arm/at91/at91spi.c

1.1.20.1  yamt /*	$Id: at91spi.c,v 1.1.20.1 2009/05/04 08:10:39 yamt Exp $	*/
1.1.20.1  yamt /*	$NetBSD: at91spi.c,v 1.1.20.1 2009/05/04 08:10:39 yamt Exp $	*/
1.1.20.1  yamt
1.1.20.1  yamt /*-
1.1.20.1  yamt  * Copyright (c) 2007 Embedtronics Oy. All rights reserved.
1.1.20.1  yamt  *
1.1.20.1  yamt  * Based on arch/mips/alchemy/dev/auspi.c,
1.1.20.1  yamt  * Copyright (c) 2006 Urbana-Champaign Independent Media Center.
1.1.20.1  yamt  * Copyright (c) 2006 Garrett D'Amore.
1.1.20.1  yamt  * All rights reserved.
1.1.20.1  yamt  *
1.1.20.1  yamt  * Portions of this code were written by Garrett D'Amore for the
1.1.20.1  yamt  * Champaign-Urbana Community Wireless Network Project.
1.1.20.1  yamt  *
1.1.20.1  yamt  * Redistribution and use in source and binary forms, with or
1.1.20.1  yamt  * without modification, are permitted provided that the following
1.1.20.1  yamt  * conditions are met:
1.1.20.1  yamt  * 1. Redistributions of source code must retain the above copyright
1.1.20.1  yamt  *    notice, this list of conditions and the following disclaimer.
1.1.20.1  yamt  * 2. Redistributions in binary form must reproduce the above
1.1.20.1  yamt  *    copyright notice, this list of conditions and the following
1.1.20.1  yamt  *    disclaimer in the documentation and/or other materials provided
1.1.20.1  yamt  *    with the distribution.
1.1.20.1  yamt  * 3. All advertising materials mentioning features or use of this
1.1.20.1  yamt  *    software must display the following acknowledgements:
1.1.20.1  yamt  *      This product includes software developed by the Urbana-Champaign
1.1.20.1  yamt  *      Independent Media Center.
1.1.20.1  yamt  *	This product includes software developed by Garrett D'Amore.
1.1.20.1  yamt  * 4. Urbana-Champaign Independent Media Center's name and Garrett
1.1.20.1  yamt  *    D'Amore's name may not be used to endorse or promote products
1.1.20.1  yamt  *    derived from this software without specific prior written permission.
1.1.20.1  yamt  *
1.1.20.1  yamt  * THIS SOFTWARE IS PROVIDED BY THE URBANA-CHAMPAIGN INDEPENDENT
1.1.20.1  yamt  * MEDIA CENTER AND GARRETT D'AMORE ``AS IS'' AND ANY EXPRESS OR
1.1.20.1  yamt  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
1.1.20.1  yamt  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1.20.1  yamt  * ARE DISCLAIMED.  IN NO EVENT SHALL THE URBANA-CHAMPAIGN INDEPENDENT
1.1.20.1  yamt  * MEDIA CENTER OR GARRETT D'AMORE BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1.20.1  yamt  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.1.20.1  yamt  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
1.1.20.1  yamt  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
