pci.c 59.3 KB
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/*
 * NVM Express device driver
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 * Copyright (c) 2011-2014, Intel Corporation.
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 *
 * 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 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.
 */

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#include <linux/aer.h>
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#include <linux/bitops.h>
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#include <linux/blkdev.h>
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#include <linux/blk-mq.h>
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#include <linux/blk-mq-pci.h>
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#include <linux/cpu.h>
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#include <linux/delay.h>
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#include <linux/dmi.h>
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#include <linux/errno.h>
#include <linux/fs.h>
#include <linux/genhd.h>
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#include <linux/hdreg.h>
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#include <linux/idr.h>
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#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/kdev_t.h>
#include <linux/kernel.h>
#include <linux/mm.h>
#include <linux/module.h>
#include <linux/moduleparam.h>
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#include <linux/mutex.h>
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#include <linux/pci.h>
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#include <linux/poison.h>
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#include <linux/ptrace.h>
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#include <linux/sched.h>
#include <linux/slab.h>
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#include <linux/t10-pi.h>
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#include <linux/timer.h>
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#include <linux/types.h>
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#include <linux/io-64-nonatomic-lo-hi.h>
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#include <asm/unaligned.h>
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#include <linux/sed-opal.h>
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#include "nvme.h"

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#define NVME_Q_DEPTH		1024
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#define NVME_AQ_DEPTH		256
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#define SQ_SIZE(depth)		(depth * sizeof(struct nvme_command))
#define CQ_SIZE(depth)		(depth * sizeof(struct nvme_completion))
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/*
 * We handle AEN commands ourselves and don't even let the
 * block layer know about them.
 */
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#define NVME_AQ_BLKMQ_DEPTH	(NVME_AQ_DEPTH - NVME_NR_AERS)
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static int use_threaded_interrupts;
module_param(use_threaded_interrupts, int, 0);

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static bool use_cmb_sqes = true;
module_param(use_cmb_sqes, bool, 0644);
MODULE_PARM_DESC(use_cmb_sqes, "use controller's memory buffer for I/O SQes");

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static struct workqueue_struct *nvme_workq;
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struct nvme_dev;
struct nvme_queue;
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static int nvme_reset(struct nvme_dev *dev);
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static void nvme_process_cq(struct nvme_queue *nvmeq);
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static void nvme_dev_disable(struct nvme_dev *dev, bool shutdown);
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/*
 * Represents an NVM Express device.  Each nvme_dev is a PCI function.
 */
struct nvme_dev {
	struct nvme_queue **queues;
	struct blk_mq_tag_set tagset;
	struct blk_mq_tag_set admin_tagset;
	u32 __iomem *dbs;
	struct device *dev;
	struct dma_pool *prp_page_pool;
	struct dma_pool *prp_small_pool;
	unsigned queue_count;
	unsigned online_queues;
	unsigned max_qid;
	int q_depth;
	u32 db_stride;
	void __iomem *bar;
	struct work_struct reset_work;
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	struct work_struct remove_work;
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	struct timer_list watchdog_timer;
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	struct mutex shutdown_lock;
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	bool subsystem;
	void __iomem *cmb;
	dma_addr_t cmb_dma_addr;
	u64 cmb_size;
	u32 cmbsz;
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	u32 cmbloc;
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	struct nvme_ctrl ctrl;
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	struct completion ioq_wait;
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	u32 *dbbuf_dbs;
	dma_addr_t dbbuf_dbs_dma_addr;
	u32 *dbbuf_eis;
	dma_addr_t dbbuf_eis_dma_addr;
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};
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static inline unsigned int sq_idx(unsigned int qid, u32 stride)
{
	return qid * 2 * stride;
}

static inline unsigned int cq_idx(unsigned int qid, u32 stride)
{
	return (qid * 2 + 1) * stride;
}

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static inline struct nvme_dev *to_nvme_dev(struct nvme_ctrl *ctrl)
{
	return container_of(ctrl, struct nvme_dev, ctrl);
}

