arspi.c revision 1.3.2.2
1 1.3.2.2 yamt /* $NetBSD: arspi.c,v 1.3.2.2 2006/12/30 20:46:30 yamt Exp $ */ 2 1.3.2.2 yamt 3 1.3.2.2 yamt /*- 4 1.3.2.2 yamt * Copyright (c) 2006 Urbana-Champaign Independent Media Center. 5 1.3.2.2 yamt * Copyright (c) 2006 Garrett D'Amore. 6 1.3.2.2 yamt * All rights reserved. 7 1.3.2.2 yamt * 8 1.3.2.2 yamt * Portions of this code were written by Garrett D'Amore for the 9 1.3.2.2 yamt * Champaign-Urbana Community Wireless Network Project. 10 1.3.2.2 yamt * 11 1.3.2.2 yamt * Redistribution and use in source and binary forms, with or 12 1.3.2.2 yamt * without modification, are permitted provided that the following 13 1.3.2.2 yamt * conditions are met: 14 1.3.2.2 yamt * 1. Redistributions of source code must retain the above copyright 15 1.3.2.2 yamt * notice, this list of conditions and the following disclaimer. 16 1.3.2.2 yamt * 2. Redistributions in binary form must reproduce the above 17 1.3.2.2 yamt * copyright notice, this list of conditions and the following 18 1.3.2.2 yamt * disclaimer in the documentation and/or other materials provided 19 1.3.2.2 yamt * with the distribution. 20 1.3.2.2 yamt * 3. All advertising materials mentioning features or use of this 21 1.3.2.2 yamt * software must display the following acknowledgements: 22 1.3.2.2 yamt * This product includes software developed by the Urbana-Champaign 23 1.3.2.2 yamt * Independent Media Center. 24 1.3.2.2 yamt * This product includes software developed by Garrett D'Amore. 25 1.3.2.2 yamt * 4. Urbana-Champaign Independent Media Center's name and Garrett 26 1.3.2.2 yamt * D'Amore's name may not be used to endorse or promote products 27 1.3.2.2 yamt * derived from this software without specific prior written permission. 28 1.3.2.2 yamt * 29 1.3.2.2 yamt * THIS SOFTWARE IS PROVIDED BY THE URBANA-CHAMPAIGN INDEPENDENT 30 1.3.2.2 yamt * MEDIA CENTER AND GARRETT D'AMORE ``AS IS'' AND ANY EXPRESS OR 31 1.3.2.2 yamt * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 32 1.3.2.2 yamt * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 33 1.3.2.2 yamt * ARE DISCLAIMED. IN NO EVENT SHALL THE URBANA-CHAMPAIGN INDEPENDENT 34 1.3.2.2 yamt * MEDIA CENTER OR GARRETT D'AMORE BE LIABLE FOR ANY DIRECT, INDIRECT, 35 1.3.2.2 yamt * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 36 1.3.2.2 yamt * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 37 1.3.2.2 yamt * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER 38 1.3.2.2 yamt * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, 39 1.3.2.2 yamt * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 40 1.3.2.2 yamt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 41 1.3.2.2 yamt * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 42 1.3.2.2 yamt */ 43 1.3.2.2 yamt 44 1.3.2.2 yamt #include <sys/cdefs.h> 45 1.3.2.2 yamt __KERNEL_RCSID(0, "$NetBSD: arspi.c,v 1.3.2.2 2006/12/30 20:46:30 yamt Exp $"); 46 1.3.2.2 yamt 47 1.3.2.2 yamt #include "locators.h" 48 1.3.2.2 yamt 49 1.3.2.2 yamt #include <sys/param.h> 50 1.3.2.2 yamt #include <sys/systm.h> 51 1.3.2.2 yamt #include <sys/kernel.h> 52 1.3.2.2 yamt #include <sys/device.h> 