmap request is issued if this proxy may at some future time issue another LbxGrabCmap request on this colormap before the state of the colormap changes.
The encoding for this request is on See LbxReleaseCmap.
LbxInternAtoms |
---|
count : CARD16 |
names: LISTofSTRING8 |
=> |
atoms : LISTofATOM |
Errors: Alloc |
This request allows the proxy to intern a group of atoms in a single round trip. The server will create any atoms that do not exist.
The encoding for this request is on See LbxInternAtoms.
LbxAllocColor |
---|
cmap : Colormap |
pixel : CARD32 |
red , green , blue : CARD16 |
This request is sent by a proxy that has given colormap grabbed to allocate a new read-only cell in the colormap. The proxy may substitute this request for the core AllocColor and AllocNamedColor requests.
The pixel field identifies the colormap cell to allocate. The red , green , and blue fields are the hardware specific color values of the corresponding fields of the core AllocColor request. The mapping to hardware specific colormap values by the proxy is performed using the color algorithm negotiated by LbxStartProxy .
For colormaps of static visual types, the LbxIncrementPixel request is used instead of LBX AllocColor .
If the cmap field does not identify a grabbed colormap then a BadAccess error is produced. If the pixel field refers to a read-write entry, or the pixel field refers to a pixel outside of the range of this colormap, a BadAlloc error is produced.
The encoding for this request is on See LbxAllocColor.
LbxIncrementPixel |
---|
cmap : COLORMAP |
pixel : CARD32 |
Errors: None |
This request replaces the AllocColor request for read-only pixels currently allocated for the current client. If the visual type of the colormap is of a static type, this request may be used on currently unallocated pixels. The colormap is not required to be grabbed to use this request.
The encoding for this request is on See The description of this request is on page 14..
LbxDelta |
---|
count : CARD8 |
cache-index : CARD8 |
diffs : LISTofDIFFITEM |
This request contains a minimal amount of information relative to a similar prior request. The information is in the form of a difference comparison to a prior request. The prior request is specified by an index to a cache, independently maintained by both the proxy and the server.
The encoding for this request is on See The description of this request is on page 18..
LbxGetModifierMapping |
---|
=> |
keyspermod : CARD8 |
tag : CARD32 |
keycodes : LISTofKEYCODE /* optional */ |
This request is identical to the core GetModifierMapping request, with the addition of a tag being returned in the reply. See See Tag Substitution in Requests for a description of the tag field and optional fields.
The encoding for this request is on See LbxGetModifierMapping.
LbxGetKeyboardMapping |
---|
firstKeyCode : KEYCODE |
count : CARD8 |
=> |
keysperkeycode : CARD8 |
tag : CARD32 |
keysyms : LISTofKEYSYM /* optional */ |
Errors: Value |
This request is identical to the X GetKeyboardMapping protocol request, with the addition that a tag is returned in the reply. See See Tag Substitution in Requests for a description of the tag field and optional fields.
The encoding for this request is on See LbxGetKeyboardMapping.
LbxGetWinAttrAndGeom |
---|
window : WINDOW |
=> |
visual: VISUALID |
class: {InputOutput, InputOnly} |
bit-gravity: BITGRAVITY |
win-gravity: WINGRAVITY |
backing-store: {NotUseful, WhenMapped, Always} |
backing-planes: CARD32 |
backing-pixel: CARD32 |
save-under: BOOL |
colormap: COLORMAP or None |
map-is-installed: BOOL |
map-state: {Unmapped, Unviewable, Viewable} |
all-event-masks, your-event-mask: SETofEVENT |
do-not-propagate-mask: SETofDEVICEEVENT |
override-redirect: BOOL |
root: WINDOW |
depth: CARD8 |
x, y: INT16 |
width, height, border-width: CARD16 |
Errors: Window |
GetWindowAttributes and GetGeometry are frequently used together in the X protocol. LbxGetWinAttrAndGeom allows the proxy to request the same information in one round trip.
The encoding for this request is on See LbxGetWinAttrAndGeom.
LbxQueryFont |
---|
font : FONTABLE |
=> |
compression: BOOL |
tag: CARD32 |
font-info: FONTINFO /* optional */ |
char-infos: LISTofCHARINFO or LISTofLBXCHARINFO /* optional */ |
where: |
LBXCHARINFO: [left-side-bearing: INT6 |
right-side-bearing: INT7 |
character-width: INT6 |
ascent: INT6 |
descent: INT7] |
Errors: Font,Alloc |
This request is used to replace the core QueryFont request and has identical semantics.
See See Tag Substitution in Requests for a description of the tag field and optional fields.
The compression field is True if the char-infos field is represented using LBXCHARINFO.
The per-character information will be encoded in an LBXCHARINFO when, for every character, the character-width, left-side-bearing, and ascent can each be represented in not more than 6 bits, and the right-side-bearing and descent can each be represented in not more than 7 bits, and the attributes field is identical the attributes field of the max_bounds of the font_info field of the font.
The encoding for this request is on See LbxQueryFont.
LbxChangeProperty |
---|
window : WINDOW |
property : ATOM |
type : ATOM |
format : {0,8,16,32} |
mode : {Replace, Prepend, Append} |
nUnits : CARD32 |
=> |
tag: CARD32 |
This request is sent to the server when the client sends an X ChangeProperty request through the proxy. The size of the data is sent with this request, but not the property data itself. The server reply contains a tag identifier for the data, which is stored in the proxy. The proxy must not discard this data before it is sent to the server, or invalidated by the server. This means that before issuing an LbxStopProxy request, or exiting, the proxy must send Lbx TagData requests for these items. If the server loses the connection before the information is sent back, the server should revert the property value to its last known value, if possible.
If the mode field is Prepend or Append , the tag refers only to the prepended or appended data.
If the tag in the reply is zero, then the change was ignored by the server, as defined in the security extension. The proxy should dump the associated data, since the server will never ask for it.
The encoding for this request is on See LbxChangeProperty.
