/* * Type definitions and Connection State for the X11 protocol * * James Peterson, 1988 * * Copyright (C) 1988 MCC * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of MCC not be used in * advertising or publicity pertaining to distribution of the software without * specific, written prior permission. MCC makes no * representations about the suitability of this software for any purpose. It * is provided "as is" without express or implied warranty. * * MCC DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL MCC BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. * */ /* * Copyright (c) 2002, Oracle and/or its affiliates. All rights reserved. * * 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: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * 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 AUTHORS OR COPYRIGHT HOLDERS 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. * */ #ifndef XSCOPE_X11_H #define XSCOPE_X11_H #include /* Some field contents are constants, not just types */ #define CONST1(n) CARD8 #define CONST2(n) CARD16 #define CONST4(n) CARD32 /* Some field contents define the components of an expression */ #define DVALUE1(expression) CARD8 #define DVALUE2(expression) CARD16 #define DVALUE4(expression) CARD32 /* ************************************************************ */ /* */ /* */ /* ************************************************************ */ /* Built-in Types */ #define BYTE 1 /* 8-bit value */ #define INT8 2 /* 8-bit signed integer */ #define INT16 3 /* 16-bit signed integer */ #define INT32 4 /* 32-bit signed integer */ #define CARD8 5 /* 8-bit unsigned integer */ #define CARD16 6 /* 16-bit unsigned integer */ #define CARD32 7 /* 32-bit unsigned integer */ #define STRING8 8 /* List of CARD8 */ #define STRING16 9 /* List of CHAR2B */ #define TEXTITEM8 10 /* STRING8 or Font shift */ #define TEXTITEM16 11 /* STRING16 or Font shift */ #define WINDOW 12 /* CARD32 plus 0 = None */ #define WINDOWD 13 /* CARD32 plus 0 = PointerWindow, 1 = InputFocus */ #define WINDOWNR 14 /* CARD32 plus 0 = None, 1 = PointerRoot */ #define PIXMAP 15 /* CARD32 plus 0 = None */ #define PIXMAPNPR 16 /* CARD32 plus 0 = None, 1 = ParentRelative */ #define PIXMAPC 17 /* CARD32 plus 0 = CopyFromParent */ #define CURSOR 18 /* CARD32 plus 0 = None */ #define FONT 19 /* CARD32 plus 0 = None */ #define GCONTEXT 20 /* CARD32 */ #define COLORMAP 21 /* CARD32 plus 0 = None */ #define COLORMAPC 22 /* CARD32 plus 0 = CopyFromParent */ #define DRAWABLE 23 /* CARD32 */ #define FONTABLE 24 /* CARD32 */ #define ATOM 25 /* CARD32 plus 0 = None */ #define ATOMT 26 /* CARD32 plus 0 = AnyPropertyType */ #define VISUALID 27 /* CARD32 plus 0 = None */ #define VISUALIDC 28 /* CARD32 plus 0 = CopyFromParent */ #define TIMESTAMP 29 /* CARD32 plus 0 as the current time */ #define RESOURCEID 30 /* CARD32 plus 0 = AllTemporary */ #define KEYSYM 31 /* CARD32 */ #define KEYCODE 32 /* CARD8 */ #define KEYCODEA 33 /* CARD8 plus 0 = AnyKey */ #define BUTTON 34 /* CARD8 */ #define BUTTONA 35 /* CARD8 plus 0 = AnyButton */ #define EVENTFORM 36 /* event format */ #define CHAR8 37 /* CARD8 interpreted as a character */ #define STR 38 /* String of CHAR8 with preceding length */ /* ************************************************************ */ /* */ /* */ /* ************************************************************ */ /* Defined types */ #define BITGRAVITY 40 #define WINGRAVITY 41 #define BOOL 42 #define HOSTFAMILY 43 #define PK_MODE 44 #define NO_YES 45 #define WINDOWCLASS 46 #define BACKSTORE 47 #define MAPSTATE 48 #define STACKMODE 49 #define CIRMODE 50 #define CHANGEMODE 51 #define GRABSTAT 52 #define EVENTMODE 53 #define FOCUSAGENT 54 #define DIRECT 55 #define GCFUNC 56 #define LINESTYLE 57 #define CAPSTYLE 58 #define JOINSTYLE 59 #define FILLSTYLE 60 #define FILLRULE 61 #define SUBWINMODE 62 #define ARCMODE 63 #define RECTORDER 64 #define COORMODE 65 #define POLYSHAPE 66 #define IMAGEMODE 67 #define ALLORNONE 68 #define OBJECTCLASS 69 #define OFF_ON 70 #define INS_DEL 71 #define DIS_EN 72 #define CLOSEMODE 73 #define SAVEMODE 74 #define RSTATUS 75 #define MOTIONDETAIL 76 #define ENTERDETAIL 77 #define BUTTONMODE 78 #define SCREENFOCUS 79 #define VISIBLE 80 #define CIRSTAT 81 #define PROPCHANGE 82 #define CMAPCHANGE 83 #define MAPOBJECT 84 #define SETofEVENT 85 #define SETofPOINTEREVENT 86 #define SETofDEVICEEVENT 87 #define SETofKEYBUTMASK 88 #define SETofKEYMASK 89 #define WINDOW_BITMASK 90 #define CONFIGURE_BITMASK 91 #define GC_BITMASK 92 #define KEYBOARD_BITMASK 93 #define COLORMASK 94 #define CHAR2B 95 #define POINT 96 #define RECTANGLE 97 #define ARC 98 #define HOST 99 #define TIMECOORD 100 #define FONTPROP 101 #define CHARINFO 102 #define SEGMENT 103 #define COLORITEM 104 #define RGB 105 #define BYTEMODE 110 #define BYTEORDER 111 #define COLORCLASS 112 #define FORMAT 113 #define SCREEN 114 #define DEPTH 115 #define VISUALTYPE 116 #define REQUEST 117 #define REPLY 118 #define ERROR 119 #define EVENT 120 #define LBXREQUEST 121 #define LBXREPLY 122 #define LBXEVENT 123 #define LBXERROR 124 #define NASREQUEST 125 #define NASREPLY 126 #define NASEVENT 127 #define NASERROR 128 #define WCPREQUEST 129 #define WCPREPLY 130 #define WCPERROR 131 #define RENDERREQUEST 132 #define RENDERREPLY 133 #define RENDERERROR 134 #define PICTURE 135 #define PICTFORMAT 136 #define PICTURE_BITMASK 137 #define PICTOP 138 #define GLYPHSET 139 #define RENDERCOLOR 140 #define PICTFORMINFO 141 #define TRAPEZOID 142 #define TRIANGLE 143 #define POINTFIXED 144 #define FIXED 145 #define FILTERALIAS 146 #define RENDERTRANSFORM 147 #define SUBPIXEL 148 #define RANDRREQUEST 150 #define RANDRREPLY 151 #define RANDRERROR 152 #define MITSHMREQUEST 153 #define MITSHMREPLY 154 #define MITSHMEVENT 155 #define MITSHMERROR 156 #define BIGREQREQUEST 157 #define BIGREQREPLY 158 #define EXTENSION 159 #define GLXREQUEST 160 #define GLXREPLY 161 #define GLXEVENT 162 #define GLXERROR 163 /* More RandR */ #define SETofRREVENT 164 #define SETofROTATION 165 #define SCREENSIZE 166 #define REFRESH 167 #define SETofMODEFLAG 168 #define MODEINFO 169 #define MODE 170 /* XID/CARD32 plus 0 = None */ #define CRTC 171 /* XID/CARD32 plus 0 = None */ #define OUTPUT 172 /* XID/CARD32 plus 0 = None */ #define RANDREVENT 173 /* minor event code for RandR event base+1 */ #define CONNECTION 174 #define SETofPROVIDER_CAPS 175 #define MaxTypes 256 /* ************************************************************ */ /* */ /* */ /* ************************************************************ */ /* Type Definition Table Each item in the X11 Protocol has a type. There are about 120 different types. We need to be able to print each item in a format and interpretation which is appropriate for the type of that item. To do so, we build a table describing each type. Each type has a name, possibly a list of named values and a procedure which knows how to print that type. */ /* Types of Types */ #define BUILTIN 1 #define ENUMERATED 2 #define SET 3 #define RECORD 5 /* Enumerated and Set types need a list of Named Values */ struct ValueListEntry { struct ValueListEntry *Next; const char *Name; short Type; short Length; long Value; }; typedef int (*PrintProcType) (const unsigned char *); struct TypeDef { const char *Name; short Type; /* BUILTIN, ENUMERATED, SET, or RECORD */ struct ValueListEntry *ValueList; PrintProcType PrintProc; }; typedef struct TypeDef *TYPE; extern struct TypeDef TD[MaxTypes]; /* ************************************************************ */ /* */ /* */ /* ************************************************************ */ /* declaration of the existance of print routines for the basic types */ extern int PrintINT8(const unsigned char *buf); extern int PrintINT16(const unsigned char *buf); extern int PrintINT32(const