dev/pckbport/synaptics.c

1.2  christos /*	$NetBSD: synaptics.c,v 1.3 2005/01/02 22:37:12 scw Exp $	*/
1.1  christos
1.1  christos /*
1.3       scw  * Copyright (c) 2005, Steve C. Woodford
1.1  christos  * Copyright (c) 2004, Ales Krenek
1.1  christos  * Copyright (c) 2004, Kentaro A. Kurahone
1.1  christos  * All rights reserved.
1.1  christos  *
1.1  christos  * Redistribution and use in source and binary forms, with or without
1.1  christos  * modification, are permitted provided that the following conditions
1.1  christos  * are met:
1.1  christos  *
1.1  christos  *   * Redistributions of source code must retain the above copyright
1.1  christos  *     notice, this list of conditions and the following disclaimer.
1.1  christos  *   * Redistributions in binary form must reproduce the above
1.1  christos  *     copyright notice, this list of conditions and the following
1.1  christos  *     disclaimer in the documentation and/or other materials provided
1.1  christos  *     with the distribution.
1.1  christos  *   * Neither the name of the authors nor the names of its
1.1  christos  *     contributors may be used to endorse or promote products derived
1.1  christos  *     from this software without specific prior written permission.
1.1  christos  *
1.1  christos  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
1.1  christos  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
1.1  christos  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
1.1  christos  * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
1.1  christos  * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1  christos  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
1.1  christos  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
1.1  christos  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
1.1  christos  * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  christos  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
1.1  christos  * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  christos  * POSSIBILITY OF SUCH DAMAGE.
1.1  christos  *
1.1  christos  */
1.1  christos
1.3       scw /*
1.3       scw  * TODO:
1.3       scw  *	- Make the sysctl values per-instance instead of global.
1.3       scw  *	- Consider setting initial scaling factors at runtime according
1.3       scw  *	  to the values returned by the 'Read Resolutions' command.
1.3       scw  *	- Support the serial protocol (we only support PS/2 for now)
1.3       scw  *	- Support auto-repeat for up/down button Z-axis emulation.
1.3       scw  *	- Maybe add some more gestures (can we use Palm support somehow?)
1.3       scw  *	- Support pass-through mode (whatever that is; my docs are too old).
1.3       scw  */
1.3       scw
1.1  christos #include <sys/cdefs.h>
1.1  christos
1.1  christos #include <sys/param.h>
1.1  christos #include <sys/systm.h>
1.1  christos #include <sys/device.h>
1.1  christos #include <sys/ioctl.h>
1.1  christos #include <sys/sysctl.h>
1.1  christos #include <sys/kernel.h>
1.1  christos
1.1  christos #include <machine/bus.h>
1.1  christos
1.1  christos #include <dev/pckbport/pckbportvar.h>
1.1  christos
1.1  christos #include <dev/pckbport/synapticsreg.h>
1.1  christos #include <dev/pckbport/synapticsvar.h>
1.1  christos
1.1  christos #include <dev/pckbport/pmsreg.h>
1.1  christos #include <dev/pckbport/pmsvar.h>
1.1  christos
1.1  christos #include <dev/wscons/wsconsio.h>
1.1  christos #include <dev/wscons/wsmousevar.h>
1.1  christos
1.3       scw /*
1.3       scw  * Absolute-mode packets are decoded and passed around using
1.3       scw  * the following structure.
1.3       scw  */
1.3       scw struct synaptics_packet {
1.3       scw 	signed short	sp_x;	/* Unscaled absolute X/Y coordinates */
1.3       scw 	signed short	sp_y;
1.3       scw 	u_char	sp_z;		/* Z (pressure) */
1.3       scw 	u_char	sp_w;		/* W (contact patch width) */
1.3       scw 	char	sp_left;	/* Left mouse button status */
1.3       scw 	char	sp_right;	/* Right mouse button status */
1.3       scw 	char	sp_middle;	/* Middle button status (possibly emulated) */
1.3       scw 	char	sp_up;		/* Up button status */
1.3       scw 	char	sp_down;	/* Down button status */
1.3       scw };
1.3       scw
1.1  christos static int pms_synaptics_send_command(pckbport_tag_t, pckbport_slot_t, u_char);
1.1  christos static void pms_synaptics_input(void *, int);
1.3       scw static void pms_synaptics_process_packet(struct pms_softc *,
1.3       scw 		struct synaptics_packet *);
1.2  christos static void pms_sysctl_synaptics(struct sysctllog **);
1.1  christos static int pms_sysctl_synaptics_verify(SYSCTLFN_ARGS);
1.1  christos
1.1  christos /* Controled by sysctl. */
1.3       scw static int synaptics_up_down_emul = 2;
1.3       scw static int synaptics_up_down_motion_delta = 1;
1.3       scw static int synaptics_gesture_move = 200;
1.3       scw static int synaptics_gesture_length = 20;
1.3       scw static int synaptics_edge_left = SYNAPTICS_EDGE_LEFT;
1.3       scw static int synaptics_edge_right = SYNAPTICS_EDGE_RIGHT;
1.3       scw static int synaptics_edge_top = SYNAPTICS_EDGE_TOP;
1.3       scw static int synaptics_edge_bottom = SYNAPTICS_EDGE_BOTTOM;
1.3       scw static int synaptics_edge_motion_delta = 32;
1.3       scw static u_int synaptics_finger_high = SYNAPTICS_FINGER_LIGHT + 5;
1.3       scw static u_int synaptics_finger_low = SYNAPTICS_FINGER_LIGHT - 10;
1.3       scw static int synaptics_two_fingers_emul = 0;
1.3       scw static int synaptics_scale_x = 16;
1.3       scw static int synaptics_scale_y = 16;
1.3       scw static int synaptics_max_speed_x = 32;
1.3       scw static int synaptics_max_speed_y = 32;
1.3       scw static int synaptics_movement_threshold = 4;
1.1  christos
1.1  christos /* Sysctl nodes. */
1.3       scw static int synaptics_up_down_emul_nodenum;
1.3       scw static int synaptics_up_down_motion_delta_nodenum;
1.3       scw static int synaptics_gesture_move_nodenum;
1.3       scw static int synaptics_gesture_length_nodenum;
1.3       scw static int synaptics_edge_left_nodenum;
1.3       scw static int synaptics_edge_right_nodenum;
1.3       scw static int synaptics_edge_top_nodenum;
1.3       scw static int synaptics_edge_bottom_nodenum;
1.3       scw static int synaptics_edge_motion_delta_nodenum;
1.3       scw static int synaptics_finger_high_nodenum;
1.3       scw static int synaptics_finger_low_nodenum;
1.3       scw static int synaptics_two_fingers_emul_nodenum;
1.3       scw static int synaptics_scale_x_nodenum;
1.3       scw static int synaptics_scale_y_nodenum;
1.3       scw static int synaptics_max_speed_x_nodenum;
1.3       scw static int synaptics_max_speed_y_nodenum;
1.3       scw static int synaptics_movement_threshold_nodenum;
1.1  christos
1.1  christos int
1.1  christos pms_synaptics_probe_init(void *vsc)
1.1  christos {
1.3       scw 	struct pms_softc *psc = vsc;
1.3       scw 	struct synaptics_softc *sc = &psc->u.synaptics;
1.1  christos 	u_char cmd[2], resp[3];
1.3       scw 	int res, ver_minor, ver_major;
1.2  christos 	struct sysctllog *clog = NULL;
1.1  christos
1.3       scw 	res = pms_synaptics_send_command(psc->sc_kbctag, psc->sc_kbcslot,
1.1  christos 	    SYNAPTICS_IDENTIFY_TOUCHPAD);
1.1  christos 	cmd[0] = PMS_SEND_DEV_STATUS;
1.3       scw 	res |= pckbport_poll_cmd(psc->sc_kbctag, psc->sc_kbcslot, cmd, 1, 3,
1.3       scw 	    resp, 0);
1.1  christos 	if (res) {
1.1  christos #ifdef SYNAPTICSDEBUG
1.3       scw 		aprint_error("%s: synaptics_probe: Identify Touchpad error.\n",
1.3       scw 		    psc->sc_dev.dv_xname);
1.1  christos #endif
1.3       scw 		/*
1.3       scw 		 * Reset device in case the probe confused it.
