1*2e0bf311Sandvar /* $NetBSD: imxspi.c,v 1.10 2021/08/17 22:00:27 andvar Exp $ */
25f3c2fa2Shkenken
35f3c2fa2Shkenken /*-
45f3c2fa2Shkenken * Copyright (c) 2014 Genetec Corporation. All rights reserved.
55f3c2fa2Shkenken * Written by Hashimoto Kenichi for Genetec Corporation.
65f3c2fa2Shkenken *
75f3c2fa2Shkenken * Redistribution and use in source and binary forms, with or without
85f3c2fa2Shkenken * modification, are permitted provided that the following conditions
95f3c2fa2Shkenken * are met:
105f3c2fa2Shkenken * 1. Redistributions of source code must retain the above copyright
115f3c2fa2Shkenken * notice, this list of conditions and the following disclaimer.
125f3c2fa2Shkenken * 2. Redistributions in binary form must reproduce the above copyright
135f3c2fa2Shkenken * notice, this list of conditions and the following disclaimer in the
145f3c2fa2Shkenken * documentation and/or other materials provided with the distribution.
155f3c2fa2Shkenken *
165f3c2fa2Shkenken * THIS SOFTWARE IS PROVIDED BY GENETEC CORPORATION ``AS IS'' AND
175f3c2fa2Shkenken * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
185f3c2fa2Shkenken * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
195f3c2fa2Shkenken * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL GENETEC CORPORATION
205f3c2fa2Shkenken * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
215f3c2fa2Shkenken * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
225f3c2fa2Shkenken * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
235f3c2fa2Shkenken * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
245f3c2fa2Shkenken * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
255f3c2fa2Shkenken * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
265f3c2fa2Shkenken * POSSIBILITY OF SUCH DAMAGE.
275f3c2fa2Shkenken */
285f3c2fa2Shkenken
295f3c2fa2Shkenken /*
305f3c2fa2Shkenken * this module support CSPI and eCSPI.
315f3c2fa2Shkenken * i.MX51 have 2 eCSPI and 1 CSPI modules.
325f3c2fa2Shkenken */
335f3c2fa2Shkenken
345f3c2fa2Shkenken #include <sys/cdefs.h>
35*2e0bf311Sandvar __KERNEL_RCSID(0, "$NetBSD: imxspi.c,v 1.10 2021/08/17 22:00:27 andvar Exp $");
365f3c2fa2Shkenken
375f3c2fa2Shkenken #include "opt_imxspi.h"
38b68d413bShkenken #include "opt_fdt.h"
395f3c2fa2Shkenken
405f3c2fa2Shkenken #include <sys/param.h>
415f3c2fa2Shkenken #include <sys/systm.h>
425f3c2fa2Shkenken #include <sys/kernel.h>
435f3c2fa2Shkenken #include <sys/device.h>
445f3c2fa2Shkenken #include <sys/errno.h>
455f3c2fa2Shkenken #include <sys/proc.h>
465f3c2fa2Shkenken #include <sys/intr.h>
475f3c2fa2Shkenken
485f3c2fa2Shkenken #include <sys/bus.h>
495f3c2fa2Shkenken #include <machine/cpu.h>
505f3c2fa2Shkenken #include <machine/intr.h>
515f3c2fa2Shkenken
525f3c2fa2Shkenken #include <arm/imx/imxspivar.h>
