Changes in / [2f0dd2a:153cc76a] in mainline


Ignore:
Location:
uspace
Files:
3 added
4 deleted
52 edited

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Added
Removed
  • uspace/app/mkbd/main.c

    r2f0dd2a r153cc76a  
    4848#include <usb/dev/pipes.h>
    4949#include <async.h>
     50#include <usb/dev.h>
    5051#include <usb/hid/usages/core.h>
    5152#include <usb/hid/hidparser.h>
  • uspace/app/usbinfo/dev.c

    r2f0dd2a r153cc76a  
    3434 * Representation of queried device.
    3535 */
    36 #include <usb/dev/pipes.h>
     36#include <usb/dev.h>
     37#include <usb/hc.h>
    3738#include <errno.h>
    3839#include <str_error.h>
     
    5253        bool transfer_started = false;
    5354
    54         rc = usb_device_connection_initialize(&dev->wire, hc_handle, dev_addr);
     55        usb_hc_connection_initialize(&dev->hc_conn, hc_handle);
     56
     57        rc = usb_device_connection_initialize(
     58            &dev->wire, &dev->hc_conn, dev_addr);
    5559        if (rc != EOK) {
    5660                fprintf(stderr,
  • uspace/app/usbinfo/info.c

    r2f0dd2a r153cc76a  
    287287void dump_strings(usbinfo_device_t *dev)
    288288{
     289        /* Find used indexes. Devices with more than 64 strings are very rare.*/
     290        uint64_t str_mask = 0;
     291        find_string_indexes_callback((uint8_t *)&dev->device_descriptor, 0,
     292            &str_mask);
     293        usb_dp_walk_simple(dev->full_configuration_descriptor,
     294            dev->full_configuration_descriptor_size,
     295            usb_dp_standard_descriptor_nesting,
     296            find_string_indexes_callback,
     297            &str_mask);
     298
     299        if (str_mask == 0) {
     300                printf("Device does not support string descriptors.\n");
     301                return;
     302        }
     303
    289304        /* Get supported languages. */
    290305        l18_win_locales_t *langs;
     
    305320        }
    306321        printf(".\n");
    307 
    308         /* Find used indexes. Device with more than 64 strings are very rare.
    309          */
    310         uint64_t str_mask = 0;
    311         find_string_indexes_callback((uint8_t *)&dev->device_descriptor, 0,
    312             &str_mask);
    313         usb_dp_walk_simple(dev->full_configuration_descriptor,
    314             dev->full_configuration_descriptor_size,
    315             usb_dp_standard_descriptor_nesting,
    316             find_string_indexes_callback,
    317             &str_mask);
    318322
    319323        /* Get all strings and dump them. */
  • uspace/app/usbinfo/main.c

    r2f0dd2a r153cc76a  
    4444#include <loc.h>
    4545#include <usb/hc.h>
     46#include <usb/dev.h>
    4647#include <usb/dev/pipes.h>
    4748#include "usbinfo.h"
  • uspace/app/usbinfo/usbinfo.h

    r2f0dd2a r153cc76a  
    4444
    4545typedef struct {
     46        usb_hc_connection_t hc_conn;
     47        usb_device_connection_t wire;
    4648        usb_pipe_t ctrl_pipe;
    47         usb_device_connection_t wire;
    4849        usb_standard_device_descriptor_t device_descriptor;
    4950        uint8_t *full_configuration_descriptor;
  • uspace/drv/bus/usb/ohci/hc.c

    r2f0dd2a r153cc76a  
    137137                return ret;
    138138        }
    139         usb_device_manager_bind_address(&instance->generic.dev_manager,
    140             instance->rh.address, hub_fun->handle);
    141139
    142140#define CHECK_RET_UNREG_RETURN(ret, message...) \
     
    150148        return ret; \
    151149} else (void)0
     150
    152151        ret = usb_endpoint_manager_add_ep(
    153152            &instance->generic.ep_manager, instance->rh.address, 0,
     
    165164        CHECK_RET_UNREG_RETURN(ret,
    166165            "Failed to bind root hub function: %s.\n", str_error(ret));
     166
     167        ret = usb_device_manager_bind_address(&instance->generic.dev_manager,
     168            instance->rh.address, hub_fun->handle);
     169        if (ret != EOK)
     170                usb_log_warning("Failed to bind root hub address: %s.\n",
     171                    str_error(ret));
    167172
    168173        return EOK;
  • uspace/drv/bus/usb/ohci/ohci.c

    r2f0dd2a r153cc76a  
    140140int device_setup_ohci(ddf_dev_t *device)
    141141{
    142         assert(device);
    143 
    144         ohci_t *instance = malloc(sizeof(ohci_t));
     142        if (device == NULL)
     143                return EBADMEM;
     144
     145        ohci_t *instance = ddf_dev_data_alloc(device,sizeof(ohci_t));
    145146        if (instance == NULL) {
    146147                usb_log_error("Failed to allocate OHCI driver.\n");
    147148                return ENOMEM;
    148149        }
    149         instance->rh_fun = NULL;
    150         instance->hc_fun = NULL;
    151150
    152151#define CHECK_RET_DEST_FREE_RETURN(ret, message...) \
    153152if (ret != EOK) { \
    154153        if (instance->hc_fun) { \
     154                instance->hc_fun->driver_data = NULL; \
    155155                ddf_fun_destroy(instance->hc_fun); \
    156156        } \
    157157        if (instance->rh_fun) { \
     158                instance->rh_fun->driver_data = NULL; \
    158159                ddf_fun_destroy(instance->rh_fun); \
    159160        } \
    160         free(instance); \
    161161        usb_log_error(message); \
    162162        return ret; \
     
    219219            "Failed to init ohci_hcd: %s.\n", str_error(ret));
    220220
    221         device->driver_data = instance;
    222 
    223221#define CHECK_RET_FINI_RETURN(ret, message...) \
    224222if (ret != EOK) { \
  • uspace/drv/bus/usb/ohci/ohci_batch.c

    r2f0dd2a r153cc76a  
    3434#include <errno.h>
    3535#include <str_error.h>
     36#include <macros.h>
    3637
    3738#include <usb/usb.h>
     
    5354                return;
    5455        if (ohci_batch->tds) {
     56                const ohci_endpoint_t *ohci_ep =
     57                    ohci_endpoint_get(ohci_batch->usb_batch->ep);
     58                assert(ohci_ep);
    5559                for (unsigned i = 0; i < ohci_batch->td_count; ++i) {
    56                         if (i != ohci_batch->leave_td)
     60                        if (ohci_batch->tds[i] != ohci_ep->td)
    5761                                free32(ohci_batch->tds[i]);
    5862                }
     
    6468}
    6569/*----------------------------------------------------------------------------*/
     70/** Finishes usb_transfer_batch and destroys the structure.
     71 *
     72 * @param[in] uhci_batch Instance to finish and destroy.
     73 */
    6674void ohci_transfer_batch_finish_dispose(ohci_transfer_batch_t *ohci_batch)
    6775{
     
    6977        assert(ohci_batch->usb_batch);
    7078        usb_transfer_batch_finish(ohci_batch->usb_batch,
    71             ohci_batch->device_buffer + ohci_batch->usb_batch->setup_size,
    72             ohci_batch->usb_batch->buffer_size);
     79            ohci_batch->device_buffer + ohci_batch->usb_batch->setup_size);
    7380        ohci_transfer_batch_dispose(ohci_batch);
    7481}
    7582/*----------------------------------------------------------------------------*/
     83/** Allocate memory and initialize internal data structure.
     84 *
     85 * @param[in] usb_batch Pointer to generic USB batch structure.
     86 * @return Valid pointer if all structures were successfully created,
     87 * NULL otherwise.
     88 *
     89 * Determines the number of needed transfer descriptors (TDs).
     90 * Prepares a transport buffer (that is accessible by the hardware).
     91 * Initializes parameters needed for the transfer and callback.
     92 */
    7693ohci_transfer_batch_t * ohci_transfer_batch_get(usb_transfer_batch_t *usb_batch)
    7794{
     
    105122        ohci_batch->ed = ohci_endpoint_get(usb_batch->ep)->ed;
    106123        ohci_batch->tds[0] = ohci_endpoint_get(usb_batch->ep)->td;
    107         ohci_batch->leave_td = 0;
    108124
    109125        for (unsigned i = 1; i <= ohci_batch->td_count; ++i) {
     
    152168 * completes with the last TD.
    153169 */
    154 bool ohci_transfer_batch_is_complete(ohci_transfer_batch_t *ohci_batch)
     170bool ohci_transfer_batch_is_complete(const ohci_transfer_batch_t *ohci_batch)
    155171{
    156172        assert(ohci_batch);
     
    174190
    175191        /* Assume we will leave the last(unused) TD behind */
    176         ohci_batch->leave_td = ohci_batch->td_count;
     192        unsigned leave_td = ohci_batch->td_count;
    177193
    178194        /* Check all TDs */
     
    212228                         * It will be the one TD we leave behind.
    213229                         */
    214                         ohci_batch->leave_td = i + 1;
     230                        leave_td = i + 1;
    215231
    216232                        /* Check TD assumption */
    217                         const uint32_t pa = addr_to_phys(
    218                             ohci_batch->tds[ohci_batch->leave_td]);
    219                         assert((ohci_batch->ed->td_head & ED_TDTAIL_PTR_MASK)
     233                        const uint32_t pa =
     234                            addr_to_phys(ohci_batch->tds[leave_td]);
     235                        assert((ohci_batch->ed->td_head & ED_TDHEAD_PTR_MASK)
    220236                            == pa);
    221237
    222238                        ed_set_tail_td(ohci_batch->ed,
    223                             ohci_batch->tds[ohci_batch->leave_td]);
     239                            ohci_batch->tds[leave_td]);
    224240
    225241                        /* Clear possible ED HALT */
     
    234250        ohci_endpoint_t *ohci_ep = ohci_endpoint_get(ohci_batch->usb_batch->ep);
    235251        assert(ohci_ep);
    236         ohci_ep->td = ohci_batch->tds[ohci_batch->leave_td];
     252        ohci_ep->td = ohci_batch->tds[leave_td];
    237253
    238254        /* Make sure that we are leaving the right TD behind */
     
    248264 * @param[in] ohci_batch Batch structure to use
    249265 */
    250 void ohci_transfer_batch_commit(ohci_transfer_batch_t *ohci_batch)
     266void ohci_transfer_batch_commit(const ohci_transfer_batch_t *ohci_batch)
    251267{
    252268        assert(ohci_batch);
     
    295311        while (remain_size > 0) {
    296312                const size_t transfer_size =
    297                     remain_size > OHCI_TD_MAX_TRANSFER ?
    298                     OHCI_TD_MAX_TRANSFER : remain_size;
     313                    min(remain_size, OHCI_TD_MAX_TRANSFER);
    299314                toggle = 1 - toggle;
    300315
     
    378393}
    379394/*----------------------------------------------------------------------------*/
     395/** Transfer setup table. */
    380396static void (*const batch_setup[])(ohci_transfer_batch_t*, usb_direction_t) =
    381397{
  • uspace/drv/bus/usb/ohci/ohci_batch.h

    r2f0dd2a r153cc76a  
    5353        /** Number of TDs used by the transfer */
    5454        size_t td_count;
    55         /** Dummy TD to be left at the ED and used by the next transfer */
    56         size_t leave_td;
    5755        /** Data buffer, must be accessible by the OHCI hw. */
    5856        char *device_buffer;
     
    6260
    6361ohci_transfer_batch_t * ohci_transfer_batch_get(usb_transfer_batch_t *batch);
    64 bool ohci_transfer_batch_is_complete(ohci_transfer_batch_t *batch);
    65 void ohci_transfer_batch_commit(ohci_transfer_batch_t *batch);
     62bool ohci_transfer_batch_is_complete(const ohci_transfer_batch_t *batch);
     63void ohci_transfer_batch_commit(const ohci_transfer_batch_t *batch);
    6664void ohci_transfer_batch_finish_dispose(ohci_transfer_batch_t *batch);
    6765/*----------------------------------------------------------------------------*/
  • uspace/drv/bus/usb/ohci/pci.c

    r2f0dd2a r153cc76a  
    4242#include <ddi.h>
    4343#include <libarch/ddi.h>
    44 #include <device/hw_res.h>
     44#include <device/hw_res_parsed.h>
    4545
    4646#include <usb/debug.h>
     
    6161{
    6262        assert(dev);
    63         assert(mem_reg_address);
    64         assert(mem_reg_size);
    65         assert(irq_no);
    6663
    6764        async_sess_t *parent_sess =
     
    7168                return ENOMEM;
    7269
    73         hw_resource_list_t hw_resources;
    74         int rc = hw_res_get_resource_list(parent_sess, &hw_resources);
     70        hw_res_list_parsed_t hw_res;
     71        hw_res_list_parsed_init(&hw_res);
     72        const int ret =  hw_res_get_list_parsed(parent_sess, &hw_res, 0);
    7573        async_hangup(parent_sess);
    76         if (rc != EOK) {
    77                 return rc;
     74        if (ret != EOK) {
     75                return ret;
    7876        }
    7977
    80         uintptr_t mem_address = 0;
    81         size_t mem_size = 0;
    82         bool mem_found = false;
     78        /* We want one irq and one mem range. */
     79        if (hw_res.irqs.count != 1 || hw_res.mem_ranges.count != 1) {
     80                hw_res_list_parsed_clean(&hw_res);
     81                return EINVAL;
     82        }
    8383
    84         int irq = 0;
    85         bool irq_found = false;
     84        if (mem_reg_address)
     85                *mem_reg_address = hw_res.mem_ranges.ranges[0].address;
     86        if (mem_reg_size)
     87                *mem_reg_size = hw_res.mem_ranges.ranges[0].size;
     88        if (irq_no)
     89                *irq_no = hw_res.irqs.irqs[0];
    8690
    87         for (size_t i = 0; i < hw_resources.count; i++) {
    88                 hw_resource_t *res = &hw_resources.resources[i];
    89                 switch (res->type) {
    90                 case INTERRUPT:
    91                         irq = res->res.interrupt.irq;
    92                         irq_found = true;
    93                         usb_log_debug2("Found interrupt: %d.\n", irq);
    94                         break;
    95                 case MEM_RANGE:
    96                         if (res->res.mem_range.address != 0
    97                             && res->res.mem_range.size != 0 ) {
    98                                 mem_address = res->res.mem_range.address;
    99                                 mem_size = res->res.mem_range.size;
    100                                 usb_log_debug2("Found mem: %p %zu.\n",
    101                                     (void *) mem_address, mem_size);
    102                                 mem_found = true;
    103                         }
    104                 default:
    105                         break;
    106                 }
    107         }
    108         free(hw_resources.resources);
    109 
    110         if (mem_found && irq_found) {
    111                 *mem_reg_address = mem_address;
    112                 *mem_reg_size = mem_size;
    113                 *irq_no = irq;
    114                 return EOK;
    115         }
    116         return ENOENT;
     91        hw_res_list_parsed_clean(&hw_res);
     92        return EOK;
    11793}
    11894
  • uspace/drv/bus/usb/ohci/root_hub.c

    r2f0dd2a r153cc76a  
    100100        .attributes = USB_TRANSFER_INTERRUPT,
    101101        .descriptor_type = USB_DESCTYPE_ENDPOINT,
    102         .endpoint_address = 1 + (1 << 7),
     102        .endpoint_address = 1 | (1 << 7),
    103103        .length = sizeof(usb_standard_endpoint_descriptor_t),
    104104        .max_packet_size = 2,
     
    109109static void rh_init_descriptors(rh_t *instance);
    110110static uint16_t create_interrupt_mask(const rh_t *instance);
    111 static int get_status(const rh_t *instance, usb_transfer_batch_t *request);
    112 static int get_descriptor(const rh_t *instance, usb_transfer_batch_t *request);
    113 static int set_feature(const rh_t *instance, usb_transfer_batch_t *request);
    114 static int clear_feature(const rh_t *instance, usb_transfer_batch_t *request);
     111static void get_status(const rh_t *instance, usb_transfer_batch_t *request);
     112static void get_descriptor(const rh_t *instance, usb_transfer_batch_t *request);
     113static void set_feature(const rh_t *instance, usb_transfer_batch_t *request);
     114static void clear_feature(const rh_t *instance, usb_transfer_batch_t *request);
    115115static int set_feature_port(
    116116    const rh_t *instance, uint16_t feature, uint16_t port);
    117117static int clear_feature_port(
    118118    const rh_t *instance, uint16_t feature, uint16_t port);
    119 static int control_request(rh_t *instance, usb_transfer_batch_t *request);
     119static void control_request(rh_t *instance, usb_transfer_batch_t *request);
    120120static inline void interrupt_request(
    121121    usb_transfer_batch_t *request, uint16_t mask, size_t size)
    122122{
    123123        assert(request);
    124 
    125         request->transfered_size = size;
    126124        usb_transfer_batch_finish_error(request, &mask, size, EOK);
    127 }
    128 
    129 #define TRANSFER_OK(bytes) \
     125        usb_transfer_batch_destroy(request);
     126}
     127
     128#define TRANSFER_END_DATA(request, data, bytes) \
    130129do { \
    131         request->transfered_size = bytes; \
    132         return EOK; \
     130        usb_transfer_batch_finish_error(request, data, bytes, EOK); \
     131        usb_transfer_batch_destroy(request); \
     132        return; \
     133} while (0)
     134
     135#define TRANSFER_END(request, error) \
     136do { \
     137        usb_transfer_batch_finish_error(request, NULL, 0, error); \
     138        usb_transfer_batch_destroy(request); \
     139        return; \
    133140} while (0)
    134141
     
    212219        case USB_TRANSFER_CONTROL:
    213220                usb_log_debug("Root hub got CONTROL packet\n");
    214                 const int ret = control_request(instance, request);
    215                 usb_transfer_batch_finish_error(request, NULL, 0, ret);
     221                control_request(instance, request);
    216222                break;
     223
    217224        case USB_TRANSFER_INTERRUPT:
    218225                usb_log_debug("Root hub got INTERRUPT packet\n");
     
    221228                const uint16_t mask = create_interrupt_mask(instance);
    222229                if (mask == 0) {
    223                         usb_log_debug("No changes..\n");
     230                        usb_log_debug("No changes...\n");
    224231                        instance->unfinished_interrupt_transfer = request;
    225                         fibril_mutex_unlock(&instance->guard);
    226                         return;
     232                } else {
     233                        usb_log_debug("Processing changes...\n");
     234                        interrupt_request(
     235                            request, mask, instance->interrupt_mask_size);
    227236                }
    228                 usb_log_debug("Processing changes...\n");
    229                 interrupt_request(request, mask, instance->interrupt_mask_size);
    230237                fibril_mutex_unlock(&instance->guard);
    231238                break;
     
    233240        default:
    234241                usb_log_error("Root hub got unsupported request.\n");
    235                 usb_transfer_batch_finish_error(request, NULL, 0, EINVAL);
    236         }
    237         usb_transfer_batch_destroy(request);
     242                TRANSFER_END(request, ENOTSUP);
     243        }
    238244}
    239245/*----------------------------------------------------------------------------*/
     
    254260                interrupt_request(instance->unfinished_interrupt_transfer,
    255261                    mask, instance->interrupt_mask_size);
    256                 usb_transfer_batch_destroy(
    257                     instance->unfinished_interrupt_transfer);
    258262                instance->unfinished_interrupt_transfer = NULL;
    259263        }
     
