/* * rfb.h - header file for RFB DDX implementation. */ /* * OSXvnc Copyright (C) 2001 Dan McGuirk . * Original Xvnc code Copyright (C) 1999 AT&T Laboratories Cambridge. * All Rights Reserved. * * This is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, * USA. */ #include #include #include #include "keysym.h" /* TODO: this stuff has to go into autoconf */ typedef unsigned char CARD8; typedef unsigned short CARD16; typedef unsigned int CARD32; typedef CARD32 Pixel; typedef CARD32 KeySym; /* for some strange reason, "typedef signed char Bool;" yields a four byte signed int on an SGI, but only for rfbserver.o!!! */ #define Bool signed char #undef FALSE #define FALSE 0 #undef TRUE #define TRUE -1 #define xalloc malloc #define xrealloc realloc #define xfree free int max(int,int); #include #include #ifdef __linux__ #include #else #if defined(__APPLE__) || defined(__FreeBSD__) #include #include #define _BYTE_ORDER BYTE_ORDER #define _LITTLE_ENDIAN LITTLE_ENDIAN #else #include #endif #endif #ifndef _BYTE_ORDER #define _BYTE_ORDER __BYTE_ORDER #endif #ifndef _LITTLE_ENDIAN #define _LITTLE_ENDIAN __LITTLE_ENDIAN #endif #include #ifdef HAVE_PTHREADS #include #if 0 #define LOCK(mutex) fprintf(stderr,"%s:%d LOCK(%s,0x%x)\n",__FILE__,__LINE__,#mutex,&(mutex)) #define UNLOCK(mutex) fprintf(stderr,"%s:%d UNLOCK(%s,0x%x)\n",__FILE__,__LINE__,#mutex,&(mutex)) #define MUTEX(mutex) int mutex #define INIT_MUTEX(mutex) fprintf(stderr,"%s:%d INIT_MUTEX(%s,0x%x)\n",__FILE__,__LINE__,#mutex,&(mutex)) #define TINI_MUTEX(mutex) fprintf(stderr,"%s:%d TINI_MUTEX(%s)\n",__FILE__,__LINE__,#mutex) #define SIGNAL(cond) fprintf(stderr,"%s:%d SIGNAL(%s)\n",__FILE__,__LINE__,#cond) #define WAIT(cond,mutex) /* fprintf(stderr,"%s:%d WAIT(%s,%s)\n",__FILE__,__LINE__,#cond,#mutex) */ #define COND(cond) #define INIT_COND(cond) fprintf(stderr,"%s:%d INIT_COND(%s)\n",__FILE__,__LINE__,#cond) #define TINI_COND(cond) fprintf(stderr,"%s:%d TINI_COND(%s)\n",__FILE__,__LINE__,#cond) #define IF_PTHREADS(x) #else #define LOCK(mutex) pthread_mutex_lock(&(mutex)); #define UNLOCK(mutex) pthread_mutex_unlock(&(mutex)); #define MUTEX(mutex) pthread_mutex_t (mutex) #define INIT_MUTEX(mutex) pthread_mutex_init(&(mutex),NULL) #define TINI_MUTEX(mutex) pthread_mutex_destroy(&(mutex)) #define SIGNAL(cond) pthread_cond_signal(&(cond)) #define WAIT(cond,mutex) pthread_cond_wait(&(cond),&(mutex)) #define COND(cond) pthread_cond_t (cond) #define INIT_COND(cond) pthread_cond_init(&(cond),NULL) #define TINI_COND(cond) pthread_cond_destroy(&(cond)) #define IF_PTHREADS(x) x #endif #else #define LOCK(mutex) #define UNLOCK(mutex) #define MUTEX(mutex) #define INIT_MUTEX(mutex) #define TINI_MUTEX(mutex) #define SIGNAL(cond) this_is_unsupported #define WAIT(cond,mutex) this_is_unsupported #define COND(cond) #define INIT_COND(cond) #define TINI_COND(cond) #define IF_PTHREADS(x) #endif #define MAX_ENCODINGS 10 struct rfbClientRec; struct rfbScreenInfo; struct rfbCursor; typedef void (*KbdAddEventProcPtr) (Bool down, KeySym keySym, struct rfbClientRec* cl); typedef void (*KbdReleaseAllKeysProcPtr) (struct rfbClientRec* cl); typedef void (*PtrAddEventProcPtr) (int buttonMask, int x, int y, struct rfbClientRec* cl); typedef void (*SetXCutTextProcPtr) (char* str,int len, struct rfbClientRec* cl); typedef struct rfbCursor* (*GetCursorProcPtr) (struct rfbClientRec* pScreen); typedef Bool (*SetTranslateFunctionProcPtr)(struct rfbClientRec* cl); typedef void (*NewClientHookPtr)(struct rfbClientRec* cl); typedef struct { int count; Bool is16; /* is the data format short? */ union { CARD8* bytes; CARD16* shorts; } data; /* there have to be count*3 entries */ } rfbColourMap; /* * Per-screen (framebuffer) structure. There is only one of these, since we * don't allow the X server to have multiple screens. */ typedef struct { int width; int paddedWidthInBytes; int height; int depth; int bitsPerPixel; int sizeInBytes; Pixel blackPixel; Pixel whitePixel; /* some screen specific data can be put into a struct where screenData * points to. You need this if you have more than one screen at the * same time while using the same functions. */ void* screenData; /* The following two members are used to minimise the amount of unnecessary drawing caused by cursor movement. Whenever any drawing affects the part of the screen where the cursor is, the cursor is removed first and then the drawing is done (this is what the sprite routines test for). Afterwards, however, we do not replace the cursor, even when the cursor is logically being moved across the screen. We only draw the cursor again just as we are about to send the client a framebuffer update. We need to be careful when removing and drawing the cursor because of their relationship with the normal drawing routines. The drawing routines can invoke the cursor routines, but also the cursor routines themselves end up invoking drawing routines. Removing the cursor (rfbUndrawCursor) is eventually achieved by doing a CopyArea from a pixmap to the screen, where the pixmap contains the saved contents of the screen under the cursor. Before doing this, however, we set cursorIsDrawn to FALSE. Then, when CopyArea is called, it sees that cursorIsDrawn is FALSE and so doesn't feel the need to (recursively!) remove the cursor before doing it. Putting up the cursor (rfbDrawCursor) involves a call to PushPixels. While this is happening, cursorIsDrawn must be FALSE so that PushPixels doesn't think it has to remove the cursor first. Obviously cursorIsDrawn is set to TRUE afterwards. Another problem we face is that drawing routines sometimes cause a framebuffer update to be sent to the RFB client. When the RFB client is already waiting for a framebuffer update and some drawing to the framebuffer then happens, the drawing routine sees that the client is ready, so it calls rfbSendFramebufferUpdate. If the cursor is not drawn at this stage, it must be put up, and so rfbSpriteRestoreCursor is called. However, if the original drawing routine was actually called from within rfbSpriteRestoreCursor or rfbSpriteRemoveCursor we don't want this to happen. So both the cursor routines set dontSendFramebufferUpdate to TRUE, and all the drawing routines check this before calling rfbSendFramebufferUpdate. */ Bool cursorIsDrawn; /* TRUE if the cursor is currently drawn */ Bool dontSendFramebufferUpdate; /* TRUE while removing or drawing the cursor */ /* additions by libvncserver */ rfbPixelFormat rfbServerFormat; rfbColourMap colourMap; /* set this if rfbServerFormat.trueColour==FALSE */ char* desktopName; char rfbThisHost[255]; int rfbPort; Bool socketInitDone; int inetdSock; int maxSock; int maxFd; int rfbListenSock; int udpPort; int udpSock; struct rfbClientRec* udpClient; Bool udpSockConnected; struct sockaddr_in udpRemoteAddr; Bool inetdInitDone; fd_set allFds; int rfbMaxClientWait; /* http stuff */ Bool httpInitDone; int httpPort; char* httpDir; int httpListenSock; int httpSock; FILE* httpFP; char* rfbAuthPasswdFile; int rfbDeferUpdateTime; char* rfbScreen; Bool