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Changeset 7b715892 in mainline


Ignore:
Timestamp:
2011-04-09T16:00:33Z (11 years ago)
Author:
Vojtech Horky <vojtechhorky@…>
Branches:
lfn, master, serial
Children:
5410c04
Parents:
8efafda (diff), 8e8b84f (diff)
Note: this is a merge changeset, the changes displayed below correspond to the merge itself.
Use the (diff) links above to see all the changes relative to each parent.
Message:

Merge development/ changes

Location:
uspace
Files:
4 added
15 edited

Legend:

Unmodified
Added
Removed
  • uspace/drv/ohci/Makefile

    r8efafda r7b715892  
    3333
    3434SOURCES = \
     35        batch.c \
     36        hc.c \
    3537        iface.c \
    36         batch.c \
    3738        main.c \
    38         hc.c \
    3939        ohci.c \
     40        pci.c \
    4041        root_hub.c \
    41         pci.c
     42        transfer_list.c \
     43        hw_struct/endpoint_descriptor.c \
     44        hw_struct/transfer_descriptor.c
     45
    4246
    4347include $(USPACE_PREFIX)/Makefile.common
  • uspace/drv/ohci/batch.c

    r8efafda r7b715892  
    4040#include "batch.h"
    4141#include "utils/malloc32.h"
    42 
     42#include "hw_struct/endpoint_descriptor.h"
     43#include "hw_struct/transfer_descriptor.h"
     44
     45typedef struct ohci_batch {
     46        ed_t *ed;
     47        td_t *tds;
     48        size_t td_count;
     49} ohci_batch_t;
     50
     51static void batch_control(usb_transfer_batch_t *instance,
     52    usb_direction_t data_dir, usb_direction_t status_dir);
    4353static void batch_call_in_and_dispose(usb_transfer_batch_t *instance);
    4454static void batch_call_out_and_dispose(usb_transfer_batch_t *instance);
    4555
    4656#define DEFAULT_ERROR_COUNT 3
    47 usb_transfer_batch_t * batch_get(
    48     ddf_fun_t *fun,
    49                 usb_target_t target,
    50     usb_transfer_type_t transfer_type,
    51                 size_t max_packet_size,
    52     usb_speed_t speed,
    53                 char *buffer,
    54                 size_t buffer_size,
    55                 char *setup_buffer,
    56                 size_t setup_size,
     57usb_transfer_batch_t * batch_get(ddf_fun_t *fun, endpoint_t *ep,
     58    char *buffer, size_t buffer_size, char* setup_buffer, size_t setup_size,
    5759    usbhc_iface_transfer_in_callback_t func_in,
    58     usbhc_iface_transfer_out_callback_t func_out,
    59                 void *arg,
    60                 usb_device_keeper_t *manager
    61                 )
     60    usbhc_iface_transfer_out_callback_t func_out, void *arg)
    6261{
    6362#define CHECK_NULL_DISPOSE_RETURN(ptr, message...) \
     
    7372        CHECK_NULL_DISPOSE_RETURN(instance,
    7473            "Failed to allocate batch instance.\n");
    75         usb_transfer_batch_init(instance, target, transfer_type, speed,
    76             max_packet_size, buffer, NULL, buffer_size, NULL, setup_size,
    77             func_in, func_out, arg, fun, NULL, NULL);
     74        usb_target_t target =
     75            { .address = ep->address, .endpoint = ep->endpoint };
     76        usb_transfer_batch_init(instance, target, ep->transfer_type, ep->speed,
     77            ep->max_packet_size, buffer, NULL, buffer_size, NULL, setup_size,
     78            func_in, func_out, arg, fun, ep, NULL);
     79
     80        ohci_batch_t *data = malloc(sizeof(ohci_batch_t));
     81        CHECK_NULL_DISPOSE_RETURN(data, "Failed to allocate batch data.\n");
     82        bzero(data, sizeof(ohci_batch_t));
     83        instance->private_data = data;
     84
     85        /* we needs + 1 transfer descriptor as the last one won't be executed */
     86        data->td_count = 1 +
     87            ((buffer_size + OHCI_TD_MAX_TRANSFER - 1) / OHCI_TD_MAX_TRANSFER);
     88        if (ep->transfer_type == USB_TRANSFER_CONTROL) {
     89                data->td_count += 2;
     90        }
     91
     92        data->tds = malloc32(sizeof(td_t) * data->td_count);
     93        CHECK_NULL_DISPOSE_RETURN(data->tds,
     94            "Failed to allocate transfer descriptors.\n");
     95        bzero(data->tds, sizeof(td_t) * data->td_count);
     96
     97        data->ed = malloc32(sizeof(ed_t));
     98        CHECK_NULL_DISPOSE_RETURN(data->ed,
     99            "Failed to allocate endpoint descriptor.\n");
    78100
    79101        if (buffer_size > 0) {
     
    90112        }
    91113
    92 
    93114        return instance;
    94115}
     
    97118{
    98119        assert(instance);
     120        ohci_batch_t *data = instance->private_data;
     121        assert(data);
     122        free32(data->ed);
     123        free32(data->tds);
     124        free32(instance->setup_buffer);
    99125        free32(instance->transport_buffer);
    100         free32(instance->setup_buffer);
     126        free(data);
    101127        free(instance);
     128}
     129/*----------------------------------------------------------------------------*/
     130bool batch_is_complete(usb_transfer_batch_t *instance)
     131{
     132        assert(instance);
     133        ohci_batch_t *data = instance->private_data;
     134        assert(data);
     135        size_t tds = data->td_count - 1;
     136        usb_log_debug2("Batch(%p) checking %d td(s) for completion.\n",
     137            instance, tds);
     138        size_t i = 0;
     139        for (; i < tds; ++i) {
     140                if (!td_is_finished(&data->tds[i]))
     141                        return false;
     142                instance->error = td_error(&data->tds[i]);
     143                /* FIXME: calculate real transfered size */
     144                instance->transfered_size = instance->buffer_size;
     145                if (instance->error != EOK) {
     146                        usb_log_debug("Batch(%p) found error TD(%d):%x.\n",
     147                            instance, i, data->tds[i].status);
     148                        return true;
     149//                      endpoint_toggle_set(instance->ep,
     150                }
     151        }
     152        return true;
    102153}
    103154/*----------------------------------------------------------------------------*/
     
    109160            instance->buffer_size);
    110161        instance->next_step = batch_call_out_and_dispose;
    111         /* TODO: implement */
     162        batch_control(instance, USB_DIRECTION_OUT, USB_DIRECTION_IN);
    112163        usb_log_debug("Batch(%p) CONTROL WRITE initialized.\n", instance);
    113164}
     
    117168        assert(instance);
    118169        instance->next_step = batch_call_in_and_dispose;
    119         /* TODO: implement */
     170        batch_control(instance, USB_DIRECTION_IN, USB_DIRECTION_OUT);
    120171        usb_log_debug("Batch(%p) CONTROL READ initialized.\n", instance);
    121172}
     
    124175{
    125176        assert(instance);
    126         instance->direction = USB_DIRECTION_IN;
     177        assert(instance->direction == USB_DIRECTION_IN);
    127178        instance->next_step = batch_call_in_and_dispose;
    128179        /* TODO: implement */
     
    133184{
    134185        assert(instance);
    135         instance->direction = USB_DIRECTION_OUT;
     186        assert(instance->direction == USB_DIRECTION_OUT);
    136187        /* We are data out, we are supposed to provide data */
    137188        memcpy(instance->transport_buffer, instance->buffer,
     
