* - 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 Technische Universität Berlin nor the names
+ * - Neither the name of the Titanium Mirror, Inc. nor the names
* of its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
* USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
-
+
/**
- * Spi implementation using a USCI device.
+ * Spi implementation using a USCI device. When being used as a SPI slave, the
+ * CSn interface should be wired to the chip select driven by the SPI master so
+ * the module can know when a communications session is terminated unexpectedly.
*
* TODO: Implement error checking via UCxxSTAT
*
+ * NOTE: Define NO_REN_ON_SPI to disable PxREN bits when SPI is acquired.
+ *
* @author R. Steve McKown <rsmckown@gmail.com>
*/
-
+
generic module Msp430SpiP(uint16_t blockSize) {
provides {
interface SpiByte;
uses {
interface HplMsp430UsciReg as Registers;
interface HplMsp430UsciInt as Interrupts;
+ interface GeneralIO as CSn;
interface HplMsp430GeneralIO as STE;
interface HplMsp430GeneralIO as SIMO;
interface HplMsp430GeneralIO as SOMI;
BLOCKSIZE_DEFAULT = 64,
/* Bit positions in m_pins */
- PINS_STE = 1,
+ PINS_STE = 0,
PINS_SOMI,
PINS_SIMO,
PINS_CLK,
+#ifdef NO_REN_ON_SPI
+ PINS_RENADDR, /* This gets added to store the PxREN bit */
+#endif
};
uint8_t m_pins;
- uint8_t* m_txBuf;
- uint8_t* m_rxBuf;
- uint16_t m_len;
- uint16_t m_pos;
+ norace uint8_t* m_txBuf;
+ norace uint8_t* m_rxBuf;
+ norace uint16_t m_len;
+ norace uint16_t m_pos;
- inline bool is4pin() /* true if the SPI bus is in 4-pin mode */
+ inline bool is4pin() /* TRUE if the SPI bus is in 4-pin mode */
{
return (call Registers.getCtl0(UCMODE_3)) != UCMODE_0;
}
- inline bool isBusy() /* true if a SPI transaction is in progress */
+ inline bool isBusy() /* TRUE if a SPI transaction is in progress */
{
atomic return m_len != 0;
}
/* Configure pins for SPI, saving prior pin states */
m_pins = 0;
+#ifdef NO_REN_ON_SPI
+ /* - First save off and disable PxREN bits */
+ if (is4pin() && call STE.isRen()) {
+ m_pins |= (1 << (PINS_STE + PINS_RENADDR));
+ call STE.disableRen();
+ }
+ if (call SOMI.isRen()) {
+ m_pins |= (1 << (PINS_SOMI + PINS_RENADDR));
+ call SOMI.disableRen();
+ }
+ if (call SIMO.isRen()) {
+ m_pins |= (1 << (PINS_SIMO + PINS_RENADDR));
+ call SIMO.disableRen();
+ }
+ if (call CLK.isRen()) {
+ m_pins |= (1 << (PINS_CLK + PINS_RENADDR));
+ call CLK.disableRen();
+ }
+#endif
+ /* - Then save off IOFunc state and enable ModuleFunc */
if (is4pin() && call STE.isIOFunc()) {
m_pins |= (1 << PINS_STE);
call STE.selectModuleFunc();
}
}
+ task void signalSendDone()
+ {
+ error_t error = (m_pos == m_len) ? SUCCESS : FAIL;
+
+ m_len = 0;
+ atomic signal SpiPacket.sendDone(m_txBuf, m_rxBuf, m_pos, error);
+ }
+
async command void ResourceConfigure.unconfigure()
{
atomic {
/* Disable the device */
call Registers.setCtl1(UCSWRST);
+ /* Ensure SpiPacket.sendDone is posted if a trx was in progress */
+ if (m_len)
+ post signalSendDone();
+
/* Clear interrupts and interrupt flags. We only used Rx */
call Registers.clrIeRx();
call Registers.clrIfgRx();
/* Restore pins to their pre-configure state */
+ /* - First restore IOFunc states */
if (is4pin() && (m_pins & (1 << PINS_STE)))
call STE.selectIOFunc();
if (m_pins & (1 << PINS_SIMO))
call SOMI.selectIOFunc();
if (m_pins & (1 << PINS_CLK))
call CLK.selectIOFunc();
+ /* - Then restore PxREN bits */
+#ifdef NO_REN_ON_SPI
+ if (is4pin() && (m_pins & (1 << (PINS_STE + PINS_RENADDR))))
+ call STE.enableRen();
+ if (m_pins & (1 << (PINS_SIMO + PINS_RENADDR)))
+ call SIMO.enableRen();
