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|
/*
* This file is part of the libpayload project.
*
* Copyright (C) 2010 Patrick Georgi
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
//#define USB_DEBUG
#include <arch/virtual.h>
#include <usb/usb.h>
#include "ohci_private.h"
#include "ohci.h"
static void ohci_start (hci_t *controller);
static void ohci_stop (hci_t *controller);
static void ohci_reset (hci_t *controller);
static void ohci_shutdown (hci_t *controller);
static int ohci_bulk (endpoint_t *ep, int size, u8 *data, int finalize);
static int ohci_control (usbdev_t *dev, direction_t dir, int drlen, void *devreq,
int dalen, u8 *data);
static void* ohci_create_intr_queue (endpoint_t *ep, int reqsize, int reqcount, int reqtiming);
static void ohci_destroy_intr_queue (endpoint_t *ep, void *queue);
static u8* ohci_poll_intr_queue (void *queue);
static int ohci_process_done_queue(ohci_t *ohci, int spew_debug);
#ifdef USB_DEBUG
static void
dump_td (td_t *cur)
{
usb_debug("+---------------------------------------------------+\n");
if (((cur->config & (3UL << 19)) >> 19) == 0)
usb_debug("|..[SETUP]..........................................|\n");
else if (((cur->config & (3UL << 8)) >> 8) == 2)
usb_debug("|..[IN].............................................|\n");
else if (((cur->config & (3UL << 8)) >> 8) == 1)
usb_debug("|..[OUT]............................................|\n");
else
usb_debug("|..[]...............................................|\n");
usb_debug("|:|============ OHCI TD at [0x%08lx] ==========|:|\n", virt_to_phys(cur));
usb_debug("|:| ERRORS = [%ld] | CONFIG = [0x%08lx] | |:|\n",
3 - ((cur->config & (3UL << 26)) >> 26), cur->config);
usb_debug("|:+-----------------------------------------------+:|\n");
usb_debug("|:| C | Condition Code | [%02ld] |:|\n", (cur->config & (0xFUL << 28)) >> 28);
usb_debug("|:| O | Direction/PID | [%ld] |:|\n", (cur->config & (3UL << 19)) >> 19);
usb_debug("|:| N | Buffer Rounding | [%ld] |:|\n", (cur->config & (1UL << 18)) >> 18);
usb_debug("|:| F | Delay Intterrupt | [%ld] |:|\n", (cur->config & (7UL << 21)) >> 21);
usb_debug("|:| I | Data Toggle | [%ld] |:|\n", (cur->config & (3UL << 24)) >> 24);
usb_debug("|:| G | Error Count | [%ld] |:|\n", (cur->config & (3UL << 26)) >> 26);
usb_debug("|:+-----------------------------------------------+:|\n");
usb_debug("|:| Current Buffer Pointer [0x%08lx] |:|\n", cur->current_buffer_pointer);
usb_debug("|:+-----------------------------------------------+:|\n");
usb_debug("|:| Next TD [0x%08lx] |:|\n", cur->next_td);
usb_debug("|:+-----------------------------------------------+:|\n");
usb_debug("|:| Current Buffer End [0x%08lx] |:|\n", cur->buffer_end);
usb_debug("|:|-----------------------------------------------|:|\n");
usb_debug("|...................................................|\n");
usb_debug("+---------------------------------------------------+\n");
}
static void
dump_ed (ed_t *cur)
{
td_t *tmp_td = NULL;
usb_debug("+===================================================+\n");
usb_debug("| ############# OHCI ED at [0x%08lx] ########### |\n", virt_to_phys(cur));
usb_debug("+---------------------------------------------------+\n");
usb_debug("| Next Endpoint Descriptor [0x%08lx] |\n", cur->next_ed & ~0xFUL);
usb_debug("+---------------------------------------------------+\n");
usb_debug("| | @ 0x%08lx : |\n", cur->config);
usb_debug("| C | Maximum Packet Length | [%04ld] |\n", ((cur->config & (0x3fffUL << 16)) >> 16));
usb_debug("| O | Function Address | [%04ld] |\n", cur->config & 0x7F);
usb_debug("| N | Endpoint Number | [%02ld] |\n", (cur->config & (0xFUL << 7)) >> 7);
