amiro-blt / Target / Source / ARMCM3_STM32 / usb.c @ 31d314a9
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/************************************************************************************//** |
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* \file Source\ARMCM3_STM32\usb.c
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* \brief Bootloader USB communication interface source file.
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* \ingroup Target_ARMCM3_STM32
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* \internal
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*----------------------------------------------------------------------------------------
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* C O P Y R I G H T
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*----------------------------------------------------------------------------------------
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* Copyright (c) 2011 by Feaser http://www.feaser.com All rights reserved
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*
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*----------------------------------------------------------------------------------------
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* L I C E N S E
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*----------------------------------------------------------------------------------------
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* This file is part of OpenBLT. OpenBLT is free software: you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as published by the Free
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* Software Foundation, either version 3 of the License, or (at your option) any later
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* version.
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*
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* OpenBLT is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
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* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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* PURPOSE. See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along with OpenBLT.
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* If not, see <http://www.gnu.org/licenses/>.
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*
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* A special exception to the GPL is included to allow you to distribute a combined work
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* that includes OpenBLT without being obliged to provide the source code for any
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* proprietary components. The exception text is included at the bottom of the license
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* file <license.html>.
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*
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* \endinternal
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****************************************************************************************/
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/****************************************************************************************
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* Include files
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****************************************************************************************/
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#include "boot.h" /* bootloader generic header */ |
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#if (BOOT_COM_USB_ENABLE > 0 || BOOT_GATE_USB_ENABLE > 0) |
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#include "usb_lib.h" /* USB library driver header */ |
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#include "usb_desc.h" /* USB descriptor header */ |
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#include "usb_pwr.h" /* USB power management header */ |
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#include "usb_istr.h" /* USB interrupt routine header */ |
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/****************************************************************************************
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* Macro definitions
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****************************************************************************************/
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/** \brief Total number of fifo buffers. */
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#define FIFO_MAX_BUFFERS (2) |
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/** \brief Invalid value for a fifo buffer handle. */
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#define FIFO_ERR_INVALID_HANDLE (255) |
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/** \brief Number of bytes that fit in the fifo pipe. */
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#define FIFO_PIPE_SIZE (64) |
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/****************************************************************************************
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* Type definitions
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****************************************************************************************/
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/** \brief Structure type for fifo control. */
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typedef struct t_fifo_ctrl |
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{ |
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blt_int8u *startptr; /**< pointer to start of buffer */
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blt_int8u *endptr; /**< pointer to end of buffer */
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blt_int8u *readptr; /**< pointer to next read location */
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blt_int8u *writeptr; /**< pointer to next free location */
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blt_int8u length; /**< number of buffer elements */
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blt_int8u entries; /**< # of full buffer elements */
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blt_int8u handle; /**< handle of the buffer */
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struct t_fifo_ctrl *fifoctrlptr; /**< pointer to free buffer control */ |
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} tFifoCtrl; |
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/** \brief Structure type for a fifo pipe. */
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typedef struct |
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{ |
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blt_int8u handle; /**< fifo handle */
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blt_int8u data[FIFO_PIPE_SIZE]; /**< fifo data buffer */
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} tFifoPipe; /**< USB pipe fifo type */
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/****************************************************************************************
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* Hook functions
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****************************************************************************************/
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extern void UsbEnterLowPowerModeHook(void); |
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extern void UsbLeaveLowPowerModeHook(void); |
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extern void UsbConnectHook(blt_bool connect); |
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/****************************************************************************************
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* Function prototypes
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****************************************************************************************/
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static blt_bool UsbReceiveByte(blt_int8u *data);
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static blt_bool UsbTransmitByte(blt_int8u data);
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static void UsbFifoMgrInit(void); |
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static blt_int8u UsbFifoMgrCreate(blt_int8u *buffer, blt_int8u length);
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static blt_bool UsbFifoMgrWrite(blt_int8u handle, blt_int8u data);
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static blt_bool UsbFifoMgrRead(blt_int8u handle, blt_int8u *data);
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static blt_int8u UsbFifoMgrScan(blt_int8u handle);
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/****************************************************************************************
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* Local data declarations
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****************************************************************************************/
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/** \brief Local variable that holds the fifo control structures. */
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static tFifoCtrl fifoCtrl[FIFO_MAX_BUFFERS];
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/** \brief Local pointer that points to the next free fifo control structure. */
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static tFifoCtrl *fifoCtrlFree;
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/** \brief Fifo pipe used for the bulk in endpoint. */
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static tFifoPipe fifoPipeBulkIN;
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/** \brief Fifo pipe used for the bulk out endpoint. */
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static tFifoPipe fifoPipeBulkOUT;
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/************************************************************************************//** |
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** \brief Initializes the USB communication interface.
