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/*
 * Project: S.Ha.R.K.
 *
 * Coordinators:
 *   Giorgio Buttazzo    <giorgio@sssup.it>
 *   Paolo Gai           <pj@gandalf.sssup.it>
 *
 * Authors     :
 *   Mauro Marinoni      <mauro.marinoni@unipv.it>
 *   (see the web pages for full authors list)
 *
 * ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy)
 *
 * http://www.sssup.it
 * http://retis.sssup.it
 * http://shark.sssup.it
 */


//#define __MOUSE_DEBUG__
//#define MOUSE_TASK

#include <kernel/kern.h>

#include "../include/drivers/shark_input26.h"
#include "../include/drivers/shark_mouse26.h"

/* Devices */
extern int psmouse_init(void);
extern int psmouse_exit(void);

/* Handlers */
extern int  mouse_init(void);
extern void mouse_exit(void);

/* Functions */
extern int mouse_get(int *dx, int *dy, int *dz, unsigned long *buttons);

extern int input_installed;

/* Mouse driver currently installed/actived */
static int mouse_installed = FALSE;
static int mouse_enabled = FALSE;

static int mouse_xmin_tick;
static int mouse_ymin_tick;
static int mouse_xmax_tick;
static int mouse_ymax_tick;

#define MOUSE_DEF_THRESHOLD 10
static int mouse_threshold;

static int           mouse_x = 0;
static int           mouse_y = 0;
static int           mouse_x_tick = 0;
static int           mouse_y_tick = 0;
static int           mouse_z =  0;
static unsigned long mouse_buttons = 0;

MOUSE_HANDLER user_mouse_handler = NULL;
MOUSE_HANDLER show_mouse_handler = NULL;

#ifdef MOUSE_TASK
/* mouse task PID */
static PID mousepid = NIL;
#else
void mouseProc(void);
#endif


/*
 * Start mouseProc Task
 */

void shark_mouse_exec(void)
{
#ifdef MOUSE_TASK
        task_activate(mousepid);
#else
        mouseProc();
#endif
}

#ifdef MOUSE_TASK
TASK mouseProc(void)
#else
void mouseProc(void)
#endif
{
        static MOUSE_EVT ev;
        unsigned long dbuttons;
        int dx, dy, dz;
        int res;
       
#ifdef MOUSE_TASK
        while (1) {
#endif
                if (mouse_enabled) {
                        res = mouse_get(&dx, &dy, &dz, &dbuttons);
                        if (res >= 0) {
                                mouse_x_tick += dx;
                                if (mouse_x_tick < mouse_xmin_tick)
                                        mouse_x_tick = mouse_xmin_tick;
                                if (mouse_x_tick > mouse_xmax_tick)
                                        mouse_x_tick = mouse_xmax_tick;
                                mouse_x = (mouse_x_tick + (mouse_threshold/2)) / mouse_threshold;
                                ev.x  = mouse_x;
                                ev.dx = dx;

                                mouse_y_tick -= dy;
                                if (mouse_y_tick < mouse_ymin_tick)
                                        mouse_y_tick = mouse_ymin_tick;
                                if (mouse_y_tick > mouse_ymax_tick)
                                        mouse_y_tick = mouse_ymax_tick;
                                mouse_y = (mouse_y_tick + (mouse_threshold/2)) / mouse_threshold;
                                ev.y  = mouse_y;
                                ev.dy = dy;

                                mouse_z += dz;
                                ev.z  = mouse_z;
                                ev.dz = dz;

                                mouse_buttons = dbuttons;
                                ev.buttons  = mouse_buttons;
#ifdef __MOUSE_DEBUG__
                                printk(KERN_DEBUG "shark_mouse.c: delta ( %3d %3d %3d - %6x) -> ( %3d %3d %3d - %6x)\n",
                                       dx, dy, dz, (int)dbuttons, mouse_x, mouse_y, mouse_z, (int)mouse_buttons);
#endif
                                /* mouse handler */
                                if (show_mouse_handler != NULL)
                                        show_mouse_handler(&ev);
                                else if (user_mouse_handler != NULL)
                                        user_mouse_handler(&ev);
                        }
                }
#ifdef MOUSE_TASK
                task_endcycle();
        }
#endif
}

/**** Start User Functions ****/

void mouse_enable(void)
{
        mouse_enabled = TRUE;   /* TODO */
}

void mouse_disable(void)
{
        mouse_enabled = FALSE;  /* TODO */
}

void mouse_getpos(int *x,int *y,int *z, unsigned long *buttons)
{
        *x = mouse_x;
        *y = mouse_y;
        *z = mouse_z;
        *buttons = mouse_buttons;
}

void mouse_setpos(int x,int y, int z)
{
        mouse_enabled = FALSE;
       
        mouse_x = x;
        if (x < (mouse_xmin_tick / mouse_threshold))
                mouse_x = mouse_xmin_tick / mouse_threshold;
        if (x > (mouse_xmax_tick / mouse_threshold))
                mouse_x = mouse_xmax_tick / mouse_threshold;
       
        mouse_y = y;
        if (y < (mouse_ymin_tick / mouse_threshold))
                mouse_y = mouse_ymin_tick / mouse_threshold;
        if (y > (mouse_ymax_tick / mouse_threshold))
                mouse_y = mouse_ymax_tick / mouse_threshold;

        mouse_z = z;

