1*0f9e9ec2Sjsg /* $OpenBSD: imxspi.c,v 1.5 2024/05/13 01:15:50 jsg Exp $ */
2f1906b62Spatrick /*
3f1906b62Spatrick * Copyright (c) 2018 Patrick Wildt <patrick@blueri.se>
4f1906b62Spatrick *
5f1906b62Spatrick * Permission to use, copy, modify, and distribute this software for any
6f1906b62Spatrick * purpose with or without fee is hereby granted, provided that the above
7f1906b62Spatrick * copyright notice and this permission notice appear in all copies.
8f1906b62Spatrick *
9f1906b62Spatrick * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
10f1906b62Spatrick * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
11f1906b62Spatrick * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
12f1906b62Spatrick * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
13f1906b62Spatrick * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
14f1906b62Spatrick * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
15f1906b62Spatrick * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
16f1906b62Spatrick */
17f1906b62Spatrick
18f1906b62Spatrick #include <sys/param.h>
19f1906b62Spatrick #include <sys/systm.h>
20f1906b62Spatrick #include <sys/kernel.h>
21f1906b62Spatrick #include <sys/device.h>
22f1906b62Spatrick #include <sys/malloc.h>
23f1906b62Spatrick #include <sys/stdint.h>
24f1906b62Spatrick
25f1906b62Spatrick #include <machine/bus.h>
26f1906b62Spatrick #include <machine/fdt.h>
27f1906b62Spatrick
28f1906b62Spatrick #include <dev/spi/spivar.h>
29f1906b62Spatrick #include <dev/ofw/openfirm.h>
30f1906b62Spatrick #include <dev/ofw/ofw_clock.h>
31f1906b62Spatrick #include <dev/ofw/ofw_gpio.h>
32f1906b62Spatrick #include <dev/ofw/ofw_pinctrl.h>
33f1906b62Spatrick #include <dev/ofw/fdt.h>
34f1906b62Spatrick
35f1906b62Spatrick /* registers */
36f1906b62Spatrick #define SPI_RXDATA 0x00
37f1906b62Spatrick #define SPI_TXDATA 0x04
38f1906b62Spatrick #define SPI_CONREG 0x08
39f1906b62Spatrick #define SPI_CONREG_EN (1 << 0)
40f1906b62Spatrick #define SPI_CONREG_HT (1 << 1)
41f1906b62Spatrick #define SPI_CONREG_XCH (1 << 2)
42f1906b62Spatrick #define SPI_CONREG_SMC (1 << 3)
43f1906b62Spatrick #define SPI_CONREG_CHANNEL_MASTER (0xf << 4)
44f1906b62Spatrick #define SPI_CONREG_POST_DIVIDER_SHIFT 8
45f1906b62Spatrick #define SPI_CONREG_POST_DIVIDER_MASK 0xf
46f1906b62Spatrick #define SPI_CONREG_PRE_DIVIDER_SHIFT 12
47f1906b62Spatrick #define SPI_CONREG_PRE_DIVIDER_MASK 0xf
48f1906b62Spatrick #define SPI_CONREG_DRCTL_SHIFT 16
49f1906b62Spatrick #define SPI_CONREG_DRCTL_MASK 0x3
50f1906b62Spatrick #define SPI_CONREG_CHANNEL_SELECT(x) ((x) << 18)
51f1906b62Spatrick #define SPI_CONREG_BURST_LENGTH(x) ((x) << 20)
52f1906b62Spatrick #define SPI_CONFIGREG 0x0c
53f1906b62Spatrick #define SPI_CONFIGREG_SCLK_PHA(x) (1 << (0 + (x)))
54f1906b62Spatrick #define SPI_CONFIGREG_SCLK_POL(x) (1 << (4 + (x)))