1.3       scw 		 */
1.3       scw  doreset:
1.3       scw 		cmd[0] = PMS_RESET;
1.3       scw 		(void) pckbport_poll_cmd(psc->sc_kbctag, psc->sc_kbcslot, cmd,
1.3       scw 		    1, 2, resp, 1);
1.3       scw 		return (res);
1.1  christos 	}
1.1  christos
1.1  christos 	if (resp[1] != SYNAPTICS_MAGIC_BYTE) {
1.1  christos #ifdef SYNAPTICSDEBUG
1.3       scw 		printf("%s: synaptics_probe: Not synaptics.\n",
1.3       scw 		    psc->sc_dev.dv_xname);
1.1  christos #endif
1.3       scw 		res = 1;
1.3       scw 		goto doreset;
1.1  christos 	}
1.1  christos
1.3       scw 	sc->flags = 0;
1.3       scw
1.1  christos 	/* Check for minimum version and print a nice message. */
1.1  christos 	ver_major = resp[2] & 0x0f;
1.1  christos 	ver_minor = resp[0];
1.3       scw 	aprint_normal("%s: Synaptics touchpad version %d.%d\n",
1.3       scw 	    psc->sc_dev.dv_xname, ver_major, ver_minor);
1.1  christos 	if (ver_major * 10 + ver_minor < SYNAPTICS_MIN_VERSION) {
1.1  christos 		/* No capability query support. */
1.3       scw 		sc->caps = 0;
1.1  christos 		goto done;
1.1  christos 	}
1.1  christos
1.1  christos 	/* Query the hardware capabilities. */
1.3       scw 	res = pms_synaptics_send_command(psc->sc_kbctag, psc->sc_kbcslot,
1.1  christos 	    SYNAPTICS_READ_CAPABILITIES);
1.1  christos 	cmd[0] = PMS_SEND_DEV_STATUS;
1.3       scw 	res |= pckbport_poll_cmd(psc->sc_kbctag, psc->sc_kbcslot, cmd, 1, 3,
1.3       scw 	    resp, 0);
1.1  christos 	if (res) {
1.1  christos 		/* Hmm, failed to get capabilites. */
1.3       scw 		aprint_error("%s: synaptics_probe: Failed to query "
1.3       scw 		    "capabilities.\n", psc->sc_dev.dv_xname);
1.3       scw 		goto doreset;
1.1  christos 	}
1.1  christos
1.3       scw 	sc->caps = (resp[0] << 8) | resp[2];
1.3       scw
1.3       scw 	if (sc->caps & SYNAPTICS_CAP_MBUTTON)
1.3       scw 		sc->flags |= SYN_FLAG_HAS_MIDDLE_BUTTON;
1.3       scw
1.3       scw 	if (sc->caps & SYNAPTICS_CAP_4BUTTON)
1.3       scw 		sc->flags |= SYN_FLAG_HAS_BUTTONS_4_5;
1.3       scw
1.3       scw 	if (sc->caps & SYNAPTICS_CAP_EXTENDED) {
1.1  christos #ifdef SYNAPTICSDEBUG
1.3       scw 		aprint_normal("%s: synaptics_probe: Capabilities 0x%04x.\n",
1.3       scw 		    psc->sc_dev.dv_xname, sc->caps);
1.1  christos #endif
1.3       scw 		if (sc->caps & SYNAPTICS_CAP_PASSTHROUGH) /*XXX: Not supported*/
1.3       scw 			sc->flags |= SYN_FLAG_HAS_PASSTHROUGH;
1.3       scw
1.3       scw 		if (sc->caps & SYNAPTICS_CAP_PALMDETECT)
1.3       scw 			sc->flags |= SYN_FLAG_HAS_PALM_DETECT;
1.3       scw
1.3       scw 		if (sc->caps & SYNAPTICS_CAP_MULTIDETECT)
1.3       scw 			sc->flags |= SYN_FLAG_HAS_MULTI_FINGER;
1.1  christos
1.1  christos 		/* Ask about extra buttons to detect up/down. */
1.3       scw 		if (sc->caps & SYNAPTICS_CAP_EXTNUM) {
1.3       scw 			res = pms_synaptics_send_command(psc->sc_kbctag,
1.3       scw 			    psc->sc_kbcslot, SYNAPTICS_EXTENDED_QUERY);
1.1  christos 			cmd[0] = PMS_SEND_DEV_STATUS;
1.3       scw 			res |= pckbport_poll_cmd(psc->sc_kbctag,
1.3       scw 			    psc->sc_kbcslot, cmd, 1, 3, resp, 0);
1.3       scw #ifdef SYNAPTICSDEBUG
1.3       scw 			if (res == 0)
1.3       scw 				aprint_normal("%s: synaptics_probe: Extended "
1.3       scw 				    "Capabilities 0x%02x.\n",
1.3       scw 				    psc->sc_dev.dv_xname, resp[1]);
1.3       scw #endif
1.3       scw 			if (!res && (resp[1] >> 4) >= 2) {
1.1  christos 				/* Yes. */
1.3       scw 				sc->flags |= SYN_FLAG_HAS_UP_DOWN_BUTTONS;
1.1  christos 			}
1.3       scw 		}
1.3       scw 	}
1.3       scw
1.3       scw 	if (sc->flags) {
1.3       scw 		const char comma[] = ", ";
1.3       scw 		const char *sep = "";
1.3       scw 		aprint_normal("%s: ", psc->sc_dev.dv_xname);
1.3       scw 		if (sc->flags & SYN_FLAG_HAS_MIDDLE_BUTTON) {
1.3       scw 			aprint_normal("%sMiddle button", sep);
1.3       scw 			sep = comma;
1.3       scw 		}
1.3       scw 		if (sc->flags & SYN_FLAG_HAS_BUTTONS_4_5) {
1.3       scw 			aprint_normal("%sButtons 4/5", sep);
1.3       scw 			sep = comma;
1.3       scw 		}
1.3       scw 		if (sc->flags & SYN_FLAG_HAS_UP_DOWN_BUTTONS) {
1.3       scw 			aprint_normal("%sUp/down buttons", sep);
1.3       scw 			sep = comma;
1.3       scw 		}
1.3       scw 		if (sc->flags & SYN_FLAG_HAS_PALM_DETECT) {
1.3       scw 			aprint_normal("%sPalm detect", sep);
1.3       scw 			sep = comma;
1.3       scw 		}
1.3       scw 		if (sc->flags & SYN_FLAG_HAS_MULTI_FINGER)
1.3       scw 			aprint_normal("%sMulti-finger", sep);
1.3       scw
1.3       scw 		aprint_normal("\n");
1.1  christos 	}
1.1  christos
1.1  christos done:
1.2  christos 	pms_sysctl_synaptics(&clog);
1.3       scw 	pckbport_set_inputhandler(psc->sc_kbctag, psc->sc_kbcslot,
1.3       scw 	    pms_synaptics_input, psc, psc->sc_dev.dv_xname);
1.3       scw
1.3       scw 	return (0);
1.1  christos }
1.1  christos
1.1  christos void
1.1  christos pms_synaptics_enable(void *vsc)
1.1  christos {
1.3       scw 	struct pms_softc *psc = vsc;
1.3       scw 	struct synaptics_softc *sc = &psc->u.synaptics;
1.1  christos 	u_char cmd[2];
1.1  christos 	int res;
1.1  christos
1.3       scw 	/*
1.3       scw 	 * Enable Absolute mode with W (width) reporting, and set
1.3       scw 	 * the packet rate to maximum (80 packets per second).