usb_debug("| F | Endpoint Direction | [%ld] |\n", ((cur->config & (3UL << 11)) >> 11));
usb_debug("| I | Endpoint Speed | [%ld] |\n", ((cur->config & (1UL << 13)) >> 13));
usb_debug("| G | Skip | [%ld] |\n", ((cur->config & (1UL << 14)) >> 14));
usb_debug("| | Format | [%ld] |\n", ((cur->config & (1UL << 15)) >> 15));
usb_debug("+---------------------------------------------------+\n");
usb_debug("| TD Queue Tail Pointer [0x%08lx] |\n", cur->tail_pointer & ~0xFUL);
usb_debug("+---------------------------------------------------+\n");
usb_debug("| TD Queue Head Pointer [0x%08lx] |\n", cur->head_pointer & ~0xFUL);
usb_debug("| CarryToggleBit [%d] Halted [%d] |\n", (u16)(cur->head_pointer & 0x2UL)>>1, (u16)(cur->head_pointer & 0x1UL));
tmp_td = (td_t *)phys_to_virt((cur->head_pointer & ~0xFUL));
if ((cur->head_pointer & ~0xFUL) != (cur->tail_pointer & ~0xFUL)) {
usb_debug("|:::::::::::::::::: OHCI TD CHAIN ::::::::::::::::::|\n");
while (virt_to_phys(tmp_td) != (cur->tail_pointer & ~0xFUL))
{
dump_td(tmp_td);
tmp_td = (td_t *)phys_to_virt((tmp_td->next_td & ~0xFUL));
}
usb_debug("|:::::::::::::::: EOF OHCI TD CHAIN ::::::::::::::::|\n");
usb_debug("+---------------------------------------------------+\n");
} else {
usb_debug("+---------------------------------------------------+\n");
}
}
#endif
static void
ohci_reset (hci_t *controller)
{
if (controller == NULL)
return;
OHCI_INST(controller)->opreg->HcCommandStatus = HostControllerReset;
mdelay(2); /* wait 2ms */
OHCI_INST(controller)->opreg->HcControl = 0;
mdelay(10); /* wait 10ms */
}
static void
ohci_reinit (hci_t *controller)
{
}
#if 0 && defined(USB_DEBUG)
/* Section 4.3.3 */
static const char *completion_codes[] = {
"No error",
"CRC",
"Bit stuffing",
"Data toggle mismatch",
"Stall",
"Device not responding",
"PID check failure",
"Unexpected PID",
"Data overrun",
"Data underrun",
"--- (10)",
"--- (11)",
"Buffer overrun",
"Buffer underrun",
"Not accessed (14)",
"Not accessed (15)"
};
/* Section 4.3.1.2 */
static const char *direction[] = {
"SETUP",
"OUT",
"IN",
"reserved / from TD"
};
#endif
hci_t *
ohci_init (unsigned long physical_bar)
{
int i;
hci_t *controller = new_controller ();
if (!controller)
fatal("Could not create USB controller instance.\n");
controller->instance = malloc (sizeof (ohci_t));
if(!controller->instance)
fatal("Not enough memory creating USB controller instance.\n");
controller->type = OHCI;
controller->start = ohci_start;
controller->stop = ohci_stop;
controller->reset = ohci_reset;
controller->init = ohci_reinit;
controller->shutdown = ohci_shutdown;
controller->bulk = ohci_bulk;
controller->control = ohci_control;
controller->set_address = generic_set_address;
controller->finish_device_config = NULL;
controller->destroy_device = NULL;
controller->create_intr_queue = ohci_create_intr_queue;
controller->destroy_intr_queue = ohci_destroy_intr_queue;
controller->poll_intr_queue = ohci_poll_intr_queue;
for (i = 0; i < 128; i++) {
controller->devices[i] = 0;
}
init_device_entry (controller, 0);
OHCI_INST (controller)->roothub = controller->devices[0];
OHCI_INST (controller)->opreg = (opreg_t*)phys_to_virt(physical_bar);
usb_debug("OHCI Version %x.%x\n", (OHCI_INST (controller)->opreg->HcRevision >> 4) & 0xf, OHCI_INST (controller)->opreg->HcRevision & 0xf);
if ((OHCI_INST (controller)->opreg->HcControl & HostControllerFunctionalStateMask) == USBReset) {
/* cold boot */
OHCI_INST (controller)->opreg->HcControl &= ~RemoteWakeupConnected;
OHCI_INST (controller)->opreg->HcFmInterval = (11999 * FrameInterval) | ((((11999 - 210)*6)/7) * FSLargestDataPacket);