55f1906b62Spatrick #define SPI_CONFIGREG_SS_CTL(x) (1 << (8 + (x)))
56f1906b62Spatrick #define SPI_CONFIGREG_SS_POL(x) (1 << (12 + (x)))
57f1906b62Spatrick #define SPI_CONFIGREG_DATA_CTL(x) (1 << (16 + (x)))
58f1906b62Spatrick #define SPI_CONFIGREG_SCLK_CTL(x) (1 << (20 + (x)))
59f1906b62Spatrick #define SPI_CONFIGREG_HT_LENGTH(x) (((x) & 0x1f) << 24)
60f1906b62Spatrick #define SPI_INTREG 0x10
61f1906b62Spatrick #define SPI_INTREG_TEEN (1 << 0)
62f1906b62Spatrick #define SPI_INTREG_TDREN (1 << 1)
63f1906b62Spatrick #define SPI_INTREG_TFEN (1 << 2)
64f1906b62Spatrick #define SPI_INTREG_RREN (1 << 3)
65f1906b62Spatrick #define SPI_INTREG_RDREN (1 << 4)
66f1906b62Spatrick #define SPI_INTREG_RFEN (1 << 5)
67f1906b62Spatrick #define SPI_INTREG_ROEN (1 << 6)
68f1906b62Spatrick #define SPI_INTREG_TCEN (1 << 7)
69f1906b62Spatrick #define SPI_DMAREG 0x14
70f1906b62Spatrick #define SPI_STATREG 0x18
71f1906b62Spatrick #define SPI_STATREG_TE (1 << 0)
72f1906b62Spatrick #define SPI_STATREG_TDR (1 << 1)
73f1906b62Spatrick #define SPI_STATREG_TF (1 << 2)
74f1906b62Spatrick #define SPI_STATREG_RR (1 << 3)
75f1906b62Spatrick #define SPI_STATREG_RDR (1 << 4)
76f1906b62Spatrick #define SPI_STATREG_RF (1 << 5)
77f1906b62Spatrick #define SPI_STATREG_RO (1 << 6)
78f1906b62Spatrick #define SPI_STATREG_TC (1 << 7)
79f1906b62Spatrick #define SPI_PERIODREG 0x1c
80f1906b62Spatrick #define SPI_TESTREG 0x20
81f1906b62Spatrick #define SPI_TESTREG_LBC (1U << 31)
82f1906b62Spatrick #define SPI_MSGDATA 0x40
83f1906b62Spatrick
84f1906b62Spatrick #define DEVNAME(sc) ((sc)->sc_dev.dv_xname)
85f1906b62Spatrick
86f1906b62Spatrick struct imxspi_softc {
87f1906b62Spatrick struct device sc_dev;
88f1906b62Spatrick bus_space_tag_t sc_iot;
89f1906b62Spatrick bus_space_handle_t sc_ioh;
90f1906b62Spatrick bus_size_t sc_ios;
91f1906b62Spatrick int sc_node;
92f1906b62Spatrick
93f1906b62Spatrick uint32_t *sc_gpio;
9436defc4bSjsg int sc_gpiolen;
95f1906b62Spatrick
96f1906b62Spatrick struct rwlock sc_buslock;
97f1906b62Spatrick struct spi_controller sc_tag;
98f1906b62Spatrick
99f1906b62Spatrick int sc_ridx;
100f1906b62Spatrick int sc_widx;
101f1906b62Spatrick int sc_cs;
102fe922775Skettenis u_int sc_cs_delay;
103f1906b62Spatrick };
104f1906b62Spatrick
105f1906b62Spatrick int imxspi_match(struct device *, void *, void *);
106f1906b62Spatrick void imxspi_attach(struct device *, struct device *, void *);
107f1906b62Spatrick void imxspi_attachhook(struct device *);
108f1906b62Spatrick int imxspi_detach(struct device *, int);
109f1906b62Spatrick
110f1906b62Spatrick void imxspi_config(void *, struct spi_config *);
111f1906b62Spatrick uint32_t imxspi_clkdiv(struct imxspi_softc *, uint32_t);
112fe922775Skettenis int imxspi_transfer(void *, char *, char *, int, int);
113f1906b62Spatrick int imxspi_acquire_bus(void *, int);