    160211}
    161212/*----------------------------------------------------------------------------*/
     213ed_t * batch_ed(usb_transfer_batch_t *instance)
     214{
     215        assert(instance);
     216        ohci_batch_t *data = instance->private_data;
     217        assert(data);
     218        return data->ed;
     219}
     220/*----------------------------------------------------------------------------*/
     221void batch_control(usb_transfer_batch_t *instance,
     222    usb_direction_t data_dir, usb_direction_t status_dir)
     223{
     224        assert(instance);
     225        ohci_batch_t *data = instance->private_data;
     226        assert(data);
     227        ed_init(data->ed, instance->ep);
     228        ed_add_tds(data->ed, &data->tds[0], &data->tds[data->td_count - 1]);
     229        usb_log_debug("Created ED: %x:%x:%x:%x.\n", data->ed->status,
     230            data->ed->td_tail, data->ed->td_head, data->ed->next);
     231        int toggle = 0;
     232        /* setup stage */
     233        td_init(&data->tds[0], USB_DIRECTION_BOTH, instance->setup_buffer,
     234                instance->setup_size, toggle);
     235        td_set_next(&data->tds[0], &data->tds[1]);
     236        usb_log_debug("Created SETUP TD: %x:%x:%x:%x.\n", data->tds[0].status,
     237            data->tds[0].cbp, data->tds[0].next, data->tds[0].be);
     238
     239        /* data stage */
     240        size_t td_current = 1;
     241        size_t remain_size = instance->buffer_size;
     242        char *transfer_buffer = instance->transport_buffer;
     243        while (remain_size > 0) {
     244                size_t transfer_size = remain_size > OHCI_TD_MAX_TRANSFER ?
     245                    OHCI_TD_MAX_TRANSFER : remain_size;
     246                toggle = 1 - toggle;
     247
     248                td_init(&data->tds[td_current], data_dir, transfer_buffer,
     249                    transfer_size, toggle);
     250                td_set_next(&data->tds[td_current], &data->tds[td_current + 1]);
     251                usb_log_debug("Created DATA TD: %x:%x:%x:%x.\n",
     252                    data->tds[td_current].status, data->tds[td_current].cbp,
     253                    data->tds[td_current].next, data->tds[td_current].be);
     254
     255                transfer_buffer += transfer_size;
     256                remain_size -= transfer_size;
     257                assert(td_current < data->td_count - 2);
     258                ++td_current;
     259        }
     260
     261        /* status stage */
     262        assert(td_current == data->td_count - 2);
     263        td_init(&data->tds[td_current], status_dir, NULL, 0, 1);
     264        usb_log_debug("Created STATUS TD: %x:%x:%x:%x.\n",
     265            data->tds[td_current].status, data->tds[td_current].cbp,
     266            data->tds[td_current].next, data->tds[td_current].be);
     267}
     268/*----------------------------------------------------------------------------*/
    162269/** Helper function calls callback and correctly disposes of batch structure.
    163270 *
  • uspace/drv/ohci/batch.h

    r8efafda r7b715892  
    2626 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    2727 */
    28 /** @addtogroup drvusbohci
     28/** @addtogroup drvusbuhcihc
    2929 * @{
    3030 */
    3131/** @file
    32  * @brief OHCI driver USB transaction structure
     32 * @brief UHCI driver USB transaction structure
    3333 */
    34 #ifndef DRV_OHCI_BATCH_H
    35 #define DRV_OHCI_BATCH_H
    36 
     34#ifndef DRV_UHCI_BATCH_H
     35#define DRV_UHCI_BATCH_H
    3736
    3837#include <usbhc_iface.h>
    3938#include <usb/usb.h>
    4039#include <usb/host/device_keeper.h>
     40#include <usb/host/endpoint.h>
    4141#include <usb/host/batch.h>
    4242
     43#include "hw_struct/endpoint_descriptor.h"
     44
    4345usb_transfer_batch_t * batch_get(
    44     ddf_fun_t *fun,
    45                 usb_target_t target,
    46     usb_transfer_type_t transfer_type,
    47                 size_t max_packet_size,
    48     usb_speed_t speed,
    49                 char *buffer,
    50                 size_t size,
    51                 char *setup_buffer,
    52                 size_t setup_size,
     46    ddf_fun_t *fun, endpoint_t *ep, char *buffer, size_t size,
     47    char *setup_buffer, size_t setup_size,
    5348    usbhc_iface_transfer_in_callback_t func_in,
    5449    usbhc_iface_transfer_out_callback_t func_out,
    55                 void *arg,
    56                 usb_device_keeper_t *manager
    57                 );
     50    void *arg);
    5851
    5952void batch_dispose(usb_transfer_batch_t *instance);
     53
     54bool batch_is_complete(usb_transfer_batch_t *instance);
    6055
    6156void batch_control_write(usb_transfer_batch_t *instance);
     
    7065
    7166void batch_bulk_out(usb_transfer_batch_t *instance);
     67
     68ed_t * batch_ed(usb_transfer_batch_t *instance);
    7269#endif
    7370/**
  • uspace/drv/ohci/hc.c

    r8efafda r7b715892  
    4747static void hc_gain_control(hc_t *instance);
    4848static void hc_init_hw(hc_t *instance);
     49static int hc_init_transfer_lists(hc_t *instance);
     50static int hc_init_memory(hc_t *instance);
    4951/*----------------------------------------------------------------------------*/
    5052int hc_register_hub(hc_t *instance, ddf_fun_t *hub_fun)
     
    5961            &instance->manager, hub_address, hub_fun->handle);
    6062
     63        endpoint_t *ep = malloc(sizeof(endpoint_t));
     64        assert(ep);
     65        int ret = endpoint_init(ep, hub_address, 0, USB_DIRECTION_BOTH,
     66            USB_TRANSFER_CONTROL, USB_SPEED_FULL, 64);
     67        assert(ret == EOK);
     68        ret = usb_endpoint_manager_register_ep(&instance->ep_manager, ep, 0);
     69        assert(ret == EOK);
     70
    6171        char *match_str = NULL;
    62         int ret = asprintf(&match_str, "usb&class=hub");
    63         ret = (match_str == NULL) ? ret : EOK;
     72        ret = asprintf(&match_str, "usb&class=hub");
     73//      ret = (match_str == NULL) ? ret : EOK;
    6474        if (ret < 0) {
    65                 usb_log_error("Failed to create root hub match-id string.\n");
     75                usb_log_error(
     76                    "Failed(%d) to create root hub match-id string.\n", ret);
    6677                return ret;
    6778        }
     
    107118        rh_init(&instance->rh, dev, instance->registers);
    108119
     120        hc_init_memory(instance);
    109121        hc_init_hw(instance);
    110122
     
    117129        assert(instance);
    118130        assert(batch);
     131
     132        /* check for root hub communication */
    119133        if (batch->target.address == instance->rh.address) {
    120134                return rh_request(&instance->rh, batch);
    121135        }
    122         /* TODO: implement */
    123         return ENOTSUP;
     136
     137        transfer_list_add_batch(
     138            instance->transfers[batch->transfer_type], batch);
     139
     140        switch (batch->transfer_type) {
     141        case USB_TRANSFER_CONTROL:
     142                instance->registers->command_status |= CS_CLF;
     143                break;
     144        case USB_TRANSFER_BULK:
     145                instance->registers->command_status |= CS_BLF;
     146                break;
     147        default:
     148                break;
     149        }
     150        return EOK;
    124151}
    125152/*----------------------------------------------------------------------------*/
     
    134161        usb_log_info("OHCI interrupt: %x.\n", status);
    135162
    136         /* TODO: Check for further interrupt causes */
    137         /* TODO: implement */
     163        LIST_INITIALIZE(done);
     164        transfer_list_remove_finished(&instance->transfers_interrupt, &done);
     165        transfer_list_remove_finished(&instance->transfers_isochronous, &done);
     166        transfer_list_remove_finished(&instance->transfers_control, &done);
     167        transfer_list_remove_finished(&instance->transfers_bulk, &done);
     168
     169        while (!list_empty(&done)) {
     170                link_t *item = done.next;
     171                list_remove(item);
     172                usb_transfer_batch_t *batch =
     173                    list_get_instance(item, usb_transfer_batch_t, link);
     174                usb_transfer_batch_finish(batch);
     175        }
    138176}
    139177/*----------------------------------------------------------------------------*/
     
