core.c 65.6 KB
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/*
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 *  linux/drivers/mmc/core/core.c
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 *
 *  Copyright (C) 2003-2004 Russell King, All Rights Reserved.
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 *  SD support Copyright (C) 2004 Ian Molton, All Rights Reserved.
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 *  Copyright (C) 2005-2008 Pierre Ossman, All Rights Reserved.
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 *  MMCv4 support Copyright (C) 2006 Philip Langdale, All Rights Reserved.
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 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 */
#include <linux/module.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/completion.h>
#include <linux/device.h>
#include <linux/delay.h>
#include <linux/pagemap.h>
#include <linux/err.h>
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#include <linux/leds.h>
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#include <linux/scatterlist.h>
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#include <linux/log2.h>
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#include <linux/regulator/consumer.h>
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#include <linux/pm_runtime.h>
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#include <linux/pm_wakeup.h>
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#include <linux/suspend.h>
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#include <linux/fault-inject.h>
#include <linux/random.h>
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#include <linux/slab.h>
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#include <linux/of.h>
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#include <linux/mmc/card.h>
#include <linux/mmc/host.h>
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#include <linux/mmc/mmc.h>
#include <linux/mmc/sd.h>
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#include <linux/mmc/slot-gpio.h>
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#include "core.h"
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#include "bus.h"
#include "host.h"
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#include "sdio_bus.h"
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#include "mmc_ops.h"
#include "sd_ops.h"
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#include "sdio_ops.h"
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/* If the device is not responding */
#define MMC_CORE_TIMEOUT_MS	(10 * 60 * 1000) /* 10 minute timeout */

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/*
 * Background operations can take a long time, depending on the housekeeping
 * operations the card has to perform.
 */
#define MMC_BKOPS_MAX_TIMEOUT	(4 * 60 * 1000) /* max time to wait in ms */

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static struct workqueue_struct *workqueue;
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static const unsigned freqs[] = { 400000, 300000, 200000, 100000 };
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/*
 * Enabling software CRCs on the data blocks can be a significant (30%)
 * performance cost, and for other reasons may not always be desired.
 * So we allow it it to be disabled.
 */
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bool use_spi_crc = 1;
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module_param(use_spi_crc, bool, 0);

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/*
 * Internal function. Schedule delayed work in the MMC work queue.
 */
static int mmc_schedule_delayed_work(struct delayed_work *work,
				     unsigned long delay)
{
	return queue_delayed_work(workqueue, work, delay);
}

/*
 * Internal function. Flush all scheduled work from the MMC work queue.
 */
static void mmc_flush_scheduled_work(void)
{
	flush_workqueue(workqueue);
}

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#ifdef CONFIG_FAIL_MMC_REQUEST

/*
 * Internal function. Inject random data errors.
 * If mmc_data is NULL no errors are injected.
 */
static void mmc_should_fail_request(struct mmc_host *host,
				    struct mmc_request *mrq)
{
	struct mmc_command *cmd = mrq->cmd;
	struct mmc_data *data = mrq->data;
	static const int data_errors[] = {
		-ETIMEDOUT,
		-EILSEQ,
		-EIO,
	};

	if (!data)
		return;

	if (cmd->error || data->error ||
	    !should_fail(&host->fail_mmc_request, data->blksz * data->blocks))
		return;

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	data->error = data_errors[prandom_u32() % ARRAY_SIZE(data_errors)];
	data->bytes_xfered = (prandom_u32() % (data->bytes_xfered >> 9)) << 9;
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}

#else /* CONFIG_FAIL_MMC_REQUEST */

static inline void mmc_should_fail_request(struct mmc_host *host,
					   struct mmc_request *mrq)
{
}

#endif /* CONFIG_FAIL_MMC_REQUEST */

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/**
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 *	mmc_request_done - finish processing an MMC request
 *	@host: MMC host which completed request
 *	@mrq: MMC request which request
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 *
 *	MMC drivers should call this function when they have completed
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 *	their processing of a request.
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 */
void mmc_request_done(struct mmc_host *host, struct mmc_request *mrq)
{
	struct mmc_command *cmd = mrq->cmd;
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	int err = cmd->error;

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	if (err && cmd->retries && mmc_host_is_spi(host)) {
		if (cmd->resp[0] & R1_SPI_ILLEGAL_COMMAND)
			cmd->retries = 0;
	}

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	if (err && cmd->retries && !mmc_card_removed(host->card)) {
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		/*
		 * Request starter must handle retries - see
		 * mmc_wait_for_req_done().
		 */
		if (mrq->done)
			mrq->done(mrq);
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	} else {
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		mmc_should_fail_request(host, mrq);

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		led_trigger_event(host->led, LED_OFF);

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		if (mrq->sbc) {
			pr_debug("%s: req done <CMD%u>: %d: %08x %08x %08x %08x\n",
				mmc_hostname(host), mrq->sbc->opcode,
				mrq->sbc->error,
				mrq->sbc->resp[0], mrq->sbc->resp[1],
				mrq->sbc->resp[2], mrq->sbc->resp[3]);
		}

