rename osal SUBSTASK to STASK

tinyusb/class/cdc/cdc_device.c

@@ -225,12 +225,12 @@ tusb_error_t cdcd_control_request_subtask(uint8_t port, tusb_control_request_t c
 
   if (CDC_REQUEST_GET_LINE_CODING == p_request->bRequest)
   {
-    SUBTASK_INVOKE( usbd_control_xfer_stask(port, (tusb_dir_t) p_request->bmRequestType_bit.direction,
+    STASK_INVOKE( usbd_control_xfer_stask(port, (tusb_dir_t) p_request->bmRequestType_bit.direction,
                                             (uint8_t*) &cdcd_line_coding[port], min16_of(sizeof(cdc_line_coding_t), p_request->wLength)), err );
   }
   else if (CDC_REQUEST_SET_LINE_CODING == p_request->bRequest)
   {
-    SUBTASK_INVOKE( usbd_control_xfer_stask(port, (tusb_dir_t) p_request->bmRequestType_bit.direction,
+    STASK_INVOKE( usbd_control_xfer_stask(port, (tusb_dir_t) p_request->bmRequestType_bit.direction,
                                             (uint8_t*) &cdcd_line_coding[port], min16_of(sizeof(cdc_line_coding_t), p_request->wLength)), err );
     // TODO notify application on xfer complete
   }

tinyusb/class/cdc/cdc_rndis_host.c

@@ -173,17 +173,17 @@ tusb_error_t rndish_open_subtask(uint8_t dev_addr, cdch_data_t *p_cdc)
 
   //------------- Message Initialize -------------//
   memcpy(msg_payload, &msg_init, sizeof(rndis_msg_initialize_t));
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       send_message_get_response_subtask( dev_addr, p_cdc,
                                          msg_payload, sizeof(rndis_msg_initialize_t),
                                          msg_payload),
       error
   );
-  if ( TUSB_ERROR_NONE != error )   SUBTASK_RETURN(error);
+  if ( TUSB_ERROR_NONE != error )   STASK_RETURN(error);
 
   // TODO currently not support multiple data packets per xfer
   rndis_msg_initialize_cmplt_t * const p_init_cmpt = (rndis_msg_initialize_cmplt_t *) msg_payload;
-  SUBTASK_ASSERT(p_init_cmpt->type == RNDIS_MSG_INITIALIZE_CMPLT && p_init_cmpt->status == RNDIS_STATUS_SUCCESS &&
+  STASK_ASSERT(p_init_cmpt->type == RNDIS_MSG_INITIALIZE_CMPLT && p_init_cmpt->status == RNDIS_STATUS_SUCCESS &&
                  p_init_cmpt->max_packet_per_xfer == 1 && p_init_cmpt->max_xfer_size <= RNDIS_MSG_PAYLOAD_MAX);
   rndish_data[dev_addr-1].max_xfer_size = p_init_cmpt->max_xfer_size;
 
@@ -191,16 +191,16 @@ tusb_error_t rndish_open_subtask(uint8_t dev_addr, cdch_data_t *p_cdc)
   memcpy(msg_payload, &msg_query_permanent_addr, sizeof(rndis_msg_query_t));
   memclr_(msg_payload + sizeof(rndis_msg_query_t), 6); // 6 bytes for MAC address
 
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       send_message_get_response_subtask( dev_addr, p_cdc,
                                          msg_payload, sizeof(rndis_msg_query_t) + 6,
                                          msg_payload),
       error
   );
-  if ( TUSB_ERROR_NONE != error )   SUBTASK_RETURN(error);
+  if ( TUSB_ERROR_NONE != error )   STASK_RETURN(error);
 
   rndis_msg_query_cmplt_t * const p_query_cmpt = (rndis_msg_query_cmplt_t *) msg_payload;
-  SUBTASK_ASSERT(p_query_cmpt->type == RNDIS_MSG_QUERY_CMPLT && p_query_cmpt->status == RNDIS_STATUS_SUCCESS);
+  STASK_ASSERT(p_query_cmpt->type == RNDIS_MSG_QUERY_CMPLT && p_query_cmpt->status == RNDIS_STATUS_SUCCESS);
   memcpy(rndish_data[dev_addr-1].mac_address, msg_payload + 8 + p_query_cmpt->buffer_offset, 6);
 
   //------------- Set OID_GEN_CURRENT_PACKET_FILTER to (DIRECTED | MULTICAST | BROADCAST) -------------//
@@ -208,16 +208,16 @@ tusb_error_t rndish_open_subtask(uint8_t dev_addr, cdch_data_t *p_cdc)
   memclr_(msg_payload + sizeof(rndis_msg_set_t), 4); // 4 bytes for filter flags
   ((rndis_msg_set_t*) msg_payload)->oid_buffer[0] = (RNDIS_PACKET_TYPE_DIRECTED | RNDIS_PACKET_TYPE_MULTICAST | RNDIS_PACKET_TYPE_BROADCAST);
 
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       send_message_get_response_subtask( dev_addr, p_cdc,
                                          msg_payload, sizeof(rndis_msg_set_t) + 4,
                                          msg_payload),
       error
   );
-  if ( TUSB_ERROR_NONE != error )   SUBTASK_RETURN(error);
+  if ( TUSB_ERROR_NONE != error )   STASK_RETURN(error);
 
   rndis_msg_set_cmplt_t * const p_set_cmpt = (rndis_msg_set_cmplt_t *) msg_payload;
-  SUBTASK_ASSERT(p_set_cmpt->type == RNDIS_MSG_SET_CMPLT && p_set_cmpt->status == RNDIS_STATUS_SUCCESS);
+  STASK_ASSERT(p_set_cmpt->type == RNDIS_MSG_SET_CMPLT && p_set_cmpt->status == RNDIS_STATUS_SUCCESS);
 
   tusbh_cdc_rndis_mounted_cb(dev_addr);
 