    197235        assert(instance);
    198236        const uint32_t fm_interval = instance->registers->fm_interval;
     237
     238        /* reset hc */
    199239        instance->registers->command_status = CS_HCR;
    200240        async_usleep(10);
     241
     242        /* restore fm_interval */
    201243        instance->registers->fm_interval = fm_interval;
    202244        assert((instance->registers->command_status & CS_HCR) == 0);
     245
    203246        /* hc is now in suspend state */
    204         /* TODO: init HCCA block */
    205         /* TODO: init queues */
    206         /* TODO: enable queues */
     247
     248        /* enable queues */
     249        instance->registers->control |= (C_PLE | C_IE | C_CLE | C_BLE);
    207250        /* TODO: enable interrupts */
    208         /* TODO: set periodic start to 90% */
     251        /* set periodic start to 90% */
     252        instance->registers->periodic_start = (fm_interval / 10) * 9;
    209253
    210254        instance->registers->control &= (C_HCFS_OPERATIONAL << C_HCFS_SHIFT);
    211255        usb_log_info("OHCI HC up and running.\n");
     256}
     257/*----------------------------------------------------------------------------*/
     258int hc_init_transfer_lists(hc_t *instance)
     259{
     260        assert(instance);
     261
     262#define SETUP_TRANSFER_LIST(type, name) \
     263do { \
     264        int ret = transfer_list_init(&instance->type, name); \
     265        if (ret != EOK) { \
     266                usb_log_error("Failed(%d) to setup %s transfer list.\n", \
     267                    ret, name); \
     268                transfer_list_fini(&instance->transfers_isochronous); \
     269                transfer_list_fini(&instance->transfers_interrupt); \
     270                transfer_list_fini(&instance->transfers_control); \
     271                transfer_list_fini(&instance->transfers_bulk); \
     272        } \
     273} while (0)
     274
     275        SETUP_TRANSFER_LIST(transfers_isochronous, "ISOCHRONOUS");
     276        SETUP_TRANSFER_LIST(transfers_interrupt, "INTERRUPT");
     277        SETUP_TRANSFER_LIST(transfers_control, "CONTROL");
     278        SETUP_TRANSFER_LIST(transfers_bulk, "BULK");
     279
     280        transfer_list_set_next(&instance->transfers_interrupt,
     281            &instance->transfers_isochronous);
     282
     283        /* Assign pointers to be used during scheduling */
     284        instance->transfers[USB_TRANSFER_INTERRUPT] =
     285          &instance->transfers_interrupt;
     286        instance->transfers[USB_TRANSFER_ISOCHRONOUS] =
     287          &instance->transfers_interrupt;
     288        instance->transfers[USB_TRANSFER_CONTROL] =
     289          &instance->transfers_control;
     290        instance->transfers[USB_TRANSFER_BULK] =
     291          &instance->transfers_bulk;
     292
     293        return EOK;
     294#undef CHECK_RET_CLEAR_RETURN
     295}
     296/*----------------------------------------------------------------------------*/
     297int hc_init_memory(hc_t *instance)
     298{
     299        assert(instance);
     300        /* init queues */
     301        hc_init_transfer_lists(instance);
     302
     303        /* init HCCA */
     304        instance->hcca = malloc32(sizeof(hcca_t));
     305        if (instance->hcca == NULL)
     306                return ENOMEM;
     307        bzero(instance->hcca, sizeof(hcca_t));
     308        instance->registers->hcca = addr_to_phys(instance->hcca);
     309
     310        /* use queues */
     311        instance->registers->bulk_head = instance->transfers_bulk.list_head_pa;
     312        instance->registers->control_head =
     313            instance->transfers_control.list_head_pa;
     314
     315        unsigned i = 0;
     316        for (; i < 32; ++i) {
     317                instance->hcca->int_ep[i] =
     318                    instance->transfers_interrupt.list_head_pa;
     319        }
     320
     321        return EOK;
    212322}
    213323/**
  • uspace/drv/ohci/hc.h

    r8efafda r7b715892  
    4848#include "ohci_regs.h"
    4949#include "root_hub.h"
     50#include "transfer_list.h"
    5051#include "hw_struct/hcca.h"
    5152
     
    5455        usb_address_t rh_address;
    5556        rh_t rh;
     57
     58        hcca_t *hcca;
     59
     60        transfer_list_t transfers_isochronous;
     61        transfer_list_t transfers_interrupt;
     62        transfer_list_t transfers_control;
     63        transfer_list_t transfers_bulk;
     64
     65        transfer_list_t *transfers[4];
     66
    5667        ddf_fun_t *ddf_instance;
    5768        usb_device_keeper_t manager;
  • uspace/drv/ohci/hw_struct/completion_codes.h

    r8efafda r7b715892  
    3535#define DRV_OHCI_HW_STRUCT_COMPLETION_CODES_H
    3636
     37#include <errno.h>
     38
    3739#define CC_NOERROR (0x0)
    3840#define CC_CRC (0x1)
     
    5052#define CC_NOACCESS2 (0xf)
    5153
     54inline static int cc_to_rc(int cc)
     55{
     56        switch (cc) {
     57        case CC_NOERROR:
     58                return EOK;
     59
     60        case CC_CRC:
     61                return EBADCHECKSUM;
     62
     63        case CC_PIDUNEXPECTED:
     64        case CC_PIDFAIL:
     65        case CC_BITSTUFF:
     66                return EIO;
     67
     68        case CC_TOGGLE:
     69        case CC_STALL:
     70                return ESTALL;
     71
     72        case CC_NORESPONSE:
     73                return ETIMEOUT;
     74
     75        case CC_DATAOVERRRUN:
     76        case CC_DATAUNDERRRUN:
     77        case CC_BUFFEROVERRRUN:
     78        case CC_BUFFERUNDERRUN:
     79                return EOVERFLOW;
     80
     81        case CC_NOACCESS1:
     82        case CC_NOACCESS2:
     83        default:
     84                return ENOTSUP;
     85        }
     86}
     87
    5288#endif
    5389/**
  • uspace/drv/ohci/hw_struct/endpoint_descriptor.h

    r8efafda r7b715892  
    3535#define DRV_OHCI_HW_STRUCT_ENDPOINT_DESCRIPTOR_H
    3636
     37#include <assert.h>
    3738#include <stdint.h>
     39
     40#include <usb/host/endpoint.h>
     41
     42#include "utils/malloc32.h"
     43#include "transfer_descriptor.h"
    3844
    3945#include "completion_codes.h"
     
    4450#define ED_STATUS_FA_SHIFT (0)
    4551#define ED_STATUS_EN_MASK (0xf)    /* USB endpoint address */
    46 #define ED_STATUS_EN_SHIFT (6)
     52#define ED_STATUS_EN_SHIFT (7)
    4753#define ED_STATUS_D_MASK (0x3)     /* direction */
    48 #define ED_STATUS_D_SHIFT (10)
     54#define ED_STATUS_D_SHIFT (11)
    4955#define ED_STATUS_D_IN (0x1)
    5056#define ED_STATUS_D_OUT (0x2)
     57#define ED_STATUS_D_TRANSFER (0x3)
    5158
    52 #define ED_STATUS_S_FLAG (1 << 13) /* speed flag */
     59#define ED_STATUS_S_FLAG (1 << 13) /* speed flag: 1 = low */
    5360#define ED_STATUS_K_FLAG (1 << 14) /* skip flag (no not execute this ED) */
    5461#define ED_STATUS_F_FLAG (1 << 15) /* format: 1 = isochronous*/
     
    7178#define ED_NEXT_PTR_SHIFT (0)
    7279} __attribute__((packed)) ed_t;
     80
     81void ed_init(ed_t *instance, endpoint_t *ep);
     82
     83static inline void ed_add_tds(ed_t *instance, td_t *head, td_t *tail)
     84{
     85        assert(instance);
     86        instance->td_head = addr_to_phys(head) & ED_TDHEAD_PTR_MASK;
     87        instance->td_tail = addr_to_phys(tail) & ED_TDTAIL_PTR_MASK;
     88}
     89
     90static inline void ed_append_ed(ed_t *instance, ed_t *next)
     91{
     92        assert(instance);
     93        assert(next);
     94        uint32_t pa = addr_to_phys(next);
     95        assert((pa & ED_NEXT_PTR_MASK) << ED_NEXT_PTR_SHIFT == pa);
     96        instance->next = pa;
     97}
     98
    7399#endif
    74100/**
  • uspace/drv/ohci/hw_struct/transfer_descriptor.h

    r8efafda r7b715892  
    3535#define DRV_OHCI_HW_STRUCT_TRANSFER_DESCRIPTOR_H
    3636
     37#include <bool.h>
    3738#include <stdint.h>
     39#include "utils/malloc32.h"
    3840
    3941#include "completion_codes.h"
     42
     43/* OHCI TDs can handle up to 8KB buffers */
     44#define OHCI_TD_MAX_TRANSFER (8 * 1024)
    4045
    4146typedef struct td {
     
    5257#define TD_STATUS_T_MASK (0x3)  /* data toggle 1x = use ED toggle carry */
    5358#define TD_STATUS_T_SHIFT (24)
     59#define TD_STATUS_T_0 (0x2)
     60#define TD_STATUS_T_1 (0x3)
    5461#define TD_STATUS_EC_MASK (0x3) /* error count */
    5562#define TD_STATUS_EC_SHIFT (26)
     
    6471        volatile uint32_t be; /* buffer end, address of the last byte */
    6572} __attribute__((packed)) td_t;
     73
     74void td_init(
     75    td_t *instance, usb_direction_t dir, void *buffer, size_t size, int toggle);
     76
     77inline static void td_set_next(td_t *instance, td_t *next)
     78{
     79        assert(instance);
     80        instance->next = addr_to_phys(next) & TD_NEXT_PTR_MASK;
     81}
     82
     83inline static bool td_is_finished(td_t *instance)
     84{
     85        assert(instance);
     86        int cc = (instance->status >> TD_STATUS_CC_SHIFT) & TD_STATUS_CC_MASK;
     87        /* something went wrong, error code is set */
     88        if (cc != CC_NOACCESS1 && cc != CC_NOACCESS2 && cc != CC_NOERROR) {
     89                return true;
     90        }
     91        /* everything done */
     92        if (cc == CC_NOERROR && instance->cbp == 0) {
     93                return true;
     94        }
     95        return false;
     96}
     97
     98static inline int td_error(td_t *instance)
     99{
     100        assert(instance);
     101        int cc = (instance->status >> TD_STATUS_CC_SHIFT) & TD_STATUS_CC_MASK;
     102        return cc_to_rc(cc);
     103}
    66104#endif
    67105/**
  • uspace/drv/ohci/iface.c

    r8efafda r7b715892  
    11/*
    2  * Copyright (c) 2011 Vojtech Horky
     2 * Copyright (c) 2011 Vojtech Horky, Jan Vesely
    33 * All rights reserved.
    44 *
     
