IABSD.fr/xenocara/doc/xorg-docs/specs/FSProtocol

Branch : - branch - master - tag -

• Show log

  Commit

• Author : matthieu
  Date : 2006-11-29 16:49:19
  Hash : 80a99e45
  Message : Import specs from xorg-docs 1.3

• protocol.ms

• .\" $Xorg: protocol.ms,v 1.3 2000/08/17 19:42:07 cpqbld Exp $
  .\" $XdotOrg: xc/doc/specs/FSProtocol/protocol.ms,v 1.2 2004/04/23 18:42:15 eich Exp $
  .\" Use tbl, -ms, and macros.t
  .EH ''''
  .OH ''''
  .EF ''''
  .OF ''''
  .ps 11
  .nr PS 11
  \&
  .sp 8
  .ce 50
  \s+3\fBThe X Font Service Protocol\fP\s-3
  .sp
  \fBVersion 2.0\fP
  \fBX Window System Standard\fR
  .sp
  \fBX Version 11, Release 6.8\fR
  .sp 6
  Jim Fulton
  Network Computing Devices, Inc.
  .sp 6
  Revised May 2, 1994
  .ce 0
  .bp
  .br
  \&
  .sp 15
  .ps 9
  .nr PS 9
  .LP
  Copyright \(co 1991 Network Computing Devices, Inc.
  .LP
  Permission to use, copy, modify, distribute, and sell this
  documentation for any purpose is hereby granted without fee,
  provided that the above copyright notice and this permission
  notice appear in all copies.  Network Computing Devices, Inc.
  makes no representations about the suitability for any purpose
  of the information in this document.  This documentation is
  provided ``as is'' without express or implied warranty.
  .LP
  Copyright \(co 1994 X Consortium
  .LP
  Permission is hereby granted, free of charge, to any person obtaining a copy
  of this software and associated documentation files (the ``Software''), to deal
  in the Software without restriction, including without limitation the rights
  to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
  copies of the Software, and to permit persons to whom the Software is
  furnished to do so, subject to the following conditions:
  .LP
  The above copyright notice and this permission notice shall be included in
  all copies or substantial portions of the Software.
  .LP
  THE SOFTWARE IS PROVIDED ``AS IS'', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
  X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
  AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
  CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
  .LP
  Except as contained in this notice, the name of the X Consortium shall not be
  used in advertising or otherwise to promote the sale, use or other dealings
  in this Software without prior written authorization from the X Consortium.
  .ps 11
  .nr PS 11
  .bp 1
  .EH '\fBX Font Service Protocol\fP''\fBX11, Release 6.8\fP'
  .OH '\fBX Font Service Protocol\fP''\fBX11, Release 6.8\fP'
  .EF ''\fB\\\\n(PN\fP''
  .OF ''\fB\\\\n(PN\fP''
  .NH 1
  Introduction
  .XS
  \*(SN Introduction
  .XE
  .LP
  The management of fonts in large, heterogeneous environments is one of the
  hardest aspects of using the X Window System.*
  .FS
  * \fIX Window System\fP is a trademark of The Open Group.
  .FE
  Multiple formats and the lack of
  a consistent mechanism for exporting font data to all displays on a network
  prevent the transparent use of applications across different display platforms.
  The X Font Service protocol is designed to address this and other issues, with
  specific emphasis on the needs of the core X protocol.  Upward-compatible
  changes (typically in the form of new requests) are expected as consensus is
  reached on new features (particularly outline font support).
  .LP
  Currently, most X displays use network file protocols such as NFS and TFTP to
  obtain raw font data which they parse directly.  Since a common binary format
  for this data doesn't exist, displays must be able to interpret a variety of
  formats if they are to be used with different application hosts.  This leads to
  wasted code and data space and a loss of interoperability as displays are used
  in unforeseen environments.
  .LP
  By moving the interpretation of font data out of the X server into a separate
  service on the network, these problems can be greatly reduced.  In addition,
  new technologies, such as dynamically generating bitmaps from scaled or outline
  fonts, can be provided to all displays transparently.  For horizontal text,
  caching techniques and increased processor power can potentially make
  rasterization more efficient on large, centralized hosts than on individual
  displays.
  .LP
  Each font server provides sets of fonts that may be listed and queried for
  header, property, glyph extents, and bitmap information.  This data is
  transmitted over the network using a binary format (with variations to support
  different bit- and byte-orders) designed to minimize the amount of processing
  required by the display.  Since the font server, rather than the display, is
  responsible for parsing the raw font data, new formats can be used by all
  displays by modifying a single font server.
  .LP
  From the user's point of view, font servers are simply a new type of name in
  the X font path.  Network name services allow descriptive names (such as
  DEPARTMENT-FONTS or APPLICATION-FONTS) to be translated into proper network
  addresses.  X displays send requests to and read replies from the font server
  rather than reading directly from files.  Since the X Font Service protocol is
  designed to allow subsets of the font data to be requested, displays may easily
  implement a variety of strategies for fine-grained demand-loading of glyphs.
  .NH 1
  Architectural Model
  .XS
  \*(SN Architectural Model
  .XE
  .LP
  In this document, the words ``client'' and ``server'' refer to the consumer and
  provider of a font, respectively, unless otherwise indicated.  It is important
  to note that in this context, the X server is also a font client.
  .LP
  The X Font Service protocol does not require any changes to the core X protocol
  or to any applications.  To the user, font servers are simply additional types
  of font path elements.  As such, X servers may connect to multiple font
  servers, as shown in Figure 2.1.  Although the font protocol is geared towards
  the X Window System, it may be also used by other consumers of font data (such
  as printer drivers).
  .DS
  .ft C
   +--------+              +---------------+
   |   X1   |--------------|               |
   | Server |              |  Font Server  |
   +--------+      +-------|      1        |
                   |       +---------------+
   +--------+      |
   |   X2   |------+       +---------------+
   | Server |--------------|               |
   +--------+              |  Font Server  |
                   +-------|      2        |
  +---------+      |       +---------------+
  |  other  |      |
  | clients |------+
  +---------+
  .ft
  .DE 
  .ce
  Figure \*(SN1:  Connecting to a Font Server
  .LP 
  Clients communicate with the font server using the request/reply/event model
  over any mutually-understood virtual stream connection (such as TCP/IP, DECnet,*
  .FS
  *DECnet is a trademark of Digital Equipment Corporation.
  .FE
  etc.).  Font servers are responsible for providing data in the bit and byte
  orders requested by the client.  The set of requests and events provided in the
  first version of the X Font Service protocol is limited to supporting the needs
  of the bitmap-oriented core X Window System protocol.  Extensions are expected
  as new needs evolve.
  .LP
  A font server reads raw font data from a variety of sources (possibly
  including other font servers) and converts it into a common format that is
  transmitted to the client using the protocol described in Section 4.  New font
  formats are handled by adding new converters to a font server, as shown in
  Figure 2.2.
  .DS
  .ft C
                  +------------+
                  |   client   |
                  | (X server) |
                  +------------+
                        |
                     network  
                        |
  +--------------------------------------------+
  |                                            |
  |                font server 1               |
  |                                            |
  +-----+-----+-----+-----+----+-----+---+-----+
  | bdf | snf | pcf | atm | f3 | dwf | | | ... |
  +-----+-----+-----+-----+----+-----+-|-+-----+
                                       |
                                    network
                                       |
                                 +----------+
                                 |   font   |
                                 | server 2 |
                                 +----------+
  .ft
  .DE
  .ce
  Figure \*(SN2:  Where Font Data Comes From
  .LP
  The server may choose to provide named sets of fonts called ``catalogues.''
  Clients may specify which of the sets should be used in listing or opening a
  font.
  .LP
  An event mechanism similar to that used in the X protocol is provided for
  asynchronous notification of clients by the server.
  .LP
  Clients may provide authorization data for the server to be used in determining
  (according to the server's licensing policy) whether or not access should be
  granted to particular fonts.  This is particularly useful for clients whose
  authorization changes over time (such as an X server that can verify the
  identity of the user).
  .LP
  Implementations that wish to provide additional requests or events may use the
  extension mechanism.  Adding to the core font service protocol (with the
  accompanying change in the major or minor version numbers) is reserved to the X
  Consortium.
  .NH 1
  Font Server Naming
  .XS
  \*(SN Font Server Naming
  .XE
  .LP
  Font clients that expose font server names to the user are encouraged to
  provide ways of naming font servers symbolically (e.g. DEPARTMENT-FONTS).
  However, for environments that lack appropriate name services
  transport-specific names are necessary.  Since these names do occur in the
  protocol, clients and servers should support at least the applicable formats
  described below.  Formats for additional transports may be registered with the
  X Consortium.
  .NH 2
  TCP/IP Names
  .XS
  \*(SN TCP/IP Names
  .XE
  .LP
  The following syntax should be used for TCP/IP names:
  .DS
      <TCP name>  ::=  "tcp/" <hostname>":" <ipportnumber> ["/" <cataloguelist>]
  .DE
  where <hostname> is either symbolic (such as expo.lcs.mit.edu) or numeric
  decimal (such as 18.30.0.212).  The <ipportnumber> is the port on which the
  font server is listening for connections.  The <cataloguelist> string at
  the end is optional and specifies a plus-separated list of catalogues
  that may be requested.  For example:
  .DS
  	tcp/expo.lcs.mit.edu:8012/available+special
  	tcp/18.30.0.212:7890
  .DE
  .NH 2
  DECnet Names
  .XS
  \*(SN DECnet Names
  .XE
  .LP
  The following syntax should be used for DECnet names:
  .DS
      <DECnet name>  ::=  "decnet/" <nodename> "::font$" <objname>
  			["/" <cataloguelist>]
  .DE
  where <nodename> is either symbolic (such as SRVNOD) or the numeric decimal
  form of the DECnet address (such as 44.70).  The <objname> is normal,
  case-insensitive DECnet object name.  The <cataloguelist> string at the end is
  optional and specifies a plus-separated list of catalogues that may be
  requested.  For example:
  .DS
  	DECNET/SRVNOD::FONT$DEFAULT/AVAILABLE
  	decnet/44.70::font$other
  .DE
  .NH 1
  Protocol
  .XS
  \*(SN Protocol
  .XE
  .LP
  The protocol described below uses the request/reply/error model and is
  specified using the same conventions outlined in Section 2 of the core X Window
  System protocol [1]:
  .IP \(bu 5
  Data type names are spelled in upper case with no word separators, 
  as in:  FONTID
  .IP \(bu 5
  Alternate values are capitalized with no word separators, 
  as in:  MaxWidth
  .IP \(bu 5
  Structure element declarations are in lower case with hyphens
  as word separators, as in:  byte-order-msb
  .NT
  Structure element names are referred to in
  upper case (e.g. BYTE-ORDER-MSB) when used in
  descriptions to set them off from the surrounding
  text.  When this document is typeset they will be
  printed in lower case in a distinct font.
  .NE
  .IP \(bu 5
  Type declarations have the form ``name: type'', 
  as in:  CARD8: 8-bit byte
  .IP \(bu 5
  Comma-separated lists of alternate values are enclosed in
  braces, as in:  { Min, MaxWidth, Max }
  .IP \(bu 5
  Comma-separated lists of structure elements are enclosed in
  brackets, as in:  [ byte1: CARD8, byte2: CARD8 ]
  .LP
  A type with a prefix ``LISTof'' represents a counted list of
  elements of that type, as in:  LISTofCARD8
  .NH 2
  Data Types
  .XS
  \*(SN Data Types
  .XE
  .LP
  The following data types are used in the core X Font Server protocol:
  .LP
  ACCESSCONTEXT:	ID
  .IP
  This value is specified in the CreateAC request as the identifier
  to be used when referring to a particular AccessContext resource
  within the server.  These resources are used by the server to
  store client-specified authorization information.  This
  information may be used by the server to determine whether or not
  the client should be granted access to particular font data.
  .sp
  In order to preserve the integrity of font licensing being performed by
  the font server, care must be taken by a client to properly represent the
  identity of the true user of the font.  Some font clients will in fact
  be servers (for example, X servers) requesting fonts for their own clients.
  Other font clients may be doing work on behalf of a number of different
  users over time (for example, print spoolers).
  .sp
  .PN AccessContexts 
  must be created (with 
  .PN CreateAC ) 
  and switched among (with
  .PN SetAuthorization )
  to represent all of these ``font users'' properly.
  .LP
  ALTERNATESERVER:  [ name:  STRING8, 
  .br
                                             subset:  BOOL ]
  .IP
  This structure specifies the NAME, encoded in ISO 8859-1 according
  to Section 3, of another font server that may be useful as a
  substitute for this font server.  The SUBSET field indicates
  whether or not the alternate server is likely to only contain a
  subset of the fonts available from this font server.  This
  information is returned during the initial connection setup and
  may be used by the client to find a backup server in case of
  failure.
  .LP
  AUTH:  [ name:  STRING8, 
  .br
                  data:  LISTofBYTE ]
  .IP
  This structure specifies the name of an authorization protocol and
  initial data for that protocol.  It is used in the authorization
  negotiation in the initial connection setup and in the CreateAC
  request.
  .ne 5
  .LP
  BITMAPFORMAT:  
  .IP
  CARD32 containing the following fields defined by the
  sets of values given further below 
  .RS
  .DS
  .TA .75i .75i .75i .75i
  [
   	byte-order-msb:		1 bit, 
  	bit-order-msb:		1 bit,
  	image-rect:			2 bits { Min,
  					 MaxWidth, 
  					 Max },
  	zero-pad:			4 bits,
  	scanline-pad:		2 bits { ScanlinePad8, 
  					 ScanlinePad16, 
  					 ScanlinePad32,
  					 ScanlinePad64 },
  	zero-pad:			2 bits,
  	scanline-unit:		2 bits { ScanlineUnit8, 
  					 ScanlineUnit16,
  					 ScanlineUnit32,
  					 ScanlineUnit64 },
  	zero-pad:			2 bits,
  	zero-pad:			16 bits,
  ]
  .DE
  .RE
  This structure specifies how glyph images are transmitted in
  response to 
  .PN QueryXBitmaps8 
  and 
  .PN QueryXBitmaps16 
  requests.
  .sp
  If the BYTE-ORDER-MSB bit (1 << 0) is set, the Most Significant
  Byte of each scanline unit is returned first.  Otherwise, the
  Least Significant Byte is returned first.
  .sp
  If the BIT-ORDER-MSB bit (1 << 1) is set, the left-most bit in
  each glyph scanline unit is stored in the Most Significant Bit of
  each transmitted scanline unit.  Otherwise, the left-most bit is
  stored in the Least Significant Bit.
  .sp
  The IMAGE-RECT field specifies a rectangle of pixels within the
  glyph image.  It contains one of the following alternate values:
  .RS
  .DS
  