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		pr_debug("%s: req done (CMD%u): %d: %08x %08x %08x %08x\n",
			mmc_hostname(host), cmd->opcode, err,
			cmd->resp[0], cmd->resp[1],
			cmd->resp[2], cmd->resp[3]);

		if (mrq->data) {
			pr_debug("%s:     %d bytes transferred: %d\n",
				mmc_hostname(host),
				mrq->data->bytes_xfered, mrq->data->error);
		}

		if (mrq->stop) {
			pr_debug("%s:     (CMD%u): %d: %08x %08x %08x %08x\n",
				mmc_hostname(host), mrq->stop->opcode,
				mrq->stop->error,
				mrq->stop->resp[0], mrq->stop->resp[1],
				mrq->stop->resp[2], mrq->stop->resp[3]);
		}

		if (mrq->done)
			mrq->done(mrq);
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		mmc_host_clk_release(host);
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	}
}

EXPORT_SYMBOL(mmc_request_done);

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static void
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mmc_start_request(struct mmc_host *host, struct mmc_request *mrq)
{
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#ifdef CONFIG_MMC_DEBUG
	unsigned int i, sz;
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	struct scatterlist *sg;
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#endif

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	if (mrq->sbc) {
		pr_debug("<%s: starting CMD%u arg %08x flags %08x>\n",
			 mmc_hostname(host), mrq->sbc->opcode,
			 mrq->sbc->arg, mrq->sbc->flags);
	}

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	pr_debug("%s: starting CMD%u arg %08x flags %08x\n",
		 mmc_hostname(host), mrq->cmd->opcode,
		 mrq->cmd->arg, mrq->cmd->flags);
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	if (mrq->data) {
		pr_debug("%s:     blksz %d blocks %d flags %08x "
			"tsac %d ms nsac %d\n",
			mmc_hostname(host), mrq->data->blksz,
			mrq->data->blocks, mrq->data->flags,
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			mrq->data->timeout_ns / 1000000,
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			mrq->data->timeout_clks);
	}

	if (mrq->stop) {
		pr_debug("%s:     CMD%u arg %08x flags %08x\n",
			 mmc_hostname(host), mrq->stop->opcode,
			 mrq->stop->arg, mrq->stop->flags);
	}

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	WARN_ON(!host->claimed);
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	mrq->cmd->error = 0;
	mrq->cmd->mrq = mrq;
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	if (mrq->sbc) {
		mrq->sbc->error = 0;
		mrq->sbc->mrq = mrq;
	}
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	if (mrq->data) {
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		BUG_ON(mrq->data->blksz > host->max_blk_size);
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		BUG_ON(mrq->data->blocks > host->max_blk_count);
		BUG_ON(mrq->data->blocks * mrq->data->blksz >
			host->max_req_size);
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#ifdef CONFIG_MMC_DEBUG
		sz = 0;
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		for_each_sg(mrq->data->sg, sg, mrq->data->sg_len, i)
			sz += sg->length;
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		BUG_ON(sz != mrq->data->blocks * mrq->data->blksz);
#endif

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		mrq->cmd->data = mrq->data;
		mrq->data->error = 0;
		mrq->data->mrq = mrq;
		if (mrq->stop) {
			mrq->data->stop = mrq->stop;
			mrq->stop->error = 0;
			mrq->stop->mrq = mrq;
		}
	}
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	mmc_host_clk_hold(host);
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	led_trigger_event(host->led, LED_FULL);
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	host->ops->request(host, mrq);
}

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/**
 *	mmc_start_bkops - start BKOPS for supported cards
 *	@card: MMC card to start BKOPS
 *	@form_exception: A flag to indicate if this function was
 *			 called due to an exception raised by the card
 *
 *	Start background operations whenever requested.
 *	When the urgent BKOPS bit is set in a R1 command response
 *	then background operations should be started immediately.
*/
void mmc_start_bkops(struct mmc_card *card, bool from_exception)
{
	int err;
	int timeout;
	bool use_busy_signal;

	BUG_ON(!card);

	if (!card->ext_csd.bkops_en || mmc_card_doing_bkops(card))
		return;

	err = mmc_read_bkops_status(card);
	if (err) {
		pr_err("%s: Failed to read bkops status: %d\n",
		       mmc_hostname(card->host), err);
		return;
	}

	if (!card->ext_csd.raw_bkops_status)
		return;

	if (card->ext_csd.raw_bkops_status < EXT_CSD_BKOPS_LEVEL_2 &&
	    from_exception)
		return;

	mmc_claim_host(card->host);
	if (card->ext_csd.raw_bkops_status >= EXT_CSD_BKOPS_LEVEL_2) {
		timeout = MMC_BKOPS_MAX_TIMEOUT;
		use_busy_signal = true;
	} else {
		timeout = 0;
		use_busy_signal = false;
	}

	err = __mmc_switch(card, EXT_CSD_CMD_SET_NORMAL,
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			EXT_CSD_BKOPS_START, 1, timeout,
			use_busy_signal, true, false);
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	if (err) {
		pr_warn("%s: Error %d starting bkops\n",
			mmc_hostname(card->host), err);
		goto out;
	}

	/*
	 * For urgent bkops status (LEVEL_2 and more)
	 * bkops executed synchronously, otherwise
	 * the operation is in progress
	 */
	if (!use_busy_signal)
		mmc_card_set_doing_bkops(card);
out:
	mmc_release_host(card->host);
}
EXPORT_SYMBOL(mmc_start_bkops);