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** \return none.
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**
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****************************************************************************************/
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void UsbInit(void) |
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{ |
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/* initialize the FIFO manager */
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UsbFifoMgrInit(); |
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/* place 2 buffers under FIFO management */
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fifoPipeBulkIN.handle = UsbFifoMgrCreate(fifoPipeBulkIN.data, FIFO_PIPE_SIZE); |
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fifoPipeBulkOUT.handle = UsbFifoMgrCreate(fifoPipeBulkOUT.data, FIFO_PIPE_SIZE); |
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/* validate fifo handles */
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ASSERT_RT( (fifoPipeBulkIN.handle != FIFO_ERR_INVALID_HANDLE) && \ |
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(fifoPipeBulkOUT.handle != FIFO_ERR_INVALID_HANDLE) ); |
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/* initialize the low level USB driver */
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USB_Init(); |
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} /*** end of UsbInit ***/
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/************************************************************************************//** |
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** \brief Releases the USB communication interface.
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** \return none.
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**
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****************************************************************************************/
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void UsbFree(void) |
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{ |
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/* disconnect the USB device from the USB host */
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UsbConnectHook(BLT_FALSE); |
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} /*** end of UsbFree ***/
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/************************************************************************************//** |
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** \brief Transmits a packet formatted for the communication interface.
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** \param data Pointer to byte array with data that it to be transmitted.
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** \param len Number of bytes that are to be transmitted.
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** \return none.
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**
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****************************************************************************************/
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void UsbTransmitPacket(blt_int8u *data, blt_int8u len)
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{ |
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blt_int16u data_index; |
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blt_bool result; |
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/* verify validity of the len-paramenter */
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ASSERT_RT(len <= BOOT_COM_USB_TX_MAX_DATA); |
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/* first transmit the length of the packet */
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result = UsbTransmitByte(len); |
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ASSERT_RT(result == BLT_TRUE); |
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/* transmit all the packet bytes one-by-one */
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for (data_index = 0; data_index < len; data_index++) |
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{ |
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/* keep the watchdog happy */
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CopService(); |
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/* write byte */
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result = UsbTransmitByte(data[data_index]); |
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ASSERT_RT(result == BLT_TRUE); |
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} |
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} /*** end of UsbTransmitPacket ***/
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/************************************************************************************//** |
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** \brief Receives a communication interface packet if one is present.
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** \param data Pointer to byte array where the data is to be stored.
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** \return Length of message (if the message is invalid, the length will be 0).