  	ImageRectMin		(0 << 2)
  	ImageRectMaxWidth	(1 << 2)
  	ImageRectMax		(2 << 2)
  .DE
  .RE
  For a glyph with extents XCHARINFO in a font with header information
  XFONTINFO, the IMAGE-RECT values have the following meanings:
  .RS
  .in +5n
  .IP 
  .PN ImageRectMin -
  This refers to the minimal bounding rectangle 
  surrounding the inked pixels in the glyph.  This is the 
  most compact representation.  The edges of the rectangle
  are:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  	    left:	XCHARINFO.LBEARING
  	    right:	XCHARINFO.RBEARING
  	    top:	XCHARINFO.ASCENT
  	    bottom:	XCHARINFO.DESCENT
  .DE
  .RE
  .IP 
  .PN ImageRectMaxWidth - 
  This refers to the scanlines between the 
  glyph's ascent and descent, padded on the left to the minimum 
  left-bearing (or 0, whichever is less) and on the right to 
  the maximum right-bearing (or logical-width, whichever is 
  greater).  All glyph images share a common horizontal
  origin.  This is a combination of ImageRectMax in the
  horizontal direction and ImageRectMin in the vertical 
  direction.  The edges of the rectangle are:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  left:	min (XFONTINFO.MIN-BOUNDS.LBEARING, 0)
  right:	max (XFONTINFO.MAX-BOUNDS.RBEARING,
  	         XFONTINFO.MAX-BOUNDS.WIDTH)
  top:		XCHARINFO.ASCENT
  bottom:	XCHARINFO.DESCENT
  .DE
  .RE
  .IP
  ImageRectMax - This refers to all scanlines, from the maximum 
  ascent (or the font ascent, whichever is greater) to the 
  maximum descent (or the font descent, whichever is greater),
  padded to the same horizontal extents as MaxWidth.
  All glyph images have the same sized bitmap and share a
  common origin.  This is the least compact representation, 
  but may be the easiest or most efficient (particularly for 
  character cell fonts) for some clients to use.  The edges of 
  the rectangle are:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  left:	min (XFONTINFO.MIN-BOUNDS.LBEARING, 0)
  right:	max (XFONTINFO.MAX-BOUNDS.RBEARING,
  		XFONTINFO.MAX-BOUNDS.WIDTH)
  top:	max (XFONTINFO.FONT-ASCENT, 
  		XFONTINFO.MAX-BOUNDS.ASCENT)
  bottom:	max (XFONTINFO.FONT-DESCENT,
  		XFONTINFO.MAX-BOUNDS.DESCENT)
  .DE
  .RE
  The SCANLINE-PAD field specifies the number of bits (8, 16, 32,
  or 64) to which each glyph scanline is padded before transmitting.
  It contains one of the following alternate values:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  	ScanlinePad8		(0 << 8)
  	ScanlinePad16		(1 << 8)
  	ScanlinePad32		(2 << 8)
  	ScanlinePad64		(3 << 8)
  .DE
  .RE
  The SCANLINE-UNIT field specifies the number of bits (8, 16, 32,
  or 64) that should be treated as a unit for swapping.  This value
  must be less than or equal to the number of bits specified by the
  SCANLINE-PAD.  It contains one of the following alternate values:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  	ScanlineUnit8		(0 << 12)
  	ScanlineUnit16		(1 << 12)
  	ScanlineUnit32		(2 << 12)
  	ScanlineUnit64		(3 << 12)
  .DE
  .RE
  BITMAPFORMATs are byte-swapped as CARD32s.  All unspecified bits
  must be zero.
  .sp
  Use of an invalid BITMAPFORMAT causes a Format error to 
  be returned.
  .in -5n
  .RE
  .LP
  BITMAPFORMATMASK:	CARD32 mask
  .IP
  This is a mask of bits representing the fields in a BITMAPFORMAT:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  	ByteOrderMask		(1 << 0)
  	BitOrderMask		(1 << 1)
  	ImageRectMask		(1 << 2)
  	ScanlinePadMask		(1 << 3)
  	ScanlineUnitMask		(1 << 4)
  .DE
  .RE
  Unspecified bits are required to be zero or else a Format error
  is returned.
  .LP
  BOOL:  CARD8
  .IP
  This is a boolean value containing one of the following alternate
  values:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  
  	False			0
  	True			1
  .DE
  .RE
  .LP
  BYTE:  8-bit value
  .IP
  This is an unsigned byte of data whose encoding 
  is determined by the context in which it is used.
  .sp 12p
  .LP
  CARD8:  8-bit unsigned integer
  .sp 12p
  .LP
  CARD16:  16-bit unsigned integer
  .sp 12p
  .LP
  CARD32:  32-bit unsigned integer
  .IP
  These are unsigned numbers.  The latter two are byte-swapped when
  the server and client have different byte orders.
  .sp 12p
  .LP
  CHAR2B:  [ byte1, byte2:  CARD8 ]
  .IP
  This structure specifies an individual character code within
  either a 2-dimensional matrix (using BYTE1 and BYTE2 as the row
  and column indices, respectively) or a vector (using BYTE1 and
  BYTE2 as most- and least-significant bytes, respectively).  This
  data type is treated as a pair of 8-bit values and is never
  byte-swapped.  Therefore, the client should always transmit BYTE1
  first.
  .sp 12p
  .LP
  EVENTMASK:  CARD32 mask
  .IP
  This is a mask of bits indicating which of an extension's (or the
  core's) maskable events the client would like to receive.  Each
  bit indicates one or more events, and a bit value of one indicates
  interest in a corresponding set of events.  The following bits are
  defined for event masks specified for the core protocol (i.e. an
  EXTENSION-OPCODE of zero in 
  .PN SetEventMask 
  and 
  .PN GetEventMask 
  requests):
  .RS
  .DS
  .TA .75i .75i .75i .75i
  
  	CatalogueListChangeMask		(1 << 0)
  	FontListChangeMask			(1 << 1)
  .DE
  .RE
  If 
  .PN CatalogueListChangeMask 
  is set, client is interested in
  receiving 
  .PN CatalogueListNotify 
  events.  If 
  .PN FontListChangeMask 
  is set, the client is interested in 
  receiving 
  .PN FontListNotify 
  events.
  .sp
  Extensions that provide additional events may define their own
  event masks.  These event masks have their own scope and may use
  the same bit values as the core or other extensions.
  .sp
  All unused bits must be set to zero.  In 
  .PN SetEventMask 
  requests, if
  any bits are set that are not defined for the extension (or core)
  for which this EVENTMASK is intended (according to the EXTENSION-
  OPCODE given in the 
  .PN SetEventMask 
  request), an 
  .PN EventMask 
  error is generated.
  .sp
  This value is swapped as a CARD32.
  .LP
  FONTID:	ID
  .IP
  This is specified by the client in the request 
  .PN OpenBitmapFont 
  as the identifier to be used when referring to a particular open
  font.
  .LP
  ID:  CARD32
  .IP
  This is a 32-bit value in which the top 3 bits must be clear, and
  at least 1 other bit must be set (yielding a range of 1 through
  2^29-1).  It is specified by the client to represent objects in
  the server.  Identifiers are scoped according to their type are
  private to the client; thus, the same identifier may be used for
  both a FONTID and an ACCESSCONTEXT as well as by multiple clients.
  .sp
  An ID of zero is referred to as None.
  .LP
  INT8:  8-bit signed integer
  .LP
  INT16:  16-bit signed integer
  .LP
  INT32:  32-bit signed integer
  .IP
  These are signed numbers.  The latter two are byte-swapped when
  the client and server have different byte orders.
  .LP
  OFFSET32:		[  position:	CARD32,
  .br
  			  length:	CARD32 ]
  .IP
  This structure indicates a position and length within a block of
  data.
  .LP
  PROPINFO:	[ offsets:		LISTofPROPOFFSET,
  .br
  			  data:			LISTofBYTE ]
  .IP
  This structure describes the list of properties provided by a
  font.  Strings for all of the properties names and values are
  stored within the data block and are located using a table of
  offsets and lengths.
  .sp
  This structure is padded to 32-bit alignment.
  .LP
  PROPOFFSET:	[ name:		OFFSET32,
  .br
  			  value:		OFFSET32,
  .br
  			  type:		CARD8,
  .br
  			  zero-pad3:		BYTE, BYTE, BYTE ]
  .IP
  This structure specifies the position, length, and type of 
  of data for a property.
  .sp
  The NAME field specifies the position and length (which must be
  greater than zero) of the property name relative to the beginning
  of the PROPINFO.DATA block for this font.  The interpretation of
  the position and length of the VALUE field is determined by the
  TYPE field, which contains one of the following alternate values:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  	String			0
  	Unsigned		1
  	Signed		2
  .DE
  .RE
  .IP
  which have the following meanings:
  .RS
  .in +5n
  .IP String
  .br
  This property contains a counted string of bytes.  The
  data is stored in the PROPINFO.DATA block beginning at 
  relative byte VALUE.POSITION (beginning with zero), extending
  for VALUE.LENGTH (at least zero) bytes.
  .IP Unsigned
  This property contains a unsigned, 32-bit number stored
  as a CARD32 in VALUE.POSITION (VALUE.LENGTH is zero).
  .IP Signed
  .br
  This property contains a signed, 32-bit number stored as
  an INT32 in VALUE.POSITION (VALUE.LENGTH is zero).
  .in -5n
  .RE
  .sp
  This structure is zero-padded to 32-bit alignment.
  .LP
  RANGE:	[ min-char, max-char:	CHAR2B ]
  .IP
  This structure specifies a range of character codes.  A single
  character is represented by MIN-CHAR equals MAX-CHAR.  If the
  linear interpretation of MAX-CHAR is less than that of MIN-CHAR,
  or if MIN-CHAR is less than the font's
  XFONTINFO.CHAR-RANGE.MIN-CHAR, or if MAX-CHAR is greater than the
  font's XFONTINFO.CHAR-RANGE.MAX-CHAR, the range is invalid.
  .LP
  RESOLUTION:	[ x-resolution:		CARD16,
  .br
  			  y-resolution:		CARD16,
  .br
  			  decipoint-size:		CARD16 ]
  .IP
  This structure specifies resolution and point size to be used in
  resolving partially-specified scaled font names.  The X-RESOLUTION
  and Y-RESOLUTION are measured in pixels-per-inch and must be
  greater than zero.  The DECIPOINT-SIZE is the preferred font
  size, measured in tenths of a point, and must be greater than zero.
  .LP
  STRING8:		LISTofCARD8
  .IP
  This is a counted list of 1-byte character codes, typically
  encoded in ISO 8859-1.  A character code ``c'' is equivalent to a
  CHAR2B structure whose BYTE1 is zero and whose BYTE2 is ``c''.
  .LP
  TIMESTAMP:	CARD32
  .IP
  This is the number of milliseconds that have passed since a server-
  dependent origin.  It is provided in errors and events and is 
  permitted to wrap.
  .LP
  XCHARINFO:	[ lbearing, rbearing:	INT16,
  .br
  			  width:			INT16,
  .br
  			  ascent, descent:		INT16,
  .br
  			  attributes:			CARD16 ]
  .IP
  This structure specifies the ink extents and horizontal escapement
  (also known as the set- or logical width) of an individual
  character.  The first five values represent directed distances in
  a coordinate system whose origin is aligned with the lower-left
  edge of the left-most pixel of the glyph baseline (i.e. the
  baseline falls between two pixels as shown in Figure 3-1 of the
  ``Bitmap Distribution Format 2.1'' Consortium standard [2]).
  .sp
  The LBEARING field specifies the directed distance measured to the
  right from the origin to the left edge of the left-most inked
  pixel in the glyph.
  .sp
  The RBEARING field specifies the directed distance (measured to
  the right) from the origin to the right edge of the right-most
  inked pixel in the glyph.
  .sp
  The WIDTH field specifies the directed distance (measured to the
  right) from the origin to the position where the next character
  should appear (called the ``escapement point'').  This distance
  includes any whitespace used for intercharacter padding and is
  also referred to as the ``logical width'' or ``horizontal
  escapement.''
  .sp
  The ASCENT field specifies the directed distance (measured up)
  from the baseline to the top edge of the top-most inked pixel
  in the glyph.
  .sp
  The DESCENT field specifies the directed distance (measured
  down) from the baseline to the bottom edge of the bottom-most
  inked pixel.
  .sp
  The ATTRIBUTES field specifies glyph-specific information that
  is passed through the application.  If this value is not being
  used, it should be zero.
  .sp
  The ink bounding box of a glyph is defined to be the smallest 
  rectangle that encloses all of the inked pixels.  This box has
  a width of RBEARING - LBEARING pixels and a height of 
  ASCENT + DESCENT pixels.
  .LP
  XFONTINFO:	[ flags:			CARD32,
  .br
  			  drawing-direction:	{ LeftToRight, RightToLeft }
  .br
  			  char-range:		RANGE,
  .br
  			  default-char:		CHAR2B,
  .br
  			  min-bounds:		XCHARINFO,
  .br
  			  max-bounds:		XCHARINFO,
  .br
  			  font-ascent:		INT16,
  .br
  			  font-descent:		INT16,
  .br
  			  properties:			PROPINFO ]
  .IP
  This structure specifies attributes related to the font as a
  whole.
  .sp
  The FLAGS field is a bit mask containing zero or more of the
  following boolean values (unspecified bits must be zero):
  .RS
  .DS
  .TA .75i .75i .75i .75i
  	AllCharactersExist	(1 << 0)
  	InkInside			(1 << 1)
  	HorizontalOverlap		(1 << 2)
  .DE
  .RE
  .IP
  which have the following meanings:
  .RS
  .in +5n
  .IP AllCharactersExist
  If this bit is set, all of the characters
  in the range given by CHAR-RANGE have glyphs encoded in
  the font.  If this bit is clear, some of the characters
  may not have encoded glyphs.
  .IP InkInside
  If this bit is set, the inked pixels of each glyph 
  fall within the rectangle described by the font's ascent, 
  descent, origin, and the glyph's escapement point.  If
  this bit is clear, there may be glyphs whose ink extends 
  outside this rectangle.
  .IP HorizontalOverlap
  If this bit is set, the two ink bounding
  boxes (smallest rectangle enclosing the inked pixels) of 
  some pairs of glyphs in the font may overlap when displayed 
  side-by-side (i.e. the second character is imaged at the 
  escapement point of the first) on a common baseline.  If
  this bit is clear, there are no pairs of glyphs whose ink
  bounding boxes overlap.
  .in -5n
  .RE
  .IP
  The DRAWING-DIRECTION field contains a hint indicating whether
  most of the character metrics have a positive (or ``LeftToRight'') 
  logical width or a negative (``RightToLeft'') logical width.  It
  contains the following alternate values:
  .RS
  .DS
  