    3030 */
    3131/** @file
    32  * USB-HC interface implementation.
     32 * @brief OHCI driver hc interface implementation
    3333 */
    3434#include <ddf/driver.h>
     
    3636
    3737#include <usb/debug.h>
     38#include <usb/host/endpoint.h>
    3839
    3940#include "iface.h"
    4041#include "hc.h"
    4142
    42 #define UNSUPPORTED(methodname) \
    43         usb_log_warning("Unsupported interface method `%s()' in %s:%d.\n", \
    44             methodname, __FILE__, __LINE__)
    45 
    46 /** Reserve default address.
    47  *
    48  * This function may block the caller.
    49  *
    50  * @param[in] fun Device function the action was invoked on.
    51  * @param[in] speed Speed of the device for which the default address is
    52  *      reserved.
     43static inline int setup_batch(
     44    ddf_fun_t *fun, usb_target_t target, usb_direction_t direction,
     45    void *data, size_t size, void * setup_data, size_t setup_size,
     46    usbhc_iface_transfer_in_callback_t in,
     47    usbhc_iface_transfer_out_callback_t out, void *arg, const char* name,
     48    hc_t **hc, usb_transfer_batch_t **batch)
     49{
     50        assert(hc);
     51        assert(batch);
     52        assert(fun);
     53        *hc = fun_to_hc(fun);
     54        assert(*hc);
     55
     56        size_t res_bw;
     57        endpoint_t *ep = usb_endpoint_manager_get_ep(&(*hc)->ep_manager,
     58            target.address, target.endpoint, direction, &res_bw);
     59        if (ep == NULL) {
     60                usb_log_error("Endpoint(%d:%d) not registered for %s.\n",
     61                    target.address, target.endpoint, name);
     62                return ENOENT;
     63        }
     64
     65        const size_t bw = bandwidth_count_usb11(
     66            ep->speed, ep->transfer_type, size, ep->max_packet_size);
     67        if (res_bw < bw) {
     68                usb_log_error("Endpoint(%d:%d) %s needs %zu bw "
     69                    "but only %zu is reserved.\n",
     70                    name, target.address, target.endpoint, bw, res_bw);
     71                return ENOSPC;
     72        }
     73        usb_log_debug("%s %d:%d %zu(%zu).\n",
     74            name, target.address, target.endpoint, size, ep->max_packet_size);
     75
     76        assert(ep->speed ==
     77            usb_device_keeper_get_speed(&(*hc)->manager, target.address));
     78//      assert(ep->max_packet_size == max_packet_size);
     79//      assert(ep->transfer_type == USB_TRANSFER_CONTROL);
     80
     81        *batch =
     82            batch_get(fun, ep, data, size, setup_data, setup_size,
     83                in, out, arg);
     84        if (!batch)
     85                return ENOMEM;
     86        return EOK;
     87}
     88
     89
     90/** Reserve default address interface function
     91 *
     92 * @param[in] fun DDF function that was called.
     93 * @param[in] speed Speed to associate with the new default address.
    5394 * @return Error code.
    5495 */
     
    61102        usb_device_keeper_reserve_default_address(&hc->manager, speed);
    62103        return EOK;
    63 }
    64 /*----------------------------------------------------------------------------*/
    65 /** Release default address.
    66  *
    67  * @param[in] fun Device function the action was invoked on.
     104#if 0
     105        endpoint_t *ep = malloc(sizeof(endpoint_t));
     106        if (ep == NULL)
     107                return ENOMEM;
     108        const size_t max_packet_size = speed == USB_SPEED_LOW ? 8 : 64;
     109        endpoint_init(ep, USB_TRANSFER_CONTROL, speed, max_packet_size);
     110        int ret;
     111try_retgister:
     112        ret = usb_endpoint_manager_register_ep(&hc->ep_manager,
     113            USB_ADDRESS_DEFAULT, 0, USB_DIRECTION_BOTH, ep, endpoint_destroy, 0);
     114        if (ret == EEXISTS) {
     115                async_usleep(1000);
     116                goto try_retgister;
     117        }
     118        if (ret != EOK) {
     119                endpoint_destroy(ep);
     120        }
     121        return ret;
     122#endif
     123}
     124/*----------------------------------------------------------------------------*/
     125/** Release default address interface function
     126 *
     127 * @param[in] fun DDF function that was called.
    68128 * @return Error code.
    69129 */
     
    74134        assert(hc);
    75135        usb_log_debug("Default address release.\n");
     136//      return usb_endpoint_manager_unregister_ep(&hc->ep_manager,
     137//          USB_ADDRESS_DEFAULT, 0, USB_DIRECTION_BOTH);
    76138        usb_device_keeper_release_default_address(&hc->manager);
    77139        return EOK;
    78140}
    79141/*----------------------------------------------------------------------------*/
    80 /** Found free USB address.
    81  *
    82  * @param[in] fun Device function the action was invoked on.
    83  * @param[in] speed Speed of the device that will get this address.
    84  * @param[out] address Non-null pointer where to store the free address.
     142/** Request address interface function
     143 *
     144 * @param[in] fun DDF function that was called.
     145 * @param[in] speed Speed to associate with the new default address.
     146 * @param[out] address Place to write a new address.
    85147 * @return Error code.
    86148 */
     
    101163}
    102164/*----------------------------------------------------------------------------*/
    103 /** Bind USB address with device devman handle.
    104  *
    105  * @param[in] fun Device function the action was invoked on.
    106  * @param[in] address USB address of the device.
    107  * @param[in] handle Devman handle of the device.
     165/** Bind address interface function
     166 *
     167 * @param[in] fun DDF function that was called.
     168 * @param[in] address Address of the device
     169 * @param[in] handle Devman handle of the device driver.
    108170 * @return Error code.
    109171 */
    110172static int bind_address(
    111     ddf_fun_t *fun, usb_address_t address, devman_handle_t handle)
     173  ddf_fun_t *fun, usb_address_t address, devman_handle_t handle)
    112174{
    113175        assert(fun);
     
    119181}
    120182/*----------------------------------------------------------------------------*/
    121 /** Release previously requested address.
    122  *
    123  * @param[in] fun Device function the action was invoked on.
     183/** Release address interface function
     184 *
     185 * @param[in] fun DDF function that was called.
    124186 * @param[in] address USB address to be released.
    125187 * @return Error code.
     
    135197}
    136198/*----------------------------------------------------------------------------*/
    137 /** Register endpoint for bandwidth reservation.
    138  *
    139  * @param[in] fun Device function the action was invoked on.
    140  * @param[in] address USB address of the device.
    141  * @param[in] endpoint Endpoint number.
    142  * @param[in] transfer_type USB transfer type.
    143  * @param[in] direction Endpoint data direction.
    144  * @param[in] max_packet_size Max packet size of the endpoint.
    145  * @param[in] interval Polling interval.
    146  * @return Error code.
    147  */
    148199static int register_endpoint(
    149200    ddf_fun_t *fun, usb_address_t address, usb_endpoint_t endpoint,
     