unsigned char *buf); extern int PrintCARD8(const unsigned char *buf); extern int PrintCARD16(const unsigned char *buf); extern int PrintCARD32(const unsigned char *buf); extern int PrintBYTE(const unsigned char *buf); extern int PrintCHAR8(const unsigned char *buf); extern int PrintSTRING16(const unsigned char *buf); extern int PrintTEXTITEM8(const unsigned char *buf); extern int PrintTEXTITEM16(const unsigned char *buf); extern int PrintSTR(const unsigned char *buf); extern int PrintWINDOW(const unsigned char *buf); extern int PrintWINDOWD(const unsigned char *buf); extern int PrintWINDOWNR(const unsigned char *buf); extern int PrintPIXMAP(const unsigned char *buf); extern int PrintPIXMAPNPR(const unsigned char *buf); extern int PrintPIXMAPC(const unsigned char *buf); extern int PrintCURSOR(const unsigned char *buf); extern int PrintFONT(const unsigned char *buf); extern int PrintGCONTEXT(const unsigned char *buf); extern int PrintCOLORMAP(const unsigned char *buf); extern int PrintCOLORMAPC(const unsigned char *buf); extern int PrintDRAWABLE(const unsigned char *buf); extern int PrintFONTABLE(const unsigned char *buf); extern int PrintATOM(const unsigned char *buf); extern int PrintATOMT(const unsigned char *buf); extern int PrintVISUALID(const unsigned char *buf); extern int PrintVISUALIDC(const unsigned char *buf); extern int PrintTIMESTAMP(const unsigned char *buf); extern int PrintRESOURCEID(const unsigned char *buf); extern int PrintKEYSYM(const unsigned char *buf); extern int PrintKEYCODE(const unsigned char *buf); extern int PrintKEYCODEA(const unsigned char *buf); extern int PrintBUTTON(const unsigned char *buf); extern int PrintBUTTONA(const unsigned char *buf); extern int PrintEVENTFORM(const unsigned char *buf); extern int PrintEVENT(const unsigned char *buf); extern int PrintENUMERATED(const unsigned char *buf, short length, struct ValueListEntry *ValueList); extern int PrintSET(const unsigned char *buf, short length, struct ValueListEntry *ValueList); /* ************************************************************ */ /* */ /* */ /* ************************************************************ */ /* Reply Buffer: Pseudo-buffer used to provide the opcode for the request to which this is a reply: Set by DecodeReply and used in the PrintField of the Reply procedure */ extern unsigned char RBf[2]; /* Sequence Buffer: Pseudo-buffer used to provide the sequence number for a request: Set by DecodeReply and used in a PrintField of the Request procedure */ extern unsigned char SBf[4]; #define PRINTSERVER 5 /* indent output as if it comes from server */ #define PRINTCLIENT 1 /* indent output as if it comes from client */ /* ************************************************************ */ /* */ /* */ /* ************************************************************ */ /* In general, we are called with a buffer of bytes and are supposed to try to make sense of these bytes according to the X11 protocol. There are two different types of communication: requests from the client to the server and replies/errors/events from the server to the client. We must interpret these two differently. Also, we must consider that the bytes on the communication socket may be sent asynchronously in any amount. This means that we must be prepared to read in and save some bytes until we get enough to do something with them. For example, suppose that we get a buffer from a client. We would expect it to be a request. The request may be 24 bytes long. We may find, however, that only 16 bytes have actually arrived -- the other 8 are stuck in a buffer somewhere. We must be prepared to simply hold the 16 bytes we have until more bytes arrive. In general, we do two things: we wait for some number of bytes, and then we interpret this set of bytes. To interpret this data we use a modified state machine. We keep two pieces of information: (1) the number of