    384388 * @return error code
    385389 */
    386 int get_status(const rh_t *instance, usb_transfer_batch_t *request)
     390void get_status(const rh_t *instance, usb_transfer_batch_t *request)
    387391{
    388392        assert(instance);
    389393        assert(request);
     394
    390395
    391396        const usb_device_request_setup_packet_t *request_packet =
    392397            (usb_device_request_setup_packet_t*)request->setup_buffer;
    393398
    394         if (request->buffer_size < 4) {
    395                 usb_log_error("Buffer too small for get status request.\n");
    396                 return EOVERFLOW;
    397         }
    398 
     399        switch (request_packet->request_type)
     400        {
     401        case USB_HUB_REQ_TYPE_GET_HUB_STATUS:
    399402        /* Hub status: just filter relevant info from rh_status reg */
    400         if (request_packet->request_type == USB_HUB_REQ_TYPE_GET_HUB_STATUS) {
    401                 const uint32_t data = instance->registers->rh_status &
    402                     (RHS_LPS_FLAG | RHS_LPSC_FLAG | RHS_OCI_FLAG | RHS_OCIC_FLAG);
    403                 memcpy(request->buffer, &data, sizeof(data));
    404                 TRANSFER_OK(sizeof(data));
    405         }
     403                if (request->buffer_size < 4) {
     404                        usb_log_error("Buffer(%zu) too small for hub get "
     405                            "status request.\n", request->buffer_size);
     406                        TRANSFER_END(request, EOVERFLOW);
     407                } else {
     408                        const uint32_t data = instance->registers->rh_status &
     409                            (RHS_LPS_FLAG | RHS_LPSC_FLAG
     410                                | RHS_OCI_FLAG | RHS_OCIC_FLAG);
     411                        TRANSFER_END_DATA(request, &data, sizeof(data));
     412                }
    406413
    407414        /* Copy appropriate rh_port_status register, OHCI designers were
    408415         * kind enough to make those bit values match USB specification */
    409         if (request_packet->request_type == USB_HUB_REQ_TYPE_GET_PORT_STATUS) {
    410                 const unsigned port = request_packet->index;
    411                 if (port < 1 || port > instance->port_count)
    412                         return EINVAL;
    413 
    414                 const uint32_t data =
    415                     instance->registers->rh_port_status[port - 1];
    416                 memcpy(request->buffer, &data, sizeof(data));
    417                 TRANSFER_OK(sizeof(data));
    418         }
    419 
    420         return ENOTSUP;
     416        case USB_HUB_REQ_TYPE_GET_PORT_STATUS:
     417                if (request->buffer_size < 4) {
     418                        usb_log_error("Buffer(%zu) too small for hub get "
     419                            "status request.\n", request->buffer_size);
     420                        TRANSFER_END(request, EOVERFLOW);
     421                } else {
     422                        const unsigned port = request_packet->index;
     423                        if (port < 1 || port > instance->port_count)
     424                                TRANSFER_END(request, EINVAL);
     425
     426                        const uint32_t data =
     427                            instance->registers->rh_port_status[port - 1];
     428                        TRANSFER_END_DATA(request, &data, sizeof(data));
     429                }
     430        case SETUP_REQUEST_TO_HOST(USB_REQUEST_TYPE_STANDARD, USB_REQUEST_RECIPIENT_DEVICE):
     431                if (request->buffer_size < 2) {
     432                        usb_log_error("Buffer(%zu) too small for hub generic "
     433                            "get status request.\n", request->buffer_size);
     434                        TRANSFER_END(request, EOVERFLOW);
     435                } else {
     436                        static const uint16_t data =
     437                            uint16_host2usb(USB_DEVICE_STATUS_SELF_POWERED);
     438                        TRANSFER_END_DATA(request, &data, sizeof(data));
     439                }
     440
     441        case SETUP_REQUEST_TO_HOST(USB_REQUEST_TYPE_STANDARD, USB_REQUEST_RECIPIENT_INTERFACE):
     442                /* Hubs are allowed to have only one interface */
     443                if (request_packet->index != 0)
     444                        TRANSFER_END(request, EINVAL);
     445                /* Fall through, as the answer will be the same: 0x0000 */
     446        case SETUP_REQUEST_TO_HOST(USB_REQUEST_TYPE_STANDARD, USB_REQUEST_RECIPIENT_ENDPOINT):
     447                /* Endpoint 0 (default control) and 1 (interrupt) */
     448                if (request_packet->index >= 2)
     449                        TRANSFER_END(request, EINVAL);
     450
     451                if (request->buffer_size < 2) {
     452                        usb_log_error("Buffer(%zu) too small for hub generic "
     453                            "get status request.\n", request->buffer_size);
     454                        TRANSFER_END(request, EOVERFLOW);
     455                } else {
     456                        /* Endpoints are OK. (We don't halt) */
     457                        static const uint16_t data = 0;
     458                        TRANSFER_END_DATA(request, &data, sizeof(data));
     459                }
     460
     461        default:
     462                usb_log_error("Unsupported GET_STATUS request.\n");
     463                TRANSFER_END(request, ENOTSUP);
     464        }
     465
    421466}
    422467/*----------------------------------------------------------------------------*/
     
    430475 * @return Error code
    431476 */
    432 int get_descriptor(const rh_t *instance, usb_transfer_batch_t *request)
     477void get_descriptor(const rh_t *instance, usb_transfer_batch_t *request)
    433478{
    434479        assert(instance);
     
    437482        const usb_device_request_setup_packet_t *setup_request =
    438483            (usb_device_request_setup_packet_t *) request->setup_buffer;
    439         size_t size;
    440         const void *descriptor = NULL;
    441484        const uint16_t setup_request_value = setup_request->value_high;
    442         //(setup_request->value_low << 8);
    443485        switch (setup_request_value)
    444486        {
    445487        case USB_DESCTYPE_HUB:
    446488                usb_log_debug2("USB_DESCTYPE_HUB\n");
    447                 /* Hub descriptor was generated locally */
    448                 descriptor = instance->descriptors.hub;
    449                 size = instance->hub_descriptor_size;
    450                 break;
     489                /* Hub descriptor was generated locally.
     490                 * Class specific request. */
     491                TRANSFER_END_DATA(request, instance->descriptors.hub,
     492                    instance->hub_descriptor_size);
    451493
    452494        case USB_DESCTYPE_DEVICE:
    453495                usb_log_debug2("USB_DESCTYPE_DEVICE\n");
    454                 /* Device descriptor is shared (No one should ask for it)*/
    455                 descriptor = &ohci_rh_device_descriptor;
    456                 size = sizeof(ohci_rh_device_descriptor);
    457                 break;
     496                /* Device descriptor is shared
     497                 * (No one should ask for it, as the device is already setup)
     498                 * Standard USB device request. */
     499                TRANSFER_END_DATA(request, &ohci_rh_device_descriptor,
     500                    sizeof(ohci_rh_device_descriptor));
    458501
    459502        case USB_DESCTYPE_CONFIGURATION:
    460503                usb_log_debug2("USB_DESCTYPE_CONFIGURATION\n");
    461504                /* Start with configuration and add others depending on
    462                  * request size */
    463                 descriptor = &instance->descriptors;
    464                 size = instance->descriptors.configuration.total_length;
    465                 break;
     505                 * request size. Standard USB request. */
     506                TRANSFER_END_DATA(request, &instance->descriptors,
     507                    instance->descriptors.configuration.total_length);
    466508
    467509        case USB_DESCTYPE_INTERFACE:
    468510                usb_log_debug2("USB_DESCTYPE_INTERFACE\n");
    469511                /* Use local interface descriptor. There is one and it
    470                  * might be modified */
    471                 descriptor = &instance->descriptors.interface;
    472                 size = sizeof(instance->descriptors.interface);
    473                 break;
     512                 * might be modified. Hub driver should not ask or this
     513                 * descriptor as it is not part of standard requests set. */
     514                TRANSFER_END_DATA(request, &instance->descriptors.interface,
     515                    sizeof(instance->descriptors.interface));
    474516
    475517        case USB_DESCTYPE_ENDPOINT:
    476518                /* Use local endpoint descriptor. There is one
    477                  * it might have max_packet_size field modified*/
     519                 * it might have max_packet_size field modified. Hub driver
     520                 * should not ask for this descriptor as it is not part
     521                 * of standard requests set. */
    478522                usb_log_debug2("USB_DESCTYPE_ENDPOINT\n");
    479                 descriptor = &instance->descriptors.endpoint;
    480                 size = sizeof(instance->descriptors.endpoint);
    481                 break;
     523                TRANSFER_END_DATA(request, &instance->descriptors.endpoint,
     524                    sizeof(instance->descriptors.endpoint));
    482525
    483526        default:
     
    489532                    setup_request_value, setup_request->index,
    490533                    setup_request->length);
    491                 return EINVAL;
    492         }
    493         if (request->buffer_size < size) {
    494                 size = request->buffer_size;
    495         }
    496 
    497         memcpy(request->buffer, descriptor, size);
    498         TRANSFER_OK(size);
     534                TRANSFER_END(request, EINVAL);
     535        }
     536
     537        TRANSFER_END(request, ENOTSUP);
    499538}
    500539/*----------------------------------------------------------------------------*/
     
    604643 * @return error code
    605644 */
    606 int set_feature(const rh_t *instance, usb_transfer_batch_t *request)
     645void set_feature(const rh_t *instance, usb_transfer_batch_t *request)
    607646{
    608647        assert(instance);
     
    615654        case USB_HUB_REQ_TYPE_SET_PORT_FEATURE:
    616655                usb_log_debug("USB_HUB_REQ_TYPE_SET_PORT_FEATURE\n");
    617                 return set_feature_port(instance,
     656                const int ret = set_feature_port(instance,
    618657                    setup_request->value, setup_request->index);
     658                TRANSFER_END(request, ret);
    619659
    620660        case USB_HUB_REQ_TYPE_SET_HUB_FEATURE:
     
    623663                 * features. It makes no sense to SET either. */
    624664                usb_log_error("Invalid HUB set feature request.\n");
    625                 return ENOTSUP;
     665                TRANSFER_END(request, ENOTSUP);
     666        //TODO: Consider standard USB requests: REMOTE WAKEUP, ENDPOINT STALL
    626667        default:
    627668                usb_log_error("Invalid set feature request type: %d\n",
    628669                    setup_request->request_type);
    629                 return EINVAL;
     670                TRANSFER_END(request, ENOTSUP);
    630671        }
    631672}
     
    640681 * @return error code
    641682 */
    642 int clear_feature(const rh_t *instance, usb_transfer_batch_t *request)
     683void clear_feature(const rh_t *instance, usb_transfer_batch_t *request)
    643684{
    644685        assert(instance);
     
    647688        const usb_device_request_setup_packet_t *setup_request =
    648689            (usb_device_request_setup_packet_t *) request->setup_buffer;
    649 
    650         request->transfered_size = 0;
    651690
    652691        switch (setup_request->request_type)
     
    654693        case USB_HUB_REQ_TYPE_CLEAR_PORT_FEATURE:
    655694                usb_log_debug("USB_HUB_REQ_TYPE_CLEAR_PORT_FEATURE\n");
    656                 return clear_feature_port(instance,
     695                const int ret = clear_feature_port(instance,
    657696                    setup_request->value, setup_request->index);
     697                TRANSFER_END(request, ret);
    658698
    659699        case USB_HUB_REQ_TYPE_CLEAR_HUB_FEATURE:
     
    668708                if (setup_request->value == USB_HUB_FEATURE_C_HUB_OVER_CURRENT) {
    669709                        instance->registers->rh_status = RHS_OCIC_FLAG;
    670                         TRANSFER_OK(0);
     710                        TRANSFER_END(request, EOK);
    671711                }
     712        //TODO: Consider standard USB requests: REMOTE WAKEUP, ENDPOINT STALL
    672713        default:
    673714                usb_log_error("Invalid clear feature request type: %d\n",
    674715                    setup_request->request_type);
    675                 return EINVAL;
     716                TRANSFER_END(request, ENOTSUP);
    676717        }
    677718}
     
    695736 * @return error code
    696737 */
    697 int control_request(rh_t *instance, usb_transfer_batch_t *request)
     738void control_request(rh_t *instance, usb_transfer_batch_t *request)
    698739{
    699740        assert(instance);
     
    702743        if (!request->setup_buffer) {
    703744                usb_log_error("Root hub received empty transaction!");
    704                 return EINVAL;
     745                TRANSFER_END(request, EBADMEM);
    705746        }
    706747
    707748        if (sizeof(usb_device_request_setup_packet_t) > request->setup_size) {
    708749                usb_log_error("Setup packet too small\n");
    709                 return EOVERFLOW;
     750                TRANSFER_END(request, EOVERFLOW);
    710751        }
    711752
     
    718759        case USB_DEVREQ_GET_STATUS:
    719760                usb_log_debug("USB_DEVREQ_GET_STATUS\n");
    720                 return get_status(instance, request);
     761                get_status(instance, request);
     762                break;
    721763
    722764        case USB_DEVREQ_GET_DESCRIPTOR:
    723765                usb_log_debug("USB_DEVREQ_GET_DESCRIPTOR\n");
    724                 return get_descriptor(instance, request);
     766                get_descriptor(instance, request);
     767                break;
    725768
    726769        case USB_DEVREQ_GET_CONFIGURATION:
    727770                usb_log_debug("USB_DEVREQ_GET_CONFIGURATION\n");
    728                 if (request->buffer_size != 1)
    729                         return EINVAL;
    730                 request->buffer[0] = 1;
    731                 TRANSFER_OK(1);
     771                if (request->buffer_size == 0)
     772                        TRANSFER_END(request, EOVERFLOW);
     773                static const uint8_t config = 1;
     774                TRANSFER_END_DATA(request, &config, sizeof(config));
    732775
    733776        case USB_DEVREQ_CLEAR_FEATURE:
    734                 usb_log_debug2("Processing request without "
    735                     "additional data\n");
    736                 return clear_feature(instance, request);
     777                usb_log_debug2("USB_DEVREQ_CLEAR_FEATURE\n");
     778                clear_feature(instance, request);
     779                break;
    737780
    738781        case USB_DEVREQ_SET_FEATURE:
    739                 usb_log_debug2("Processing request without "
    740                     "additional data\n");
    741                 return set_feature(instance, request);
     782                usb_log_debug2("USB_DEVREQ_SET_FEATURE\n");
     783                set_feature(instance, request);
     784                break;
    742785
    743786        case USB_DEVREQ_SET_ADDRESS:
    744                 usb_log_debug("USB_DEVREQ_SET_ADDRESS\n");
     787                usb_log_debug("USB_DEVREQ_SET_ADDRESS: %u\n",
     788                    setup_request->value);
     789                if (uint16_usb2host(setup_request->value) > 127)
     790                        TRANSFER_END(request, EINVAL);
     791
    745792                instance->address = setup_request->value;
    746                 TRANSFER_OK(0);
     793                TRANSFER_END(request, EOK);
    747794
    748795        case USB_DEVREQ_SET_CONFIGURATION:
    749                 usb_log_debug("USB_DEVREQ_SET_CONFIGURATION\n");
    750                 /* We don't need to do anything */
    751                 TRANSFER_OK(0);
    752 
    753         case USB_DEVREQ_SET_DESCRIPTOR: /* Not supported by OHCI RH */
     796                usb_log_debug("USB_DEVREQ_SET_CONFIGURATION: %u\n",
     797                    setup_request->value);
     798                /* We have only one configuration, it's number is 1 */
     799                if (uint16_usb2host(setup_request->value) != 1)
     800                        TRANSFER_END(request, EINVAL);
     801                TRANSFER_END(request, EOK);
     802
     803        /* Both class specific and std is optional for hubs */
     804        case USB_DEVREQ_SET_DESCRIPTOR:
     805        /* Hubs have only one interface GET/SET is not supported */
     806        case USB_DEVREQ_GET_INTERFACE:
     807        case USB_DEVREQ_SET_INTERFACE:
    754808        default:
     809                /* Hub class GET_STATE(2) falls in here too. */
    755810                usb_log_error("Received unsupported request: %d.\n",
    756811                    setup_request->request);
    757                 return ENOTSUP;
    758         }
    759 }
    760 
     812                TRANSFER_END(request, ENOTSUP);
     813        }
     814}
    761815/**
    762816 * @}
  • uspace/drv/bus/usb/uhci/hc.c

    r2f0dd2a r153cc76a  
    130130                        uhci_transfer_batch_t *batch =
    131131                            uhci_transfer_batch_from_link(item);
    132                         uhci_transfer_batch_call_dispose(batch);
     132                        uhci_transfer_batch_finish_dispose(batch);
    133133                }
    134134        }
  • uspace/drv/bus/usb/uhci/pci.c

    r2f0dd2a r153cc76a  
    2626 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2727 */
    28 
    2928/**
    3029 * @addtogroup drvusbuhcihc
     
    3938#include <assert.h>
    4039#include <devman.h>
    41 #include <device/hw_res.h>
     40#include <device/hw_res_parsed.h>
    4241
    4342#include <usb/debug.h>
     
    6867                return ENOMEM;
    6968
    70         hw_resource_list_t hw_resources;
    71         const int rc = hw_res_get_resource_list(parent_sess, &hw_resources);
     69        hw_res_list_parsed_t hw_res;
     70        hw_res_list_parsed_init(&hw_res);
     71        const int ret =  hw_res_get_list_parsed(parent_sess, &hw_res, 0);
    7272        async_hangup(parent_sess);
    73         if (rc != EOK) {
    74                 return rc;
     73        if (ret != EOK) {
     74                return ret;
    7575        }
    7676
    77         uintptr_t io_address = 0;
    78         size_t io_size = 0;
    79         bool io_found = false;
     77        /* We want one irq and one io range. */
     78        if (hw_res.irqs.count != 1 || hw_res.io_ranges.count != 1) {
     79                hw_res_list_parsed_clean(&hw_res);
     80                return EINVAL;
     81        }
    8082
    81         int irq = 0;
    82         bool irq_found = false;
     83        if (io_reg_address)
     84                *io_reg_address = hw_res.io_ranges.ranges[0].address;
     85        if (io_reg_size)
     86                *io_reg_size = hw_res.io_ranges.ranges[0].size;
     87        if (irq_no)
     88                *irq_no = hw_res.irqs.irqs[0];
    8389
    84         for (size_t i = 0; i < hw_resources.count; i++) {
    85                 const hw_resource_t *res = &hw_resources.resources[i];
    86                 switch (res->type) {
    87                 case INTERRUPT:
    88                         irq = res->res.interrupt.irq;
    89                         irq_found = true;
    90                         usb_log_debug2("Found interrupt: %d.\n", irq);
    91                         break;
    92                 case IO_RANGE:
    93                         io_address = res->res.io_range.address;
    94                         io_size = res->res.io_range.size;
    95                         usb_log_debug2("Found io: %" PRIx64" %zu.\n",
    96                             res->res.io_range.address, res->res.io_range.size);
    97                         io_found = true;
    98                         break;
    99                 default:
    100                         break;
    101                 }
    102         }
    103         free(hw_resources.resources);
    104 
    105         if (!io_found || !irq_found)
    106                 return ENOENT;
    107 
    108         *io_reg_address = io_address;
    109         *io_reg_size = io_size;
    110         *irq_no = irq;
    111 
     90        hw_res_list_parsed_clean(&hw_res);
    11291        return EOK;
    11392}
  • uspace/drv/bus/usb/uhci/transfer_list.c

    r2f0dd2a r153cc76a  
    184184                    uhci_transfer_batch_from_link(current);
    185185                transfer_list_remove_batch(instance, batch);
    186                 batch->usb_batch->error = EINTR;
    187                 uhci_transfer_batch_call_dispose(batch);
     186                uhci_transfer_batch_abort(batch);
    188187        }
    189188        fibril_mutex_unlock(&instance->guard);
  • uspace/drv/bus/usb/uhci/uhci.c

    r2f0dd2a r153cc76a  
    148148int device_setup_uhci(ddf_dev_t *device)
    149149{
    150         assert(device);
    151         uhci_t *instance = malloc(sizeof(uhci_t));
     150        if (!device)
     151                return EBADMEM;
     152
     153        uhci_t *instance = ddf_dev_data_alloc(device, sizeof(uhci_t));
    152154        if (instance == NULL) {
    153155                usb_log_error("Failed to allocate OHCI driver.\n");
     
