pxa2x0_mci.c revision 1.7
1 1.7 kiyohara /* $NetBSD: pxa2x0_mci.c,v 1.7 2010/10/07 12:06:09 kiyohara Exp $ */ 2 1.1 nonaka /* $OpenBSD: pxa2x0_mmc.c,v 1.5 2009/02/23 18:09:55 miod Exp $ */ 3 1.1 nonaka 4 1.1 nonaka /* 5 1.1 nonaka * Copyright (c) 2007 Uwe Stuehler <uwe (at) openbsd.org> 6 1.1 nonaka * 7 1.1 nonaka * Permission to use, copy, modify, and distribute this software for any 8 1.1 nonaka * purpose with or without fee is hereby granted, provided that the above 9 1.1 nonaka * copyright notice and this permission notice appear in all copies. 10 1.1 nonaka * 11 1.1 nonaka * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 12 1.1 nonaka * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 13 1.1 nonaka * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 14 1.1 nonaka * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 15 1.1 nonaka * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 16 1.1 nonaka * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 17 1.1 nonaka * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 18 1.1 nonaka */ 19 1.1 nonaka 20 1.1 nonaka /*- 21 1.5 nonaka * Copyright (c) 2007-2010 NONAKA Kimihiro <nonaka (at) netbsd.org> 22 1.1 nonaka * All rights reserved. 23 1.1 nonaka * 24 1.1 nonaka * Redistribution and use in source and binary forms, with or without 25 1.1 nonaka * modification, are permitted provided that the following conditions 26 1.1 nonaka * are met: 27 1.1 nonaka * 1. Redistributions of source code must retain the above copyright 28 1.1 nonaka * notice, this list of conditions and the following disclaimer. 29 1.1 nonaka * 2. Redistributions in binary form must reproduce the above copyright 30 1.1 nonaka * notice, this list of conditions and the following disclaimer in the 31 1.1 nonaka * documentation and/or other materials provided with the distribution. 32 1.1 nonaka * 33 1.1 nonaka * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 34 1.1 nonaka * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 35 1.1 nonaka * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 36 1.1 nonaka * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 37 1.1 nonaka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 38 1.1 nonaka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 39 1.1 nonaka * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 40 1.1 nonaka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 41 1.1 nonaka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 42 1.1 nonaka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 43 1.1 nonaka * SUCH DAMAGE. 44 1.1 nonaka */ 45 1.1 nonaka 46 1.1 nonaka /* 47 1.1 nonaka * MMC/SD/SDIO controller driver for Intel PXA2xx processors 48 1.1 nonaka * 49 1.1 nonaka * Power management is beyond control of the processor's SD/SDIO/MMC 50 1.1 nonaka * block, so this driver depends on the attachment driver to provide 51 1.1 nonaka * us with some callback functions via the "tag" member in our softc. 52 1.1 nonaka * Bus power management calls are then dispatched to the attachment 53 1.1 nonaka * driver. 54 1.1 nonaka */ 55 1.1 nonaka 56 1.1 nonaka #include <sys/cdefs.h> 57 1.7 kiyohara __KERNEL_RCSID(0, "$NetBSD: pxa2x0_mci.c,v 1.7 2010/10/07 12:06:09 kiyohara Exp $"); 58 1.1 nonaka 59 1.1 nonaka #include <sys/param.h> 60 1.1 nonaka #include <sys/device.h> 61 1.1 nonaka #include <sys/systm.h> 62 1.1 nonaka #include <sys/malloc.h> 63 1.1 nonaka #include <sys/kernel.h> 64 1.1 nonaka #include <sys/proc.h> 65 1.1 nonaka #include <sys/bus.h> 66 1.1 nonaka #include <sys/mutex.h> 67 1.1 nonaka #include <sys/condvar.h> 68 1.1 nonaka 69 1.1 nonaka #include <machine/intr.h> 70 1.1 nonaka 71 1.1 nonaka #include <dev/sdmmc/sdmmcvar.h> 72 1.1 nonaka #include <dev/sdmmc/sdmmcchip.h> 73 1.1 nonaka 74 1.1 nonaka #include <arm/xscale/pxa2x0cpu.h> 75 1.1 nonaka #include <arm/xscale/pxa2x0reg.h> 76 1.1 nonaka #include <arm/xscale/pxa2x0var.h> 77 1.1 nonaka #include <arm/xscale/pxa2x0_dmac.h> 78 1.1 nonaka #include <arm/xscale/pxa2x0_gpio.h> 79 1.1 nonaka #include <arm/xscale/pxa2x0_mci.h> 80 1.1 nonaka 81 1.1 nonaka #ifdef PXAMCI_DEBUG 82 1.5 nonaka int pxamci_debug = 9; 83 1.1 nonaka #define DPRINTF(n,s) do { if ((n) <= pxamci_debug) printf s; } while (0) 84 1.1 nonaka #else 85 1.1 nonaka #define DPRINTF(n,s) do {} while (0) 86 1.1 nonaka #endif 87 1.1 nonaka 88 1.5 nonaka #ifndef PXAMCI_DEBUG 89 1.5 nonaka #define STOPCLK_TIMO 2 /* sec */ 90 1.5 nonaka #define EXECCMD_TIMO 2 /* sec */ 91 1.1 nonaka #else 92 1.5 nonaka #define STOPCLK_TIMO 2 /* sec */ 93 1.5 nonaka #define EXECCMD_TIMO 5 /* sec */ 94 1.1 nonaka #endif 95 1.1 nonaka 96 1.1 nonaka static int pxamci_host_reset(sdmmc_chipset_handle_t); 97 1.1 nonaka static uint32_t pxamci_host_ocr(sdmmc_chipset_handle_t); 98 1.1 nonaka static int pxamci_host_maxblklen(sdmmc_chipset_handle_t); 99 1.1 nonaka static int pxamci_card_detect(sdmmc_chipset_handle_t); 100 1.1 nonaka static int pxamci_write_protect(sdmmc_chipset_handle_t); 101 1.1 nonaka static int pxamci_bus_power(sdmmc_chipset_handle_t, uint32_t); 102 1.1 nonaka static int pxamci_bus_clock(sdmmc_chipset_handle_t, int); 103 1.1 nonaka static int pxamci_bus_width(sdmmc_chipset_handle_t, int); 104 1.7 kiyohara static int pxamci_bus_rod(sdmmc_chipset_handle_t, int); 105 1.1 