sdio.c 35.7 KB
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/*
 * Copyright (c) 2004-2011 Atheros Communications Inc.
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 * Copyright (c) 2011-2012 Qualcomm Atheros, Inc.
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 *
 * Permission to use, copy, modify, and/or distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */

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#include <linux/module.h>
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#include <linux/mmc/card.h>
#include <linux/mmc/mmc.h>
#include <linux/mmc/host.h>
#include <linux/mmc/sdio_func.h>
#include <linux/mmc/sdio_ids.h>
#include <linux/mmc/sdio.h>
#include <linux/mmc/sd.h>
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#include "hif.h"
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#include "hif-ops.h"
#include "target.h"
#include "debug.h"
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#include "cfg80211.h"
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struct ath6kl_sdio {
	struct sdio_func *func;

	spinlock_t lock;

	/* free list */
	struct list_head bus_req_freeq;

	/* available bus requests */
	struct bus_request bus_req[BUS_REQUEST_MAX_NUM];

	struct ath6kl *ar;
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	u8 *dma_buffer;

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	/* protects access to dma_buffer */
	struct mutex dma_buffer_mutex;

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	/* scatter request list head */
	struct list_head scat_req;

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	/* Avoids disabling irq while the interrupts being handled */
	struct mutex mtx_irq;

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	spinlock_t scat_lock;
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	bool scatter_enabled;

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	bool is_disabled;
	const struct sdio_device_id *id;
	struct work_struct wr_async_work;
	struct list_head wr_asyncq;
	spinlock_t wr_async_lock;
};

#define CMD53_ARG_READ          0
#define CMD53_ARG_WRITE         1
#define CMD53_ARG_BLOCK_BASIS   1
#define CMD53_ARG_FIXED_ADDRESS 0
#define CMD53_ARG_INCR_ADDRESS  1

static inline struct ath6kl_sdio *ath6kl_sdio_priv(struct ath6kl *ar)
{
	return ar->hif_priv;
}

/*
 * Macro to check if DMA buffer is WORD-aligned and DMA-able.
 * Most host controllers assume the buffer is DMA'able and will
 * bug-check otherwise (i.e. buffers on the stack). virt_addr_valid
 * check fails on stack memory.
 */
static inline bool buf_needs_bounce(u8 *buf)
{
	return ((unsigned long) buf & 0x3) || !virt_addr_valid(buf);
}

static void ath6kl_sdio_set_mbox_info(struct ath6kl *ar)
{
	struct ath6kl_mbox_info *mbox_info = &ar->mbox_info;

	/* EP1 has an extended range */
	mbox_info->htc_addr = HIF_MBOX_BASE_ADDR;
	mbox_info->htc_ext_addr = HIF_MBOX0_EXT_BASE_ADDR;
	mbox_info->htc_ext_sz = HIF_MBOX0_EXT_WIDTH;
	mbox_info->block_size = HIF_MBOX_BLOCK_SIZE;
	mbox_info->gmbox_addr = HIF_GMBOX_BASE_ADDR;
	mbox_info->gmbox_sz = HIF_GMBOX_WIDTH;
}

static inline void ath6kl_sdio_set_cmd53_arg(u32 *arg, u8 rw, u8 func,
					     u8 mode, u8 opcode, u32 addr,
					     u16 blksz)
{
	*arg = (((rw & 1) << 31) |
		((func & 0x7) << 28) |
		((mode & 1) << 27) |
		((opcode & 1) << 26) |
		((addr & 0x1FFFF) << 9) |
		(blksz & 0x1FF));
}

static inline void ath6kl_sdio_set_cmd52_arg(u32 *arg, u8 write, u8 raw,
					     unsigned int address,
					     unsigned char val)
{
	const u8 func = 0;

	*arg = ((write & 1) << 31) |
	       ((func & 0x7) << 28) |
	       ((raw & 1) << 27) |
	       (1 << 26) |
	       ((address & 0x1FFFF) << 9) |
	       (1 << 8) |
	       (val & 0xFF);
}

static int ath6kl_sdio_func0_cmd52_wr_byte(struct mmc_card *card,
					   unsigned int address,
					   unsigned char byte)
{
	struct mmc_command io_cmd;

	memset(&io_cmd, 0, sizeof(io_cmd));
	ath6kl_sdio_set_cmd52_arg(&io_cmd.arg, 1, 0, address, byte);
	io_cmd.opcode = SD_IO_RW_DIRECT;
	io_cmd.flags = MMC_RSP_R5 | MMC_CMD_AC;

	return mmc_wait_for_cmd(card->host, &io_cmd, 0);
}

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static int ath6kl_sdio_io(struct sdio_func *func, u32 request, u32 addr,
			  u8 *buf, u32 len)
{
	int ret = 0;

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	sdio_claim_host(func);

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	if (request & HIF_WRITE) {
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		/* FIXME: looks like ugly workaround for something */
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		if (addr >= HIF_MBOX_BASE_ADDR &&
		    addr <= HIF_MBOX_END_ADDR)
			addr += (HIF_MBOX_WIDTH - len);

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		/* FIXME: this also looks like ugly workaround */
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		if (addr == HIF_MBOX0_EXT_BASE_ADDR)
			addr += HIF_MBOX0_EXT_WIDTH - len;

		if (request & HIF_FIXED_ADDRESS)
			ret = sdio_writesb(func, addr, buf, len);
		else
			ret = sdio_memcpy_toio(func, addr, buf, len);
	} else {
		if (request & HIF_FIXED_ADDRESS)
			ret = sdio_readsb(func, buf, addr, len);
		else
			ret = sdio_memcpy_fromio(func, buf, addr, len);
	}

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	sdio_release_host(func);

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	ath6kl_dbg(ATH6KL_DBG_SDIO, "%s addr 0x%x%s buf 0x%p len %d\n",
		   request & HIF_WRITE ? "wr" : "rd", addr,
		   request & HIF_FIXED_ADDRESS ? " (fixed)" : "", buf, len);
	ath6kl_dbg_dump(ATH6KL_DBG_SDIO_DUMP, NULL, "sdio ", buf, len);

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	return ret;
}

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static struct bus_request *ath6kl_sdio_alloc_busreq(struct ath6kl_sdio *ar_sdio)
{
	struct bus_request *bus_req;

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	spin_lock_bh(&ar_sdio->lock);
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	if (list_empty(&ar_sdio->bus_req_freeq)) {
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		spin_unlock_bh(&ar_sdio->lock);
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		return NULL;
	}

	bus_req = list_first_entry(&ar_sdio->bus_req_freeq,
				   struct bus_request, list);
	list_del(&bus_req->list);

