imxspi.c revision 1.5
1 1.5 hkenken /* $NetBSD: imxspi.c,v 1.5 2019/08/19 11:41:36 hkenken Exp $ */ 2 1.1 hkenken 3 1.1 hkenken /*- 4 1.1 hkenken * Copyright (c) 2014 Genetec Corporation. All rights reserved. 5 1.1 hkenken * Written by Hashimoto Kenichi for Genetec Corporation. 6 1.1 hkenken * 7 1.1 hkenken * Redistribution and use in source and binary forms, with or without 8 1.1 hkenken * modification, are permitted provided that the following conditions 9 1.1 hkenken * are met: 10 1.1 hkenken * 1. Redistributions of source code must retain the above copyright 11 1.1 hkenken * notice, this list of conditions and the following disclaimer. 12 1.1 hkenken * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 hkenken * notice, this list of conditions and the following disclaimer in the 14 1.1 hkenken * documentation and/or other materials provided with the distribution. 15 1.1 hkenken * 16 1.1 hkenken * THIS SOFTWARE IS PROVIDED BY GENETEC CORPORATION ``AS IS'' AND 17 1.1 hkenken * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 18 1.1 hkenken * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 19 1.1 hkenken * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL GENETEC CORPORATION 20 1.1 hkenken * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 21 1.1 hkenken * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 22 1.1 hkenken * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 23 1.1 hkenken * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 24 1.1 hkenken * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 25 1.1 hkenken * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 26 1.1 hkenken * POSSIBILITY OF SUCH DAMAGE. 27 1.1 hkenken */ 28 1.1 hkenken 29 1.1 hkenken /* 30 1.1 hkenken * this module support CSPI and eCSPI. 31 1.1 hkenken * i.MX51 have 2 eCSPI and 1 CSPI modules. 32 1.1 hkenken */ 33 1.1 hkenken 34 1.1 hkenken #include <sys/cdefs.h> 35 1.5 hkenken __KERNEL_RCSID(0, "$NetBSD: imxspi.c,v 1.5 2019/08/19 11:41:36 hkenken Exp $"); 36 1.1 hkenken 37 1.1 hkenken #include "opt_imx.h" 38 1.1 hkenken #include "opt_imxspi.h" 39 1.5 hkenken #include "opt_fdt.h" 40 1.1 hkenken 41 1.1 hkenken #include <sys/param.h> 42 1.1 hkenken #include <sys/systm.h> 43 1.1 hkenken #include <sys/kernel.h> 44 1.1 hkenken #include <sys/device.h> 45 1.1 hkenken #include <sys/errno.h> 46 1.1 hkenken #include <sys/proc.h> 47 1.1 hkenken #include <sys/intr.h> 48 1.1 hkenken 49 1.1 hkenken #include <sys/bus.h> 50 1.1 hkenken #include <machine/cpu.h> 51 1.1 hkenken #include <machine/intr.h> 52 1.1 hkenken 53 1.1 hkenken #include <arm/imx/imxspivar.h> 54 1.1 hkenken #include <arm/imx/imxspireg.h> 55 1.1 hkenken 56 1.5 hkenken #ifdef FDT 57 1.5 hkenken #include <dev/fdt/fdtvar.h> 58 1.5 hkenken #endif 59 1.5 hkenken 60 1.1 hkenken /* SPI