1.1.20.1  yamt  * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
1.1.20.1  yamt  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1.20.1  yamt  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
1.1.20.1  yamt  * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1.20.1  yamt  */
1.1.20.1  yamt
1.1.20.1  yamt #include <sys/cdefs.h>
1.1.20.1  yamt __KERNEL_RCSID(0, "$NetBSD: at91spi.c,v 1.1.20.1 2009/05/04 08:10:39 yamt Exp $");
1.1.20.1  yamt
1.1.20.1  yamt #include "locators.h"
1.1.20.1  yamt
1.1.20.1  yamt #include <sys/param.h>
1.1.20.1  yamt #include <sys/systm.h>
1.1.20.1  yamt #include <sys/kernel.h>
1.1.20.1  yamt #include <sys/device.h>
1.1.20.1  yamt #include <sys/errno.h>
1.1.20.1  yamt #include <sys/proc.h>
1.1.20.1  yamt
1.1.20.1  yamt #include <machine/bus.h>
1.1.20.1  yamt #include <machine/cpu.h>
1.1.20.1  yamt #include <machine/vmparam.h>
1.1.20.1  yamt #include <sys/inttypes.h>
1.1.20.1  yamt
1.1.20.1  yamt #include <arm/at91/at91var.h>
1.1.20.1  yamt #include <arm/at91/at91reg.h>
1.1.20.1  yamt #include <arm/at91/at91spivar.h>
1.1.20.1  yamt #include <arm/at91/at91spireg.h>
1.1.20.1  yamt
1.1.20.1  yamt #define	at91spi_select(sc, slave)	\
1.1.20.1  yamt 	(sc)->sc_md->select_slave((sc), (slave))
1.1.20.1  yamt
1.1.20.1  yamt #define	STATIC
1.1.20.1  yamt
1.1.20.1  yamt //#define	AT91SPI_DEBUG	4
1.1.20.1  yamt
1.1.20.1  yamt #ifdef	AT91SPI_DEBUG
1.1.20.1  yamt int at91spi_debug = AT91SPI_DEBUG;
1.1.20.1  yamt #define	DPRINTFN(n,x)	if (at91spi_debug>(n)) printf x;
1.1.20.1  yamt #else
1.1.20.1  yamt #define	DPRINTFN(n,x)
1.1.20.1  yamt #endif
1.1.20.1  yamt
1.1.20.1  yamt STATIC int at91spi_intr(void *);
1.1.20.1  yamt
1.1.20.1  yamt /* SPI service routines */
1.1.20.1  yamt STATIC int at91spi_configure(void *, int, int, int);
1.1.20.1  yamt STATIC int at91spi_transfer(void *, struct spi_transfer *);
1.1.20.1  yamt STATIC void at91spi_xfer(struct at91spi_softc *sc, int start);
1.1.20.1  yamt
1.1.20.1  yamt /* internal stuff */
1.1.20.1  yamt STATIC void at91spi_done(struct at91spi_softc *, int);
1.1.20.1  yamt STATIC void at91spi_send(struct at91spi_softc *);
1.1.20.1  yamt STATIC void at91spi_recv(struct at91spi_softc *);
1.1.20.1  yamt STATIC void at91spi_sched(struct at91spi_softc *);
1.1.20.1  yamt
1.1.20.1  yamt #define	GETREG(sc, x)					\
1.1.20.1  yamt 	bus_space_read_4(sc->sc_iot, sc->sc_ioh, x)
1.1.20.1  yamt #define	PUTREG(sc, x, v)				\
1.1.20.1  yamt 	bus_space_write_4(sc->sc_iot, sc->sc_ioh, x, v)
1.1.20.1  yamt
1.1.20.1  yamt void
1.1.20.1  yamt at91spi_attach_common(device_t parent, device_t self, void *aux,
1.1.20.1  yamt 		      at91spi_machdep_tag_t md)
1.1.20.1  yamt {