bytes that we need (2) what to do with those bytes. This last piece of information is the "state" of the interpretation. We keep the state as a pointer to the procedure that is to be executed. CLIENTS: The data going from the client to the x11 server consists of a set-up message followed by an infinite stream of variable length requests. Our overall flow is then: (a) Wait for 12 bytes. (b) Interpret these first 12 bytes of the set-up message to get the length of the rest of the message. (c) Wait for the rest of the set-up message. (d) Interpret and print the set-up message. *** end of set-up phase -- start normal request loop *** (e) Wait for 4 bytes. (f) Interpret these 4 bytes to get the length of the rest of the command. (g) Wait for the rest of the command. (h) Interpret and print the command. (i) Go back to step (e). SERVERS: Again, we have a set-up reply followed by an infinite stream of variable length replies/errors/events. Our overall flow is then: (a) Wait for 8 bytes. (b) Interpret the 8 bytes to get the length of the rest of the set-up reply. (c) Wait for the rest of the set-up reply. (d) Interpret and print the set-up reply. *** end of set-up phase -- start normal reply/error/event loop *** We have the following properties of X11 replies, errors, and events: Replies: 32 bytes plus a variable amount. Byte 0 is 1. Bytes 2-3 are a sequence number; bytes 4-7 are length (n). The complete length of the reply is 32 + 4 * n. Errors: 32 bytes. Byte 0 is 0. Byte 1 is an error code; bytes 2-3 are a sequence number. Bytes 8-9 are a major opcode; byte 10 is a minor opcode. Events: 32 bytes. Byte 0 is 2, 3, 4, .... Looking at this we have two choices: wait for one byte and then separately wait for replies, errors, and events, or wait for 32 bytes, then separately process each type. We may have to wait for more, in the event of a reply. This latter seems more effective. It appears reply/error/event formats were selected to allow waiting for 32 bytes, and it will allow short packets which are only 32 bytes long, to be processed completely in one step. Thus, For normal reply/error/event processing we have (e) Wait for 32 bytes. (f) Interpret these 32 bytes. If possible, go back to step (e). (g) If the packet is a reply with bytes 4-7 non-zero, wait for the remainder of the the reply. (h) Interpret and print the longer reply. Go back to step (e). The similarity in approach to how both the client and server are handled suggests we can use the same control structure to drive the interpretation of both types of communication client->server and server->client. Accordingly, we package up the relevant variables in a ConnState record. The ConnState record contains the buffer of saved bytes (if any), the size and length of this buffer, the number of bytes we are waiting for and what to do when we get them. A separate ConnState record is kept for the client and server. In addition, we may have several different client or server connections. Thus we need an array of all the necessary state for each client or server. A client/server is identified with a file descriptor (fd), so we use the fd to identify the client/server and use it as an index into an array of state variables. */ struct ConnState { unsigned char *SavedBytes; int littleEndian; int bigreqEnabled; long requestLen; long SizeofSavedBytes; long NumberofSavedBytes; long NumberofBytesNeeded; long NumberofBytesProcessed; long (*ByteProcessing) (FD fd, const unsigned char *buf, long n); long SequenceNumber; }; #undef CS /* avoid conflicts with Solaris #define of CS */ extern struct ConnState *CS; typedef struct _Value { struct _Value *next; uint32_t key; int size; uint32_t *values; } ValueRec, *ValuePtr; extern ValuePtr GetValueRec(uint32_t key); extern void CreateValueRec(uint32_t key, int size, const uint32_t *def); extern void DeleteValueRec(uint32_t key); extern void SetValueRec(uint32_t