freebsd-nq/sys/dev/atkbdc/psm.c

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/*-
* Copyright (c) 1992, 1993 Erik Forsberg.
* Copyright (c) 1996, 1997 Kazutaka YOKOTA.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* THIS SOFTWARE IS PROVIDED BY ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN
* NO EVENT SHALL I BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
* Ported to 386bsd Oct 17, 1992
* Sandi Donno, Computer Science, University of Cape Town, South Africa
* Please send bug reports to sandi@cs.uct.ac.za
*
* Thanks are also due to Rick Macklem, rick@snowhite.cis.uoguelph.ca -
* although I was only partially successful in getting the alpha release
* of his "driver for the Logitech and ATI Inport Bus mice for use with
* 386bsd and the X386 port" to work with my Microsoft mouse, I nevertheless
* found his code to be an invaluable reference when porting this driver
* to 386bsd.
*
* Further modifications for latest 386BSD+patchkit and port to NetBSD,
* Andrew Herbert <andrew@werple.apana.org.au> - 8 June 1993
*
* Cloned from the Microsoft Bus Mouse driver, also by Erik Forsberg, by
* Andrew Herbert - 12 June 1993
*
* Modified for PS/2 mouse by Charles Hannum <mycroft@ai.mit.edu>
* - 13 June 1993
*
* Modified for PS/2 AUX mouse by Shoji Yuen <yuen@nuie.nagoya-u.ac.jp>
* - 24 October 1993
*
* Hardware access routines and probe logic rewritten by
* Kazutaka Yokota <yokota@zodiac.mech.utsunomiya-u.ac.jp>
* - 3, 14, 22 October 1996.
* - 12 November 1996. IOCTLs and rearranging `psmread', `psmioctl'...
* - 14, 30 November 1996. Uses `kbdio.c'.
* - 13 December 1996. Uses queuing version of `kbdio.c'.
* - January/February 1997. Tweaked probe logic for
* HiNote UltraII/Latitude/Armada laptops.
* - 30 July 1997. Added APM support.
* - 5 March 1997. Defined driver configuration flags (PSM_CONFIG_XXX).
* Improved sync check logic.
* Vendor specific support routines.
*/
2003-06-11 00:34:37 +00:00
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
- Hook up the new locations of the atkbdc(4), atkbd(4) and psm(4) source files after they were repo-copied to sys/dev/atkbdc. The sources of atkbdc(4) and its children were moved to the new location in preparation for adding an EBus front-end to atkbdc(4) for use on sparc64; i.e. in order to not further scatter them over the whole tree which would have been the result of adding atkbdc_ebus.c in e.g. sys/sparc64/ebus. Another reason for the repo-copies was that some of the sources were misfiled, e.g. sys/isa/atkbd_isa.c wasn't ISA-specific at all but for hanging atkbd(4) off of atkbdc(4) and was renamed to atkbd_atkbdc.c accordingly. Most of sys/isa/psm.c, i.e. expect for its PSMC PNP part, also isn't ISA-specific. - Separate the parts of atkbdc_isa.c which aren't actually ISA-specific but are shareable between different atkbdc(4) bus front-ends into atkbdc_subr.c (repo-copied from atkbdc_isa.c). While here use bus_generic_rl_alloc_resource() and bus_generic_rl_release_resource() respectively in atkbdc_isa.c instead of rolling own versions. - Add sparc64 MD bits to atkbdc(4) and atkbd(4) and an EBus front-end for atkbdc(4). PS/2 controllers and input devices are used on a couple of Sun OEM boards and occur on either the EBus or the ISA bus. Depending on the board it's either the only on-board mean to connect a keyboard and mouse or an alternative to either RS232 or USB devices. - Wrap the PSMC PNP part of psm.c in #ifdef DEV_ISA so it can be compiled without isa(4) (e.g. for EBus-only machines). This ISA-specific part isn't separated into its own source file, yet, as it requires more work than was feasible for 6.0 in order to do it in a clean way. Actually philip@ is working on a rewrite of psm(4) so a more comprehensive clean-up and separation of hardware dependent and independent parts is expected to happen after 6.0. Tested on: i386, sparc64 (AX1105, AXe and AXi boards) Reviewed by: philip
2005-06-10 20:56:38 +00:00
#include "opt_isa.h"
#include "opt_psm.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/module.h>
#include <sys/bus.h>
#include <sys/conf.h>
#include <sys/poll.h>
#include <sys/syslog.h>
#include <machine/bus.h>
#include <sys/rman.h>
#include <sys/selinfo.h>
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
#include <sys/sysctl.h>
#include <sys/time.h>
#include <sys/uio.h>
#include <sys/limits.h>
#include <sys/mouse.h>
#include <machine/resource.h>
- Hook up the new locations of the atkbdc(4), atkbd(4) and psm(4) source files after they were repo-copied to sys/dev/atkbdc. The sources of atkbdc(4) and its children were moved to the new location in preparation for adding an EBus front-end to atkbdc(4) for use on sparc64; i.e. in order to not further scatter them over the whole tree which would have been the result of adding atkbdc_ebus.c in e.g. sys/sparc64/ebus. Another reason for the repo-copies was that some of the sources were misfiled, e.g. sys/isa/atkbd_isa.c wasn't ISA-specific at all but for hanging atkbd(4) off of atkbdc(4) and was renamed to atkbd_atkbdc.c accordingly. Most of sys/isa/psm.c, i.e. expect for its PSMC PNP part, also isn't ISA-specific. - Separate the parts of atkbdc_isa.c which aren't actually ISA-specific but are shareable between different atkbdc(4) bus front-ends into atkbdc_subr.c (repo-copied from atkbdc_isa.c). While here use bus_generic_rl_alloc_resource() and bus_generic_rl_release_resource() respectively in atkbdc_isa.c instead of rolling own versions. - Add sparc64 MD bits to atkbdc(4) and atkbd(4) and an EBus front-end for atkbdc(4). PS/2 controllers and input devices are used on a couple of Sun OEM boards and occur on either the EBus or the ISA bus. Depending on the board it's either the only on-board mean to connect a keyboard and mouse or an alternative to either RS232 or USB devices. - Wrap the PSMC PNP part of psm.c in #ifdef DEV_ISA so it can be compiled without isa(4) (e.g. for EBus-only machines). This ISA-specific part isn't separated into its own source file, yet, as it requires more work than was feasible for 6.0 in order to do it in a clean way. Actually philip@ is working on a rewrite of psm(4) so a more comprehensive clean-up and separation of hardware dependent and independent parts is expected to happen after 6.0. Tested on: i386, sparc64 (AX1105, AXe and AXi boards) Reviewed by: philip
2005-06-10 20:56:38 +00:00
#ifdef DEV_ISA
#include <isa/isavar.h>
- Hook up the new locations of the atkbdc(4), atkbd(4) and psm(4) source files after they were repo-copied to sys/dev/atkbdc. The sources of atkbdc(4) and its children were moved to the new location in preparation for adding an EBus front-end to atkbdc(4) for use on sparc64; i.e. in order to not further scatter them over the whole tree which would have been the result of adding atkbdc_ebus.c in e.g. sys/sparc64/ebus. Another reason for the repo-copies was that some of the sources were misfiled, e.g. sys/isa/atkbd_isa.c wasn't ISA-specific at all but for hanging atkbd(4) off of atkbdc(4) and was renamed to atkbd_atkbdc.c accordingly. Most of sys/isa/psm.c, i.e. expect for its PSMC PNP part, also isn't ISA-specific. - Separate the parts of atkbdc_isa.c which aren't actually ISA-specific but are shareable between different atkbdc(4) bus front-ends into atkbdc_subr.c (repo-copied from atkbdc_isa.c). While here use bus_generic_rl_alloc_resource() and bus_generic_rl_release_resource() respectively in atkbdc_isa.c instead of rolling own versions. - Add sparc64 MD bits to atkbdc(4) and atkbd(4) and an EBus front-end for atkbdc(4). PS/2 controllers and input devices are used on a couple of Sun OEM boards and occur on either the EBus or the ISA bus. Depending on the board it's either the only on-board mean to connect a keyboard and mouse or an alternative to either RS232 or USB devices. - Wrap the PSMC PNP part of psm.c in #ifdef DEV_ISA so it can be compiled without isa(4) (e.g. for EBus-only machines). This ISA-specific part isn't separated into its own source file, yet, as it requires more work than was feasible for 6.0 in order to do it in a clean way. Actually philip@ is working on a rewrite of psm(4) so a more comprehensive clean-up and separation of hardware dependent and independent parts is expected to happen after 6.0. Tested on: i386, sparc64 (AX1105, AXe and AXi boards) Reviewed by: philip
2005-06-10 20:56:38 +00:00
#endif
#include <dev/atkbdc/atkbdcreg.h>
#include <dev/atkbdc/psm.h>
/*
* Driver specific options: the following options may be set by
* `options' statements in the kernel configuration file.
*/
/* debugging */
#ifndef PSM_DEBUG
#define PSM_DEBUG 0 /*
* logging: 0: none, 1: brief, 2: verbose
* 3: sync errors, 4: all packets
*/
#endif
#define VLOG(level, args) \
do { \
if (verbose >= level) \
log args; \
} while (0)
#ifndef PSM_INPUT_TIMEOUT
#define PSM_INPUT_TIMEOUT 2000000 /* 2 sec */
#endif
#ifndef PSM_TAP_TIMEOUT
#define PSM_TAP_TIMEOUT 125000
#endif
#ifndef PSM_TAP_THRESHOLD
#define PSM_TAP_THRESHOLD 25
#endif
/* end of driver specific options */
#define PSMCPNP_DRIVER_NAME "psmcpnp"
/* input queue */
#define PSM_BUFSIZE 960
#define PSM_SMALLBUFSIZE 240
/* operation levels */
#define PSM_LEVEL_BASE 0
#define PSM_LEVEL_STANDARD 1
#define PSM_LEVEL_NATIVE 2
#define PSM_LEVEL_MIN PSM_LEVEL_BASE
#define PSM_LEVEL_MAX PSM_LEVEL_NATIVE
/* Logitech PS2++ protocol */
#define MOUSE_PS2PLUS_CHECKBITS(b) \
((((b[2] & 0x03) << 2) | 0x02) == (b[1] & 0x0f))
#define MOUSE_PS2PLUS_PACKET_TYPE(b) \
(((b[0] & 0x30) >> 2) | ((b[1] & 0x30) >> 4))
/* some macros */
#define PSM_UNIT(dev) (minor(dev) >> 1)
#define PSM_NBLOCKIO(dev) (minor(dev) & 1)
#define PSM_MKMINOR(unit,block) (((unit) << 1) | ((block) ? 0:1))
/* ring buffer */
typedef struct ringbuf {
int count; /* # of valid elements in the buffer */
int head; /* head pointer */
int tail; /* tail poiner */
unsigned char buf[PSM_BUFSIZE];
} ringbuf_t;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
/* data buffer */
typedef struct packetbuf {
unsigned char ipacket[16]; /* interim input buffer */
int inputbytes; /* # of bytes in the input buffer */
} packetbuf_t;
#ifndef PSM_PACKETQUEUE
#define PSM_PACKETQUEUE 128
#endif
typedef struct synapticsinfo {
struct sysctl_ctx_list sysctl_ctx;
struct sysctl_oid *sysctl_tree;
int directional_scrolls;
int low_speed_threshold;
int min_movement;
int squelch_level;
} synapticsinfo_t;
/* driver control block */
struct psm_softc { /* Driver status information */
int unit;
struct selinfo rsel; /* Process selecting for Input */
unsigned char state; /* Mouse driver state */
int config; /* driver configuration flags */
int flags; /* other flags */
KBDC kbdc; /* handle to access the keyboard controller */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
struct resource *intr; /* IRQ resource */
void *ih; /* interrupt handle */
mousehw_t hw; /* hardware information */
synapticshw_t synhw; /* Synaptics-specific hardware information */
synapticsinfo_t syninfo; /* Synaptics-specific configuration */
mousemode_t mode; /* operation mode */
mousemode_t dflt_mode; /* default operation mode */
mousestatus_t status; /* accumulated mouse movement */
ringbuf_t queue; /* mouse status queue */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
packetbuf_t pqueue[PSM_PACKETQUEUE]; /* mouse data queue */
int pqueue_start; /* start of data in queue */
int pqueue_end; /* end of data in queue */
int button; /* the latest button state */
int xold; /* previous absolute X position */
int yold; /* previous absolute Y position */
int xaverage; /* average X position */
int yaverage; /* average Y position */
int squelch; /* level to filter movement data at low speed */
int zmax; /* maximum pressure value for touchpads */
int syncerrors; /* # of bytes discarded searching for sync */
int pkterrors; /* # of packets failed during quaranteen. */
struct timeval inputtimeout;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
struct timeval lastsoftintr; /* time of last soft interrupt */
struct timeval lastinputerr; /* time last sync error happened */
struct timeval taptimeout; /* tap timeout for touchpads */
int watchdog; /* watchdog timer flag */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
struct callout_handle callout; /* watchdog timer call out */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
struct callout_handle softcallout; /* buffer timer call out */
struct cdev *dev;
struct cdev *bdev;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
int lasterr;
int cmdcount;
};
static devclass_t psm_devclass;
#define PSM_SOFTC(unit) ((struct psm_softc*)devclass_get_softc(psm_devclass, unit))
/* driver state flags (state) */
#define PSM_VALID 0x80
#define PSM_OPEN 1 /* Device is open */
#define PSM_ASLP 2 /* Waiting for mouse data */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
#define PSM_SOFTARMED 4 /* Software interrupt armed */
#define PSM_NEED_SYNCBITS 8 /* Set syncbits using next data pkt */
/* driver configuration flags (config) */
#define PSM_CONFIG_RESOLUTION 0x000f /* resolution */
#define PSM_CONFIG_ACCEL 0x00f0 /* acceleration factor */
#define PSM_CONFIG_NOCHECKSYNC 0x0100 /* disable sync. test */
#define PSM_CONFIG_NOIDPROBE 0x0200 /* disable mouse model probe */
#define PSM_CONFIG_NORESET 0x0400 /* don't reset the mouse */
#define PSM_CONFIG_FORCETAP 0x0800 /* assume `tap' action exists */
#define PSM_CONFIG_IGNPORTERROR 0x1000 /* ignore error in aux port test */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
#define PSM_CONFIG_HOOKRESUME 0x2000 /* hook the system resume event */
#define PSM_CONFIG_INITAFTERSUSPEND 0x4000 /* init the device at the resume event */
#define PSM_CONFIG_SYNCHACK 0x8000 /* enable `out-of-sync' hack */
#define PSM_CONFIG_FLAGS (PSM_CONFIG_RESOLUTION \
| PSM_CONFIG_ACCEL \
| PSM_CONFIG_NOCHECKSYNC \
| PSM_CONFIG_SYNCHACK \
| PSM_CONFIG_NOIDPROBE \
| PSM_CONFIG_NORESET \
| PSM_CONFIG_FORCETAP \
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
| PSM_CONFIG_IGNPORTERROR \
| PSM_CONFIG_HOOKRESUME \
| PSM_CONFIG_INITAFTERSUSPEND)
/* other flags (flags) */
#define PSM_FLAGS_FINGERDOWN 0x0001 /* VersaPad finger down */
/* Tunables */
static int synaptics_support = 0;
TUNABLE_INT("hw.psm.synaptics_support", &synaptics_support);
static int verbose = PSM_DEBUG;
TUNABLE_INT("debug.psm.loglevel", &verbose);
/* for backward compatibility */
#define OLD_MOUSE_GETHWINFO _IOR('M', 1, old_mousehw_t)
#define OLD_MOUSE_GETMODE _IOR('M', 2, old_mousemode_t)
#define OLD_MOUSE_SETMODE _IOW('M', 3, old_mousemode_t)
typedef struct old_mousehw {
int buttons;
int iftype;
int type;
int hwid;
} old_mousehw_t;
typedef struct old_mousemode {
int protocol;
int rate;
int resolution;
int accelfactor;
} old_mousemode_t;
/* packet formatting function */
2002-03-20 05:14:42 +00:00
typedef int packetfunc_t(struct psm_softc *, unsigned char *,
int *, int, mousestatus_t *);
/* function prototypes */
2002-03-20 05:14:42 +00:00
static void psmidentify(driver_t *, device_t);
static int psmprobe(device_t);
static int psmattach(device_t);
static int psmdetach(device_t);
static int psmresume(device_t);
static d_open_t psmopen;
static d_close_t psmclose;
static d_read_t psmread;
static d_ioctl_t psmioctl;
static d_poll_t psmpoll;
2002-03-20 05:14:42 +00:00
static int enable_aux_dev(KBDC);
static int disable_aux_dev(KBDC);
static int get_mouse_status(KBDC, int *, int, int);
static int get_aux_id(KBDC);
static int set_mouse_sampling_rate(KBDC, int);
static int set_mouse_scaling(KBDC, int);
static int set_mouse_resolution(KBDC, int);
static int set_mouse_mode(KBDC);
static int get_mouse_buttons(KBDC);
static int is_a_mouse(int);
static void recover_from_error(KBDC);
static int restore_controller(KBDC, int);
static int doinitialize(struct psm_softc *, mousemode_t *);
static int doopen(struct psm_softc *, int);
static int reinitialize(struct psm_softc *, int);
static char *model_name(int);
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static void psmsoftintr(void *);
2002-03-20 05:14:42 +00:00
static void psmintr(void *);
static void psmtimeout(void *);
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static int timeelapsed(const struct timeval *,
int, int, const struct timeval *);
static void dropqueue(struct psm_softc *);
static void flushpackets(struct psm_softc *);
/* vendor specific features */
2002-03-20 05:14:42 +00:00
typedef int probefunc_t(struct psm_softc *);
2002-03-20 05:14:42 +00:00
static int mouse_id_proc1(KBDC, int, int, int *);
static int mouse_ext_command(KBDC, int);
static probefunc_t enable_groller;
static probefunc_t enable_gmouse;
static probefunc_t enable_aglide;
static probefunc_t enable_kmouse;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
static probefunc_t enable_msexplorer;
static probefunc_t enable_msintelli;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
static probefunc_t enable_4dmouse;
static probefunc_t enable_4dplus;
static probefunc_t enable_mmanplus;
static probefunc_t enable_synaptics;
static probefunc_t enable_versapad;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static int tame_mouse(struct psm_softc *, packetbuf_t *, mousestatus_t *, unsigned char *);
static struct {
int model;
unsigned char syncmask;
int packetsize;
probefunc_t *probefunc;
} vendortype[] = {
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/*
* WARNING: the order of probe is very important. Don't mess it
* unless you know what you are doing.