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	spin_unlock_bh(&ar_sdio->lock);
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	ath6kl_dbg(ATH6KL_DBG_SCATTER, "%s: bus request 0x%p\n",
		   __func__, bus_req);
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	return bus_req;
}

static void ath6kl_sdio_free_bus_req(struct ath6kl_sdio *ar_sdio,
				     struct bus_request *bus_req)
{
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	ath6kl_dbg(ATH6KL_DBG_SCATTER, "%s: bus request 0x%p\n",
		   __func__, bus_req);
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	spin_lock_bh(&ar_sdio->lock);
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	list_add_tail(&bus_req->list, &ar_sdio->bus_req_freeq);
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	spin_unlock_bh(&ar_sdio->lock);
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}

static void ath6kl_sdio_setup_scat_data(struct hif_scatter_req *scat_req,
					struct mmc_data *data)
{
	struct scatterlist *sg;
	int i;

	data->blksz = HIF_MBOX_BLOCK_SIZE;
	data->blocks = scat_req->len / HIF_MBOX_BLOCK_SIZE;

	ath6kl_dbg(ATH6KL_DBG_SCATTER,
		   "hif-scatter: (%s) addr: 0x%X, (block len: %d, block count: %d) , (tot:%d,sg:%d)\n",
		   (scat_req->req & HIF_WRITE) ? "WR" : "RD", scat_req->addr,
		   data->blksz, data->blocks, scat_req->len,
		   scat_req->scat_entries);

	data->flags = (scat_req->req & HIF_WRITE) ? MMC_DATA_WRITE :
						    MMC_DATA_READ;

	/* fill SG entries */
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	sg = scat_req->sgentries;
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	sg_init_table(sg, scat_req->scat_entries);

	/* assemble SG list */
	for (i = 0; i < scat_req->scat_entries; i++, sg++) {
		ath6kl_dbg(ATH6KL_DBG_SCATTER, "%d: addr:0x%p, len:%d\n",
			   i, scat_req->scat_list[i].buf,
			   scat_req->scat_list[i].len);

		sg_set_buf(sg, scat_req->scat_list[i].buf,
			   scat_req->scat_list[i].len);
	}

	/* set scatter-gather table for request */
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	data->sg = scat_req->sgentries;
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	data->sg_len = scat_req->scat_entries;
}

static int ath6kl_sdio_scat_rw(struct ath6kl_sdio *ar_sdio,
			       struct bus_request *req)
{
	struct mmc_request mmc_req;
	struct mmc_command cmd;
	struct mmc_data data;
	struct hif_scatter_req *scat_req;
	u8 opcode, rw;
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	int status, len;
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	scat_req = req->scat_req;

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	if (scat_req->virt_scat) {
		len = scat_req->len;
		if (scat_req->req & HIF_BLOCK_BASIS)
			len = round_down(len, HIF_MBOX_BLOCK_SIZE);

		status = ath6kl_sdio_io(ar_sdio->func, scat_req->req,
					scat_req->addr, scat_req->virt_dma_buf,
					len);
		goto scat_complete;
	}

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	memset(&mmc_req, 0, sizeof(struct mmc_request));
	memset(&cmd, 0, sizeof(struct mmc_command));
	memset(&data, 0, sizeof(struct mmc_data));

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	ath6kl_sdio_setup_scat_data(scat_req, &data);
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	opcode = (scat_req->req & HIF_FIXED_ADDRESS) ?
		  CMD53_ARG_FIXED_ADDRESS : CMD53_ARG_INCR_ADDRESS;

	rw = (scat_req->req & HIF_WRITE) ? CMD53_ARG_WRITE : CMD53_ARG_READ;

	/* Fixup the address so that the last byte will fall on MBOX EOM */
	if (scat_req->req & HIF_WRITE) {
		if (scat_req->addr == HIF_MBOX_BASE_ADDR)
			scat_req->addr += HIF_MBOX_WIDTH - scat_req->len;
		else
			/* Uses extended address range */
			scat_req->addr += HIF_MBOX0_EXT_WIDTH - scat_req->len;
	}

	/* set command argument */
	ath6kl_sdio_set_cmd53_arg(&cmd.arg, rw, ar_sdio->func->num,
				  CMD53_ARG_BLOCK_BASIS, opcode, scat_req->addr,
				  data.blocks);

	cmd.opcode = SD_IO_RW_EXTENDED;
	cmd.flags = MMC_RSP_SPI_R5 | MMC_RSP_R5 | MMC_CMD_ADTC;

	mmc_req.cmd = &cmd;
	mmc_req.data = &data;

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	sdio_claim_host(ar_sdio->func);

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	mmc_set_data_timeout(&data, ar_sdio->func->card);
	/* synchronous call to process request */
	mmc_wait_for_req(ar_sdio->func->card->host, &mmc_req);

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	sdio_release_host(ar_sdio->func);

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	status = cmd.error ? cmd.error : data.error;
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scat_complete:
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	scat_req->status = status;

	if (scat_req->status)
		ath6kl_err("Scatter write request failed:%d\n",
			   scat_req->status);

	if (scat_req->req & HIF_ASYNCHRONOUS)
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		scat_req->complete(ar_sdio->ar->htc_target, scat_req);
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	return status;
}

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static int ath6kl_sdio_alloc_prep_scat_req(struct ath6kl_sdio *ar_sdio,
					   int n_scat_entry, int n_scat_req,
					   bool virt_scat)
{
	struct hif_scatter_req *s_req;
	struct bus_request *bus_req;
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	int i, scat_req_sz, scat_list_sz, sg_sz, buf_sz;
	u8 *virt_buf;
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	scat_list_sz = (n_scat_entry - 1) * sizeof(struct hif_scatter_item);
	scat_req_sz = sizeof(*s_req) + scat_list_sz;

	if (!virt_scat)
		sg_sz = sizeof(struct scatterlist) * n_scat_entry;
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	else
		buf_sz =  2 * L1_CACHE_BYTES +
			  ATH6KL_MAX_TRANSFER_SIZE_PER_SCATTER;
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	for (i = 0; i < n_scat_req; i++) {
		/* allocate the scatter request */
		s_req = kzalloc(scat_req_sz, GFP_KERNEL);
		if (!s_req)
			return -ENOMEM;