114f1906b62Spatrick void imxspi_release_bus(void *, int);
115f1906b62Spatrick
116f1906b62Spatrick void *imxspi_find_cs_gpio(struct imxspi_softc *, int);
117f1906b62Spatrick int imxspi_wait_state(struct imxspi_softc *, uint32_t, uint32_t);
118f1906b62Spatrick
119f1906b62Spatrick void imxspi_scan(struct imxspi_softc *);
120f1906b62Spatrick
121f1906b62Spatrick #define HREAD4(sc, reg) \
122f1906b62Spatrick (bus_space_read_4((sc)->sc_iot, (sc)->sc_ioh, (reg)))
123f1906b62Spatrick #define HWRITE4(sc, reg, val) \
124f1906b62Spatrick bus_space_write_4((sc)->sc_iot, (sc)->sc_ioh, (reg), (val))
125f1906b62Spatrick #define HSET4(sc, reg, bits) \
126f1906b62Spatrick HWRITE4((sc), (reg), HREAD4((sc), (reg)) | (bits))
127f1906b62Spatrick #define HCLR4(sc, reg, bits) \
128f1906b62Spatrick HWRITE4((sc), (reg), HREAD4((sc), (reg)) & ~(bits))
129f1906b62Spatrick
1309fdf0c62Smpi const struct cfattach imxspi_ca = {
131f1906b62Spatrick sizeof(struct imxspi_softc), imxspi_match, imxspi_attach,
132f1906b62Spatrick imxspi_detach
133f1906b62Spatrick };
134f1906b62Spatrick
135f1906b62Spatrick struct cfdriver imxspi_cd = {
136f1906b62Spatrick NULL, "imxspi", DV_DULL
137f1906b62Spatrick };
138f1906b62Spatrick
139f1906b62Spatrick int
imxspi_match(struct device * parent,void * match,void * aux)140f1906b62Spatrick imxspi_match(struct device *parent, void *match, void *aux)
141f1906b62Spatrick {
142f1906b62Spatrick struct fdt_attach_args *faa = aux;
143f1906b62Spatrick
144f1906b62Spatrick return OF_is_compatible(faa->fa_node, "fsl,imx51-ecspi");
145f1906b62Spatrick }
146f1906b62Spatrick
147f1906b62Spatrick void
imxspi_attach(struct device * parent,struct device * self,void * aux)148f1906b62Spatrick imxspi_attach(struct device *parent, struct device *self, void *aux)
149f1906b62Spatrick {
150f1906b62Spatrick struct imxspi_softc *sc = (struct imxspi_softc *)self;
151f1906b62Spatrick struct fdt_attach_args *faa = aux;
152f1906b62Spatrick
153f1906b62Spatrick if (faa->fa_nreg < 1)
154f1906b62Spatrick return;
155f1906b62Spatrick
156f1906b62Spatrick sc->sc_iot = faa->fa_iot;
157f1906b62Spatrick sc->sc_ios = faa->fa_reg[0].size;
158f1906b62Spatrick sc->sc_node = faa->fa_node;
159f1906b62Spatrick if (bus_space_map(sc->sc_iot, faa->fa_reg[0].addr,
160f1906b62Spatrick faa->fa_reg[0].size, 0, &sc->sc_ioh)) {
161f1906b62Spatrick printf(": can't map registers\n");
162f1906b62Spatrick return;
163f1906b62Spatrick }
164f1906b62Spatrick
165f1906b62Spatrick printf("\n");
166f1906b62Spatrick
167f1906b62Spatrick config_mountroot(self, imxspi_attachhook);
168f1906b62Spatrick }
169f1906b62Spatrick
170f1906b62Spatrick void
imxspi_attachhook(struct device * self)171f1906b62Spatrick imxspi_attachhook(struct device *self)
172f1906b62Spatrick {
173f1906b62Spatrick struct imxspi_softc *sc = (struct imxspi_softc *)self;