nonaka static void pxamci_exec_command(sdmmc_chipset_handle_t, 106 1.1 nonaka struct sdmmc_command *); 107 1.1 nonaka static void pxamci_card_enable_intr(sdmmc_chipset_handle_t, int); 108 1.1 nonaka static void pxamci_card_intr_ack(sdmmc_chipset_handle_t); 109 1.1 nonaka 110 1.1 nonaka static struct sdmmc_chip_functions pxamci_chip_functions = { 111 1.1 nonaka /* host controller reset */ 112 1.1 nonaka .host_reset = pxamci_host_reset, 113 1.1 nonaka 114 1.1 nonaka /* host controller capabilities */ 115 1.1 nonaka .host_ocr = pxamci_host_ocr, 116 1.1 nonaka .host_maxblklen = pxamci_host_maxblklen, 117 1.1 nonaka 118 1.1 nonaka /* card detection */ 119 1.1 nonaka .card_detect = pxamci_card_detect, 120 1.1 nonaka 121 1.1 nonaka /* write protect */ 122 1.1 nonaka .write_protect = pxamci_write_protect, 123 1.1 nonaka 124 1.1 nonaka /* bus power, clock frequency, width */ 125 1.1 nonaka .bus_power = pxamci_bus_power, 126 1.1 nonaka .bus_clock = pxamci_bus_clock, 127 1.1 nonaka .bus_width = pxamci_bus_width, 128 1.7 kiyohara .bus_rod = pxamci_bus_rod, 129 1.1 nonaka 130 1.1 nonaka /* command execution */ 131 1.1 nonaka .exec_command = pxamci_exec_command, 132 1.1 nonaka 133 1.1 nonaka /* card interrupt */ 134 1.1 nonaka .card_enable_intr = pxamci_card_enable_intr, 135 1.1 nonaka .card_intr_ack = pxamci_card_intr_ack, 136 1.1 nonaka }; 137 1.1 nonaka 138 1.1 nonaka static int pxamci_intr(void *); 139 1.1 nonaka static void pxamci_intr_cmd(struct pxamci_softc *); 140 1.1 nonaka static void pxamci_intr_data(struct pxamci_softc *); 141 1.1 nonaka static void pxamci_intr_done(struct pxamci_softc *); 142 1.1 nonaka static void pxamci_dmac_iintr(struct dmac_xfer *, int); 143 1.1 nonaka static void pxamci_dmac_ointr(struct dmac_xfer *, int); 144 1.1 nonaka 145 1.1 nonaka static void pxamci_stop_clock(struct pxamci_softc *); 146 1.1 nonaka 147 1.1 nonaka #define CSR_READ_1(sc, reg) \ 148 1.1 nonaka bus_space_read_1((sc)->sc_iot, (sc)->sc_ioh, (reg)) 149 1.1 nonaka #define CSR_WRITE_1(sc, reg, val) \ 150 1.1 nonaka bus_space_write_1((sc)->sc_iot, (sc)->sc_ioh, (reg), (val)) 151 1.1 nonaka #define CSR_READ_4(sc, reg) \ 152 1.1 nonaka bus_space_read_4((sc)->sc_iot, (sc)->sc_ioh, (reg)) 153 1.1 nonaka #define CSR_WRITE_4(sc, reg, val) \ 154 1.1 nonaka bus_space_write_4((sc)->sc_iot, (sc)->sc_ioh, (reg), (val)) 155 1.1 nonaka #define CSR_SET_4(sc, reg, val) \ 156 1.1 nonaka CSR_WRITE_4(sc, reg, CSR_READ_4(sc, reg) | (val)) 157 1.1 nonaka #define CSR_CLR_4(sc, reg, val) \ 158 1.1 nonaka CSR_WRITE_4(sc, reg, CSR_READ_4(sc, reg) & ~(val)) 159 1.1 nonaka 160 1.5 nonaka #if 0 /* XXX */ 161 1.5 nonaka #define DMA_ALIGNED(addr) \ 162 1.5 nonaka (((u_long)(addr) & 0x7) == 0 || !CPU_IS_PXA250) 163 1.5 nonaka #else 164 1.5 nonaka #define DMA_ALIGNED(addr) \ 165 1.5 nonaka (((u_long)(addr) & 0x1f) == 0) 166 1.5 nonaka #endif 167 1.5 nonaka 168 1.1 nonaka static void 169 1.1 nonaka pxamci_enable_intr(struct pxamci_softc *sc, uint32_t mask) 170 1.1 nonaka { 171 1.1 nonaka int s; 172 1.1 nonaka 173 1.1 nonaka s = splsdmmc(); 174 1.1 nonaka sc->sc_imask &= ~mask; 175 1.1 nonaka CSR_WRITE_4(sc, MMC_I_MASK, sc->sc_imask); 176 1.1 nonaka splx(s); 177 1.1 nonaka } 178 1.1 nonaka 179 1.1 nonaka static void 180 1.1 nonaka pxamci_disable_intr(struct pxamci_softc *sc, uint32_t mask) 181 1.1 nonaka { 182 1.1 nonaka int s; 183 1.1 nonaka 184 1.1 nonaka s = splsdmmc(); 185 1.1 nonaka sc->sc_imask |= mask; 186 1.1 nonaka CSR_WRITE_4(sc, MMC_I_MASK, sc->sc_imask); 187 1.1 nonaka splx(s); 188 1.1 nonaka } 189 1.1 nonaka 190 1.1 nonaka int 191 1.1 nonaka pxamci_attach_sub(device_t self, struct pxaip_attach_args *pxa) 192 1.1 nonaka { 193 1.1 nonaka struct pxamci_softc *sc = device_private(self); 194 1.1 nonaka struct sdmmcbus_attach_args saa; 195 1.1 nonaka 196 1.1 nonaka sc->sc_dev = self; 197 1.1 nonaka 198 1.1 nonaka aprint_normal(": MMC/SD Controller\n"); 199 1.1 nonaka aprint_naive("\n"); 200 1.1 nonaka 201 1.1 nonaka /* Enable the clocks to the MMC controller. */ 202 1.1 nonaka pxa2x0_clkman_config(CKEN_MMC, 1); 203 1.1 nonaka 204 1.1 nonaka sc->sc_iot = pxa->pxa_iot; 205 1.1 nonaka if (bus_space_map(sc->sc_iot, PXA2X0_MMC_BASE, PXA2X0_MMC_SIZE, 0, 206 1.1 nonaka &sc->sc_ioh)) { 207 1.1 nonaka aprint_error_dev(sc->sc_dev, "couldn't map registers\n"); 208 1.1 nonaka goto out; 209 1.1 nonaka } 210 1.1 nonaka 211 1.1 nonaka /* 212 1.1 nonaka * Establish the card detection and MMC interrupt handlers and 213 1.1 nonaka * mask all interrupts until we are prepared to handle them. 214 1.1 nonaka */ 215 1.1 nonaka pxamci_disable_intr(sc, MMC_I_ALL); 216 1.1 nonaka sc->sc_ih = pxa2x0_intr_establish(PXA2X0_INT_MMC, IPL_SDMMC, 217 1.1 nonaka pxamci_intr, sc); 218 1.1 nonaka if (sc->sc_ih == NULL) { 219 1.1 nonaka aprint_error_dev(sc->sc_dev, 220 1.1 nonaka "couldn't establish MMC interrupt\n"); 221 1.1 nonaka goto free_map; 222 1.1 nonaka } 223 1.1 nonaka 224 1.1 nonaka /* 225 1.1 nonaka * Reset the host controller and unmask normal interrupts. 