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//* ----------------------------------------------------------------------------
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//* ATMEL Microcontroller Software Support - ROUSSET -
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//* ----------------------------------------------------------------------------
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//* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
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//* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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//* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
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//* DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
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//* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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//* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
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//* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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//* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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//* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
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//* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//* ----------------------------------------------------------------------------
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//* File Name : lib_AT91SAM7S64.h
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//* Object : AT91SAM7S64 inlined functions
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//* Generated : AT91 SW Application Group 08/30/2005 (15:52:59)
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//*
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#include <sys/types.h>
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#include <include/AT91SAM7.h>
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#include <include/lib_AT91SAM7.h>
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//*----------------------------------------------------------------------------
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//* \fn AT91F_AIC_ConfigureIt
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//* \brief Interrupt Handler Initialization
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//*----------------------------------------------------------------------------
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unsigned int AT91F_AIC_ConfigureIt (
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AT91PS_AIC pAic, // \arg pointer to the AIC registers
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unsigned int irq_id, // \arg interrupt number to initialize
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unsigned int priority, // \arg priority to give to the interrupt
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unsigned int src_type, // \arg activation and sense of activation
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void (*newHandler) () ) // \arg address of the interrupt handler
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{
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unsigned int oldHandler;
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unsigned int mask ;
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oldHandler = pAic->AIC_SVR[irq_id];
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mask = 0x1 << irq_id ;
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//* Disable the interrupt on the interrupt controller
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pAic->AIC_IDCR = mask ;
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//* Save the interrupt handler routine pointer and the interrupt priority
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pAic->AIC_SVR[irq_id] = (unsigned int) newHandler ;
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//* Store the Source Mode Register
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pAic->AIC_SMR[irq_id] = src_type | priority ;
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//* Clear the interrupt on the interrupt controller
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pAic->AIC_ICCR = mask ;
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return oldHandler;
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_AIC_SetExceptionVector
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//* \brief Configure vector handler
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//*----------------------------------------------------------------------------
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unsigned int AT91F_AIC_SetExceptionVector (
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unsigned int *pVector, // \arg pointer to the AIC registers
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void (*Handler) () ) // \arg Interrupt Handler
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{
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unsigned int oldVector = *pVector;
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if ((unsigned int) Handler == (unsigned int) AT91C_AIC_BRANCH_OPCODE)
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*pVector = (unsigned int) AT91C_AIC_BRANCH_OPCODE;
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else
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*pVector = (((((unsigned int) Handler) - ((unsigned int) pVector) - 0x8) >> 2) & 0x00FFFFFF) | 0xEA000000;
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return oldVector;
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_AIC_Open
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//* \brief Set exception vectors and AIC registers to default values
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//*----------------------------------------------------------------------------
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void AT91F_AIC_Open(
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AT91PS_AIC pAic, // \arg pointer to the AIC registers
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void (*IrqHandler) (), // \arg Default IRQ vector exception
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void (*FiqHandler) (), // \arg Default FIQ vector exception
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void (*DefaultHandler) (), // \arg Default Handler set in ISR
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void (*SpuriousHandler) (), // \arg Default Spurious Handler
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unsigned int protectMode) // \arg Debug Control Register
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{
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int i;
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// Disable all interrupts and set IVR to the default handler
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for (i = 0; i < 32; ++i) {
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AT91F_AIC_DisableIt(pAic, i);
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AT91F_AIC_ConfigureIt(pAic, i, AT91C_AIC_PRIOR_LOWEST, AT91C_AIC_SRCTYPE_HIGH_LEVEL, DefaultHandler);