*/
{ MOUSE_MODEL_NET, /* Genius NetMouse */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
0x08, MOUSE_PS2INTELLI_PACKETSIZE, enable_gmouse, },
{ MOUSE_MODEL_NETSCROLL, /* Genius NetScroll */
0xc8, 6, enable_groller, },
{ MOUSE_MODEL_MOUSEMANPLUS, /* Logitech MouseMan+ */
0x08, MOUSE_PS2_PACKETSIZE, enable_mmanplus, },
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
{ MOUSE_MODEL_EXPLORER, /* Microsoft IntelliMouse Explorer */
0x08, MOUSE_PS2INTELLI_PACKETSIZE, enable_msexplorer, },
{ MOUSE_MODEL_4D, /* A4 Tech 4D Mouse */
0x08, MOUSE_4D_PACKETSIZE, enable_4dmouse, },
{ MOUSE_MODEL_4DPLUS, /* A4 Tech 4D+ Mouse */
0xc8, MOUSE_4DPLUS_PACKETSIZE, enable_4dplus, },
{ MOUSE_MODEL_INTELLI, /* Microsoft IntelliMouse */
0x08, MOUSE_PS2INTELLI_PACKETSIZE, enable_msintelli, },
{ MOUSE_MODEL_GLIDEPOINT, /* ALPS GlidePoint */
0xc0, MOUSE_PS2_PACKETSIZE, enable_aglide, },
{ MOUSE_MODEL_THINK, /* Kensignton ThinkingMouse */
0x80, MOUSE_PS2_PACKETSIZE, enable_kmouse, },
{ MOUSE_MODEL_VERSAPAD, /* Interlink electronics VersaPad */
0xe8, MOUSE_PS2VERSA_PACKETSIZE, enable_versapad, },
{ MOUSE_MODEL_SYNAPTICS, /* Synaptics Touchpad */
0xc0, MOUSE_SYNAPTICS_PACKETSIZE, enable_synaptics, },
{ MOUSE_MODEL_GENERIC,
0xc0, MOUSE_PS2_PACKETSIZE, NULL, },
};
#define GENERIC_MOUSE_ENTRY ((sizeof(vendortype) / sizeof(*vendortype)) - 1)
/* device driver declarateion */
static device_method_t psm_methods[] = {
/* Device interface */
DEVMETHOD(device_identify, psmidentify),
DEVMETHOD(device_probe, psmprobe),
DEVMETHOD(device_attach, psmattach),
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
DEVMETHOD(device_detach, psmdetach),
DEVMETHOD(device_resume, psmresume),
{ 0, 0 }
};
static driver_t psm_driver = {
PSM_DRIVER_NAME,
psm_methods,
sizeof(struct psm_softc),
};
static struct cdevsw psm_cdevsw = {
.d_version = D_VERSION,
.d_flags = D_NEEDGIANT,
.d_open = psmopen,
.d_close = psmclose,
.d_read = psmread,
.d_ioctl = psmioctl,
.d_poll = psmpoll,
.d_name = PSM_DRIVER_NAME,
};
/* device I/O routines */
static int
enable_aux_dev(KBDC kbdc)
{
int res;
res = send_aux_command(kbdc, PSMC_ENABLE_DEV);
VLOG(2, (LOG_DEBUG, "psm: ENABLE_DEV return code:%04x\n", res));
return (res == PSM_ACK);
}
static int
disable_aux_dev(KBDC kbdc)
{
int res;
res = send_aux_command(kbdc, PSMC_DISABLE_DEV);
VLOG(2, (LOG_DEBUG, "psm: DISABLE_DEV return code:%04x\n", res));
return (res == PSM_ACK);
}
static int
get_mouse_status(KBDC kbdc, int *status, int flag, int len)
{
int cmd;
int res;
int i;
switch (flag) {
case 0:
default:
cmd = PSMC_SEND_DEV_STATUS;
break;
case 1:
cmd = PSMC_SEND_DEV_DATA;
break;
}
empty_aux_buffer(kbdc, 5);
res = send_aux_command(kbdc, cmd);
VLOG(2, (LOG_DEBUG, "psm: SEND_AUX_DEV_%s return code:%04x\n",
(flag == 1) ? "DATA" : "STATUS", res));
if (res != PSM_ACK)
return 0;
for (i = 0; i < len; ++i) {
status[i] = read_aux_data(kbdc);
if (status[i] < 0)
break;
}
VLOG(1, (LOG_DEBUG, "psm: %s %02x %02x %02x\n",
(flag == 1) ? "data" : "status", status[0], status[1], status[2]));
return i;
}
static int
get_aux_id(KBDC kbdc)
{
int res;
int id;
empty_aux_buffer(kbdc, 5);
res = send_aux_command(kbdc, PSMC_SEND_DEV_ID);
VLOG(2, (LOG_DEBUG, "psm: SEND_DEV_ID return code:%04x\n", res));
if (res != PSM_ACK)
return (-1);
/* 10ms delay */
DELAY(10000);
id = read_aux_data(kbdc);
VLOG(2, (LOG_DEBUG, "psm: device ID: %04x\n", id));
return id;
}
static int
set_mouse_sampling_rate(KBDC kbdc, int rate)
{
int res;
res = send_aux_command_and_data(kbdc, PSMC_SET_SAMPLING_RATE, rate);
VLOG(2, (LOG_DEBUG, "psm: SET_SAMPLING_RATE (%d) %04x\n", rate, res));
return ((res == PSM_ACK) ? rate : -1);
}
static int
set_mouse_scaling(KBDC kbdc, int scale)
{
int res;
switch (scale) {
case 1:
default:
scale = PSMC_SET_SCALING11;
break;
case 2:
scale = PSMC_SET_SCALING21;
break;
}
res = send_aux_command(kbdc, scale);
VLOG(2, (LOG_DEBUG, "psm: SET_SCALING%s return code:%04x\n",
(scale == PSMC_SET_SCALING21) ? "21" : "11", res));
return (res == PSM_ACK);
}
/* `val' must be 0 through PSMD_MAX_RESOLUTION */
static int
set_mouse_resolution(KBDC kbdc, int val)
{
int res;
res = send_aux_command_and_data(kbdc, PSMC_SET_RESOLUTION, val);
VLOG(2, (LOG_DEBUG, "psm: SET_RESOLUTION (%d) %04x\n", val, res));
return ((res == PSM_ACK) ? val : -1);
}
/*
* NOTE: once `set_mouse_mode()' is called, the mouse device must be
* re-enabled by calling `enable_aux_dev()'
*/
static int
set_mouse_mode(KBDC kbdc)
{
int res;
res = send_aux_command(kbdc, PSMC_SET_STREAM_MODE);
VLOG(2, (LOG_DEBUG, "psm: SET_STREAM_MODE return code:%04x\n", res));
return (res == PSM_ACK);
}
static int
get_mouse_buttons(KBDC kbdc)
{
int c = 2; /* assume two buttons by default */
int status[3];
/*
* NOTE: a special sequence to obtain Logitech Mouse specific
* information: set resolution to 25 ppi, set scaling to 1:1, set
* scaling to 1:1, set scaling to 1:1. Then the second byte of the
* mouse status bytes is the number of available buttons.
* Some manufactures also support this sequence.
*/
if (set_mouse_resolution(kbdc, PSMD_RES_LOW) != PSMD_RES_LOW)
return c;
if (set_mouse_scaling(kbdc, 1) && set_mouse_scaling(kbdc, 1)
&& set_mouse_scaling(kbdc, 1)
&& (get_mouse_status(kbdc, status, 0, 3) >= 3)) {
if (status[1] != 0)
return status[1];
}
return c;
}
/* misc subroutines */
/*
* Someday, I will get the complete list of valid pointing devices and
* their IDs... XXX
*/
static int
is_a_mouse(int id)
{
#if 0
static int valid_ids[] = {
PSM_MOUSE_ID, /* mouse */
PSM_BALLPOINT_ID, /* ballpoint device */
PSM_INTELLI_ID, /* Intellimouse */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
PSM_EXPLORER_ID, /* Intellimouse Explorer */
-1 /* end of table */
};
int i;
for (i = 0; valid_ids[i] >= 0; ++i)
if (valid_ids[i] == id)
return TRUE;
return FALSE;
#else
return TRUE;
#endif
}
static char *
model_name(int model)
{
static struct {
int model_code;
char *model_name;
} models[] = {
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
{ MOUSE_MODEL_NETSCROLL, "NetScroll" },
{ MOUSE_MODEL_NET, "NetMouse/NetScroll Optical" },
{ MOUSE_MODEL_GLIDEPOINT, "GlidePoint" },
{ MOUSE_MODEL_THINK, "ThinkingMouse" },
{ MOUSE_MODEL_INTELLI, "IntelliMouse" },
{ MOUSE_MODEL_MOUSEMANPLUS, "MouseMan+" },
{ MOUSE_MODEL_VERSAPAD, "VersaPad" },
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
{ MOUSE_MODEL_EXPLORER, "IntelliMouse Explorer" },
{ MOUSE_MODEL_4D, "4D Mouse" },
{ MOUSE_MODEL_4DPLUS, "4D+ Mouse" },
{ MOUSE_MODEL_SYNAPTICS, "Synaptics Touchpad" },
{ MOUSE_MODEL_GENERIC, "Generic PS/2 mouse" },
{ MOUSE_MODEL_UNKNOWN, NULL },
};
int i;
for (i = 0; models[i].model_code != MOUSE_MODEL_UNKNOWN; ++i) {
if (models[i].model_code == model)
return models[i].model_name;
}
return "Unknown";
}
static void
recover_from_error(KBDC kbdc)
{
/* discard anything left in the output buffer */
empty_both_buffers(kbdc, 10);
#if 0
/*
* NOTE: KBDC_RESET_KBD may not restore the communication between the
* keyboard and the controller.
*/
reset_kbd(kbdc);
#else
/*
* NOTE: somehow diagnostic and keyboard port test commands bring the
* keyboard back.
*/
if (!test_controller(kbdc))
log(LOG_ERR, "psm: keyboard controller failed.\n");
/* if there isn't a keyboard in the system, the following error is OK */
if (test_kbd_port(kbdc) != 0)
VLOG(1, (LOG_ERR, "psm: keyboard port failed.\n"));
#endif
}
static int
restore_controller(KBDC kbdc, int command_byte)
{
empty_both_buffers(kbdc, 10);
if (!set_controller_command_byte(kbdc, 0xff, command_byte)) {
log(LOG_ERR, "psm: failed to restore the keyboard controller "
"command byte.\n");
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
empty_both_buffers(kbdc, 10);
return FALSE;
} else {
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
empty_both_buffers(kbdc, 10);
return TRUE;
}
}
/*
* Re-initialize the aux port and device. The aux port must be enabled
* and its interrupt must be disabled before calling this routine.
* The aux device will be disabled before returning.
* The keyboard controller must be locked via `kbdc_lock()' before
* calling this routine.
*/
static int
doinitialize(struct psm_softc *sc, mousemode_t *mode)
{
KBDC kbdc = sc->kbdc;
int stat[3];
int i;
switch((i = test_aux_port(kbdc))) {
case 1: /* ignore these errors */
case 2:
case 3:
case PSM_ACK:
if (verbose)
log(LOG_DEBUG, "psm%d: strange result for test aux port (%d).\n",
sc->unit, i);
/* FALLTHROUGH */
case 0: /* no error */
break;
case -1: /* time out */
default: /* error */
recover_from_error(kbdc);
if (sc->config & PSM_CONFIG_IGNPORTERROR)
break;
log(LOG_ERR, "psm%d: the aux port is not functioning (%d).\n",
sc->unit, i);
return FALSE;
}
if (sc->config & PSM_CONFIG_NORESET) {
/*
* Don't try to reset the pointing device. It may possibly be
* left in the unknown state, though...
*/
} else {
/*
* NOTE: some controllers appears to hang the `keyboard' when
* the aux port doesn't exist and `PSMC_RESET_DEV' is issued.
*/
if (!reset_aux_dev(kbdc)) {
recover_from_error(kbdc);
log(LOG_ERR, "psm%d: failed to reset the aux device.\n", sc->unit);
return FALSE;
}
}
/*
* both the aux port and the aux device is functioning, see
* if the device can be enabled.
*/
if (!enable_aux_dev(kbdc) || !disable_aux_dev(kbdc)) {
log(LOG_ERR, "psm%d: failed to enable the aux device.\n", sc->unit);
return FALSE;
}
empty_both_buffers(kbdc, 10); /* remove stray data if any */
if (sc->config & PSM_CONFIG_NOIDPROBE) {
i = GENERIC_MOUSE_ENTRY;
} else {
/* FIXME: hardware ID, mouse buttons? */
/* other parameters */
for (i = 0; vendortype[i].probefunc != NULL; ++i) {
if ((*vendortype[i].probefunc)(sc)) {
if (verbose >= 2)
log(LOG_ERR, "psm%d: found %s\n",
sc->unit, model_name(vendortype[i].model));
break;
}
}
}
sc->hw.model = vendortype[i].model;
sc->mode.packetsize = vendortype[i].packetsize;
/* set mouse parameters */
if (mode != (mousemode_t *)NULL) {
if (mode->rate > 0)
mode->rate = set_mouse_sampling_rate(kbdc, mode->rate);
if (mode->resolution >= 0)
mode->resolution = set_mouse_resolution(kbdc, mode->resolution);
set_mouse_scaling(kbdc, 1);
set_mouse_mode(kbdc);
}
/* Record sync on the next data packet we see. */
sc->flags |= PSM_NEED_SYNCBITS;
/* just check the status of the mouse */
if (get_mouse_status(kbdc, stat, 0, 3) < 3)
log(LOG_DEBUG, "psm%d: failed to get status (doinitialize).\n",
sc->unit);
return TRUE;
}
static int
doopen(struct psm_softc *sc, int command_byte)
{
int stat[3];
/* enable the mouse device */
if (!enable_aux_dev(sc->kbdc)) {
/* MOUSE ERROR: failed to enable the mouse because:
* 1) the mouse is faulty,
* 2) the mouse has been removed(!?)
* In the latter case, the keyboard may have hung, and need
* recovery procedure...
*/
recover_from_error(sc->kbdc);
#if 0
/* FIXME: we could reset the mouse here and try to enable
* it again. But it will take long time and it's not a good
* idea to disable the keyboard that long...
*/
if (!doinitialize(sc, &sc->mode) || !enable_aux_dev(sc->kbdc)) {
recover_from_error(sc->kbdc);
#else
{
#endif
restore_controller(sc->kbdc, command_byte);
/* mark this device is no longer available */
sc->state &= ~PSM_VALID;
log(LOG_ERR, "psm%d: failed to enable the device (doopen).\n",
sc->unit);
return (EIO);
}
}
if (get_mouse_status(sc->kbdc, stat, 0, 3) < 3)
log(LOG_DEBUG, "psm%d: failed to get status (doopen).\n", sc->unit);
/* enable the aux port and interrupt */
if (!set_controller_command_byte(sc->kbdc,
kbdc_get_device_mask(sc->kbdc),
(command_byte & KBD_KBD_CONTROL_BITS)
| KBD_ENABLE_AUX_PORT | KBD_ENABLE_AUX_INT)) {
/* CONTROLLER ERROR */
disable_aux_dev(sc->kbdc);
restore_controller(sc->kbdc, command_byte);
log(LOG_ERR, "psm%d: failed to enable the aux interrupt (doopen).\n",
sc->unit);
return (EIO);
}
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* start the watchdog timer */
sc->watchdog = FALSE;
sc->callout = timeout(psmtimeout, (void *)(uintptr_t)sc, hz*2);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
return (0);
}
static int
reinitialize(struct psm_softc *sc, int doinit)
{
int err;
int c;
int s;
/* don't let anybody mess with the aux device */
if (!kbdc_lock(sc->kbdc, TRUE))
return (EIO);
s = spltty();
/* block our watchdog timer */
sc->watchdog = FALSE;
untimeout(psmtimeout, (void *)(uintptr_t)sc, sc->callout);
callout_handle_init(&sc->callout);
/* save the current controller command byte */
empty_both_buffers(sc->kbdc, 10);
c = get_controller_command_byte(sc->kbdc);
VLOG(2, (LOG_DEBUG, "psm%d: current command byte: %04x (reinitialize).\n",
sc->unit, c));
/* enable the aux port but disable the aux interrupt and the keyboard */
if ((c == -1) || !set_controller_command_byte(sc->kbdc,
kbdc_get_device_mask(sc->kbdc),
KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT
| KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) {
/* CONTROLLER ERROR */
splx(s);
kbdc_lock(sc->kbdc, FALSE);
log(LOG_ERR, "psm%d: unable to set the command byte (reinitialize).\n",
sc->unit);
return (EIO);
}
/* flush any data */
if (sc->state & PSM_VALID) {
disable_aux_dev(sc->kbdc); /* this may fail; but never mind... */
empty_aux_buffer(sc->kbdc, 10);
}
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
flushpackets(sc);
sc->syncerrors = 0;
sc->pkterrors = 0;
memset(&sc->lastinputerr, 0, sizeof(sc->lastinputerr));
/* try to detect the aux device; are you still there? */
err = 0;
if (doinit) {
if (doinitialize(sc, &sc->mode)) {
/* yes */
sc->state |= PSM_VALID;
} else {
/* the device has gone! */
restore_controller(sc->kbdc, c);
sc->state &= ~PSM_VALID;
log(LOG_ERR, "psm%d: the aux device has gone! (reinitialize).\n",
sc->unit);
err = ENXIO;
}
}
splx(s);
/* restore the driver state */
if ((sc->state & PSM_OPEN) && (err == 0)) {
/* enable the aux device and the port again */
err = doopen(sc, c);
if (err != 0)
log(LOG_ERR, "psm%d: failed to enable the device (reinitialize).\n",
sc->unit);
} else {
/* restore the keyboard port and disable the aux port */
if (!set_controller_command_byte(sc->kbdc,
kbdc_get_device_mask(sc->kbdc),
(c & KBD_KBD_CONTROL_BITS)
| KBD_DISABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) {
/* CONTROLLER ERROR */
log(LOG_ERR,
"psm%d: failed to disable the aux port (reinitialize).\n",
sc->unit);
err = EIO;
}
}
kbdc_lock(sc->kbdc, FALSE);
return (err);
}
/* psm driver entry points */
static void
psmidentify(driver_t *driver, device_t parent)
{
device_t psmc;
device_t psm;
u_long irq;
int unit;
unit = device_get_unit(parent);
/* always add at least one child */
psm = BUS_ADD_CHILD(parent, KBDC_RID_AUX, driver->name, unit);
if (psm == NULL)
return;
irq = bus_get_resource_start(psm, SYS_RES_IRQ, KBDC_RID_AUX);
if (irq > 0)
return;
/*
* If the PS/2 mouse device has already been reported by ACPI or
* PnP BIOS, obtain the IRQ resource from it.