LbxGetProperty |
---|
window : WINDOW |
property : ATOM |
type : ATOM or AnyPropertyType |
long-offset : CARD32 |
long-length : CARD32 |
delete : CARD8 |
=> |
type: ATOM or None |
format: {0, 8, 16, 32} |
bytes-after: CARD32 |
nItems: CARD32 |
tag: CARD32 |
value: LISTofINT8 or LISTofINT16 or LISTofINT32 |
This request may be used by the proxy as a substitution for a core GetProperty request. It allows tags to be used for property data that is unlikely to change often in value, but is likely to be fetched by multiple clients.
The LbxGetProperty request has the same arguments as the core GetProperty request. The reply for LbxGetProperty has all of the fields from the core GetProperty reply, but has the additional fields of nItems and tag .
In order to utilize tags in LbxGetProperty for a specific property, the server must first send the complete property data to the proxy and associate this data with a tag. More precisely, the server sends an LbxGetProperty reply with a new tag , nItems set to the number of items in the property, the size of the property data in the reply length field, and the complete property data in value. The proxy stores the property data in its tag cache and associates it with the specified tag.
In response to future LbxGetProperty requests for the same property, if the server thinks that the proxy has the actual property data in its tag cache, it may choose to send an LbxGetProperty reply without the actual property data. In this case, the reply would include a non-zero tag , a zero reply length, and no data for value.
If the server chooses not to generate a tagged reply to LbxGetProperty , or for some reason is unable to do so, it would send a reply with a tag of zero, the size of the property data in the reply length field, and the complete property data in value.
The encoding for this request is on See LbxGetProperty.
LbxPolyPoint |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
points : LISTofLBXPOINT |
Errors: Alloc and those given for the corresponding X request. |
This request replaces the PolyPoint request. Not all PolyPoint requests can be represented as LbxPolyPoint requests.
The proxy will convert the representation of the points to be relative to the previous point, as described by previous coordinate mode in the X protocol.
The encoding for this request is on See LbxPolyPoint.
LbxPolyLine |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
points : LISTofLBXPOINT |
Errors: Alloc and those given for the corresponding X request. |
This request replaces the PolyLine request. Not all PolyLine requests can be represented as LbxPolyline requests.
The proxy will convert the representation of the points to be relative to the previous point, as described by previous coordinate mode in the X protocol.
The encoding for this request is on See The description of this request is on page 21..
LbxPolySegment |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
segments : LISTofLBXSEGMENT |
where: |
LBXSEGEMENT; [x1, y1, x2, y2: LBXINT16] |
Errors: Alloc and those given for the corresponding X request. |
This request replaces the PolySegment request. Not all PolySegment requests can be represented as LbxPolySegment requests.
For segments other than the first segment of the request, [x1, y1] is relative to [x1, y1] of the previous segment. For all segments, [x2, y2] is relative to that segment’s [x1, y1].
The encoding for this request is on See LbxPolySegment.
LbxPolyRectangle |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
rectangles : LISTofLBXRECTANGLE |
Errors: Alloc and those given for the corresponding X request. |
This request replaces the PolyRectangle request. Not all PolyRectangle requests can be represented as LbxPolyRectangle requests.
The encoding for this request is on See The description of this request is on page 22..
LbxPolyArc |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
arcs : LISTofLBXARC |
Errors: Alloc and those given for the corresponding X request. |
This request replaces the PolyArc request. Not all PolyArc requests can be represented as LbxPolyArc requests.
The encoding for this request is on See LbxPolyArc.
LbxPolyFillRectangle |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
rectangles : LISTofLBXRECTANGLE |
Errors: Alloc and those given for the corresponding X request. |
This request replaces the PolyFillRectangle request. Not all PolyFillRectangle requests can be represented as LbxPolyFillRectangle requests.
The encoding for this request is on See LbxPolyFillRectangle.
LbxPolyFillArc |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
arcs : LISTofLBXARC |
Errors: Alloc and those given for the corresponding X request. |
This request replaces the PolyFillArc request. Not all PolyFillArc requests can be represented as LbxPolyFillArc requests.
The encoding for this request is on See The description of this request is on page 22..
LbxFillPoly |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
shape : BYTE |
points : LISTofLBXPOINT |
Errors: Alloc and those given for the corresponding X request. |
This request replaces the FillPoly request. Not all FillPoly requests can be represented as LbxFillPoly requests.
The proxy will convert the representation of the points to be relative to the previous point, as described by previous coordinate mode in the X protocol.
The encoding for this request is on See LbxFillPoly.
LbxCopyArea |
---|
srcCache : CARD8 /* source drawable */ |
gc-and-drawable: LBXGCANDDRAWABLE |
src-Drawable : CARD32 |
src-x : LBXPINT16 |
src-y : LBXPINT16 |
width : LBXCARD16 |
height : LBXCARD16 |
dst-x : LBXPINT16 |
dst-y : LBXPINT16 |
Errors: Those given for the corresponding X request. |
This request replaces the CopyArea request for requests within its encoding range.
The encoding for this request is on See LbxCopyArea.
LbxCopyPlane |
---|
bit-plane : CARD32 |
src-cache : CARD8 /* cache reference for source drawable */ |
gc-and-drawable: LBXGCANDDRAWABLE |
src-drawable : CARD32 |
src-x : LBXPINT16 |
src-y : LBXPINT16 |
width : LBXCARD16 |
height : LBXCARD16 |
dst-x : LBXPINT16 |
dst-y : LBXPINT16 |
Errors: Those given for the corresponding X request. |
This request replaces the CopyPlane request for requests within its coding range.
The encoding for this request is on See LbxCopyPlane.
LbxPolyText8 |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
x : LBXPINT16 |
y : LBXPINT16 |
items : LISTofTEXTITEM8 |
Errors: Alloc , and those given for the corresponding X request. |
This request replaces the PolyText8 request for requests within its encoding range.