    151202    size_t max_packet_size, unsigned int interval)
    152203{
    153         assert(fun);
    154         hc_t *hc = fun_to_hc(fun);
    155         assert(hc);
    156         if (address == hc->rh.address)
    157                 return EOK;
     204        hc_t *hc = fun_to_hc(fun);
     205        assert(hc);
    158206        const usb_speed_t speed =
    159                 usb_device_keeper_get_speed(&hc->manager, address);
    160         const size_t size = max_packet_size;
     207            usb_device_keeper_get_speed(&hc->manager, address);
     208        const size_t size =
     209            (transfer_type == USB_TRANSFER_INTERRUPT
     210            || transfer_type == USB_TRANSFER_ISOCHRONOUS) ?
     211            max_packet_size : 0;
     212        int ret;
     213
     214        endpoint_t *ep = malloc(sizeof(endpoint_t));
     215        if (ep == NULL)
     216                return ENOMEM;
     217        ret = endpoint_init(ep, address, endpoint, direction,
     218            transfer_type, speed, max_packet_size);
     219        if (ret != EOK) {
     220                free(ep);
     221                return ret;
     222        }
     223
    161224        usb_log_debug("Register endpoint %d:%d %s %s(%d) %zu(%zu) %u.\n",
    162225            address, endpoint, usb_str_transfer_type(transfer_type),
    163226            usb_str_speed(speed), direction, size, max_packet_size, interval);
    164         // TODO use real endpoint here!
    165         return usb_endpoint_manager_register_ep(&hc->ep_manager,NULL, 0);
    166 }
    167 /*----------------------------------------------------------------------------*/
    168 /** Unregister endpoint (free some bandwidth reservation).
    169  *
    170  * @param[in] fun Device function the action was invoked on.
    171  * @param[in] address USB address of the device.
    172  * @param[in] endpoint Endpoint number.
    173  * @param[in] direction Endpoint data direction.
    174  * @return Error code.
    175  */
     227
     228        ret = usb_endpoint_manager_register_ep(&hc->ep_manager, ep, size);
     229        if (ret != EOK) {
     230                endpoint_destroy(ep);
     231        } else {
     232                usb_device_keeper_add_ep(&hc->manager, address, ep);
     233        }
     234        return ret;
     235}
     236/*----------------------------------------------------------------------------*/
    176237static int unregister_endpoint(
    177238    ddf_fun_t *fun, usb_address_t address,
    178239    usb_endpoint_t endpoint, usb_direction_t direction)
    179240{
    180         assert(fun);
    181241        hc_t *hc = fun_to_hc(fun);
    182242        assert(hc);
     
    187247}
    188248/*----------------------------------------------------------------------------*/
    189 /** Schedule interrupt out transfer.
    190  *
    191  * The callback is supposed to be called once the transfer (on the wire) is
    192  * complete regardless of the outcome.
    193  * However, the callback could be called only when this function returns
    194  * with success status (i.e. returns EOK).
    195  *
    196  * @param[in] fun Device function the action was invoked on.
    197  * @param[in] target Target pipe (address and endpoint number) specification.
    198  * @param[in] max_packet_size Max packet size for the transfer.
    199  * @param[in] data Data to be sent (in USB endianess, allocated and deallocated
    200  *      by the caller).
    201  * @param[in] size Size of the @p data buffer in bytes.
    202  * @param[in] callback Callback to be issued once the transfer is complete.
    203  * @param[in] arg Pass-through argument to the callback.
     249/** Interrupt out transaction interface function
     250 *
     251 * @param[in] fun DDF function that was called.
     252 * @param[in] target USB device to write to.
     253 * @param[in] max_packet_size maximum size of data packet the device accepts
     254 * @param[in] data Source of data.
     255 * @param[in] size Size of data source.
     256 * @param[in] callback Function to call on transaction completion
     257 * @param[in] arg Additional for callback function.
    204258 * @return Error code.
    205259 */
     
    208262    size_t size, usbhc_iface_transfer_out_callback_t callback, void *arg)
    209263{
    210         assert(fun);
    211         hc_t *hc = fun_to_hc(fun);
    212         assert(hc);
    213         usb_speed_t speed =
    214             usb_device_keeper_get_speed(&hc->manager, target.address);
    215 
    216         usb_log_debug("Interrupt OUT %d:%d %zu(%zu).\n",
    217             target.address, target.endpoint, size, max_packet_size);
    218 
    219         usb_transfer_batch_t *batch =
    220             batch_get(fun, target, USB_TRANSFER_INTERRUPT, max_packet_size,
    221                 speed, data, size, NULL, 0, NULL, callback, arg, &hc->manager);
    222         if (!batch)
    223                 return ENOMEM;
     264        usb_transfer_batch_t *batch = NULL;
     265        hc_t *hc = NULL;
     266        int ret = setup_batch(fun, target, USB_DIRECTION_OUT, data, size,
     267            NULL, 0, NULL, callback, arg, "Interrupt OUT", &hc, &batch);
     268        if (ret != EOK)
     269                return ret;
    224270        batch_interrupt_out(batch);
    225         const int ret = hc_schedule(hc, batch);
    226         if (ret != EOK) {
    227                 batch_dispose(batch);
    228         }
    229         return ret;
    230 }
    231 /*----------------------------------------------------------------------------*/
    232 /** Schedule interrupt in transfer.
    233  *
    234  * The callback is supposed to be called once the transfer (on the wire) is
    235  * complete regardless of the outcome.
    236  * However, the callback could be called only when this function returns
    237  * with success status (i.e. returns EOK).
    238  *
    239  * @param[in] fun Device function the action was invoked on.
    240  * @param[in] target Target pipe (address and endpoint number) specification.
    241  * @param[in] max_packet_size Max packet size for the transfer.
    242  * @param[in] data Buffer where to store the data (in USB endianess,
    243  *      allocated and deallocated by the caller).
    244  * @param[in] size Size of the @p data buffer in bytes.
    245  * @param[in] callback Callback to be issued once the transfer is complete.
    246  * @param[in] arg Pass-through argument to the callback.
     271        ret = hc_schedule(hc, batch);
     272        if (ret != EOK) {
     273                batch_dispose(batch);
     274        }
     275        return ret;
     276}
     277/*----------------------------------------------------------------------------*/
     278/** Interrupt in transaction interface function
     279 *
     280 * @param[in] fun DDF function that was called.
     281 * @param[in] target USB device to write to.
     282 * @param[in] max_packet_size maximum size of data packet the device accepts
     283 * @param[out] data Data destination.
     284 * @param[in] size Size of data source.
     285 * @param[in] callback Function to call on transaction completion
     286 * @param[in] arg Additional for callback function.
    247287 * @return Error code.
    248288 */
     
    251291    size_t size, usbhc_iface_transfer_in_callback_t callback, void *arg)
    252292{
    253         assert(fun);
    254         hc_t *hc = fun_to_hc(fun);
    255         assert(hc);
    256         usb_speed_t speed =
    257             usb_device_keeper_get_speed(&hc->manager, target.address);
    258         usb_log_debug("Interrupt IN %d:%d %zu(%zu).\n",
    259             target.address, target.endpoint, size, max_packet_size);
    260 
    261         usb_transfer_batch_t *batch =
    262             batch_get(fun, target, USB_TRANSFER_INTERRUPT, max_packet_size,
    263                 speed, data, size, NULL, 0, callback, NULL, arg, &hc->manager);
    264         if (!batch)
    265                 return ENOMEM;
     293        usb_transfer_batch_t *batch = NULL;
     294        hc_t *hc = NULL;
     295        int ret = setup_batch(fun, target, USB_DIRECTION_IN, data, size,
     296            NULL, 0, callback, NULL, arg, "Interrupt IN", &hc, &batch);
     297        if (ret != EOK)
     298                return ret;
    266299        batch_interrupt_in(batch);
    267         const int ret = hc_schedule(hc, batch);
    268         if (ret != EOK) {
    269                 batch_dispose(batch);
    270         }
    271         return ret;
    272 }
    273 /*----------------------------------------------------------------------------*/
    274 /** Schedule bulk out transfer.
    275  *
    276  * The callback is supposed to be called once the transfer (on the wire) is
    277  * complete regardless of the outcome.
    278  * However, the callback could be called only when this function returns
    279  * with success status (i.e. returns EOK).
    280  *
    281  * @param[in] fun Device function the action was invoked on.
    282  * @param[in] target Target pipe (address and endpoint number) specification.
    283  * @param[in] max_packet_size Max packet size for the transfer.
    284  * @param[in] data Data to be sent (in USB endianess, allocated and deallocated
    285  *      by the caller).
    286  * @param[in] size Size of the @p data buffer in bytes.
    287  * @param[in] callback Callback to be issued once the transfer is complete.
    288  * @param[in] arg Pass-through argument to the callback.
     300        ret = hc_schedule(hc, batch);
     301        if (ret != EOK) {
     302                batch_dispose(batch);
     303        }
     304        return ret;
     305}
     306/*----------------------------------------------------------------------------*/
     307/** Bulk out transaction interface function
     308 *
     309 * @param[in] fun DDF function that was called.
     310 * @param[in] target USB device to write to.
     311 * @param[in] max_packet_size maximum size of data packet the device accepts
     312 * @param[in] data Source of data.
     313 * @param[in] size Size of data source.
     314 * @param[in] callback Function to call on transaction completion
     315 * @param[in] arg Additional for callback function.
    289316 * @return Error code.
    290317 */
     