/* TODO: right value for PowerOnToPowerGoodTime ? */
OHCI_INST (controller)->opreg->HcRhDescriptorA = NoPowerSwitching | NoOverCurrentProtection | (10 * PowerOnToPowerGoodTime);
OHCI_INST (controller)->opreg->HcRhDescriptorB = (0 * DeviceRemovable);
udelay(100); /* TODO: reset asserting according to USB spec */
} else if ((OHCI_INST (controller)->opreg->HcControl & HostControllerFunctionalStateMask) != USBOperational) {
OHCI_INST (controller)->opreg->HcControl = (OHCI_INST (controller)->opreg->HcControl & ~HostControllerFunctionalStateMask) | USBResume;
udelay(100); /* TODO: resume time according to USB spec */
}
int interval = OHCI_INST (controller)->opreg->HcFmInterval;
OHCI_INST (controller)->opreg->HcCommandStatus = HostControllerReset;
udelay (10); /* at most 10us for reset to complete. State must be set to Operational within 2ms (5.1.1.4) */
OHCI_INST (controller)->opreg->HcFmInterval = interval;
OHCI_INST (controller)->hcca = dma_memalign(256, 256);
memset((void*)OHCI_INST (controller)->hcca, 0, 256);
if (dma_initialized()) {
OHCI_INST(controller)->dma_buffer = dma_memalign(4096, DMA_SIZE);
if (!OHCI_INST(controller)->dma_buffer)
fatal("Not enough DMA memory for OHCI bounce buffer.\n");
}
/* Initialize interrupt table. */
u32 *const intr_table = OHCI_INST(controller)->hcca->HccaInterruptTable;
ed_t *const periodic_ed = dma_memalign(sizeof(ed_t), sizeof(ed_t));
memset((void *)periodic_ed, 0, sizeof(*periodic_ed));
for (i = 0; i < 32; ++i)
intr_table[i] = virt_to_phys(periodic_ed);
OHCI_INST (controller)->periodic_ed = periodic_ed;
OHCI_INST (controller)->opreg->HcHCCA = virt_to_phys(OHCI_INST (controller)->hcca);
/* Make sure periodic schedule is enabled. */
OHCI_INST (controller)->opreg->HcControl |= PeriodicListEnable;
OHCI_INST (controller)->opreg->HcControl &= ~IsochronousEnable; // unused by this driver
// disable everything, contrary to what OHCI spec says in 5.1.1.4, as we don't need IRQs
OHCI_INST (controller)->opreg->HcInterruptEnable = 1<<31;
OHCI_INST (controller)->opreg->HcInterruptDisable = ~(1<<31);
OHCI_INST (controller)->opreg->HcInterruptStatus = ~0;
OHCI_INST (controller)->opreg->HcPeriodicStart = (((OHCI_INST (controller)->opreg->HcFmInterval & FrameIntervalMask) / 10) * 9);
OHCI_INST (controller)->opreg->HcControl = (OHCI_INST (controller)->opreg->HcControl & ~HostControllerFunctionalStateMask) | USBOperational;
mdelay(100);
controller->devices[0]->controller = controller;
controller->devices[0]->init = ohci_rh_init;
controller->devices[0]->init (controller->devices[0]);
return controller;
}
#ifdef CONFIG_LP_USB_PCI
hci_t *
ohci_pci_init (pcidev_t addr)
{
u32 reg_base;
/* regarding OHCI spec, Appendix A, BAR_OHCI register description, Table A-4
* BASE ADDRESS only [31-12] bits. All other usually 0, but not all.
* OHCI mandates MMIO, so bit 0 is clear */
reg_base = pci_read_config32 (addr, 0x10) & 0xfffff000;
return ohci_init((unsigned long)reg_base);
}
#endif
static void
ohci_shutdown (hci_t *controller)
{
if (controller == 0)
return;
detach_controller (controller);
ohci_stop(controller);
OHCI_INST (controller)->roothub->destroy (OHCI_INST (controller)->
roothub);
free ((void *)OHCI_INST (controller)->periodic_ed);
free (OHCI_INST (controller));
free (controller);
}
static void
ohci_start (hci_t *controller)
{
// TODO: turn on all operation of OHCI, but assume that it's initialized.
}
static void
ohci_stop (hci_t *controller)
{
// TODO: turn off all operation of OHCI
}
static int
wait_for_ed(usbdev_t *dev, ed_t *head, int pages)
{
/* wait for results */
/* TOTEST: how long to wait?