    158160if (ret != EOK) { \
    159161        if (instance->hc_fun) \
    160                 instance->hc_fun->ops = NULL; \
    161162                instance->hc_fun->driver_data = NULL; \
    162163                ddf_fun_destroy(instance->hc_fun); \
    163164        if (instance->rh_fun) {\
    164                 instance->rh_fun->ops = NULL; \
    165165                instance->rh_fun->driver_data = NULL; \
    166166                ddf_fun_destroy(instance->rh_fun); \
    167167        } \
    168         device->driver_data = NULL; \
    169168        usb_log_error(message); \
    170169        return ret; \
     
    227226            "Failed to init uhci_hcd: %s.\n", str_error(ret));
    228227
    229         device->driver_data = instance;
    230 
    231228#define CHECK_RET_FINI_RETURN(ret, message...) \
    232229if (ret != EOK) { \
  • uspace/drv/bus/usb/uhci/uhci_batch.c

    r2f0dd2a r153cc76a  
    3434#include <errno.h>
    3535#include <str_error.h>
     36#include <macros.h>
    3637
    3738#include <usb/usb.h>
     
    4546#define DEFAULT_ERROR_COUNT 3
    4647
     48/** Safely destructs uhci_transfer_batch_t structure.
     49 *
     50 * @param[in] uhci_batch Instance to destroy.
     51 */
    4752static void uhci_transfer_batch_dispose(uhci_transfer_batch_t *uhci_batch)
    4853{
     
    5459}
    5560/*----------------------------------------------------------------------------*/
    56 /** Safely destructs uhci_transfer_batch_t structure
    57  *
    58  * @param[in] uhci_batch Instance to destroy.
    59  */
    60 void uhci_transfer_batch_call_dispose(uhci_transfer_batch_t *uhci_batch)
     61/** Finishes usb_transfer_batch and destroys the structure.
     62 *
     63 * @param[in] uhci_batch Instance to finish and destroy.
     64 */
     65void uhci_transfer_batch_finish_dispose(uhci_transfer_batch_t *uhci_batch)
    6166{
    6267        assert(uhci_batch);
    6368        assert(uhci_batch->usb_batch);
    6469        usb_transfer_batch_finish(uhci_batch->usb_batch,
    65             uhci_transfer_batch_data_buffer(uhci_batch),
    66             uhci_batch->usb_batch->buffer_size);
     70            uhci_transfer_batch_data_buffer(uhci_batch));
    6771        uhci_transfer_batch_dispose(uhci_batch);
    6872}
    6973/*----------------------------------------------------------------------------*/
     74/** Transfer batch setup table. */
    7075static void (*const batch_setup[])(uhci_transfer_batch_t*, usb_direction_t);
    7176/*----------------------------------------------------------------------------*/
    7277/** Allocate memory and initialize internal data structure.
    7378 *
    74  * @param[in] fun DDF function to pass to callback.
    75  * @param[in] ep Communication target
    76  * @param[in] buffer Data source/destination.
    77  * @param[in] buffer_size Size of the buffer.
    78  * @param[in] setup_buffer Setup data source (if not NULL)
    79  * @param[in] setup_size Size of setup_buffer (should be always 8)
    80  * @param[in] func_in function to call on inbound transfer completion
    81  * @param[in] func_out function to call on outbound transfer completion
    82  * @param[in] arg additional parameter to func_in or func_out
     79 * @param[in] usb_batch Pointer to generic USB batch structure.
    8380 * @return Valid pointer if all structures were successfully created,
    8481 * NULL otherwise.
     
    156153 * is reached.
    157154 */
    158 bool uhci_transfer_batch_is_complete(uhci_transfer_batch_t *uhci_batch)
     155bool uhci_transfer_batch_is_complete(const uhci_transfer_batch_t *uhci_batch)
    159156{
    160157        assert(uhci_batch);
     
    200197}
    201198/*----------------------------------------------------------------------------*/
     199/** Direction to pid conversion table */
    202200static const usb_packet_id direction_pids[] = {
    203201        [USB_DIRECTION_IN] = USB_PID_IN,
     
    237235
    238236        while (remain_size > 0) {
    239                 const size_t packet_size =
    240                     (remain_size < mps) ? remain_size : mps;
     237                const size_t packet_size = min(remain_size, mps);
    241238
    242239                const td_t *next_td = (td + 1 < uhci_batch->td_count)
     
    309306
    310307        while (remain_size > 0) {
    311                 const size_t packet_size =
    312                     (remain_size < mps) ? remain_size : mps;
     308                const size_t packet_size = min(remain_size, mps);
    313309
    314310                td_init(
  • uspace/drv/bus/usb/uhci/uhci_batch.h

    r2f0dd2a r153cc76a  
    6161
    6262uhci_transfer_batch_t * uhci_transfer_batch_get(usb_transfer_batch_t *batch);
    63 void uhci_transfer_batch_call_dispose(uhci_transfer_batch_t *uhci_batch);
    64 bool uhci_transfer_batch_is_complete(uhci_transfer_batch_t *uhci_batch);
     63void uhci_transfer_batch_finish_dispose(uhci_transfer_batch_t *uhci_batch);
     64bool uhci_transfer_batch_is_complete(const uhci_transfer_batch_t *uhci_batch);
    6565
     66/** Get offset to setup buffer accessible to the HC hw.
     67 * @param uhci_batch UHCI batch structure.
     68 * @return Pointer to the setup buffer.
     69 */
    6670static inline void * uhci_transfer_batch_setup_buffer(
    6771    const uhci_transfer_batch_t *uhci_batch)
     
    7377}
    7478/*----------------------------------------------------------------------------*/
     79/** Get offset to data buffer accessible to the HC hw.
     80 * @param uhci_batch UHCI batch structure.
     81 * @return Pointer to the data buffer.
     82 */
    7583static inline void * uhci_transfer_batch_data_buffer(
    7684    const uhci_transfer_batch_t *uhci_batch)
     
    8290}
    8391/*----------------------------------------------------------------------------*/
     92/** Aborts the batch.
     93 * Sets error to EINTR and size off transferd data to 0, before finishing the
     94 * batch.
     95 * @param uhci_batch Batch to abort.
     96 */
     97static inline void uhci_transfer_batch_abort(uhci_transfer_batch_t *uhci_batch)
     98{
     99        assert(uhci_batch);
     100        assert(uhci_batch->usb_batch);
     101        uhci_batch->usb_batch->error = EINTR;
     102        uhci_batch->usb_batch->transfered_size = 0;
     103        uhci_transfer_batch_finish_dispose(uhci_batch);
     104}
     105/*----------------------------------------------------------------------------*/
     106/** Linked list conversion wrapper.
     107 * @param l Linked list link.
     108 * @return Pointer to the uhci batch structure.
     109 */
    84110static inline uhci_transfer_batch_t *uhci_transfer_batch_from_link(link_t *l)
    85111{
  • uspace/drv/bus/usb/uhcirh/main.c

    r2f0dd2a r153cc76a  
    3636#include <ddf/driver.h>
    3737#include <devman.h>
    38 #include <device/hw_res.h>
     38#include <device/hw_res_parsed.h>
    3939#include <errno.h>
    4040#include <str_error.h>
     
    136136{
    137137        assert(dev);
    138        
     138
    139139        async_sess_t *parent_sess =
    140140            devman_parent_device_connect(EXCHANGE_SERIALIZE, dev->handle,
     
    142142        if (!parent_sess)
    143143                return ENOMEM;
    144        
    145         hw_resource_list_t hw_resources;
    146         const int ret = hw_res_get_resource_list(parent_sess, &hw_resources);
     144
     145        hw_res_list_parsed_t hw_res;
     146        hw_res_list_parsed_init(&hw_res);
     147        const int ret =  hw_res_get_list_parsed(parent_sess, &hw_res, 0);
     148        async_hangup(parent_sess);
    147149        if (ret != EOK) {
    148                 async_hangup(parent_sess);
    149150                return ret;
    150151        }
    151        
    152         uintptr_t io_address = 0;
    153         size_t io_size = 0;
    154         bool io_found = false;
    155        
    156         size_t i = 0;
    157         for (; i < hw_resources.count; i++) {
    158                 hw_resource_t *res = &hw_resources.resources[i];
    159                 if (res->type == IO_RANGE) {
    160                         io_address = res->res.io_range.address;
    161                         io_size = res->res.io_range.size;
    162                         io_found = true;
    163                 }
    164        
     152
     153        if (hw_res.io_ranges.count != 1) {
     154                hw_res_list_parsed_clean(&hw_res);
     155                return EINVAL;
    165156        }
    166         async_hangup(parent_sess);
    167        
    168         if (!io_found)
    169                 return ENOENT;
    170        
     157
    171158        if (io_reg_address != NULL)
    172                 *io_reg_address = io_address;
    173        
     159                *io_reg_address = hw_res.io_ranges.ranges[0].address;
     160
    174161        if (io_reg_size != NULL)
    175                 *io_reg_size = io_size;
    176        
     162                *io_reg_size = hw_res.io_ranges.ranges[0].size;
     163
     164        hw_res_list_parsed_clean(&hw_res);
    177165        return EOK;
    178166}
  • uspace/drv/bus/usb/uhcirh/port.c

    r2f0dd2a r153cc76a  
    260260{
    261261        assert(port);
    262         assert(usb_hc_connection_is_opened(&port->hc_connection));
    263262
    264263        usb_log_debug("%s: Detected new device.\n", port->id_string);
     
    314313
    315314        /* Driver stopped, free used address */
    316         ret = usb_hc_unregister_device(&port->hc_connection,
    317             port->attached_device.address);
     315        ret = usb_hub_unregister_device(&port->hc_connection,
     316            &port->attached_device);
    318317        if (ret != EOK) {
    319318                usb_log_error("%s: Failed to unregister address of removed "
  • uspace/drv/bus/usb/usbhub/port.c

    r2f0dd2a r153cc76a  
    288288        port->attached_device.fun = NULL;
    289289
    290         ret = usb_hc_connection_open(&hub->connection);
    291         if (ret == EOK) {
    292                 ret = usb_hc_unregister_device(&hub->connection,
    293                     port->attached_device.address);
    294                 if (ret != EOK) {
    295                         usb_log_warning("Failed to unregister address of the "
    296                             "removed device: %s.\n", str_error(ret));
    297                 }
    298                 ret = usb_hc_connection_close(&hub->connection);
    299                 if (ret != EOK) {
    300                         usb_log_warning("Failed to close hc connection %s.\n",
    301                             str_error(ret));
    302                 }
    303 
    304         } else {
    305                 usb_log_warning("Failed to open hc connection %s.\n",
    306                     str_error(ret));
     290        ret = usb_hub_unregister_device(&hub->usb_device->hc_conn,
     291            &port->attached_device);
     292        if (ret != EOK) {
     293                usb_log_warning("Failed to unregister address of the "
     294                    "removed device: %s.\n", str_error(ret));
    307295        }
    308296
     
    438426
    439427        const int rc = usb_hc_new_device_wrapper(data->hub->usb_device->ddf_dev,
    440             &data->hub->connection, data->speed, enable_port_callback,
     428            &data->hub->usb_device->hc_conn, data->speed, enable_port_callback,
    441429            data->port, &new_address, NULL, NULL, &child_fun);
    442430
  • uspace/drv/bus/usb/usbhub/usbhub.c

    r2f0dd2a r153cc76a  
    9999        fibril_condvar_initialize(&hub_dev->pending_ops_cv);
    100100
    101         /* Create hc connection */
    102         usb_log_debug("Initializing USB wire abstraction.\n");
    103         int opResult = usb_hc_connection_initialize_from_device(
    104             &hub_dev->connection, hub_dev->usb_device->ddf_dev);
    105         if (opResult != EOK) {
    106                 usb_log_error("Could not initialize connection to device: %s\n",
     101
     102        int opResult = usb_pipe_start_long_transfer(&usb_dev->ctrl_pipe);
     103        if (opResult != EOK) {
     104                usb_log_error("Failed to start long ctrl pipe transfer: %s\n",
    107105                    str_error(opResult));
    108106                return opResult;
     
    112110        opResult = usb_set_first_configuration(usb_dev);
    113111        if (opResult != EOK) {
     112                usb_pipe_end_long_transfer(&usb_dev->ctrl_pipe);
    114113                usb_log_error("Could not set hub configuration: %s\n",
    115114                    str_error(opResult));
     
    120119        opResult = usb_hub_process_hub_specific_info(hub_dev);
    121120        if (opResult != EOK) {
     121                usb_pipe_end_long_transfer(&usb_dev->ctrl_pipe);
    122122                usb_log_error("Could process hub specific info, %s\n",
    123123                    str_error(opResult));
     
    130130            fun_exposed, HUB_FNC_NAME);
    131131        if (hub_dev->hub_fun == NULL) {
     132                usb_pipe_end_long_transfer(&usb_dev->ctrl_pipe);
    132133                usb_log_error("Failed to create hub function.\n");
    133134                return ENOMEM;
     
    137138        opResult = ddf_fun_bind(hub_dev->hub_fun);
    138139        if (opResult != EOK) {
     140                usb_pipe_end_long_transfer(&usb_dev->ctrl_pipe);
    139141                usb_log_error("Failed to bind hub function: %s.\n",
    140142                   str_error(opResult));
     
    148150            usb_hub_polling_terminated_callback, hub_dev);
    149151        if (opResult != EOK) {
     152                usb_pipe_end_long_transfer(&usb_dev->ctrl_pipe);
    150153                /* Function is already bound */
    151154                ddf_fun_unbind(hub_dev->hub_fun);
     
    159162            hub_dev->usb_device->ddf_dev->name, hub_dev->port_count);
    160163
     164        usb_pipe_end_long_transfer(&usb_dev->ctrl_pipe);
    161165        return EOK;
    162166}
  • uspace/drv/bus/usb/usbhub/usbhub.h

    r2f0dd2a r153cc76a  
    5757        /** Port structures, one for each port */
    5858        usb_hub_port_t *ports;
    59         /** Connection to hcd */
    60         usb_hc_connection_t connection;
    6159        /** Generic usb device data*/
    6260        usb_device_t *usb_device;
  • uspace/drv/bus/usb/usbmid/main.c

    r2f0dd2a r153cc76a  
    5353        usb_log_info("Taking care of new MID `%s'.\n", dev->ddf_dev->name);
    5454
    55         usb_pipe_start_long_transfer(&dev->ctrl_pipe);
    56 
    57         bool accept = usbmid_explore_device(dev);
    58 
    59         usb_pipe_end_long_transfer(&dev->ctrl_pipe);
     55        const bool accept = usbmid_explore_device(dev);
    6056
    6157        if (!accept) {
  • uspace/drv/bus/usb/vhc/hub.c

    r2f0dd2a r153cc76a  
    107107
    108108        usb_hc_connection_t hc_conn;
    109         rc = usb_hc_connection_initialize(&hc_conn, hc_dev->handle);
    110         assert(rc == EOK);
     109        usb_hc_connection_initialize(&hc_conn, hc_dev->handle);
    111110
    112111        rc = usb_hc_connection_open(&hc_conn);
  • uspace/lib/drv/include/usbhc_iface.h

    r2f0dd2a r153cc76a  
    11/*
    22 * Copyright (c) 2010 Vojtech Horky
     3 * Copyright (c) 2011 Jan Vesely
    34 * All rights reserved.
    45 *
     
    2627 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2728 */
    28 
    2929/** @addtogroup libdrv
    3030 * @addtogroup usb
     
    4646int usbhc_get_handle(async_exch_t *, usb_address_t, devman_handle_t *);
    4747int usbhc_release_address(async_exch_t *, usb_address_t);
    48 int usbhc_register_endpoint(async_exch_t *, usb_address_t,  usb_endpoint_t,
     48int usbhc_register_endpoint(async_exch_t *, usb_address_t, usb_endpoint_t,
    4949    usb_transfer_type_t, usb_direction_t, size_t, unsigned int);
    5050int usbhc_unregister_endpoint(async_exch_t *, usb_address_t, usb_endpoint_t,
  • uspace/lib/usb/Makefile

    r2f0dd2a r153cc76a  
    3737        src/class.c \
    3838        src/ddfiface.c \
     39        src/dev.c \
    3940        src/debug.c \
    4041        src/dump.c \
    4142        src/hc.c \
    42         src/resolve.c \
    4343        src/usb.c
    4444
  • uspace/lib/usb/include/usb/classes/hub.h

    r2f0dd2a r153cc76a  
    8484
    8585/**
    86  *      @brief usb hub descriptor
    87  *
    88  *      For more information see Universal Serial Bus Specification Revision 1.1 chapter 11.16.2
     86 * @brief usb hub descriptor
     87 *
     88 * For more information see Universal Serial Bus Specification Revision 1.1
     89 * chapter 11.16.2
    8990 */
    9091typedef struct usb_hub_descriptor_type {
  • uspace/lib/usb/include/usb/hc.h

    r2f0dd2a r153cc76a  
    11/*
    22 * Copyright (c) 2011 Vojtech Horky
     3 * Copyright (c) 2011 Jan Vesely
    34 * All rights reserved.
    45 *
     
    2627 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2728 */
    28 
    2929/** @addtogroup libusb
    3030 * @{
    3131 */
    3232/** @file
    33  * General communication with host controller driver.
     33 * General communication with host controller.
    3434 */
    3535#ifndef LIBUSB_HC_H_
    3636#define LIBUSB_HC_H_
    3737
    38 #include <sys/types.h>
    39 #include <ipc/devman.h>
    40 #include <ipc/loc.h>
     38#include <async.h>
     39#include <devman.h>
    4140#include <ddf/driver.h>
    4241#include <bool.h>
    43 #include <async.h>
     42#include <fibril_synch.h>
    4443#include <usb/usb.h>
    4544
    46 /** Connection to the host controller driver. */
     45/** Connection to the host controller driver.
     46 *
     47 * This is a high level IPC communication wrapper. After the structure has been
     48 * initialized using devman handle of an USB host controller, it
     49 * will manage all communication to that host controller, including session
     50 * creation/destruction and proper IPC protocol.
     51 */
    4752typedef struct {
    4853        /** Devman handle of the host controller. */
     