53 1.3.2.2 yamt #include <sys/errno.h> 54 1.3.2.2 yamt #include <sys/malloc.h> 55 1.3.2.2 yamt #include <sys/proc.h> 56 1.3.2.2 yamt #include <sys/queue.h> 57 1.3.2.2 yamt 58 1.3.2.2 yamt #include <machine/bus.h> 59 1.3.2.2 yamt #include <machine/cpu.h> 60 1.3.2.2 yamt 61 1.3.2.2 yamt #include <mips/atheros/include/ar5315reg.h> 62 1.3.2.2 yamt #include <mips/atheros/include/ar531xvar.h> 63 1.3.2.2 yamt #include <mips/atheros/include/arbusvar.h> 64 1.3.2.2 yamt 65 1.3.2.2 yamt #include <mips/atheros/dev/arspireg.h> 66 1.3.2.2 yamt 67 1.3.2.2 yamt #include <dev/spi/spiflash.h> 68 1.3.2.2 yamt #include <dev/spi/spivar.h> 69 1.3.2.2 yamt 70 1.3.2.2 yamt /* 71 1.3.2.2 yamt * This device is intended only to operate with specific SPI flash 72 1.3.2.2 yamt * parts, and is not a general purpose SPI host. (Or at least if it 73 1.3.2.2 yamt * is, the Linux and eCos sources do not show how to use it as such.) 74 1.3.2.2 yamt * And lack of documentation on the Atheros SoCs is less than helpful. 75 1.3.2.2 yamt * 76 1.3.2.2 yamt * So for now we just "emulate" enough of the host bus framework to 77 1.3.2.2 yamt * make the SPI flash drivers happy. 78 1.3.2.2 yamt */ 79 1.3.2.2 yamt 80 1.3.2.2 yamt struct arspi_job { 81 1.3.2.2 yamt uint8_t job_opcode; 82 1.3.2.2 yamt struct spi_chunk *job_chunk; 83 1.3.2.2 yamt uint32_t job_flags; 84 1.3.2.2 yamt uint32_t job_addr; 85 1.3.2.2 yamt uint32_t job_data; 86 1.3.2.2 yamt int job_rxcnt; 87 1.3.2.2 yamt int job_txcnt; 88 1.3.2.2 yamt int job_addrcnt; 89 1.3.2.2 yamt int job_rresid; 90 1.3.2.2 yamt int job_wresid; 91 1.3.2.2 yamt }; 92 1.3.2.2 yamt 93 1.3.2.2 yamt #define JOB_READ 0x1 94 1.3.2.2 yamt #define JOB_WRITE 0x2 95 1.3.2.2 yamt #define JOB_LAST 0x4 96 1.3.2.2 yamt #define JOB_WAIT 0x8 /* job must wait for WIP bits */ 97 1.3.2.2 yamt #define JOB_WREN 0x10 /* WREN needed */ 98 1.3.2.2 yamt 99 1.3.2.2 yamt struct arspi_softc { 100 1.3.2.2 yamt struct device sc_dev; 101 1.3.2.2 yamt struct spi_controller sc_spi; 102 1.3.2.2 yamt void *sc_ih; 103 1.3.2.2 yamt boolean_t sc_interrupts; 104 1.3.2.2 yamt 105 1.3.2.2 yamt struct spi_transfer *sc_transfer; 106 1.3.2.2 yamt struct spi_chunk *sc_wchunk; /* for partial writes */ 107 1.3.2.2 yamt struct spi_transq sc_transq; 108 1.3.2.2 yamt bus_space_tag_t sc_st; 109 1.3.2.2 yamt bus_space_handle_t sc_sh; 110 1.3.2.2 yamt bus_size_t sc_size; 111 1.3.2.2 yamt }; 112 1.3.2.2 yamt 113 1.3.2.2 yamt #define STATIC 114 1.3.2.2 yamt 115 1.3.2.2 yamt STATIC int arspi_match(struct device *, struct cfdata *, void *); 116 1.3.2.2 yamt STATIC void arspi_attach(struct device *, struct device *, void *); 117 1.3.2.2 yamt STATIC void arspi_interrupts(struct device *); 118 1.3.2.2 yamt STATIC int arspi_intr(void *); 119 1.3.2.2 yamt /* SPI service routines */ 120 1.3.2.2 yamt STATIC int arspi_configure(void *, int, int, int); 121 1.3.2.2 yamt STATIC int arspi_transfer(void *, struct spi_transfer *); 122 1.3.2.2 yamt /* internal support */ 123 1.3.2.2 yamt STATIC void arspi_poll(struct arspi_softc *); 124 1.3.2.2 yamt STATIC void arspi_done(struct arspi_softc *, int); 125 1.3.2.2 yamt STATIC void arspi_sched(struct