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/*
 * An NVM Express queue.  Each device has at least two (one for admin
 * commands and one for I/O commands).
 */
struct nvme_queue {
	struct device *q_dmadev;
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	struct nvme_dev *dev;
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	spinlock_t q_lock;
	struct nvme_command *sq_cmds;
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	struct nvme_command __iomem *sq_cmds_io;
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	volatile struct nvme_completion *cqes;
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	struct blk_mq_tags **tags;
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	dma_addr_t sq_dma_addr;
	dma_addr_t cq_dma_addr;
	u32 __iomem *q_db;
	u16 q_depth;
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	s16 cq_vector;
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	u16 sq_tail;
	u16 cq_head;
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	u16 qid;
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	u8 cq_phase;
	u8 cqe_seen;
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	u32 *dbbuf_sq_db;
	u32 *dbbuf_cq_db;
	u32 *dbbuf_sq_ei;
	u32 *dbbuf_cq_ei;
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};

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/*
 * The nvme_iod describes the data in an I/O, including the list of PRP
 * entries.  You can't see it in this data structure because C doesn't let
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 * me express that.  Use nvme_init_iod to ensure there's enough space
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 * allocated to store the PRP list.
 */
struct nvme_iod {
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	struct nvme_request req;
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	struct nvme_queue *nvmeq;
	int aborted;
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	int npages;		/* In the PRP list. 0 means small pool in use */
	int nents;		/* Used in scatterlist */
	int length;		/* Of data, in bytes */
	dma_addr_t first_dma;
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	struct scatterlist meta_sg; /* metadata requires single contiguous buffer */
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	struct scatterlist *sg;
	struct scatterlist inline_sg[0];
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};

/*
 * Check we didin't inadvertently grow the command struct
 */
static inline void _nvme_check_size(void)
{
	BUILD_BUG_ON(sizeof(struct nvme_rw_command) != 64);
	BUILD_BUG_ON(sizeof(struct nvme_create_cq) != 64);
	BUILD_BUG_ON(sizeof(struct nvme_create_sq) != 64);
	BUILD_BUG_ON(sizeof(struct nvme_delete_queue) != 64);
	BUILD_BUG_ON(sizeof(struct nvme_features) != 64);
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	BUILD_BUG_ON(sizeof(struct nvme_format_cmd) != 64);
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	BUILD_BUG_ON(sizeof(struct nvme_abort_cmd) != 64);
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	BUILD_BUG_ON(sizeof(struct nvme_command) != 64);
	BUILD_BUG_ON(sizeof(struct nvme_id_ctrl) != 4096);
	BUILD_BUG_ON(sizeof(struct nvme_id_ns) != 4096);
	BUILD_BUG_ON(sizeof(struct nvme_lba_range_type) != 64);
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	BUILD_BUG_ON(sizeof(struct nvme_smart_log) != 512);
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	BUILD_BUG_ON(sizeof(struct nvme_dbbuf) != 64);
}

static inline unsigned int nvme_dbbuf_size(u32 stride)
{
	return ((num_possible_cpus() + 1) * 8 * stride);
}

static int nvme_dbbuf_dma_alloc(struct nvme_dev *dev)
{
	unsigned int mem_size = nvme_dbbuf_size(dev->db_stride);

	if (dev->dbbuf_dbs)
		return 0;

	dev->dbbuf_dbs = dma_alloc_coherent(dev->dev, mem_size,
					    &dev->dbbuf_dbs_dma_addr,
					    GFP_KERNEL);
	if (!dev->dbbuf_dbs)
		return -ENOMEM;
	dev->dbbuf_eis = dma_alloc_coherent(dev->dev, mem_size,
					    &dev->dbbuf_eis_dma_addr,
					    GFP_KERNEL);
	if (!dev->dbbuf_eis) {
		dma_free_coherent(dev->dev, mem_size,
				  dev->dbbuf_dbs, dev->dbbuf_dbs_dma_addr);
		dev->dbbuf_dbs = NULL;
		return -ENOMEM;
	}

	return 0;
}

static void nvme_dbbuf_dma_free(struct nvme_dev *dev)
{
	unsigned int mem_size = nvme_dbbuf_size(dev->db_stride);