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		if (virt_scat) {
			virt_buf = kzalloc(buf_sz, GFP_KERNEL);
			if (!virt_buf) {
				kfree(s_req);
				return -ENOMEM;
			}

			s_req->virt_dma_buf =
				(u8 *)L1_CACHE_ALIGN((unsigned long)virt_buf);
		} else {
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			/* allocate sglist */
			s_req->sgentries = kzalloc(sg_sz, GFP_KERNEL);

			if (!s_req->sgentries) {
				kfree(s_req);
				return -ENOMEM;
			}
		}

		/* allocate a bus request for this scatter request */
		bus_req = ath6kl_sdio_alloc_busreq(ar_sdio);
		if (!bus_req) {
			kfree(s_req->sgentries);
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			kfree(s_req->virt_dma_buf);
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			kfree(s_req);
			return -ENOMEM;
		}

		/* assign the scatter request to this bus request */
		bus_req->scat_req = s_req;
		s_req->busrequest = bus_req;

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		s_req->virt_scat = virt_scat;

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		/* add it to the scatter pool */
		hif_scatter_req_add(ar_sdio->ar, s_req);
	}

	return 0;
}

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static int ath6kl_sdio_read_write_sync(struct ath6kl *ar, u32 addr, u8 *buf,
				       u32 len, u32 request)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	u8  *tbuf = NULL;
	int ret;
	bool bounced = false;

	if (request & HIF_BLOCK_BASIS)
		len = round_down(len, HIF_MBOX_BLOCK_SIZE);

	if (buf_needs_bounce(buf)) {
		if (!ar_sdio->dma_buffer)
			return -ENOMEM;
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		mutex_lock(&ar_sdio->dma_buffer_mutex);
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		tbuf = ar_sdio->dma_buffer;
		memcpy(tbuf, buf, len);
		bounced = true;
	} else
		tbuf = buf;

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	ret = ath6kl_sdio_io(ar_sdio->func, request, addr, tbuf, len);
	if ((request & HIF_READ) && bounced)
		memcpy(buf, tbuf, len);
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	if (bounced)
		mutex_unlock(&ar_sdio->dma_buffer_mutex);

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	return ret;
}

static void __ath6kl_sdio_write_async(struct ath6kl_sdio *ar_sdio,
				      struct bus_request *req)
{
	if (req->scat_req)
		ath6kl_sdio_scat_rw(ar_sdio, req);
	else {
		void *context;
		int status;

		status = ath6kl_sdio_read_write_sync(ar_sdio->ar, req->address,
						     req->buffer, req->length,
						     req->request);
		context = req->packet;
		ath6kl_sdio_free_bus_req(ar_sdio, req);
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		ath6kl_hif_rw_comp_handler(context, status);
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	}
}

static void ath6kl_sdio_write_async_work(struct work_struct *work)
{
	struct ath6kl_sdio *ar_sdio;
	struct bus_request *req, *tmp_req;

	ar_sdio = container_of(work, struct ath6kl_sdio, wr_async_work);

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	spin_lock_bh(&ar_sdio->wr_async_lock);
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	list_for_each_entry_safe(req, tmp_req, &ar_sdio->wr_asyncq, list) {
		list_del(&req->list);
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		spin_unlock_bh(&ar_sdio->wr_async_lock);
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		__ath6kl_sdio_write_async(ar_sdio, req);
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		spin_lock_bh(&ar_sdio->wr_async_lock);
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	}
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	spin_unlock_bh(&ar_sdio->wr_async_lock);
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}

static void ath6kl_sdio_irq_handler(struct sdio_func *func)
{
	int status;
	struct ath6kl_sdio *ar_sdio;

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	ath6kl_dbg(ATH6KL_DBG_SDIO, "irq\n");

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	ar_sdio = sdio_get_drvdata(func);
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	mutex_lock(&ar_sdio->mtx_irq);
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	/*
	 * Release the host during interrups so we can pick it back up when
	 * we process commands.
	 */
	sdio_release_host(ar_sdio->func);

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	status = ath6kl_hif_intr_bh_handler(ar_sdio->ar);
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	sdio_claim_host(ar_sdio->func);
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	mutex_unlock(&ar_sdio->mtx_irq);
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	WARN_ON(status && status != -ECANCELED);
}

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static int ath6kl_sdio_power_on(struct ath6kl *ar)
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{
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	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
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	struct sdio_func *func = ar_sdio->func;
	int ret = 0;

	if (!ar_sdio->is_disabled)
		return 0;

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	ath6kl_dbg(ATH6KL_DBG_BOOT, "sdio power on\n");

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	sdio_claim_host(func);

	ret = sdio_enable_func(func);
	if (ret) {
		ath6kl_err("Unable to enable sdio func: %d)\n", ret);
		sdio_release_host(func);
		return ret;
	}

	sdio_release_host(func);

	/*
	 * Wait for hardware to initialise. It should take a lot less than
	 * 10 ms but let's be conservative here.
	 */
	msleep(10);

	ar_sdio->is_disabled = false;

	return ret;
}

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static int ath6kl_sdio_power_off(struct ath6kl *ar)
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{
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	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
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	int ret;

	if (ar_sdio->is_disabled)
		return 0;

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	ath6kl_dbg(ATH6KL_DBG_BOOT, "sdio power off\n");

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	/* Disable the card */
	sdio_claim_host(ar_sdio->func);
	ret = sdio_disable_func(ar_sdio->func);
	sdio_release_host(ar_sdio->func);

	if (ret)
		return ret;

	ar_sdio->is_disabled = true;

	return ret;
}

static int ath6kl_sdio_write_async(struct ath6kl *ar, u32 address, u8 *buffer,
				   u32 length, u32 request,
				   struct htc_packet *packet)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	struct bus_request *bus_req;

	bus_req = ath6kl_sdio_alloc_busreq(ar_sdio);

	if (!bus_req)
		return -ENOMEM;

	bus_req->address = address;
	bus_req->buffer = buffer;
	bus_req->length = length;
	bus_req->request = request;
	bus_req->packet = packet;

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	spin_lock_bh(&ar_sdio->wr_async_lock);
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	list_add_tail(&bus_req->list, &ar_sdio->wr_asyncq);
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	spin_unlock_bh(&ar_sdio->wr_async_lock);
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	queue_work(ar->ath6kl_wq, &ar_sdio->wr_async_work);

	return 0;
}

static void ath6kl_sdio_irq_enable(struct ath6kl *ar)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	int ret;

	sdio_claim_host(ar_sdio->func);