+ if (m_pins & (1 << (PINS_SOMI + PINS_RENADDR)))
+ call SOMI.enableRen();
+ if (m_pins & (1 << (PINS_CLK + PINS_RENADDR)))
+ call CLK.enableRen();
+#endif
+ }
+ }
+
+ bool waitOnRx()
+ {
+ for (;;) {
+ if (call Registers.getIfgRx())
+ return TRUE;
+ if (call CSn.get()) /* SPI master has unselected us */
+ return FALSE;
+ }
+ }
+
+ bool waitOnTx()
+ {
+ for (;;) {
+ if (call Registers.getIfgTx())
+ return TRUE;
+ if (call CSn.get()) /* SPI master has unselected us */
+ return FALSE;
}
}
async command uint8_t SpiByte.write(uint8_t byte)
{
- if (isBusy())
- return 0;
- else {
- while (!call Registers.getIfgTx() && !call Registers.getCtl1(UCSWRST));
- call Registers.setTxbuf(byte);
- while(!call Registers.getIfgRx() && !call Registers.getCtl1(UCSWRST));
- return call Registers.getRxbuf();
+ atomic {
+ if (isBusy())
+ return 0;
+ else {
+ waitOnTx();
+ call Registers.setTxbuf(byte);
+ waitOnRx();
+ return call Registers.getRxbuf();
+ }
}
}
- void sendData()
+ /* If we are a slave, return FALSE if the master has unasserted CSn. */
+ bool sendData()
{
- /* We don't need to check Registers.getIfgTx() (aks UCxxTXIFG), as
- * sendData() is only called after peripheral init or receipt of the rx()
- * interrupt. SPI on msp430 guarantees UCxxTXIFG is asserted in both of
- * these cases.
- */
atomic {
uint16_t end = m_pos + (blockSize ? blockSize : BLOCKSIZE_DEFAULT);
uint8_t tmp;
if (end > m_len)
end = m_len;
- call Registers.setTxbuf((m_txBuf) ? m_txBuf[m_pos] : 0);
+ waitOnTx(); /* Don't assume that the last tx is done already */
+ call Registers.setTxbuf(m_txBuf ? m_txBuf[m_pos] : 0);
while (++m_pos < end) {
- while (!call Registers.getIfgRx());
+ waitOnRx();
+ tmp = call Registers.getRxbuf();
if (m_rxBuf)
- m_rxBuf[m_pos - 1] = call Registers.getRxbuf();
- else
- tmp = call Registers.getRxbuf();
- call Registers.setTxbuf((m_txBuf) ? m_txBuf[m_pos] : 0);
+ m_rxBuf[m_pos - 1] = tmp;
+ waitOnTx();
+ call Registers.setTxbuf(m_txBuf ? m_txBuf[m_pos] : 0);
}
+ return call CSn.get() ? FALSE : TRUE;
}
}
if (isBusy() || (!txBuf && !rxBuf) || len == 0)
return FAIL;
else {
- atomic {
- m_txBuf = txBuf;
- m_rxBuf = rxBuf;
- m_len = len;
- m_pos = 0;
+ m_txBuf = txBuf;
+ m_rxBuf = rxBuf;
+ m_len = len;
+ m_pos = 0;
+ if (sendData())
call Registers.setIeRx();
- sendData();
- return SUCCESS;
- }
+ else
+ post signalSendDone();
+ return SUCCESS;
}
}
async event void Interrupts.tx() {}
- task void signalSendDone()
- {
- atomic {
- m_len = 0;
- signal SpiPacket.sendDone(m_txBuf, m_rxBuf, m_len, SUCCESS);
- }
- }
-
async event void Interrupts.rx(uint8_t byte)
{
if (m_rxBuf)
- m_rxBuf[m_pos - 1] = call Registers.getRxbuf();
- else
- call Registers.getRxbuf();
+ m_rxBuf[m_pos - 1] = byte;
- if (m_pos < m_len)
- sendData();
- else {
- call Registers.clrIeRx();
- post signalSendDone(); /* Don't signal from ISR context */
+ if (m_pos < m_len) {
+ if (sendData())
+ return;
}
+ call Registers.clrIeRx();
+ post signalSendDone();
}
default async event void SpiPacket.sendDone(uint8_t*, uint8_t*, uint16_t,
default async command const msp430_usci_spi_t* Configure.get()
{
- const static msp430_usci_spi_t def = {
+ const static msp430_usci_spi_t def = {
ctl0: UCSYNC | UCMODE_0 | UCMST, /* 3-pin SPI mode 0, LSB first */
ctl1: UCSWRST | UCSSEL_3, /* SPI clock source is SMCLK */
brx: 10, /* SPI clock=SMCLK/10; ~105KHz if SMCLK=1MHz */
async event void Interrupts.i2cStop() {}
async event void Interrupts.i2cCal() {}
async event void Interrupts.brk() {}
- async event void Interrupts.i2cNak() {}
+ async event void Interrupts.i2cNack() {}
+
+ default async command bool CSn.get() { return FALSE; }
}