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**
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****************************************************************************************/
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blt_int8u UsbReceivePacket(blt_int8u *data) |
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{ |
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static blt_int8u xcpCtoReqPacket[BOOT_COM_USB_RX_MAX_DATA+1]; /* one extra for length */ |
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static blt_int8u xcpCtoRxLength;
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static blt_int8u xcpUsbDataLength;
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static blt_bool xcpCtoRxInProgress = BLT_FALSE;
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/* poll USB interrupt flags to process USB related events */
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USB_Istr(); |
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/* start of cto packet received? */
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if (xcpCtoRxInProgress == BLT_FALSE)
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{ |
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/* store the message length when received */
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if (UsbReceiveByte(&xcpCtoReqPacket[0]) == BLT_TRUE) |
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{ |
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/* save message length */
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xcpUsbDataLength = xcpCtoReqPacket[0];
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if (xcpCtoReqPacket[0] > 0) |
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{ |
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/* indicate that a cto packet is being received */
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xcpCtoRxInProgress = BLT_TRUE; |
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/* reset packet data count */
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xcpCtoRxLength = 0;
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} |
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} |
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} |
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else
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{ |
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/* store the next packet byte */
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if (UsbReceiveByte(&xcpCtoReqPacket[xcpCtoRxLength+1]) == BLT_TRUE) |
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{ |
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/* increment the packet data count */
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xcpCtoRxLength++; |
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/* check to see if the entire packet was received */
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if (xcpCtoRxLength == xcpCtoReqPacket[0]) |
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{ |
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/* copy the packet data */
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CpuMemCopy((blt_int32u)data, (blt_int32u)&xcpCtoReqPacket[1], xcpCtoRxLength);
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/* done with cto packet reception */
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xcpCtoRxInProgress = BLT_FALSE; |
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/* packet reception complete */
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// return BLT_TRUE;
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return xcpUsbDataLength;
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} |
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} |
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} |
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/* packet reception not yet complete */
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// return BLT_FALSE;
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return 0; |
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} /*** end of UsbReceivePacket ***/
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/************************************************************************************//** |
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** \brief Receives a communication interface byte if one is present.
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** \param data Pointer to byte where the data is to be stored.
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** \return BLT_TRUE if a byte was received, BLT_FALSE otherwise.
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**
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****************************************************************************************/
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static blt_bool UsbReceiveByte(blt_int8u *data)
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{ |
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blt_bool result; |
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/* obtain data from the fifo */
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result = UsbFifoMgrRead(fifoPipeBulkOUT.handle, data); |
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return result;
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} /*** end of UsbReceiveByte ***/
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/************************************************************************************//** |
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** \brief Transmits a communication interface byte.
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** \param data Value of byte that is to be transmitted.
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** \return BLT_TRUE if the byte was transmitted, BLT_FALSE otherwise.
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**
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****************************************************************************************/
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static blt_bool UsbTransmitByte(blt_int8u data)
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{ |
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blt_bool result; |
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/* write data from to fifo */
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result = UsbFifoMgrWrite(fifoPipeBulkIN.handle, data); |
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return result;
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} /*** end of UsbTransmitByte ***/
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/************************************************************************************//** |
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** \brief Power-off system clocks and power while entering suspend mode.
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** \return none.
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**
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****************************************************************************************/
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void UsbEnterLowPowerMode(void) |
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{ |
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/* Set the device state to suspend */
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bDeviceState = SUSPENDED; |
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/* power-off system clocks and power */
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UsbEnterLowPowerModeHook(); |
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} /*** end of UsbEnterLowPowerMode ***/
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/************************************************************************************//** |
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** \brief Restores system clocks and power while exiting suspend mode.
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** \return none.
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**
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****************************************************************************************/
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void UsbLeaveLowPowerMode(void) |
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{ |
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DEVICE_INFO *pInfo = &Device_Info; |
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/* restore power and system clocks */
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UsbLeaveLowPowerModeHook(); |
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/* Set the device state to the correct state */
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if (pInfo->Current_Configuration != 0) |
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{ |
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/* Device configured */
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bDeviceState = CONFIGURED; |
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} |
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else
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{ |
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bDeviceState = ATTACHED; |
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} |
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} /*** end of UsbLeaveLowPowerMode ***/
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/************************************************************************************//** |
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** \brief Checks if there is still data left to transmit and if so submits it
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** for transmission with the USB endpoint.
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** \return none.