535f3c2fa2Shkenken #include <arm/imx/imxspireg.h>
545f3c2fa2Shkenken
55b68d413bShkenken #ifdef FDT
56b68d413bShkenken #include <dev/fdt/fdtvar.h>
57b68d413bShkenken #endif
58b68d413bShkenken
595f3c2fa2Shkenken /* SPI service routines */
605f3c2fa2Shkenken static int imxspi_configure_enhanced(void *, int, int, int);
615f3c2fa2Shkenken static int imxspi_configure(void *, int, int, int);
625f3c2fa2Shkenken static int imxspi_transfer(void *, struct spi_transfer *);
635f3c2fa2Shkenken
645f3c2fa2Shkenken /* internal stuff */
655f3c2fa2Shkenken void imxspi_done(struct imxspi_softc *, int);
665f3c2fa2Shkenken void imxspi_send(struct imxspi_softc *);
675f3c2fa2Shkenken void imxspi_recv(struct imxspi_softc *);
685f3c2fa2Shkenken void imxspi_sched(struct imxspi_softc *);
695f3c2fa2Shkenken
709e55e630Shkenken #define IMXCSPI_TYPE(type, x) \
719e55e630Shkenken ((sc->sc_type == IMX31_CSPI) ? __CONCAT(CSPI_IMX31_, x) : \
729e55e630Shkenken (sc->sc_type == IMX35_CSPI) ? __CONCAT(CSPI_IMX35_, x) : 0)
739e55e630Shkenken #define IMXCSPI(x) __CONCAT(CSPI_, x)
749e55e630Shkenken #define IMXESPI(x) __CONCAT(ECSPI_, x)
759e55e630Shkenken #define IMXSPI(x) ((sc->sc_enhanced) ? IMXESPI(x) : IMXCSPI(x))
769e55e630Shkenken #define IMXSPI_TYPE(x) ((sc->sc_enhanced) ? IMXESPI(x) : IMXCSPI_TYPE(sc->sc_type, x))
775f3c2fa2Shkenken #define READ_REG(sc, x) \
785f3c2fa2Shkenken bus_space_read_4(sc->sc_iot, sc->sc_ioh, IMXSPI(x))
795f3c2fa2Shkenken #define WRITE_REG(sc, x, v) \
805f3c2fa2Shkenken bus_space_write_4(sc->sc_iot, sc->sc_ioh, IMXSPI(x), (v))
815f3c2fa2Shkenken
825f3c2fa2Shkenken #ifdef IMXSPI_DEBUG
835f3c2fa2Shkenken int imxspi_debug = IMXSPI_DEBUG;
845f3c2fa2Shkenken #define DPRINTFN(n,x) if (imxspi_debug>(n)) printf x;
855f3c2fa2Shkenken #else
865f3c2fa2Shkenken #define DPRINTFN(n,x)
875f3c2fa2Shkenken #endif
885f3c2fa2Shkenken
89b68d413bShkenken #ifdef FDT
90b68d413bShkenken static struct spi_controller *
imxspi_get_controller(device_t dev)91b68d413bShkenken imxspi_get_controller(device_t dev)
925f3c2fa2Shkenken {
93b68d413bShkenken struct imxspi_softc * const sc = device_private(dev);
945f3c2fa2Shkenken
95b68d413bShkenken return &sc->sc_spi;
965f3c2fa2Shkenken }
975f3c2fa2Shkenken
98b68d413bShkenken static const struct fdtbus_spi_controller_func imxspi_funcs = {
99b68d413bShkenken .get_controller = imxspi_get_controller
100b68d413bShkenken };
101b68d413bShkenken #endif
102b68d413bShkenken
103b68d413bShkenken int
imxspi_attach_common(device_t self)104b68d413bShkenken imxspi_attach_common(device_t self)
105b68d413bShkenken {
106b68d413bShkenken struct imxspi_softc * const sc = device_private(self);
107b68d413bShkenken
108b68d413bShkenken aprint_normal("i.MX %sCSPI Controller (clock %ld Hz)\n",
1095f3c2fa2Shkenken ((sc->sc_enhanced) ? "e" : ""), sc->sc_freq);