    293320    size_t size, usbhc_iface_transfer_out_callback_t callback, void *arg)
    294321{
    295         assert(fun);
    296         hc_t *hc = fun_to_hc(fun);
    297         assert(hc);
    298         usb_speed_t speed =
    299             usb_device_keeper_get_speed(&hc->manager, target.address);
    300 
    301         usb_log_debug("Bulk OUT %d:%d %zu(%zu).\n",
    302             target.address, target.endpoint, size, max_packet_size);
    303 
    304         usb_transfer_batch_t *batch =
    305             batch_get(fun, target, USB_TRANSFER_BULK, max_packet_size, speed,
    306                 data, size, NULL, 0, NULL, callback, arg, &hc->manager);
    307         if (!batch)
    308                 return ENOMEM;
     322        usb_transfer_batch_t *batch = NULL;
     323        hc_t *hc = NULL;
     324        int ret = setup_batch(fun, target, USB_DIRECTION_OUT, data, size,
     325            NULL, 0, NULL, callback, arg, "Bulk OUT", &hc, &batch);
     326        if (ret != EOK)
     327                return ret;
    309328        batch_bulk_out(batch);
    310         const int ret = hc_schedule(hc, batch);
    311         if (ret != EOK) {
    312                 batch_dispose(batch);
    313         }
    314         return ret;
    315 }
    316 /*----------------------------------------------------------------------------*/
    317 /** Schedule bulk in transfer.
    318  *
    319  * The callback is supposed to be called once the transfer (on the wire) is
    320  * complete regardless of the outcome.
    321  * However, the callback could be called only when this function returns
    322  * with success status (i.e. returns EOK).
    323  *
    324  * @param[in] fun Device function the action was invoked on.
    325  * @param[in] target Target pipe (address and endpoint number) specification.
    326  * @param[in] max_packet_size Max packet size for the transfer.
    327  * @param[in] data Buffer where to store the data (in USB endianess,
    328  *      allocated and deallocated by the caller).
    329  * @param[in] size Size of the @p data buffer in bytes.
    330  * @param[in] callback Callback to be issued once the transfer is complete.
    331  * @param[in] arg Pass-through argument to the callback.
     329        ret = hc_schedule(hc, batch);
     330        if (ret != EOK) {
     331                batch_dispose(batch);
     332        }
     333        return ret;
     334}
     335/*----------------------------------------------------------------------------*/
     336/** Bulk in transaction interface function
     337 *
     338 * @param[in] fun DDF function that was called.
     339 * @param[in] target USB device to write to.
     340 * @param[in] max_packet_size maximum size of data packet the device accepts
     341 * @param[out] data Data destination.
     342 * @param[in] size Size of data source.
     343 * @param[in] callback Function to call on transaction completion
     344 * @param[in] arg Additional for callback function.
    332345 * @return Error code.
    333346 */
     
    336349    size_t size, usbhc_iface_transfer_in_callback_t callback, void *arg)
    337350{
    338         assert(fun);
    339         hc_t *hc = fun_to_hc(fun);
    340         assert(hc);
    341         usb_speed_t speed =
    342             usb_device_keeper_get_speed(&hc->manager, target.address);
    343         usb_log_debug("Bulk IN %d:%d %zu(%zu).\n",
    344             target.address, target.endpoint, size, max_packet_size);
    345 
    346         usb_transfer_batch_t *batch =
    347             batch_get(fun, target, USB_TRANSFER_BULK, max_packet_size, speed,
    348                 data, size, NULL, 0, callback, NULL, arg, &hc->manager);
    349         if (!batch)
    350                 return ENOMEM;
     351        usb_transfer_batch_t *batch = NULL;
     352        hc_t *hc = NULL;
     353        int ret = setup_batch(fun, target, USB_DIRECTION_IN, data, size,
     354            NULL, 0, callback, NULL, arg, "Bulk IN", &hc, &batch);
     355        if (ret != EOK)
     356                return ret;
    351357        batch_bulk_in(batch);
    352         const int ret = hc_schedule(hc, batch);
    353         if (ret != EOK) {
    354                 batch_dispose(batch);
    355         }
    356         return ret;
    357 }
    358 /*----------------------------------------------------------------------------*/
    359 /** Schedule control write transfer.
    360  *
    361  * The callback is supposed to be called once the transfer (on the wire) is
    362  * complete regardless of the outcome.
    363  * However, the callback could be called only when this function returns
    364  * with success status (i.e. returns EOK).
    365  *
    366  * @param[in] fun Device function the action was invoked on.
    367  * @param[in] target Target pipe (address and endpoint number) specification.
    368  * @param[in] max_packet_size Max packet size for the transfer.
    369  * @param[in] setup_packet Setup packet buffer (in USB endianess, allocated
    370  *      and deallocated by the caller).
    371  * @param[in] setup_packet_size Size of @p setup_packet buffer in bytes.
    372  * @param[in] data_buffer Data buffer (in USB endianess, allocated and
    373  *      deallocated by the caller).
    374  * @param[in] data_buffer_size Size of @p data_buffer buffer in bytes.
    375  * @param[in] callback Callback to be issued once the transfer is complete.
    376  * @param[in] arg Pass-through argument to the callback.
     358        ret = hc_schedule(hc, batch);
     359        if (ret != EOK) {
     360                batch_dispose(batch);
     361        }
     362        return ret;
     363}
     364/*----------------------------------------------------------------------------*/
     365/** Control write transaction interface function
     366 *
     367 * @param[in] fun DDF function that was called.
     368 * @param[in] target USB device to write to.
     369 * @param[in] max_packet_size maximum size of data packet the device accepts.
     370 * @param[in] setup_data Data to send with SETUP transfer.
     371 * @param[in] setup_size Size of data to send with SETUP transfer (always 8B).
     372 * @param[in] data Source of data.
     373 * @param[in] size Size of data source.
     374 * @param[in] callback Function to call on transaction completion.
     375 * @param[in] arg Additional for callback function.
    377376 * @return Error code.
    378377 */
     
    382381    usbhc_iface_transfer_out_callback_t callback, void *arg)
    383382{
    384         assert(fun);
    385         hc_t *hc = fun_to_hc(fun);
    386         assert(hc);
    387         usb_speed_t speed =
    388             usb_device_keeper_get_speed(&hc->manager, target.address);
    389         usb_log_debug("Control WRITE (%d) %d:%d %zu(%zu).\n",
    390             speed, target.address, target.endpoint, size, max_packet_size);
    391 
    392         if (setup_size != 8)
    393                 return EINVAL;
    394 
    395         usb_transfer_batch_t *batch =
    396             batch_get(fun, target, USB_TRANSFER_CONTROL, max_packet_size,
    397                 speed, data, size, setup_data, setup_size, NULL, callback, arg,
    398                 &hc->manager);
    399         if (!batch)
    400                 return ENOMEM;
     383        usb_transfer_batch_t *batch = NULL;
     384        hc_t *hc = NULL;
     385        int ret = setup_batch(fun, target, USB_DIRECTION_BOTH, data, size,
     386            setup_data, setup_size, NULL, callback, arg, "Control WRITE",
     387            &hc, &batch);
     388        if (ret != EOK)
     389                return ret;
    401390        usb_device_keeper_reset_if_need(&hc->manager, target, setup_data);
    402391        batch_control_write(batch);
    403         const int ret = hc_schedule(hc, batch);
    404         if (ret != EOK) {
    405                 batch_dispose(batch);
    406         }
    407         return ret;
    408 }
    409 /*----------------------------------------------------------------------------*/
    410 /** Schedule control read transfer.
    411  *
    412  * The callback is supposed to be called once the transfer (on the wire) is
    413  * complete regardless of the outcome.
    414  * However, the callback could be called only when this function returns
    415  * with success status (i.e. returns EOK).
    416  *
    417  * @param[in] fun Device function the action was invoked on.
    418  * @param[in] target Target pipe (address and endpoint number) specification.
    419  * @param[in] max_packet_size Max packet size for the transfer.
    420  * @param[in] setup_packet Setup packet buffer (in USB endianess, allocated
    421  *      and deallocated by the caller).
    422  * @param[in] setup_packet_size Size of @p setup_packet buffer in bytes.
    423  * @param[in] data_buffer Buffer where to store the data (in USB endianess,
    424  *      allocated and deallocated by the caller).
    425  * @param[in] data_buffer_size Size of @p data_buffer buffer in bytes.
    426  * @param[in] callback Callback to be issued once the transfer is complete.
    427  * @param[in] arg Pass-through argument to the callback.
     392        ret = hc_schedule(hc, batch);
     393        if (ret != EOK) {
     394                batch_dispose(batch);
     395        }
     396        return ret;
     397}
     398/*----------------------------------------------------------------------------*/
     399/** Control read transaction interface function
     400 *
     401 * @param[in] fun DDF function that was called.
     402 * @param[in] target USB device to write to.
     403 * @param[in] max_packet_size maximum size of data packet the device accepts.
     404 * @param[in] setup_data Data to send with SETUP packet.
     405 * @param[in] setup_size Size of data to send with SETUP packet (should be 8B).
     406 * @param[out] data Source of data.
     407 * @param[in] size Size of data source.
     408 * @param[in] callback Function to call on transaction completion.
     409 * @param[in] arg Additional for callback function.
    428410 * @return Error code.
    429411 */
     