* give 2s per TD (2 pages) plus another 2s for now
*/
int timeout = pages*1000 + 2000;
while (((head->head_pointer & ~3) != head->tail_pointer) &&
!(head->head_pointer & 1) &&
((((td_t*)phys_to_virt(head->head_pointer & ~3))->config
& TD_CC_MASK) >= TD_CC_NOACCESS) &&
timeout--) {
/* don't log every ms */
if (!(timeout % 100))
usb_debug("intst: %x; ctrl: %x; cmdst: %x; head: %x -> %x, tail: %x, condition: %x\n",
OHCI_INST(dev->controller)->opreg->HcInterruptStatus,
OHCI_INST(dev->controller)->opreg->HcControl,
OHCI_INST(dev->controller)->opreg->HcCommandStatus,
head->head_pointer,
((td_t*)phys_to_virt(head->head_pointer & ~3))->next_td,
head->tail_pointer,
(((td_t*)phys_to_virt(head->head_pointer & ~3))->config & TD_CC_MASK) >> TD_CC_SHIFT);
mdelay(1);
}
if (timeout < 0)
usb_debug("Error: ohci: endpoint "
"descriptor processing timed out.\n");
/* Clear the done queue. */
int result = ohci_process_done_queue(OHCI_INST(dev->controller), 1);
if (head->head_pointer & 1) {
usb_debug("HALTED!\n");
return -1;
}
return result;
}
static void
ohci_free_ed (ed_t *const head)
{
/* In case the transfer canceled, we have to free unprocessed TDs. */
while ((head->head_pointer & ~0x3) != head->tail_pointer) {
/* Save current TD pointer. */
td_t *const cur_td =
(td_t*)phys_to_virt(head->head_pointer & ~0x3);
/* Advance head pointer. */
head->head_pointer = cur_td->next_td;
/* Free current TD. */
free((void *)cur_td);
}
/* Always free the dummy TD */
if ((head->head_pointer & ~0x3) == head->tail_pointer)
free(phys_to_virt(head->head_pointer & ~0x3));
/* and the ED. */
free((void *)head);
}
static int
ohci_control (usbdev_t *dev, direction_t dir, int drlen, void *setup, int dalen,
unsigned char *src)
{
u8 *data = src;
u8 *devreq = setup;
int remaining = dalen;
td_t *cur;
if (!dma_coherent(devreq)) {
devreq = OHCI_INST(dev->controller)->dma_buffer;
memcpy(devreq, setup, drlen);
}
if (dalen > 0 && !dma_coherent(src)) {
data = OHCI_INST(dev->controller)->dma_buffer + drlen;
if (drlen + dalen > DMA_SIZE) {
usb_debug("OHCI control transfer too large for DMA buffer: %d\n", drlen + dalen);
return -1;
}
if (dir == OUT)
memcpy(data, src, dalen);
}
// pages are specified as 4K in OHCI, so don't use getpagesize()
int first_page = (unsigned long)data / 4096;
int last_page = (unsigned long)(data+dalen-1)/4096;
if (last_page < first_page) last_page = first_page;
int pages = (dalen==0)?0:(last_page - first_page + 1);
/* First TD. */
td_t *const first_td = (td_t *)dma_memalign(sizeof(td_t), sizeof(td_t));
memset((void *)first_td, 0, sizeof(*first_td));
cur = first_td;
cur->config = TD_DIRECTION_SETUP |
TD_DELAY_INTERRUPT_NOINTR |
TD_TOGGLE_FROM_TD |
TD_TOGGLE_DATA0 |
TD_CC_NOACCESS;
cur->current_buffer_pointer = virt_to_phys(devreq);
cur->buffer_end = virt_to_phys(devreq + drlen - 1);
while (pages > 0) {
/* One more TD. */
td_t *const next = (td_t *)dma_memalign(sizeof(td_t), sizeof(td_t));
memset((void *)next, 0, sizeof(*next));
/* Linked to the previous. */
cur->next_td = virt_to_phys(next);
/* Advance to the new TD. */
cur = next;
cur->config = (dir == IN ? TD_DIRECTION_IN : TD_DIRECTION_OUT) |
TD_DELAY_INTERRUPT_NOINTR |
TD_TOGGLE_FROM_ED |
TD_CC_NOACCESS;
cur->current_buffer_pointer = virt_to_phys(data);
pages--;
int consumed = (4096 - ((unsigned long)data % 4096));
if (consumed >= remaining) {
// end of data is within same page
cur->buffer_end = virt_to_phys(data + remaining - 1);
remaining = 0;