226 1.1 nonaka */ 227 1.1 nonaka (void) pxamci_host_reset(sc); 228 1.1 nonaka 229 1.1 nonaka /* Setup bus clock */ 230 1.1 nonaka if (CPU_IS_PXA270) { 231 1.1 nonaka sc->sc_clkmin = PXA270_MMC_CLKRT_MIN / 1000; 232 1.1 nonaka sc->sc_clkmax = PXA270_MMC_CLKRT_MAX / 1000; 233 1.1 nonaka } else { 234 1.1 nonaka sc->sc_clkmin = PXA250_MMC_CLKRT_MIN / 1000; 235 1.1 nonaka sc->sc_clkmax = PXA250_MMC_CLKRT_MAX / 1000; 236 1.1 nonaka } 237 1.1 nonaka sc->sc_clkbase = sc->sc_clkmin; 238 1.1 nonaka pxamci_bus_clock(sc, sc->sc_clkbase); 239 1.1 nonaka 240 1.1 nonaka /* Setup max block length */ 241 1.1 nonaka if (CPU_IS_PXA270) { 242 1.1 nonaka sc->sc_maxblklen = 2048; 243 1.1 nonaka } else { 244 1.1 nonaka sc->sc_maxblklen = 512; 245 1.1 nonaka } 246 1.1 nonaka 247 1.1 nonaka /* Set default bus width */ 248 1.1 nonaka sc->sc_buswidth = 1; 249 1.1 nonaka 250 1.1 nonaka /* setting DMA */ 251 1.1 nonaka if (!ISSET(sc->sc_caps, PMC_CAPS_NO_DMA)) { 252 1.3 nonaka aprint_normal_dev(sc->sc_dev, "using DMA transfer\n"); 253 1.3 nonaka 254 1.1 nonaka sc->sc_rxdr.ds_addr = PXA2X0_MMC_BASE + MMC_RXFIFO; 255 1.1 nonaka sc->sc_rxdr.ds_len = 1; 256 1.1 nonaka sc->sc_rxdx = pxa2x0_dmac_allocate_xfer(M_NOWAIT); 257 1.1 nonaka if (sc->sc_rxdx == NULL) { 258 1.1 nonaka aprint_error_dev(sc->sc_dev, 259 1.1 nonaka "couldn't alloc rx dma xfer\n"); 260 1.1 nonaka goto free_intr; 261 1.1 nonaka } 262 1.1 nonaka sc->sc_rxdx->dx_cookie = sc; 263 1.1 nonaka sc->sc_rxdx->dx_priority = DMAC_PRIORITY_NORMAL; 264 1.1 nonaka sc->sc_rxdx->dx_dev_width = DMAC_DEV_WIDTH_1; 265 1.1 nonaka sc->sc_rxdx->dx_burst_size = DMAC_BURST_SIZE_32; 266 1.1 nonaka sc->sc_rxdx->dx_done = pxamci_dmac_iintr; 267 1.1 nonaka sc->sc_rxdx->dx_peripheral = DMAC_PERIPH_MMCRX; 268 1.1 nonaka sc->sc_rxdx->dx_flow = DMAC_FLOW_CTRL_SRC; 269 1.1 nonaka sc->sc_rxdx->dx_loop_notify = DMAC_DONT_LOOP; 270 1.1 nonaka sc->sc_rxdx->dx_desc[DMAC_DESC_SRC].xd_addr_hold = true; 271 1.1 nonaka sc->sc_rxdx->dx_desc[DMAC_DESC_SRC].xd_nsegs = 1; 272 1.1 nonaka sc->sc_rxdx->dx_desc[DMAC_DESC_SRC].xd_dma_segs = &sc->sc_rxdr; 273 1.1 nonaka sc->sc_rxdx->dx_desc[DMAC_DESC_DST].xd_addr_hold = false; 274 1.1 nonaka 275 1.1 nonaka sc->sc_txdr.ds_addr = PXA2X0_MMC_BASE + MMC_TXFIFO; 276 1.1 nonaka sc->sc_txdr.ds_len = 1; 277 1.1 nonaka sc->sc_txdx = pxa2x0_dmac_allocate_xfer(M_NOWAIT); 278 1.1 nonaka if (sc->sc_txdx == NULL) { 279 1.1 nonaka aprint_error_dev(sc->sc_dev, 280 1.1 nonaka "couldn't alloc tx dma xfer\n"); 281 1.1 nonaka goto free_xfer; 282 1.1 nonaka } 283 1.1 nonaka sc->sc_txdx->dx_cookie = sc; 284 1.1 nonaka sc->sc_txdx->dx_priority = DMAC_PRIORITY_NORMAL; 285 1.1 nonaka sc->sc_txdx->dx_dev_width = DMAC_DEV_WIDTH_1; 286 1.1 nonaka sc->sc_txdx->dx_burst_size = DMAC_BURST_SIZE_32; 287 1.1 nonaka sc->sc_txdx->dx_done = pxamci_dmac_ointr; 288 1.1 nonaka sc->sc_txdx->dx_peripheral = DMAC_PERIPH_MMCTX; 289 1.1 nonaka sc->sc_txdx->dx_flow = DMAC_FLOW_CTRL_DEST; 290 1.1 nonaka sc->sc_txdx->dx_loop_notify = DMAC_DONT_LOOP; 291 1.1 nonaka sc->sc_txdx->dx_desc[DMAC_DESC_DST].xd_addr_hold = true; 292 1.1 nonaka sc->sc_txdx->dx_desc[DMAC_DESC_DST].xd_nsegs = 1; 293 1.1 nonaka sc->sc_txdx->dx_desc[DMAC_DESC_DST].xd_dma_segs = &sc->sc_txdr; 294 1.1 nonaka sc->sc_txdx->dx_desc[DMAC_DESC_SRC].xd_addr_hold = false; 295 1.1 nonaka } 296 1.1 nonaka 297 1.1 nonaka /* 298 1.1 nonaka * Attach the generic SD/MMC bus driver. (The bus driver must 299 1.1 nonaka * not invoke any chipset functions before it is attached.) 300 1.1 nonaka */ 301 1.1 nonaka memset(&saa, 0, sizeof(saa)); 302 1.1 nonaka saa.saa_busname = "sdmmc"; 303 1.1 nonaka saa.saa_sct = &pxamci_chip_functions; 304 1.1 nonaka saa.saa_sch = sc; 305 1.1 nonaka saa.saa_dmat = pxa->pxa_dmat; 306 1.1 nonaka saa.saa_clkmin = sc->sc_clkmin; 307 1.1 nonaka saa.saa_clkmax = sc->sc_clkmax; 308 1.1 nonaka saa.saa_caps = 0; 309 1.1 nonaka if (!ISSET(sc->sc_caps, PMC_CAPS_NO_DMA)) 310 1.6 kiyohara SET(saa.saa_caps, SMC_CAPS_DMA | SMC_CAPS_MULTI_SEG_DMA); 311 1.1 nonaka if (CPU_IS_PXA270 && ISSET(sc->sc_caps, PMC_CAPS_4BIT)) 312 1.1 nonaka SET(saa.saa_caps, SMC_CAPS_4BIT_MODE); 313 1.1 nonaka 314 1.1 nonaka sc->sc_sdmmc = config_found(sc->sc_dev, &saa, NULL); 315 1.1 nonaka if (sc->sc_sdmmc == NULL) { 316 1.1 nonaka aprint_error_dev(sc->sc_dev, "couldn't attach bus\n"); 317 1.1 nonaka goto free_xfer; 318 1.1 nonaka } 319 1.1 nonaka return 0; 320 1.1 nonaka 321 1.1 nonaka free_xfer: 322 1.1 nonaka if (!ISSET(sc->sc_caps, PMC_CAPS_NO_DMA)) { 323 1.1 nonaka if (sc->sc_rxdx) 324 1.1 nonaka pxa2x0_dmac_free_xfer(sc->sc_rxdx); 325 1.1 nonaka if (sc->sc_txdx) 326 1.1 nonaka pxa2x0_dmac_free_xfer(sc->sc_txdx); 327 1.1 nonaka } 328 1.1 nonaka free_intr: 329 1.1 nonaka pxa2x0_intr_disestablish(sc->sc_ih); 330 1.1 nonaka sc->sc_ih = NULL; 331 1.1 nonaka free_map: 332 1.1 nonaka bus_space_unmap(sc->sc_iot, sc->sc_ioh, PXA2X0_MMC_SIZE); 333 1.1 nonaka out: 334 1.1 nonaka pxa2x0_clkman_config(CKEN_MMC, 0); 335 1.1 nonaka return 1; 336 1.1 nonaka } 337 1.1 nonaka 338 1.1 nonaka /* 339 1.1 nonaka * Notify card attach/detach event. 340 1.1 nonaka */ 341 1.1 nonaka void 342 1.1 nonaka pxamci_card_detect_event(struct pxamci_softc *sc) 343 1.1 nonaka { 344 1.1 nonaka 345 1.1 nonaka sdmmc_needs_discover(sc->sc_sdmmc); 346 1.1 nonaka } 347 1.1 nonaka 348 1.1 nonaka /* 349 1.1 nonaka * Reset the host controller. Called during initialization, when 350 1.1 nonaka * cards are removed, upon resume, and during error recovery. 