* (See psmcpnp_attach() below.)
*/
psmc = device_find_child(device_get_parent(parent),
PSMCPNP_DRIVER_NAME, unit);
if (psmc == NULL)
return;
irq = bus_get_resource_start(psmc, SYS_RES_IRQ, 0);
if (irq <= 0)
return;
bus_set_resource(psm, SYS_RES_IRQ, KBDC_RID_AUX, irq, 1);
}
2003-05-31 21:11:51 +00:00
#define endprobe(v) do { if (bootverbose) \
--verbose; \
kbdc_set_device_mask(sc->kbdc, mask); \
kbdc_lock(sc->kbdc, FALSE); \
return (v); \
2003-05-31 21:11:51 +00:00
} while (0)
static int
psmprobe(device_t dev)
{
int unit = device_get_unit(dev);
struct psm_softc *sc = device_get_softc(dev);
int stat[3];
int command_byte;
int mask;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
int rid;
int i;
#if 0
kbdc_debug(TRUE);
#endif
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* see if IRQ is available */
rid = KBDC_RID_AUX;
sc->intr = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid,
RF_SHAREABLE | RF_ACTIVE);
if (sc->intr == NULL) {
if (bootverbose)
device_printf(dev, "unable to allocate IRQ\n");
return (ENXIO);
}
bus_release_resource(dev, SYS_RES_IRQ, rid, sc->intr);
sc->unit = unit;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
sc->kbdc = atkbdc_open(device_get_unit(device_get_parent(dev)));
sc->config = device_get_flags(dev) & PSM_CONFIG_FLAGS;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* XXX: for backward compatibility */
#if defined(PSM_HOOKRESUME) || defined(PSM_HOOKAPM)
sc->config |=
#ifdef PSM_RESETAFTERSUSPEND
PSM_CONFIG_HOOKRESUME | PSM_CONFIG_INITAFTERSUSPEND;
#else
PSM_CONFIG_HOOKRESUME;
#endif
#endif /* PSM_HOOKRESUME | PSM_HOOKAPM */
sc->flags = 0;
if (bootverbose)
++verbose;
device_set_desc(dev, "PS/2 Mouse");
if (!kbdc_lock(sc->kbdc, TRUE)) {
printf("psm%d: unable to lock the controller.\n", unit);
if (bootverbose)
--verbose;
return (ENXIO);
}
/*
* NOTE: two bits in the command byte controls the operation of the
* aux port (mouse port): the aux port disable bit (bit 5) and the aux
* port interrupt (IRQ 12) enable bit (bit 2).
*/
/* discard anything left after the keyboard initialization */
empty_both_buffers(sc->kbdc, 10);
/* save the current command byte; it will be used later */
mask = kbdc_get_device_mask(sc->kbdc) & ~KBD_AUX_CONTROL_BITS;
command_byte = get_controller_command_byte(sc->kbdc);
if (verbose)
printf("psm%d: current command byte:%04x\n", unit, command_byte);
if (command_byte == -1) {
/* CONTROLLER ERROR */
printf("psm%d: unable to get the current command byte value.\n",
unit);
endprobe(ENXIO);
}
/*
* disable the keyboard port while probing the aux port, which must be
* enabled during this routine
*/
if (!set_controller_command_byte(sc->kbdc,
KBD_KBD_CONTROL_BITS | KBD_AUX_CONTROL_BITS,
KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT
| KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) {
/*
* this is CONTROLLER ERROR; I don't know how to recover
* from this error...
*/
restore_controller(sc->kbdc, command_byte);
printf("psm%d: unable to set the command byte.\n", unit);
endprobe(ENXIO);
}
write_controller_command(sc->kbdc, KBDC_ENABLE_AUX_PORT);
/*
* NOTE: `test_aux_port()' is designed to return with zero if the aux
* port exists and is functioning. However, some controllers appears
* to respond with zero even when the aux port doesn't exist. (It may
* be that this is only the case when the controller DOES have the aux
* port but the port is not wired on the motherboard.) The keyboard
* controllers without the port, such as the original AT, are
* supporsed to return with an error code or simply time out. In any
* case, we have to continue probing the port even when the controller
* passes this test.
*
* XXX: some controllers erroneously return the error code 1, 2 or 3
* when it has the perfectly functional aux port. We have to ignore
* this error code. Even if the controller HAS error with the aux
* port, it will be detected later...
* XXX: another incompatible controller returns PSM_ACK (0xfa)...
*/
switch ((i = test_aux_port(sc->kbdc))) {
case 1: /* ignore these errors */
case 2:
case 3:
case PSM_ACK:
if (verbose)
printf("psm%d: strange result for test aux port (%d).\n",
unit, i);
/* FALLTHROUGH */
case 0: /* no error */
break;
case -1: /* time out */
default: /* error */
recover_from_error(sc->kbdc);
if (sc->config & PSM_CONFIG_IGNPORTERROR)
break;
restore_controller(sc->kbdc, command_byte);
if (verbose)
printf("psm%d: the aux port is not functioning (%d).\n",
unit, i);
endprobe(ENXIO);
}
if (sc->config & PSM_CONFIG_NORESET) {
/*
* Don't try to reset the pointing device. It may possibly be
* left in the unknown state, though...
*/
} else {
/*
* NOTE: some controllers appears to hang the `keyboard' when the aux
* port doesn't exist and `PSMC_RESET_DEV' is issued.
*
* Attempt to reset the controller twice -- this helps
* pierce through some KVM switches. The second reset
* is non-fatal.
*/
if (!reset_aux_dev(sc->kbdc)) {
recover_from_error(sc->kbdc);
restore_controller(sc->kbdc, command_byte);
if (verbose)
printf("psm%d: failed to reset the aux device.\n", unit);
endprobe(ENXIO);
} else if (!reset_aux_dev(sc->kbdc)) {
recover_from_error(sc->kbdc);
if (verbose >= 2)
printf("psm%d: failed to reset the aux device (2).\n",
unit);
}
}
/*
* both the aux port and the aux device is functioning, see if the
* device can be enabled. NOTE: when enabled, the device will start
* sending data; we shall immediately disable the device once we know
* the device can be enabled.
*/
if (!enable_aux_dev(sc->kbdc) || !disable_aux_dev(sc->kbdc)) {
/* MOUSE ERROR */
recover_from_error(sc->kbdc);
restore_controller(sc->kbdc, command_byte);
if (verbose)
printf("psm%d: failed to enable the aux device.\n", unit);
endprobe(ENXIO);
}
/* save the default values after reset */
if (get_mouse_status(sc->kbdc, stat, 0, 3) >= 3) {
sc->dflt_mode.rate = sc->mode.rate = stat[2];
sc->dflt_mode.resolution = sc->mode.resolution = stat[1];
} else {
sc->dflt_mode.rate = sc->mode.rate = -1;
sc->dflt_mode.resolution = sc->mode.resolution = -1;
}
/* hardware information */
sc->hw.iftype = MOUSE_IF_PS2;
/* verify the device is a mouse */
sc->hw.hwid = get_aux_id(sc->kbdc);
if (!is_a_mouse(sc->hw.hwid)) {
restore_controller(sc->kbdc, command_byte);
if (verbose)
printf("psm%d: unknown device type (%d).\n", unit, sc->hw.hwid);
endprobe(ENXIO);
}
switch (sc->hw.hwid) {
case PSM_BALLPOINT_ID:
sc->hw.type = MOUSE_TRACKBALL;
break;
case PSM_MOUSE_ID:
case PSM_INTELLI_ID:
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
case PSM_EXPLORER_ID:
case PSM_4DMOUSE_ID:
case PSM_4DPLUS_ID:
sc->hw.type = MOUSE_MOUSE;
break;
default:
sc->hw.type = MOUSE_UNKNOWN;
break;
}
if (sc->config & PSM_CONFIG_NOIDPROBE) {
sc->hw.buttons = 2;
i = GENERIC_MOUSE_ENTRY;
} else {
/* # of buttons */
sc->hw.buttons = get_mouse_buttons(sc->kbdc);
/* other parameters */
for (i = 0; vendortype[i].probefunc != NULL; ++i) {
if ((*vendortype[i].probefunc)(sc)) {
if (verbose >= 2)
printf("psm%d: found %s\n",
unit, model_name(vendortype[i].model));
break;
}
}
}
sc->hw.model = vendortype[i].model;
sc->dflt_mode.level = PSM_LEVEL_BASE;
sc->dflt_mode.packetsize = MOUSE_PS2_PACKETSIZE;
sc->dflt_mode.accelfactor = (sc->config & PSM_CONFIG_ACCEL) >> 4;
if (sc->config & PSM_CONFIG_NOCHECKSYNC)
sc->dflt_mode.syncmask[0] = 0;
else
sc->dflt_mode.syncmask[0] = vendortype[i].syncmask;
if (sc->config & PSM_CONFIG_FORCETAP)
sc->dflt_mode.syncmask[0] &= ~MOUSE_PS2_TAP;
sc->dflt_mode.syncmask[1] = 0; /* syncbits */
sc->mode = sc->dflt_mode;
sc->mode.packetsize = vendortype[i].packetsize;
/* set mouse parameters */
#if 0
/*
* A version of Logitech FirstMouse+ won't report wheel movement,
* if SET_DEFAULTS is sent... Don't use this command.
* This fix was found by Takashi Nishida.
*/
i = send_aux_command(sc->kbdc, PSMC_SET_DEFAULTS);
if (verbose >= 2)
printf("psm%d: SET_DEFAULTS return code:%04x\n", unit, i);
#endif
if (sc->config & PSM_CONFIG_RESOLUTION) {
sc->mode.resolution
= set_mouse_resolution(sc->kbdc,
(sc->config & PSM_CONFIG_RESOLUTION) - 1);
} else if (sc->mode.resolution >= 0) {
sc->mode.resolution
= set_mouse_resolution(sc->kbdc, sc->dflt_mode.resolution);
}
if (sc->mode.rate > 0) {
sc->mode.rate = set_mouse_sampling_rate(sc->kbdc, sc->dflt_mode.rate);
}
set_mouse_scaling(sc->kbdc, 1);
/* Record sync on the next data packet we see. */
sc->flags |= PSM_NEED_SYNCBITS;
/* just check the status of the mouse */
/*
* NOTE: XXX there are some arcane controller/mouse combinations out
* there, which hung the controller unless there is data transmission
* after ACK from the mouse.
*/
if (get_mouse_status(sc->kbdc, stat, 0, 3) < 3) {
printf("psm%d: failed to get status.\n", unit);
} else {
/*
* When in its native mode, some mice operate with different
* default parameters than in the PS/2 compatible mode.
*/
sc->dflt_mode.rate = sc->mode.rate = stat[2];
sc->dflt_mode.resolution = sc->mode.resolution = stat[1];
}
/* disable the aux port for now... */
if (!set_controller_command_byte(sc->kbdc,
KBD_KBD_CONTROL_BITS | KBD_AUX_CONTROL_BITS,
(command_byte & KBD_KBD_CONTROL_BITS)
| KBD_DISABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) {
/*
* this is CONTROLLER ERROR; I don't know the proper way to
* recover from this error...
*/
restore_controller(sc->kbdc, command_byte);
printf("psm%d: unable to set the command byte.\n", unit);
endprobe(ENXIO);
}
/* done */
kbdc_set_device_mask(sc->kbdc, mask | KBD_AUX_CONTROL_BITS);
kbdc_lock(sc->kbdc, FALSE);
return (0);
}
static int
psmattach(device_t dev)
{
int unit = device_get_unit(dev);
struct psm_softc *sc = device_get_softc(dev);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
int error;
int rid;
/* Setup initial state */
sc->state = PSM_VALID;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
callout_handle_init(&sc->callout);
/* Setup our interrupt handler */
rid = KBDC_RID_AUX;
sc->intr = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid,
RF_SHAREABLE | RF_ACTIVE);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
if (sc->intr == NULL)
return (ENXIO);
error = bus_setup_intr(dev, sc->intr, INTR_TYPE_TTY, psmintr, sc, &sc->ih);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
if (error) {
bus_release_resource(dev, SYS_RES_IRQ, rid, sc->intr);
return (error);
}
/* Done */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
sc->dev = make_dev(&psm_cdevsw, PSM_MKMINOR(unit, FALSE), 0, 0, 0666,
"psm%d", unit);
sc->bdev = make_dev(&psm_cdevsw, PSM_MKMINOR(unit, TRUE), 0, 0, 0666,
"bpsm%d", unit);
if (!verbose) {
printf("psm%d: model %s, device ID %d\n",
unit, model_name(sc->hw.model), sc->hw.hwid & 0x00ff);
} else {
printf("psm%d: model %s, device ID %d-%02x, %d buttons\n",
unit, model_name(sc->hw.model),
sc->hw.hwid & 0x00ff, sc->hw.hwid >> 8, sc->hw.buttons);
printf("psm%d: config:%08x, flags:%08x, packet size:%d\n",
unit, sc->config, sc->flags, sc->mode.packetsize);
printf("psm%d: syncmask:%02x, syncbits:%02x\n",
unit, sc->mode.syncmask[0], sc->mode.syncmask[1]);
}
if (bootverbose)
--verbose;
return (0);
}
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
static int
psmdetach(device_t dev)
{
struct psm_softc *sc;
int rid;
sc = device_get_softc(dev);
if (sc->state & PSM_OPEN)
return EBUSY;
rid = KBDC_RID_AUX;
bus_teardown_intr(dev, sc->intr, sc->ih);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
bus_release_resource(dev, SYS_RES_IRQ, rid, sc->intr);
destroy_dev(sc->dev);
destroy_dev(sc->bdev);
return 0;
}
static int
psmopen(struct cdev *dev, int flag, int fmt, struct thread *td)
{
int unit = PSM_UNIT(dev);
struct psm_softc *sc;
int command_byte;
int err;
int s;
/* Get device data */
sc = PSM_SOFTC(unit);
if ((sc == NULL) || (sc->state & PSM_VALID) == 0)
/* the device is no longer valid/functioning */
return (ENXIO);
/* Disallow multiple opens */
if (sc->state & PSM_OPEN)
return (EBUSY);
device_busy(devclass_get_device(psm_devclass, unit));
/* Initialize state */
sc->mode.level = sc->dflt_mode.level;
sc->mode.protocol = sc->dflt_mode.protocol;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
sc->watchdog = FALSE;
/* flush the event queue */
sc->queue.count = 0;
sc->queue.head = 0;
sc->queue.tail = 0;
sc->status.flags = 0;
sc->status.button = 0;
sc->status.obutton = 0;
sc->status.dx = 0;
sc->status.dy = 0;
sc->status.dz = 0;
sc->button = 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
sc->pqueue_start = 0;
sc->pqueue_end = 0;
/* empty input buffer */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
flushpackets(sc);
sc->syncerrors = 0;
sc->pkterrors = 0;
/* don't let timeout routines in the keyboard driver to poll the kbdc */
if (!kbdc_lock(sc->kbdc, TRUE))
return (EIO);
/* save the current controller command byte */
s = spltty();
command_byte = get_controller_command_byte(sc->kbdc);
/* enable the aux port and temporalily disable the keyboard */
if ((command_byte == -1)
|| !set_controller_command_byte(sc->kbdc,
kbdc_get_device_mask(sc->kbdc),
KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT
| KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) {
/* CONTROLLER ERROR; do you know how to get out of this? */
kbdc_lock(sc->kbdc, FALSE);
splx(s);
log(LOG_ERR, "psm%d: unable to set the command byte (psmopen).\n",
unit);
return (EIO);
}
/*
* Now that the keyboard controller is told not to generate
* the keyboard and mouse interrupts, call `splx()' to allow
* the other tty interrupts. The clock interrupt may also occur,
* but timeout routines will be blocked by the poll flag set
* via `kbdc_lock()'
*/
splx(s);
/* enable the mouse device */
err = doopen(sc, command_byte);
/* done */
if (err == 0)
sc->state |= PSM_OPEN;
kbdc_lock(sc->kbdc, FALSE);
return (err);
}
static int
psmclose(struct cdev *dev, int flag, int fmt, struct thread *td)
{
int unit = PSM_UNIT(dev);
struct psm_softc *sc = PSM_SOFTC(unit);
int stat[3];
int command_byte;
int s;
/* don't let timeout routines in the keyboard driver to poll the kbdc */
if (!kbdc_lock(sc->kbdc, TRUE))
return (EIO);
/* save the current controller command byte */
s = spltty();
command_byte = get_controller_command_byte(sc->kbdc);
if (command_byte == -1) {
kbdc_lock(sc->kbdc, FALSE);
splx(s);
return (EIO);
}
/* disable the aux interrupt and temporalily disable the keyboard */
if (!set_controller_command_byte(sc->kbdc,
kbdc_get_device_mask(sc->kbdc),
KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT
| KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) {
log(LOG_ERR, "psm%d: failed to disable the aux int (psmclose).\n",
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
unit);
/* CONTROLLER ERROR;
* NOTE: we shall force our way through. Because the only
* ill effect we shall see is that we may not be able
* to read ACK from the mouse, and it doesn't matter much
* so long as the mouse will accept the DISABLE command.