The encoding for this request is on See The description of this request is on page 23..
LbxPolyText16 |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
x: LBXPINT16 |
y : LBXPINT16 |
items : LISTofTEXTITEM16 |
Errors: Alloc , and those given for the corresponding X request. |
This request replaces the PolyText16 request for requests within its encoding range.
The encoding for this request is on See The description of this request is on page 24..
LbxImageText8 |
---|
gc-and-drawable: LBXGCANDDRAWABLE |
nChars : CARD8 |
x : LBXPINT16 |
y : LBXPINT16 |
string : STRING8 |
Errors: Alloc , and those given for the corresponding X request. |
This request replaces the ImageText8 request for requests within its encoding range.
The encoding for this request is on See The description of this request is on page 24..
LbxImageText16 |
---|
nChars : CARD8 |
gc-and-drawable: LBXGCANDDRAWABLE |
x: LBXPINT16 |
y : LBXPINT16 |
string : STRING16 |
Errors: Alloc , and those given for the corresponding X request. |
This request replaces the ImageText16 request for requests within its encoding range.
The encoding for this request is on See The description of this request is on page 24..
LbxPutImage |
---|
compression-method : CARD8 |
format : { Bitmap , XYPixmap , ZPixmap } /* packed */ |
gc-and-drawable: LBXGCANDDRAWABLE |
width , height : LBXCARD16 |
dst-x , dst-y : LBXPINT16 |
depth : CARD8 /* packed */ |
left-pad : CARD8 /* packed */ |
pad-bytes : CARD8 /* packed */ |
data :LISTofBYTE |
Errors: Alloc , Value |
When the request can be usefully compressed, this request replaces the PutImage request. The compression-method parameter contains the opcode of a compression method returned in the LbxStartProxy reply. The pad-bytes parameter gives the number of unused pad bytes that follow the compressed image data. All other parameters are as in the X request. If the specified compression method is not recognized, the server returns a Value error.
The encoding for this request is on See LbxPutImage.
LbxGetImage |
---|
drawable : DRAWABLE |
x , y : INT16 |
width , height : CARD16 |
plane-mask : CARD32 |
format : {XYPixmap, ZPixmap} |
=> |
depth: CARD8 |
x-length: CARD32 |
visual: VISUALID or None |
compression-method: CARD8 |
data: LISTofBYTE |
Errors: Alloc,Match,Value |
This request can replace the GetImage request. The same semantics apply, with the following exceptions.
The compression-method field contains the opcode of the compression method used in the reply. The compression opcodes are supplied in the LbxStartProxy reply. The x-length field contains the length of the uncompressed version of the reply in 4 byte units.
A Value error is returned if the format is not recognized by the X server. A Match error is returned under the same circumstances as described by the GetImage request.
The encoding for this request is on See LbxGetImage.
LbxBeginLargeRequest |
---|
large-request-length : CARD32 |
Errors: Alloc |
This request, along with the Lbx LargeRequestData and Lbx EndLargeRequest requests, is used to transport a large request in pieces. The smaller size of the resulting requests allows smoother multiplexing of clients on a single low bandwidth connection to the server. The resulting finer-grained multiplexing improves responsiveness for the other clients.
After a LbxBeginLargeRequest request is sent, multiple LbxLargeRequestData requests are sent to transport all of the data in the large request, and finally an LbxEndLargeRequest request is sent. The large-request-length field expresses the total length of the transported large request, expressed as the number of bytes in the transported request divided by four.
The encoding for this request is on See The description of this request is on page 25..
LbxLargeRequestData |
---|
data : LISTofBYTE |
Errors: Alloc |
This request is used to carry the segments of a larger request, as described in the definition of LbxBeginLargeRequest . The data must be carried in order, starting with the request header, and each segment must be multiples of 4 bytes long. If the LbxLargeRequestData is not preceded by a corresponding LbxBeginLargeRequest , a BadAlloc error is generated.
The encoding for this request is on See The description of this request is on page 26..
LbxEndLargeRequest |
---|
Errors: Length, Alloc |
As described in the definition of LbxBeginLargeRequest , LbxEndLargeRequest is used to signal the end of a series of LargeRequestData requests. If the total length of the data transported by the LbxLargeRequestData requests does not match the large-request-length field of the preceding LbxBeginLargeRequest request, then a Length error occurs. If the LbxEndLargeRequest is not preceded by a corresponding LbxBeginLargeRequest , a BadAlloc error is generated. The request is executed in order for that client as if it were the request after the request preceding LbxEndLargeRequest .
The encoding for this request is on See LbxEndLargeRequest.
LbxSwitchEvent |
---|
client : CARD32 |
Notify the proxy that the subsequent replies, events, and errors are relative to the specified client.
The encoding for this event is on See LbxSwitchEvent.
LbxCloseEvent |
---|
client : CARD32 |
Notify the proxy that the specified client's connection to the server is closed.
The encoding for this event is on See The description of this event is on page 27..
LbxInvalidateTagEvent |
---|
tag : CARD32 |
tag-type : {Modmap, Keymap, Property, Font, ConnInfo} |
This message informs the proxy that the tag and the server data referenced by the tag are obsolete, and should be discarded. The tag type may be one of the following values: LbxTagTypeModmap , LbxTagTypeKeymap , LbxTagTypeProperty , LbxTagTypeFont , LbxTagTypeConnInfo .
The encoding for this event is on See LbxInvalidateTagEvent.
LbxSendTagDataEvent |
---|
tag : CARD32 |
tag-type : {Property} |
The server sends this event to the proxy to request a copy of tagged data which is being stored by the proxy. The request contains a tag which was previously assigned to the data by the server. The proxy should respond to SendTagData by sending a TagData request to the server. The tag type may be one of the following values: LbxTagTypeProperty .
The encoding for this event is on See LbxSendTagDataEvent.
LbxListenToOne |
---|
client : CARD32 or 0xffffffff |
When the server is grabbed, ListenToOne is sent to the proxy. As an X client, the proxy itself is unaffected by grabs, in order that it may respond to requests for data from the X server.