1105f3c2fa2Shkenken
1115f3c2fa2Shkenken /* Initialize SPI controller */
112b68d413bShkenken sc->sc_dev = self;
1135f3c2fa2Shkenken sc->sc_spi.sct_cookie = sc;
1145f3c2fa2Shkenken if (sc->sc_enhanced)
1155f3c2fa2Shkenken sc->sc_spi.sct_configure = imxspi_configure_enhanced;
1165f3c2fa2Shkenken else
1175f3c2fa2Shkenken sc->sc_spi.sct_configure = imxspi_configure;
1185f3c2fa2Shkenken sc->sc_spi.sct_transfer = imxspi_transfer;
1195f3c2fa2Shkenken
1205f3c2fa2Shkenken /* sc->sc_spi.sct_nslaves must have been initialized by machdep code */
121b68d413bShkenken sc->sc_spi.sct_nslaves = sc->sc_nslaves;
1225f3c2fa2Shkenken if (!sc->sc_spi.sct_nslaves)
1235f3c2fa2Shkenken aprint_error_dev(sc->sc_dev, "no slaves!\n");
1245f3c2fa2Shkenken
1255f3c2fa2Shkenken /* initialize the queue */
1265f3c2fa2Shkenken SIMPLEQ_INIT(&sc->sc_q);
1275f3c2fa2Shkenken
1285f3c2fa2Shkenken /* configure SPI */
1295f3c2fa2Shkenken /* Setup Control Register */
1309e55e630Shkenken WRITE_REG(sc, CONREG,
1319e55e630Shkenken __SHIFTIN(0, IMXSPI_TYPE(CON_DRCTL)) |
1329e55e630Shkenken __SHIFTIN(8 - 1, IMXSPI_TYPE(CON_BITCOUNT)) |
1335f3c2fa2Shkenken __SHIFTIN(0xf, IMXSPI(CON_MODE)) | IMXSPI(CON_ENABLE));
1345f3c2fa2Shkenken /* TC and RR interruption */
1359e55e630Shkenken WRITE_REG(sc, INTREG, (IMXSPI_TYPE(INTR_TC_EN) | IMXSPI(INTR_RR_EN)));
1369e55e630Shkenken WRITE_REG(sc, STATREG, IMXSPI_TYPE(STAT_CLR));
1375f3c2fa2Shkenken
1385f3c2fa2Shkenken WRITE_REG(sc, PERIODREG, 0x0);
1395f3c2fa2Shkenken
140b68d413bShkenken #ifdef FDT
141b68d413bShkenken KASSERT(sc->sc_phandle != 0);
142b68d413bShkenken
143b68d413bShkenken fdtbus_register_spi_controller(self, sc->sc_phandle, &imxspi_funcs);
144b68d413bShkenken (void) fdtbus_attach_spibus(self, sc->sc_phandle, spibus_print);
145b68d413bShkenken #else
146b68d413bShkenken struct spibus_attach_args sba;
147b68d413bShkenken memset(&sba, 0, sizeof(sba));
148b68d413bShkenken sba.sba_controller = &sc->sc_spi;
1495f3c2fa2Shkenken
1505f3c2fa2Shkenken /* attach slave devices */
151c7fb772bSthorpej config_found(sc->sc_dev, &sba, spibus_print, CFARGS_NONE);
152b68d413bShkenken #endif
1535f3c2fa2Shkenken
1545f3c2fa2Shkenken return 0;
1555f3c2fa2Shkenken }
1565f3c2fa2Shkenken
1575f3c2fa2Shkenken static int
imxspi_configure(void * arg,int slave,int mode,int speed)1585f3c2fa2Shkenken imxspi_configure(void *arg, int slave, int mode, int speed)
1595f3c2fa2Shkenken {
1605f3c2fa2Shkenken struct imxspi_softc *sc = arg;
1615f3c2fa2Shkenken uint32_t div_cnt = 0;
1625f3c2fa2Shkenken uint32_t div;
1635f3c2fa2Shkenken uint32_t contrl = 0;
1645f3c2fa2Shkenken
1655f3c2fa2Shkenken div = (sc->sc_freq + (speed - 1)) / speed;
1665f3c2fa2Shkenken div = div - 1;
1675f3c2fa2Shkenken for (div_cnt = 0; div > 0; div_cnt++)
1685f3c2fa2Shkenken div >>= 1;