@@ -244,28 +244,28 @@ static tusb_error_t send_message_get_response_subtask( uint8_t dev_addr, cdch_da
   OSAL_SUBTASK_BEGIN
 
   //------------- Send RNDIS Control Message -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_INTERFACE),
                                  CDC_REQUEST_SEND_ENCAPSULATED_COMMAND, 0, p_cdc->interface_number,
                                  mess_length, p_mess),
       error
   );
-  if ( TUSB_ERROR_NONE != error )   SUBTASK_RETURN(error);
+  if ( TUSB_ERROR_NONE != error )   STASK_RETURN(error);
 
   //------------- waiting for Response Available notification -------------//
   (void) hcd_pipe_xfer(p_cdc->pipe_notification, msg_notification[dev_addr-1], 8, true);
   osal_semaphore_wait(rndish_data[dev_addr-1].sem_notification_hdl, OSAL_TIMEOUT_NORMAL, &error);
-  if ( TUSB_ERROR_NONE != error )   SUBTASK_RETURN(error);
-  SUBTASK_ASSERT(msg_notification[dev_addr-1][0] == 1);
+  if ( TUSB_ERROR_NONE != error )   STASK_RETURN(error);
+  STASK_ASSERT(msg_notification[dev_addr-1][0] == 1);
 
   //------------- Get RNDIS Message Initialize Complete -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
     usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_INTERFACE),
                                CDC_REQUEST_GET_ENCAPSULATED_RESPONSE, 0, p_cdc->interface_number,
                                RNDIS_MSG_PAYLOAD_MAX, p_response),
     error
   );
-  if ( TUSB_ERROR_NONE != error )   SUBTASK_RETURN(error);
+  if ( TUSB_ERROR_NONE != error )   STASK_RETURN(error);
 
   OSAL_SUBTASK_END
 }

tinyusb/class/hid/hid_device.c

@@ -204,12 +204,12 @@ tusb_error_t hidd_control_request_subtask(uint8_t port, tusb_control_request_t c
 
     if (p_request->bRequest == TUSB_REQ_GET_DESCRIPTOR && desc_type == HID_DESC_TYPE_REPORT)
     {
-      SUBTASK_ASSERT ( p_hid->report_length <= HIDD_BUFFER_SIZE );
+      STASK_ASSERT ( p_hid->report_length <= HIDD_BUFFER_SIZE );
 
       // copy to allow report descriptor not to be in USBRAM
       memcpy(m_hid_buffer, p_hid->p_report_desc, p_hid->report_length);
 
-      SUBTASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, m_hid_buffer, p_hid->report_length), err );
+      STASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, m_hid_buffer, p_hid->report_length), err );
     }else
     {
       usbd_control_stall(port);
@@ -225,16 +225,16 @@ tusb_error_t hidd_control_request_subtask(uint8_t port, tusb_control_request_t c
 
       uint16_t actual_length = p_driver->get_report_cb(port, (hid_request_report_type_t) u16_high_u8(p_request->wValue),
                                                        &p_buffer, p_request->wLength);
-      SUBTASK_ASSERT( p_buffer != NULL && actual_length > 0 );
+      STASK_ASSERT( p_buffer != NULL && actual_length > 0 );
 
-      SUBTASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, p_buffer, actual_length), err );
+      STASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, p_buffer, actual_length), err );
     }
     else if ( (HID_REQUEST_CONTROL_SET_REPORT == p_request->bRequest) && (p_driver->set_report_cb != NULL) )
     {
       //        return TUSB_ERROR_DCD_CONTROL_REQUEST_NOT_SUPPORT; // TODO test STALL control out endpoint (with mouse+keyboard)
       // wValue = Report Type | Report ID
-      SUBTASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, m_hid_buffer, p_request->wLength), err );
-      SUBTASK_ASSERT_STATUS(err);
+      STASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, m_hid_buffer, p_request->wLength), err );
+      STASK_ASSERT_STATUS(err);
 
       p_driver->set_report_cb(port, u16_high_u8(p_request->wValue), m_hid_buffer, p_request->wLength);
     }

tinyusb/class/hid/hid_host.c

@@ -198,7 +198,7 @@ tusb_error_t hidh_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t con
   OSAL_SUBTASK_BEGIN
 
   //------------- SET IDLE (0) request -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
     usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_INTERFACE),
                                HID_REQUEST_CONTROL_SET_IDLE, 0, p_interface_desc->bInterfaceNumber,
                                0, NULL ),
@@ -210,7 +210,7 @@ tusb_error_t hidh_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t con
   //------------- Get Report Descriptor TODO HID parser -------------//
   if ( p_desc_hid->bNumDescriptors )
   {
-    SUBTASK_INVOKE(
+    STASK_INVOKE(
         usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_STANDARD, TUSB_REQ_RCPT_INTERFACE),
                                    TUSB_REQ_GET_DESCRIPTOR, (p_desc_hid->bReportType << 8), 0,
                                    p_desc_hid->wReportLength, report_descriptor ),
@@ -225,7 +225,7 @@ tusb_error_t hidh_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t con
     #if TUSB_CFG_HOST_HID_KEYBOARD
     if ( HID_PROTOCOL_KEYBOARD == p_interface_desc->bInterfaceProtocol)
     {
-      SUBTASK_ASSERT_STATUS ( hidh_interface_open(dev_addr, p_interface_desc->bInterfaceNumber, p_endpoint_desc, &keyboardh_data[dev_addr-1]) );
+      STASK_ASSERT_STATUS ( hidh_interface_open(dev_addr, p_interface_desc->bInterfaceNumber, p_endpoint_desc, &keyboardh_data[dev_addr-1]) );
       tuh_hid_keyboard_mounted_cb(dev_addr);
     } else
     #endif
@@ -233,17 +233,17 @@ tusb_error_t hidh_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t con
     #if TUSB_CFG_HOST_HID_MOUSE
     if ( HID_PROTOCOL_MOUSE == p_interface_desc->bInterfaceProtocol)
     {
-      SUBTASK_ASSERT_STATUS ( hidh_interface_open(dev_addr, p_interface_desc->bInterfaceNumber, p_endpoint_desc, &mouseh_data[dev_addr-1]) );
+      STASK_ASSERT_STATUS ( hidh_interface_open(dev_addr, p_interface_desc->bInterfaceNumber, p_endpoint_desc, &mouseh_data[dev_addr-1]) );
       tuh_hid_mouse_mounted_cb(dev_addr);
     } else
     #endif
 
