From b16b9e4656e7199c2aec74a4c8ebc7a875d3ba73 Mon Sep 17 00:00:00 2001 From: Mike Gabriel Date: Mon, 2 Feb 2015 15:02:49 +0100 Subject: massive reduction of unneeded files --- .../Xserver/hw/xfree86/os-support/README.OS-lib | 506 --------------------- 1 file changed, 506 deletions(-) delete mode 100644 nx-X11/programs/Xserver/hw/xfree86/os-support/README.OS-lib (limited to 'nx-X11/programs/Xserver/hw/xfree86/os-support/README.OS-lib') diff --git a/nx-X11/programs/Xserver/hw/xfree86/os-support/README.OS-lib b/nx-X11/programs/Xserver/hw/xfree86/os-support/README.OS-lib deleted file mode 100644 index 43312e4e8..000000000 --- a/nx-X11/programs/Xserver/hw/xfree86/os-support/README.OS-lib +++ /dev/null @@ -1,506 +0,0 @@ - - README for XFree86 OS-support Layer - ----------------------------------- - -Contents --------- - 1) Overview - 2) Directory Layout - 3) Adding a new OS - 4) OS Support API - -1 - Overview ------------- - This directory contains the OS support layer functions for the XFree86 -servers. In addition, some miscellaneous server support functions (not -OS-dependent) are included here, to take advantage of the fact that this -library comes last in the linking order. - -Most of the functionality required to support a new OS is encapsulated in -this library. It is hoped that all OS-specific details can be encapsulated, -but that is not likely ever to be completely possible. Hence some minor -changes will wind up being made in other parts of the server. The major -design principles for this library are maintainability, readability, and -portability. Sometimes these goals conflict; some somewhat arbitrary choices -have been made in implementation. - -2 - Directory Layout --------------------- - os-support/ Contains headers and documentation; no code - misc/ Non-OS-specific miscellaneous functions that - fit best into the link architecture this way. - shared/ Contains files with functions used by more than one - OS. These are symlinked into the OS subdirectories - at build time via Imakefile rules. This is alway - preferable to reproducing functions in more than one - OS library. - bsd/ OS support for the 386BSD/NetBSD/FreeBSD operating - systems. - bsdi/ OS support for the BSD/386 operating system. - linux/ OS support for the Linux operating system. - os2/ OS support for OS/2 2.11 and OS/2 Warp - sco/ OS support for the SCO SVR3.x operating system. - solx86/ OS support for the Solaris x86 operating system. - sysv/ OS support for all SVR4.0 and SVR4.2, and for - ISC and AT&T SVR3.2 operating systems. - -3 - Adding A New OS -------------------- - Adding a support for a new operating system entails implementing all of -the functions described in the API below. Many of these functions are no-ops -for many operating systems, and appropriate files with dummy declarations are -available in the 'shared' subdirectory. - -If your OS is sufficiently similar to an existing OS, you can make use of -the existing subdirectory. One of the reasons for implementing this OS -library was the unmaintainability of the spagetti-#ifdef code that existed -before. You should try to avoid cluttering the code with #ifdef's. If -you find that the subdirectory is getting cluttered, split off into a -seperate subdirectory (e.g. as was done for SCO, rather than cluttering -the 'sysv' subdirectory). You can split functions out of an existing -subdirectory into the 'shared' subdirectory, if that is appropriate. Just -remember to update the Imakefile for the old subdirectory. - -You will still likely have to make some small changes to other parts of -the server. You should not put OS-specific #define's or #include's anywhere -else in the server. These should all go in the "xf86_OSlib.h" header file -in this directory. - -4 - OS Support API ------------------ -void xf86OpenConsole(void) -{ - /* - * Open console device, activate VTs, etc, etc. Fill in requisite - * pieces of xf86Info. Most of this code comes from xf86Init.c - */ -} - -void xf86CloseConsole(void) -{ - /* - * Close console at server exit. - */ -} - -Bool xf86VTSwitchPending(void) -{ - /* - * Returns TRUE iff there is a VT switch operation pending for - * the server. In the USL VT model, this is indicated via a - * signal handler. Should return FALSE always for OSs without - * VTs. - */ -} - -Bool xf86VTSwitchAway(void) -{ - /* - * Handles the OS-specific action for switching away from the active - * VT. Returns FALSE if the switch away fails. Should return - * FALSE always for OSs without VTs (then again, this function - * should never be called in that case). - */ -} - -Bool xf86VTSwitchTo(void) -{ - /* - * Handles the OS-specific action for