351 1.1 nonaka */ 352 1.1 nonaka static int 353 1.1 nonaka pxamci_host_reset(sdmmc_chipset_handle_t sch) 354 1.1 nonaka { 355 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 356 1.1 nonaka int s; 357 1.1 nonaka 358 1.1 nonaka s = splsdmmc(); 359 1.1 nonaka 360 1.1 nonaka CSR_WRITE_4(sc, MMC_SPI, 0); 361 1.1 nonaka CSR_WRITE_4(sc, MMC_RESTO, 0x7f); 362 1.1 nonaka CSR_WRITE_4(sc, MMC_I_MASK, sc->sc_imask); 363 1.1 nonaka 364 1.1 nonaka /* Make sure to initialize the card before the next command. */ 365 1.1 nonaka CLR(sc->sc_flags, PMF_CARDINITED); 366 1.1 nonaka 367 1.1 nonaka splx(s); 368 1.1 nonaka 369 1.1 nonaka return 0; 370 1.1 nonaka } 371 1.1 nonaka 372 1.1 nonaka static uint32_t 373 1.1 nonaka pxamci_host_ocr(sdmmc_chipset_handle_t sch) 374 1.1 nonaka { 375 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 376 1.1 nonaka int rv; 377 1.1 nonaka 378 1.1 nonaka if (__predict_true(sc->sc_tag.get_ocr != NULL)) { 379 1.1 nonaka rv = (*sc->sc_tag.get_ocr)(sc->sc_tag.cookie); 380 1.1 nonaka return rv; 381 1.1 nonaka } 382 1.1 nonaka 383 1.1 nonaka DPRINTF(0,("%s: driver lacks get_ocr() function.\n", 384 1.1 nonaka device_xname(sc->sc_dev))); 385 1.1 nonaka return ENXIO; 386 1.1 nonaka } 387 1.1 nonaka 388 1.1 nonaka static int 389 1.1 nonaka pxamci_host_maxblklen(sdmmc_chipset_handle_t sch) 390 1.1 nonaka { 391 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 392 1.1 nonaka 393 1.1 nonaka return sc->sc_maxblklen; 394 1.1 nonaka } 395 1.1 nonaka 396 1.1 nonaka static int 397 1.1 nonaka pxamci_card_detect(sdmmc_chipset_handle_t sch) 398 1.1 nonaka { 399 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 400 1.1 nonaka 401 1.1 nonaka if (__predict_true(sc->sc_tag.card_detect != NULL)) { 402 1.1 nonaka return (*sc->sc_tag.card_detect)(sc->sc_tag.cookie); 403 1.1 nonaka } 404 1.1 nonaka 405 1.1 nonaka DPRINTF(0,("%s: driver lacks card_detect() function.\n", 406 1.1 nonaka device_xname(sc->sc_dev))); 407 1.1 nonaka return 1; /* always detect */ 408 1.1 nonaka } 409 1.1 nonaka 410 1.1 nonaka static int 411 1.1 nonaka pxamci_write_protect(sdmmc_chipset_handle_t sch) 412 1.1 nonaka { 413 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 414 1.1 nonaka 415 1.1 nonaka if (__predict_true(sc->sc_tag.write_protect != NULL)) { 416 1.1 nonaka return (*sc->sc_tag.write_protect)(sc->sc_tag.cookie); 417 1.1 nonaka } 418 1.1 nonaka 419 1.1 nonaka DPRINTF(0,("%s: driver lacks write_protect() function.\n", 420 1.1 nonaka device_xname(sc->sc_dev))); 421 1.1 nonaka return 0; /* non-protect */ 422 1.1 nonaka } 423 1.1 nonaka 424 1.1 nonaka /* 425 1.1 nonaka * Set or change SD bus voltage and enable or disable SD bus power. 426 1.1 nonaka * Return zero on success. 427 1.1 nonaka */ 428 1.1 nonaka static int 429 1.1 nonaka pxamci_bus_power(sdmmc_chipset_handle_t sch, uint32_t ocr) 430 1.1 nonaka { 431 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 432 1.1 nonaka 433 1.1 nonaka /* 434 1.1 nonaka * Bus power management is beyond control of the SD/SDIO/MMC 435 1.1 nonaka * block of the PXA2xx processors, so we have to hand this 436 1.1 nonaka * task off to the attachment driver. 437 1.1 nonaka */ 438 1.1 nonaka if (__predict_true(sc->sc_tag.set_power != NULL)) { 439 1.1 nonaka return (*sc->sc_tag.set_power)(sc->sc_tag.cookie, ocr); 440 1.1 nonaka } 441 1.1 nonaka 442 1.1 nonaka DPRINTF(0,("%s: driver lacks set_power() function\n", 443 1.1 nonaka device_xname(sc->sc_dev))); 444 1.1 nonaka return ENXIO; 445 1.1 nonaka } 446 1.1 nonaka 447 1.1 nonaka /* 448 1.1 nonaka * Set or change MMCLK frequency or disable the MMC clock. 449 1.1 nonaka * Return zero on success. 450 1.1 nonaka */ 451 1.1 nonaka static int 452 1.1 nonaka pxamci_bus_clock(sdmmc_chipset_handle_t sch, int freq) 453 1.1 nonaka { 454 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 455 1.1 nonaka int actfreq; 456 1.1 nonaka int div; 457 1.1 nonaka int rv = 0; 458 1.1 nonaka int s; 459 1.1 nonaka 460 1.1 nonaka s = splsdmmc(); 461 1.1 nonaka 462 1.1 nonaka /* 463 1.1 nonaka * Stop MMC clock before changing the frequency. 464 1.1 nonaka */ 465 1.1 nonaka pxamci_stop_clock(sc); 466 1.1 nonaka 467 1.1 nonaka /* Just stop the clock. */ 468 1.1 nonaka if (freq == 0) 469 1.1 nonaka goto out; 470 1.1 nonaka 471 1.1 nonaka /* 472 1.1 nonaka * PXA27x Errata... 473 1.1 nonaka * 474 1.1 nonaka * <snip> 475 1.1 nonaka * E40. SDIO: SDIO Devices Not Working at 19.5 Mbps 476 1.1 nonaka * 477 1.1 nonaka * SD/SDIO controller can only support up to 9.75 Mbps data 478 1.1 nonaka * transfer rate for SDIO card. 479 1.1 nonaka * </snip> 480 1.1 nonaka * 481 1.1 nonaka * If we don't limit the frequency, CRC errors will be 482 1.1 nonaka * reported by the controller after we set the bus speed. 483 1.1 nonaka * XXX slow down incrementally. 