/* $Xorg: utils.c,v 1.5 2001/02/09 02:05:32 xorgcvs Exp $ */ /* $XdotOrg: $ */ /*********************************************************** Copyright 1987, 1996, 1998 The Open Group 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. The above copyright notice and this permission notice 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 OPEN GROUP 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. Except as contained in this notice, the name of The Open Group 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 Open Group. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, 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 Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL 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. ******************************************************************/ /* $XFree86: xc/programs/lbxproxy/di/utils.c,v 1.17 2003/09/13 21:33:10 dawes Exp $ */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "lbxproxy.h" #include #include /* getenv(), {m,re}alloc() */ #ifdef X_POSIX_C_SOURCE #define _POSIX_C_SOURCE X_POSIX_C_SOURCE #include #undef _POSIX_C_SOURCE #else #if defined(X_NOT_POSIX) || defined(_POSIX_SOURCE) #include #else #define _POSIX_SOURCE #include #undef _POSIX_SOURCE #endif #endif #if !defined(SYSV) && !defined(Lynx) && !defined(QNX4) #include #endif #include static void VErrorF(const char*, va_list); #ifdef RETSIGTYPE /* autoconf AC_TYPE_SIGNAL */ # define SIGVAL RETSIGTYPE #else /* Imake */ #ifdef SIGNALRETURNSINT #define SIGVAL int #else #define SIGVAL void #endif #endif /* RETSIGTYPE */ #include "util.h" #include "wire.h" #include "atomcache.h" #include "proxyopts.h" #include "tags.h" #include "lbxext.h" #include /* * External declarations not in header files */ extern Bool PartialNetwork; extern int lbxDebug; extern Bool reconnectAfterCloseServer; /* * Static vars */ static Bool CoreDump; static Bool Must_have_memory = FALSE; /* * Debug stuff */ #ifdef DEBUG #ifndef SPECIAL_MALLOC #define MEMBUG #endif #endif #ifdef MEMBUG #define MEM_FAIL_SCALE 100000 long Memory_fail = 0; #endif /* * Global vars that may get set when the command line opts are parsed. */ #ifdef RGB_DB char *rgbPath = RGB_DB; #else char *rgbPath; #endif Bool lbxZeroPad = TRUE; /* zero out pad bytes in X requests */ char *atomsFile = DEF_ATOMS_FILE; Bool lbxWinAttr = TRUE; /* group GetWindowAttributes/GetGeometry into 1 trip */ Bool lbxDoCmapGrabbing = TRUE; /* do colormap grabbing? */ int lbxMaxMotionEvents = NUM_MOTION_EVENTS; /* max # motion events */ int min_keep_prop_size = DEF_KEEP_PROP_SIZE; /* * zlevel = 1..9, 9 == max compression. 6 == good tradeoff between * compression and speed. Try gzipping a large file at the default * level (which is 6) and at max compression (9) and notice the * difference in time it takes to compress the file and the difference * in file size. level 9 compression takes ~50 more (time, cpu) but * only yields a very small improvement in compression. */ int zlevel = 6; /* * The functions */ OsSigHandlerPtr OsSignal(int sig, OsSigHandlerPtr handler) { #ifdef X_NOT_POSIX return signal(sig, handler); #else struct sigaction act, oact; sigemptyset(&act.sa_mask); if (handler != SIG_IGN) sigaddset(&act.sa_mask, sig); act.sa_flags = 0; act.sa_handler = handler; sigaction(sig, &act, &oact); return oact.sa_handler; #endif } /* Force connections to close on SIGHUP from init */ /* ARGSUSED */ SIGVAL AutoResetServer(int sig) { dispatchException |= DE_RESET; isItTimeToYield = TRUE; #ifdef GPROF chdir ("/tmp"); _exit (0); #endif #ifdef SYSV signal (SIGHUP, AutoResetServer); #endif } /* Force connections to close and then exit on SIGTERM, SIGINT */ /* ARGSUSED */ SIGVAL GiveUp(int sig) { dispatchException |= DE_TERMINATE; isItTimeToYield = TRUE; } static void AbortServer(void) { fflush(stderr); if (CoreDump) abort(); exit (1); } void Error(char *str) { perror(str); } void UseMsg(void) { ErrorF("use: lbxproxy [:] [option]\n"); #ifdef MEMBUG ErrorF("-alloc int chance alloc should fail\n"); #endif ErrorF("-help prints message with these options\n"); ErrorF("-display specify address of LBX server\n"); ErrorF("-motion # allow # motion events in flight\n"); ErrorF("-[terminate|reset] terminate or reset after last client exits\n"); ErrorF(" (default is continue running)\n"); ErrorF("-I ignore all remaining arguments\n"); ErrorF("-reconnect reset if server connection is broken\n"); ErrorF(" (default is to exit if connection is broken)\n"); ErrorF("-nolbx disable LBX reencoding of X requests\n"); ErrorF("-nocomp disable stream compression\n"); ErrorF("-nodelta disable request deltas\n"); ErrorF("-notags disable tags\n"); ErrorF("-nogfx disable graphics enhancements\n"); ErrorF("-noimage disable image compression\n"); ErrorF("-nosquish disable event squishing\n"); ErrorF("-nointernsc disable InternAtom short circuiting\n"); ErrorF("-noatomsfile disable atom control file\n"); ErrorF("-atomsfile override AtomControl file\n"); ErrorF("-nowinattr disable GetWindowAttributes/GetGeometry\n"); ErrorF(" grouping into one round trip\n"); ErrorF("-nograbcmap disable colormap grabbing\n"); ErrorF("-norgbfile disables color name to RGB resolution\n"); ErrorF("-rgbfile path specifies an alternate RGB database\n"); ErrorF(" for color name to RGB resolution\n"); ErrorF("-tagcachesize # set tag cache size\n"); ErrorF("-maxservers # maximum number of servers to use\n"); ErrorF(" default is 20, but this is overrided\n"); ErrorF(" the following environment variable:\n"); ErrorF(" LBXPROXY_MAXSERVERS=\n"); ErrorF("-zlevel # zlib compression level (1-9)\n"); ErrorF(" default is 9\n"); ErrorF(" 1 = worst compression, fastest\n"); ErrorF(" 9 = best compression, slowest\n"); ErrorF("-compstats report stream compression statistics\n"); ErrorF("-nozeropad don't zero out pad bytes in X requests\n"); ErrorF("-cheaterrors cheat on X protocol errors for better performance\n"); ErrorF("-cheatevents cheat on events and errors for better performance\n"); } static void ShowHelpAndExit(int status) { UseMsg (); exit (status); } static int proxyProcessArgument(int argc, char **argv, int i) { if (strcmp (argv[i], "-debug") == 0) { if (++i < argc) lbxDebug = atoi(argv[i]); else ShowHelpAndExit (1); return 2; } if (strcmp (argv[i], "-cheaterrors") == 0) { protocolMode = PROTOCOL_MOST; return 1; } if (strcmp (argv[i], "-cheatevents") == 0) { protocolMode = PROTOCOL_POOR; return 1; } if (strcmp (argv[i], "-nolbx") == 0) { lbxUseLbx = FALSE; return 1; } if (strcmp (argv[i], "-nointernsc") == 0) { lbxDoAtomShortCircuiting = FALSE; return 1; } if (strcmp (argv[i], "-nocomp") == 0) { LbxNoComp(); return 1; } if (strcmp (argv[i], "-nodelta") == 0) { LbxNoDelta(); return 1; } if (strcmp (argv[i], "-notags") == 0) { lbxUseTags = FALSE; return 1; } if (strcmp (argv[i], "-nogfx") == 0) { lbxDoLbxGfx = FALSE; return 1; } if (strcmp (argv[i], "-noimage") == 0) { lbxCompressImages = FALSE; return 1; } if (strcmp (argv[i], "-nosquish") == 0) { lbxDoSquishing = FALSE; return 1; } if (strcmp (argv[i], "-nograbcmap") == 0) { lbxDoCmapGrabbing = FALSE; return 1; } if (strcmp (argv[i], "-reconnect") == 0) { reconnectAfterCloseServer = TRUE; return 1; } if (strcmp (argv[i], "-norgbfile") == 0) { rgbPath = NULL; return 1; } if (strcmp (argv[i], "-rgbfile") == 0) { if (++i < argc) if (argv[i][0] == '-') ShowHelpAndExit (1); else rgbPath = argv[i]; else ShowHelpAndExit (1); return 2; } if (strcmp (argv[i], "-nowinattr") == 0) { lbxWinAttr = FALSE; return 1; } if (strcmp (argv[i], "-noatomsfile") == 0) { atomsFile = NULL; return 1; } if (strcmp (argv[i], "-atomsfile") == 0) { if (++i < argc) { if (argv[i][0] == '-') ShowHelpAndExit (1); else atomsFile = argv[i]; } else ShowHelpAndExit (1); return 2; } if (strcmp (argv[i], "-tagcachesize") == 0) { if (++i < argc) lbxTagCacheSize = atoi(argv[i]); else ShowHelpAndExit (1); return 2; } if (strcmp (argv[i], "-maxservers") == 0) { if (++i < argc) { lbxMaxServers = atoi(argv[i]); if (lbxMaxServers <= 0 || lbxMaxServers > 1024) FatalError("out of range value for -maxservers"); } else ShowHelpAndExit (1); return 2; } if (strcmp (argv[i], "-motion") == 0) { if (++i < argc) lbxMaxMotionEvents = atoi(argv[i]); else ShowHelpAndExit (1); return 2; } if (strcmp (argv[i], "-zlevel") == 0) { if (++i < argc) { zlevel = atoi(argv[i]); if (zlevel < 1 || zlevel > 9) ShowHelpAndExit (1); } else ShowHelpAndExit (1); return 2; } if (strcmp (argv[i], "-compstats") == 0) { compStats = TRUE; return 1; } if (strcmp (argv[i], "-nozeropad") == 0) { lbxZeroPad = FALSE; return 1; } return 0; } /* * This function parses the command line. Handles device-independent fields * and allows ddx to handle additional fields. It is not allowed to modify * argc or any of the strings pointed to by argv. */ void ProcessCommandLine(int argc, char *argv[]) { int i, skip; char *env; /* * Some options may also be defined by environment variables. * However, if this is the case, the command line options will * take precedence so check the environment first. */ if ((env = getenv ("LBXPROXY_MAXSERVERS"))) lbxMaxServers = atoi (env); if (lbxMaxServers <= 0 || lbxMaxServers > 1024) FatalError("out of range value for LBXPROXY_MAXSERVERS"); for ( i = 1; i < argc; i++ ) { /* do proxy-specific stuff first */ if((skip = proxyProcessArgument(argc, argv, i))) { i += (skip - 1); } else if(argv[i][0] == ':') { /* initialize display */ display = argv[i]; display++; } #ifdef MEMBUG else if ( strcmp( argv[i], "-alloc") == 0) { if(++i < argc) Memory_fail = atoi(argv[i]); else ShowHelpAndExit (1); } #endif else if ( strcmp( argv[i], "-display") == 0) { if(++i < argc) display_name = argv[i]; else ShowHelpAndExit (1); } else if ( strcmp( argv[i], "-core") == 0) CoreDump = TRUE; else if ( strcmp( argv[i], "-help") == 0) ShowHelpAndExit (0); else if ( strcmp( argv[i], "-pn") == 0) PartialNetwork = TRUE; else if ( strcmp( argv[i], "-reset") == 0) { if (terminateAfterLastClient) ShowHelpAndExit (1); resetAfterLastClient = TRUE; } else if ( strcmp( argv[i], "-terminate") == 0) { if (resetAfterLastClient) ShowHelpAndExit (1); terminateAfterLastClient = TRUE; } else if ( strcmp( argv[i], "-I") == 0) { /* ignore all remaining arguments */ break; } else if (strncmp (argv[i], "tty", 3) == 0) { /* Ignored */ } else ShowHelpAndExit (1); } } /* XALLOC -- X's internal memory allocator. Why does it return unsigned * int * instead of the more common char *? Well, if you read K&R you'll * see they say that alloc must return a pointer "suitable for conversion" * to whatever type you really want. In a full-blown generic allocator * there's no way to solve the alignment problems without potentially * wasting lots of space. But we have a more limited problem. We know * we're only ever returning pointers to structures which will have to * be long word aligned. So we are making a stronger guarantee. It might * have made sense to make Xalloc return char * to conform with people's * expectations of malloc, but this makes lint happier. */ unsigned long * Xalloc(unsigned long amount) { register pointer ptr; if ((long)amount <= 0) return (unsigned long *)NULL; /* aligned extra on long word boundary */ amount = (amount + 3) & ~3; #ifdef MEMBUG if (!Must_have_memory && Memory_fail && ((random() % MEM_FAIL_SCALE) < Memory_fail)) return (unsigned long *)NULL; #endif if ((ptr = (pointer)malloc(amount))) return (unsigned long *)ptr; if (Must_have_memory) FatalError("Out of