*/
}
splx(s);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* stop the watchdog timer */
untimeout(psmtimeout, (void *)(uintptr_t)sc, sc->callout);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
callout_handle_init(&sc->callout);
/* remove anything left in the output buffer */
empty_aux_buffer(sc->kbdc, 10);
/* disable the aux device, port and interrupt */
if (sc->state & PSM_VALID) {
if (!disable_aux_dev(sc->kbdc)) {
/* MOUSE ERROR;
* NOTE: we don't return error and continue, pretending
* we have successfully disabled the device. It's OK because
* the interrupt routine will discard any data from the mouse
* hereafter.
*/
log(LOG_ERR, "psm%d: failed to disable the device (psmclose).\n",
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
unit);
}
if (get_mouse_status(sc->kbdc, stat, 0, 3) < 3)
log(LOG_DEBUG, "psm%d: failed to get status (psmclose).\n", unit);
}
if (!set_controller_command_byte(sc->kbdc,
kbdc_get_device_mask(sc->kbdc),
(command_byte & KBD_KBD_CONTROL_BITS)
| KBD_DISABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) {
/* CONTROLLER ERROR;
* we shall ignore this error; see the above comment.
*/
log(LOG_ERR, "psm%d: failed to disable the aux port (psmclose).\n",
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
unit);
}
/* remove anything left in the output buffer */
empty_aux_buffer(sc->kbdc, 10);
/* close is almost always successful */
sc->state &= ~PSM_OPEN;
kbdc_lock(sc->kbdc, FALSE);
device_unbusy(devclass_get_device(psm_devclass, unit));
return (0);
}
static int
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
tame_mouse(struct psm_softc *sc, packetbuf_t *pb, mousestatus_t *status, unsigned char *buf)
{
static unsigned char butmapps2[8] = {
0,
MOUSE_PS2_BUTTON1DOWN,
MOUSE_PS2_BUTTON2DOWN,
MOUSE_PS2_BUTTON1DOWN | MOUSE_PS2_BUTTON2DOWN,
MOUSE_PS2_BUTTON3DOWN,
MOUSE_PS2_BUTTON1DOWN | MOUSE_PS2_BUTTON3DOWN,
MOUSE_PS2_BUTTON2DOWN | MOUSE_PS2_BUTTON3DOWN,
MOUSE_PS2_BUTTON1DOWN | MOUSE_PS2_BUTTON2DOWN | MOUSE_PS2_BUTTON3DOWN,
};
static unsigned char butmapmsc[8] = {
MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON2UP | MOUSE_MSC_BUTTON3UP,
MOUSE_MSC_BUTTON2UP | MOUSE_MSC_BUTTON3UP,
MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON3UP,
MOUSE_MSC_BUTTON3UP,
MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON2UP,
MOUSE_MSC_BUTTON2UP,
MOUSE_MSC_BUTTON1UP,
0,
};
int mapped;
int i;
if (sc->mode.level == PSM_LEVEL_BASE) {
mapped = status->button & ~MOUSE_BUTTON4DOWN;
if (status->button & MOUSE_BUTTON4DOWN)
mapped |= MOUSE_BUTTON1DOWN;
status->button = mapped;
buf[0] = MOUSE_PS2_SYNC | butmapps2[mapped & MOUSE_STDBUTTONS];
i = imax(imin(status->dx, 255), -256);
if (i < 0)
buf[0] |= MOUSE_PS2_XNEG;
buf[1] = i;
i = imax(imin(status->dy, 255), -256);
if (i < 0)
buf[0] |= MOUSE_PS2_YNEG;
buf[2] = i;
return MOUSE_PS2_PACKETSIZE;
} else if (sc->mode.level == PSM_LEVEL_STANDARD) {
buf[0] = MOUSE_MSC_SYNC | butmapmsc[status->button & MOUSE_STDBUTTONS];
i = imax(imin(status->dx, 255), -256);
buf[1] = i >> 1;
buf[3] = i - buf[1];
i = imax(imin(status->dy, 255), -256);
buf[2] = i >> 1;
buf[4] = i - buf[2];
i = imax(imin(status->dz, 127), -128);
buf[5] = (i >> 1) & 0x7f;
buf[6] = (i - (i >> 1)) & 0x7f;
buf[7] = (~status->button >> 3) & 0x7f;
return MOUSE_SYS_PACKETSIZE;
}
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
return pb->inputbytes;
}
static int
psmread(struct cdev *dev, struct uio *uio, int flag)
{
register struct psm_softc *sc = PSM_SOFTC(PSM_UNIT(dev));
unsigned char buf[PSM_SMALLBUFSIZE];
int error = 0;
int s;
int l;
if ((sc->state & PSM_VALID) == 0)
return EIO;
/* block until mouse activity occured */
s = spltty();
while (sc->queue.count <= 0) {
if (PSM_NBLOCKIO(dev)) {
splx(s);
return EWOULDBLOCK;
}
sc->state |= PSM_ASLP;
error = tsleep( sc, PZERO | PCATCH, "psmrea", 0);
sc->state &= ~PSM_ASLP;
if (error) {
splx(s);
return error;
} else if ((sc->state & PSM_VALID) == 0) {
/* the device disappeared! */
splx(s);
return EIO;
}
}
splx(s);
/* copy data to the user land */
while ((sc->queue.count > 0) && (uio->uio_resid > 0)) {
s = spltty();
l = imin(sc->queue.count, uio->uio_resid);
if (l > sizeof(buf))
l = sizeof(buf);
if (l > sizeof(sc->queue.buf) - sc->queue.head) {
bcopy(&sc->queue.buf[sc->queue.head], &buf[0],
sizeof(sc->queue.buf) - sc->queue.head);
bcopy(&sc->queue.buf[0],
&buf[sizeof(sc->queue.buf) - sc->queue.head],
l - (sizeof(sc->queue.buf) - sc->queue.head));
} else {
bcopy(&sc->queue.buf[sc->queue.head], &buf[0], l);
}
sc->queue.count -= l;
sc->queue.head = (sc->queue.head + l) % sizeof(sc->queue.buf);
splx(s);
error = uiomove(buf, l, uio);
if (error)
break;
}
return error;
}
static int
block_mouse_data(struct psm_softc *sc, int *c)
{
int s;
if (!kbdc_lock(sc->kbdc, TRUE))
return EIO;
s = spltty();
*c = get_controller_command_byte(sc->kbdc);
if ((*c == -1)
|| !set_controller_command_byte(sc->kbdc,
kbdc_get_device_mask(sc->kbdc),
KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT
| KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) {
/* this is CONTROLLER ERROR */
splx(s);
kbdc_lock(sc->kbdc, FALSE);
return EIO;
}
/*
* The device may be in the middle of status data transmission.
* The transmission will be interrupted, thus, incomplete status
* data must be discarded. Although the aux interrupt is disabled
* at the keyboard controller level, at most one aux interrupt
* may have already been pending and a data byte is in the
* output buffer; throw it away. Note that the second argument
* to `empty_aux_buffer()' is zero, so that the call will just
* flush the internal queue.
* `psmintr()' will be invoked after `splx()' if an interrupt is
* pending; it will see no data and returns immediately.
*/
empty_aux_buffer(sc->kbdc, 0); /* flush the queue */
read_aux_data_no_wait(sc->kbdc); /* throw away data if any */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
flushpackets(sc);
splx(s);
return 0;
}
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static void
dropqueue(struct psm_softc *sc)
{
sc->queue.count = 0;
sc->queue.head = 0;
sc->queue.tail = 0;
if ((sc->state & PSM_SOFTARMED) != 0) {
sc->state &= ~PSM_SOFTARMED;
untimeout(psmsoftintr, (void *)(uintptr_t)sc, sc->softcallout);
}
sc->pqueue_start = sc->pqueue_end;
}
static void
flushpackets(struct psm_softc *sc)
{
dropqueue(sc);
bzero(&sc->pqueue, sizeof(sc->pqueue));
}
static int
unblock_mouse_data(struct psm_softc *sc, int c)
{
int error = 0;
/*
* We may have seen a part of status data during `set_mouse_XXX()'.
* they have been queued; flush it.
*/
empty_aux_buffer(sc->kbdc, 0);
/* restore ports and interrupt */
if (!set_controller_command_byte(sc->kbdc,
kbdc_get_device_mask(sc->kbdc),
c & (KBD_KBD_CONTROL_BITS | KBD_AUX_CONTROL_BITS))) {
/* CONTROLLER ERROR; this is serious, we may have
* been left with the inaccessible keyboard and
* the disabled mouse interrupt.
*/
error = EIO;
}
kbdc_lock(sc->kbdc, FALSE);
return error;
}
static int
psmioctl(struct cdev *dev, u_long cmd, caddr_t addr, int flag, struct thread *td)
{
struct psm_softc *sc = PSM_SOFTC(PSM_UNIT(dev));
mousemode_t mode;
mousestatus_t status;
#if (defined(MOUSE_GETVARS))
mousevar_t *var;
#endif
mousedata_t *data;
int stat[3];
int command_byte;
int error = 0;
int s;
/* Perform IOCTL command */
switch (cmd) {
case OLD_MOUSE_GETHWINFO:
s = spltty();
((old_mousehw_t *)addr)->buttons = sc->hw.buttons;
((old_mousehw_t *)addr)->iftype = sc->hw.iftype;
((old_mousehw_t *)addr)->type = sc->hw.type;
((old_mousehw_t *)addr)->hwid = sc->hw.hwid & 0x00ff;
splx(s);
break;
case MOUSE_GETHWINFO:
s = spltty();
*(mousehw_t *)addr = sc->hw;
if (sc->mode.level == PSM_LEVEL_BASE)
((mousehw_t *)addr)->model = MOUSE_MODEL_GENERIC;
splx(s);
break;
case MOUSE_SYN_GETHWINFO:
s = spltty();
if (synaptics_support && sc->hw.model == MOUSE_MODEL_SYNAPTICS)
*(synapticshw_t *)addr = sc->synhw;
else
error = EINVAL;
splx(s);
break;
case OLD_MOUSE_GETMODE:
s = spltty();
switch (sc->mode.level) {
case PSM_LEVEL_BASE:
((old_mousemode_t *)addr)->protocol = MOUSE_PROTO_PS2;
break;
case PSM_LEVEL_STANDARD:
((old_mousemode_t *)addr)->protocol = MOUSE_PROTO_SYSMOUSE;
break;
case PSM_LEVEL_NATIVE:
((old_mousemode_t *)addr)->protocol = MOUSE_PROTO_PS2;
break;
}
((old_mousemode_t *)addr)->rate = sc->mode.rate;
((old_mousemode_t *)addr)->resolution = sc->mode.resolution;
((old_mousemode_t *)addr)->accelfactor = sc->mode.accelfactor;
splx(s);
break;
case MOUSE_GETMODE:
s = spltty();
*(mousemode_t *)addr = sc->mode;
if ((sc->flags & PSM_NEED_SYNCBITS) != 0) {
((mousemode_t *)addr)->syncmask[0] = 0;
((mousemode_t *)addr)->syncmask[1] = 0;
}
((mousemode_t *)addr)->resolution =
MOUSE_RES_LOW - sc->mode.resolution;
switch (sc->mode.level) {
case PSM_LEVEL_BASE:
((mousemode_t *)addr)->protocol = MOUSE_PROTO_PS2;
((mousemode_t *)addr)->packetsize = MOUSE_PS2_PACKETSIZE;
break;
case PSM_LEVEL_STANDARD:
((mousemode_t *)addr)->protocol = MOUSE_PROTO_SYSMOUSE;
((mousemode_t *)addr)->packetsize = MOUSE_SYS_PACKETSIZE;
((mousemode_t *)addr)->syncmask[0] = MOUSE_SYS_SYNCMASK;
((mousemode_t *)addr)->syncmask[1] = MOUSE_SYS_SYNC;
break;
case PSM_LEVEL_NATIVE:
/* FIXME: this isn't quite correct... XXX */
((mousemode_t *)addr)->protocol = MOUSE_PROTO_PS2;
break;
}
splx(s);
break;
case OLD_MOUSE_SETMODE:
case MOUSE_SETMODE:
if (cmd == OLD_MOUSE_SETMODE) {
mode.rate = ((old_mousemode_t *)addr)->rate;
/*
* resolution old I/F new I/F
* default 0 0
* low 1 -2
* medium low 2 -3
* medium high 3 -4
* high 4 -5
*/
if (((old_mousemode_t *)addr)->resolution > 0)
mode.resolution = -((old_mousemode_t *)addr)->resolution - 1;
mode.accelfactor = ((old_mousemode_t *)addr)->accelfactor;
mode.level = -1;
} else {
mode = *(mousemode_t *)addr;
}
/* adjust and validate parameters. */
if (mode.rate > UCHAR_MAX)
return EINVAL;
if (mode.rate == 0)
mode.rate = sc->dflt_mode.rate;
else if (mode.rate == -1)
/* don't change the current setting */
;
else if (mode.rate < 0)
return EINVAL;
if (mode.resolution >= UCHAR_MAX)
return EINVAL;
if (mode.resolution >= 200)
mode.resolution = MOUSE_RES_HIGH;
else if (mode.resolution >= 100)
mode.resolution = MOUSE_RES_MEDIUMHIGH;
else if (mode.resolution >= 50)
mode.resolution = MOUSE_RES_MEDIUMLOW;
else if (mode.resolution > 0)
mode.resolution = MOUSE_RES_LOW;
if (mode.resolution == MOUSE_RES_DEFAULT)
mode.resolution = sc->dflt_mode.resolution;
else if (mode.resolution == -1)
/* don't change the current setting */
;
else if (mode.resolution < 0) /* MOUSE_RES_LOW/MEDIUM/HIGH */
mode.resolution = MOUSE_RES_LOW - mode.resolution;
if (mode.level == -1)
/* don't change the current setting */
mode.level = sc->mode.level;
else if ((mode.level < PSM_LEVEL_MIN) || (mode.level > PSM_LEVEL_MAX))
return EINVAL;
if (mode.accelfactor == -1)
/* don't change the current setting */
mode.accelfactor = sc->mode.accelfactor;
else if (mode.accelfactor < 0)
return EINVAL;
/* don't allow anybody to poll the keyboard controller */
error = block_mouse_data(sc, &command_byte);
if (error)
return error;
/* set mouse parameters */
if (mode.rate > 0)
mode.rate = set_mouse_sampling_rate(sc->kbdc, mode.rate);
if (mode.resolution >= 0)
mode.resolution = set_mouse_resolution(sc->kbdc, mode.resolution);
set_mouse_scaling(sc->kbdc, 1);
get_mouse_status(sc->kbdc, stat, 0, 3);
s = spltty();
sc->mode.rate = mode.rate;
sc->mode.resolution = mode.resolution;
sc->mode.accelfactor = mode.accelfactor;
sc->mode.level = mode.level;
splx(s);
unblock_mouse_data(sc, command_byte);
break;
case MOUSE_GETLEVEL:
*(int *)addr = sc->mode.level;
break;
case MOUSE_SETLEVEL:
if ((*(int *)addr < PSM_LEVEL_MIN) || (*(int *)addr > PSM_LEVEL_MAX))
return EINVAL;
sc->mode.level = *(int *)addr;
break;
case MOUSE_GETSTATUS:
s = spltty();
status = sc->status;
sc->status.flags = 0;
sc->status.obutton = sc->status.button;
sc->status.button = 0;
sc->status.dx = 0;
sc->status.dy = 0;
sc->status.dz = 0;
splx(s);
*(mousestatus_t *)addr = status;
break;
#if (defined(MOUSE_GETVARS))
case MOUSE_GETVARS:
var = (mousevar_t *)addr;
bzero(var, sizeof(*var));
s = spltty();
var->var[0] = MOUSE_VARS_PS2_SIG;
var->var[1] = sc->config;
var->var[2] = sc->flags;
splx(s);
break;
case MOUSE_SETVARS:
return ENODEV;
#endif /* MOUSE_GETVARS */
case MOUSE_READSTATE:
case MOUSE_READDATA:
data = (mousedata_t *)addr;
if (data->len > sizeof(data->buf)/sizeof(data->buf[0]))
return EINVAL;
error = block_mouse_data(sc, &command_byte);
if (error)
return error;
if ((data->len = get_mouse_status(sc->kbdc, data->buf,
(cmd == MOUSE_READDATA) ? 1 : 0, data->len)) <= 0)
error = EIO;
unblock_mouse_data(sc, command_byte);
break;
#if (defined(MOUSE_SETRESOLUTION))
case MOUSE_SETRESOLUTION:
mode.resolution = *(int *)addr;
if (mode.resolution >= UCHAR_MAX)
return EINVAL;
else if (mode.resolution >= 200)
mode.resolution = MOUSE_RES_HIGH;
else if (mode.resolution >= 100)
mode.resolution = MOUSE_RES_MEDIUMHIGH;
else if (mode.resolution >= 50)
mode.resolution = MOUSE_RES_MEDIUMLOW;
else if (mode.resolution > 0)
mode.resolution = MOUSE_RES_LOW;
if (mode.resolution == MOUSE_RES_DEFAULT)
mode.resolution = sc->dflt_mode.resolution;
else if (mode.resolution == -1)
mode.resolution = sc->mode.resolution;
else if (mode.resolution < 0) /* MOUSE_RES_LOW/MEDIUM/HIGH */
