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2822 2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844 2845 2846 2847 2848 2849 2850 2851 2852 2853 2854 2855 2856 | /* * Open Host Controller Interface driver for USB. * * (C) Copyright 1999 Gregory P. Smith <greg@electricrain.com> * Significant code from the following individuals has also been used: * (C) Copyright 1999 Roman Weissgaerber <weissg@vienna.at> [ohci-hcd.c] * (C) Copyright 1999 Linus Torvalds [uhci.c] * * This is the "other" host controller interface for USB. You will * find this on many non-Intel based motherboards, and of course the * Mac. As Linus hacked his UHCI driver together first, I originally * modeled this after his.. (it should be obvious) * * To get started in USB, I used the "Universal Serial Bus System * Architecture" book by Mindshare, Inc. It was a reasonable introduction * and overview of USB and the two dominant host controller interfaces * however you're better off just reading the real specs available * from www.usb.org as you'll need them to get enough details to * actually implement a HCD. The book has many typos and omissions * Beware, the specs are the victim of a committee. * * This code was written with Guinness on the brain, xsnow on the desktop * and Orbital, Orb, Enya & Massive Attack on the CD player. What a life! ;) * * No filesystems were harmed in the development of this code. * * $Id: ohci.c,v 1.80 1999/09/30 06:32:17 greg Exp $ */ #include <linux/config.h> #include <linux/module.h> #include <linux/pci.h> #include <linux/kernel.h> #include <linux/delay.h> #include <linux/ioport.h> #include <linux/sched.h> #include <linux/malloc.h> #include <linux/smp_lock.h> #include <linux/errno.h> #include <linux/spinlock.h> #include <asm/io.h> #include <asm/irq.h> #include <asm/system.h> #include "ohci.h" #ifdef CONFIG_APM #include <linux/apm_bios.h> static int handle_apm_event(apm_event_t event); static int apm_resume = 0; #endif static DECLARE_WAIT_QUEUE_HEAD(ohci_configure); #ifdef CONFIG_USB_OHCI_DEBUG #define OHCI_DEBUG /* to make typing it easier.. */ #endif int MegaDebug = 0; /* SIGUSR2 to the control thread toggles this */ #ifdef OHCI_TIMER static struct timer_list ohci_timer; /* timer for root hub polling */ #endif static spinlock_t ohci_edtd_lock = SPIN_LOCK_UNLOCKED; #define FIELDS_OF_ED(e) le32_to_cpup(&e->status), le32_to_cpup(&e->tail_td), \ le32_to_cpup(&e->_head_td), le32_to_cpup(&e->next_ed) #define FIELDS_OF_TD(t) le32_to_cpup(&t->info), le32_to_cpup(&t->cur_buf), \ le32_to_cpup(&t->next_td), le32_to_cpup(&t->buf_end) #ifdef OHCI_DEBUG static const char *cc_names[16] = { "no error", "CRC error", "bit stuff error", "data toggle mismatch", "stall", "device not responding", "PID check failed", "unexpected PID", "data overrun", "data underrun", "reserved (10)", "reserved (11)", "buffer overrun", "buffer underrun", "not accessed (14)", "not accessed" }; #endif /* * Add a chain of TDs to the end of the TD list on a given ED. * * This function uses the first TD of the chain as the new dummy TD * for the ED, and uses the old dummy TD instead of the first TD * of the chain. The reason for this is that this makes it possible * to update the TD chain without needing any locking between the * CPU and the OHCI controller. * * The return value is the pointer to the new first TD (the old * dummy TD). * * Important! This function is not re-entrant w.r.t. each ED. * Locking ohci_edtd_lock while using the function is a must * if there is any possibility of another CPU or an interrupt routine * calling this function with the same ED. * * This function can be called by the interrupt handler. */ static struct ohci_td *ohci_add_tds_to_ed(struct ohci_td *td, struct ohci_ed *ed) { struct ohci_td *t, *dummy_td; u32 new_dummy; if (ed->tail_td == 0) { printk(KERN_ERR "eek! an ED without a dummy_td\n"); return td; } /* Get a pointer to the current dummy TD. */ dummy_td = bus_to_virt(ed_tail_td(ed)); for (t = td; ; t = bus_to_virt(le32_to_cpup(&t->next_td))) { t->ed = ed; if (t->next_td == 0) break; } /* Make the last TD point back to the first, since it * will become the new dummy TD. */ new_dummy = cpu_to_le32(virt_to_bus(td)); t->next_td = new_dummy; /* Copy the contents of the first TD into the dummy */ *dummy_td = *td; /* Turn the first TD into a dummy */ make_dumb_td(td); /* Set the HC's tail pointer to the new dummy */ ed->tail_td = new_dummy; return dummy_td; /* replacement head of chain */ } /* ohci_add_tds_to_ed() */ /* .......... */ void ohci_start_control(struct ohci *ohci) { /* tell the HC to start processing the control list */ writel_set(OHCI_USB_CLE, &ohci->regs->control); writel_set(OHCI_CMDSTAT_CLF, &ohci->regs->cmdstatus); } void ohci_start_bulk(struct ohci *ohci) { /* tell the HC to start processing the bulk list */ writel_set(OHCI_USB_BLE, &ohci->regs->control); writel_set(OHCI_CMDSTAT_BLF, &ohci->regs->cmdstatus); } void ohci_start_periodic(struct ohci *ohci) { /* enable processing periodic (intr) transfers starting next frame */ writel_set(OHCI_USB_PLE, &ohci->regs->control); } void ohci_start_isoc(struct ohci *ohci) { /* enable processing isoc. transfers starting next frame */ writel_set(OHCI_USB_IE, &ohci->regs->control); } /* * Add an ED to the hardware register ED list pointed to by hw_listhead_p * This function only makes sense for Control and Bulk EDs. */ static void ohci_add_ed_to_hw(struct ohci_ed *ed, void* hw_listhead_p) { __u32 listhead; unsigned long flags; spin_lock_irqsave(&ohci_edtd_lock, flags); listhead = readl(hw_listhead_p); /* if the list is not empty, insert this ED at the front */ /* XXX should they go on the end? */ ed->next_ed = cpu_to_le32(listhead); /* update the hardware listhead pointer */ writel(virt_to_bus(ed), hw_listhead_p); spin_unlock_irqrestore(&ohci_edtd_lock, flags); } /* ohci_add_ed_to_hw() */ /* * Put a control ED on the controller's list */ void ohci_add_control_ed(struct ohci *ohci, struct ohci_ed *ed) { ohci_add_ed_to_hw(ed, &ohci->regs->ed_controlhead); ohci_start_control(ohci); } /* ohci_add_control_ed() */ /* * Put a bulk ED on the controller's list */ void ohci_add_bulk_ed(struct ohci *ohci, struct ohci_ed *ed) { ohci_add_ed_to_hw(ed, &ohci->regs->ed_bulkhead); ohci_start_bulk(ohci); } /* ohci_add_bulk_ed() */ /* * Put a periodic ED on the appropriate list given the period. */ void ohci_add_periodic_ed(struct ohci *ohci, struct ohci_ed *ed, int period) { struct ohci_ed *int_ed; struct ohci_device *root_hub=usb_to_ohci(ohci->bus->root_hub); unsigned long flags; /* * Pick a good frequency endpoint based on the requested period */ int_ed = &root_hub->ed[ms_to_ed_int(period)]; #ifdef OHCI_DEBUG if (MegaDebug) printk(KERN_DEBUG "usb-ohci: Using INT ED queue %d for %dms period\n", ms_to_ed_int(period), period); #endif spin_lock_irqsave(&ohci_edtd_lock, flags); /* * Insert this ED at the front of the list. */ ed->next_ed = int_ed->next_ed; int_ed->next_ed = cpu_to_le32(virt_to_bus(ed)); spin_unlock_irqrestore(&ohci_edtd_lock, flags); ohci_start_periodic(ohci); } /* ohci_add_periodic_ed() */ /* * Locate the periodic ED for a given interrupt endpoint. */ struct ohci_ed *ohci_get_periodic_ed(struct ohci_device *dev, int period, unsigned int pipe, int isoc) { struct ohci_device *root_hub = usb_to_ohci(dev->ohci->bus->root_hub); unsigned long flags; struct ohci_ed *int_ed; unsigned int status, req_status; /* get the dummy ED before the EDs for this period */ int_ed = &root_hub->ed[ms_to_ed_int(period)]; /* decide on what the status field should look like */ req_status = ed_set_maxpacket(usb_maxpacket(ohci_to_usb(dev), pipe, usb_pipeout(pipe))) | ed_set_speed(usb_pipeslow(pipe)) | (usb_pipe_endpdev(pipe) & 0x7ff) | ed_set_type_isoc(isoc); spin_lock_irqsave(&ohci_edtd_lock, flags); for (;;) { int_ed = bus_to_virt(le32_to_cpup(&int_ed->next_ed)); /* stop if we get to the end or to another dummy ED. */ if (!int_ed) break; /* return NULL */ status = le32_to_cpup(&int_ed->status); if ((status & OHCI_ED_FA) == 0) { int_ed = NULL; break; /* return NULL */ } /* check whether all the appropriate fields match */ if ((status & 0x7ffa7ff) == req_status) break; /* return int_ed */ } spin_unlock_irqrestore(&ohci_edtd_lock, flags); return int_ed; } /* * This will be used for the interrupt to wake us up on the next SOF */ DECLARE_WAIT_QUEUE_HEAD(start_of_frame_wakeup); static void ohci_wait_sof(struct ohci_regs *regs) { DECLARE_WAITQUEUE(wait, current); add_wait_queue(&start_of_frame_wakeup, &wait); /* clear the SOF interrupt status and enable it */ writel(OHCI_INTR_SF, ®s->intrstatus); writel(OHCI_INTR_SF, ®s->intrenable); schedule_timeout(HZ/10); remove_wait_queue(&start_of_frame_wakeup, &wait); } /* * Guarantee that an ED is safe to be modified by the HCD (us). * * This function can NOT be called from an interrupt. * * TODO: If we're waiting for the ED to be safe so that it can be * destroyed, a similar "ohci_schedule_ed_free" function that just * adds it to a list of EDs to destroy during the SOF interrupt * processing would be useful (and be callable from an interrupt). */ void ohci_wait_for_ed_safe(struct ohci_regs *regs, struct ohci_ed *ed) { __u32 *hw_listcurrent; /* tell the controller to skip this ED */ ed->status |= cpu_to_le32(OHCI_ED_SKIP); switch (ohci_ed_hcdtype(ed)) { case HCD_ED_CONTROL: hw_listcurrent = ®s->ed_controlcurrent; break; case HCD_ED_BULK: hw_listcurrent = ®s->ed_bulkcurrent; break; case HCD_ED_ISOC: case HCD_ED_INT: hw_listcurrent = ®s->ed_periodcurrent; break; default: return; } /* * If the HC is processing this ED we need to wait until the * at least the next frame. */ if (virt_to_bus(ed) == readl(hw_listcurrent)) { #ifdef OHCI_DEBUG printk(KERN_INFO "Waiting a frame for OHC to finish with ED %p [%x %x %x %x]\n", ed, FIELDS_OF_ED(ed)); #endif ohci_wait_sof(regs); } return; /* The ED is now safe */ } /* ohci_wait_for_ed_safe() */ /* * Remove an ED from the HC's list. * This function can ONLY be used for Control or Bulk EDs. * * Note that the SKIP bit is left on in the removed ED. */ void ohci_remove_norm_ed_from_hw(struct ohci *ohci, struct ohci_ed *ed) { unsigned long flags; struct ohci_regs *regs = ohci->regs; struct ohci_ed *cur; __u32 bus_ed = virt_to_bus(ed); __u32 bus_cur; __u32 *hw_listhead_p; __u32 ed_type = ohci_ed_hcdtype(ed); if (ed == NULL || !bus_ed) return; ed->status |= cpu_to_le32(OHCI_ED_SKIP); switch (ed_type) { case HCD_ED_CONTROL: hw_listhead_p = ®s->ed_controlhead; break; case HCD_ED_BULK: hw_listhead_p = ®s->ed_bulkhead; break; default: #ifdef OHCI_DEBUG printk(KERN_ERR "Wrong HCD ED type: %d.\n", ed_type); #endif return; } bus_cur = readl(hw_listhead_p); if (bus_cur == 0) return; /* the list is already empty */ cur = bus_to_virt(bus_cur); spin_lock_irqsave(&ohci_edtd_lock, flags); /* if its the head ED, move the head */ if (bus_cur == bus_ed) { writel(le32_to_cpup(&cur->next_ed), hw_listhead_p); } else if (cur->next_ed != 0) { struct ohci_ed *prev; /* walk the list and unlink the ED if found */ do { prev = cur; cur = bus_to_virt(le32_to_cpup(&cur->next_ed)); if (cur == ed) { /* unlink from the list */ prev->next_ed = cur->next_ed; break; } } while (cur->next_ed != 0); } /* * Make sure this ED is not being accessed by the HC as we speak. */ ohci_wait_for_ed_safe(regs, ed); /* clear any links from the ED for safety */ ed->next_ed = 0; spin_unlock_irqrestore(&ohci_edtd_lock, flags); } /* ohci_remove_norm_ed_from_hw() */ /* * Remove a periodic ED from the host controller */ void ohci_remove_periodic_ed(struct ohci *ohci, struct ohci_ed *ed) { struct ohci_device *root_hub = usb_to_ohci(ohci->bus->root_hub); struct ohci_ed *cur_ed = NULL, *prev_ed; unsigned long flags; /* FIXME: this will need to up fixed when add_periodic_ed() * is updated to spread similar polling rate EDs out over * multiple periodic queues. Currently this assumes that the * 32ms (slowest) polling queue links to all others... */ /* search the periodic EDs, skipping the first one which is * only a placeholder. */ prev_ed = &root_hub->ed[ED_INT_32]; if (prev_ed->next_ed) cur_ed = bus_to_virt(le32_to_cpup(&prev_ed->next_ed)); while (cur_ed) { if (ed == cur_ed) { /* remove the ED */ /* set its SKIP bit and be sure its not in use */ ohci_wait_for_ed_safe(ohci->regs, ed); /* unlink it */ spin_lock_irqsave(&ohci_edtd_lock, flags); prev_ed->next_ed = ed->next_ed; spin_unlock_irqrestore(&ohci_edtd_lock, flags); ed->next_ed = 0; break; } spin_lock_irqsave(&ohci_edtd_lock, flags); if (cur_ed->next_ed) { prev_ed = cur_ed; cur_ed = bus_to_virt(le32_to_cpup(&cur_ed->next_ed)); spin_unlock_irqrestore(&ohci_edtd_lock, flags); } else { spin_unlock_irqrestore(&ohci_edtd_lock, flags); /* if multiple polling queues need to be checked, * here is where you'd advance to the next one */ printk("usb-ohci: ed %p not found on periodic queue\n", ed); break; } } } /* ohci_remove_periodic_ed() */ /* * Remove an ED from the host controller, choosing */ void ohci_remove_ed(struct ohci *ohci, struct ohci_ed *ed) { /* Remove the ED from the HC */ if (ohci_ed_hcdtype(ed) & HCD_ED_NORMAL) { ohci_remove_norm_ed_from_hw(ohci, ed); } else { ohci_remove_periodic_ed(ohci, ed); } } /* ohci_remove_ed() */ /* * Remove all the EDs which have a given device address from a list. * Used when the device is unplugged. * Returns 1 if anything was changed. */ static int ohci_remove_device_list(__u32 *headp, int devnum) { struct ohci_ed *ed; __u32 *prevp = headp; int removed = 0; while (*prevp != 0) { ed = bus_to_virt(le32_to_cpup(prevp)); if ((le32_to_cpup(&ed->status) & OHCI_ED_FA) == devnum) { /* set the controller to skip this one and remove it from the list */ ed->status |= cpu_to_le32(OHCI_ED_SKIP); /* XXX should call td->completed for each td */ *prevp = ed->next_ed; removed = 1; } else { prevp = &ed->next_ed; } } wmb(); return removed; } /* * Remove all the EDs for a given device from all lists. */ void ohci_remove_device(struct ohci *ohci, int devnum) { unsigned long flags; __u32 head; struct ohci_regs *regs = ohci->regs; struct ohci_device *root_hub=usb_to_ohci(ohci->bus->root_hub); spin_lock_irqsave(&ohci_edtd_lock, flags); /* Control list */ head = cpu_to_le32(readl(®s->ed_controlhead)); if (ohci_remove_device_list(&head, devnum)) writel(le32_to_cpup(&head), ®s->ed_controlhead); /* Bulk list */ head = cpu_to_le32(readl(®s->ed_bulkhead)); if (ohci_remove_device_list(&head, devnum)) writel(le32_to_cpup(&head), ®s->ed_bulkhead); /* Interrupt/iso list */ head = cpu_to_le32(virt_to_bus(&root_hub->ed[ED_INT_32])); ohci_remove_device_list(&head, devnum); /* * Wait until the start of the next frame to ensure * that the HC has seen any changes. */ ohci_wait_sof(ohci->regs); spin_unlock_irqrestore(&ohci_edtd_lock, flags); } /* * Remove a TD from the given EDs TD list. The TD is freed as well. * (so far this function hasn't been needed) */ void ohci_remove_td_from_ed(struct ohci_td *td, struct ohci_ed *ed) { unsigned long flags; struct ohci_td *head_td; if ((td == NULL) || (ed == NULL)) return; if (ed_head_td(ed) == 0) return; spin_lock_irqsave(&ohci_edtd_lock, flags); /* set the "skip me bit" in this ED */ ed->status |= cpu_to_le32(OHCI_ED_SKIP); /* XXX Assuming this list will never be circular */ head_td = bus_to_virt(ed_head_td(ed)); if (virt_to_bus(td) == ed_head_td(ed)) { /* It's the first TD, remove it. */ set_ed_head_td(ed, head_td->next_td); } else { struct ohci_td *prev_td, *cur_td; /* FIXME: collapse this into a nice simple loop :) */ if (head_td->next_td != 0) { prev_td = head_td; cur_td = bus_to_virt(le32_to_cpup(&head_td->next_td)); for (;;) { if (td == cur_td) { /* remove it */ prev_td->next_td = cur_td->next_td; break; } if (cur_td->next_td == 0) break; prev_td = cur_td; cur_td = bus_to_virt(le32_to_cpup(&cur_td->next_td)); } } } td->next_td = 0; /* remove the TDs links */ td->ed = NULL; /* return this TD to the pool of free TDs */ ohci_free_td(td); /* unset the "skip me bit" in this ED */ ed->status &= cpu_to_le32(~OHCI_ED_SKIP); spin_unlock_irqrestore(&ohci_edtd_lock, flags); } /* ohci_remove_td_from_ed() */ /* * Get a pointer (virtual) to an available TD from the given device's * pool. Return NULL if none are left. */ static struct ohci_td *ohci_get_free_td(struct ohci_device *dev) { int idx; #if 0 printk(KERN_DEBUG "in ohci_get_free_td()\n"); #endif /* FIXME: this is horribly inefficient */ for (idx=0; idx < NUM_TDS; idx++) { #if 0 show_ohci_td(&dev->td[idx]); #endif if (!td_allocated(dev->td[idx])) { struct ohci_td *new_td = &dev->td[idx]; /* zero out the TD */ memset(new_td, 0, sizeof(*new_td)); /* mark the new TDs as unaccessed */ new_td->info = cpu_to_le32(OHCI_TD_CC_NEW); /* mark it as allocated */ allocate_td(new_td); /* record the device that its on */ new_td->usb_dev = ohci_to_usb(dev); return new_td; } } printk(KERN_ERR "usb-ohci: unable to allocate a TD\n"); return NULL; } /* ohci_get_free_td() */ /* * Get a pointer (virtual) to an available TD from the given device's * pool. Return NULL if none are left. * * NOTE: This function does not allocate and attach the dummy_td. * That is done in ohci_fill_ed(). [should we really do that here?] */ static struct ohci_ed *ohci_get_free_ed(struct ohci_device *dev, __u32 ed_type) { int idx; /* FIXME: this is horribly inefficient */ for (idx=0; idx < NUM_EDS; idx++) { if (!ed_allocated(dev->ed[idx])) { struct ohci_ed *new_ed = &dev->ed[idx]; /* zero out the ED */ memset(new_ed, 0, sizeof(*new_ed)); /* all new EDs start with the SKIP bit set */ new_ed->status |= cpu_to_le32(OHCI_ED_SKIP); /* mark it as allocated */ allocate_ed(new_ed); ohci_ed_set_hcdtype(new_ed, ed_type); new_ed->ohci_dev = dev; return new_ed; } } printk(KERN_ERR "usb-ohci: unable to allocate an ED\n"); return NULL; } /* ohci_get_free_ed() */ /* * Free an OHCI ED and all of the TDs on its list. It is assumed that * this ED is not active. You should call ohci_wait_for_ed_safe() * beforehand if you can't guarantee that. */ void ohci_free_ed(struct ohci_ed *ed) { if (!ed) return; if (ed_head_td(ed) != 0) { struct ohci_td *td, *tail_td, *next_td; td = bus_to_virt(ed_head_td(ed)); tail_td = bus_to_virt(ed_tail_td(ed)); for (;;) { next_td = bus_to_virt(le32_to_cpup(&td->next_td)); ohci_free_td(td); if (td == tail_td) break; td = next_td; } } ed->status &= cpu_to_le32(~(__u32)ED_ALLOCATED); } /* ohci_free_ed() */ /* * Initialize a TD * * dir = OHCI_TD_D_IN, OHCI_TD_D_OUT, or OHCI_TD_D_SETUP * toggle = TOGGLE_AUTO, TOGGLE_DATA0, TOGGLE_DATA1 */ struct ohci_td *ohci_fill_new_td(struct ohci_td *td, int dir, int toggle, __u32 flags, void *data, __u32 len, void *dev_id, usb_device_irq completed) { /* hardware fields */ td->info = cpu_to_le32(OHCI_TD_CC_NEW | (dir & OHCI_TD_D) | (toggle & OHCI_TD_DT) | flags); td->cur_buf = (data == NULL) ? 