dev/sdmmc/sdmmc_mem.c

1.5  reinoud /*	$NetBSD: sdmmc_mem.c,v 1.5 2010/05/01 21:14:39 reinoud Exp $	*/
1.1   nonaka /*	$OpenBSD: sdmmc_mem.c,v 1.10 2009/01/09 10:55:22 jsg Exp $	*/
1.1   nonaka
1.1   nonaka /*
1.1   nonaka  * Copyright (c) 2006 Uwe Stuehler <uwe (at) openbsd.org>
1.1   nonaka  *
1.1   nonaka  * Permission to use, copy, modify, and distribute this software for any
1.1   nonaka  * purpose with or without fee is hereby granted, provided that the above
1.1   nonaka  * copyright notice and this permission notice appear in all copies.
1.1   nonaka  *
1.1   nonaka  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
1.1   nonaka  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1.1   nonaka  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
1.1   nonaka  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1.1   nonaka  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
1.1   nonaka  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
1.1   nonaka  * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
1.1   nonaka  */
1.1   nonaka
1.1   nonaka /*-
1.4   nonaka  * Copyright (c) 2007-2010 NONAKA Kimihiro <nonaka (at) netbsd.org>
1.1   nonaka  * All rights reserved.
1.1   nonaka  *
1.1   nonaka  * Redistribution and use in source and binary forms, with or without
1.1   nonaka  * modification, are permitted provided that the following conditions
1.1   nonaka  * are met:
1.1   nonaka  * 1. Redistributions of source code must retain the above copyright
1.1   nonaka  *    notice, this list of conditions and the following disclaimer.
1.1   nonaka  * 2. Redistributions in binary form must reproduce the above copyright
1.1   nonaka  *    notice, this list of conditions and the following disclaimer in the
1.1   nonaka  *    documentation and/or other materials provided with the distribution.
1.1   nonaka  *
1.1   nonaka  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1   nonaka  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1   nonaka  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1   nonaka  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1   nonaka  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1   nonaka  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1   nonaka  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1   nonaka  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1   nonaka  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1   nonaka  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1   nonaka  * SUCH DAMAGE.
1.1   nonaka  */
1.1   nonaka
1.1   nonaka /* Routines for SD/MMC memory cards. */
1.1   nonaka
1.1   nonaka #include <sys/cdefs.h>
1.5  reinoud __KERNEL_RCSID(0, "$NetBSD: sdmmc_mem.c,v 1.5 2010/05/01 21:14:39 reinoud Exp $");
1.1   nonaka
1.1   nonaka #include <sys/param.h>
1.1   nonaka #include <sys/kernel.h>
1.1   nonaka #include <sys/malloc.h>
1.1   nonaka #include <sys/systm.h>
1.1   nonaka #include <sys/device.h>
1.1   nonaka
1.1   nonaka #include <uvm/uvm_extern.h>
1.1   nonaka
1.1   nonaka #include <dev/sdmmc/sdmmcchip.h>
1.1   nonaka #include <dev/sdmmc/sdmmcreg.h>
1.1   nonaka #include <dev/sdmmc/sdmmcvar.h>
1.1   nonaka
1.1   nonaka #ifdef SDMMC_DEBUG
1.1   nonaka #define DPRINTF(s)	do { printf s; } while (/*CONSTCOND*/0)
1.1   nonaka #else
1.1   nonaka #define DPRINTF(s)	do {} while (/*CONSTCOND*/0)
1.1   nonaka #endif
1.1   nonaka
1.4   nonaka static int sdmmc_mem_send_cid(struct sdmmc_softc *, sdmmc_response *);
1.4   nonaka static int sdmmc_mem_send_csd(struct sdmmc_softc *, struct sdmmc_function *,
1.4   nonaka     sdmmc_response *);
1.4   nonaka static int sdmmc_mem_send_scr(struct sdmmc_softc *, struct sdmmc_function *,
1.4   nonaka     uint32_t scr[2]);
1.4   nonaka static int sdmmc_mem_decode_scr(struct sdmmc_softc *, struct sdmmc_function *);
1.4   nonaka static int sdmmc_mem_send_cxd_data(struct sdmmc_softc *, int, void *, size_t);
1.4   nonaka static int sdmmc_set_bus_width(struct sdmmc_function *, int);
1.4   nonaka #if 0
1.4   nonaka static int sdmmc_mem_mmc_switch(struct sdmmc_function *, uint8_t, uint8_t,
1.4   nonaka     uint8_t);
1.1   nonaka #endif
1.4   nonaka static int sdmmc_mem_spi_read_ocr(struct sdmmc_softc *, uint32_t, uint32_t *);
1.4   nonaka static int sdmmc_mem_single_read_block(struct sdmmc_function *, uint32_t,
1.4   nonaka     u_char *, size_t);
1.4   nonaka static int sdmmc_mem_single_write_block(struct sdmmc_function *, uint32_t,
1.4   nonaka     u_char *, size_t);
1.1   nonaka static int sdmmc_mem_read_block_subr(struct sdmmc_function *, uint32_t,
1.1   nonaka     u_char *, size_t);
1.1   nonaka static int sdmmc_mem_write_block_subr(struct sdmmc_function *, uint32_t,
1.1   nonaka     u_char *, size_t);
1.1   nonaka
1.1   nonaka /*
1.1   nonaka  * Initialize SD/MMC memory cards and memory in SDIO "combo" cards.
1.1   nonaka  */
1.1   nonaka int
1.1   nonaka sdmmc_mem_enable(struct sdmmc_softc *sc)
1.1   nonaka {
1.1   nonaka 	uint32_t host_ocr;
1.1   nonaka 	uint32_t card_ocr;
1.4   nonaka 	uint32_t ocr = 0;
1.1   nonaka 	int error;
1.1   nonaka
1.1   nonaka 	SDMMC_LOCK(sc);
1.1   nonaka
1.1   nonaka 	/* Set host mode to SD "combo" card or SD memory-only. */
1.1   nonaka 	SET(sc->sc_flags, SMF_SD_MODE|SMF_MEM_MODE);
1.1   nonaka
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE))
1.4   nonaka 		sdmmc_spi_chip_initialize(sc->sc_spi_sct, sc->sc_sch);
1.4   nonaka
1.1   nonaka 	/* Reset memory (*must* do that before CMD55 or CMD1). */
1.1   nonaka 	sdmmc_go_idle_state(sc);
1.1   nonaka
1.4   nonaka 	/* Check SD Ver.2 */
1.4   nonaka 	error = sdmmc_mem_send_if_cond(sc, 0x1aa, &card_ocr);
1.4   nonaka 	if (error == 0 && card_ocr == 0x1aa)
1.4   nonaka 		SET(ocr, MMC_OCR_HCS);
1.4   nonaka
1.1   nonaka 	/*
1.1   nonaka 	 * Read the SD/MMC memory OCR value by issuing CMD55 followed
1.1   nonaka 	 * by ACMD41 to read the OCR value from memory-only SD cards.
1.1   nonaka 	 * MMC cards will not respond to CMD55 or ACMD41 and this is
1.1   nonaka 	 * how we distinguish them from SD cards.