1.1.20.1  yamt 	struct at91spi_softc *sc = device_private(self);
1.1.20.1  yamt 	struct at91bus_attach_args *sa = aux;
1.1.20.1  yamt 	struct spibus_attach_args sba;
1.1.20.1  yamt 	bus_dma_segment_t segs;
1.1.20.1  yamt 	int rsegs, err;
1.1.20.1  yamt
1.1.20.1  yamt 	aprint_normal(": AT91 SPI Controller\n");
1.1.20.1  yamt
1.1.20.1  yamt 	sc->sc_dev = self;
1.1.20.1  yamt 	sc->sc_iot = sa->sa_iot;
1.1.20.1  yamt 	sc->sc_pid = sa->sa_pid;
1.1.20.1  yamt 	sc->sc_dmat = sa->sa_dmat;
1.1.20.1  yamt 	sc->sc_md = md;
1.1.20.1  yamt
1.1.20.1  yamt 	if (bus_space_map(sa->sa_iot, sa->sa_addr, sa->sa_size, 0, &sc->sc_ioh))
1.1.20.1  yamt 		panic("%s: Cannot map registers", device_xname(self));
1.1.20.1  yamt
1.1.20.1  yamt 	/* we want to use dma, so allocate dma memory: */
1.1.20.1  yamt 	err = bus_dmamem_alloc(sc->sc_dmat, PAGE_SIZE, 0, PAGE_SIZE,
1.1.20.1  yamt 			       &segs, 1, &rsegs, BUS_DMA_WAITOK);
1.1.20.1  yamt 	if (err == 0) {
1.1.20.1  yamt 		err = bus_dmamem_map(sc->sc_dmat, &segs, 1, PAGE_SIZE,
1.1.20.1  yamt 				     &sc->sc_dmapage,
1.1.20.1  yamt 				     BUS_DMA_WAITOK);
1.1.20.1  yamt 	}
1.1.20.1  yamt 	if (err == 0) {
1.1.20.1  yamt 		err = bus_dmamap_create(sc->sc_dmat, PAGE_SIZE, 1,
1.1.20.1  yamt 					 PAGE_SIZE, 0, BUS_DMA_WAITOK,
1.1.20.1  yamt 					 &sc->sc_dmamap);
1.1.20.1  yamt 	}
1.1.20.1  yamt 	if (err == 0) {
1.1.20.1  yamt 		err = bus_dmamap_load(sc->sc_dmat, sc->sc_dmamap,
1.1.20.1  yamt 				      sc->sc_dmapage, PAGE_SIZE, NULL,
1.1.20.1  yamt 				      BUS_DMA_WAITOK);
1.1.20.1  yamt 	}
1.1.20.1  yamt 	if (err != 0) {
1.1.20.1  yamt 		panic("%s: Cannot get DMA memory", device_xname(sc->sc_dev));
1.1.20.1  yamt 	}
1.1.20.1  yamt 	sc->sc_dmaaddr = sc->sc_dmamap->dm_segs[0].ds_addr;
1.1.20.1  yamt
1.1.20.1  yamt 	/*
1.1.20.1  yamt 	 * Initialize SPI controller
1.1.20.1  yamt 	 */
1.1.20.1  yamt 	sc->sc_spi.sct_cookie = sc;
1.1.20.1  yamt 	sc->sc_spi.sct_configure = at91spi_configure;
1.1.20.1  yamt 	sc->sc_spi.sct_transfer = at91spi_transfer;
1.1.20.1  yamt
1.1.20.1  yamt 	//sc->sc_spi.sct_nslaves must have been initialized by machdep code
1.1.20.1  yamt 	if (!sc->sc_spi.sct_nslaves) {
1.1.20.1  yamt 		aprint_error("%s: no slaves!\n", device_xname(sc->sc_dev));
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	sba.sba_controller = &sc->sc_spi;
1.1.20.1  yamt
1.1.20.1  yamt 	/* initialize the queue */
1.1.20.1  yamt 	SIMPLEQ_INIT(&sc->sc_q);
1.1.20.1  yamt
1.1.20.1  yamt 	/* reset the SPI */
1.1.20.1  yamt 	at91_peripheral_clock(sc->sc_pid, 1);
1.1.20.1  yamt 	PUTREG(sc, SPI_CR, SPI_CR_SWRST);
1.1.20.1  yamt 	delay(100);
1.1.20.1  yamt
1.1.20.1  yamt 	/* be paranoid and make sure the PDC is dead */
1.1.20.1  yamt 	PUTREG(sc, SPI_PDC_BASE + PDC_PTCR, PDC_PTCR_TXTDIS | PDC_PTCR_RXTDIS);