    433415    usbhc_iface_transfer_in_callback_t callback, void *arg)
    434416{
    435         assert(fun);
    436         hc_t *hc = fun_to_hc(fun);
    437         assert(hc);
    438         usb_speed_t speed =
    439             usb_device_keeper_get_speed(&hc->manager, target.address);
    440 
    441         usb_log_debug("Control READ(%d) %d:%d %zu(%zu).\n",
    442             speed, target.address, target.endpoint, size, max_packet_size);
    443         usb_transfer_batch_t *batch =
    444             batch_get(fun, target, USB_TRANSFER_CONTROL, max_packet_size,
    445                 speed, data, size, setup_data, setup_size, callback, NULL, arg,
    446                 &hc->manager);
    447         if (!batch)
    448                 return ENOMEM;
     417        usb_transfer_batch_t *batch = NULL;
     418        hc_t *hc = NULL;
     419        int ret = setup_batch(fun, target, USB_DIRECTION_BOTH, data, size,
     420            setup_data, setup_size, callback, NULL, arg, "Control READ",
     421            &hc, &batch);
     422        if (ret != EOK)
     423                return ret;
    449424        batch_control_read(batch);
    450         const int ret = hc_schedule(hc, batch);
    451         if (ret != EOK) {
    452                 batch_dispose(batch);
    453         }
    454         return ret;
    455 }
    456 /*----------------------------------------------------------------------------*/
    457 /** Host controller interface implementation for OHCI. */
     425        ret = hc_schedule(hc, batch);
     426        if (ret != EOK) {
     427                batch_dispose(batch);
     428        }
     429        return ret;
     430}
     431/*----------------------------------------------------------------------------*/
    458432usbhc_iface_t hc_iface = {
    459433        .reserve_default_address = reserve_default_address,
     
    475449        .control_read = control_read,
    476450};
    477 
    478451/**
    479452 * @}
  • uspace/drv/ohci/ohci_regs.h

    r8efafda r7b715892  
    4141        const volatile uint32_t revision;
    4242        volatile uint32_t control;
    43 #define C_CSBR_MASK (0x3)
     43#define C_CSBR_MASK (0x3) /* Control-bulk service ratio */
     44#define C_CSBR_1_1  (0x0)
     45#define C_CSBR_1_2  (0x1)
     46#define C_CSBR_1_3  (0x2)
     47#define C_CSBR_1_4  (0x3)
    4448#define C_CSBR_SHIFT (0)
    45 #define C_PLE (1 << 2)
    46 #define C_IE (1 << 3)
    47 #define C_CLE (1 << 4)
    48 #define C_BLE (1 << 5)
    49 
    50 #define C_HCFS_MASK (0x3)
    51 #define C_HCFS_SHIFT (6)
    52 #define C_HCFS_RESET (0x0)
     49
     50#define C_PLE (1 << 2)   /* Periodic list enable */
     51#define C_IE  (1 << 3)   /* Isochronous enable */
     52#define C_CLE (1 << 4)   /* Control list enable */
     53#define C_BLE (1 << 5)   /* Bulk list enable */
     54
     55#define C_HCFS_MASK        (0x3) /* Host controller functional state */
     56#define C_HCFS_RESET       (0x0)
    5357#define C_HCFS_OPERATIONAL (0x1)
    54 #define C_HCFS_RESUME (0x2)
    55 #define C_HCFS_SUSPEND (0x3)
    56 
    57 #define C_IR (1 << 8)
    58 #define C_RWC (1 << 9)
    59 #define C_RWE (1 << 10)
     58#define C_HCFS_RESUME      (0x2)
     59#define C_HCFS_SUSPEND     (0x3)
     60#define C_HCFS_SHIFT       (6)
     61
     62#define C_IR  (1 << 8)   /* Interrupt routing, make sure it's 0 */
     63#define C_RWC (1 << 9)   /* Remote wakeup connected, host specific */
     64#define C_RWE (1 << 10)  /* Remote wakeup enable */
    6065
    6166        volatile uint32_t command_status;
    62 #define CS_HCR (1 << 0)
    63 #define CS_CLF (1 << 1)
    64 #define CS_BLF (1 << 2)
    65 #define CS_OCR (1 << 3)
    66 #define CS_SOC_MASK (0x3)
     67#define CS_HCR (1 << 0)   /* Host controller reset */
     68#define CS_CLF (1 << 1)   /* Control list filled */
     69#define CS_BLF (1 << 2)   /* Bulk list filled */
     70#define CS_OCR (1 << 3)   /* Ownership change request */
     71#define CS_SOC_MASK (0x3) /* Scheduling overrun count */
    6772#define CS_SOC_SHIFT (16)
    6873
    6974        volatile uint32_t interrupt_status;
    70 #define IS_SO (1 << 0)
    71 #define IS_WDH (1 << 1)
    72 #define IS_SF (1 << 2)
    73 #define IS_RD (1 << 3)
    74 #define IS_UE (1 << 4)
    75 #define IS_FNO (1 << 5)
    76 #define IS_RHSC (1 << 6)
    77 #define IS_OC (1 << 30)
    78 
     75#define IS_SO   (1 << 0)  /* Scheduling overrun */
     76#define IS_WDH  (1 << 1)  /* Write-back done head */
     77#define IS_SF   (1 << 2)  /* Start of frame */
     78#define IS_RD   (1 << 3)  /* Resume detected */
     79#define IS_UE   (1 << 4)  /* Unrecoverable error */
     80#define IS_FNO  (1 << 5)  /* Frame number overflow */
     81#define IS_RHSC (1 << 6)  /* Root hub status change */
     82#define IS_OC   (1 << 30) /* Ownership change */
     83
     84        /** Interupt enable/disable, reads give the same value, writing causes
     85         * enable/disable */
    7986        volatile uint32_t interupt_enable;
    80 #define IE_SO   (1 << 0)
    81 #define IE_WDH  (1 << 1)
    82 #define IE_SF   (1 << 2)
    83 #define IE_RD   (1 << 3)
    84 #define IE_UE   (1 << 4)
    85 #define IE_FNO  (1 << 5)
    86 #define IE_RHSC (1 << 6)
    87 #define IE_OC   (1 << 30)
    88 #define IE_MIE  (1 << 31)
    89 
    9087        volatile uint32_t interrupt_disable;
     88#define I_SO   (1 << 0)   /* Scheduling overrun */
     89#define I_WDH  (1 << 1)   /* Done head write-back */
     90#define I_SF   (1 << 2)   /* Start of frame */
     91#define I_RD   (1 << 3)   /* Resume detect */
     92#define I_UE   (1 << 4)   /* Unrecoverable error */
     93#define I_FNO  (1 << 5)   /* Frame number overflow */
     94#define I_RHSC (1 << 6)   /* Root hub status change */
     95#define I_OC   (1 << 30)  /* Ownership change */
     96#define I_MI   (1 << 31)  /* Master interrupt (all/any interrupts) */
     97
     98        /** HCCA pointer (see hw_struct hcca.h) */
    9199        volatile uint32_t hcca;
    92         volatile uint32_t period_corrent;
     100#define HCCA_PTR_MASK 0xffffff00 /* HCCA is 256B aligned */
     101
     102        /** Currently executed period endpoint */
     103        const volatile uint32_t period_current;
     104
     105        /** The first control endpoint */
    93106        volatile uint32_t control_head;
     107
     108        /** Currently executed control endpoint */
    94109        volatile uint32_t control_current;
     110
     111        /** The first bulk endpoint */
    95112        volatile uint32_t bulk_head;
     113
     114        /** Currently executed bulk endpoint */
    96115        volatile uint32_t bulk_current;
    97         volatile uint32_t done_head;
     116
     117        /** Done TD list, this value is periodically written to HCCA */
     118        const volatile uint32_t done_head;
     119
     120        /** Frame time and max packet size for all transfers */
    98121        volatile uint32_t fm_interval;
    99         volatile uint32_t fm_remaining;
    100         volatile uint32_t fm_number;
     122#define FMI_FI_MASK (0x1fff) /* Frame interval in bit times (should be 11999)*/
     123#define FMI_FI_SHIFT (0)
     124#define FMI_FSMPS_MASK (0x7fff) /* Full speed max packet size */
     125#define FMI_FSMPS_SHIFT (16)
     126#define FMI_TOGGLE_FLAG (1 << 31)
     127
     128        /** Bit times remaining in current frame */
     129        const volatile uint32_t fm_remaining;
     130#define FMR_FR_MASK FMI_FI_MASK
     131#define FMR_FR_SHIFT FMI_FI_SHIFT
     132#define FMR_TOGGLE_FLAG FMI_TOGGLE_FLAG
     133
     134        /** Frame number */
     135        const volatile uint32_t fm_number;
     136#define FMN_NUMBER_MASK (0xffff)
     137
     138        /** Remaining bit time in frame to start periodic transfers */
    101139        volatile uint32_t periodic_start;
     140#define PS_PS_MASK (0x1fff) /* bit time when periodic get priority (0x3e67) */
     141
     142        /** Threshold for starting LS transaction */
    102143        volatile uint32_t ls_threshold;
     144#define LST_LST_MASK (0x7fff)
     145
     146        /** The first root hub control register */
    103147        volatile uint32_t rh_desc_a;
     148#define RHDA_NDS_MASK (0xff) /* Number of downstream ports, max 15 */
     149#define RHDA_NDS_SHIFT (0)
     150#define RHDA_PSM_FLAG  (1 << 8)  /* Power switching mode: 0-global, 1-per port*/
     151#define RHDA_NPS_FLAG  (1 << 9)  /* No power switch: 1-power on, 0-use PSM*/
     152#define RHDA_DT_FLAG   (1 << 10) /* 1-Compound device, must be 0 */
     153#define RHDA_OCPM_FLAG (1 << 11) /* Over-current mode: 0-global, 1-per port */
     154#define RHDA_NOCP      (1 << 12) /* OC control: 0-use OCPM, 1-OC off */
     155#define RHDA_POTPGT_MASK (0xff)  /* Power on to power good time */
     156#define RHDA_POTPGT_SHIFT (24)
     157
     158        /** The other root hub control register */
    104159        volatile uint32_t rh_desc_b;
     160#define RHDB_DR_MASK (0xffff) /* Device removable mask */
     161#define RHDB_DR_SHIFT (0)
     162#define RHDB_PCC_MASK (0xffff) /* Power control mask */
     163#define RHDB_PCC_SHIFT (16)
     164
     165/* Port device removable status */
     166#define RHDB_DR_FLAG(port) (((1 << port) & RHDB_DR_MASK) << RHDB_DR_SHIFT)
     167/* Port power control status: 1-per port power control, 0-global power switch */
     168#define RHDB_PPC_FLAG(port) (((1 << port) & RHDB_DR_MASK) << RHDB_DR_SHIFT)
     169
     170        /** Root hub status register */
    105171        volatile uint32_t rh_status;
     172#define RHS_LPS_FLAG  (1 <<  0)/* read: 0,
     173                                * write: 0-no effect,
     174                                *        1-turn off port power for ports
     175                                *        specified in PPCM(RHDB), or all ports,
     176                                *        if power is set globally */
     177#define RHS_CLEAR_PORT_POWER RHS_LPS_FLAG /* synonym for the above */
     178#define RHS_OCI_FLAG  (1 <<  1)/* Over-current indicator, if per-port: 0 */
     179#define RHS_DRWE_FLAG (1 << 15)/* read: 0-connect status change does not wake HC
     180                                *       1-connect status change wakes HC
     181                                * write: 1-set DRWE, 0-no effect */
     182#define RHS_SET_DRWE RHS_DRWE_FLAG
     183#define RHS_LPSC_FLAG (1 << 16)/* read: 0,
     184                                * write: 0-no effect
     185                                *        1-turn on port power for ports
     186                                *        specified in PPCM(RHDB), or all ports,
     187                                *        if power is set globally */
     188#define RHS_SET_PORT_POWER RHS_LPSC_FLAG /* synonym for the above */
     189#define RHS_OCIC_FLAG (1 << 17)/* Over-current indicator change   */
     190#define RHS_CLEAR_DRWE (1 << 31)
     191
     192        /** Root hub per port status */
    106193        volatile uint32_t rh_port_status[];
     194#define RHPS_CCS_FLAG (1 << 0) /* r: current connect status,
     195                                * w: 1-clear port enable, 0-nothing */
     196#define RHPS_CLEAR_PORT_ENABLE RHPS_CCS_FLAG
     197#define RHPS_PES_FLAG (1 << 1) /* r: port enable status
     198                                * w: 1-set port enable, 0-nothing */
     199#define RHPS_SET_PORT_ENABLE RHPS_PES_FLAG
     200#define RHPS_PSS_FLAG (1 << 2) /* r: port suspend status
     201                                * w: 1-set port suspend, 0-nothing */
     202#define RHPS_SET_PORT_SUSPEND RHPS_PSS_FLAG
     203#define RHPS_POCI_FLAG (1 << 3) /* r: port over-current (if reports are per-port
     204                                 * w: 1-clear port suspend (start resume
     205                                 *      if suspened)
     206                                 *    0-nothing */
     207#define RHPS_CLEAR_PORT_SUSPEND RHPS_POCI_FLAG
     208#define RHPS_PRS_FLAG (1 << 4) /* r: port reset status
     209                                * w: 1-set port reset, 0-nothing */
     210#define RHPS_SET_PORT_RESET RHPS_PRS_FLAG
     211#define RHPS_PPS_FLAG (1 << 8) /* r: port power status
     212                                * w: 1-set port power, 0-nothing */
     213#define RHPS_SET_PORT_POWER RHPS_PPS_FLAG
     214#define RHPS_LSDA_FLAG (1 << 9) /* r: low speed device attached
     215                                 * w: 1-clear port power, 0-nothing */
     216#define RHPS_CLEAR_PORT_POWER RHPS_LSDA_FLAG
     217#define RHPS_CSC_FLAG  (1 << 16) /* connect status change Write-Clean */
     218#define RHPS_PESC_FLAG (1 << 17) /* port enable status change WC */
     219#define RHPS_PSSC_FLAG (1 << 18) /* port suspend status change WC */
     220#define RHPS_OCIC_FLAG (1 << 19) /* port over-current change WC */
     221#define RHPS_PRSC_FLAG (1 << 20) /* port reset status change WC */
     222#define RHPS_CHANGE_WC_MASK 0x1f0000
    107223} __attribute__((packed)) ohci_regs_t;
    108224#endif
  • uspace/drv/ohci/utils/malloc32.h