	if (dev->dbbuf_dbs) {
		dma_free_coherent(dev->dev, mem_size,
				  dev->dbbuf_dbs, dev->dbbuf_dbs_dma_addr);
		dev->dbbuf_dbs = NULL;
	}
	if (dev->dbbuf_eis) {
		dma_free_coherent(dev->dev, mem_size,
				  dev->dbbuf_eis, dev->dbbuf_eis_dma_addr);
		dev->dbbuf_eis = NULL;
	}
}

static void nvme_dbbuf_init(struct nvme_dev *dev,
			    struct nvme_queue *nvmeq, int qid)
{
	if (!dev->dbbuf_dbs || !qid)
		return;

	nvmeq->dbbuf_sq_db = &dev->dbbuf_dbs[sq_idx(qid, dev->db_stride)];
	nvmeq->dbbuf_cq_db = &dev->dbbuf_dbs[cq_idx(qid, dev->db_stride)];
	nvmeq->dbbuf_sq_ei = &dev->dbbuf_eis[sq_idx(qid, dev->db_stride)];
	nvmeq->dbbuf_cq_ei = &dev->dbbuf_eis[cq_idx(qid, dev->db_stride)];
}

static void nvme_dbbuf_set(struct nvme_dev *dev)
{
	struct nvme_command c;

	if (!dev->dbbuf_dbs)
		return;

	memset(&c, 0, sizeof(c));
	c.dbbuf.opcode = nvme_admin_dbbuf;
	c.dbbuf.prp1 = cpu_to_le64(dev->dbbuf_dbs_dma_addr);
	c.dbbuf.prp2 = cpu_to_le64(dev->dbbuf_eis_dma_addr);

	if (nvme_submit_sync_cmd(dev->ctrl.admin_q, &c, NULL, 0)) {
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		dev_warn(dev->ctrl.device, "unable to set dbbuf\n");
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		/* Free memory and continue on */
		nvme_dbbuf_dma_free(dev);
	}
}

static inline int nvme_dbbuf_need_event(u16 event_idx, u16 new_idx, u16 old)
{
	return (u16)(new_idx - event_idx - 1) < (u16)(new_idx - old);
}

/* Update dbbuf and return true if an MMIO is required */
static bool nvme_dbbuf_update_and_check_event(u16 value, u32 *dbbuf_db,
					      volatile u32 *dbbuf_ei)
{
	if (dbbuf_db) {
		u16 old_value;

		/*
		 * Ensure that the queue is written before updating
		 * the doorbell in memory
		 */
		wmb();

		old_value = *dbbuf_db;
		*dbbuf_db = value;

		if (!nvme_dbbuf_need_event(*dbbuf_ei, value, old_value))
			return false;
	}

	return true;
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}

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/*
 * Max size of iod being embedded in the request payload
 */
#define NVME_INT_PAGES		2
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#define NVME_INT_BYTES(dev)	(NVME_INT_PAGES * (dev)->ctrl.page_size)
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/*
 * Will slightly overestimate the number of pages needed.  This is OK
 * as it only leads to a small amount of wasted memory for the lifetime of
 * the I/O.
 */
static int nvme_npages(unsigned size, struct nvme_dev *dev)
{
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	unsigned nprps = DIV_ROUND_UP(size + dev->ctrl.page_size,
				      dev->ctrl.page_size);
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	return DIV_ROUND_UP(8 * nprps, PAGE_SIZE - 8);
}

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static unsigned int nvme_iod_alloc_size(struct nvme_dev *dev,
		unsigned int size, unsigned int nseg)
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{
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	return sizeof(__le64 *) * nvme_npages(size, dev) +
			sizeof(struct scatterlist) * nseg;
}
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static unsigned int nvme_cmd_size(struct nvme_dev *dev)
{
	return sizeof(struct nvme_iod) +
		nvme_iod_alloc_size(dev, NVME_INT_BYTES(dev), NVME_INT_PAGES);
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}

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static int nvme_admin_init_hctx(struct blk_mq_hw_ctx *hctx, void *data,
				unsigned int hctx_idx)
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{
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	struct nvme_dev *dev = data;
	struct nvme_queue *nvmeq = dev->queues[0];