When the client grabbing the server is managed through the proxy, the proxy will permit messages from itself and the grabbing client to be sent immediately to the server, and may buffer requests from other clients of the proxy. The client is identified in the event.
When the client grabbing the server is not managed through the proxy, the client field in the event will be 0xffffffff . The proxy will communicate with the server, and it may buffer requests from other clients. The proxy will continue to handle new connections while the server is grabbed.
The server will send ListenToAll to the proxy when the server is ungrabbed. There is no time-out for this interval in the protocol.
The encoding for this event is on See The description of this event is on page 27..
LbxListenToAll |
Notify the proxy that the server has been ungrabbed, and that the proxy may now send all buffered client requests on to the server.
The encoding for this event is on See The description of this event is on page 27..
LbxQuickMotionDeltaEvent |
---|
deltaTime : CARD8 |
deltaX : INT8 |
deltaY : INT8 |
This event is used as a replacement for the MotionNotify event when possible. The fields are used as deltas to the most recent MotionNotify event encoded as a MotionNotify event, LbxQuickMotionDeltaEvent , or LbxMotionDeltaEvent . Not every MotionNotify event can be encoded as a LbxQuickMotionDeltaEvent .
The encoding for this event is on See LbxQuickMotionDeltaEvent.
LbxMotionDeltaEvent |
---|
deltaX : INT8 |
deltaY : INT8 |
deltaTime : CARD16 |
deltaSequence : CARD16 |
This event is used as a replacement for the MotionNotify event when possible. The fields are used as deltas to the most recent MotionNotify event encoded as a MotionNotify event, LbxQuickMotionDeltaEvent , or LbxMotionDeltaEvent . Not every MotionNotify event can be encoded as a LbxMotionDeltaEvent .
The encoding for this event is on See LbxMotionDeltaEvent.
LbxReleaseCmapEvent |
---|
colormap : Colormap |
This event notifies the proxy that it must release the grab on this colormap via the ReleaseCmap request. See LbxReleaseCmap
The encoding for this event is on See LbxReleaseCmapEvent.
LbxFreeCellsEvent |
---|
colormap : Colormap |
pixelStart, pixelEnd : CARD32 |
The LbxFreeCells event is sent to a proxy that has a colormap grabbed to notify the proxy that the reference count of the described cells were decremented to zero by the server or another proxy. The reference count includes those by this proxy. The proxy must update its copy of the colormap state accordingly if the colormap is still grabbed, or if the proxy may in the future grab the colormap using smart-grab mode. See LbxGrabCmap
The pixelStart and pixelEnd fields of the event denote a continuous range of cells that were freed.
The encoding for this event is on See LbxFreeCellsEvent.
Responses are messages from the server to the proxy that not, strictly speaking, events, replies or errors.
LbxDeltaResponse |
---|
count : CARD8 |
cache-index : CARD8 |
diffs : LISTofDIFFITEM |
This response carries an event, reply, or error that has been encoded relative to a message in the response delta cache. The cache-index field is the index into the cache. Each entry in diffs provides a byte offset and replacement value to use in reconstructing the response.
The encoding for this event is on See LbxDeltaResponse.
To avoid potential clashes between different but similar algorithms for stream, bitmap, and pixmap compression, the following naming scheme will be adhered to:
Each algorithm has a unique name, which is a STRING8, of the following form:
<organization>-<some-descriptive-name>
The organization field above is the organization name as registered in section 1 of the X Registry (the registry is provided as a free service by the X Consortium.) This prevents conflicts among different vendor’s extensions.
As an example, the X Consortium defines a zlib-based stream compression algorithm called XC-ZLIB.
The syntax and types used in the encoding are taken from the X protocol encoding. Where LBX defines new types, they are defined earlier in this document.
As in the X protocol, in various cases, the number of bytes occupied by a component will be specified by a lowercase single-letter variable name instead of a specific numeric value, and often some other component will have its value specified as a simple numeric expression involving these variables. Components specified with such expressions are always interpreted as unsigned integers. The scope of such variables is always just the enclosing request, reply, error, event, or compound type structure.
For unused bytes, the encode-form is:
N unused
If the number of unused bytes is variable, the encode-form typically is:
p unused, p=pad(E)
where E is some expression, and pad(E) is the number of bytes needed to round E up to a multiple of four.
pad(E) = (4 - (E mod 4)) mod 4
In many of the encodings, the length depends on many variable length fields. The variable L is used to indicate the number of padded 4 byte units needed to carry the request. Similarly, the variable Lpad indicates the number of bytes needed to pad the request to a 4 byte boundary.
For counted lists there is a common encoding of NLISTofFOO:
NLISTofFOO
1 m num items
m LISTofFOO items
For cached GC and Drawables:
LBXGCANDDRAWUPDATE
4 or 0 DRAWBLE optional drawable
4 or 0 GC optional GC
LBXGCANDDRAWABLE
8 LBXGCANDDRAWENT cache-entries
8 unused
m LBXGCANDDRAWUPDATE optional GC and Drawable
LbxClient
1 0 Error
1 CARD8 error-base + 0
2 CARD16 sequence number
4 unused
2 CARD16 lbx opcode
1 CARD8 major opcode
21 unused
LbxQueryVersion
1 CARD8 opcode
1 0 lbx opcode
2 1 request length
=>
1 1 Reply
1 unused
2 CARD16 sequence number
4 0 reply length
2 CARD16 major version
2 CARD16 minor version
20 unused
The description of this request is on See LbxQueryVersion.
LbxStartProxy 1 CARD8 opcode 1 1 lbx opcode 2 L request length n NLISTofOPTION-REQUEST options p unused, p=pad(n) OPTION-REQUEST 1 OPTCODE option-code m OPTLEN option-request-byte-length, (b=m+a+1) a DELTAOPT or option NLISTofNAMEDOPT or NLISTofSTR or NLISTofPIXMAPMETHOD or BOOL
The encoding of the option field depends on the option-code. See See StartProxy Options.