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}
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// Set the IRQ exception vector
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AT91F_AIC_SetExceptionVector((unsigned int *) 0x18, IrqHandler);
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// Set the Fast Interrupt exception vector
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AT91F_AIC_SetExceptionVector((unsigned int *) 0x1C, FiqHandler);
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pAic->AIC_SPU = (unsigned int) SpuriousHandler;
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pAic->AIC_DCR = protectMode;
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_PDC_Open
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//* \brief Open PDC: disable TX and RX reset transfer descriptors, re-enable RX and TX
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//*----------------------------------------------------------------------------
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void AT91F_PDC_Open(AT91PS_PDC pPDC) // \arg pointer to a PDC controller
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{
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//* Disable the RX and TX PDC transfer requests
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AT91F_PDC_DisableRx(pPDC);
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AT91F_PDC_DisableTx(pPDC);
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//* Reset all Counter register Next buffer first
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AT91F_PDC_SetNextTx(pPDC, NULL, 0);
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AT91F_PDC_SetNextRx(pPDC, NULL, 0);
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AT91F_PDC_SetTx(pPDC, NULL, 0);
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AT91F_PDC_SetRx(pPDC, NULL, 0);
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//* Enable the RX and TX PDC transfer requests
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AT91F_PDC_EnableRx(pPDC);
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AT91F_PDC_EnableTx(pPDC);
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_PDC_Close
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//* \brief Close PDC: disable TX and RX reset transfer descriptors
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//*----------------------------------------------------------------------------
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void AT91F_PDC_Close(AT91PS_PDC pPDC) // \arg pointer to a PDC controller
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{
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//* Disable the RX and TX PDC transfer requests
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AT91F_PDC_DisableRx(pPDC);
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AT91F_PDC_DisableTx(pPDC);
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//* Reset all Counter register Next buffer first
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AT91F_PDC_SetNextTx(pPDC, NULL, 0);
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AT91F_PDC_SetNextRx(pPDC, NULL, 0);
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AT91F_PDC_SetTx(pPDC, NULL, 0);
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AT91F_PDC_SetRx(pPDC, NULL, 0);
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_PDC_SendFrame
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//* \brief Close PDC: disable TX and RX reset transfer descriptors
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//*----------------------------------------------------------------------------
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unsigned int AT91F_PDC_SendFrame(
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AT91PS_PDC pPDC,
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const unsigned char *pBuffer,
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unsigned int szBuffer,
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const unsigned char *pNextBuffer,
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unsigned int szNextBuffer )
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{
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if (AT91F_PDC_IsTxEmpty(pPDC)) {
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//* Buffer and next buffer can be initialized
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AT91F_PDC_SetTx(pPDC, pBuffer, szBuffer);
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AT91F_PDC_SetNextTx(pPDC, pNextBuffer, szNextBuffer);
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return 2;
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}
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else if (AT91F_PDC_IsNextTxEmpty(pPDC)) {
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//* Only one buffer can be initialized
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AT91F_PDC_SetNextTx(pPDC, pBuffer, szBuffer);
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return 1;
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}
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else {
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//* All buffer are in use...
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return 0;
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}
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_PDC_ReceiveFrame
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//* \brief Close PDC: disable TX and RX reset transfer descriptors
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//*----------------------------------------------------------------------------
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unsigned int AT91F_PDC_ReceiveFrame (
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AT91PS_PDC pPDC,
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unsigned char *pBuffer,
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unsigned int szBuffer,
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unsigned char *pNextBuffer,
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unsigned int szNextBuffer )
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{
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if (AT91F_PDC_IsRxEmpty(pPDC)) {
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//* Buffer and next buffer can be initialized
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AT91F_PDC_SetRx(pPDC, pBuffer, szBuffer);
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AT91F_PDC_SetNextRx(pPDC, pNextBuffer, szNextBuffer);
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return 2;
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}
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else if (AT91F_PDC_IsNextRxEmpty(pPDC)) {
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//* Only one buffer can be initialized
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AT91F_PDC_SetNextRx(pPDC, pBuffer, szBuffer);
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return 1;
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}
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else {
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//* All buffer are in use...