1.1.20.1  yamt 	PUTREG(sc, SPI_PDC_BASE + PDC_RNCR, 0);
1.1.20.1  yamt 	PUTREG(sc, SPI_PDC_BASE + PDC_RCR, 0);
1.1.20.1  yamt 	PUTREG(sc, SPI_PDC_BASE + PDC_TNCR, 0);
1.1.20.1  yamt 	PUTREG(sc, SPI_PDC_BASE + PDC_TCR, 0);
1.1.20.1  yamt
1.1.20.1  yamt 	// configure SPI:
1.1.20.1  yamt 	PUTREG(sc, SPI_IDR, -1);
1.1.20.1  yamt 	PUTREG(sc, SPI_CSR(0), SPI_CSR_SCBR | SPI_CSR_BITS_8);
1.1.20.1  yamt 	PUTREG(sc, SPI_CSR(1), SPI_CSR_SCBR | SPI_CSR_BITS_8);
1.1.20.1  yamt 	PUTREG(sc, SPI_CSR(2), SPI_CSR_SCBR | SPI_CSR_BITS_8);
1.1.20.1  yamt 	PUTREG(sc, SPI_CSR(3), SPI_CSR_SCBR | SPI_CSR_BITS_8);
1.1.20.1  yamt 	PUTREG(sc, SPI_MR, SPI_MR_MODFDIS/* <- machdep? */ | SPI_MR_MSTR);
1.1.20.1  yamt
1.1.20.1  yamt 	/* enable device interrupts */
1.1.20.1  yamt 	sc->sc_ih = at91_intr_establish(sc->sc_pid, IPL_BIO, INTR_HIGH_LEVEL,
1.1.20.1  yamt 					at91spi_intr, sc);
1.1.20.1  yamt
1.1.20.1  yamt 	/* enable SPI */
1.1.20.1  yamt 	PUTREG(sc, SPI_CR, SPI_CR_SPIEN);
1.1.20.1  yamt 	if (GETREG(sc, SPI_SR) & SPI_SR_RDRF)
1.1.20.1  yamt 		(void)GETREG(sc, SPI_RDR);
1.1.20.1  yamt
1.1.20.1  yamt 	PUTREG(sc, SPI_PDC_BASE + PDC_PTCR, PDC_PTCR_TXTEN | PDC_PTCR_RXTEN);
1.1.20.1  yamt
1.1.20.1  yamt 	/* attach slave devices */
1.1.20.1  yamt 	(void) config_found_ia(sc->sc_dev, "spibus", &sba, spibus_print);
1.1.20.1  yamt }
1.1.20.1  yamt
1.1.20.1  yamt int
1.1.20.1  yamt at91spi_configure(void *arg, int slave, int mode, int speed)
1.1.20.1  yamt {
1.1.20.1  yamt 	struct at91spi_softc *sc = arg;
1.1.20.1  yamt 	uint		scbr;
1.1.20.1  yamt 	uint32_t	csr;
1.1.20.1  yamt
1.1.20.1  yamt 	/* setup interrupt registers */
1.1.20.1  yamt 	PUTREG(sc, SPI_IDR, -1);	/* disable interrupts for now	*/
1.1.20.1  yamt
1.1.20.1  yamt 	csr = GETREG(sc, SPI_CSR(0));	/* read register		*/
1.1.20.1  yamt 	csr &= SPI_CSR_RESERVED;	/* keep reserved bits		*/
1.1.20.1  yamt 	csr |= SPI_CSR_BITS_8;		/* assume 8 bit transfers	*/
1.1.20.1  yamt
1.1.20.1  yamt 	/*
1.1.20.1  yamt 	 * Calculate clock divider
1.1.20.1  yamt 	 */
1.1.20.1  yamt 	scbr = speed ? ((AT91_MSTCLK + speed - 1) / speed + 1) & ~1 : -1;
1.1.20.1  yamt 	if (scbr > 0xFF) {
1.1.20.1  yamt 		aprint_error("%s: speed %d not supported\n",
1.1.20.1  yamt 		    device_xname(sc->sc_dev), speed);
1.1.20.1  yamt 		return EINVAL;
1.1.20.1  yamt 	}
1.1.20.1  yamt 	csr |= scbr << SPI_CSR_SCBR_SHIFT;
1.1.20.1  yamt
1.1.20.1  yamt 	/*
1.1.20.1  yamt 	 * I'm not entirely confident that these values are correct.
1.1.20.1  yamt 	 * But at least mode 0 appears to work properly with the
1.1.20.1  yamt 	 * devices I have tested.  The documentation seems to suggest
1.1.20.1  yamt 	 * that I have the meaning of the clock delay bit inverted.