service routines */ 61 1.1 hkenken static int imxspi_configure_enhanced(void *, int, int, int); 62 1.1 hkenken static int imxspi_configure(void *, int, int, int); 63 1.1 hkenken static int imxspi_transfer(void *, struct spi_transfer *); 64 1.1 hkenken 65 1.1 hkenken /* internal stuff */ 66 1.1 hkenken void imxspi_done(struct imxspi_softc *, int); 67 1.1 hkenken void imxspi_send(struct imxspi_softc *); 68 1.1 hkenken void imxspi_recv(struct imxspi_softc *); 69 1.1 hkenken void imxspi_sched(struct imxspi_softc *); 70 1.1 hkenken 71 1.1 hkenken #define IMXSPI(x) \ 72 1.1 hkenken ((sc->sc_enhanced) ? __CONCAT(ECSPI_, x) : __CONCAT(CSPI_, x)) 73 1.1 hkenken #define READ_REG(sc, x) \ 74 1.1 hkenken bus_space_read_4(sc->sc_iot, sc->sc_ioh, IMXSPI(x)) 75 1.1 hkenken #define WRITE_REG(sc, x, v) \ 76 1.1 hkenken bus_space_write_4(sc->sc_iot, sc->sc_ioh, IMXSPI(x), (v)) 77 1.1 hkenken 78 1.1 hkenken #ifdef IMXSPI_DEBUG 79 1.1 hkenken int imxspi_debug = IMXSPI_DEBUG; 80 1.1 hkenken #define DPRINTFN(n,x) if (imxspi_debug>(n)) printf x; 81 1.1 hkenken #else 82 1.1 hkenken #define DPRINTFN(n,x) 83 1.1 hkenken #endif 84 1.1 hkenken 85 1.5 hkenken #ifdef FDT 86 1.5 hkenken static struct spi_controller * 87 1.5 hkenken imxspi_get_controller(device_t dev) 88 1.5 hkenken { 89 1.5 hkenken struct imxspi_softc * const sc = device_private(dev); 90 1.5 hkenken 91 1.5 hkenken return &sc->sc_spi; 92 1.5 hkenken } 93 1.5 hkenken 94 1.5 hkenken static const struct fdtbus_spi_controller_func imxspi_funcs = { 95 1.5 hkenken .get_controller = imxspi_get_controller 96 1.5 hkenken }; 97 1.5 hkenken #endif 98 1.5 hkenken 99 1.1 hkenken int 100 1.5 hkenken imxspi_attach_common(device_t self) 101 1.1 hkenken { 102 1.5 hkenken struct imxspi_softc * const sc = device_private(self); 103 1.1 hkenken 104 1.5 hkenken aprint_normal("i.MX %sCSPI Controller (clock %ld Hz)\n", 105 1.1 hkenken ((sc->sc_enhanced) ? "e" : ""), sc->sc_freq); 106 1.1 hkenken 107 1.1 hkenken /* Initialize SPI controller */ 108 1.5 hkenken sc->sc_dev = self; 109 1.1 hkenken sc->sc_spi.sct_cookie = sc; 110 1.1 hkenken if (sc->sc_enhanced) 111 1.1 hkenken sc->sc_spi.sct_configure = imxspi_configure_enhanced; 112 1.1 hkenken else 113 1.1 hkenken sc->sc_spi.sct_configure = imxspi_configure; 114 1.1 hkenken sc->sc_spi.sct_transfer = imxspi_transfer; 115 1.1 hkenken 116 1.1 hkenken /* sc->sc_spi.sct_nslaves must have been initialized by machdep code */ 117 1.5 hkenken sc->sc_spi.sct_nslaves = sc->sc_nslaves; 118 1.1 hkenken if (!sc->sc_spi.sct_nslaves) 119 1.1 hkenken aprint_error_dev(sc->sc_dev, "no slaves!