source: mainline/uspace/drv/bus/usb/uhci/hc.c@ 2ca5a198

/*
 * Copyright (c) 2011 Jan Vesely
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * - Redistributions of source code must retain the above copyright
 *   notice, this list of conditions and the following disclaimer.
 * - 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.
 * - 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 ``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 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.
 */

/** @addtogroup drvusbuhcihc
 * @{
 */
/** @file
 * @brief UHCI Host controller driver routines
 */

#include <adt/list.h>
#include <assert.h>
#include <async.h>
#include <ddi.h>
#include <device/hw_res_parsed.h>
#include <fibril.h>
#include <errno.h>
#include <macros.h>
#include <mem.h>
#include <stdlib.h>
#include <stdint.h>
#include <str_error.h>

#include <usb/debug.h>
#include <usb/usb.h>
#include <usb/host/utils/malloc32.h>
#include <usb/host/bandwidth.h>
#include <usb/host/utility.h>

#include "uhci_batch.h"
#include "transfer_list.h"
#include "hc.h"

#define UHCI_INTR_ALLOW_INTERRUPTS \
    (UHCI_INTR_CRC | UHCI_INTR_COMPLETE | UHCI_INTR_SHORT_PACKET)
#define UHCI_STATUS_USED_INTERRUPTS \
    (UHCI_STATUS_INTERRUPT | UHCI_STATUS_ERROR_INTERRUPT)

static const irq_pio_range_t uhci_irq_pio_ranges[] = {
        {
                .base = 0,
                .size = sizeof(uhci_regs_t)
        }
};

static const irq_cmd_t uhci_irq_commands[] = {
        {
                .cmd = CMD_PIO_READ_16,
                .dstarg = 1,
                .addr = NULL
        },
        {
                .cmd = CMD_AND,
                .srcarg = 1,
                .dstarg = 2,
                .value = UHCI_STATUS_USED_INTERRUPTS | UHCI_STATUS_NM_INTERRUPTS
        },
        {
                .cmd = CMD_PREDICATE,
                .srcarg = 2,
                .value = 2
        },
        {
                .cmd = CMD_PIO_WRITE_A_16,
                .srcarg = 1,
                .addr = NULL
        },
        {
                .cmd = CMD_ACCEPT
        }
};

static void hc_init_hw(const hc_t *instance);
static errno_t hc_init_mem_structures(hc_t *instance);
static errno_t hc_init_transfer_lists(hc_t *instance);

static errno_t hc_debug_checker(void *arg);


/** Generate IRQ code.
 * @param[out] code IRQ code structure.
 * @param[in] hw_res Device's resources.
 * @param[out] irq
 *
 * @return Error code.
 */
errno_t hc_gen_irq_code(irq_code_t *code, hc_device_t *hcd, const hw_res_list_parsed_t *hw_res, int *irq)
{
        assert(code);
        assert(hw_res);

        if (hw_res->irqs.count != 1 || hw_res->io_ranges.count != 1)
                return EINVAL;
        const addr_range_t regs = hw_res->io_ranges.ranges[0];

        if (RNGSZ(regs) < sizeof(uhci_regs_t))
                return EOVERFLOW;

        code->ranges = malloc(sizeof(uhci_irq_pio_ranges));
        if (code->ranges == NULL)
                return ENOMEM;

        code->cmds = malloc(sizeof(uhci_irq_commands));
        if (code->cmds == NULL) {
                free(code->ranges);
                return ENOMEM;
        }

        code->rangecount = ARRAY_SIZE(uhci_irq_pio_ranges);
        code->cmdcount = ARRAY_SIZE(uhci_irq_commands);

        memcpy(code->ranges, uhci_irq_pio_ranges, sizeof(uhci_irq_pio_ranges));
        code->ranges[0].base = RNGABS(regs);

        memcpy(code->cmds, uhci_irq_commands, sizeof(uhci_irq_commands));
        uhci_regs_t *registers = (uhci_regs_t *) RNGABSPTR(regs);
        code->cmds[0].addr = (void*)&registers->usbsts;
        code->cmds[3].addr = (void*)&registers->usbsts;

        usb_log_debug("I/O regs at %p (size %zu), IRQ %d.",
            RNGABSPTR(regs), RNGSZ(regs), hw_res->irqs.irqs[0]);