/* assert(pages == 0); */
} else {
remaining -= consumed;
data += consumed;
pages--;
int second_page_size = remaining;
if (remaining > 4096) {
second_page_size = 4096;
}
cur->buffer_end = virt_to_phys(data + second_page_size - 1);
remaining -= second_page_size;
data += second_page_size;
}
}
/* One more TD. */
td_t *const next_td = (td_t *)dma_memalign(sizeof(td_t), sizeof(td_t));
memset((void *)next_td, 0, sizeof(*next_td));
/* Linked to the previous. */
cur->next_td = virt_to_phys(next_td);
/* Advance to the new TD. */
cur = next_td;
cur->config = (dir == IN ? TD_DIRECTION_OUT : TD_DIRECTION_IN) |
TD_DELAY_INTERRUPT_ZERO | /* Write done head after this TD. */
TD_TOGGLE_FROM_TD |
TD_TOGGLE_DATA1 |
TD_CC_NOACCESS;
cur->current_buffer_pointer = 0;
cur->buffer_end = 0;
/* Final dummy TD. */
td_t *const final_td = (td_t *)dma_memalign(sizeof(td_t), sizeof(td_t));
memset((void *)final_td, 0, sizeof(*final_td));
/* Linked to the previous. */
cur->next_td = virt_to_phys(final_td);
/* Data structures */
ed_t *head = dma_memalign(sizeof(ed_t), sizeof(ed_t));
memset((void*)head, 0, sizeof(*head));
head->config = (dev->address << ED_FUNC_SHIFT) |
(0 << ED_EP_SHIFT) |
(OHCI_FROM_TD << ED_DIR_SHIFT) |
(dev->speed?ED_LOWSPEED:0) |
(dev->endpoints[0].maxpacketsize << ED_MPS_SHIFT);
head->tail_pointer = virt_to_phys(final_td);
head->head_pointer = virt_to_phys(first_td);
usb_debug("ohci_control(): doing transfer with %x. first_td at %x\n",
head->config & ED_FUNC_MASK, virt_to_phys(first_td));
#ifdef USB_DEBUG
dump_ed(head);
#endif
/* activate schedule */
OHCI_INST(dev->controller)->opreg->HcControlHeadED = virt_to_phys(head);
OHCI_INST(dev->controller)->opreg->HcControl |= ControlListEnable;
OHCI_INST(dev->controller)->opreg->HcCommandStatus = ControlListFilled;
int result = wait_for_ed(dev, head,
(dalen==0)?0:(last_page - first_page + 1));
/* Wait some frames before and one after disabling list access. */
mdelay(4);
OHCI_INST(dev->controller)->opreg->HcControl &= ~ControlListEnable;
mdelay(1);
/* free memory */
ohci_free_ed(head);
if (result >= 0) {
result = dalen - result;
if (dir == IN && data != src)
memcpy(src, data, result);
}
return result;
}
/* finalize == 1: if data is of packet aligned size, add a zero length packet */
static int
ohci_bulk (endpoint_t *ep, int dalen, u8 *src, int finalize)
{
int i;
td_t *cur, *next;
int remaining = dalen;
u8 *data = src;
usb_debug("bulk: %x bytes from %x, finalize: %x, maxpacketsize: %x\n", dalen, src, finalize, ep->maxpacketsize);
if (!dma_coherent(src)) {
data = OHCI_INST(ep->dev->controller)->dma_buffer;
if (dalen > DMA_SIZE) {
usb_debug("OHCI bulk transfer too large for DMA buffer: %d\n", dalen);
return -1;
}
if (ep->direction == OUT)
memcpy(data, src, dalen);
}
// pages are specified as 4K in OHCI, so don't use getpagesize()
int first_page = (unsigned long)data / 4096;
int last_page = (unsigned long)(data+dalen-1)/4096;
if (last_page < first_page) last_page = first_page;
int pages = (dalen==0)?0:(last_page - first_page + 1);
int td_count = (pages+1)/2;
if (finalize && ((dalen % ep->maxpacketsize) == 0)) {
td_count++;
}
/* First TD. */
td_t *const first_td = (td_t *)dma_memalign(sizeof(td_t), sizeof(td_t));
memset((void *)first_td, 0, sizeof(*first_td));
cur = next = first_td;
for (i = 0; i < td_count; ++i) {
/* Advance to next TD. */
cur = next;
cur->config = (ep->direction == IN ? TD_DIRECTION_IN : TD_DIRECTION_OUT) |
TD_DELAY_INTERRUPT_NOINTR |
