Index: uspace/drv/uhci-hcd/batch.c =================================================================== --- uspace/drv/uhci-hcd/batch.c (revision 87644b475e40058a32e8bf51a05dc7c729e2321d) +++ uspace/drv/uhci-hcd/batch.c (revision 001b15281fc711d0d14335e07ce5c8e30f8b3548) @@ -48,5 +48,5 @@ qh_t *qh; td_t *tds; - size_t packets; + size_t transfers; usb_device_keeper_t *manager; } uhci_batch_t; @@ -64,5 +64,5 @@ * @param[in] target Device and endpoint target of the transaction. * @param[in] transfer_type Interrupt, Control or Bulk. - * @param[in] max_packet_size maximum allowed size of data packets. + * @param[in] max_packet_size maximum allowed size of data transfers. * @param[in] speed Speed of the transaction. * @param[in] buffer Data source/destination. @@ -77,5 +77,5 @@ * NULL otherwise. * - * Determines the number of needed packets (TDs). Prepares a transport buffer + * Determines the number of needed transfers (TDs). Prepares a transport buffer * (that is accessible by the hardware). Initializes parameters needed for the * transaction and callback. @@ -117,13 +117,13 @@ instance->private_data = data; - data->packets = (buffer_size + max_packet_size - 1) / max_packet_size; + data->transfers = (buffer_size + max_packet_size - 1) / max_packet_size; if (transfer_type == USB_TRANSFER_CONTROL) { - data->packets += 2; - } - - data->tds = malloc32(sizeof(td_t) * data->packets); + data->transfers += 2; + } + + data->tds = malloc32(sizeof(td_t) * data->transfers); CHECK_NULL_DISPOSE_RETURN( data->tds, "Failed to allocate transfer descriptors.\n"); - bzero(data->tds, sizeof(td_t) * data->packets); + bzero(data->tds, sizeof(td_t) * data->transfers); data->qh = malloc32(sizeof(qh_t)); @@ -166,9 +166,9 @@ assert(data); - usb_log_debug2("Batch(%p) checking %d packet(s) for completion.\n", - instance, data->packets); + usb_log_debug2("Batch(%p) checking %d transfer(s) for completion.\n", + instance, data->transfers); instance->transfered_size = 0; size_t i = 0; - for (;i < data->packets; ++i) { + for (;i < data->transfers; ++i) { if (td_is_active(&data->tds[i])) { return false; @@ -298,8 +298,8 @@ * * @param[in] instance Batch structure to use. - * @param[in] pid to use for data packets. + * @param[in] pid Pid to use for data transfers. * * Packets with alternating toggle bit and supplied pid value. - * The last packet is marked with IOC flag. + * The last transfer is marked with IOC flag. */ void batch_data(usb_transfer_batch_t *instance, usb_packet_id pid) @@ -314,5 +314,5 @@ assert(toggle == 0 || toggle == 1); - size_t packet = 0; + size_t transfer = 0; size_t remain_size = instance->buffer_size; while (remain_size > 0) { @@ -325,21 +325,21 @@ remain_size : instance->max_packet_size; - td_t *next_packet = (packet + 1 < data->packets) - ? &data->tds[packet + 1] : NULL; - - assert(packet < data->packets); + td_t *next_transfer = (transfer + 1 < data->transfers) + ? &data->tds[transfer + 1] : NULL; + + assert(transfer < data->transfers); assert(packet_size <= remain_size); td_init( - &data->tds[packet], DEFAULT_ERROR_COUNT, packet_size, + &data->tds[transfer], DEFAULT_ERROR_COUNT, packet_size, toggle, false, low_speed, instance->target, pid, trans_data, - next_packet); + next_transfer); toggle = 1 - toggle; remain_size -= packet_size; - ++packet; - } - td_set_ioc(&data->tds[packet - 1]); + ++transfer; + } + td_set_ioc(&data->tds[transfer - 1]); usb_device_keeper_set_toggle(data->manager, instance->target, instance->direction, toggle); @@ -349,11 +349,11 @@ * * @param[in] instance Batch structure to use. - * @param[in] data_stage to use for data packets. - * @param[in] status_stage to use for data packets. + * @param[in] data_stage Pid to use for data transfers. + * @param[in] status_stage Pid to use for data transfers. * * Setup stage with toggle 0 and USB_PID_SETUP. * Data stage with alternating toggle and pid supplied by parameter. * Status stage with toggle 1 and pid supplied by parameter. - * The last packet is marked with IOC. + * The last transfer is marked with IOC. */ void batch_control(usb_transfer_batch_t *instance, @@ -363,5 +363,5 @@ uhci_batch_t *data = instance->private_data; assert(data); - assert(data->packets >= 2); + assert(data->transfers >= 2); const bool low_speed = instance->speed == USB_SPEED_LOW; @@ -374,5 +374,5 @@ /* data stage */ - size_t packet = 1; + size_t transfer = 1; size_t remain_size = instance->buffer_size; while (remain_size > 0) { @@ -388,10 +388,10 @@ td_init( - &data->tds[packet], DEFAULT_ERROR_COUNT, packet_size, + &data->tds[transfer], DEFAULT_ERROR_COUNT, packet_size, toggle, false, low_speed, instance->target, data_stage, - control_data, &data->tds[packet + 1]); - - ++packet; - assert(packet < data->packets); + control_data, &data->tds[transfer + 1]); + + ++transfer; + assert(transfer < data->transfers); assert(packet_size <= remain_size); remain_size -= packet_size; @@ -399,13 +399,13 @@ /* status stage */ - assert(packet == data->packets - 1); + assert(transfer == data->transfers - 1); td_init( - &data->tds[packet], DEFAULT_ERROR_COUNT, 0, 1, false, low_speed, + &data->tds[transfer], DEFAULT_ERROR_COUNT, 0, 1, false, low_speed, instance->target, status_stage, NULL, NULL); - td_set_ioc(&data->tds[packet]); + td_set_ioc(&data->tds[transfer]); usb_log_debug2("Control last TD status: %x.\n", - data->tds[packet].status); + data->tds[transfer].status); } /*----------------------------------------------------------------------------*/