0 : cpu_to_le32(virt_to_bus(data)); td->buf_end = (len == 0) ? 0 : cpu_to_le32(virt_to_bus((char *)data + len - 1)); /* driver fields */ td->data = data; td->dev_id = dev_id; td->completed = completed; #if 0 printk(KERN_DEBUG "ohci_fill_new_td created:\n"); show_ohci_td(td); #endif return td; } /* ohci_fill_new_td() */ /* * Initialize a new ED on device dev, including allocating and putting the * dummy tail_td on its queue if it doesn't already have one. Any * TDs on this ED other than the dummy will be lost (so there better * not be any!). This assumes that the ED is Allocated and will * force the Allocated bit on. */ struct ohci_ed *ohci_fill_ed(struct ohci_device *dev, struct ohci_ed *ed, int maxpacketsize, int lowspeed, int endp_id) { struct ohci_td *dummy_td; if (ed_head_td(ed) != ed_tail_td(ed)) printk(KERN_ERR "Reusing a non-empty ED %p!\n", ed); if (!ed->tail_td) { dummy_td = ohci_get_free_td(dev); if (dummy_td == NULL) { printk(KERN_ERR "Error allocating dummy TD for ED %p\n", ed); return NULL; /* no dummy available! */ } make_dumb_td(dummy_td); /* flag it as a dummy */ ed->tail_td = cpu_to_le32(virt_to_bus(dummy_td)); } else { dummy_td = bus_to_virt(ed_tail_td(ed)); if (!td_dummy(*dummy_td)) printk(KERN_ERR "ED %p's dummy %p is screwy\n", ed, dummy_td); } /* set the head TD to the dummy and clear the Carry & Halted bits */ ed->_head_td = ed->tail_td; ed->status &= cpu_to_le32(OHCI_ED_HCD_MASK); ed->status |= cpu_to_le32( ed_set_maxpacket(maxpacketsize) | ed_set_speed(lowspeed) | (endp_id & 0x7ff) | ((ohci_ed_hcdtype(ed) != HCD_ED_ISOC) ? OHCI_ED_F_NORM : OHCI_ED_F_ISOC)); allocate_ed(ed); ed->next_ed = 0; return ed; } /* ohci_fill_ed() */ /* * Create a chain of Normal TDs to be used for a large data transfer * (bulk or control). * * The next_td parameter should be OHCI byte order bus address of the * next TD to follow this chain or 0 if there is none. * * Returns the head TD in the chain. */ struct ohci_td *ohci_build_td_chain(struct ohci_device *dev, void *data, unsigned int len, int dir, __u32 toggle, int round, int auto_free, void* dev_id, usb_device_irq handler, __u32 next_td) { struct ohci_td *head, *cur_td; unsigned max_len; if (!data || (len == 0)) return NULL; /* Get the first TD */ head = ohci_get_free_td(dev); if (head == NULL) { printk(KERN_ERR "usb-ohci: out of TDs\n"); return NULL; } cur_td = head; /* AFICT, that the OHCI controller takes care of the innards of * bulk & control data transfers by sending zero length * packets as necessary if the transfer falls on an even packet * size boundary, we don't need a special TD for that. */ /* check the 4096 byte alignment of the start of the data */ max_len = 0x2000 - ((unsigned long)data & 0xfff); /* check if the remaining data occupies more than two pages */ while (len > max_len) { struct ohci_td *new_td; /* TODO lookup effect of rounding bit on * individual TDs vs. whole TD chain transfers; * disable cur_td's rounding bit here if needed. */ ohci_fill_new_td(cur_td, td_set_dir_out(dir), toggle & OHCI_TD_DT, (round ? OHCI_TD_ROUND : 0), data, max_len - 1, dev_id, handler); if (!auto_free) noauto_free_td(head); /* adjust the data pointer & remaining length */ data += max_len; len -= max_len; /* allocate another td */ new_td = ohci_get_free_td(dev); if (new_td == NULL) { printk(KERN_ERR "usb-ohci: out of TDs\n"); /* FIXME: free any allocated TDs */ return NULL; } /* Link the new TD to the chain & advance */ cur_td->next_td = cpu_to_le32(virt_to_bus(new_td)); cur_td = new_td; /* address is page-aligned now */ max_len = 0x2000; toggle = TOGGLE_AUTO; /* toggle Data0/1 via the ED */ } ohci_fill_new_td(cur_td, td_set_dir_out(dir), toggle & OHCI_TD_DT, (round ? OHCI_TD_ROUND : 0), data, len, dev_id, handler); if (!auto_free) noauto_free_td(head); /* link the given next_td to the end of this chain */ cur_td->next_td = next_td; if (next_td == 0) set_td_endofchain(cur_td); return head; } /* ohci_build_td_chain() */ /* * Compute the number of bytes that have been transferred on a given * TD. Do not call this on TDs that are active on the host * controller. */ static __u16 ohci_td_bytes_done(struct ohci_td *td) { __u16 result; __u32 bus_data_start, bus_data_end; bus_data_start = virt_to_bus(td->data); if (!td->data || !bus_data_start) return 0; /* if cur_buf is 0, all data has been transferred */ if (!td->cur_buf) { return le32_to_cpup(&td->buf_end) - bus_data_start + 1; } bus_data_end = le32_to_cpup(&td->cur_buf); /* is it on the same page? */ if ((bus_data_start & ~0xfff) == (bus_data_end & ~0xfff)) { result = bus_data_end - bus_data_start; } else { /* compute the amount transferred on the first page */ result = 0x1000 - (bus_data_start & 0xfff); /* add the amount done in the second page */ result += (bus_data_end & 0xfff); } return result; } /* ohci_td_bytes_done() */ /********************************** * OHCI interrupt list operations * **********************************/ /* * Request an interrupt handler for one "pipe" of a USB device. * (this function is pretty minimal right now) * * At the moment this is only good for input interrupts. (ie: for a * mouse or keyboard) * * Period is desired polling interval in ms. The closest, shorter * match will be used. Powers of two from 1-32 are supported by OHCI. * * Returns: success (0) or failure (< 0). * Also sets the "handle pointer" that release_irq can use to stop this * interrupt. (It's really a pointer to the TD). */ static int ohci_request_irq(struct usb_device *usb, unsigned int pipe, usb_device_irq handler, int period, void *dev_id, void **handle, long bustime) { struct ohci_device *dev = usb_to_ohci(usb); struct ohci_td *td; struct ohci_ed *interrupt_ed; /* endpoint descriptor for this irq */ int maxps = usb_maxpacket(usb, pipe, usb_pipeout(pipe)); unsigned long flags; /* Get an ED and TD */ interrupt_ed = ohci_get_periodic_ed(dev, period, pipe, 0); if (interrupt_ed == 0) { interrupt_ed = ohci_get_free_ed(dev, HCD_ED_INT); if (!interrupt_ed) { printk(KERN_ERR "Out of EDs on device %p in ohci_request_irq\n", dev); return (-ENOMEM); } /* * Set the max packet size, device speed, endpoint number, usb * device number (function address), and type of TD. */ ohci_fill_ed(dev, interrupt_ed, maxps, usb_pipeslow(pipe), usb_pipe_endpdev(pipe) ); interrupt_ed->status &= cpu_to_le32(~OHCI_ED_SKIP); /* Assimilate the new ED into the collective */ ohci_add_periodic_ed(dev->ohci, interrupt_ed, period); } #ifdef OHCI_DEBUG if (MegaDebug) { printk(KERN_DEBUG "ohci_request irq: using ED %p [%x %x %x %x]\n", interrupt_ed, FIELDS_OF_ED(interrupt_ed)); printk(KERN_DEBUG " for dev %d pipe %x period %d\n", usb->devnum, pipe, period); } #endif td = ohci_get_free_td(dev); if (!td) { printk(KERN_ERR "Out of TDs in ohci_request_irq\n"); ohci_free_ed(interrupt_ed); return (-ENOMEM); } /* Fill in the TD */ if (maxps > sizeof(dev->data)) maxps = sizeof(dev->data); ohci_fill_new_td(td, td_set_dir_out(usb_pipeout(pipe)), TOGGLE_AUTO, OHCI_TD_ROUND, dev->data, maxps, dev_id, handler); set_td_endofchain(td); /* * Put the TD onto our ED and make sure its ready to run */ td->next_td = 0; spin_lock_irqsave(&ohci_edtd_lock, flags); td = ohci_add_tds_to_ed(td, interrupt_ed); spin_unlock_irqrestore(&ohci_edtd_lock, flags); *handle = (void*)td; return 0; } /* ohci_request_irq() */ /* * Release an interrupt handler previously allocated using * ohci_request_irq. This function does no validity checking, so make * sure you're not releasing an already released handle as it may be * in use by something else.. * * This function can NOT be called from an interrupt. */ int ohci_release_irq(struct usb_device *usb, void* handle) { struct ohci_device *dev; struct ohci_td *int_td; struct ohci_ed *int_ed; #ifdef OHCI_DEBUG if (handle) printk("usb-ohci: Releasing irq handle %p\n", handle); #endif int_td = (struct ohci_td*)handle; if (int_td == NULL) return USB_ST_INTERNALERROR; dev = usb_to_ohci(int_td->usb_dev); int_ed = int_td->ed; ohci_remove_periodic_ed(dev->ohci, int_ed); /* Tell the driver that the IRQ has been killed. */ /* Passing NULL in the "buffer" void* along with the * USB_ST_REMOVED status is the signal. */ if (int_td->completed != NULL) int_td->completed(USB_ST_REMOVED, NULL, 0, int_td->dev_id); /* Free the ED (& TD) */ ohci_free_ed(int_ed); return USB_ST_NOERROR; } /* ohci_release_irq() */ /********************************************************************** * Generic bulk/control/isochronous transfer processing **********************************************************************/ /* * Queue a generic OHCI data transfer, specifying the type in ed_type. * * - data_td_toggle specifies the data toggle value to start with. * - round specifies if the transfer should