rfbAlwaysShared; Bool rfbNeverShared; Bool rfbDontDisconnect; struct rfbClientRec* rfbClientHead; /* cursor */ int cursorX, cursorY,underCursorBufferLen; char* underCursorBuffer; Bool dontConvertRichCursorToXCursor; struct rfbCursor* cursor; MUTEX(cursorMutex); /* the following members have to be supplied by the serving process */ char* frameBuffer; KbdAddEventProcPtr kbdAddEvent; KbdReleaseAllKeysProcPtr kbdReleaseAllKeys; PtrAddEventProcPtr ptrAddEvent; SetXCutTextProcPtr setXCutText; GetCursorProcPtr getCursorPtr; SetTranslateFunctionProcPtr setTranslateFunction; /* newClientHook is called just after a new client is created */ NewClientHookPtr newClientHook; } rfbScreenInfo, *rfbScreenInfoPtr; /* * rfbTranslateFnType is the type of translation functions. */ typedef void (*rfbTranslateFnType)(char *table, rfbPixelFormat *in, rfbPixelFormat *out, char *iptr, char *optr, int bytesBetweenInputLines, int width, int height); /* * vncauth.h - describes the functions provided by the vncauth library. */ #define MAXPWLEN 8 #define CHALLENGESIZE 16 extern int vncEncryptAndStorePasswd(char *passwd, char *fname); extern char *vncDecryptPasswdFromFile(char *fname); extern void vncRandomBytes(unsigned char *bytes); extern void vncEncryptBytes(unsigned char *bytes, char *passwd); /* region stuff */ struct sraRegion; typedef struct sraRegion* sraRegionPtr; /* * Per-client structure. */ typedef void (*ClientGoneHookPtr)(struct rfbClientRec* cl); typedef struct rfbClientRec { /* back pointer to the screen */ rfbScreenInfoPtr screen; /* private data. You should put any application client specific data * into a struct and let clientData point to it. Don't forget to * free the struct via clientGoneHook! */ void* clientData; ClientGoneHookPtr clientGoneHook; int sock; char *host; /* Possible client states: */ enum { RFB_PROTOCOL_VERSION, /* establishing protocol version */ RFB_AUTHENTICATION, /* authenticating */ RFB_INITIALISATION, /* sending initialisation messages */ RFB_NORMAL /* normal protocol messages */ } state; Bool reverseConnection; Bool readyForSetColourMapEntries; Bool useCopyRect; int preferredEncoding; int correMaxWidth, correMaxHeight; /* The following member is only used during VNC authentication */ CARD8 authChallenge[CHALLENGESIZE]; /* The following members represent the update needed to get the client's framebuffer from its present state to the current state of our framebuffer. If the client does not accept CopyRect encoding then the update is simply represented as the region of the screen which has been modified (modifiedRegion). If the client does accept CopyRect encoding, then the update consists of two parts. First we have a single copy from one region of the screen to another (the destination of the copy is copyRegion), and second we have the region of the screen which has been modified in some other way (modifiedRegion). Although the copy is of a single region, this region may have many rectangles. When sending an update, the copyRegion is always sent before the modifiedRegion. This is because the modifiedRegion may overlap parts of the screen which are in the source of the copy. In fact during normal processing, the modifiedRegion may even overlap the destination copyRegion. Just before an update is sent we remove from the copyRegion anything in the modifiedRegion. */ sraRegionPtr copyRegion; /* the destination region of the copy */ int copyDX, copyDY; /* the translation by which the copy happens */ #ifdef HAVE_PTHREADS /* whenever a client is referenced, the refCount has to be incremented and afterwards decremented. Use the functions rfbIncrClientRef(cl) and rfbDecrClientRef(cl); */ int refCount; MUTEX(refCountMutex); COND(deleteCond); MUTEX(outputMutex); MUTEX(updateMutex); COND(updateCond); #endif sraRegionPtr modifiedRegion; /* As part of the FramebufferUpdateRequest, a client can express interest in a subrectangle of the whole framebuffer. This is stored in the requestedRegion member. In the normal case this is the whole framebuffer if the client is ready, empty if it's not. */ sraRegionPtr requestedRegion; /* The following members represent the state of the "deferred update" timer - when the framebuffer is modified and the client is ready, in most cases it is more efficient to defer sending the update by a few milliseconds so that several changes to the framebuffer can be combined into a single update. */ /* no deferred timer here; server has to do it alone */ /* Bool deferredUpdateScheduled; OsTimerPtr deferredUpdateTimer; */ /* translateFn points to the translation function which is used to copy and translate a rectangle from the framebuffer to an output buffer. */ rfbTranslateFnType translateFn; char *translateLookupTable; rfbPixelFormat format; /* * UPDATE_BUF_SIZE must be big enough to send at least one whole line of the * framebuffer. So for a max screen width of say 2K with 32-bit pixels this * means 8K minimum. */ #define UPDATE_BUF_SIZE 30000 char updateBuf[UPDATE_BUF_SIZE]; int ublen; /* statistics */ int rfbBytesSent[MAX_ENCODINGS]; int rfbRectanglesSent[MAX_ENCODINGS]; int rfbLastRectMarkersSent; int rfbLastRectBytesSent; int rfbCursorBytesSent; int rfbCursorUpdatesSent; int rfbFramebufferUpdateMessagesSent; int rfbRawBytesEquivalent; int rfbKeyEventsRcvd; int rfbPointerEventsRcvd; /* zlib encoding -- necessary compression state info per client */ struct z_stream_s compStream; Bool compStreamInited; CARD32 zlibCompressLevel; /* tight encoding -- preserve zlib streams' state for each client */ z_stream zsStruct[4]; Bool zsActive[4]; int zsLevel[4]; int tightCompressLevel; int tightQualityLevel; Bool enableLastRectEncoding; /* client supports LastRect encoding */ Bool enableCursorShapeUpdates; /* client supports cursor shape updates */ Bool useRichCursorEncoding; /* rfbEncodingRichCursor is preferred */ Bool cursorWasChanged; /* cursor shape update should be sent */ struct rfbClientRec *prev; struct rfbClientRec *next; } rfbClientRec, *rfbClientPtr; /* * This macro is used to test whether there is a framebuffer update needing to * be sent to the client. */ #define FB_UPDATE_PENDING(cl) \ ((!(cl)->enableCursorShapeUpdates && !(cl)->screen->cursorIsDrawn) || \ ((cl)->enableCursorShapeUpdates && (cl)->cursorWasChanged) || \ !sraRgnEmpty((cl)->copyRegion) || !sraRgnEmpty((cl)->modifiedRegion)) //REGION_NOTEMPTY(&((cl)->screenInfo->screen),&(cl)->copyRegion) || //REGION_NOTEMPTY(&((cl)->screenInfo->screen),&(cl)->modifiedRegion)) /* * This macro creates an empty region (ie. a region with no areas) if it is * given a rectangle with a width or height of zero. It appears that * REGION_INTERSECT does not quite do the right thing with zero-width * rectangles, but it should with completely empty regions. */ #define SAFE_REGION_INIT(pscreen, preg, rect, size) \ { \ if ( ( (rect) ) && \ ( ( (rect)->x2 == (rect)->x1 ) || \ ( (rect)->y2 == (rect)->y1 ) ) ) { \ REGION_INIT( (pscreen), (preg), NullBox, 0 ); \ } else { \ REGION_INIT( (pscreen), (preg), (rect), (size) ); \ } \ } /* * Macros for endian swapping. */ #define Swap16(s) ((((s) & 0xff) << 8) | (((s) >> 8) & 0xff)) #define Swap24(l) ((((l) & 0xff) << 16) | (((l) >> 16) & 0xff) | \ (((l) & 0x00ff00))) #define Swap32(l) (((l) >> 24) | \ (((l) & 0x00ff0000) >> 8) | \ (((l) & 0x0000ff00) << 8) | \ ((l) << 24)) static const int rfbEndianTest = (_BYTE_ORDER == _LITTLE_ENDIAN); #define Swap16IfLE(s) (rfbEndianTest ? Swap16(s) : (s)) #define Swap24IfLE(l) (rfbEndianTest ? Swap24(l) : (l)) #define Swap32IfLE(l) (rfbEndianTest ? Swap32(l) : (l)) /* main.c */ extern void rfbLog(char *format, ...); extern void rfbLogPerror(char *str); extern int runVNCServer(int argc, char *argv[]); /* sockets.c */ extern int rfbMaxClientWait; extern void rfbCloseClient(rfbClientPtr cl); extern int ReadExact(rfbClientPtr cl, char *buf, int len); extern int WriteExact(rfbClientPtr cl, char *buf, int len); extern void rfbCheckFds(rfbScreenInfoPtr rfbScreen,long usec); extern int rfbConnect(rfbScreenInfoPtr rfbScreen, char* host, int port); extern int ConnectToTcpAddr(char* host, int port); extern int ListenOnTCPPort(int port); extern int ListenOnUDPPort(int port); /* rfbserver.c */ extern rfbClientPtr pointerClient; /* Routines to iterate over the client list in a thread-safe way. Only a single iterator can be in use at a time process-wide. */ typedef struct rfbClientIterator *rfbClientIteratorPtr; extern void rfbClientListInit(rfbScreenInfoPtr rfbScreen); extern rfbClientIteratorPtr rfbGetClientIterator(rfbScreenInfoPtr rfbScreen); extern rfbClientPtr rfbClientIteratorNext(rfbClientIteratorPtr iterator); extern void rfbReleaseClientIterator(rfbClientIteratorPtr iterator); extern void rfbNewClientConnection(rfbScreenInfoPtr rfbScreen,int sock); extern rfbClientPtr rfbNewClient(rfbScreenInfoPtr rfbScreen,int sock); extern rfbClientPtr rfbReverseConnection(rfbScreenInfoPtr rfbScreen,char *host, int port); extern void rfbClientConnectionGone(rfbClientPtr cl); extern void rfbProcessClientMessage(rfbClientPtr cl); extern void rfbClientConnFailed(rfbClientPtr cl, char *reason); extern void rfbNewUDPConnection(rfbScreenInfoPtr rfbScreen,int sock); extern void rfbProcessUDPInput(rfbClientPtr cl); extern Bool rfbSendFramebufferUpdate(rfbClientPtr cl, sraRegionPtr updateRegion); extern Bool rfbSendRectEncodingRaw(rfbClientPtr cl, int x,int y,int w,int h); extern Bool rfbSendUpdateBuf(rfbClientPtr cl); extern void rfbSendServerCutText(rfbScreenInfoPtr rfbScreen,char *str, int len); extern Bool rfbSendCopyRegion(rfbClientPtr cl,sraRegionPtr reg,int dx,int dy); extern Bool rfbSendLastRectMarker(rfbClientPtr cl); extern Bool rfbSendSetColourMapEntries(rfbClientPtr cl, int firstColour, int nColours); extern void rfbSendBell(rfbScreenInfoPtr rfbScreen); void rfbGotXCutText(rfbScreenInfoPtr rfbScreen, char *str, int len); /* translate.c */ extern Bool rfbEconomicTranslate; extern void rfbTranslateNone(char *table, rfbPixelFormat *in, rfbPixelFormat *out, char *iptr, char *optr, int bytesBetweenInputLines, int width, int height); extern Bool rfbSetTranslateFunction(rfbClientPtr cl); extern Bool rfbSetClientColourMap(rfbClientPtr cl, int firstColour, int nColours); extern void rfbSetClientColourMaps(rfbScreenInfoPtr rfbScreen, int firstColour, int nColours); /* httpd.c */ extern int httpPort; extern char *httpDir; extern void httpInitSockets(); extern void httpCheckFds(); /* auth.c */ extern char *rfbAuthPasswdFile; extern Bool rfbAuthenticating; extern void rfbAuthNewClient(rfbClientPtr