1.3       scw 	 */
1.3       scw 	res = pms_synaptics_send_command(psc->sc_kbctag, psc->sc_kbcslot,
1.3       scw 	    SYNAPTICS_MODE_ABSOLUTE | SYNAPTICS_MODE_W | SYNAPTICS_MODE_RATE);
1.1  christos 	cmd[0] = PMS_SET_SAMPLE;
1.1  christos 	cmd[1] = 0x14; /* doit */
1.3       scw 	res |= pckbport_enqueue_cmd(psc->sc_kbctag, psc->sc_kbcslot, cmd, 2, 0,
1.3       scw 	    1, NULL);
1.3       scw 	sc->up_down = 0;
1.3       scw 	sc->prev_fingers = 0;
1.3       scw 	sc->gesture_start_x = sc->gesture_start_y = 0;
1.3       scw 	sc->gesture_start_packet = 0;
1.3       scw 	sc->gesture_tap_packet = 0;
1.3       scw 	sc->gesture_type = 0;
1.3       scw 	sc->gesture_buttons = 0;
1.3       scw 	sc->rem_x = sc->rem_y = 0;
1.3       scw 	sc->movement_history = 0;
1.3       scw 	if (res) {
1.3       scw 		printf("%s: synaptics_enable: Error enabling device.\n",
1.3       scw 		    psc->sc_dev.dv_xname);
1.3       scw 	}
1.1  christos }
1.1  christos
1.1  christos void
1.1  christos pms_synaptics_resume(void *vsc)
1.1  christos {
1.3       scw 	struct pms_softc *psc = vsc;
1.3       scw 	unsigned char cmd[1],resp[2] = { 0,0 };
1.3       scw 	int res;
1.1  christos
1.1  christos 	cmd[0] = PMS_RESET;
1.3       scw 	res = pckbport_poll_cmd(psc->sc_kbctag, psc->sc_kbcslot, cmd, 1, 2,
1.3       scw 	    resp, 1);
1.3       scw 	printf("%s: pms_synaptics_resume: reset on resume %d 0x%02x 0x%02x\n",
1.3       scw 	    psc->sc_dev.dv_xname, res, resp[0], resp[1]);
1.1  christos }
1.1  christos
1.3       scw static void
1.3       scw pms_sysctl_synaptics(struct sysctllog **clog)
1.1  christos {
1.1  christos 	int rc, root_num;
1.1  christos 	struct sysctlnode *node;
1.1  christos
1.1  christos 	if ((rc = sysctl_createv(clog, 0, NULL, NULL,
1.1  christos 	    CTLFLAG_PERMANENT, CTLTYPE_NODE, "hw", NULL,
1.1  christos 	    NULL, 0, NULL, 0, CTL_HW, CTL_EOL)) != 0)
1.1  christos 		goto err;
1.1  christos
1.1  christos 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  christos 	    CTLFLAG_PERMANENT, CTLTYPE_NODE, "synaptics",
1.1  christos 	    SYSCTL_DESCR("Synaptics touchpad controls"),
1.1  christos 	    NULL, 0, NULL, 0, CTL_HW, CTL_CREATE, CTL_EOL)) != 0)
1.1  christos 	    goto err;
1.1  christos
1.1  christos 	root_num = node->sysctl_num;
1.1  christos
1.1  christos 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  christos 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "up_down_emulation",
1.3       scw 	    SYSCTL_DESCR("Middle button/Z-axis emulation with up/down buttons"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_up_down_emul,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_up_down_emul_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "up_down_motion_delta",
1.3       scw 	    SYSCTL_DESCR("Up/down button Z-axis emulation rate"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_up_down_motion_delta,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_up_down_motion_delta_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "gesture_move",
1.3       scw 	    SYSCTL_DESCR("Movement greater than this between taps cancels gesture"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_gesture_move,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_gesture_move_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "gesture_length",
1.3       scw 	    SYSCTL_DESCR("Time period in which tap is recognised as a gesture"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_gesture_length,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_gesture_length_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "edge_left",
1.3       scw 	    SYSCTL_DESCR("Define left edge of touchpad"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_edge_left,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_edge_left_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "edge_right",
1.3       scw 	    SYSCTL_DESCR("Define right edge of touchpad"),
1.1  christos 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_edge_right,
1.1  christos 	    0, CTL_HW, root_num, CTL_CREATE,
1.1  christos 	    CTL_EOL)) != 0)
1.1  christos 		goto err;
1.1  christos
1.3       scw 	synaptics_edge_right_nodenum = node->sysctl_num;
1.1  christos
1.1  christos 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  christos 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "edge_top",
1.3       scw 	    SYSCTL_DESCR("Define top edge of touchpad"),
1.1  christos 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_edge_top,
1.1  christos 	    0, CTL_HW, root_num, CTL_CREATE,
1.1  christos 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_edge_top_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "edge_bottom",
1.3       scw 	    SYSCTL_DESCR("Define bottom edge of touchpad"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_edge_bottom,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_edge_bottom_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "edge_motion_delta",
1.3       scw 	    SYSCTL_DESCR("Define edge motion rate"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_edge_motion_delta,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_edge_motion_delta_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "finger_high",
1.3       scw 	    SYSCTL_DESCR("Define finger applied pressure threshold"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_finger_high,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_finger_high_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "finger_low",
1.3       scw 	    SYSCTL_DESCR("Define finger removed pressure threshold"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_finger_low,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_finger_low_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "two_fingers_emulation",
