dma_v3.c 36.9 KB
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/*
 * This file is provided under a dual BSD/GPLv2 license.  When using or
 * redistributing this file, you may do so under either license.
 *
 * GPL LICENSE SUMMARY
 *
 * Copyright(c) 2004 - 2009 Intel Corporation. All rights reserved.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
 * more details.
 *
 * You should have received a copy of the GNU General Public License along with
 * this program; if not, write to the Free Software Foundation, Inc.,
 * 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * The full GNU General Public License is included in this distribution in
 * the file called "COPYING".
 *
 * BSD LICENSE
 *
 * Copyright(c) 2004-2009 Intel Corporation. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *
 *   * Redistributions of source code must retain the above copyright
 *     notice, this list of conditions and the following disclaimer.
 *   * Redistributions in binary form must reproduce the above copyright
 *     notice, this list of conditions and the following disclaimer in
 *     the documentation and/or other materials provided with the
 *     distribution.
 *   * Neither the name of Intel Corporation nor the names of its
 *     contributors may be used to endorse or promote products derived
 *     from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */

/*
 * Support routines for v3+ hardware
 */

#include <linux/pci.h>
#include <linux/dmaengine.h>
#include <linux/dma-mapping.h>
#include "registers.h"
#include "hw.h"
#include "dma.h"
#include "dma_v2.h"

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/* ioat hardware assumes at least two sources for raid operations */
#define src_cnt_to_sw(x) ((x) + 2)
#define src_cnt_to_hw(x) ((x) - 2)

/* provide a lookup table for setting the source address in the base or
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 * extended descriptor of an xor or pq descriptor
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 */
static const u8 xor_idx_to_desc __read_mostly = 0xd0;
static const u8 xor_idx_to_field[] __read_mostly = { 1, 4, 5, 6, 7, 0, 1, 2 };
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static const u8 pq_idx_to_desc __read_mostly = 0xf8;
static const u8 pq_idx_to_field[] __read_mostly = { 1, 4, 5, 0, 1, 2, 4, 5 };
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static dma_addr_t xor_get_src(struct ioat_raw_descriptor *descs[2], int idx)
{
	struct ioat_raw_descriptor *raw = descs[xor_idx_to_desc >> idx & 1];

	return raw->field[xor_idx_to_field[idx]];
}

static void xor_set_src(struct ioat_raw_descriptor *descs[2],
			dma_addr_t addr, u32 offset, int idx)
{
	struct ioat_raw_descriptor *raw = descs[xor_idx_to_desc >> idx & 1];

	raw->field[xor_idx_to_field[idx]] = addr + offset;
}

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static dma_addr_t pq_get_src(struct ioat_raw_descriptor *descs[2], int idx)
{
	struct ioat_raw_descriptor *raw = descs[pq_idx_to_desc >> idx & 1];

	return raw->field[pq_idx_to_field[idx]];
}

static void pq_set_src(struct ioat_raw_descriptor *descs[2],
		       dma_addr_t addr, u32 offset, u8 coef, int idx)
{
	struct ioat_pq_descriptor *pq = (struct ioat_pq_descriptor *) descs[0];
	struct ioat_raw_descriptor *raw = descs[pq_idx_to_desc >> idx & 1];

	raw->field[pq_idx_to_field[idx]] = addr + offset;
	pq->coef[idx] = coef;
}

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static void ioat3_dma_unmap(struct ioat2_dma_chan *ioat,
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			    struct ioat_ring_ent *desc, int idx)
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{
	struct ioat_chan_common *chan = &ioat->base;
	struct pci_dev *pdev = chan->device->pdev;
	size_t len = desc->len;
	size_t offset = len - desc->hw->size;
	struct dma_async_tx_descriptor *tx = &desc->txd;
	enum dma_ctrl_flags flags = tx->flags;

	switch (desc->hw->ctl_f.op) {
	case IOAT_OP_COPY:
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		if (!desc->hw->ctl_f.null) /* skip 'interrupt' ops */
			ioat_dma_unmap(chan, flags, len, desc->hw);
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		break;
	case IOAT_OP_FILL: {
		struct ioat_fill_descriptor *hw = desc->fill;

		if (!(flags & DMA_COMPL_SKIP_DEST_UNMAP))
			ioat_unmap(pdev, hw->dst_addr - offset, len,
				   PCI_DMA_FROMDEVICE, flags, 1);
		break;
	}
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	case IOAT_OP_XOR_VAL:
	case IOAT_OP_XOR: {
		struct ioat_xor_descriptor *xor = desc->xor;
		struct ioat_ring_ent *ext;
		struct ioat_xor_ext_descriptor *xor_ex = NULL;
		int src_cnt = src_cnt_to_sw(xor->ctl_f.src_cnt);
		struct ioat_raw_descriptor *descs[2];
		int i;

		if (src_cnt > 5) {
			ext = ioat2_get_ring_ent(ioat, idx + 1);
			xor_ex = ext->xor_ex;
		}

		if (!(flags & DMA_COMPL_SKIP_SRC_UNMAP)) {
			descs[0] = (struct ioat_raw_descriptor *) xor;
			descs[1] = (struct ioat_raw_descriptor *) xor_ex;
			for (i = 0; i < src_cnt; i++) {
				dma_addr_t src = xor_get_src(descs, i);

				ioat_unmap(pdev, src - offset, len,
					   PCI_DMA_TODEVICE, flags, 0);
			}

			/* dest is a source in xor validate operations */
			if (xor->ctl_f.op == IOAT_OP_XOR_VAL) {
				ioat_unmap(pdev, xor->dst_addr - offset, len,
					   PCI_DMA_TODEVICE, flags, 1);
				break;
			}
		}

		if (!(flags & DMA_COMPL_SKIP_DEST_UNMAP))
			ioat_unmap(pdev, xor->dst_addr - offset, len,
				   PCI_DMA_FROMDEVICE, flags, 1);
		break;
	}
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	case IOAT_OP_PQ_VAL:
	case IOAT_OP_PQ: {
		struct ioat_pq_descriptor *pq = desc->pq;
		struct ioat_ring_ent *ext;
		struct ioat_pq_ext_descriptor *pq_ex = NULL;
		int src_cnt = src_cnt_to_sw(pq->ctl_f.src_cnt);
		struct ioat_raw_descriptor *descs[2];
		int i;

		if (src_cnt > 3) {
			ext = ioat2_get_ring_ent(ioat, idx + 1);
			pq_ex = ext->pq_ex;
		}