174f1906b62Spatrick uint32_t *gpio;
175f1906b62Spatrick int i;
176f1906b62Spatrick
177f1906b62Spatrick pinctrl_byname(sc->sc_node, "default");
178f1906b62Spatrick clock_enable(sc->sc_node, NULL);
179f1906b62Spatrick
180f1906b62Spatrick sc->sc_gpiolen = OF_getproplen(sc->sc_node, "cs-gpios");
18136defc4bSjsg if (sc->sc_gpiolen > 0) {
182f1906b62Spatrick sc->sc_gpio = malloc(sc->sc_gpiolen, M_DEVBUF, M_WAITOK);
183f1906b62Spatrick OF_getpropintarray(sc->sc_node, "cs-gpios",
184f1906b62Spatrick sc->sc_gpio, sc->sc_gpiolen);
185f1906b62Spatrick for (i = 0; i < 4; i++) {
186f1906b62Spatrick gpio = imxspi_find_cs_gpio(sc, i);
187f1906b62Spatrick if (gpio == NULL)
188f1906b62Spatrick break;
189f1906b62Spatrick gpio_controller_config_pin(gpio,
190f1906b62Spatrick GPIO_CONFIG_OUTPUT);
191f1906b62Spatrick gpio_controller_set_pin(gpio, 1);
192f1906b62Spatrick }
193f1906b62Spatrick }
194f1906b62Spatrick
195f1906b62Spatrick /* disable interrupts */
196f1906b62Spatrick HWRITE4(sc, SPI_INTREG, 0);
197f1906b62Spatrick HWRITE4(sc, SPI_STATREG, SPI_STATREG_TC);
198f1906b62Spatrick
199f1906b62Spatrick /* drain input buffer */
200f1906b62Spatrick while (HREAD4(sc, SPI_STATREG) & SPI_STATREG_RR)
201f1906b62Spatrick HREAD4(sc, SPI_RXDATA);
202f1906b62Spatrick
203f1906b62Spatrick rw_init(&sc->sc_buslock, sc->sc_dev.dv_xname);
204f1906b62Spatrick
205f1906b62Spatrick sc->sc_tag.sc_cookie = sc;
206f1906b62Spatrick sc->sc_tag.sc_config = imxspi_config;
207f1906b62Spatrick sc->sc_tag.sc_transfer = imxspi_transfer;
208f1906b62Spatrick sc->sc_tag.sc_acquire_bus = imxspi_acquire_bus;
209f1906b62Spatrick sc->sc_tag.sc_release_bus = imxspi_release_bus;
210f1906b62Spatrick
211f1906b62Spatrick imxspi_scan(sc);
212f1906b62Spatrick }
213f1906b62Spatrick
214f1906b62Spatrick int
imxspi_detach(struct device * self,int flags)215f1906b62Spatrick imxspi_detach(struct device *self, int flags)
216f1906b62Spatrick {
217f1906b62Spatrick struct imxspi_softc *sc = (struct imxspi_softc *)self;
218f1906b62Spatrick
219f1906b62Spatrick HWRITE4(sc, SPI_CONREG, 0);
220f1906b62Spatrick bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios);
221f1906b62Spatrick free(sc->sc_gpio, M_DEVBUF, sc->sc_gpiolen);
222f1906b62Spatrick return 0;
223f1906b62Spatrick }
224f1906b62Spatrick
225f1906b62Spatrick void
imxspi_config(void * cookie,struct spi_config * conf)226f1906b62Spatrick imxspi_config(void *cookie, struct spi_config *conf)
227f1906b62Spatrick {
228f1906b62Spatrick struct imxspi_softc *sc = cookie;
229f1906b62Spatrick uint32_t conreg, configreg;
230f1906b62Spatrick int cs;
231f1906b62Spatrick
232f1906b62Spatrick cs = conf->sc_cs;
233f1906b62Spatrick if (cs > 4) {
234f1906b62Spatrick printf("%s: invalid chip-select (%d)\n", DEVNAME(sc), cs);
235f1906b62Spatrick return;
236f1906b62Spatrick }