1.3       scw 	    SYSCTL_DESCR("Map two fingers to middle button"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_two_fingers_emul,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_two_fingers_emul_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "scale_x",
1.3       scw 	    SYSCTL_DESCR("Horizontal movement scale factor"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_scale_x,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.3       scw
1.3       scw 	synaptics_scale_x_nodenum = node->sysctl_num;
1.3       scw
1.3       scw 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.3       scw 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "scale_y",
1.3       scw 	    SYSCTL_DESCR("Vertical movement scale factor"),
1.3       scw 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_scale_y,
1.3       scw 	    0, CTL_HW, root_num, CTL_CREATE,
1.3       scw 	    CTL_EOL)) != 0)
1.3       scw 		goto err;
1.1  christos
1.3       scw 	synaptics_scale_y_nodenum = node->sysctl_num;
1.1  christos
1.1  christos 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  christos 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "max_speed_x",
1.3       scw 	    SYSCTL_DESCR("Horizontal movement maximum speed"),
1.1  christos 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_max_speed_x,
1.1  christos 	    0, CTL_HW, root_num, CTL_CREATE,
1.1  christos 	    CTL_EOL)) != 0)
1.1  christos 		goto err;
1.1  christos
1.3       scw 	synaptics_max_speed_x_nodenum = node->sysctl_num;
1.1  christos
1.1  christos 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  christos 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "max_speed_y",
1.3       scw 	    SYSCTL_DESCR("Vertical movement maximum speed"),
1.1  christos 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_max_speed_y,
1.1  christos 	    0, CTL_HW, root_num, CTL_CREATE,
1.1  christos 	    CTL_EOL)) != 0)
1.1  christos 		goto err;
1.1  christos
1.3       scw 	synaptics_max_speed_y_nodenum = node->sysctl_num;
1.1  christos
1.1  christos 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  christos 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE,
1.3       scw 	    CTLTYPE_INT, "movement_threshold",
1.3       scw 	    SYSCTL_DESCR("Minimum reported movement threshold"),
1.1  christos 	    pms_sysctl_synaptics_verify, 0,
1.3       scw 	    &synaptics_movement_threshold,
1.1  christos 	    0, CTL_HW, root_num, CTL_CREATE,
1.1  christos 	    CTL_EOL)) != 0)
1.1  christos 		goto err;
1.1  christos
1.3       scw 	synaptics_movement_threshold_nodenum = node->sysctl_num;
1.1  christos 	return;
1.1  christos
1.1  christos err:
1.3       scw 	aprint_error("%s: sysctl_createv failed (rc = %d)\n", __func__, rc);
1.1  christos }
1.1  christos
1.1  christos static int
1.1  christos pms_sysctl_synaptics_verify(SYSCTLFN_ARGS)
1.1  christos {
1.1  christos 	int error, t;
1.1  christos 	struct sysctlnode node;
1.1  christos
1.1  christos 	node = *rnode;
1.1  christos 	t = *(int *)rnode->sysctl_data;
1.1  christos 	node.sysctl_data = &t;
1.1  christos 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
1.1  christos 	if (error || newp == NULL)
1.1  christos 		return error;
1.1  christos
1.1  christos 	/* Sanity check the params. */
1.3       scw 	if (node.sysctl_num == synaptics_up_down_emul_nodenum ||
1.3       scw 	    node.sysctl_num == synaptics_two_fingers_emul_nodenum) {
1.3       scw 		if (t < 0 || t > 2)
1.3       scw 			return (EINVAL);
1.3       scw 	} else
1.3       scw 	if (node.sysctl_num == synaptics_gesture_length_nodenum ||
1.3       scw 	    node.sysctl_num == synaptics_edge_motion_delta_nodenum ||
1.3       scw 	    node.sysctl_num == synaptics_up_down_motion_delta_nodenum) {
1.1  christos 		if (t < 0)
1.3       scw 			return (EINVAL);
1.3       scw 	} else
1.3       scw 	if (node.sysctl_num == synaptics_edge_left_nodenum ||
1.3       scw 	    node.sysctl_num == synaptics_edge_bottom_nodenum) {
1.3       scw 		if (t < 0 || t > (SYNAPTICS_EDGE_MAX / 2))
1.3       scw 			return (EINVAL);
1.3       scw 	} else
1.3       scw 	if (node.sysctl_num == synaptics_edge_right_nodenum ||
1.3       scw 	    node.sysctl_num == synaptics_edge_top_nodenum) {
1.3       scw 		if (t < (SYNAPTICS_EDGE_MAX / 2))
1.3       scw 			return (EINVAL);
1.1  christos 	} else
1.3       scw 	if (node.sysctl_num == synaptics_scale_x_nodenum ||
1.3       scw 	    node.sysctl_num == synaptics_scale_y_nodenum) {
1.3       scw 		if (t < 1 || t > (SYNAPTICS_EDGE_MAX / 4))
1.3       scw 			return (EINVAL);
1.3       scw 	} else
1.3       scw 	if (node.sysctl_num == synaptics_finger_high_nodenum) {
1.3       scw 		if (t < 0 || t > SYNAPTICS_FINGER_PALM ||
1.3       scw 		    t < synaptics_finger_low)
1.3       scw 			return (EINVAL);
1.3       scw 	} else
1.3       scw 	if (node.sysctl_num == synaptics_finger_low_nodenum) {
1.3       scw 		if (t < 0 || t > SYNAPTICS_FINGER_PALM ||
1.3       scw 		    t > synaptics_finger_high)
1.3       scw 			return (EINVAL);
1.3       scw 	} else
1.3       scw 	if (node.sysctl_num == synaptics_gesture_move_nodenum ||
1.3       scw 	    node.sysctl_num == synaptics_movement_threshold_nodenum) {
1.3       scw 		if (t < 0 || t > (SYNAPTICS_EDGE_MAX / 4))
1.3       scw 			return (EINVAL);
1.3       scw 	} else
1.3       scw 		return (EINVAL);
1.1  christos
1.3       scw 	*(int *)rnode->sysctl_data = t;
1.1  christos
1.3       scw 	return (0);
1.1  christos }
1.1  christos
1.1  christos static int
1.1  christos pms_synaptics_send_command(pckbport_tag_t tag, pckbport_slot_t slot,
1.1  christos     u_char syn_cmd)
1.1  christos {
1.1  christos 	u_char cmd[2];
1.1  christos 	int res;
1.1  christos
1.3       scw 	/*
1.3       scw 	 * Need to send 4 Set Resolution commands, with the argument
1.1  christos 	 * encoded in the bottom most 2 bits.