TD_TOGGLE_FROM_ED |
TD_CC_NOACCESS;
cur->current_buffer_pointer = virt_to_phys(data);
pages--;
if (remaining == 0) {
/* magic TD for empty packet transfer */
cur->current_buffer_pointer = 0;
cur->buffer_end = 0;
/* assert((pages == 0) && finalize); */
}
int consumed = (4096 - ((unsigned long)data % 4096));
if (consumed >= remaining) {
// end of data is within same page
cur->buffer_end = virt_to_phys(data + remaining - 1);
remaining = 0;
/* assert(pages == finalize); */
} else {
remaining -= consumed;
data += consumed;
pages--;
int second_page_size = remaining;
if (remaining > 4096) {
second_page_size = 4096;
}
cur->buffer_end = virt_to_phys(data + second_page_size - 1);
remaining -= second_page_size;
data += second_page_size;
}
/* One more TD. */
next = (td_t *)dma_memalign(sizeof(td_t), sizeof(td_t));
memset((void *)next, 0, sizeof(*next));
/* Linked to the previous. */
cur->next_td = virt_to_phys(next);
}
/* Write done head after last TD. */
cur->config &= ~TD_DELAY_INTERRUPT_MASK;
/* Advance to final, dummy TD. */
cur = next;
/* Data structures */
ed_t *head = dma_memalign(sizeof(ed_t), sizeof(ed_t));
memset((void*)head, 0, sizeof(*head));
head->config = (ep->dev->address << ED_FUNC_SHIFT) |
((ep->endpoint & 0xf) << ED_EP_SHIFT) |
(((ep->direction==IN)?OHCI_IN:OHCI_OUT) << ED_DIR_SHIFT) |
(ep->dev->speed?ED_LOWSPEED:0) |
(ep->maxpacketsize << ED_MPS_SHIFT);
head->tail_pointer = virt_to_phys(cur);
head->head_pointer = virt_to_phys(first_td) | (ep->toggle?ED_TOGGLE:0);
usb_debug("doing bulk transfer with %x(%x). first_td at %x, last %x\n",
head->config & ED_FUNC_MASK,
(head->config & ED_EP_MASK) >> ED_EP_SHIFT,
virt_to_phys(first_td), virt_to_phys(cur));
/* activate schedule */
OHCI_INST(ep->dev->controller)->opreg->HcBulkHeadED = virt_to_phys(head);
OHCI_INST(ep->dev->controller)->opreg->HcControl |= BulkListEnable;
OHCI_INST(ep->dev->controller)->opreg->HcCommandStatus = BulkListFilled;
int result = wait_for_ed(ep->dev, head,
(dalen==0)?0:(last_page - first_page + 1));
/* Wait some frames before and one after disabling list access. */
mdelay(4);
OHCI_INST(ep->dev->controller)->opreg->HcControl &= ~BulkListEnable;
mdelay(1);
ep->toggle = head->head_pointer & ED_TOGGLE;
/* free memory */
ohci_free_ed(head);
if (result >= 0) {
result = dalen - result;
if (ep->direction == IN && data != src)
memcpy(src, data, result);
} else
clear_stall(ep);
return result;
}
struct _intr_queue;
struct _intrq_td {
volatile td_t td;
u8 *data;
struct _intrq_td *next;
struct _intr_queue *intrq;
};
struct _intr_queue {
volatile ed_t ed;
struct _intrq_td *head;
struct _intrq_td *tail;
u8 *data;
int reqsize;
endpoint_t *endp;
unsigned int remaining_tds;
int destroy;
};
typedef struct _intrq_td intrq_td_t;
typedef struct _intr_queue intr_queue_t;
#define INTRQ_TD_FROM_TD(x) ((intrq_td_t *)x)
static void
ohci_fill_intrq_td(intrq_td_t *const td, intr_queue_t *const intrq,
u8 *const data)
{
memset(td, 0, sizeof(*td));
td->td.config = TD_QUEUETYPE_INTR |
(intrq->endp->direction == IN
? TD_DIRECTION_IN : TD_DIRECTION_OUT) |
TD_DELAY_INTERRUPT_ZERO |
TD_TOGGLE_FROM_ED |
TD_CC_NOACCESS;
td->td.current_buffer_pointer = virt_to_phys(data);
td->td.buffer_end = td->td.current_buffer_pointer + intrq->reqsize - 1;
td->intrq = intrq;
td->data = data;
}
/* create and hook-up an intr queue into device schedule */
static void *
ohci_create_intr_queue(endpoint_t *const ep, const int reqsize,
const int reqcount, const int reqtiming)