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/*
 * mmc_wait_data_done() - done callback for data request
 * @mrq: done data request
 *
 * Wakes up mmc context, passed as a callback to host controller driver
 */
static void mmc_wait_data_done(struct mmc_request *mrq)
{
	mrq->host->context_info.is_done_rcv = true;
	wake_up_interruptible(&mrq->host->context_info.wait);
}

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static void mmc_wait_done(struct mmc_request *mrq)
{
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	complete(&mrq->completion);
}

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/*
 *__mmc_start_data_req() - starts data request
 * @host: MMC host to start the request
 * @mrq: data request to start
 *
 * Sets the done callback to be called when request is completed by the card.
 * Starts data mmc request execution
 */
static int __mmc_start_data_req(struct mmc_host *host, struct mmc_request *mrq)
{
	mrq->done = mmc_wait_data_done;
	mrq->host = host;
	if (mmc_card_removed(host->card)) {
		mrq->cmd->error = -ENOMEDIUM;
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		mmc_wait_data_done(mrq);
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		return -ENOMEDIUM;
	}
	mmc_start_request(host, mrq);

	return 0;
}

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static int __mmc_start_req(struct mmc_host *host, struct mmc_request *mrq)
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{
	init_completion(&mrq->completion);
	mrq->done = mmc_wait_done;
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	if (mmc_card_removed(host->card)) {
		mrq->cmd->error = -ENOMEDIUM;
		complete(&mrq->completion);
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		return -ENOMEDIUM;
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	}
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	mmc_start_request(host, mrq);
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	return 0;
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}

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/*
 * mmc_wait_for_data_req_done() - wait for request completed
 * @host: MMC host to prepare the command.
 * @mrq: MMC request to wait for
 *
 * Blocks MMC context till host controller will ack end of data request
 * execution or new request notification arrives from the block layer.
 * Handles command retries.
 *
 * Returns enum mmc_blk_status after checking errors.
 */
static int mmc_wait_for_data_req_done(struct mmc_host *host,
				      struct mmc_request *mrq,
				      struct mmc_async_req *next_req)
{
	struct mmc_command *cmd;
	struct mmc_context_info *context_info = &host->context_info;
	int err;
	unsigned long flags;

	while (1) {
		wait_event_interruptible(context_info->wait,
				(context_info->is_done_rcv ||
				 context_info->is_new_req));
		spin_lock_irqsave(&context_info->lock, flags);
		context_info->is_waiting_last_req = false;
		spin_unlock_irqrestore(&context_info->lock, flags);
		if (context_info->is_done_rcv) {
			context_info->is_done_rcv = false;
			context_info->is_new_req = false;
			cmd = mrq->cmd;
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			if (!cmd->error || !cmd->retries ||
			    mmc_card_removed(host->card)) {
				err = host->areq->err_check(host->card,
							    host->areq);
				break; /* return err */
			} else {
				pr_info("%s: req failed (CMD%u): %d, retrying...\n",
					mmc_hostname(host),
					cmd->opcode, cmd->error);
				cmd->retries--;
				cmd->error = 0;
				host->ops->request(host, mrq);
				continue; /* wait for done/new event again */
			}
		} else if (context_info->is_new_req) {
			context_info->is_new_req = false;
			if (!next_req) {
				err = MMC_BLK_NEW_REQUEST;
				break; /* return err */
			}
		}
	}
	return err;
}

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static void mmc_wait_for_req_done(struct mmc_host *host,
				  struct mmc_request *mrq)
{
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	struct mmc_command *cmd;

	while (1) {
		wait_for_completion(&mrq->completion);

		cmd = mrq->cmd;
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		/*
		 * If host has timed out waiting for the sanitize
		 * to complete, card might be still in programming state
		 * so let's try to bring the card out of programming
		 * state.
		 */
		if (cmd->sanitize_busy && cmd->error == -ETIMEDOUT) {
			if (!mmc_interrupt_hpi(host->card)) {
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				pr_warn("%s: %s: Interrupted sanitize\n",
					mmc_hostname(host), __func__);
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				cmd->error = 0;
				break;
			} else {
				pr_err("%s: %s: Failed to interrupt sanitize\n",
				       mmc_hostname(host), __func__);
			}
		}
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		if (!cmd->error || !cmd->retries ||
		    mmc_card_removed(host->card))
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			break;

		pr_debug("%s: req failed (CMD%u): %d, retrying...\n",
			 mmc_hostname(host), cmd->opcode, cmd->error);
		cmd->retries--;
		cmd->error = 0;
		host->ops->request(host, mrq);
	}
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}

/**
 *	mmc_pre_req - Prepare for a new request
 *	@host: MMC host to prepare command
 *	@mrq: MMC request to prepare for
 *	@is_first_req: true if there is no previous started request
 *                     that may run in parellel to this call, otherwise false
 *
 *	mmc_pre_req() is called in prior to mmc_start_req() to let
 *	host prepare for the new request. Preparation of a request may be
 *	performed while another request is running on the host.
 */
static void mmc_pre_req(struct mmc_host *host, struct mmc_request *mrq,
		 bool is_first_req)
{
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	if (host->ops->pre_req) {
		mmc_host_clk_hold(host);
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		host->ops->pre_req(host, mrq, is_first_req);
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		mmc_host_clk_release(host);
	}
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}