1.1   nonaka 	 */
1.1   nonaka mmc_mode:
1.4   nonaka 	error = sdmmc_mem_send_op_cond(sc,
1.4   nonaka 	  ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE) ? ocr : 0, &card_ocr);
1.1   nonaka 	if (error) {
1.1   nonaka 		if (ISSET(sc->sc_flags, SMF_SD_MODE) &&
1.1   nonaka 		    !ISSET(sc->sc_flags, SMF_IO_MODE)) {
1.1   nonaka 			/* Not a SD card, switch to MMC mode. */
1.1   nonaka 			DPRINTF(("%s: switch to MMC mode\n", SDMMCDEVNAME(sc)));
1.1   nonaka 			CLR(sc->sc_flags, SMF_SD_MODE);
1.1   nonaka 			goto mmc_mode;
1.1   nonaka 		}
1.1   nonaka 		if (!ISSET(sc->sc_flags, SMF_SD_MODE)) {
1.1   nonaka 			DPRINTF(("%s: couldn't read memory OCR\n",
1.1   nonaka 			    SDMMCDEVNAME(sc)));
1.1   nonaka 			goto out;
1.1   nonaka 		} else {
1.1   nonaka 			/* Not a "combo" card. */
1.1   nonaka 			CLR(sc->sc_flags, SMF_MEM_MODE);
1.1   nonaka 			error = 0;
1.1   nonaka 			goto out;
1.1   nonaka 		}
1.1   nonaka 	}
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 		/* get card OCR */
1.4   nonaka 		error = sdmmc_mem_spi_read_ocr(sc, ocr, &card_ocr);
1.4   nonaka 		if (error) {
1.4   nonaka 			DPRINTF(("%s: couldn't read SPI memory OCR\n",
1.4   nonaka 			    SDMMCDEVNAME(sc)));
1.4   nonaka 			goto out;
1.4   nonaka 		}
1.4   nonaka 	}
1.1   nonaka
1.1   nonaka 	/* Set the lowest voltage supported by the card and host. */
1.1   nonaka 	host_ocr = sdmmc_chip_host_ocr(sc->sc_sct, sc->sc_sch);
1.1   nonaka 	error = sdmmc_set_bus_power(sc, host_ocr, card_ocr);
1.1   nonaka 	if (error) {
1.1   nonaka 		DPRINTF(("%s: couldn't supply voltage requested by card\n",
1.1   nonaka 		    SDMMCDEVNAME(sc)));
1.1   nonaka 		goto out;
1.1   nonaka 	}
1.4   nonaka 	host_ocr &= card_ocr;
1.4   nonaka 	host_ocr |= ocr;
1.1   nonaka
1.1   nonaka 	/* Send the new OCR value until all cards are ready. */
1.1   nonaka 	error = sdmmc_mem_send_op_cond(sc, host_ocr, NULL);
1.1   nonaka 	if (error) {
1.1   nonaka 		DPRINTF(("%s: couldn't send memory OCR\n", SDMMCDEVNAME(sc)));
1.1   nonaka 		goto out;
1.1   nonaka 	}
1.1   nonaka
1.1   nonaka out:
1.1   nonaka 	SDMMC_UNLOCK(sc);
1.1   nonaka
1.1   nonaka 	return error;
1.1   nonaka }
1.1   nonaka
1.1   nonaka /*
1.1   nonaka  * Read the CSD and CID from all cards and assign each card a unique
1.1   nonaka  * relative card address (RCA).  CMD2 is ignored by SDIO-only cards.
1.1   nonaka  */
1.1   nonaka void
1.1   nonaka sdmmc_mem_scan(struct sdmmc_softc *sc)
1.1   nonaka {
1.4   nonaka 	sdmmc_response resp;
1.1   nonaka 	struct sdmmc_function *sf;
1.1   nonaka 	uint16_t next_rca;
1.1   nonaka 	int error;
1.1   nonaka 	int retry;
1.1   nonaka
1.1   nonaka 	SDMMC_LOCK(sc);
1.1   nonaka
1.1   nonaka 	/*
1.1   nonaka 	 * CMD2 is a broadcast command understood by SD cards and MMC
1.1   nonaka 	 * cards.  All cards begin to respond to the command, but back
1.1   nonaka 	 * off if another card drives the CMD line to a different level.
1.1   nonaka 	 * Only one card will get its entire response through.  That
1.1   nonaka 	 * card remains silent once it has been assigned a RCA.
1.1   nonaka 	 */
1.1   nonaka 	for (retry = 0; retry < 100; retry++) {
1.4   nonaka 		error = sdmmc_mem_send_cid(sc, &resp);
1.4   nonaka 		if (error) {
1.4   nonaka 			if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE) &&
1.4   nonaka 			    error == ETIMEDOUT) {
1.4   nonaka 				/* No more cards there. */
1.4   nonaka 				break;
1.4   nonaka 			}
1.1   nonaka 			DPRINTF(("%s: couldn't read CID\n", SDMMCDEVNAME(sc)));
1.1   nonaka 			break;
1.1   nonaka 		}
1.1   nonaka
1.1   nonaka 		/* In MMC mode, find the next available RCA. */
1.1   nonaka 		next_rca = 1;
1.1   nonaka 		if (!ISSET(sc->sc_flags, SMF_SD_MODE)) {
1.1   nonaka 			SIMPLEQ_FOREACH(sf, &sc->sf_head, sf_list)
1.1   nonaka 				next_rca++;
1.1   nonaka 		}
1.1   nonaka
1.1   nonaka 		/* Allocate a sdmmc_function structure. */
1.1   nonaka 		sf = sdmmc_function_alloc(sc);
1.1   nonaka 		sf->rca = next_rca;
1.1   nonaka
1.1   nonaka 		/*
1.1   nonaka 		 * Remember the CID returned in the CMD2 response for
1.1   nonaka 		 * later decoding.
1.1   nonaka 		 */
1.4   nonaka 		memcpy(sf->raw_cid, resp, sizeof(sf->raw_cid));
1.1   nonaka
1.1   nonaka 		/*
1.1   nonaka 		 * Silence the card by assigning it a unique RCA, or
1.1   nonaka 		 * querying it for its RCA in the case of SD.
1.1   nonaka 		 */
1.4   nonaka 		if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 			if (sdmmc_set_relative_addr(sc, sf) != 0) {
1.4   nonaka 				aprint_error_dev(sc->sc_dev,
1.4   nonaka 				    "couldn't set mem RCA\n");
1.4   nonaka 				sdmmc_function_free(sf);
1.4   nonaka 				break;
1.4   nonaka 			}
1.1   nonaka 		}
1.1   nonaka
1.1   nonaka 		/*
1.1   nonaka 		 * If this is a memory-only card, the card responding
1.1   nonaka 		 * first becomes an alias for SDIO function 0.
1.1   nonaka 		 */
1.1   nonaka 		if (sc->sc_fn0 == NULL)
1.1   nonaka 			sc->sc_fn0 = sf;
1.1   nonaka
1.1   nonaka 		SIMPLEQ_INSERT_TAIL(&sc->sf_head, sf, sf_list);
1.4   nonaka
1.4   nonaka 		/* only one function in SPI mode */
1.4   nonaka 		if (ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE))
1.4   nonaka 			break;
1.1   nonaka 	}
1.1   nonaka
1.1   nonaka 	/*
1.1   nonaka 	 * All cards are either inactive or awaiting further commands.
1.1   nonaka 	 * Read the CSDs and decode the raw CID for each card.