be allowed to fall short. * - autofree determines if the data TDs are automatically freed. * - setup_td and status_td will be prepended and appended to the TD * chain respectively. Control transfers need these.. * * - handler will be called upon completion of every data TD it * needs to check if the transfer is really done or not. * * A handle to the transfer is returned. */ static void * ohci_generic_trans(struct usb_device *usb_dev, int pipe, int data_td_toggle, int round, int autofree, void *dev_id, usb_device_irq handler, void *data, int len, __u32 ed_type, struct ohci_td *setup_td, struct ohci_td *status_td) { struct ohci_device *dev = usb_to_ohci(usb_dev); struct ohci_ed *trans_ed; struct ohci_td *data_td, *head_td; unsigned long flags; #ifdef OHCI_DEBUG if (MegaDebug) printk(KERN_DEBUG "ohci_request_trans()\n"); #endif trans_ed = ohci_get_free_ed(dev, ed_type); if (!trans_ed) { printk("usb-ohci: couldn't get ED for dev %p\n", dev); return NULL; } /* If this transfer has a data phase, allocate TDs for it */ if (len > 0) { __u32 next_td = status_td ? cpu_to_le32(virt_to_bus(status_td)) : 0; /* allocate & fill in the TDs for this request */ data_td = ohci_build_td_chain( dev, data, len, usb_pipeout(pipe), data_td_toggle, round, autofree, dev_id, handler, next_td ); if (!data_td) { /* out of TDs */ printk(KERN_ERR "usb-ohci: build_td_chain failed for dev %p, pipe 0x%x\n", dev, pipe); goto gt_free_and_exit; } } else { data_td = status_td; } /* start with the setup TD if there is one */ if (setup_td) { if (data_td) { setup_td->next_td = cpu_to_le32(virt_to_bus(data_td)); head_td = setup_td; } else { #ifdef OHCI_DEBUG printk(KERN_ERR "usb-ohci: lonely setup_td detected\n"); #endif goto gt_free_and_exit; } } else { head_td = data_td; } if (!head_td) { #ifdef OHCI_DEBUG printk(KERN_ERR "usb-ohci: no TDs in transfer\n"); #endif goto gt_free_and_exit; /* nothing to do */ } /* Set the max packet size, device speed, endpoint number, usb * device number (function address), and type of TD. */ ohci_fill_ed(dev, trans_ed, usb_maxpacket(usb_dev, pipe, usb_pipeout(pipe)), usb_pipeslow(pipe), usb_pipe_endpdev(pipe) ); /* initialize the toggle carry flag in the ED */ if (usb_gettoggle(usb_dev, usb_pipeendpoint(pipe), usb_pipeout(pipe))) ohci_ed_set_carry(trans_ed); /* * Add the TDs to the ED, remove the skip flag */ spin_lock_irqsave(&ohci_edtd_lock, flags); head_td = ohci_add_tds_to_ed(head_td, trans_ed); trans_ed->status &= cpu_to_le32(~OHCI_ED_SKIP); /* ohci_unhalt_ed(trans_ed); */ spin_unlock_irqrestore(&ohci_edtd_lock, flags); #ifdef OHCI_DEBUG if (MegaDebug) { /* complete transaction debugging output (before) */ printk(KERN_DEBUG " Trans ED %lx:\n", virt_to_bus(trans_ed)); show_ohci_ed(trans_ed); printk(KERN_DEBUG " Trans TD chain:\n"); show_ohci_td_chain(head_td); } #endif /* Give the ED to the HC on the appropriate list */ switch (ed_type) { case HCD_ED_ISOC: /* Isochronous transfers have a 1ms period */ ohci_add_periodic_ed(dev->ohci, trans_ed, 1); break; case HCD_ED_CONTROL: ohci_add_control_ed(dev->ohci, trans_ed); break; case HCD_ED_BULK: ohci_add_bulk_ed(dev->ohci, trans_ed); break; default: #ifdef OHCI_DEBUG printk(KERN_ERR "usb-ohci: bad ED type %d\n", ed_type); #endif goto gt_free_and_exit; } /* ... */ return trans_ed; gt_free_and_exit: ohci_free_ed(trans_ed); return NULL; } /* ohci_generic_trans() */ /* * Terminate a transfer initiated by ohci_generic_trans() * * This function is NOT safe to call from an interrupt. */ static int ohci_terminate_trans(struct usb_device *usb_dev, void *handle) { struct ohci_ed *req_ed = (struct ohci_ed *) handle; struct ohci_device *dev = usb_to_ohci(usb_dev); struct ohci_regs *regs = dev->ohci->regs; if (!handle) return 0; /* stop the transfer & collect the number of bytes */ /* (this is the non-interrupt safe function call) */ ohci_wait_for_ed_safe(regs, req_ed); /* Remove the ED from the HC */ ohci_remove_ed(dev->ohci, req_ed); ohci_free_ed(req_ed); /* return it to the pool */ return 1; } /* ohci_terminate_trans() */ /********************************************************************** * Control transfer processing **********************************************************************/ static DECLARE_WAIT_QUEUE_HEAD(control_wakeup); /* * This is the handler that gets called when a control transaction * completes. * * This function is called from the interrupt handler. */ static int ohci_control_completed(int stats, void *buffer, int len, void *dev_id) { /* pass the TDs completion status back to control_msg */ if (dev_id) { int *completion_status = (int *)dev_id; switch (stats) { case USB_ST_NOERROR: case USB_ST_DATAOVERRUN: *completion_status = len; break; default: *completion_status = -stats; } } wake_up(&control_wakeup); return 0; } /* ohci_control_completed() */ /* * Send or receive a control message on a "pipe" * * The cmd parameter is a pointer to the 8 byte setup command to be * sent. * * A control message contains: * - The command itself * - An optional data phase (if len > 0) * - Status complete phase * * This function can NOT be called from an interrupt. */ static int ohci_control_msg(struct usb_device *usb_dev, unsigned int pipe, devrequest *cmd, void *data, int len, int timeout) { struct ohci_device *dev = usb_to_ohci(usb_dev); void *trans_handle; struct ohci_td *setup_td, *status_td; DECLARE_WAITQUEUE(wait, current); int completion_status = USB_ST_TIMEOUT; devrequest our_cmd; /* byte-swap fields of cmd if necessary */ our_cmd = *cmd; cpu_to_le16s(&our_cmd.value); cpu_to_le16s(&our_cmd.index); cpu_to_le16s(&our_cmd.length); #ifdef OHCI_DEBUG if (MegaDebug) printk(KERN_DEBUG "ohci_control_msg %p (ohci_dev: %p) pipe %x, cmd %p, data %p, len %d\n", usb_dev, dev, pipe, cmd, data, len); #endif /* get a TD to send this control message with */ setup_td = ohci_get_free_td(dev); if (!setup_td) { printk(KERN_ERR "usb-ohci: couldn't get TD for dev %p [cntl setup]\n", dev); return USB_ST_INTERNALERROR; } /* * Set the not accessed condition code, allow odd sized data, * and set the data transfer type to SETUP. Setup DATA always * uses a DATA0 packet. * * The setup packet contains a devrequest (usb.h) which * will always be 8 bytes long. */ ohci_fill_new_td(setup_td, OHCI_TD_D_SETUP, TOGGLE_DATA0, OHCI_TD_IOC_OFF, &our_cmd, 8, /* cmd is always 8 bytes long */ &completion_status, NULL); /* Allocate a TD for the control xfer status */ status_td = ohci_get_free_td(dev); if (!status_td) { printk("usb-ohci: couldn't get TD for dev %p [cntl status]\n", dev); ohci_free_td(setup_td); return USB_ST_INTERNALERROR; } /* The control status packet always uses a DATA1 * Give "dev_id" the address of completion_status so that the * TDs status can be passed back to us from the IRQ. */ ohci_fill_new_td(status_td, td_set_dir_in(usb_pipeout(pipe) | (len == 0)), TOGGLE_DATA1, 0 /* flags */, NULL /* data */, 0 /* data len */, &completion_status, ohci_control_completed); set_td_endofchain(status_td); status_td->next_td = 0; /* end of TDs */ /* * Start the control transaction.. * XXX should this come so soon? or... XXX * XXX should it be put into generic_trans? XXX */ current->state = TASK_UNINTERRUPTIBLE; add_wait_queue(&control_wakeup, &wait); trans_handle = ohci_generic_trans(usb_dev, pipe, TOGGLE_DATA1, 1 /* round */, 1 /* autofree */, &completion_status, NULL /* no data td handler */, data, len, HCD_ED_CONTROL, setup_td, status_td); /* did something go wrong? return an error */ if (!trans_handle) { remove_wait_queue(&control_wakeup, &wait); ohci_free_td(setup_td); ohci_free_td(status_td); return USB_ST_INTERNALERROR; } /* wait a user defined amount of time for it to complete */ schedule_timeout(timeout); remove_wait_queue(&control_wakeup, &wait); #ifdef OHCI_DEBUG /* * NOTE! this debug code blatently assumes that the handle returned * by ohci_generic_trans is the pointer to this transfers ED. * (which it is at the moment) * Also, since the TDs were autofreed, there is no guarantee that * they haven't been reclaimed by another transfer by now... */ if (completion_status < 0) { const char *what; if (completion_status == USB_ST_TIMEOUT) what = "timed out"; else what = cc_names[(-completion_status) & 0xf]; printk(KERN_ERR "ohci_control_msg: %s on pipe %x cmd %x %x %x %x %x", what, pipe, cmd->requesttype, cmd->request, cmd->value, cmd->index, cmd->length); if (usb_pipeout(pipe) && len > 0) { int i; printk(" data"); for (i = 0; i < 16 && i < len; ++i) printk(" %.2x", ((unsigned char *)data)[i]); if (i < len) printk(" ..."); } printk("\n"); if (MegaDebug && completion_status < 0) { struct ohci_ed *control_ed = (struct ohci_ed *) trans_handle; printk(KERN_DEBUG "control_ed at %p:\n", control_ed); show_ohci_ed(control_ed); if (ed_head_td(control_ed) != ed_tail_td(control_ed)) show_ohci_td_chain(bus_to_virt(ed_head_td(control_ed))); printk(KERN_DEBUG "setup TD at %p:\n", setup_td); show_ohci_td(setup_td); } } else if (!usb_pipeout(pipe)) { unsigned char *q = data; int i; printk(KERN_DEBUG "ctrl msg %x %x %x %x %x on pipe %x returned:", cmd->requesttype, cmd->request, cmd->value, cmd->index, cmd->length, pipe); for (i = 0; i < len; ++i) { if (i % 16 == 