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	WARN_ON(hctx_idx != 0);
	WARN_ON(dev->admin_tagset.tags[0] != hctx->tags);
	WARN_ON(nvmeq->tags);

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	hctx->driver_data = nvmeq;
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	nvmeq->tags = &dev->admin_tagset.tags[0];
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	return 0;
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}

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static void nvme_admin_exit_hctx(struct blk_mq_hw_ctx *hctx, unsigned int hctx_idx)
{
	struct nvme_queue *nvmeq = hctx->driver_data;

	nvmeq->tags = NULL;
}

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static int nvme_admin_init_request(struct blk_mq_tag_set *set,
		struct request *req, unsigned int hctx_idx,
		unsigned int numa_node)
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{
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	struct nvme_dev *dev = set->driver_data;
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	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
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	struct nvme_queue *nvmeq = dev->queues[0];

	BUG_ON(!nvmeq);
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	iod->nvmeq = nvmeq;
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	return 0;
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}

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static int nvme_init_hctx(struct blk_mq_hw_ctx *hctx, void *data,
			  unsigned int hctx_idx)
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{
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	struct nvme_dev *dev = data;
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	struct nvme_queue *nvmeq = dev->queues[hctx_idx + 1];
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	if (!nvmeq->tags)
		nvmeq->tags = &dev->tagset.tags[hctx_idx];
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	WARN_ON(dev->tagset.tags[hctx_idx] != hctx->tags);
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	hctx->driver_data = nvmeq;
	return 0;
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}

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static int nvme_init_request(struct blk_mq_tag_set *set, struct request *req,
		unsigned int hctx_idx, unsigned int numa_node)
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{
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	struct nvme_dev *dev = set->driver_data;
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	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
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	struct nvme_queue *nvmeq = dev->queues[hctx_idx + 1];

	BUG_ON(!nvmeq);
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	iod->nvmeq = nvmeq;
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	return 0;
}

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static int nvme_pci_map_queues(struct blk_mq_tag_set *set)
{
	struct nvme_dev *dev = set->driver_data;

	return blk_mq_pci_map_queues(set, to_pci_dev(dev->dev));
}

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/**
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 * __nvme_submit_cmd() - Copy a command into a queue and ring the doorbell
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 * @nvmeq: The queue to use
 * @cmd: The command to send
 *
 * Safe to use from interrupt context
 */
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static void __nvme_submit_cmd(struct nvme_queue *nvmeq,
						struct nvme_command *cmd)
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{
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	u16 tail = nvmeq->sq_tail;

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	if (nvmeq->sq_cmds_io)
		memcpy_toio(&nvmeq->sq_cmds_io[tail], cmd, sizeof(*cmd));
	else
		memcpy(&nvmeq->sq_cmds[tail], cmd, sizeof(*cmd));

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	if (++tail == nvmeq->q_depth)
		tail = 0;
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	if (nvme_dbbuf_update_and_check_event(tail, nvmeq->dbbuf_sq_db,
					      nvmeq->dbbuf_sq_ei))
		writel(tail, nvmeq->q_db);
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	nvmeq->sq_tail = tail;
}

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static __le64 **iod_list(struct request *req)
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{
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	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
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	return (__le64 **)(iod->sg + blk_rq_nr_phys_segments(req));
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}

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static int nvme_init_iod(struct request *rq, struct nvme_dev *dev)
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{
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	struct nvme_iod *iod = blk_mq_rq_to_pdu(rq);
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	int nseg = blk_rq_nr_phys_segments(rq);
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	unsigned int size = blk_rq_payload_bytes(rq);
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	if (nseg > NVME_INT_PAGES || size > NVME_INT_BYTES(dev)) {
		iod->sg = kmalloc(nvme_iod_alloc_size(dev, size, nseg), GFP_ATOMIC);
		if (!iod->sg)
			return BLK_MQ_RQ_QUEUE_BUSY;
	} else {
		iod->sg = iod->inline_sg;
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	}

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	iod->aborted = 0;
	iod->npages = -1;
	iod->nents = 0;
	iod->length = size;
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	return BLK_MQ_RQ_QUEUE_OK;
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}