1.1   nonaka 	 */
1.1   nonaka 	SIMPLEQ_FOREACH(sf, &sc->sf_head, sf_list) {
1.4   nonaka 		error = sdmmc_mem_send_csd(sc, sf, &resp);
1.4   nonaka 		if (error) {
1.1   nonaka 			SET(sf->flags, SFF_ERROR);
1.1   nonaka 			continue;
1.1   nonaka 		}
1.1   nonaka
1.4   nonaka 		if (sdmmc_decode_csd(sc, resp, sf) != 0 ||
1.1   nonaka 		    sdmmc_decode_cid(sc, sf->raw_cid, sf) != 0) {
1.1   nonaka 			SET(sf->flags, SFF_ERROR);
1.1   nonaka 			continue;
1.1   nonaka 		}
1.1   nonaka
1.1   nonaka #ifdef SDMMC_DEBUG
1.1   nonaka 		printf("%s: CID: ", SDMMCDEVNAME(sc));
1.1   nonaka 		sdmmc_print_cid(&sf->cid);
1.1   nonaka #endif
1.1   nonaka 	}
1.1   nonaka
1.1   nonaka 	SDMMC_UNLOCK(sc);
1.1   nonaka }
1.1   nonaka
1.1   nonaka int
1.1   nonaka sdmmc_decode_csd(struct sdmmc_softc *sc, sdmmc_response resp,
1.1   nonaka     struct sdmmc_function *sf)
1.1   nonaka {
1.1   nonaka 	/* TRAN_SPEED(2:0): transfer rate exponent */
1.1   nonaka 	static const int speed_exponent[8] = {
1.1   nonaka 		100 *    1,	/* 100 Kbits/s */
1.1   nonaka 		  1 * 1000,	/*   1 Mbits/s */
1.1   nonaka 		 10 * 1000,	/*  10 Mbits/s */
1.1   nonaka 		100 * 1000,	/* 100 Mbits/s */
1.1   nonaka 		         0,
1.1   nonaka 		         0,
1.1   nonaka 		         0,
1.1   nonaka 		         0,
1.1   nonaka 	};
1.1   nonaka 	/* TRAN_SPEED(6:3): time mantissa */
1.1   nonaka 	static const int speed_mantissa[16] = {
1.1   nonaka 		0, 10, 12, 13, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 70, 80,
1.1   nonaka 	};
1.1   nonaka 	struct sdmmc_csd *csd = &sf->csd;
1.1   nonaka 	int e, m;
1.1   nonaka
1.1   nonaka 	if (ISSET(sc->sc_flags, SMF_SD_MODE)) {
1.1   nonaka 		/*
1.1   nonaka 		 * CSD version 1.0 corresponds to SD system
1.1   nonaka 		 * specification version 1.0 - 1.10. (SanDisk, 3.5.3)
1.1   nonaka 		 */
1.1   nonaka 		csd->csdver = SD_CSD_CSDVER(resp);
1.1   nonaka 		switch (csd->csdver) {
1.1   nonaka 		case SD_CSD_CSDVER_2_0:
1.1   nonaka 			DPRINTF(("%s: SD Ver.2.0\n", SDMMCDEVNAME(sc)));
1.2   nonaka 			SET(sf->flags, SFF_SDHC);
1.1   nonaka 			csd->capacity = SD_CSD_V2_CAPACITY(resp);
1.1   nonaka 			csd->read_bl_len = SD_CSD_V2_BL_LEN;
1.1   nonaka 			break;
1.1   nonaka
1.1   nonaka 		case SD_CSD_CSDVER_1_0:
1.1   nonaka 			DPRINTF(("%s: SD Ver.1.0\n", SDMMCDEVNAME(sc)));
1.1   nonaka 			csd->capacity = SD_CSD_CAPACITY(resp);
1.1   nonaka 			csd->read_bl_len = SD_CSD_READ_BL_LEN(resp);
1.1   nonaka 			break;
1.1   nonaka
1.1   nonaka 		default:
1.1   nonaka 			aprint_error_dev(sc->sc_dev,
1.1   nonaka 			    "unknown SD CSD structure version 0x%x\n",
1.1   nonaka 			    csd->csdver);
1.1   nonaka 			return 1;
1.1   nonaka 		}
1.1   nonaka
1.1   nonaka 		csd->mmcver = SD_CSD_MMCVER(resp);
1.1   nonaka 		csd->write_bl_len = SD_CSD_WRITE_BL_LEN(resp);
1.1   nonaka 		csd->r2w_factor = SD_CSD_R2W_FACTOR(resp);
1.1   nonaka 		e = SD_CSD_SPEED_EXP(resp);
1.1   nonaka 		m = SD_CSD_SPEED_MANT(resp);
1.1   nonaka 		csd->tran_speed = speed_exponent[e] * speed_mantissa[m] / 10;
1.1   nonaka 	} else {
1.1   nonaka 		csd->csdver = MMC_CSD_CSDVER(resp);
1.1   nonaka 		if (csd->csdver != MMC_CSD_CSDVER_1_0 &&
1.1   nonaka 		    csd->csdver != MMC_CSD_CSDVER_2_0) {
1.1   nonaka 			aprint_error_dev(sc->sc_dev,
1.1   nonaka 			    "unknown MMC CSD structure version 0x%x\n",
1.1   nonaka 			    csd->csdver);
1.1   nonaka 			return 1;
1.1   nonaka 		}
1.1   nonaka
1.1   nonaka 		csd->mmcver = MMC_CSD_MMCVER(resp);
1.1   nonaka 		csd->capacity = MMC_CSD_CAPACITY(resp);
1.1   nonaka 		csd->read_bl_len = MMC_CSD_READ_BL_LEN(resp);
1.1   nonaka 		csd->write_bl_len = MMC_CSD_WRITE_BL_LEN(resp);
1.1   nonaka 		csd->r2w_factor = MMC_CSD_R2W_FACTOR(resp);
1.1   nonaka 		e = MMC_CSD_TRAN_SPEED_EXP(resp);
1.1   nonaka 		m = MMC_CSD_TRAN_SPEED_MANT(resp);
1.1   nonaka 		csd->tran_speed = speed_exponent[e] * speed_mantissa[m] / 10;
1.1   nonaka 	}
1.3   nonaka 	if ((1 << csd->read_bl_len) > SDMMC_SECTOR_SIZE)
1.3   nonaka 		csd->capacity *= (1 << csd->read_bl_len) / SDMMC_SECTOR_SIZE;
1.1   nonaka
1.1   nonaka 	if (sc->sc_busclk > csd->tran_speed)
1.1   nonaka 		sc->sc_busclk = csd->tran_speed;
1.1   nonaka
1.1   nonaka #ifdef SDMMC_DUMP_CSD
1.1   nonaka 	sdmmc_print_csd(resp, csd);
1.1   nonaka #endif
1.1   nonaka
1.1   nonaka 	return 0;
1.1   nonaka }
1.1   nonaka
1.1   nonaka int
1.1   nonaka sdmmc_decode_cid(struct sdmmc_softc *sc, sdmmc_response resp,
1.1   nonaka     struct sdmmc_function *sf)
1.1   nonaka {
1.1   nonaka 	struct sdmmc_cid *cid = &sf->cid;
1.1   nonaka
1.1   nonaka 	if (ISSET(sc->sc_flags, SMF_SD_MODE)) {
1.1   nonaka 		cid->mid = SD_CID_MID(resp);
1.1   nonaka 		cid->oid = SD_CID_OID(resp);
1.1   nonaka 		SD_CID_PNM_CPY(resp, cid->pnm);
1.1   nonaka 		cid->rev = SD_CID_REV(resp);
1.1   nonaka 		cid->psn = SD_CID_PSN(resp);
1.1   nonaka 		cid->mdt = SD_CID_MDT(resp);
1.1   nonaka 	} else {
1.1   nonaka 		switch(sf->csd.mmcver) {
1.1   nonaka 		case MMC_CSD_MMCVER_1_0:
1.1   nonaka 		case MMC_CSD_MMCVER_1_4:
1.1   nonaka 			cid->mid = MMC_CID_MID_V1(resp);
1.1   nonaka 			MMC_CID_PNM_V1_CPY(resp, cid->pnm);
1.1   nonaka 			cid->rev = MMC_CID_REV_V1(resp);
1.1   nonaka 			cid->psn = MMC_CID_PSN_V1(resp);
1.1   nonaka 			cid->mdt = MMC_CID_MDT_V1(resp);
1.1   nonaka 			break;
1.1   nonaka 		case MMC_CSD_MMCVER_2_0:
1.1   nonaka 		case MMC_CSD_MMCVER_3_1:
1.1   nonaka 		case MMC_CSD_MMCVER_4_0:
1.1   nonaka 			cid->mid = MMC_CID_MID_V2(resp);
1.1   nonaka 			cid->oid = MMC_CID_OID_V2(resp);
1.1   nonaka 			MMC_CID_PNM_V2_CPY(resp, cid->pnm);
1.1   nonaka 			cid->psn = MMC_CID_PSN_V2(resp);
1.1   nonaka 			break;
1.1   nonaka 		default:
1.1   nonaka 			aprint_error_dev(sc->sc_dev, "unknown MMC version %d\n",
1.1   nonaka 			    sf->csd.mmcver);
1.1   nonaka 			return 1;
1.1   nonaka 		}
1.1   nonaka 	}
1.1   nonaka 	return 0;
1.1   nonaka }
1.1   nonaka
1.1   nonaka void
1.1   nonaka sdmmc_print_cid(struct sdmmc_cid *cid)
1.1   nonaka {
1.1   nonaka
1.1   nonaka 	printf("mid=0x%02x oid=0x%04x pnm=\"%s\" rev=0x%02x psn=0x%08x"
1.1   nonaka 	    " mdt=%03x\n", cid->mid, cid->oid, cid->pnm, cid->rev, cid->psn,
1.1   nonaka 	    cid->mdt);
1.1   nonaka }
1.1   nonaka
1.1   nonaka #ifdef SDMMC_DUMP_CSD
1.4   nonaka void
1.1   nonaka sdmmc_print_csd(sdmmc_response resp, struct sdmmc_csd *csd)
1.1   nonaka {
1.1   nonaka
1.1   nonaka 	printf("csdver = %d\n", csd->csdver);
1.1   nonaka 	printf("mmcver = %d\n", csd->mmcver);
1.1   nonaka 	printf("capacity = %08x\n", csd->capacity);
1.1   nonaka 	printf("read_bl_len = %d\n", csd->read_bl_len);
1.1   nonaka 	printf("write_cl_len = %d\n", csd->write_bl_len);
1.1   nonaka 	printf("r2w_factor = %d\n", csd->r2w_factor);
1.1   nonaka 	printf("tran_speed = %d\n", csd->tran_speed);
1.1   nonaka }
1.1   nonaka #endif
1.1   nonaka
1.1   nonaka /*
1.1   nonaka  * Initialize a SD/MMC memory card.