1 OPTCODE option-code 0 LbxOptionDeltaProxy 1 LbxOptionDeltaServer 2 LbxOptionStreamCompression 3 LbxOptionBitmapCompression 4 LbxOptionPixmapCompression 5 LbxOptionMessageCompression /* also known as squishing */ 6 LbxOptionUseTags 7 LbxOptionColormapAllocation 255 LbxOptionExtension
OPTLEN has two possible encodings, depending on the size of the value carried:
OPTLEN 1 CARD8 b (0 < b <= 255) OPTLEN 1 0 long length header 1 c length0, c = b >> 8 1 d length1, d= b & #xff DELTAOPT 1 CARD8 min-cache-size 1 CARD8 max-cache-size 1 CARD8 preferred-cache-size 1 CARD8 min-message-length 1 CARD8 max-message-length (in 4-byte units) 1 CARD8 preferred-message-length NAMEDOPT f STR type-name 1 g+1 option-data-length g LISTofBYTE option-data (option specific) PIXMAPMETHOD h STR name 1 BITMASK format mask 1 j depth count j LISTofCARD8 depths => => 1 1 Reply 1 CARD8 count 0xff options in request cannot be decoded 2 CARD16 sequence number 4 (a+p-32)/4 reply length a LISTofCHOICE options-reply p unused, if (n<24) p=24-n else p=pad(n) CHOICE 1 CARD8 request-option-index b OPTLEN reply-option-byte-length c DELTACHOICE or choice INDEXEDCHOICE or NLISTofINDEXEDOPT or NLISTofPIXMAPCHOICE or BOOL or INDEXEDCHOICE
The encoding of the choice field depends on the option-code. See See StartProxy Options.
DELTACHOICE 1 CARD8 preferred cache size 1 CARD8 preferred message length in 4-byte units INDEXEDCHOICE 1 CARD8 index d LISTofBYTE data PIXMAPCHOICE 1 CARD8 index 1 CARD8 opcode 1 BITMASK format mask e NLISTofCARD8 depths
The description of this request is on See LbxStartProxy.
LbxStopProxy
1 CARD8 opcode
1 2 lbx opcode
2 1 request length
The description of this request is on See LbxStopProxy.
LbxSwitch
1 CARD8 opcode
1 3 lbx opcode
2 2 request length
4 CARD32 client
The description of this request is on See LbxSwitch.
LbxNewClient
1 CARD8 opcode
1 4 lbx opcode
2 L request length
4 CARD32 client
The remaining bytes of the request are the core connection setup.
=>
If the connection is rejected, a core connection reply is sent. Otherwise the
reply has the form:
1 BOOL success
1 change type
0 no-deltas
1 normal-client-deltas
2 app-group-deltas
2 CARD16 major version
2 CARD16 minor version
2 1 + a length
4 CARD32 tag id
The remaining bytes depend on the value of change-type and length.
For no-deltas, the remaining bytes are the "additional data" bytes of the core reply. (a = length of core reply, in 4 byte quantities).
For normal-client-deltas, the additional bytes have the form, with a length (a = 1 +b):
4 CARD32 resource id base 4b LISTofSETofEVENT root input masks
For app-group-deltas, the additional bytes have the following form, with a length of (a = 1 + 4c):
4 CARD32 resource id base 4 WINDOW root id base 4 VISUALID visual 4 COLORMAP colormap 4 CARD32 white pixel 4 CARD32 black pixel 4c LISTofSETofEVENT root input masks
The description of this request is on See LbxNewClient.
LbxCloseClient
1 CARD8 opcode
1 5 lbx opcode
2 2 request length
4 CARD32 client
The description of this request is on See LbxCloseClient.
LbxModifySequence
1 CARD8 opcode
1 6 lbx opcode
2 2 request length
4 CARD32 offset to sequence number
The description of this request is on See LbxModifySequence.
LbxAllowMotion
1 CARD8 opcode
1 7 lbx opcode
2 2 request length
4 CARD32 number of MotionNotify events
The description of this request is on See LbxAllowMotion.
LbxIncrementPixel
1 CARD8 opcode
1 8 lbx opcode
2 3 request length
4 COLORMAP colormap
4 CARD32 pixel
The description of this request is on See LbxIncrementPixel.
LbxDelta
1 CARD8 opcode
1 9 lbx opcode
2 1+(2n +p+2)/4 request length
1 n count of diffs
1 CARD8 cache index
2n LISTofDIFFITEM offsets and differences
p unused, p=pad(2n + 2)
The description of this request is on See LbxDelta.
LbxGetModifierMapping
1 CARD8 opcode
1 10 lbx opcode
2 1 request length
=>
1 1 Reply
1 n keycodes-per-modifier
2 CARD16 sequence number
4 2n reply length
4 CARD32 tag
20 unused
8n LISTofKEYCODE keycodes
The description of this request is on See LbxGetModifierMapping.
LbxInvalidateTag
1 CARD8 opcode
1 12 lbx opcode
2 2 request length
4 CARD32 tag
The description of this request is on See LbxInvalidateTag.
LbxPolyPoint
1 CARD8 opcode
1 13 lbx opcode
2 1+(m+n+p)/4 request length
m LBXGCANDDRAWABLE cache entries
n LISTofLBXPOINT points (n is data-dependent)
p 0 unused, p=Lpad
The description of this request is on See LbxPolyPoint.
LbxPolyLine
1 CARD8 opcode
1 14 lbx opcode
2 1+(m+n+p)/4 request length
m LBXGCANDDRAWABLE cache entries
n LISTofLBXPOINT points (n is data-dependent)
p 0 unused, p=Lpad
The description of this request is on See LbxPolyLine.