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static void nvme_free_iod(struct nvme_dev *dev, struct request *req)
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{
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	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
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	const int last_prp = dev->ctrl.page_size / 8 - 1;
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	int i;
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	__le64 **list = iod_list(req);
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	dma_addr_t prp_dma = iod->first_dma;

	if (iod->npages == 0)
		dma_pool_free(dev->prp_small_pool, list[0], prp_dma);
	for (i = 0; i < iod->npages; i++) {
		__le64 *prp_list = list[i];
		dma_addr_t next_prp_dma = le64_to_cpu(prp_list[last_prp]);
		dma_pool_free(dev->prp_page_pool, prp_list, prp_dma);
		prp_dma = next_prp_dma;
	}
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	if (iod->sg != iod->inline_sg)
		kfree(iod->sg);
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}

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#ifdef CONFIG_BLK_DEV_INTEGRITY
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static void nvme_dif_prep(u32 p, u32 v, struct t10_pi_tuple *pi)
{
	if (be32_to_cpu(pi->ref_tag) == v)
		pi->ref_tag = cpu_to_be32(p);
}

static void nvme_dif_complete(u32 p, u32 v, struct t10_pi_tuple *pi)
{
	if (be32_to_cpu(pi->ref_tag) == p)
		pi->ref_tag = cpu_to_be32(v);
}

/**
 * nvme_dif_remap - remaps ref tags to bip seed and physical lba
 *
 * The virtual start sector is the one that was originally submitted by the
 * block layer.	Due to partitioning, MD/DM cloning, etc. the actual physical
 * start sector may be different. Remap protection information to match the
 * physical LBA on writes, and back to the original seed on reads.
 *
 * Type 0 and 3 do not have a ref tag, so no remapping required.
 */
static void nvme_dif_remap(struct request *req,
			void (*dif_swap)(u32 p, u32 v, struct t10_pi_tuple *pi))
{
	struct nvme_ns *ns = req->rq_disk->private_data;
	struct bio_integrity_payload *bip;
	struct t10_pi_tuple *pi;
	void *p, *pmap;
	u32 i, nlb, ts, phys, virt;

	if (!ns->pi_type || ns->pi_type == NVME_NS_DPS_PI_TYPE3)
		return;

	bip = bio_integrity(req->bio);
	if (!bip)
		return;

	pmap = kmap_atomic(bip->bip_vec->bv_page) + bip->bip_vec->bv_offset;

	p = pmap;
	virt = bip_get_seed(bip);
	phys = nvme_block_nr(ns, blk_rq_pos(req));
	nlb = (blk_rq_bytes(req) >> ns->lba_shift);
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	ts = ns->disk->queue->integrity.tuple_size;
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	for (i = 0; i < nlb; i++, virt++, phys++) {
		pi = (struct t10_pi_tuple *)p;
		dif_swap(phys, virt, pi);
		p += ts;
	}
	kunmap_atomic(pmap);
}
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#else /* CONFIG_BLK_DEV_INTEGRITY */
static void nvme_dif_remap(struct request *req,
			void (*dif_swap)(u32 p, u32 v, struct t10_pi_tuple *pi))
{
}
static void nvme_dif_prep(u32 p, u32 v, struct t10_pi_tuple *pi)
{
}
static void nvme_dif_complete(u32 p, u32 v, struct t10_pi_tuple *pi)
{
}
#endif

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static bool nvme_setup_prps(struct nvme_dev *dev, struct request *req)
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{
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	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
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	struct dma_pool *pool;
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	int length = blk_rq_payload_bytes(req);
545
	struct scatterlist *sg = iod->sg;
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	int dma_len = sg_dma_len(sg);
	u64 dma_addr = sg_dma_address(sg);
548
	u32 page_size = dev->ctrl.page_size;
549
	int offset = dma_addr & (page_size - 1);
550
	__le64 *prp_list;
551
	__le64 **list = iod_list(req);
552
	dma_addr_t prp_dma;
553
	int nprps, i;
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554

555
	length -= (page_size - offset);
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556
	if (length <= 0)
557
		return true;
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558

559
	dma_len -= (page_size - offset);
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560
	if (dma_len) {
561
		dma_addr += (page_size - offset);
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	} else {
		sg = sg_next(sg);
		dma_addr = sg_dma_address(sg);
		dma_len = sg_dma_len(sg);
	}