		/* in the 'continue' case don't unmap the dests as sources */
		if (dmaf_p_disabled_continue(flags))
			src_cnt--;
		else if (dmaf_continue(flags))
			src_cnt -= 3;

		if (!(flags & DMA_COMPL_SKIP_SRC_UNMAP)) {
			descs[0] = (struct ioat_raw_descriptor *) pq;
			descs[1] = (struct ioat_raw_descriptor *) pq_ex;
			for (i = 0; i < src_cnt; i++) {
				dma_addr_t src = pq_get_src(descs, i);

				ioat_unmap(pdev, src - offset, len,
					   PCI_DMA_TODEVICE, flags, 0);
			}

			/* the dests are sources in pq validate operations */
			if (pq->ctl_f.op == IOAT_OP_XOR_VAL) {
				if (!(flags & DMA_PREP_PQ_DISABLE_P))
					ioat_unmap(pdev, pq->p_addr - offset,
						   len, PCI_DMA_TODEVICE, flags, 0);
				if (!(flags & DMA_PREP_PQ_DISABLE_Q))
					ioat_unmap(pdev, pq->q_addr - offset,
						   len, PCI_DMA_TODEVICE, flags, 0);
				break;
			}
		}

		if (!(flags & DMA_COMPL_SKIP_DEST_UNMAP)) {
			if (!(flags & DMA_PREP_PQ_DISABLE_P))
				ioat_unmap(pdev, pq->p_addr - offset, len,
					   PCI_DMA_BIDIRECTIONAL, flags, 1);
			if (!(flags & DMA_PREP_PQ_DISABLE_Q))
				ioat_unmap(pdev, pq->q_addr - offset, len,
					   PCI_DMA_BIDIRECTIONAL, flags, 1);
		}
		break;
	}
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	default:
		dev_err(&pdev->dev, "%s: unknown op type: %#x\n",
			__func__, desc->hw->ctl_f.op);
	}
}

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static bool desc_has_ext(struct ioat_ring_ent *desc)
{
	struct ioat_dma_descriptor *hw = desc->hw;

	if (hw->ctl_f.op == IOAT_OP_XOR ||
	    hw->ctl_f.op == IOAT_OP_XOR_VAL) {
		struct ioat_xor_descriptor *xor = desc->xor;
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		if (src_cnt_to_sw(xor->ctl_f.src_cnt) > 5)
			return true;
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	} else if (hw->ctl_f.op == IOAT_OP_PQ ||
		   hw->ctl_f.op == IOAT_OP_PQ_VAL) {
		struct ioat_pq_descriptor *pq = desc->pq;

		if (src_cnt_to_sw(pq->ctl_f.src_cnt) > 3)
			return true;
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	}

	return false;
}

/**
 * __cleanup - reclaim used descriptors
 * @ioat: channel (ring) to clean
 *
 * The difference from the dma_v2.c __cleanup() is that this routine
 * handles extended descriptors and dma-unmapping raid operations.
 */
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static void __cleanup(struct ioat2_dma_chan *ioat, unsigned long phys_complete)
{
	struct ioat_chan_common *chan = &ioat->base;
	struct ioat_ring_ent *desc;
	bool seen_current = false;
	u16 active;
	int i;

	dev_dbg(to_dev(chan), "%s: head: %#x tail: %#x issued: %#x\n",
		__func__, ioat->head, ioat->tail, ioat->issued);

	active = ioat2_ring_active(ioat);
	for (i = 0; i < active && !seen_current; i++) {
		struct dma_async_tx_descriptor *tx;

		prefetch(ioat2_get_ring_ent(ioat, ioat->tail + i + 1));
		desc = ioat2_get_ring_ent(ioat, ioat->tail + i);
		dump_desc_dbg(ioat, desc);
		tx = &desc->txd;
		if (tx->cookie) {
			chan->completed_cookie = tx->cookie;
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			ioat3_dma_unmap(ioat, desc, ioat->tail + i);
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			tx->cookie = 0;
			if (tx->callback) {
				tx->callback(tx->callback_param);
				tx->callback = NULL;
			}
		}

		if (tx->phys == phys_complete)
			seen_current = true;
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		/* skip extended descriptors */
		if (desc_has_ext(desc)) {
			BUG_ON(i + 1 >= active);
			i++;
		}
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	}
	ioat->tail += i;
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	BUG_ON(active && !seen_current); /* no active descs have written a completion? */
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	chan->last_completion = phys_complete;
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	active = ioat2_ring_active(ioat);
	if (active == 0) {
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		dev_dbg(to_dev(chan), "%s: cancel completion timeout\n",
			__func__);
		clear_bit(IOAT_COMPLETION_PENDING, &chan->state);
		mod_timer(&chan->timer, jiffies + IDLE_TIMEOUT);
	}
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	/* 5 microsecond delay per pending descriptor */
	writew(min((5 * active), IOAT_INTRDELAY_MASK),
	       chan->device->reg_base + IOAT_INTRDELAY_OFFSET);
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}

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/* try to cleanup, but yield (via spin_trylock) to incoming submissions
 * with the expectation that we will immediately poll again shortly
 */
static void ioat3_cleanup_poll(struct ioat2_dma_chan *ioat)
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{
	struct ioat_chan_common *chan = &ioat->base;
	unsigned long phys_complete;

	prefetch(chan->completion);

	if (!spin_trylock_bh(&chan->cleanup_lock))
		return;

	if (!ioat_cleanup_preamble(chan, &phys_complete)) {
		spin_unlock_bh(&chan->cleanup_lock);
		return;
	}

	if (!spin_trylock_bh(&ioat->ring_lock)) {
		spin_unlock_bh(&chan->cleanup_lock);
		return;
	}

	__cleanup(ioat, phys_complete);

	spin_unlock_bh(&ioat->ring_lock);
	spin_unlock_bh(&chan->cleanup_lock);
}

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/* run cleanup now because we already delayed the interrupt via INTRDELAY */
static void ioat3_cleanup_sync(struct ioat2_dma_chan *ioat)
{
	struct ioat_chan_common *chan = &ioat->base;
	unsigned long phys_complete;

	prefetch(chan->completion);

	spin_lock_bh(&chan->cleanup_lock);
	if (!ioat_cleanup_preamble(chan, &phys_complete)) {
		spin_unlock_bh(&chan->cleanup_lock);
		return;
	}
	spin_lock_bh(&ioat->ring_lock);