1.1   nonaka  */
1.1   nonaka int
1.1   nonaka sdmmc_mem_init(struct sdmmc_softc *sc, struct sdmmc_function *sf)
1.1   nonaka {
1.5  reinoud 	int error = 0;
1.1   nonaka
1.1   nonaka 	SDMMC_LOCK(sc);
1.1   nonaka
1.4   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 		error = sdmmc_select_card(sc, sf);
1.4   nonaka 		if (error)
1.4   nonaka 			goto out;
1.4   nonaka 	}
1.1   nonaka
1.1   nonaka 	if (!ISSET(sf->flags, SFF_SDHC)) {
1.1   nonaka 		error = sdmmc_mem_set_blocklen(sc, sf);
1.1   nonaka 		if (error)
1.1   nonaka 			goto out;
1.1   nonaka 	}
1.1   nonaka
1.4   nonaka         /* change bus width if supported */
1.4   nonaka 	if (ISSET(sc->sc_flags, SMF_SD_MODE)) {
1.4   nonaka 		error = sdmmc_mem_send_scr(sc, sf, sf->raw_scr);
1.4   nonaka 		if (error) {
1.4   nonaka 			DPRINTF(("%s: SD_SEND_SCR send failed.\n",
1.4   nonaka 			    SDMMCDEVNAME(sc)));
1.4   nonaka 			goto out;
1.4   nonaka 		}
1.4   nonaka 		error = sdmmc_mem_decode_scr(sc, sf);
1.4   nonaka 		if (error)
1.4   nonaka 			goto out;
1.4   nonaka
1.4   nonaka 		if (ISSET(sc->sc_caps, SMC_CAPS_4BIT_MODE) &&
1.4   nonaka 		    ISSET(sf->scr.bus_width, SCR_SD_BUS_WIDTHS_4BIT)) {
1.4   nonaka 			error = sdmmc_set_bus_width(sf, 4);
1.4   nonaka 			if (error) {
1.4   nonaka 				DPRINTF(("%s: can't change bus width"
1.4   nonaka 				    " (%d bit)\n", SDMMCDEVNAME(sc), 4));
1.4   nonaka 			}
1.4   nonaka 		}
1.4   nonaka 	}
1.4   nonaka
1.1   nonaka out:
1.1   nonaka 	SDMMC_UNLOCK(sc);
1.1   nonaka
1.1   nonaka 	return error;
1.1   nonaka }
1.1   nonaka
1.1   nonaka /*
1.1   nonaka  * Get or set the card's memory OCR value (SD or MMC).
1.1   nonaka  */
1.4   nonaka int
1.1   nonaka sdmmc_mem_send_op_cond(struct sdmmc_softc *sc, uint32_t ocr, uint32_t *ocrp)
1.1   nonaka {
1.1   nonaka 	struct sdmmc_command cmd;
1.1   nonaka 	int error;
1.1   nonaka 	int retry;
1.1   nonaka
1.1   nonaka 	/* Don't lock */
1.1   nonaka
1.1   nonaka 	/*
1.1   nonaka 	 * If we change the OCR value, retry the command until the OCR
1.1   nonaka 	 * we receive in response has the "CARD BUSY" bit set, meaning
1.1   nonaka 	 * that all cards are ready for identification.
1.1   nonaka 	 */
1.1   nonaka 	for (retry = 0; retry < 100; retry++) {
1.1   nonaka 		memset(&cmd, 0, sizeof(cmd));
1.4   nonaka 		cmd.c_arg = !ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE) ?
1.4   nonaka 		    ocr : (ocr & MMC_OCR_HCS);
1.4   nonaka 		cmd.c_flags = SCF_CMD_BCR | SCF_RSP_R3 | SCF_RSP_SPI_R1;
1.1   nonaka
1.1   nonaka 		if (ISSET(sc->sc_flags, SMF_SD_MODE)) {
1.1   nonaka 			cmd.c_opcode = SD_APP_OP_COND;
1.4   nonaka 			error = sdmmc_app_command(sc, NULL, &cmd);
1.1   nonaka 		} else {
1.1   nonaka 			cmd.c_opcode = MMC_SEND_OP_COND;
1.1   nonaka 			error = sdmmc_mmc_command(sc, &cmd);
1.1   nonaka 		}
1.1   nonaka 		if (error)
1.1   nonaka 			break;
1.4   nonaka
1.4   nonaka 		if (ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 			if (!ISSET(MMC_SPI_R1(cmd.c_resp), R1_SPI_IDLE))
1.4   nonaka 				break;
1.4   nonaka 		} else {
1.4   nonaka 			if (ISSET(MMC_R3(cmd.c_resp), MMC_OCR_MEM_READY) ||
1.4   nonaka 			    ocr == 0)
1.4   nonaka 				break;
1.4   nonaka 		}
1.1   nonaka
1.1   nonaka 		error = ETIMEDOUT;
1.1   nonaka 		sdmmc_delay(10000);
1.1   nonaka 	}
1.4   nonaka 	if (error == 0 &&
1.4   nonaka 	    ocrp != NULL &&
1.4   nonaka 	    !ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE))
1.1   nonaka 		*ocrp = MMC_R3(cmd.c_resp);
1.4   nonaka 	DPRINTF(("%s: sdmmc_mem_send_op_cond: error=%d, ocr=%#x\n",
1.4   nonaka 	    SDMMCDEVNAME(sc), error, MMC_R3(cmd.c_resp)));
1.1   nonaka 	return error;
1.1   nonaka }
1.1   nonaka
1.4   nonaka int
1.1   nonaka sdmmc_mem_send_if_cond(struct sdmmc_softc *sc, uint32_t ocr, uint32_t *ocrp)
1.1   nonaka {
1.1   nonaka 	struct sdmmc_command cmd;
1.1   nonaka 	int error;
1.1   nonaka
1.1   nonaka 	/* Don't lock */
1.1   nonaka
1.1   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.1   nonaka 	cmd.c_arg = ocr;
1.4   nonaka 	cmd.c_flags = SCF_CMD_BCR | SCF_RSP_R7 | SCF_RSP_SPI_R7;
1.1   nonaka 	cmd.c_opcode = SD_SEND_IF_COND;
1.1   nonaka
1.1   nonaka 	error = sdmmc_mmc_command(sc, &cmd);
1.4   nonaka 	if (error == 0 && ocrp != NULL) {
1.4   nonaka 		if (ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 			*ocrp = MMC_SPI_R7(cmd.c_resp);
1.4   nonaka 		} else {
1.4   nonaka 			*ocrp = MMC_R7(cmd.c_resp);
1.4   nonaka 		}
1.4   nonaka 		DPRINTF(("%s: sdmmc_mem_send_if_cond: error=%d, ocr=%#x\n",
1.4   nonaka 		    SDMMCDEVNAME(sc), error, *ocrp));
1.4   nonaka 	}
1.1   nonaka 	return error;
1.1   nonaka }
1.1   nonaka
1.1   nonaka /*
1.1   nonaka  * Set the read block length appropriately for this card, according to
1.1   nonaka  * the card CSD register value.