arspi_softc *); 126 1.3.2.2 yamt STATIC int arspi_get_byte(struct spi_chunk **, uint8_t *); 127 1.3.2.2 yamt STATIC int arspi_put_byte(struct spi_chunk **, uint8_t); 128 1.3.2.2 yamt STATIC int arspi_make_job(struct spi_transfer *); 129 1.3.2.2 yamt STATIC void arspi_update_job(struct spi_transfer *); 130 1.3.2.2 yamt STATIC void arspi_finish_job(struct spi_transfer *); 131 1.3.2.2 yamt 132 1.3.2.2 yamt 133 1.3.2.2 yamt CFATTACH_DECL(arspi, sizeof(struct arspi_softc), 134 1.3.2.2 yamt arspi_match, arspi_attach, NULL, NULL); 135 1.3.2.2 yamt 136 1.3.2.2 yamt #define GETREG(sc, o) bus_space_read_4(sc->sc_st, sc->sc_sh, o) 137 1.3.2.2 yamt #define PUTREG(sc, o, v) bus_space_write_4(sc->sc_st, sc->sc_sh, o, v) 138 1.3.2.2 yamt 139 1.3.2.2 yamt int 140 1.3.2.2 yamt arspi_match(struct device *parent, struct cfdata *cf, void *aux) 141 1.3.2.2 yamt { 142 1.3.2.2 yamt struct arbus_attach_args *aa = aux; 143 1.3.2.2 yamt 144 1.3.2.2 yamt if (strcmp(aa->aa_name, cf->cf_name) != 0) 145 1.3.2.2 yamt return 0; 146 1.3.2.2 yamt return 1; 147 1.3.2.2 yamt } 148 1.3.2.2 yamt 149 1.3.2.2 yamt void 150 1.3.2.2 yamt arspi_attach(struct device *parent, struct device *self, void *aux) 151 1.3.2.2 yamt { 152 1.3.2.2 yamt struct arspi_softc *sc = device_private(self); 153 1.3.2.2 yamt struct spibus_attach_args sba; 154 1.3.2.2 yamt struct arbus_attach_args *aa = aux; 155 1.3.2.2 yamt 156 1.3.2.2 yamt /* 157 1.3.2.2 yamt * Map registers. 158 1.3.2.2 yamt */ 159 1.3.2.2 yamt sc->sc_st = aa->aa_bst; 160 1.3.2.2 yamt sc->sc_size = aa->aa_size; 161 1.3.2.2 yamt if (bus_space_map(sc->sc_st, aa->aa_addr, sc->sc_size, 0, 162 1.3.2.2 yamt &sc->sc_sh) != 0) { 163 1.3.2.2 yamt printf(": unable to map registers!\n"); 164 1.3.2.2 yamt return; 165 1.3.2.2 yamt } 166 1.3.2.2 yamt 167 1.3.2.2 yamt aprint_normal(": Atheros SPI controller\n"); 168 1.3.2.2 yamt 169 1.3.2.2 yamt /* 170 1.3.2.2 yamt * Initialize SPI controller. 171 1.3.2.2 yamt */ 172 1.3.2.2 yamt sc->sc_spi.sct_cookie = sc; 173 1.3.2.2 yamt sc->sc_spi.sct_configure = arspi_configure; 174 1.3.2.2 yamt sc->sc_spi.sct_transfer = arspi_transfer; 175 1.3.2.2 yamt sc->sc_spi.sct_nslaves = 1; 176 1.3.2.2 yamt 177 1.3.2.2 yamt 178 1.3.2.2 yamt /* 179 1.3.2.2 yamt * Initialize the queue. 180 1.3.2.2 yamt */ 181 1.3.2.2 yamt spi_transq_init(&sc->sc_transq); 182 1.3.2.2 yamt 183 1.3.2.2 yamt /* 184 1.3.2.2 yamt * Enable device interrupts. 185 1.3.2.2 yamt */ 186 1.3.2.2 yamt sc->sc_ih = arbus_intr_establish(aa->aa_cirq, aa->aa_mirq, 187 1.3.2.2 yamt arspi_intr, sc); 188 1.3.2.2 yamt if (sc->sc_ih == NULL) { 189 1.3.2.2 yamt aprint_error("%s: couldn't establish interrupt\n", 190 1.3.2.2 yamt device_xname(self)); 191 1.3.2.2 yamt /* just leave it in polled mode */ 192 1.3.2.2 yamt } else 193 1.3.2.2 yamt config_interrupts(self, arspi_interrupts); 194 1.3.2.2 yamt 195 1.3.2.2 yamt /* 196 1.3.2.2 yamt * Initialize and attach bus attach. 