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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [CORTEX_AT91SAM3U256_IAR/] [AT91Lib/] [peripherals/] [ac97c/] [ac97c.c] - Rev 595
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/* ---------------------------------------------------------------------------- * ATMEL Microcontroller Software Support * ---------------------------------------------------------------------------- * Copyright (c) 2008, Atmel Corporation * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the disclaimer below. * * Atmel's name may not be used to endorse or promote products derived from * this software without specific prior written permission. * * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE * DISCLAIMED. IN NO EVENT SHALL ATMEL 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. * ---------------------------------------------------------------------------- */ //------------------------------------------------------------------------------ // Headers //------------------------------------------------------------------------------ #include "ac97c.h" #include <board.h> #include <aic/aic.h> #include <utility/assert.h> #include <utility/trace.h> #include <utility/math.h> //------------------------------------------------------------------------------ // Local constants //------------------------------------------------------------------------------ /// Maximum size of one PDC buffer (in bytes). #define MAX_PDC_COUNTER 65535 //------------------------------------------------------------------------------ // Local types //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ /// AC97 transfer descriptor. Tracks the status and parameters of a transfer /// on the AC97 bus. //------------------------------------------------------------------------------ typedef struct _Ac97Transfer { /// Buffer containing the slots to send. unsigned char *pBuffer; /// Total number of samples to send. volatile unsigned int numSamples; /// Optional callback function. Ac97Callback callback; /// Optional argument to the callback function. void *pArg; } Ac97Transfer; //------------------------------------------------------------------------------ /// AC97 controller driver structure. Monitors the status of transfers on all /// AC97 channels. //------------------------------------------------------------------------------ typedef struct _Ac97c { /// List of transfers occuring on each channel. Ac97Transfer transfers[5]; } Ac97c; //------------------------------------------------------------------------------ // Local variables //------------------------------------------------------------------------------ /// Global AC97 controller instance. static Ac97c ac97c; //------------------------------------------------------------------------------ // Local functions //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ /// Returns the size of one sample (in bytes) on the given channel. /// \param channel Channel number. //------------------------------------------------------------------------------ static unsigned char GetSampleSize(unsigned char channel) { unsigned int size = 0; SANITY_CHECK((channel == AC97C_CHANNEL_A) || (channel == AC97C_CHANNEL_B) || (channel == AC97C_CHANNEL_CODEC)); // Check selected channel switch (channel) { case AC97C_CHANNEL_CODEC: return 2; case AC97C_CHANNEL_A: size = (AT91C_BASE_AC97C->AC97C_CAMR & AT91C_AC97C_SIZE) >> 16; break; case AC97C_CHANNEL_B: size = (AT91C_BASE_AC97C->AC97C_CBMR & AT91C_AC97C_SIZE) >> 16; break; } // Compute size in bytes given SIZE field if ((size & 2) != 0) { return 2; } else { return 4; } } //------------------------------------------------------------------------------ /// Interrupt service routine for Codec, is invoked by AC97C_Handler. //------------------------------------------------------------------------------ static void CodecHandler(void) { unsigned int status; unsigned int data; Ac97Transfer *pTransfer = &(ac97c.transfers[AC97C_CODEC_TRANSFER]); // Read CODEC status register status = AT91C_BASE_AC97C->AC97C_COSR; status &= AT91C_BASE_AC97C->AC97C_COMR; // A sample has been transmitted if (status & AT91C_AC97C_TXRDY) { pTransfer->numSamples--; // If there are remaining samples, transmit one if (pTransfer->numSamples > 0) { data = *((unsigned int *) pTransfer->pBuffer); AT91C_BASE_AC97C->AC97C_COMR &= ~(AT91C_AC97C_TXRDY); AT91C_BASE_AC97C->AC97C_COTHR = data; // Check if transfer is read or write if ((data & AT91C_AC97C_READ) != 0) { AT91C_BASE_AC97C->AC97C_COMR |= AT91C_AC97C_RXRDY; } else { pTransfer->pBuffer += sizeof(unsigned int); AT91C_BASE_AC97C->AC97C_COMR |= AT91C_AC97C_TXRDY; } } // Transfer finished else { AT91C_BASE_AC97C->AC97C_IDR = AT91C_AC97C_COEVT; AT91C_BASE_AC97C->AC97C_COMR &= ~(AT91C_AC97C_TXRDY); if (pTransfer->callback) { pTransfer->callback(pTransfer->pArg, 0, 0); } } } // A sample has been received if (status & AT91C_AC97C_RXRDY) { // Store sample data = AT91C_BASE_AC97C->AC97C_CORHR; *((unsigned int *) pTransfer->pBuffer) = data; pTransfer->pBuffer += sizeof(unsigned int); pTransfer->numSamples--; // Transfer finished if (pTransfer->numSamples > 0) { data = *((unsigned int *) pTransfer->pBuffer); AT91C_BASE_AC97C->AC97C_COMR &= ~(AT91C_AC97C_RXRDY); AT91C_BASE_AC97C->AC97C_COTHR = data; // Check if transfer is read or write if ((data & AT91C_AC97C_READ) != 0) { AT91C_BASE_AC97C->AC97C_COMR |= AT91C_AC97C_RXRDY; } else { pTransfer->pBuffer += sizeof(unsigned int); AT91C_BASE_AC97C->AC97C_COMR |= AT91C_AC97C_TXRDY; } } else { AT91C_BASE_AC97C->AC97C_IDR = AT91C_AC97C_COEVT; AT91C_BASE_AC97C->AC97C_COMR &= ~(AT91C_AC97C_RXRDY); if (pTransfer->callback) { pTransfer->callback(pTransfer->pArg, 0, 0); } } } } //------------------------------------------------------------------------------ /// Interrupt service routine for channel A, is invoked by AC97C_Handler. //------------------------------------------------------------------------------ static void ChannelAHandler(void) { unsigned int status; Ac97Transfer *pTransmit = &(ac97c.transfers[AC97C_CHANNEL_A_TRANSMIT]); Ac97Transfer *pReceive = &(ac97c.transfers[AC97C_CHANNEL_A_RECEIVE]); // Read channel A status register status = AT91C_BASE_AC97C->AC97C_CASR; // A buffer has been transmitted if ((status & AT91C_AC97C_ENDTX) != 0) { // Update transfer information if (pTransmit->numSamples > MAX_PDC_COUNTER) { pTransmit->numSamples -= MAX_PDC_COUNTER; } else { pTransmit->numSamples = 0; } // Transmit new buffers if necessary if (pTransmit->numSamples > MAX_PDC_COUNTER) { // Fill next PDC AT91C_BASE_AC97C->AC97C_TNPR = (unsigned int) pTransmit->pBuffer; if (pTransmit->numSamples > 2 * MAX_PDC_COUNTER) { AT91C_BASE_AC97C->AC97C_TNCR = MAX_PDC_COUNTER; pTransmit->pBuffer += MAX_PDC_COUNTER * GetSampleSize(AC97C_CHANNEL_A); } else { AT91C_BASE_AC97C->AC97C_TNCR = pTransmit->numSamples - MAX_PDC_COUNTER; } } // Only one buffer remaining else { AT91C_BASE_AC97C->AC97C_CAMR &= ~AT91C_AC97C_ENDTX; AT91C_BASE_AC97C->AC97C_CAMR |= AT91C_AC97C_TXBUFE; } } // Transmit completed if ((status & AT91C_AC97C_TXBUFE) != 0) { pTransmit->numSamples = 0; AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_TXTDIS; AT91C_BASE_AC97C->AC97C_CAMR &= ~AT91C_AC97C_TXBUFE; if (pTransmit->callback) { pTransmit->callback(pTransmit->pArg, 0, 0); } } // A buffer has been received if (status & AT91C_AC97C_ENDRX) { if (pReceive->numSamples > MAX_PDC_COUNTER) { pReceive->numSamples -= MAX_PDC_COUNTER; } else { pReceive->numSamples = 0; } // Transfer remaining samples if (pReceive->numSamples > MAX_PDC_COUNTER) { AT91C_BASE_AC97C->AC97C_RNPR = (unsigned int) pReceive->pBuffer; if (pReceive->numSamples > 2 * MAX_PDC_COUNTER) { AT91C_BASE_AC97C->AC97C_RNCR = MAX_PDC_COUNTER; pReceive->pBuffer += MAX_PDC_COUNTER * GetSampleSize(AC97C_CHANNEL_A); } else { AT91C_BASE_AC97C->AC97C_RNCR = pReceive->numSamples - MAX_PDC_COUNTER; } } // Only one buffer remaining else { AT91C_BASE_AC97C->AC97C_CAMR &= ~(AT91C_AC97C_ENDRX); AT91C_BASE_AC97C->AC97C_CAMR |= AT91C_AC97C_RXBUFF; } } // Receive complete if ((status & AT91C_AC97C_RXBUFF) != 0) { pReceive->numSamples = 0; AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_RXTDIS; AT91C_BASE_AC97C->AC97C_CAMR &= ~AT91C_AC97C_RXBUFF; if (pReceive->callback) { pReceive->callback(pReceive->pArg, 0, 0); } } } //------------------------------------------------------------------------------ // Exported functions //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ /// This handler function must be called by the AC97C interrupt service routine. /// Identifies which event was activated and calls the associated function. //------------------------------------------------------------------------------ void AC97C_Handler(void) { unsigned int status; // Get the real interrupt source status = AT91C_BASE_AC97C->AC97C_SR; status &= AT91C_BASE_AC97C->AC97C_IMR; // Check if an event on the codec channel is active if ((status & AT91C_AC97C_COEVT) != 0) { CodecHandler(); } // Check if an event on channel A is active if ((status & AT91C_AC97C_CAEVT) != 0) { ChannelAHandler(); } } //------------------------------------------------------------------------------ /// Starts a read or write transfer on the given channel /// \param channel particular channel (AC97C_CODEC_TRANSFER, /// AC97C_CHANNEL_A_RECEIVE, AC97C_CHANNEL_A_TRANSMIT, /// AC97C_CHANNEL_B_RECEIVE or AC97C_CHANNEL_B_TRANSMIT). /// \param pBuffer buffer containing the slots to send. /// \param numSamples total number of samples to send. /// \param callback optional callback function. /// \param pArg optional argument to the callback function. //------------------------------------------------------------------------------ unsigned char AC97C_Transfer( unsigned char channel, unsigned char *pBuffer, unsigned int numSamples, Ac97Callback callback, void *pArg) { unsigned int size; unsigned int data; Ac97Transfer *pTransfer; SANITY_CHECK(channel <= 5); SANITY_CHECK(pBuffer); SANITY_CHECK(numSamples > 0); // Check that no transfer is pending on the channel pTransfer = &(ac97c.transfers[channel]); if (pTransfer->numSamples > 0) { TRACE_WARNING( "AC97C_Transfer: Channel %d is busy\n\r", channel); return AC97C_ERROR_BUSY; } // Fill transfer information pTransfer->pBuffer = pBuffer; pTransfer->numSamples = numSamples; pTransfer->callback = callback; pTransfer->pArg = pArg; // Transmit or receive over codec channel if (channel == AC97C_CODEC_TRANSFER) { // Send command data = *((unsigned int *) pTransfer->pBuffer); AT91C_BASE_AC97C->AC97C_COTHR = data; // Check if transfer is read or write if ((data & AT91C_AC97C_READ) != 0) { AT91C_BASE_AC97C->AC97C_COMR |= AT91C_AC97C_RXRDY; } else { pTransfer->pBuffer += sizeof(unsigned int); AT91C_BASE_AC97C->AC97C_COMR |= AT91C_AC97C_TXRDY; } // Enable interrupts AT91C_BASE_AC97C->AC97C_IER |= AT91C_AC97C_COEVT; } // Transmit over channel A else if (channel == AC97C_CHANNEL_A_TRANSMIT) { // Disable PDC AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_TXTDIS; // Fill PDC buffers size = min(pTransfer->numSamples, MAX_PDC_COUNTER); AT91C_BASE_AC97C->AC97C_TPR = (unsigned int) pTransfer->pBuffer; AT91C_BASE_AC97C->AC97C_TCR = size; pTransfer->pBuffer += size * GetSampleSize(AC97C_CHANNEL_A); size = min(pTransfer->numSamples - size, MAX_PDC_COUNTER); if (size > 0) { AT91C_BASE_AC97C->AC97C_TNPR = (unsigned int) pTransfer->pBuffer; AT91C_BASE_AC97C->AC97C_TNCR = size; pTransfer->pBuffer += size * GetSampleSize(AC97C_CHANNEL_A); } // Enable interrupts AT91C_BASE_AC97C->AC97C_CAMR |= AT91C_AC97C_PDCEN | AT91C_AC97C_ENDTX; AT91C_BASE_AC97C->AC97C_IER |= AT91C_AC97C_CAEVT; // Start transfer AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_TXTEN; } // Receive over channel A else if (channel == AC97C_CHANNEL_A_RECEIVE) { // Disable PDC AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_RXTDIS; // Fill PDC buffers size = min(pTransfer->numSamples, MAX_PDC_COUNTER); AT91C_BASE_AC97C->AC97C_RPR = (unsigned int) pTransfer->pBuffer; AT91C_BASE_AC97C->AC97C_RCR = size; pTransfer->pBuffer += size * GetSampleSize(AC97C_CHANNEL_A); size = min(pTransfer->numSamples - size, MAX_PDC_COUNTER); if (size > 0) { AT91C_BASE_AC97C->AC97C_RNPR = (unsigned int) pTransfer->pBuffer; AT91C_BASE_AC97C->AC97C_RNCR = size; pTransfer->pBuffer += size * GetSampleSize(AC97C_CHANNEL_A); } // Enable interrupts AT91C_BASE_AC97C->AC97C_CAMR |= AT91C_AC97C_PDCEN | AT91C_AC97C_ENDRX; AT91C_BASE_AC97C->AC97C_IER |= AT91C_AC97C_CAEVT; // Start transfer AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_RXTEN; } return 0; } //------------------------------------------------------------------------------ /// Stop read or write transfer on the given channel. /// \param channel Channel number. //------------------------------------------------------------------------------ void AC97C_CancelTransfer(unsigned char channel) { unsigned int size = 0; Ac97Transfer *pTransfer; SANITY_CHECK(channel <= AC97C_CHANNEL_B_TRANSMIT); // Save remaining size pTransfer = &(ac97c.transfers[channel]); size = pTransfer->numSamples; pTransfer->numSamples = 0; // Stop PDC if (channel == AC97C_CHANNEL_A_TRANSMIT) { AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_TXTDIS; size -= min(size, MAX_PDC_COUNTER) - AT91C_BASE_AC97C->AC97C_TCR; } if (channel == AC97C_CHANNEL_A_RECEIVE) { AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_RXTDIS; size -= min(size, MAX_PDC_COUNTER) - AT91C_BASE_AC97C->AC97C_RCR; } // Invoke callback if provided if (pTransfer->callback) { pTransfer->callback(pTransfer->pArg, AC97C_ERROR_STOPPED, size); } } //------------------------------------------------------------------------------ /// Initializes the AC97 controller. //------------------------------------------------------------------------------ void AC97C_Configure(void) { unsigned char channel; // Enable the AC97 controller peripheral clock AT91C_BASE_PMC->PMC_PCER = (1 << AT91C_ID_AC97C); // Enable the peripheral and variable rate adjustment AT91C_BASE_AC97C->AC97C_MR = AT91C_AC97C_ENA | AT91C_AC97C_VRA; // Unassigns all input & output slots AC97C_AssignInputSlots(0, 0xFFFF); AC97C_AssignOutputSlots(0, 0xFFFF); // Install the AC97C interrupt handler AT91C_BASE_AC97C->AC97C_IDR = 0xFFFFFFFF; AIC_ConfigureIT(AT91C_ID_AC97C, 0, AC97C_Handler); AIC_EnableIT(AT91C_ID_AC97C); // Disable PDC transfers AT91C_BASE_AC97C->AC97C_PTCR = AT91C_PDC_TXTDIS | AT91C_PDC_RXTDIS; // Clear channel transfers for (channel = 0; channel < AC97C_CHANNEL_B_TRANSMIT; channel++) { ac97c.transfers[channel].numSamples = 0; } } //------------------------------------------------------------------------------ /// Configures the desired channel with the given value. /// \param channel Channel number. /// \param cfg Configuration value. //------------------------------------------------------------------------------ void AC97C_ConfigureChannel(unsigned char channel, unsigned int cfg) { SANITY_CHECK((channel == AC97C_CHANNEL_A) || (channel == AC97C_CHANNEL_B)); if (channel == AC97C_CHANNEL_A) { AT91C_BASE_AC97C->AC97C_CAMR = cfg; } else { AT91C_BASE_AC97C->AC97C_CBMR = cfg; } } //------------------------------------------------------------------------------ /// Assigns the desired input slots to a particular channel. /// \param channel Channel number (or 0 to unassign slots). /// \param slots Bitfield value of slots to assign. //------------------------------------------------------------------------------ void AC97C_AssignInputSlots(unsigned char channel, unsigned int slots) { unsigned int value; unsigned int i; SANITY_CHECK(channel <= AC97C_CHANNEL_B); // Assign all slots slots >>= 3; for (i = 3; i < 15; i++) { // Check if slots is selected if (slots & 1) { value = AT91C_BASE_AC97C->AC97C_ICA; value &= ~(0x07 << ((i - 3) * 3)); value |= channel << ((i - 3) * 3); AT91C_BASE_AC97C->AC97C_ICA = value; } slots >>= 1; } } //------------------------------------------------------------------------------ /// Assigns the desired output slots to a particular channel. /// \param channel Channel number (or 0 to unassign slots). /// \param slots Bitfield value of slots to assign. //------------------------------------------------------------------------------ void AC97C_AssignOutputSlots(unsigned char channel, unsigned int slots) { unsigned int value; unsigned int i; SANITY_CHECK(channel <= AC97C_CHANNEL_B); // Assign all slots slots >>= 3; for (i = 3; i < 15; i++) { // Check if slots is selected if (slots & 1) { value = AT91C_BASE_AC97C->AC97C_OCA; value &= ~(0x07 << ((i - 3) * 3)); value |= channel << ((i - 3) * 3); AT91C_BASE_AC97C->AC97C_OCA = value; } slots >>= 1; } } //------------------------------------------------------------------------------ /// Returns 1 if no transfer is currently pending on the given channel; /// otherwise, returns 0. /// \param channel Channel number. //------------------------------------------------------------------------------ unsigned char AC97C_IsFinished(unsigned char channel) { SANITY_CHECK(channel <= AC97C_CHANNEL_B_TRANSMIT); if (ac97c.transfers[channel].numSamples > 0) { return 0; } else { return 1; } } //------------------------------------------------------------------------------ /// Convenience function for synchronously sending commands to the codec. /// \param address Register address. /// \param data Command data. //------------------------------------------------------------------------------ void AC97C_WriteCodec(unsigned char address, unsigned short data) { unsigned int sample; sample = (address << 16) | data; AC97C_Transfer(AC97C_CODEC_TRANSFER, (unsigned char *) &sample, 1, 0, 0); while (!AC97C_IsFinished(AC97C_CODEC_TRANSFER)); } //------------------------------------------------------------------------------ /// Convenience function for receiving data from the AC97 codec. /// \param address Register address. //------------------------------------------------------------------------------ unsigned short AC97C_ReadCodec(unsigned char address) { unsigned int sample; sample = AT91C_AC97C_READ | (address << 16); AC97C_Transfer(AC97C_CODEC_TRANSFER, (unsigned char *) &sample, 1, 0, 0); while (!AC97C_IsFinished(AC97C_CODEC_TRANSFER)); return sample; } //------------------------------------------------------------------------------ /// Sets the size in bits of one sample on the given channel. /// \param channel Channel number. /// \param size Size of one sample in bits (10, 16, 18 or 24). //------------------------------------------------------------------------------ void AC97C_SetChannelSize(unsigned char channel, unsigned char size) { unsigned int bits = 0; SANITY_CHECK((size == 10) || (size == 16) || (size == 18) || (size == 24)); SANITY_CHECK((channel == AC97C_CHANNEL_A) || (channel == AC97C_CHANNEL_B)); switch (size) { case 10 : bits = AT91C_AC97C_SIZE_10_BITS; break; case 16 : bits = AT91C_AC97C_SIZE_16_BITS; break; case 18 : bits = AT91C_AC97C_SIZE_18_BITS; break; case 20 : bits = AT91C_AC97C_SIZE_20_BITS; break; } if (channel == AC97C_CHANNEL_A) { AT91C_BASE_AC97C->AC97C_CAMR &= ~(AT91C_AC97C_SIZE); AT91C_BASE_AC97C->AC97C_CAMR |= bits; } else { AT91C_BASE_AC97C->AC97C_CBMR &= ~(AT91C_AC97C_SIZE); AT91C_BASE_AC97C->AC97C_CBMR |= bits; } }
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