/**************************************************************************/ /*! @file dcd_lpc175x_6x.h @author hathach (tinyusb.org) @section LICENSE Software License Agreement (BSD License) Copyright (c) 2013, hathach (tinyusb.org) All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the copyright holders nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. This file is part of the tinyusb stack. */ /**************************************************************************/ /** \ingroup Port_DCD * @{ * \defgroup LPC175x_6x * @{ */ #ifndef _TUSB_DCD_LPC175X_6X_H_ #define _TUSB_DCD_LPC175X_6X_H_ #include "common/common.h" #ifdef __cplusplus extern "C" { #endif typedef struct ATTR_ALIGNED(4) { //------------- Word 0 -------------// uint32_t next; //------------- Word 1 -------------// uint16_t mode : 2; // either 00 normal or 01 ATLE(auto length extraction) uint16_t is_next_valid : 1; uint16_t int_on_complete : 1; ///< make use of reserved bit uint16_t is_isochronous : 1; // is an iso endpoint uint16_t max_packet_size : 11; volatile uint16_t buffer_length; //------------- Word 2 -------------// volatile uint32_t buffer_addr; //------------- Word 3 -------------// volatile uint16_t is_retired : 1; // initialized to zero volatile uint16_t status : 4; volatile uint16_t iso_last_packet_valid : 1; volatile uint16_t atle_is_lsb_extracted : 1; // used in ATLE mode volatile uint16_t atle_is_msb_extracted : 1; // used in ATLE mode volatile uint16_t atle_message_length_position : 6; // used in ATLE mode uint16_t : 2; volatile uint16_t present_count; // The number of bytes transferred by the DMA engine. The DMA engine updates this field after completing each packet transfer. //------------- Word 4 -------------// // uint32_t iso_packet_size_addr; // iso only, can be omitted for non-iso }dcd_dma_descriptor_t; STATIC_ASSERT( sizeof(dcd_dma_descriptor_t) == 16, "size is not correct"); // TODO not support ISO for now //--------------------------------------------------------------------+ // Register Interface //--------------------------------------------------------------------+ //------------- USB Interrupt USBIntSt -------------// //enum { // DCD_USB_REQ_LOW_PRIO_MASK = BIT_(0), // DCD_USB_REQ_HIGH_PRIO_MASK = BIT_(1), // DCD_USB_REQ_DMA_MASK = BIT_(2), // DCD_USB_REQ_NEED_CLOCK_MASK = BIT_(8), // DCD_USB_REQ_ENABLE_MASK = BIT_(31) //}; //------------- Device Interrupt USBDevInt -------------// enum { DEV_INT_FRAME_MASK = BIT_(0), DEV_INT_ENDPOINT_FAST_MASK = BIT_(1), DEV_INT_ENDPOINT_SLOW_MASK = BIT_(2), DEV_INT_DEVICE_STATUS_MASK = BIT_(3), DEV_INT_COMMAND_CODE_EMPTY_MASK = BIT_(4), DEV_INT_COMMAND_DATA_FULL_MASK = BIT_(5), DEV_INT_RX_ENDPOINT_PACKET_MASK = BIT_(6), DEV_INT_TX_ENDPOINT_PACKET_MASK = BIT_(7), DEV_INT_ENDPOINT_REALIZED_MASK = BIT_(8), DEV_INT_ERROR_MASK = BIT_(9) }; //------------- DMA Interrupt USBDMAInt-------------// enum { DMA_INT_END_OF_XFER_MASK = BIT_(0), DMA_INT_NEW_DD_REQUEST_MASK = BIT_(1), DMA_INT_ERROR_MASK = BIT_(2) }; //------------- USBCtrl -------------// enum { USBCTRL_READ_ENABLE_MASK = BIT_(0), USBCTRL_WRITE_ENABLE_MASK = BIT_(1), }; //------------- USBRxPLen -------------// enum { USBRXPLEN_PACKET_LENGTH_MASK = (BIT_(10)-1), USBRXPLEN_DATA_VALID_MASK = BIT_(10), USBRXPLEN_PACKET_READY_MASK = BIT_(11), }; //------------- SIE Command Code -------------// typedef enum { SIE_CMDPHASE_WRITE = 1, SIE_CMDPHASE_READ = 2, SIE_CMDPHASE_COMMAND = 5 } sie_cmdphase_t; enum { // device commands SIE_CMDCODE_SET_ADDRESS = 0xd0, SIE_CMDCODE_CONFIGURE_DEVICE = 0xd8, SIE_CMDCODE_SET_MODE = 0xf3, SIE_CMDCODE_READ_FRAME_NUMBER = 0xf5, SIE_CMDCODE_READ_TEST_REGISTER = 0xfd, SIE_CMDCODE_DEVICE_STATUS = 0xfe, SIE_CMDCODE_GET_ERROR = 0xff, SIE_CMDCODE_READ_ERROR_STATUS = 0xfb, // endpoint commands SIE_CMDCODE_ENDPOINT_SELECT = 0x00, // + endpoint index SIE_CMDCODE_ENDPOINT_SELECT_CLEAR_INTERRUPT = 0x40, // + endpoint index, should use USBEpIntClr instead SIE_CMDCODE_ENDPOINT_SET_STATUS = 0x40, // + endpoint index SIE_CMDCODE_BUFFER_CLEAR = 0xf2, SIE_CMDCODE_BUFFER_VALIDATE = 0xfa }; //------------- SIE Device Status (get/set from SIE_CMDCODE_DEVICE_STATUS) -------------// enum { SIE_DEV_STATUS_CONNECT_STATUS_MASK = BIT_(0), SIE_DEV_STATUS_CONNECT_CHANGE_MASK = BIT_(1), SIE_DEV_STATUS_SUSPEND_MASK = BIT_(2), SIE_DEV_STATUS_SUSPEND_CHANGE_MASK = BIT_(3), SIE_DEV_STATUS_RESET_MASK = BIT_(4) }; //------------- SIE Select Endpoint Command -------------// enum { SIE_SELECT_ENDPOINT_FULL_EMPTY_MASK = BIT_(0), // 0: empty, 1 full. IN endpoint checks empty, OUT endpoint check full SIE_SELECT_ENDPOINT_STALL_MASK = BIT_(1), SIE_SELECT_ENDPOINT_SETUP_RECEIVED_MASK = BIT_(2), // clear by SIE_CMDCODE_ENDPOINT_SELECT_CLEAR_INTERRUPT SIE_SELECT_ENDPOINT_PACKET_OVERWRITTEN_MASK = BIT_(3), // previous packet is overwritten by a SETUP packet SIE_SELECT_ENDPOINT_NAK_MASK = BIT_(4), // last packet response is NAK (auto clear by an ACK) SIE_SELECT_ENDPOINT_BUFFER1_FULL_MASK = BIT_(5), SIE_SELECT_ENDPOINT_BUFFER2_FULL_MASK = BIT_(6) }; typedef enum { SIE_SET_ENDPOINT_STALLED_MASK = BIT_(0), SIE_SET_ENDPOINT_DISABLED_MASK = BIT_(5), SIE_SET_ENDPOINT_RATE_FEEDBACK_MASK = BIT_(6), SIE_SET_ENDPOINT_CONDITION_STALLED_MASK = BIT_(7), }sie_endpoint_set_status_mask_t; //------------- DMA Descriptor Status -------------// enum { DD_STATUS_NOT_SERVICED = 0, DD_STATUS_BEING_SERVICED, DD_STATUS_NORMAL, DD_STATUS_DATA_UNDERUN, // short packet DD_STATUS_DATA_OVERRUN, DD_STATUS_SYSTEM_ERROR }; //--------------------------------------------------------------------+ // SIE Command //--------------------------------------------------------------------+ static inline void sie_cmd_code (sie_cmdphase_t phase, uint8_t code_data) ATTR_ALWAYS_INLINE; static inline void sie_cmd_code (sie_cmdphase_t phase, uint8_t code_data) { LPC_USB->USBDevIntClr = (DEV_INT_COMMAND_CODE_EMPTY_MASK | DEV_INT_COMMAND_DATA_FULL_MASK); LPC_USB->USBCmdCode = (phase << 8) | (code_data << 16); uint32_t const wait_flag = (phase == SIE_CMDPHASE_READ) ? DEV_INT_COMMAND_DATA_FULL_MASK : DEV_INT_COMMAND_CODE_EMPTY_MASK; #ifndef _TEST_ while ((LPC_USB->USBDevIntSt & wait_flag) == 0); // TODO blocking forever potential #endif LPC_USB->USBDevIntClr = wait_flag; } static inline void sie_write (uint8_t cmd_code, uint8_t data_len, uint8_t data) ATTR_ALWAYS_INLINE; static inline void sie_write (uint8_t cmd_code, uint8_t data_len, uint8_t data) { sie_cmd_code(SIE_CMDPHASE_COMMAND, cmd_code); if (data_len) { sie_cmd_code(SIE_CMDPHASE_WRITE, data); } } static inline uint32_t sie_read (uint8_t cmd_code, uint8_t data_len) ATTR_ALWAYS_INLINE; static inline uint32_t sie_read (uint8_t cmd_code, uint8_t data_len) { // TODO multiple read sie_cmd_code(SIE_CMDPHASE_COMMAND , cmd_code); sie_cmd_code(SIE_CMDPHASE_READ , cmd_code); return LPC_USB->USBCmdData; } #ifdef __cplusplus } #endif #endif /* _TUSB_DCD_LPC175X_6X_H_ */ /** @} */ /** @} */