{
int i;
intrq_td_t *first_td = NULL, *last_td = NULL;
if (reqsize > 4096)
return NULL;
intr_queue_t *const intrq =
(intr_queue_t *)dma_memalign(sizeof(intrq->ed), sizeof(*intrq));
memset(intrq, 0, sizeof(*intrq));
intrq->data = (u8 *)dma_malloc(reqcount * reqsize);
intrq->reqsize = reqsize;
intrq->endp = ep;
/* Create #reqcount TDs. */
u8 *cur_data = intrq->data;
for (i = 0; i < reqcount; ++i) {
intrq_td_t *const td = dma_memalign(sizeof(td->td), sizeof(*td));
++intrq->remaining_tds;
ohci_fill_intrq_td(td, intrq, cur_data);
cur_data += reqsize;
if (!first_td)
first_td = td;
else
last_td->td.next_td = virt_to_phys(&td->td);
last_td = td;
}
/* Create last, dummy TD. */
intrq_td_t *dummy_td = dma_memalign(sizeof(dummy_td->td), sizeof(*dummy_td));
memset(dummy_td, 0, sizeof(*dummy_td));
dummy_td->intrq = intrq;
if (last_td)
last_td->td.next_td = virt_to_phys(&dummy_td->td);
last_td = dummy_td;
/* Initialize ED. */
intrq->ed.config = (ep->dev->address << ED_FUNC_SHIFT) |
((ep->endpoint & 0xf) << ED_EP_SHIFT) |
(((ep->direction == IN) ? OHCI_IN : OHCI_OUT) << ED_DIR_SHIFT) |
(ep->dev->speed ? ED_LOWSPEED : 0) |
(ep->maxpacketsize << ED_MPS_SHIFT);
intrq->ed.tail_pointer = virt_to_phys(last_td);
intrq->ed.head_pointer = virt_to_phys(first_td) |
(ep->toggle ? ED_TOGGLE : 0);
/* Insert ED into periodic table. */
int nothing_placed = 1;
ohci_t *const ohci = OHCI_INST(ep->dev->controller);
u32 *const intr_table = ohci->hcca->HccaInterruptTable;
const u32 dummy_ptr = virt_to_phys(ohci->periodic_ed);
for (i = 0; i < 32; i += reqtiming) {
/* Advance to the next free position. */
while ((i < 32) && (intr_table[i] != dummy_ptr)) ++i;
if (i < 32) {
intr_table[i] = virt_to_phys(&intrq->ed);
nothing_placed = 0;
}
}
if (nothing_placed) {
usb_debug("Error: Failed to place ohci interrupt endpoint "
"descriptor into periodic table: no space left\n");
ohci_destroy_intr_queue(ep, intrq);
return NULL;
}
return intrq;
}
/* remove queue from device schedule, dropping all data that came in */
static void
ohci_destroy_intr_queue(endpoint_t *const ep, void *const q_)
{
intr_queue_t *const intrq = (intr_queue_t *)q_;
int i;
/* Remove interrupt queue from periodic table. */
ohci_t *const ohci = OHCI_INST(ep->dev->controller);
u32 *const intr_table = ohci->hcca->HccaInterruptTable;
for (i=0; i < 32; ++i) {
if (intr_table[i] == virt_to_phys(intrq))
intr_table[i] = virt_to_phys(ohci->periodic_ed);
}
/* Wait for frame to finish. */
mdelay(1);
/* Free unprocessed TDs. */
while ((intrq->ed.head_pointer & ~0x3) != intrq->ed.tail_pointer) {
td_t *const cur_td =
(td_t *)phys_to_virt(intrq->ed.head_pointer & ~0x3);
intrq->ed.head_pointer = cur_td->next_td;
free(INTRQ_TD_FROM_TD(cur_td));
--intrq->remaining_tds;
}
/* Free final, dummy TD. */
free(phys_to_virt(intrq->ed.head_pointer & ~0x3));
/* Free data buffer. */
free(intrq->data);
/* Free TDs already fetched from the done queue. */
ohci_process_done_queue(ohci, 1);
while (intrq->head) {
intrq_td_t *const cur_td = intrq->head;
intrq->head = intrq->head->next;
free(cur_td);
--intrq->remaining_tds;
}
/* Mark interrupt queue to be destroyed.
ohci_process_done_queue() will free the remaining TDs
and finish the interrupt queue off once all TDs are gone. */
intrq->destroy = 1;
/* Save data toggle. */
ep->toggle = intrq->ed.head_pointer & ED_TOGGLE;
}
/* read one intr-packet from queue, if available. extend the queue for new input.
return NULL if nothing new available.