1.1.20.1  yamt 	 */
1.1.20.1  yamt 	switch (mode) {
1.1.20.1  yamt 	case SPI_MODE_0:
1.1.20.1  yamt 		csr |= SPI_CSR_NCPHA;		/* CPHA = 0, CPOL = 0 */
1.1.20.1  yamt 		break;
1.1.20.1  yamt 	case SPI_MODE_1:
1.1.20.1  yamt 		csr |= 0;			/* CPHA = 1, CPOL = 0 */
1.1.20.1  yamt 		break;
1.1.20.1  yamt 	case SPI_MODE_2:
1.1.20.1  yamt 		csr |= SPI_CSR_NCPHA		/* CPHA = 0, CPOL = 1 */
1.1.20.1  yamt 		       | SPI_CSR_CPOL;
1.1.20.1  yamt 		break;
1.1.20.1  yamt 	case SPI_MODE_3:
1.1.20.1  yamt 		csr |= SPI_CSR_CPOL;		/* CPHA = 1, CPOL = 1 */
1.1.20.1  yamt 		break;
1.1.20.1  yamt 	default:
1.1.20.1  yamt 		return EINVAL;
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	PUTREG(sc, SPI_CSR(0), csr);
1.1.20.1  yamt
1.1.20.1  yamt 	DPRINTFN(3, ("%s: slave %d mode %d speed %d, csr=0x%08"PRIX32"\n",
1.1.20.1  yamt 		     __FUNCTION__, slave, mode, speed, csr));
1.1.20.1  yamt
1.1.20.1  yamt #if 0
1.1.20.1  yamt 	// wait until ready!?
1.1.20.1  yamt 	for (i = 1000000; i; i -= 10) {
1.1.20.1  yamt 		if (GETREG(sc, AUPSC_SPISTAT) & SPISTAT_DR) {
1.1.20.1  yamt 			return 0;
1.1.20.1  yamt 		}
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	return ETIMEDOUT;
1.1.20.1  yamt #else
1.1.20.1  yamt 	return 0;
1.1.20.1  yamt #endif
1.1.20.1  yamt }
1.1.20.1  yamt
1.1.20.1  yamt #define	HALF_BUF_SIZE	(PAGE_SIZE / 2)
1.1.20.1  yamt
1.1.20.1  yamt void
1.1.20.1  yamt at91spi_xfer(struct at91spi_softc *sc, int start)
1.1.20.1  yamt {
1.1.20.1  yamt 	struct spi_chunk	*chunk;
1.1.20.1  yamt 	int			len;
1.1.20.1  yamt 	uint32_t		sr;
1.1.20.1  yamt
1.1.20.1  yamt 	DPRINTFN(3, ("%s: sc=%p start=%d\n", __FUNCTION__, sc, start));
1.1.20.1  yamt
1.1.20.1  yamt 	/* so ready to transmit more / anything received? */
1.1.20.1  yamt 	if (((sr = GETREG(sc, SPI_SR)) & (SPI_SR_ENDTX | SPI_SR_ENDRX)) != (SPI_SR_ENDTX | SPI_SR_ENDRX)) {
1.1.20.1  yamt 		/* not ready, get out */
1.1.20.1  yamt 		DPRINTFN(3, ("%s: sc=%p start=%d sr=%"PRIX32"\n", __FUNCTION__, sc, start, sr));
1.1.20.1  yamt 		return;
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	DPRINTFN(3, ("%s: sr=%"PRIX32"\n", __FUNCTION__, sr));
1.1.20.1  yamt
1.1.20.1  yamt 	if (!start) {
1.1.20.1  yamt 		// ok, something has been transfered, synchronize..