568
	if (length <= page_size) {
569
		iod->first_dma = dma_addr;
570
		return true;
571 572
	}

573
	nprps = DIV_ROUND_UP(length, page_size);
574 575
	if (nprps <= (256 / 8)) {
		pool = dev->prp_small_pool;
576
		iod->npages = 0;
577 578
	} else {
		pool = dev->prp_page_pool;
579
		iod->npages = 1;
580 581
	}

582
	prp_list = dma_pool_alloc(pool, GFP_ATOMIC, &prp_dma);
583
	if (!prp_list) {
584
		iod->first_dma = dma_addr;
585
		iod->npages = -1;
586
		return false;
587
	}
588 589
	list[0] = prp_list;
	iod->first_dma = prp_dma;
590 591
	i = 0;
	for (;;) {
592
		if (i == page_size >> 3) {
593
			__le64 *old_prp_list = prp_list;
594
			prp_list = dma_pool_alloc(pool, GFP_ATOMIC, &prp_dma);
595
			if (!prp_list)
596
				return false;
597
			list[iod->npages++] = prp_list;
598 599 600
			prp_list[0] = old_prp_list[i - 1];
			old_prp_list[i - 1] = cpu_to_le64(prp_dma);
			i = 1;
601 602
		}
		prp_list[i++] = cpu_to_le64(dma_addr);
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		dma_len -= page_size;
		dma_addr += page_size;
		length -= page_size;
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		if (length <= 0)
			break;
		if (dma_len > 0)
			continue;
		BUG_ON(dma_len < 0);
		sg = sg_next(sg);
		dma_addr = sg_dma_address(sg);
		dma_len = sg_dma_len(sg);
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	}

616
	return true;
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}

619
static int nvme_map_data(struct nvme_dev *dev, struct request *req,
620
		struct nvme_command *cmnd)
621
{
622
	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
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	struct request_queue *q = req->q;
	enum dma_data_direction dma_dir = rq_data_dir(req) ?
			DMA_TO_DEVICE : DMA_FROM_DEVICE;
	int ret = BLK_MQ_RQ_QUEUE_ERROR;
627

628
	sg_init_table(iod->sg, blk_rq_nr_phys_segments(req));
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	iod->nents = blk_rq_map_sg(q, req, iod->sg);
	if (!iod->nents)
		goto out;
632

633
	ret = BLK_MQ_RQ_QUEUE_BUSY;
634 635
	if (!dma_map_sg_attrs(dev->dev, iod->sg, iod->nents, dma_dir,
				DMA_ATTR_NO_WARN))
636
		goto out;
637

638
	if (!nvme_setup_prps(dev, req))
639
		goto out_unmap;
640

641 642 643 644
	ret = BLK_MQ_RQ_QUEUE_ERROR;
	if (blk_integrity_rq(req)) {
		if (blk_rq_count_integrity_sg(q, req->bio) != 1)
			goto out_unmap;
645

646 647
		sg_init_table(&iod->meta_sg, 1);
		if (blk_rq_map_integrity_sg(q, req->bio, &iod->meta_sg) != 1)
648
			goto out_unmap;
649

650 651
		if (rq_data_dir(req))
			nvme_dif_remap(req, nvme_dif_prep);
652

653
		if (!dma_map_sg(dev->dev, &iod->meta_sg, 1, dma_dir))
654
			goto out_unmap;
655
	}
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	cmnd->rw.dptr.prp1 = cpu_to_le64(sg_dma_address(iod->sg));
	cmnd->rw.dptr.prp2 = cpu_to_le64(iod->first_dma);
659
	if (blk_integrity_rq(req))
660
		cmnd->rw.metadata = cpu_to_le64(sg_dma_address(&iod->meta_sg));
661
	return BLK_MQ_RQ_QUEUE_OK;
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662

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out_unmap:
	dma_unmap_sg(dev->dev, iod->sg, iod->nents, dma_dir);
out:
	return ret;
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}