    5055        /** Session to the host controller. */
    5156        async_sess_t *hc_sess;
     57        /** Session guard. */
     58        fibril_mutex_t guard;
     59        /** Use counter. */
     60        unsigned ref_count;
    5261} usb_hc_connection_t;
     62
     63/** Initialize connection to USB host controller.
     64 *
     65 * @param connection Connection to be initialized.
     66 * @param hc_handle Devman handle of the host controller.
     67 * @return Error code.
     68 */
     69static inline void usb_hc_connection_initialize(usb_hc_connection_t *connection,
     70    devman_handle_t hc_handle)
     71{
     72        assert(connection);
     73        connection->hc_handle = hc_handle;
     74        connection->hc_sess = NULL;
     75        connection->ref_count = 0;
     76        fibril_mutex_initialize(&connection->guard);
     77}
    5378
    5479int usb_hc_connection_initialize_from_device(usb_hc_connection_t *,
    5580    const ddf_dev_t *);
    56 int usb_hc_connection_initialize(usb_hc_connection_t *, devman_handle_t);
     81
     82void usb_hc_connection_deinitialize(usb_hc_connection_t *);
    5783
    5884int usb_hc_connection_open(usb_hc_connection_t *);
    59 bool usb_hc_connection_is_opened(const usb_hc_connection_t *);
    6085int usb_hc_connection_close(usb_hc_connection_t *);
     86
     87usb_address_t usb_hc_request_address(usb_hc_connection_t *, usb_address_t, bool,
     88    usb_speed_t);
     89int usb_hc_bind_address(usb_hc_connection_t *, usb_address_t, devman_handle_t);
    6190int usb_hc_get_handle_by_address(usb_hc_connection_t *, usb_address_t,
    6291    devman_handle_t *);
     92int usb_hc_release_address(usb_hc_connection_t *, usb_address_t);
    6393
    64 usb_address_t usb_get_address_by_handle(devman_handle_t);
     94int usb_hc_register_endpoint(usb_hc_connection_t *, usb_address_t,
     95    usb_endpoint_t, usb_transfer_type_t, usb_direction_t, size_t, unsigned int);
     96int usb_hc_unregister_endpoint(usb_hc_connection_t *, usb_address_t,
     97    usb_endpoint_t, usb_direction_t);
    6598
    66 int usb_hc_find(devman_handle_t, devman_handle_t *);
     99int usb_hc_read(usb_hc_connection_t *, usb_address_t, usb_endpoint_t,
     100    uint64_t, void *, size_t, size_t *);
     101int usb_hc_write(usb_hc_connection_t *, usb_address_t, usb_endpoint_t,
     102    uint64_t, const void *, size_t);
    67103
    68 int usb_resolve_device_handle(const char *, devman_handle_t *, usb_address_t *,
    69     devman_handle_t *);
    70 
    71 int usb_ddf_get_hc_handle_by_sid(service_id_t, devman_handle_t *);
    72 
     104/** Get host controller handle by its class index.
     105 *
     106 * @param sid Service ID of the HC function.
     107 * @param hc_handle Where to store the HC handle
     108 *      (can be NULL for existence test only).
     109 * @return Error code.
     110 */
     111static inline int usb_ddf_get_hc_handle_by_sid(
     112    service_id_t sid, devman_handle_t *handle)
     113{
     114        devman_handle_t h;
     115        return devman_fun_sid_to_handle(sid, handle ? handle : &h);
     116}
    73117
    74118#endif
  • uspace/lib/usb/include/usb/usb.h

    r2f0dd2a r153cc76a  
    2626 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2727 */
    28 
    2928/** @addtogroup libusb
    3029 * @{
  • uspace/lib/usb/src/ddfiface.c

    r2f0dd2a r153cc76a  
    4444#include <assert.h>
    4545
     46#include <usb/dev.h>
     47
    4648/** DDF interface for USB device, implementation for typical hub. */
    4749usb_iface_t usb_iface_hub_impl = {
     
    6668{
    6769        assert(fun);
    68         return usb_hc_find(fun->handle, handle);
     70        return usb_get_hc_by_handle(fun->handle, handle);
    6971}
    7072
     
    9799{
    98100        assert(fun);
    99 
    100         async_sess_t *parent_sess =
    101             devman_parent_device_connect(EXCHANGE_SERIALIZE, fun->handle,
    102             IPC_FLAG_BLOCKING);
    103         if (!parent_sess)
    104                 return ENOMEM;
    105 
    106         async_exch_t *exch = async_exchange_begin(parent_sess);
    107         if (!exch) {
    108                 async_hangup(parent_sess);
    109                 return ENOMEM;
    110         }
    111 
    112         const int ret = usb_get_my_address(exch, address);
    113 
    114         async_exchange_end(exch);
    115         async_hangup(parent_sess);
    116 
    117         return ret;
     101        return usb_get_address_by_handle(fun->handle, address);
    118102}
    119103
     
    134118        assert(fun);
    135119        assert(fun->driver_data);
    136         usb_hub_attached_device_t *device = fun->driver_data;
     120        const usb_hub_attached_device_t *device = fun->driver_data;
    137121        assert(device->fun == fun);
    138122        if (address)
  • uspace/lib/usb/src/hc.c

    r2f0dd2a r153cc76a  
    11/*
    22 * Copyright (c) 2011 Vojtech Horky
     3 * Copyright (c) 2011 Jan Vesely
    34 * All rights reserved.
    45 *
     
    2627 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2728 */
    28 
    2929/** @addtogroup libusb
    3030 * @{
     
    3333 * General communication with host controller driver (implementation).
    3434 */
    35 #include <devman.h>
    36 #include <async.h>
    37 #include <dev_iface.h>
    38 #include <usb_iface.h>
     35#include <usb/debug.h>
     36
     37#include <assert.h>
     38#include <errno.h>
    3939#include <usbhc_iface.h>
     40#include <usb/dev.h>
    4041#include <usb/hc.h>
    41 #include <usb/debug.h>
    42 #include <errno.h>
    43 #include <assert.h>
     42
     43static int usb_hc_connection_add_ref(usb_hc_connection_t *connection)
     44{
     45        assert(connection);
     46        fibril_mutex_lock(&connection->guard);
     47        if (connection->ref_count == 0) {
     48                assert(connection->hc_sess == NULL);
     49                /* Parallel exchange for us */
     50                connection->hc_sess = devman_device_connect(EXCHANGE_PARALLEL,
     51                        connection->hc_handle, 0);
     52                if (!connection->hc_sess) {
     53                        fibril_mutex_unlock(&connection->guard);
     54                        return ENOMEM;
     55                }
     56        }
     57        ++connection->ref_count;
     58        fibril_mutex_unlock(&connection->guard);
     59        return EOK;
     60}
     61/*----------------------------------------------------------------------------*/
     62static int usb_hc_connection_del_ref(usb_hc_connection_t *connection)
     63{
     64        assert(connection);
     65        fibril_mutex_lock(&connection->guard);
     66        if (connection->ref_count == 0) {
     67                /* Closing already closed connection... */
     68                assert(connection->hc_sess = NULL);
     69                fibril_mutex_unlock(&connection->guard);
     70                return EOK;
     71        }
     72        --connection->ref_count;
     73        int ret = EOK;
     74        if (connection->ref_count == 0) {
     75                assert(connection->hc_sess);
     76                ret = async_hangup(connection->hc_sess);
     77                connection->hc_sess = NULL;
     78        }
     79        fibril_mutex_unlock(&connection->guard);
     80        return ret;
     81}
     82
     83#define EXCH_INIT(connection, exch) \
     84do { \
     85        exch = NULL; \
     86        if (!connection) \
     87                return EBADMEM; \
     88        const int ret = usb_hc_connection_add_ref(connection); \
     89        if (ret != EOK) \
     90                return ret; \
     91        exch = async_exchange_begin(connection->hc_sess); \
     92        if (exch == NULL) { \
     93                usb_hc_connection_del_ref(connection); \
     94                return ENOMEM; \
     95        } \
     96} while (0)
     97
     98#define EXCH_FINI(connection, exch) \
     99if (exch) { \
     100        async_exchange_end(exch); \
     101        usb_hc_connection_del_ref(connection); \
     102} else (void)0
    44103
    45104/** Initialize connection to USB host controller.
     
    59118
    60119        devman_handle_t hc_handle;
    61         int rc = usb_hc_find(device->handle, &hc_handle);
    62         if (rc != EOK) {
    63                 return rc;
    64         }
    65 
    66         rc = usb_hc_connection_initialize(connection, hc_handle);
     120        const int rc = usb_get_hc_by_handle(device->handle, &hc_handle);
     121        if (rc == EOK) {
     122                usb_hc_connection_initialize(connection, hc_handle);
     123        }
    67124
    68125        return rc;
    69126}
    70 
    71 /** Manually initialize connection to USB host controller.
    72  *
    73  * @param connection Connection to be initialized.
    74  * @param hc_handle Devman handle of the host controller.
    75  * @return Error code.
    76  */
    77 int usb_hc_connection_initialize(usb_hc_connection_t *connection,
    78     devman_handle_t hc_handle)
    79 {
    80         assert(connection);
    81 
    82         connection->hc_handle = hc_handle;
    83         connection->hc_sess = NULL;
    84 
    85         return EOK;
    86 }
    87 
     127/*----------------------------------------------------------------------------*/
     128void usb_hc_connection_deinitialize(usb_hc_connection_t *connection)
     129{
     130        assert(connection);
     131        fibril_mutex_lock(&connection->guard);
     132        if (connection->ref_count != 0) {
     133                usb_log_warning("%u stale reference(s) to HC connection.\n",
     134                    connection->ref_count);
     135                assert(connection->hc_sess);
     136                async_hangup(connection->hc_sess);
     137                connection->hc_sess = NULL;
     138                connection->ref_count = 0;
     139        }
     140        fibril_mutex_unlock(&connection->guard);
     141}
     142/*----------------------------------------------------------------------------*/
    88143/** Open connection to host controller.
    89144 *
     
    93148int usb_hc_connection_open(usb_hc_connection_t *connection)
    94149{
    95         assert(connection);
    96        
    97         if (usb_hc_connection_is_opened(connection))
    98                 return EBUSY;
    99        
    100         async_sess_t *sess = devman_device_connect(EXCHANGE_ATOMIC,
    101             connection->hc_handle, 0);
    102         if (!sess)
    103                 return ENOMEM;
    104        
    105         connection->hc_sess = sess;
    106         return EOK;
    107 }
    108 
    109 /** Tells whether connection to host controller is opened.
     150        return usb_hc_connection_add_ref(connection);
     151}
     152/*----------------------------------------------------------------------------*/
     153/** Close connection to the host controller.
    110154 *
    111155 * @param connection Connection to the host controller.
    112  * @return Whether connection is opened.
    113  */
    114 bool usb_hc_connection_is_opened(const usb_hc_connection_t *connection)
    115 {
    116         assert(connection);
    117         return (connection->hc_sess != NULL);
    118 }
    119 
    120 /** Close connection to the host controller.
    121  *
    122  * @param connection Connection to the host controller.
    123156 * @return Error code.
    124157 */
    125158int usb_hc_connection_close(usb_hc_connection_t *connection)
    126159{
    127         assert(connection);
    128 
    129         if (!usb_hc_connection_is_opened(connection)) {
    130                 return ENOENT;
    131         }
    132 
    133         int rc = async_hangup(connection->hc_sess);
    134         if (rc != EOK) {
    135                 return rc;
    136         }
    137 
    138         connection->hc_sess = NULL;
    139 
    140         return EOK;
    141 }
    142 
     160        return usb_hc_connection_del_ref(connection);
     161}
     162/*----------------------------------------------------------------------------*/
     163/** Ask host controller for free address assignment.
     164 *
     165 * @param connection Opened connection to host controller.
     166 * @param preferred Preferred SUB address.
     167 * @param strict Fail if the preferred address is not avialable.
     168 * @param speed Speed of the new device (device that will be assigned
     169 *    the returned address).
     170 * @return Assigned USB address or negative error code.
     171 */
     172usb_address_t usb_hc_request_address(usb_hc_connection_t *connection,
     173    usb_address_t preferred, bool strict, usb_speed_t speed)
     174{
     175        async_exch_t *exch;
     176        EXCH_INIT(connection, exch);
     177
     178        usb_address_t address = preferred;
     179        const int ret = usbhc_request_address(exch, &address, strict, speed);
     180
     181        EXCH_FINI(connection, exch);
     182        return ret == EOK ? address : ret;
     183}
     184/*----------------------------------------------------------------------------*/
     185int usb_hc_bind_address(usb_hc_connection_t * connection,
     186    usb_address_t address, devman_handle_t handle)
     187{
     188        async_exch_t *exch;
     189        EXCH_INIT(connection, exch);
     190
     191        const int ret = usbhc_bind_address(exch, address, handle);
     192
     193        EXCH_FINI(connection, exch);
     194        return ret;
     195}
     196/*----------------------------------------------------------------------------*/
    143197/** Get handle of USB device with given address.
    144198 *
     
    151205    usb_address_t address, devman_handle_t *handle)
    152206{
    153         if (!usb_hc_connection_is_opened(connection))
    154                 return ENOENT;
    155 
    156         async_exch_t *exch = async_exchange_begin(connection->hc_sess);
    157         if (!exch)
    158                 return ENOMEM;
     207        async_exch_t *exch;
     208        EXCH_INIT(connection, exch);
     209
    159210        const int ret = usbhc_get_handle(exch, address, handle);
    160         async_exchange_end(exch);
    161         return ret;
    162 }
    163 
    164 /** Tell USB address assigned to device with given handle.
    165  *
    166  * @param dev_handle Devman handle of the USB device in question.
    167  * @return USB address or negative error code.
    168  */
    169 usb_address_t usb_get_address_by_handle(devman_handle_t dev_handle)
    170 {
    171         async_sess_t *parent_sess =
    172             devman_parent_device_connect(EXCHANGE_ATOMIC, dev_handle,
    173             IPC_FLAG_BLOCKING);
    174         if (!parent_sess)
    175                 return ENOMEM;
    176 
    177         async_exch_t *exch = async_exchange_begin(parent_sess);
    178         if (!exch) {
    179                 async_hangup(parent_sess);
    180                 return ENOMEM;
    181         }
    182         usb_address_t address;
    183         const int ret = usb_get_my_address(exch, &address);
    184 
    185         async_exchange_end(exch);
    186         async_hangup(parent_sess);
    187 
    188         if (ret != EOK)
    189                 return ret;
    190 
    191         return address;
    192 }
    193 
    194 
    195 /** Get host controller handle by its class index.
    196  *
    197  * @param sid Service ID of the HC function.
    198  * @param hc_handle Where to store the HC handle
    199  *      (can be NULL for existence test only).
    200  * @return Error code.
    201  */
    202 int usb_ddf_get_hc_handle_by_sid(service_id_t sid, devman_handle_t *hc_handle)
    203 {
    204         devman_handle_t handle;
    205         int rc;
    206        
    207         rc = devman_fun_sid_to_handle(sid, &handle);
    208         if (hc_handle != NULL)
    209                 *hc_handle = handle;
    210        
    211         return rc;
    212 }
    213 
    214 /** Find host controller handle that is ancestor of given device.
    215  *
    216  * @param[in] device_handle Device devman handle.
    217  * @param[out] hc_handle Where to store handle of host controller
    218  *      controlling device with @p device_handle handle.
    219  * @return Error code.
    220  */
    221 int usb_hc_find(devman_handle_t device_handle, devman_handle_t *hc_handle)
    222 {
    223         async_sess_t *parent_sess =
    224             devman_parent_device_connect(EXCHANGE_ATOMIC, device_handle,
    225             IPC_FLAG_BLOCKING);
    226         if (!parent_sess)
    227                 return ENOMEM;
    228 
    229         async_exch_t *exch = async_exchange_begin(parent_sess);
    230         if (!exch) {
    231                 async_hangup(parent_sess);
    232                 return ENOMEM;
    233         }
    234         const int ret = usb_get_hc_handle(exch, hc_handle);
    235 
    236         async_exchange_end(exch);
    237         async_hangup(parent_sess);
    238 
     211
     212        EXCH_FINI(connection, exch);
     213        return ret;
     214}
     215/*----------------------------------------------------------------------------*/
     216int usb_hc_release_address(usb_hc_connection_t *connection,
     217    usb_address_t address)
     218{
     219        async_exch_t *exch;
     220        EXCH_INIT(connection, exch);
     221
     222        const int ret = usbhc_release_address(exch, address);
     223
     224        EXCH_FINI(connection, exch);
     225        return ret;
     226}
     227/*----------------------------------------------------------------------------*/
     228int usb_hc_register_endpoint(usb_hc_connection_t *connection,
     229    usb_address_t address, usb_endpoint_t endpoint, usb_transfer_type_t type,
     230    usb_direction_t direction, size_t packet_size, unsigned interval)
     231{
     232        async_exch_t *exch;
     233        EXCH_INIT(connection, exch);
     234
     235        const int ret = usbhc_register_endpoint(exch, address, endpoint,
     236            type, direction, packet_size, interval);
     237
     238        EXCH_FINI(connection, exch);
     239        return ret;
     240}
     241/*----------------------------------------------------------------------------*/
     242int usb_hc_unregister_endpoint(usb_hc_connection_t *connection,
     243    usb_address_t address, usb_endpoint_t endpoint, usb_direction_t direction)
     244{
     245        async_exch_t *exch;
     246        EXCH_INIT(connection, exch);
     247
     248        const int ret =
     249            usbhc_unregister_endpoint(exch, address, endpoint, direction);
     250
     251        EXCH_FINI(connection, exch);
     252        return ret;
     253}
     254/*----------------------------------------------------------------------------*/
     255int usb_hc_read(usb_hc_connection_t *connection, usb_address_t address,
     256    usb_endpoint_t endpoint, uint64_t setup, void *data, size_t size,
     257    size_t *real_size)
     258{
     259        async_exch_t *exch;
     260        EXCH_INIT(connection, exch);
     261
     262        const int ret =
     263            usbhc_read(exch, address, endpoint, setup, data, size, real_size);
     264
     265        EXCH_FINI(connection, exch);
     266        return ret;
     267}
     268/*----------------------------------------------------------------------------*/
     269int usb_hc_write(usb_hc_connection_t *connection, usb_address_t address,
     270    usb_endpoint_t endpoint, uint64_t setup, const void *data, size_t size)
     271{
     272        async_exch_t *exch;
     273        EXCH_INIT(connection, exch);
     274
     275        const int ret = usbhc_write(exch, address, endpoint, setup, data, size);
     276
     277        EXCH_FINI(connection, exch);
    239278        return ret;
    240279}
  • uspace/lib/usb/src/usb.c

    r2f0dd2a r153cc76a  
    3939
    4040static const char *str_speed[] = {
    41         "low",
    42         "full",
    43         "high"
     41        [USB_SPEED_LOW] = "low",
     42        [USB_SPEED_FULL] = "full",
     43        [USB_SPEED_HIGH] = "high",
    4444};
    4545
    4646static const char *str_transfer_type[] = {
    47         "control",
    48         "isochronous",
    49         "bulk",
    50         "interrupt"
     47        [USB_TRANSFER_CONTROL] = "control",
     48        [USB_TRANSFER_ISOCHRONOUS] = "isochronous",
     49        [USB_TRANSFER_BULK] = "bulk",
     50        [USB_TRANSFER_INTERRUPT] = "interrupt",
    5151};
    5252
    5353static const char *str_transfer_type_short[] = {
    54         "ctrl",
    55         "iso",
    56         "bulk",
    57         "intr"
     54        [USB_TRANSFER_CONTROL] = "ctrl",
     55        [USB_TRANSFER_ISOCHRONOUS] = "iso",
     56        [USB_TRANSFER_BULK] = "bulk",
     57        [USB_TRANSFER_INTERRUPT] = "intr",
    5858};
    5959
    6060static const char *str_direction[] = {
    61         "in",
    62         "out",
    63         "both"
     61        [USB_DIRECTION_IN] = "in",
     62        [USB_DIRECTION_OUT] = "out",
     63        [USB_DIRECTION_BOTH] = "both",
    6464};
    6565
  • uspace/lib/usbdev/Makefile

    r2f0dd2a r153cc76a  
    4040        src/dp.c \
    4141        src/hub.c \
    42         src/pipepriv.c \
    43         src/pipepriv.h \
    4442        src/pipes.c \
    4543        src/pipesinit.c \
    46         src/pipesio.c \
    4744        src/recognise.c \
    4845        src/request.c
  • uspace/lib/usbdev/include/usb/dev/driver.h

    r2f0dd2a r153cc76a  
    3636#define LIBUSBDEV_DRIVER_H_
    3737
     38#include <usb/hc.h>
     39#include <usb/dev/usb_device_connection.h>
    3840#include <usb/dev/pipes.h>
    3941
     
    7274/** USB device structure. */
    7375typedef struct {
     76        /** Connection to USB hc, used by wire and arbitrary requests. */
     77        usb_hc_connection_t hc_conn;
    7478        /** Connection backing the pipes.
    7579         * Typically, you will not need to use this attribute at all.
     