        mouse_enabled = TRUE;
}

void mouse_getlimit(int *xmin, int *ymin, int *xmax, int *ymax)
{
        *xmin = mouse_xmin_tick / mouse_threshold;
        *ymin = mouse_ymin_tick / mouse_threshold;
        *xmax = mouse_xmax_tick / mouse_threshold;
        *ymax = mouse_ymax_tick / mouse_threshold;
}

int mouse_setlimit(int xmin, int ymin, int xmax, int ymax)
{
        if ((xmin < 0) && (ymin < 0) && (xmax < xmin) && (ymax < ymin))
                return -1;

        mouse_xmin_tick = xmin * mouse_threshold;
        mouse_ymin_tick = ymin * mouse_threshold;
        mouse_xmax_tick = xmax * mouse_threshold;
        mouse_ymax_tick = ymax * mouse_threshold;
       
        return 0;
}

void mouse_hook(MOUSE_HANDLER h)
{
        user_mouse_handler = h;
}

int mouse_getthreshold(void)
{
        return mouse_threshold;
}

int mouse_setthreshold(int t)
{
        mouse_enabled = FALSE;

        if ((t>0) && (t<=200)) {
                mouse_xmin_tick = (mouse_xmin_tick * t) / mouse_threshold;
                mouse_ymin_tick = (mouse_ymin_tick * t) / mouse_threshold;
                mouse_xmax_tick = (mouse_xmax_tick * t) / mouse_threshold;
                mouse_ymax_tick = (mouse_ymax_tick * t) / mouse_threshold;
                mouse_threshold = t;
                return 0;
        } else {
                return -1;
        }

        mouse_enabled = TRUE;
}

/**** End User Functions ****/

/* Init the Linux Speaker Driver */
int MOUSE26_init(MOUSE_PARMS *s)
{
        MOUSE_PARMS mparms = BASE_MOUSE;
        int status = 0;

#ifdef MOUSE_TASK
        TASK_MODEL *m;
        SOFT_TASK_MODEL base_m;
#endif

        if (mouse_installed == TRUE) return 0;

        /* if a NULL is passed */
        if (s == NULL)
                s = &mparms;

        /* set mouse threshold */
        if (s->threshold == (int) MOUSE_DEFAULT)
                mouse_threshold = MOUSE_DEF_THRESHOLD;
        else
                mouse_threshold = s->threshold;

        /* set mouse limits */
        if ((s->xmin == (int) MOUSE_DEFAULT) || (s->xmin < 0))
                mouse_xmin_tick = 0;
        else
                mouse_xmin_tick = s->xmin * mouse_threshold;
               
        if ((s->ymin == (int) MOUSE_DEFAULT) || (s->ymin < 0))
                mouse_ymin_tick = 0;
        else
                mouse_ymin_tick = s->ymin * mouse_threshold;
               
        if ((s->xmax == (int) MOUSE_DEFAULT) || ((s->xmax * mouse_threshold) < mouse_xmin_tick))
                mouse_xmax_tick = 79 * mouse_threshold;
        else
                mouse_xmax_tick = s->xmax * mouse_threshold;
               
        if ((s->ymax == (int) MOUSE_DEFAULT) || ((s->ymax * mouse_threshold) < mouse_ymin_tick))
                mouse_ymax_tick = 24 * mouse_threshold;
        else
                mouse_ymax_tick = s->ymax * mouse_threshold;

#ifdef MOUSE_TASK
        if (s->tm == (TASK_MODEL *)MOUSE_DEFAULT) {
                soft_task_default_model(base_m);
                soft_task_def_wcet(base_m,2000);
                soft_task_def_met(base_m,500);
                soft_task_def_period(base_m,8000);
                soft_task_def_system(base_m);
                soft_task_def_nokill(base_m);
                soft_task_def_aperiodic(base_m);
                m = (TASK_MODEL *)&base_m;
        } else
                m = s->tm;

        mousepid = task_create ("MouseTask", mouseProc, m, NULL);
        if (mousepid == -1) {
                return -1;
        }
#endif

        if (input_installed == FALSE) {
                status = INPUT26_init();
                if (status) {
               
                        printk(KERN_ERR "shark_mouse.c: Unable to open Input SubSystem.\n");
                        return -1;
                }
        }

        status = psmouse_init();
        if (status) {
                printk(KERN_ERR "shark_mouse.c: PsMouse_Init return: %d\n", status);
                return -1;
        }

        status = mouse_init();
        if (status) {
                printk(KERN_ERR "shark_mouse.c: Mouse_Init return: %d\n", status);
                return -1;
        }
       
        mouse_installed = TRUE;
        mouse_enabled = TRUE;
       
        return status;
}

int MOUSE26_close()
{
#ifdef MOUSE_TASK
        int free;
        SYS_FLAGS f;
#endif

        if (!mouse_installed)
                return -1;

        mouse_enabled = FALSE;
        mouse_exit();
        psmouse_exit();

#ifdef MOUSE_TASK
        f = kern_fsave();
        free = (proc_table[mousepid].status == FREE);
        kern_frestore(f);
#ifdef __MOUSE_DEBUG__
        printk(KERN_DEBUG "shark_mouse.c: MouseTask is %s.\n", free ? "killed" : "alive");
#endif
        if (free)
                task_kill (mousepid);
#endif

        mouse_installed = FALSE;
       
        return 0;
}