mode.resolution = MOUSE_RES_LOW - mode.resolution;
error = block_mouse_data(sc, &command_byte);
if (error)
return error;
sc->mode.resolution = set_mouse_resolution(sc->kbdc, mode.resolution);
if (sc->mode.resolution != mode.resolution)
error = EIO;
unblock_mouse_data(sc, command_byte);
break;
#endif /* MOUSE_SETRESOLUTION */
#if (defined(MOUSE_SETRATE))
case MOUSE_SETRATE:
mode.rate = *(int *)addr;
if (mode.rate > UCHAR_MAX)
return EINVAL;
if (mode.rate == 0)
mode.rate = sc->dflt_mode.rate;
else if (mode.rate < 0)
mode.rate = sc->mode.rate;
error = block_mouse_data(sc, &command_byte);
if (error)
return error;
sc->mode.rate = set_mouse_sampling_rate(sc->kbdc, mode.rate);
if (sc->mode.rate != mode.rate)
error = EIO;
unblock_mouse_data(sc, command_byte);
break;
#endif /* MOUSE_SETRATE */
#if (defined(MOUSE_SETSCALING))
case MOUSE_SETSCALING:
if ((*(int *)addr <= 0) || (*(int *)addr > 2))
return EINVAL;
error = block_mouse_data(sc, &command_byte);
if (error)
return error;
if (!set_mouse_scaling(sc->kbdc, *(int *)addr))
error = EIO;
unblock_mouse_data(sc, command_byte);
break;
#endif /* MOUSE_SETSCALING */
#if (defined(MOUSE_GETHWID))
case MOUSE_GETHWID:
error = block_mouse_data(sc, &command_byte);
if (error)
return error;
sc->hw.hwid &= ~0x00ff;
sc->hw.hwid |= get_aux_id(sc->kbdc);
*(int *)addr = sc->hw.hwid & 0x00ff;
unblock_mouse_data(sc, command_byte);
break;
#endif /* MOUSE_GETHWID */
default:
return ENOTTY;
}
return error;
}
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
static void
psmtimeout(void *arg)
{
struct psm_softc *sc;
int s;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
sc = (struct psm_softc *)arg;
s = spltty();
if (sc->watchdog && kbdc_lock(sc->kbdc, TRUE)) {
VLOG(4, (LOG_DEBUG, "psm%d: lost interrupt?\n", sc->unit));
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
psmintr(sc);
kbdc_lock(sc->kbdc, FALSE);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
}
sc->watchdog = TRUE;
splx(s);
sc->callout = timeout(psmtimeout, (void *)(uintptr_t)sc, hz);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
}
/* Add all sysctls under the debug.psm and hw.psm nodes */
SYSCTL_NODE(_debug, OID_AUTO, psm, CTLFLAG_RD, 0, "ps/2 mouse");
SYSCTL_NODE(_hw, OID_AUTO, psm, CTLFLAG_RD, 0, "ps/2 mouse");
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
SYSCTL_INT(_debug_psm, OID_AUTO, loglevel, CTLFLAG_RW, &verbose, 0, "");
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static int psmhz = 20;
SYSCTL_INT(_debug_psm, OID_AUTO, hz, CTLFLAG_RW, &psmhz, 0, "");
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static int psmerrsecs = 2;
SYSCTL_INT(_debug_psm, OID_AUTO, errsecs, CTLFLAG_RW, &psmerrsecs, 0, "");
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static int psmerrusecs = 0;
SYSCTL_INT(_debug_psm, OID_AUTO, errusecs, CTLFLAG_RW, &psmerrusecs, 0, "");
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static int psmsecs = 0;
SYSCTL_INT(_debug_psm, OID_AUTO, secs, CTLFLAG_RW, &psmsecs, 0, "");
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
static int psmusecs = 500000;
SYSCTL_INT(_debug_psm, OID_AUTO, usecs, CTLFLAG_RW, &psmusecs, 0, "");
static int pkterrthresh = 2;
SYSCTL_INT(_debug_psm, OID_AUTO, pkterrthresh, CTLFLAG_RW, &pkterrthresh, 0, "");
static int tap_threshold = PSM_TAP_THRESHOLD;
SYSCTL_INT(_hw_psm, OID_AUTO, tap_threshold, CTLFLAG_RW, &tap_threshold, 0, "");
static int tap_timeout = PSM_TAP_TIMEOUT;
SYSCTL_INT(_hw_psm, OID_AUTO, tap_timeout, CTLFLAG_RW, &tap_timeout, 0, "");
static void
psmintr(void *arg)
{
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
struct psm_softc *sc = arg;
struct timeval now;
int c;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
packetbuf_t *pb;
/* read until there is nothing to read */
while((c = read_aux_data_no_wait(sc->kbdc)) != -1) {
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
pb = &sc->pqueue[sc->pqueue_end];
/* discard the byte if the device is not open */
if ((sc->state & PSM_OPEN) == 0)
continue;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
getmicrouptime(&now);
if ((pb->inputbytes > 0) && timevalcmp(&now, &sc->inputtimeout, >)) {
VLOG(3, (LOG_DEBUG, "psmintr: delay too long; "
"resetting byte count\n"));
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
pb->inputbytes = 0;
sc->syncerrors = 0;
sc->pkterrors = 0;
}
sc->inputtimeout.tv_sec = PSM_INPUT_TIMEOUT/1000000;
sc->inputtimeout.tv_usec = PSM_INPUT_TIMEOUT%1000000;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
timevaladd(&sc->inputtimeout, &now);
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
pb->ipacket[pb->inputbytes++] = c;
if (pb->inputbytes < sc->mode.packetsize)
continue;
VLOG(4, (LOG_DEBUG, "psmintr: %02x %02x %02x %02x %02x %02x\n",
pb->ipacket[0], pb->ipacket[1], pb->ipacket[2],
pb->ipacket[3], pb->ipacket[4], pb->ipacket[5]));
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
c = pb->ipacket[0];
if ((sc->flags & PSM_NEED_SYNCBITS) != 0) {
sc->mode.syncmask[1] = (c & sc->mode.syncmask[0]);
sc->flags &= ~PSM_NEED_SYNCBITS;
VLOG(2, (LOG_DEBUG, "psmintr: Sync bytes now %04x,%04x\n",
sc->mode.syncmask[0], sc->mode.syncmask[0]));
} else if ((c & sc->mode.syncmask[0]) != sc->mode.syncmask[1]) {
VLOG(3, (LOG_DEBUG, "psmintr: out of sync (%04x != %04x) %d"
" cmds since last error.\n",
c & sc->mode.syncmask[0], sc->mode.syncmask[1],
sc->cmdcount - sc->lasterr));
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
sc->lasterr = sc->cmdcount;
/*
* The sync byte test is a weak measure of packet
* validity. Conservatively discard any input yet
* to be seen by userland when we detect a sync
* error since there is a good chance some of
* the queued packets have undetected errors.
*/
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
dropqueue(sc);
if (sc->syncerrors == 0)
sc->pkterrors++;
++sc->syncerrors;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
sc->lastinputerr = now;
if (sc->syncerrors >= sc->mode.packetsize * 2 ||
sc->pkterrors >= pkterrthresh) {
/*
* If we've failed to find a single sync byte in 2
* packets worth of data, or we've seen persistent
* packet errors during the validation period,
* reinitialize the mouse in hopes of returning it
* to the expected mode.
*/
VLOG(3, (LOG_DEBUG, "psmintr: reset the mouse.\n"));
reinitialize(sc, TRUE);
} else if (sc->syncerrors == sc->mode.packetsize) {
/*
* Try a soft reset after searching for a sync
* byte through a packet length of bytes.
*/
VLOG(3, (LOG_DEBUG, "psmintr: re-enable the mouse.\n"));
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
pb->inputbytes = 0;
disable_aux_dev(sc->kbdc);
enable_aux_dev(sc->kbdc);
} else {
VLOG(3, (LOG_DEBUG, "psmintr: discard a byte (%d)\n",
sc->syncerrors));
pb->inputbytes--;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
bcopy(&pb->ipacket[1], &pb->ipacket[0], pb->inputbytes);
}
continue;
}
/*
* We have what appears to be a valid packet.
* Reset the error counters.
*/
sc->syncerrors = 0;
/*
* Drop even good packets if they occur within a timeout
* period of a sync error. This allows the detection of
* a change in the mouse's packet mode without exposing
* erratic mouse behavior to the user. Some KVMs forget
* enhanced mouse modes during switch events.
*/
if (!timeelapsed(&sc->lastinputerr, psmerrsecs, psmerrusecs, &now)) {
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
pb->inputbytes = 0;
continue;
}
/*
* Now that we're out of the validation period, reset
* the packet error count.
*/
sc->pkterrors = 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
sc->cmdcount++;
if (++sc->pqueue_end >= PSM_PACKETQUEUE)
sc->pqueue_end = 0;
/*
* If we've filled the queue then call the softintr ourselves,
* otherwise schedule the interrupt for later.
*/
if (!timeelapsed(&sc->lastsoftintr, psmsecs, psmusecs, &now) ||
(sc->pqueue_end == sc->pqueue_start)) {
if ((sc->state & PSM_SOFTARMED) != 0) {
sc->state &= ~PSM_SOFTARMED;
untimeout(psmsoftintr, arg, sc->softcallout);
}
psmsoftintr(arg);
} else if ((sc->state & PSM_SOFTARMED) == 0) {
sc->state |= PSM_SOFTARMED;
sc->softcallout = timeout(psmsoftintr, arg,
psmhz < 1 ? 1 : (hz/psmhz));
}
}
}
static void
psmsoftintr(void *arg)
{
/*
* the table to turn PS/2 mouse button bits (MOUSE_PS2_BUTTON?DOWN)
* into `mousestatus' button bits (MOUSE_BUTTON?DOWN).
*/
static int butmap[8] = {
0,
MOUSE_BUTTON1DOWN,
MOUSE_BUTTON3DOWN,
MOUSE_BUTTON1DOWN | MOUSE_BUTTON3DOWN,
MOUSE_BUTTON2DOWN,
MOUSE_BUTTON1DOWN | MOUSE_BUTTON2DOWN,
MOUSE_BUTTON2DOWN | MOUSE_BUTTON3DOWN,
MOUSE_BUTTON1DOWN | MOUSE_BUTTON2DOWN | MOUSE_BUTTON3DOWN
};
static int butmap_versapad[8] = {
0,
MOUSE_BUTTON3DOWN,
0,
MOUSE_BUTTON3DOWN,
MOUSE_BUTTON1DOWN,
MOUSE_BUTTON1DOWN | MOUSE_BUTTON3DOWN,
MOUSE_BUTTON1DOWN,
MOUSE_BUTTON1DOWN | MOUSE_BUTTON3DOWN
};
static int touchpad_buttons;
static int guest_buttons;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
register struct psm_softc *sc = arg;
mousestatus_t ms;
int w, x, y, z;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
int c;
int l;
int x0, y0, xavg, yavg, xsensitivity, ysensitivity, sensitivity = 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
int s;
packetbuf_t *pb;
getmicrouptime(&sc->lastsoftintr);
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
s = spltty();
do {
pb = &sc->pqueue[sc->pqueue_start];
c = pb->ipacket[0];
/*
* A kludge for Kensington device!
* The MSB of the horizontal count appears to be stored in
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
* a strange place.
*/
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
if (sc->hw.model == MOUSE_MODEL_THINK)
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
pb->ipacket[1] |= (c & MOUSE_PS2_XOVERFLOW) ? 0x80 : 0;
/* ignore the overflow bits... */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
x = (c & MOUSE_PS2_XNEG) ? pb->ipacket[1] - 256 : pb->ipacket[1];
y = (c & MOUSE_PS2_YNEG) ? pb->ipacket[2] - 256 : pb->ipacket[2];
z = 0;
ms.obutton = sc->button; /* previous button state */
ms.button = butmap[c & MOUSE_PS2_BUTTONS];
/* `tapping' action */
if (sc->config & PSM_CONFIG_FORCETAP)
ms.button |= ((c & MOUSE_PS2_TAP)) ? 0 : MOUSE_BUTTON4DOWN;
switch (sc->hw.model) {
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
case MOUSE_MODEL_EXPLORER:
/*
* b7 b6 b5 b4 b3 b2 b1 b0
* byte 1: oy ox sy sx 1 M R L
* byte 2: x x x x x x x x
* byte 3: y y y y y y y y
* byte 4: * * S2 S1 s d2 d1 d0
*
* L, M, R, S1, S2: left, middle, right and side buttons
* s: wheel data sign bit
* d2-d0: wheel data
*/
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
z = (pb->ipacket[3] & MOUSE_EXPLORER_ZNEG)
? (pb->ipacket[3] & 0x0f) - 16 : (pb->ipacket[3] & 0x0f);
ms.button |= (pb->ipacket[3] & MOUSE_EXPLORER_BUTTON4DOWN)
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
? MOUSE_BUTTON4DOWN : 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
ms.button |= (pb->ipacket[3] & MOUSE_EXPLORER_BUTTON5DOWN)
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
? MOUSE_BUTTON5DOWN : 0;
break;
case MOUSE_MODEL_INTELLI:
case MOUSE_MODEL_NET:
/* wheel data is in the fourth byte */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
z = (char)pb->ipacket[3];
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* some mice may send 7 when there is no Z movement?! XXX */
if ((z >= 7) || (z <= -7))
z = 0;
/* some compatible mice have additional buttons */
ms.button |= (c & MOUSE_PS2INTELLI_BUTTON4DOWN)
? MOUSE_BUTTON4DOWN : 0;
ms.button |= (c & MOUSE_PS2INTELLI_BUTTON5DOWN)
? MOUSE_BUTTON5DOWN : 0;
break;
case MOUSE_MODEL_MOUSEMANPLUS:
/*
* PS2++ protocl packet
*
* b7 b6 b5 b4 b3 b2 b1 b0
* byte 1: * 1 p3 p2 1 * * *
* byte 2: c1 c2 p1 p0 d1 d0 1 0
*
* p3-p0: packet type
* c1, c2: c1 & c2 == 1, if p2 == 0
* c1 & c2 == 0, if p2 == 1
*
* packet type: 0 (device type)
* See comments in enable_mmanplus() below.
*
* packet type: 1 (wheel data)
*
* b7 b6 b5 b4 b3 b2 b1 b0
* byte 3: h * B5 B4 s d2 d1 d0
*
* h: 1, if horizontal roller data
* 0, if vertical roller data
* B4, B5: button 4 and 5
* s: sign bit
* d2-d0: roller data
*
* packet type: 2 (reserved)
*/
if (((c & MOUSE_PS2PLUS_SYNCMASK) == MOUSE_PS2PLUS_SYNC)
&& (abs(x) > 191)
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
&& MOUSE_PS2PLUS_CHECKBITS(pb->ipacket)) {
/* the extended data packet encodes button and wheel events */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
switch (MOUSE_PS2PLUS_PACKET_TYPE(pb->ipacket)) {
case 1:
/* wheel data packet */
x = y = 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
if (pb->ipacket[2] & 0x80) {
/* horizontal roller count - ignore it XXX*/
} else {
/* vertical roller count */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
z = (pb->ipacket[2] & MOUSE_PS2PLUS_ZNEG)
? (pb->ipacket[2] & 0x0f) - 16
: (pb->ipacket[2] & 0x0f);
}
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
ms.button |= (pb->ipacket[2] & MOUSE_PS2PLUS_BUTTON4DOWN)
? MOUSE_BUTTON4DOWN : 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
ms.button |= (pb->ipacket[2] & MOUSE_PS2PLUS_BUTTON5DOWN)
? MOUSE_BUTTON5DOWN : 0;
break;
case 2:
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* this packet type is reserved by Logitech... */
/*
* IBM ScrollPoint Mouse uses this packet type to
* encode both vertical and horizontal scroll movement.