/**
 *	mmc_post_req - Post process a completed request
 *	@host: MMC host to post process command
 *	@mrq: MMC request to post process for
 *	@err: Error, if non zero, clean up any resources made in pre_req
 *
 *	Let the host post process a completed request. Post processing of
 *	a request may be performed while another reuqest is running.
 */
static void mmc_post_req(struct mmc_host *host, struct mmc_request *mrq,
			 int err)
{
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	if (host->ops->post_req) {
		mmc_host_clk_hold(host);
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		host->ops->post_req(host, mrq, err);
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		mmc_host_clk_release(host);
	}
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}

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/**
 *	mmc_start_req - start a non-blocking request
 *	@host: MMC host to start command
 *	@areq: async request to start
 *	@error: out parameter returns 0 for success, otherwise non zero
 *
 *	Start a new MMC custom command request for a host.
 *	If there is on ongoing async request wait for completion
 *	of that request and start the new one and return.
 *	Does not wait for the new request to complete.
 *
 *      Returns the completed request, NULL in case of none completed.
 *	Wait for the an ongoing request (previoulsy started) to complete and
 *	return the completed request. If there is no ongoing request, NULL
 *	is returned without waiting. NULL is not an error condition.
 */
struct mmc_async_req *mmc_start_req(struct mmc_host *host,
				    struct mmc_async_req *areq, int *error)
{
	int err = 0;
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	int start_err = 0;
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	struct mmc_async_req *data = host->areq;

	/* Prepare a new request */
	if (areq)
		mmc_pre_req(host, areq->mrq, !host->areq);

	if (host->areq) {
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		err = mmc_wait_for_data_req_done(host, host->areq->mrq,	areq);
		if (err == MMC_BLK_NEW_REQUEST) {
			if (error)
				*error = err;
			/*
			 * The previous request was not completed,
			 * nothing to return
			 */
			return NULL;
		}
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		/*
		 * Check BKOPS urgency for each R1 response
		 */
		if (host->card && mmc_card_mmc(host->card) &&
		    ((mmc_resp_type(host->areq->mrq->cmd) == MMC_RSP_R1) ||
		     (mmc_resp_type(host->areq->mrq->cmd) == MMC_RSP_R1B)) &&
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		    (host->areq->mrq->cmd->resp[0] & R1_EXCEPTION_EVENT)) {

			/* Cancel the prepared request */
			if (areq)
				mmc_post_req(host, areq->mrq, -EINVAL);

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			mmc_start_bkops(host->card, true);
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			/* prepare the request again */
			if (areq)
				mmc_pre_req(host, areq->mrq, !host->areq);
		}
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	}

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	if (!err && areq)
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		start_err = __mmc_start_data_req(host, areq->mrq);
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	if (host->areq)
		mmc_post_req(host, host->areq->mrq, 0);

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	 /* Cancel a prepared request if it was not started. */
	if ((err || start_err) && areq)
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		mmc_post_req(host, areq->mrq, -EINVAL);
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	if (err)
		host->areq = NULL;
	else
		host->areq = areq;

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	if (error)
		*error = err;
	return data;
}
EXPORT_SYMBOL(mmc_start_req);

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/**
 *	mmc_wait_for_req - start a request and wait for completion
 *	@host: MMC host to start command
 *	@mrq: MMC request to start
 *
 *	Start a new MMC custom command request for a host, and wait
 *	for the command to complete. Does not attempt to parse the
 *	response.
 */
void mmc_wait_for_req(struct mmc_host *host, struct mmc_request *mrq)
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{
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	__mmc_start_req(host, mrq);
	mmc_wait_for_req_done(host, mrq);
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}
EXPORT_SYMBOL(mmc_wait_for_req);

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/**
 *	mmc_interrupt_hpi - Issue for High priority Interrupt
 *	@card: the MMC card associated with the HPI transfer
 *
 *	Issued High Priority Interrupt, and check for card status
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 *	until out-of prg-state.
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 */
int mmc_interrupt_hpi(struct mmc_card *card)
{
	int err;
	u32 status;
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	unsigned long prg_wait;
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	BUG_ON(!card);

	if (!card->ext_csd.hpi_en) {
		pr_info("%s: HPI enable bit unset\n", mmc_hostname(card->host));
		return 1;
	}

	mmc_claim_host(card->host);
	err = mmc_send_status(card, &status);
	if (err) {
		pr_err("%s: Get card status fail\n", mmc_hostname(card->host));
		goto out;
	}

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	switch (R1_CURRENT_STATE(status)) {
	case R1_STATE_IDLE:
	case R1_STATE_READY:
	case R1_STATE_STBY:
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	case R1_STATE_TRAN:
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		/*
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		 * In idle and transfer states, HPI is not needed and the caller
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		 * can issue the next intended command immediately
		 */
		goto out;
	case R1_STATE_PRG:
		break;
	default:
		/* In all other states, it's illegal to issue HPI */
		pr_debug("%s: HPI cannot be sent. Card state=%d\n",
			mmc_hostname(card->host), R1_CURRENT_STATE(status));
		err = -EINVAL;
		goto out;
	}

	err = mmc_send_hpi_cmd(card, &status);
	if (err)
		goto out;

	prg_wait = jiffies + msecs_to_jiffies(card->ext_csd.out_of_int_time);
	do {
		err = mmc_send_status(card, &status);

		if (!err && R1_CURRENT_STATE(status) == R1_STATE_TRAN)
			break;
		if (time_after(jiffies, prg_wait))
			err = -ETIMEDOUT;
	} while (!err);
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out:
	mmc_release_host(card->host);
	return err;
}
EXPORT_SYMBOL(mmc_interrupt_hpi);