        *irq = hw_res->irqs.irqs[0];
        return EOK;
}

/** Take action based on the interrupt cause.
 *
 * @param[in] hcd HCD structure to use.
 * @param[in] status Value of the status register at the time of interrupt.
 *
 * Interrupt might indicate:
 * - transaction completed, either by triggering IOC, SPD, or an error
 * - some kind of device error
 * - resume from suspend state (not implemented)
 */
static void hc_interrupt(bus_t *bus, uint32_t status)
{
        hc_t *instance = bus_to_hc(bus);

        /* Lower 2 bits are transaction error and transaction complete */
        if (status & (UHCI_STATUS_INTERRUPT | UHCI_STATUS_ERROR_INTERRUPT)) {
                transfer_list_check_finished(&instance->transfers_interrupt);
                transfer_list_check_finished(&instance->transfers_control_slow);
                transfer_list_check_finished(&instance->transfers_control_full);
                transfer_list_check_finished(&instance->transfers_bulk_full);
        }

        /* Resume interrupts are not supported */
        if (status & UHCI_STATUS_RESUME) {
                usb_log_error("Resume interrupt!");
        }

        /* Bits 4 and 5 indicate hc error */
        if (status & (UHCI_STATUS_PROCESS_ERROR | UHCI_STATUS_SYSTEM_ERROR)) {
                usb_log_error("UHCI hardware failure!.");
                ++instance->hw_failures;
                transfer_list_abort_all(&instance->transfers_interrupt);
                transfer_list_abort_all(&instance->transfers_control_slow);
                transfer_list_abort_all(&instance->transfers_control_full);
                transfer_list_abort_all(&instance->transfers_bulk_full);

                if (instance->hw_failures < UHCI_ALLOWED_HW_FAIL) {
                        /* reinitialize hw, this triggers virtual disconnect*/
                        hc_init_hw(instance);
                } else {
                        usb_log_fatal("Too many UHCI hardware failures!.");
                        hc_gone(&instance->base);
                }
        }
}

/** Initialize UHCI hc driver structure
 *
 * @param[in] instance Memory place to initialize.
 * @param[in] regs Range of device's I/O control registers.
 * @param[in] interrupts True if hw interrupts should be used.
 * @return Error code.
 * @note Should be called only once on any structure.
 *
 * Initializes memory structures, starts up hw, and launches debugger and
 * interrupt fibrils.
 */
errno_t hc_add(hc_device_t *hcd, const hw_res_list_parsed_t *hw_res)
{
        hc_t *instance = hcd_to_hc(hcd);
        assert(hw_res);
        if (hw_res->io_ranges.count != 1 ||
            hw_res->io_ranges.ranges[0].size < sizeof(uhci_regs_t))
            return EINVAL;

        instance->hw_failures = 0;

        /* allow access to hc control registers */
        errno_t ret = pio_enable_range(&hw_res->io_ranges.ranges[0],
            (void **) &instance->registers);
        if (ret != EOK) {
                usb_log_error("Failed to gain access to registers: %s.",
                    str_error(ret));
                return ret;
        }

        usb_log_debug("Device registers at %" PRIx64 " (%zuB) accessible.",
            hw_res->io_ranges.ranges[0].address.absolute,
            hw_res->io_ranges.ranges[0].size);

        ret = hc_init_mem_structures(instance);
        if (ret != EOK) {
                usb_log_error("Failed to init UHCI memory structures: %s.",
                    str_error(ret));
                // TODO: we should disable pio here
                return ret;
        }

        return EOK;
}

int hc_start(hc_device_t *hcd)
{
        hc_t *instance = hcd_to_hc(hcd);
        hc_init_hw(instance);
        (void)hc_debug_checker;

        return uhci_rh_init(&instance->rh, instance->registers->ports, "uhci");
}

int hc_setup_roothub(hc_device_t *hcd)
{
        return hc_setup_virtual_root_hub(hcd, USB_SPEED_FULL);
}

/** Safely dispose host controller internal structures
 *
 * @param[in] instance Host controller structure to use.
 */
int hc_gone(hc_device_t *instance)
{
        assert(instance);
        //TODO Implement
        return ENOTSUP;
}

/** Initialize UHCI hc hw resources.
 *
 * @param[in] instance UHCI structure to use.
 * For magic values see UHCI Design Guide
 */
void hc_init_hw(const hc_t *instance)
{
        assert(instance);
        uhci_regs_t *registers = instance->registers;

        /* Reset everything, who knows what touched it before us */
        pio_write_16(&registers->usbcmd, UHCI_CMD_GLOBAL_RESET);
        async_usleep(50000); /* 50ms according to USB spec(root hub reset) */
        pio_write_16(&registers->usbcmd, 0);