\n"); 120 1.1 hkenken 121 1.1 hkenken /* initialize the queue */ 122 1.1 hkenken SIMPLEQ_INIT(&sc->sc_q); 123 1.1 hkenken 124 1.1 hkenken /* configure SPI */ 125 1.1 hkenken /* Setup Control Register */ 126 1.1 hkenken WRITE_REG(sc, CONREG, __SHIFTIN(0, IMXSPI(CON_DRCTL)) | 127 1.1 hkenken __SHIFTIN(8 - 1, IMXSPI(CON_BITCOUNT)) | 128 1.1 hkenken __SHIFTIN(0xf, IMXSPI(CON_MODE)) | IMXSPI(CON_ENABLE)); 129 1.1 hkenken 130 1.1 hkenken /* TC and RR interruption */ 131 1.1 hkenken WRITE_REG(sc, INTREG, (IMXSPI(INTR_TC_EN) | IMXSPI(INTR_RR_EN))); 132 1.1 hkenken WRITE_REG(sc, STATREG, IMXSPI(STAT_CLR)); 133 1.1 hkenken 134 1.1 hkenken WRITE_REG(sc, PERIODREG, 0x0); 135 1.1 hkenken 136 1.5 hkenken #ifdef FDT 137 1.5 hkenken KASSERT(sc->sc_phandle != 0); 138 1.5 hkenken 139 1.5 hkenken fdtbus_register_spi_controller(self, sc->sc_phandle, &imxspi_funcs); 140 1.5 hkenken (void) fdtbus_attach_spibus(self, sc->sc_phandle, spibus_print); 141 1.5 hkenken #else 142 1.5 hkenken struct spibus_attach_args sba; 143 1.5 hkenken memset(&sba, 0, sizeof(sba)); 144 1.5 hkenken sba.sba_controller = &sc->sc_spi; 145 1.1 hkenken 146 1.1 hkenken /* attach slave devices */ 147 1.1 hkenken (void)config_found_ia(sc->sc_dev, "spibus", &sba, spibus_print); 148 1.5 hkenken #endif 149 1.1 hkenken 150 1.1 hkenken return 0; 151 1.1 hkenken } 152 1.1 hkenken 153 1.1 hkenken static int 154 1.1 hkenken imxspi_configure(void *arg, int slave, int mode, int speed) 155 1.1 hkenken { 156 1.1 hkenken struct imxspi_softc *sc = arg; 157 1.1 hkenken uint32_t div_cnt = 0; 158 1.1 hkenken uint32_t div; 159 1.1 hkenken uint32_t contrl = 0; 160 1.1 hkenken 161 1.1 hkenken div = (sc->sc_freq + (speed - 1)) / speed; 162 1.1 hkenken div = div - 1; 163 1.1 hkenken for (div_cnt = 0; div > 0; div_cnt++) 164 1.1 hkenken div >>= 1; 165 1.1 hkenken 166 1.1 hkenken div_cnt = div_cnt - 2; 167 1.1 hkenken if (div_cnt >= 7) 168 1.1 hkenken div_cnt = 7; 169 1.1 hkenken 170 1.1 hkenken contrl = READ_REG(sc, CONREG); 171 1.1 hkenken contrl &= ~CSPI_CON_DIV; 172 1.1 hkenken contrl |= __SHIFTIN(div_cnt, CSPI_CON_DIV); 173 1.1 hkenken 174 1.1 hkenken contrl &= ~(CSPI_CON_POL | CSPI_CON_PHA); 175 1.1 hkenken switch (mode) { 176 1.1 hkenken case SPI_MODE_0: 177 1.1 hkenken /* CPHA = 0, CPOL = 0 */ 178 1.1 hkenken break; 179 1.1 hkenken case SPI_MODE_1: 180 1.1 hkenken /* CPHA = 1, CPOL = 0 */ 181 1.1 hkenken contrl |= CSPI_CON_PHA; 182 1.1 hkenken break; 183 1.1 hkenken case SPI_MODE_2: 184 1.1 hkenken /* CPHA = 0, CPOL = 1 */ 185 1.1 hkenken contrl |= CSPI_CON_POL; 186 1.1 hkenken break; 187 1.1 hkenken case SPI_MODE_3: 188 1.1 hkenken /* CPHA = 1, CPOL = 1 */ 189 1.1 hkenken contrl |= CSPI_CON_POL; 190 1.1 hkenken contrl |= CSPI_CON_PHA; 191 1.1 hkenken break; 192 1.1 hkenken default: 193 1.1 hkenken return EINVAL; 194 1.1 hkenken } 195 1.1 hkenken WRITE_REG(sc, CONREG, contrl); 196 1.1 hkenken 197 1.1 hkenken DPRINTFN(3, ("%s: slave %d mode %d speed %d\n", 198 1.1 hkenken __func__, slave, mode, speed)); 199 1.1 hkenken 200 