1695f3c2fa2Shkenken
1705f3c2fa2Shkenken div_cnt = div_cnt - 2;
1715f3c2fa2Shkenken if (div_cnt >= 7)
1725f3c2fa2Shkenken div_cnt = 7;
1735f3c2fa2Shkenken
1745f3c2fa2Shkenken contrl = READ_REG(sc, CONREG);
1755f3c2fa2Shkenken contrl &= ~CSPI_CON_DIV;
1765f3c2fa2Shkenken contrl |= __SHIFTIN(div_cnt, CSPI_CON_DIV);
1775f3c2fa2Shkenken
1785f3c2fa2Shkenken contrl &= ~(CSPI_CON_POL | CSPI_CON_PHA);
1795f3c2fa2Shkenken switch (mode) {
1805f3c2fa2Shkenken case SPI_MODE_0:
1815f3c2fa2Shkenken /* CPHA = 0, CPOL = 0 */
1825f3c2fa2Shkenken break;
1835f3c2fa2Shkenken case SPI_MODE_1:
1845f3c2fa2Shkenken /* CPHA = 1, CPOL = 0 */
1855f3c2fa2Shkenken contrl |= CSPI_CON_PHA;
1865f3c2fa2Shkenken break;
1875f3c2fa2Shkenken case SPI_MODE_2:
1885f3c2fa2Shkenken /* CPHA = 0, CPOL = 1 */
1895f3c2fa2Shkenken contrl |= CSPI_CON_POL;
1905f3c2fa2Shkenken break;
1915f3c2fa2Shkenken case SPI_MODE_3:
1925f3c2fa2Shkenken /* CPHA = 1, CPOL = 1 */
1935f3c2fa2Shkenken contrl |= CSPI_CON_POL;
1945f3c2fa2Shkenken contrl |= CSPI_CON_PHA;
1955f3c2fa2Shkenken break;
1965f3c2fa2Shkenken default:
1975f3c2fa2Shkenken return EINVAL;
1985f3c2fa2Shkenken }
1995f3c2fa2Shkenken WRITE_REG(sc, CONREG, contrl);
2005f3c2fa2Shkenken
2015f3c2fa2Shkenken DPRINTFN(3, ("%s: slave %d mode %d speed %d\n",
2025f3c2fa2Shkenken __func__, slave, mode, speed));
2035f3c2fa2Shkenken
2045f3c2fa2Shkenken return 0;
2055f3c2fa2Shkenken }
2065f3c2fa2Shkenken
2075f3c2fa2Shkenken static int
imxspi_configure_enhanced(void * arg,int slave,int mode,int speed)2085f3c2fa2Shkenken imxspi_configure_enhanced(void *arg, int slave, int mode, int speed)
2095f3c2fa2Shkenken {
2105f3c2fa2Shkenken struct imxspi_softc *sc = arg;
2115f3c2fa2Shkenken uint32_t div_cnt = 0;
2125f3c2fa2Shkenken uint32_t div;
2135f3c2fa2Shkenken uint32_t contrl = 0;
2145f3c2fa2Shkenken uint32_t config = 0;
2155f3c2fa2Shkenken
2165f3c2fa2Shkenken div = (sc->sc_freq + (speed - 1)) / speed;
2175f3c2fa2Shkenken for (div_cnt = 0; div > 0; div_cnt++)
2185f3c2fa2Shkenken div >>= 1;
2195f3c2fa2Shkenken
2205f3c2fa2Shkenken if (div_cnt >= 15)
2215f3c2fa2Shkenken div_cnt = 15;
2225f3c2fa2Shkenken
2235f3c2fa2Shkenken contrl = READ_REG(sc, CONREG);
2245f3c2fa2Shkenken contrl |= __SHIFTIN(div_cnt, ECSPI_CON_DIV);
2255f3c2fa2Shkenken contrl |= __SHIFTIN(slave, ECSPI_CON_CS);
2265f3c2fa2Shkenken contrl |= __SHIFTIN(__BIT(slave), ECSPI_CON_MODE);
2275f3c2fa2Shkenken WRITE_REG(sc, CONREG, contrl);
2285f3c2fa2Shkenken
2295f3c2fa2Shkenken config = bus_space_read_4(sc->sc_iot, sc->sc_ioh, ECSPI_CONFIGREG);
2305f3c2fa2Shkenken config &= ~(__SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_POL) |
23114dba032Shkenken __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_CTL) |
2325f3c2fa2Shkenken __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_PHA));