1.1.20.1  yamt 		int offs = sc->sc_dmaoffs ^ HALF_BUF_SIZE;
1.1.20.1  yamt 		bus_dmamap_sync(sc->sc_dmat, sc->sc_dmamap, offs, HALF_BUF_SIZE,
1.1.20.1  yamt 				BUS_DMASYNC_POSTWRITE | BUS_DMASYNC_POSTREAD);
1.1.20.1  yamt
1.1.20.1  yamt 		if ((chunk = sc->sc_rchunk) != NULL) {
1.1.20.1  yamt 			if ((len = chunk->chunk_rresid) > HALF_BUF_SIZE)
1.1.20.1  yamt 				len = HALF_BUF_SIZE;
1.1.20.1  yamt 			if (chunk->chunk_rptr && len > 0) {
1.1.20.1  yamt 				memcpy(chunk->chunk_rptr, (const uint8_t *)sc->sc_dmapage + offs, len);
1.1.20.1  yamt 				chunk->chunk_rptr += len;
1.1.20.1  yamt 			}
1.1.20.1  yamt 			if ((chunk->chunk_rresid -= len) <= 0) {
1.1.20.1  yamt 				// done with this chunk, get next
1.1.20.1  yamt 				sc->sc_rchunk = chunk->chunk_next;
1.1.20.1  yamt 			}
1.1.20.1  yamt 		}
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	/* start transmitting next chunk: */
1.1.20.1  yamt 	if ((chunk = sc->sc_wchunk) != NULL) {
1.1.20.1  yamt
1.1.20.1  yamt 		/* make sure we transmit just half buffer at a time */
1.1.20.1  yamt 		len = MIN(chunk->chunk_wresid, HALF_BUF_SIZE);
1.1.20.1  yamt
1.1.20.1  yamt 		// setup outgoing data
1.1.20.1  yamt 		if (chunk->chunk_wptr && len > 0) {
1.1.20.1  yamt 			memcpy((uint8_t *)sc->sc_dmapage + sc->sc_dmaoffs, chunk->chunk_wptr, len);
1.1.20.1  yamt 			chunk->chunk_wptr += len;
1.1.20.1  yamt 		} else {
1.1.20.1  yamt 			memset((uint8_t *)sc->sc_dmapage + sc->sc_dmaoffs, 0, len);
1.1.20.1  yamt 		}
1.1.20.1  yamt
1.1.20.1  yamt 		/* advance to next transfer if it's time to */
1.1.20.1  yamt 		if ((chunk->chunk_wresid -= len) <= 0) {
1.1.20.1  yamt 			sc->sc_wchunk = sc->sc_wchunk->chunk_next;
1.1.20.1  yamt 		}
1.1.20.1  yamt
1.1.20.1  yamt 		/* determine which interrupt to get */
1.1.20.1  yamt 		if (sc->sc_wchunk) {
1.1.20.1  yamt 			/* just wait for next buffer to free */
1.1.20.1  yamt 			PUTREG(sc, SPI_IER, SPI_SR_ENDRX);
1.1.20.1  yamt 		} else {
1.1.20.1  yamt 			/* must wait until transfer has completed */
1.1.20.1  yamt 			PUTREG(sc, SPI_IDR, SPI_SR_ENDRX);
1.1.20.1  yamt 			PUTREG(sc, SPI_IER, SPI_SR_RXBUFF);
1.1.20.1  yamt 		}
1.1.20.1  yamt
1.1.20.1  yamt 		DPRINTFN(3, ("%s: dmaoffs=%d len=%d wchunk=%p (%p:%d) rchunk=%p (%p:%d) mr=%"PRIX32" sr=%"PRIX32" imr=%"PRIX32" csr0=%"PRIX32"\n",
1.1.20.1  yamt 			     __FUNCTION__, sc->sc_dmaoffs, len, sc->sc_wchunk,
1.1.20.1  yamt 			     sc->sc_wchunk ? sc->sc_wchunk->chunk_wptr : NULL,
1.1.20.1  yamt 			     sc->sc_wchunk ? sc->sc_wchunk->chunk_wresid : -1,
1.1.20.1  yamt 			     sc->sc_rchunk,
1.1.20.1  yamt 			     sc->sc_rchunk ? sc->sc_rchunk->chunk_rptr : NULL,
1.1.20.1  yamt 			     sc->sc_rchunk ? sc->sc_rchunk->chunk_rresid : -1,
1.1.20.1  yamt 			     GETREG(sc, SPI_MR), GETREG(sc, SPI_SR),
1.1.20.1  yamt 			     GETREG(sc, SPI_IMR), GETREG(sc, SPI_CSR(0))));
