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at86rf231_driver.c
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at86rf231_driver.c
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/**
* Copyright (c) 2011, Regents of the University of California
* 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 following disclaimer.
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* - Neither the name of the University of California, Berkeley nor the names
* of its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS 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.
*
*
* Atmel AT86RF231 802.15.4 RF Transceiver IC Driver
*
* by Humphrey Hu
*
* v0.4
*
* Revisions:
* Humphrey Hu 2012-01-06 Initial implementation
* Humphrey Hu 2012-02-08 Added state transition methods
*
* Notes:
* No-Clock (sleep) RX listening mode not yet implemented
*/
#include "at86rf231.h"
#include "at86rf231_driver.h"
#include "ports.h"
#include "mac_packet.h"
#include "payload.h"
#include "spi.h" // SFRs
#include "radio.h" // Need radio status codes
#include "spi_controller.h"
#include "utils.h"
#include <string.h>
// Basic commands
#define TRX_CMD_RW (0xC0) // Register Write
#define TRX_CMD_RR (0x80) // Register Read
#define TRX_CMD_FW (0x60) // Frame Transmit Mode
#define TRX_CMD_FR (0x20) // Frame Receive Mode
#define TRX_CMD_SW (0x40) // SRAM Write.
#define TRX_CMD_SR (0x00) // SRAM Read.
// Based on 16-bit addressing for PAN and device and no
// auxiliary security header
// TODO: Move to appropriate header file, probably mac_packet.h
#define MAC_HEADER_LENGTH (9)
#define CRC_LENGTH (2)
#define FRAME_BUFFER_SIZE (128)
#define DEFAULT_CSMA_RETRIES (4) /** Number of times to attempt medium acquisition */
#define DEFAULT_FRAME_RETRIES (0) /** Number of times to attempt frame resend */
// =========== Function stubs =================================================
static void trxSpiCallback(unsigned int irq_cause);
static void trxFillBuffer(void);
static void trxReadBuffer(void);
static void setupSPI(void);
static inline void trxSetSlptr(unsigned char);
static void trxWriteReg(unsigned char addr, unsigned char val);
static unsigned char trxReadReg(unsigned char addr);
static void trxWriteSubReg(unsigned char addr, unsigned char mask, unsigned char pos, unsigned char val);
static unsigned char trxReadSubReg(unsigned char addr, unsigned char mask, unsigned char pos);
// =========== Static variables ===============================================
static unsigned char is_ready = 0; // Mostly for debugging - no checking so code is faster
static TrxIrqHandler irqCallback;
// See at86rf231.h
static tal_trx_status_t trx_state;
static unsigned char frame_buffer[FRAME_BUFFER_SIZE];
static unsigned char last_rssi;
static unsigned char last_ackd = 0;
// =========== Public functions ===============================================
void trxSetup(unsigned char cs)
{
// SPI setup
setupSPI(); // Set up SPI com port
spic1SetCallback(cs, &trxSpiCallback); // Configure callback for spi interrupts
trxReadReg(RG_IRQ_STATUS); // Clear pending interrupts
trxSetStateOff(); // Transition to TRX_OFF for configuring device
trxWriteSubReg(SR_IRQ_MASK, TRX_IRQ_TRX_END); // Interrupt at end of transceive