Recommended use: while (data=poll_intr_queue(q)) process(data);
*/
static u8 *
ohci_poll_intr_queue(void *const q_)
{
intr_queue_t *const intrq = (intr_queue_t *)q_;
u8 *data = NULL;
/* Process done queue first, then check if we have work to do. */
ohci_process_done_queue(OHCI_INST(intrq->endp->dev->controller), 0);
if (intrq->head) {
/* Save pointer to processed TD and advance. */
intrq_td_t *const cur_td = intrq->head;
intrq->head = cur_td->next;
/* Return data buffer of this TD. */
data = cur_td->data;
/* Requeue this TD (i.e. copy to dummy and requeue as dummy). */
intrq_td_t *const dummy_td =
INTRQ_TD_FROM_TD(phys_to_virt(intrq->ed.tail_pointer));
ohci_fill_intrq_td(dummy_td, intrq, cur_td->data);
/* Reset all but intrq pointer (i.e. init as dummy). */
memset(cur_td, 0, sizeof(*cur_td));
cur_td->intrq = intrq;
/* Insert into interrupt queue as dummy. */
dummy_td->td.next_td = virt_to_phys(&cur_td->td);
intrq->ed.tail_pointer = virt_to_phys(&cur_td->td);
}
return data;
}
static int
ohci_process_done_queue(ohci_t *const ohci, const int spew_debug)
{
/* returns the amount of bytes *not* transmitted for short packets */
int result = 0;
int i, j;
/* Temporary queue of interrupt queue TDs (to reverse order). */
intrq_td_t *temp_tdq = NULL;
/* Check if done head has been written. */
if (!(ohci->opreg->HcInterruptStatus & WritebackDoneHead))
return 0;
/* Fetch current done head.
Lsb is only interesting for hw interrupts. */
u32 phys_done_queue = ohci->hcca->HccaDoneHead & ~1;
/* Tell host controller, he may overwrite the done head pointer. */
ohci->opreg->HcInterruptStatus = WritebackDoneHead;
i = 0;
/* Process done queue (it's in reversed order). */
while (phys_done_queue) {
td_t *const done_td = (td_t *)phys_to_virt(phys_done_queue);
/* Advance pointer to next TD. */
phys_done_queue = done_td->next_td;
switch (done_td->config & TD_QUEUETYPE_MASK) {
case TD_QUEUETYPE_ASYNC:
/* Free processed async TDs and count short transfer. */
if (done_td->current_buffer_pointer)
result += (done_td->buffer_end & 0xfff) -
(done_td->current_buffer_pointer
& 0xfff) + 1;
free((void *)done_td);
break;
case TD_QUEUETYPE_INTR: {
intrq_td_t *const td = INTRQ_TD_FROM_TD(done_td);
intr_queue_t *const intrq = td->intrq;
/* Check if the corresponding interrupt
queue is still beeing processed. */
if (intrq->destroy) {
/* Free this TD, and */
free(td);
--intrq->remaining_tds;
/* the interrupt queue if it has no more TDs. */
if (!intrq->remaining_tds)
free(intrq);
usb_debug("Freed TD from orphaned interrupt "
"queue, %d TDs remain.\n",
intrq->remaining_tds);
} else {
/* Save done TD to be processed. */
td->next = temp_tdq;
temp_tdq = td;
}
break;
}
default:
break;
}
++i;
}
if (spew_debug)
usb_debug("Processed %d done TDs.\n", i);
j = 0;
/* Process interrupt queue TDs in right order. */
while (temp_tdq) {
/* Save pointer of current TD and advance. */
intrq_td_t *const cur_td = temp_tdq;
temp_tdq = temp_tdq->next;
/* The interrupt queue for the current TD. */
intr_queue_t *const intrq = cur_td->intrq;
/* Append to interrupt queue. */
if (!intrq->head) {
/* First element. */
intrq->head = intrq->tail = cur_td;
} else {
/* Insert at tail. */
intrq->tail->next = cur_td;
intrq->tail = cur_td;
}
/* It's always the last element. */
cur_td->next = NULL;
++j;
}
if (spew_debug)
usb_debug("processed %d done tds, %d intr tds thereof.\n", i, j);
return result;
}
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