cl); extern void rfbAuthProcessClientMessage(rfbClientPtr cl); /* rre.c */ extern Bool rfbSendRectEncodingRRE(rfbClientPtr cl, int x,int y,int w,int h); /* corre.c */ extern Bool rfbSendRectEncodingCoRRE(rfbClientPtr cl, int x,int y,int w,int h); /* hextile.c */ extern Bool rfbSendRectEncodingHextile(rfbClientPtr cl, int x, int y, int w, int h); /* zlib.c */ /* Minimum zlib rectangle size in bytes. Anything smaller will * not compress well due to overhead. */ #define VNC_ENCODE_ZLIB_MIN_COMP_SIZE (17) /* Set maximum zlib rectangle size in pixels. Always allow at least * two scan lines. */ #define ZLIB_MAX_RECT_SIZE (128*256) #define ZLIB_MAX_SIZE(min) ((( min * 2 ) > ZLIB_MAX_RECT_SIZE ) ? \ ( min * 2 ) : ZLIB_MAX_RECT_SIZE ) extern Bool rfbSendRectEncodingZlib(rfbClientPtr cl, int x, int y, int w, int h); /* tight.c */ #define TIGHT_DEFAULT_COMPRESSION 6 extern Bool rfbTightDisableGradient; extern int rfbNumCodedRectsTight(rfbClientPtr cl, int x,int y,int w,int h); extern Bool rfbSendRectEncodingTight(rfbClientPtr cl, int x,int y,int w,int h); /* cursor.c */ typedef struct rfbCursor { unsigned char *source; /* points to bits */ unsigned char *mask; /* points to bits */ unsigned short width, height, xhot, yhot; /* metrics */ unsigned short foreRed, foreGreen, foreBlue; /* device-independent colour */ unsigned short backRed, backGreen, backBlue; /* device-independent colour */ unsigned char *richSource; /* source bytes for a rich cursor */ } rfbCursor, *rfbCursorPtr; extern Bool rfbSendCursorShape(rfbClientPtr cl/*, rfbScreenInfoPtr pScreen*/); extern unsigned char rfbReverseByte[0x100]; extern void rfbConvertLSBCursorBitmapOrMask(int width,int height,unsigned char* bitmap); extern rfbCursorPtr rfbMakeXCursor(int width,int height,char* cursorString,char* maskString); extern char* rfbMakeMaskForXCursor(int width,int height,char* cursorString); extern void MakeXCursorFromRichCursor(rfbScreenInfoPtr rfbScreen,rfbCursorPtr cursor); extern void MakeRichCursorFromXCursor(rfbScreenInfoPtr rfbScreen,rfbCursorPtr cursor); extern void rfbFreeCursor(rfbCursorPtr cursor); extern void rfbDrawCursor(rfbClientPtr cl); extern void rfbUndrawCursor(rfbClientPtr cl); extern void rfbSetCursor(rfbScreenInfoPtr rfbScreen,rfbCursorPtr c,Bool freeOld); /* cursor handling for the pointer */ extern void defaultPtrAddEvent(int buttonMask,int x,int y,rfbClientPtr cl); /* stats.c */ extern void rfbResetStats(rfbClientPtr cl); extern void rfbPrintStats(rfbClientPtr cl); extern void rfbInitSockets(rfbScreenInfoPtr rfbScreen); extern void rfbDisconnectUDPSock(rfbScreenInfoPtr cl); void rfbMarkRectAsModified(rfbScreenInfoPtr rfbScreen,int x1,int y1,int x2,int y2); void rfbMarkRegionAsModified(rfbScreenInfoPtr rfbScreen,sraRegionPtr modRegion); void doNothingWithClient(rfbClientPtr cl); /* functions to make a vnc server */ extern rfbScreenInfoPtr rfbGetScreen(int argc,char** argv, int width,int height,int bitsPerSample,int samplesPerPixel, int bytesPerPixel); extern void rfbInitServer(rfbScreenInfoPtr rfbScreen); extern void rfbScreenCleanup(rfbScreenInfoPtr screenInfo); /* call one of these two functions to service the vnc clients. usec are the microseconds the select on the fds waits. if you are using the event loop, set this to some value > 0, so the server doesn't get a high load just by listening. */ extern void rfbRunEventLoop(rfbScreenInfoPtr screenInfo, long usec, Bool runInBackground); extern void rfbProcessEvents(rfbScreenInfoPtr screenInfo,long usec);