	/* Register the isr */
	ret =  sdio_claim_irq(ar_sdio->func, ath6kl_sdio_irq_handler);
	if (ret)
		ath6kl_err("Failed to claim sdio irq: %d\n", ret);

	sdio_release_host(ar_sdio->func);
}

static void ath6kl_sdio_irq_disable(struct ath6kl *ar)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	int ret;

	sdio_claim_host(ar_sdio->func);

583
	mutex_lock(&ar_sdio->mtx_irq);
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	ret = sdio_release_irq(ar_sdio->func);
	if (ret)
		ath6kl_err("Failed to release sdio irq: %d\n", ret);

589 590
	mutex_unlock(&ar_sdio->mtx_irq);

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	sdio_release_host(ar_sdio->func);
}

static struct hif_scatter_req *ath6kl_sdio_scatter_req_get(struct ath6kl *ar)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	struct hif_scatter_req *node = NULL;

599
	spin_lock_bh(&ar_sdio->scat_lock);
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	if (!list_empty(&ar_sdio->scat_req)) {
		node = list_first_entry(&ar_sdio->scat_req,
					struct hif_scatter_req, list);
		list_del(&node->list);
605 606

		node->scat_q_depth = get_queue_depth(&ar_sdio->scat_req);
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	}

609
	spin_unlock_bh(&ar_sdio->scat_lock);
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	return node;
}

static void ath6kl_sdio_scatter_req_add(struct ath6kl *ar,
					struct hif_scatter_req *s_req)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);

619
	spin_lock_bh(&ar_sdio->scat_lock);
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	list_add_tail(&s_req->list, &ar_sdio->scat_req);

623
	spin_unlock_bh(&ar_sdio->scat_lock);
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}

627 628 629 630 631 632 633 634 635 636 637 638 639 640 641
/* scatter gather read write request */
static int ath6kl_sdio_async_rw_scatter(struct ath6kl *ar,
					struct hif_scatter_req *scat_req)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	u32 request = scat_req->req;
	int status = 0;

	if (!scat_req->len)
		return -EINVAL;

	ath6kl_dbg(ATH6KL_DBG_SCATTER,
		"hif-scatter: total len: %d scatter entries: %d\n",
		scat_req->len, scat_req->scat_entries);

642
	if (request & HIF_SYNCHRONOUS)
643
		status = ath6kl_sdio_scat_rw(ar_sdio, scat_req->busrequest);
644
	else {
645
		spin_lock_bh(&ar_sdio->wr_async_lock);
646
		list_add_tail(&scat_req->busrequest->list, &ar_sdio->wr_asyncq);
647
		spin_unlock_bh(&ar_sdio->wr_async_lock);
648 649 650 651 652 653
		queue_work(ar->ath6kl_wq, &ar_sdio->wr_async_work);
	}

	return status;
}

654 655 656 657 658 659 660
/* clean up scatter support */
static void ath6kl_sdio_cleanup_scatter(struct ath6kl *ar)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	struct hif_scatter_req *s_req, *tmp_req;

	/* empty the free list */
661
	spin_lock_bh(&ar_sdio->scat_lock);
662 663
	list_for_each_entry_safe(s_req, tmp_req, &ar_sdio->scat_req, list) {
		list_del(&s_req->list);
664
		spin_unlock_bh(&ar_sdio->scat_lock);
665

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		/*
		 * FIXME: should we also call completion handler with
		 * ath6kl_hif_rw_comp_handler() with status -ECANCELED so
		 * that the packet is properly freed?
		 */
671 672 673 674 675 676
		if (s_req->busrequest)
			ath6kl_sdio_free_bus_req(ar_sdio, s_req->busrequest);
		kfree(s_req->virt_dma_buf);
		kfree(s_req->sgentries);
		kfree(s_req);

677
		spin_lock_bh(&ar_sdio->scat_lock);
678
	}
679
	spin_unlock_bh(&ar_sdio->scat_lock);
680 681 682
}

/* setup of HIF scatter resources */
683
static int ath6kl_sdio_enable_scatter(struct ath6kl *ar)
684 685
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
686
	struct htc_target *target = ar->htc_target;
687 688
	int ret;
	bool virt_scat = false;
689

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	if (ar_sdio->scatter_enabled)
		return 0;

	ar_sdio->scatter_enabled = true;

695 696
	/* check if host supports scatter and it meets our requirements */
	if (ar_sdio->func->card->host->max_segs < MAX_SCATTER_ENTRIES_PER_REQ) {
697
		ath6kl_err("host only supports scatter of :%d entries, need: %d\n",
698 699
			   ar_sdio->func->card->host->max_segs,
			   MAX_SCATTER_ENTRIES_PER_REQ);
700
		virt_scat = true;
701 702
	}

703 704 705 706 707 708
	if (!virt_scat) {
		ret = ath6kl_sdio_alloc_prep_scat_req(ar_sdio,
				MAX_SCATTER_ENTRIES_PER_REQ,
				MAX_SCATTER_REQUESTS, virt_scat);

		if (!ret) {
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			ath6kl_dbg(ATH6KL_DBG_BOOT,
				   "hif-scatter enabled requests %d entries %d\n",
711 712 713
				   MAX_SCATTER_REQUESTS,
				   MAX_SCATTER_ENTRIES_PER_REQ);

714 715
			target->max_scat_entries = MAX_SCATTER_ENTRIES_PER_REQ;
			target->max_xfer_szper_scatreq =
716 717 718 719 720 721
						MAX_SCATTER_REQ_TRANSFER_SIZE;
		} else {
			ath6kl_sdio_cleanup_scatter(ar);
			ath6kl_warn("hif scatter resource setup failed, trying virtual scatter method\n");
		}
	}
722

723 724 725 726 727 728 729 730 731 732 733
	if (virt_scat || ret) {
		ret = ath6kl_sdio_alloc_prep_scat_req(ar_sdio,
				ATH6KL_SCATTER_ENTRIES_PER_REQ,
				ATH6KL_SCATTER_REQS, virt_scat);

		if (ret) {
			ath6kl_err("failed to alloc virtual scatter resources !\n");
			ath6kl_sdio_cleanup_scatter(ar);
			return ret;
		}

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		ath6kl_dbg(ATH6KL_DBG_BOOT,
			   "virtual scatter enabled requests %d entries %d\n",
736 737
			   ATH6KL_SCATTER_REQS, ATH6KL_SCATTER_ENTRIES_PER_REQ);