  	LeftToRight		0
  	RightToLeft		1
  .DE
  .RE
  The CHAR-RANGE.MIN-CHAR and CHAR-RANGE.MAX-CHAR fields specify the
  first and last character codes that have glyphs encoded in this font.
  All fonts must have at least one encoded glyph (in which case the
  MIN-CHAR and MAX-CHAR are equal), but are not required to have glyphs
  encoded at all positions between the first and last characters.
  .sp
  The DEFAULT-CHAR field specifies the character code of the glyph
  that the client should substitute for unencoded characters.  Requests
  for extents or bitmaps for an unencoded character generate zero-filled
  metrics and a zero-length glyph bitmap, respectively.
  .sp
  The MIN-BOUNDS and MAX-BOUNDS fields contain the minimum and maximum
  values of each of the extents field of all encoded characters in the
  font (i.e. non-existent characters are ignored).
  .sp
  The FONT-ASCENT and FONT-DESCENT fields specify the font designer's
  logical height of the font, above and below the baseline,
  respectively.  The sum of the two values is often used as the
  vertical line spacing of the font.  Individual glyphs are permitted
  to have ascents and descents that are greater than these values.
  .sp
  The PROPERTIES field contains the property data associated with
  this font.
  .sp
  This structure is padded to 32-bit alignment.
  .NH 2
  Requests
  .XS
  \*(SN Requests
  .XE
  .LP
  This section describes the requests that may be sent by the client and the
  replies or errors that are generated in response.  Versions of the protocol
  with the same major version are required to be upward-compatible.
  .LP
  Every request on a given connection is implicitly assigned a sequence number,
  starting with 1, that is used in replies, error, and events.  Servers are
  required to generate replies and errors in the order in which the corresponding
  requests are received.  Servers are permitted to add or remove fonts to the
  list visible to the client between any two requests, but requests must be
  processed atomically.  Each request packet is at least 4 bytes long and
  contains the following fields:
  .RS
  .DS
  	major-opcode:			CARD8
  	minor-opcode:			CARD8
  	length:				CARD16
  .DE
  .RE
  The MAJOR-OPCODE specifies which core request or extension package this packet
  represents.  If the MAJOR-OPCODE corresponds to a core request, the
  MINOR-OPCODE contains 8 bits of request-specific data.  Otherwise, the
  MINOR-OPCODE specifies which extension request this packet represents.  The
  LENGTH field specifies the number of 4-byte units contained within the packet
  and must be at least one.  If this field contains a value greater than one it
  is followed by (LENGTH - 1) * 4 bytes of request-specific data.  Unless
  otherwise specified, unused bytes are not required to be zero.
  .LP
  If a request packet contains too little or too much data, the server returns
  a Length error.  If the server runs out of internal resources (such as
  memory) while processing a request, it returns an Alloc error.  If a server is
  deficient (and therefore non-compliant) and is unable to process a request, it
  may return an Implementation error.  If a client uses an extension request
  without previously having issued a 
  .PN QueryExtension 
  request for that extension, the server responds with a 
  .PN Request 
  error.  If the server encounters a request
  with an unknown MAJOR-OPCODE or MINOR-OPCODE, it responds with a 
  .PN Request 
  error.
  At most one error is generated per request.  If more than one error condition
  is encountered in processing a requests, the choice of which error is returned
  is server-dependent.
  .LP
  Core requests have MAJOR-OPCODE values between 0 and 127, inclusive.  Extension
  requests have MAJOR-OPCODE values between 128 and 255, inclusive, that are
  assigned by by the server.  All MINOR-OPCODE values in extension requests are
  between 0 and 255, inclusive.
  .LP
  Each reply is at least 8 bytes long and contains the following fields:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  
  	type:				CARD8 value of 0
  	data-or-unused:		CARD8
  	sequence-number:		CARD16
  	length:			CARD32
  .DE
  .RE
  The TYPE field has a value of zero.  The DATA-OR-UNUSED field may be used to
  encode one byte of reply-specific data (see Section 5.2 on request encoding).
  The least-significant 16 bits of the sequence number of the request that
  generated the reply are stored in the SEQUENCE-NUMBER field.  The LENGTH field
  specifies the number of 4-byte units in this reply packet, including the fields
  described above, and must be at least two.  If LENGTH is greater than two, the
  fields described above are followed by (LENGTH - 2) * 4 bytes of additional
  data.
  .LP
  Requests that have replies are described using the following syntax:
  .RS
  .DS
  
  	RequestName
  	    \fIarg1\fP\^:  type1
  	    \fIarg2\fP\^:  type2
  	    ...
  	    \fIargN\fP\^:  typeN
   		=>
  	   \fIresult1\fP\^:  type1
   	   \fIresult2\fP\^:  type2
      	...
  	    \fIresultM\fP\^:  typeM
  
  	Errors:  \fIkind1\fR, \fIkind2\fR ..., \fIkindK\fR
  
  	Description
  .DE
  .RE
  If a request does not generate a reply, the``=>'' and result lines are
  omitted.  If a request may generate multiple replies, the ``=>'' is replaced by
  a ``=>+''.  In the authorization data exchanges in the initial connection setup
  and the CreateAC request, ``->'' indicates data sent by the client in response
  to data sent by the server.
  .LP
  The protocol begins with the establishment of a connection over a 
  mutually-understood virtual stream:
  .RS
  .DS
  
      open connection
  	byte-order:					BYTE
  	client-major-protocol-version:		CARD16
  	client-minor-protocol-version:		CARD16
  	authorization-protocols:			LISTofAUTH
  .DE
  .RE
  The initial byte of the connection specifies the BYTE-ORDER in
  which subsequent 16-bit and 32-bit numeric values are to be
  transmitted.  The octal value 102 (ASCII uppercase `B')
  indicates that the most-significant byte is to be transmitted
  first; the octal value 154 (ASCII lowercase `l') indicates
  that the least-significant byte is to be transmitted first.
  If any other value is encountered the server closes the
  connection without any response.
  .IP
  The CLIENT-MAJOR-PROTOCOL-VERSION and
  CLIENT-MINOR-PROTOCOL-VERSION specify which version of the
  font service protocol the client would like to use.  If the
  client can support multiple versions, the highest version
  should be given.  This version of the protocol has a
  major version of 2 and a minor version of 0.
  .IP
  The AUTHORIZATION-PROTOCOLS contains a list of protocol names and
  optional initial data for which the client can provide
  information.  The server may use this to determine which
  protocol to use or as part of the initial exchange of
  authorization data.
  .RS
  .DS
  =>
  status:					{ Success, Continue, 
  						  Busy, Denied }
  server-major-protocol-version:		CARD16
  server-minor-protocol-version:		CARD16
  alternate-servers-hint:			LISTofALTERNATESERVER
  authorization-index:			CARD8
  authorization-data:			LISTofBYTE
  .DE
  .RE
  The SERVER-MAJOR-PROTOCOL-VERSION and
  SERVER-MINOR-PROTOCOL-VERSION specify the version of the font
  service protocol that the server expects from the client.  If
  the server supports the version specified by the client, this
  version number should be returned.  If the client has
  requested a higher version than is supported by the server,
  the server's highest version should be returned.  Otherwise,
  if the client has requested a lower version than is supported
  by the server, the server's lowest version should be returned.
  It is the client's responsibility to decide whether or not it
  can match this version of the protocol.
  .IP
  The ALTERNATE-SERVERS-HINT is a list of other font servers
  that may have related sets of fonts (determined by means
  outside this protocol, typically by the system administrator).
  Clients may choose to contact these font servers if the
  connection is rejected or lost.
  .IP
  The STATUS field indicates whether the server accepted,
  rejected, or would like more information about the connection.
  It has one of the following alternate values:
  .RS
  .DS
  