     {
-      SUBTASK_RETURN(TUSB_ERROR_HIDH_NOT_SUPPORTED_PROTOCOL); // exit & restart task
+      STASK_RETURN(TUSB_ERROR_HIDH_NOT_SUPPORTED_PROTOCOL); // exit & restart task
     }
   }else
   {
-    SUBTASK_RETURN(TUSB_ERROR_HIDH_NOT_SUPPORTED_SUBCLASS); // exit & restart task
+    STASK_RETURN(TUSB_ERROR_HIDH_NOT_SUPPORTED_SUBCLASS); // exit & restart task
   }
 
   *p_length = sizeof(tusb_descriptor_interface_t) + sizeof(tusb_hid_descriptor_hid_t) + sizeof(tusb_descriptor_endpoint_t);

tinyusb/class/msc/msc_device.c

@@ -140,7 +140,7 @@ tusb_error_t mscd_control_request_subtask(uint8_t port, tusb_control_request_t c
   {
     // Note: lpc11/13u need xfer data's address to be aligned 64 -> make use of scsi_data instead of using max_lun directly
     p_msc->scsi_data[0] = p_msc->max_lun;
-    SUBTASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, p_msc->scsi_data, 1), err);
+    STASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, p_msc->scsi_data, 1), err);
   }else
   {
     usbd_control_stall(port); // stall unsupported request

tinyusb/class/msc/msc_host.c

@@ -310,14 +310,14 @@ tusb_error_t msch_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t con
 
   for(uint32_t i=0; i<2; i++)
   {
-    SUBTASK_ASSERT(TUSB_DESC_ENDPOINT == p_endpoint->bDescriptorType);
-    SUBTASK_ASSERT(TUSB_XFER_BULK == p_endpoint->bmAttributes.xfer);
+    STASK_ASSERT(TUSB_DESC_ENDPOINT == p_endpoint->bDescriptorType);
+    STASK_ASSERT(TUSB_XFER_BULK == p_endpoint->bmAttributes.xfer);
 
     pipe_handle_t * p_pipe_hdl =  ( p_endpoint->bEndpointAddress &  TUSB_DIR_IN_MASK ) ?
         &msch_data[dev_addr-1].bulk_in : &msch_data[dev_addr-1].bulk_out;
 
     (*p_pipe_hdl) = hcd_pipe_open(dev_addr, p_endpoint, TUSB_CLASS_MSC);
-    SUBTASK_ASSERT( pipehandle_is_valid(*p_pipe_hdl) );
+    STASK_ASSERT( pipehandle_is_valid(*p_pipe_hdl) );
 
     p_endpoint = (tusb_descriptor_endpoint_t const *) descriptor_next( (uint8_t const*)  p_endpoint );
   }
@@ -327,19 +327,19 @@ tusb_error_t msch_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t con
 
 
   //------------- Get Max Lun -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
     usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_INTERFACE),
                                MSC_REQUEST_GET_MAX_LUN, 0, msch_data[dev_addr-1].interface_number,
                                1, msch_buffer ),
     error
   );
 
-  SUBTASK_ASSERT( TUSB_ERROR_NONE == error /* && TODO STALL means zero */);
+  STASK_ASSERT( TUSB_ERROR_NONE == error /* && TODO STALL means zero */);
   msch_data[dev_addr-1].max_lun = msch_buffer[0];
 
 #if 0
   //------------- Reset -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
     usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_INTERFACE),
                                MSC_REQUEST_RESET, 0, msch_data[dev_addr-1].interface_number,
                                0, NULL ),
@@ -351,7 +351,7 @@ tusb_error_t msch_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t con
   //------------- SCSI Inquiry -------------//
   tusbh_msc_inquiry(dev_addr, 0, msch_buffer);
   osal_semaphore_wait(msch_sem_hdl, SCSI_XFER_TIMEOUT, &error);
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 
   memcpy(msch_data[dev_addr-1].vendor_id , ((scsi_inquiry_data_t*) msch_buffer)->vendor_id , 8);
   memcpy(msch_data[dev_addr-1].product_id, ((scsi_inquiry_data_t*) msch_buffer)->product_id, 16);
@@ -359,33 +359,33 @@ tusb_error_t msch_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t con
   //------------- SCSI Read Capacity 10 -------------//
   tusbh_msc_read_capacity10(dev_addr, 0, msch_buffer);
   osal_semaphore_wait(msch_sem_hdl, SCSI_XFER_TIMEOUT, &error);
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 
   // NOTE: my toshiba thumb-drive stall the first Read Capacity and require the sequence
   // Read Capacity --> Stalled --> Clear Stall --> Request Sense --> Read Capacity (2) to work
   if ( hcd_pipe_is_stalled(msch_data[dev_addr-1].bulk_in) )
   { // clear stall TODO abstract clear stall function
-    SUBTASK_INVOKE(
+    STASK_INVOKE(
       usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_STANDARD, TUSB_REQ_RCPT_ENDPOINT),
                                  TUSB_REQ_CLEAR_FEATURE, 0, hcd_pipe_get_endpoint_addr(msch_data[dev_addr-1].bulk_in),
                                  0, NULL ),
       error
     );
-    SUBTASK_ASSERT_STATUS(error);
+    STASK_ASSERT_STATUS(error);
 
     hcd_pipe_clear_stall(msch_data[dev_addr-1].bulk_in);
     osal_semaphore_wait(msch_sem_hdl, SCSI_XFER_TIMEOUT, &error); // wait for SCSI status
-    SUBTASK_ASSERT_STATUS(error);
+    STASK_ASSERT_STATUS(error);
 