    r8efafda r7b715892  
    3737#include <assert.h>
    3838#include <malloc.h>
     39#include <errno.h>
    3940#include <mem.h>
    4041#include <as.h>
  • uspace/drv/uhci-hcd/batch.c

    r8efafda r7b715892  
    103103        usb_target_t target =
    104104            { .address = ep->address, .endpoint = ep->endpoint };
    105         usb_transfer_batch_init(instance, target,
    106             ep->transfer_type, ep->speed, ep->max_packet_size,
    107             buffer, NULL, buffer_size, NULL, setup_size, func_in,
    108             func_out, arg, fun, ep, NULL);
     105        usb_transfer_batch_init(instance, target, ep->transfer_type, ep->speed,
     106            ep->max_packet_size, buffer, NULL, buffer_size, NULL, setup_size,
     107            func_in, func_out, arg, fun, ep, NULL);
    109108
    110109
    111110        uhci_batch_t *data = malloc(sizeof(uhci_batch_t));
    112         CHECK_NULL_DISPOSE_RETURN(instance,
    113             "Failed to allocate batch instance.\n");
     111        CHECK_NULL_DISPOSE_RETURN(data, "Failed to allocate batch data.\n");
    114112        bzero(data, sizeof(uhci_batch_t));
    115113        instance->private_data = data;
  • uspace/drv/uhci-hcd/hc.c

    r8efafda r7b715892  
    240240        usb_log_debug("Initialized device manager.\n");
    241241
    242         ret =
    243             usb_endpoint_manager_init(&instance->ep_manager,
    244                 BANDWIDTH_AVAILABLE_USB11);
     242        ret = usb_endpoint_manager_init(&instance->ep_manager,
     243            BANDWIDTH_AVAILABLE_USB11);
    245244        assert(ret == EOK);
    246245
  • uspace/drv/uhci-hcd/iface.c

    r8efafda r7b715892  
    206206        const usb_speed_t speed =
    207207            usb_device_keeper_get_speed(&hc->manager, address);
    208         const size_t size =
    209             (transfer_type == USB_TRANSFER_INTERRUPT
    210             || transfer_type == USB_TRANSFER_ISOCHRONOUS) ?
    211             max_packet_size : 0;
     208        const size_t size = max_packet_size;
    212209        int ret;
    213210
  • uspace/lib/usb/src/host/batch.c

    r8efafda r7b715892  
    6363        instance->transfer_type = transfer_type;
    6464        instance->speed = speed;
    65         instance->direction = USB_DIRECTION_BOTH;
     65        instance->direction = ep->direction;
    6666        instance->callback_in = func_in;
    6767        instance->callback_out = func_out;
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