*/
x = y = 0;
/* horizontal count */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
if (pb->ipacket[2] & 0x0f)
z = (pb->ipacket[2] & MOUSE_SPOINT_WNEG) ? -2 : 2;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* vertical count */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
if (pb->ipacket[2] & 0xf0)
z = (pb->ipacket[2] & MOUSE_SPOINT_ZNEG) ? -1 : 1;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
#if 0
/* vertical count */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
z = (pb->ipacket[2] & MOUSE_SPOINT_ZNEG)
? ((pb->ipacket[2] >> 4) & 0x0f) - 16
: ((pb->ipacket[2] >> 4) & 0x0f);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* horizontal count */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
w = (pb->ipacket[2] & MOUSE_SPOINT_WNEG)
? (pb->ipacket[2] & 0x0f) - 16
: (pb->ipacket[2] & 0x0f);
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
#endif
break;
case 0:
/* device type packet - shouldn't happen */
/* FALLTHROUGH */
default:
x = y = 0;
ms.button = ms.obutton;
VLOG(1, (LOG_DEBUG, "psmintr: unknown PS2++ packet type %d:"
" 0x%02x 0x%02x 0x%02x\n",
MOUSE_PS2PLUS_PACKET_TYPE(pb->ipacket),
pb->ipacket[0], pb->ipacket[1], pb->ipacket[2]));
break;
}
} else {
/* preserve button states */
ms.button |= ms.obutton & MOUSE_EXTBUTTONS;
}
break;
case MOUSE_MODEL_GLIDEPOINT:
/* `tapping' action */
ms.button |= ((c & MOUSE_PS2_TAP)) ? 0 : MOUSE_BUTTON4DOWN;
break;
case MOUSE_MODEL_NETSCROLL:
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* three addtional bytes encode buttons and wheel events */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
ms.button |= (pb->ipacket[3] & MOUSE_PS2_BUTTON3DOWN)
? MOUSE_BUTTON4DOWN : 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
ms.button |= (pb->ipacket[3] & MOUSE_PS2_BUTTON1DOWN)
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
? MOUSE_BUTTON5DOWN : 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
z = (pb->ipacket[3] & MOUSE_PS2_XNEG)
? pb->ipacket[4] - 256 : pb->ipacket[4];
break;
case MOUSE_MODEL_THINK:
/* the fourth button state in the first byte */
ms.button |= (c & MOUSE_PS2_TAP) ? MOUSE_BUTTON4DOWN : 0;
break;
case MOUSE_MODEL_VERSAPAD:
/* VersaPad PS/2 absolute mode message format
*
* [packet1] 7 6 5 4 3 2 1 0(LSB)
* ipacket[0]: 1 1 0 A 1 L T R
* ipacket[1]: H7 H6 H5 H4 H3 H2 H1 H0
* ipacket[2]: V7 V6 V5 V4 V3 V2 V1 V0
* ipacket[3]: 1 1 1 A 1 L T R
* ipacket[4]:V11 V10 V9 V8 H11 H10 H9 H8
* ipacket[5]: 0 P6 P5 P4 P3 P2 P1 P0
*
* [note]
* R: right physical mouse button (1=on)
* T: touch pad virtual button (1=tapping)
* L: left physical mouse button (1=on)
* A: position data is valid (1=valid)
* H: horizontal data (12bit signed integer. H11 is sign bit.)
* V: vertical data (12bit signed integer. V11 is sign bit.)
* P: pressure data
*
* Tapping is mapped to MOUSE_BUTTON4.
*/
ms.button = butmap_versapad[c & MOUSE_PS2VERSA_BUTTONS];
ms.button |= (c & MOUSE_PS2VERSA_TAP) ? MOUSE_BUTTON4DOWN : 0;
x = y = 0;
if (c & MOUSE_PS2VERSA_IN_USE) {
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
x0 = pb->ipacket[1] | (((pb->ipacket[4]) & 0x0f) << 8);
y0 = pb->ipacket[2] | (((pb->ipacket[4]) & 0xf0) << 4);
if (x0 & 0x800)
x0 -= 0x1000;
if (y0 & 0x800)
y0 -= 0x1000;
if (sc->flags & PSM_FLAGS_FINGERDOWN) {
x = sc->xold - x0;
y = y0 - sc->yold;
if (x < 0) /* XXX */
x++;
else if (x)
x--;
if (y < 0)
y++;
else if (y)
y--;
} else {
sc->flags |= PSM_FLAGS_FINGERDOWN;
}
sc->xold = x0;
sc->yold = y0;
} else {
sc->flags &= ~PSM_FLAGS_FINGERDOWN;
}
c = ((x < 0) ? MOUSE_PS2_XNEG : 0)
| ((y < 0) ? MOUSE_PS2_YNEG : 0);
break;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
case MOUSE_MODEL_4D:
/*
* b7 b6 b5 b4 b3 b2 b1 b0
* byte 1: s2 d2 s1 d1 1 M R L
* byte 2: sx x x x x x x x
* byte 3: sy y y y y y y y
*
* s1: wheel 1 direction
* d1: wheel 1 data
* s2: wheel 2 direction
* d2: wheel 2 data
*/
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
x = (pb->ipacket[1] & 0x80) ? pb->ipacket[1] - 256 : pb->ipacket[1];
y = (pb->ipacket[2] & 0x80) ? pb->ipacket[2] - 256 : pb->ipacket[2];
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
switch (c & MOUSE_4D_WHEELBITS) {
case 0x10:
z = 1;
break;
case 0x30:
z = -1;
break;
case 0x40: /* 2nd wheel turning right XXX */
z = 2;
break;
case 0xc0: /* 2nd wheel turning left XXX */
z = -2;
break;
}
break;
case MOUSE_MODEL_4DPLUS:
if ((x < 16 - 256) && (y < 16 - 256)) {
/*
* b7 b6 b5 b4 b3 b2 b1 b0
* byte 1: 0 0 1 1 1 M R L
* byte 2: 0 0 0 0 1 0 0 0
* byte 3: 0 0 0 0 S s d1 d0
*
* L, M, R, S: left, middle, right and side buttons
* s: wheel data sign bit
* d1-d0: wheel data
*/
x = y = 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
if (pb->ipacket[2] & MOUSE_4DPLUS_BUTTON4DOWN)
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
ms.button |= MOUSE_BUTTON4DOWN;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
z = (pb->ipacket[2] & MOUSE_4DPLUS_ZNEG)
? ((pb->ipacket[2] & 0x07) - 8)
: (pb->ipacket[2] & 0x07) ;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
} else {
/* preserve previous button states */
ms.button |= ms.obutton & MOUSE_EXTBUTTONS;
}
break;
case MOUSE_MODEL_SYNAPTICS:
/* TouchPad PS/2 absolute mode message format
*
* Bits: 7 6 5 4 3 2 1 0 (LSB)
* ------------------------------------------------
* ipacket[0]: 1 0 W3 W2 0 W1 R L
* ipacket[1]: Yb Ya Y9 Y8 Xb Xa X9 X8
* ipacket[2]: Z7 Z6 Z5 Z4 Z3 Z2 Z1 Z0
* ipacket[3]: 1 1 Yc Xc 0 W0 D U
* ipacket[4]: X7 X6 X5 X4 X3 X2 X1 X0
* ipacket[5]: Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0
*
* Legend:
* L: left physical mouse button
* R: right physical mouse button
* D: down button
* U: up button
* W: "wrist" value
* X: x position
* Y: x position
* Z: pressure
*
* Absolute reportable limits: 0 - 6143.
* Typical bezel limits: 1472 - 5472.
* Typical edge marings: 1632 - 5312.
*
* w = 3 Passthrough Packet
*
* Byte 2,5,6 == Byte 1,2,3 of "Guest"
*/
if (!synaptics_support)
break;
/* Sanity check for out of sync packets. */
if ((pb->ipacket[0] & 0xc8) != 0x80 ||
(pb->ipacket[3] & 0xc8) != 0xc0)
continue;
x = y = x0 = y0 = 0;
/* Pressure value. */
z = pb->ipacket[2];
/* Finger width value */
if (sc->synhw.capExtended) {
w = ((pb->ipacket[0] & 0x30) >> 2) |
((pb->ipacket[0] & 0x04) >> 1) |
((pb->ipacket[3] & 0x04) >> 2);
} else {
/* Assume a finger of regular width */
w = 4;
}
/* Handle packets from the guest device */
if (w == 3 && sc->synhw.capPassthrough) {
x = ((pb->ipacket[1] & 0x10) ?
pb->ipacket[4] - 256 : pb->ipacket[4]);
y = ((pb->ipacket[1] & 0x20) ?
pb->ipacket[5] - 256 : pb->ipacket[5]);
z = 0;
guest_buttons = 0;
if (pb->ipacket[1] & 0x01)
guest_buttons |= MOUSE_BUTTON1DOWN;
if (pb->ipacket[1] & 0x04)
guest_buttons |= MOUSE_BUTTON2DOWN;
if (pb->ipacket[1] & 0x02)
guest_buttons |= MOUSE_BUTTON3DOWN;
ms.button = touchpad_buttons | guest_buttons;
break;
}
/* Button presses */
touchpad_buttons = 0;
if (pb->ipacket[0] & 0x01)
touchpad_buttons |= MOUSE_BUTTON1DOWN;
if (pb->ipacket[0] & 0x02)
touchpad_buttons |= MOUSE_BUTTON3DOWN;
if (sc->synhw.capExtended && sc->synhw.capFourButtons) {
if ((pb->ipacket[3] & 0x01) && (pb->ipacket[0] & 0x01) == 0)
touchpad_buttons |= MOUSE_BUTTON4DOWN;
if ((pb->ipacket[3] & 0x02) && (pb->ipacket[0] & 0x02) == 0)
touchpad_buttons |= MOUSE_BUTTON5DOWN;
}
/*
* In newer pads - bit 0x02 in the third byte of
* the packet indicates that we have an extended
* button press.
*/
if (pb->ipacket[3] & 0x02) {
/*
* if directional_scrolls is not 1, we treat
* any of the scrolling directions as middle-click.
*/
if (sc->syninfo.directional_scrolls) {
if (pb->ipacket[4] & 0x01)
touchpad_buttons |= MOUSE_BUTTON4DOWN;
if (pb->ipacket[5] & 0x01)
touchpad_buttons |= MOUSE_BUTTON5DOWN;
if (pb->ipacket[4] & 0x02)
touchpad_buttons |= MOUSE_BUTTON6DOWN;
if (pb->ipacket[5] & 0x02)
touchpad_buttons |= MOUSE_BUTTON7DOWN;
} else {
if ((pb->ipacket[4] & 0x0F) || (pb->ipacket[5] & 0x0F))
touchpad_buttons |= MOUSE_BUTTON2DOWN;
}
}
ms.button = touchpad_buttons | guest_buttons;
/* There is a finger on the pad. */
if ((w >= 4 && w <= 7) && (z >= 16 && z < 200)) {
x0 = ((pb->ipacket[3] & 0x10) << 8) |
((pb->ipacket[1] & 0x0f) << 8) |
pb->ipacket[4];
y0 = ((pb->ipacket[3] & 0x20) << 7) |
((pb->ipacket[1] & 0xf0) << 4) |
pb->ipacket[5];
if (sc->flags & PSM_FLAGS_FINGERDOWN) {
x = x0 - sc->xold;
y = y0 - sc->yold;
/* we compute averages of x and y movement */
if (sc->xaverage == 0)
sc->xaverage=x;
if (sc->yaverage == 0)
sc->yaverage=y;
xavg = sc->xaverage;
yavg = sc->yaverage;
sc->xaverage = (xavg + x) >> 1;
sc->yaverage = (yavg + y) >> 1;
/*
* then use the averages to compute a sensitivity level
* in each dimension
*/
xsensitivity = (sc->xaverage - xavg);
if (xsensitivity < 0)
xsensitivity = -xsensitivity;
ysensitivity = (sc->yaverage - yavg);
if (ysensitivity < 0)
ysensitivity = -ysensitivity;
/*
* The sensitivity level is higher the faster the finger
* is moving. It also tends to be higher in the middle
* of a touchpad motion than on either end
*
* Note - sensitivity gets to 0 when moving slowly - so
* we add 1 to it to give it a meaningful value in that case.
*/
sensitivity = (xsensitivity & ysensitivity)+1;
/*
* If either our x or y change is greater than our
* hi/low speed threshold - we do the high-speed
* absolute to relative calculation otherwise we
* do the low-speed calculation.
*/
if ((x>sc->syninfo.low_speed_threshold ||
x<-sc->syninfo.low_speed_threshold) ||
(y>sc->syninfo.low_speed_threshold ||
y<-sc->syninfo.low_speed_threshold)) {
x0 = (x0 + sc->xold * 3) / 4;
y0 = (y0 + sc->yold * 3) / 4;
x = (x0 - sc->xold) * 10 / 85;
y = (y0 - sc->yold) * 10 / 85;
} else {
/*
* This is the low speed calculation.
* We simply check to see if our movement
* is more than our minimum movement threshold
* and if it is - set the movement to 1 in the
* correct direction.
* NOTE - Normally this would result in pointer
* movement that was WAY too fast. This works
* due to the movement squelch we do later.
*/
if (x < -sc->syninfo.min_movement)
x = -1;
else if (x > sc->syninfo.min_movement)
x = 1;
else
x = 0;
if (y < -sc->syninfo.min_movement)
y = -1;
else if (y > sc->syninfo.min_movement)
y = 1;
else
y = 0;
}
} else {
sc->flags |= PSM_FLAGS_FINGERDOWN;
}
/*
* ok - the squelch process. Take our sensitivity value
* and add it to the current squelch value - if squelch
* is less than our squelch threshold we kill the movement,
* otherwise we reset squelch and pass the movement through.
* Since squelch is cumulative - when mouse movement is slow
* (around sensitivity 1) the net result is that only
* 1 out of every squelch_level packets is
* delivered, effectively slowing down the movement.
*/
sc->squelch += sensitivity;
if (sc->squelch < sc->syninfo.squelch_level) {
x = 0;
y = 0;
} else
sc->squelch = 0;
sc->xold = x0;
sc->yold = y0;
sc->zmax = imax(z, sc->zmax);
} else {
sc->flags &= ~PSM_FLAGS_FINGERDOWN;
if (sc->zmax > tap_threshold &&
timevalcmp(&sc->lastsoftintr, &sc->taptimeout, <=)) {
if (w == 0)
ms.button |= MOUSE_BUTTON3DOWN;
else if (w == 1)
ms.button |= MOUSE_BUTTON2DOWN;
else
ms.button |= MOUSE_BUTTON1DOWN;
}
sc->zmax = 0;
sc->taptimeout.tv_sec = tap_timeout / 1000000;
sc->taptimeout.tv_usec = tap_timeout % 1000000;
timevaladd(&sc->taptimeout, &sc->lastsoftintr);
}
/* Use the extra buttons as a scrollwheel */
if (ms.button & MOUSE_BUTTON4DOWN)
z = -1;
else if (ms.button & MOUSE_BUTTON5DOWN)
z = 1;
else
z = 0;
break;
case MOUSE_MODEL_GENERIC:
default:
break;
}
/* scale values */
if (sc->mode.accelfactor >= 1) {
if (x != 0) {
x = x * x / sc->mode.accelfactor;
if (x == 0)
x = 1;
if (c & MOUSE_PS2_XNEG)
x = -x;
}
if (y != 0) {
y = y * y / sc->mode.accelfactor;
if (y == 0)
y = 1;
if (c & MOUSE_PS2_YNEG)
y = -y;
}
}
ms.dx = x;
ms.dy = y;
ms.dz = z;
ms.flags = ((x || y || z) ? MOUSE_POSCHANGED : 0)
| (ms.obutton ^ ms.button);
if (sc->mode.level < PSM_LEVEL_NATIVE)
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
pb->inputbytes = tame_mouse(sc, pb, &ms, pb->ipacket);
sc->status.flags |= ms.flags;
sc->status.dx += ms.dx;
sc->status.dy += ms.dy;
sc->status.dz += ms.dz;
sc->status.button = ms.button;
sc->button = ms.button;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
sc->watchdog = FALSE;
/* queue data */
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
if (sc->queue.count + pb->inputbytes < sizeof(sc->queue.buf)) {
l = imin(pb->inputbytes, sizeof(sc->queue.buf) - sc->queue.tail);
bcopy(&pb->ipacket[0], &sc->queue.buf[sc->queue.tail], l);
if (pb->inputbytes > l)
bcopy(&pb->ipacket[l], &sc->queue.buf[0], pb->inputbytes - l);
sc->queue.tail =
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
(sc->queue.tail + pb->inputbytes) % sizeof(sc->queue.buf);
sc->queue.count += pb->inputbytes;
}
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
pb->inputbytes = 0;
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
if (++sc->pqueue_start >= PSM_PACKETQUEUE)
sc->pqueue_start = 0;
} while (sc->pqueue_start != sc->pqueue_end);
if (sc->state & PSM_ASLP) {
sc->state &= ~PSM_ASLP;
wakeup( sc);
}
Significantly reduce the "jitter" that is typical for PS/2 mice when using a KVM. There is no actual solution possible, but this gets us pretty close. Typically when switching back to a FreeBSD box and moving the mouse wild data is produced, because the protocol's validation/checksum system is extremely weak it is impossible to determine that we're out of sync before dropping several bogus packets to user land. The actual solution that appears to offer the best clamping of jitter is to buffer the mouse packets if we've not seen mouse activity for more than .5 seconds. Then waiting to flush that data for 1/20th of a second. If within that 20th of a second we get any packets that do fail the weak test we drop the entire queue and back off accepting data from the mouse for 2 seconds and then repeat the whole deal. You can still get _some_ jitter, notably if you switch to the FreeBSD box, then move the mouse just enough to generate one or two packets. Those packets may be bogus, but may still pass the validity check. One way to finally kill the problem once and for all is to check the initial packets for "wild" values. Typically one sees packets in the +/-60 range during normal operation, however when bogus data is generated it's typically near the outer range of +/-120 or more, those packets would be a good candidate for dropping or clamping. I've been running with this for several weeks now and it has significantly helped me stay sane even with a piece of junk Belkin KVM causing wild jitter each and every time I switch. Lastly I'd like to note that my experience with Windows shows me that somehow the Microsoft PS/2 driver typically avoids this problem, but that may only be possible when running the mouse in a dumb-ed down PS/2 mode that Belkin recommends on their site.