     //------------- SCSI Request Sense -------------//
     (void) tuh_msc_request_sense(dev_addr, 0, msch_buffer);
     osal_semaphore_wait(msch_sem_hdl, SCSI_XFER_TIMEOUT, &error);
-    SUBTASK_ASSERT_STATUS(error);
+    STASK_ASSERT_STATUS(error);
 
     //------------- Re-read SCSI Read Capactity -------------//
     tusbh_msc_read_capacity10(dev_addr, 0, msch_buffer);
     osal_semaphore_wait(msch_sem_hdl, SCSI_XFER_TIMEOUT, &error);
-    SUBTASK_ASSERT_STATUS(error);
+    STASK_ASSERT_STATUS(error);
   }
 
   msch_data[dev_addr-1].last_lba   = __be2n( ((scsi_read_capacity10_data_t*)msch_buffer)->last_lba );

tinyusb/device/usbd.c

@@ -234,7 +234,7 @@ static tusb_error_t usbd_main_stask(void)
 
 #if 1
   osal_queue_receive(usbd_queue_hdl, &event, OSAL_TIMEOUT_WAIT_FOREVER, &error);
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 #else
   enum { ROUTINE_INTERVAL_MS = 10 };
   osal_queue_receive(usbd_queue_hdl, &event, ROUTINE_INTERVAL_MS, &error);
@@ -249,13 +249,13 @@ static tusb_error_t usbd_main_stask(void)
       }
     }
 
-    SUBTASK_RETURN(error);
+    STASK_RETURN(error);
   }
 #endif
 
   if ( USBD_EVENTID_SETUP_RECEIVED == event.event_id )
   {
-    SUBTASK_INVOKE( proc_control_request_stask(event.port, &event.setup_received), error );
+    STASK_INVOKE( proc_control_request_stask(event.port, &event.setup_received), error );
   }else if (USBD_EVENTID_XFER_DONE == event.event_id)
   {
     // Call class handling function, Class that endpoint not belong to should check and return
@@ -278,7 +278,7 @@ static tusb_error_t usbd_main_stask(void)
   }
   else
   {
-    SUBTASK_ASSERT(false);
+    STASK_ASSERT(false);
   }
 
   OSAL_SUBTASK_END
@@ -299,7 +299,7 @@ tusb_error_t usbd_control_xfer_stask(uint8_t port, tusb_dir_t dir, uint8_t * buf
     tusb_dcd_control_xfer(port, dir, buffer, length);
     osal_semaphore_wait( usbd_control_xfer_sem_hdl, 100, &error );
 
-    SUBTASK_ASSERT_STATUS( error );
+    STASK_ASSERT_STATUS( error );
   }
 
   // Status opposite direction with Zero Length
@@ -328,7 +328,7 @@ static tusb_error_t proc_control_request_stask(uint8_t port, tusb_control_reques
 
       if ( len )
       {
-        SUBTASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, (uint8_t*) buffer, len ), error );
+        STASK_INVOKE( usbd_control_xfer_stask(port, p_request->bmRequestType_bit.direction, (uint8_t*) buffer, len ), error );
       }else
       {
         usbd_control_stall(port); // stall unsupported descriptor
@@ -365,7 +365,7 @@ static tusb_error_t proc_control_request_stask(uint8_t port, tusb_control_reques
     if ( (class_code > 0) && (class_code < USBD_CLASS_DRIVER_COUNT) &&
          usbd_class_drivers[class_code].control_request_subtask )
     {
-      SUBTASK_INVOKE( usbd_class_drivers[class_code].control_request_subtask(port, p_request), error );
+      STASK_INVOKE( usbd_class_drivers[class_code].control_request_subtask(port, p_request), error );
     }else
     {
       usbd_control_stall(port); // Stall unsupported request

tinyusb/host/hub.c

@@ -73,32 +73,32 @@ tusb_error_t hub_port_clear_feature_subtask(uint8_t hub_addr, uint8_t hub_port,
 
   OSAL_SUBTASK_BEGIN
 
-  SUBTASK_ASSERT(HUB_FEATURE_PORT_CONNECTION_CHANGE <= feature &&
+  STASK_ASSERT(HUB_FEATURE_PORT_CONNECTION_CHANGE <= feature &&
                  feature <= HUB_FEATURE_PORT_RESET_CHANGE);
 
   //------------- Clear Port Feature request -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( hub_addr, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_OTHER),
                                  HUB_REQUEST_CLEAR_FEATURE, feature, hub_port,
                                  0, NULL ),
       error
   );
-  SUBTASK_ASSERT_STATUS( error );
+  STASK_ASSERT_STATUS( error );
 
   //------------- Get Port Status to check if feature is cleared -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( hub_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_OTHER),
                                  HUB_REQUEST_GET_STATUS, 0, hub_port,
                                  4, hub_enum_buffer ),
       error
   );
-  SUBTASK_ASSERT_STATUS( error );
+  STASK_ASSERT_STATUS( error );
 
   //------------- Check if feature is cleared -------------//
   hub_port_status_response_t * p_port_status;
   p_port_status = (hub_port_status_response_t *) hub_enum_buffer;
 
-  SUBTASK_ASSERT( !BIT_TEST_(p_port_status->status_change.value, feature-16)  );
+  STASK_ASSERT( !BIT_TEST_(p_port_status->status_change.value, feature-16)  );
 
   OSAL_SUBTASK_END
 }
@@ -111,29 +111,29 @@ tusb_error_t hub_port_reset_subtask(uint8_t hub_addr, uint8_t hub_port)
   OSAL_SUBTASK_BEGIN
 
   //------------- Set Port Reset -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( hub_addr, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_OTHER),
                                  HUB_REQUEST_SET_FEATURE, HUB_FEATURE_PORT_RESET, hub_port,
                                  0, NULL ),
       error
   );
-  SUBTASK_ASSERT_STATUS( error );
+  STASK_ASSERT_STATUS( error );
 
   osal_task_delay(RESET_DELAY); // TODO Hub wait for Status Endpoint on Reset Change
 