1.1   nonaka  */
1.4   nonaka int
1.1   nonaka sdmmc_mem_set_blocklen(struct sdmmc_softc *sc, struct sdmmc_function *sf)
1.1   nonaka {
1.1   nonaka 	struct sdmmc_command cmd;
1.1   nonaka 	int error;
1.1   nonaka
1.1   nonaka 	/* Don't lock */
1.1   nonaka
1.1   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.1   nonaka 	cmd.c_opcode = MMC_SET_BLOCKLEN;
1.3   nonaka 	cmd.c_arg = SDMMC_SECTOR_SIZE;
1.4   nonaka 	cmd.c_flags = SCF_CMD_AC | SCF_RSP_R1 | SCF_RSP_SPI_R1;
1.1   nonaka
1.1   nonaka 	error = sdmmc_mmc_command(sc, &cmd);
1.1   nonaka
1.1   nonaka 	DPRINTF(("%s: sdmmc_mem_set_blocklen: read_bl_len=%d sector_size=%d\n",
1.3   nonaka 	    SDMMCDEVNAME(sc), 1 << sf->csd.read_bl_len, SDMMC_SECTOR_SIZE));
1.1   nonaka
1.1   nonaka 	return error;
1.1   nonaka }
1.1   nonaka
1.1   nonaka static int
1.4   nonaka sdmmc_mem_send_cid(struct sdmmc_softc *sc, sdmmc_response *resp)
1.4   nonaka {
1.4   nonaka 	struct sdmmc_command cmd;
1.4   nonaka 	int error;
1.4   nonaka
1.4   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 		memset(&cmd, 0, sizeof cmd);
1.4   nonaka 		cmd.c_opcode = MMC_ALL_SEND_CID;
1.4   nonaka 		cmd.c_flags = SCF_CMD_BCR | SCF_RSP_R2;
1.4   nonaka
1.4   nonaka 		error = sdmmc_mmc_command(sc, &cmd);
1.4   nonaka 	} else {
1.4   nonaka 		error = sdmmc_mem_send_cxd_data(sc, MMC_SEND_CID, &cmd.c_resp,
1.4   nonaka 		    sizeof(cmd.c_resp));
1.4   nonaka 	}
1.4   nonaka
1.4   nonaka #ifdef SDMMC_DEBUG
1.4   nonaka 	sdmmc_dump_data("CID", cmd.c_resp, sizeof(cmd.c_resp));
1.4   nonaka #endif
1.4   nonaka 	if (error == 0 && resp != NULL)
1.4   nonaka 		memcpy(resp, &cmd.c_resp, sizeof(*resp));
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.4   nonaka static int
1.4   nonaka sdmmc_mem_send_csd(struct sdmmc_softc *sc, struct sdmmc_function *sf,
1.4   nonaka     sdmmc_response *resp)
1.4   nonaka {
1.4   nonaka 	struct sdmmc_command cmd;
1.4   nonaka 	int error;
1.4   nonaka
1.4   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 		memset(&cmd, 0, sizeof cmd);
1.4   nonaka 		cmd.c_opcode = MMC_SEND_CSD;
1.4   nonaka 		cmd.c_arg = MMC_ARG_RCA(sf->rca);
1.4   nonaka 		cmd.c_flags = SCF_CMD_AC | SCF_RSP_R2;
1.4   nonaka
1.4   nonaka 		error = sdmmc_mmc_command(sc, &cmd);
1.4   nonaka 	} else {
1.4   nonaka 		error = sdmmc_mem_send_cxd_data(sc, MMC_SEND_CSD, &cmd.c_resp,
1.4   nonaka 		    sizeof(cmd.c_resp));
1.4   nonaka 	}
1.4   nonaka
1.4   nonaka #ifdef SDMMC_DEBUG
1.4   nonaka 	sdmmc_dump_data("CSD", cmd.c_resp, sizeof(cmd.c_resp));
1.4   nonaka #endif
1.4   nonaka 	if (error == 0 && resp != NULL)
1.4   nonaka 		memcpy(resp, &cmd.c_resp, sizeof(*resp));
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.4   nonaka static int
1.4   nonaka sdmmc_mem_send_scr(struct sdmmc_softc *sc, struct sdmmc_function *sf,
1.4   nonaka     uint32_t scr[2])
1.4   nonaka {
1.4   nonaka 	struct sdmmc_command cmd;
1.4   nonaka 	bus_dma_segment_t ds[1];
1.4   nonaka 	void *ptr = NULL;
1.4   nonaka 	int datalen = 8;
1.4   nonaka 	int rseg;
1.4   nonaka 	int error = 0;
1.4   nonaka
1.4   nonaka 	/* Don't lock */
1.4   nonaka
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_DMA)) {
1.4   nonaka 		error = bus_dmamem_alloc(sc->sc_dmat, datalen, PAGE_SIZE, 0,
1.4   nonaka 		    ds, 1, &rseg, BUS_DMA_NOWAIT);
1.4   nonaka 		if (error)
1.4   nonaka 			goto out;
1.4   nonaka 		error = bus_dmamem_map(sc->sc_dmat, ds, 1, datalen, &ptr,
1.4   nonaka 		    BUS_DMA_NOWAIT);
1.4   nonaka 		if (error)
1.4   nonaka 			goto dmamem_free;
1.4   nonaka 		error = bus_dmamap_load(sc->sc_dmat, sc->sc_dmap, ptr, datalen,
1.4   nonaka 		    NULL, BUS_DMA_NOWAIT|BUS_DMA_STREAMING|BUS_DMA_READ);
1.4   nonaka 		if (error)
1.4   nonaka 			goto dmamem_unmap;
1.4   nonaka
1.4   nonaka 		bus_dmamap_sync(sc->sc_dmat, sc->sc_dmap, 0, datalen,
1.4   nonaka 		    BUS_DMASYNC_PREREAD);
1.4   nonaka 	} else {
1.4   nonaka 		ptr = malloc(datalen, M_DEVBUF, M_NOWAIT | M_ZERO);
1.4   nonaka 		if (ptr == NULL)
1.4   nonaka 			goto out;
1.4   nonaka 	}
1.4   nonaka
1.4   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.4   nonaka 	cmd.c_data = ptr;
1.4   nonaka 	cmd.c_datalen = datalen;
1.4   nonaka 	cmd.c_blklen = datalen;
1.4   nonaka 	cmd.c_arg = 0;
1.4   nonaka 	cmd.c_flags = SCF_CMD_ADTC | SCF_CMD_READ | SCF_RSP_R1 | SCF_RSP_SPI_R1;
1.4   nonaka 	cmd.c_opcode = SD_APP_SEND_SCR;
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_DMA))
1.4   nonaka 		cmd.c_dmamap = sc->sc_dmap;
1.4   nonaka
1.4   nonaka 	error = sdmmc_app_command(sc, sf, &cmd);
1.4   nonaka 	if (error == 0) {
1.4   nonaka 		memcpy(scr, ptr, datalen);
1.4   nonaka 		if (ISSET(sc->sc_caps, SMC_CAPS_DMA)) {
1.4   nonaka 			bus_dmamap_sync(sc->sc_dmat, sc->sc_dmap, 0, datalen,
1.4   nonaka 			    BUS_DMASYNC_POSTREAD);
1.4   nonaka 		}
1.4   nonaka 	}
1.4   nonaka
1.4   nonaka out:
1.4   nonaka 	if (ptr != NULL) {
1.4   nonaka 		if (ISSET(sc->sc_caps, SMC_CAPS_DMA)) {
1.4   nonaka 			bus_dmamap_unload(sc->sc_dmat, sc->sc_dmap);
1.4   nonaka dmamem_unmap:
1.4   nonaka 			bus_dmamem_unmap(sc->sc_dmat, ptr, datalen);
1.4   nonaka dmamem_free:
1.4   nonaka 			bus_dmamem_free(sc->sc_dmat, ds, rseg);
1.4   nonaka 		} else {
1.4   nonaka 			free(ptr, M_DEVBUF);
1.4   nonaka 		}
1.4   nonaka 	}
1.4   nonaka 	DPRINTF(("%s: sdmem_mem_send_scr: error = %d\n", SDMMCDEVNAME(sc),
1.4   nonaka 	    error));
1.4   nonaka 	if (error)
1.4   nonaka 		return error;
1.4   nonaka #ifdef SDMMC_DEBUG
1.4   nonaka 	sdmmc_dump_data("SCR", scr, 8);
1.4   nonaka #endif
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.4   nonaka static int
1.4   nonaka sdmmc_mem_decode_scr(struct sdmmc_softc *sc, struct sdmmc_function *sf)
1.4   nonaka {
1.4   nonaka 	sdmmc_response resp;
1.4   nonaka 	int ver;
1.4   nonaka
1.4   nonaka 	memset(resp, 0, sizeof(resp));
1.4   nonaka 	resp[0] = sf->raw_scr[1];
1.4   nonaka 	resp[1] = sf->raw_scr[0];
1.4   nonaka
1.4   nonaka 	ver = SCR_STRUCTURE(resp);
1.4   nonaka 	sf->scr.sd_spec = SCR_SD_SPEC(resp);
1.4   nonaka 	sf->scr.bus_width = SCR_SD_BUS_WIDTHS(resp);
1.4   nonaka
1.4   nonaka 	DPRINTF(("%s: sdmmc_mem_decode_scr: spec=%d, bus width=%d\n",