LbxPolySegment
1 CARD8 opcode
1 15 lbx opcode
2 1+(m+n+p)/4 request length
m LBXGCANDDRAWABLE cache entries
n LISTofLBXSEGMENT segments (n is data-dependent)
p 0 unused, p=Lpad
The description of this request is on See LbxPolySegment.
LbxPolyRectangle
1 CARD8 opcode
1 16 lbx opcode
2 1+(m+n+p)/4 request length
m LBXGCANDDRAWABLE cache entries
n LISTofLBXRECTANGLE rectangles (n is data-dependent)
p 0 unused, p=pad(m+n)
The description of this request is on See LbxPolyRectangle.
LbxPolyArc
1 CARD8 opcode
1 17 lbx opcode
2 1+(m+n+p)/4 request length
m LBXGCANDDRAWABLE cache entries
n LISTofLBXARCS arcs (n is data-dependent)
p 0 unused, p=Lpad
The description of this request is on See LbxPolyArc.
LbxFillPoly
1 CARD8 opcode
1 18 lbx opcode
2 1+(3+m+n+p)/4 request length
1 LBXGCANDDRAWENT cache entries
1 shape
0 Complex
1 Nonconvex
2 Convex
1 p pad byte count
m LBXGCANDDRAWUPDATE optional gc and drawable
n LISTofLBXPOINT points (n is data-dependent)
p 0 unused, p=Lpad
The description of this request is on See LbxFillPoly.
LbxPolyFillRectangle
1 CARD8 opcode
1 19 lbx opcode
2 1+(m+n+p)/4 request length
m LBXGCANDDRAWABLE cache entries
n LISTofLBXRECTANGLE rectangles (n is data-dependent)
p 0 unused, p=Lpad
The description of this request is on See LbxPolyFillRectangle.
LbxPolyFillArc
1 CARD8 opcode
1 20 lbx opcode
2 1+(m+n+p)/4 request length
m LBXGCANDDRAWABLE cache entries
n LISTofLBXARC arcs (n is data-dependent)
p 0 unused, p=Lpad
The description of this request is on See LbxPolyFillArc.
LbxGetKeyboardMapping
1 CARD8 opcode
1 21 lbx opcode
2 2 request length
1 KEYCODE first keycode
1 m count
2 unused
=>
1 1 Reply
1 n keysyms-per-keycode
2 CARD16 sequence number
4 nm reply length (m = count field from the request)
4 CARD32 tag
20 unused
4nm LISTofKEYSYM keysyms
The description of this request is on See LbxGetKeyboardMapping.
LbxQueryFont 1 CARD8 opcode 1 22 lbx opcode 2 2 request length 4 FONTABLE font => 1 1 Reply 1 BOOL compression 2 CARD16 sequence number 4 L reply length 4 CARD32 tag 20 unused All of the following is conditional: 12 CHARINFO min-bounds 4 unused 12 CHARINFO max-bounds 4 unused 2 CARD16 min-char-or-byte2 2 CARD16 max-char-or-byte2 2 CARD16 default-char 2 n number of FONTPROPs in properties 1 draw-direction 0 LeftToRight 1 RightToLeft 1 CARD8 min-byte1 1 CARD8 max-byte1 1 BOOL all-chars-exist 2 INT16 font-ascent 2 INT16 font-descent 4 m number of elements in char-infos 8n LISTofFONTPROP properties and either 12m LISTofCHARINFO char-infos or m LISTofLBXCHARINFO char-infos
The description of this request is on See LbxQueryFont.
LbxChangeProperty
1 CARD8 opcode
1 23 lbx opcode
2 6 request length
4 WINDOW window
4 ATOM property
4 ATOM type
1 CARD8 format
1 mode
0 Replace
1 Preprend
2 Append
2 unused
4 CARD32 length of data in format units
(= n for format = 8)
(= n/2 for format = 16)
(= n/4 for format = 32)
=>
1 1 Reply
1 unused
2 CARD16 sequence number
4 0 reply length
4 CARD32 tag
20 unused
The description of this request is on See LbxChangeProperty.
LbxGetProperty
1 CARD8 opcode
1 24 lbx opcode
2 7 request length
4 WINDOW window
4 ATOM property
4 ATOM type
0 AnyPropertyType
1 CARD8 delete
3 unused
4 CARD32 long-offset
4 CARD32 long-length
=>
1 1 Reply
1 CARD8 format
2 CARD16 sequence number
4 CARD32 reply length
4 ATOM type
0 None
4 CARD32 bytes-after
4 CARD32 length of value in format units
(= 0 for format = 0)
(= n for format = 8)
(= n/2 for format = 16)
(= n/4 for format = 32)
4 CARD32 tag
8 unused
The description of this request is on See LbxGetProperty.
LbxTagData
1 CARD8 opcode
1 25 lbx opcode
2 3+(n+p)/4 request length
4 CARD32 tag
4 CARD32 length of data in bytes
n LISTofBYTE data
p unused, p=pad(n)
The description of this request is on See LbxTagData.
LbxCopyArea
1 CARD8 opcode
1 26 lbx opcode
2 L request length
1 CARD8 source drawable cache entry
1 LBXGCANDDRAWENT cache entries
4 or 0 DRAWABLE optional source drawable
b LBXGCANDDRAWUPDATE optional gc and dest drawable
c LBXPINT16 src-x
d LBXPINT16 src-y
e LBXPINT16 dst-x
f LBXPINT16 dst-y
g LBXCARD16 width
h LBXCARD16 height
p unused, p=Lpad
The description of this request is on See LbxCopyArea.
LbxCopyPlane
1 CARD8 opcode
1 27 lbx opcode
2 L request length
4 CARD32 bit plane
1 CARD8 source drawable cache entry
1 LBXGCANDDRAWENT cache entries
4 or 0 DRAWABLE optional source drawable
b LBXGCANDDRAWUPDATE optional gc and dest drawable
c LBXPINT16 src-x
d LBXPINT16 src-y
e LBXPINT16 dst-x
f LBXPINT16 dst-y
g LBXCARD16 width
h LBXCARD16 height
p unused, p=Lpad
The description of this request is on See LbxCopyPlane.