237f1906b62Spatrick sc->sc_cs = cs;
238fe922775Skettenis sc->sc_cs_delay = conf->sc_cs_delay;
239f1906b62Spatrick
240f1906b62Spatrick conreg = SPI_CONREG_EN;
241f1906b62Spatrick conreg |= SPI_CONREG_CHANNEL_MASTER;
242f1906b62Spatrick conreg |= imxspi_clkdiv(sc, conf->sc_freq);
243f1906b62Spatrick conreg |= SPI_CONREG_CHANNEL_SELECT(cs);
244f1906b62Spatrick conreg |= SPI_CONREG_BURST_LENGTH(conf->sc_bpw - 1);
245f1906b62Spatrick
246f1906b62Spatrick configreg = HREAD4(sc, SPI_CONFIGREG);
247f1906b62Spatrick configreg &= ~SPI_CONFIGREG_SCLK_PHA(cs);
248f1906b62Spatrick if (conf->sc_flags & SPI_CONFIG_CPHA)
249f1906b62Spatrick configreg |= SPI_CONFIGREG_SCLK_PHA(cs);
250f1906b62Spatrick configreg &= ~SPI_CONFIGREG_SCLK_POL(cs);
251f1906b62Spatrick configreg &= ~SPI_CONFIGREG_SCLK_CTL(cs);
252f1906b62Spatrick if (conf->sc_flags & SPI_CONFIG_CPOL) {
253f1906b62Spatrick configreg |= SPI_CONFIGREG_SCLK_POL(cs);
254f1906b62Spatrick configreg |= SPI_CONFIGREG_SCLK_CTL(cs);
255f1906b62Spatrick }
256f1906b62Spatrick configreg |= SPI_CONFIGREG_SS_CTL(cs);
257f1906b62Spatrick configreg &= ~SPI_CONFIGREG_SS_POL(cs);
258f1906b62Spatrick if (conf->sc_flags & SPI_CONFIG_CS_HIGH)
259f1906b62Spatrick configreg |= SPI_CONFIGREG_SS_POL(cs);
260f1906b62Spatrick
261f1906b62Spatrick HWRITE4(sc, SPI_CONREG, conreg);
262f1906b62Spatrick HWRITE4(sc, SPI_TESTREG, HREAD4(sc, SPI_TESTREG) &
263f1906b62Spatrick ~SPI_TESTREG_LBC);
264f1906b62Spatrick HWRITE4(sc, SPI_CONFIGREG, configreg);
265f1906b62Spatrick delay(1000);
266f1906b62Spatrick }
267f1906b62Spatrick
268f1906b62Spatrick uint32_t
imxspi_clkdiv(struct imxspi_softc * sc,uint32_t freq)269f1906b62Spatrick imxspi_clkdiv(struct imxspi_softc *sc, uint32_t freq)
270f1906b62Spatrick {
271f1906b62Spatrick uint32_t pre, post;
272f1906b62Spatrick uint32_t pfreq;
273f1906b62Spatrick
274f1906b62Spatrick pfreq = clock_get_frequency(sc->sc_node, "per");
275f1906b62Spatrick
276f1906b62Spatrick pre = 0, post = 0;
277f1906b62Spatrick while ((freq * (1 << post) * 16) < pfreq)
278f1906b62Spatrick post++;
279f1906b62Spatrick while ((freq * (1 << post) * (pre + 1)) < pfreq)
280f1906b62Spatrick pre++;
281f1906b62Spatrick if (post >= 16 || pre >= 16) {
282f1906b62Spatrick printf("%s: clock frequency too high\n",
283f1906b62Spatrick DEVNAME(sc));
284f1906b62Spatrick return 0;
285f1906b62Spatrick }
286f1906b62Spatrick
287f1906b62Spatrick return (pre << SPI_CONREG_PRE_DIVIDER_SHIFT |
288f1906b62Spatrick post << SPI_CONREG_POST_DIVIDER_SHIFT);
289f1906b62Spatrick }
290f1906b62Spatrick
291f1906b62Spatrick int
imxspi_wait_state(struct imxspi_softc * sc,uint32_t mask,uint32_t value)292f1906b62Spatrick imxspi_wait_state(struct imxspi_softc *sc, uint32_t mask, uint32_t value)
293f1906b62Spatrick {
294f1906b62Spatrick uint32_t state;
295f1906b62Spatrick int timeout;