1.4   nonaka 	    SDMMCDEVNAME(sc), sf->scr.sd_spec, sf->scr.bus_width));
1.4   nonaka
1.4   nonaka 	if (ver != 0) {
1.4   nonaka 		DPRINTF(("%s: unknown structure version: %d\n",
1.4   nonaka 		    SDMMCDEVNAME(sc), ver));
1.4   nonaka 		return EINVAL;
1.4   nonaka 	}
1.4   nonaka 	return 0;
1.4   nonaka }
1.4   nonaka
1.4   nonaka static int
1.4   nonaka sdmmc_mem_send_cxd_data(struct sdmmc_softc *sc, int opcode, void *data,
1.4   nonaka     size_t datalen)
1.4   nonaka {
1.4   nonaka 	struct sdmmc_command cmd;
1.4   nonaka 	bus_dma_segment_t ds[1];
1.4   nonaka 	void *ptr = NULL;
1.4   nonaka 	int rseg;
1.4   nonaka 	int error = 0;
1.4   nonaka
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_DMA)) {
1.4   nonaka 		error = bus_dmamem_alloc(sc->sc_dmat, datalen, PAGE_SIZE, 0, ds,
1.4   nonaka 		    1, &rseg, BUS_DMA_NOWAIT);
1.4   nonaka 		if (error)
1.4   nonaka 			goto out;
1.4   nonaka 		error = bus_dmamem_map(sc->sc_dmat, ds, 1, datalen, &ptr,
1.4   nonaka 		    BUS_DMA_NOWAIT);
1.4   nonaka 		if (error)
1.4   nonaka 			goto dmamem_free;
1.4   nonaka 		error = bus_dmamap_load(sc->sc_dmat, sc->sc_dmap, ptr, datalen,
1.4   nonaka 		    NULL, BUS_DMA_NOWAIT|BUS_DMA_STREAMING|BUS_DMA_READ);
1.4   nonaka 		if (error)
1.4   nonaka 			goto dmamem_unmap;
1.4   nonaka
1.4   nonaka 		bus_dmamap_sync(sc->sc_dmat, sc->sc_dmap, 0, datalen,
1.4   nonaka 		    BUS_DMASYNC_PREREAD);
1.4   nonaka 	} else {
1.4   nonaka 		ptr = malloc(datalen, M_DEVBUF, M_NOWAIT | M_ZERO);
1.4   nonaka 		if (ptr == NULL)
1.4   nonaka 			goto out;
1.4   nonaka 	}
1.4   nonaka
1.4   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.4   nonaka 	cmd.c_data = ptr;
1.4   nonaka 	cmd.c_datalen = datalen;
1.4   nonaka 	cmd.c_blklen = datalen;
1.4   nonaka 	cmd.c_opcode = opcode;
1.4   nonaka 	cmd.c_arg = 0;
1.4   nonaka 	cmd.c_flags = SCF_CMD_ADTC | SCF_CMD_READ | SCF_RSP_SPI_R1;
1.4   nonaka 	if (opcode == MMC_SEND_EXT_CSD)
1.4   nonaka 		SET(cmd.c_flags, SCF_RSP_R1);
1.4   nonaka 	else
1.4   nonaka 		SET(cmd.c_flags, SCF_RSP_R2);
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_DMA))
1.4   nonaka 		cmd.c_dmamap = sc->sc_dmap;
1.4   nonaka
1.4   nonaka 	error = sdmmc_mmc_command(sc, &cmd);
1.4   nonaka 	if (error == 0) {
1.4   nonaka 		memcpy(data, ptr, datalen);
1.4   nonaka 		if (ISSET(sc->sc_caps, SMC_CAPS_DMA)) {
1.4   nonaka 			bus_dmamap_sync(sc->sc_dmat, sc->sc_dmap, 0, datalen,
1.4   nonaka 			    BUS_DMASYNC_POSTREAD);
1.4   nonaka 		}
1.4   nonaka 	}
1.4   nonaka
1.4   nonaka out:
1.4   nonaka 	if (ptr != NULL) {
1.4   nonaka 		if (ISSET(sc->sc_caps, SMC_CAPS_DMA)) {
1.4   nonaka 			bus_dmamap_unload(sc->sc_dmat, sc->sc_dmap);
1.4   nonaka dmamem_unmap:
1.4   nonaka 			bus_dmamem_unmap(sc->sc_dmat, ptr, datalen);
1.4   nonaka dmamem_free:
1.4   nonaka 			bus_dmamem_free(sc->sc_dmat, ds, rseg);
1.4   nonaka 		} else {
1.4   nonaka 			free(ptr, M_DEVBUF);
1.4   nonaka 		}
1.4   nonaka 	}
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.4   nonaka int
1.4   nonaka sdmmc_mem_send_extcsd(struct sdmmc_softc *sc)
1.4   nonaka {
1.4   nonaka 	char buf[512];
1.4   nonaka 	int error;
1.4   nonaka
1.4   nonaka 	error = sdmmc_mem_send_cxd_data(sc, MMC_SEND_EXT_CSD, buf, 512);
1.4   nonaka
1.4   nonaka 	/*XXX*/
1.4   nonaka
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.4   nonaka static int
1.4   nonaka sdmmc_set_bus_width(struct sdmmc_function *sf, int width)
1.4   nonaka {
1.4   nonaka 	struct sdmmc_softc *sc = sf->sc;
1.4   nonaka 	struct sdmmc_command cmd;
1.4   nonaka 	int error;
1.4   nonaka
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE))
1.4   nonaka 		return ENODEV;
1.4   nonaka
1.4   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.4   nonaka 	cmd.c_opcode = SD_APP_SET_BUS_WIDTH;
1.4   nonaka 	cmd.c_flags = SCF_RSP_R1 | SCF_CMD_AC;
1.4   nonaka
1.4   nonaka 	switch (width) {
1.4   nonaka 	case 1:
1.4   nonaka 		cmd.c_arg = SD_ARG_BUS_WIDTH_1;
1.4   nonaka 		break;
1.4   nonaka
1.4   nonaka 	case 4:
1.4   nonaka 		cmd.c_arg = SD_ARG_BUS_WIDTH_4;
1.4   nonaka 		break;
1.4   nonaka
1.4   nonaka 	default:
1.4   nonaka 		return EINVAL;
1.4   nonaka 	}
1.4   nonaka
1.4   nonaka 	error = sdmmc_app_command(sc, sf, &cmd);
1.4   nonaka 	if (error == 0)
1.4   nonaka 		error = sdmmc_chip_bus_width(sc->sc_sct, sc->sc_sch, width);
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.4   nonaka #if 0
1.4   nonaka static int
1.4   nonaka sdmmc_mem_mmc_switch(struct sdmmc_function *sf, uint8_t set, uint8_t index,
1.4   nonaka     uint8_t value)
1.4   nonaka {
1.4   nonaka 	struct sdmmc_softc *sc = sf->sc;
1.4   nonaka 	struct sdmmc_command cmd;
1.4   nonaka
1.4   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.4   nonaka 	cmd.c_opcode = MMC_SWITCH;
1.4   nonaka 	cmd.c_arg = (MMC_SWITCH_MODE_WRITE_BYTE << 24) |
1.4   nonaka 	    (index << 16) | (value << 8) | set;
1.4   nonaka 	cmd.c_flags = SCF_RSP_SPI_R1B | SCF_RSP_R1B | SCF_CMD_AC;
1.4   nonaka
1.4   nonaka 	return sdmmc_mmc_command(sc, &cmd);
1.4   nonaka }
1.4   nonaka #endif
1.4   nonaka
1.4   nonaka /*
1.4   nonaka  * SPI mode function
1.4   nonaka  */
1.4   nonaka static int
1.4   nonaka sdmmc_mem_spi_read_ocr(struct sdmmc_softc *sc, uint32_t hcs, uint32_t *card_ocr)
1.4   nonaka {
1.4   nonaka 	struct sdmmc_command cmd;
1.4   nonaka 	int error;
1.4   nonaka
1.4   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.4   nonaka 	cmd.c_opcode = MMC_READ_OCR;
1.4   nonaka 	cmd.c_arg = hcs ? MMC_OCR_HCS : 0;
1.4   nonaka 	cmd.c_flags = SCF_RSP_SPI_R3;
1.4   nonaka
1.4   nonaka 	error = sdmmc_mmc_command(sc, &cmd);
1.4   nonaka 	if (error == 0 && card_ocr != NULL)
1.4   nonaka 		*card_ocr = cmd.c_resp[1];
1.4   nonaka 	DPRINTF(("%s: sdmmc_mem_spi_read_ocr: error=%d, ocr=%#x\n",
1.4   nonaka 	    SDMMCDEVNAME(sc), error, cmd.c_resp[1]));
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.4   nonaka /*
1.4   nonaka  * read/write function
1.4   nonaka  */
1.4   nonaka /* read */
1.4   nonaka static int
1.4   nonaka sdmmc_mem_single_read_block(struct sdmmc_function *sf, uint32_t blkno,