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return 0;
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}
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}
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//*------------------------------------------------------------------------------
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//* \fn AT91F_PMC_GetMasterClock
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//* \brief Return master clock in Hz which correponds to processor clock for ARM7
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//*------------------------------------------------------------------------------
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unsigned int AT91F_PMC_GetMasterClock (
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AT91PS_PMC pPMC, // \arg pointer to PMC controller
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AT91PS_CKGR pCKGR, // \arg pointer to CKGR controller
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unsigned int slowClock) // \arg slowClock in Hz
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{
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unsigned int reg = pPMC->PMC_MCKR;
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unsigned int prescaler = (1 << ((reg & AT91C_PMC_PRES) >> 2));
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unsigned int pllDivider, pllMultiplier;
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switch (reg & AT91C_PMC_CSS) {
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case AT91C_PMC_CSS_SLOW_CLK: // Slow clock selected
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return slowClock / prescaler;
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case AT91C_PMC_CSS_MAIN_CLK: // Main clock is selected
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return AT91F_CKGR_GetMainClock(pCKGR, slowClock) / prescaler;
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case AT91C_PMC_CSS_PLL_CLK: // PLLB clock is selected
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reg = pCKGR->CKGR_PLLR;
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pllDivider = (reg & AT91C_CKGR_DIV);
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pllMultiplier = ((reg & AT91C_CKGR_MUL) >> 16) + 1;
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return AT91F_CKGR_GetMainClock(pCKGR, slowClock) / pllDivider * pllMultiplier / prescaler;
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}
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return 0;
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}
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//*--------------------------------------------------------------------------------------
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//* \fn AT91F_RTT_ReadValue()
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//* \brief Read the RTT value
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//*--------------------------------------------------------------------------------------
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unsigned int AT91F_RTTReadValue(AT91PS_RTTC pRTTC)
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{
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register volatile unsigned int val1,val2;
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do
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{
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val1 = pRTTC->RTTC_RTVR;
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val2 = pRTTC->RTTC_RTVR;
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}
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while(val1 != val2);
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return(val1);
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_SPI_Close
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//* \brief Close SPI: disable IT disable transfert, close PDC
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//*----------------------------------------------------------------------------
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void AT91F_SPI_Close(AT91PS_SPI pSPI) // \arg pointer to a SPI controller
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{
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//* Reset all the Chip Select register
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pSPI->SPI_CSR[0] = 0 ;
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pSPI->SPI_CSR[1] = 0 ;
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pSPI->SPI_CSR[2] = 0 ;
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pSPI->SPI_CSR[3] = 0 ;
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//* Reset the SPI mode
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pSPI->SPI_MR = 0 ;
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//* Disable all interrupts
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pSPI->SPI_IDR = 0xFFFFFFFF ;
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//* Abort the Peripheral Data Transfers
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AT91F_PDC_Close((AT91PS_PDC) &(pSPI->SPI_RPR));
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//* Disable receiver and transmitter and stop any activity immediately
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pSPI->SPI_CR = AT91C_SPI_SPIDIS;
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_ADC_CfgTimings
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//* \brief Configure the different necessary timings of the ADC controller
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//*----------------------------------------------------------------------------
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void AT91F_ADC_CfgTimings (
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AT91PS_ADC pADC, // pointer to a ADC controller
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unsigned int mck_clock, // in MHz
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unsigned int adc_clock, // in MHz
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unsigned int startup_time, // in us
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unsigned int sample_and_hold_time) // in ns
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{
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unsigned int prescal,startup,shtim;
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prescal = mck_clock/(2*adc_clock) - 1;
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startup = adc_clock*startup_time/8 - 1;
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shtim = adc_clock*sample_and_hold_time/1000 - 1;
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//* Write to the MR register
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pADC->ADC_MR = ( (prescal<<8) & AT91C_ADC_PRESCAL) | ( (startup<<16) & AT91C_ADC_STARTUP) | ( (shtim<<24) & AT91C_ADC_SHTIM);
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_SSC_SetBaudrate
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//* \brief Set the baudrate according to the CPU clock
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//*----------------------------------------------------------------------------
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void AT91F_SSC_SetBaudrate (
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AT91PS_SSC pSSC, // \arg pointer to a SSC controller
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unsigned int mainClock, // \arg peripheral clock
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unsigned int speed) // \arg SSC baudrate
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{
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unsigned int baud_value;
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//* Define the baud rate divisor register
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if (speed == 0)
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baud_value = 0;
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else