296f1906b62Spatrick state = HREAD4(sc, SPI_STATREG);
297f1906b62Spatrick for (timeout = 1000; timeout > 0; timeout--) {
298f1906b62Spatrick if (((state = HREAD4(sc, SPI_STATREG)) & mask) == value)
299f1906b62Spatrick return 0;
300f1906b62Spatrick delay(10);
301f1906b62Spatrick }
302f1906b62Spatrick printf("%s: timeout mask %x value %x\n", __func__, mask, value);
303f1906b62Spatrick return ETIMEDOUT;
304f1906b62Spatrick }
305f1906b62Spatrick
306f1906b62Spatrick void *
imxspi_find_cs_gpio(struct imxspi_softc * sc,int cs)307f1906b62Spatrick imxspi_find_cs_gpio(struct imxspi_softc *sc, int cs)
308f1906b62Spatrick {
309f1906b62Spatrick uint32_t *gpio;
310f1906b62Spatrick
311f1906b62Spatrick if (sc->sc_gpio == NULL)
312f1906b62Spatrick return NULL;
313f1906b62Spatrick
314f1906b62Spatrick gpio = sc->sc_gpio;
315f1906b62Spatrick while (gpio < sc->sc_gpio + (sc->sc_gpiolen / 4)) {
316f1906b62Spatrick if (cs == 0)
317f1906b62Spatrick return gpio;
318f1906b62Spatrick gpio = gpio_controller_next_pin(gpio);
319f1906b62Spatrick cs--;
320f1906b62Spatrick }
321f1906b62Spatrick
322f1906b62Spatrick return NULL;
323f1906b62Spatrick }
324f1906b62Spatrick
325f1906b62Spatrick int
imxspi_transfer(void * cookie,char * out,char * in,int len,int flags)326fe922775Skettenis imxspi_transfer(void *cookie, char *out, char *in, int len, int flags)
327f1906b62Spatrick {
328f1906b62Spatrick struct imxspi_softc *sc = cookie;
329f1906b62Spatrick uint32_t *gpio;
330f1906b62Spatrick int i;
331f1906b62Spatrick
332f1906b62Spatrick sc->sc_ridx = sc->sc_widx = 0;
333f1906b62Spatrick
334f1906b62Spatrick gpio = imxspi_find_cs_gpio(sc, sc->sc_cs);
335f1906b62Spatrick if (gpio) {
336f1906b62Spatrick gpio_controller_set_pin(gpio, 0);
337f1906b62Spatrick delay(1);
338f1906b62Spatrick }
339fe922775Skettenis delay(sc->sc_cs_delay);
340f1906b62Spatrick
341f1906b62Spatrick /* drain input buffer */
342f1906b62Spatrick while (HREAD4(sc, SPI_STATREG) & SPI_STATREG_RR)
343f1906b62Spatrick HREAD4(sc, SPI_RXDATA);
344f1906b62Spatrick
345f1906b62Spatrick while (sc->sc_ridx < len || sc->sc_widx < len) {
346f1906b62Spatrick for (i = sc->sc_widx; i < len; i++) {
347f1906b62Spatrick if (imxspi_wait_state(sc, SPI_STATREG_TF, 0))
348f1906b62Spatrick goto err;
349f1906b62Spatrick if (out)
350f1906b62Spatrick HWRITE4(sc, SPI_TXDATA, out[i]);
351f1906b62Spatrick else
352f1906b62Spatrick HWRITE4(sc, SPI_TXDATA, 0xff);
353f1906b62Spatrick sc->sc_widx++;
354f1906b62Spatrick if (HREAD4(sc, SPI_STATREG) & SPI_STATREG_TF)
355f1906b62Spatrick break;
356f1906b62Spatrick }
357f1906b62Spatrick
358f1906b62Spatrick HSET4(sc, SPI_CONREG, SPI_CONREG_XCH);
359f1906b62Spatrick if (imxspi_wait_state(sc, SPI_STATREG_TC, SPI_STATREG_TC))
360f1906b62Spatrick goto err;
361f1906b62Spatrick
362f1906b62Spatrick for (i = sc->sc_ridx; i < sc->sc_widx; i++) {