	__cleanup(ioat, phys_complete);

	spin_unlock_bh(&ioat->ring_lock);
	spin_unlock_bh(&chan->cleanup_lock);
}

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static void ioat3_cleanup_event(unsigned long data)
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{
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	struct ioat2_dma_chan *ioat = to_ioat2_chan((void *) data);
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	ioat3_cleanup_sync(ioat);
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	writew(IOAT_CHANCTRL_RUN, ioat->base.reg_base + IOAT_CHANCTRL_OFFSET);
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}

static void ioat3_restart_channel(struct ioat2_dma_chan *ioat)
{
	struct ioat_chan_common *chan = &ioat->base;
	unsigned long phys_complete;

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	ioat2_quiesce(chan, 0);
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	if (ioat_cleanup_preamble(chan, &phys_complete))
		__cleanup(ioat, phys_complete);

	__ioat2_restart_chan(ioat);
}

static void ioat3_timer_event(unsigned long data)
{
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	struct ioat2_dma_chan *ioat = to_ioat2_chan((void *) data);
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	struct ioat_chan_common *chan = &ioat->base;

	spin_lock_bh(&chan->cleanup_lock);
	if (test_bit(IOAT_COMPLETION_PENDING, &chan->state)) {
		unsigned long phys_complete;
		u64 status;

		spin_lock_bh(&ioat->ring_lock);
		status = ioat_chansts(chan);

		/* when halted due to errors check for channel
		 * programming errors before advancing the completion state
		 */
		if (is_ioat_halted(status)) {
			u32 chanerr;

			chanerr = readl(chan->reg_base + IOAT_CHANERR_OFFSET);
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			dev_err(to_dev(chan), "%s: Channel halted (%x)\n",
				__func__, chanerr);
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			BUG_ON(is_ioat_bug(chanerr));
		}

		/* if we haven't made progress and we have already
		 * acknowledged a pending completion once, then be more
		 * forceful with a restart
		 */
		if (ioat_cleanup_preamble(chan, &phys_complete))
			__cleanup(ioat, phys_complete);
		else if (test_bit(IOAT_COMPLETION_ACK, &chan->state))
			ioat3_restart_channel(ioat);
		else {
			set_bit(IOAT_COMPLETION_ACK, &chan->state);
			mod_timer(&chan->timer, jiffies + COMPLETION_TIMEOUT);
		}
		spin_unlock_bh(&ioat->ring_lock);
	} else {
		u16 active;

		/* if the ring is idle, empty, and oversized try to step
		 * down the size
		 */
		spin_lock_bh(&ioat->ring_lock);
		active = ioat2_ring_active(ioat);
		if (active == 0 && ioat->alloc_order > ioat_get_alloc_order())
			reshape_ring(ioat, ioat->alloc_order-1);
		spin_unlock_bh(&ioat->ring_lock);

		/* keep shrinking until we get back to our minimum
		 * default size
		 */
		if (ioat->alloc_order > ioat_get_alloc_order())
			mod_timer(&chan->timer, jiffies + IDLE_TIMEOUT);
	}
	spin_unlock_bh(&chan->cleanup_lock);
}

static enum dma_status
ioat3_is_complete(struct dma_chan *c, dma_cookie_t cookie,
		  dma_cookie_t *done, dma_cookie_t *used)
{
	struct ioat2_dma_chan *ioat = to_ioat2_chan(c);

	if (ioat_is_complete(c, cookie, done, used) == DMA_SUCCESS)
		return DMA_SUCCESS;

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	ioat3_cleanup_poll(ioat);
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	return ioat_is_complete(c, cookie, done, used);
}

static struct dma_async_tx_descriptor *
ioat3_prep_memset_lock(struct dma_chan *c, dma_addr_t dest, int value,
		       size_t len, unsigned long flags)
{
	struct ioat2_dma_chan *ioat = to_ioat2_chan(c);
	struct ioat_ring_ent *desc;
	size_t total_len = len;
	struct ioat_fill_descriptor *fill;
	int num_descs;
	u64 src_data = (0x0101010101010101ULL) * (value & 0xff);
	u16 idx;
	int i;

	num_descs = ioat2_xferlen_to_descs(ioat, len);
	if (likely(num_descs) &&
	    ioat2_alloc_and_lock(&idx, ioat, num_descs) == 0)
		/* pass */;
	else
		return NULL;
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	i = 0;
	do {
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		size_t xfer_size = min_t(size_t, len, 1 << ioat->xfercap_log);

		desc = ioat2_get_ring_ent(ioat, idx + i);
		fill = desc->fill;

		fill->size = xfer_size;
		fill->src_data = src_data;
		fill->dst_addr = dest;
		fill->ctl = 0;
		fill->ctl_f.op = IOAT_OP_FILL;

		len -= xfer_size;
		dest += xfer_size;
		dump_desc_dbg(ioat, desc);
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	} while (++i < num_descs);
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	desc->txd.flags = flags;
	desc->len = total_len;
	fill->ctl_f.int_en = !!(flags & DMA_PREP_INTERRUPT);
	fill->ctl_f.fence = !!(flags & DMA_PREP_FENCE);
	fill->ctl_f.compl_write = 1;
	dump_desc_dbg(ioat, desc);

	/* we leave the channel locked to ensure in order submission */
	return &desc->txd;
}

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static struct dma_async_tx_descriptor *
__ioat3_prep_xor_lock(struct dma_chan *c, enum sum_check_flags *result,
		      dma_addr_t dest, dma_addr_t *src, unsigned int src_cnt,
		      size_t len, unsigned long flags)
{
	struct ioat2_dma_chan *ioat = to_ioat2_chan(c);
	struct ioat_ring_ent *compl_desc;
	struct ioat_ring_ent *desc;
	struct ioat_ring_ent *ext;
	size_t total_len = len;
	struct ioat_xor_descriptor *xor;
	struct ioat_xor_ext_descriptor *xor_ex = NULL;
	struct ioat_dma_descriptor *hw;
	u32 offset = 0;
	int num_descs;
	int with_ext;
	int i;
	u16 idx;
	u8 op = result ? IOAT_OP_XOR_VAL : IOAT_OP_XOR;