2003-12-11 11:28:11 +00:00
selwakeuppri(&sc->rsel, PZERO);
sc->state &= ~PSM_SOFTARMED;
splx(s);
}
static int
psmpoll(struct cdev *dev, int events, struct thread *td)
{
struct psm_softc *sc = PSM_SOFTC(PSM_UNIT(dev));
int s;
int revents = 0;
/* Return true if a mouse event available */
s = spltty();
if (events & (POLLIN | POLLRDNORM)) {
if (sc->queue.count > 0)
revents |= events & (POLLIN | POLLRDNORM);
else
selrecord(td, &sc->rsel);
}
splx(s);
return (revents);
}
/* vendor/model specific routines */
static int mouse_id_proc1(KBDC kbdc, int res, int scale, int *status)
{
if (set_mouse_resolution(kbdc, res) != res)
return FALSE;
if (set_mouse_scaling(kbdc, scale)
&& set_mouse_scaling(kbdc, scale)
&& set_mouse_scaling(kbdc, scale)
&& (get_mouse_status(kbdc, status, 0, 3) >= 3))
return TRUE;
return FALSE;
}
static int
mouse_ext_command(KBDC kbdc, int command)
{
int c;
c = (command >> 6) & 0x03;
if (set_mouse_resolution(kbdc, c) != c)
return FALSE;
c = (command >> 4) & 0x03;
if (set_mouse_resolution(kbdc, c) != c)
return FALSE;
c = (command >> 2) & 0x03;
if (set_mouse_resolution(kbdc, c) != c)
return FALSE;
c = (command >> 0) & 0x03;
if (set_mouse_resolution(kbdc, c) != c)
return FALSE;
return TRUE;
}
#if notyet
/* Logitech MouseMan Cordless II */
static int
enable_lcordless(struct psm_softc *sc)
{
int status[3];
int ch;
if (!mouse_id_proc1(sc->kbdc, PSMD_RES_HIGH, 2, status))
return FALSE;
if (status[1] == PSMD_RES_HIGH)
return FALSE;
ch = (status[0] & 0x07) - 1; /* channel # */
if ((ch <= 0) || (ch > 4))
return FALSE;
/*
* status[1]: always one?
* status[2]: battery status? (0-100)
*/
return TRUE;
}
#endif /* notyet */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* Genius NetScroll Mouse, MouseSystems SmartScroll Mouse */
static int
enable_groller(struct psm_softc *sc)
{
int status[3];
/*
* The special sequence to enable the fourth button and the
* roller. Immediately after this sequence check status bytes.
* if the mouse is NetScroll, the second and the third bytes are
* '3' and 'D'.
*/
/*
* If the mouse is an ordinary PS/2 mouse, the status bytes should
* look like the following.
*
* byte 1 bit 7 always 0
* bit 6 stream mode (0)
* bit 5 disabled (0)
* bit 4 1:1 scaling (0)
* bit 3 always 0
* bit 0-2 button status
* byte 2 resolution (PSMD_RES_HIGH)
* byte 3 report rate (?)
*/
if (!mouse_id_proc1(sc->kbdc, PSMD_RES_HIGH, 1, status))
return FALSE;
if ((status[1] != '3') || (status[2] != 'D'))
return FALSE;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* FIXME: SmartScroll Mouse has 5 buttons! XXX */
sc->hw.buttons = 4;
return TRUE;
}
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* Genius NetMouse/NetMouse Pro, ASCII Mie Mouse, NetScroll Optical */
static int
enable_gmouse(struct psm_softc *sc)
{
int status[3];
/*
* The special sequence to enable the middle, "rubber" button.
* Immediately after this sequence check status bytes.
* if the mouse is NetMouse, NetMouse Pro, or ASCII MIE Mouse,
* the second and the third bytes are '3' and 'U'.
* NOTE: NetMouse reports that it has three buttons although it has
* two buttons and a rubber button. NetMouse Pro and MIE Mouse
* say they have three buttons too and they do have a button on the
* side...
*/
if (!mouse_id_proc1(sc->kbdc, PSMD_RES_HIGH, 1, status))
return FALSE;
if ((status[1] != '3') || (status[2] != 'U'))
return FALSE;
return TRUE;
}
/* ALPS GlidePoint */
static int
enable_aglide(struct psm_softc *sc)
{
int status[3];
/*
* The special sequence to obtain ALPS GlidePoint specific
* information. Immediately after this sequence, status bytes will
* contain something interesting.
* NOTE: ALPS produces several models of GlidePoint. Some of those
* do not respond to this sequence, thus, cannot be detected this way.
*/
if (set_mouse_sampling_rate(sc->kbdc, 100) != 100)
return FALSE;
if (!mouse_id_proc1(sc->kbdc, PSMD_RES_LOW, 2, status))
return FALSE;
if ((status[1] == PSMD_RES_LOW) || (status[2] == 100))
return FALSE;
return TRUE;
}
/* Kensington ThinkingMouse/Trackball */
static int
enable_kmouse(struct psm_softc *sc)
{
static unsigned char rate[] = { 20, 60, 40, 20, 20, 60, 40, 20, 20 };
KBDC kbdc = sc->kbdc;
int status[3];
int id1;
int id2;
int i;
id1 = get_aux_id(kbdc);
if (set_mouse_sampling_rate(kbdc, 10) != 10)
return FALSE;
/*
* The device is now in the native mode? It returns a different
* ID value...
*/
id2 = get_aux_id(kbdc);
if ((id1 == id2) || (id2 != 2))
return FALSE;
if (set_mouse_resolution(kbdc, PSMD_RES_LOW) != PSMD_RES_LOW)
return FALSE;
#if PSM_DEBUG >= 2
/* at this point, resolution is LOW, sampling rate is 10/sec */
if (get_mouse_status(kbdc, status, 0, 3) < 3)
return FALSE;
#endif
/*
* The special sequence to enable the third and fourth buttons.
* Otherwise they behave like the first and second buttons.
*/
for (i = 0; i < sizeof(rate)/sizeof(rate[0]); ++i) {
if (set_mouse_sampling_rate(kbdc, rate[i]) != rate[i])
return FALSE;
}
/*
* At this point, the device is using default resolution and
* sampling rate for the native mode.
*/
if (get_mouse_status(kbdc, status, 0, 3) < 3)
return FALSE;
if ((status[1] == PSMD_RES_LOW) || (status[2] == rate[i - 1]))
return FALSE;
/* the device appears be enabled by this sequence, diable it for now */
disable_aux_dev(kbdc);
empty_aux_buffer(kbdc, 5);
return TRUE;
}
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* Logitech MouseMan+/FirstMouse+, IBM ScrollPoint Mouse */
static int
enable_mmanplus(struct psm_softc *sc)
{
KBDC kbdc = sc->kbdc;
int data[3];
/* the special sequence to enable the fourth button and the roller. */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/*
* NOTE: for ScrollPoint to respond correctly, the SET_RESOLUTION
* must be called exactly three times since the last RESET command
* before this sequence. XXX
*/
if (!set_mouse_scaling(kbdc, 1))
return FALSE;
if (!mouse_ext_command(kbdc, 0x39) || !mouse_ext_command(kbdc, 0xdb))
return FALSE;
if (get_mouse_status(kbdc, data, 1, 3) < 3)
return FALSE;
/*
* PS2++ protocl, packet type 0
*
* b7 b6 b5 b4 b3 b2 b1 b0
* byte 1: * 1 p3 p2 1 * * *
* byte 2: 1 1 p1 p0 m1 m0 1 0
* byte 3: m7 m6 m5 m4 m3 m2 m1 m0
*
* p3-p0: packet type: 0
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
* m7-m0: model ID: MouseMan+:0x50, FirstMouse+:0x51, ScrollPoint:0x58...
*/
/* check constant bits */
if ((data[0] & MOUSE_PS2PLUS_SYNCMASK) != MOUSE_PS2PLUS_SYNC)
return FALSE;
if ((data[1] & 0xc3) != 0xc2)
return FALSE;
/* check d3-d0 in byte 2 */
if (!MOUSE_PS2PLUS_CHECKBITS(data))
return FALSE;
/* check p3-p0 */
if (MOUSE_PS2PLUS_PACKET_TYPE(data) != 0)
return FALSE;
sc->hw.hwid &= 0x00ff;
sc->hw.hwid |= data[2] << 8; /* save model ID */
/*
* MouseMan+ (or FirstMouse+) is now in its native mode, in which
* the wheel and the fourth button events are encoded in the
* special data packet. The mouse may be put in the IntelliMouse mode
* if it is initialized by the IntelliMouse's method.
*/
return TRUE;
}
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* MS IntelliMouse Explorer */
static int
enable_msexplorer(struct psm_softc *sc)
{
static unsigned char rate0[] = { 200, 100, 80, };
static unsigned char rate1[] = { 200, 200, 80, };
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
KBDC kbdc = sc->kbdc;
int id;
int i;
/* the special sequence to enable the extra buttons and the roller. */
for (i = 0; i < sizeof(rate1)/sizeof(rate1[0]); ++i) {
if (set_mouse_sampling_rate(kbdc, rate1[i]) != rate1[i])
return FALSE;
}
/* the device will give the genuine ID only after the above sequence */
id = get_aux_id(kbdc);
if (id != PSM_EXPLORER_ID)
return FALSE;
sc->hw.hwid = id;
sc->hw.buttons = 5; /* IntelliMouse Explorer XXX */
/*
* XXX: this is a kludge to fool some KVM switch products
* which think they are clever enough to know the 4-byte IntelliMouse
* protocol, and assume any other protocols use 3-byte packets.
* They don't convey 4-byte data packets from the IntelliMouse Explorer
* correctly to the host computer because of this!
* The following sequence is actually IntelliMouse's "wake up"
* sequence; it will make the KVM think the mouse is IntelliMouse
* when it is in fact IntelliMouse Explorer.
*/
for (i = 0; i < sizeof(rate0)/sizeof(rate0[0]); ++i) {
if (set_mouse_sampling_rate(kbdc, rate0[i]) != rate0[i])
break;
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
}
id = get_aux_id(kbdc);
return TRUE;
}
/* MS IntelliMouse */
static int
enable_msintelli(struct psm_softc *sc)
{
/*
* Logitech MouseMan+ and FirstMouse+ will also respond to this
* probe routine and act like IntelliMouse.
*/
static unsigned char rate[] = { 200, 100, 80, };
KBDC kbdc = sc->kbdc;
int id;
int i;
/* the special sequence to enable the third button and the roller. */
for (i = 0; i < sizeof(rate)/sizeof(rate[0]); ++i) {
if (set_mouse_sampling_rate(kbdc, rate[i]) != rate[i])
return FALSE;
}
/* the device will give the genuine ID only after the above sequence */
id = get_aux_id(kbdc);
if (id != PSM_INTELLI_ID)
return FALSE;
sc->hw.hwid = id;
sc->hw.buttons = 3;
return TRUE;
}
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
/* A4 Tech 4D Mouse */
static int
enable_4dmouse(struct psm_softc *sc)
{
/*
* Newer wheel mice from A4 Tech may use the 4D+ protocol.
*/
static unsigned char rate[] = { 200, 100, 80, 60, 40, 20 };
KBDC kbdc = sc->kbdc;
int id;
int i;
for (i = 0; i < sizeof(rate)/sizeof(rate[0]); ++i) {
if (set_mouse_sampling_rate(kbdc, rate[i]) != rate[i])
return FALSE;
}
id = get_aux_id(kbdc);
/*
* WinEasy 4D, 4 Way Scroll 4D: 6
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
* Cable-Free 4D: 8 (4DPLUS)
* WinBest 4D+, 4 Way Scroll 4D+: 8 (4DPLUS)
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
*/
if (id != PSM_4DMOUSE_ID)
return FALSE;
sc->hw.hwid = id;
sc->hw.buttons = 3; /* XXX some 4D mice have 4? */
return TRUE;
}
/* A4 Tech 4D+ Mouse */
static int
enable_4dplus(struct psm_softc *sc)
{
/*
* Newer wheel mice from A4 Tech seem to use this protocol.
* Older models are recognized as either 4D Mouse or IntelliMouse.
*/
KBDC kbdc = sc->kbdc;
int id;
/*
* enable_4dmouse() already issued the following ID sequence...
static unsigned char rate[] = { 200, 100, 80, 60, 40, 20 };
int i;
for (i = 0; i < sizeof(rate)/sizeof(rate[0]); ++i) {
if (set_mouse_sampling_rate(kbdc, rate[i]) != rate[i])
return FALSE;
}
*/
id = get_aux_id(kbdc);
switch (id) {
case PSM_4DPLUS_ID:
sc->hw.buttons = 4;
break;
case PSM_4DPLUS_RFSW35_ID:
sc->hw.buttons = 3;
break;
default:
return FALSE;
}
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
sc->hw.hwid = id;
return TRUE;
}
/* Synaptics Touchpad */
static int
enable_synaptics(struct psm_softc *sc)
{
int status[3];
KBDC kbdc;
if (!synaptics_support)
return (FALSE);
/* Attach extra synaptics sysctl nodes under hw.psm.synaptics */
sysctl_ctx_init(&sc->syninfo.sysctl_ctx);
sc->syninfo.sysctl_tree = SYSCTL_ADD_NODE(&sc->syninfo.sysctl_ctx,
SYSCTL_STATIC_CHILDREN(_hw_psm), OID_AUTO, "synaptics",
CTLFLAG_RD, 0, "Synaptics TouchPad");
/*
* synaptics_directional_scrolls - if non-zero, the directional
* pad scrolls, otherwise it registers as a middle-click.
*/
sc->syninfo.directional_scrolls = 1;
SYSCTL_ADD_INT(&sc->syninfo.sysctl_ctx,
SYSCTL_CHILDREN(sc->syninfo.sysctl_tree),
OID_AUTO, "directional_scrolls", CTLFLAG_RW,
&sc->syninfo.directional_scrolls, 0,
"directional pad scrolls (1=yes 0=3rd button)");
/*
* Synaptics_low_speed_threshold - the number of touchpad units
* below-which we go into low-speed tracking mode.
*/
sc->syninfo.low_speed_threshold = 20;
SYSCTL_ADD_INT(&sc->syninfo.sysctl_ctx,
SYSCTL_CHILDREN(sc->syninfo.sysctl_tree),
OID_AUTO, "low_speed_threshold", CTLFLAG_RW,
&sc->syninfo.low_speed_threshold, 0,
"threshold between low and hi speed positioning");
/*
* Synaptics_min_movement - the number of touchpad units below
* which we ignore altogether.
*/
sc->syninfo.min_movement = 2;
SYSCTL_ADD_INT(&sc->syninfo.sysctl_ctx,
SYSCTL_CHILDREN(sc->syninfo.sysctl_tree),
OID_AUTO, "min_movement", CTLFLAG_RW,
&sc->syninfo.min_movement, 0,
"ignore touchpad movements less than this");
/*
* Synaptics_squelch_level - level at which we squelch movement
* packets.
*
* This effectively sends 1 out of every synaptics_squelch_level
* packets when * running in low-speed mode.
*/
sc->syninfo.squelch_level=3;
SYSCTL_ADD_INT(&sc->syninfo.sysctl_ctx,
SYSCTL_CHILDREN(sc->syninfo.sysctl_tree),
OID_AUTO, "squelch_level", CTLFLAG_RW,
&sc->syninfo.squelch_level, 0,
"squelch level for synaptics touchpads");
kbdc = sc->kbdc;
disable_aux_dev(kbdc);
sc->hw.buttons = 3;
sc->squelch = 0;
/* Just to be on the safe side */
set_mouse_scaling(kbdc, 1);
/* Identify the Touchpad version */
if (mouse_ext_command(kbdc, 0) == 0)
return (FALSE);
if (get_mouse_status(kbdc, status, 0, 3) != 3)
return (FALSE);
if (status[1] != 0x47)
return (FALSE);
sc->synhw.infoMinor = status[0];
sc->synhw.infoMajor = status[2] & 0x0f;
if (verbose >= 2)
printf("Synaptics Touchpad v%d.%d\n",
sc->synhw.infoMajor, sc->synhw.infoMinor);
if (sc->synhw.infoMajor < 4) {
printf(" Unsupported (pre-v4) Touchpad detected\n");
return (FALSE);
}
/* Get the Touchpad model information */
if (mouse_ext_command(kbdc, 3) == 0)
return (FALSE);
if (get_mouse_status(kbdc, status, 0, 3) != 3)
return (FALSE);
if ((status[1] & 0x01) != 0) {
printf(" Failed to read model information\n");
return (FALSE);
}
sc->synhw.infoRot180 = (status[0] & 0x80) >> 7;
sc->synhw.infoPortrait = (status[0] & 0x40) >> 6;
sc->synhw.infoSensor = status[0] & 0x3f;
sc->synhw.infoHardware = (status[1] & 0xfe) >> 1;
sc->synhw.infoNewAbs = (status[2] & 0x80) >> 7;
sc->synhw.capPen = (status[2] & 0x40) >> 6;
sc->synhw.infoSimplC = (status[2] & 0x20) >> 5;
sc->synhw.infoGeometry = status[2] & 0x0f;
if (verbose >= 2) {
printf(" Model information:\n");
printf(" infoRot180: %d\n", sc->synhw.infoRot180);
printf(" infoPortrait: %d\n", sc->synhw.infoPortrait);
printf(" infoSensor: %d\n", sc->synhw.infoSensor);
printf(" infoHardware: %d\n", sc->synhw.infoHardware);
printf(" infoNewAbs: %d\n", sc->synhw.infoNewAbs);
printf(" capPen: %d\n", sc->synhw.capPen);
printf(" infoSimplC: %d\n", sc->synhw.infoSimplC);
printf(" infoGeometry: %d\n", sc->synhw.infoGeometry);
}
/* Read the extended capability bits */
if (mouse_ext_command(kbdc, 2) == 0)
return (FALSE);
if (get_mouse_status(kbdc, status, 0, 3) != 3)
return (FALSE);
if (status[1] != 0x47) {
printf(" Failed to read extended capability bits\n");
return (FALSE);
}
/* Set the different capabilities when they exist */
if ((status[0] & 0x80) >> 7) {
sc->synhw.capExtended = (status[0] & 0x80) >> 7;
sc->synhw.capPassthrough = (status[2] & 0x80) >> 7;
sc->synhw.capSleep = (status[2] & 0x10) >> 4;
sc->synhw.capFourButtons = (status[2] & 0x08) >> 3;
sc->synhw.capMultiFinger = (status[2] & 0x02) >> 1;
sc->synhw.capPalmDetect = (status[2] & 0x01);
if (verbose >= 2) {
printf(" Extended capabilities:\n");
printf(" capExtended: %d\n", sc->synhw.capExtended);
printf(" capPassthrough: %d\n", sc->synhw.capPassthrough);
printf(" capSleep: %d\n", sc->synhw.capSleep);
printf(" capFourButtons: %d\n", sc->synhw.capFourButtons);
printf(" capMultiFinger: %d\n", sc->synhw.capMultiFinger);
printf(" capPalmDetect: %d\n", sc->synhw.capPalmDetect);
}
/*
* if we have bits set in status[0] & 0x70 - then we can load
* more information about buttons using query 0x09
*/
if (status[0] & 0x70) {
if (mouse_ext_command(kbdc, 0x09) == 0)
return (FALSE);
if (get_mouse_status(kbdc, status, 0, 3) != 3)
return (FALSE);
sc->hw.buttons = ((status[1] & 0xf0) >> 4) + 3;
if (verbose >= 2)
printf(" Additional Buttons: %d\n", sc->hw.buttons -3);
}
} else {
sc->synhw.capExtended = 0;
if (verbose >= 2)
printf(" No extended capabilities\n");
}
/*
* Read the mode byte
*
* XXX: Note the Synaptics documentation also defines the first
* byte of the response to this query to be a constant 0x3b, this
* does not appear to be true for Touchpads with guest devices.