  		Success		0
  		Continue		1
  		Busy			2
  		Denied		3
  .DE
  .RE
  If STATUS is Denied, the server has rejected the client's
  authorization information.  If STATUS is Busy, the server has
  simply decided that it cannot provide fonts to this client at
  this time (it may be able to at a later time).  In both cases,
  AUTHORIZATION-INDEX is set to zero, no authorization-data is
  returned, and the server closes the connection after sending
  the data described so far.
  .IP
  Otherwise the AUTHORIZATION-INDEX is set to the index
  (beginning with 1) into the AUTHORIZATION-PROTOCOLS list of
  the protocol that the server will use for this connection.  If
  the server does not want to use any of the given protocols,
  this value is set to zero.  The AUTHORIZATION-DATA field is
  used to send back authorization protocol-dependent data to the
  client (such as a challenge, authentication of the server,
  etc.).
  .LP
  If STATUS is Success, the following section of protocol is
  omitted.  Otherwise, if STATUS is Continue, the server expects
  more authorization data from the client (i.e. the connection
  setup is not finished, so no requests or events may be sent):
  .RS
  .DS
  ->
  more-authorization-data:		STRING8
  =>
  status:				{ Success, Continue, 
  					  Busy, Denied }
  more-authorization-data:		LISTofBYTE
  .DE
  .RE
  The values in STATUS have the same meanings as described
  above.  This section of protocol is repeated until the server
  either accepts (sets STATUS to Success) or rejects (sets
  STATUS to Denied or Busy) the connection.
  .LP
  Once the connection has been accepted and STATUS is Success,
  an implicit AccessContext is created for the authorization
  data and the protocol continues with the following data sent
  from the server:
  .RS
  .DS
  =>
  remaining-length:			CARD32
  maximum-request-length:	CARD16
  release-number:			CARD32
  vendor:				STRING8
  .DE
  .RE
  The REMAINING-LENGTH specifies the length in 4-byte units of
  the remaining data to be transmitted to the client.  The
  MAXIMUM-REQUEST-LENGTH specifies the largest request size in
  4-byte units that is accepted by the server and must have a
  value of at least 4096.  Requests with a length field larger
  than this value are ignored and a Length error is returned.
  The VENDOR string specifies the name of the manufacturer of
  the font server.  The RELEASE-NUMBER specifies the particular
  release of the server in a manufacturer-dependent manner.
  .LP
  After the connection is established and the setup information has been
  exchanged, the client may issue any of requests described below:
  .LP
  .IN "NoOp" "" "@DEF@"
  .PN NoOp
  .IP
  Errors:  Alloc
  .IP
  This request does nothing.  It is typically used in response 
  to a 
  .PN KeepAlive 
  event.
  .LP
  .IN "ListExtensions" "" "@DEF@"
  .PN ListExtensions
  .LP
    =>
  .IP
  \fInames\fP\^:  LISTofSTRING8
  .IP
  Errors:  Alloc
  .IP
  This request returns the names of the extension packages
  that are supported by the server.  Extension names are 
  case-sensitive and are encoded in ISO 8859-1.
  .LP
  .IN "QueryExtension" "" "@DEF@"
  .PN QueryExtension
  .IP
  \fIname\fP\^:  STRING8
  .LP
    =>
  .IP
  \fIpresent\fP\^:  BOOL
  .br
  \fImajor-version\fP\^:  CARD16
  .br
  \fIminor-version\fP\^:  CARD16
  .br
  \fImajor-opcode\fP\^:  CARD8
  .br
  \fIfirst-event\fP\^:  CARD8
  .br
  \fInumber-events\fP\^:  CARD8
  .br
  \fIfirst-error\fP\^:  CARD8
  .br
  \fInumber-errors\fP\^:  CARD8
  .IP
  Errors:  
  .PN Alloc
  .IP
  This request determines whether or not the extension package
  specified by NAME (encoded in ISO 8859-1) is supported by the
  server and that there is sufficient number of major opcode,
  event, and error codes available.  If so, then PRESENT is set
  to True, MAJOR-VERSION and MINOR-VERSION are set to the
  respective major and minor version numbers of the protocol
  that the server would prefer; MAJOR-OPCODE is set to the value
  to use in extension requests; FIRST-EVENT is set to the value
  of the first extension-specific event code or zero if the
  extension does not have any events; NUMBER-EVENTS is set to
  the number of new events that the event defines; FIRST-ERROR
  is set to the value of the first extension-specific error code
  or zero if the extension does not define any new errors; and
  NUMBER-ERRORS is set to the number of new errors the extension
  defines.
  .sp
  Otherwise, PRESENT is set to False and the remaining fields are
  set to zero.
  .sp
  The server is free to return different values to different
  clients.  Therefore, clients must use this request before
  issuing any of the requests in the named extension package or
  using the 
  .PN SetEventMask request to express interest in any of
  this extension's events.  Otherwise, a 
  .PN Request 
  error is returned.
  .LP
  .IN "ListCatalogues" "" "@DEF@"
  .PN ListCatalogues
  .IP
  \fIpattern\fP\^:  STRING8
  \fImax-names\fP\^:  CARD32
  .LP
    =>+
  .IP
  \fIreplies-following-hint\fP\^:  CARD32
  .br
  \fInames\fP\^: 	LISTofSTRING8
  .IP
  Errors:  
  .PN Alloc
  .IP
  This request returns a list of at most MAX-NAMES names
  of collections (called catalogues) of fonts that match
  the specified PATTERN.  In the pattern (which is encoded
  in ISO 8859-1), the `?' character (octal 77) matches any
  single character; the `*' character (octal 52) matches
  any series of zero or more characters; and alphabetic
  characters match either upper- or lowercase.  The
  returned NAMES are encoded in ISO 8859-1 and may contain
  mixed character cases.
  .sp
  If PATTERN is of zero length or MAX-NAMES is equal to zero,
  one reply containing a zero-length list of names is returned.
  This may be used to synchronize the client with the server.
  .sp
  Servers are free to add or remove catalogues to the set returned by
  .PN ListCatalogues
  between any two requests.  This request is not
  cumulative; repeated uses are processed in isolation and do
  result in an iteration through the list.
  .sp
  To reduce the amount of buffering needed by the server, the
  list of names may be split across several reply packets, so
  long as the names arrive in the same order that they would
  have appeared had they been in a single packet.  The
  REPLIES-FOLLOWING-HINT field in all but the last reply
  contains a positive value that specifies the number of
  replies that are likely, but not required, to follow.  In the
  last reply, which may contain zero or more names, this field
  is set to zero.
  .LP
  .IN "SetCatalogues" "" "@DEF@"
  .PN SetCatalogues
  .IP
  \fInames\fP\^:  LISTofSTRING8
  .IP
  Errors:  
  .PN Alloc , 
  .PN Name
  .IP
  This request sets the list of catalogues whose fonts should be
  visible to the client.  The union of the fonts provided by
  each of the named catalogues forms the set of fonts whose
  names match patterns in 
  .PN ListFonts , 
  .PN ListFontsWithXInfo , 
  and
  .PN OpenBitmapFont 
  requests.  The catalogue names are
  case-insensitive and are encoded in ISO 8859-1.  A zero-length
  list resets the client's catalogue list to the
  server-dependent default.
  .sp
  If any of the catalogue names are invalid, a 
  .PN Name 
  error is returned and the request is ignored.
  .LP
  .IN "GetCatalogues" "" "@DEF@"
  .PN GetCatalogues
  .LP
     =>
  .IP
  \fInames\fP\^:  LISTofSTRING8
  .IP
  Errors:  
  .PN Alloc
  .IP
  This request returns the current list of catalogue names
  (encoded in ISO 8859-1) associated with the client.  These
  catalogues determine the set of fonts that are visible
  to 
  .PN ListFonts , 
  .PN ListFontsWithXInfo , 
  and 
  .PN OpenBitmapFont .  
  A zero-length list indicates the server's default set of 
  fonts.  Catalogue names are case-insensitive and may be
  returned in mixed case.
  .LP
  .IN "SetEventMask" "" "@DEF@"
  .PN SetEventMask
  .IP
  \fIextension-opcode\fP\^:  CARD8
  .br
  \fIevent-mask\fP\^:  EVENTMASK
  .IP
  Errors:
  .PN EventMask ,
  .PN Request
  .IP
  This request specifies the set of maskable events that the
  extension indicated by EXTENSION-OPCODE (or zero for the core)
  should generate for the client.  Event masks are limited in
  scope to the extension (or core) for which they are defined,
  so expressing interest in events from one or more extensions
  requires multiple uses of this request.
  .sp
  The default event mask if 
  .PN SetEventMask 
  has not been called 
  is zero, indicating no interest in any maskable events.  
  Some events are not maskable and cannot be blocked.
  .sp
  If EXTENSION-OPCODE is not a valid extension opcode previously
  returned by 
  .PN QueryExtension 
  or zero, a 
  .PN Request 
  error is
  returned.  If EVENT-MASK contains any bits that do not
  correspond to valid events for the specified extension (or
  core), an 
  .PN EventMask 
  error is returned and the request is
  ignored.
  .LP
  .IN "GetEventMask" "" "@DEF@"
  .PN GetEventMask
  .IP
  \fIextension-opcode\fP\^:  CARD8
  .LP
    =>
  .IP
  \fIevent-mask\fP\^:  EVENTMASK
  .IP
  Errors:
  .PN Request
  .IP
  This request returns the set of maskable core events the
  extension indicated by EXTENSION-OPCODE (or the core if zero)
  should generate for the client.  Non-maskable events are
  always sent to the client.
  