switching to the active VT. - * Returns FALSE if the switch to fails. Should return TRUE - * always for OSs without VTs (then again, this function should - * never be called in that case). - */ -} - -Bool xf86LinearVidMem(void) -{ - /* - * Returns TRUE if the OS supports mapping linear frame buffers - * (ie memory at addresses above physical memory). - */ -} - -pointer xf86MapVidMem(int ScreenNum, pointer Base, unsigned long Size) -{ - /* - * Handle mapping the video memory. Returns (pointer *)0 for - * failure; causes server exit. It is allowable to call FatalError() - * from inside this function and exit directly. - */ -} - -void xf86UnMapVidMem(int ScreenNum, pointer Base, unsigned long Size) -{ - /* - * Handle unmapping the video memory. This should undo what - * xf86MapVidMem() does. Base is a pointer obtained from - * a previous call to xf86MapVidMem(). - */ -} - -void xf86MapDisplay(int ScreenNum, int Region) -{ - /* - * For OSs that require the screen be mapped when entering a VT. - * A dummy function will be defined for OSs that don't require - * this (or don't have VTs at all). - */ -} - -void xf86UnMapDisplay(int ScreenNum, int Region) -{ - /* - * For Os that require that the screen be unmapped when leaving a - * VT. A dummy function will be defined for OSs that don't require - * this (or don't have VTs at all). - */ -} - -int xf86ReadBIOS(unsigned long Base, unsigned long Offset, - unsigned char *Buf, int Len) -{ - /* - * Read Len bytes from the BIOS at address Base, offset Offset, - * into buffer Buf. Returns -1 for failure or if the OS does - * not support reading the BIOS. This causes a driver probe - * to fail, but does not cause the server to abort. - */ -} - - -void xf86EnableIOPorts(int ScreenNum) -{ - /* - * Enables I/O permissions. The OS layer should - * enable all I/O port access. - */ -} - -void xf86DisableIOPorts(int ScreenNum) -{ - /* - * Disables I/O permissions. - */ -} - -Bool xf86DisableInterrupts(void) -{ - /* - * Disable interrupts if allowed for this OS. Returns FALSE if - * this is not allowed or if the attempt fails for some reason. - */ -} - -void xf86EnableInterrupts(void) -{ - /* - * Reenable interrupts - */ -} - -int xf86ProcessArgument(int argc, char *argv[], int i) -{ - /* - * Process OS-specific command-line arguments. See - * ddxProcessArgument() for more info. - */ -} - -void xf86UseMsg(void) -{ - /* - * Print list of OS-specific command-line arguments. See - * ddxUseMsg() for more info. - */ -} - -void xf86SoundKbdBell(int loudness, int pitch, int duration) -{ - /* - * Sound the keyboard bell. pitch is in Hz, duration in ms, - * loudness is in the range 0-100 (0 -> off). For systems - * where the loudness can't be controlled, scale the duration - * by loudness/50. - */ -} - -void xf86SetKbdLeds(int leds) -{ - /* - * Set the keyboard LEDs to the state indicated in leds - */ -} - -int xf86GetKbdLeds(void) -{ - /* - * Return the state of the keyboard LEDs. If the OS doesn't - * support this, return 0. - */ -} - -void xf86SetKbdRepeat(char rad) -{ - /* - * Set the keyboard repeat rate and delay according the - * the rad value. The lower 5 bits determine the repeat - * rate (lower value -> higher rate). The next 2 bits - * determine the delay. - * This should possibly be changed to take separate rate and - * delay parameters. - */ -} - -void xf86KbdInit(void) -{ - /* - * Save initial keyboard state. This is called at the start of - * each server generation. - */ -} - -int xf86KbdOn(void) -{ - /* - * Set the keyboard up for use with X. This is called whenever - * the server becomes active (ie at the start of each generation and - * whenever its VT becomes active). Return the file descriptor - * for keyboard input. Return -1 if there is no file descriptor - * to add as an input device. If there are errors encountered, - * call FatalError(). A return value of -1 is not considered an - * error condition. - */ -} - -int xf86KbdOff(void) -{ - /* - * Return the keyboard to the state saved by xf86KbdInit(). This is - * called at the end of a server generation, and also when the - * server's VT ceases being active. Returns the keyboard file - * descriptor. Returns -1 if there is no file descriptor to be - * removed as an input device. Errors should be handled the same - * way as in xf86KbdOn(). - */ -} - -void xf86KbdEvents(void) -{ - /* - * Read characters from the keyboard device, and post the events - * by calling xf86PostKbdEvent(). Read as much as is available - * without waiting. - */ -} - -void xf86SetMouseSpeed(int old, int new, unsigned cflag) -{ - /* - * Set the speed of the mouse port. old is the previous speed, - * new is the new speed, and