2335f3c2fa2Shkenken switch (mode) {
2345f3c2fa2Shkenken case SPI_MODE_0:
2355f3c2fa2Shkenken /* CPHA = 0, CPOL = 0 */
2365f3c2fa2Shkenken break;
2375f3c2fa2Shkenken case SPI_MODE_1:
2385f3c2fa2Shkenken /* CPHA = 1, CPOL = 0 */
2395f3c2fa2Shkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_PHA);
2405f3c2fa2Shkenken break;
2415f3c2fa2Shkenken case SPI_MODE_2:
2425f3c2fa2Shkenken /* CPHA = 0, CPOL = 1 */
2435f3c2fa2Shkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_POL);
24414dba032Shkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_CTL);
2455f3c2fa2Shkenken break;
2465f3c2fa2Shkenken case SPI_MODE_3:
2475f3c2fa2Shkenken /* CPHA = 1, CPOL = 1 */
2485f3c2fa2Shkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_PHA);
2495f3c2fa2Shkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_POL);
25014dba032Shkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_CTL);
2515f3c2fa2Shkenken break;
2525f3c2fa2Shkenken default:
2535f3c2fa2Shkenken return EINVAL;
2545f3c2fa2Shkenken }
2555f3c2fa2Shkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SSB_CTL);
2565f3c2fa2Shkenken bus_space_write_4(sc->sc_iot, sc->sc_ioh, ECSPI_CONFIGREG, config);
2575f3c2fa2Shkenken
2585f3c2fa2Shkenken DPRINTFN(3, ("%s: slave %d mode %d speed %d\n",
2595f3c2fa2Shkenken __func__, slave, mode, speed));
2605f3c2fa2Shkenken
2615f3c2fa2Shkenken return 0;
2625f3c2fa2Shkenken }
2635f3c2fa2Shkenken
2645f3c2fa2Shkenken void
imxspi_send(struct imxspi_softc * sc)2655f3c2fa2Shkenken imxspi_send(struct imxspi_softc *sc)
2665f3c2fa2Shkenken {
2675f3c2fa2Shkenken uint32_t data;
2685f3c2fa2Shkenken struct spi_chunk *chunk;
2695f3c2fa2Shkenken
2705f3c2fa2Shkenken /* fill the fifo */
2715f3c2fa2Shkenken while ((chunk = sc->sc_wchunk) != NULL) {
2725f3c2fa2Shkenken while (chunk->chunk_wresid) {
2735f3c2fa2Shkenken /* transmit fifo full? */
2745f3c2fa2Shkenken if (READ_REG(sc, STATREG) & IMXSPI(STAT_TF))
2755a40d812Shkenken goto out;
2765f3c2fa2Shkenken
2775f3c2fa2Shkenken if (chunk->chunk_wptr) {
2785f3c2fa2Shkenken data = *chunk->chunk_wptr;
2795f3c2fa2Shkenken chunk->chunk_wptr++;
2805f3c2fa2Shkenken } else {
2815f3c2fa2Shkenken data = 0xff;
2825f3c2fa2Shkenken }
2835f3c2fa2Shkenken chunk->chunk_wresid--;
2845f3c2fa2Shkenken
2855f3c2fa2Shkenken WRITE_REG(sc, TXDATA, data);
2865f3c2fa2Shkenken }
2875f3c2fa2Shkenken /* advance to next transfer */
2885f3c2fa2Shkenken sc->sc_wchunk = sc->sc_wchunk->chunk_next;
2895f3c2fa2Shkenken }
2905a40d812Shkenken out:
2915f3c2fa2Shkenken if (!(READ_REG(sc, STATREG) & IMXSPI(INTR_TE_EN)))
2925f3c2fa2Shkenken WRITE_REG(sc, CONREG, READ_REG(sc, CONREG) | IMXSPI(CON_XCH));
2935f3c2fa2Shkenken }
2945f3c2fa2Shkenken
2955f3c2fa2Shkenken void
imxspi_recv(struct imxspi_softc * sc)2965f3c2fa2Shkenken imxspi_recv(struct imxspi_softc *sc)
