/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2002 by Linus Nielsen Feltzing * * iPod driver based on code from the ipodlinux project - http://ipodlinux.org * Adapted for Rockbox in January 2006 * Original file: podzilla/usb.c * Copyright (C) 2005 Adam Johnston * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "config.h" #include "cpu.h" #include "kernel.h" #include "thread.h" #include "system.h" #include "debug.h" #include "ata.h" #include "fat.h" #include "disk.h" #include "panic.h" #include "lcd.h" #include "usb.h" #include "button.h" #include "sprintf.h" #include "string.h" #include "usb-target.h" #ifdef HAVE_USBSTACK #include "usb_core.h" #endif #ifdef IRIVER_H300_SERIES #include "pcf50606.h" /* for pcf50606_usb_charging_... */ #endif #include "logf.h" /* Conditions under which we want the entire driver */ #if !defined(BOOTLOADER) || \ (defined(TOSHIBA_GIGABEAT_S) && defined(USE_ROCKBOX_USB) && defined(USB_STORAGE)) || \ (defined(CREATIVE_ZVM) && defined(HAVE_USBSTACK)) #define USB_FULL_INIT #endif extern void dbg_ports(void); /* NASTY! defined in apps/ */ #ifdef HAVE_LCD_BITMAP bool do_screendump_instead_of_usb = false; #if defined(USB_FULL_INIT) && defined(BOOTLOADER) static void screen_dump(void) {} #else void screen_dump(void); /* Nasty again. Defined in apps/ too */ #endif #endif #if !defined(SIMULATOR) && !defined(USB_NONE) #define NUM_POLL_READINGS (HZ/5) static int countdown; static int usb_state; #if defined(HAVE_MMC) && defined(USB_FULL_INIT) static int usb_mmc_countdown = 0; #endif /* FIXME: The extra 0x800 is consumed by fat_mount() when the fsinfo needs updating */ #ifdef USB_FULL_INIT static long usb_stack[(DEFAULT_STACK_SIZE + 0x800)/sizeof(long)]; static const char usb_thread_name[] = "usb"; static struct thread_entry *usb_thread_entry; #endif static struct event_queue usb_queue; static int last_usb_status; static bool usb_monitor_enabled; #ifdef HAVE_USBSTACK static bool exclusive_ata_access; #endif #if defined(IPOD_COLOR) || defined(IPOD_4G) \ || defined(IPOD_MINI) || defined(IPOD_MINI2G) static int firewire_countdown; static bool last_firewire_status; #endif #ifdef USB_FULL_INIT #ifndef HAVE_USBSTACK static void usb_slave_mode(bool on) { int rc; if(on) { DEBUGF("Entering USB slave mode\n"); ata_soft_reset(); ata_init(); ata_enable(false); usb_enable(true); } else { DEBUGF("Leaving USB slave mode\n"); /* Let the ISDx00 settle */ sleep(HZ*1); usb_enable(false); rc = ata_init(); if(rc) { /* fixme: can we remove this? (already such in main.c) */ char str[32]; lcd_clear_display(); snprintf(str, 31, "ATA error: %d", rc); lcd_puts(0, 0, str); lcd_puts(0, 1, "Press ON to debug"); lcd_update(); while(!(button_get(true) & BUTTON_REL)) {}; dbg_ports(); panicf("ata: %d",rc); } rc = disk_mount_all(); if (rc <= 0) /* no partition */ panicf("mount: %d",rc); } } #endif static void try_reboot(void) { #ifndef HAVE_FLASH_STORAGE ata_sleepnow(); /* Immediately spindown the disk. */ sleep(HZ*2); #endif #ifdef IPOD_ARCH /* The following code is based on ipodlinux */ #if CONFIG_CPU == PP5020 memcpy((void *)0x40017f00, "diskmode\0\0hotstuff\0\0\1", 21); #elif CONFIG_CPU == PP5022 memcpy((void *)0x4001ff00, "diskmode\0\0hotstuff\0\0\1", 21); #endif /* CONFIG_CPU */ #endif /* IPOD_ARCH */ system_reboot(); /* Reboot */ } static void usb_thread(void) { int num_acks_to_expect = -1; bool waiting_for_ack; struct queue_event ev; waiting_for_ack = false; while(1) { queue_wait(&usb_queue, &ev); switch(ev.id) { #ifdef USB_DRIVER_CLOSE case USB_QUIT: return; #endif #ifdef HAVE_USBSTACK case USB_TRANSFER_COMPLETION: usb_core_handle_transfer_completion((struct usb_transfer_completion_event_data*)ev.data); break; #endif #ifdef HAVE_USB_POWER case USB_POWERED: usb_state = USB_POWERED; break; #endif case USB_INSERTED: #ifdef HAVE_LCD_BITMAP if(do_screendump_instead_of_usb) { screen_dump(); } else #endif #ifdef HAVE_USB_POWER #if defined(IRIVER_H10) || defined (IRIVER_H10_5GB) if((button_status() & ~USBPOWER_BTN_IGNORE) != USBPOWER_BUTTON) #else if((button_status() & ~USBPOWER_BTN_IGNORE) == USBPOWER_BUTTON) #endif { usb_state = USB_POWERED; #ifdef HAVE_USBSTACK usb_core_enable_driver(USB_DRIVER_MASS_STORAGE,false); usb_core_enable_driver(USB_DRIVER_CHARGING_ONLY,true); usb_enable(true); #endif } else #endif { #ifdef HAVE_USBSTACK /* Set the state to USB_POWERED for now. if a real connection is detected it will switch to USB_INSERTED */ usb_state = USB_POWERED; usb_core_enable_driver(USB_DRIVER_MASS_STORAGE,true); usb_core_enable_driver(USB_DRIVER_CHARGING_ONLY,false); usb_enable(true); #else /* Tell all threads that they have to back off the ATA. We subtract one for our own thread. */ num_acks_to_expect = queue_broadcast(SYS_USB_CONNECTED, 0) - 1; waiting_for_ack = true; DEBUGF("USB inserted. Waiting for ack from %d threads...\n", num_acks_to_expect); #endif } break; #ifdef HAVE_USBSTACK case USB_REQUEST_DISK: if(!waiting_for_ack) { /* Tell all threads that they have to back off the ATA. We subtract one for our own thread. */ num_acks_to_expect = queue_broadcast(SYS_USB_CONNECTED, 0) - 1; waiting_for_ack = true; DEBUGF("USB inserted. Waiting for ack from %d threads...\n", num_acks_to_expect); } break; case USB_RELEASE_DISK: if(!waiting_for_ack) { /* Tell all threads that they have to back off the ATA. We subtract one for our own thread. */ num_acks_to_expect = queue_broadcast(SYS_USB_DISCONNECTED, 0) - 1; waiting_for_ack = true; DEBUGF("USB inserted. Waiting for ack from %d threads...\n", num_acks_to_expect); } break; #endif case SYS_USB_CONNECTED_ACK: if(waiting_for_ack) { num_acks_to_expect--; if(num_acks_to_expect == 0) { DEBUGF("All threads have acknowledged the connect.\n"); #ifdef HAVE_USBSTACK #ifndef USE_ROCKBOX_USB /* until we have native mass-storage mode, we want to reboot on usb host connect */ usb_enable(true); try_reboot(); #endif /* USE_ROCKBOX_USB */ #ifdef HAVE_PRIORITY_SCHEDULING thread_set_priority(usb_thread_entry,PRIORITY_REALTIME); #endif exclusive_ata_access = true; #else usb_slave_mode(true); cpu_idle_mode(true); #endif usb_state = USB_INSERTED; waiting_for_ack = false; } else { DEBUGF("usb: got ack, %d to go...