	BUG_ON(src_cnt < 2);

	num_descs = ioat2_xferlen_to_descs(ioat, len);
	/* we need 2x the number of descriptors to cover greater than 5
	 * sources
	 */
	if (src_cnt > 5) {
		with_ext = 1;
		num_descs *= 2;
	} else
		with_ext = 0;

	/* completion writes from the raid engine may pass completion
	 * writes from the legacy engine, so we need one extra null
	 * (legacy) descriptor to ensure all completion writes arrive in
	 * order.
	 */
	if (likely(num_descs) &&
	    ioat2_alloc_and_lock(&idx, ioat, num_descs+1) == 0)
		/* pass */;
	else
		return NULL;
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	i = 0;
	do {
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		struct ioat_raw_descriptor *descs[2];
		size_t xfer_size = min_t(size_t, len, 1 << ioat->xfercap_log);
		int s;

		desc = ioat2_get_ring_ent(ioat, idx + i);
		xor = desc->xor;

		/* save a branch by unconditionally retrieving the
		 * extended descriptor xor_set_src() knows to not write
		 * to it in the single descriptor case
		 */
		ext = ioat2_get_ring_ent(ioat, idx + i + 1);
		xor_ex = ext->xor_ex;

		descs[0] = (struct ioat_raw_descriptor *) xor;
		descs[1] = (struct ioat_raw_descriptor *) xor_ex;
		for (s = 0; s < src_cnt; s++)
			xor_set_src(descs, src[s], offset, s);
		xor->size = xfer_size;
		xor->dst_addr = dest + offset;
		xor->ctl = 0;
		xor->ctl_f.op = op;
		xor->ctl_f.src_cnt = src_cnt_to_hw(src_cnt);

		len -= xfer_size;
		offset += xfer_size;
		dump_desc_dbg(ioat, desc);
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	} while ((i += 1 + with_ext) < num_descs);
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	/* last xor descriptor carries the unmap parameters and fence bit */
	desc->txd.flags = flags;
	desc->len = total_len;
	if (result)
		desc->result = result;
	xor->ctl_f.fence = !!(flags & DMA_PREP_FENCE);

	/* completion descriptor carries interrupt bit */
	compl_desc = ioat2_get_ring_ent(ioat, idx + i);
	compl_desc->txd.flags = flags & DMA_PREP_INTERRUPT;
	hw = compl_desc->hw;
	hw->ctl = 0;
	hw->ctl_f.null = 1;
	hw->ctl_f.int_en = !!(flags & DMA_PREP_INTERRUPT);
	hw->ctl_f.compl_write = 1;
	hw->size = NULL_DESC_BUFFER_SIZE;
	dump_desc_dbg(ioat, compl_desc);

	/* we leave the channel locked to ensure in order submission */
594
	return &compl_desc->txd;
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}

static struct dma_async_tx_descriptor *
ioat3_prep_xor(struct dma_chan *chan, dma_addr_t dest, dma_addr_t *src,
	       unsigned int src_cnt, size_t len, unsigned long flags)
{
	return __ioat3_prep_xor_lock(chan, NULL, dest, src, src_cnt, len, flags);
}

struct dma_async_tx_descriptor *
ioat3_prep_xor_val(struct dma_chan *chan, dma_addr_t *src,
		    unsigned int src_cnt, size_t len,
		    enum sum_check_flags *result, unsigned long flags)
{
	/* the cleanup routine only sets bits on validate failure, it
	 * does not clear bits on validate success... so clear it here
	 */
	*result = 0;

	return __ioat3_prep_xor_lock(chan, result, src[0], &src[1],
				     src_cnt - 1, len, flags);
}

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static void
dump_pq_desc_dbg(struct ioat2_dma_chan *ioat, struct ioat_ring_ent *desc, struct ioat_ring_ent *ext)
{
	struct device *dev = to_dev(&ioat->base);
	struct ioat_pq_descriptor *pq = desc->pq;
	struct ioat_pq_ext_descriptor *pq_ex = ext ? ext->pq_ex : NULL;
	struct ioat_raw_descriptor *descs[] = { (void *) pq, (void *) pq_ex };
	int src_cnt = src_cnt_to_sw(pq->ctl_f.src_cnt);
	int i;

	dev_dbg(dev, "desc[%d]: (%#llx->%#llx) flags: %#x"
		" sz: %#x ctl: %#x (op: %d int: %d compl: %d pq: '%s%s' src_cnt: %d)\n",
		desc_id(desc), (unsigned long long) desc->txd.phys,
		(unsigned long long) (pq_ex ? pq_ex->next : pq->next),
		desc->txd.flags, pq->size, pq->ctl, pq->ctl_f.op, pq->ctl_f.int_en,
		pq->ctl_f.compl_write,
		pq->ctl_f.p_disable ? "" : "p", pq->ctl_f.q_disable ? "" : "q",
		pq->ctl_f.src_cnt);
	for (i = 0; i < src_cnt; i++)
		dev_dbg(dev, "\tsrc[%d]: %#llx coef: %#x\n", i,
			(unsigned long long) pq_get_src(descs, i), pq->coef[i]);
	dev_dbg(dev, "\tP: %#llx\n", pq->p_addr);
	dev_dbg(dev, "\tQ: %#llx\n", pq->q_addr);
}

static struct dma_async_tx_descriptor *
__ioat3_prep_pq_lock(struct dma_chan *c, enum sum_check_flags *result,
		     const dma_addr_t *dst, const dma_addr_t *src,
		     unsigned int src_cnt, const unsigned char *scf,
		     size_t len, unsigned long flags)
{
	struct ioat2_dma_chan *ioat = to_ioat2_chan(c);
	struct ioat_chan_common *chan = &ioat->base;
	struct ioat_ring_ent *compl_desc;
	struct ioat_ring_ent *desc;
	struct ioat_ring_ent *ext;
	size_t total_len = len;
	struct ioat_pq_descriptor *pq;
	struct ioat_pq_ext_descriptor *pq_ex = NULL;
	struct ioat_dma_descriptor *hw;
	u32 offset = 0;
	int num_descs;
	int with_ext;
	int i, s;
	u16 idx;
	u8 op = result ? IOAT_OP_PQ_VAL : IOAT_OP_PQ;

	dev_dbg(to_dev(chan), "%s\n", __func__);
	/* the engine requires at least two sources (we provide
	 * at least 1 implied source in the DMA_PREP_CONTINUE case)
	 */
	BUG_ON(src_cnt + dmaf_continue(flags) < 2);

	num_descs = ioat2_xferlen_to_descs(ioat, len);
	/* we need 2x the number of descriptors to cover greater than 3
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	 * sources (we need 1 extra source in the q-only continuation
	 * case and 3 extra sources in the p+q continuation case.
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	 */
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	if (src_cnt + dmaf_p_disabled_continue(flags) > 3 ||
	    (dmaf_continue(flags) && !dmaf_p_disabled_continue(flags))) {
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		with_ext = 1;
		num_descs *= 2;
	} else
		with_ext = 0;