484 1.1 nonaka */ 485 1.1 nonaka if (CPU_IS_PXA270) { 486 1.1 nonaka if (freq > 9750) { 487 1.1 nonaka freq = 9750; 488 1.1 nonaka } 489 1.1 nonaka } 490 1.1 nonaka 491 1.1 nonaka /* 492 1.1 nonaka * Pick the smallest divider that produces a frequency not 493 1.1 nonaka * more than `freq' KHz. 494 1.1 nonaka */ 495 1.1 nonaka actfreq = sc->sc_clkmax; 496 1.1 nonaka for (div = 0; div < 7; actfreq /= 2, div++) { 497 1.1 nonaka if (actfreq <= freq) 498 1.1 nonaka break; 499 1.1 nonaka } 500 1.1 nonaka if (div == 7) { 501 1.1 nonaka aprint_error_dev(sc->sc_dev, 502 1.1 nonaka "unsupported bus frequency of %d KHz\n", freq); 503 1.1 nonaka rv = 1; 504 1.1 nonaka goto out; 505 1.1 nonaka } 506 1.1 nonaka 507 1.1 nonaka DPRINTF(1,("%s: freq = %d, actfreq = %d, div = %d\n", 508 1.1 nonaka device_xname(sc->sc_dev), freq, actfreq, div)); 509 1.1 nonaka 510 1.1 nonaka sc->sc_clkbase = actfreq; 511 1.1 nonaka sc->sc_clkrt = div; 512 1.1 nonaka 513 1.3 nonaka CSR_WRITE_4(sc, MMC_CLKRT, sc->sc_clkrt); 514 1.3 nonaka CSR_WRITE_4(sc, MMC_STRPCL, STRPCL_START); 515 1.3 nonaka 516 1.1 nonaka out: 517 1.1 nonaka splx(s); 518 1.1 nonaka 519 1.1 nonaka return rv; 520 1.1 nonaka } 521 1.1 nonaka 522 1.1 nonaka static int 523 1.1 nonaka pxamci_bus_width(sdmmc_chipset_handle_t sch, int width) 524 1.1 nonaka { 525 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 526 1.1 nonaka int rv = 0; 527 1.1 nonaka int s; 528 1.1 nonaka 529 1.1 nonaka s = splsdmmc(); 530 1.1 nonaka 531 1.1 nonaka switch (width) { 532 1.1 nonaka case 1: 533 1.1 nonaka break; 534 1.1 nonaka case 4: 535 1.1 nonaka if (CPU_IS_PXA270) 536 1.1 nonaka break; 537 1.1 nonaka /*FALLTHROUGH*/ 538 1.1 nonaka default: 539 1.1 nonaka DPRINTF(0,("%s: unsupported bus width (%d)\n", 540 1.1 nonaka device_xname(sc->sc_dev), width)); 541 1.1 nonaka rv = 1; 542 1.1 nonaka goto out; 543 1.1 nonaka } 544 1.1 nonaka 545 1.1 nonaka sc->sc_buswidth = width; 546 1.1 nonaka 547 1.1 nonaka out: 548 1.1 nonaka splx(s); 549 1.1 nonaka 550 1.1 nonaka return rv; 551 1.1 nonaka } 552 1.1 nonaka 553 1.7 kiyohara static int 554 1.7 kiyohara pxamci_bus_rod(sdmmc_chipset_handle_t sch, int on) 555 1.7 kiyohara { 556 1.7 kiyohara 557 1.7 kiyohara /* not support */ 558 1.7 kiyohara return -1; 559 1.7 kiyohara } 560 1.7 kiyohara 561 1.1 nonaka static void 562 1.1 nonaka pxamci_exec_command(sdmmc_chipset_handle_t sch, struct sdmmc_command *cmd) 563 1.1 nonaka { 564 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 565 1.1 nonaka uint32_t cmdat; 566 1.1 nonaka int error; 567 1.1 nonaka int timo; 568 1.1 nonaka int s; 569 1.1 nonaka 570 1.4 nonaka DPRINTF(1,("%s: start cmd %d arg=%#x data=%p dlen=%d flags=%#x\n", 571 1.4 nonaka device_xname(sc->sc_dev), cmd->c_opcode, cmd->c_arg, cmd->c_data, 572 1.4 nonaka cmd->c_datalen, cmd->c_flags)); 573 1.1 nonaka 574 1.1 nonaka s = splsdmmc(); 575 1.1 nonaka 576 1.1 nonaka /* Stop the bus clock (MMCLK). [15.8.3] */ 577 1.1 nonaka pxamci_stop_clock(sc); 578 1.1 nonaka 579 1.1 nonaka /* Set the command and argument. */ 580 1.1 nonaka CSR_WRITE_4(sc, MMC_CMD, cmd->c_opcode & CMD_MASK); 581 1.1 nonaka CSR_WRITE_4(sc, MMC_ARGH, (cmd->c_arg >> 16) & ARGH_MASK); 582 1.1 nonaka CSR_WRITE_4(sc, MMC_ARGL, cmd->c_arg & ARGL_MASK); 583 1.1 nonaka 584 1.1 nonaka /* Response type */ 585 1.1 nonaka if (!ISSET(cmd->c_flags, SCF_RSP_PRESENT)) 586 1.1 nonaka cmdat = CMDAT_RESPONSE_FORMAT_NO; 587 1.1 nonaka else if (ISSET(cmd->c_flags, SCF_RSP_136)) 588 1.1 nonaka cmdat = CMDAT_RESPONSE_FORMAT_R2; 589 1.1 nonaka else if (!ISSET(cmd->c_flags, SCF_RSP_CRC)) 590 1.1 nonaka cmdat = CMDAT_RESPONSE_FORMAT_R3; 591 1.1 nonaka else 592 1.1 nonaka cmdat = CMDAT_RESPONSE_FORMAT_R1; 593 1.1 nonaka 594 1.1 nonaka if (ISSET(cmd->c_flags, SCF_RSP_BSY)) 595 1.1 nonaka cmdat |= CMDAT_BUSY; 596 1.1 nonaka if (!ISSET(cmd->c_flags, SCF_CMD_READ)) 597 1.1 nonaka cmdat |= CMDAT_WRITE; 598 1.1 nonaka if (sc->sc_buswidth == 4) 599 1.1 nonaka cmdat |= CMDAT_SD_4DAT; 600 1.1 nonaka 601 1.1 nonaka /* Fragment the data into proper blocks. */ 602 1.1 nonaka if (cmd->c_datalen > 0) { 603 1.1 nonaka int blklen = MIN(cmd->c_datalen, cmd->c_blklen); 604 1.1 nonaka int numblk = cmd->c_datalen / blklen; 605 1.1 nonaka 606 1.1 nonaka if (cmd->c_datalen % blklen > 0) { 607 1.1 nonaka /* XXX: Split this command. (1.7.4) */ 608 1.1 nonaka aprint_error_dev(sc->sc_dev, 609 1.1 nonaka "data not a multiple of %u bytes\n", blklen); 610 1.1 nonaka cmd->c_error = EINVAL; 611 1.1 nonaka goto out; 612 1.1 nonaka } 613 1.1 nonaka 614 1.1 nonaka /* Check limit imposed by block count. */ 615 1.1 nonaka if (numblk > NOB_MASK) { 616 1.1 nonaka aprint_error_dev(sc->sc_dev, "too much data\n"); 617 1.1 nonaka cmd->c_error = EINVAL; 618 1.1 nonaka goto out; 619 1.1 nonaka } 620 1.1 nonaka 621 1.1 nonaka CSR_WRITE_4(sc, MMC_BLKLEN, blklen); 622 1.1 nonaka CSR_WRITE_4(sc, MMC_NOB, numblk); 623 1.1 nonaka CSR_WRITE_4(sc, MMC_RDTO, RDTO_MASK); 624 1.1 nonaka 625 1.1 nonaka cmdat |= CMDAT_DATA_EN; 626 1.1 nonaka 627 1.1 nonaka /* setting DMA */ 628 1.5 nonaka if (!ISSET(sc->sc_caps, PMC_CAPS_NO_DMA) 629 1.5 nonaka && DMA_ALIGNED(cmd->c_data)) { 630 1.1 nonaka struct dmac_xfer_desc *dx_desc; 631 1.1 nonaka 632 1.5 nonaka DPRINTF(1,("%s: using DMA\n",device_xname(sc->sc_dev))); 633 1.5 nonaka 634 1.1 nonaka cmdat |= CMDAT_MMC_DMA_EN; 635 1.1 nonaka 636 1.1 nonaka if (ISSET(cmd->c_flags, SCF_CMD_READ)) { 637 1.1 nonaka dx_desc = &sc->sc_rxdx->dx_desc[DMAC_DESC_DST]; 638 1.1 nonaka dx_desc->xd_nsegs = cmd->c_dmamap->dm_nsegs; 639 1.1 nonaka dx_desc->xd_dma_segs = cmd->c_dmamap->dm_segs; 640 1.1 nonaka error = pxa2x0_dmac_start_xfer(sc->sc_rxdx); 641 1.1 nonaka } else { 642 1.1 nonaka dx_desc = &sc->sc_txdx->dx_desc[DMAC_DESC_SRC]; 643 1.1 nonaka dx_desc->xd_nsegs = cmd->c_dmamap->dm_nsegs; 644 1.1 nonaka dx_desc->xd_dma_segs = cmd->c_dmamap->dm_segs; 