  If EXTENSION-OPCODE is not a valid extension opcode 
  previously returned by 
  .PN QueryExtension 
  or zero, a 
  .PN Request
  error is returned.
  .LP
  .IN "CreateAC" "" "@DEF@"
  .PN CreateAC
  .IP
  \fIac\fP\^:  ACCESSCONTEXT
  .br
  \fIauthorization-protocols\fP\^:  LISTofAUTH
  .LP
    =>
  .IP
  \fIstatus\fP\^:  	{ Success, Continue, Denied }
  .br
  \fIauthorization-index\fP\^:		CARD8
  .br
  \fIauthorization-data\fP\^:		LISTofBYTE
  .IP
  Errors:
  .PN IDChoice
  .IP
  This request creates a new 
  .PN AccessContext 
  object within the
  server containing the specified authorization data.  When
  this 
  .PN AccessContext
  is selected by the client using the
  .PN SetAuthorization 
  request, the data may be used by the server
  to determine whether or not the client should be granted
  access to particular font information.
  .sp
  If STATUS is Denied, the server rejects the client's
  authorization information and does not associate AC with any
  valid 
  .PN AccessContext .  
  In this case, AUTHORIZATION-INDEX is set
  to zero, and zero bytes of AUTHORIZATION-DATA is returned.
  .sp
  Otherwise, AUTHORIZATION-INDEX is set to the index (beginning
  with 1) into the AUTHORIZATION-PROTOCOLS list of the protocol
  that the server will use for this connection.  If the server
  does not want to use any of the given protocols, this value is
  set to zero.  The AUTHORIZATION-DATA field is used to send
  back authorization protocol-dependent data to the client (such
  as a challenge, authentication of the server, etc.).
  .sp
  If STATUS is Continue, the client is expected to continue
  the request by sending the following protocol and receiving
  the indicated response from the server.  This continues
  until STATUS is set to either Success or Denied.
  .RS
  .DS
  	\->
  	more-authorization-data:		STRING8
  	=>
  	status:				{ Success, Continue, Denied }
  	more-authorization-data:		LISTofBYTE
  .DE
  .RE
  Once the connection has been accepted and STATUS is Success,
  the request is complete.
  .sp
  If AC is not in the range [1..2^29-1] or is already associated 
  with an access context, an IDChoice error is returned.
  .LP
  .IN "FreeAC" "" "@DEF@"
  .PN FreeAC
  .IP
  \fIac\fP\^:  ACCESSCONTEXT
  .IP
  Errors:  
  .PN AccessContext , 
  .PN Alloc
  .IP
  This request indicates that the specified AC should no longer
  be associated with a valid access context.  If AC is also the
  current 
  .PN AccessContext
  (as set by the 
  .PN SetAuthorization
  request), an implicit 
  .PN SetAuthorization
  of None is done to
  restore the 
  .PN AccessContext
  established for the initial
  connection setup.  Operations on fonts that were opened under
  AC are not affected.  The client may reuse the value of AC in
  a subsequent 
  .PN CreateAC 
  request.
  .sp
  If AC isn't associated with any valid authorization previously
  created by 
  .PN CreateAC , an 
  .PN AccessContext 
  error is returned.
  .LP
  .IN "SetAuthorization" "" "@DEF@"
  .PN SetAuthorization
  .IP
  \fIac\fP\^:  ACCESSCONTEXT
  .IP
  Errors:  
  .PN AccessContext
  .IP
  This request sets the 
  .PN AccessContext 
  to be used for subsequent
  requests (except for 
  .PN QueryXInfo , 
  .PN QueryXExtents8 ,
  .PN QueryXExtents16 , 
  .PN QueryXBitmaps8 , 
  .PN QueryXBitmaps16 , 
  and
  .PN CloseFont 
  which are done under the 
  .PN AccessContext 
  of the
  corresponding
  .PN  OpenBitmapFont ")."  
  An AC of None restores the
  .PN AccessContext 
  established for the initial connection setup.
  .sp
  If AC is neither None nor a value associated with a valid
  .PN AccessContext 
  previously created by 
  .PN CreateAC , 
  an 
  .PN AccessContext
  error is returned.
  .LP
  .IN "SetResolution" "" "@DEF@"
  .PN SetResolution
  .IP
  \fIresolutions\fP\^:  LISTofRESOLUTION
  .IP
  Errors:  
  .PN Resolution , 
  .PN Alloc
  .IP
  This request provides a hint as to the resolution and
  preferred point size of the drawing surfaces for which the
  client will be requesting fonts.  The server may use this
  information to set the RESOLUTION_X and RESOLUTION_Y fields
  of scalable XLFD font names, to order sets of names based on
  their resolutions, and to choose the server-dependent
  instance that is used when a partially-specified scalable
  fontname is opened.
  .sp
  If a zero-length list of RESOLUTIONS is given, the
  server-dependent default value is restored.  Otherwise, if
  elements of all of the specified RESOLUTIONS are non-zero, the
  default resolutions for this client are changed.
  .sp
  If a RESOLUTION entry contains a zero, a Resolution error is
  returned and the default resolutions are not changed.
  .LP
  .IN "GetResolution" "" "@DEF@"
  .PN GetResolution
  .LP
    =>
  .IP
  \fIresolutions\fP\^:  LISTofRESOLUTION
  .IP
  Errors:  
  .PN Alloc
  .IP
  This request returns the current list of default resolutions.
  If a client has not performed a 
  .PN SetResolution , 
  a server-dependent default value is returned.
  .LP
  .IN "ListFonts" "" "@DEF@"
  .PN ListFonts
  .IP
  \fIpattern\fP\^:  STRING8
  \fImax-names\fP\^:  CARD32
  .LP
    =>+
  .IP
  \fIreplies-following-hint\fP\^:  CARD32
  .br
  \fInames\fP\^:  LISTofSTRING8
  .IP
  Errors:  
  .PN Alloc
  .IP
  This request returns a list of at most MAX-NAMES font names
  that match the specified PATTERN, according to matching rules
  of the X Logical Font Description Conventions [3].  In the
  pattern (which is encoded in ISO 8859-1) the `?' character
  (octal 77) matches any single character; the `*' character
  (octal 52) matches any series of zero or more characters; and
  alphabetic characters match either upper- or lowercase.  The
  returned NAMES are encoded in ISO 8859-1 and may contain mixed
  character cases.  Font names are not required to be in XLFD
  format.
  .sp
  If PATTERN is of zero length or MAX-NAMES is equal to zero,
  one reply containing a zero-length list of names is returned.
  This may be used to synchronize the client with the server.
  .sp
  Servers are free to add or remove fonts to the set returned by
  .PN ListFonts 
  between any two requests.  This request is not
  cumulative; repeated uses are processed in isolation and do
  result in an iteration through the list.
  .sp
  To reduce the amount of buffering needed by the server, the
  list of names may be split across several reply packets, so
  long as the names arrive in the same order that they would
  have appeared had they been in a single packet.  The
  REPLIES-FOLLOWING-HINT field in all but the last reply
  contains a positive value that specifies the number of
  replies that are likely, but not required, to follow.  In the
  last reply, which may contain zero or more names, this field
  is set to zero.
  .LP
  .IN "ListFontsWithXInfo" "" "@DEF@"
  .PN ListFontsWithXInfo
  .IP
  \fIpattern\fP\^:  STRING8
  .br
  \fImax-names\fP\^:  CARD32
  .LP
    =>+
  .IP
  \fIreplies-following-hint\fP\^:  CARD32
  .br
  \fIinfo\fP\^:  XFONTINFO
  .br
  \fIname\fP\^:  STRING8
  .IP
  Errors:  
  .PN Alloc
  .IP
  This request is similar to 
  .PN ListFonts 
  except that a separate
  reply containing the name, header, and property data is
  generated for each matching font name.  Following these
  replies, if any, a final reply containing a zero-length NAME
  and no INFO is sent.
  .sp
  The REPLIES-FOLLOWING-HINT field in all but the last reply
  contains a positive value that specifies the number of replies
  that are likely, but not required, to follow.  In the last
  reply, this field is set to zero.
  .sp
  If PATTERN is of zero length or if MAX-NAMES is equal to
  zero, only the final reply containing a zero-length NAME and
  no INFO is returned.  This may be used to synchronize the
  client with the server.
  .LP
  .IN "OpenBitmapFont" "" "@DEF@"
  .PN OpenBitmapFont
  .IP
  \fIfontid\fP\^:  FONTID
  .br
  \fIpattern\fP\^:  STRING8
  .br
  \fIformat-mask\fP\^:  BITMAPFORMATMASK
  .br
  \fIformat-hint\fP\^:  BITMAPFORMAT
  .LP
    =>
  .IP
  \fIotherid\fP\^:  FONTID or None
  .br
  \fIotherid-valid\fP\^:  BOOL
  .br
  \fIcachable\fP\^:  BOOL
  .IP
  Errors:  
  .PN IDChoice , 
  .PN Name , 
  .PN Format , 
  .PN AccessContext , 
  .PN Alloc
  .IP
  This request looks for a server-dependent choice of the
  font names that match the specified PATTERN according to the
  rules described for 
  .PN ListFonts .  
  If no matches are found, a
  .PN Name 
  error is returned.  Otherwise, the server attempts to
  open the font associated with the chosen name.
  .sp
  Permission to access the font is determined by the server
  according the licensing policy used for this font.  The server
  may use the client's current 
  .PN AccessContext
  (as set by the most
  recent 
  .PN SetAuthorization 
  request or the original connection
  setup) to determine any client-specific sets of permissions.
  After the font has been opened, the client is allowed to
  specify a new 
  .PN AccessContext
  with 
  .PN SetAuthorization
  or release
  the 
  .PN AccessContext
  using 
  .PN FreeAC .  Subsequent 
  .PN QueryXInfo ,
  .PN QueryXExtents8 , 
  .PN QueryXExtents16 , 
  .PN QueryXBitmaps8 ,
  .PN QueryXBitmaps16 , and 
  .PN CloseFont 
  requests on this FONTID are
  performed according to permissions granted at the time of the
  .PN OpenBitmapFont 
  request.
  .sp
  If the server is willing and able to detect that the client
  has already opened the font successfully (possibly under a
  different name), the OTHERID field may be set to one of the
  identifiers previously used to open the font.  The
  OTHERID-VALID field indicates whether or not OTHERID is
  still associated with an open font: if it is True, the
  client may use OTHERID as an alternative to FONTID.
  Otherwise, if OTHERID-VALID is False, OTHERID is no longer
  open but has not been reused by a subsequent 
  .PN OpenBitmapFont
  request.
  .sp
  If OTHERID is set to None, then OTHERID-VALID should be set
  to False.
  .sp
  The FORMAT-MASK indicates which fields in FORMAT-HINT
  the client is likely to use in subsequent 
  .PN GetXBitmaps8
  and 
  .PN GetXBitmaps16 
  requests.  Servers may wish to use
  this information to precompute certain values.
  .sp
  If CACHABLE is set to True, the client may cache the font
  (so that redundant opens of the same font may be avoided)
  and use it with all 
  .PN AccessContexts 
  during the life of the
  client without violating the font's licensing policy.  This
  flag is typically set whenever a font is unlicensed or is
  licensed on a per-display basis.  If CACHABLE is False, the
  client should reopen the font for each 
  .PN AccessContext .
  .sp
  The server is permitted to add to or remove from the set of
  fonts returned by 
  .PN ListFonts 
  between any two requests, though
  mechanisms outside the protocol.  Therefore, it is possible
  for this request (which is atomic) to return a different font
  than would result from separate a
  .PN  ListFonts 
  followed by an
  .PN OpenBitmapFont 
  with a non-wildcarded font name.
  .sp
  If FONTID is not in the range [1..2^29-1] or if it is already
  associated with an open font, an 
  .PN IDChoice 
  error is returned.
  If no font is available that matches the specified PATTERN, a
  .PN Name 
  error is returned.  If the font is present but the client
  is not permitted access, an 
  .PN AccessContext 
  error is returned.
  If FORMAT-MASK has any unspecified bits set or if any of the
  fields in FORMAT-HINT indicated by FORMAT-MASK are invalid, a
  .PN Format 
  error is returned.
  .LP
  .IN "QueryXInfo" "" "@DEF@"
  .PN QueryXInfo
  .IP
  \fIfontid\fP\^:  FONTID
  .LP
    =>
  .IP
  \fIinfo\fP\^:  XFONTINFO
  .IP
  Errors:  
  .PN Font , 
  .PN Alloc
  .IP
  This request returns the font header and property information
  for the open font associated with FONTID.
  .sp
  If FONTID is not associated with any open fonts, a
  .PN  Font 
  error
  is returned.
  .LP
  .IN "QueryXExtents8" "" "@DEF@"
  .PN QueryXExtents8
  .IP
  \fIfontid\fP\^:  FONTID
  .br
  \fIrange\fP\^:  BOOL
  .br
  \fIchars\fP\^:  STRING8
  .LP
    =>
  .IP
  \fIextents\fP\^:  LISTofXCHARINFO
  .IP
  Errors: 
  .PN  Font , 
  .PN Range , 
  .PN Alloc
  .IP
  This request is equivalent to 
  .PN QueryXExtents16 
  except that it
  uses 1-byte character codes.
  .LP
  .IN "QueryXExtents16" "" "@DEF@"
  .PN QueryXExtents16
  .IP
  \fIfontid\fP\^:  FONTID
  .br
  \fIrange\fP\^:  BOOL
  .br
  \fIchars\fP\^:  LISTofCHAR2B
  .LP
    =>
  .IP
  \fIextents\fP\^:  LISTofXCHARINFO
  .IP
  Errors:  
  .PN Font , 
  .PN Range , 
  .PN Alloc
  .IP
  This request returns a list of glyph extents from the open
  font associated with FONTID for the series of characters
  specified by RANGE and CHARS.
  .sp
  If RANGE is True, each succeeding pair of elements in CHARS is
  treated as a range of characters for which extents should be
  returned.  If CHARS contains an odd number of elements, the
  font's XFONTINFO.CHAR-RANGE.MAX-CHAR is implicitly appended to
  the list.  If CHARS contains no elements, the list is
  implicitly replaced with the font's XFONTINFO.CHAR-RANGE.  If
  any of the resulting character ranges are invalid, a Range
  error is returned.  Otherwise, the character ranges are
  concatenated in the order given by CHARS to produce a set of
  character codes for which extents are returned.
  .sp
  If RANGE is False, then CHARS specifies the set of character
  codes for which extents are returned.  If CHARS is of
  zero length, then a zero-length list of extents is returned.
  .sp
  The extents for each character code in the resulting set (which