0) printk("\n" KERN_DEBUG); printk(" %x", q[i]); } printk("\n"); } if (MegaDebug) { struct ohci_ed *control_ed = (struct ohci_ed *) trans_handle; /* complete transaction debugging output (after) */ printk(KERN_DEBUG " *after* Control ED %lx:\n", virt_to_bus(control_ed)); show_ohci_ed(control_ed); printk(KERN_DEBUG " *after* Control TD chain:\n"); show_ohci_td_chain(setup_td); printk(KERN_DEBUG " *after* OHCI Controller Status:\n"); show_ohci_status(dev->ohci); } #endif /* no TD cleanup, the TDs were auto-freed as they finished */ /* remove the generic_trans ED from the HC and free it */ ohci_terminate_trans(usb_dev, trans_handle); return completion_status; } /* ohci_control_msg() */ /********************************************************************** * Bulk transfer processing **********************************************************************/ /* * Request to send or receive bulk data. The handler() function * will be called as each OHCI TD in the transfer completes or is * aborted due to an error. * * IMPORTANT NOTE: This means the handler may be called multiple * times for a large (more than one 4096 byte page) request until * the transfer is finished. * * Returns: a pointer to the ED being used for this request as the * bulk request handle. */ static void * ohci_request_bulk(struct usb_device *usb_dev, unsigned int pipe, usb_device_irq handler, void* data, int len, void* dev_id) { #ifdef OHCI_DEBUG struct ohci_device *dev = usb_to_ohci(usb_dev); if (MegaDebug) printk(KERN_DEBUG "ohci_request_bulk() ohci_dev %p, handler %p, pipe %x, data %p, len %d, dev_id %p\n", dev, handler, pipe, data, len, dev_id); #endif return ohci_generic_trans(usb_dev, pipe, TOGGLE_AUTO, 0 /* round */, 1 /* autofree */, dev_id, handler, data, len, HCD_ED_BULK, NULL /* no setup_td */, NULL /* no status_td */ ); } /* ohci_request_bulk() */ /* * Terminate a bulk transfer requested using ohci_request_bulk. * * This function is NOT safe to call from an interrupt. */ static int ohci_terminate_bulk(struct usb_device *usb_dev, void * handle) { return ohci_terminate_trans(usb_dev, handle); } /* ohci_terminate_bulk() */ /* * Internal state for an ohci_bulk_request_msg */ struct ohci_bulk_msg_request_state { struct usb_device *usb_dev; unsigned int pipe; /* usb "pipe" */ void *data; /* ptr to data */ int length; /* length to transfer */ int _bytes_done; /* bytes transferred so far */ unsigned long *bytes_transferred_p; /* where to increment */ void *dev_id; /* pass to the completion handler */ usb_device_irq completion; /* completion handler */ }; /* * this handles the individual TDs of a (possibly) larger bulk * request. It keeps track of the total bytes transferred, calls the * final completion handler, etc. */ static int ohci_bulk_msg_td_handler(int stats, void *buffer, int len, void *dev_id) { struct ohci_bulk_msg_request_state *req; req = (struct ohci_bulk_msg_request_state *) dev_id; #ifdef OHCI_DEBUG if (MegaDebug) printk(KERN_DEBUG "ohci_bulk_td_handler stats %x, buffer %p, len %d, req %p\n", stats, buffer, len, req); #endif /* only count TDs that were completed successfully */ if (stats == USB_ST_NOERROR || stats == USB_ST_DATAUNDERRUN) /*DEN*/ req->_bytes_done += len; #ifdef OHCI_DEBUG if (MegaDebug && req->_bytes_done) { int i; printk(KERN_DEBUG " %d bytes, bulk data:", req->_bytes_done); for (i = 0; i < 16 && i < req->_bytes_done; ++i) printk(" %.2x", ((unsigned char *)buffer)[i]); if (i < req->_bytes_done) printk(" ..."); printk("\n"); } #endif /* call the real completion handler when done or on an error */ if ((stats != USB_ST_NOERROR) || (req->_bytes_done >= req->length && req->completion != NULL)) { *req->bytes_transferred_p += req->_bytes_done; #ifdef OHCI_DEBUG if (MegaDebug) printk(KERN_DEBUG "usb-ohci: bulk request %p ending\n", req); #endif req->completion(stats, buffer, req->_bytes_done, req->dev_id); } return 0; /* do not re-queue the TD */ } /* ohci_bulk_msg_td_handler() */ static DECLARE_WAIT_QUEUE_HEAD(bulk_wakeup); static int ohci_bulk_msg_completed(int stats, void *buffer, int len, void *dev_id) { #ifdef OHCI_DEBUG printk("ohci_bulk_msg_completed %x, %p, %d, %p\n", stats, buffer, len, dev_id); #endif if (dev_id != NULL) { int *completion_status = (int *)dev_id; *completion_status = stats; } wake_up(&bulk_wakeup); return 0; /* don't requeue the TD */ } /* ohci_bulk_msg_completed() */ static int ohci_bulk_msg(struct usb_device *usb_dev, unsigned int pipe, void *data, int len, unsigned long *bytes_transferred_p, int timeout) { DECLARE_WAITQUEUE(wait, current); int completion_status = USB_ST_INTERNALERROR; struct ohci_bulk_msg_request_state req; struct ohci_ed *req_ed; #ifdef OHCI_DEBUG if (MegaDebug) printk(KERN_DEBUG "ohci_bulk_msg %p pipe %x, data %p, len %d, bytes_transferred %p\n", usb_dev, pipe, data, len, bytes_transferred_p); #endif /* initialize bytes transferred to nothing */ *bytes_transferred_p = 0; /* Hopefully this is similar to the "URP" (USB Request Packet) code * that michael gee is working on... */ req.usb_dev = usb_dev; req.pipe = pipe; req.data = data; req.length = len; req.bytes_transferred_p = bytes_transferred_p; req.dev_id = &completion_status; req.completion = ohci_bulk_msg_completed; req._bytes_done = 0; if (bytes_transferred_p) *bytes_transferred_p = 0; if (usb_endpoint_halted(usb_dev, usb_pipeendpoint(pipe), usb_pipeout(pipe)) && usb_clear_halt(usb_dev, usb_pipeendpoint(pipe) | (pipe & 0x80))) return USB_ST_STALL; /* * Start the transaction.. */ current->state = TASK_UNINTERRUPTIBLE; add_wait_queue(&bulk_wakeup, &wait); /* * Request to send or receive bulk data for a blocking bulk_msg call. * * req.bytes_transferred_p is a pointer to an integer that * will be set to the number of bytes that have been successfully * transferred upon completion. The interrupt handler will update it * after each internal TD completes successfully. */ req_ed = ohci_request_bulk(usb_dev, pipe, ohci_bulk_msg_td_handler, data, len, &req); /* wait for a caller specified time... */ schedule_timeout(timeout); /* completion_status will only stay in this state of the * request never finished */ if (completion_status == USB_ST_INTERNALERROR) { struct ohci_device *dev = usb_to_ohci(usb_dev); struct ohci_regs *regs = dev->ohci->regs; #ifdef OHCI_DEBUG printk(KERN_DEBUG "ohci_bulk_msg timing out\n"); #endif /* XXX This code should go into a function used to stop * a previously requested bulk transfer. -greg */ /* stop the transfer & collect the number of bytes */ ohci_wait_for_ed_safe(regs, req_ed); /* Get the number of bytes transferred out of the head TD * on the ED if it didn't finish while we were waiting. */ if ( ed_head_td(req_ed) && (ed_head_td(req_ed) != ed_tail_td(req_ed)) ) { struct ohci_td *partial_td; partial_td = bus_to_virt(ed_head_td(req_ed)); #ifdef OHCI_DEBUG if (MegaDebug) { show_ohci_td(partial_td); } #endif /* Record the bytes as transferred */ *bytes_transferred_p += ohci_td_bytes_done(partial_td); /* If there was an unreported error, return it. * Otherwise return a timeout */ completion_status = OHCI_TD_CC_GET(partial_td->info); if (completion_status == USB_ST_NOERROR) { completion_status = USB_ST_TIMEOUT; } } } remove_wait_queue(&bulk_wakeup, &wait); /* remove the ED from the HC */ ohci_remove_norm_ed_from_hw(usb_to_ohci(usb_dev)->ohci, req_ed); /* save the toggle value back into the usb_dev */ usb_settoggle(usb_dev, usb_pipeendpoint(pipe), usb_pipeout(pipe), ohci_ed_carry(req_ed)); ohci_free_ed(req_ed); /* return it to the pool */ #ifdef OHCI_DEBUG if (completion_status != 0 || MegaDebug) printk(KERN_DEBUG "ohci_bulk_msg done, status %x (bytes_transferred = %ld).\n", completion_status, *bytes_transferred_p); #endif return completion_status; } /* ohci_bulk_msg() */ /* .......... */ /* * Allocate a new USB device attached to this OHCI controller */ static int ohci_dev_allocate(struct usb_device *usb_dev) { struct ohci_device *dev; int idx; /* * Allocate an OHCI device (EDs and TDs for this device) */ dev = kmalloc(sizeof(*dev), GFP_KERNEL); if (!dev) return -1; memset(dev, 0, sizeof(*dev)); /* Initialize all EDs in a new device with the skip flag so that * they are ignored by the controller until set otherwise. */ for (idx = 0; idx < NUM_EDS; ++idx) { dev->ed[idx].status = cpu_to_le32(OHCI_ED_SKIP); } /* * Link them together */ usb_dev->hcpriv = dev; dev->usb = usb_dev; if (usb_dev->parent) dev->ohci = usb_to_ohci(usb_dev->parent)->ohci; return 0; } /* ohci_dev_allocate() */ /* * Free a usb device on this ohci controller. */ static int ohci_dev_deallocate(struct usb_device *usb_dev) { struct ohci_device *dev = usb_to_ohci(usb_dev); ohci_remove_device(dev->ohci, usb_dev->devnum); kfree(usb_to_ohci(usb_dev)); return 0; } static int ohci_get_current_frame_number(struct usb_device *usb_dev) { return USB_ST_NOTSUPPORTED; } static int ohci_alloc_isochronous (struct usb_device *usb_dev, unsigned int pipe, int frame_count, void *context, struct usb_isoc_desc **isocdesc) { return USB_ST_NOTSUPPORTED; } static void ohci_delete_isochronous (struct usb_isoc_desc *isocdesc) { return; } static int ohci_sched_isochronous (struct usb_isoc_desc *isocdesc, struct usb_isoc_desc *pr_isocdesc) { return USB_ST_NOTSUPPORTED; } static int ohci_unsched_isochronous (struct usb_isoc_desc *isocdesc) { return USB_ST_NOTSUPPORTED; } /* * functions for the generic USB driver */ struct usb_operations ohci_device_operations = { ohci_dev_allocate, ohci_dev_deallocate, ohci_control_msg, ohci_bulk_msg, ohci_request_irq, ohci_release_irq, ohci_request_bulk, ohci_terminate_bulk, ohci_get_current_frame_number, ohci_alloc_isochronous, ohci_delete_isochronous, ohci_sched_isochronous, ohci_unsched_isochronous }; /* * Reset an OHCI controller. Returns >= 0 on success. * * Afterwards the HC will be in the "suspend" state which prevents you * from writing to some registers. Bring it to the operational state * ASAP. */ static int reset_hc(struct ohci *ohci) { int timeout = 10000; /* prevent an infinite loop */ #if 0 printk(KERN_INFO "usb-ohci: resetting HC %p\n", ohci); #endif writel(~0x0, &ohci->regs->intrdisable); /* Disable HC interrupts */ writel(1, &ohci->regs->cmdstatus); /* HC Reset */ writel_mask(0x3f, &ohci->regs->control); /* move to UsbReset state */ while ((readl(&ohci->regs->cmdstatus) & OHCI_CMDSTAT_HCR) != 0) { if (!