1.1 hkenken return 0; 201 1.1 hkenken } 202 1.1 hkenken 203 1.1 hkenken static int 204 1.1 hkenken imxspi_configure_enhanced(void *arg, int slave, int mode, int speed) 205 1.1 hkenken { 206 1.1 hkenken struct imxspi_softc *sc = arg; 207 1.1 hkenken uint32_t div_cnt = 0; 208 1.1 hkenken uint32_t div; 209 1.1 hkenken uint32_t contrl = 0; 210 1.1 hkenken uint32_t config = 0; 211 1.1 hkenken 212 1.1 hkenken div = (sc->sc_freq + (speed - 1)) / speed; 213 1.1 hkenken for (div_cnt = 0; div > 0; div_cnt++) 214 1.1 hkenken div >>= 1; 215 1.1 hkenken 216 1.1 hkenken if (div_cnt >= 15) 217 1.1 hkenken div_cnt = 15; 218 1.1 hkenken 219 1.1 hkenken contrl = READ_REG(sc, CONREG); 220 1.1 hkenken contrl |= __SHIFTIN(div_cnt, ECSPI_CON_DIV); 221 1.1 hkenken contrl |= __SHIFTIN(slave, ECSPI_CON_CS); 222 1.1 hkenken contrl |= __SHIFTIN(__BIT(slave), ECSPI_CON_MODE); 223 1.1 hkenken WRITE_REG(sc, CONREG, contrl); 224 1.1 hkenken 225 1.1 hkenken config = bus_space_read_4(sc->sc_iot, sc->sc_ioh, ECSPI_CONFIGREG); 226 1.1 hkenken config &= ~(__SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_POL) | 227 1.1 hkenken __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_PHA)); 228 1.1 hkenken switch (mode) { 229 1.1 hkenken case SPI_MODE_0: 230 1.1 hkenken /* CPHA = 0, CPOL = 0 */ 231 1.1 hkenken break; 232 1.1 hkenken case SPI_MODE_1: 233 1.1 hkenken /* CPHA = 1, CPOL = 0 */ 234 1.1 hkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_PHA); 235 1.1 hkenken break; 236 1.1 hkenken case SPI_MODE_2: 237 1.1 hkenken /* CPHA = 0, CPOL = 1 */ 238 1.1 hkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_POL); 239 1.1 hkenken break; 240 1.1 hkenken case SPI_MODE_3: 241 1.1 hkenken /* CPHA = 1, CPOL = 1 */ 242 1.1 hkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_PHA); 243 1.1 hkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SCLK_POL); 244 1.1 hkenken break; 245 1.1 hkenken default: 246 1.1 hkenken return EINVAL; 247 1.1 hkenken } 248 1.1 hkenken config |= __SHIFTIN(__BIT(slave), ECSPI_CONFIG_SSB_CTL); 249 1.1 hkenken bus_space_write_4(sc->sc_iot, sc->sc_ioh, ECSPI_CONFIGREG, config); 250 1.1 hkenken 251 1.1 hkenken DPRINTFN(3, ("%s: slave %d mode %d speed %d\n", 252 1.1 hkenken __func__, slave, mode, speed)); 253 1.1 hkenken 254 1.1 hkenken return 0; 255 1.1 hkenken } 256 1.1 hkenken 257 1.1 hkenken void 258 1.1 hkenken imxspi_send(struct imxspi_softc *sc) 259 1.1 hkenken { 260 1.1 hkenken uint32_t data; 261 1.1 hkenken struct spi_chunk *chunk; 262 1.1 hkenken 263 1.1 hkenken /* fill the fifo */ 264 1.1 hkenken while ((chunk = sc->sc_wchunk) != NULL) { 265 1.1 hkenken while (chunk->chunk_wresid) { 266 1.1 hkenken /* transmit fifo full? */ 267 1.1 hkenken if (READ_REG(sc, STATREG) & IMXSPI(STAT_TF)) 268 1.3 hkenken goto out; 269 1.1 hkenken 270 1.1 