738 739
		target->max_scat_entries = ATH6KL_SCATTER_ENTRIES_PER_REQ;
		target->max_xfer_szper_scatreq =
740
					ATH6KL_MAX_TRANSFER_SIZE_PER_SCATTER;
741 742 743 744 745
	}

	return 0;
}

746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784
static int ath6kl_sdio_config(struct ath6kl *ar)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	struct sdio_func *func = ar_sdio->func;
	int ret;

	sdio_claim_host(func);

	if ((ar_sdio->id->device & MANUFACTURER_ID_ATH6KL_BASE_MASK) >=
	    MANUFACTURER_ID_AR6003_BASE) {
		/* enable 4-bit ASYNC interrupt on AR6003 or later */
		ret = ath6kl_sdio_func0_cmd52_wr_byte(func->card,
						CCCR_SDIO_IRQ_MODE_REG,
						SDIO_IRQ_MODE_ASYNC_4BIT_IRQ);
		if (ret) {
			ath6kl_err("Failed to enable 4-bit async irq mode %d\n",
				   ret);
			goto out;
		}

		ath6kl_dbg(ATH6KL_DBG_BOOT, "4-bit async irq mode enabled\n");
	}

	/* give us some time to enable, in ms */
	func->enable_timeout = 100;

	ret = sdio_set_block_size(func, HIF_MBOX_BLOCK_SIZE);
	if (ret) {
		ath6kl_err("Set sdio block size %d failed: %d)\n",
			   HIF_MBOX_BLOCK_SIZE, ret);
		goto out;
	}

out:
	sdio_release_host(func);

	return ret;
}

785
static int ath6kl_set_sdio_pm_caps(struct ath6kl *ar)
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{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	struct sdio_func *func = ar_sdio->func;
	mmc_pm_flag_t flags;
	int ret;

	flags = sdio_get_host_pm_caps(func);

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	ath6kl_dbg(ATH6KL_DBG_SUSPEND, "sdio suspend pm_caps 0x%x\n", flags);

796 797 798
	if (!(flags & MMC_PM_WAKE_SDIO_IRQ) ||
	    !(flags & MMC_PM_KEEP_POWER))
		return -EINVAL;
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	ret = sdio_set_host_pm_flags(func, MMC_PM_KEEP_POWER);
	if (ret) {
802
		ath6kl_err("set sdio keep pwr flag failed: %d\n", ret);
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		return ret;
	}

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	/* sdio irq wakes up host */
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	ret = sdio_set_host_pm_flags(func, MMC_PM_WAKE_SDIO_IRQ);
	if (ret)
		ath6kl_err("set sdio wake irq flag failed: %d\n", ret);

	return ret;
}

static int ath6kl_sdio_suspend(struct ath6kl *ar, struct cfg80211_wowlan *wow)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	struct sdio_func *func = ar_sdio->func;
	mmc_pm_flag_t flags;
	int ret;
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	if (ar->state == ATH6KL_STATE_SCHED_SCAN) {
822 823 824 825 826 827
		ath6kl_dbg(ATH6KL_DBG_SUSPEND, "sched scan is in progress\n");

		ret = ath6kl_set_sdio_pm_caps(ar);
		if (ret)
			goto cut_pwr;

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		ret =  ath6kl_cfg80211_suspend(ar,
					       ATH6KL_CFG_SUSPEND_SCHED_SCAN,
					       NULL);
		if (ret)
832
			goto cut_pwr;
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834
		return 0;
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	}

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	if (ar->suspend_mode == WLAN_POWER_STATE_WOW ||
	    (!ar->suspend_mode && wow)) {

		ret = ath6kl_set_sdio_pm_caps(ar);
		if (ret)
			goto cut_pwr;

844 845
		ret = ath6kl_cfg80211_suspend(ar, ATH6KL_CFG_SUSPEND_WOW, wow);
		if (ret)
846 847 848 849 850 851 852
			goto cut_pwr;

		return 0;
	}

	if (ar->suspend_mode == WLAN_POWER_STATE_DEEP_SLEEP ||
	    !ar->suspend_mode) {
853

854 855 856 857 858
		flags = sdio_get_host_pm_caps(func);
		if (!(flags & MMC_PM_KEEP_POWER))
			goto cut_pwr;

		ret = sdio_set_host_pm_flags(func, MMC_PM_KEEP_POWER);
859
		if (ret)
860
			goto cut_pwr;
861

862 863 864 865 866 867 868 869 870 871 872 873 874
		/*
		 * Workaround to support Deep Sleep with MSM, set the host pm
		 * flag as MMC_PM_WAKE_SDIO_IRQ to allow SDCC deiver to disable
		 * the sdc2_clock and internally allows MSM to enter
		 * TCXO shutdown properly.
		 */
		if ((flags & MMC_PM_WAKE_SDIO_IRQ)) {
			ret = sdio_set_host_pm_flags(func,
						MMC_PM_WAKE_SDIO_IRQ);
			if (ret)
				goto cut_pwr;
		}

875 876 877 878 879 880
		ret = ath6kl_cfg80211_suspend(ar, ATH6KL_CFG_SUSPEND_DEEPSLEEP,
					      NULL);
		if (ret)
			goto cut_pwr;

		return 0;
881 882
	}

883 884
cut_pwr:
	return ath6kl_cfg80211_suspend(ar, ATH6KL_CFG_SUSPEND_CUTPOWER, NULL);
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}

887 888
static int ath6kl_sdio_resume(struct ath6kl *ar)
{
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	switch (ar->state) {
	case ATH6KL_STATE_OFF:
	case ATH6KL_STATE_CUTPOWER:
		ath6kl_dbg(ATH6KL_DBG_SUSPEND,
			   "sdio resume configuring sdio\n");

		/* need to set sdio settings after power is cut from sdio */
		ath6kl_sdio_config(ar);
		break;

	case ATH6KL_STATE_ON:
		break;

	case ATH6KL_STATE_DEEPSLEEP:
		break;
904 905 906

	case ATH6KL_STATE_WOW:
		break;
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	case ATH6KL_STATE_SCHED_SCAN:
		break;
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	}

911
	ath6kl_cfg80211_resume(ar);
912 913 914 915

	return 0;
}

916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 937 938 939 940 941 942 943 944 945 946 947 948 949 950 951 952 953 954 955 956 957 958 959 960 961 962 963 964 965 966 967 968 969 970 971 972 973 974 975 976 977 978 979 980 981 982 983 984 985 986 987 988 989 990 991 992 993 994 995 996 997 998 999 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009 1010 1011 1012 1013
/* set the window address register (using 4-byte register access ). */
static int ath6kl_set_addrwin_reg(struct ath6kl *ar, u32 reg_addr, u32 addr)
{
	int status;
	u8 addr_val[4];
	s32 i;