--timeout) { printk(KERN_ERR "usb-ohci: USB HC reset timed out!\n"); return -1; } udelay(1); } printk(KERN_DEBUG "usb-ohci: HC %p reset.\n", ohci); return 0; } /* reset_hc() */ /* * Reset and start an OHCI controller. Returns >= 0 on success. */ static int start_hc(struct ohci *ohci) { int ret = 0; int fminterval; __u32 what_to_enable; struct ohci_device *root_hub=usb_to_ohci(ohci->bus->root_hub); #if 0 printk(KERN_DEBUG "entering start_hc %p\n", ohci); #endif if (reset_hc(ohci) < 0) return -1; /* restore registers cleared by the reset */ writel(virt_to_bus(root_hub->hcca), &ohci->regs->hcca); /* * fminterval has to be 11999 (it can be adjusted +/- 1 * to sync with other things if necessary). */ fminterval = 11999; /* Start periodic transfers at 90% of fminterval (fmremaining * counts down; this will put them in the first 10% of the * frame). */ writel((fminterval * 9) / 10, &ohci->regs->periodicstart); /* Set largest data packet counter and frame interval. */ fminterval |= ((fminterval - 210) * 6 / 7) << 16; writel(fminterval, &ohci->regs->fminterval); /* Set low-speed threshold (value from MacOS) */ writel(1576, &ohci->regs->lsthresh); /* * FNO (frame number overflow) could be enabled... they * occur every 32768 frames (every 32-33 seconds). This is * useful for debugging and as a bus heartbeat. -greg */ /* Choose the interrupts we care about */ what_to_enable = OHCI_INTR_MIE | #ifdef OHCI_RHSC_INT OHCI_INTR_RHSC | #endif /* | OHCI_INTR_FNO */ OHCI_INTR_WDH; writel( what_to_enable, &ohci->regs->intrenable); /* Enter the USB Operational state & start the frames a flowing.. */ writel_set(OHCI_USB_OPER, &ohci->regs->control); /* Enable control lists, claim the host controller */ writel_set( OHCI_USB_IE | OHCI_USB_CLE | OHCI_USB_BLE, &ohci->regs->control); /* Force global power enable -gal@cs.uni-magdeburg.de */ /* * This turns on global power switching for all the ports * and tells the HC that all of the ports should be powered on * all of the time. * * TODO: This could be battery draining for laptops.. We * should implement power switching. */ writel_set( OHCI_ROOT_A_NPS, &ohci->regs->roothub.a ); writel_mask( ~((__u32)OHCI_ROOT_A_PSM), &ohci->regs->roothub.a ); /* Turn on power to the root hub ports (thanks Roman!) */ writel( OHCI_ROOT_LPSC, &ohci->regs->roothub.status ); printk(KERN_INFO "usb-ohci: host controller operational\n"); return ret; } /* start_hc() */ /* * Reset a root hub port */ static void ohci_reset_port(struct ohci *ohci, unsigned int port) { int status; /* Don't allow overflows. */ if (port >= MAX_ROOT_PORTS) { printk(KERN_ERR "usb-ohci: bad port #%d in ohci_reset_port\n", port); port = MAX_ROOT_PORTS-1; } writel(PORT_PRS, &ohci->regs->roothub.portstatus[port]); /* Reset */ /* * Wait for the reset to complete. */ wait_ms(20); /* check port status to see that the reset completed */ status = readl(&ohci->regs->roothub.portstatus[port]); if (status & PORT_PRS) { /* reset failed, try harder? */ printk(KERN_ERR "usb-ohci: port %d reset failed, retrying\n", port); writel(PORT_PRS, &ohci->regs->roothub.portstatus[port]); wait_ms(50); } /* TODO we might need to re-enable the port here or is that * done elsewhere? */ } /* ohci_reset_port */ /* * This gets called if the connect status on the root hub changes. */ static void ohci_connect_change(struct ohci * ohci, int port) { struct usb_device *usb_dev; struct ohci_device *dev; struct ohci_device *root_hub=usb_to_ohci(ohci->bus->root_hub); /* memory I/O address of the port status register */ __u32 *portaddr = &ohci->regs->roothub.portstatus[port]; int portstatus; #ifdef OHCI_DEBUG printk(KERN_DEBUG "ohci_connect_change on port %d\n", port); #endif /* * Because of the status change we have to forget * everything we think we know about the device * on this root hub port. It may have changed. */ usb_disconnect(root_hub->usb->children + port); portstatus = readl(portaddr); /* disable the port if nothing is connected */ if (!(portstatus & PORT_CCS)) { writel(PORT_CCS, portaddr); /* We need to reset the CSC bit -after- disabling the * port because it causes the CSC bit to come on * again... */ wait_ms(20); writel(PORT_CSC, portaddr); #ifdef OHCI_DEBUG printk(KERN_DEBUG "ohci port %d disabled, nothing connected.\n", port); #endif return; } /* * Allocate a device for the new thingy that's been attached */ usb_dev = usb_alloc_dev(root_hub->usb, root_hub->usb->bus); if (!usb_dev) return; dev = usb_dev->hcpriv; usb_connect(dev->usb); /* link it into the bus's device tree */ root_hub->usb->children[port] = usb_dev; wait_ms(200); /* wait for powerup; XXX is this needed? */ ohci_reset_port(ohci, port); /* Get information on speed by using LSD */ usb_dev->slow = readl(portaddr) & PORT_LSDA ? 1 : 0; /* * Do generic USB device tree processing on the new device. */ usb_new_device(usb_dev); } /* ohci_connect_change() */ /* * This gets called when the root hub configuration * has changed. Just go through each port, seeing if * there is something interesting happening. */ static void ohci_check_configuration(struct ohci *ohci) { struct ohci_regs *regs = ohci->regs; int num = 0; int maxport = readl(&ohci->regs->roothub) & 0xff; __u32 rh_change_flags = PORT_CSC | PORT_PESC; /* root hub status changes */ #ifdef OHCI_DEBUG printk(KERN_DEBUG "entering ohci_check_configuration %p\n", ohci); #endif do { __u32 *portstatus_p = ®s->roothub.portstatus[num]; if (readl(portstatus_p) & rh_change_flags) { /* acknowledge the root hub status changes */ writel_set(rh_change_flags, portstatus_p); /* disable the port if nothing is on it */ /* check the port for a nifty device */ ohci_connect_change(ohci, num); } } while (++num < maxport); #if 0 printk(KERN_DEBUG "leaving ohci_check_configuration %p\n", ohci); #endif } /* ohci_check_configuration() */ /* * Check root hub port status and wake the control thread up if * anything has changed. * * This function is called from the interrupt handler. */ static void ohci_root_hub_events(struct ohci *ohci) { int num = 0; struct ohci_device *root_hub=usb_to_ohci(ohci->bus->root_hub); int maxport = root_hub->usb->maxchild; if (!waitqueue_active(&ohci_configure)) return; do { __u32 *portstatus_p = &ohci->regs->roothub.portstatus[num]; if (readl(portstatus_p) & PORT_CSC) { if (waitqueue_active(&ohci_configure)) wake_up(&ohci_configure); return; } } while (++num < maxport); } /* ohci_root_hub_events() */ /* * The done list is in reverse order; we need to process TDs in the * order they were finished (FIFO). This function builds the FIFO * list using the next_dl_td pointer. * * This function originally by Roman Weissgaerber (weissg@vienna.at) * * This function is called from the interrupt handler. */ static struct ohci_td * ohci_reverse_donelist(struct ohci * ohci) { __u32 td_list_hc; struct ohci_device *root_hub=usb_to_ohci(ohci->bus->root_hub); struct ohci_hcca *hcca = root_hub->hcca; struct ohci_td *td_list = NULL; struct ohci_td *td_rev = NULL; td_list_hc = le32_to_cpup(&hcca->donehead) & 0xfffffff0; hcca->donehead = 0; while(td_list_hc) { td_list = (struct ohci_td *) bus_to_virt(td_list_hc); td_list->next_dl_td = td_rev; td_rev = td_list; td_list_hc = le32_to_cpup(&td_list->next_td) & 0xfffffff0; } return td_list; } /* ohci_reverse_donelist() */ /* * Look at the ed (and td if necessary) * and return its direction as 0 = IN, 1 = OUT. */ int ed_get_dir (struct ohci_ed *ed, struct ohci_td *td) { __u32 status; status = le32_to_cpu(ed->status) & OHCI_ED_D; /* keep only the Direction bits */ if (status == OHCI_ED_D_IN) return 0; if (status == OHCI_ED_D_OUT) return 1; /* but if status == 0 or 3, look at the td for the Direction */ status = le32_to_cpu(td->info) & OHCI_TD_D; /* keep only the Direction bits */ if (status == OHCI_TD_D_IN) return 0; return 1; } /* * Collect this interrupt's goodies off of the list of finished TDs * that the OHCI controller is kind enough to setup for us. * * This function is called from the interrupt handler. */ static void ohci_reap_donelist(struct ohci *ohci) { struct ohci_td *td; /* used for walking the list */ /* um... isn't this dangerous to do in an interrupt handler? -greg */ /* nope. -paulus */ spin_lock(&ohci_edtd_lock); /* create the FIFO ordered donelist */ td = ohci_reverse_donelist(ohci); while (td != NULL) { struct ohci_td *next_td = td->next_dl_td; int cc = OHCI_TD_CC_GET(le32_to_cpup(&td->info)); struct ohci_ed *ed = td->ed; if (td_dummy(*td)) printk(KERN_ERR "usb-ohci: yikes! reaping dummy TD\n"); #ifdef OHCI_DEBUG if (cc != 0 && MegaDebug) { printk("cc=%s on td %p (ed %p)\n", cc_names[cc], td, ed); show_ohci_td(td); show_ohci_ed(ed); if (ed_head_td(ed) != ed_tail_td(ed)) show_ohci_td_chain(bus_to_virt(ed_head_td(ed))); } #endif if (cc == USB_ST_STALL) { /* mark endpoint as halted */ usb_endpoint_halt(ed->ohci_dev->usb, ed_get_en(ed), ed_get_dir(ed, td)); } if (cc != 0 && ohci_ed_halted(ed) && !td_endofchain(*td)) { /* * There was an error on this TD and the ED * is halted, and this was not the last TD * of the transaction, so there will be TDs * to clean off the ED. */ struct ohci_td *tail_td = bus_to_virt(ed_tail_td(ed)); struct ohci_td *ntd; ohci_free_td(td); td = ntd = bus_to_virt(ed_head_td(ed)); while (td != tail_td) { ntd = bus_to_virt(le32_to_cpup(&td->next_td)); if (td_endofchain(*td)) break; printk(KERN_DEBUG "usb-ohci: skipping TD %p\n", td); ohci_free_td(td); td = ntd; } /* Set the ED head past the ones we cleaned off, and clear the halted flag */ printk(KERN_DEBUG "usb-ohci: restarting ED %p at TD %p\n", ed, ntd); set_ed_head_td(ed, virt_to_bus(ntd)); ohci_unhalt_ed(ed); /* If we didn't find an endofchain TD, give up */ if (td == tail_td) { td = next_td; continue; } } /* Check if TD should be re-queued */ if ((td->completed != NULL) && (td->completed(cc, td->data, ohci_td_bytes_done(td), td->dev_id))) { /* Mark the TD as active again: * Set the not accessed condition code * Reset the Error count */ td->info |= cpu_to_le32(OHCI_TD_CC_NEW); clear_td_errorcount(td); /* reset the toggle field to TOGGLE_AUTO (0) */ td->info &= cpu_to_le32(~OHCI_TD_DT); /* point it back to the start of the data buffer */ td->cur_buf = cpu_to_le32(virt_to_bus(td->data)); /* insert it back on its ED */ td->next_td = 0; ohci_add_tds_to_ed(td, ed); /* ohci_unhalt_ed(td->ed); */ } else { /* return it to the pool of free TDs */ if (can_auto_free(*td)) ohci_free_td(td); } td = next_td; } spin_unlock(&ohci_edtd_lock); } /* ohci_reap_donelist() */ /* * Get annoyed at the controller for bothering us. * This pretty much follows the OHCI v1.0a spec, section 5.3. */ static void ohci_interrupt(int irq, void *__ohci, struct pt_regs *r) { struct ohci *ohci = __ohci; struct ohci_regs *regs = ohci->regs; struct ohci_device *root_hub=usb_to_ohci(ohci->bus->root_hub); struct ohci_hcca *hcca = root_hub->hcca; __u32 status, context; /* Save the status of the interrupts that are enabled */ status = readl(®s->intrstatus); status &= readl(®s->intrenable); /* make context = the interrupt status bits that we care about */ if (hcca->donehead != 0) { context = OHCI_INTR_WDH; /* hcca donehead needs processing */ if (hcca->donehead & cpu_to_le32(1)) { context |= status; /* other status change to check */ } } else { context = status; if (!context) { /* TODO increment a useless interrupt counter here */ return; } } /* Disable HC interrupts */ /* why? - paulus */ writel(OHCI_INTR_MIE, ®s->intrdisable); #if 0 /* Only do this for SERIOUS debugging, be sure kern.debug logs * are not going to the console as this can cause your * machine to lock up if so... -greg */ show_ohci_status(ohci); #endif /* Process the done list */ if (context & OHCI_INTR_WDH) { /* See which TD's completed.. */ ohci_reap_donelist(ohci); /* reset the done queue and tell the controller */ hcca->donehead = 0; /* XXX already done in ohci_reverse_donelist */ writel(OHCI_INTR_WDH, ®s->intrstatus); context &= ~OHCI_INTR_WDH; /* mark this as checked */ } #ifdef OHCI_RHSC_INT /* NOTE: this is very funky on some USB controllers (ie: it * doesn't work right). Using the ohci_timer instead to poll * the root hub is a much better choice. */ /* Process any root hub status changes */ if (context & OHCI_INTR_RHSC) { /* Wake the thread to process root hub events */ if (waitqueue_active(&ohci_configure)) wake_up(&ohci_configure); writel(OHCI_INTR_RHSC, ®s->intrstatus); /* * Don't unset RHSC in context; it should be disabled. * The control thread will re-enable it after it has * checked the root hub status. */ } #endif /* Start of Frame interrupts, used during safe ED removal */ if (context & (OHCI_INTR_SF)) { writel(OHCI_INTR_SF, ®s->intrstatus); if (waitqueue_active(&start_of_frame_wakeup)) wake_up(&start_of_frame_wakeup); /* Do NOT mark the frame start interrupt as checked * as we don't want to receive any more of them until * asked. */ } /* Check those "other" pesky bits */ if (context & (OHCI_INTR_FNO)) { writel(OHCI_INTR_FNO, ®s->intrstatus); context &= ~OHCI_INTR_FNO; /* mark this as checked */ } if (context & OHCI_INTR_SO) { writel(OHCI_INTR_SO, ®s->intrstatus); context &= ~OHCI_INTR_SO; /* mark this as checked */ } if (context & OHCI_INTR_RD) { writel(OHCI_INTR_RD, ®s->intrstatus); context &= ~OHCI_INTR_RD; /* mark this as checked */ } if (context & OHCI_INTR_UE) { /* TODO: need to have the control thread reset the * controller now and keep a count of unrecoverable * errors. If there are too many, it should just shut * the broken controller down entirely. */ writel(OHCI_INTR_UE, ®s->intrstatus); context &= ~OHCI_INTR_UE; /* mark this as checked */ } if (context & OHCI_INTR_OC) { writel(OHCI_INTR_OC, ®s->intrstatus); context &= ~OHCI_INTR_OC; /* mark this as checked */ } /* Mask out any remaining unprocessed or unmasked interrupts * so that we don't get any more of them. */ if (context & ~OHCI_INTR_MIE) { writel(context, ®s->intrdisable); } /* Re-enable HC interrupts */ writel(OHCI_INTR_MIE, ®s->intrenable); } /* ohci_interrupt() */ /* * Allocate the resources required for running an OHCI controller. * Host controller interrupts must not be running while calling this * function or the penguins will get angry. * * The mem_base parameter must be the usable -virtual- address of the * host controller's memory mapped I/O registers. */ static struct ohci *alloc_ohci(void* mem_base) { int i; struct ohci *ohci; struct usb_bus *bus; struct ohci_device *dev; struct usb_device *usb; struct ohci_hcca *hcca; u32 ctrl; #if 0 printk(KERN_DEBUG "entering alloc_ohci %p\n", mem_base); #endif ohci = kmalloc(sizeof(*ohci), GFP_KERNEL); if (!ohci) return NULL; memset(ohci, 0, sizeof(*ohci)); ohci->irq = -1; ohci->regs = mem_base; INIT_LIST_HEAD(&ohci->interrupt_list); /* * Allocate the Host Controller Communications Area on a 256 * byte boundary. XXX take the easy way out and just grab a * page as that's guaranteed to have a nice boundary. */ hcca = (struct ohci_hcca *) __get_free_page(GFP_KERNEL); if (hcca == NULL) goto au_free_ohci; memset(hcca, 0, sizeof(struct ohci_hcca)); bus = usb_alloc_bus(&ohci_device_operations); if (!bus) goto au_free_hcca; ohci->bus = bus; bus->hcpriv = ohci; /* * Allocate the USB device structure and root hub. * * Here we allocate our own root hub and TDs as well as the * OHCI host controller communications area. The HCCA is just * a nice pool of memory with pointers to endpoint descriptors * for the different interrupts. */ usb = usb_alloc_dev(NULL, bus); if (!usb) goto au_free_bus; usb->bus = bus; dev = usb_to_ohci(usb); dev->ohci = ohci; dev->hcca = hcca; ohci->bus->root_hub = ohci_to_usb(dev); /* Initialize the root hub */ dev->ohci = ohci; /* link back to the controller */ /* Tell the controller where the HCCA is */ writel(virt_to_bus(dev->hcca), &ohci->regs->hcca); #if 0 printk(KERN_DEBUG "usb-ohci: HCCA allocated at %p (bus %p)\n", dev->hcca, (void*)virt_to_bus(dev->hcca)); #endif /* Get the number of ports on the root hub */ usb->maxchild = readl(&ohci->regs->roothub.a) & 0xff; if (usb->maxchild > MAX_ROOT_PORTS) { printk(KERN_INFO "usb-ohci: Limited to %d ports\n", MAX_ROOT_PORTS); usb->maxchild = MAX_ROOT_PORTS; } if (usb->maxchild < 1) { printk(KERN_ERR "usb-ohci: Less than one root hub port? Impossible!\n"); usb->maxchild = 1; } printk(KERN_DEBUG "usb-ohci: %d root hub ports found\n", usb->maxchild); /* * Fix up legacy mode */ ctrl = readl(&ohci->regs->control); if(ctrl&OHCI_USB_IR) { int ct = 0; /* Ask SMM for the controls */ writel(8, &ohci->regs->cmdstatus); printk(KERN_INFO "usb-ohci: switching interface from legacy mode.