        /* Reset hc, all states and counters. Hope that hw is not broken */
        pio_write_16(&registers->usbcmd, UHCI_CMD_HCRESET);
        do { async_usleep(10); }
        while ((pio_read_16(&registers->usbcmd) & UHCI_CMD_HCRESET) != 0);

        /* Set frame to exactly 1ms */
        pio_write_8(&registers->sofmod, 64);

        /* Set frame list pointer */
        const uint32_t pa = addr_to_phys(instance->frame_list);
        pio_write_32(&registers->flbaseadd, pa);

        if (instance->base.irq_cap >= 0) {
                /* Enable all interrupts, but resume interrupt */
                pio_write_16(&instance->registers->usbintr,
                    UHCI_INTR_ALLOW_INTERRUPTS);
        }

        const uint16_t cmd = pio_read_16(&registers->usbcmd);
        if (cmd != 0)
                usb_log_warning("Previous command value: %x.", cmd);

        /* Start the hc with large(64B) packet FSBR */
        pio_write_16(&registers->usbcmd,
            UHCI_CMD_RUN_STOP | UHCI_CMD_MAX_PACKET | UHCI_CMD_CONFIGURE);
}

static usb_transfer_batch_t *create_transfer_batch(endpoint_t *ep)
{
        uhci_transfer_batch_t *batch = uhci_transfer_batch_create(ep);
        return &batch->base;
}

static void destroy_transfer_batch(usb_transfer_batch_t *batch)
{
        uhci_transfer_batch_destroy(uhci_transfer_batch_get(batch));
}

static endpoint_t *endpoint_create(device_t *device, const usb_endpoint_descriptors_t *desc)
{
        endpoint_t *ep = calloc(1, sizeof(uhci_endpoint_t));
        if (ep)
                endpoint_init(ep, device, desc);
        return ep;
}

static errno_t endpoint_register(endpoint_t *ep)
{
        hc_t * const hc = bus_to_hc(endpoint_get_bus(ep));

        const errno_t err = usb2_bus_endpoint_register(&hc->bus_helper, ep);
        if (err)
                return err;

        transfer_list_t *list = hc->transfers[ep->device->speed][ep->transfer_type];
        if (!list)
                /*
                 * We don't support this combination (e.g. isochronous). Do not
                 * fail early, because that would block any device with these
                 * endpoints from connecting. Instead, make sure these transfers
                 * are denied soon enough with ENOTSUP not to fail on asserts.
                 */
                return EOK;

        endpoint_set_online(ep, &list->guard);
        return EOK;
}

static void endpoint_unregister(endpoint_t *ep)
{
        hc_t * const hc = bus_to_hc(endpoint_get_bus(ep));
        usb2_bus_endpoint_unregister(&hc->bus_helper, ep);

        // Check for the roothub, as it does not schedule into lists
        if (ep->device->address == uhci_rh_get_address(&hc->rh)) {
                // FIXME: We shall check the roothub for active transfer. But
                // as it is polling, there is no way to make it stop doing so.
                // Return after rewriting uhci rh.
                return;
        }

        transfer_list_t *list = hc->transfers[ep->device->speed][ep->transfer_type];
        if (!list)
                /*
                 * We don't support this combination (e.g. isochronous),
                 * so no transfer can be active.
                 */
                return;

        fibril_mutex_lock(&list->guard);

        endpoint_set_offline_locked(ep);
        /* From now on, no other transfer will be scheduled. */

        if (!ep->active_batch) {
                fibril_mutex_unlock(&list->guard);
                return;
        }

        /* First, offer the batch a short chance to be finished. */
        endpoint_wait_timeout_locked(ep, 10000);

        if (!ep->active_batch) {
                fibril_mutex_unlock(&list->guard);
                return;
        }

        uhci_transfer_batch_t * const batch =
                uhci_transfer_batch_get(ep->active_batch);

        /* Remove the batch from the schedule to stop it from being finished. */
        endpoint_deactivate_locked(ep);
        transfer_list_remove_batch(list, batch);

        fibril_mutex_unlock(&list->guard);

        /*
         * We removed the batch from software schedule only, it's still possible
         * that HC has it in its caches. Better wait a while before we release
         * the buffers.
         */
        async_usleep(20000);
        batch->base.error = EINTR;
        batch->base.transferred_size = 0;
        usb_transfer_batch_finish(&batch->base);
}

static int device_enumerate(device_t *dev)
{
        hc_t * const hc = bus_to_hc(dev->bus);
        return usb2_bus_device_enumerate(&hc->bus_helper, dev);
}

static void device_gone(device_t *dev)
{
        hc_t * const hc = bus_to_hc(dev->bus);
        usb2_bus_device_gone(&hc->bus_helper, dev);
}

static int hc_status(bus_t *, uint32_t *);
static int hc_schedule(usb_transfer_batch_t *);

static const bus_ops_t uhci_bus_ops = {
        .interrupt = hc_interrupt,
        .status = hc_status,