645 1.1 nonaka /* workaround for erratum #91 */ 646 1.1 nonaka error = 0; 647 1.1 nonaka if (!CPU_IS_PXA270) { 648 1.1 nonaka error = 649 1.1 nonaka pxa2x0_dmac_start_xfer(sc->sc_txdx); 650 1.1 nonaka } 651 1.1 nonaka } 652 1.1 nonaka if (error) { 653 1.1 nonaka aprint_error_dev(sc->sc_dev, 654 1.1 nonaka "couldn't start dma xfer. (error=%d)\n", 655 1.1 nonaka error); 656 1.1 nonaka cmd->c_error = EIO; 657 1.1 nonaka goto err; 658 1.1 nonaka } 659 1.1 nonaka } else { 660 1.5 nonaka DPRINTF(1,("%s: using PIO\n",device_xname(sc->sc_dev))); 661 1.5 nonaka 662 1.1 nonaka cmd->c_resid = cmd->c_datalen; 663 1.1 nonaka cmd->c_buf = cmd->c_data; 664 1.1 nonaka 665 1.1 nonaka pxamci_enable_intr(sc, MMC_I_RXFIFO_RD_REQ 666 1.1 nonaka | MMC_I_TXFIFO_WR_REQ 667 1.1 nonaka | MMC_I_DAT_ERR); 668 1.1 nonaka } 669 1.1 nonaka } 670 1.1 nonaka 671 1.1 nonaka sc->sc_cmd = cmd; 672 1.1 nonaka 673 1.1 nonaka /* 674 1.1 nonaka * "After reset, the MMC card must be initialized by sending 675 1.1 nonaka * 80 clocks to it on the MMCLK signal." [15.4.3.2] 676 1.1 nonaka */ 677 1.1 nonaka if (!ISSET(sc->sc_flags, PMF_CARDINITED)) { 678 1.1 nonaka DPRINTF(1,("%s: first command\n", device_xname(sc->sc_dev))); 679 1.1 nonaka cmdat |= CMDAT_INIT; 680 1.1 nonaka SET(sc->sc_flags, PMF_CARDINITED); 681 1.1 nonaka } 682 1.1 nonaka 683 1.1 nonaka /* Begin the transfer and start the bus clock. */ 684 1.1 nonaka CSR_WRITE_4(sc, MMC_CMDAT, cmdat); 685 1.1 nonaka CSR_WRITE_4(sc, MMC_CLKRT, sc->sc_clkrt); 686 1.1 nonaka CSR_WRITE_4(sc, MMC_STRPCL, STRPCL_START); 687 1.1 nonaka 688 1.1 nonaka /* Wait for it to complete */ 689 1.1 nonaka pxamci_enable_intr(sc, MMC_I_END_CMD_RES|MMC_I_RES_ERR); 690 1.1 nonaka for (timo = EXECCMD_TIMO; (sc->sc_cmd == cmd) && (timo > 0); timo--) { 691 1.1 nonaka tsleep(sc, PWAIT, "mmcmd", hz); 692 1.1 nonaka } 693 1.1 nonaka 694 1.1 nonaka /* If it completed in time, SCF_ITSDONE is already set. */ 695 1.1 nonaka if (sc->sc_cmd == cmd) { 696 1.1 nonaka cmd->c_error = ETIMEDOUT; 697 1.1 nonaka err: 698 1.1 nonaka SET(cmd->c_flags, SCF_ITSDONE); 699 1.1 nonaka sc->sc_cmd = NULL; 700 1.1 nonaka goto out; 701 1.1 nonaka } 702 1.1 nonaka 703 1.1 nonaka out: 704 1.1 nonaka splx(s); 705 1.1 nonaka 706 1.1 nonaka DPRINTF(1,("%s: cmd %d done (flags=%08x error=%d)\n", 707 1.1 nonaka device_xname(sc->sc_dev), cmd->c_opcode, cmd->c_flags, cmd->c_error)); 708 1.1 nonaka } 709 1.1 nonaka 710 1.1 nonaka static void 711 1.1 nonaka pxamci_card_enable_intr(sdmmc_chipset_handle_t sch, int enable) 712 1.1 nonaka { 713 1.1 nonaka struct pxamci_softc *sc = (struct pxamci_softc *)sch; 714 1.1 nonaka 715 1.1 nonaka if (enable) { 716 1.1 nonaka pxamci_enable_intr(sc, MMC_I_SDIO_INT); 717 1.1 nonaka } else { 718 1.1 nonaka pxamci_disable_intr(sc, MMC_I_SDIO_INT); 719 1.1 nonaka } 720 1.1 nonaka } 721 1.1 nonaka 722 1.1 nonaka static void 723 1.1 nonaka pxamci_card_intr_ack(sdmmc_chipset_handle_t sch) 724 1.1 nonaka { 725 1.1 nonaka 726 1.1 nonaka /* Nothing to do */ 727 1.1 nonaka } 728 1.1 nonaka 729 1.1 nonaka static void 730 1.1 nonaka pxamci_stop_clock(struct pxamci_softc *sc) 731 1.1 nonaka { 732 1.1 nonaka int timo = STOPCLK_TIMO; 733 1.1 nonaka 734 1.1 nonaka if (ISSET(CSR_READ_4(sc, MMC_STAT), STAT_CLK_EN)) { 735 1.1 nonaka CSR_CLR_4(sc, MMC_I_MASK, MMC_I_CLK_IS_OFF); 736 1.1 nonaka CSR_WRITE_4(sc, MMC_STRPCL, STRPCL_STOP); 737 1.1 nonaka while (ISSET(CSR_READ_4(sc, MMC_STAT), STAT_CLK_EN) 738 1.1 nonaka && (timo-- > 0)) { 739 1.1 nonaka tsleep(sc, PWAIT, "mmclk", hz); 740 1.1 nonaka } 741 1.1 nonaka } 742 1.1 nonaka if (timo == 0) 743 1.1 nonaka aprint_error_dev(sc->sc_dev, "clock stop timeout\n"); 744 1.1 nonaka } 745 1.1 nonaka 746 1.1 nonaka /* 747 1.1 nonaka * SD/MMC controller interrput handler 748 1.1 nonaka */ 749 1.1 nonaka static int 750 1.1 nonaka pxamci_intr(void *arg) 751 1.1 nonaka { 752 1.1 nonaka struct pxamci_softc *sc = arg; 753 1.1 nonaka int status; 754 1.1 nonaka #ifdef PXAMCI_DEBUG 755 1.1 nonaka int ostatus; 756 1.1 nonaka 757 1.1 nonaka ostatus = 758 1.1 nonaka #endif 759 1.1 nonaka status = CSR_READ_4(sc, MMC_I_REG) & ~CSR_READ_4(sc, MMC_I_MASK); 760 1.5 nonaka DPRINTF(10,("%s: intr status = %08x\n", device_xname(sc->sc_dev), 761 1.1 nonaka status)); 762 1.1 nonaka 763 1.1 nonaka /* 764 1.1 nonaka * Notify the process waiting in pxamci_clock_stop() when 765 1.1 nonaka * the clock has really stopped. 766 1.1 nonaka */ 767 1.1 nonaka if (ISSET(status, MMC_I_CLK_IS_OFF)) { 768 1.1 nonaka DPRINTF(2,("%s: clock is now off\n", device_xname(sc->sc_dev))); 769 1.1 nonaka wakeup(sc); 770 1.1 nonaka pxamci_disable_intr(sc, MMC_I_CLK_IS_OFF); 771 1.1 nonaka CLR(status, MMC_I_CLK_IS_OFF); 772 1.1 nonaka } 773 1.1 nonaka 774 1.1 nonaka if (sc->sc_cmd == NULL) 775 1.1 nonaka goto end; 776 1.1 nonaka 777 1.1 nonaka if (ISSET(status, MMC_I_RES_ERR)) { 778 1.1 nonaka DPRINTF(9, ("%s: handling MMC_I_RES_ERR\n", 779 1.1 nonaka device_xname(sc->sc_dev))); 780 1.1 nonaka pxamci_disable_intr(sc, MMC_I_RES_ERR); 781 1.1 nonaka CLR(status, MMC_I_RES_ERR|MMC_I_END_CMD_RES); 782 1.1 nonaka if (!ISSET(sc->sc_caps, PMC_CAPS_NO_DMA) 783 1.5 nonaka && (sc->sc_cmd->c_datalen > 0) 784 1.5 nonaka && DMA_ALIGNED(sc->sc_cmd->c_data)) { 785 1.1 nonaka if (ISSET(sc->sc_cmd->c_flags, SCF_CMD_READ)) { 