trxWriteSubReg(SR_SLOTTED_OPERATION, 0); // Disable slotted operation
trxWriteSubReg(SR_TX_AUTO_CRC_ON, 1); // Enable automatic TX CRC
trxWriteSubReg(SR_CLKM_CTRL, CLKM_NO_CLOCK); // No clock on CLKM pin
trxWriteSubReg(SR_MAX_CSMA_RETRIES, DEFAULT_CSMA_RETRIES); // Set CSMA attempts
trxWriteSubReg(SR_MAX_FRAME_RETRIES, DEFAULT_FRAME_RETRIES); // Set resend attempts
trxWriteSubReg(SR_RX_SAFE_MODE, 0); // Disable frame buffer protection
trxWriteSubReg(SR_AACK_FVN_MODE, FRAME_VERSION_IGNORED); // Ignore frame version
trxWriteSubReg(SR_SPI_CMD_MODE, SPI_CMD_MODE_MONITOR_PHY_RSSI); // First byte of SPI is RSSI register
trxSetStateIdle();
ConfigINT4(RISING_EDGE_INT & EXT_INT_ENABLE & EXT_INT_PRI_5); // Radio IC interrupt
last_rssi = 0;
is_ready = 1;
}
void trxReset(void) {
unsigned int i;
spic1Reset(); // Reset comm
trxWriteSubReg(SR_TRX_CMD, CMD_TRX_OFF); // Force to off state
i = 0;
while(i < 0xFFF0) {
if(trxReadSubReg(SR_TRX_STATUS) == TRX_OFF) { break; }
i++;
}
trx_state = TRX_OFF;
}
void trxCalibrate(void) {
trxWriteSubReg(SR_FTN_START, 1); // Begin calibration routine
while(trxReadSubReg(SR_FTN_START) != 0); // Wait for completion
}
void trxSetAddress(unsigned int addr) {
trxWriteReg(RG_SHORT_ADDR_0, (addr & 0xff));
trxWriteReg(RG_SHORT_ADDR_1, ((addr >> 8) & 0xff));
}
void trxSetPan(unsigned int pan) {
trxWriteReg(RG_PAN_ID_0, (pan & 0xff));
trxWriteReg(RG_PAN_ID_1, ((pan >> 8) & 0xff));
}
void trxSetChannel(unsigned char channel) {
trxWriteSubReg(SR_CHANNEL, channel);
}
void trxSetRetries(unsigned int retries) {
trxWriteSubReg(SR_MAX_FRAME_RETRIES, retries);
}
void trxSetIrqCallback(TrxIrqHandler handler) {
irqCallback = handler;
}
void trxReadId(unsigned char *id) {
id[0] = trxReadReg(RG_PART_NUM); // should be 3
id[1] = trxReadReg(RG_VERSION_NUM); // should be 2
id[2] = trxReadReg(RG_MAN_ID_1); // should be 0x1F
id[3] = trxReadReg(RG_MAN_ID_0); // should be 0
}
// TODO: Have to check if this is valid in extended operating mode or not
unsigned char trxReadRSSI(void) {
return 0x1F & last_rssi;
}
unsigned char trxReadED(void) {
return trxReadReg(RG_PHY_ED_LEVEL);
}
unsigned char trxGetLastACKd(void) {
return last_ackd;
}
void trxWriteFrameBuffer(MacPacket packet) {
unsigned int i;
unsigned char phy_len;
Payload pld;
// Linearize contents in buffer
i = 0;
phy_len = packet->payload_length + MAC_HEADER_LENGTH + CRC_LENGTH;
frame_buffer[i++] = phy_len; //packet->payload_length + MAC_HEADER_LENGTH + CRC_LENGTH;
frame_buffer[i++] = packet->frame_ctrl.val.byte.LB;
frame_buffer[i++] = packet->frame_ctrl.val.byte.HB;
frame_buffer[i++] = packet->seq_num;
frame_buffer[i++] = packet->dest_pan_id.byte.LB;
frame_buffer[i++] = packet->dest_pan_id.byte.HB;
frame_buffer[i++] = packet->dest_addr.byte.LB;
frame_buffer[i++] = packet->dest_addr.byte.HB;
frame_buffer[i++] = packet->src_addr.byte.LB;
frame_buffer[i++] = packet->src_addr.byte.HB;
pld = macGetPayload(packet);
if(pld == NULL) { return; }
memcpy(frame_buffer + i, payToString(pld), payGetPayloadLength(pld));
spic1BeginTransaction(TRX_CS);
spic1Transmit(TRX_CMD_FW);
spic1MassTransmit(phy_len, frame_buffer, phy_len*3); // 3*length microseconds timeout seems to work well
}
unsigned int trxReadFrameBuffer(MacPacket packet) {