        .device_enumerate = device_enumerate,
        .device_gone = device_gone,

        .endpoint_create = endpoint_create,
        .endpoint_register = endpoint_register,
        .endpoint_unregister = endpoint_unregister,

        .batch_create = create_transfer_batch,
        .batch_schedule = hc_schedule,
        .batch_destroy = destroy_transfer_batch,
};

/** Initialize UHCI hc memory structures.
 *
 * @param[in] instance UHCI structure to use.
 * @return Error code
 * @note Should be called only once on any structure.
 *
 * Structures:
 *  - transfer lists (queue heads need to be accessible by the hw)
 *  - frame list page (needs to be one UHCI hw accessible 4K page)
 */
errno_t hc_init_mem_structures(hc_t *instance)
{
        assert(instance);

        usb2_bus_helper_init(&instance->bus_helper, &bandwidth_accounting_usb11);

        bus_init(&instance->bus, sizeof(device_t));
        instance->bus.ops = &uhci_bus_ops;

        hc_device_setup(&instance->base, &instance->bus);

        /* Init USB frame list page */
        instance->frame_list = get_page();
        if (!instance->frame_list) {
                return ENOMEM;
        }
        usb_log_debug("Initialized frame list at %p.", instance->frame_list);

        /* Init transfer lists */
        errno_t ret = hc_init_transfer_lists(instance);
        if (ret != EOK) {
                usb_log_error("Failed to initialize transfer lists.");
                return_page(instance->frame_list);
                return ENOMEM;
        }
        list_initialize(&instance->pending_endpoints);
        usb_log_debug("Initialized transfer lists.");


        /* Set all frames to point to the first queue head */
        const uint32_t queue = LINK_POINTER_QH(
                addr_to_phys(instance->transfers_interrupt.queue_head));

        for (unsigned i = 0; i < UHCI_FRAME_LIST_COUNT; ++i) {
                instance->frame_list[i] = queue;
        }

        return EOK;
}

/** Initialize UHCI hc transfer lists.
 *
 * @param[in] instance UHCI structure to use.
 * @return Error code
 * @note Should be called only once on any structure.
 *
 * Initializes transfer lists and sets them in one chain to support proper
 * USB scheduling. Sets pointer table for quick access.
 */
errno_t hc_init_transfer_lists(hc_t *instance)
{
        assert(instance);
#define SETUP_TRANSFER_LIST(type, name) \
do { \
        errno_t ret = transfer_list_init(&instance->transfers_##type, name); \
        if (ret != EOK) { \
                usb_log_error("Failed to setup %s transfer list: %s.", \
                    name, str_error(ret)); \
                transfer_list_fini(&instance->transfers_bulk_full); \
                transfer_list_fini(&instance->transfers_control_full); \
                transfer_list_fini(&instance->transfers_control_slow); \
                transfer_list_fini(&instance->transfers_interrupt); \
                return ret; \
        } \
} while (0)

        SETUP_TRANSFER_LIST(bulk_full, "BULK FULL");
        SETUP_TRANSFER_LIST(control_full, "CONTROL FULL");
        SETUP_TRANSFER_LIST(control_slow, "CONTROL LOW");
        SETUP_TRANSFER_LIST(interrupt, "INTERRUPT");
#undef SETUP_TRANSFER_LIST
        /* Connect lists into one schedule */
        transfer_list_set_next(&instance->transfers_control_full,
                &instance->transfers_bulk_full);
        transfer_list_set_next(&instance->transfers_control_slow,
                &instance->transfers_control_full);
        transfer_list_set_next(&instance->transfers_interrupt,
                &instance->transfers_control_slow);

        /*FSBR, This feature is not needed (adds no benefit) and is supposedly
         * buggy on certain hw, enable at your own risk. */
#ifdef FSBR
        transfer_list_set_next(&instance->transfers_bulk_full,
            &instance->transfers_control_full);
#endif