   //------------- Get Port Status to check if port is enabled, powered and reset_change -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( hub_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_OTHER),
                                  HUB_REQUEST_GET_STATUS, 0, hub_port,
                                  4, hub_enum_buffer ),
       error
   );
-  SUBTASK_ASSERT_STATUS( error );
+  STASK_ASSERT_STATUS( error );
 
   hub_port_status_response_t * p_port_status;
   p_port_status = (hub_port_status_response_t *) hub_enum_buffer;
 
-  SUBTASK_ASSERT ( p_port_status->status_change.reset && p_port_status->status_current.connect_status &&
+  STASK_ASSERT ( p_port_status->status_change.reset && p_port_status->status_current.connect_status &&
                    p_port_status->status_current.port_power && p_port_status->status_current.port_enable);
 
   OSAL_SUBTASK_END
@@ -169,23 +169,23 @@ tusb_error_t hub_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t cons
   tusb_descriptor_endpoint_t const *p_endpoint;
   p_endpoint = (tusb_descriptor_endpoint_t const *) descriptor_next( (uint8_t const*) p_interface_desc );
   
-  SUBTASK_ASSERT(TUSB_DESC_ENDPOINT == p_endpoint->bDescriptorType);
-  SUBTASK_ASSERT(TUSB_XFER_INTERRUPT == p_endpoint->bmAttributes.xfer);
+  STASK_ASSERT(TUSB_DESC_ENDPOINT == p_endpoint->bDescriptorType);
+  STASK_ASSERT(TUSB_XFER_INTERRUPT == p_endpoint->bmAttributes.xfer);
 
   hub_data[dev_addr-1].pipe_status = hcd_pipe_open(dev_addr, p_endpoint, TUSB_CLASS_HUB);
-  SUBTASK_ASSERT( pipehandle_is_valid(hub_data[dev_addr-1].pipe_status) );
+  STASK_ASSERT( pipehandle_is_valid(hub_data[dev_addr-1].pipe_status) );
   hub_data[dev_addr-1].interface_number = p_interface_desc->bInterfaceNumber;
 
   (*p_length) = sizeof(tusb_descriptor_interface_t) + sizeof(tusb_descriptor_endpoint_t);
 
   //------------- Get Hub Descriptor -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
     usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_DEVICE),
                                HUB_REQUEST_GET_DESCRIPTOR, 0, 0,
                                sizeof(descriptor_hub_desc_t), hub_enum_buffer ),
     error
   );
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 
   // only care about this field in hub descriptor
   hub_data[dev_addr-1].port_number = ((descriptor_hub_desc_t*) hub_enum_buffer)->bNbrPorts;
@@ -194,7 +194,7 @@ tusb_error_t hub_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t cons
   static uint8_t i;
   for(i=1; i <= hub_data[dev_addr-1].port_number; i++)
   {
-    SUBTASK_INVOKE(
+    STASK_INVOKE(
       usbh_control_xfer_subtask( dev_addr, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_OTHER),
                                  HUB_REQUEST_SET_FEATURE, HUB_FEATURE_PORT_POWER, i,
                                  0, NULL ),
@@ -203,7 +203,7 @@ tusb_error_t hub_open_subtask(uint8_t dev_addr, tusb_descriptor_interface_t cons
   }
 
   //------------- Queue the initial Status endpoint transfer -------------//
-  SUBTASK_ASSERT_STATUS ( hcd_pipe_xfer(hub_data[dev_addr-1].pipe_status, &hub_data[dev_addr-1].status_change, 1, true) );
+  STASK_ASSERT_STATUS ( hcd_pipe_xfer(hub_data[dev_addr-1].pipe_status, &hub_data[dev_addr-1].status_change, 1, true) );
 
   OSAL_SUBTASK_END
 }

tinyusb/host/usbh.c

@@ -186,7 +186,7 @@ tusb_error_t usbh_control_xfer_subtask(uint8_t dev_addr, uint8_t bmRequestType,
   OSAL_SUBTASK_BEGIN
 
   osal_mutex_wait(usbh_devices[dev_addr].control.mutex_hdl, OSAL_TIMEOUT_NORMAL, &error);
-  SUBTASK_ASSERT_STATUS_HDLR(error, osal_mutex_release(usbh_devices[dev_addr].control.mutex_hdl));
+  STASK_ASSERT_STATUS_HDLR(error, osal_mutex_release(usbh_devices[dev_addr].control.mutex_hdl));
 
   usbh_devices[dev_addr].control.request = (tusb_control_request_t) {
                                                   {.bmRequestType = bmRequestType},
@@ -206,11 +206,11 @@ tusb_error_t usbh_control_xfer_subtask(uint8_t dev_addr, uint8_t bmRequestType,
   if ( TUSB_ERROR_NONE == error ) osal_semaphore_wait(usbh_devices[dev_addr].control.sem_hdl, OSAL_TIMEOUT_NORMAL, &error);
   osal_mutex_release(usbh_devices[dev_addr].control.mutex_hdl);
 
-  SUBTASK_ASSERT_STATUS(error);
-  if (TUSB_EVENT_XFER_STALLED == usbh_devices[dev_addr].control.pipe_status) SUBTASK_RETURN(TUSB_ERROR_USBH_XFER_STALLED);
-  if (TUSB_EVENT_XFER_ERROR   == usbh_devices[dev_addr].control.pipe_status) SUBTASK_RETURN(TUSB_ERROR_USBH_XFER_FAILED);
+  STASK_ASSERT_STATUS(error);
+  if (TUSB_EVENT_XFER_STALLED == usbh_devices[dev_addr].control.pipe_status) STASK_RETURN(TUSB_ERROR_USBH_XFER_STALLED);
+  if (TUSB_EVENT_XFER_ERROR   == usbh_devices[dev_addr].control.pipe_status) STASK_RETURN(TUSB_ERROR_USBH_XFER_FAILED);
 