363f1906b62Spatrick if (imxspi_wait_state(sc, SPI_STATREG_RR, SPI_STATREG_RR))
364f1906b62Spatrick goto err;
365f1906b62Spatrick if (in)
366f1906b62Spatrick in[i] = HREAD4(sc, SPI_RXDATA);
367f1906b62Spatrick else
368f1906b62Spatrick HREAD4(sc, SPI_RXDATA);
369f1906b62Spatrick sc->sc_ridx++;
370f1906b62Spatrick }
371f1906b62Spatrick
372f1906b62Spatrick HWRITE4(sc, SPI_STATREG, SPI_STATREG_TC);
373f1906b62Spatrick }
374f1906b62Spatrick
375fe922775Skettenis if (!ISSET(flags, SPI_KEEP_CS)) {
376f1906b62Spatrick gpio = imxspi_find_cs_gpio(sc, sc->sc_cs);
377f1906b62Spatrick if (gpio) {
378f1906b62Spatrick gpio_controller_set_pin(gpio, 1);
379f1906b62Spatrick delay(1);
380f1906b62Spatrick }
381fe922775Skettenis }
382f1906b62Spatrick
383f1906b62Spatrick return 0;
384f1906b62Spatrick err:
385f1906b62Spatrick HWRITE4(sc, SPI_CONREG, 0);
386f1906b62Spatrick HWRITE4(sc, SPI_STATREG, SPI_STATREG_TC);
387f1906b62Spatrick return ETIMEDOUT;
388f1906b62Spatrick }
389f1906b62Spatrick
390f1906b62Spatrick int
imxspi_acquire_bus(void * cookie,int flags)391f1906b62Spatrick imxspi_acquire_bus(void *cookie, int flags)
392f1906b62Spatrick {
393f1906b62Spatrick struct imxspi_softc *sc = cookie;
394f1906b62Spatrick
395f1906b62Spatrick rw_enter(&sc->sc_buslock, RW_WRITE);
396f1906b62Spatrick return 0;
397f1906b62Spatrick }
398f1906b62Spatrick
399f1906b62Spatrick void
imxspi_release_bus(void * cookie,int flags)400f1906b62Spatrick imxspi_release_bus(void *cookie, int flags)
401f1906b62Spatrick {
402f1906b62Spatrick struct imxspi_softc *sc = cookie;
403f1906b62Spatrick
404f1906b62Spatrick rw_exit(&sc->sc_buslock);
405f1906b62Spatrick }
406f1906b62Spatrick
407f1906b62Spatrick void
imxspi_scan(struct imxspi_softc * sc)408f1906b62Spatrick imxspi_scan(struct imxspi_softc *sc)
409f1906b62Spatrick {
410f1906b62Spatrick struct spi_attach_args sa;
411f1906b62Spatrick uint32_t reg[1];
412f1906b62Spatrick char name[32];
413f1906b62Spatrick int node;
414f1906b62Spatrick
415f1906b62Spatrick for (node = OF_child(sc->sc_node); node; node = OF_peer(node)) {
416f1906b62Spatrick memset(name, 0, sizeof(name));
417f1906b62Spatrick memset(reg, 0, sizeof(reg));
418f1906b62Spatrick
419f1906b62Spatrick if (OF_getprop(node, "compatible", name, sizeof(name)) == -1)
420f1906b62Spatrick continue;
421f1906b62Spatrick if (name[0] == '\0')
422f1906b62Spatrick continue;
423f1906b62Spatrick
424f1906b62Spatrick if (OF_getprop(node, "reg", ®, sizeof(reg)) != sizeof(reg))
425f1906b62Spatrick continue;
426f1906b62Spatrick
427f1906b62Spatrick memset(&sa, 0, sizeof(sa));
428f1906b62Spatrick sa.sa_tag = &sc->sc_tag;
429f1906b62Spatrick sa.sa_name = name;
430f1906b62Spatrick sa.sa_cookie = &node;
431f1906b62Spatrick
432f1906b62Spatrick config_found(&sc->sc_dev, &sa, NULL);
433f1906b62Spatrick }
434f1906b62Spatrick }
435