memory"); return (unsigned long *)NULL; } /***************** * Xcalloc *****************/ unsigned long * Xcalloc(unsigned long amount) { unsigned long *ret; ret = Xalloc (amount); if (ret) bzero ((char *) ret, (int) amount); return ret; } /***************** * Xrealloc *****************/ unsigned long * Xrealloc(register pointer ptr, unsigned long amount) { #ifdef MEMBUG if (!Must_have_memory && Memory_fail && ((random() % MEM_FAIL_SCALE) < Memory_fail)) return (unsigned long *)NULL; #endif if ((long)amount <= 0) { if (ptr && !amount) free(ptr); return (unsigned long *)NULL; } amount = (amount + 3) & ~3; if (ptr) ptr = (pointer)realloc((char *)ptr, amount); else ptr = (pointer)malloc(amount); if (ptr) return (unsigned long *)ptr; if (Must_have_memory) FatalError("Out of memory"); return (unsigned long *)NULL; } /***************** * Xfree * calls free *****************/ void Xfree(register pointer ptr) { if (ptr) free((char *)ptr); } void OsInitAllocator(void) { #ifdef MEMBUG static int been_here; /* Check the memory system after each generation */ if (been_here) CheckMemory (); else been_here = 1; #endif } void AuditF(const char * f, ...) { #ifdef notyet /* ever ? */ time_t tm; char *autime, *s; va_list args; if (*f != ' ') { time(&tm); autime = ctime(&tm); if (s = strchr(autime, '\n')) *s = '\0'; if (s = strrchr(argvGlobal[0], '/')) s++; else s = argvGlobal[0]; ErrorF("AUDIT: %s: %d %s: ", autime, getpid(), s); } va_start(args, f); VErrorF(f, args); va_end(args); #endif } void FatalError(const char *f, ...) { va_list args; ErrorF("\nFatal lbxproxy error: "); va_start(args, f); VErrorF(f, args); va_end(args); ErrorF("\n"); AbortServer(); /*NOTREACHED*/ } static void VErrorF(const char *f, va_list args) { vfprintf(stderr, f, args); } void ErrorF(const char * f, ...) { va_list args; va_start(args, f); VErrorF(f, args); va_end(args); } char * strnalloc(char *str, int len) { char *t; t = (char *) Xalloc(len); if (!t) return (char *) 0; memcpy(t, str, len); return t; } /* * A general work queue. Perform some task before the server * sleeps for input. */ typedef struct _WorkQueue { struct _WorkQueue *next; Bool (*function) ( ClientPtr /* pClient */, pointer /* closure */ ); ClientPtr client; pointer closure; } WorkQueueRec; WorkQueuePtr workQueue; static WorkQueuePtr *workQueueLast = &workQueue; /* ARGSUSED */ void ProcessWorkQueue(void) { WorkQueuePtr q, n, p; p = NULL; /* * Scan the work queue once, calling each function. Those * which return TRUE are removed from the queue, otherwise * they will be called again. This must be reentrant with * QueueWorkProc, hence the crufty usage of variables. */ for (q = workQueue; q; q = n) { if ((*q->function) (q->client, q->closure)) { /* remove q from the list */ n = q->next; /* don't fetch until after func called */ if (p) p->next = n; else workQueue = n; xfree (q); } else { n = q->next; /* don't fetch until after func called */ p = q; } } if (p) workQueueLast = &p->next; else { workQueueLast = &workQueue; } } Bool QueueWorkProc(Bool (*function)(ClientPtr, pointer), ClientPtr client, pointer closure) { WorkQueuePtr q; q = (WorkQueuePtr) xalloc (sizeof *q); if (!q) return FALSE; q->function = function; q->client = client; q->closure = closure; q->next = NULL; *workQueueLast = q; workQueueLast = &q->next; return TRUE; } /* * Manage a queue of sleeping clients, awakening them * when requested, by using the OS functions IgnoreClient * and AttendClient. Note that this *ignores* the troubles * with request data interleaving itself with events, but * we'll leave that until a later time. */ typedef struct _SleepQueue { struct _SleepQueue *next; ClientPtr client; Bool (*function)(ClientPtr, pointer); pointer closure; } SleepQueueRec, *SleepQueuePtr; static SleepQueuePtr sleepQueue = NULL; Bool ClientSleep(ClientPtr