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/**
 *	mmc_wait_for_cmd - start a command and wait for completion
 *	@host: MMC host to start command
 *	@cmd: MMC command to start
 *	@retries: maximum number of retries
 *
 *	Start a new MMC command for a host, and wait for the command
 *	to complete.  Return any error that occurred while the command
 *	was executing.  Do not attempt to parse the response.
 */
int mmc_wait_for_cmd(struct mmc_host *host, struct mmc_command *cmd, int retries)
{
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	struct mmc_request mrq = {NULL};
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	WARN_ON(!host->claimed);
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	memset(cmd->resp, 0, sizeof(cmd->resp));
	cmd->retries = retries;

	mrq.cmd = cmd;
	cmd->data = NULL;

	mmc_wait_for_req(host, &mrq);

	return cmd->error;
}

EXPORT_SYMBOL(mmc_wait_for_cmd);

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/**
 *	mmc_stop_bkops - stop ongoing BKOPS
 *	@card: MMC card to check BKOPS
 *
 *	Send HPI command to stop ongoing background operations to
 *	allow rapid servicing of foreground operations, e.g. read/
 *	writes. Wait until the card comes out of the programming state
 *	to avoid errors in servicing read/write requests.
 */
int mmc_stop_bkops(struct mmc_card *card)
{
	int err = 0;

	BUG_ON(!card);
	err = mmc_interrupt_hpi(card);

	/*
	 * If err is EINVAL, we can't issue an HPI.
	 * It should complete the BKOPS.
	 */
	if (!err || (err == -EINVAL)) {
		mmc_card_clr_doing_bkops(card);
		err = 0;
	}

	return err;
}
EXPORT_SYMBOL(mmc_stop_bkops);

int mmc_read_bkops_status(struct mmc_card *card)
{
	int err;
	u8 *ext_csd;

	mmc_claim_host(card->host);
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	err = mmc_get_ext_csd(card, &ext_csd);
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	mmc_release_host(card->host);
	if (err)
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		return err;
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	card->ext_csd.raw_bkops_status = ext_csd[EXT_CSD_BKOPS_STATUS];
	card->ext_csd.raw_exception_status = ext_csd[EXT_CSD_EXP_EVENTS_STATUS];
	kfree(ext_csd);
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	return 0;
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}
EXPORT_SYMBOL(mmc_read_bkops_status);

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/**
 *	mmc_set_data_timeout - set the timeout for a data command
 *	@data: data phase for command
 *	@card: the MMC card associated with the data transfer
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 *
 *	Computes the data timeout parameters according to the
 *	correct algorithm given the card type.
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 */
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void mmc_set_data_timeout(struct mmc_data *data, const struct mmc_card *card)
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{
	unsigned int mult;

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	/*
	 * SDIO cards only define an upper 1 s limit on access.
	 */
	if (mmc_card_sdio(card)) {
		data->timeout_ns = 1000000000;
		data->timeout_clks = 0;
		return;
	}

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	/*
	 * SD cards use a 100 multiplier rather than 10
	 */
	mult = mmc_card_sd(card) ? 100 : 10;

	/*
	 * Scale up the multiplier (and therefore the timeout) by
	 * the r2w factor for writes.
	 */
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	if (data->flags & MMC_DATA_WRITE)
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		mult <<= card->csd.r2w_factor;

	data->timeout_ns = card->csd.tacc_ns * mult;
	data->timeout_clks = card->csd.tacc_clks * mult;

	/*
	 * SD cards also have an upper limit on the timeout.
	 */
	if (mmc_card_sd(card)) {
		unsigned int timeout_us, limit_us;

		timeout_us = data->timeout_ns / 1000;
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		if (mmc_host_clk_rate(card->host))
			timeout_us += data->timeout_clks * 1000 /
				(mmc_host_clk_rate(card->host) / 1000);
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		if (data->flags & MMC_DATA_WRITE)
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			/*
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			 * The MMC spec "It is strongly recommended
			 * for hosts to implement more than 500ms
			 * timeout value even if the card indicates
			 * the 250ms maximum busy length."  Even the
			 * previous value of 300ms is known to be
			 * insufficient for some cards.
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			 */
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			limit_us = 3000000;
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		else
			limit_us = 100000;

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		/*
		 * SDHC cards always use these fixed values.
		 */
		if (timeout_us > limit_us || mmc_card_blockaddr(card)) {
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			data->timeout_ns = limit_us * 1000;
			data->timeout_clks = 0;
		}
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		/* assign limit value if invalid */
		if (timeout_us == 0)
			data->timeout_ns = limit_us * 1000;
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	}
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	/*
	 * Some cards require longer data read timeout than indicated in CSD.
	 * Address this by setting the read timeout to a "reasonably high"
	 * value. For the cards tested, 300ms has proven enough. If necessary,
	 * this value can be increased if other problematic cards require this.
	 */
	if (mmc_card_long_read_time(card) && data->flags & MMC_DATA_READ) {
		data->timeout_ns = 300000000;
		data->timeout_clks = 0;
	}