1.1  christos 	 */
1.3       scw 	cmd[0] = PMS_SET_RES;
1.3       scw 	cmd[1] = syn_cmd >> 6;
1.1  christos 	res = pckbport_poll_cmd(tag, slot, cmd, 2, 0, NULL, 0);
1.3       scw
1.3       scw 	cmd[0] = PMS_SET_RES;
1.3       scw 	cmd[1] = (syn_cmd & 0x30) >> 4;
1.1  christos 	res |= pckbport_poll_cmd(tag, slot, cmd, 2, 0, NULL, 0);
1.3       scw
1.3       scw 	cmd[0] = PMS_SET_RES;
1.3       scw 	cmd[1] = (syn_cmd & 0x0c) >> 2;
1.1  christos 	res |= pckbport_poll_cmd(tag, slot, cmd, 2, 0, NULL, 0);
1.3       scw
1.3       scw 	cmd[0] = PMS_SET_RES;
1.3       scw 	cmd[1] = (syn_cmd & 0x03);
1.1  christos 	res |= pckbport_poll_cmd(tag, slot, cmd, 2, 0, NULL, 0);
1.1  christos
1.3       scw 	return (res);
1.1  christos }
1.1  christos
1.3       scw /* Masks for the first byte of a packet */
1.3       scw #define PMS_LBUTMASK 0x01
1.3       scw #define PMS_RBUTMASK 0x02
1.3       scw #define PMS_MBUTMASK 0x04
1.1  christos
1.1  christos static void
1.1  christos pms_synaptics_input(void *vsc, int data)
1.1  christos {
1.3       scw 	struct pms_softc *psc = vsc;
1.3       scw 	struct synaptics_softc *sc = &psc->u.synaptics;
1.3       scw 	struct timeval diff;
1.3       scw 	struct synaptics_packet sp;
1.3       scw 	int s;
1.1  christos
1.3       scw 	if (!psc->sc_enabled) {
1.1  christos 		/* Interrupts are not expected.	 Discard the byte. */
1.1  christos 		return;
1.1  christos 	}
1.1  christos
1.1  christos 	s = splclock();
1.3       scw 	psc->current = mono_time;
1.1  christos 	splx(s);
1.1  christos
1.3       scw 	if (psc->inputstate > 0) {
1.3       scw 		timersub(&psc->current, &psc->last, &diff);
1.1  christos 		if (diff.tv_sec > 0 || diff.tv_usec >= 40000) {
1.3       scw 			printf("%s: pms_input: unusual delay (%ld.%06ld s), "
1.3       scw 			    "scheduling reset\n", psc->sc_dev.dv_xname,
1.1  christos 			    (long)diff.tv_sec, (long)diff.tv_usec);
1.3       scw 			psc->inputstate = 0;
1.3       scw 			psc->sc_enabled = 0;
1.3       scw 			wakeup(&psc->sc_enabled);
1.1  christos 			return;
1.1  christos 		}
1.1  christos 	}
1.3       scw 	psc->last = psc->current;
1.1  christos
1.3       scw 	switch (psc->inputstate) {
1.3       scw 	case 0:
1.1  christos 		if ((data & 0xc8) != 0x80) {
1.2  christos #ifdef SYNAPTICSDEBUG
1.3       scw 			printf("%s: pms_input: 0x%02x out of sync\n",
1.3       scw 			    psc->sc_dev.dv_xname, data);
1.2  christos #endif
1.1  christos 			return;	/* not in sync yet, discard input */
1.1  christos 		}
1.3       scw 		/*FALLTHROUGH*/
1.3       scw
1.3       scw 	case 3:
1.1  christos 		if ((data & 8) == 8) {
1.2  christos #ifdef SYNAPTICS_DEBUG
1.3       scw 			printf("%s: pms_input: dropped in relative mode, "
1.3       scw 			    "reset\n", psc->sc_dev.dv_xname);
1.2  christos #endif
1.3       scw 			psc->inputstate = 0;
1.3       scw 			psc->sc_enabled = 0;
1.3       scw 			wakeup(&psc->sc_enabled);
1.1  christos 			return;
1.1  christos 		}
1.1  christos 	}
1.1  christos
1.3       scw 	psc->packet[psc->inputstate++] = data & 0xff;
1.3       scw 	if (psc->inputstate == 6) {
1.3       scw 		/*
1.3       scw 		 * We have a complete packet.
1.3       scw 		 * Extract the pertinent details.
1.3       scw 		 */
1.3       scw 		psc->inputstate = 0;
1.3       scw
1.3       scw 		/* Absolute X/Y coordinates of finger */
1.3       scw 		sp.sp_x = psc->packet[4] + ((psc->packet[1] & 0x0f) << 8) +
1.3       scw 		    ((psc->packet[3] & 0x10) << 8);
1.3       scw 		sp.sp_y = psc->packet[5] + ((psc->packet[1] & 0xf0) << 4) +
1.3       scw 		    ((psc->packet[3] & 0x20) << 7);
1.3       scw
1.3       scw 		/* Pressure */
1.3       scw 		sp.sp_z = psc->packet[2];
1.3       scw
1.3       scw 		/* Width of finger */
1.3       scw 		sp.sp_w = ((psc->packet[0] & 0x30) >> 2) +
1.3       scw 		    ((psc->packet[0] & 0x04) >> 1) +
1.3       scw 		    ((psc->packet[3] & 0x04) >> 2);
1.3       scw
1.3       scw 		/* Left/Right button handling. */
1.3       scw 		sp.sp_left = psc->packet[0] & PMS_LBUTMASK;
1.3       scw 		sp.sp_right = psc->packet[0] & PMS_RBUTMASK;
1.3       scw
1.3       scw 		/* Up/Down buttons. */
1.3       scw 		if (sc->flags & SYN_FLAG_HAS_BUTTONS_4_5) {
1.3       scw 			/* Old up/down buttons. */
1.3       scw 			sp.sp_up = sp.sp_left ^
1.3       scw 			    (psc->packet[3] & PMS_LBUTMASK);
1.3       scw 			sp.sp_down = sp.sp_right ^
1.3       scw 			    (psc->packet[3] & PMS_RBUTMASK);
1.3       scw 		} else
1.3       scw 		if (sc->flags & SYN_FLAG_HAS_UP_DOWN_BUTTONS &&
1.3       scw 		    ((psc->packet[0] & PMS_RBUTMASK) ^
1.3       scw 		    (psc->packet[3] & PMS_RBUTMASK))) {
1.3       scw 			/* New up/down button. */
1.3       scw 			sp.sp_up = psc->packet[4] & SYN_1BUTMASK;
1.3       scw 			sp.sp_down = psc->packet[5] & SYN_2BUTMASK;
1.3       scw 		} else {
1.3       scw 			sp.sp_up = 0;
1.3       scw 			sp.sp_down = 0;
1.1  christos 		}
1.3       scw
1.3       scw 		/* Middle button. */
1.3       scw 		if (sc->flags & SYN_FLAG_HAS_MIDDLE_BUTTON) {
1.3       scw 			/* Old style Middle Button. */
1.3       scw 			sp.sp_middle = (psc->packet[0] & PMS_LBUTMASK) ^
1.3       scw 			    (psc->packet[3] & PMS_LBUTMASK);
1.3       scw 		} else
1.3       scw 		if (synaptics_up_down_emul == 1) {
1.3       scw 			/* Do middle button emulation using up/down buttons */
1.3       scw 			sp.sp_middle = sp.sp_up | sp.sp_down;
1.3       scw 			sp.sp_up = sp.sp_down = 0;
1.3       scw 		} else
1.3       scw 			sp.sp_middle = 0;
1.3       scw
1.3       scw 		/*
1.3       scw 		 * Go process the new packet
1.3       scw 		 */
1.3       scw 		pms_synaptics_process_packet(psc, &sp);
1.1  christos 	}
1.3       scw }
1.1  christos
1.3       scw static __inline int
1.3       scw synaptics_finger_detect(struct synaptics_softc *sc, struct synaptics_packet *sp,
1.3       scw     int *palmp)
1.3       scw {
1.3       scw 	int fingers;
1.3       scw
1.3       scw 	/* Assume no palm */
1.3       scw 	*palmp = 0;
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Apply some hysteresis when checking for a finger.
1.3       scw 	 * When the finger is first applied, we ignore it until the
1.3       scw 	 * pressure exceeds the 'high' threshold. The finger is considered
1.3       scw 	 * removed only when pressure falls beneath the 'low' threshold.