client, Bool (*function)(ClientPtr, pointer), pointer closure) { SleepQueuePtr q; q = (SleepQueuePtr) xalloc (sizeof *q); if (!q) return FALSE; IgnoreClient (client); q->next = sleepQueue; q->client = client; q->function = function; q->closure = closure; sleepQueue = q; return TRUE; } Bool ClientSignal(ClientPtr client) { SleepQueuePtr q; for (q = sleepQueue; q; q = q->next) if (q->client == client) { return QueueWorkProc (q->function, q->client, q->closure); } return FALSE; } void ClientWakeup(ClientPtr client) { SleepQueuePtr q, *prev; prev = &sleepQueue; while ((q = *prev)) { if (q->client == client) { *prev = q->next; xfree (q); if (!client->clientGone) AttendClient (client); break; } prev = &q->next; } } Bool ClientIsAsleep(ClientPtr client) { SleepQueuePtr q; for (q = sleepQueue; q; q = q->next) if (q->client == client) return TRUE; return FALSE; } #ifdef __UNIXOS2__ /* This code is duplicated from XLibInt.c, because the same problems with * the drive letter as in clients also exist in the server * Unfortunately the standalone servers don't link against libX11 */ char *__XOS2RedirRoot(char *fname) { /* This adds a further redirection by allowing the ProjectRoot * to be prepended by the content of the envvar X11ROOT. * This is for the purpose to move the whole X11 stuff to a different * disk drive. * The feature was added despite various environment variables * because not all file opens respect them. */ static char redirname[300]; /* enough for long filenames */ char *root; /* if name does not start with /, assume it is not root-based */ if (fname==0 || !(fname[0]=='/' || fname[0]=='\\')) return fname; root = (char*)getenv("X11ROOT"); if (root==0 || (fname[1]==':' && isalpha(fname[0]) || (strlen(fname)+strlen(root)+2) > 300)) return fname; sprintf(redirname,"%s%s",root,fname); return redirname; } #endif void LBXReadAtomsFile(XServerPtr server) { FILE *f; char buf[256], *p; int len; if (!atomsFile) return; while (server->atom_control_count) xfree(server->atom_control[--server->atom_control_count].name); xfree(server->atom_control); server->atom_control = NULL; min_keep_prop_size = DEF_KEEP_PROP_SIZE; #ifdef __UNIXOS2__ atomsFile = (char*)__XOS2RedirRoot(atomsFile); #endif if (!(f = fopen (atomsFile, "r"))) { ErrorF ("Could not load atom control file: %s\n", atomsFile); return; } while (fgets (buf, 256, f)) if (*buf != '!' && *buf != 0 && *buf != '\n') server->atom_control_count++; if (!server->atom_control_count) { fclose(f); return; } server->atom_control = (AtomControlPtr) xalloc (server->atom_control_count * sizeof(AtomControlRec)); server->atom_control_count = 0; if (!server->atom_control) { fclose(f); return; } fseek (f, 0, SEEK_SET); while (fgets (buf, 256, f)) { if (*buf == '!' || *buf == 0 || *buf == '\n') continue; len = strlen(buf); if (buf[len - 1] == '\n') buf[--len] = 0; p = buf; if (*p == 'z') { do { p++; } while (*p == ' ' || *p == '\t'); min_keep_prop_size = atoi(p); continue; } server->atom_control[server->atom_control_count].flags = 0; while (*p && *p != ' ' && *p != '\t') { switch (*p) { case 'i': server->atom_control[server->atom_control_count].flags |= AtomPreInternFlag; break; case 'n': server->atom_control[server->atom_control_count].flags |= AtomNoCacheFlag; break; case 'w': server->atom_control[server->atom_control_count].flags |= AtomWMCacheFlag; break; default: fprintf(stderr, "bad atom control: %c\n", *p); break; } p++; } while (*p == ' ' || *p == '\t') p++; if (!*p) continue; len = strlen(p); server->atom_control[server->atom_control_count].name = (char *) xalloc(len + 1); if (server->atom_control[server->atom_control_count].name) { server->atom_control[server->atom_control_count].len = len; strcpy(server->atom_control[server->atom_control_count].name, p); server->atom_control_count++; } } fclose(f); }