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	/*
	 * Some cards need very high timeouts if driven in SPI mode.
	 * The worst observed timeout was 900ms after writing a
	 * continuous stream of data until the internal logic
	 * overflowed.
	 */
	if (mmc_host_is_spi(card->host)) {
		if (data->flags & MMC_DATA_WRITE) {
			if (data->timeout_ns < 1000000000)
				data->timeout_ns = 1000000000;	/* 1s */
		} else {
			if (data->timeout_ns < 100000000)
				data->timeout_ns =  100000000;	/* 100ms */
		}
	}
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}
EXPORT_SYMBOL(mmc_set_data_timeout);

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/**
 *	mmc_align_data_size - pads a transfer size to a more optimal value
 *	@card: the MMC card associated with the data transfer
 *	@sz: original transfer size
 *
 *	Pads the original data size with a number of extra bytes in
 *	order to avoid controller bugs and/or performance hits
 *	(e.g. some controllers revert to PIO for certain sizes).
 *
 *	Returns the improved size, which might be unmodified.
 *
 *	Note that this function is only relevant when issuing a
 *	single scatter gather entry.
 */
unsigned int mmc_align_data_size(struct mmc_card *card, unsigned int sz)
{
	/*
	 * FIXME: We don't have a system for the controller to tell
	 * the core about its problems yet, so for now we just 32-bit
	 * align the size.
	 */
	sz = ((sz + 3) / 4) * 4;

	return sz;
}
EXPORT_SYMBOL(mmc_align_data_size);

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/**
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 *	__mmc_claim_host - exclusively claim a host
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 *	@host: mmc host to claim
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 *	@abort: whether or not the operation should be aborted
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 *
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 *	Claim a host for a set of operations.  If @abort is non null and
 *	dereference a non-zero value then this will return prematurely with
 *	that non-zero value without acquiring the lock.  Returns zero
 *	with the lock held otherwise.
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 */
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int __mmc_claim_host(struct mmc_host *host, atomic_t *abort)
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{
	DECLARE_WAITQUEUE(wait, current);
	unsigned long flags;
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	int stop;
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	might_sleep();

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	add_wait_queue(&host->wq, &wait);
	spin_lock_irqsave(&host->lock, flags);
	while (1) {
		set_current_state(TASK_UNINTERRUPTIBLE);
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		stop = abort ? atomic_read(abort) : 0;
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		if (stop || !host->claimed || host->claimer == current)
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			break;
		spin_unlock_irqrestore(&host->lock, flags);
		schedule();
		spin_lock_irqsave(&host->lock, flags);
	}
	set_current_state(TASK_RUNNING);
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	if (!stop) {
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		host->claimed = 1;
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		host->claimer = current;
		host->claim_cnt += 1;
	} else
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		wake_up(&host->wq);
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	spin_unlock_irqrestore(&host->lock, flags);
	remove_wait_queue(&host->wq, &wait);
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	if (host->ops->enable && !stop && host->claim_cnt == 1)
		host->ops->enable(host);
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	return stop;
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}

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EXPORT_SYMBOL(__mmc_claim_host);
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/**
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 *	mmc_release_host - release a host
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 *	@host: mmc host to release
 *
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 *	Release a MMC host, allowing others to claim the host
 *	for their operations.
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 */
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void mmc_release_host(struct mmc_host *host)
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{
	unsigned long flags;

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	WARN_ON(!host->claimed);

	if (host->ops->disable && host->claim_cnt == 1)
		host->ops->disable(host);

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	spin_lock_irqsave(&host->lock, flags);
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	if (--host->claim_cnt) {
		/* Release for nested claim */
		spin_unlock_irqrestore(&host->lock, flags);
	} else {
		host->claimed = 0;
		host->claimer = NULL;
		spin_unlock_irqrestore(&host->lock, flags);
		wake_up(&host->wq);
	}
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}
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EXPORT_SYMBOL(mmc_release_host);

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/*
 * This is a helper function, which fetches a runtime pm reference for the
 * card device and also claims the host.
 */
void mmc_get_card(struct mmc_card *card)
{
	pm_runtime_get_sync(&card->dev);
	mmc_claim_host(card->host);
}
EXPORT_SYMBOL(mmc_get_card);

/*
 * This is a helper function, which releases the host and drops the runtime
 * pm reference for the card device.
 */
void mmc_put_card(struct mmc_card *card)
{
	mmc_release_host(card->host);
	pm_runtime_mark_last_busy(&card->dev);
	pm_runtime_put_autosuspend(&card->dev);
}
EXPORT_SYMBOL(mmc_put_card);

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/*
 * Internal function that does the actual ios call to the host driver,
 * optionally printing some debug output.
 */
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static inline void mmc_set_ios(struct mmc_host *host)
{
	struct mmc_ios *ios = &host->ios;

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	pr_debug("%s: clock %uHz busmode %u powermode %u cs %u Vdd %u "
		"width %u timing %u\n",
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		 mmc_hostname(host), ios->clock, ios->bus_mode,
		 ios->power_mode, ios->chip_select, ios->vdd,
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		 ios->bus_width, ios->timing);
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	if (ios->clock > 0)
		mmc_set_ungated(host);
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	host->ops->set_ios(host, ios);
}