1.4   nonaka     u_char *data, size_t datalen)
1.4   nonaka {
1.4   nonaka 	int error = 0;
1.4   nonaka 	int i;
1.4   nonaka
1.4   nonaka 	KASSERT((datalen % SDMMC_SECTOR_SIZE) == 0);
1.4   nonaka
1.4   nonaka 	for (i = 0; i < datalen / SDMMC_SECTOR_SIZE; i++) {
1.4   nonaka 		error = sdmmc_mem_read_block_subr(sf, blkno + i,
1.4   nonaka 		    data + i * SDMMC_SECTOR_SIZE, SDMMC_SECTOR_SIZE);
1.4   nonaka 		if (error)
1.4   nonaka 			break;
1.4   nonaka 	}
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.4   nonaka static int
1.1   nonaka sdmmc_mem_read_block_subr(struct sdmmc_function *sf, uint32_t blkno,
1.1   nonaka     u_char *data, size_t datalen)
1.1   nonaka {
1.1   nonaka 	struct sdmmc_softc *sc = sf->sc;
1.1   nonaka 	struct sdmmc_command cmd;
1.1   nonaka 	int error;
1.1   nonaka
1.4   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 		error = sdmmc_select_card(sc, sf);
1.4   nonaka 		if (error)
1.4   nonaka 			goto out;
1.4   nonaka 	}
1.1   nonaka
1.1   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.1   nonaka 	cmd.c_data = data;
1.1   nonaka 	cmd.c_datalen = datalen;
1.3   nonaka 	cmd.c_blklen = SDMMC_SECTOR_SIZE;
1.1   nonaka 	cmd.c_opcode = (cmd.c_datalen / cmd.c_blklen) > 1 ?
1.1   nonaka 	    MMC_READ_BLOCK_MULTIPLE : MMC_READ_BLOCK_SINGLE;
1.1   nonaka 	cmd.c_arg = blkno;
1.1   nonaka 	if (!ISSET(sf->flags, SFF_SDHC))
1.3   nonaka 		cmd.c_arg <<= SDMMC_SECTOR_SIZE_SB;
1.4   nonaka 	cmd.c_flags = SCF_CMD_ADTC | SCF_CMD_READ | SCF_RSP_R1 | SCF_RSP_SPI_R1;
1.1   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_DMA))
1.1   nonaka 		cmd.c_dmamap = sc->sc_dmap;
1.1   nonaka
1.1   nonaka 	error = sdmmc_mmc_command(sc, &cmd);
1.1   nonaka 	if (error)
1.1   nonaka 		goto out;
1.1   nonaka
1.1   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_AUTO_STOP)) {
1.1   nonaka 		if (cmd.c_opcode == MMC_READ_BLOCK_MULTIPLE) {
1.1   nonaka 			memset(&cmd, 0, sizeof cmd);
1.1   nonaka 			cmd.c_opcode = MMC_STOP_TRANSMISSION;
1.1   nonaka 			cmd.c_arg = MMC_ARG_RCA(sf->rca);
1.4   nonaka 			cmd.c_flags = SCF_CMD_AC | SCF_RSP_R1B | SCF_RSP_SPI_R1B;
1.1   nonaka 			error = sdmmc_mmc_command(sc, &cmd);
1.1   nonaka 			if (error)
1.1   nonaka 				goto out;
1.1   nonaka 		}
1.1   nonaka 	}
1.1   nonaka
1.4   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 		do {
1.4   nonaka 			memset(&cmd, 0, sizeof(cmd));
1.4   nonaka 			cmd.c_opcode = MMC_SEND_STATUS;
1.4   nonaka 			if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE))
1.4   nonaka 				cmd.c_arg = MMC_ARG_RCA(sf->rca);
1.4   nonaka 			cmd.c_flags = SCF_CMD_AC | SCF_RSP_R1 | SCF_RSP_SPI_R2;
1.4   nonaka 			error = sdmmc_mmc_command(sc, &cmd);
1.4   nonaka 			if (error)
1.4   nonaka 				break;
1.4   nonaka 			/* XXX time out */
1.4   nonaka 		} while (!ISSET(MMC_R1(cmd.c_resp), MMC_R1_READY_FOR_DATA));
1.4   nonaka 	}
1.1   nonaka
1.1   nonaka out:
1.1   nonaka 	return error;
1.1   nonaka }
1.1   nonaka
1.1   nonaka int
1.1   nonaka sdmmc_mem_read_block(struct sdmmc_function *sf, uint32_t blkno, u_char *data,
1.1   nonaka     size_t datalen)
1.1   nonaka {
1.1   nonaka 	struct sdmmc_softc *sc = sf->sc;
1.1   nonaka 	int error;
1.1   nonaka
1.1   nonaka 	SDMMC_LOCK(sc);
1.1   nonaka
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_SINGLE_ONLY)) {
1.4   nonaka 		error = sdmmc_mem_single_read_block(sf, blkno, data, datalen);
1.4   nonaka 		goto out;
1.4   nonaka 	}
1.4   nonaka
1.1   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_DMA)) {
1.1   nonaka 		error = sdmmc_mem_read_block_subr(sf, blkno, data, datalen);
1.1   nonaka 		goto out;
1.1   nonaka 	}
1.1   nonaka
1.1   nonaka 	/* DMA transfer */
1.1   nonaka 	error = bus_dmamap_load(sc->sc_dmat, sc->sc_dmap, data, datalen, NULL,
1.4   nonaka 	    BUS_DMA_NOWAIT|BUS_DMA_READ);
1.1   nonaka 	if (error)
1.1   nonaka 		goto out;
1.1   nonaka
1.4   nonaka #ifdef SDMMC_DEBUG
1.4   nonaka 	for (int i = 0; i < sc->sc_dmap->dm_nsegs; i++) {
1.4   nonaka 		printf("seg#%d: addr=%#lx, size=%#lx\n", i,
1.4   nonaka 		    (u_long)sc->sc_dmap->dm_segs[i].ds_addr,
1.4   nonaka 		    (u_long)sc->sc_dmap->dm_segs[i].ds_len);
1.4   nonaka 	}
1.4   nonaka #endif
1.4   nonaka
1.1   nonaka 	bus_dmamap_sync(sc->sc_dmat, sc->sc_dmap, 0, datalen,
1.1   nonaka 	    BUS_DMASYNC_PREREAD);
1.1   nonaka
1.1   nonaka 	error = sdmmc_mem_read_block_subr(sf, blkno, data, datalen);
1.1   nonaka 	if (error)
1.1   nonaka 		goto unload;
1.1   nonaka
1.1   nonaka 	bus_dmamap_sync(sc->sc_dmat, sc->sc_dmap, 0, datalen,
1.1   nonaka 	    BUS_DMASYNC_POSTREAD);
1.1   nonaka unload:
1.1   nonaka 	bus_dmamap_unload(sc->sc_dmat, sc->sc_dmap);
1.1   nonaka
1.1   nonaka out:
1.1   nonaka 	SDMMC_UNLOCK(sc);
1.1   nonaka
1.1   nonaka 	return error;
1.1   nonaka }
1.1   nonaka
1.4   nonaka /* write */
1.4   nonaka static int
1.4   nonaka sdmmc_mem_single_write_block(struct sdmmc_function *sf, uint32_t blkno,
1.4   nonaka     u_char *data, size_t datalen)
1.4   nonaka {
1.4   nonaka 	int error = 0;
1.4   nonaka 	int i;
1.4   nonaka
1.4   nonaka 	KASSERT((datalen % SDMMC_SECTOR_SIZE) == 0);
1.4   nonaka
1.4   nonaka 	for (i = 0; i < datalen / SDMMC_SECTOR_SIZE; i++) {
1.4   nonaka 		error = sdmmc_mem_write_block_subr(sf, blkno + i,
1.4   nonaka 		    data + i * SDMMC_SECTOR_SIZE, SDMMC_SECTOR_SIZE);
1.4   nonaka 		if (error)
1.4   nonaka 			break;
1.4   nonaka 	}
1.4   nonaka 	return error;
1.4   nonaka }
1.4   nonaka
1.1   nonaka static int
1.1   nonaka sdmmc_mem_write_block_subr(struct sdmmc_function *sf, uint32_t blkno,
1.1   nonaka     u_char *data, size_t datalen)
1.1   nonaka {
1.1   nonaka 	struct sdmmc_softc *sc = sf->sc;
1.1   nonaka 	struct sdmmc_command cmd;
1.1   nonaka 	int error;
1.1   nonaka
1.4   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 		error = sdmmc_select_card(sc, sf);
1.4   nonaka 		if (error)
1.4   nonaka 			goto out;
1.4   nonaka 	}
1.1   nonaka
1.1   nonaka 	memset(&cmd, 0, sizeof(cmd));
1.1   nonaka 	cmd.c_data = data;
1.1   nonaka 	cmd.c_datalen = datalen;
1.3   nonaka 	cmd.c_blklen = SDMMC_SECTOR_SIZE;
1.1   nonaka 	cmd.c_opcode = (cmd.c_datalen / cmd.c_blklen) > 1 ?