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**
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****************************************************************************************/
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void UsbTransmitPipeBulkIN(void) |
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{ |
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/* USB_Tx_Buffer is static for run-time optimalization */
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static uint8_t USB_Tx_Buffer[BULK_DATA_SIZE];
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blt_int8u nr_of_bytes_for_tx_endpoint; |
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blt_int8u byte_counter; |
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blt_int8u byte_value; |
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blt_bool result; |
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/* read how many bytes should be transmitted */
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nr_of_bytes_for_tx_endpoint = UsbFifoMgrScan(fifoPipeBulkIN.handle); |
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/* only continue if there is actually data left to transmit */
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if (nr_of_bytes_for_tx_endpoint == 0) |
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{ |
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return;
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} |
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/* make sure to not transmit more than the USB endpoint can handle */
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if (nr_of_bytes_for_tx_endpoint > BULK_DATA_SIZE)
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{ |
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nr_of_bytes_for_tx_endpoint = BULK_DATA_SIZE; |
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} |
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/* copy the transmit data to the transmit buffer */
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for (byte_counter=0; byte_counter < nr_of_bytes_for_tx_endpoint; byte_counter++) |
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{ |
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/* obtain data from the fifo */
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result = UsbFifoMgrRead(fifoPipeBulkIN.handle, &byte_value); |
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ASSERT_RT(result == BLT_TRUE); |
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/* store it in the endpoint's RAM */
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USB_Tx_Buffer[byte_counter] = byte_value; |
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} |
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/* store it in the endpoint's RAM */
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UserToPMABufferCopy(&USB_Tx_Buffer[0], ENDP1_TXADDR, nr_of_bytes_for_tx_endpoint);
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/* set the number of bytes that need to be transmitted from this endpoint */
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SetEPTxCount(ENDP1, nr_of_bytes_for_tx_endpoint); |
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/* inform the endpoint that it can start its transmission because the data is valid */
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SetEPTxValid(ENDP1); |
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} /*** end of UsbTransmitPipeBulkIN ***/
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/************************************************************************************//** |
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** \brief Stores data that was received on the Bulk OUT pipe in the fifo.
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** \return none.
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**
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****************************************************************************************/
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void UsbReceivePipeBulkOUT(void) |
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{ |
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/* USB_Rx_Buffer is static for run-time optimalization */
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static uint8_t USB_Rx_Buffer[BULK_DATA_SIZE];
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uint16_t USB_Rx_Cnt; |
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uint16_t byte_counter; |
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blt_bool result; |
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/* Get the received data buffer and update the counter */
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USB_Rx_Cnt = USB_SIL_Read(EP1_OUT, USB_Rx_Buffer); |
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/* USB data will be immediately processed, this allow next USB traffic being
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* NAKed till the end of the USART Xfer
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*/
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for (byte_counter=0; byte_counter<USB_Rx_Cnt; byte_counter++) |
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{ |
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/* add the data to the fifo */
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result = UsbFifoMgrWrite(fifoPipeBulkOUT.handle, USB_Rx_Buffer[byte_counter]); |
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/* verify that the fifo wasn't full */
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ASSERT_RT(result == BLT_TRUE); |
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} |
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/* Enable the reception of data on EP1 */
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SetEPRxValid(ENDP1); |
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} /*** end of UsbReceivePipeBulkOUT ***/
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/************************************************************************************//** |
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** \brief Converts Hex 32Bits value into char.
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** \param value The hexadecimal value to convert.
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** \param pbuf Pointer to where the resulting string should be stored.
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** \param len Number of characters to convert.
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** \return none.
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**
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****************************************************************************************/
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static void IntToUnicode (blt_int32u value , blt_int8u *pbuf , blt_int8u len) |
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{ |
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blt_int8u idx = 0;
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for( idx = 0 ; idx < len ; idx ++) |
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{ |
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if( ((value >> 28)) < 0xA ) |
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{ |
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pbuf[ 2* idx] = (value >> 28) + '0'; |
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} |
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else
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{ |
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pbuf[2* idx] = (value >> 28) + 'A' - 10; |
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} |
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value = value << 4;
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pbuf[ 2* idx + 1] = 0; |
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} |
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} /*** end of IntToUnicode ***/
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/************************************************************************************//** |
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** \brief Creates the serial number string descriptor.
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** \return none.