197 1.3.2.2 yamt */ 198 1.3.2.2 yamt sba.sba_controller = &sc->sc_spi; 199 1.3.2.2 yamt (void) config_found_ia(&sc->sc_dev, "spibus", &sba, spibus_print); 200 1.3.2.2 yamt } 201 1.3.2.2 yamt 202 1.3.2.2 yamt void 203 1.3.2.2 yamt arspi_interrupts(struct device *self) 204 1.3.2.2 yamt { 205 1.3.2.2 yamt /* 206 1.3.2.2 yamt * we never leave polling mode, because, apparently, we 207 1.3.2.2 yamt * are missing some data about how to drive the SPI in interrupt 208 1.3.2.2 yamt * mode. 209 1.3.2.2 yamt */ 210 1.3.2.2 yamt #if 0 211 1.3.2.2 yamt struct arspi_softc *sc = device_private(self); 212 1.3.2.2 yamt int s; 213 1.3.2.2 yamt 214 1.3.2.2 yamt s = splserial(); 215 1.3.2.2 yamt sc->sc_interrupts = TRUE; 216 1.3.2.2 yamt splx(s); 217 1.3.2.2 yamt #endif 218 1.3.2.2 yamt } 219 1.3.2.2 yamt 220 1.3.2.2 yamt int 221 1.3.2.2 yamt arspi_intr(void *arg) 222 1.3.2.2 yamt { 223 1.3.2.2 yamt struct arspi_softc *sc = arg; 224 1.3.2.2 yamt 225 1.3.2.2 yamt while (GETREG(sc, ARSPI_REG_CTL) & ARSPI_CTL_BUSY); 226 1.3.2.2 yamt 227 1.3.2.2 yamt arspi_done(sc, 0); 228 1.3.2.2 yamt 229 1.3.2.2 yamt return 1; 230 1.3.2.2 yamt } 231 1.3.2.2 yamt 232 1.3.2.2 yamt void 233 1.3.2.2 yamt arspi_poll(struct arspi_softc *sc) 234 1.3.2.2 yamt { 235 1.3.2.2 yamt 236 1.3.2.2 yamt while (sc->sc_transfer) { 237 1.3.2.2 yamt arspi_intr(sc); 238 1.3.2.2 yamt } 239 1.3.2.2 yamt } 240 1.3.2.2 yamt 241 1.3.2.2 yamt int 242 1.3.2.2 yamt arspi_configure(void *cookie, int slave, int mode, int speed) 243 1.3.2.2 yamt { 244 1.3.2.2 yamt 245 1.3.2.2 yamt /* 246 1.3.2.2 yamt * We don't support the full SPI protocol, and hopefully the 247 1.3.2.2 yamt * firmware has programmed a reasonable mode already. So 248 1.3.2.2 yamt * just a couple of quick sanity checks, then bail. 249 1.3.2.2 yamt */ 250 1.3.2.2 yamt if ((mode != 0) || (slave != 0)) 251 1.3.2.2 yamt return EINVAL; 252 1.3.2.2 yamt 253 1.3.2.2 yamt return 0; 254 1.3.2.2 yamt } 255 1.3.2.2 yamt 256 1.3.2.2 yamt int 257 1.3.2.2 yamt arspi_transfer(void *cookie, struct spi_transfer *st) 258 1.3.2.2 yamt { 259 1.3.2.2 yamt struct arspi_softc *sc = cookie; 260 1.3.2.2 yamt int rv; 261 1.3.2.2 yamt int s; 262 1.3.2.2 yamt 263 1.3.2.2 yamt st->st_busprivate = NULL; 264 1.3.2.2 yamt if ((rv = arspi_make_job(st)) != 0) { 265 1.3.2.2 yamt if (st->st_busprivate) { 266 1.3.2.2 yamt free(st->st_busprivate, M_DEVBUF); 267 1.3.2.2 yamt st->st_busprivate = NULL; 268 1.3.2.2 yamt } 269 1.3.2.2 yamt spi_done(st, rv); 270 1.3.2.2 yamt return rv; 271 1.3.2.2 yamt } 272 1.3.2.2 yamt 273 1.3.2.2 yamt s = splserial(); 274 1.3.2.2 yamt spi_transq_enqueue(&sc->sc_transq, st); 275 1.3.2.2 yamt if (sc->sc_transfer == NULL) { 276 1.3.2.2 yamt arspi_sched(sc); 277 1.3.2.2 yamt if (!sc->sc_interrupts) 278 1.3.2.2 yamt arspi_poll(sc); 279 1.3.2.2 yamt } 280 1.3.2.2 yamt splx(s); 281 1.3.2.2 yamt return 0; 282 1.3.2.2 yamt } 283 1.3.2.2 yamt 284 1.3.2.2 yamt void 285 1.3.2.2 yamt arspi_sched(struct arspi_softc *sc) 286 1.3.2.2 yamt { 287 1.3.2.2 yamt struct spi_transfer *st; 288 1.3.2.2 yamt struct arspi_job *job; 289 1.3.2.2 yamt uint32_t ctl, cnt; 290 1.3.2.2 yamt 291 1.3.2.2 yamt for (;;) { 292 1.3.2.2 yamt if ((st = sc->sc_transfer) == NULL) { 293 1.3.2.2 yamt if ((st = spi_transq_first(&sc->sc_transq)) == NULL) { 294 1.3.2.2 yamt /* no work left to do */ 295 1.3.2.2 yamt break; 296 1.3.2.2 yamt } 297 1.3.2.2 yamt