  may contain duplicates) are returned in the order in
  which the character codes appear in the set.
  At least one metric for each character shall be non-zero
  unless the character is not encoded in the font, in which case
  all-zero metrics are returned.
  A blank, zero-width character can be encoded
  with non-zero but equal left and right bearings.
  .sp
  If FONTID is not associated with any open fonts, a 
  .PN Font 
  error is
  returned.  If RANGE is True and CHARS contains any invalid
  ranges, a 
  .PN Range 
  error is returned.
  .LP
  .IN "QueryXBitmaps8" "" "@DEF@"
  .PN QueryXBitmaps8
  .IP
  \fIfontid\fP\^:  FONTID
  .br
  \fIrange\fP\^:  BOOL
  .br
  \fIchars\fP\^:  STRING8
  .br
  \fIformat\fP\^:  BITMAPFORMAT
  .LP
    =>+
  .IP
  \fIreplies-following-hint\fP\^:  CARD32
  .br
  \fIoffsets\fP\^:  LISTofOFFSET32
  .br
  \fIbitmaps\fP\^:  LISTofBYTE
  .IP
  Errors:  
  .PN Font , 
  .PN Range , 
  .PN Format , 
  .PN Alloc
  .IP
  This request is equivalent to 
  .PN QueryXBitmaps16 
  except that it
  uses 1-byte character codes.
  .LP
  .IN "QueryXBitmaps16" "" "@DEF@"
  .PN QueryXBitmaps16
  .IP
  \fIfontid\fP\^:  FONTID
  .br
  \fIrange\fP\^:  BOOL
  .br
  \fIchars\fP\^:  LISTofCHAR2B
  .br
  \fIformat\fP\^:  BITMAPFORMAT
  .LP
    =>+
  .IP
  \fIreplies-following-hint\fP\^:  CARD32
  .br
  \fIoffsets\fP\^:  LISTofOFFSET32
  .br
  \fIbitmaps\fP\^:  LISTofBYTE
  .IP
  Errors:  
  .PN Font , 
  .PN Range , 
  .PN Format , 
  .PN Alloc
  .IP
  This request returns a list of glyph bitmaps from the open
  font associated with FONTID for the series of characters
  specified by RANGE and CHARS.
  .sp
  If RANGE is True, each succeeding pair of elements in CHARS is
  treated as a range of characters for which bitmaps should be
  returned.  If CHARS contains an odd number of elements, the
  font's XFONTINFO.CHAR-RANGE.MAX-CHAR is implicitly appended to
  the list.  If CHARS contains no elements, the list is
  implicitly replaced with the font's XFONTINFO.CHAR-RANGE.  If
  any of the resulting character ranges are invalid, a Range
  error is returned.  Otherwise, the character ranges are
  concatenated in the order given by CHARS to produce a set of
  character codes for which bitmaps are returned.
  .sp
  If RANGE is False, then CHARS specifies the set of character
  codes for which bitmaps are returned.  If CHARS is of zero
  length, then a single reply containing a zero-length list of
  offsets and bitmaps is returned.
  .sp
  If any of the resulting character ranges are invalid, a Range
  error is returned.  Otherwise, the resulting character ranges
  are concatenated in the order given by CHARS to produce a set
  of character codes for which bitmaps are returned.
  .sp
  The server is free to return the glyph bitmaps in multiple
  replies to reduce the amount of buffering that is necessary.
  In this situation, the set of characters obtained above is
  partitioned into an implementation-dependent number of
  ordered, non-overlapping subsets containing runs of one or
  more consecutive characters.  The global ordering of
  characters must be maintained such that concatenating the
  subsets in order that they were produced yields the original
  set.  A reply is generated for each subset, in the order that
  it was produced.
  .sp
  For each character in a subset, an image of that character's
  glyph is described by a rectangle of bits corresponding to the
  pixels specified by FORMAT.IMAGE-RECT.  Within the image, set
  and clear bits represent inked and non-inked pixels,
  respectively.
  .sp
  Each scanline of a glyph image, from top to bottom, is zero-padded
  on the right to a multiple of the number of bits specified by
  FORMAT.SCANLINE-PAD.  The scanline is then divided from left
  to right into a sequence of FORMAT.SCANLINE-UNIT bits.  The
  bits of each unit are then arranged such that the left-most
  pixel is stored in the most- or least-significant bit,
  according to FORMAT.BIT-ORDER-MSB.  The bytes of each unit are
  then arranged such that the most- or least-significant byte,
  according to FORMAT.BYTE-ORDER-MSB, is transmitted first.
  Finally, the units are arranged such that the left-most is
  transmitted first and the right-most is transmitted last.
  .sp
  The individual images within a subset are then concatenated in
  a server-dependent order to form the BITMAPS data of the
  reply.  If a glyph image is duplicated within a reply, the
  server is free to return fewer (but at least one) copies of
  the image.  If a character is not encoded within the font, a
  zero-length bitmap is substituted for this character.  Each 
  glyph image must begin at a bit position that is a multiple of
  the FORMAT.SCANLINE-UNIT.
  .sp
  The OFFSETS array in a reply contains one entry for each
  character in the subset being returned, in the order that the
  characters appear in the subset.  Each entry specifies the
  starting location in bytes and size in bytes of the
  corresponding glyph image in the BITMAPS data of that reply
  (i.e. an offset may not refer to data in another reply).
  .sp
  The REPLIES-FOLLOWING-HINT field in all but the last reply
  contains a positive value that specifies the number of replies
  that are likely, but not required, to follow.  In the last
  reply, which may contain data for zero or more characters,
  this field is set to zero.
  .sp
  If FONTID is not associated with any open fonts, a Font error
  is returned.  If RANGE is True and CHARS contains any invalid
  ranges, a Range error is returned.  If FORMAT is invalid, a
  Format error is returned.
  .LP
  .IN "CloseFont" "" "@DEF@"
  .PN CloseFont
  .IP
  \fIfontid\fP\^:  FONTID
  .IP
  Errors:  
  .PN Font , 
  .PN Alloc
  .IP
  This request indicates that the specified FONTID should no
  longer be associated with an open font.  The server is free to
  release any client-specific storage or licenses allocated for
  the font.  The client may reuse the value of FONTID in a
  subsequent 
  .PN OpenBitmapFont 
  request.
  .sp
  If FONTID is not associated with any open fonts, a
  .PN  Font 
  error is returned.
  .LP
  .PN "close connection"
  .IN "close connection" "" "@DEF@"
  .IP
  When a connection is closed, a 
  .PN CloseFont 
  is done on all fonts
  that are open on the connection.  In addition, the server is
  free to release any storage or licenses allocated on behalf of
  the client that made the connection.
  .NH 2
  Errors
  .XS
  \*(SN Errors
  .XE
  .LP
  All errors are at least 16 bytes long and contain the following fields:
  .TA .75i
  .ta .75i
  .IP
  \fItype\fP\^:  CARD8  value of 1
  .br
  \fIerror-code\fP\^:  CARD8
  .br
  \fIsequence-number\fP\^:  CARD16
  .br
  \fIlength\fP\^:  CARD32
  .br
  \fItimestamp\fP\^:  TIMESTAMP
  .br
  \fImajor-opcode\fP\^:  CARD8
  .br
  \fIminor-opcode\fP\^:  CARD8
  .br
  \fIdata-or-unused\fP\^:  CARD16
  .LP
  The TYPE field has a value of one.  The ERROR-CODE field specifies which error
  occurred.  Core errors codes are in the range 0 through 127, extension error
  codes are in the range 128 through 255.  The SEQUENCE-NUMBER field contains the
  least significant 16 bits of the sequence number of the request that caused the
  error.  The LENGTH field specifies the length of the error packet in 4-byte
  units and must have a value of at least 4.  The TIMESTAMP specifies the server
  time when the error occurred.  The MAJOR-OPCODE and MINOR-OPCODE (zero for core
  requests) fields specify the type of request that generated the error.  The
  DATA-OR-UNUSED field may be used for 16 bits of error-specific information.  If
  LENGTH is greater than four, these fields are followed by (LENGTH - 4) * 4
  bytes of extra data.
  .LP
  The following errors are defined for the core protocol:
  .LP
  .IN "Error Codes" "Request" "@DEF@"
  .PN Request
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .IP
  This error is generated by any request that has an unknown 
  combination of major and minor request numbers, or by any
  extension request that is issued before a 
  .PN QueryExtension 
  of that extension.
  .LP
  .IN "Error Codes" "Format" "@DEF@"
  .PN Format
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .br
  \fIformat\fP\^:  BITMAPFORMAT	bad format value
  .IP
  This error is generated by the use of an invalid BITMAPFORMAT
  in the 
  .PN OpenBitmapFont , 
  .PN QueryXBitmaps8 , 
  and 
  .PN QueryXBitmaps16 
  requests.
  The value that caused the error is included as extra data.
  .LP
  .IN "Error Codes" "Font" "@DEF@"
  .PN Font
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .br
  \fIfontid\fP\^:  FONTID	bad font identifier
  .IP
  This error is generated by an invalid FONTID in the
  .PN QueryXInfo , 
  .PN QueryXExtents8 , 
  .PN QueryXExtents16 , 
  .PN QueryXBitmaps8 , 
  .PN QueryXBitmaps16 , 
  and 
  .PN CloseFont 
  requests.  The value that caused
  the error is included as extra data.
  .LP
  .IN "Error Codes" "Range" "@DEF@"
  .PN Range
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .br
  \fIrange\fP\^:  RANGE	bad range
  .IP
  This error is generated by an invalid RANGE in the
  .PN  QueryXExtents8 , 
  .PN QueryXExtents16 , 
  .PN QueryXBitmaps8 , and 
  .PN QueryXBitmaps16 
  requests.  The
  value that caused the error is included as extra data.
  .LP
  .IN "Error Codes" "EventMask" "@DEF@"
  .PN EventMask
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .br
  \fIevent-mask\fP\^:  EVENTMASK	bad event mask
  .IP
  This error is generated by an invalid EVENTMASK in the 
  .PN SetEventMask 
  request.  The value that caused the error is 
  included as extra data.
  .LP
  .IN "Error Codes" "AccessContext" "@DEF@"
  .PN AccessContext
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .br
  \fIac\fP\^:  ACCESSCONTEXT	unaccepted 
  .PN AccessContext
  .IP
  This error is generated by an invalid ACCESSCONTEXT in the
  .PN FreeAC 
  or 
  .PN SetAuthorization 
  request or by an 
  .PN OpenBitmapFont
  request performed without sufficient authorization.  In the
  first two cases, the ACCESSCONTEXT of the errant request is
  returned as extra data.  In the third case, the current
  ACCESSCONTEXT is returned as extra data.
  .LP
  .IN "Error Codes" "IDChoice" "@DEF@"
  .PN IDChoice
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .br
  \fIid\fP\^:  ID	bad identifier
  .IP
  This error is generated by an invalid or already associated 
  ACCESSCONTEXT identifier in a 
  .PN CreateAC 
  request or FONTID identifier
  in an 
  .PN OpenBitmapFont 
  request.  The value that caused the error
  is included as extra data.
  .LP
  .IN "Error Codes" "Name" "@DEF@"
  .PN Name
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .IP
  This error is generated by a font name pattern that matches
  no fonts in an 
  .PN OpenBitmapFont 
  request or no catalogue names in a 
  .PN SetCatalogues 
  request.
  .LP
  .IN "Error Codes" "Resolution" "@DEF@"
  .PN Resolution
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	X value of errant resolution
  .br
  \fIy-resolution\fP\^:  CARD16		Y value of errant resolution
  .br
  \fIpoint-size\fP\^:  CARD16		point size of errant resolution
  .IP
  This error is generated in response to an invalid RESOLUTION 
  structure in a 
  .PN SetResolution 
  request.  The value that caused the
  error is included in the DATA-OR-UNUSED field and as extra data.
  .LP	
  .IN "Error Codes" "Alloc" "@DEF@"
  .PN Alloc
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .IP
  This error is generated by any request for which the server
  lacks sufficient resources (especially memory).
  .LP
  .IN "Error Codes" "Length" "@DEF@"
  .PN Length
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .br
  \fIlength\fP\^:  CARD32	bad length value
  .IP
  This error is generated by any request that has a length field
  greater than (MAXIMUM-REQUEST-LENGTH * 4) bytes.  The value that 
  caused the error is included as extra data.
  .LP
  .IN "Error Codes" "Implementation" "@DEF@"
  .PN Implementation
  .IP
  .TA .75i .75i .75i .75i
  \fIdata-or-unused\fP\^:  CARD16	unused
  .IP
  This error may be generated in response to any request that
  the server is unable to process because it is deficient.  Use
  of this error is highly discouraged and indicates lack of
  conformance to the protocol.
  .sp
  Additional errors may be defined by extensions.
  .NH 2
  Events
  .XS
  \*(SN Events
  .XE
  .LP
  Events may be generated in response to requests or at the server's discretion
  after the initial connection setup information has been exchanged.  Each event
  is at least 12 bytes long and contains the following fields:
  .IP
  .TA .75i .75i .75i .75i
  \fItype\fP\^:  CARD8	value of 2
  .br
  \fIevent-code\fP\^:  CARD8
  .br
  \fIsequence-number\fP\^:  CARD16
  .br
  \fIlength\fP\^:  CARD32
  .br
  \fItimestamp\fP\^:  TIMESTAMP
  .LP
  The TYPE field contains the value 2.  The EVENT-CODE field specifies the number
  of the event and is in the range 0-127 for core events or the range 128-255 for
  extensions.  The SEQUENCE-NUMBER field specifies the least significant 16 bits
  of the sequence number of the last request to have been processed by the
  server.  The LENGTH field specifies the number of 4-byte units in this event
  packet and must always have a value of at least 3.  The TIMESTAMP field
  specifies the server time when the event occurred.  If LENGTH is greater than
  three, these fields are followed by (LENGTH - 3) * 4 bytes of additional data.
  .LP
  Events are described using the following syntax:
  .LP
  .RS
  .DS
  .TA .75i
  .ta .75i
  .PN EventName
  	    \fIarg1\fP\^: type1
  	    ...
  	    \fIargN\fP\^: typeN
  