LbxPolyText8
1 CARD8 opcode
1 28 lbx opcode
2 L request length
1 LBXGCANDDRAWENT cache entries
a LBXGCANDDRAWUPDATE optional gc and drawable
b LBXPINT16 x
c LBXPINT16 y
n LISTofTEXTITEM8 items
p unused, p=Lpad
The description of this request is on See LbxPolyText8.
LbxPolyText16
1 CARD8 opcode
1 29 lbx opcode
2 L request length
1 LBXGCANDDRAWENT cache entries
a LBXGCANDDRAWUPDATE optional gc and drawable
b LBXPINT16 x
c LBXPINT16 y
2n LISTofTEXTITEM16 items
p unused, p=Lpad
The description of this request is on See LbxPolyText16.
LbxImageText8
1 CARD8 opcode
1 30 lbx opcode
2 L request length
1 LBXGCANDDRAWENT cache entries
a LBXGCANDDRAWUPDATE optional gc and drawable
b LBXPINT16 x
c LBXPINT16 y
n STRING8 string
p unused, p=Lpad
The description of this request is on See LbxImageText8.
LbxImageText16
1 CARD8 opcode
1 31 lbx opcode
2 L request length
1 LBXGCANDDRAWENT cache entries
a LBXGCANDDRAWUPDATE optional gc and drawable
b LBXPINT16 x
c LBXPINT16 y
2n STRING16 string
p unused, p=Lpad
The description of this request is on See LbxImageText16.
LbxQueryExtension
1 CARD8 opcode
1 32 lbx opcode
2 2+(n+p)/4 request length
4 n length of extension name
n STRING8 extension name
p unused, p=pad(n)
=>
1 1 Reply
1 n number of requests in the extension
2 CARD16 sequence number
4 0 or 2*(m + p) reply length, m = (n+7)/8
1 BOOL present
1 CARD8 major opcode
1 CARD8 first event
1 CARD8 first error
20 unused
m LISTofMASK optional reply-mask
p unused, p=pad(m)
m LISTofMASK optional event-mask
p unused, p=pad(m)
The description of this request is on See LbxQueryExtension.
LbxPutImage
1 CARD8 opcode
1 33 lbx opcode
2 L request length
1 CARD8 compression method
1 LBXGCANDDRAWENT cache entries
a PIPACKED bit-packed
b LBXGCANDDRAWUPDATE optional gc and drawable
c LBXCARD16 width
d LBXCARD16 height
e LBXPINT16 x
f LBXPINT16 y
n LISTofBYTE compressed image data
p unused, p=Lpad
If there is no left padding and the depth is less than or equal to nine, PIPPACKED is encoded as follows:
PIPACKED
1 #x80 | (format << 5) | ((depth -1) << 2)
Otherwise PIPACKED is defined as:
PIPACKED
1 (depth -1) << 2)
1 (format << 5) | left-pad
The description of this request is on See LbxPutImage.
LbxGetImage
1 CARD8 opcode
1 34 lbx opcode
2 6 request length
4 DRAWABLE drawable
2 INT16 x
2 INT16 y
2 CARD16 width
2 CARD16 height
4 CARD32 plane mask
1 CARD8 format
3 unused
=>
1 1 Reply
1 CARD8 depth
2 CARD16 sequence number
4 (n+p)/4 reply length
4 (m+p)/4 X reply length; if uncompressed, m=n
4 VISUALID visual
0 None
1 compression method
15 unused
n LISTofBYTE data
p unused, p=pad(n)
The description of this request is on See LbxGetImage.
LbxBeginLargeRequest
1 CARD8 opcode
1 35 lbx opcode
2 2 request length
4 CARD32 large request length
The description of this request is on See LbxBeginLargeRequest.
LbxLargeRequestData
1 CARD8 opcode
1 36 lbx opcode
2 1+n request length
4n LISTofBYTE data
The description of this request is on See LbxLargeRequestData.
LbxEndLargeRequest
1 CARD8 opcode
1 37 lbx opcode
2 1 request length
The description of this request is on See LbxEndLargeRequest.
LbxInternAtoms
1 CARD8 opcode
1 38 lbx opcode
2 1+(2+m+n+p)/4 request length
2 m num-atoms
n LISTofLONGSTR names
p pad p=Lpad
=>
1 1 Reply
1 unused
2 CARD16 sequence number
4 a reply length, a = MAX(m - 6, 0)
4*m LISTofATOM atoms
p pad p = MAX(0, 4*(6 - m))
LONGSTR
2 c string length
c STRING8 string
The description of this request is on See LbxInternAtoms.
LbxGetWinAttrAndGeom
1 CARD8 opcode
1 39 lbx opcode
2 2 request length
4 CARD32 window id
=>
1 1 Reply
1 backing store
0 NotUseful
1 WhenMapped
2 Always
2 CARD16 sequence number
4 7 reply length
4 VISUALID visual id
2 class
1 InputOutput
2 InputOnly
1 BITGRAVITY bit gravity
1 WINGRAVITY window gravity
4 CARD32 backing bit planes
4 CARD32 backing pixel
1 BOOL save under
1 BOOL map installed
1 map state
0 Unmapped
1 Unviewable
2 Viewable
1 BOOL override
4 COLORMAP colormap
4 SETofEVENT all events mask
4 SETofEVENT your event mask
2 SETofDEVICEEVENT do not propagate mask
2 unused
4 WINDOW root
2 INT16 x
2 INT16 y
2 CARD16 width
2 CARD16 height
2 CARD16 border width
1 CARD8 depth
1 unused
The description of this request is on See LbxGetWinAttrAndGeom.