// Read received data from DMA memory into buffer
return macReadFrame(frame_buffer, packet); // Decode frame data
}
unsigned int trxReadBufferDataLength(void) {
return macReadDataLength(frame_buffer);
}
void trxBeginTransmission(void) {
trxSetSlptr(1);
trxSetSlptr(0);
trx_state = BUSY_TX_ARET; // Update state accordingly
last_ackd = 0;
}
void trxSetStateTx(void) {
CRITICAL_SECTION_START;
if(trx_state == TX_ARET_ON) { // Fast return if already in desired state
CRITICAL_SECTION_END;
return;
}
trxWriteSubReg(SR_TRX_CMD, CMD_TX_ARET_ON); // Begin transition
while(trxReadSubReg(SR_TRX_STATUS) != TX_ARET_ON); // Wait for completion
trx_state = TX_ARET_ON; // Update state
CRITICAL_SECTION_END;
}
void trxSetStateRx(void) {
CRITICAL_SECTION_START;
if(trx_state == RX_AACK_ON) { // Fast return
CRITICAL_SECTION_END;
return;
}
trxWriteSubReg(SR_TRX_CMD, CMD_RX_AACK_ON); // Begin transition
while(trxReadSubReg(SR_TRX_STATUS) != RX_AACK_ON); // Wait for completion
trx_state = RX_AACK_ON; // Update state
CRITICAL_SECTION_END;
}
void trxSetStateIdle(void) {
CRITICAL_SECTION_START;
if(trx_state == PLL_ON) { // Fast return
CRITICAL_SECTION_END;
return;
}
trxWriteSubReg(SR_TRX_CMD, CMD_PLL_ON); // Begin transition
while(trxReadSubReg(SR_TRX_STATUS) != PLL_ON); // Wait for completion
trx_state = PLL_ON; // Update state
CRITICAL_SECTION_END;
}
void trxSetStateOff(void) {
CRITICAL_SECTION_START;
if(trx_state == TRX_OFF) { // Fast return
CRITICAL_SECTION_END;
return;
}
trxWriteSubReg(SR_TRX_CMD, CMD_TRX_OFF); // Begin transition
while(trxReadSubReg(SR_TRX_STATUS) != TRX_OFF); // Wait for completion
trx_state = TRX_OFF; // Update state
CRITICAL_SECTION_END;
}
// =========== Private functions ==============================================
/**
* Writes a byte to a transceiver register.
*
* @param addr 8-bit register address. Use definitions in at86rf231.h
* @param val 8-bit value to write to the register
*/
static void trxWriteReg(unsigned char addr, unsigned char val) {
spic1BeginTransaction(TRX_CS);
spic1Transmit(TRX_CMD_RW | addr);
spic1Transmit(val);
spic1EndTransaction();
}
/**
* Reads a byte from a transceiver register.
*
* @param addr 8-bit register address. Use definitions in at86rf231.h
* @return Read register contents
*/
static unsigned char trxReadReg(unsigned char addr) {
unsigned char c;
spic1BeginTransaction(TRX_CS);
spic1Transmit(TRX_CMD_RR | addr);
c = spic1Receive();
spic1EndTransaction();
return c;
}
/**
* Write bits to a transceiver subregister.
*
* @param addr 8-bit main register address. Use definitions in at86rf231.h
* @param mask Bitfield mask to apply to register value
* @param pos Subregister position offset from main register LSB
* @param val Value to write to subregister
*/
static void trxWriteSubReg(unsigned char addr, unsigned char mask, unsigned char pos, unsigned char val) {
unsigned char temp;
temp = trxReadReg(addr);
temp &= ~mask;
val <<= pos;
val &= mask;
val |= temp;
trxWriteReg(addr, val);
}
/**
* Read bits from a transceiver subregister.
*
* @param addr 8-bit main register address. Use definitions in at86rf231.h
* @param mask Bitfield mask to apply to register value
* @param pos Subregister position offset from main register LSB
* @return Value read from subregister.