    169173void usb_device_release_descriptors(usb_device_descriptors_t *);
    170174
    171 int usb_device_create_pipes(const ddf_dev_t *, usb_device_connection_t *,
     175int usb_device_create_pipes(usb_device_connection_t *,
    172176    const usb_endpoint_description_t **, const uint8_t *, size_t, int, int,
    173177    usb_endpoint_mapping_t **, size_t *);
    174 int usb_device_destroy_pipes(const ddf_dev_t *, usb_endpoint_mapping_t *, size_t);
     178void usb_device_destroy_pipes(usb_endpoint_mapping_t *, size_t);
    175179
    176180void * usb_device_data_alloc(usb_device_t *, size_t);
  • uspace/lib/usbdev/include/usb/dev/hub.h

    r2f0dd2a r153cc76a  
    4040#include <ddf/driver.h>
    4141#include <sys/types.h>
     42#include <errno.h>
    4243#include <usb/hc.h>
    4344
     
    5960} usb_hub_attached_device_t;
    6061
    61 usb_address_t usb_hc_request_address(usb_hc_connection_t *, usb_address_t,
    62     bool, usb_speed_t);
    63 int usb_hc_register_device(usb_hc_connection_t *,
     62int usb_hub_register_device(usb_hc_connection_t *,
    6463    const usb_hub_attached_device_t *);
    65 int usb_hc_unregister_device(usb_hc_connection_t *, usb_address_t);
     64
     65static inline int usb_hub_unregister_device(usb_hc_connection_t *conn,
     66    const usb_hub_attached_device_t *attached_device)
     67{
     68        assert(conn);
     69        if (attached_device == NULL)
     70                return EBADMEM;
     71        return usb_hc_release_address(conn, attached_device->address);
     72}
    6673
    6774#endif
  • uspace/lib/usbdev/include/usb/dev/pipes.h

    r2f0dd2a r153cc76a  
    2626 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2727 */
    28 
    2928/** @addtogroup libusbdev
    3029 * @{
     
    3736
    3837#include <sys/types.h>
    39 #include <usb/usb.h>
    40 #include <usb/hc.h>
    41 #include <usb/descriptor.h>
    4238#include <ipc/devman.h>
    4339#include <ddf/driver.h>
    4440#include <fibril_synch.h>
    45 #include <async.h>
     41#include <usb/usb.h>
     42#include <usb/descriptor.h>
     43#include <usb/dev/usb_device_connection.h>
    4644
    47 /** Abstraction of a physical connection to the device.
    48  * This type is an abstraction of the USB wire that connects the host and
    49  * the function (device).
     45#define CTRL_PIPE_MIN_PACKET_SIZE 8
     46/** Abstraction of a logical connection to USB device endpoint.
     47 * It encapsulates endpoint attributes (transfer type etc.).
     48 * This endpoint must be bound with existing usb_device_connection_t
     49 * (i.e. the wire to send data over).
    5050 */
    5151typedef struct {
    52         /** Handle of the host controller device is connected to. */
    53         devman_handle_t hc_handle;
    54         /** Address of the device. */
    55         usb_address_t address;
    56 } usb_device_connection_t;
    57 
    58 /** Abstraction of a logical connection to USB device endpoint.
    59  * It encapsulates endpoint attributes (transfer type etc.) as well
    60  * as information about currently running sessions.
    61  * This endpoint must be bound with existing usb_device_connection_t
    62  * (i.e. the wire to send data over).
    63  *
    64  * Locking order: if you want to lock both mutexes
    65  * (@c guard and @c hc_sess_mutex), lock @c guard first.
    66  * It is not necessary to lock @c guard if you want to lock @c hc_sess_mutex
    67  * only.
    68  */
    69 typedef struct {
    70         /** Guard of the whole pipe. */
    71         fibril_mutex_t guard;
    72 
    7352        /** The connection used for sending the data. */
    7453        usb_device_connection_t *wire;
     
    8665        size_t max_packet_size;
    8766
    88         /** Session to the host controller.
    89          * NULL when no session is active.
    90          * It is an error to access this member without @c hc_sess_mutex
    91          * being locked.
    92          * If call over the phone is to be made, it must be preceeded by
    93          * call to pipe_add_ref() [internal libusb function].
    94          */
    95         async_sess_t *hc_sess;
    96 
    97         /** Guard for serialization of requests over the session. */
    98         fibril_mutex_t hc_sess_mutex;
    99 
    100         /** Number of active transfers over the pipe. */
    101         int refcount;
    102         /** Number of failed attempts to open the HC phone.
    103          * When user requests usb_pipe_start_long_transfer() and the operation
    104          * fails, there is no way to report this to the user.
    105          * That the soft reference counter is increased to record the attempt.
    106          * When the user then request e.g. usb_pipe_read(), it will try to
    107          * add reference as well.
    108          * If that fails, it is reported to the user. If it is okay, the
    109          * real reference counter is incremented.
    110          * The problem might arise when ending the long transfer (since
    111          * the number of references would be only 1, but logically it shall be
    112          * two).
    113          * Decrementing the soft counter first shall solve this.
    114          */
    115         int refcount_soft;
    116 
    11767        /** Whether to automatically reset halt on the endpoint.
    11868         * Valid only for control endpoint zero.
     
    12070        bool auto_reset_halt;
    12171} usb_pipe_t;
    122 
    12372
    12473/** Description of endpoint characteristics. */
     
    156105} usb_endpoint_mapping_t;
    157106
    158 int usb_device_connection_initialize_on_default_address(
    159     usb_device_connection_t *, usb_hc_connection_t *);
    160 int usb_device_connection_initialize_from_device(usb_device_connection_t *,
    161     const ddf_dev_t *);
    162 int usb_device_connection_initialize(usb_device_connection_t *,
    163     devman_handle_t, usb_address_t);
    164 
    165 int usb_device_get_assigned_interface(const ddf_dev_t *);
    166 
    167107int usb_pipe_initialize(usb_pipe_t *, usb_device_connection_t *,
    168108    usb_endpoint_t, usb_transfer_type_t, size_t, usb_direction_t);
    169109int usb_pipe_initialize_default_control(usb_pipe_t *,
    170110    usb_device_connection_t *);
     111
    171112int usb_pipe_probe_default_control(usb_pipe_t *);
    172113int usb_pipe_initialize_from_configuration(usb_endpoint_mapping_t *,
    173114    size_t, const uint8_t *, size_t, usb_device_connection_t *);
    174 int usb_pipe_register(usb_pipe_t *, unsigned int, usb_hc_connection_t *);
    175 int usb_pipe_unregister(usb_pipe_t *, usb_hc_connection_t *);
    176115
    177 void usb_pipe_start_long_transfer(usb_pipe_t *);
    178 void usb_pipe_end_long_transfer(usb_pipe_t *);
     116int usb_pipe_register(usb_pipe_t *, unsigned);
     117int usb_pipe_unregister(usb_pipe_t *);
     118
     119int usb_pipe_start_long_transfer(usb_pipe_t *);
     120int usb_pipe_end_long_transfer(usb_pipe_t *);
    179121
    180122int usb_pipe_read(usb_pipe_t *, void *, size_t, size_t *);
  • uspace/lib/usbdev/include/usb/dev/poll.h

    r2f0dd2a r153cc76a  
    3939#include <time.h>
    4040
     41/** Parameters and callbacks for automated polling. */
    4142typedef struct {
    4243        /** Level of debugging messages from auto polling.
     
    8283         */
    8384        bool (*on_error)(usb_device_t *dev, int err_code, void *arg);
     85        /** Argument to pass to callbacks. */
     86        void *arg;
    8487} usb_device_auto_polling_t;
    8588
    8689int usb_device_auto_polling(usb_device_t *, size_t,
    87     const usb_device_auto_polling_t *, size_t, void *);
     90    const usb_device_auto_polling_t *, size_t);
    8891
    8992typedef bool (*usb_polling_callback_t)(usb_device_t *,
  • uspace/lib/usbdev/include/usb/dev/request.h

    r2f0dd2a r153cc76a  
    8383        uint8_t request_type;
    8484#define SETUP_REQUEST_TYPE_DEVICE_TO_HOST (1 << 7)
     85#define SETUP_REQUEST_TYPE_GET_TYPE(rt) ((rt >> 5) & 0x3)
     86#define SETUP_REQUEST_TYPE_GET_RECIPIENT(rec) (rec & 0x1f)
     87#define SETUP_REQUEST_TO_HOST(type, recipient) \
     88    (uint8_t)((1 << 7) | ((type & 0x3) << 5) | (recipient & 0x1f))
     89#define SETUP_REQUEST_TO_DEVICE(type, recipient) \
     90    (uint8_t)(((type & 0x3) << 5) | (recipient & 0x1f))
    8591
    8692        /** Request identification. */
  • uspace/lib/usbdev/src/altiface.c

    r2f0dd2a r153cc76a  
    167167}
    168168
    169 void usb_alternate_interfaces_deinit(usb_alternate_interfaces_t *alternate)
     169/** Clean initialized structure.
     170 * @param instance structure do deinitialize.
     171 */
     172void usb_alternate_interfaces_deinit(usb_alternate_interfaces_t *instance)
    170173{
    171         if (!alternate)
     174        if (!instance)
    172175                return;
    173         free(alternate->alternatives);
     176        free(instance->alternatives);
     177        instance->alternatives = NULL;
    174178}
    175179/**
  • uspace/lib/usbdev/src/devdrv.c

    r2f0dd2a r153cc76a  
    11/*
    22 * Copyright (c) 2011 Vojtech Horky
     3 * Copyright (c) 2011 Jan Vesely
    34 * All rights reserved.
    45 *
     
    2627 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2728 */
    28 
    2929/** @addtogroup libusbdev
    3030 * @{
     
    3636#include <usb/dev/request.h>
    3737#include <usb/debug.h>
    38 #include <usb/dev/dp.h>
     38#include <usb/dev.h>
    3939#include <errno.h>
    4040#include <str_error.h>
     
    5656static const usb_driver_t *driver = NULL;
    5757
    58 
    5958/** Main routine of USB device driver.
    6059 *
     
    7574        return ddf_driver_main(&generic_driver);
    7675}
    77 
     76/*----------------------------------------------------------------------------*/
    7877/** Count number of pipes the driver expects.
    7978 *
     
    8584{
    8685        size_t count;
    87         for (count = 0; endpoints && endpoints[count] != NULL; ++count);
     86        for (count = 0; endpoints != NULL && endpoints[count] != NULL; ++count);
    8887        return count;
    89 }
    90 
    91 /** Initialize endpoint pipes, excluding default control one.
    92  *
    93  * @param drv The device driver.
    94  * @param dev Device to be initialized.
    95  * @return Error code.
    96  */
    97 static int initialize_other_pipes(const usb_endpoint_description_t **endpoints,
    98     usb_device_t *dev, int alternate_setting)
    99 {
    100         assert(dev);
    101 
    102         if (endpoints == NULL) {
    103                 dev->pipes = NULL;
    104                 dev->pipes_count = 0;
    105                 return EOK;
    106         }
    107 
    108         usb_endpoint_mapping_t *pipes;
    109         size_t pipes_count;
    110 
    111         int rc = usb_device_create_pipes(dev->ddf_dev, &dev->wire, endpoints,
    112             dev->descriptors.configuration, dev->descriptors.configuration_size,
    113             dev->interface_no, alternate_setting, &pipes, &pipes_count);
    114 
    115         if (rc != EOK) {
    116                 return rc;
    117         }
    118 
    119         dev->pipes = pipes;
    120         dev->pipes_count = pipes_count;
    121 
    122         return EOK;
    12388}
    12489/*----------------------------------------------------------------------------*/
     
    136101        assert(driver->ops->device_add);
    137102
     103        /* Get place for driver data. */
    138104        usb_device_t *dev = ddf_dev_data_alloc(gen_dev, sizeof(usb_device_t));
    139105        if (dev == NULL) {
     
    142108                return ENOMEM;
    143109        }
     110
     111        /* Initialize generic USB driver data. */
    144112        const char *err_msg = NULL;
    145113        int rc = usb_device_init(dev, gen_dev, driver->endpoints, &err_msg);
     
    150118        }
    151119
     120        /* Start USB driver specific initialization. */
    152121        rc = driver->ops->device_add(dev);
    153122        if (rc != EOK)
     
    169138        if (driver->ops->device_rem == NULL)
    170139                return ENOTSUP;
    171         /* Just tell the driver to stop whatever it is doing, keep structures */
    172         return driver->ops->device_rem(gen_dev->driver_data);
     140        /* Just tell the driver to stop whatever it is doing */
     141        usb_device_t *usb_dev = gen_dev->driver_data;
     142        const int ret = driver->ops->device_rem(usb_dev);
     143        if (ret != EOK)
     144                return ret;
     145        usb_device_deinit(usb_dev);
     146        return EOK;
    173147}
    174148/*----------------------------------------------------------------------------*/
     
    197171 *
    198172 * @param dev Device where to destroy the pipes.
    199  * @return Error code.
    200  */
    201 static int destroy_current_pipes(usb_device_t *dev)
    202 {
    203         int rc = usb_device_destroy_pipes(dev->ddf_dev,
    204             dev->pipes, dev->pipes_count);
    205         if (rc != EOK) {
    206                 return rc;
    207         }
    208 
     173 */
     174static void destroy_current_pipes(usb_device_t *dev)
     175{
     176        usb_device_destroy_pipes(dev->pipes, dev->pipes_count);
    209177        dev->pipes = NULL;
    210178        dev->pipes_count = 0;
    211 
    212         return EOK;
    213 }
    214 
     179}
     180/*----------------------------------------------------------------------------*/
    215181/** Change interface setting of a device.
    216182 * This function selects new alternate setting of an interface by issuing
     
    242208        }
    243209
    244         int rc;
    245 
    246210        /* Destroy existing pipes. */
    247         rc = destroy_current_pipes(dev);
    248         if (rc != EOK) {
    249                 return rc;
    250         }
     211        destroy_current_pipes(dev);
    251212
    252213        /* Change the interface itself. */
    253         rc = usb_request_set_interface(&dev->ctrl_pipe, dev->interface_no,
     214        int rc = usb_request_set_interface(&dev->ctrl_pipe, dev->interface_no,
    254215            alternate_setting);
    255216        if (rc != EOK) {
     
    258219
    259220        /* Create new pipes. */
    260         rc = initialize_other_pipes(endpoints, dev, (int) alternate_setting);
     221        rc = usb_device_create_pipes(&dev->wire, endpoints,
     222            dev->descriptors.configuration, dev->descriptors.configuration_size,
     223            dev->interface_no, (int)alternate_setting,
     224            &dev->pipes, &dev->pipes_count);
    261225
    262226        return rc;
     
    316280 * - registers endpoints with the host controller
    317281 *
    318  * @param[in] dev Generic DDF device backing the USB one.
    319282 * @param[in] wire Initialized backing connection to the host controller.
    320283 * @param[in] endpoints Endpoints description, NULL terminated.
     
    329292 * @return Error code.
    330293 */
    331 int usb_device_create_pipes(const ddf_dev_t *dev, usb_device_connection_t *wire,
     294int usb_device_create_pipes(usb_device_connection_t *wire,
    332295    const usb_endpoint_description_t **endpoints,
    333296    const uint8_t *config_descr, size_t config_descr_size,
     
    335298    usb_endpoint_mapping_t **pipes_ptr, size_t *pipes_count_ptr)
    336299{
    337         assert(dev != NULL);
    338300        assert(wire != NULL);
    339         assert(endpoints != NULL);
    340301        assert(config_descr != NULL);
    341302        assert(config_descr_size > 0);
     
    359320        }
    360321
    361         /* Now allocate and fully initialize. */
     322        /* Now initialize. */
    362323        for (i = 0; i < pipe_count; i++) {
    363324                pipes[i].description = endpoints[i];
     
    370331            config_descr, config_descr_size, wire);
    371332        if (rc != EOK) {
    372                 goto rollback_free_only;
    373         }
    374 
    375         /* Register the endpoints with HC. */
    376         usb_hc_connection_t hc_conn;
    377         rc = usb_hc_connection_initialize_from_device(&hc_conn, dev);
    378         if (rc != EOK) {
    379                 goto rollback_free_only;
    380         }
    381 
    382         rc = usb_hc_connection_open(&hc_conn);
    383         if (rc != EOK) {
    384                 goto rollback_free_only;
    385         }
    386 
     333                free(pipes);
     334                return rc;
     335        }
     336
     337        /* Register created pipes. */
    387338        for (i = 0; i < pipe_count; i++) {
    388339                if (pipes[i].present) {
    389340                        rc = usb_pipe_register(&pipes[i].pipe,
    390                             pipes[i].descriptor->poll_interval, &hc_conn);
     341                            pipes[i].descriptor->poll_interval);
    391342                        if (rc != EOK) {
    392343                                goto rollback_unregister_endpoints;
     
    394345                }
    395346        }
    396 
    397         if (usb_hc_connection_close(&hc_conn) != EOK)
    398                 usb_log_warning("%s: Failed to close connection.\n",
    399                     __FUNCTION__);
    400347
    401348        *pipes_ptr = pipes;
     
    415362        for (i = 0; i < pipe_count; i++) {
    416363                if (pipes[i].present) {
    417                         usb_pipe_unregister(&pipes[i].pipe, &hc_conn);
     364                        usb_pipe_unregister(&pipes[i].pipe);
    418365                }
    419366        }
    420367
    421         if (usb_hc_connection_close(&hc_conn) != EOK)
    422                 usb_log_warning("usb_device_create_pipes(): "
    423                     "Failed to close connection.\n");
    424 
    425         /*
    426          * Jump here if something went wrong before some actual communication
    427          * with HC. Then the only thing that needs to be done is to free
    428          * allocated memory.
    429          */
    430 rollback_free_only:
    431368        free(pipes);
    432 
    433369        return rc;
    434370}
     