	/* completion writes from the raid engine may pass completion
	 * writes from the legacy engine, so we need one extra null
	 * (legacy) descriptor to ensure all completion writes arrive in
	 * order.
	 */
	if (likely(num_descs) &&
	    ioat2_alloc_and_lock(&idx, ioat, num_descs+1) == 0)
		/* pass */;
	else
		return NULL;
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	i = 0;
	do {
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		struct ioat_raw_descriptor *descs[2];
		size_t xfer_size = min_t(size_t, len, 1 << ioat->xfercap_log);

		desc = ioat2_get_ring_ent(ioat, idx + i);
		pq = desc->pq;

		/* save a branch by unconditionally retrieving the
		 * extended descriptor pq_set_src() knows to not write
		 * to it in the single descriptor case
		 */
		ext = ioat2_get_ring_ent(ioat, idx + i + with_ext);
		pq_ex = ext->pq_ex;

		descs[0] = (struct ioat_raw_descriptor *) pq;
		descs[1] = (struct ioat_raw_descriptor *) pq_ex;

		for (s = 0; s < src_cnt; s++)
			pq_set_src(descs, src[s], offset, scf[s], s);

		/* see the comment for dma_maxpq in include/linux/dmaengine.h */
		if (dmaf_p_disabled_continue(flags))
			pq_set_src(descs, dst[1], offset, 1, s++);
		else if (dmaf_continue(flags)) {
			pq_set_src(descs, dst[0], offset, 0, s++);
			pq_set_src(descs, dst[1], offset, 1, s++);
			pq_set_src(descs, dst[1], offset, 0, s++);
		}
		pq->size = xfer_size;
		pq->p_addr = dst[0] + offset;
		pq->q_addr = dst[1] + offset;
		pq->ctl = 0;
		pq->ctl_f.op = op;
		pq->ctl_f.src_cnt = src_cnt_to_hw(s);
		pq->ctl_f.p_disable = !!(flags & DMA_PREP_PQ_DISABLE_P);
		pq->ctl_f.q_disable = !!(flags & DMA_PREP_PQ_DISABLE_Q);

		len -= xfer_size;
		offset += xfer_size;
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	} while ((i += 1 + with_ext) < num_descs);
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	/* last pq descriptor carries the unmap parameters and fence bit */
	desc->txd.flags = flags;
	desc->len = total_len;
	if (result)
		desc->result = result;
	pq->ctl_f.fence = !!(flags & DMA_PREP_FENCE);
	dump_pq_desc_dbg(ioat, desc, ext);

	/* completion descriptor carries interrupt bit */
	compl_desc = ioat2_get_ring_ent(ioat, idx + i);
	compl_desc->txd.flags = flags & DMA_PREP_INTERRUPT;
	hw = compl_desc->hw;
	hw->ctl = 0;
	hw->ctl_f.null = 1;
	hw->ctl_f.int_en = !!(flags & DMA_PREP_INTERRUPT);
	hw->ctl_f.compl_write = 1;
	hw->size = NULL_DESC_BUFFER_SIZE;
	dump_desc_dbg(ioat, compl_desc);

	/* we leave the channel locked to ensure in order submission */
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	return &compl_desc->txd;
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}

static struct dma_async_tx_descriptor *
ioat3_prep_pq(struct dma_chan *chan, dma_addr_t *dst, dma_addr_t *src,
	      unsigned int src_cnt, const unsigned char *scf, size_t len,
	      unsigned long flags)
{
763 764 765 766 767 768
	/* specify valid address for disabled result */
	if (flags & DMA_PREP_PQ_DISABLE_P)
		dst[0] = dst[1];
	if (flags & DMA_PREP_PQ_DISABLE_Q)
		dst[1] = dst[0];

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	/* handle the single source multiply case from the raid6
	 * recovery path
	 */
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	if ((flags & DMA_PREP_PQ_DISABLE_P) && src_cnt == 1) {
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		dma_addr_t single_source[2];
		unsigned char single_source_coef[2];

		BUG_ON(flags & DMA_PREP_PQ_DISABLE_Q);
		single_source[0] = src[0];
		single_source[1] = src[0];
		single_source_coef[0] = scf[0];
		single_source_coef[1] = 0;

		return __ioat3_prep_pq_lock(chan, NULL, dst, single_source, 2,
					    single_source_coef, len, flags);
	} else
		return __ioat3_prep_pq_lock(chan, NULL, dst, src, src_cnt, scf,
					    len, flags);
}

struct dma_async_tx_descriptor *
ioat3_prep_pq_val(struct dma_chan *chan, dma_addr_t *pq, dma_addr_t *src,
		  unsigned int src_cnt, const unsigned char *scf, size_t len,
		  enum sum_check_flags *pqres, unsigned long flags)
{
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	/* specify valid address for disabled result */
	if (flags & DMA_PREP_PQ_DISABLE_P)
		pq[0] = pq[1];
	if (flags & DMA_PREP_PQ_DISABLE_Q)
		pq[1] = pq[0];

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	/* the cleanup routine only sets bits on validate failure, it
	 * does not clear bits on validate success... so clear it here
	 */
	*pqres = 0;

	return __ioat3_prep_pq_lock(chan, pqres, pq, src, src_cnt, scf, len,
				    flags);
}