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/*
 * Control chip select pin on a host.
 */
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void mmc_set_chip_select(struct mmc_host *host, int mode)
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{
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	mmc_host_clk_hold(host);
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	host->ios.chip_select = mode;
	mmc_set_ios(host);
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	mmc_host_clk_release(host);
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}

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/*
 * Sets the host clock to the highest possible frequency that
 * is below "hz".
 */
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static void __mmc_set_clock(struct mmc_host *host, unsigned int hz)
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{
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	WARN_ON(hz && hz < host->f_min);
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	if (hz > host->f_max)
		hz = host->f_max;

	host->ios.clock = hz;
	mmc_set_ios(host);
}

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void mmc_set_clock(struct mmc_host *host, unsigned int hz)
{
	mmc_host_clk_hold(host);
	__mmc_set_clock(host, hz);
	mmc_host_clk_release(host);
}

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#ifdef CONFIG_MMC_CLKGATE
/*
 * This gates the clock by setting it to 0 Hz.
 */
void mmc_gate_clock(struct mmc_host *host)
{
	unsigned long flags;

	spin_lock_irqsave(&host->clk_lock, flags);
	host->clk_old = host->ios.clock;
	host->ios.clock = 0;
	host->clk_gated = true;
	spin_unlock_irqrestore(&host->clk_lock, flags);
	mmc_set_ios(host);
}

/*
 * This restores the clock from gating by using the cached
 * clock value.
 */
void mmc_ungate_clock(struct mmc_host *host)
{
	/*
	 * We should previously have gated the clock, so the clock shall
	 * be 0 here! The clock may however be 0 during initialization,
	 * when some request operations are performed before setting
	 * the frequency. When ungate is requested in that situation
	 * we just ignore the call.
	 */
	if (host->clk_old) {
		BUG_ON(host->ios.clock);
		/* This call will also set host->clk_gated to false */
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		__mmc_set_clock(host, host->clk_old);
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	}
}

void mmc_set_ungated(struct mmc_host *host)
{
	unsigned long flags;

	/*
	 * We've been given a new frequency while the clock is gated,
	 * so make sure we regard this as ungating it.
	 */
	spin_lock_irqsave(&host->clk_lock, flags);
	host->clk_gated = false;
	spin_unlock_irqrestore(&host->clk_lock, flags);
}

#else
void mmc_set_ungated(struct mmc_host *host)
{
}
#endif

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/*
 * Change the bus mode (open drain/push-pull) of a host.
 */
void mmc_set_bus_mode(struct mmc_host *host, unsigned int mode)
{
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	mmc_host_clk_hold(host);
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	host->ios.bus_mode = mode;
	mmc_set_ios(host);
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	mmc_host_clk_release(host);
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}

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/*
 * Change data bus width of a host.
 */
void mmc_set_bus_width(struct mmc_host *host, unsigned int width)
{
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	mmc_host_clk_hold(host);
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	host->ios.bus_width = width;
	mmc_set_ios(host);
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	mmc_host_clk_release(host);
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}

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/*
 * Set initial state after a power cycle or a hw_reset.
 */
void mmc_set_initial_state(struct mmc_host *host)
{
	if (mmc_host_is_spi(host))
		host->ios.chip_select = MMC_CS_HIGH;
	else
		host->ios.chip_select = MMC_CS_DONTCARE;
	host->ios.bus_mode = MMC_BUSMODE_PUSHPULL;
	host->ios.bus_width = MMC_BUS_WIDTH_1;
	host->ios.timing = MMC_TIMING_LEGACY;

	mmc_set_ios(host);
}

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/**
 * mmc_vdd_to_ocrbitnum - Convert a voltage to the OCR bit number
 * @vdd:	voltage (mV)
 * @low_bits:	prefer low bits in boundary cases
 *
 * This function returns the OCR bit number according to the provided @vdd
 * value. If conversion is not possible a negative errno value returned.
 *
 * Depending on the @low_bits flag the function prefers low or high OCR bits
 * on boundary voltages. For example,
 * with @low_bits = true, 3300 mV translates to ilog2(MMC_VDD_32_33);
 * with @low_bits = false, 3300 mV translates to ilog2(MMC_VDD_33_34);
 *
 * Any value in the [1951:1999] range translates to the ilog2(MMC_VDD_20_21).
 */
static int mmc_vdd_to_ocrbitnum(int vdd, bool low_bits)
{
	const int max_bit = ilog2(MMC_VDD_35_36);
	int bit;

	if (vdd < 1650 || vdd > 3600)
		return -EINVAL;

	if (vdd >= 1650 && vdd <= 1950)
		return ilog2(MMC_VDD_165_195);

	if (low_bits)
		vdd -= 1;

	/* Base 2000 mV, step 100 mV, bit's base 8. */
	bit = (vdd - 2000) / 100 + 8;
	if (bit > max_bit)
		return max_bit;
	return bit;
}