LbxGrabCmap
1 CARD8 opcode
1 40 lbx opcode
2 2 request length
4 COLORMAP colormap
=>
If smart-grab is true, the reply is as follows:
1 1 Reply 1 #x80 flags 2 CARD16 sequence number 4 0 reply length 24 unused If smart-grab is false, the reply is as follows: 1 1 Reply 1 flags (set of) #x40 auto-release #x20 three-channels #x10 two-byte-pixels lower four bits specifies bits-per-pixel 2 CARD16 sequence number 4 L reply length m CHAN or CHANNELS cells (CHAN if !three-channels) p 0 pad(m) CHANNELS a CHAN red 1 5 next channel b CHAN green 1 5 next channel c CHAN blue 1 0 list end CHAN d LISTofLBXPIXEL LBXPIXEL e PIXELPRIVATE or PIXELPRIVATERANGE or PIXELALLOC or PIXELALLOCRANGE PIXELPRIVATE 1 1 pixel-private f PIXEL pixel PIXEL f CARD8 or CARD16 (CARD8 if !two-byte-pixels) PIXELPRIVATERANGE 1 2 pixel-private-range f PIXEL fist-pixel f PIXEL last-pixel PIXELALLOC 1 3 pixel-private f PIXEL pixel g COLORSINGLE or COLORTRIPLE color (COLORSINGLE if three-channels) COLORSINGLE h CARD8 or CARD16 value (CARD8 if bits-per-rgb =< 7) COLORTRIPLE h COLORSINGLE red h COLORSINGLE green h COLORSINGLE blue PIXELALLOCRANGE 1 4 pixel-private f PIXEL first-pixel f PIXEL last-pixel j LISTofCOLORSINGLE or color (COLORSINGLE if three-channels) LISTofCOLORTRIPLE
The description of this request is on See LbxGrabCmap.
LbxReleaseCmap
1 CARD8 opcode
1 41 lbx opcode
2 2 request length
4 COLORMAP cmap
The description of this request is on See LbxReleaseCmap.
LbxAllocColor
1 CARD8 opcode
1 42 lbx opcode
2 5 request length
4 COLORMAP colormap
4 CARD32 pixel
2 CARD16 red
2 CARD16 green
2 CARD16 blue
2 unused
The description of this request is on See LbxAllocColor.
LbxSync
1 CARD8 opcode
1 43 lbx opcode
2 1 request length
=>
1 1 Reply
1 n unused
2 CARD16 sequence number
4 0 reply length
24 unused
The description of this request is on See LbxSync.
LbxSwitchEvent
1 base + 0 code
1 0 lbx type
2 CARD16 sequence number
4 CARD32 client
24 unused
The description of this event is on See LbxSwitchEvent.
LbxCloseEvent
1 base + 0 code
1 1 lbx type
2 CARD16 sequence number
4 CARD32 client
24 unused
The description of this event is on See LbxCloseEvent.
LbxInvalidateTagEvent 1 base + 0 code 1 3 lbx type 2 CARD16 sequence number 4 CARD32 tag 4 tag-type 1 LbxTagTypeModmap 2 LbxTagTypeKeymap 3 LbxTagTypeProperty 4 LbxTagTypeFont 5 LbxTagTypeConnInfo 20 unused
The description of this event is on See LbxInvalidateTagEvent.
LbxSendTagDataEvent 1 base + 0 code 1 4 lbx type 2 CARD16 sequence number 4 CARD32 tag 4 tag-type 3 LbxTagTypeProperty 20 unused
The description of this event is on See LbxSendTagDataEvent.
LbxListenToOne 1 base + 0 code 1 5 lbx type 2 CARD16 sequence number 4 CARD32 client #xFFFFFFFF a client not managed by the proxy 24 unused
The description of this event is on See LbxListenToOne.
LbxListenToAll
1 base + 0 code
1 6 lbx type
2 CARD16 sequence number
28 unused
The description of this event is on See LbxListenToAll.
LbxQuickMotionDeltaEvent
1 base + 1 code
1 CARD8 delta-time
1 INT8 delta-x
1 INT8 delta-y
This event is not padded to 32 bytes.
The description of this event is on See LbxQuickMotionDeltaEvent.
LbxMotionDeltaEvent
1 base + 0 code
1 7 lbx type
1 INT8 delta-x
1 INT8 delta-y
2 CARD16 delta-time
2 CARD16 delta-sequence
This event is not padded to 32 bytes.
The description of this event is on See LbxMotionDeltaEvent.
LbxReleaseCmapEvent
1 base + 0 code
1 8 lbx type
2 CARD16 sequence number
4 COLORMAP colormap
24 unused
The description of this event is on See LbxReleaseCmapEvent.
LbxFreeCellsEvent
1 base + 0 code
1 9 lbx type
2 CARD16 sequence number
4 COLORMAP colormap
4 PIXEL pixel start
4 PIXEL pixel end
16 unused
The description of this event is on See LbxFreeCellsEvent.
The X protocol requires all X events to be 32 bytes. The LBX server reduces the number of bytes sent between the server and the proxy for some X events by not appending unused pad bytes to the event data. The offsets of X event data are unchanged. The proxy will pad the events to 32 bytes before passing them on to the client.
LBX reencodes X event representations into the following sizes, if squishing is enabled:
KeyOrButton 32 EnterOrLeave 32 Keymap 32 Expose 20 GraphicsExposure 24 NoExposure 12 VisibilityNotify 12 CreateNotify 24 DestroyNotify 12 UnmapNotify 16 MapNotify 16 MapRequest 12 Reparent 24 ConfigureNotify 28 ConfigureRequest 28 GravityNotify 16 ResizeRequest 12 Circulate 20 Property Notify 20 SelectionClear 20 SelectionRequest 28 SelectionNotify 24 Colormap Notify 16 MappingNotify 8 ClientMessage 32 Unknown 32
LbxDeltaResponse
1 event_base + 0 event code
1 2 lbx type
2 1+(2+2n+p)/4 request length
1 n count of diffs
1 CARD8 cache index
2n LISTofDIFFITEM offsets and differences
p unused, p=pad(2n)
The description of this response is on See LbxDeltaResponse.