hkenken if (chunk->chunk_wptr) { 271 1.1 hkenken data = *chunk->chunk_wptr; 272 1.1 hkenken chunk->chunk_wptr++; 273 1.1 hkenken } else { 274 1.1 hkenken data = 0xff; 275 1.1 hkenken } 276 1.1 hkenken chunk->chunk_wresid--; 277 1.1 hkenken 278 1.1 hkenken WRITE_REG(sc, TXDATA, data); 279 1.1 hkenken } 280 1.1 hkenken /* advance to next transfer */ 281 1.1 hkenken sc->sc_wchunk = sc->sc_wchunk->chunk_next; 282 1.1 hkenken } 283 1.3 hkenken out: 284 1.1 hkenken if (!(READ_REG(sc, STATREG) & IMXSPI(INTR_TE_EN))) 285 1.1 hkenken WRITE_REG(sc, CONREG, READ_REG(sc, CONREG) | IMXSPI(CON_XCH)); 286 1.1 hkenken } 287 1.1 hkenken 288 1.1 hkenken void 289 1.1 hkenken imxspi_recv(struct imxspi_softc *sc) 290 1.1 hkenken { 291 1.1 hkenken uint32_t data; 292 1.1 hkenken struct spi_chunk *chunk; 293 1.1 hkenken 294 1.1 hkenken while ((chunk = sc->sc_rchunk) != NULL) { 295 1.1 hkenken while (chunk->chunk_rresid) { 296 1.1 hkenken /* rx fifo empty? */ 297 1.1 hkenken if ((!(READ_REG(sc, STATREG) & IMXSPI(STAT_RR)))) 298 1.1 hkenken return; 299 1.1 hkenken 300 1.1 hkenken /* collect rx data */ 301 1.1 hkenken data = READ_REG(sc, RXDATA); 302 1.1 hkenken if (chunk->chunk_rptr) { 303 1.1 hkenken *chunk->chunk_rptr = data & 0xff; 304 1.1 hkenken chunk->chunk_rptr++; 305 1.1 hkenken } 306 1.1 hkenken 307 1.1 hkenken chunk->chunk_rresid--; 308 1.1 hkenken } 309 1.1 hkenken /* advance next to next transfer */ 310 1.1 hkenken sc->sc_rchunk = sc->sc_rchunk->chunk_next; 311 1.1 hkenken } 312 1.1 hkenken } 313 1.1 hkenken 314 1.1 hkenken 315 1.1 hkenken void 316 1.1 hkenken imxspi_sched(struct imxspi_softc *sc) 317 1.1 hkenken { 318 1.1 hkenken struct spi_transfer *st; 319 1.1 hkenken uint32_t chipselect; 320 1.1 hkenken 321 1.1 hkenken while ((st = spi_transq_first(&sc->sc_q)) != NULL) { 322 1.1 hkenken /* remove the item */ 323 1.1 hkenken spi_transq_dequeue(&sc->sc_q); 324 1.1 hkenken 325 1.1 hkenken /* note that we are working on it */ 326 1.1 hkenken sc->sc_transfer = st; 327 1.1 hkenken 328 1.1 hkenken /* chip slect */ 329 1.1 hkenken if (sc->sc_tag->spi_cs_enable != NULL) 330 1.1 hkenken sc->sc_tag->spi_cs_enable(sc->sc_tag->cookie, 331 1.1 hkenken st->st_slave); 332 1.1 hkenken 333 1.3 hkenken /* chip slect */ 334 1.1 hkenken chipselect = READ_REG(sc, CONREG); 335 1.1 hkenken chipselect &= ~IMXSPI(CON_CS); 336 1.1 hkenken chipselect |= __SHIFTIN(st->st_slave, IMXSPI(CON_CS)); 337 1.1 hkenken WRITE_REG(sc, CONREG, chipselect); 338 1.1 hkenken 339 1.1 hkenken delay(1); 340 1.1 hkenken 341 1.1 hkenken /* setup chunks */ 342 1.1 hkenken sc->sc_rchunk = sc->sc_wchunk = st->st_chunks; 343 1.1 hkenken 344 1.1 hkenken /* now kick the master start to get the chip running */ 345 1.1 hkenken imxspi_send(sc); 346 1.1 hkenken 347 1.1 hkenken sc->sc_running = TRUE; 348 1.1 