-//  SUBTASK_ASSERT_HDLR(TUSB_ERROR_NONE == error &&
+//  STASK_ASSERT_HDLR(TUSB_ERROR_NONE == error &&
 //                              TUSB_EVENT_XFER_COMPLETE == usbh_devices[dev_addr].control.pipe_status,
 //                              tuh_device_mount_failed_cb(TUSB_ERROR_USBH_MOUNT_DEVICE_NOT_RESPOND, NULL) );
 
@@ -374,7 +374,7 @@ tusb_error_t enumeration_body_subtask(void)
   OSAL_SUBTASK_BEGIN
 
   osal_queue_receive(enum_queue_hdl, &enum_entry, OSAL_TIMEOUT_WAIT_FOREVER, &error);
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 
   usbh_devices[0].core_id  = enum_entry.core_id; // TODO refractor integrate to device_pool
   usbh_devices[0].hub_addr = enum_entry.hub_addr;
@@ -388,7 +388,7 @@ tusb_error_t enumeration_body_subtask(void)
     { // connection event
       osal_task_delay(POWER_STABLE_DELAY); // wait until device is stable. Increase this if the first 8 bytes is failed to get
 
-      if ( !hcd_port_connect_status(usbh_devices[0].core_id) ) SUBTASK_RETURN(TUSB_ERROR_NONE); // exit if device unplugged while delaying
+      if ( !hcd_port_connect_status(usbh_devices[0].core_id) ) STASK_RETURN(TUSB_ERROR_NONE); // exit if device unplugged while delaying
 
       hcd_port_reset( usbh_devices[0].core_id ); // port must be reset to have correct speed operation
       osal_task_delay(RESET_DELAY);
@@ -398,7 +398,7 @@ tusb_error_t enumeration_body_subtask(void)
     else
     { // disconnection event
       usbh_device_unplugged(usbh_devices[0].core_id, 0, 0);
-      SUBTASK_RETURN(TUSB_ERROR_NONE); // restart task
+      STASK_RETURN(TUSB_ERROR_NONE); // restart task
     }
   }
   #if TUSB_CFG_HOST_HUB
@@ -406,49 +406,49 @@ tusb_error_t enumeration_body_subtask(void)
   else
   {
     //------------- Get Port Status -------------//
-    SUBTASK_INVOKE(
+    STASK_INVOKE(
         usbh_control_xfer_subtask( usbh_devices[0].hub_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_CLASS, TUSB_REQ_RCPT_OTHER),
                                    HUB_REQUEST_GET_STATUS, 0, usbh_devices[0].hub_port,
                                    4, enum_data_buffer ),
         error
     );
-//    SUBTASK_ASSERT_STATUS( error );
-    SUBTASK_ASSERT_STATUS_HDLR(error, hub_status_pipe_queue( usbh_devices[0].hub_addr) ); // TODO hub refractor
+//    STASK_ASSERT_STATUS( error );
+    STASK_ASSERT_STATUS_HDLR(error, hub_status_pipe_queue( usbh_devices[0].hub_addr) ); // TODO hub refractor
 
     // Acknowledge Port Connection Change
-    SUBTASK_INVOKE( hub_port_clear_feature_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port, HUB_FEATURE_PORT_CONNECTION_CHANGE), error );
+    STASK_INVOKE( hub_port_clear_feature_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port, HUB_FEATURE_PORT_CONNECTION_CHANGE), error );
 
     hub_port_status_response_t * p_port_status;
     p_port_status = ((hub_port_status_response_t *) enum_data_buffer);
 
-    if ( ! p_port_status->status_change.connect_status )   SUBTASK_RETURN(TUSB_ERROR_NONE); // only handle connection change
+    if ( ! p_port_status->status_change.connect_status )   STASK_RETURN(TUSB_ERROR_NONE); // only handle connection change
 
     if ( ! p_port_status->status_current.connect_status )
     { // Disconnection event
       usbh_device_unplugged(usbh_devices[0].core_id, usbh_devices[0].hub_addr, usbh_devices[0].hub_port);
 
       (void) hub_status_pipe_queue( usbh_devices[0].hub_addr ); // done with hub, waiting for next data on status pipe
-      SUBTASK_RETURN(TUSB_ERROR_NONE); // restart task
+      STASK_RETURN(TUSB_ERROR_NONE); // restart task
     }
     else
     { // Connection Event
-      SUBTASK_INVOKE ( hub_port_reset_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port), error );
-//      SUBTASK_ASSERT_STATUS( error );
-      SUBTASK_ASSERT_STATUS_HDLR(error, hub_status_pipe_queue( usbh_devices[0].hub_addr) ); // TODO hub refractor
+      STASK_INVOKE ( hub_port_reset_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port), error );
+//      STASK_ASSERT_STATUS( error );
+      STASK_ASSERT_STATUS_HDLR(error, hub_status_pipe_queue( usbh_devices[0].hub_addr) ); // TODO hub refractor
 
       usbh_devices[0].speed = hub_port_get_speed();
 
       // Acknowledge Port Reset Change
-      SUBTASK_INVOKE( hub_port_clear_feature_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port, HUB_FEATURE_PORT_RESET_CHANGE), error );
+      STASK_INVOKE( hub_port_clear_feature_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port, HUB_FEATURE_PORT_RESET_CHANGE), error );
     }
   }
   #endif
 
-  SUBTASK_ASSERT_STATUS( usbh_pipe_control_open(0, 8) );
+  STASK_ASSERT_STATUS( usbh_pipe_control_open(0, 8) );
   usbh_devices[0].state = TUSB_DEVICE_STATE_ADDRESSED;
 