	/*
	 * Write bytes 1,2,3 of the register to set the upper address bytes,
	 * the LSB is written last to initiate the access cycle
	 */

	for (i = 1; i <= 3; i++) {
		/*
		 * Fill the buffer with the address byte value we want to
		 * hit 4 times.
		 */
		memset(addr_val, ((u8 *)&addr)[i], 4);

		/*
		 * Hit each byte of the register address with a 4-byte
		 * write operation to the same address, this is a harmless
		 * operation.
		 */
		status = ath6kl_sdio_read_write_sync(ar, reg_addr + i, addr_val,
					     4, HIF_WR_SYNC_BYTE_FIX);
		if (status)
			break;
	}

	if (status) {
		ath6kl_err("%s: failed to write initial bytes of 0x%x "
			   "to window reg: 0x%X\n", __func__,
			   addr, reg_addr);
		return status;
	}

	/*
	 * Write the address register again, this time write the whole
	 * 4-byte value. The effect here is that the LSB write causes the
	 * cycle to start, the extra 3 byte write to bytes 1,2,3 has no
	 * effect since we are writing the same values again
	 */
	status = ath6kl_sdio_read_write_sync(ar, reg_addr, (u8 *)(&addr),
				     4, HIF_WR_SYNC_BYTE_INC);

	if (status) {
		ath6kl_err("%s: failed to write 0x%x to window reg: 0x%X\n",
			   __func__, addr, reg_addr);
		return status;
	}

	return 0;
}

static int ath6kl_sdio_diag_read32(struct ath6kl *ar, u32 address, u32 *data)
{
	int status;

	/* set window register to start read cycle */
	status = ath6kl_set_addrwin_reg(ar, WINDOW_READ_ADDR_ADDRESS,
					address);

	if (status)
		return status;

	/* read the data */
	status = ath6kl_sdio_read_write_sync(ar, WINDOW_DATA_ADDRESS,
				(u8 *)data, sizeof(u32), HIF_RD_SYNC_BYTE_INC);
	if (status) {
		ath6kl_err("%s: failed to read from window data addr\n",
			__func__);
		return status;
	}

	return status;
}

static int ath6kl_sdio_diag_write32(struct ath6kl *ar, u32 address,
				    __le32 data)
{
	int status;
	u32 val = (__force u32) data;

	/* set write data */
	status = ath6kl_sdio_read_write_sync(ar, WINDOW_DATA_ADDRESS,
				(u8 *) &val, sizeof(u32), HIF_WR_SYNC_BYTE_INC);
	if (status) {
		ath6kl_err("%s: failed to write 0x%x to window data addr\n",
			   __func__, data);
		return status;
	}

	/* set window register, which starts the write cycle */
	return ath6kl_set_addrwin_reg(ar, WINDOW_WRITE_ADDR_ADDRESS,
				      address);
}

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static int ath6kl_sdio_bmi_credits(struct ath6kl *ar)
{
	u32 addr;
	unsigned long timeout;
	int ret;

	ar->bmi.cmd_credits = 0;

	/* Read the counter register to get the command credits */
	addr = COUNT_DEC_ADDRESS + (HTC_MAILBOX_NUM_MAX + ENDPOINT1) * 4;

	timeout = jiffies + msecs_to_jiffies(BMI_COMMUNICATION_TIMEOUT);
	while (time_before(jiffies, timeout) && !ar->bmi.cmd_credits) {

		/*
		 * Hit the credit counter with a 4-byte access, the first byte
		 * read will hit the counter and cause a decrement, while the
		 * remaining 3 bytes has no effect. The rationale behind this
		 * is to make all HIF accesses 4-byte aligned.
		 */
		ret = ath6kl_sdio_read_write_sync(ar, addr,
					 (u8 *)&ar->bmi.cmd_credits, 4,
					 HIF_RD_SYNC_BYTE_INC);
		if (ret) {
			ath6kl_err("Unable to decrement the command credit "
						"count register: %d\n", ret);
			return ret;
		}

		/* The counter is only 8 bits.
		 * Ignore anything in the upper 3 bytes
		 */
		ar->bmi.cmd_credits &= 0xFF;
	}

	if (!ar->bmi.cmd_credits) {
		ath6kl_err("bmi communication timeout\n");
		return -ETIMEDOUT;
	}

	return 0;
}

static int ath6kl_bmi_get_rx_lkahd(struct ath6kl *ar)
{
	unsigned long timeout;
	u32 rx_word = 0;
	int ret = 0;

	timeout = jiffies + msecs_to_jiffies(BMI_COMMUNICATION_TIMEOUT);
	while ((time_before(jiffies, timeout)) && !rx_word) {
		ret = ath6kl_sdio_read_write_sync(ar,
					RX_LOOKAHEAD_VALID_ADDRESS,
					(u8 *)&rx_word, sizeof(rx_word),
					HIF_RD_SYNC_BYTE_INC);
		if (ret) {
			ath6kl_err("unable to read RX_LOOKAHEAD_VALID\n");
			return ret;
		}

		 /* all we really want is one bit */
		rx_word &= (1 << ENDPOINT1);
	}

	if (!rx_word) {
		ath6kl_err("bmi_recv_buf FIFO empty\n");
		return -EINVAL;
	}

	return ret;
}

static int ath6kl_sdio_bmi_write(struct ath6kl *ar, u8 *buf, u32 len)
{
	int ret;
	u32 addr;

	ret = ath6kl_sdio_bmi_credits(ar);
	if (ret)
		return ret;

	addr = ar->mbox_info.htc_addr;

	ret = ath6kl_sdio_read_write_sync(ar, addr, buf, len,
					  HIF_WR_SYNC_BYTE_INC);
	if (ret)
		ath6kl_err("unable to send the bmi data to the device\n");

	return ret;
}

static int ath6kl_sdio_bmi_read(struct ath6kl *ar, u8 *buf, u32 len)
{
	int ret;
	u32 addr;