\n"); while((readl(&ohci->regs->control)&OHCI_USB_IR) && ct < 250) { udelay(100); ct++; } } /* * Initialize the ED polling "tree" (for simplicity's sake in * this driver many nodes in the tree will be identical) */ dev->ed[ED_INT_32].next_ed = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_16])); dev->ed[ED_INT_16].next_ed = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_8])); dev->ed[ED_INT_8].next_ed = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_4])); dev->ed[ED_INT_4].next_ed = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_2])); dev->ed[ED_INT_2].next_ed = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_1])); /* * Initialize the polling table to call interrupts at the * intended intervals. Note that these EDs are just * placeholders. They have their SKIP bit set and are used as * list heads to insert real EDs onto. */ dev->hcca->int_table[0] = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_1])); for (i = 1; i < NUM_INTS; i++) { if (i & 16) dev->hcca->int_table[i] = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_32])); if (i & 8) dev->hcca->int_table[i] = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_16])); if (i & 4) dev->hcca->int_table[i] = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_8])); if (i & 2) dev->hcca->int_table[i] = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_4])); if (i & 1) dev->hcca->int_table[i] = cpu_to_le32(virt_to_bus(&dev->ed[ED_INT_2])); } /* * Tell the controller where the control and bulk lists are. * The lists start out empty. */ writel(0, &ohci->regs->ed_controlhead); writel(0, &ohci->regs->ed_bulkhead); #ifdef OHCI_DEBUG if (MegaDebug) { printk(KERN_DEBUG "alloc_ohci(): controller\n"); show_ohci_status(ohci); } #endif #if 0 printk(KERN_DEBUG "leaving alloc_ohci %p\n", ohci); #endif return ohci; au_free_bus: usb_free_bus(bus); au_free_hcca: free_page((unsigned long)hcca); au_free_ohci: kfree(ohci); return NULL; } /* alloc_ohci() */ /* * De-allocate all resoueces.. */ static void release_ohci(struct ohci *ohci) { printk(KERN_INFO "Releasing OHCI controller 0x%p\n", ohci); #ifdef OHCI_TIMER /* stop our timer */ del_timer(&ohci_timer); #endif if (ohci->irq >= 0) { free_irq(ohci->irq, ohci); ohci->irq = -1; } /* stop all OHCI interrupts */ writel(~0x0, &ohci->regs->intrdisable); if (ohci->bus->root_hub) { struct ohci_device *root_hub=usb_to_ohci(ohci->bus->root_hub); /* ensure that HC is stopped before releasing the HCCA */ writel(OHCI_USB_SUSPEND, &ohci->regs->control); free_page((unsigned long) root_hub->hcca); kfree(ohci->bus->root_hub); ohci->bus->root_hub = NULL; } /* unmap the IO address space */ iounmap(ohci->regs); kfree(ohci); MOD_DEC_USE_COUNT; /* If the ohci itself were dynamic we'd free it here */ printk(KERN_DEBUG "usb-ohci: HC resources released.\n"); } /* release_ohci() */ /* * USB OHCI control thread */ static int ohci_control_thread(void * __ohci) { struct ohci *ohci = (struct ohci *)__ohci; /* * I'm unfamiliar with the SMP kernel locking.. where should * this be released and what does it do? -greg */ lock_kernel(); /* * This thread doesn't need any user-level access, * so get rid of all of our resources.. */ printk(KERN_DEBUG "ohci-control thread code for 0x%p code at 0x%p\n", __ohci, &ohci_control_thread); exit_mm(current); exit_files(current); /*exit_fs(current);*/ /* can't do kernel_thread if we do this */ strcpy(current->comm, "ohci-control"); usb_register_bus(ohci->bus); /* * Damn the torpedoes, full speed ahead */ if (start_hc(ohci) < 0) { printk(KERN_ERR "usb-ohci: failed to start the controller\n"); release_ohci(ohci); usb_deregister_bus(ohci->bus); printk(KERN_INFO "leaving ohci_control_thread %p\n", __ohci); return 0; } for(;;) { siginfo_t info; int unsigned long signr; wait_ms(200); /* check the root hub configuration for changes. */ ohci_check_configuration(ohci); /* re-enable root hub status change interrupts. */ #ifdef OHCI_RHSC_INT writel(OHCI_INTR_RHSC, &ohci->regs->intrenable); #endif printk(KERN_DEBUG "ohci-control thread sleeping\n"); interruptible_sleep_on(&ohci_configure); #ifdef CONFIG_APM if (apm_resume) { apm_resume = 0; if (start_hc(ohci) < 0) break; continue; } #endif /* * If we were woken up by a signal, see if its useful, * otherwise exit. */ if (signal_pending(current)) { /* sending SIGUSR1 makes us print out some info */ spin_lock_irq(¤t->sigmask_lock); signr = dequeue_signal(¤t->blocked, &info); spin_unlock_irq(¤t->sigmask_lock); if(signr == SIGUSR1) { printk(KERN_DEBUG "OHCI status dump:\n"); show_ohci_status(ohci); } else if (signr == SIGUSR2) { /* toggle mega TD/ED debugging output */ #ifdef OHCI_DEBUG MegaDebug = !MegaDebug; printk(KERN_DEBUG "usb-ohci: Mega debugging %sabled.\n", MegaDebug ? "en" : "dis"); #endif } else { /* unknown signal, exit the thread */ printk(KERN_DEBUG "usb-ohci: control thread for %p exiting on signal %ld\n", __ohci, signr); break; } } } /* for (;;) */ reset_hc(ohci); release_ohci(ohci); usb_deregister_bus(ohci->bus); return 0; } /* ohci_control_thread() */ #ifdef CONFIG_APM static int handle_apm_event(apm_event_t event) { static int down = 0; switch (event) { case APM_SYS_SUSPEND: case APM_USER_SUSPEND: if (down) { printk(KERN_DEBUG "usb-ohci: received extra suspend event\n"); break; } down = 1; break; case APM_NORMAL_RESUME: case APM_CRITICAL_RESUME: if (!down) { printk(KERN_DEBUG "usb-ohci: received bogus resume event\n"); break; } down = 0; if (waitqueue_active(&ohci_configure)) { apm_resume = 1; wake_up(&ohci_configure); } break; } return 0; } /* handle_apm_event() */ #endif #ifdef OHCI_TIMER /* * Inspired by Iñaky's driver. This function is a timer routine that * is called every OHCI_TIMER_FREQ ms. It polls the root hub for * status changes as on my system the RHSC interrupt just doesn't * play well with others.. (so RHSC is turned off by default in this * driver) * [my controller is a "SiS 7001 USB (rev 16)"] * -greg */ static void ohci_timer_func (unsigned long ohci_ptr) { struct ohci *ohci = (struct ohci*)ohci_ptr; ohci_root_hub_events(ohci); /* set the next timer */ mod_timer(&ohci_timer, jiffies + ((OHCI_TIMER_FREQ*HZ)/1000)); } /* ohci_timer_func() */ #endif /* * Increment the module usage count, start the control thread and * return success if the controller is good. */ static int found_ohci(int irq, void* mem_base) { int retval; struct ohci *ohci; #if 0 printk(KERN_DEBUG "entering found_ohci %d %p\n", irq, mem_base); #endif /* Allocate the running OHCI structures */ ohci = alloc_ohci(mem_base); if (!ohci) { return -ENOMEM; } #ifdef OHCI_TIMER init_timer(&ohci_timer); ohci_timer.expires = jiffies + ((OHCI_TIMER_FREQ*HZ)/1000); ohci_timer.data = (unsigned long)ohci; ohci_timer.function = ohci_timer_func; add_timer(&ohci_timer); #endif retval = -EBUSY; if (request_irq(irq, ohci_interrupt, SA_SHIRQ, "usb-ohci", ohci) == 0) { int pid; ohci->irq = irq; #ifdef OHCI_DEBUG printk(KERN_DEBUG "usb-ohci: forking ohci-control thread for 0x%p\n", ohci); #endif /* fork off the handler */ pid = kernel_thread(ohci_control_thread, ohci, CLONE_FS | CLONE_FILES | CLONE_SIGHAND); if (pid >= 0) { return 0; } retval = pid; } else { printk(KERN_ERR "usb-ohci: Couldn't allocate interrupt %d\n", irq); } release_ohci(ohci); #ifdef OHCI_DEBUG printk(KERN_DEBUG "leaving found_ohci %d %p\n", irq, mem_base); #endif return retval; } /* found_ohci() */ /* * If this controller is for real, map the IO memory and proceed */ static int init_ohci(struct pci_dev *dev) { unsigned long mem_base = dev->resource[0].flags; /* If its OHCI, its memory */ if (mem_base & PCI_BASE_ADDRESS_SPACE_IO) return -ENODEV; pci_set_master(dev); /* Get the memory address and map it for IO */ mem_base = dev->resource[0].start; /* no interrupt won't work... */ if (dev->irq == 0) { printk(KERN_ERR "usb-ohci: no irq assigned? check your BIOS settings.\n"); return -ENODEV; } /* * FIXME ioremap_nocache isn't implemented on all CPUs (such * as the Alpha) [?] What should I use instead... * * The iounmap() is done on in release_ohci. */ mem_base = (unsigned long) ioremap_nocache(mem_base, 4096); if (!mem_base) { printk(KERN_ERR "Error mapping OHCI memory\n"); return -EFAULT; } MOD_INC_USE_COUNT; #ifdef OHCI_DEBUG printk(KERN_INFO "usb-ohci: Warning! Gobs of debugging output has been enabled.\n"); printk(KERN_INFO " Check your kern.debug logs for the bulk of it.\n"); #endif if (found_ohci(dev->irq, (void *) mem_base) < 0) { MOD_DEC_USE_COUNT; return -1; } return 0; } /* init_ohci() */ /* TODO this should be named following Linux convention and go in pci.h */ #define PCI_CLASS_SERIAL_USB_OHCI ((PCI_CLASS_SERIAL_USB << 8) | 0x0010) /* * Search the PCI bus for an OHCI USB controller and set it up * * If anyone wants multiple controllers this will need to be * updated.. Right now, it just picks the first one it finds. */ int ohci_init(void) { int retval; struct pci_dev *dev = NULL; /*u8 type;*/ if (sizeof(struct ohci_device) > 4096) { printk(KERN_ERR "usb-ohci: struct ohci_device to large\n"); return -ENODEV; } printk(KERN_INFO "OHCI USB Driver loading\n"); retval = -ENODEV; for (;;) { /* Find an OHCI USB controller */ dev = pci_find_class(PCI_CLASS_SERIAL_USB_OHCI, dev); if (!dev) break; /* Verify that its OpenHCI by checking for MMIO */ /* pci_read_config_byte(dev, PCI_CLASS_PROG, &type); if (!type) continue; */ /* Ok, set it up */ retval = init_ohci(dev); if (retval < 0) continue; #ifdef CONFIG_APM apm_register_callback(&handle_apm_event); #endif return 0; /* no error */ } return retval; } /* ohci_init */ #ifdef MODULE /* * Clean up when unloading the module */ void cleanup_module(void){ # ifdef CONFIG_APM apm_unregister_callback(&handle_apm_event); # endif printk(KERN_ERR "usb-ohci: module unloaded\n"); } int init_module(void){ return ohci_init(); } #endif //MODULE /* vim:sw=8 */ |