   //------------- Get first 8 bytes of device descriptor to get Control Endpoint Size -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( 0, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_STANDARD, TUSB_REQ_RCPT_DEVICE),
                                  TUSB_REQ_GET_DESCRIPTOR, (TUSB_DESC_DEVICE << 8), 0,
                                  8, enum_data_buffer ),
@@ -458,19 +458,19 @@ tusb_error_t enumeration_body_subtask(void)
   //------------- Reset device again before Set Address -------------//
   if (usbh_devices[0].hub_addr == 0)
   { // connected directly to roothub
-    SUBTASK_ASSERT_STATUS(error); // TODO some slow device is observed to fail the very fist controller xfer, can try more times
+    STASK_ASSERT_STATUS(error); // TODO some slow device is observed to fail the very fist controller xfer, can try more times
     hcd_port_reset( usbh_devices[0].core_id ); // reset port after 8 byte descriptor
     osal_task_delay(RESET_DELAY);
   }
   #if TUSB_CFG_HOST_HUB
   else
   { // connected via a hub
-    SUBTASK_ASSERT_STATUS_HDLR(error, hub_status_pipe_queue( usbh_devices[0].hub_addr) ); // TODO hub refractor
-    SUBTASK_INVOKE ( hub_port_reset_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port), error );
+    STASK_ASSERT_STATUS_HDLR(error, hub_status_pipe_queue( usbh_devices[0].hub_addr) ); // TODO hub refractor
+    STASK_INVOKE ( hub_port_reset_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port), error );
 
     if ( TUSB_ERROR_NONE == error )
     { // Acknowledge Port Reset Change if Reset Successful
-      SUBTASK_INVOKE( hub_port_clear_feature_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port, HUB_FEATURE_PORT_RESET_CHANGE), error );
+      STASK_INVOKE( hub_port_clear_feature_subtask(usbh_devices[0].hub_addr, usbh_devices[0].hub_port, HUB_FEATURE_PORT_RESET_CHANGE), error );
     }
 
     (void) hub_status_pipe_queue( usbh_devices[0].hub_addr ); // done with hub, waiting for next data on status pipe
@@ -479,15 +479,15 @@ tusb_error_t enumeration_body_subtask(void)
 
   //------------- Set new address -------------//
   new_addr = get_new_address();
-  SUBTASK_ASSERT(new_addr <= TUSB_CFG_HOST_DEVICE_MAX); // TODO notify application we reach max devices
+  STASK_ASSERT(new_addr <= TUSB_CFG_HOST_DEVICE_MAX); // TODO notify application we reach max devices
 
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
     usbh_control_xfer_subtask( 0, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_STANDARD, TUSB_REQ_RCPT_DEVICE),
                                TUSB_REQ_SET_ADDRESS, new_addr, 0,
                                0, NULL ),
     error
   );
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 
   //------------- update port info & close control pipe of addr0 -------------//
   usbh_devices[new_addr].core_id  = usbh_devices[0].core_id;
@@ -500,16 +500,16 @@ tusb_error_t enumeration_body_subtask(void)
   usbh_devices[0].state = TUSB_DEVICE_STATE_UNPLUG;
 
   // open control pipe for new address
-  SUBTASK_ASSERT_STATUS ( usbh_pipe_control_open(new_addr, ((tusb_descriptor_device_t*) enum_data_buffer)->bMaxPacketSize0 ) );
+  STASK_ASSERT_STATUS ( usbh_pipe_control_open(new_addr, ((tusb_descriptor_device_t*) enum_data_buffer)->bMaxPacketSize0 ) );
 
   //------------- Get full device descriptor -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( new_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_STANDARD, TUSB_REQ_RCPT_DEVICE),
                                  TUSB_REQ_GET_DESCRIPTOR, (TUSB_DESC_DEVICE << 8), 0,
                                  18, enum_data_buffer ),
       error
   );
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 
   // update device info  TODO alignment issue
   usbh_devices[new_addr].vendor_id       = ((tusb_descriptor_device_t*) enum_data_buffer)->idVendor;
@@ -517,39 +517,39 @@ tusb_error_t enumeration_body_subtask(void)
   usbh_devices[new_addr].configure_count = ((tusb_descriptor_device_t*) enum_data_buffer)->bNumConfigurations;
 
   configure_selected = get_configure_number_for_device((tusb_descriptor_device_t*) enum_data_buffer);
-  SUBTASK_ASSERT(configure_selected <= usbh_devices[new_addr].configure_count); // TODO notify application when invalid configuration
+  STASK_ASSERT(configure_selected <= usbh_devices[new_addr].configure_count); // TODO notify application when invalid configuration
 
   //------------- Get 9 bytes of configuration descriptor -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( new_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_STANDARD, TUSB_REQ_RCPT_DEVICE),
                                  TUSB_REQ_GET_DESCRIPTOR, (TUSB_DESC_CONFIGURATION << 8) | (configure_selected - 1), 0,
                                  9, enum_data_buffer ),
       error
   );
-  SUBTASK_ASSERT_STATUS(error);
-  SUBTASK_ASSERT_HDLR( TUSB_CFG_HOST_ENUM_BUFFER_SIZE >= ((tusb_descriptor_configuration_t*)enum_data_buffer)->wTotalLength,
+  STASK_ASSERT_STATUS(error);
+  STASK_ASSERT_HDLR( TUSB_CFG_HOST_ENUM_BUFFER_SIZE >= ((tusb_descriptor_configuration_t*)enum_data_buffer)->wTotalLength,
                             tuh_device_mount_failed_cb(TUSB_ERROR_USBH_MOUNT_CONFIG_DESC_TOO_LONG, NULL) );
 
   //------------- Get full configuration descriptor -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
       usbh_control_xfer_subtask( new_addr, bm_request_type(TUSB_DIR_IN, TUSB_REQ_TYPE_STANDARD, TUSB_REQ_RCPT_DEVICE),
                                  TUSB_REQ_GET_DESCRIPTOR, (TUSB_DESC_CONFIGURATION << 8) | (configure_selected - 1), 0,
                                  TUSB_CFG_HOST_ENUM_BUFFER_SIZE, enum_data_buffer ),
       error
   );
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 
   // update configuration info
   usbh_devices[new_addr].interface_count = ((tusb_descriptor_configuration_t*) enum_data_buffer)->bNumInterfaces;
 