2975f3c2fa2Shkenken {
2985f3c2fa2Shkenken uint32_t data;
2995f3c2fa2Shkenken struct spi_chunk *chunk;
3005f3c2fa2Shkenken
3015f3c2fa2Shkenken while ((chunk = sc->sc_rchunk) != NULL) {
3025f3c2fa2Shkenken while (chunk->chunk_rresid) {
3035f3c2fa2Shkenken /* rx fifo empty? */
3045f3c2fa2Shkenken if ((!(READ_REG(sc, STATREG) & IMXSPI(STAT_RR))))
3055f3c2fa2Shkenken return;
3065f3c2fa2Shkenken
3075f3c2fa2Shkenken /* collect rx data */
3085f3c2fa2Shkenken data = READ_REG(sc, RXDATA);
3095f3c2fa2Shkenken if (chunk->chunk_rptr) {
3105f3c2fa2Shkenken *chunk->chunk_rptr = data & 0xff;
3115f3c2fa2Shkenken chunk->chunk_rptr++;
3125f3c2fa2Shkenken }
3135f3c2fa2Shkenken
3145f3c2fa2Shkenken chunk->chunk_rresid--;
3155f3c2fa2Shkenken }
3165f3c2fa2Shkenken /* advance next to next transfer */
3175f3c2fa2Shkenken sc->sc_rchunk = sc->sc_rchunk->chunk_next;
3185f3c2fa2Shkenken }
3195f3c2fa2Shkenken }
3205f3c2fa2Shkenken
3215f3c2fa2Shkenken
3225f3c2fa2Shkenken void
imxspi_sched(struct imxspi_softc * sc)3235f3c2fa2Shkenken imxspi_sched(struct imxspi_softc *sc)
3245f3c2fa2Shkenken {
3255f3c2fa2Shkenken struct spi_transfer *st;
3265f3c2fa2Shkenken uint32_t chipselect;
3275f3c2fa2Shkenken
3285f3c2fa2Shkenken while ((st = spi_transq_first(&sc->sc_q)) != NULL) {
3295f3c2fa2Shkenken /* remove the item */
3305f3c2fa2Shkenken spi_transq_dequeue(&sc->sc_q);
3315f3c2fa2Shkenken
3325f3c2fa2Shkenken /* note that we are working on it */
3335f3c2fa2Shkenken sc->sc_transfer = st;
3345f3c2fa2Shkenken
335*2e0bf311Sandvar /* chip select */
3365f3c2fa2Shkenken if (sc->sc_tag->spi_cs_enable != NULL)
3375f3c2fa2Shkenken sc->sc_tag->spi_cs_enable(sc->sc_tag->cookie,
3385f3c2fa2Shkenken st->st_slave);
3395f3c2fa2Shkenken
340*2e0bf311Sandvar /* chip select */
3415f3c2fa2Shkenken chipselect = READ_REG(sc, CONREG);
3429e55e630Shkenken chipselect &= ~IMXSPI_TYPE(CON_CS);
3439e55e630Shkenken chipselect |= __SHIFTIN(st->st_slave, IMXSPI_TYPE(CON_CS));
3445f3c2fa2Shkenken WRITE_REG(sc, CONREG, chipselect);
3455f3c2fa2Shkenken
3465f3c2fa2Shkenken delay(1);
3475f3c2fa2Shkenken
3485f3c2fa2Shkenken /* setup chunks */
3495f3c2fa2Shkenken sc->sc_rchunk = sc->sc_wchunk = st->st_chunks;
3505f3c2fa2Shkenken
3515f3c2fa2Shkenken /* now kick the master start to get the chip running */
3525f3c2fa2Shkenken imxspi_send(sc);
3535f3c2fa2Shkenken
3545f3c2fa2Shkenken sc->sc_running = TRUE;
3555f3c2fa2Shkenken return;
3565f3c2fa2Shkenken }
3575f3c2fa2Shkenken
3585f3c2fa2Shkenken DPRINTFN(2, ("%s: nothing to do anymore\n", __func__));
3595f3c2fa2Shkenken sc->sc_running = FALSE;
3605f3c2fa2Shkenken }
3615f3c2fa2Shkenken
3625f3c2fa2Shkenken void
imxspi_done(struct imxspi_softc * sc,int err)3635f3c2fa2Shkenken imxspi_done(struct imxspi_softc *sc, int err)