1.1.20.1  yamt
1.1.20.1  yamt 		// prepare DMA
1.1.20.1  yamt 		bus_dmamap_sync(sc->sc_dmat, sc->sc_dmamap, sc->sc_dmaoffs, len,
1.1.20.1  yamt 				BUS_DMASYNC_PREWRITE | BUS_DMASYNC_PREREAD);
1.1.20.1  yamt
1.1.20.1  yamt 		// and start transmitting / receiving
1.1.20.1  yamt 		PUTREG(sc, SPI_PDC_BASE + PDC_RNPR, sc->sc_dmaaddr + sc->sc_dmaoffs);
1.1.20.1  yamt 		PUTREG(sc, SPI_PDC_BASE + PDC_RNCR, len);
1.1.20.1  yamt 		PUTREG(sc, SPI_PDC_BASE + PDC_TNPR, sc->sc_dmaaddr + sc->sc_dmaoffs);
1.1.20.1  yamt 		PUTREG(sc, SPI_PDC_BASE + PDC_TNCR, len);
1.1.20.1  yamt
1.1.20.1  yamt 		// swap buffer
1.1.20.1  yamt 		sc->sc_dmaoffs ^= HALF_BUF_SIZE;
1.1.20.1  yamt
1.1.20.1  yamt 		// get out
1.1.20.1  yamt 		return;
1.1.20.1  yamt 	} else {
1.1.20.1  yamt 		DPRINTFN(3, ("%s: nothing to write anymore\n", __FUNCTION__));
1.1.20.1  yamt 		return;
1.1.20.1  yamt 	}
1.1.20.1  yamt }
1.1.20.1  yamt
1.1.20.1  yamt void
1.1.20.1  yamt at91spi_sched(struct at91spi_softc *sc)
1.1.20.1  yamt {
1.1.20.1  yamt 	struct spi_transfer	*st;
1.1.20.1  yamt 	int			err;
1.1.20.1  yamt
1.1.20.1  yamt 	while ((st = spi_transq_first(&sc->sc_q)) != NULL) {
1.1.20.1  yamt
1.1.20.1  yamt 		DPRINTFN(2, ("%s: st=%p\n", __FUNCTION__, st));
1.1.20.1  yamt
1.1.20.1  yamt 		/* remove the item */
1.1.20.1  yamt 		spi_transq_dequeue(&sc->sc_q);
1.1.20.1  yamt
1.1.20.1  yamt 		/* note that we are working on it */
1.1.20.1  yamt 		sc->sc_transfer = st;
1.1.20.1  yamt
1.1.20.1  yamt 		if ((err = at91spi_select(sc, st->st_slave)) != 0) {
1.1.20.1  yamt 			spi_done(st, err);
1.1.20.1  yamt 			continue;
1.1.20.1  yamt 		}
1.1.20.1  yamt
1.1.20.1  yamt 		/* setup chunks */
1.1.20.1  yamt 		sc->sc_rchunk = sc->sc_wchunk = st->st_chunks;
1.1.20.1  yamt
1.1.20.1  yamt 		/* now kick the master start to get the chip running */
1.1.20.1  yamt 		at91spi_xfer(sc, TRUE);
1.1.20.1  yamt
1.1.20.1  yamt 		/* enable error interrupts too: */
1.1.20.1  yamt 		PUTREG(sc, SPI_IER, SPI_SR_MODF | SPI_SR_OVRES);
1.1.20.1  yamt
1.1.20.1  yamt 		sc->sc_running = TRUE;
1.1.20.1  yamt 		return;
1.1.20.1  yamt 	}
1.1.20.1  yamt 	DPRINTFN(2, ("%s: nothing to do anymore\n", __FUNCTION__));
1.1.20.1  yamt 	PUTREG(sc, SPI_IDR, -1);	/* disable interrupts */
1.1.20.1  yamt 	at91spi_select(sc, -1);
1.1.20.1  yamt 	sc->sc_running = FALSE;
1.1.20.1  yamt }
1.1.20.1  yamt
1.1.20.1  yamt void
1.1.20.1  yamt at91spi_done(struct at91spi_softc *sc, int err)
1.1.20.1  yamt {
1.1.20.1  yamt 	struct spi_transfer	*st;
1.1.20.1  yamt
1.1.20.1  yamt 	/* called from interrupt handler */
1.1.20.1  yamt 	if ((st = sc->sc_transfer) != NULL) {
1.1.20.1  yamt 		sc->sc_transfer = NULL;
1.1.20.1  yamt 		DPRINTFN(2, ("%s: st %p finished with error code %d\n", __FUNCTION__, st, err));
1.1.20.1  yamt 		spi_done(st, err);
1.1.20.1  yamt 	}
1.1.20.1  yamt 	/* make sure we clear these bits out */