    436372/** Destroy pipes previously created by usb_device_create_pipes.
    437373 *
    438  * @param[in] dev Generic DDF device backing the USB one.
    439374 * @param[in] pipes Endpoint mapping to be destroyed.
    440375 * @param[in] pipes_count Number of endpoints.
    441376 */
    442 int usb_device_destroy_pipes(const ddf_dev_t *dev,
    443     usb_endpoint_mapping_t *pipes, size_t pipes_count)
    444 {
    445         assert(dev != NULL);
    446 
    447         if (pipes_count == 0) {
    448                 assert(pipes == NULL);
    449                 return EOK;
    450         }
    451         assert(pipes != NULL);
    452 
    453         int rc;
    454 
    455         /* Prepare connection to HC to allow endpoint unregistering. */
    456         usb_hc_connection_t hc_conn;
    457         rc = usb_hc_connection_initialize_from_device(&hc_conn, dev);
    458         if (rc != EOK) {
    459                 return rc;
    460         }
    461         rc = usb_hc_connection_open(&hc_conn);
    462         if (rc != EOK) {
    463                 return rc;
    464         }
    465 
     377void usb_device_destroy_pipes(usb_endpoint_mapping_t *pipes, size_t pipes_count)
     378{
    466379        /* Destroy the pipes. */
    467         size_t i;
    468         for (i = 0; i < pipes_count; i++) {
    469                 usb_log_debug2("Unregistering pipe %zu (%spresent).\n",
     380        for (size_t i = 0; i < pipes_count; ++i) {
     381                assert(pipes);
     382                usb_log_debug2("Unregistering pipe %zu: %spresent.\n",
    470383                    i, pipes[i].present ? "" : "not ");
    471384                if (pipes[i].present)
    472                         usb_pipe_unregister(&pipes[i].pipe, &hc_conn);
    473         }
    474 
    475         if (usb_hc_connection_close(&hc_conn) != EOK)
    476                 usb_log_warning("usb_device_destroy_pipes(): "
    477                     "Failed to close connection.\n");
    478 
     385                        usb_pipe_unregister(&pipes[i].pipe);
     386        }
    479387        free(pipes);
    480 
    481         return EOK;
    482388}
    483389
     
    505411        usb_dev->pipes = NULL;
    506412
     413        /* Get assigned params */
     414        devman_handle_t hc_handle;
     415        usb_address_t address;
     416
     417        int rc = usb_get_info_by_handle(ddf_dev->handle,
     418            &hc_handle, &address, &usb_dev->interface_no);
     419        if (rc != EOK) {
     420                *errstr_ptr = "device parameters retrieval";
     421                return rc;
     422        }
     423
     424        /* Initialize hc connection. */
     425        usb_hc_connection_initialize(&usb_dev->hc_conn, hc_handle);
     426
    507427        /* Initialize backing wire and control pipe. */
    508         int rc = usb_device_connection_initialize_from_device(
    509             &usb_dev->wire, ddf_dev);
     428        rc = usb_device_connection_initialize(
     429            &usb_dev->wire, &usb_dev->hc_conn, address);
    510430        if (rc != EOK) {
    511431                *errstr_ptr = "device connection initialization";
     
    515435        /* This pipe was registered by the hub driver,
    516436         * during device initialization. */
    517         rc = usb_pipe_initialize_default_control(&usb_dev->ctrl_pipe,
    518             &usb_dev->wire);
     437        rc = usb_pipe_initialize_default_control(
     438            &usb_dev->ctrl_pipe, &usb_dev->wire);
    519439        if (rc != EOK) {
    520440                *errstr_ptr = "default control pipe initialization";
     
    522442        }
    523443
    524         /* Get our interface. */
    525         usb_dev->interface_no = usb_device_get_assigned_interface(ddf_dev);
     444        /* Open hc connection for pipe registration. */
     445        rc = usb_hc_connection_open(&usb_dev->hc_conn);
     446        if (rc != EOK) {
     447                *errstr_ptr = "hc connection open";
     448                return rc;
     449        }
    526450
    527451        /* Retrieve standard descriptors. */
    528         rc = usb_device_retrieve_descriptors(&usb_dev->ctrl_pipe,
    529             &usb_dev->descriptors);
     452        rc = usb_device_retrieve_descriptors(
     453            &usb_dev->ctrl_pipe, &usb_dev->descriptors);
    530454        if (rc != EOK) {
    531455                *errstr_ptr = "descriptor retrieval";
     456                usb_hc_connection_close(&usb_dev->hc_conn);
    532457                return rc;
    533458        }
     
    543468            (rc == EOK) ? usb_dev->alternate_interfaces.current : 0;
    544469
    545         /* TODO Add comment here. */
    546         rc = initialize_other_pipes(endpoints, usb_dev, alternate_iface);
    547         if (rc != EOK) {
     470        /* Create and register other pipes than default control (EP 0) */
     471        rc = usb_device_create_pipes(&usb_dev->wire, endpoints,
     472            usb_dev->descriptors.configuration,
     473            usb_dev->descriptors.configuration_size,
     474            usb_dev->interface_no, (int)alternate_iface,
     475            &usb_dev->pipes, &usb_dev->pipes_count);
     476        if (rc != EOK) {
     477                usb_hc_connection_close(&usb_dev->hc_conn);
    548478                /* Full configuration descriptor is allocated. */
    549479                usb_device_release_descriptors(&usb_dev->descriptors);
     
    554484        }
    555485
     486        usb_hc_connection_close(&usb_dev->hc_conn);
    556487        return EOK;
    557488}
     
    566497{
    567498        if (dev) {
     499                /* Destroy existing pipes. */
     500                destroy_current_pipes(dev);
    568501                /* Ignore errors and hope for the best. */
    569                 destroy_current_pipes(dev);
    570 
     502                usb_hc_connection_deinitialize(&dev->hc_conn);
    571503                usb_alternate_interfaces_deinit(&dev->alternate_interfaces);
    572504                usb_device_release_descriptors(&dev->descriptors);
    573505                free(dev->driver_data);
    574         }
    575 }
    576 
     506                dev->driver_data = NULL;
     507        }
     508}
     509
     510/** Allocate driver specific data.
     511 * @param usb_dev usb_device structure.
     512 * @param size requested data size.
     513 * @return Pointer to the newly allocated space, NULL on failure.
     514 */
    577515void * usb_device_data_alloc(usb_device_t *usb_dev, size_t size)
    578516{
  • uspace/lib/usbdev/src/devpoll.c

    r2f0dd2a r153cc76a  
    4646/** Data needed for polling. */
    4747typedef struct {
     48        /** Parameters for automated polling. */
    4849        usb_device_auto_polling_t auto_polling;
    4950
     51        /** USB device to poll. */
    5052        usb_device_t *dev;
     53        /** Device pipe to use for polling. */
    5154        size_t pipe_index;
     55        /** Size of the recieved data. */
    5256        size_t request_size;
     57        /** Data buffer. */
    5358        uint8_t *buffer;
    54         void *custom_arg;
    5559} polling_data_t;
    5660
     
    119123                        ++failed_attempts;
    120124                        const bool cont = (params->on_error == NULL) ? true :
    121                             params->on_error(data->dev, rc, data->custom_arg);
     125                            params->on_error(data->dev, rc, params->arg);
    122126                        if (!cont) {
    123127                                failed_attempts = params->max_failures;
     
    129133                assert(params->on_data);
    130134                const bool carry_on = params->on_data(
    131                     data->dev, data->buffer, actual_size, data->custom_arg);
     135                    data->dev, data->buffer, actual_size, params->arg);
    132136
    133137                if (!carry_on) {
     
    149153
    150154        if (params->on_polling_end != NULL) {
    151                 params->on_polling_end(data->dev, failed, data->custom_arg);
     155                params->on_polling_end(data->dev, failed, params->arg);
    152156        }
    153157
     
    199203                .on_polling_end = terminated_callback,
    200204                .on_error = NULL,
     205                .arg = arg,
    201206        };
    202207
    203208        return usb_device_auto_polling(dev, pipe_index, &auto_polling,
    204            request_size, arg);
     209           request_size);
    205210}
    206211
     
    224229int usb_device_auto_polling(usb_device_t *dev, size_t pipe_index,
    225230    const usb_device_auto_polling_t *polling,
    226     size_t request_size, void *arg)
     231    size_t request_size)
    227232{
    228233        if ((dev == NULL) || (polling == NULL) || (polling->on_data == NULL)) {
     
    252257        polling_data->dev = dev;
    253258        polling_data->pipe_index = pipe_index;
    254         polling_data->custom_arg = arg;
    255259
    256260        /* Copy provided settings. */
  • uspace/lib/usbdev/src/hub.c

    r2f0dd2a r153cc76a  
    3838#include <usb/dev/recognise.h>
    3939#include <usb/debug.h>
    40 #include <usbhc_iface.h>
    4140#include <errno.h>
    4241#include <assert.h>
     
    4544#include <async.h>
    4645
    47 /** How much time to wait between attempts to register endpoint 0:0.
     46/** How much time to wait between attempts to get the default address.
    4847 * The value is based on typical value for port reset + some overhead.
    4948 */
    50 #define ENDPOINT_0_0_REGISTER_ATTEMPT_DELAY_USEC (1000 * (10 + 2))
    51 
    52 /** Check that HC connection is alright.
    53  *
    54  * @param conn Connection to be checked.
    55  */
    56 #define CHECK_CONNECTION(conn) \
    57         do { \
    58                 assert((conn)); \
    59                 if (!usb_hc_connection_is_opened((conn))) { \
    60                         usb_log_error("Connection not open.\n"); \
    61                         return ENOTCONN; \
    62                 } \
    63         } while (false)
    64 
    65 /** Ask host controller for free address assignment.
    66  *
    67  * @param connection Opened connection to host controller.
    68  * @param preferred Preferred SUB address.
    69  * @param strict Fail if the preferred address is not avialable.
    70  * @param speed Speed of the new device (device that will be assigned
    71  *    the returned address).
    72  * @return Assigned USB address or negative error code.
    73  */
    74 usb_address_t usb_hc_request_address(usb_hc_connection_t *connection,
    75     usb_address_t preferred, bool strict, usb_speed_t speed)
    76 {
    77         CHECK_CONNECTION(connection);
    78 
    79         async_exch_t *exch = async_exchange_begin(connection->hc_sess);
    80         if (!exch)
    81                 return (usb_address_t)ENOMEM;
    82 
    83         usb_address_t address = preferred;
    84         const int ret = usbhc_request_address(exch, &address, strict, speed);
    85 
    86         async_exchange_end(exch);
    87         return ret == EOK ? address : ret;
    88 }
     49#define DEFAULT_ADDRESS_ATTEMPT_DELAY_USEC (1000 * (10 + 2))
    8950
    9051/** Inform host controller about new device.
     
    9455 * @return Error code.
    9556 */
    96 int usb_hc_register_device(usb_hc_connection_t *connection,
     57int usb_hub_register_device(usb_hc_connection_t *connection,
    9758    const usb_hub_attached_device_t *attached_device)
    9859{
    99         CHECK_CONNECTION(connection);
     60        assert(connection);
    10061        if (attached_device == NULL || attached_device->fun == NULL)
    101                 return EINVAL;
    102 
    103         async_exch_t *exch = async_exchange_begin(connection->hc_sess);
    104         if (!exch)
    105                 return ENOMEM;
    106         const int ret = usbhc_bind_address(exch,
     62                return EBADMEM;
     63        return usb_hc_bind_address(connection,
    10764            attached_device->address, attached_device->fun->handle);
    108         async_exchange_end(exch);
    109 
    110         return ret;
    111 }
    112 
    113 /** Inform host controller about device removal.
    114  *
    115  * @param connection Opened connection to host controller.
    116  * @param address Address of the device that is being removed.
    117  * @return Error code.
    118  */
    119 int usb_hc_unregister_device(usb_hc_connection_t *connection,
    120     usb_address_t address)
    121 {
    122         CHECK_CONNECTION(connection);
    123 
    124         async_exch_t *exch = async_exchange_begin(connection->hc_sess);
    125         if (!exch)
    126                 return ENOMEM;
    127         const int ret = usbhc_release_address(exch, address);
    128         async_exchange_end(exch);
    129 
    130         return ret;
    13165}
    13266
     
    14579 * @return Error code.
    14680 */
    147 static int usb_request_set_address(usb_pipe_t *pipe, usb_address_t new_address,
    148     usb_hc_connection_t *hc_conn)
     81static int usb_request_set_address(usb_pipe_t *pipe, usb_address_t new_address)
    14982{
    15083        if ((new_address < 0) || (new_address >= USB11_ADDRESS_MAX)) {
     
    15285        }
    15386        assert(pipe);
    154         assert(hc_conn);
    15587        assert(pipe->wire != NULL);
    15688
     
    16698
    16799        /* TODO: prevent others from accessing the wire now. */
    168         if (usb_pipe_unregister(pipe, hc_conn) != EOK) {
     100        if (usb_pipe_unregister(pipe) != EOK) {
    169101                usb_log_warning(
    170102                    "Failed to unregister the old pipe on address change.\n");
    171103        }
     104        /* Address changed. We can release the old one, thus
     105         * allowing other to us it. */
     106        usb_hc_release_address(pipe->wire->hc_connection, pipe->wire->address);
     107
    172108        /* The address is already changed so set it in the wire */
    173109        pipe->wire->address = new_address;
    174         rc = usb_pipe_register(pipe, 0, hc_conn);
     110        rc = usb_pipe_register(pipe, 0);
    175111        if (rc != EOK)
    176112                return EADDRNOTAVAIL;
     
    220156 */
    221157int usb_hc_new_device_wrapper(ddf_dev_t *parent,
    222     usb_hc_connection_t *connection, usb_speed_t dev_speed,
     158    usb_hc_connection_t *hc_conn, usb_speed_t dev_speed,
    223159    int (*enable_port)(void *arg), void *arg, usb_address_t *assigned_address,
    224160    ddf_dev_ops_t *dev_ops, void *new_dev_data, ddf_fun_t **new_fun)
    225161{
    226         if (new_fun == NULL || connection == NULL)
     162        if (new_fun == NULL || hc_conn == NULL)
    227163                return EINVAL;
    228 
    229         // TODO: Why not use provided connection?
    230         usb_hc_connection_t hc_conn;
    231         usb_hc_connection_initialize(&hc_conn, connection->hc_handle);
    232164
    233165        int rc;
     
    239171        }
    240172
    241         rc = usb_hc_connection_open(&hc_conn);
     173        /* We are gona do a lot of communication better open it in advance. */
     174        rc = usb_hc_connection_open(hc_conn);
    242175        if (rc != EOK) {
    243176                return rc;
    244177        }
    245178
    246         /*
    247          * Request new address.
    248          */
     179        /* Request a new address. */
    249180        usb_address_t dev_addr =
    250             usb_hc_request_address(&hc_conn, 0, false, dev_speed);
     181            usb_hc_request_address(hc_conn, 0, false, dev_speed);
    251182        if (dev_addr < 0) {
    252183                rc = EADDRNOTAVAIL;
     
    254185        }
    255186
     187        /* Initialize connection to device. */
     188        usb_device_connection_t dev_conn;
     189        rc = usb_device_connection_initialize(
     190            &dev_conn, hc_conn, USB_ADDRESS_DEFAULT);
     191        if (rc != EOK) {
     192                rc = ENOTCONN;
     193                goto leave_release_free_address;
     194        }
     195
     196        /* Initialize control pipe on default address. Don't register yet. */
     197        usb_pipe_t ctrl_pipe;
     198        rc = usb_pipe_initialize_default_control(&ctrl_pipe, &dev_conn);
     199        if (rc != EOK) {
     200                rc = ENOTCONN;
     201                goto leave_release_free_address;
     202        }
     203
    256204        /*
    257          * We will not register control pipe on default address.
    258          * The registration might fail. That means that someone else already
    259          * registered that endpoint. We will simply wait and try again.
     205         * The default address request might fail.
     206         * That means that someone else is already using that address.
     207         * We will simply wait and try again.
    260208         * (Someone else already wants to add a new device.)
    261209         */
    262         usb_device_connection_t dev_conn;
    263         rc = usb_device_connection_initialize_on_default_address(&dev_conn,
    264             &hc_conn);
    265         if (rc != EOK) {
    266                 rc = ENOTCONN;
    267                 goto leave_release_free_address;
    268         }
    269 
    270         usb_pipe_t ctrl_pipe;
    271         rc = usb_pipe_initialize_default_control(&ctrl_pipe, &dev_conn);
    272         if (rc != EOK) {
    273                 rc = ENOTCONN;
    274                 goto leave_release_free_address;
    275         }
    276 
    277210        do {
    278                 rc = usb_hc_request_address(&hc_conn, USB_ADDRESS_DEFAULT,
     211                rc = usb_hc_request_address(hc_conn, USB_ADDRESS_DEFAULT,
    279212                    true, dev_speed);
    280213                if (rc == ENOENT) {
    281214                        /* Do not overheat the CPU ;-). */
    282                         async_usleep(ENDPOINT_0_0_REGISTER_ATTEMPT_DELAY_USEC);
     215                        async_usleep(DEFAULT_ADDRESS_ATTEMPT_DELAY_USEC);
    283216                }
    284217        } while (rc == ENOENT);
     
    287220        }
    288221
    289         /* Register control pipe on default address. */
    290         rc = usb_pipe_register(&ctrl_pipe, 0, &hc_conn);
     222        /* Register control pipe on default address. 0 means no interval. */
     223        rc = usb_pipe_register(&ctrl_pipe, 0);
    291224        if (rc != EOK) {
    292225                rc = ENOTCONN;
     
    295228
    296229        struct timeval end_time;
    297 
    298230        rc = gettimeofday(&end_time, NULL);
    299231        if (rc != EOK) {
     
    330262        }
    331263
    332         rc = usb_request_set_address(&ctrl_pipe, dev_addr, &hc_conn);
     264        rc = usb_request_set_address(&ctrl_pipe, dev_addr);
    333265        if (rc != EOK) {
    334266                rc = ESTALL;
     
    336268        }
    337269
    338         /* Address changed. We can release the default, thus
    339          * allowing other to access the default address. */
    340         usb_hc_unregister_device(&hc_conn, USB_ADDRESS_DEFAULT);
    341270
    342271        /* Register the device with devman. */
     
    356285
    357286        /* Inform the host controller about the handle. */
    358         rc = usb_hc_register_device(&hc_conn, &new_device);
     287        rc = usb_hub_register_device(hc_conn, &new_device);
    359288        if (rc != EOK) {
    360289                /* We know nothing about that data. */
     
    381310         */
    382311leave_release_default_address:
    383         usb_hc_unregister_device(&hc_conn, USB_ADDRESS_DEFAULT);
     312        if (usb_hc_release_address(hc_conn, USB_ADDRESS_DEFAULT) != EOK)
     313                usb_log_warning("%s: Failed to release defaut address.\n",
     314                    __FUNCTION__);
    384315
    385316leave_release_free_address:
    386317        /* This might be either 0:0 or dev_addr:0 */
    387         if (usb_pipe_unregister(&ctrl_pipe, &hc_conn) != EOK)
     318        if (usb_pipe_unregister(&ctrl_pipe) != EOK)
    388319                usb_log_warning("%s: Failed to unregister default pipe.\n",
    389320                    __FUNCTION__);
    390321
    391         if (usb_hc_unregister_device(&hc_conn, dev_addr) != EOK)
    392                 usb_log_warning("%s: Failed to unregister device.\n",
    393                     __FUNCTION__);
     322        if (usb_hc_release_address(hc_conn, dev_addr) != EOK)
     323                usb_log_warning("%s: Failed to release address: %d.\n",
     324                    __FUNCTION__, dev_addr);
    394325
    395326close_connection:
    396         if (usb_hc_connection_close(&hc_conn) != EOK)
     327        if (usb_hc_connection_close(hc_conn) != EOK)
    397328                usb_log_warning("%s: Failed to close hc connection.\n",
    398329                    __FUNCTION__);
  • uspace/lib/usbdev/src/pipes.c

    r2f0dd2a r153cc76a  
    11/*
    22 * Copyright (c) 2011 Vojtech Horky
     3 * Copyright (c) 2011 Jan Vesely
    34 * All rights reserved.
    45 *
     