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**
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****************************************************************************************/
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void UsbGetSerialNum(void) |
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{ |
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blt_int32u Device_Serial0, Device_Serial1, Device_Serial2; |
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Device_Serial0 = *(volatile blt_int32u*)(0x1FFFF7E8); |
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Device_Serial1 = *(volatile blt_int32u*)(0x1FFFF7EC); |
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Device_Serial2 = *(volatile blt_int32u*)(0x1FFFF7F0); |
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Device_Serial0 += Device_Serial2; |
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if (Device_Serial0 != 0) |
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{ |
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IntToUnicode(Device_Serial0, &Bulk_StringSerial[2] , 8); |
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IntToUnicode(Device_Serial1, &Bulk_StringSerial[18], 4); |
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} |
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} /*** end of UsbGetSerialNum ***/
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/************************************************************************************//** |
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** \brief Initializes the fifo manager. Each controlled fifo is assigned a
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** unique handle, which is the same as its index into fifoCtrl[]. Each
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** controlled fifo holds a pointer to the next free fifo control.
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** For the last fifo in fifoCtrl[] this one is set to a null-pointer as
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** an out of fifo control indicator. Function should be called once
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** before any of the other fifo management functions are called.
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** \return none.
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**
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****************************************************************************************/
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static void UsbFifoMgrInit(void) |
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{ |
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blt_int8u i; |
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tFifoCtrl *pbc1, *pbc2; |
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pbc1 = &fifoCtrl[0];
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pbc2 = &fifoCtrl[1];
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/* assign fifo handles and pointer to next free fifo */
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for (i = 0; i < (FIFO_MAX_BUFFERS - 1); i++) |
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{ |
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pbc1->handle = i; |
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pbc1->fifoctrlptr = pbc2; |
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pbc1++; |
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pbc2++; |
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} |
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/* initialize handle for the last one and use null-pointer for the next free fifo */
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pbc1->handle = i; |
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pbc1->fifoctrlptr = (tFifoCtrl *)0;
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fifoCtrlFree = &fifoCtrl[0];
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} /*** end of UsbFifoMgrInit ***/
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/************************************************************************************//** |
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** \brief Places a data storage array under fifo management control. A handle
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** for identifying the fifo in subsequent fifo management function
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** calls is returned, if successful.
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** \param buffer Pointer to the first element in the data storage fifo.
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** \param length Maximum number of data elements that can be stored in the fifo.
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** \return Fifo handle if successfull, or FIFO_ERR_INVALID_HANDLE.
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**
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****************************************************************************************/
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static blt_int8u UsbFifoMgrCreate(blt_int8u *buffer, blt_int8u length)
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{ |
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tFifoCtrl *pbc; |
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|
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/* first determine if these is still a free fifo control available */
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if (fifoCtrlFree == (tFifoCtrl *)0) |
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{ |
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return FIFO_ERR_INVALID_HANDLE;
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} |
486 |
/* store pointer to free fifo and update pointer to next free one */
|
487 |
pbc = fifoCtrlFree; |
488 |
fifoCtrlFree = pbc->fifoctrlptr; |
489 |
|
490 |
/* initialize the buffer control */
|
491 |
pbc->length = length; |
492 |
pbc->readptr = buffer; |
493 |
pbc->writeptr = buffer; |
494 |
pbc->entries = 0;
|
495 |
pbc->startptr = buffer; |
496 |
pbc->endptr = (blt_int8u*)(buffer + length - 1);
|
497 |
|
498 |
/* return the handle to the successfully created fifo control */
|
499 |
return pbc->handle;
|
500 |
} /*** end of UsbFifoMgrCreate ***/
|
501 |
|
502 |
|
503 |
/************************************************************************************//** |