spi_transq_dequeue(&sc->sc_transq); 298 1.3.2.2 yamt sc->sc_transfer = st; 299 1.3.2.2 yamt } 300 1.3.2.2 yamt 301 1.3.2.2 yamt arspi_update_job(st); 302 1.3.2.2 yamt job = st->st_busprivate; 303 1.3.2.2 yamt 304 1.3.2.2 yamt /* there shouldn't be anything running, but ensure it */ 305 1.3.2.2 yamt do { 306 1.3.2.2 yamt ctl = GETREG(sc, ARSPI_REG_CTL); 307 1.3.2.2 yamt } while (ctl & ARSPI_CTL_BUSY); 308 1.3.2.2 yamt /* clear all of the tx and rx bits */ 309 1.3.2.2 yamt ctl &= ~(ARSPI_CTL_TXCNT_MASK | ARSPI_CTL_RXCNT_MASK); 310 1.3.2.2 yamt 311 1.3.2.2 yamt if (job->job_flags & JOB_WAIT) { 312 1.3.2.2 yamt PUTREG(sc, ARSPI_REG_OPCODE, SPIFLASH_CMD_RDSR); 313 1.3.2.2 yamt /* only the opcode for tx */ 314 1.3.2.2 yamt ctl |= (1 << ARSPI_CTL_TXCNT_SHIFT); 315 1.3.2.2 yamt /* and one rx byte */ 316 1.3.2.2 yamt ctl |= (1 << ARSPI_CTL_RXCNT_SHIFT); 317 1.3.2.2 yamt } else if (job->job_flags & JOB_WREN) { 318 1.3.2.2 yamt PUTREG(sc, ARSPI_REG_OPCODE, SPIFLASH_CMD_WREN); 319 1.3.2.2 yamt /* just the opcode */ 320 1.3.2.2 yamt ctl |= (1 << ARSPI_CTL_TXCNT_SHIFT); 321 1.3.2.2 yamt /* no rx bytes */ 322 1.3.2.2 yamt } else { 323 1.3.2.2 yamt /* set the data */ 324 1.3.2.2 yamt PUTREG(sc, ARSPI_REG_DATA, job->job_data); 325 1.3.2.2 yamt 326 1.3.2.2 yamt /* set the opcode and the address */ 327 1.3.2.2 yamt PUTREG(sc, ARSPI_REG_OPCODE, job->job_opcode | 328 1.3.2.2 yamt (job->job_addr << 8)); 329 1.3.2.2 yamt 330 1.3.2.2 yamt /* now set txcnt */ 331 1.3.2.2 yamt cnt = 1; /* opcode */ 332 1.3.2.2 yamt cnt += job->job_addrcnt + job->job_txcnt; 333 1.3.2.2 yamt ctl |= (cnt << ARSPI_CTL_TXCNT_SHIFT); 334 1.3.2.2 yamt 335 1.3.2.2 yamt /* now set rxcnt */ 336 1.3.2.2 yamt cnt = job->job_rxcnt; 337 1.3.2.2 yamt ctl |= (cnt << ARSPI_CTL_RXCNT_SHIFT); 338 1.3.2.2 yamt } 339 1.3.2.2 yamt 340 1.3.2.2 yamt /* set the start bit */ 341 1.3.2.2 yamt ctl |= ARSPI_CTL_START; 342 1.3.2.2 yamt 343 1.3.2.2 yamt PUTREG(sc, ARSPI_REG_CTL, ctl); 344 1.3.2.2 yamt break; 345 1.3.2.2 yamt } 346 1.3.2.2 yamt } 347 1.3.2.2 yamt 348 1.3.2.2 yamt void 349 1.3.2.2 yamt arspi_done(struct arspi_softc *sc, int err) 350 1.3.2.2 yamt { 351 1.3.2.2 yamt struct spi_transfer *st; 352 1.3.2.2 yamt struct arspi_job *job; 353 1.3.2.2 yamt 354 1.3.2.2 yamt if ((st = sc->sc_transfer) != NULL) { 355 1.3.2.2 yamt job = st->st_busprivate; 356 1.3.2.2 yamt 357 1.3.2.2 yamt if (job->job_flags & JOB_WAIT) { 358 1.3.2.2 yamt if (err == 0) { 359 1.3.2.2 yamt if ((GETREG(sc, ARSPI_REG_DATA) & 360 1.3.2.2 yamt SPIFLASH_SR_BUSY) == 0) { 361 1.3.2.2 yamt /* intermediate wait done */ 362 1.3.2.2 yamt job->job_flags &= ~JOB_WAIT; 363 1.3.2.2 yamt goto done; 364 1.3.2.2 yamt } 365 1.3.2.2 yamt } 366 1.3.2.2 yamt } else if (job->job_flags & JOB_WREN) { 367 1.3.2.2 yamt if (err == 0) { 368 1.3.2.2 yamt job->job_flags &= ~JOB_WREN; 369 1.3.2.2 yamt goto done; 370 1.3.2.2 yamt } 371 1.3.2.2 yamt } else if (err == 0) { 372 1.3.2.2 yamt /* 373 1.3.2.2 yamt * When breaking up write jobs, we have to wait until 374 1.3.2.2 yamt * the WIP bit is clear, and we have to separately 375 1.3.2.2 yamt * send WREN for each chunk. These flags facilitate 376 1.3.2.2 