  		Description
  .DE
  .RE
  If an event does not provide any extra arguments, the \fIarg1\fP...\fIargN\fP 
  lines are omitted from the description.
  .LP
  The core X Font Service protocol defines the following events:
  .LP
  .IN "KeepAlive" "" "@DEF@"
  .PN KeepAlive
  .IP
  This unsolicited, nonmaskable event may be sent by the
  server to verify that the connection has not been broken
  (for transports that do not provide this information).
  Clients should acknowledge receipt of this request
  by sending any request (such as 
  .PN NoOp ")."
  .LP
  .IN "CatalogueListNotify" "" "@DEF@"
  .PN CatalogueListNotify
  .IP
  \fIadded\fP\^:  BOOL
  .br
  \fIdeleted\fP\^:  BOOL
  .IP
  This event is sent to clients that have included
  .PN CatalogueListChangeMask 
  in their core event mask
  whenever the list of catalogues that are available has
  changed.  The ADDED field is True if new catalogues have
  been added to the server, otherwise it is False.  The
  DELETED field is True if any existing catalogues have
  been removed from the server, otherwise it is False.
  .LP	
  .IN "FontListNotify" "" "@DEF@"
  .PN FontListNotify
  .IP
  \fIadded\fP\^:  BOOL
  .br
  \fIdeleted\fP\^:  BOOL
  .IP
  This event is sent to clients that have included
  .PN FontListChangeMask 
  in their event mask whenever the
  list of fonts that are provided by the currently selected
  catalogues has changed.  The ADDED field is True if new
  fonts have been added to any of the catalogues currently
  used by the client, otherwise it is False.  The DELETED
  field is True if any existing fonts have been removed
  from any of catalogues used by the client, otherwise it
  is False.
  .sp
  Additional events may be defined by extensions.
  .NH 1
  Protocol Encoding
  .XS
  \*(SN Protocol Encoding
  .XE
  .LP
  Numbers that are prefixed with ``#x'' are in hexadecimal (base 16).  All other
  numbers are in decimal.  Requests, replies, errors, events, and compound types
  are described using the syntax:
  .RS
  .DS
  .TA .75i .75i .75i .75i
  