    2627 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2728 */
    28 
    2929/** @addtogroup libusbdev
    3030 * @{
    3131 */
    3232/** @file
    33  * USB endpoint pipes miscellaneous functions.
    34  */
    35 #include <usb/usb.h>
     33 * USB endpoint pipes functions.
     34 */
    3635#include <usb/dev/pipes.h>
    37 #include <usb/debug.h>
    38 #include <usb/hc.h>
    39 #include <usbhc_iface.h>
    40 #include <usb_iface.h>
    41 #include <devman.h>
     36#include <usb/dev/request.h>
    4237#include <errno.h>
    4338#include <assert.h>
    44 #include "pipepriv.h"
    45 
    46 #define IPC_AGAIN_DELAY (1000 * 2) /* 2ms */
    47 
    48 /** Tell USB address assigned to given device.
    49  *
    50  * @param sess Session to parent device.
    51  * @param dev Device in question.
    52  * @return USB address or error code.
    53  */
    54 static usb_address_t get_my_address(async_sess_t *sess, const ddf_dev_t *dev)
    55 {
    56         assert(sess);
    57         async_exch_t *exch = async_exchange_begin(sess);
    58         if (!exch)
    59                 return ENOMEM;
    60 
    61         usb_address_t address;
    62         const int ret = usb_get_my_address(exch, &address);
    63 
    64         async_exchange_end(exch);
    65 
    66         return (ret == EOK) ? address : ret;
    67 }
    68 
    69 /** Tell USB interface assigned to given device.
    70  *
    71  * @param device Device in question.
    72  * @return Error code (ENOTSUP means any).
    73  */
    74 int usb_device_get_assigned_interface(const ddf_dev_t *device)
    75 {
    76         assert(device);
    77         async_sess_t *parent_sess =
    78             devman_parent_device_connect(EXCHANGE_ATOMIC, device->handle,
    79             IPC_FLAG_BLOCKING);
    80         if (!parent_sess)
    81                 return ENOMEM;
    82 
    83         async_exch_t *exch = async_exchange_begin(parent_sess);
    84         if (!exch) {
    85                 async_hangup(parent_sess);
    86                 return ENOMEM;
    87         }
    88 
    89         int iface_no;
    90         const int ret = usb_get_my_interface(exch, &iface_no);
    91 
    92         return ret == EOK ? iface_no : ret;
    93 }
    94 
    95 /** Initialize connection to USB device.
    96  *
    97  * @param connection Connection structure to be initialized.
    98  * @param dev Generic device backing the USB device.
    99  * @return Error code.
    100  */
    101 int usb_device_connection_initialize_from_device(
    102     usb_device_connection_t *connection, const ddf_dev_t *dev)
    103 {
     39
     40/** Prepare pipe for a long transfer.
     41 *
     42 * Long transfer is transfer consisting of several requests to the HC.
     43 * Calling this function is optional and it has positive effect of
     44 * improved performance because IPC session is initiated only once.
     45 *
     46 * @param pipe Pipe over which the transfer will happen.
     47 * @return Error code.
     48 */
     49int usb_pipe_start_long_transfer(usb_pipe_t *pipe)
     50{
     51        assert(pipe);
     52        assert(pipe->wire);
     53        assert(pipe->wire->hc_connection);
     54        return usb_hc_connection_open(pipe->wire->hc_connection);
     55}
     56/*----------------------------------------------------------------------------*/
     57/** Terminate a long transfer on a pipe.
     58 * @param pipe Pipe where to end the long transfer.
     59 * @return Error code.
     60 * @see usb_pipe_start_long_transfer
     61 */
     62int usb_pipe_end_long_transfer(usb_pipe_t *pipe)
     63{
     64        assert(pipe);
     65        assert(pipe->wire);
     66        assert(pipe->wire->hc_connection);
     67        return usb_hc_connection_close(pipe->wire->hc_connection);
     68}
     69/*----------------------------------------------------------------------------*/
     70/** Try to clear endpoint halt of default control pipe.
     71 *
     72 * @param pipe Pipe for control endpoint zero.
     73 */
     74static void clear_self_endpoint_halt(usb_pipe_t *pipe)
     75{
     76        assert(pipe != NULL);
     77
     78        if (!pipe->auto_reset_halt || (pipe->endpoint_no != 0)) {
     79                return;
     80        }
     81
     82        /* Prevent infinite recursion. */
     83        pipe->auto_reset_halt = false;
     84        usb_request_clear_endpoint_halt(pipe, 0);
     85        pipe->auto_reset_halt = true;
     86}
     87/*----------------------------------------------------------------------------*/
     88/** Request a control read transfer on an endpoint pipe.
     89 *
     90 * This function encapsulates all three stages of a control transfer.
     91 *
     92 * @param[in] pipe Pipe used for the transfer.
     93 * @param[in] setup_buffer Buffer with the setup packet.
     94 * @param[in] setup_buffer_size Size of the setup packet (in bytes).
     95 * @param[out] data_buffer Buffer for incoming data.
     96 * @param[in] data_buffer_size Size of the buffer for incoming data (in bytes).
     97 * @param[out] data_transfered_size Number of bytes that were actually
     98 *                                  transfered during the DATA stage.
     99 * @return Error code.
     100 */
     101int usb_pipe_control_read(usb_pipe_t *pipe,
     102    const void *setup_buffer, size_t setup_buffer_size,
     103    void *buffer, size_t buffer_size, size_t *transfered_size)
     104{
     105        assert(pipe);
     106
     107        if ((setup_buffer == NULL) || (setup_buffer_size != 8)) {
     108                return EINVAL;
     109        }
     110
     111        if ((buffer == NULL) || (buffer_size == 0)) {
     112                return EINVAL;
     113        }
     114
     115        if ((pipe->direction != USB_DIRECTION_BOTH)
     116            || (pipe->transfer_type != USB_TRANSFER_CONTROL)) {
     117                return EBADF;
     118        }
     119
     120        uint64_t setup_packet;
     121        memcpy(&setup_packet, setup_buffer, 8);
     122
     123        size_t act_size = 0;
     124        const int rc = usb_device_control_read(pipe->wire,
     125            pipe->endpoint_no, setup_packet, buffer, buffer_size, &act_size);
     126
     127        if (rc == ESTALL) {
     128                clear_self_endpoint_halt(pipe);
     129        }
     130
     131        if (rc == EOK && transfered_size != NULL) {
     132                *transfered_size = act_size;
     133        }
     134
     135        return rc;
     136}
     137/*----------------------------------------------------------------------------*/
     138/** Request a control write transfer on an endpoint pipe.
     139 *
     140 * This function encapsulates all three stages of a control transfer.
     141 *
     142 * @param[in] pipe Pipe used for the transfer.
     143 * @param[in] setup_buffer Buffer with the setup packet.
     144 * @param[in] setup_buffer_size Size of the setup packet (in bytes).
     145 * @param[in] data_buffer Buffer with data to be sent.
     146 * @param[in] data_buffer_size Size of the buffer with outgoing data (in bytes).
     147 * @return Error code.
     148 */
     149int usb_pipe_control_write(usb_pipe_t *pipe,
     150    const void *setup_buffer, size_t setup_buffer_size,
     151    const void *buffer, size_t buffer_size)
     152{
     153        assert(pipe);
     154
     155        if ((setup_buffer == NULL) || (setup_buffer_size != 8)) {
     156                return EINVAL;
     157        }
     158
     159        if ((buffer == NULL) && (buffer_size > 0)) {
     160                return EINVAL;
     161        }
     162
     163        if ((buffer != NULL) && (buffer_size == 0)) {
     164                return EINVAL;
     165        }
     166
     167        if ((pipe->direction != USB_DIRECTION_BOTH)
     168            || (pipe->transfer_type != USB_TRANSFER_CONTROL)) {
     169                return EBADF;
     170        }
     171
     172        uint64_t setup_packet;
     173        memcpy(&setup_packet, setup_buffer, 8);
     174
     175        const int rc = usb_device_control_write(pipe->wire,
     176            pipe->endpoint_no, setup_packet, buffer, buffer_size);
     177
     178        if (rc == ESTALL) {
     179                clear_self_endpoint_halt(pipe);
     180        }
     181
     182        return rc;
     183}
     184/*----------------------------------------------------------------------------*/
     185/** Request a read (in) transfer on an endpoint pipe.
     186 *
     187 * @param[in] pipe Pipe used for the transfer.
     188 * @param[out] buffer Buffer where to store the data.
     189 * @param[in] size Size of the buffer (in bytes).
     190 * @param[out] size_transfered Number of bytes that were actually transfered.
     191 * @return Error code.
     192 */
     193int usb_pipe_read(usb_pipe_t *pipe,
     194    void *buffer, size_t size, size_t *size_transfered)
     195{
     196        assert(pipe);
     197
     198        if (buffer == NULL) {
     199                return EINVAL;
     200        }
     201
     202        if (size == 0) {
     203                return EINVAL;
     204        }
     205
     206        if (pipe->direction != USB_DIRECTION_IN) {
     207                return EBADF;
     208        }
     209
     210        if (pipe->transfer_type == USB_TRANSFER_CONTROL) {
     211                return EBADF;
     212        }
     213
     214        /* Isochronous transfer are not supported (yet) */
     215        if (pipe->transfer_type != USB_TRANSFER_INTERRUPT &&
     216            pipe->transfer_type != USB_TRANSFER_BULK)
     217            return ENOTSUP;
     218
     219        size_t act_size = 0;
     220        const int rc = usb_device_read(pipe->wire,
     221            pipe->endpoint_no, buffer, size, &act_size);
     222
     223        if (rc == EOK && size_transfered != NULL) {
     224                *size_transfered = act_size;
     225        }
     226
     227        return rc;
     228}
     229/*----------------------------------------------------------------------------*/
     230/** Request a write (out) transfer on an endpoint pipe.
     231 *
     232 * @param[in] pipe Pipe used for the transfer.
     233 * @param[in] buffer Buffer with data to transfer.
     234 * @param[in] size Size of the buffer (in bytes).
     235 * @return Error code.
     236 */
     237int usb_pipe_write(usb_pipe_t *pipe, const void *buffer, size_t size)
     238{
     239        assert(pipe);
     240
     241        if (buffer == NULL || size == 0) {
     242                return EINVAL;
     243        }
     244
     245        if (pipe->direction != USB_DIRECTION_OUT) {
     246                return EBADF;
     247        }
     248
     249        if (pipe->transfer_type == USB_TRANSFER_CONTROL) {
     250                return EBADF;
     251        }
     252
     253        /* Isochronous transfer are not supported (yet) */
     254        if (pipe->transfer_type != USB_TRANSFER_INTERRUPT &&
     255            pipe->transfer_type != USB_TRANSFER_BULK)
     256            return ENOTSUP;
     257
     258        return usb_device_write(pipe->wire,
     259            pipe->endpoint_no, buffer, size);
     260}
     261/*----------------------------------------------------------------------------*/
     262/** Initialize USB endpoint pipe.
     263 *
     264 * @param pipe Endpoint pipe to be initialized.
     265 * @param connection Connection to the USB device backing this pipe (the wire).
     266 * @param endpoint_no Endpoint number (in USB 1.1 in range 0 to 15).
     267 * @param transfer_type Transfer type (e.g. interrupt or bulk).
     268 * @param max_packet_size Maximum packet size in bytes.
     269 * @param direction Endpoint direction (in/out).
     270 * @return Error code.
     271 */
     272int usb_pipe_initialize(usb_pipe_t *pipe,
     273    usb_device_connection_t *connection, usb_endpoint_t endpoint_no,
     274    usb_transfer_type_t transfer_type, size_t max_packet_size,
     275    usb_direction_t direction)
     276{
     277        assert(pipe);
    104278        assert(connection);
    105         assert(dev);
    106        
    107         int rc;
    108         devman_handle_t hc_handle;
    109         usb_address_t my_address;
    110        
    111         rc = usb_hc_find(dev->handle, &hc_handle);
    112         if (rc != EOK)
    113                 return rc;
    114        
    115         async_sess_t *parent_sess =
    116             devman_parent_device_connect(EXCHANGE_ATOMIC, dev->handle,
    117             IPC_FLAG_BLOCKING);
    118         if (!parent_sess)
    119                 return ENOMEM;
    120        
    121         /*
    122          * Asking for "my" address may require several attempts.
    123          * That is because following scenario may happen:
    124          *  - parent driver (i.e. driver of parent device) announces new device
    125          *    and devman launches current driver
    126          *  - parent driver is preempted and thus does not send address-handle
    127          *    binding to HC driver
    128          *  - this driver gets here and wants the binding
    129          *  - the HC does not know the binding yet and thus it answers ENOENT
    130          *  So, we need to wait for the HC to learn the binding.
    131          */
    132        
    133         do {
    134                 my_address = get_my_address(parent_sess, dev);
    135                
    136                 if (my_address == ENOENT) {
    137                         /* Be nice, let other fibrils run and try again. */
    138                         async_usleep(IPC_AGAIN_DELAY);
    139                 } else if (my_address < 0) {
    140                         /* Some other problem, no sense trying again. */
    141                         rc = my_address;
    142                         goto leave;
    143                 }
    144        
    145         } while (my_address < 0);
    146        
    147         rc = usb_device_connection_initialize(connection,
    148             hc_handle, my_address);
    149        
    150 leave:
    151         async_hangup(parent_sess);
     279
     280        pipe->wire = connection;
     281        pipe->endpoint_no = endpoint_no;
     282        pipe->transfer_type = transfer_type;
     283        pipe->max_packet_size = max_packet_size;
     284        pipe->direction = direction;
     285        pipe->auto_reset_halt = false;
     286
     287        return EOK;
     288}
     289/*----------------------------------------------------------------------------*/
     290/** Initialize USB endpoint pipe as the default zero control pipe.
     291 *
     292 * @param pipe Endpoint pipe to be initialized.
     293 * @param connection Connection to the USB device backing this pipe (the wire).
     294 * @return Error code.
     295 */
     296int usb_pipe_initialize_default_control(usb_pipe_t *pipe,
     297    usb_device_connection_t *connection)
     298{
     299        assert(pipe);
     300        assert(connection);
     301
     302        int rc = usb_pipe_initialize(pipe, connection, 0, USB_TRANSFER_CONTROL,
     303            CTRL_PIPE_MIN_PACKET_SIZE, USB_DIRECTION_BOTH);
     304
     305        pipe->auto_reset_halt = true;
     306
    152307        return rc;
    153308}
    154 
    155 /** Initialize connection to USB device.
    156  *
    157  * @param connection Connection structure to be initialized.
    158  * @param host_controller_handle Devman handle of host controller device is
    159  *      connected to.
    160  * @param device_address Device USB address.
    161  * @return Error code.
    162  */
    163 int usb_device_connection_initialize(usb_device_connection_t *connection,
    164     devman_handle_t host_controller_handle, usb_address_t device_address)
    165 {
    166         assert(connection);
    167 
    168         if ((device_address < 0) || (device_address >= USB11_ADDRESS_MAX)) {
    169                 return EINVAL;
    170         }
    171 
    172         connection->hc_handle = host_controller_handle;
    173         connection->address = device_address;
    174 
    175         return EOK;
    176 }
    177 
    178 /** Initialize connection to USB device on default address.
    179  *
    180  * @param dev_connection Device connection structure to be initialized.
    181  * @param hc_connection Initialized connection to host controller.
    182  * @return Error code.
    183  */
    184 int usb_device_connection_initialize_on_default_address(
    185     usb_device_connection_t *dev_connection,
    186     usb_hc_connection_t *hc_connection)
    187 {
    188         assert(dev_connection);
    189 
    190         if (hc_connection == NULL) {
    191                 return EBADMEM;
    192         }
    193 
    194         return usb_device_connection_initialize(dev_connection,
    195             hc_connection->hc_handle, (usb_address_t) 0);
    196 }
    197 
    198 /** Prepare pipe for a long transfer.
    199  *
    200  * By a long transfer is mean transfer consisting of several
    201  * requests to the HC.
    202  * Calling such function is optional and it has positive effect of
    203  * improved performance because IPC session is initiated only once.
    204  *
    205  * @param pipe Pipe over which the transfer will happen.
    206  * @return Error code.
    207  */
    208 void usb_pipe_start_long_transfer(usb_pipe_t *pipe)
    209 {
    210         (void) pipe_add_ref(pipe, true);
    211 }
    212 
    213 /** Terminate a long transfer on a pipe.
    214  *
    215  * @see usb_pipe_start_long_transfer
    216  *
    217  * @param pipe Pipe where to end the long transfer.
    218  */
    219 void usb_pipe_end_long_transfer(usb_pipe_t *pipe)
    220 {
    221         pipe_drop_ref(pipe);
     309/*----------------------------------------------------------------------------*/
     310/** Register endpoint with the host controller.
     311 *
     312 * @param pipe Pipe to be registered.
     313 * @param interval Polling interval.
     314 * @return Error code.
     315 */
     316int usb_pipe_register(usb_pipe_t *pipe, unsigned interval)
     317{
     318        assert(pipe);
     319        assert(pipe->wire);
     320
     321        return usb_device_register_endpoint(pipe->wire,
     322           pipe->endpoint_no, pipe->transfer_type,
     323           pipe->direction, pipe->max_packet_size, interval);
     324}
     325/*----------------------------------------------------------------------------*/
     326/** Revert endpoint registration with the host controller.
     327 *
     328 * @param pipe Pipe to be unregistered.
     329 * @return Error code.
     330 */
     331int usb_pipe_unregister(usb_pipe_t *pipe)
     332{
     333        assert(pipe);
     334        assert(pipe->wire);
     335
     336        return usb_device_unregister_endpoint(pipe->wire,
     337            pipe->endpoint_no, pipe->direction);
    222338}
    223339
  • uspace/lib/usbdev/src/pipesinit.c

    r2f0dd2a r153cc76a  
    3131 */
    3232/** @file
    33  * Initialization of endpoint pipes.
     33 * Non trivial initialization of endpoint pipes.
    3434 *
    3535 */
     
    3838#include <usb/dev/dp.h>
    3939#include <usb/dev/request.h>
    40 #include <usbhc_iface.h>
    4140#include <errno.h>
    4241#include <assert.h>
    4342
    44 #define CTRL_PIPE_MIN_PACKET_SIZE 8
    4543#define DEV_DESCR_MAX_PACKET_SIZE_OFFSET 7
    46 
    4744
    4845#define NESTING(parentname, childname) \
     