yamt * that. 377 1.3.2.2 yamt */ 378 1.3.2.2 yamt if (job->job_flags & JOB_WRITE) 379 1.3.2.2 yamt job->job_flags |= (JOB_WAIT | JOB_WREN); 380 1.3.2.2 yamt job->job_data = GETREG(sc, ARSPI_REG_DATA); 381 1.3.2.2 yamt arspi_finish_job(st); 382 1.3.2.2 yamt } 383 1.3.2.2 yamt 384 1.3.2.2 yamt if (err || (job->job_flags & JOB_LAST)) { 385 1.3.2.2 yamt sc->sc_transfer = NULL; 386 1.3.2.2 yamt st->st_busprivate = NULL; 387 1.3.2.2 yamt spi_done(st, err); 388 1.3.2.2 yamt free(job, M_DEVBUF); 389 1.3.2.2 yamt } 390 1.3.2.2 yamt } 391 1.3.2.2 yamt done: 392 1.3.2.2 yamt arspi_sched(sc); 393 1.3.2.2 yamt } 394 1.3.2.2 yamt 395 1.3.2.2 yamt int 396 1.3.2.2 yamt arspi_get_byte(struct spi_chunk **chunkp, uint8_t *bytep) 397 1.3.2.2 yamt { 398 1.3.2.2 yamt struct spi_chunk *chunk; 399 1.3.2.2 yamt 400 1.3.2.2 yamt chunk = *chunkp; 401 1.3.2.2 yamt 402 1.3.2.2 yamt /* skip leading empty (or already consumed) chunks */ 403 1.3.2.2 yamt while (chunk && chunk->chunk_wresid == 0) 404 1.3.2.2 yamt chunk = chunk->chunk_next; 405 1.3.2.2 yamt 406 1.3.2.2 yamt if (chunk == NULL) { 407 1.3.2.2 yamt return ENODATA; 408 1.3.2.2 yamt } 409 1.3.2.2 yamt 410 1.3.2.2 yamt /* 411 1.3.2.2 yamt * chunk must be write only. SPI flash doesn't support 412 1.3.2.2 yamt * any full duplex operations. 413 1.3.2.2 yamt */ 414 1.3.2.2 yamt if ((chunk->chunk_rptr) || !(chunk->chunk_wptr)) { 415 1.3.2.2 yamt return EINVAL; 416 1.3.2.2 yamt } 417 1.3.2.2 yamt 418 1.3.2.2 yamt *bytep = *chunk->chunk_wptr; 419 1.3.2.2 yamt chunk->chunk_wptr++; 420 1.3.2.2 yamt chunk->chunk_wresid--; 421 1.3.2.2 yamt chunk->chunk_rresid--; 422 1.3.2.2 yamt /* clearing wptr and rptr makes sanity checks later easier */ 423 1.3.2.2 yamt if (chunk->chunk_wresid == 0) 424 1.3.2.2 yamt chunk->chunk_wptr = NULL; 425 1.3.2.2 yamt if (chunk->chunk_rresid == 0) 426 1.3.2.2 yamt chunk->chunk_rptr = NULL; 427 1.3.2.2 yamt while (chunk && chunk->chunk_wresid == 0) 428 1.3.2.2 yamt chunk = chunk->chunk_next; 429 1.3.2.2 yamt 430 1.3.2.2 yamt *chunkp = chunk; 431 1.3.2.2 yamt return 0; 432 1.3.2.2 yamt } 433 1.3.2.2 yamt 434 1.3.2.2 yamt int 435 1.3.2.2 yamt arspi_put_byte(struct spi_chunk **chunkp, uint8_t byte) 436 1.3.2.2 yamt { 437 1.3.2.2 yamt struct spi_chunk *chunk; 438 1.3.2.2 yamt 439 1.3.2.2 yamt chunk = *chunkp; 440 1.3.2.2 yamt 441 1.3.2.2 yamt /* skip leading empty (or already consumed) chunks */ 442 1.3.2.2 yamt while (chunk && chunk->chunk_rresid == 0) 443 1.3.2.2 yamt chunk = chunk->chunk_next; 444 1.3.2.2 yamt 445 1.3.2.2 yamt if (chunk == NULL) { 446 1.3.2.2 yamt return EOVERFLOW; 447 1.3.2.2 yamt } 448 1.3.2.2 yamt 449 1.3.2.2 yamt /* 450 1.3.2.2 yamt * chunk must be read only. SPI flash doesn't support 451 1.3.2.2 yamt * any full duplex operations. 452 1.3.2.2 yamt */ 453 1.3.2.2 yamt if ((chunk->chunk_wptr) || !