786 1.1 nonaka pxa2x0_dmac_abort_xfer(sc->sc_rxdx); 787 1.1 nonaka } else { 788 1.1 nonaka pxa2x0_dmac_abort_xfer(sc->sc_txdx); 789 1.1 nonaka } 790 1.1 nonaka } 791 1.1 nonaka sc->sc_cmd->c_error = ENOEXEC; 792 1.1 nonaka pxamci_intr_done(sc); 793 1.1 nonaka goto end; 794 1.1 nonaka } 795 1.1 nonaka 796 1.1 nonaka if (ISSET(status, MMC_I_END_CMD_RES)) { 797 1.1 nonaka DPRINTF(9,("%s: handling MMC_I_END_CMD_RES\n", 798 1.1 nonaka device_xname(sc->sc_dev))); 799 1.1 nonaka pxamci_intr_cmd(sc); 800 1.1 nonaka pxamci_disable_intr(sc, MMC_I_END_CMD_RES); 801 1.1 nonaka CLR(status, MMC_I_END_CMD_RES); 802 1.1 nonaka /* ignore programming done condition */ 803 1.1 nonaka if (ISSET(status, MMC_I_PRG_DONE)) { 804 1.1 nonaka pxamci_disable_intr(sc, MMC_I_PRG_DONE); 805 1.1 nonaka CLR(status, MMC_I_PRG_DONE); 806 1.1 nonaka } 807 1.1 nonaka if (sc->sc_cmd == NULL) 808 1.1 nonaka goto end; 809 1.1 nonaka } 810 1.1 nonaka 811 1.1 nonaka if (ISSET(status, MMC_I_DAT_ERR)) { 812 1.1 nonaka DPRINTF(9, ("%s: handling MMC_I_DAT_ERR\n", 813 1.1 nonaka device_xname(sc->sc_dev))); 814 1.3 nonaka sc->sc_cmd->c_error = EIO; 815 1.3 nonaka pxamci_intr_done(sc); 816 1.1 nonaka pxamci_disable_intr(sc, MMC_I_DAT_ERR); 817 1.1 nonaka CLR(status, MMC_I_DAT_ERR); 818 1.5 nonaka if (!ISSET(sc->sc_caps, PMC_CAPS_NO_DMA) 819 1.5 nonaka && DMA_ALIGNED(sc->sc_cmd->c_data)) { 820 1.2 nonaka if (ISSET(sc->sc_cmd->c_flags, SCF_CMD_READ)) { 821 1.2 nonaka pxa2x0_dmac_abort_xfer(sc->sc_rxdx); 822 1.2 nonaka } else { 823 1.2 nonaka pxa2x0_dmac_abort_xfer(sc->sc_txdx); 824 1.2 nonaka } 825 1.1 nonaka } 826 1.1 nonaka /* ignore transmission done condition */ 827 1.1 nonaka if (ISSET(status, MMC_I_DATA_TRAN_DONE)) { 828 1.1 nonaka pxamci_disable_intr(sc, MMC_I_DATA_TRAN_DONE); 829 1.1 nonaka CLR(status, MMC_I_DATA_TRAN_DONE); 830 1.1 nonaka } 831 1.1 nonaka goto end; 832 1.1 nonaka } 833 1.1 nonaka 834 1.1 nonaka if (ISSET(status, MMC_I_DATA_TRAN_DONE)) { 835 1.1 nonaka DPRINTF(9,("%s: handling MMC_I_DATA_TRAN_DONE\n", 836 1.1 nonaka device_xname(sc->sc_dev))); 837 1.1 nonaka pxamci_intr_done(sc); 838 1.1 nonaka pxamci_disable_intr(sc, MMC_I_DATA_TRAN_DONE); 839 1.1 nonaka CLR(status, MMC_I_DATA_TRAN_DONE); 840 1.1 nonaka } 841 1.1 nonaka 842 1.3 nonaka if (ISSET(status, MMC_I_TXFIFO_WR_REQ|MMC_I_RXFIFO_RD_REQ)) { 843 1.5 nonaka DPRINTF(10,("%s: handling MMC_I_xxFIFO_xx_REQ\n", 844 1.3 nonaka device_xname(sc->sc_dev))); 845 1.3 nonaka pxamci_intr_data(sc); 846 1.3 nonaka CLR(status, MMC_I_TXFIFO_WR_REQ|MMC_I_RXFIFO_RD_REQ); 847 1.3 nonaka } 848 1.3 nonaka 849 1.1 nonaka if (ISSET(status, STAT_SDIO_INT)) { 850 1.1 nonaka DPRINTF(9,("%s: handling STAT_SDIO_INT\n", 851 1.1 nonaka device_xname(sc->sc_dev))); 852 1.1 nonaka sdmmc_card_intr(sc->sc_sdmmc); 853 1.1 nonaka CLR(status, STAT_SDIO_INT); 854 1.1 nonaka } 855 1.1 nonaka 856 1.1 nonaka end: 857 1.1 nonaka /* Avoid further unhandled interrupts. */ 858 1.1 nonaka if (status != 0) { 859 1.1 nonaka pxamci_disable_intr(sc, status); 860 1.1 nonaka #ifdef PXAMCI_DEBUG 861 1.1 nonaka aprint_error_dev(sc->sc_dev, 862 1.1 nonaka "unhandled interrupt 0x%x out of 0x%x\n", status, ostatus); 863 1.1 nonaka #endif 864 1.1 nonaka } 865 1.1 nonaka return 1; 866 1.1 nonaka } 867 1.1 nonaka 868 1.1 nonaka static void 869 1.1 nonaka pxamci_intr_cmd(struct pxamci_softc *sc) 870 1.1 nonaka { 871 1.1 nonaka struct sdmmc_command *cmd = sc->sc_cmd; 872 1.1 nonaka uint32_t status; 873 1.1 nonaka int error; 874 1.1 nonaka int i; 875 1.1 nonaka 876 1.1 nonaka KASSERT(sc->sc_cmd != NULL); 877 1.1 nonaka 878 1.1 nonaka #define STAT_ERR (STAT_READ_TIME_OUT \ 879 1.1 nonaka | STAT_TIMEOUT_RESPONSE \ 880 1.1 nonaka | STAT_CRC_WRITE_ERROR \ 881 1.1 nonaka | STAT_CRC_READ_ERROR \ 882 1.1 nonaka | STAT_SPI_READ_ERROR_TOKEN) 883 1.1 nonaka 884 1.1 nonaka if (ISSET(cmd->c_flags, SCF_RSP_136)) { 885 1.1 nonaka for (i = 3; i >= 0; i--) { 886 1.1 nonaka uint32_t h = CSR_READ_4(sc, MMC_RES) & 0xffff; 887 1.1 nonaka uint32_t l = CSR_READ_4(sc, MMC_RES) & 0xffff; 888 1.1 nonaka cmd->c_resp[i] = (h << 16) | l; 889 1.1 nonaka } 890 1.1 nonaka cmd->c_error = 0; 891 1.1 nonaka } else if (ISSET(cmd->c_flags, SCF_RSP_PRESENT)) { 892 1.1 nonaka /* 893 1.1 nonaka * Grrr... The processor manual is not clear about 894 1.1 nonaka * the layout of the response FIFO. It just states 895 1.1 nonaka * that the FIFO is 16 bits wide, has a depth of 8, 896 1.1 nonaka * and that the CRC is not copied into the FIFO. 897 1.1 nonaka * 898 1.1 nonaka * A 16-bit word in the FIFO is filled from highest 899 1.1 nonaka * to lowest bit as the response comes in. The two 900 1.1 nonaka * start bits and the 6 command index bits are thus 901 1.1 nonaka * stored in the upper 8 bits of the first 16-bit 902 1.1 nonaka * word that we read back from the FIFO. 903 1.1 nonaka * 904 1.1 nonaka * Since the sdmmc(4) framework expects the host 905 1.1 nonaka * controller to discard the first 8 bits of the 906 1.1 nonaka * response, what we must do is discard the upper 907 1.1 nonaka * byte of the first 16-bit word. 908 1.1 nonaka */ 909 1.1 nonaka uint32_t h = CSR_READ_4(sc, MMC_RES) & 0xffff; 910 1.1 nonaka uint32_t m = CSR_READ_4(sc, MMC_RES) & 0xffff; 911 1.1 nonaka uint32_t l = CSR_READ_4(sc, MMC_RES) & 0xffff; 912 1.1 nonaka