      Name
  	\fIcount\fP		\fIcontents\fP	\fIname\fP
  	...
  	\fIcount\fP		\fIcontents\fP	\fIname\fP
  .DE
  .RE
  where COUNT is the number of bytes in the data stream occupied by this 
  field, CONTENTS is the name of the type as given in Section 4 or the value if
  this field contains a constant, and NAME is a description of this field.
  .LP
  Objects containing counted lists use a lowercase single-letter variable (whose
  scope is limited to the request, reply, event, or error in which it is found)
  to represent the number of objects in the list.  These variables, and any
  expressions in which they are used, should be treated as unsigned integers.
  Multiple copies of an object are indicated by CONTENTS prefix ``LISTof''.
  .LP
  Unused bytes (whose value is undefined) will have a blank CONTENTS field and a
  NAME field of ``unused''.  Zeroed bytes (whose value must be zero) will have a
  blank CONTENTS field and a NAME field of ``zero''.  The expression pad(e)
  refers to the number of bytes needed to round a value ``e'' up to the closed
  multiple of four:
  .RS
  .DS
  
  	pad(e) = (4 - (e mod 4)) mod 4
  .DE
  .RE
  .NH 2
  Data Types
  .XS
  \*(SN Data Types
  .XE
  .sp 6p
  .LP
  ACCESSCONTEXT
  .sp 6p
  .TA .75i .75i .75i .75i
  4	CARD32	access context with at least one of the following bits set:
  .sp 6p
  #x1fffffff
  .sp 6p
  but none of the following bits set:
  .sp 6p
  #xe0000000		zero
  .sp 18p
  .LP
  .TS
  tab (@) ;
  l s s
  l l l.
  ALTERNATESERVER
  .sp 6p
  1@BOOL@subset
  1@n@length of name
  n@STRING8@name
  p@@unused, p=pad(n+2)
  .TE
  .sp 6p
  .TS
  tab (@) ;
  l s s
  l l l.
  AUTH
  .sp 6p
  2@n@length of name
  2@d@length of data
  n@STRING8@name
  p@@unused, p=pad(n)
  d@STRING8@data
  q@@unused, q=pad(d)
  .TE
  .sp 12p
  .LP
  BITMAPFORMAT
  .TA .75i .75i .75i .75i
  .sp 6p
  4	CARD32	value, union of the following bits:
  .TS
  tab (@) ;
  n l.
  #x00000001@ByteOrderMSB
  #x00000002@BitOrderMSB
  #x00000000@ImageRectMin
  #x00000004@ImageRectMaxWidth
  #x00000008@ImageRectMax
  #x00000000@ScanlinePad8
  #x00000100@ScanlinePad16
  #x00000200@ScanlinePad32
  #x00000300@ScanlinePad64
  #x00000000@ScanlineUnit8
  #x00001000@ScanlineUnit16
  #x00002000@ScanlineUnit32
  #x00003000@ScanlineUnit64
  .T&
  l s
  n l.
  .sp 6p
  except for the following bits which must be zero:
  .sp 6p
  #xffffccf0@zero
  .T&
  l s
  n l.
  .sp 6p
  and the following of which at most one bit may be set:
  .sp 6p
  #x0000000c@at most one bit can be set
  .TE
  .sp 12p
  .LP
  BITMAPFORMATMASK
  .sp 6p
  .TA .75i .75i .75i .75i
  4	CARD32	value, mask of the following bits:
  .TS
  tab (@) ;
  n l.
  #x00000001@ByteOrderMask
  #x00000002@BitOrderMask
  #x00000004@ImageRectMask
  #x00000008@ScanlinePadMask
  #x00000010@ScanlineUnitMask
  .T&
  l s
  n l.
  .sp 6p
  except for the following bits which must be zero:
  .sp 6p
  #xffffffe0@zero
  .TE
  .sp 12p
  .KS
  .LP
  BOOL
  .sp 6p
  .TA .75i .75i .75i .75i
  1	BOOL	boolean, one of the following values:
  .sp 6p
  		0	False
  .br
  		1	True
  .sp 6p
  .KE
  .sp 18p
  .LP
  BYTE
  .sp 6p
  .TA .75i .75i .75i .75i
  1	BYTE	unsigned byte of data
  .sp 18p
  .LP
  CARD8
  .sp 6p
  .TA .75i .75i .75i .75i
  1	CARD8	8-bit unsigned integer
  .sp 18p
  .LP
  CARD16
  .sp 6p
  .TA .75i .75i .75i .75i
  2	CARD16	16-bit unsigned integer
  .sp 18p
  .LP
  CARD32
  .sp 6p
  .TA .75i .75i .75i .75i
  4	CARD32	32-bit unsigned integer
  .sp 18p
  .LP
  CHAR2B
  .sp 6p
  .TA .75i .75i .75i .75i
  1	CARD8	byte1
  .br
  1	CARD8	byte2
  .sp 18p
  .LP
  EVENTMASK
  .sp 6p
  .TA .75i .75i .75i .75i
  4		CARD32		event mask
  .br
  .TS
  tab (@) ;
  l s
  n l.
  for core events, this is union of the following bits:
  .sp 6p
  #00000001@CatalogueListChangeMask
  #00000002@FontListChangeMask
  .T&
  l s
  n l.
  .sp 6p
  but none of the following bits set:
  .sp 6p
  #fffffffc@
  .TE
  extensions define their own sets of bits
  .sp 18p
  .LP
  FONTID
  .sp 6p
  .TA .75i .75i .75i .75i
  4	CARD32	font identifier with at least one of
  .br
  					the following bits set:
  .TS
  tab (@) ;
  n l.
  #x1fffffff
  .sp 6p
  .T&
  l s
  n l.
  but none of the following bits set:
  .sp 6p
  #xe0000000@zero
  .TE
  .sp 18p
  .LP
  INT8
  .br
  .TA .75i .75i .75i .75i
  1	INT8		8-bit signed integer
  .sp 18p
  .LP
  INT16
  .br
  .TA .75i .75i .75i .75i
  2	INT16	16-bit signed integer
  .sp 18p
  .LP
  INT32
  .br
  .TA .75i .75i .75i .75i
  4	INT32	32-bit signed integer
  .sp 18p
  .LP
  OFFSET32
  .br
  .TA .75i .75i .75i .75i
  4	CARD32	position (or integer value)
  .br
  4	CARD32	length
  .sp 18p
  .LP
  PROPINFO
  .br
  .TA .75i .75i .75i .75i
  4	n			number of PROPOFFSET components
  .br
  4	m			number of bytes of property data
  .br
  20*n	PROPOFFSET	property offsets into data block
  .br
  m	LISTofBYTE	property data block
  .sp 18p
  .LP
  PROPOFFSET
  .br
  .TA .75i .75i .75i .75i
  8	OFFSET32		name in data block
  .br
  8	OFFSET32		value in data block
  .br
  1	CARD8		type, one of the following values:
  .sp 6p
  	0		String
  .br
  	1		Unsigned
  .br
  	2		Signed
  .br
  3			zero
  .sp 18p
  .LP
  RANGE
  .sp 6p
  .TA .75i .75i .75i .75i
  2	CHAR2B	minimum character code
  .br
  2	CHAR2B	maximum character code
  .sp 18p
  .LP
  RESOLUTION
  .sp 6p
  .TA .75i .75i .75i .75i
  2	CARD16	x resolution in pixels per inch
  .br
  2	CARD16	y resolution in pixels per inch
  .br
  2	CARD16	point size in decipoints
  .sp 18p
  .LP
  STRNAME
  .sp 6p
  .TA .75i .75i .75i .75i
  1	n	length of name
  .br
  n	STRING8	name
  .sp 18p
  .LP
  STRING8
  .sp 6p
  .TA .75i .75i .75i .75i
  n	LISTofBYTE	array of 8-bit character values
  .sp 18p
  .LP
  TIMESTAMP
  .sp 6p
  .TA .75i .75i .75i .75i
  4	CARD32	milliseconds since server time origin
  .sp 18p
  .LP
  XCHARINFO
  .sp 6p
  .TA .75i .75i .75i .75i
  2	INT16	left bearing
  .br
  2	INT16	right bearing
  .br
  2	INT16	width
  .br
  2	INT16	ascent
  .br
  2	INT16	descent
  .br
  2	CARD16	attributes
  .sp 18p
  .LP
  XFONTINFO
  .sp 6p
  .TA .75i .75i .75i .75i
  4	CARD32	flags, union of the following bits:
  .TS
  n l.
  #x00000001	AllCharactersExist
  #x00000002	InkInside
  #x00000004	HorizontalOverlap
  .T&
  l s
  n l.
  .sp 6p
  but none of the following bits set:
  .sp 6p
  #xfffffff8	zero
  .TE
  .TA .75i .75i .75i .75i
  4		RANGE		range of characters in font
  .br
  1		CARD8		drawing direction
  .sp 6p
  		0		LeftToRight
  .br
  		1		RightToLeft
  .sp 6p
  1					unused
  .br
  2		CHAR2B		default character
  .br
  12		XCHARINFO	minimum bounds
  .br
  12		XCHARINFO	maximum bounds
  .br
  2		INT16		font ascent
  .br
  2		INT16		font descent
  .br
  n		PROPINFO		property data
  .NH 2
  Requests
  .XS
  \*(SN Requests
  .XE
  .LP
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  open connection
  .sp 6p
  1@BYTE@byte order, one of the values:
  @#x42@Most Significant Byte first
  @#x6c@Least Significant Byte first
  1@CARD8@number of auth in auth-data
  2@2@client-major-protocol-version
  2@0@client-minor-protocol-version
  2@a/4@length of auth-data
  a@LISTofAUTH@auth-data
  =>@@
  2@CARD16@status
  @0@Success
  @1@Continue
  @2@Busy
  @3@Denied
  2@2@major version
  2@0@minor version
  1@CARD8@number of alternate-servers-hint
  1@CARD8@authorization-index
  2@a/4@length of alternate-servers-hint
  2@(d+q)/4@length of authorization-data
  a@LISTofALTERNATESERVER@alternate-servers-hint
  d@LISTofBYTE@authorization-data
  q@@unused, q=pad(d)
  .TE
  .LP
  If STATUS is Busy or Denied, the protocol stops and
  the connection is closed.  If STATUS is Continue, the 
  client is expected to respond with additional data, to 
  which the server responds with a new status value and 
  more data.  This dialog continues until the status is 
  set to Success, or until the server sets STATUS to Busy 
  or Denied and closes the connection:
  .LP
  .TS
  tab (@) ;
  lw(.25i) lw(2i) l.
  ->
  4@1+(d+q)/4@length
  d@LISTofBYTE@more-authorization-data
  q@@unused, q=pad(d)
  =>
  4@2+(d+q)/4@length
  2@CARD16@status
  @0@Success
  @1@Continue
  @2@Busy
  @3@Denied
  2@@unused
  d@LISTofBYTE@more-authorization-data
  q@@unused, q=pad(d)
  .TE
  .LP
  When STATUS is Success, the protocol resumes with the
  following sent by the server:
  .LP
  .TS
  tab (@) ;
  lw(.25i) lw(2i) l.
  4@3+(v+w)/4@length of rest of data
  2@CARD16@maximum-request-length
  2@v@length of vendor string
  4@CARD32@release-number
  v@STRING8@vendor-string
  w@@unused, w=pad(v)
  .TE
  .LP
  Once the connection has been established, the client may send the
  following requests:
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  NoOp
  .sp 6p
  1@0@major-opcode
  1@@unused
  2@1@length
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  ListExtensions
  1@1@major-opcode
  1@@unused
  2@1@length
  =>
  1@0@type reply
  1@CARD8@number of names
  2@CARD16@sequence-number
  4@2+(n+p)/4@length
  n@LISTofSTRNAME@names
  p@@unused, p=pad(n)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  QueryExtension
  .sp 6p
  1@2@major-opcode
  1@n@length of name
  2@1+(n+p)/4@length
  n@STRING8@name
  p@@unused, p=pad(n)
  =>
  1@0@type reply
  1@BOOL@present
  2@CARD16@sequence-number
  4@5@length
  2@CARD16@major-version
  2@CARD16@minor-version
  1@CARD8@major-opcode
  1@CARD8@first-event
  1@CARD8@number-events
  1@CARD8@first-error
  1@CARD8@number-errors
  3@@unused
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  ListCatalogues
  1@3@major-opcode
  1@@unused
  2@3+(n+p)/4@length
  4@CARD32@max-names
  2@n@length of pattern
  2@@unused
  n@STRING8@pattern
  p@@unused, p=pad(n)
  =>+
  1@0@type reply
  1@@unused
  2@CARD16@sequence-number
  4@4+(n+p)/4@length
  4@CARD32@replies-following-hint
  4@CARD32@number of catalogue-names
  n@LISTofSTRNAME@catalogue-names
  p@@unused, p=pad(n)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  SetCatalogues
  1@4@major-opcode
  1@CARD8@number of catalogue-names
  2@1+(n+p)/4@length
  n@LISTofSTRNAME@catalogue-names
  p@@unused, p=pad(n)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  GetCatalogues
  .sp 6p
  1@5@major-opcode
  1@@unused
  2@1@length
  =>
  1@0@type reply
  1@CARD8@number of catalogue-names
  2@CARD16@sequence-number
  4@2+(n+p)/4@length
  n@LISTofSTRNAME@catalogue-names
  p@@unused, p=pad(n)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  SetEventMask
  .sp 6p
  1@6@major-opcode
  1@CARD8@extension-opcode
  2@2@length
  4@EVENTMASK@event-mask
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  GetEventMask
  .sp 6p
  1@7@major-opcode
  1@CARD8@extension-opcode
  2@1@length
  =>
  1@0@type reply
  1@@unused
  2@CARD16@sequence-number
  4@3@length
  4@EVENTMASK@event-mask
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  CreateAC
  .sp 6p
  1@8@major-opcode
  1@CARD8@number of authorization-protocols
  2@2+a/4@length
  4@ACCESSCONTEXT@ac
  a@LISTofAUTH@authorization-protocols
  =>
  1@0@type reply
  1@CARD8@authorization-index
  2@CARD16@sequence-number
  4@3+(d+q)/4@length
  2@CARD16@status
  @0@Success
  @1@Continue
  @2@Busy
  @3@Denied
  2@@unused
  d@LISTofBYTE@authorization-data
  q@@unused, q=pad(d)
  .TE
  .LP
  If STATUS is Continue, the client is expected to respond
  with additional data, to which the server responds with
  a new status value and more data.  This dialog continues
  until the status is set to Success, Busy, or Denied at
  which point the request is finished.
  .LP
  .TS
  tab (@) ;
  lw(.25i) lw(2i) l.
  ->
  4@1+(d+q)/4@length
  d@LISTofBYTE@more-authorization-data
  q@@unused, q=pad(d)
  =>
  4@2+(d+q)/4@length
  2@CARD16@status
  @0@Success
  @1@Continue
  @2@Busy
  @3@Denied
  2@@unused
  d@LISTofBYTE@authorization-data
  q@@unused, q=pad(d)
  .TE
  .sp 12p
  .ne 3
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  FreeAC
  .sp 6p
  1@9@major-opcode
  1@@unused
  2@2@length
  4@ACCESSCONTEXT@ac
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  SetAuthorization
  .sp 6p
  1@10@major-opcode
  1@@unused
  2@2@length
  4@ACCESSCONTEXT@ac
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  SetResolution
  .sp 6p
  1@11@major-opcode
  1@n@number of resolutions
  2@1+(6*n+p)/4@length
  6*n@LISTofRESOLUTION@resolutions
  p@p=pad(6*n)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  GetResolution
  .sp 6p
  1@12@major-opcode
  1@@unused
  2@1@length
  =>
  1@0@type reply
  1@n@number of resolutions
  2@CARD16@sequence-number
  4@2+(6*n+p)/4@length
  6*n@LISTofRESOLUTION@resolutions
  p@@p=pad(6*n)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  ListFonts
  .sp 6p
  1@13@major-opcode
  1@@unused
  2@3+(n+p)/4@length
  4@CARD32@max-names
  2@n@length of pattern
  2@@unused
  n@STRING8@pattern
  p@@unused, p=pad(n)
  =>+
  1@0@type reply
  1@@unused
  2@CARD16@sequence-number
  4@4+(n+p)/4@length
  4@CARD32@replies-following-hint
  4@CARD32@number of font-names
  n@LISTofSTRNAME@font-names
  p@@unused, p=pad(n)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  ListFontsWithXInfo
  .sp 6p
  1@14@major-opcode
  1@@unused
  2@3+(n+p)/4@length
  4@CARD32@max-names
  2@n@length of pattern
  2@@unused
  n@STRING8@pattern
  p@@unused, p=pad(n)
  .T&
  l s s
  lw(.25i) lw(2i) l.
  =>+(except for last in series)
  1@0@type reply
  1@n@length of name
  2@CARD16@sequence-number
  4@3+(n+p+f)/4@length
  4@CARD32@replies-hint
  f@XFONTINFO@font info
  n@STRING8@name
  p@@unused, p=pad(n)
  @@@
  .T&
  l s s
  lw(.25i) lw(2i) l.
  =>(last in series)
  1@0@type reply
  1@0@last-reply indicator
  2@CARD16@sequence-number
  4@2@reply length
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  OpenBitmapFont
  .sp 6p
  1@15@major-opcode
  1@@unused
  2@4+(n+p)/4@length
  4@FONTID@fontid
  4@BITMAPFORMATMASK@format-mask
  4@BITMAPFORMAT@format
  n@STRNAME@pattern
  p@@unused, p=pad(n)
  =>
  1@0@type reply
  1@BOOL@otherid-valid
  2@CARD16@sequence-number
  4@4@length
  4@FONTID@otherid
  1@BOOL@cachable
  3@@unused
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  QueryXInfo
  .sp 6p
  1@16@major-opcode
  1@@unused
  2@2@length
  4@FONTID@fontid
  =>
  1@0@type reply
  1@@unused
  2@CARD16@sequence-number
  4@2+f/4@length
  f@XFONTINFO@font info
  p@@unused, p=pad(f\^)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  QueryXExtents8
  .sp 6p
  1@17@major-opcode
  1@BOOL@range
  2@3+(n+p)/4@length
  4@FONTID@fontid
  4@n@number chars entries
  n@STRING8@chars
  p@@unused, p=pad(n)
  =>
  1@0@type reply
  1@@unused
  2@CARD16@sequence-number
  4@3+3*n@length
  4@n@number of extents
  12*n@LISTofXCHARINFO@extents
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  QueryXExtents16
  .sp 6p
  1@18@major-opcode
  1@BOOL@range
  2@3+(2*n+p)/4@length
  4@FONTID@fontid
  4@n@number chars entries
  2*n@LISTofCHAR2B@chars
  p@@unused, p=pad(2*n)
  =>
  1@0@type reply
  1@@unused
  2@CARD16@sequence-number
  4@3+3*n@length
  4@n@number of extents
  12*n@LISTofXCHARINFO@extents
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  QueryXBitmaps8
  .sp 6p
  1@19@major-opcode
  1@BOOL@range
  2@4+(n+p)/4@length
  4@FONTID@fontid
  4@BITMAPFORMAT@format
  4@n@number of chars entries
  n@STRING8@chars
  p@@unused, p=pad(n)
  =>+
  1@0@type reply
  1@@unused
  2@CARD16@sequence-number
  4@5+2*n+(m+p)/4@length
  4@CARD32@replies-following-hint
  4@n@number of offsets
  4@m@number of bytes of glyph images
  8*n@LISTofOFFSET32@offsets
  m@LISTofBYTE@glyph images
  p@@unused, p=pad(m)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  QueryXBitmaps16
  .sp 6p
  1@20@major-opcode
  1@BOOL@range
  2@4+(2*n+p)/4@length
  4@FONTID@fontid
  4@BITMAPFORMAT@format
  4@n@number of chars entries
  2*n@LISTofCHAR2B@chars
  p@@unused, p=pad(2*n)
  =>
  1@0@type reply
  1@@unused
  2@CARD16@sequence-number
  4@5+2*n+(m+p)/4@length
  4@CARD32@replies-following-hint
  4@n@number of offsets
  4@m@number of bytes of glyph images
  8*n@LISTofOFFSET32@offsets
  m@LISTofBYTE@glyph images
  p@@unused, p=pad(m)
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  lw(.25i) lw(2i) l.
  CloseFont
  .sp 6p
  1@21@major-opcode
  1@@unused
  2@2@length
  4@FONTID@fontid
  .TE
  .NH 2
  Errors
  .XS
  \*(SN Errors
  .XE
  .LP
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Request
  .sp 6p
  1@1@type error
  1@0@Request
  2@CARD16@sequence-number
  4@4@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Format
  .sp 6p
  1@1@type error
  1@1@Format
  2@CARD16@sequence-number
  4@5@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  4@BITMAPFORMAT@bad-format
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Font
  .sp 6p
  1@1@type error
  1@2@Font
  2@CARD16@sequence-number
  4@5@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  4@FONTID@bad-fontid
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Range
  .sp 6p
  1@1@type error
  1@3@Range
  2@CARD16@sequence-number
  4@5@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  4@RANGE@bad-range
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  EventMask
  .sp 6p
  1@1@type error
  1@4@EventMask
  2@CARD16@sequence-number
  4@5@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  4@EVENTMASK@event-mask
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  AccessContext
  .sp 6p
  1@1@type error
  1@5@AccessContext
  2@CARD16@sequence-number
  4@5@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  4@ACCESSCONTEXT@access context
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  IDChoice
  .sp 6p
  1@1@type error
  1@6@IDChoice
  2@CARD16@sequence-number
  4@5@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  4@FONTID@bad-fontid
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Name
  .sp 6p
  1@1@type error
  1@7@Name
  2@CARD16@sequence-number
  4@4@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Resolution
  .sp 6p
  1@1@type error
  1@8@Resolution
  2@CARD16@sequence-number
  4@5@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  6@RESOLUTION@resolution
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Alloc
  .sp 6p
  1@1@type error
  1@9@Alloc
  2@CARD16@sequence-number
  4@4@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Length
  .sp 6p
  1@1@type error
  1@10@Length
  2@CARD16@sequence-number
  4@5@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  4@CARD32@bad-length
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  Implementation
  .sp 6p
  1@1@type error
  1@11@Implementation
  2@CARD16@sequence-number
  4@4@length
  4@TIMESTAMP@timestamp
  1@CARD8@major-opcode
  1@CARD8@minor-opcode
  2@@unused
  .TE
  .NH 2
  Events
  .XS
  \*(SN Events
  .XE
  .LP
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  KeepAlive
  .sp 6p
  1@2@type event
  1@0@event KeepAlive
  2@CARD16@sequence-number
  4@3@length
  4@TIMESTAMP@timestamp
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  CatalogueListNotify
  .sp 6p
  1@2@type event
  1@1@event CatalogueListNotify
  2@CARD16@sequence-number
  4@4@length
  4@TIMESTAMP@timestamp
  1@BOOL@added
  1@BOOL@deleted
  2@@unused
  .TE
  .sp 12p
  .TS
  tab (@) ;
  lfB s s
  n lw(2i) l.
  FontListNotify
  .sp 6p
  1@2@type event
  1@2@event FontListNotify
  2@CARD16@sequence-number
  4@4@length
  4@TIMESTAMP@timestamp
  1@BOOL@added
  1@BOOL@deleted
  2@@unused
  .TE
  .NH 1
  Acknowledgements
  .XS
  \*(SN Acknowledgements
  .XE
  .LP
  This document represents the culmination of several years of debate and
  experiments done under the auspices of the MIT X Consortium font working group.
  Although this was a group effort, the author remains responsible for any errors
  or omissions.  The protocol presented here was primarily designed by Jim
  Fulton, Keith Packard, and Bob Scheifler.  Special thanks goes to Ned
  Batchelder, Jim Flowers, and Axel Deininger for their invigorating comments
  which never failed to make this a better document.
  Stephen Gildea edited version 2 of this document.
  Finally, David Lemke 
  deserves great credit for designing and coding the sample implementation.
  .NH 1
  References
  .XS
  \*(SN References
  .XE
  .LP
  All of the following documents are X Consortium standards available from
  the X Consortium.
  .LP
  [1]  Scheifler, Robert W.  ``X Window System Protocol Version 11''
  .LP
  [2]  Adobe Systems.  ``Bitmap Distribution Format 2.1''
  .LP
  [3]  X Consortium.  ``X Logical Font Description Conventions, Version 1.5''
  .bp
  .XS
  Appendix A \- Suggested Licensing Policies
  .XE
  .ce 10
  .sp 5
  \s+2\fBAppendix A\fP\s-2
  .sp 
  \s+1\fBSuggested Licensing Policies\fP\s-1
  .ce 0
  .sp
  .LP
  The authorization data passed by the client in the initial connection
  setup information may be used by the font server to implement restrictions
  on which fonts may be accessed.  Furthermore, the font server is free to
  refuse new connections at any time.
  .LP
  Configuration or management of the license restrictions is outside the scope of
  the font service protocol and is done in a server-dependent manner.  Possible
  policies might include, but are not limited to, combinations of the following:
  .IP "a."
  No restrictions - anyone may access any fonts.  The server neither
  refuses any connections nor generates AccessContext errors on any 
  fonts.  For environments without specially-licensed fonts, this is
  sufficient.
  .IP "b."
  Per-machine - only those clients connecting from a known set of
  machines are permitted access.  The server could get the address 
  of the connection and look in a list of allowed machines. 
  .IP "c."
  Per-user - only a known set of users may access the fonts.  The
  server can use the authorization data (such as a Kerberos ticket
  or a Secure RPC credential) to verify the identity of the user
  and then look in a list of allowed users.
  .IP "d."
  Simultaneous Use - only a certain number of clients may use a given
  font at any one time.  Additional clients would receive AccessContext
  errors if they attempt to open the font.  This is only effective if
  the initial clients keep the font open for the entire time that it
  is being used (even if all of the data has been transmitted and is
  being cached).
  .IP "e."
  Postage Meter - a particular font may only be accessed a limited
  number of times before its license must be renewed.  Each time
  the font is opened, the server decrements a counter.  When the
  counter reaches zero, all further attempts to open the font
  return an AccessContext error.
  .LP
  It should be noted that chaining of font servers (obtaining font data from
  other font servers) may conflict with certain license policies.
  .bp
  .XS
  Appendix B \- Implementation Suggestions
  .XE
  .sp 5
  .ce 10
  \s+2\fBAppendix B\fP\s-2
  .sp 
  \s+1\fBImplementation Suggestions\s-1\fP
  .ce 0
  .sp
  .LP
  Font server implementations will probably wish to use techniques such as the
  following to avoid limits on the number of simultaneous connections:
  .IP "a."
  The initial connection information returned by the font
  server contains the names of other font servers that 
  may be used as substitutes.  A font server may refuse to
  accept a connection, indicating that the client should
  try one of the alternatives instead.
  .IP "b."
  On operating systems that support processing forking, font
  servers might choose to fork so that the child can continue
  processing the existing connections and the parent can accept
  new connections.  Such implementations are encouraged to use
  shared memory so that in-memory font databases can be shared.
  .IP "c."
  On operating systems that support passing stream file descriptors
  between processes, cooperating font servers could collect
  connections in a single process when there are few connections
  and spread them among several processes as the load increases.
  .IP "d."
  If a font client is unable to connect to a server (as opposed
  to having the connection terminated), it should retry for an
  implementation-dependent length of time (see Xlib's 
  handling of ECONNREFUSED in XConnDis.c).
  .\"
  .\" print Table of Contents page
  .if o .bp \" blank page to make count even
  .bp 1
  .af PN i
  .PX