1.3       scw 	 */
1.3       scw 	if ((sc->prev_fingers == 0 && sp->sp_z > synaptics_finger_high) ||
1.3       scw 	    (sc->prev_fingers != 0 && sp->sp_z > synaptics_finger_low))
1.3       scw 		fingers = 1;
1.3       scw 	else
1.3       scw 		fingers = 0;
1.3       scw
1.3       scw 	/*
1.3       scw 	 * If the pad can't do palm detection, skip the rest.
1.3       scw 	 */
1.3       scw 	if (fingers == 0 || (sc->flags & SYN_FLAG_HAS_PALM_DETECT) == 0)
1.3       scw 		return (fingers);
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Palm detection
1.3       scw 	 */
1.3       scw 	if (sp->sp_z > SYNAPTICS_FINGER_FLAT &&
1.3       scw 	    sp->sp_w >= SYNAPTICS_WIDTH_PALM_MIN)
1.3       scw 		*palmp = 1;
1.3       scw
1.3       scw 	if (sc->prev_fingers == 0 &&
1.3       scw 	    (sp->sp_z > SYNAPTICS_FINGER_FLAT ||
1.3       scw 	     sp->sp_w >= SYNAPTICS_WIDTH_PALM_MIN)) {
1.3       scw 		/*
1.3       scw 		 * Contact area or pressure is too great to be a finger.
1.3       scw 		 * Just ignore it for now.
1.3       scw 		 */
1.3       scw 		return (0);
1.3       scw 	}
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Detect 2 and 3 fingers if supported, but only if multiple
1.3       scw 	 * fingers appear within the tap gesture time period.
1.3       scw 	 */
1.3       scw 	if (sc->flags & SYN_FLAG_HAS_MULTI_FINGER &&
1.3       scw 	    SYN_TIME(sc, sc->gesture_start_packet) < synaptics_gesture_length) {
1.3       scw 		switch (sp->sp_w) {
1.3       scw 		case SYNAPTICS_WIDTH_TWO_FINGERS:
1.3       scw 			fingers = 2;
1.3       scw 			break;
1.3       scw
1.3       scw 		case SYNAPTICS_WIDTH_THREE_OR_MORE:
1.3       scw 			fingers = 3;
1.3       scw 			break;
1.3       scw
1.3       scw 		case SYNAPTICS_WIDTH_PEN:
1.3       scw 			fingers = 1;
1.3       scw 			break;
1.3       scw
1.3       scw 		default:
1.3       scw 			/*
1.3       scw 			 * The width value can report spurious single-finger
1.3       scw 			 * events after a multi-finger event.
1.3       scw 			 */
1.3       scw 			if (sc->prev_fingers > 1)
1.3       scw 				fingers = sc->prev_fingers;
1.3       scw 			else
1.3       scw 				fingers = 1;
1.3       scw 			break;
1.1  christos 		}
1.1  christos 	}
1.3       scw
1.3       scw 	return (fingers);
1.1  christos }
1.1  christos
1.3       scw static __inline void
1.3       scw synaptics_gesture_detect(struct synaptics_softc *sc,
1.3       scw     struct synaptics_packet *sp, int fingers)
1.3       scw {
1.3       scw 	int gesture_len, gesture_move_x, gesture_move_y, gesture_buttons;
1.3       scw 	int set_buttons;
1.3       scw
1.3       scw 	gesture_len = SYN_TIME(sc, sc->gesture_start_packet);
1.3       scw 	gesture_buttons = sc->gesture_buttons;
1.1  christos
1.3       scw 	if (fingers && sc->prev_fingers == 0) {
1.3       scw 		/*
1.3       scw 		 * Finger was just applied.
1.3       scw 		 * If the previous gesture was a single-click, set things
1.3       scw 		 * up to deal with a possible drag or double-click gesture.
1.3       scw 		 * Basically, if the finger is removed again within
1.3       scw 		 * 'synaptics_gesture_length' packets, this is treated
1.3       scw 		 * as a double-click. Otherwise we will emulate holding
1.3       scw 		 * the left button down whilst dragging the mouse.
1.3       scw 		 */
1.3       scw 		if (SYN_IS_SINGLE_TAP(sc->gesture_type))
1.3       scw 			sc->gesture_type |= SYN_GESTURE_DRAG;
1.3       scw
1.3       scw 		sc->gesture_start_x = sp->sp_x;
1.3       scw 		sc->gesture_start_y = sp->sp_y;
1.3       scw 		sc->gesture_start_packet = sc->total_packets;
1.3       scw 	} else
1.3       scw 	if (fingers == 0 && sc->prev_fingers != 0) {
1.3       scw 		/*
1.3       scw 		 * Finger was just removed.
1.3       scw 		 * Check if the contact time and finger movement were
1.3       scw 		 * small enough to qualify as a gesture.
1.3       scw 		 * Ignore finger movement if multiple fingers were
1.3       scw 		 * detected (the pad may report coordinates for any
1.3       scw 		 * of the fingers).
1.3       scw 		 */
1.3       scw 		gesture_move_x = abs(sc->gesture_start_x - sp->sp_x);
1.3       scw 		gesture_move_y = abs(sc->gesture_start_y - sp->sp_y);
1.3       scw
1.3       scw 		if (gesture_len < synaptics_gesture_length &&
1.3       scw 		    (sc->prev_fingers > 1 ||
1.3       scw 		    (gesture_move_x < synaptics_gesture_move &&
1.3       scw 		     gesture_move_y < synaptics_gesture_move))) {
1.3       scw 			/*
1.3       scw 			 * Looking good so far.
1.3       scw 			 */
1.3       scw 			if (SYN_IS_DRAG(sc->gesture_type)) {
1.3       scw 				/*
1.3       scw 				 * Promote this gesture to double-click.
1.3       scw 				 */
1.3       scw 				sc->gesture_type |= SYN_GESTURE_DOUBLE;
1.3       scw 				sc->gesture_type &= ~SYN_GESTURE_SINGLE;
1.3       scw 			} else {
1.3       scw 				/*
1.3       scw 				 * Single tap gesture. Set the tap length timer
1.3       scw 				 * and flag a single-click.
1.3       scw 				 */
1.3       scw 				sc->gesture_tap_packet = sc->total_packets;
1.3       scw 				sc->gesture_type |= SYN_GESTURE_SINGLE;
1.3       scw
1.3       scw 				/*
1.3       scw 				 * The gesture can be modified depending on
1.3       scw 				 * the number of fingers detected.
1.3       scw 				 *
1.3       scw 				 * 1: Normal left button emulation.
1.3       scw 				 * 2: Either middle button or right button
1.3       scw 				 *    depending on the value of the two_fingers
1.3       scw 				 *    sysctl variable.
1.3       scw 				 * 3: Right button.