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static struct dma_async_tx_descriptor *
ioat3_prep_pqxor(struct dma_chan *chan, dma_addr_t dst, dma_addr_t *src,
		 unsigned int src_cnt, size_t len, unsigned long flags)
{
	unsigned char scf[src_cnt];
	dma_addr_t pq[2];

	memset(scf, 0, src_cnt);
	pq[0] = dst;
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	flags |= DMA_PREP_PQ_DISABLE_Q;
	pq[1] = dst; /* specify valid address for disabled result */
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	return __ioat3_prep_pq_lock(chan, NULL, pq, src, src_cnt, scf, len,
				    flags);
}

struct dma_async_tx_descriptor *
ioat3_prep_pqxor_val(struct dma_chan *chan, dma_addr_t *src,
		     unsigned int src_cnt, size_t len,
		     enum sum_check_flags *result, unsigned long flags)
{
	unsigned char scf[src_cnt];
	dma_addr_t pq[2];

	/* the cleanup routine only sets bits on validate failure, it
	 * does not clear bits on validate success... so clear it here
	 */
	*result = 0;

	memset(scf, 0, src_cnt);
	pq[0] = src[0];
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	flags |= DMA_PREP_PQ_DISABLE_Q;
	pq[1] = pq[0]; /* specify valid address for disabled result */
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	return __ioat3_prep_pq_lock(chan, result, pq, &src[1], src_cnt - 1, scf,
				    len, flags);
}

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static struct dma_async_tx_descriptor *
ioat3_prep_interrupt_lock(struct dma_chan *c, unsigned long flags)
{
	struct ioat2_dma_chan *ioat = to_ioat2_chan(c);
	struct ioat_ring_ent *desc;
	struct ioat_dma_descriptor *hw;
	u16 idx;

	if (ioat2_alloc_and_lock(&idx, ioat, 1) == 0)
		desc = ioat2_get_ring_ent(ioat, idx);
	else
		return NULL;

	hw = desc->hw;
	hw->ctl = 0;
	hw->ctl_f.null = 1;
	hw->ctl_f.int_en = 1;
	hw->ctl_f.fence = !!(flags & DMA_PREP_FENCE);
	hw->ctl_f.compl_write = 1;
	hw->size = NULL_DESC_BUFFER_SIZE;
	hw->src_addr = 0;
	hw->dst_addr = 0;

	desc->txd.flags = flags;
	desc->len = 1;

	dump_desc_dbg(ioat, desc);

	/* we leave the channel locked to ensure in order submission */
	return &desc->txd;
}

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static void __devinit ioat3_dma_test_callback(void *dma_async_param)
{
	struct completion *cmp = dma_async_param;

	complete(cmp);
}

#define IOAT_NUM_SRC_TEST 6 /* must be <= 8 */
static int __devinit ioat_xor_val_self_test(struct ioatdma_device *device)
{
	int i, src_idx;
	struct page *dest;
	struct page *xor_srcs[IOAT_NUM_SRC_TEST];
	struct page *xor_val_srcs[IOAT_NUM_SRC_TEST + 1];
	dma_addr_t dma_srcs[IOAT_NUM_SRC_TEST + 1];
	dma_addr_t dma_addr, dest_dma;
	struct dma_async_tx_descriptor *tx;
	struct dma_chan *dma_chan;
	dma_cookie_t cookie;
	u8 cmp_byte = 0;
	u32 cmp_word;
	u32 xor_val_result;
	int err = 0;
	struct completion cmp;
	unsigned long tmo;
	struct device *dev = &device->pdev->dev;
	struct dma_device *dma = &device->common;

	dev_dbg(dev, "%s\n", __func__);

	if (!dma_has_cap(DMA_XOR, dma->cap_mask))
		return 0;

	for (src_idx = 0; src_idx < IOAT_NUM_SRC_TEST; src_idx++) {
		xor_srcs[src_idx] = alloc_page(GFP_KERNEL);
		if (!xor_srcs[src_idx]) {
			while (src_idx--)
				__free_page(xor_srcs[src_idx]);
			return -ENOMEM;
		}
	}

	dest = alloc_page(GFP_KERNEL);
	if (!dest) {
		while (src_idx--)
			__free_page(xor_srcs[src_idx]);
		return -ENOMEM;
	}

	/* Fill in src buffers */
	for (src_idx = 0; src_idx < IOAT_NUM_SRC_TEST; src_idx++) {
		u8 *ptr = page_address(xor_srcs[src_idx]);
		for (i = 0; i < PAGE_SIZE; i++)
			ptr[i] = (1 << src_idx);
	}

	for (src_idx = 0; src_idx < IOAT_NUM_SRC_TEST; src_idx++)
		cmp_byte ^= (u8) (1 << src_idx);

	cmp_word = (cmp_byte << 24) | (cmp_byte << 16) |
			(cmp_byte << 8) | cmp_byte;

	memset(page_address(dest), 0, PAGE_SIZE);

	dma_chan = container_of(dma->channels.next, struct dma_chan,
				device_node);
	if (dma->device_alloc_chan_resources(dma_chan) < 1) {
		err = -ENODEV;
		goto out;
	}

	/* test xor */
	dest_dma = dma_map_page(dev, dest, 0, PAGE_SIZE, DMA_FROM_DEVICE);
	for (i = 0; i < IOAT_NUM_SRC_TEST; i++)
		dma_srcs[i] = dma_map_page(dev, xor_srcs[i], 0, PAGE_SIZE,
					   DMA_TO_DEVICE);
	tx = dma->device_prep_dma_xor(dma_chan, dest_dma, dma_srcs,
				      IOAT_NUM_SRC_TEST, PAGE_SIZE,
				      DMA_PREP_INTERRUPT);

	if (!tx) {
		dev_err(dev, "Self-test xor prep failed\n");
		err = -ENODEV;
		goto free_resources;
	}

	async_tx_ack(tx);
	init_completion(&cmp);
	tx->callback = ioat3_dma_test_callback;
	tx->callback_param = &cmp;
	cookie = tx->tx_submit(tx);
	if (cookie < 0) {
		dev_err(dev, "Self-test xor setup failed\n");
		err = -ENODEV;
		goto free_resources;
	}
	dma->device_issue_pending(dma_chan);

	tmo = wait_for_completion_timeout(&cmp, msecs_to_jiffies(3000));

	if (dma->device_is_tx_complete(dma_chan, cookie, NULL, NULL) != DMA_SUCCESS) {
		dev_err(dev, "Self-test xor timed out\n");
		err = -ENODEV;
		goto free_resources;
	}

	dma_sync_single_for_cpu(dev, dest_dma, PAGE_SIZE, DMA_FROM_DEVICE);
	for (i = 0; i < (PAGE_SIZE / sizeof(u32)); i++) {
		u32 *ptr = page_address(dest);
		if (ptr[i] != cmp_word) {
			dev_err(dev, "Self-test xor failed compare\n");
			err = -ENODEV;
			goto free_resources;
		}
	}
	dma_sync_single_for_device(dev, dest_dma, PAGE_SIZE, DMA_TO_DEVICE);