1.1   nonaka 	    MMC_WRITE_BLOCK_MULTIPLE : MMC_WRITE_BLOCK_SINGLE;
1.1   nonaka 	cmd.c_arg = blkno;
1.1   nonaka 	if (!ISSET(sf->flags, SFF_SDHC))
1.3   nonaka 		cmd.c_arg <<= SDMMC_SECTOR_SIZE_SB;
1.1   nonaka 	cmd.c_flags = SCF_CMD_ADTC | SCF_RSP_R1;
1.1   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_DMA))
1.1   nonaka 		cmd.c_dmamap = sc->sc_dmap;
1.1   nonaka
1.1   nonaka 	error = sdmmc_mmc_command(sc, &cmd);
1.1   nonaka 	if (error)
1.1   nonaka 		goto out;
1.1   nonaka
1.1   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_AUTO_STOP)) {
1.1   nonaka 		if (cmd.c_opcode == MMC_WRITE_BLOCK_MULTIPLE) {
1.1   nonaka 			memset(&cmd, 0, sizeof(cmd));
1.1   nonaka 			cmd.c_opcode = MMC_STOP_TRANSMISSION;
1.4   nonaka 			cmd.c_flags = SCF_CMD_AC | SCF_RSP_R1B | SCF_RSP_SPI_R1B;
1.1   nonaka 			error = sdmmc_mmc_command(sc, &cmd);
1.1   nonaka 			if (error)
1.1   nonaka 				goto out;
1.1   nonaka 		}
1.1   nonaka 	}
1.1   nonaka
1.4   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE)) {
1.4   nonaka 		do {
1.4   nonaka 			memset(&cmd, 0, sizeof(cmd));
1.4   nonaka 			cmd.c_opcode = MMC_SEND_STATUS;
1.4   nonaka 			if (!ISSET(sc->sc_caps, SMC_CAPS_SPI_MODE))
1.4   nonaka 				cmd.c_arg = MMC_ARG_RCA(sf->rca);
1.4   nonaka 			cmd.c_flags = SCF_CMD_AC | SCF_RSP_R1 | SCF_RSP_SPI_R2;
1.4   nonaka 			error = sdmmc_mmc_command(sc, &cmd);
1.4   nonaka 			if (error)
1.4   nonaka 				break;
1.4   nonaka 			/* XXX time out */
1.4   nonaka 		} while (!ISSET(MMC_R1(cmd.c_resp), MMC_R1_READY_FOR_DATA));
1.4   nonaka 	}
1.1   nonaka
1.1   nonaka out:
1.1   nonaka 	return error;
1.1   nonaka }
1.1   nonaka
1.1   nonaka int
1.1   nonaka sdmmc_mem_write_block(struct sdmmc_function *sf, uint32_t blkno, u_char *data,
1.1   nonaka     size_t datalen)
1.1   nonaka {
1.1   nonaka 	struct sdmmc_softc *sc = sf->sc;
1.1   nonaka 	int error;
1.1   nonaka
1.1   nonaka 	SDMMC_LOCK(sc);
1.1   nonaka
1.1   nonaka 	if (sdmmc_chip_write_protect(sc->sc_sct, sc->sc_sch)) {
1.1   nonaka 		aprint_normal_dev(sc->sc_dev, "write-protected\n");
1.1   nonaka 		error = EIO;
1.1   nonaka 		goto out;
1.1   nonaka 	}
1.1   nonaka
1.4   nonaka 	if (ISSET(sc->sc_caps, SMC_CAPS_SINGLE_ONLY)) {
1.4   nonaka 		error = sdmmc_mem_single_write_block(sf, blkno, data, datalen);
1.4   nonaka 		goto out;
1.4   nonaka 	}
1.4   nonaka
1.1   nonaka 	if (!ISSET(sc->sc_caps, SMC_CAPS_DMA)) {
1.1   nonaka 		error = sdmmc_mem_write_block_subr(sf, blkno, data, datalen);
1.1   nonaka 		goto out;
1.1   nonaka 	}
1.1   nonaka
1.1   nonaka 	/* DMA transfer */
1.1   nonaka 	error = bus_dmamap_load(sc->sc_dmat, sc->sc_dmap, data, datalen, NULL,
1.4   nonaka 	    BUS_DMA_NOWAIT|BUS_DMA_WRITE);
1.1   nonaka 	if (error)
1.1   nonaka 		goto out;
1.1   nonaka
1.4   nonaka #ifdef SDMMC_DEBUG
1.4   nonaka 	for (int i = 0; i < sc->sc_dmap->dm_nsegs; i++) {
1.4   nonaka 		printf("seg#%d: addr=%#lx, size=%#lx\n", i,
1.4   nonaka 		    (u_long)sc->sc_dmap->dm_segs[i].ds_addr,
1.4   nonaka 		    (u_long)sc->sc_dmap->dm_segs[i].ds_len);
1.4   nonaka 	}
1.4   nonaka #endif
1.4   nonaka
1.1   nonaka 	bus_dmamap_sync(sc->sc_dmat, sc->sc_dmap, 0, datalen,
1.1   nonaka 	    BUS_DMASYNC_PREWRITE);
1.1   nonaka
1.1   nonaka 	error = sdmmc_mem_write_block_subr(sf, blkno, data, datalen);
1.1   nonaka 	if (error)
1.1   nonaka 		goto unload;
1.1   nonaka
1.1   nonaka 	bus_dmamap_sync(sc->sc_dmat, sc->sc_dmap, 0, datalen,
1.1   nonaka 	    BUS_DMASYNC_POSTWRITE);
1.1   nonaka unload:
1.1   nonaka 	bus_dmamap_unload(sc->sc_dmat, sc->sc_dmap);
1.1   nonaka
1.1   nonaka out:
1.1   nonaka 	SDMMC_UNLOCK(sc);
1.1   nonaka
1.1   nonaka 	return error;
1.1   nonaka }