/** * udc_cable_event - called from cradle interrupt handler */ void udc_cable_event(void) { struct usb_bus_instance *bus; struct usb_device_instance *device; struct bi_data *data; dbgENTER(dbgflg_usbdbi_init,1); // sanity check if (!(device = device_array[0]) || !(bus = device->bus) || !(data = bus->privdata)) { return; } { unsigned long flags; local_irq_save(flags); if (udc_connected()) { dbg_init(1, "state: %d connected: %d", device->device_state, 1);; if (device->device_state == STATE_ATTACHED) { dbg_init(1, "LOADING"); usbd_device_event_irq(device, DEVICE_HUB_CONFIGURED, 0); usbd_device_event_irq(device, DEVICE_RESET, 0); } } else { dbg_init(1, "state: %d connected: %d", device->device_state, 0);; if (device->device_state != STATE_ATTACHED) { dbg_init(1, "UNLOADING"); usbd_device_event_irq(device, DEVICE_RESET, 0); usbd_device_event_irq(device, DEVICE_POWER_INTERRUPTION, 0); usbd_device_event_irq(device, DEVICE_HUB_RESET, 0); } } local_irq_restore(flags); } dbgLEAVE(dbgflg_usbdbi_init,1); }
/* bi_modexit - decommission bus interface driver */ void __exit bi_modexit(void) { struct usb_bus_instance *bus; struct usb_device_instance *device; struct bi_data *data; dbgENTER(dbgflg_usbdbi_init,1); if ((device = device_array[0])) { // XXX moved to usbd_deregister_device() //device->status = USBD_CLOSING; udc_disconnect(); udc_disable(); // XXX XXX if (dbgflg_usbdbi_tick > 0) { ticker_killoff(); } bus = device->bus; data = bus->privdata; // XXX usbd_device_event(device, DEVICE_RESET, 0); usbd_device_event(device, DEVICE_POWER_INTERRUPTION, 0); usbd_device_event(device, DEVICE_HUB_RESET, 0); dbg_init(1,"DEVICE_DESTROY"); usbd_device_event(device, DEVICE_DESTROY, 0); dbg_init(1,"DISABLE ENDPOINTS"); bi_disable_endpoints(device); dbg_init(1,"UDC_DISABLE"); //udc_disable(); dbg_init(1,"BI_UDC_EXIT"); bi_udc_exit(); device_array[0] = NULL; bus->privdata = NULL; #ifdef CONFIG_PM dbg_init(1,"PM_UNREGISTER(pm_dev#%p)",pm_dev); if (pm_dev) { pm_unregister(pm_dev); } #endif dbg_init(1,"DEREGISTER DEVICE"); usbd_deregister_device(device); bus->device = NULL; dbg_init(1,"kfree(data#%p)",data); if (data) { kfree(data); } if (bus->serial_number_str) { kfree(bus->serial_number_str); } dbg_init(1,"DEREGISTER BUS"); usbd_deregister_bus(bus); } else { dbg_init(0,"device is NULL"); } dbg_init(1,"BI_EXIT"); bi_exit(); dbgLEAVE(dbgflg_usbdbi_init,1); }
/* bi_modinit - commission bus interface driver */ int __init bi_modinit(void) { struct usb_bus_instance * bus; struct usb_device_instance * device; //extern const char __usbd_module_info[]; //printk(KERN_INFO "%s (dbg=\"%s\")\n", __usbd_module_info, dbg?dbg:""); if (0 != scan_debug_options("usb-bus",dbg_table,dbg)) { printk("Failed to scan dbg in bi_modinit\n"); } if (bi_udc_init()) { return(-EINVAL); } // register this bus interface driver and create the device driver instance if ((bus = usbd_register_bus(&bi_driver))==NULL) { bi_udc_exit(); return -EINVAL; } // see if we can scrounge up something to set a sort of unique device // address if (!udc_serial_init(bus)) { dbg_init(1,"serial: %s %04x", bus->serial_number_str, bus->serial_number); } if ((device = usbd_register_device(NULL, bus, 8))==NULL) { usbd_deregister_bus(bus); bi_udc_exit(); return -EINVAL; } #ifdef CONFIG_PM // register with power management pm_dev = pm_register(PM_USB_DEV, PM_SYS_UNKNOWN, bi_pm_event); pm_dev->data = device; #endif bus->device = device; device_array[0] = device; // initialize the device { struct usb_endpoint_instance *endpoint = device->bus->endpoint_array + 0; // setup endpoint zero endpoint->endpoint_address = 0; endpoint->tx_attributes = 0; endpoint->tx_transferSize = 255; endpoint->tx_packetSize = udc_ep0_packetsize(); endpoint->rcv_attributes = 0; endpoint->rcv_transferSize = 0x8; endpoint->rcv_packetSize = udc_ep0_packetsize(); udc_setup_ep(device, 0, endpoint); } // hopefully device enumeration will finish this process udc_startup_events(device); #ifdef CONFIG_PM dbg_pm(0,"pm_dev->callback#%p",pm_dev->callback); if (!udc_connected()) { /* Fake a call from the PM system to suspend the UDC until it is needed (cable connect, etc) */ (void) bi_pm_event(pm_dev,PM_SUSPEND,NULL); /* There appears to be no constant for this, but inspection of arch/arm/mach-l7200/apm.c:send_event() shows that the suspended state is 3 (i.e. pm_send_all(PM_SUSPEND, (void *)3)) corresponding to ACPI_D3. */ pm_dev->state = 3; } #endif if (dbgflg_usbdbi_tick > 0) { // start ticker ticker_kickoff(); } dbgLEAVE(dbgflg_usbdbi_init,1); return 0; }
/* bi_modinit - commission bus interface driver */ static int __init bi_modinit (void) { extern const char __usbd_module_info[]; struct usb_bus_instance *bus; struct usb_device_instance *device; struct bi_data *data; printk (KERN_INFO "%s (dbg=\"%s\")\n", __usbd_module_info, dbg ? dbg : ""); // process debug options if (0 != scan_debug_options ("usbd-bi", dbg_table, dbg)) { return -EINVAL; } // check if we can see the UDC if (bi_udc_init ()) { return -EINVAL; } // allocate a bi private data structure if ((data = kmalloc (sizeof (struct bi_data), GFP_KERNEL)) == NULL) { bi_udc_exit (); return -EINVAL; } memset (data, 0, sizeof (struct bi_data)); // register this bus interface driver and create the device driver instance if ((bus = usbd_register_bus (&bi_driver)) == NULL) { kfree (data); bi_udc_exit (); return -EINVAL; } bus->privdata = data; // see if we can scrounge up something to set a sort of unique device address if (!udc_serial_init (bus)) { dbg_init (1, "serial: %s %04x\n", bus->serial_number_str, bus->serial_number); } if ((device = usbd_register_device (NULL, bus, 8)) == NULL) { usbd_deregister_bus (bus); kfree (data); bi_udc_exit (); return -EINVAL; } #if defined(CONFIG_PM) && !defined(CONFIG_USBD_MONITOR) && !defined(CONFIG_USBD_MONITOR_MODULE) // register with power management pm_dev = pm_register (PM_USB_DEV, PM_SYS_UNKNOWN, bi_pm_event); pm_dev->data = device; #endif #ifdef CONFIG_DPM /* MVL-CEE */ bi_udc_ldm_driver_register(); bi_udc_ldm_device_register(); #endif bus->device = device; device_array[0] = device; // initialize the device { struct usb_endpoint_instance *endpoint = device->bus->endpoint_array + 0; // setup endpoint zero endpoint->endpoint_address = 0; endpoint->tx_attributes = 0; endpoint->tx_transferSize = 255; endpoint->tx_packetSize = udc_ep0_packetsize (); endpoint->rcv_attributes = 0; endpoint->rcv_transferSize = 0x8; endpoint->rcv_packetSize = udc_ep0_packetsize (); udc_setup_ep (device, 0, endpoint); } // hopefully device enumeration will finish this process printk(KERN_INFO"bi_modinit: call udc_startup_events\n"); udc_startup_events (device); #if defined(CONFIG_PM) && !defined(CONFIG_USBD_MONITOR) && !defined(CONFIG_USBD_MONITOR_MODULE) dbg_pm (0, "pm_dev->callback#%p", pm_dev->callback); if (!udc_connected ()) { /* Fake a call from the PM system to suspend the UDC until it is needed (cable connect, etc) */ (void) bi_pm_event (pm_dev, PM_SUSPEND, NULL); /* There appears to be no constant for this, but inspection of arch/arm/mach-l7200/apm.c:send_event() shows that the suspended state is 3 (i.e. pm_send_all(PM_SUSPEND, (void *)3)) corresponding to ACPI_D3. */ pm_dev->state = 3; } #endif if (dbgflg_usbdbi_tick > 0) { // start ticker ticker_kickoff (); } #ifdef CONFIG_USBD_PROCFS { struct proc_dir_entry *p; // create proc filesystem entries if ((p = create_proc_entry ("usbd", 0, 0)) == NULL) { return -ENOMEM; } p->proc_fops = &usbd_proc_operations_functions; } #endif dbgLEAVE (dbgflg_usbdbi_init, 1); return 0; }