	/* skip validate if the capability is not present */
	if (!dma_has_cap(DMA_XOR_VAL, dma_chan->device->cap_mask))
		goto free_resources;

	/* validate the sources with the destintation page */
	for (i = 0; i < IOAT_NUM_SRC_TEST; i++)
		xor_val_srcs[i] = xor_srcs[i];
	xor_val_srcs[i] = dest;

	xor_val_result = 1;

	for (i = 0; i < IOAT_NUM_SRC_TEST + 1; i++)
		dma_srcs[i] = dma_map_page(dev, xor_val_srcs[i], 0, PAGE_SIZE,
					   DMA_TO_DEVICE);
	tx = dma->device_prep_dma_xor_val(dma_chan, dma_srcs,
					  IOAT_NUM_SRC_TEST + 1, PAGE_SIZE,
					  &xor_val_result, DMA_PREP_INTERRUPT);
	if (!tx) {
		dev_err(dev, "Self-test zero prep failed\n");
		err = -ENODEV;
		goto free_resources;
	}

	async_tx_ack(tx);
	init_completion(&cmp);
	tx->callback = ioat3_dma_test_callback;
	tx->callback_param = &cmp;
	cookie = tx->tx_submit(tx);
	if (cookie < 0) {
		dev_err(dev, "Self-test zero setup failed\n");
		err = -ENODEV;
		goto free_resources;
	}
	dma->device_issue_pending(dma_chan);

	tmo = wait_for_completion_timeout(&cmp, msecs_to_jiffies(3000));

	if (dma->device_is_tx_complete(dma_chan, cookie, NULL, NULL) != DMA_SUCCESS) {
		dev_err(dev, "Self-test validate timed out\n");
		err = -ENODEV;
		goto free_resources;
	}

	if (xor_val_result != 0) {
		dev_err(dev, "Self-test validate failed compare\n");
		err = -ENODEV;
		goto free_resources;
	}

	/* skip memset if the capability is not present */
	if (!dma_has_cap(DMA_MEMSET, dma_chan->device->cap_mask))
		goto free_resources;

	/* test memset */
	dma_addr = dma_map_page(dev, dest, 0,
			PAGE_SIZE, DMA_FROM_DEVICE);
	tx = dma->device_prep_dma_memset(dma_chan, dma_addr, 0, PAGE_SIZE,
					 DMA_PREP_INTERRUPT);
	if (!tx) {
		dev_err(dev, "Self-test memset prep failed\n");
		err = -ENODEV;
		goto free_resources;
	}

	async_tx_ack(tx);
	init_completion(&cmp);
	tx->callback = ioat3_dma_test_callback;
	tx->callback_param = &cmp;
	cookie = tx->tx_submit(tx);
	if (cookie < 0) {
		dev_err(dev, "Self-test memset setup failed\n");
		err = -ENODEV;
		goto free_resources;
	}
	dma->device_issue_pending(dma_chan);

	tmo = wait_for_completion_timeout(&cmp, msecs_to_jiffies(3000));

	if (dma->device_is_tx_complete(dma_chan, cookie, NULL, NULL) != DMA_SUCCESS) {
		dev_err(dev, "Self-test memset timed out\n");
		err = -ENODEV;
		goto free_resources;
	}

	for (i = 0; i < PAGE_SIZE/sizeof(u32); i++) {
		u32 *ptr = page_address(dest);
		if (ptr[i]) {
			dev_err(dev, "Self-test memset failed compare\n");
			err = -ENODEV;
			goto free_resources;
		}
	}

	/* test for non-zero parity sum */
	xor_val_result = 0;
	for (i = 0; i < IOAT_NUM_SRC_TEST + 1; i++)
		dma_srcs[i] = dma_map_page(dev, xor_val_srcs[i], 0, PAGE_SIZE,
					   DMA_TO_DEVICE);
	tx = dma->device_prep_dma_xor_val(dma_chan, dma_srcs,
					  IOAT_NUM_SRC_TEST + 1, PAGE_SIZE,
					  &xor_val_result, DMA_PREP_INTERRUPT);
	if (!tx) {
		dev_err(dev, "Self-test 2nd zero prep failed\n");
		err = -ENODEV;
		goto free_resources;
	}

	async_tx_ack(tx);
	init_completion(&cmp);
	tx->callback = ioat3_dma_test_callback;
	tx->callback_param = &cmp;
	cookie = tx->tx_submit(tx);
	if (cookie < 0) {
		dev_err(dev, "Self-test  2nd zero setup failed\n");
		err = -ENODEV;
		goto free_resources;
	}
	dma->device_issue_pending(dma_chan);

	tmo = wait_for_completion_timeout(&cmp, msecs_to_jiffies(3000));

	if (dma->device_is_tx_complete(dma_chan, cookie, NULL, NULL) != DMA_SUCCESS) {
		dev_err(dev, "Self-test 2nd validate timed out\n");
		err = -ENODEV;
		goto free_resources;
	}

	if (xor_val_result != SUM_CHECK_P_RESULT) {
		dev_err(dev, "Self-test validate failed compare\n");
		err = -ENODEV;
		goto free_resources;
	}

free_resources:
	dma->device_free_chan_resources(dma_chan);
out:
	src_idx = IOAT_NUM_SRC_TEST;
	while (src_idx--)
		__free_page(xor_srcs[src_idx]);
	__free_page(dest);
	return err;
}

static int __devinit ioat3_dma_self_test(struct ioatdma_device *device)
{
	int rc = ioat_dma_self_test(device);

	if (rc)
		return rc;

	rc = ioat_xor_val_self_test(device);
	if (rc)
		return rc;

	return 0;
}

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static int ioat3_reset_hw(struct ioat_chan_common *chan)
{
	/* throw away whatever the channel was doing and get it
	 * initialized, with ioat3 specific workarounds
	 */
	struct ioatdma_device *device = chan->device;
	struct pci_dev *pdev = device->pdev;
	u32 chanerr;
	u16 dev_id;
	int err;

	ioat2_quiesce(chan, msecs_to_jiffies(100));

	chanerr = readl(chan->reg_base + IOAT_CHANERR_OFFSET);
	writel(chanerr, chan->reg_base + IOAT_CHANERR_OFFSET);