(chunk->chunk_rptr)) { 454 1.3.2.2 yamt return EINVAL; 455 1.3.2.2 yamt } 456 1.3.2.2 yamt 457 1.3.2.2 yamt *chunk->chunk_rptr = byte; 458 1.3.2.2 yamt chunk->chunk_rptr++; 459 1.3.2.2 yamt chunk->chunk_wresid--; /* technically this was done at send time */ 460 1.3.2.2 yamt chunk->chunk_rresid--; 461 1.3.2.2 yamt while (chunk && chunk->chunk_rresid == 0) 462 1.3.2.2 yamt chunk = chunk->chunk_next; 463 1.3.2.2 yamt 464 1.3.2.2 yamt *chunkp = chunk; 465 1.3.2.2 yamt return 0; 466 1.3.2.2 yamt } 467 1.3.2.2 yamt 468 1.3.2.2 yamt int 469 1.3.2.2 yamt arspi_make_job(struct spi_transfer *st) 470 1.3.2.2 yamt { 471 1.3.2.2 yamt struct arspi_job *job; 472 1.3.2.2 yamt struct spi_chunk *chunk; 473 1.3.2.2 yamt uint8_t byte; 474 1.3.2.2 yamt int i, rv; 475 1.3.2.2 yamt 476 1.3.2.2 yamt job = malloc(sizeof (struct arspi_job), M_DEVBUF, M_ZERO); 477 1.3.2.2 yamt if (job == NULL) { 478 1.3.2.2 yamt return ENOMEM; 479 1.3.2.2 yamt } 480 1.3.2.2 yamt 481 1.3.2.2 yamt st->st_busprivate = job; 482 1.3.2.2 yamt 483 1.3.2.2 yamt /* skip any leading empty chunks (should not be any!) */ 484 1.3.2.2 yamt chunk = st->st_chunks; 485 1.3.2.2 yamt 486 1.3.2.2 yamt /* get transfer opcode */ 487 1.3.2.2 yamt if ((rv = arspi_get_byte(&chunk, &byte)) != 0) 488 1.3.2.2 yamt return rv; 489 1.3.2.2 yamt 490 1.3.2.2 yamt job->job_opcode = byte; 491 1.3.2.2 yamt switch (job->job_opcode) { 492 1.3.2.2 yamt case SPIFLASH_CMD_WREN: 493 1.3.2.2 yamt case SPIFLASH_CMD_WRDI: 494 1.3.2.2 yamt case SPIFLASH_CMD_CHIPERASE: 495 1.3.2.2 yamt break; 496 1.3.2.2 yamt case SPIFLASH_CMD_RDJI: 497 1.3.2.2 yamt job->job_rxcnt = 3; 498 1.3.2.2 yamt break; 499 1.3.2.2 yamt case SPIFLASH_CMD_RDSR: 500 1.3.2.2 yamt job->job_rxcnt = 1; 501 1.3.2.2 yamt break; 502 1.3.2.2 yamt case SPIFLASH_CMD_WRSR: 503 1.3.2.2 yamt /* 504 1.3.2.2 yamt * is this in data, or in address? stick it in data 505 1.3.2.2 yamt * for now. 506 1.3.2.2 yamt */ 507 1.3.2.2 yamt job->job_txcnt = 1; 508 1.3.2.2 yamt break; 509 1.3.2.2 yamt case SPIFLASH_CMD_RDID: 510 1.3.2.2 yamt job->job_addrcnt = 3; /* 3 dummy bytes */ 511 1.3.2.2 yamt job->job_rxcnt = 1; 512 1.3.2.2 yamt break; 513 1.3.2.2 yamt case SPIFLASH_CMD_ERASE: 514 1.3.2.2 yamt job->job_addrcnt = 3; 515 1.3.2.2 yamt break; 516 1.3.2.2 yamt case SPIFLASH_CMD_READ: 517 1.3.2.2 yamt job->job_addrcnt = 3; 518 1.3.2.2 yamt job->job_flags |= JOB_READ; 519 1.3.2.2 yamt break; 520 1.3.2.2 yamt case SPIFLASH_CMD_PROGRAM: 521 1.3.2.2 yamt job->job_addrcnt = 3; 522 1.3.2.2 yamt job->job_flags |= JOB_WRITE; 523 1.3.2.2 yamt break; 524 1.3.2.2 yamt case SPIFLASH_CMD_READFAST: 525 1.3.2.2 yamt /* 526 1.3.2.2 yamt * This is a pain in the arse to support, so we will 527 1.3.2.2 yamt * rewrite as an ordinary read. But later, after we 528 1.3.2.2 yamt * obtain the address. 529 1.3.2.2 yamt */ 530 1.3.2.2 yamt job->job_addrcnt = 3; /* 3 address */ 531 1.3.2.2 yamt job->job_flags |= JOB_READ; 532 1.3.2.2 yamt break; 533 1.3.2.2 yamt default: 534 1.3.2.2 yamt return EINVAL; 535 1.3.2.2 yamt } 536 1.3.2.2 yamt 537 1.3.2.2 yamt for (i = 0; i < job->job_addrcnt; i++) { 538 1.3.2.2 yamt if ((rv = arspi_get_byte(&chunk, &byte)) != 0) 539 1.3.2.2 yamt return rv; 540 1.3.2.2 yamt job->job_addr <<= 8; 541 1.3.2.2 yamt job->job_addr |= byte; 542 1.3.2.2 yamt } 543 1.3.2.2 yamt 544 1.3.2.2 yamt 545 1.3.2.2 yamt if (job->job_opcode == SPIFLASH_CMD_READFAST) { 546 1.3.2.2 yamt /* eat the dummy timing byte */ 547 1.3.2.2 yamt if ((rv = arspi_get_byte(&chunk, &byte)) != 0) 548 1.3.2.2 yamt return rv; 549 1.3.2.2 yamt /* rewrite this as a read */ 550 1.3.2.2 yamt job->job_opcode = SPIFLASH_CMD_READ; 551 1.3.2.2 yamt } 552 1.3.2.2 yamt 553 1.3.2.2 yamt job->job_chunk = chunk; 554 1.3.2.2 yamt 555 1.3.2.2 yamt /* 556 1.3.2.2 yamt * Now quickly check a few other things. Namely, we are not 557 1.3.2.2 yamt * allowed to have both READ and WRITE. 