   //------------- Set Configure -------------//
-  SUBTASK_INVOKE(
+  STASK_INVOKE(
     usbh_control_xfer_subtask( new_addr, bm_request_type(TUSB_DIR_OUT, TUSB_REQ_TYPE_STANDARD, TUSB_REQ_RCPT_DEVICE),
                                TUSB_REQ_SET_CONFIGURATION, configure_selected, 0,
                                0, NULL ),
     error
   );
-  SUBTASK_ASSERT_STATUS(error);
+  STASK_ASSERT_STATUS(error);
 
   usbh_devices[new_addr].state = TUSB_DEVICE_STATE_CONFIGURED;
 
@@ -570,7 +570,7 @@ tusb_error_t enumeration_body_subtask(void)
       static uint8_t class_index; // has to be static as it is used to call class's open_subtask
 
       class_index = std_class_code_to_index( ((tusb_descriptor_interface_t*) p_desc)->bInterfaceClass );
-      SUBTASK_ASSERT( class_index != 0 ); // class_index == 0 means corrupted data, abort enumeration
+      STASK_ASSERT( class_index != 0 ); // class_index == 0 means corrupted data, abort enumeration
 
       if (usbh_class_drivers[class_index].open_subtask &&
           !(class_index == TUSB_CLASS_HUB && usbh_devices[new_addr].hub_addr != 0))
@@ -578,14 +578,14 @@ tusb_error_t enumeration_body_subtask(void)
         static uint16_t length;
         length = 0;
 
-        SUBTASK_INVOKE ( // parameters in task/sub_task must be static storage (static or global)
+        STASK_INVOKE ( // parameters in task/sub_task must be static storage (static or global)
             usbh_class_drivers[class_index].open_subtask( new_addr, (tusb_descriptor_interface_t*) p_desc, &length ),
             error
         );
 
         if (error == TUSB_ERROR_NONE)
         {
-          SUBTASK_ASSERT( length >= sizeof(tusb_descriptor_interface_t) );
+          STASK_ASSERT( length >= sizeof(tusb_descriptor_interface_t) );
           usbh_devices[new_addr].flag_supported_class |= BIT_(class_index);
           p_desc += length;
         }else  // Interface open failed, for example a subclass is not supported

tinyusb/osal/osal.h

@@ -74,15 +74,15 @@
   #define OSAL_SUBTASK_BEGIN
   #define OSAL_SUBTASK_END                    return TUSB_ERROR_NONE;
 
-  #define SUBTASK_RETURN(_error)              return _error;
-  #define SUBTASK_INVOKE(_subtask, _status)   (_status) = _subtask
+  #define STASK_RETURN(_error)              return _error;
+  #define STASK_INVOKE(_subtask, _status)   (_status) = _subtask
 
   //------------- Sub Task Assert -------------//
-  #define SUBTASK_ASSERT_STATUS(sts) VERIFY_STATUS(sts)
-  #define SUBTASK_ASSERT(condition)  VERIFY(condition, TUSB_ERROR_OSAL_TASK_FAILED)
+  #define STASK_ASSERT_STATUS(sts) VERIFY_STATUS(sts)
+  #define STASK_ASSERT(condition)  VERIFY(condition, TUSB_ERROR_OSAL_TASK_FAILED)
 
-  #define SUBTASK_ASSERT_STATUS_HDLR(sts, func_call)  VERIFY_STATUS_HDLR(sts, func_call)
-  #define SUBTASK_ASSERT_HDLR(condition, func_call)   VERIFY_HDLR(condition, func_call)
+  #define STASK_ASSERT_STATUS_HDLR(sts, func_call)  VERIFY_STATUS_HDLR(sts, func_call)
+  #define STASK_ASSERT_HDLR(condition, func_call)   VERIFY_HDLR(condition, func_call)
 #endif
 
 #ifdef __cplusplus

tinyusb/osal/osal_none.h

@@ -113,7 +113,7 @@ static inline osal_task_t osal_task_create(osal_func_t code, const char* name, u
   }}                                                                            \
   return TUSB_ERROR_NONE;
 
-#define SUBTASK_INVOKE(_subtask, _status)                                       \
+#define STASK_INVOKE(_subtask, _status)                                         \
   do {                                                                          \
     _state = __LINE__; case __LINE__:                                           \
     {                                                                           \
@@ -123,13 +123,13 @@ static inline osal_task_t osal_task_create(osal_func_t code, const char* name, u
   }while(0)
 
 //------------- Sub Task Assert -------------//
-#define SUBTASK_RETURN(error)     do { TASK_RESTART; return error; } while(0)
+#define STASK_RETURN(error)     do { TASK_RESTART; return error; } while(0)
 
-#define SUBTASK_ASSERT_STATUS(sts)                  VERIFY_STATUS_HDLR(sts, TASK_RESTART)
-#define SUBTASK_ASSERT_STATUS_HDLR(sts, func_call)  VERIFY_STATUS_HDLR(sts, func_call; TASK_RESTART )
+#define STASK_ASSERT_STATUS(sts)                  VERIFY_STATUS_HDLR(sts, TASK_RESTART)
+#define STASK_ASSERT_STATUS_HDLR(sts, func_call)  VERIFY_STATUS_HDLR(sts, func_call; TASK_RESTART )
 
-#define SUBTASK_ASSERT(condition)                   VERIFY_HDLR(condition, TASK_RESTART)
-#define SUBTASK_ASSERT_HDLR(condition, func_call)   VERIFY_HDLR(condition, func_call; TASK_RESTART)
+#define STASK_ASSERT(condition)                   VERIFY_HDLR(condition, TASK_RESTART)
+#define STASK_ASSERT_HDLR(condition, func_call)   VERIFY_HDLR(condition, func_call; TASK_RESTART)
 
 //--------------------------------------------------------------------+
 // QUEUE API