/**
 * mmc_vddrange_to_ocrmask - Convert a voltage range to the OCR mask
 * @vdd_min:	minimum voltage value (mV)
 * @vdd_max:	maximum voltage value (mV)
 *
 * This function returns the OCR mask bits according to the provided @vdd_min
 * and @vdd_max values. If conversion is not possible the function returns 0.
 *
 * Notes wrt boundary cases:
 * This function sets the OCR bits for all boundary voltages, for example
 * [3300:3400] range is translated to MMC_VDD_32_33 | MMC_VDD_33_34 |
 * MMC_VDD_34_35 mask.
 */
u32 mmc_vddrange_to_ocrmask(int vdd_min, int vdd_max)
{
	u32 mask = 0;

	if (vdd_max < vdd_min)
		return 0;

	/* Prefer high bits for the boundary vdd_max values. */
	vdd_max = mmc_vdd_to_ocrbitnum(vdd_max, false);
	if (vdd_max < 0)
		return 0;

	/* Prefer low bits for the boundary vdd_min values. */
	vdd_min = mmc_vdd_to_ocrbitnum(vdd_min, true);
	if (vdd_min < 0)
		return 0;

	/* Fill the mask, from max bit to min bit. */
	while (vdd_max >= vdd_min)
		mask |= 1 << vdd_max--;

	return mask;
}
EXPORT_SYMBOL(mmc_vddrange_to_ocrmask);

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#ifdef CONFIG_OF

/**
 * mmc_of_parse_voltage - return mask of supported voltages
 * @np: The device node need to be parsed.
 * @mask: mask of voltages available for MMC/SD/SDIO
 *
 * 1. Return zero on success.
 * 2. Return negative errno: voltage-range is invalid.
 */
int mmc_of_parse_voltage(struct device_node *np, u32 *mask)
{
	const u32 *voltage_ranges;
	int num_ranges, i;

	voltage_ranges = of_get_property(np, "voltage-ranges", &num_ranges);
	num_ranges = num_ranges / sizeof(*voltage_ranges) / 2;
	if (!voltage_ranges || !num_ranges) {
		pr_info("%s: voltage-ranges unspecified\n", np->full_name);
		return -EINVAL;
	}

	for (i = 0; i < num_ranges; i++) {
		const int j = i * 2;
		u32 ocr_mask;

		ocr_mask = mmc_vddrange_to_ocrmask(
				be32_to_cpu(voltage_ranges[j]),
				be32_to_cpu(voltage_ranges[j + 1]));
		if (!ocr_mask) {
			pr_err("%s: voltage-range #%d is invalid\n",
				np->full_name, i);
			return -EINVAL;
		}
		*mask |= ocr_mask;
	}

	return 0;
}
EXPORT_SYMBOL(mmc_of_parse_voltage);

#endif /* CONFIG_OF */

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#ifdef CONFIG_REGULATOR

/**
 * mmc_regulator_get_ocrmask - return mask of supported voltages
 * @supply: regulator to use
 *
 * This returns either a negative errno, or a mask of voltages that
 * can be provided to MMC/SD/SDIO devices using the specified voltage
 * regulator.  This would normally be called before registering the
 * MMC host adapter.
 */
int mmc_regulator_get_ocrmask(struct regulator *supply)
{
	int			result = 0;
	int			count;
	int			i;
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	int			vdd_uV;
	int			vdd_mV;
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	count = regulator_count_voltages(supply);
	if (count < 0)
		return count;

	for (i = 0; i < count; i++) {
		vdd_uV = regulator_list_voltage(supply, i);
		if (vdd_uV <= 0)
			continue;

		vdd_mV = vdd_uV / 1000;
		result |= mmc_vddrange_to_ocrmask(vdd_mV, vdd_mV);
	}

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	if (!result) {
		vdd_uV = regulator_get_voltage(supply);
		if (vdd_uV <= 0)
			return vdd_uV;

		vdd_mV = vdd_uV / 1000;
		result = mmc_vddrange_to_ocrmask(vdd_mV, vdd_mV);
	}

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	return result;
}
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EXPORT_SYMBOL_GPL(mmc_regulator_get_ocrmask);
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/**
 * mmc_regulator_set_ocr - set regulator to match host->ios voltage
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 * @mmc: the host to regulate
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 * @supply: regulator to use
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 * @vdd_bit: zero for power off, else a bit number (host->ios.vdd)
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 *
 * Returns zero on success, else negative errno.
 *
 * MMC host drivers may use this to enable or disable a regulator using
 * a particular supply voltage.  This would normally be called from the
 * set_ios() method.
 */
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int mmc_regulator_set_ocr(struct mmc_host *mmc,
			struct regulator *supply,
			unsigned short vdd_bit)
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{
	int			result = 0;
	int			min_uV, max_uV;

	if (vdd_bit) {
		int		tmp;

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		/*
		 * REVISIT mmc_vddrange_to_ocrmask() may have set some
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		 * bits this regulator doesn't quite support ... don't
		 * be too picky, most cards and regulators are OK with
		 * a 0.1V range goof (it's a small error percentage).
		 */
		tmp = vdd_bit - ilog2(MMC_VDD_165_195);
		if (tmp == 0) {
			min_uV = 1650 * 1000;
			max_uV = 1950 * 1000;
		} else {
			min_uV = 1900 * 1000 + tmp * 100 * 1000;
			max_uV = min_uV + 100 * 1000;
		}

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		result = regulator_set_voltage(supply, min_uV, max_uV);
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