cmd->c_resp[0] = (h << 24) | (m << 8) | (l >> 8); 913 1.1 nonaka for (i = 1; i < 4; i++) 914 1.1 nonaka cmd->c_resp[i] = 0; 915 1.1 nonaka cmd->c_error = 0; 916 1.1 nonaka } 917 1.1 nonaka 918 1.1 nonaka status = CSR_READ_4(sc, MMC_STAT); 919 1.1 nonaka 920 1.1 nonaka if (!ISSET(cmd->c_flags, SCF_RSP_PRESENT)) 921 1.1 nonaka CLR(status, STAT_TIMEOUT_RESPONSE); 922 1.1 nonaka 923 1.1 nonaka /* XXX only for R6, not for R2 */ 924 1.1 nonaka if (!ISSET(cmd->c_flags, SCF_RSP_IDX)) 925 1.1 nonaka CLR(status, STAT_RES_CRC_ERR); 926 1.1 nonaka 927 1.1 nonaka if (ISSET(status, STAT_TIMEOUT_RESPONSE)) 928 1.1 nonaka cmd->c_error = ETIMEDOUT; 929 1.1 nonaka else if (ISSET(status, STAT_RES_CRC_ERR) 930 1.1 nonaka && ISSET(cmd->c_flags, SCF_RSP_CRC) 931 1.1 nonaka && CPU_IS_PXA270) { 932 1.1 nonaka /* workaround for erratum #42 */ 933 1.1 nonaka if (ISSET(cmd->c_flags, SCF_RSP_136) 934 1.1 nonaka && (cmd->c_resp[0] & 0x80000000U)) { 935 1.1 nonaka DPRINTF(1,("%s: ignore CRC error\n", 936 1.1 nonaka device_xname(sc->sc_dev))); 937 1.1 nonaka } else 938 1.1 nonaka cmd->c_error = EIO; 939 1.1 nonaka } else if (ISSET(status, STAT_ERR)) 940 1.1 nonaka cmd->c_error = EIO; 941 1.1 nonaka 942 1.1 nonaka if (cmd->c_error == 0 && cmd->c_datalen > 0) { 943 1.1 nonaka if (!ISSET(sc->sc_caps, PMC_CAPS_NO_DMA) 944 1.5 nonaka && DMA_ALIGNED(cmd->c_data)) { 945 1.5 nonaka /* workaround for erratum #91 */ 946 1.5 nonaka if (CPU_IS_PXA270 947 1.5 nonaka && !ISSET(cmd->c_flags, SCF_CMD_READ)) { 948 1.5 nonaka error = pxa2x0_dmac_start_xfer(sc->sc_txdx); 949 1.5 nonaka if (error) { 950 1.5 nonaka aprint_error_dev(sc->sc_dev, 951 1.5 nonaka "couldn't start dma xfer." 952 1.5 nonaka " (error=%d)\n", error); 953 1.5 nonaka cmd->c_error = EIO; 954 1.5 nonaka pxamci_intr_done(sc); 955 1.5 nonaka return; 956 1.5 nonaka } 957 1.1 nonaka } 958 1.3 nonaka pxamci_enable_intr(sc, 959 1.3 nonaka MMC_I_DATA_TRAN_DONE|MMC_I_DAT_ERR); 960 1.1 nonaka } 961 1.1 nonaka } else { 962 1.1 nonaka pxamci_intr_done(sc); 963 1.1 nonaka } 964 1.1 nonaka } 965 1.1 nonaka 966 1.1 nonaka static void 967 1.1 nonaka pxamci_intr_data(struct pxamci_softc *sc) 968 1.1 nonaka { 969 1.1 nonaka struct sdmmc_command *cmd = sc->sc_cmd; 970 1.1 nonaka int intr; 971 1.1 nonaka int n; 972 1.1 nonaka 973 1.5 nonaka DPRINTF(10,("%s: pxamci_intr_data: cmd = %p, resid = %d\n", 974 1.1 nonaka device_xname(sc->sc_dev), cmd, cmd->c_resid)); 975 1.1 nonaka 976 1.1 nonaka n = MIN(32, cmd->c_resid); 977 1.1 nonaka cmd->c_resid -= n; 978 1.1 nonaka 979 1.1 nonaka if (ISSET(cmd->c_flags, SCF_CMD_READ)) { 980 1.1 nonaka intr = MMC_I_RXFIFO_RD_REQ; 981 1.1 nonaka while (n-- > 0) 982 1.1 nonaka *cmd->c_buf++ = CSR_READ_1(sc, MMC_RXFIFO); 983 1.1 nonaka } else { 984 1.1 nonaka int short_xfer = n < 32; 985 1.1 nonaka 986 1.1 nonaka intr = MMC_I_TXFIFO_WR_REQ; 987 1.1 nonaka while (n-- > 0) 988 1.1 nonaka CSR_WRITE_1(sc, MMC_TXFIFO, *cmd->c_buf++); 989 1.1 nonaka if (short_xfer) 990 1.1 nonaka CSR_WRITE_4(sc, MMC_PRTBUF, 1); 991 1.1 nonaka } 992 1.1 nonaka 993 1.1 nonaka if (cmd->c_resid > 0) { 994 1.1 nonaka pxamci_enable_intr(sc, intr); 995 1.1 nonaka } else { 996 1.1 nonaka pxamci_disable_intr(sc, intr); 997 1.3 nonaka pxamci_enable_intr(sc, MMC_I_DATA_TRAN_DONE); 998 1.1 nonaka } 999 1.1 nonaka } 1000 1.1 nonaka 1001 1.1 nonaka /* 1002 1.1 nonaka * Wake up the process sleeping in pxamci_exec_command(). 1003 1.1 nonaka */ 1004 1.1 nonaka static void 1005 1.1 nonaka pxamci_intr_done(struct pxamci_softc *sc) 1006 1.1 nonaka { 1007 1.1 nonaka 1008 1.1 nonaka DPRINTF(1,("%s: pxamci_intr_done: mmc status = %#x\n", 1009 1.3 nonaka device_xname(sc->sc_dev), CSR_READ_4(sc, MMC_STAT))); 1010 1.1 nonaka 1011 1.3 nonaka pxamci_disable_intr(sc, MMC_I_TXFIFO_WR_REQ|MMC_I_RXFIFO_RD_REQ| 1012 1.3 nonaka MMC_I_DATA_TRAN_DONE|MMC_I_END_CMD_RES|MMC_I_RES_ERR|MMC_I_DAT_ERR); 1013 1.1 nonaka SET(sc->sc_cmd->c_flags, SCF_ITSDONE); 1014 1.1 nonaka sc->sc_cmd = NULL; 1015 1.1 nonaka wakeup(sc); 1016 1.1 nonaka } 1017 1.1 nonaka 1018 1.1 nonaka static void 1019 1.1 nonaka pxamci_dmac_iintr(struct dmac_xfer *dx, int status) 1020 1.1 nonaka { 1021 1.1 nonaka struct pxamci_softc *sc = dx->dx_cookie; 1022 1.1 nonaka 1023 1.5 nonaka DPRINTF(1,("%s: pxamci_dmac_iintr: status = %#x\n", 1024 1.5 nonaka device_xname(sc->sc_dev), status)); 1025 1.5 nonaka 1026 1.1 nonaka if (status) { 1027 1.1 nonaka aprint_error_dev(sc->sc_dev, "pxamci_dmac_iintr: " 1028 1.1 nonaka "non-zero completion status %d\n", status); 1029 1.1 nonaka } 1030 1.1 nonaka } 1031 1.1 nonaka 1032 1.1 nonaka static void 1033 1.1 nonaka pxamci_dmac_ointr(struct dmac_xfer *dx, int status) 1034 1.1 nonaka { 1035 1.1 nonaka struct pxamci_softc *sc = dx->dx_cookie; 1036 1.1 nonaka 1037 1.5 nonaka DPRINTF(1,("%s: pxamci_dmac_ointr: status = %#x\n", 1038 1.5 nonaka device_xname(sc->sc_dev), status)); 1039 1.5 nonaka 1040 1.5 nonaka if (status == 0) { 1041 1.5 nonaka if (sc->sc_cmd != NULL && (sc->sc_cmd->c_datalen & 31) != 0) { 1042 1.5 nonaka CSR_WRITE_4(sc, MMC_PRTBUF, 1); 1043 1.5 nonaka } 1044 1.5 nonaka } else { 1045 1.1 nonaka aprint_error_dev(sc->sc_dev, "pxamci_dmac_ointr: " 1046 1.1 nonaka "non-zero completion status %d\n", status); 1047 1.1 nonaka } 1048 1.1 nonaka } 1049
Indexes created Fri Sep 26 20:09:58 GMT 2025