	/* -= IOAT ver.3 workarounds =- */
	/* Write CHANERRMSK_INT with 3E07h to mask out the errors
	 * that can cause stability issues for IOAT ver.3, and clear any
	 * pending errors
	 */
	pci_write_config_dword(pdev, IOAT_PCI_CHANERRMASK_INT_OFFSET, 0x3e07);
	err = pci_read_config_dword(pdev, IOAT_PCI_CHANERR_INT_OFFSET, &chanerr);
	if (err) {
		dev_err(&pdev->dev, "channel error register unreachable\n");
		return err;
	}
	pci_write_config_dword(pdev, IOAT_PCI_CHANERR_INT_OFFSET, chanerr);

	/* Clear DMAUNCERRSTS Cfg-Reg Parity Error status bit
	 * (workaround for spurious config parity error after restart)
	 */
	pci_read_config_word(pdev, IOAT_PCI_DEVICE_ID_OFFSET, &dev_id);
	if (dev_id == PCI_DEVICE_ID_INTEL_IOAT_TBG0)
		pci_write_config_dword(pdev, IOAT_PCI_DMAUNCERRSTS_OFFSET, 0x10);

	return ioat2_reset_sync(chan, msecs_to_jiffies(200));
}

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int __devinit ioat3_dma_probe(struct ioatdma_device *device, int dca)
{
	struct pci_dev *pdev = device->pdev;
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	int dca_en = system_has_dca_enabled(pdev);
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	struct dma_device *dma;
	struct dma_chan *c;
	struct ioat_chan_common *chan;
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	bool is_raid_device = false;
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	int err;
	u32 cap;

	device->enumerate_channels = ioat2_enumerate_channels;
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	device->reset_hw = ioat3_reset_hw;
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	device->self_test = ioat3_dma_self_test;
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	dma = &device->common;
	dma->device_prep_dma_memcpy = ioat2_dma_prep_memcpy_lock;
	dma->device_issue_pending = ioat2_issue_pending;
	dma->device_alloc_chan_resources = ioat2_alloc_chan_resources;
	dma->device_free_chan_resources = ioat2_free_chan_resources;
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	dma_cap_set(DMA_INTERRUPT, dma->cap_mask);
	dma->device_prep_dma_interrupt = ioat3_prep_interrupt_lock;

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	cap = readl(device->reg_base + IOAT_DMA_CAP_OFFSET);
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	/* dca is incompatible with raid operations */
	if (dca_en && (cap & (IOAT_CAP_XOR|IOAT_CAP_PQ)))
		cap &= ~(IOAT_CAP_XOR|IOAT_CAP_PQ);

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	if (cap & IOAT_CAP_XOR) {
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		is_raid_device = true;
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		dma->max_xor = 8;
		dma->xor_align = 2;

		dma_cap_set(DMA_XOR, dma->cap_mask);
		dma->device_prep_dma_xor = ioat3_prep_xor;

		dma_cap_set(DMA_XOR_VAL, dma->cap_mask);
		dma->device_prep_dma_xor_val = ioat3_prep_xor_val;
	}
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	if (cap & IOAT_CAP_PQ) {
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		is_raid_device = true;
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		dma_set_maxpq(dma, 8, 0);
		dma->pq_align = 2;

		dma_cap_set(DMA_PQ, dma->cap_mask);
		dma->device_prep_dma_pq = ioat3_prep_pq;

		dma_cap_set(DMA_PQ_VAL, dma->cap_mask);
		dma->device_prep_dma_pq_val = ioat3_prep_pq_val;
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		if (!(cap & IOAT_CAP_XOR)) {
			dma->max_xor = 8;
			dma->xor_align = 2;

			dma_cap_set(DMA_XOR, dma->cap_mask);
			dma->device_prep_dma_xor = ioat3_prep_pqxor;

			dma_cap_set(DMA_XOR_VAL, dma->cap_mask);
			dma->device_prep_dma_xor_val = ioat3_prep_pqxor_val;
		}
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	}
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	if (is_raid_device && (cap & IOAT_CAP_FILL_BLOCK)) {
		dma_cap_set(DMA_MEMSET, dma->cap_mask);
		dma->device_prep_dma_memset = ioat3_prep_memset_lock;
	}


	if (is_raid_device) {
		dma->device_is_tx_complete = ioat3_is_complete;
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		device->cleanup_fn = ioat3_cleanup_event;
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		device->timer_fn = ioat3_timer_event;
	} else {
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		dma->device_is_tx_complete = ioat_is_dma_complete;
		device->cleanup_fn = ioat2_cleanup_event;
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		device->timer_fn = ioat2_timer_event;
	}
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	#ifdef CONFIG_ASYNC_TX_DISABLE_PQ_VAL_DMA
	dma_cap_clear(DMA_PQ_VAL, dma->cap_mask);
	dma->device_prep_dma_pq_val = NULL;
	#endif

	#ifdef CONFIG_ASYNC_TX_DISABLE_XOR_VAL_DMA
	dma_cap_clear(DMA_XOR_VAL, dma->cap_mask);
	dma->device_prep_dma_xor_val = NULL;
	#endif

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	err = ioat_probe(device);
	if (err)
		return err;
	ioat_set_tcp_copy_break(262144);

	list_for_each_entry(c, &dma->channels, device_node) {
		chan = to_chan_common(c);
		writel(IOAT_DMA_DCA_ANY_CPU,
		       chan->reg_base + IOAT_DCACTRL_OFFSET);
	}

	err = ioat_register(device);
	if (err)
		return err;
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	ioat_kobject_add(device, &ioat2_ktype);

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	if (dca)
		device->dca = ioat3_dca_init(pdev, device->reg_base);

	return 0;
}