    327324
    328325        return EOK;
    329 }
    330 
    331 /** Initialize USB endpoint pipe.
    332  *
    333  * @param pipe Endpoint pipe to be initialized.
    334  * @param connection Connection to the USB device backing this pipe (the wire).
    335  * @param endpoint_no Endpoint number (in USB 1.1 in range 0 to 15).
    336  * @param transfer_type Transfer type (e.g. interrupt or bulk).
    337  * @param max_packet_size Maximum packet size in bytes.
    338  * @param direction Endpoint direction (in/out).
    339  * @return Error code.
    340  */
    341 int usb_pipe_initialize(usb_pipe_t *pipe,
    342     usb_device_connection_t *connection, usb_endpoint_t endpoint_no,
    343     usb_transfer_type_t transfer_type, size_t max_packet_size,
    344     usb_direction_t direction)
    345 {
    346         assert(pipe);
    347         assert(connection);
    348 
    349         fibril_mutex_initialize(&pipe->guard);
    350         pipe->wire = connection;
    351         pipe->hc_sess = NULL;
    352         fibril_mutex_initialize(&pipe->hc_sess_mutex);
    353         pipe->endpoint_no = endpoint_no;
    354         pipe->transfer_type = transfer_type;
    355         pipe->max_packet_size = max_packet_size;
    356         pipe->direction = direction;
    357         pipe->refcount = 0;
    358         pipe->refcount_soft = 0;
    359         pipe->auto_reset_halt = false;
    360 
    361         return EOK;
    362 }
    363 
    364 
    365 /** Initialize USB endpoint pipe as the default zero control pipe.
    366  *
    367  * @param pipe Endpoint pipe to be initialized.
    368  * @param connection Connection to the USB device backing this pipe (the wire).
    369  * @return Error code.
    370  */
    371 int usb_pipe_initialize_default_control(usb_pipe_t *pipe,
    372     usb_device_connection_t *connection)
    373 {
    374         assert(pipe);
    375         assert(connection);
    376 
    377         int rc = usb_pipe_initialize(pipe, connection,
    378             0, USB_TRANSFER_CONTROL, CTRL_PIPE_MIN_PACKET_SIZE,
    379             USB_DIRECTION_BOTH);
    380 
    381         pipe->auto_reset_halt = true;
    382 
    383         return rc;
    384326}
    385327
     
    435377}
    436378
    437 /** Register endpoint with the host controller.
    438  *
    439  * @param pipe Pipe to be registered.
    440  * @param interval Polling interval.
    441  * @param hc_connection Connection to the host controller (must be opened).
    442  * @return Error code.
    443  */
    444 int usb_pipe_register(usb_pipe_t *pipe, unsigned interval,
    445     usb_hc_connection_t *hc_connection)
    446 {
    447         assert(pipe);
    448         assert(pipe->wire);
    449         assert(hc_connection);
    450 
    451         if (!usb_hc_connection_is_opened(hc_connection))
    452                 return EBADF;
    453         async_exch_t *exch = async_exchange_begin(hc_connection->hc_sess);
    454         if (!exch)
    455                 return ENOMEM;
    456         const int ret = usbhc_register_endpoint(exch,
    457             pipe->wire->address, pipe->endpoint_no, pipe->transfer_type,
    458             pipe->direction, pipe->max_packet_size, interval);
    459 
    460         async_exchange_end(exch);
    461         return ret;
    462 }
    463 
    464 /** Revert endpoint registration with the host controller.
    465  *
    466  * @param pipe Pipe to be unregistered.
    467  * @param hc_connection Connection to the host controller (must be opened).
    468  * @return Error code.
    469  */
    470 int usb_pipe_unregister(usb_pipe_t *pipe,
    471     usb_hc_connection_t *hc_connection)
    472 {
    473         assert(pipe);
    474         assert(pipe->wire);
    475         assert(hc_connection);
    476 
    477         if (!usb_hc_connection_is_opened(hc_connection))
    478                 return EBADF;
    479 
    480         async_exch_t *exch = async_exchange_begin(hc_connection->hc_sess);
    481         if (!exch)
    482                 return ENOMEM;
    483         const int ret = usbhc_unregister_endpoint(exch,
    484             pipe->wire->address, pipe->endpoint_no, pipe->direction);
    485         async_exchange_end(exch);
    486 
    487         return ret;
    488 }
    489 
    490379/**
    491380 * @}
  • uspace/lib/usbdev/src/recognise.c

    r2f0dd2a r153cc76a  
    4545#include <errno.h>
    4646#include <assert.h>
    47 
    48 /** Index to append after device name for uniqueness. */
    49 static size_t device_name_index = 0;
    50 /** Mutex guard for device_name_index. */
    51 static FIBRIL_MUTEX_INITIALIZE(device_name_index_mutex);
    5247
    5348/** DDF operations of child devices. */
     
    329324        }
    330325
    331         fibril_mutex_lock(&device_name_index_mutex);
    332         const size_t this_device_name_index = device_name_index++;
    333         fibril_mutex_unlock(&device_name_index_mutex);
     326        /** Index to append after device name for uniqueness. */
     327        static atomic_t device_name_index = {0};
     328        const size_t this_device_name_index =
     329            (size_t) atomic_preinc(&device_name_index);
    334330
    335331        ddf_fun_t *child = NULL;
  • uspace/lib/usbhost/include/usb/host/endpoint.h

    r2f0dd2a r153cc76a  
    9595/** list_get_instance wrapper.
    9696 * @param item Pointer to link member.
    97  * @return Pointer to enpoint_t structure.
     97 * @return Pointer to endpoint_t structure.
    9898 */
    9999static inline endpoint_t * endpoint_get_instance(link_t *item)
    100100{
    101         return list_get_instance(item, endpoint_t, link);
     101        return item ? list_get_instance(item, endpoint_t, link) : NULL;
    102102}
    103103#endif
  • uspace/lib/usbhost/include/usb/host/usb_device_manager.h

    r2f0dd2a r153cc76a  
    5959                devman_handle_t handle; /**< Devman handle of the device. */
    6060        } devices[USB_ADDRESS_COUNT];
     61        /** Maximum speed allowed. */
    6162        usb_speed_t max_speed;
     63        /** Protect access to members. */
    6264        fibril_mutex_t guard;
    6365        /** The last reserved address */
  • uspace/lib/usbhost/include/usb/host/usb_transfer_batch.h

    r2f0dd2a r153cc76a  
    6565         */
    6666        size_t setup_size;
    67         /** Actually used portion of the buffer */
    68         size_t transfered_size;
    69         /** Indicates success/failure of the communication */
    70         int error;
    7167        /** Host controller function, passed to callback function */
    7268        ddf_fun_t *fun;
     69
     70        /** Actually used portion of the buffer
     71         * This member is never accessed by functions provided in this header,
     72         * with the exception of usb_transfer_batch_finish. For external use.
     73         */
     74        size_t transfered_size;
     75        /** Indicates success/failure of the communication
     76         * This member is never accessed by functions provided in this header,
     77         * with the exception of usb_transfer_batch_finish. For external use.
     78         */
     79        int error;
    7380
    7481        /** Driver specific data */
     
    106113void usb_transfer_batch_destroy(const usb_transfer_batch_t *instance);
    107114
    108 void usb_transfer_batch_finish(const usb_transfer_batch_t *instance,
    109     const void* data, size_t size);
     115void usb_transfer_batch_finish_error(const usb_transfer_batch_t *instance,
     116    const void* data, size_t size, int error);
    110117/*----------------------------------------------------------------------------*/
    111 /** Override error value and finishes transfer.
     118/** Finish batch using stored error value and transferred size.
    112119 *
    113120 * @param[in] instance Batch structure to use.
    114121 * @param[in] data Data to copy to the output buffer.
    115  * @param[in] size Size of @p data.
    116  * @param[in] error Set batch status to this error value.
    117122 */
    118 static inline void usb_transfer_batch_finish_error(
    119     usb_transfer_batch_t *instance, const void* data, size_t size, int error)
     123static inline void usb_transfer_batch_finish(
     124    const usb_transfer_batch_t *instance, const void* data)
    120125{
    121126        assert(instance);
    122         instance->error = error;
    123         usb_transfer_batch_finish(instance, data, size);
     127        usb_transfer_batch_finish_error(
     128            instance, data, instance->transfered_size, instance->error);
    124129}
    125130/*----------------------------------------------------------------------------*/
  • uspace/lib/usbhost/src/iface.c

    r2f0dd2a r153cc76a  
    3939#include <usb/host/hcd.h>
    4040
     41/** Prepare generic usb_transfer_batch and schedule it.
     42 * @param fun DDF fun
     43 * @param target address and endpoint number.
     44 * @param setup_data Data to use in setup stage (Control communication type)
     45 * @param in Callback for device to host communication.
     46 * @param out Callback for host to device communication.
     47 * @param arg Callback parameter.
     48 * @param name Communication identifier (for nicer output).
     49 * @return Error code.
     50 */
    4151static inline int send_batch(
    4252    ddf_fun_t *fun, usb_target_t target, usb_direction_t direction,
     
    8999}
    90100/*----------------------------------------------------------------------------*/
     101/** Calls ep_add_hook upon endpoint registration.
     102 * @param ep Endpoint to be registered.
     103 * @param arg hcd_t in disguise.
     104 * @return Error code.
     105 */
    91106static int register_helper(endpoint_t *ep, void *arg)
    92107{
     
    99114}
    100115/*----------------------------------------------------------------------------*/
     116/** Calls ep_remove_hook upon endpoint removal.
     117 * @param ep Endpoint to be unregistered.
     118 * @param arg hcd_t in disguise.
     119 */
    101120static void unregister_helper(endpoint_t *ep, void *arg)
    102121{
     
    108127}
    109128/*----------------------------------------------------------------------------*/
     129/** Calls ep_remove_hook upon endpoint removal. Prints warning.
     130 * @param ep Endpoint to be unregistered.
     131 * @param arg hcd_t in disguise.
     132 */
    110133static void unregister_helper_warn(endpoint_t *ep, void *arg)
    111134{
     
    119142}
    120143/*----------------------------------------------------------------------------*/
    121 /** Request address interface function
     144/** Request address interface function.
    122145 *
    123146 * @param[in] fun DDF function that was called.
     147 * @param[in] address Pointer to preferred USB address.
     148 * @param[out] address Place to write a new address.
     149 * @param[in] strict Fail if the preferred address is not available.
    124150 * @param[in] speed Speed to associate with the new default address.
    125  * @param[out] address Place to write a new address.
    126151 * @return Error code.
    127152 */
     
    140165}
    141166/*----------------------------------------------------------------------------*/
    142 /** Bind address interface function
     167/** Bind address interface function.
    143168 *
    144169 * @param[in] fun DDF function that was called.
     
    148173 */
    149174static int bind_address(
    150   ddf_fun_t *fun, usb_address_t address, devman_handle_t handle)
     175    ddf_fun_t *fun, usb_address_t address, devman_handle_t handle)
    151176{
    152177        assert(fun);
     
    176201}
    177202/*----------------------------------------------------------------------------*/
    178 /** Release address interface function
     203/** Release address interface function.
    179204 *
    180205 * @param[in] fun DDF function that was called.
     
    194219}
    195220/*----------------------------------------------------------------------------*/
     221/** Register endpoint interface function.
     222 * @param fun DDF function.
     223 * @param address USB address of the device.
     224 * @param endpoint USB endpoint number to be registered.
     225 * @param transfer_type Endpoint's transfer type.
     226 * @param direction USB communication direction the endpoint is capable of.
     227 * @param max_packet_size Maximu size of packets the endpoint accepts.
     228 * @param interval Preferred timeout between communication.
     229 * @return Error code.
     230 */
    196231static int register_endpoint(
    197232    ddf_fun_t *fun, usb_address_t address, usb_endpoint_t endpoint,
    198233    usb_transfer_type_t transfer_type, usb_direction_t direction,
    199     size_t max_packet_size, unsigned int interval)
     234    size_t max_packet_size, unsigned interval)
    200235{
    201236        assert(fun);
     
    220255}
    221256/*----------------------------------------------------------------------------*/
     257/** Unregister endpoint interface function.
     258 * @param fun DDF function.
     259 * @param address USB address of the endpoint.
     260 * @param endpoint USB endpoint number.
     261 * @param direction Communication direction of the enpdoint to unregister.
     262 * @return Error code.
     263 */
    222264static int unregister_endpoint(
    223265    ddf_fun_t *fun, usb_address_t address,
     
    233275}
    234276/*----------------------------------------------------------------------------*/
     277/** Inbound communication interface function.
     278 * @param fun DDF function.
     279 * @param target Communication target.
     280 * @param setup_data Data to use in setup stage (control transfers).
     281 * @param data Pointer to data buffer.
     282 * @param size Size of the data buffer.
     283 * @param callback Function to call on communication end.
     284 * @param arg Argument passed to the callback function.
     285 * @return Error code.
     286 */
    235287static int usb_read(ddf_fun_t *fun, usb_target_t target, uint64_t setup_data,
    236288    uint8_t *data, size_t size, usbhc_iface_transfer_in_callback_t callback,
     
    241293}
    242294/*----------------------------------------------------------------------------*/
     295/** Outbound communication interface function.
     296 * @param fun DDF function.
     297 * @param target Communication target.
     298 * @param setup_data Data to use in setup stage (control transfers).
     299 * @param data Pointer to data buffer.
     300 * @param size Size of the data buffer.
     301 * @param callback Function to call on communication end.
     302 * @param arg Argument passed to the callback function.
     303 * @return Error code.
     304 */
    243305static int usb_write(ddf_fun_t *fun, usb_target_t target, uint64_t setup_data,
    244306    const uint8_t *data, size_t size,
     
    249311}
    250312/*----------------------------------------------------------------------------*/
     313/** usbhc Interface implementation using hcd_t from libusbhost library. */
    251314usbhc_iface_t hcd_iface = {
    252315        .request_address = request_address,
  • uspace/lib/usbhost/src/usb_device_manager.c

    r2f0dd2a r153cc76a  
    2626 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2727 */
    28 
    2928/** @addtogroup libusbhost
    3029 * @{
     
    4140 *
    4241 * @param[in] instance Device manager structure to use.
    43  * @param[in] speed Speed of the device requiring address.
    4442 * @return Free address, or error code.
    4543 */
     
    133131 * @param[in] handle Devman handle of the device.
    134132 * @return Error code.
     133 * @note Won't accept binding for default address.
    135134 */
    136135int usb_device_manager_bind_address(usb_device_manager_t *instance,
     
    184183}
    185184/*----------------------------------------------------------------------------*/
    186 /** Find USB address associated with the device
     185/** Find USB address associated with the device.
    187186 *
    188187 * @param[in] instance Device manager structure to use.
     
    208207/*----------------------------------------------------------------------------*/
    209208/** Find devman handle and speed assigned to USB address.
    210  * Intentionally refuse to work on default address.
    211209 *
    212210 * @param[in] instance Device manager structure to use.
  • uspace/lib/usbhost/src/usb_endpoint_manager.c

    r2f0dd2a r153cc76a  
    2626 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2727 */
     28/**  @addtogroup libusbhost
     29 * @{
     30 */
     31/** @file
     32 * HC Endpoint management.
     33 */
    2834
    2935#include <bool.h>
     
    5662}
    5763/*----------------------------------------------------------------------------*/
    58 /** Get list that holds endpints for given address.
     64/** Get list that holds endpoints for given address.
    5965 * @param instance usb_endpoint_manager structure, non-null.
    6066 * @param addr USB address, must be >= 0.
     
    7581 * @return Pointer to endpoint_t structure representing given communication
    7682 * target, NULL if there is no such endpoint registered.
     83 * @note Assumes that the internal mutex is locked.
    7784 */
    7885static endpoint_t * find_locked(usb_endpoint_manager_t *instance,
     
    169176 *
    170177 * Really ugly one. Resets toggle bit on all endpoints that need it.
     178 * @TODO Use tools from libusbdev requests.h
    171179 */
    172180void usb_endpoint_manager_reset_eps_if_need(usb_endpoint_manager_t *instance,
     
    184192        case 0x01: /* Clear Feature -- resets only cleared ep */
    185193                /* Recipient is endpoint, value is zero (ENDPOINT_STALL) */
     194                // TODO Use macros in libusbdev requests.h
    186195                if (((data[0] & 0xf) == 1) && ((data[2] | data[3]) == 0)) {
    187196                        fibril_mutex_lock(&instance->guard);
     
    202211                /* Recipient must be device, this resets all endpoints,
    203212                 * In fact there should be no endpoints but EP 0 registered
    204                  * as different interfaces use different endpoints. */
     213                 * as different interfaces use different endpoints,
     214                 * unless you're changing configuration or alternative
     215                 * interface of an already setup device. */
    205216                if ((data[0] & 0xf) == 0) {
    206217                        fibril_mutex_lock(&instance->guard);
     
    385396}
    386397/*----------------------------------------------------------------------------*/
     398/** Unregister and destroy all endpoints using given address.
     399 * @param instance usb_endpoint_manager structure, non-null.
     400 * @param address USB address.
     401 * @param endpoint USB endpoint number.
     402 * @param direction Communication direction.
     403 * @param callback Function to call after unregister, before destruction.
     404 * @arg Argument to pass to the callback function.
     405 * @return Error code.
     406 */
    387407void usb_endpoint_manager_remove_address(usb_endpoint_manager_t *instance,
    388408    usb_address_t address, void (*callback)(endpoint_t *, void *), void *arg)
     
    403423        fibril_mutex_unlock(&instance->guard);
    404424}
     425/**
     426 * @}
     427 */
  • uspace/lib/usbhost/src/usb_transfer_batch.c

    r2f0dd2a r153cc76a  
    3333 */
    3434#include <errno.h>
    35 #include <str_error.h>
     35#include <macros.h>
    3636
    3737#include <usb/usb.h>
     
    4848 * @param func_in callback on IN transfer completion.
    4949 * @param func_out callback on OUT transfer completion.
     50 * @param fun DDF function (passed to callback function).
    5051 * @param arg Argument to pass to the callback function.
    5152 * @param private_data driver specific per batch data.
     
    121122 * @param[in] data Data to copy to the output buffer.
    122123 * @param[in] size Size of @p data.
     124 * @param[in] error Error value to use.
    123125 */
    124 void usb_transfer_batch_finish(
    125     const usb_transfer_batch_t *instance, const void *data, size_t size)
     126void usb_transfer_batch_finish_error(const usb_transfer_batch_t *instance,
     127    const void *data, size_t size, int error)
    126128{
    127129        assert(instance);
     
    133135                /* Check for commands that reset toggle bit */
    134136                if (instance->ep->transfer_type == USB_TRANSFER_CONTROL
    135                     && instance->error == EOK) {
     137                    && error == EOK) {
    136138                        const usb_target_t target =
    137139                            {{ instance->ep->address, instance->ep->endpoint }};
     
    139141                            instance->setup_buffer);
    140142                }
    141                 instance->callback_out(instance->fun,
    142                     instance->error, instance->arg);
     143                instance->callback_out(instance->fun, error, instance->arg);
    143144        }
    144145
    145146        if (instance->callback_in) {
    146147                /* We care about the data and there are some to copy */
     148                const size_t safe_size = min(size, instance->buffer_size);
    147149                if (data) {
    148                         const size_t min_size = size < instance->buffer_size
    149                             ? size : instance->buffer_size;
    150                         memcpy(instance->buffer, data, min_size);
     150                        memcpy(instance->buffer, data, safe_size);
    151151                }
    152                 instance->callback_in(instance->fun, instance->error,
    153                     instance->transfered_size, instance->arg);
     152                instance->callback_in(instance->fun, error,
     153                    safe_size, instance->arg);
    154154        }
    155155}
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