/* * Logitech Bus Mouse Driver for Linux * by James Banks * * Mods by Matthew Dillon * calls verify_area() * tracks better when X is busy or paging * * Heavily modified by David Giller * changed from queue- to counter- driven * hacked out a (probably incorrect) mouse_select * * Modified again by Nathan Laredo to interface with * 0.96c-pl1 IRQ handling changes (13JUL92) * didn't bother touching select code. * * Modified the select() code blindly to conform to the VFS * requirements. 92.07.14 - Linus. Somebody should test it out. * * Modified by Johan Myreen to make room for other mice (9AUG92) * removed assignment chr_fops[10] = &mouse_fops; see mouse.c * renamed mouse_fops => bus_mouse_fops, made bus_mouse_fops public. * renamed this file mouse.c => busmouse.c */ #include #include #include #include #include #include #include #include #include static struct mouse_status mouse; static int mouse_irq = MOUSE_IRQ; void bmouse_setup(char *str, int *ints) { if (ints[0] > 0) mouse_irq=ints[1]; } static void mouse_interrupt(int unused) { char dx, dy; unsigned char buttons; MSE_INT_OFF(); outb(MSE_READ_X_LOW, MSE_CONTROL_PORT); dx = (inb(MSE_DATA_PORT) & 0xf); outb(MSE_READ_X_HIGH, MSE_CONTROL_PORT); dx |= (inb(MSE_DATA_PORT) & 0xf) << 4; outb(MSE_READ_Y_LOW, MSE_CONTROL_PORT ); dy = (inb(MSE_DATA_PORT) & 0xf); outb(MSE_READ_Y_HIGH, MSE_CONTROL_PORT); buttons = inb(MSE_DATA_PORT); dy |= (buttons & 0xf) << 4; buttons = ((buttons >> 5) & 0x07); if (dx != 0 || dy != 0 || buttons != mouse.buttons) { mouse.buttons = buttons; mouse.dx += dx; mouse.dy -= dy; mouse.ready = 1; wake_up_interruptible(&mouse.wait); /* * keep dx/dy reasonable, but still able to track when X (or * whatever) must page or is busy (i.e. long waits between * reads) */ if (mouse.dx < -2048) mouse.dx = -2048; if (mouse.dx > 2048) mouse.dx = 2048; if (mouse.dy < -2048) mouse.dy = -2048; if (mouse.dy > 2048) mouse.dy = 2048; } MSE_INT_ON(); } /* * close access to the mouse (can deal with multiple * opens if allowed in the future) */ static void close_mouse(struct inode * inode, struct file * file) { if (--mouse.active == 0) { MSE_INT_OFF(); free_irq(mouse_irq); } } /* * open access to the mouse, currently only one open is * allowed. */ static int open_mouse(struct inode * inode, struct file * file) { if (!mouse.present) return -EINVAL; if (mouse.active) return -EBUSY; mouse.ready = 0; mouse.dx = 0; mouse.dy = 0; mouse.buttons = 0x87; if (request_irq(mouse_irq, mouse_interrupt)) return -EBUSY; mouse.active = 1; MSE_INT_ON(); return 0; } /* * writes are disallowed */ static int write_mouse(struct inode * inode, struct file * file, char * buffer, int count) { return -EINVAL; } /* * read mouse data. Currently never blocks. */ static int read_mouse(struct inode * inode, struct file * file, char * buffer, int count) { int r; int dx; int dy; unsigned char buttons; if (count < 3) return -EINVAL; if ((r = verify_area(VERIFY_WRITE, buffer, count))) return r; if (!mouse.ready) return -EAGAIN; /* * Obtain the current mouse parameters and limit as appropriate for * the return data format. Interrupts are only disabled while * obtaining the parameters, NOT during the puts_fs_byte() calls, * so paging in put_fs_byte() does not effect mouse tracking. */ MSE_INT_OFF(); dx = mouse.dx; dy = mouse.dy; if (dx < -127) dx = -127; if (dx > 127) dx = 127; if (dy < -127) dy = -127; if (dy > 127) dy = 127; buttons = mouse.buttons; mouse.dx -= dx; mouse.dy -= dy; mouse.ready = 0; MSE_INT_ON(); put_fs_byte(buttons | 0x80, buffer); put_fs_byte((char)dx, buffer + 1); put_fs_byte((char)dy, buffer + 2); for (r = 3; r < count; r++) put_fs_byte(0x00, buffer + r); return r; } /* * select for mouse input, must disable the mouse interrupt while checking * mouse.ready/select_wait() to avoid race condition (though in reality * such a condition is not fatal to the proper operation of the mouse since * multiple interrupts generally occur). */ static int mouse_select(struct inode *inode, struct file *file, int sel_type, select_table * wait) { int r = 0; if (sel_type == SEL_IN) { MSE_INT_OFF(); if (mouse.ready) { r = 1; } else { select_wait(&mouse.wait, wait); } MSE_INT_ON(); } return(r); } struct file_operations bus_mouse_fops = { NULL, /* mouse_seek */ read_mouse, write_mouse, NULL, /* mouse_readdir */ mouse_select, /* mouse_select */ NULL, /* mouse_ioctl */ NULL, /* mouse_mmap */ open_mouse, close_mouse, }; unsigned long bus_mouse_init(unsigned long kmem_start) { int i; outb(MSE_CONFIG_BYTE, MSE_CONFIG_PORT); outb(MSE_SIGNATURE_BYTE, MSE_SIGNATURE_PORT); for (i = 0; i < 100000; i++) /* busy loop */; if (inb(MSE_SIGNATURE_PORT) != MSE_SIGNATURE_BYTE) { mouse.present = 0; return kmem_start; } outb(MSE_DEFAULT_MODE, MSE_CONFIG_PORT); MSE_INT_OFF(); mouse.present = 1; mouse.active = 0; mouse.ready = 0; mouse.buttons = 0x87; mouse.dx = 0; mouse.dy = 0; mouse.wait = NULL; printk("Logitech Bus mouse detected and installed.\n"); return kmem_start; }