3645f3c2fa2Shkenken {
3655f3c2fa2Shkenken struct spi_transfer *st;
3665f3c2fa2Shkenken
3675f3c2fa2Shkenken /* called from interrupt handler */
3685f3c2fa2Shkenken if ((st = sc->sc_transfer) != NULL) {
3695f3c2fa2Shkenken if (sc->sc_tag->spi_cs_disable != NULL)
3705f3c2fa2Shkenken sc->sc_tag->spi_cs_disable(sc->sc_tag->cookie,
3715f3c2fa2Shkenken st->st_slave);
3725f3c2fa2Shkenken
3735f3c2fa2Shkenken sc->sc_transfer = NULL;
3745f3c2fa2Shkenken spi_done(st, err);
3755f3c2fa2Shkenken }
3765f3c2fa2Shkenken /* make sure we clear these bits out */
3775f3c2fa2Shkenken sc->sc_wchunk = sc->sc_rchunk = NULL;
3785f3c2fa2Shkenken imxspi_sched(sc);
3795f3c2fa2Shkenken }
3805f3c2fa2Shkenken
381b68d413bShkenken int
imxspi_intr(void * arg)3825f3c2fa2Shkenken imxspi_intr(void *arg)
3835f3c2fa2Shkenken {
3845f3c2fa2Shkenken struct imxspi_softc *sc = arg;
3855f3c2fa2Shkenken uint32_t intr, sr;
3865f3c2fa2Shkenken int err = 0;
3875f3c2fa2Shkenken
3885f3c2fa2Shkenken if ((intr = READ_REG(sc, INTREG)) == 0) {
3895f3c2fa2Shkenken /* interrupts are not enabled, get out */
3905f3c2fa2Shkenken DPRINTFN(4, ("%s: interrupts are not enabled\n", __func__));
3915f3c2fa2Shkenken return 0;
3925f3c2fa2Shkenken }
3935f3c2fa2Shkenken
3945f3c2fa2Shkenken sr = READ_REG(sc, STATREG);
3955f3c2fa2Shkenken if (!(sr & intr)) {
3965f3c2fa2Shkenken /* interrupt did not happen, get out */
3975f3c2fa2Shkenken DPRINTFN(3, ("%s: interrupts did not happen\n", __func__));
3985f3c2fa2Shkenken return 0;
3995f3c2fa2Shkenken }
4005f3c2fa2Shkenken
4015a40d812Shkenken /* RXFIFO ready? */
4025f3c2fa2Shkenken if (sr & IMXSPI(INTR_RR_EN)) {
4035f3c2fa2Shkenken imxspi_recv(sc);
4045f3c2fa2Shkenken if (sc->sc_wchunk == NULL && sc->sc_rchunk == NULL)
4055f3c2fa2Shkenken imxspi_done(sc, err);
4065f3c2fa2Shkenken }
4075f3c2fa2Shkenken
4089e55e630Shkenken /* Transfer Complete? */
4099e55e630Shkenken if (sr & IMXSPI_TYPE(INTR_TC_EN))
4105a40d812Shkenken imxspi_send(sc);
4115a40d812Shkenken
4125f3c2fa2Shkenken /* status register clear */
4135f3c2fa2Shkenken WRITE_REG(sc, STATREG, sr);
4145f3c2fa2Shkenken
4155f3c2fa2Shkenken return 1;
4165f3c2fa2Shkenken }
4175f3c2fa2Shkenken
4185f3c2fa2Shkenken int
imxspi_transfer(void * arg,struct spi_transfer * st)4195f3c2fa2Shkenken imxspi_transfer(void *arg, struct spi_transfer *st)
4205f3c2fa2Shkenken {
4215f3c2fa2Shkenken struct imxspi_softc *sc = arg;
4225f3c2fa2Shkenken int s;
4235f3c2fa2Shkenken
4245f3c2fa2Shkenken /* make sure we select the right chip */
425459f2ce0Shkenken s = splbio();
4265f3c2fa2Shkenken spi_transq_enqueue(&sc->sc_q, st);
4275f3c2fa2Shkenken if (sc->sc_running == FALSE)
4285f3c2fa2Shkenken imxspi_sched(sc);
4295f3c2fa2Shkenken splx(s);
4305f3c2fa2Shkenken
4315f3c2fa2Shkenken return 0;
4325f3c2fa2Shkenken }
4335f3c2fa2Shkenken
434