\n", num_acks_to_expect); } } break; case USB_EXTRACTED: #ifdef HAVE_USBSTACK usb_enable(false); #ifdef HAVE_PRIORITY_SCHEDULING thread_set_priority(usb_thread_entry,PRIORITY_SYSTEM); #endif #endif #ifdef HAVE_LCD_BITMAP if(do_screendump_instead_of_usb) break; #endif #ifdef HAVE_USB_POWER if(usb_state == USB_POWERED) { usb_state = USB_EXTRACTED; break; } #endif #ifndef HAVE_USBSTACK if(usb_state == USB_INSERTED) { /* Only disable the USB mode if we really have enabled it some threads might not have acknowledged the insertion */ usb_slave_mode(false); cpu_idle_mode(false); } #endif usb_state = USB_EXTRACTED; #ifdef HAVE_USBSTACK if(exclusive_ata_access) { exclusive_ata_access = false; #endif /* Tell all threads that we are back in business */ num_acks_to_expect = queue_broadcast(SYS_USB_DISCONNECTED, 0) - 1; waiting_for_ack = true; DEBUGF("USB extracted. Waiting for ack from %d threads...\n", num_acks_to_expect); #ifdef HAVE_USBSTACK } #endif break; case SYS_USB_DISCONNECTED_ACK: if(waiting_for_ack) { num_acks_to_expect--; if(num_acks_to_expect == 0) { DEBUGF("All threads have acknowledged. " "We're in business.\n"); waiting_for_ack = false; } else { DEBUGF("usb: got ack, %d to go...\n", num_acks_to_expect); } } break; #ifdef HAVE_HOTSWAP case SYS_HOTSWAP_INSERTED: case SYS_HOTSWAP_EXTRACTED: #ifdef HAVE_USBSTACK usb_core_hotswap_event(1,ev.id == SYS_HOTSWAP_INSERTED); #else if(usb_state == USB_INSERTED) { usb_enable(false); usb_mmc_countdown = HZ/2; /* re-enable after 0.5 sec */ } break; #endif case USB_REENABLE: if(usb_state == USB_INSERTED) usb_enable(true); /* reenable only if still inserted */ break; #endif case USB_REQUEST_REBOOT: #ifdef HAVE_USB_POWER if((button_status() & ~USBPOWER_BTN_IGNORE) != USBPOWER_BUTTON) #endif try_reboot(); break; } } } #endif #ifdef HAVE_USBSTACK void usb_signal_transfer_completion(struct usb_transfer_completion_event_data* event_data) { queue_post(&usb_queue, USB_TRANSFER_COMPLETION, (intptr_t)event_data); } #endif #ifdef USB_FULL_INIT static void usb_tick(void) { int current_status; if(usb_monitor_enabled) { #if defined(IPOD_COLOR) || defined(IPOD_4G) \ || defined(IPOD_MINI) || defined(IPOD_MINI2G) int current_firewire_status = firewire_detect(); if(current_firewire_status != last_firewire_status) { last_firewire_status = current_firewire_status; firewire_countdown = NUM_POLL_READINGS; } else { /* Count down until it gets negative */ if(firewire_countdown >= 0) firewire_countdown--; /* Report to the thread if we have had 3 identical status readings in a row */ if(firewire_countdown == 0) { queue_post(&usb_queue, USB_REQUEST_REBOOT, 0); } } #endif current_status = usb_detect(); /* Only report when the status has changed */ if(current_status != last_usb_status) { last_usb_status = current_status; countdown = NUM_POLL_READINGS; } else { /* Count down until it gets negative */ if(countdown >= 0) countdown--; /* Report to the thread if we have had 3 identical status readings in a row */ if(countdown == 0) { queue_post(&usb_queue, current_status, 0); } } } #ifdef HAVE_MMC if(usb_mmc_countdown > 0) { usb_mmc_countdown--; if (usb_mmc_countdown == 0) queue_post(&usb_queue, USB_REENABLE, 0); } #endif } #endif void usb_acknowledge(long id) { queue_post(&usb_queue, id, 0); } void usb_init(void) { usb_state = USB_EXTRACTED; #ifdef HAVE_USBSTACK exclusive_ata_access = false; #endif usb_monitor_enabled = false; countdown = -1; #if defined(IPOD_COLOR) || defined(IPOD_4G) \ || defined(IPOD_MINI) || defined(IPOD_MINI2G) firewire_countdown = -1; last_firewire_status = false; #endif usb_init_device(); #ifdef USB_FULL_INIT usb_enable(false); #endif /* We assume that the USB cable is extracted */ last_usb_status = USB_EXTRACTED; #ifdef USB_FULL_INIT queue_init(&usb_queue, true); usb_thread_entry = create_thread(usb_thread, usb_stack, sizeof(usb_stack), 0, usb_thread_name IF_PRIO(, PRIORITY_SYSTEM) IF_COP(, CPU)); tick_add_task(usb_tick); #endif } void usb_wait_for_disconnect(struct event_queue *q) { struct queue_event ev; /* Don't return until we get SYS_USB_DISCONNECTED */ while(1) { queue_wait(q, &ev); if(ev.id == SYS_USB_DISCONNECTED) { usb_acknowledge(SYS_USB_DISCONNECTED_ACK); return; } } } int usb_wait_for_disconnect_w_tmo(struct event_queue *q, int ticks) { struct queue_event ev; /* Don't return until we get SYS_USB_DISCONNECTED or SYS_TIMEOUT */ while(1) { queue_wait_w_tmo(q, &ev, ticks); switch(ev.id) { case SYS_USB_DISCONNECTED: usb_acknowledge(SYS_USB_DISCONNECTED_ACK); return 0; break; case SYS_TIMEOUT: return 1; break; } } } void usb_start_monitoring(void) { usb_monitor_enabled = true; } #ifdef USB_DRIVER_CLOSE void usb_close(void) { struct thread_entry *thread = usb_thread_entry; usb_thread_entry = NULL; if (thread == NULL) return; tick_remove_task(usb_tick); usb_monitor_enabled = false; queue_post(&usb_queue, USB_QUIT, 0); thread_wait(thread); } #endif /* USB_DRIVER_CLOSE */ bool usb_inserted(void) { #ifdef HAVE_USB_POWER return usb_state == USB_INSERTED || usb_state == USB_POWERED; #else return usb_state == USB_INSERTED; #endif } #ifdef HAVE_USBSTACK void usb_request_exclusive_ata(void) { /* This is not really a clean place to start boosting the cpu. but it's * currently the best one. We want to get rid of having to boost the cpu * for usb anyway */ trigger_cpu_boost(); if(!exclusive_ata_access) { queue_post(&usb_queue, USB_REQUEST_DISK, 0); } } void usb_release_exclusive_ata(void) { cancel_cpu_boost(); if(exclusive_ata_access) { queue_post(&usb_queue, USB_RELEASE_DISK, 0); exclusive_ata_access = false; } } bool usb_exclusive_ata(void) { return exclusive_ata_access; } #endif #ifdef HAVE_USB_POWER bool usb_powered(void) { return usb_state == USB_POWERED; } #if CONFIG_CHARGING bool usb_charging_enable(bool on) { bool rc = false; #ifdef IRIVER_H300_SERIES int irqlevel; logf("usb_charging_enable(%s)\n", on ? "on" : "off" ); irqlevel = disable_irq_save(); pcf50606_set_usb_charging(on); rc = on; restore_irq(irqlevel); #else /* TODO: implement it for other targets... */ (void)on; #endif return rc; } bool usb_charging_enabled(void) { bool rc = false; #ifdef IRIVER_H300_SERIES /* TODO: read the state of the GPOOD2 register... * (this also means to set the irq level here) */ rc = pcf50606_usb_charging_enabled(); #else /* TODO: implement it for other targets... */ #endif logf("usb charging %s", rc ? "enabled" : "disabled" ); return rc; } #endif #endif #else #ifdef USB_NONE bool usb_inserted(void) { return false; } #endif /* Dummy simulator functions */ void usb_acknowledge(long id) { id = id; } void usb_init(void) { } void usb_start_monitoring(void) { } int usb_detect(void) { return USB_EXTRACTED; } void usb_wait_for_disconnect(struct event_queue *q) { (void)q; } #endif /* USB_NONE or SIMULATOR */