	/*
	 * During normal bootup, small reads may be required.
	 * Rather than issue an HIF Read and then wait as the Target
	 * adds successive bytes to the FIFO, we wait here until
	 * we know that response data is available.
	 *
	 * This allows us to cleanly timeout on an unexpected
	 * Target failure rather than risk problems at the HIF level.
	 * In particular, this avoids SDIO timeouts and possibly garbage
	 * data on some host controllers.  And on an interconnect
	 * such as Compact Flash (as well as some SDIO masters) which
	 * does not provide any indication on data timeout, it avoids
	 * a potential hang or garbage response.
	 *
	 * Synchronization is more difficult for reads larger than the
	 * size of the MBOX FIFO (128B), because the Target is unable
	 * to push the 129th byte of data until AFTER the Host posts an
	 * HIF Read and removes some FIFO data.  So for large reads the
	 * Host proceeds to post an HIF Read BEFORE all the data is
	 * actually available to read.  Fortunately, large BMI reads do
	 * not occur in practice -- they're supported for debug/development.
	 *
	 * So Host/Target BMI synchronization is divided into these cases:
	 *  CASE 1: length < 4
	 *        Should not happen
	 *
	 *  CASE 2: 4 <= length <= 128
	 *        Wait for first 4 bytes to be in FIFO
	 *        If CONSERVATIVE_BMI_READ is enabled, also wait for
	 *        a BMI command credit, which indicates that the ENTIRE
	 *        response is available in the the FIFO
	 *
	 *  CASE 3: length > 128
	 *        Wait for the first 4 bytes to be in FIFO
	 *
	 * For most uses, a small timeout should be sufficient and we will
	 * usually see a response quickly; but there may be some unusual
	 * (debug) cases of BMI_EXECUTE where we want an larger timeout.
	 * For now, we use an unbounded busy loop while waiting for
	 * BMI_EXECUTE.
	 *
	 * If BMI_EXECUTE ever needs to support longer-latency execution,
	 * especially in production, this code needs to be enhanced to sleep
	 * and yield.  Also note that BMI_COMMUNICATION_TIMEOUT is currently
	 * a function of Host processor speed.
	 */
	if (len >= 4) { /* NB: Currently, always true */
		ret = ath6kl_bmi_get_rx_lkahd(ar);
		if (ret)
			return ret;
	}

	addr = ar->mbox_info.htc_addr;
	ret = ath6kl_sdio_read_write_sync(ar, addr, buf, len,
				  HIF_RD_SYNC_BYTE_INC);
	if (ret) {
		ath6kl_err("Unable to read the bmi data from the device: %d\n",
			   ret);
		return ret;
	}

	return 0;
}

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static void ath6kl_sdio_stop(struct ath6kl *ar)
{
	struct ath6kl_sdio *ar_sdio = ath6kl_sdio_priv(ar);
	struct bus_request *req, *tmp_req;
	void *context;

	/* FIXME: make sure that wq is not queued again */

	cancel_work_sync(&ar_sdio->wr_async_work);

	spin_lock_bh(&ar_sdio->wr_async_lock);

	list_for_each_entry_safe(req, tmp_req, &ar_sdio->wr_asyncq, list) {
		list_del(&req->list);

		if (req->scat_req) {
			/* this is a scatter gather request */
			req->scat_req->status = -ECANCELED;
			req->scat_req->complete(ar_sdio->ar->htc_target,
						req->scat_req);
		} else {
			context = req->packet;
			ath6kl_sdio_free_bus_req(ar_sdio, req);
			ath6kl_hif_rw_comp_handler(context, -ECANCELED);
		}
	}

	spin_unlock_bh(&ar_sdio->wr_async_lock);

	WARN_ON(get_queue_depth(&ar_sdio->scat_req) != 4);
}

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static const struct ath6kl_hif_ops ath6kl_sdio_ops = {
	.read_write_sync = ath6kl_sdio_read_write_sync,
	.write_async = ath6kl_sdio_write_async,
	.irq_enable = ath6kl_sdio_irq_enable,
	.irq_disable = ath6kl_sdio_irq_disable,
	.scatter_req_get = ath6kl_sdio_scatter_req_get,
	.scatter_req_add = ath6kl_sdio_scatter_req_add,
	.enable_scatter = ath6kl_sdio_enable_scatter,
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	.scat_req_rw = ath6kl_sdio_async_rw_scatter,
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	.cleanup_scatter = ath6kl_sdio_cleanup_scatter,
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	.suspend = ath6kl_sdio_suspend,
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	.resume = ath6kl_sdio_resume,
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	.diag_read32 = ath6kl_sdio_diag_read32,
	.diag_write32 = ath6kl_sdio_diag_write32,
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	.bmi_read = ath6kl_sdio_bmi_read,
	.bmi_write = ath6kl_sdio_bmi_write,
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	.power_on = ath6kl_sdio_power_on,
	.power_off = ath6kl_sdio_power_off,
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	.stop = ath6kl_sdio_stop,
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};

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#ifdef CONFIG_PM_SLEEP

/*
 * Empty handlers so that mmc subsystem doesn't remove us entirely during
 * suspend. We instead follow cfg80211 suspend/resume handlers.
 */
static int ath6kl_sdio_pm_suspend(struct device *device)
{
	ath6kl_dbg(ATH6KL_DBG_SUSPEND, "sdio pm suspend\n");

	return 0;
}

static int ath6kl_sdio_pm_resume(struct device *device)
{
	ath6kl_dbg(ATH6KL_DBG_SUSPEND, "sdio pm resume\n");

	return 0;
}

static SIMPLE_DEV_PM_OPS(ath6kl_sdio_pm_ops, ath6kl_sdio_pm_suspend,
			 ath6kl_sdio_pm_resume);

#define ATH6KL_SDIO_PM_OPS (&ath6kl_sdio_pm_ops)

#else

#define ATH6KL_SDIO_PM_OPS NULL

#endif /* CONFIG_PM_SLEEP */

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static int ath6kl_sdio_probe(struct sdio_func *func,
			     const struct sdio_device_id *id)
{
	int ret;
	struct ath6kl_sdio *ar_sdio;
	struct ath6kl *ar;
	int count;

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	ath6kl_dbg(ATH6KL_DBG_BOOT,
		   "sdio new func %d vendor 0x%x device 0x%x block 0x%x/0x%x\n",
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		   func->num, func->vendor, func->device,
		   func->max_blksize, func->cur_blksize);
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	ar_sdio = kzalloc(sizeof(struct ath6kl_sdio), GFP_KERNEL);
	if (!ar_sdio)
		return -ENOMEM;

	ar_sdio->dma_buffer = kzalloc(HIF_DMA_BUFFER_SIZE, GFP_KERNEL);
	if (!ar_sdio->dma_buffer) {
		ret = -ENOMEM;
		goto err_hif;
	}

	ar_sdio->func = func;
	sdio_set_drvdata(func, ar_sdio);

	ar_sdio->id = id;
	ar_sdio->is_disabled = true;

	spin_lock_init(&ar_sdio->lock);
	spin_lock_init(&ar_sdio->scat_lock);
	spin_lock_init(&ar_sdio->wr_async_lock);
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	mutex_init(&ar_sdio->dma_buffer_mutex);
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	mutex_init(&ar_sdio->mtx_irq);
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	INIT_LIST_HEAD(&ar_sdio->scat_req);
	INIT_LIST_HEAD(&ar_sdio->bus_req_freeq);
	INIT_LIST_HEAD(&ar_sdio->wr_asyncq);