504 |
** \brief Stores data in the fifo.
|
505 |
** \param handle Identifies the fifo to write data to.
|
506 |
** \param data Pointer to the data that is to be written to the fifo.
|
507 |
** \return BLT_TRUE if the data was successfully stored in the fifo, BLT_FALSE
|
508 |
** otherwise.
|
509 |
**
|
510 |
****************************************************************************************/
|
511 |
static blt_bool UsbFifoMgrWrite(blt_int8u handle, blt_int8u data)
|
512 |
{ |
513 |
/* check the validity of the handle parameter */
|
514 |
ASSERT_RT(handle < FIFO_MAX_BUFFERS); |
515 |
/* check if fifo is full */
|
516 |
if (fifoCtrl[handle].entries == fifoCtrl[handle].length)
|
517 |
{ |
518 |
return BLT_FALSE;
|
519 |
} |
520 |
/* copy data to fifo */
|
521 |
*fifoCtrl[handle].writeptr = data; |
522 |
/* data written so update number of entries */
|
523 |
fifoCtrl[handle].entries++; |
524 |
/* update write pointer */
|
525 |
fifoCtrl[handle].writeptr++; |
526 |
/* check end of fifo */
|
527 |
if (fifoCtrl[handle].writeptr > fifoCtrl[handle].endptr)
|
528 |
{ |
529 |
/* set write pointer to start of the cyclic fifo */
|
530 |
fifoCtrl[handle].writeptr = fifoCtrl[handle].startptr; |
531 |
} |
532 |
/* still here so all is okay */
|
533 |
return BLT_TRUE;
|
534 |
} /*** end of UsbFifoMgrWrite ***/
|
535 |
|
536 |
|
537 |
/************************************************************************************//** |
538 |
** \brief Retrieves data from the fifo.
|
539 |
** \param handle Identifies the fifo to read data from.
|
540 |
** \param data Pointer to where the read data is to be stored.
|
541 |
** \return BLT_TRUE if the data was successfully read from the fifo, BLT_FALSE
|
542 |
** otherwise.
|
543 |
**
|
544 |
****************************************************************************************/
|
545 |
static blt_bool UsbFifoMgrRead(blt_int8u handle, blt_int8u *data)
|
546 |
{ |
547 |
/* check the validity of the handle parameter */
|
548 |
ASSERT_RT(handle < FIFO_MAX_BUFFERS); |
549 |
/* check if fifo is empty */
|
550 |
if (fifoCtrl[handle].entries == 0) |
551 |
{ |
552 |
return BLT_FALSE;
|
553 |
} |
554 |
/* read the data */
|
555 |
*data = *fifoCtrl[handle].readptr; |
556 |
/* data read so update number of entries */
|
557 |
fifoCtrl[handle].entries--; |
558 |
/* update read pointer */
|
559 |
fifoCtrl[handle].readptr++; |
560 |
/* check end of fifo */
|
561 |
if (fifoCtrl[handle].readptr > fifoCtrl[handle].endptr)
|
562 |
{ |
563 |
/* set read pointer to start of the cyclic fifo */
|
564 |
fifoCtrl[handle].readptr = fifoCtrl[handle].startptr; |
565 |
} |
566 |
/* still here so all is good */
|
567 |
return BLT_TRUE;
|
568 |
} /*** end of UsbFifoMgrRead ***/
|
569 |
|
570 |
|
571 |
/************************************************************************************//** |
572 |
** \brief Returns the number of data entries currently present in the fifo.
|
573 |
** \param handle Identifies the fifo that is to be scanned.
|
574 |
** \return Number of data entries in the fifo if successful, otherwise 0.
|
575 |
**
|
576 |
****************************************************************************************/
|
577 |
static blt_int8u UsbFifoMgrScan(blt_int8u handle)
|
578 |
{ |
579 |
/* check the validity of the handle parameter */
|
580 |
ASSERT_RT(handle < FIFO_MAX_BUFFERS); |
581 |
/* read and return the number of data entries */
|
582 |
return fifoCtrl[handle].entries;
|
583 |
} /*** end of UsbFifoMgrScan ***/
|
584 |
#endif /* BOOT_COM_USB_ENABLE > 0 || BOOT_GATE_USB_ENABLE > 0 */ |
585 |
|
586 |
|
587 |
/*********************************** end of usb.c **************************************/
|