hkenken return; 349 1.1 hkenken } 350 1.1 hkenken 351 1.1 hkenken DPRINTFN(2, ("%s: nothing to do anymore\n", __func__)); 352 1.1 hkenken sc->sc_running = FALSE; 353 1.1 hkenken } 354 1.1 hkenken 355 1.1 hkenken void 356 1.1 hkenken imxspi_done(struct imxspi_softc *sc, int err) 357 1.1 hkenken { 358 1.1 hkenken struct spi_transfer *st; 359 1.1 hkenken 360 1.1 hkenken /* called from interrupt handler */ 361 1.1 hkenken if ((st = sc->sc_transfer) != NULL) { 362 1.1 hkenken if (sc->sc_tag->spi_cs_disable != NULL) 363 1.1 hkenken sc->sc_tag->spi_cs_disable(sc->sc_tag->cookie, 364 1.1 hkenken st->st_slave); 365 1.1 hkenken 366 1.1 hkenken sc->sc_transfer = NULL; 367 1.1 hkenken spi_done(st, err); 368 1.1 hkenken } 369 1.1 hkenken /* make sure we clear these bits out */ 370 1.1 hkenken sc->sc_wchunk = sc->sc_rchunk = NULL; 371 1.1 hkenken imxspi_sched(sc); 372 1.1 hkenken } 373 1.1 hkenken 374 1.5 hkenken int 375 1.1 hkenken imxspi_intr(void *arg) 376 1.1 hkenken { 377 1.1 hkenken struct imxspi_softc *sc = arg; 378 1.1 hkenken uint32_t intr, sr; 379 1.1 hkenken int err = 0; 380 1.1 hkenken 381 1.1 hkenken if ((intr = READ_REG(sc, INTREG)) == 0) { 382 1.1 hkenken /* interrupts are not enabled, get out */ 383 1.1 hkenken DPRINTFN(4, ("%s: interrupts are not enabled\n", __func__)); 384 1.1 hkenken return 0; 385 1.1 hkenken } 386 1.1 hkenken 387 1.1 hkenken sr = READ_REG(sc, STATREG); 388 1.1 hkenken if (!(sr & intr)) { 389 1.1 hkenken /* interrupt did not happen, get out */ 390 1.1 hkenken DPRINTFN(3, ("%s: interrupts did not happen\n", __func__)); 391 1.1 hkenken return 0; 392 1.1 hkenken } 393 1.1 hkenken 394 1.3 hkenken /* RXFIFO ready? */ 395 1.3 hkenken if (sr & IMXSPI(INTR_RR_EN)) { 396 1.3 hkenken imxspi_recv(sc); 397 1.3 hkenken if (sc->sc_wchunk == NULL && sc->sc_rchunk == NULL) 398 1.3 hkenken imxspi_done(sc, err); 399 1.3 hkenken } 400 1.3 hkenken 401 1.1 hkenken /* Transfer Conplete? */ 402 1.1 hkenken if (sr & IMXSPI(INTR_TC_EN)) { 403 1.1 hkenken /* complete TX */ 404 1.1 hkenken imxspi_send(sc); 405 1.1 hkenken } 406 1.1 hkenken 407 1.1 hkenken /* status register clear */ 408 1.1 hkenken WRITE_REG(sc, STATREG, sr); 409 1.1 hkenken 410 1.1 hkenken return 1; 411 1.1 hkenken } 412 1.1 hkenken 413 1.1 hkenken int 414 1.1 hkenken imxspi_transfer(void *arg, struct spi_transfer *st) 415 1.1 hkenken { 416 1.1 hkenken struct imxspi_softc *sc = arg; 417 1.1 hkenken int s; 418 1.1 hkenken 419 1.1 hkenken /* make sure we select the right chip */ 420 1.2 hkenken s = splbio(); 421 1.1 hkenken spi_transq_enqueue(&sc->sc_q, st); 422 1.1 hkenken if (sc->sc_running == FALSE) 423 1.1 hkenken imxspi_sched(sc); 424 1.1 hkenken splx(s); 425 1.1 hkenken 426 1.1 hkenken return 0; 427 1.1 hkenken } 428 1.1 hkenken 429
Indexes created Tue Sep 30 20:09:53 GMT 2025