key, const unsigned char *control, short clength, short ctype, const unsigned char *values); extern void PrintValueRec(uint32_t key, uint32_t cmask, short ctype); /* ************************************************************ */ /* */ /* */ /* ************************************************************ */ /* we will need to be able to interpret the values stored in the requests as various built-in types. The following routines support the types built into X11 */ static inline long pad(long n) { /* round up to next multiple of 4 */ return ((n + 3) & ~0x3); } static inline uint32_t ILong(const unsigned char buf[]) { /* check for byte-swapping */ if (littleEndian) return ((buf[3] << 24) | (buf[2] << 16) | (buf[1] << 8) | buf[0]); return ((buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]); } static inline uint16_t IShort(const unsigned char buf[]) { /* check for byte-swapping */ if (littleEndian) return (buf[1] << 8) | buf[0]; return ((buf[0] << 8) | buf[1]); } static inline uint16_t IChar2B(const unsigned char buf[]) { /* CHAR2B is like an IShort, but not byte-swapped */ return ((buf[0] << 8) | buf[1]); } static inline uint8_t IByte(const unsigned char buf[]) { return (buf[0]); } static inline Boolean IBool(const unsigned char buf[]) { if (buf[0] != 0) return (true); else return (false); } /* ************************************************************ */ /* */ /* */ /* ************************************************************ */ /* declaration of the types of some common functions */ extern int PrintString8(const unsigned char *buf, int number, const char *name); extern int PrintString16(const unsigned char *buf, int number, const char *name); extern void PrintTString8(const unsigned char *buf, long number, const char *name); extern void PrintTString16(const unsigned char *buf, long number, const char *name); extern long PrintList(const unsigned char *buf, long number, short ListType, const char *name); extern long PrintListSTR(const unsigned char *buf, long number, const char *name); extern const char *REQUESTHEADER, *EVENTHEADER, *ERRORHEADER, *REPLYHEADER; #define GC_function 0x00000001L #define GC_plane_mask 0x00000002L #define GC_foreground 0x00000004L #define GC_background 0x00000008L #define GC_line_width 0x00000010L #define GC_line_style 0x00000020L #define GC_cap_style 0x00000040L #define GC_join_style 0x00000080L #define GC_fill_style 0x00000100L #define GC_fill_rule 0x00000200L #define GC_tile 0x00000400L #define GC_stipple 0x00000800L #define GC_tile_stipple_x_origin 0x00001000L #define GC_tile_stipple_y_origin 0x00002000L #define GC_font 0x00004000L #define GC_subwindow_mode 0x00008000L #define GC_graphics_exposures 0x00010000L #define GC_clip_x_origin 0x00020000L #define GC_clip_y_origin 0x00040000L #define GC_clip_mask 0x00080000L #define GC_dash_offset 0x00100000L #define GC_dashes 0x00200000L #define GC_arc_mode 0x00400000L /* must be called BEFORE printreqlen increments buf */ static inline uint32_t getreqlen(FD fd, const unsigned char *buf) { uint32_t reqlen = IShort(&buf[2]); /* Check for big request */ if (reqlen == 0 && CS[(fd)].bigreqEnabled) reqlen = ILong(&buf[4]); return reqlen; } /* prints request length, and if the request is a big request, adjusts the buf pointer to skip over the extra large size field */ #define printreqlen(buf, fd, dvalue) \ do { \ if (IShort(&(buf)[2]) == 0 && CS[(fd)].bigreqEnabled) { \ printfield (buf, 4, 4, CARD32, "request length"); \ buf += 4; \ } else { \ printfield (buf, 2, 2, CARD16, "request length"); \ } \ } while (0) /* Constant defined in Generic Event Protocol 1.0 for event type */ #define Event_Type_Generic 35 /* Routines for printing the two common forms of error responses */ extern void printErrorWithValue(const unsigned char *buf, short FieldType, const char *desc); extern void printErrorNoValue(const unsigned char *buf); #endif /* XSCOPE_X11_H */