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{
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baud_value = (unsigned int) (mainClock * 10)/(2*speed);
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if ((baud_value % 10) >= 5)
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baud_value = (baud_value / 10) + 1;
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else
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baud_value /= 10;
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}
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pSSC->SSC_CMR = baud_value;
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}
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//*----------------------------------------------------------------------------
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//* \fn AT91F_SSC_Configure
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//* \brief Configure SSC
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//*----------------------------------------------------------------------------
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void AT91F_SSC_Configure (
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AT91PS_SSC pSSC, // \arg pointer to a SSC controller
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unsigned int syst_clock, // \arg System Clock Frequency
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unsigned int baud_rate, // \arg Expected Baud Rate Frequency
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unsigned int clock_rx, // \arg Receiver Clock Parameters
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unsigned int mode_rx, // \arg mode Register to be programmed
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unsigned int clock_tx, // \arg Transmitter Clock Parameters
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unsigned int mode_tx) // \arg mode Register to be programmed
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{
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//* Disable interrupts
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pSSC->SSC_IDR = (unsigned int) -1;
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//* Reset receiver and transmitter
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pSSC->SSC_CR = AT91C_SSC_SWRST | AT91C_SSC_RXDIS | AT91C_SSC_TXDIS ;
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//* Define the Clock Mode Register
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AT91F_SSC_SetBaudrate(pSSC, syst_clock, baud_rate);
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//* Write the Receive Clock Mode Register
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pSSC->SSC_RCMR = clock_rx;
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//* Write the Transmit Clock Mode Register
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pSSC->SSC_TCMR = clock_tx;
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//* Write the Receive Frame Mode Register
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pSSC->SSC_RFMR = mode_rx;
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//* Write the Transmit Frame Mode Register
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pSSC->SSC_TFMR = mode_tx;
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//* Clear Transmit and Receive Counters
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AT91F_PDC_Open((AT91PS_PDC) &(pSSC->SSC_RPR));
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}
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349
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//*----------------------------------------------------------------------------
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//* \fn AT91F_US_Configure
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//* \brief Configure USART
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//*----------------------------------------------------------------------------
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void AT91F_US_Configure (
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AT91PS_USART pUSART, // \arg pointer to a USART controller
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unsigned int mainClock, // \arg peripheral clock
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unsigned int mode , // \arg mode Register to be programmed
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unsigned int baudRate , // \arg baudrate to be programmed
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unsigned int timeguard ) // \arg timeguard to be programmed
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{
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//* Disable interrupts
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pUSART->US_IDR = (unsigned int) -1;
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//* Reset receiver and transmitter
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pUSART->US_CR = AT91C_US_RSTRX | AT91C_US_RSTTX | AT91C_US_RXDIS | AT91C_US_TXDIS ;
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//* Define the baud rate divisor register
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AT91F_US_SetBaudrate(pUSART, mainClock, baudRate);
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//* Write the Timeguard Register
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AT91F_US_SetTimeguard(pUSART, timeguard);
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//* Clear Transmit and Receive Counters
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AT91F_PDC_Open((AT91PS_PDC) &(pUSART->US_RPR));
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//* Define the USART mode
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pUSART->US_MR = mode ;
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}
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379
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//*----------------------------------------------------------------------------
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//* \fn AT91F_US_Close
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//* \brief Close USART: disable IT disable receiver and transmitter, close PDC
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//*----------------------------------------------------------------------------
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384
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void AT91F_US_Close(AT91PS_USART pUSART) // \arg pointer to a USART controller
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{
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386
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//* Reset the baud rate divisor register
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pUSART->US_BRGR = 0 ;
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//* Reset the USART mode
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pUSART->US_MR = 0 ;
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//* Reset the Timeguard Register
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pUSART->US_TTGR = 0;
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394
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395
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//* Disable all interrupts
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396
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pUSART->US_IDR = 0xFFFFFFFF ;
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398
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//* Abort the Peripheral Data Transfers
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399
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AT91F_PDC_Close((AT91PS_PDC) &(pUSART->US_RPR));
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400
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401
|
//* Disable receiver and transmitter and stop any activity immediately
|
402
|
pUSART->US_CR = AT91C_US_TXDIS | AT91C_US_RXDIS | AT91C_US_RSTTX | AT91C_US_RSTRX ;
|
403
|
}
|
404
|
|
405
|
|