        /* Assign pointers to be used during scheduling */
        instance->transfers[USB_SPEED_FULL][USB_TRANSFER_INTERRUPT] =
          &instance->transfers_interrupt;
        instance->transfers[USB_SPEED_LOW][USB_TRANSFER_INTERRUPT] =
          &instance->transfers_interrupt;
        instance->transfers[USB_SPEED_FULL][USB_TRANSFER_CONTROL] =
          &instance->transfers_control_full;
        instance->transfers[USB_SPEED_LOW][USB_TRANSFER_CONTROL] =
          &instance->transfers_control_slow;
        instance->transfers[USB_SPEED_FULL][USB_TRANSFER_BULK] =
          &instance->transfers_bulk_full;

        return EOK;
}

static errno_t hc_status(bus_t *bus, uint32_t *status)
{
        hc_t *instance = bus_to_hc(bus);
        assert(status);

        *status = 0;
        if (instance->registers) {
                uint16_t s = pio_read_16(&instance->registers->usbsts);
                pio_write_16(&instance->registers->usbsts, s);
                *status = s;
        }
        return EOK;
}

/**
 * Schedule batch for execution.
 *
 * @param[in] instance UHCI structure to use.
 * @param[in] batch Transfer batch to schedule.
 * @return Error code
 */
static errno_t hc_schedule(usb_transfer_batch_t *batch)
{
        uhci_transfer_batch_t *uhci_batch = uhci_transfer_batch_get(batch);
        endpoint_t *ep = batch->ep;
        hc_t *hc = bus_to_hc(endpoint_get_bus(ep));

        if (batch->target.address == uhci_rh_get_address(&hc->rh))
                return uhci_rh_schedule(&hc->rh, batch);

        transfer_list_t * const list =
            hc->transfers[ep->device->speed][ep->transfer_type];

        if (!list)
                return ENOTSUP;

        errno_t err;
        if ((err = uhci_transfer_batch_prepare(uhci_batch)))
                return err;

        return transfer_list_add_batch(list, uhci_batch);
}

/** Debug function, checks consistency of memory structures.
 *
 * @param[in] arg UHCI structure to use.
 * @return EOK (should never return)
 */
errno_t hc_debug_checker(void *arg)
{
        hc_t *instance = arg;
        assert(instance);

#define QH(queue) \
        instance->transfers_##queue.queue_head

        while (1) {
                const uint16_t cmd = pio_read_16(&instance->registers->usbcmd);
                const uint16_t sts = pio_read_16(&instance->registers->usbsts);
                const uint16_t intr =
                    pio_read_16(&instance->registers->usbintr);

                if (((cmd & UHCI_CMD_RUN_STOP) != 1) || (sts != 0)) {
                        usb_log_debug2("Command: %X Status: %X Intr: %x",
                            cmd, sts, intr);
                }

                const uintptr_t frame_list =
                    pio_read_32(&instance->registers->flbaseadd) & ~0xfff;
                if (frame_list != addr_to_phys(instance->frame_list)) {
                        usb_log_debug("Framelist address: %p vs. %p.",
                            (void *) frame_list,
                            (void *) addr_to_phys(instance->frame_list));
                }

                int frnum = pio_read_16(&instance->registers->frnum) & 0x3ff;

                uintptr_t expected_pa = instance->frame_list[frnum]
                    & LINK_POINTER_ADDRESS_MASK;
                uintptr_t real_pa = addr_to_phys(QH(interrupt));
                if (expected_pa != real_pa) {
                        usb_log_debug("Interrupt QH: %p (frame %d) vs. %p.",
                            (void *) expected_pa, frnum, (void *) real_pa);
                }

                expected_pa = QH(interrupt)->next & LINK_POINTER_ADDRESS_MASK;
                real_pa = addr_to_phys(QH(control_slow));
                if (expected_pa != real_pa) {
                        usb_log_debug("Control Slow QH: %p vs. %p.",
                            (void *) expected_pa, (void *) real_pa);
                }

                expected_pa = QH(control_slow)->next & LINK_POINTER_ADDRESS_MASK;
                real_pa = addr_to_phys(QH(control_full));
                if (expected_pa != real_pa) {
                        usb_log_debug("Control Full QH: %p vs. %p.",
                            (void *) expected_pa, (void *) real_pa);
                }

                expected_pa = QH(control_full)->next & LINK_POINTER_ADDRESS_MASK;
                real_pa = addr_to_phys(QH(bulk_full));
                if (expected_pa != real_pa ) {
                        usb_log_debug("Bulk QH: %p vs. %p.",
                            (void *) expected_pa, (void *) real_pa);
                }
                async_usleep(UHCI_DEBUGER_TIMEOUT);
        }
        return EOK;
#undef QH
}
/**
 * @}
 */