*/
static unsigned char trxReadSubReg(unsigned char addr, unsigned char mask, unsigned char pos) {
unsigned char data;
data = trxReadReg(addr);
data &= mask;
data >>= pos;
return data;
}
void __attribute__((interrupt, no_auto_psv)) _INT4Interrupt(void) {
unsigned char irq_cause, status;
irq_cause = 0;
status = 0xFF;
irq_cause = trxReadReg(RG_IRQ_STATUS); // Read and clear irq source
if(irq_cause & TRX_IRQ_TRX_END) {
status = trxReadSubReg(SR_TRAC_STATUS); // Determine transaction status
// Transmit complete case
if(trx_state == BUSY_TX_ARET) {
trx_state = TX_ARET_ON; // State transition
if(status == TRAC_SUCCESS) {
last_ackd = 1;
irqCallback(RADIO_TX_SUCCESS);
} else if(status == TRAC_SUCCESS_DATA_PENDING) {
irqCallback(RADIO_TX_SUCCESS);
} else if(status == TRAC_CHANNEL_ACCESS_FAILURE) {
irqCallback(RADIO_TX_FAILURE);
} else if(status == TRAC_NO_ACK) {
last_ackd = 0;
irqCallback(RADIO_TX_FAILURE);
} else if(status == TRAC_INVALID) {
irqCallback(RADIO_TX_FAILURE);
}
} else if(trx_state == RX_AACK_ON) {
// crc_valid = trxReadSubReg(SR_RX_CRC_VALID);
// if(!crc_valid) {
// Drop packet if invalid
// }
if(status == TRAC_SUCCESS) {
trxFillBuffer();
irqCallback(RADIO_RX_START);
} else if(status == TRAC_WAIT_FOR_ACK) {
trxFillBuffer();
irqCallback(RADIO_RX_START);
// TODO: Add support for proper slotted ACK operation
} else if(status == TRAC_INVALID) {
irqCallback(RADIO_RX_FAILURE);
}
}
}
_INT4IF = 0; // Clear interrupt flag
}
static void trxSpiCallback(unsigned int interrupt_code) {
if(interrupt_code == SPIC_TRANS_SUCCESS) {
spic1EndTransaction(); // End previous transaction
if(trx_state == RX_AACK_ON) {
trxReadBuffer();
irqCallback(RADIO_RX_SUCCESS);
} else if(trx_state == TX_ARET_ON) {
// Packet was successfully transferred to the radio buffer
// Do something?
}
} else if(interrupt_code == SPIC_TRANS_TIMEOUT) {
// This is indicative of some form of failure!
spic1Reset();
irqCallback(RADIO_HW_FAILURE);
}
}
// TODO: Optimize to read only packet length, not whole buffer
/**
* Begin transfer of frame data from transceiver into DMA buffer
*/
static void trxFillBuffer(void) {
spic1BeginTransaction(TRX_CS);
last_rssi = spic1Transmit(TRX_CMD_FR); // Begin write (returns RSSI because of SPI_CMD_MODE)
//current_phy_len = spic1Receive(); // Read physical frame size
//spic1MassTransmit(current_phy_len, NULL, current_phy_len*3); // DMA rest into buffer
spic1MassTransmit(FRAME_BUFFER_SIZE, NULL, FRAME_BUFFER_SIZE*3); // DMA entire frame buffer into memory
}
/**
* Copy frame buffer contents from DMA into static software buffer
*/
static void trxReadBuffer(void) {
spic1ReadBuffer(FRAME_BUFFER_SIZE, frame_buffer);
}
static void setupSPI(void)
{
spicSetupChannel1(TRX_CS,
ENABLE_SCK_PIN &
ENABLE_SDO_PIN &
SPI_MODE16_OFF &
SPI_SMP_OFF &
SPI_CKE_ON &
SLAVE_ENABLE_OFF &
CLK_POL_ACTIVE_HIGH &
MASTER_ENABLE_ON &
PRI_PRESCAL_1_1 &
SEC_PRESCAL_6_1);
}
static inline void trxSetSlptr(unsigned char val) {
SLPTR = val;
Nop();
Nop();
}