cflag is the value of the termio[s] - * c_cflag field. For mice that have programmable speed operation, - * this should send the appropriate commands to the mouse. - */ -} - -void xf86MouseInit(void) -{ - /* - * This is called at the start of each server generation. In most - * cases this is a noop. If the mouse must not be opened/closed - * when VT switching, the open should be done here. - */ -} - -int xf86MousedOn(void) -{ - /* - * Set the mouse up for use with X. This is called whenever - * the server becomes active (ie at the start of each generation and - * whenever its VT becomes active). This function normally opens - * the mouse device, and may call xf86SetupMouse() to initialise - * the mouse parameters. Return the file descriptor for mouse input. - * Return -1 if there is no file descriptor to add as an input - * device. If there are errors encountered, call FatalError(). - * A return value of -1 is not considered an error condition. - */ -} - -int xf86MouseOff(Bool doclose) -{ - /* - * Release the mouse from use with X. This is called at the end - * of a server generation (with doclose==TRUE), and also when the - * server's VT ceases being active (with doclose==FALSE). If the - * mouse should not be opened/closed when VT switching, the close - * should be done here when doclose==TRUE. For other systems, the - * mouse device should be closed regardless of the doclose value. - * Returns the mouse file descriptor. Returns -1 if there is no - * file descriptor to be removed as an input device. Errors - * should be handled the same way as in xf86MouseOn(). - */ -} - -void xf86MouseEvents(void) -{ - /* - * Read characters from the mouse device, and post the events - * by calling xf86PostMseEvent(). Read as much as is available - * without waiting. If the OS doesn't handle the mouse protocol - * translation, xf86MouseProtocol() may be called to do the - * translation and event posting. If the OS does handle the protocol - * translation, MOUSE_PROTOCOL_IN_KERNEL should be #define'd in - * xf86_OSlib.h. - */ -} - -int xf86OsMouseProc(DevicePtr pPointer, int what) -{ - /* - * Implements the device-proc for the pointer device when an - * OS-based mouse driver is being used (as opposed to the - * server's internal mouse driver). Implemented as any other - * device-proc in the server. - * - * This function only needs to be implemented if USE_OSMOUSE is - * defined for the OS. - */ -} - -int xf86OsMouseEvents(void) -{ - /* - * When supporting an OS-based mouse driver (as opposed to the - * server's internal mouse driver), read some events from the device - * and post them to the DIX layer through xf86PostMseEvent(). - * - * This function only needs to be implemented if USE_OSMOUSE is - * defined for the OS. - */ -} - -void xf86OsMouseOption(int token, pointer lex_ptr) -{ - /* - * Used in parsing an OsMouse keyword from the Xconfig file. - * Passed the token type and a pointer to the token value. - * The function should do whatever is appropriate for the OS's - * mouse driver. - * - * This function only needs to be implemented if USE_OSMOUSE is - * defined for the OS. - */ -} - -/* - * The following functions are simply wrappers around the OS specific - * libc functions - */ - -void * -xf86memmove(void * dest, const void * src, INT32 n) -{ - return(memmove(dest,src,n)); -} - -void * -xf86memset(void * s, int c, INT32 n) -{ - return(memset(s,c,n)); -} - -void * -xf86memcpy(void * dest, const void * src, INT32 n) -{ - return(memcpy(dest,src,n)); -} - -int -xf86memcmp(const void * s1, const void * s2, INT32 n) -{ - return(memcmp(s1,s2,n)); -} - -char * -xf86strcat(char * dest, const char * src) -{ - return(strcat(dest,src)); -} - -char * -xf86strcpy(char * dest, const char * src) -{ - return(strcpy(dest,src)); -} - -int -xf86strcmp(const char * s1, const char * s2) -{ - return(strcmp(s1,s2)); -} - -int -xf86strncmp(const char * s1, const char * s2, INT32 n) -{ - return(strncmp(s1,s2,n)); -} - -size_t -xf86strlen(const char * s) -{ - return(strlen(s)); -} - -void -xf86getsecs(INT32 * secs, INT32 * usecs) -{ - struct timeval tv; - - gettimeofday(&tv, NULL); - *secs = tv.tv_sec; - *usecs= tv.tv_usec; - - return; -} - -double -xf86exp(double x) -{ - return(exp(x)); -} - -double -xf86log(double x) -{ - return(log(x)); -} - -double -xf86pow(double x, double y) -{ - return(pow(x,y)); -} - -double -xf86sqrt(double x) -{ - return(sqrt(x)); -} - -double -xf86cos(double x) -{ - return(cos(x)); -} - - - - -$XFree86: xc/programs/Xserver/hw/xfree86/os-support/README.OS-lib,v 3.9 2001/07/23 13:15:48 dawes Exp $ - - - - - -$XConsortium: README.OS-lib /main/5 1996/02/21 17:50:28 kaleb $ -- cgit v1.2.3