	INIT_WORK(&ar_sdio->wr_async_work, ath6kl_sdio_write_async_work);

	for (count = 0; count < BUS_REQUEST_MAX_NUM; count++)
		ath6kl_sdio_free_bus_req(ar_sdio, &ar_sdio->bus_req[count]);

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	ar = ath6kl_core_create(&ar_sdio->func->dev);
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	if (!ar) {
		ath6kl_err("Failed to alloc ath6kl core\n");
		ret = -ENOMEM;
		goto err_dma;
	}

	ar_sdio->ar = ar;
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	ar->hif_type = ATH6KL_HIF_TYPE_SDIO;
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	ar->hif_priv = ar_sdio;
	ar->hif_ops = &ath6kl_sdio_ops;
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	ar->bmi.max_data_size = 256;
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	ath6kl_sdio_set_mbox_info(ar);

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	ret = ath6kl_sdio_config(ar);
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	if (ret) {
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		ath6kl_err("Failed to config sdio: %d\n", ret);
		goto err_core_alloc;
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	}

	ret = ath6kl_core_init(ar);
	if (ret) {
		ath6kl_err("Failed to init ath6kl core\n");
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		goto err_core_alloc;
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	}

	return ret;

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err_core_alloc:
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	ath6kl_core_destroy(ar_sdio->ar);
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err_dma:
	kfree(ar_sdio->dma_buffer);
err_hif:
	kfree(ar_sdio);

	return ret;
}

static void ath6kl_sdio_remove(struct sdio_func *func)
{
	struct ath6kl_sdio *ar_sdio;

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	ath6kl_dbg(ATH6KL_DBG_BOOT,
		   "sdio removed func %d vendor 0x%x device 0x%x\n",
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		   func->num, func->vendor, func->device);

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	ar_sdio = sdio_get_drvdata(func);

	ath6kl_stop_txrx(ar_sdio->ar);
	cancel_work_sync(&ar_sdio->wr_async_work);

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	ath6kl_core_cleanup(ar_sdio->ar);
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	ath6kl_core_destroy(ar_sdio->ar);
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	kfree(ar_sdio->dma_buffer);
	kfree(ar_sdio);
}

static const struct sdio_device_id ath6kl_sdio_devices[] = {
	{SDIO_DEVICE(MANUFACTURER_CODE, (MANUFACTURER_ID_AR6003_BASE | 0x0))},
	{SDIO_DEVICE(MANUFACTURER_CODE, (MANUFACTURER_ID_AR6003_BASE | 0x1))},
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	{SDIO_DEVICE(MANUFACTURER_CODE, (MANUFACTURER_ID_AR6004_BASE | 0x0))},
	{SDIO_DEVICE(MANUFACTURER_CODE, (MANUFACTURER_ID_AR6004_BASE | 0x1))},
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	{},
};

MODULE_DEVICE_TABLE(sdio, ath6kl_sdio_devices);

static struct sdio_driver ath6kl_sdio_driver = {
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	.name = "ath6kl_sdio",
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	.id_table = ath6kl_sdio_devices,
	.probe = ath6kl_sdio_probe,
	.remove = ath6kl_sdio_remove,
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	.drv.pm = ATH6KL_SDIO_PM_OPS,
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};

static int __init ath6kl_sdio_init(void)
{
	int ret;

	ret = sdio_register_driver(&ath6kl_sdio_driver);
	if (ret)
		ath6kl_err("sdio driver registration failed: %d\n", ret);

	return ret;
}

static void __exit ath6kl_sdio_exit(void)
{
	sdio_unregister_driver(&ath6kl_sdio_driver);
}

module_init(ath6kl_sdio_init);
module_exit(ath6kl_sdio_exit);

MODULE_AUTHOR("Atheros Communications, Inc.");
MODULE_DESCRIPTION("Driver support for Atheros AR600x SDIO devices");
MODULE_LICENSE("Dual BSD/GPL");

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MODULE_FIRMWARE(AR6003_HW_2_0_FW_DIR "/" AR6003_HW_2_0_OTP_FILE);
MODULE_FIRMWARE(AR6003_HW_2_0_FW_DIR "/" AR6003_HW_2_0_FIRMWARE_FILE);
MODULE_FIRMWARE(AR6003_HW_2_0_FW_DIR "/" AR6003_HW_2_0_PATCH_FILE);
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MODULE_FIRMWARE(AR6003_HW_2_0_BOARD_DATA_FILE);
MODULE_FIRMWARE(AR6003_HW_2_0_DEFAULT_BOARD_DATA_FILE);
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MODULE_FIRMWARE(AR6003_HW_2_1_1_FW_DIR "/" AR6003_HW_2_1_1_OTP_FILE);
MODULE_FIRMWARE(AR6003_HW_2_1_1_FW_DIR "/" AR6003_HW_2_1_1_FIRMWARE_FILE);
MODULE_FIRMWARE(AR6003_HW_2_1_1_FW_DIR "/" AR6003_HW_2_1_1_PATCH_FILE);
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MODULE_FIRMWARE(AR6003_HW_2_1_1_BOARD_DATA_FILE);
MODULE_FIRMWARE(AR6003_HW_2_1_1_DEFAULT_BOARD_DATA_FILE);
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MODULE_FIRMWARE(AR6004_HW_1_0_FW_DIR "/" AR6004_HW_1_0_FIRMWARE_FILE);
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MODULE_FIRMWARE(AR6004_HW_1_0_BOARD_DATA_FILE);
MODULE_FIRMWARE(AR6004_HW_1_0_DEFAULT_BOARD_DATA_FILE);
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MODULE_FIRMWARE(AR6004_HW_1_1_FW_DIR "/" AR6004_HW_1_1_FIRMWARE_FILE);
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MODULE_FIRMWARE(AR6004_HW_1_1_BOARD_DATA_FILE);
MODULE_FIRMWARE(AR6004_HW_1_1_DEFAULT_BOARD_DATA_FILE);