*/
if (mouse_ext_command(kbdc, 1) == 0)
return (FALSE);
if (get_mouse_status(kbdc, status, 0, 3) != 3)
return (FALSE);
if (status[1] != 0x47) {
printf(" Failed to read mode byte\n");
return (FALSE);
}
/* Set the mode byte -- request wmode where available */
if (sc->synhw.capExtended)
mouse_ext_command(kbdc, 0xc1);
else
mouse_ext_command(kbdc, 0xc0);
/* Reset the sampling rate */
set_mouse_sampling_rate(kbdc, 20);
/*
* Report the correct number of buttons
*
* XXX: I'm not sure this is used anywhere.
*/
if (sc->synhw.capExtended && sc->synhw.capFourButtons)
sc->hw.buttons = 4;
return (TRUE);
}
/* Interlink electronics VersaPad */
static int
enable_versapad(struct psm_softc *sc)
{
KBDC kbdc = sc->kbdc;
int data[3];
set_mouse_resolution(kbdc, PSMD_RES_MEDIUM_HIGH); /* set res. 2 */
set_mouse_sampling_rate(kbdc, 100); /* set rate 100 */
set_mouse_scaling(kbdc, 1); /* set scale 1:1 */
set_mouse_scaling(kbdc, 1); /* set scale 1:1 */
set_mouse_scaling(kbdc, 1); /* set scale 1:1 */
set_mouse_scaling(kbdc, 1); /* set scale 1:1 */
if (get_mouse_status(kbdc, data, 0, 3) < 3) /* get status */
return FALSE;
if (data[2] != 0xa || data[1] != 0 ) /* rate == 0xa && res. == 0 */
return FALSE;
set_mouse_scaling(kbdc, 1); /* set scale 1:1 */
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
sc->config |= PSM_CONFIG_HOOKRESUME | PSM_CONFIG_INITAFTERSUSPEND;
return TRUE; /* PS/2 absolute mode */
}
- Hook up the new locations of the atkbdc(4), atkbd(4) and psm(4) source files after they were repo-copied to sys/dev/atkbdc. The sources of atkbdc(4) and its children were moved to the new location in preparation for adding an EBus front-end to atkbdc(4) for use on sparc64; i.e. in order to not further scatter them over the whole tree which would have been the result of adding atkbdc_ebus.c in e.g. sys/sparc64/ebus. Another reason for the repo-copies was that some of the sources were misfiled, e.g. sys/isa/atkbd_isa.c wasn't ISA-specific at all but for hanging atkbd(4) off of atkbdc(4) and was renamed to atkbd_atkbdc.c accordingly. Most of sys/isa/psm.c, i.e. expect for its PSMC PNP part, also isn't ISA-specific. - Separate the parts of atkbdc_isa.c which aren't actually ISA-specific but are shareable between different atkbdc(4) bus front-ends into atkbdc_subr.c (repo-copied from atkbdc_isa.c). While here use bus_generic_rl_alloc_resource() and bus_generic_rl_release_resource() respectively in atkbdc_isa.c instead of rolling own versions. - Add sparc64 MD bits to atkbdc(4) and atkbd(4) and an EBus front-end for atkbdc(4). PS/2 controllers and input devices are used on a couple of Sun OEM boards and occur on either the EBus or the ISA bus. Depending on the board it's either the only on-board mean to connect a keyboard and mouse or an alternative to either RS232 or USB devices. - Wrap the PSMC PNP part of psm.c in #ifdef DEV_ISA so it can be compiled without isa(4) (e.g. for EBus-only machines). This ISA-specific part isn't separated into its own source file, yet, as it requires more work than was feasible for 6.0 in order to do it in a clean way. Actually philip@ is working on a rewrite of psm(4) so a more comprehensive clean-up and separation of hardware dependent and independent parts is expected to happen after 6.0. Tested on: i386, sparc64 (AX1105, AXe and AXi boards) Reviewed by: philip
2005-06-10 20:56:38 +00:00
/*
* Return true if 'now' is earlier than (start + (secs.usecs)).
* Now may be NULL and the function will fetch the current time from
* getmicrouptime(), or a cached 'now' can be passed in.
* All values should be numbers derived from getmicrouptime().
*/
static int
timeelapsed(start, secs, usecs, now)
const struct timeval *start, *now;
int secs, usecs;
{
struct timeval snow, tv;
/* if there is no 'now' passed in, the get it as a convience. */
if (now == NULL) {
getmicrouptime(&snow);
now = &snow;
}
tv.tv_sec = secs;
tv.tv_usec = usecs;
timevaladd(&tv, start);
return (timevalcmp(&tv, now, <));
}
static int
psmresume(device_t dev)
{
struct psm_softc *sc = device_get_softc(dev);
int unit = device_get_unit(dev);
int err;
VLOG(2, (LOG_NOTICE, "psm%d: system resume hook called.\n", unit));
- Add Support for the following PS/2 mice: - Microsoft IntelliMouse Explorer: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "IntelliMouse Explorer". - Genius NetScroll Optical: 2 buttons on top, 2 side buttons and a wheel which also acts as the middle button. The mouse is recognized as "NetMouse/NetScroll Optical". - MouseSystems SmartScroll Mouse (OEM from Genius?): 3 buttons on top, 1 side button and a wheel. The mouse is recognized as Genius "NetScroll". - IBM ScrollPoint: 2 buttons on top and a stick between the buttons. The stick can perform "horizontal scroll" in W*ndows environment. The horizontal movement of the stick is detected. It is currently mapped to the Z axis movement in the same way as the first wheel. The mouse is recognized as "MouseMan+", as it is considered to be a variation of MouseMan. - A4 Tech 4D and 4D+ mice. These mice have two wheels! The movement of the second wheel is reported as the Z axis movement in the same way as the first wheel. These mice are recognized as "4D Mouse" and "4D+ Mouse". - Tweak IntelliMouse support code a bit so that less-than-compatible wheel mice can work properly with the psm driver. - Add driver configuration flags which correspond to the kernel options PSM_HOOKRESUME and PSM_RESETAFTERSUSPEND, so that we don't need to recompile the kernel when we need these functions. - Properly keep track of the irq resource. - Add a watchdog timer in case interrupts are lost (experimental). - Add `detach' function (experimental).
2000-03-18 15:21:40 +00:00
if (!(sc->config & PSM_CONFIG_HOOKRESUME))
return (0);
err = reinitialize(sc, sc->config & PSM_CONFIG_INITAFTERSUSPEND);
if ((sc->state & PSM_ASLP) && !(sc->state & PSM_VALID)) {
/*
* Release the blocked process; it must be notified that the device
* cannot be accessed anymore.
*/
sc->state &= ~PSM_ASLP;
wakeup(sc);
}
VLOG(2, (LOG_DEBUG, "psm%d: system resume hook exiting.\n", unit));
return (err);
}
DRIVER_MODULE(psm, atkbdc, psm_driver, psm_devclass, 0, 0);
- Hook up the new locations of the atkbdc(4), atkbd(4) and psm(4) source files after they were repo-copied to sys/dev/atkbdc. The sources of atkbdc(4) and its children were moved to the new location in preparation for adding an EBus front-end to atkbdc(4) for use on sparc64; i.e. in order to not further scatter them over the whole tree which would have been the result of adding atkbdc_ebus.c in e.g. sys/sparc64/ebus. Another reason for the repo-copies was that some of the sources were misfiled, e.g. sys/isa/atkbd_isa.c wasn't ISA-specific at all but for hanging atkbd(4) off of atkbdc(4) and was renamed to atkbd_atkbdc.c accordingly. Most of sys/isa/psm.c, i.e. expect for its PSMC PNP part, also isn't ISA-specific. - Separate the parts of atkbdc_isa.c which aren't actually ISA-specific but are shareable between different atkbdc(4) bus front-ends into atkbdc_subr.c (repo-copied from atkbdc_isa.c). While here use bus_generic_rl_alloc_resource() and bus_generic_rl_release_resource() respectively in atkbdc_isa.c instead of rolling own versions. - Add sparc64 MD bits to atkbdc(4) and atkbd(4) and an EBus front-end for atkbdc(4). PS/2 controllers and input devices are used on a couple of Sun OEM boards and occur on either the EBus or the ISA bus. Depending on the board it's either the only on-board mean to connect a keyboard and mouse or an alternative to either RS232 or USB devices. - Wrap the PSMC PNP part of psm.c in #ifdef DEV_ISA so it can be compiled without isa(4) (e.g. for EBus-only machines). This ISA-specific part isn't separated into its own source file, yet, as it requires more work than was feasible for 6.0 in order to do it in a clean way. Actually philip@ is working on a rewrite of psm(4) so a more comprehensive clean-up and separation of hardware dependent and independent parts is expected to happen after 6.0. Tested on: i386, sparc64 (AX1105, AXe and AXi boards) Reviewed by: philip
2005-06-10 20:56:38 +00:00
#ifdef DEV_ISA
/*
* This sucks up assignments from PNPBIOS and ACPI.
*/
/*
* When the PS/2 mouse device is reported by ACPI or PnP BIOS, it may
* appear BEFORE the AT keyboard controller. As the PS/2 mouse device
* can be probed and attached only after the AT keyboard controller is
* attached, we shall quietly reserve the IRQ resource for later use.
* If the PS/2 mouse device is reported to us AFTER the keyboard controller,
* copy the IRQ resource to the PS/2 mouse device instance hanging
* under the keyboard controller, then probe and attach it.
*/
static devclass_t psmcpnp_devclass;
static device_probe_t psmcpnp_probe;
static device_attach_t psmcpnp_attach;
static device_method_t psmcpnp_methods[] = {
DEVMETHOD(device_probe, psmcpnp_probe),
DEVMETHOD(device_attach, psmcpnp_attach),
{ 0, 0 }
};
static driver_t psmcpnp_driver = {
PSMCPNP_DRIVER_NAME,
psmcpnp_methods,
1, /* no softc */
};
static struct isa_pnp_id psmcpnp_ids[] = {
{ 0x030fd041, "PS/2 mouse port" }, /* PNP0F03 */
{ 0x130fd041, "PS/2 mouse port" }, /* PNP0F13 */
{ 0x1303d041, "PS/2 port" }, /* PNP0313, XXX */
{ 0x02002e4f, "Dell PS/2 mouse port" }, /* Lat. X200, Dell */
{ 0x80374d24, "IBM PS/2 mouse port" }, /* IBM3780, ThinkPad */
2001-10-03 07:26:28 +00:00
{ 0x81374d24, "IBM PS/2 mouse port" }, /* IBM3781, ThinkPad */
{ 0x0190d94d, "SONY VAIO PS/2 mouse port"}, /* SNY9001, Vaio */
{ 0x0290d94d, "SONY VAIO PS/2 mouse port"}, /* SNY9002, Vaio */
{ 0x0390d94d, "SONY VAIO PS/2 mouse port"}, /* SNY9003, Vaio */
{ 0x0490d94d, "SONY VAIO PS/2 mouse port"}, /* SNY9004, Vaio */
{ 0 }
};
static int
create_a_copy(device_t atkbdc, device_t me)
{
device_t psm;
u_long irq;
/* find the PS/2 mouse device instance under the keyboard controller */
psm = device_find_child(atkbdc, PSM_DRIVER_NAME,
device_get_unit(atkbdc));
if (psm == NULL)
return ENXIO;
if (device_get_state(psm) != DS_NOTPRESENT)
return 0;
/* move our resource to the found device */
irq = bus_get_resource_start(me, SYS_RES_IRQ, 0);
bus_set_resource(psm, SYS_RES_IRQ, KBDC_RID_AUX, irq, 1);
/* ...then probe and attach it */
return device_probe_and_attach(psm);
}
static int
psmcpnp_probe(device_t dev)
{
struct resource *res;
u_long irq;
int rid;
if (ISA_PNP_PROBE(device_get_parent(dev), dev, psmcpnp_ids))
return ENXIO;
/*
* The PnP BIOS and ACPI are supposed to assign an IRQ (12)
* to the PS/2 mouse device node. But, some buggy PnP BIOS
* declares the PS/2 mouse device node without an IRQ resource!
* If this happens, we shall refer to device hints.
* If we still don't find it there, use a hardcoded value... XXX
*/
rid = 0;
irq = bus_get_resource_start(dev, SYS_RES_IRQ, rid);
if (irq <= 0) {
if (resource_long_value(PSM_DRIVER_NAME,
device_get_unit(dev), "irq", &irq) != 0)
irq = 12; /* XXX */
device_printf(dev, "irq resource info is missing; "
"assuming irq %ld\n", irq);
bus_set_resource(dev, SYS_RES_IRQ, rid, irq, 1);
}
res = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid,
RF_SHAREABLE);
bus_release_resource(dev, SYS_RES_IRQ, rid, res);
/* keep quiet */
if (!bootverbose)
device_quiet(dev);
return ((res == NULL) ? ENXIO : 0);
}
static int
psmcpnp_attach(device_t dev)
{
device_t atkbdc;
int rid;
/* find the keyboard controller, which may be on acpi* or isa* bus */
atkbdc = devclass_get_device(devclass_find(ATKBDC_DRIVER_NAME),
device_get_unit(dev));
if ((atkbdc != NULL) && (device_get_state(atkbdc) == DS_ATTACHED)) {
create_a_copy(atkbdc, dev);
} else {
/*
* If we don't have the AT keyboard controller yet,
* just reserve the IRQ for later use...
* (See psmidentify() above.)
*/
rid = 0;
bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid, RF_SHAREABLE);
}
return 0;
}
DRIVER_MODULE(psmcpnp, isa, psmcpnp_driver, psmcpnp_devclass, 0, 0);
DRIVER_MODULE(psmcpnp, acpi, psmcpnp_driver, psmcpnp_devclass, 0, 0);
- Hook up the new locations of the atkbdc(4), atkbd(4) and psm(4) source files after they were repo-copied to sys/dev/atkbdc. The sources of atkbdc(4) and its children were moved to the new location in preparation for adding an EBus front-end to atkbdc(4) for use on sparc64; i.e. in order to not further scatter them over the whole tree which would have been the result of adding atkbdc_ebus.c in e.g. sys/sparc64/ebus. Another reason for the repo-copies was that some of the sources were misfiled, e.g. sys/isa/atkbd_isa.c wasn't ISA-specific at all but for hanging atkbd(4) off of atkbdc(4) and was renamed to atkbd_atkbdc.c accordingly. Most of sys/isa/psm.c, i.e. expect for its PSMC PNP part, also isn't ISA-specific. - Separate the parts of atkbdc_isa.c which aren't actually ISA-specific but are shareable between different atkbdc(4) bus front-ends into atkbdc_subr.c (repo-copied from atkbdc_isa.c). While here use bus_generic_rl_alloc_resource() and bus_generic_rl_release_resource() respectively in atkbdc_isa.c instead of rolling own versions. - Add sparc64 MD bits to atkbdc(4) and atkbd(4) and an EBus front-end for atkbdc(4). PS/2 controllers and input devices are used on a couple of Sun OEM boards and occur on either the EBus or the ISA bus. Depending on the board it's either the only on-board mean to connect a keyboard and mouse or an alternative to either RS232 or USB devices. - Wrap the PSMC PNP part of psm.c in #ifdef DEV_ISA so it can be compiled without isa(4) (e.g. for EBus-only machines). This ISA-specific part isn't separated into its own source file, yet, as it requires more work than was feasible for 6.0 in order to do it in a clean way. Actually philip@ is working on a rewrite of psm(4) so a more comprehensive clean-up and separation of hardware dependent and independent parts is expected to happen after 6.0. Tested on: i386, sparc64 (AX1105, AXe and AXi boards) Reviewed by: philip
2005-06-10 20:56:38 +00:00
#endif /* DEV_ISA */