558 1.3.2.2 yamt */ 559 1.3.2.2 yamt for (chunk = job->job_chunk; chunk; chunk = chunk->chunk_next) { 560 1.3.2.2 yamt if (chunk->chunk_wptr) { 561 1.3.2.2 yamt job->job_wresid += chunk->chunk_wresid; 562 1.3.2.2 yamt } 563 1.3.2.2 yamt if (chunk->chunk_rptr) { 564 1.3.2.2 yamt job->job_rresid += chunk->chunk_rresid; 565 1.3.2.2 yamt } 566 1.3.2.2 yamt } 567 1.3.2.2 yamt 568 1.3.2.2 yamt if (job->job_rresid && job->job_wresid) { 569 1.3.2.2 yamt return EINVAL; 570 1.3.2.2 yamt } 571 1.3.2.2 yamt 572 1.3.2.2 yamt return 0; 573 1.3.2.2 yamt } 574 1.3.2.2 yamt 575 1.3.2.2 yamt /* 576 1.3.2.2 yamt * NB: The Atheros SPI controller runs in little endian mode. So all 577 1.3.2.2 yamt * data accesses must be swapped appropriately. 578 1.3.2.2 yamt * 579 1.3.2.2 yamt * The controller auto-swaps read accesses done through the mapped memory 580 1.3.2.2 yamt * region, but when using SPI directly, we have to do the right thing to 581 1.3.2.2 yamt * swap to or from little endian. 582 1.3.2.2 yamt */ 583 1.3.2.2 yamt 584 1.3.2.2 yamt void 585 1.3.2.2 yamt arspi_update_job(struct spi_transfer *st) 586 1.3.2.2 yamt { 587 1.3.2.2 yamt struct arspi_job *job = st->st_busprivate; 588 1.3.2.2 yamt uint8_t byte; 589 1.3.2.2 yamt int i; 590 1.3.2.2 yamt 591 1.3.2.2 yamt if (job->job_flags & (JOB_WAIT|JOB_WREN)) 592 1.3.2.2 yamt return; 593 1.3.2.2 yamt 594 1.3.2.2 yamt job->job_rxcnt = 0; 595 1.3.2.2 yamt job->job_txcnt = 0; 596 1.3.2.2 yamt job->job_data = 0; 597 1.3.2.2 yamt 598 1.3.2.2 yamt job->job_txcnt = min(job->job_wresid, 4); 599 1.3.2.2 yamt job->job_rxcnt = min(job->job_rresid, 4); 600 1.3.2.2 yamt 601 1.3.2.2 yamt job->job_wresid -= job->job_txcnt; 602 1.3.2.2 yamt job->job_rresid -= job->job_rxcnt; 603 1.3.2.2 yamt 604 1.3.2.2 yamt for (i = 0; i < job->job_txcnt; i++) { 605 1.3.2.2 yamt arspi_get_byte(&job->job_chunk, &byte); 606 1.3.2.2 yamt job->job_data |= (byte << (i * 8)); 607 1.3.2.2 yamt } 608 1.3.2.2 yamt 609 1.3.2.2 yamt if ((!job->job_wresid) && (!job->job_rresid)) { 610 1.3.2.2 yamt job->job_flags |= JOB_LAST; 611 1.3.2.2 yamt } 612 1.3.2.2 yamt } 613 1.3.2.2 yamt 614 1.3.2.2 yamt void 615 1.3.2.2 yamt arspi_finish_job(struct spi_transfer *st) 616 1.3.2.2 yamt { 617 1.3.2.2 yamt struct arspi_job *job = st->st_busprivate; 618 1.3.2.2 yamt uint8_t byte; 619 1.3.2.2 yamt int i; 620 1.3.2.2 yamt 621 1.3.2.2 yamt job->job_addr += job->job_rxcnt; 622 1.3.2.2 yamt job->job_addr += job->job_txcnt; 623 1.3.2.2 yamt for (i = 0; i < job->job_rxcnt; i++) { 624 1.3.2.2 yamt byte = job->job_data & 0xff; 625 1.3.2.2 yamt job->job_data >>= 8; 626 1.3.2.2 yamt arspi_put_byte(&job->job_chunk, byte); 627 1.3.2.2 yamt } 628 1.3.2.2 yamt } 629 1.3.2.2 yamt 630
Indexes created Thu Oct 02 14:10:14 GMT 2025