1.1.20.1  yamt 	sc->sc_wchunk = sc->sc_rchunk = NULL;
1.1.20.1  yamt 	at91spi_sched(sc);
1.1.20.1  yamt }
1.1.20.1  yamt
1.1.20.1  yamt int
1.1.20.1  yamt at91spi_intr(void *arg)
1.1.20.1  yamt {
1.1.20.1  yamt 	struct at91spi_softc	*sc = arg;
1.1.20.1  yamt 	uint32_t		imr, sr;
1.1.20.1  yamt 	int			err = 0;
1.1.20.1  yamt
1.1.20.1  yamt 	if ((imr = GETREG(sc, SPI_IMR)) == 0) {
1.1.20.1  yamt 		/* interrupts are not enabled, get out */
1.1.20.1  yamt 		DPRINTFN(4, ("%s: interrupts are not enabled\n", __FUNCTION__));
1.1.20.1  yamt 		return 0;
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	sr = GETREG(sc, SPI_SR);
1.1.20.1  yamt 	if (!(sr & imr)) {
1.1.20.1  yamt 		/* interrupt did not happen, get out */
1.1.20.1  yamt 		DPRINTFN(3, ("%s: interrupts are not enabled, sr=%08"PRIX32" imr=%08"PRIX32"\n",
1.1.20.1  yamt 			     __FUNCTION__, sr, imr));
1.1.20.1  yamt 		return 0;
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	DPRINTFN(3, ("%s: sr=%08"PRIX32" imr=%08"PRIX32"\n",
1.1.20.1  yamt 		     __FUNCTION__, sr, imr));
1.1.20.1  yamt
1.1.20.1  yamt 	if (sr & imr & SPI_SR_MODF) {
1.1.20.1  yamt 		printf("%s: mode fault!\n", device_xname(sc->sc_dev));
1.1.20.1  yamt 		err = EIO;
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	if (sr & imr & SPI_SR_OVRES) {
1.1.20.1  yamt 		printf("%s: overrun error!\n", device_xname(sc->sc_dev));
1.1.20.1  yamt 		err = EIO;
1.1.20.1  yamt 	}
1.1.20.1  yamt 	if (err) {
1.1.20.1  yamt 		/* clear errors */
1.1.20.1  yamt 		/* complete transfer */
1.1.20.1  yamt 		at91spi_done(sc, err);
1.1.20.1  yamt 	} else {
1.1.20.1  yamt 		/* do all data exchanges */
1.1.20.1  yamt 		at91spi_xfer(sc, FALSE);
1.1.20.1  yamt
1.1.20.1  yamt 		/*
1.1.20.1  yamt 		 * if the master done bit is set, make sure we do the
1.1.20.1  yamt 		 * right processing.
1.1.20.1  yamt 		 */
1.1.20.1  yamt 		if (sr & imr & SPI_SR_RXBUFF) {
1.1.20.1  yamt 			if ((sc->sc_wchunk != NULL) ||
1.1.20.1  yamt 			    (sc->sc_rchunk != NULL)) {
1.1.20.1  yamt 				printf("%s: partial transfer?\n",
1.1.20.1  yamt 				    device_xname(sc->sc_dev));
1.1.20.1  yamt 				err = EIO;
1.1.20.1  yamt 			}
1.1.20.1  yamt 			at91spi_done(sc, err);
1.1.20.1  yamt 		}
1.1.20.1  yamt
1.1.20.1  yamt 	}
1.1.20.1  yamt
1.1.20.1  yamt 	return 1;
1.1.20.1  yamt }
1.1.20.1  yamt
1.1.20.1  yamt int
1.1.20.1  yamt at91spi_transfer(void *arg, struct spi_transfer *st)
1.1.20.1  yamt {
1.1.20.1  yamt 	struct at91spi_softc	*sc = arg;
1.1.20.1  yamt 	int			s;
1.1.20.1  yamt
1.1.20.1  yamt 	/* make sure we select the right chip */
1.1.20.1  yamt 	s = splbio();
1.1.20.1  yamt 	spi_transq_enqueue(&sc->sc_q, st);
1.1.20.1  yamt 	if (sc->sc_running == 0) {
1.1.20.1  yamt 		at91spi_sched(sc);
1.1.20.1  yamt 	}
1.1.20.1  yamt 	splx(s);
1.1.20.1  yamt 	return 0;
1.1.20.1  yamt }
1.1.20.1  yamt