1.3       scw 				 */
1.3       scw 				switch (sc->prev_fingers) {
1.3       scw 				case 2:
1.3       scw 					if (synaptics_two_fingers_emul == 1)
1.3       scw 						gesture_buttons |= PMS_RBUTMASK;
1.3       scw 					else
1.3       scw 					if (synaptics_two_fingers_emul == 2)
1.3       scw 						gesture_buttons |= PMS_MBUTMASK;
1.3       scw 					break;
1.3       scw 				case 3:
1.3       scw 					gesture_buttons |= PMS_RBUTMASK;
1.3       scw 					break;
1.3       scw 				default:
1.3       scw 					gesture_buttons |= PMS_LBUTMASK;
1.3       scw 					break;
1.3       scw 				}
1.1  christos 			}
1.1  christos 		}
1.1  christos
1.3       scw 		/*
1.3       scw 		 * Always clear drag state when the finger is removed.
1.3       scw 		 */
1.3       scw 		sc->gesture_type &= ~SYN_GESTURE_DRAG;
1.3       scw 	}
1.3       scw
1.3       scw 	if (sc->gesture_type == 0) {
1.3       scw 		/*
1.3       scw 		 * There is no gesture in progress.
1.3       scw 		 * Clear emulated button state.
1.3       scw 		 */
1.3       scw 		sc->gesture_buttons = 0;
1.3       scw 		return;
1.3       scw 	}
1.3       scw
1.3       scw 	/*
1.3       scw 	 * A gesture is in progress.
1.3       scw 	 */
1.3       scw 	set_buttons = 0;
1.3       scw
1.3       scw 	if (SYN_IS_SINGLE_TAP(sc->gesture_type)) {
1.3       scw 		/*
1.3       scw 		 * Single-click.
1.3       scw 		 * Activate the relevant button(s) until the
1.3       scw 		 * gesture tap timer has expired.
1.3       scw 		 */
1.3       scw 		if (SYN_TIME(sc, sc->gesture_tap_packet) <
1.3       scw 		    synaptics_gesture_length)
1.3       scw 			set_buttons = 1;
1.3       scw 		else
1.3       scw 			sc->gesture_type &= ~SYN_GESTURE_SINGLE;
1.3       scw 	} else
1.3       scw 	if (SYN_IS_DOUBLE_TAP(sc->gesture_type) && sc->prev_fingers == 0) {
1.3       scw 		/*
1.3       scw 		 * Double-click.
1.3       scw 		 * Activate the relevant button(s) once.
1.3       scw 		 */
1.3       scw 		set_buttons = 1;
1.3       scw 		sc->gesture_type &= ~SYN_GESTURE_DOUBLE;
1.3       scw 	}
1.3       scw
1.3       scw 	if (set_buttons || SYN_IS_DRAG(sc->gesture_type)) {
1.3       scw 		/*
1.3       scw 		 * Single-click and drag.
1.3       scw 		 * Maintain button state until the finger is removed.
1.3       scw 		 */
1.3       scw 		sp->sp_left |= gesture_buttons & PMS_LBUTMASK;
1.3       scw 		sp->sp_right |= gesture_buttons & PMS_RBUTMASK;
1.3       scw 		sp->sp_middle |= gesture_buttons & PMS_MBUTMASK;
1.3       scw 	}
1.3       scw
1.3       scw 	sc->gesture_buttons = gesture_buttons;
1.3       scw }
1.3       scw
1.3       scw static __inline int
1.3       scw synaptics_filter_policy(struct synaptics_softc *sc, int *history, int value)
1.3       scw {
1.3       scw 	int a, b, rv, count;
1.1  christos
1.3       scw 	count = sc->total_packets;
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Once we've accumulated at least SYN_HIST_SIZE values, combine
1.3       scw 	 * each new value with the previous two and return the average.
1.3       scw 	 *
1.3       scw 	 * This is necessary when the touchpad is operating in 80 packets
1.3       scw 	 * per second mode, as it performs little internal filtering on
1.3       scw 	 * reported values.
1.3       scw 	 *
1.3       scw 	 * Using a rolling average helps to filter out jitter caused by
1.3       scw 	 * tiny finger movements.
1.3       scw 	 */
1.3       scw 	if (sc->movement_history >= SYN_HIST_SIZE) {
1.3       scw 		a = (history[(count + 0) % SYN_HIST_SIZE] +
1.3       scw 		    history[(count + 1) % SYN_HIST_SIZE]) / 2;
1.3       scw
1.3       scw 		b = (value + history[(count + 0) % SYN_HIST_SIZE]) / 2;
1.3       scw
1.3       scw 		rv = b - a;
1.3       scw
1.3       scw 		/*
1.3       scw 		 * Don't report the movement if it's below a certain
1.3       scw 		 * threshold.
1.3       scw 		 */
1.3       scw 		if (abs(rv) < synaptics_movement_threshold)
1.3       scw 			rv = 0;
1.3       scw 	} else
1.3       scw 		rv = 0;
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Add the new value to the history buffer.
1.3       scw 	 */
1.3       scw 	history[(count + 1) % SYN_HIST_SIZE] = value;
1.3       scw
1.3       scw 	return (rv);
1.3       scw }
1.3       scw
1.3       scw /* Edge detection */
1.3       scw #define	SYN_EDGE_TOP		1
1.3       scw #define	SYN_EDGE_BOTTOM		2
1.3       scw #define	SYN_EDGE_LEFT		4
1.3       scw #define	SYN_EDGE_RIGHT		8
1.3       scw
1.3       scw static __inline int
1.3       scw synaptics_check_edge(int x, int y)
1.3       scw {
1.3       scw 	int rv = 0;
1.3       scw
1.3       scw 	if (x < synaptics_edge_left)
1.3       scw 		rv |= SYN_EDGE_LEFT;
1.3       scw 	else
1.3       scw 	if (x > synaptics_edge_right)
1.3       scw 		rv |= SYN_EDGE_RIGHT;
1.3       scw
1.3       scw 	if (y < synaptics_edge_bottom)
1.3       scw 		rv |= SYN_EDGE_BOTTOM;
1.3       scw 	else
1.3       scw 	if (y > synaptics_edge_top)
1.3       scw 		rv |= SYN_EDGE_TOP;
1.3       scw
1.3       scw 	return (rv);
1.3       scw }
1.3       scw
1.3       scw static __inline int
1.3       scw synaptics_edge_motion(struct synaptics_softc *sc, int delta, int dir)
1.3       scw {
1.3       scw
1.3       scw 	/*
1.3       scw 	 * When edge motion is enabled, synaptics_edge_motion_delta is
1.3       scw 	 * combined with the current delta, together with the direction
1.3       scw 	 * in which to simulate the motion. The result is added to
1.3       scw 	 * the delta derived from finger movement. This provides a smooth
1.3       scw 	 * transition from finger movement to edge motion.
1.3       scw 	 */
1.3       scw 	delta = synaptics_edge_motion_delta + (dir * delta);
1.3       scw 	if (delta < 0)
1.3       scw 		return (0);
1.3       scw 	if (delta > synaptics_edge_motion_delta)
1.3       scw 		return (synaptics_edge_motion_delta);
1.3       scw 	return (delta);
1.3       scw }
1.3       scw
1.3       scw static __inline int
1.3       scw synaptics_scale(int delta, int scale, int *remp)
1.3       scw {
1.3       scw 	int rv;
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Scale the raw delta in Synaptics coordinates (0-6143) into
1.3       scw 	 * something more reasonable by dividing the raw delta by a
1.3       scw 	 * scale factor. Any remainder from the previous scale result
1.3       scw 	 * is added to the current delta before scaling.
1.3       scw 	 * This prevents loss of resolution for very small/slow
1.3       scw 	 * movements of the finger.
1.3       scw 	 */
1.3       scw 	delta += *remp;
1.3       scw 	rv = delta / scale;
1.3       scw 	*remp = delta % scale;
1.3       scw
1.3       scw 	return (rv);
1.3       scw }
1.3       scw
1.3       scw static __inline void
1.3       scw synaptics_movement(struct synaptics_softc *sc, struct synaptics_packet *sp,
1.3       scw     int *dxp, int *dyp)
1.3       scw {
1.3       scw 	int dx, dy, edge;
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Compute the next values of dx and dy
1.3       scw 	 */
1.3       scw 	dx = synaptics_filter_policy(sc, sc->history_x, sp->sp_x);
1.3       scw 	dy = synaptics_filter_policy(sc, sc->history_y, sp->sp_y);
1.3       scw
1.3       scw 	/*
1.3       scw 	 * If we're dealing with a drag gesture, and the finger moves to
1.3       scw 	 * the edge of the touchpad, apply edge motion emulation if it
1.3       scw 	 * is enabled.
1.3       scw 	 */
1.3       scw 	if (synaptics_edge_motion_delta && SYN_IS_DRAG(sc->gesture_type)) {
1.3       scw 		edge = synaptics_check_edge(sp->sp_x, sp->sp_y);
1.3       scw
1.3       scw 		if (edge & SYN_EDGE_LEFT)
1.3       scw 			dx -= synaptics_edge_motion(sc, dx, 1);
1.3       scw 		if (edge & SYN_EDGE_RIGHT)
1.3       scw 			dx += synaptics_edge_motion(sc, dx, -1);
1.3       scw 		if (edge & SYN_EDGE_BOTTOM)
1.3       scw 			dy -= synaptics_edge_motion(sc, dy, 1);
1.3       scw 		if (edge & SYN_EDGE_TOP)
1.3       scw 			dy += synaptics_edge_motion(sc, dy, -1);
1.3       scw 	}
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Apply scaling to both deltas
1.3       scw 	 */
1.3       scw 	dx = synaptics_scale(dx, synaptics_scale_x, &sc->rem_x);
1.3       scw 	dy = synaptics_scale(dy, synaptics_scale_y, &sc->rem_y);
1.1  christos
1.3       scw 	/*
1.3       scw 	 * Clamp deltas to specified maximums.
1.3       scw 	 */
1.3       scw 	if (dx > synaptics_max_speed_x)
1.3       scw 		dx = synaptics_max_speed_x;
1.3       scw 	if (dy > synaptics_max_speed_y)
1.3       scw 		dy = synaptics_max_speed_y;
1.1  christos
1.3       scw 	*dxp = dx;
1.3       scw 	*dyp = dy;
1.1  christos
1.3       scw 	sc->movement_history++;
1.3       scw }
1.1  christos
1.3       scw static void
1.3       scw pms_synaptics_process_packet(struct pms_softc *psc, struct synaptics_packet *sp)
1.3       scw {
1.3       scw 	struct synaptics_softc *sc = &psc->u.synaptics;
1.3       scw 	int dx, dy, dz;
1.3       scw 	int fingers, palm, buttons, changed;
1.3       scw 	int s;
1.1  christos
1.3       scw 	/*
1.3       scw 	 * Do Z-axis emulation using up/down buttons if required.
1.3       scw 	 * Note that the pad will send a one second burst of packets
1.3       scw 	 * when an up/down button is pressed and held. At the moment
1.3       scw 	 * we don't deal with auto-repeat, so convert the burst into
1.3       scw 	 * a one-shot.
1.3       scw 	 */
1.3       scw 	dz = 0;
1.3       scw 	if (synaptics_up_down_emul == 2) {
1.3       scw 		if (sc->up_down == 0) {
1.3       scw 			if (sp->sp_up && sp->sp_down) {
1.3       scw 				/*
1.3       scw 				 * Most up/down buttons will be actuated using
1.3       scw 				 * a rocker switch, so we should never see
1.3       scw 				 * them both simultaneously. But just in case,
1.3       scw 				 * treat this situation as a middle button
1.3       scw 				 * event.
1.3       scw 				 */
1.3       scw 				sp->sp_middle = 1;
1.3       scw 			} else
1.3       scw 			if (sp->sp_up)
1.3       scw 				dz = -synaptics_up_down_motion_delta;
1.3       scw 			else
1.3       scw 			if (sp->sp_down)
1.3       scw 				dz = synaptics_up_down_motion_delta;
1.1  christos 		}
1.1  christos
1.3       scw 		sc->up_down = sp->sp_up | sp->sp_down;
1.3       scw 		sp->sp_up = sp->sp_down = 0;
1.3       scw 	}
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Determine whether or not a finger is on the pad.
1.3       scw 	 * On some pads, this will return the number of fingers
1.3       scw 	 * detected.
1.3       scw 	 */
1.3       scw 	fingers = synaptics_finger_detect(sc, sp, &palm);
1.3       scw
1.3       scw 	/*
1.3       scw 	 * Do gesture processing only if we didn't detect a palm.
1.3       scw 	 */
1.3       scw 	if (palm == 0)
1.3       scw 		synaptics_gesture_detect(sc, sp, fingers);
1.3       scw 	else
1.3       scw 		sc->gesture_type = sc->gesture_buttons = 0;
1.1  christos
1.3       scw 	/*
1.3       scw 	 * Determine what buttons to report
1.3       scw 	 */
1.3       scw 	buttons = (sp->sp_left ? 0x1 : 0) |
1.3       scw 	    (sp->sp_middle ? 0x2 : 0) |
1.3       scw 	    (sp->sp_right ? 0x4 : 0) |
1.3       scw 	    (sp->sp_up ? 0x8 : 0) |
1.3       scw 	    (sp->sp_down ? 0x10 : 0);
1.3       scw 	changed = buttons ^ psc->buttons;
1.3       scw 	psc->buttons = buttons;
1.1  christos
1.3       scw 	sc->prev_fingers = fingers;
1.3       scw 	sc->total_packets++;
1.1  christos
1.3       scw 	/*
1.3       scw 	 * Do movement processing IFF we have a single finger and no palm.
1.3       scw 	 */
1.3       scw 	if (fingers == 1 && palm == 0)
1.3       scw 		synaptics_movement(sc, sp, &dx, &dy);
1.3       scw 	else {
1.3       scw 		/*
1.3       scw 		 * No valid finger. Therefore no movement.
1.3       scw 		 */
1.3       scw 		sc->movement_history = 0;
1.3       scw 		sc->rem_x = sc->rem_y = 0;
1.3       scw 		dx = dy = 0;
1.3       scw 	}
1.1  christos
1.3       scw 	/*
1.3       scw 	 * Pass the final results up to wsmouse_input() if necessary.
1.3       scw 	 */
1.3       scw 	if (dx || dy || dz || changed) {
1.3       scw 		s = spltty();
1.3       scw 		wsmouse_input(psc->sc_wsmousedev, buttons, dx, dy, dz,
1.3       scw 		    WSMOUSE_INPUT_DELTA);
1.3       scw 		splx(s);
1.1  christos 	}
1.1  christos }