669
static void nvme_unmap_data(struct nvme_dev *dev, struct request *req)
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670
{
671
	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
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	enum dma_data_direction dma_dir = rq_data_dir(req) ?
			DMA_TO_DEVICE : DMA_FROM_DEVICE;

	if (iod->nents) {
		dma_unmap_sg(dev->dev, iod->sg, iod->nents, dma_dir);
		if (blk_integrity_rq(req)) {
			if (!rq_data_dir(req))
				nvme_dif_remap(req, nvme_dif_complete);
680
			dma_unmap_sg(dev->dev, &iod->meta_sg, 1, dma_dir);
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		}
682
	}
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684
	nvme_cleanup_cmd(req);
685
	nvme_free_iod(dev, req);
686
}
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688 689 690
/*
 * NOTE: ns is NULL when called on the admin queue.
 */
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static int nvme_queue_rq(struct blk_mq_hw_ctx *hctx,
			 const struct blk_mq_queue_data *bd)
693
{
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	struct nvme_ns *ns = hctx->queue->queuedata;
	struct nvme_queue *nvmeq = hctx->driver_data;
696
	struct nvme_dev *dev = nvmeq->dev;
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	struct request *req = bd->rq;
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	struct nvme_command cmnd;
	int ret = BLK_MQ_RQ_QUEUE_OK;
700

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	/*
	 * If formated with metadata, require the block layer provide a buffer
	 * unless this namespace is formated such that the metadata can be
	 * stripped/generated by the controller with PRACT=1.
	 */
706
	if (ns && ns->ms && !blk_integrity_rq(req)) {
707
		if (!(ns->pi_type && ns->ms == 8) &&
708
		    !blk_rq_is_passthrough(req)) {
709
			blk_mq_end_request(req, -EFAULT);
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			return BLK_MQ_RQ_QUEUE_OK;
		}
	}

714
	ret = nvme_setup_cmd(ns, req, &cmnd);
715
	if (ret != BLK_MQ_RQ_QUEUE_OK)
716
		return ret;
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717

718
	ret = nvme_init_iod(req, dev);
719
	if (ret != BLK_MQ_RQ_QUEUE_OK)
720
		goto out_free_cmd;
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721

722
	if (blk_rq_nr_phys_segments(req))
723
		ret = nvme_map_data(dev, req, &cmnd);
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724

725
	if (ret != BLK_MQ_RQ_QUEUE_OK)
726
		goto out_cleanup_iod;
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727

728
	blk_mq_start_request(req);
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729

730
	spin_lock_irq(&nvmeq->q_lock);
731
	if (unlikely(nvmeq->cq_vector < 0)) {
732
		ret = BLK_MQ_RQ_QUEUE_ERROR;
733
		spin_unlock_irq(&nvmeq->q_lock);
734
		goto out_cleanup_iod;
735
	}
736
	__nvme_submit_cmd(nvmeq, &cmnd);
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	nvme_process_cq(nvmeq);
	spin_unlock_irq(&nvmeq->q_lock);
	return BLK_MQ_RQ_QUEUE_OK;
740
out_cleanup_iod:
741
	nvme_free_iod(dev, req);
742 743
out_free_cmd:
	nvme_cleanup_cmd(req);
744
	return ret;
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745
}
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746

747
static void nvme_pci_complete_rq(struct request *req)
748
{
749
	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
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750

751 752
	nvme_unmap_data(iod->nvmeq->dev, req);
	nvme_complete_rq(req);
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}

755 756 757 758 759 760 761
/* We read the CQE phase first to check if the rest of the entry is valid */
static inline bool nvme_cqe_valid(struct nvme_queue *nvmeq, u16 head,
		u16 phase)
{
	return (le16_to_cpu(nvmeq->cqes[head].status) & 1) == phase;
}

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static void __nvme_process_cq(struct nvme_queue *nvmeq, unsigned int *tag)
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763
{
764
	u16 head, phase;
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	head = nvmeq->cq_head;
767
	phase = nvmeq->cq_phase;
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768

769
	while (nvme_cqe_valid(nvmeq, head, phase)) {
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		struct nvme_completion cqe = nvmeq->cqes[head];
771
		struct request *req;
772

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		if (++head == nvmeq->q_depth) {
			head = 0;
775
			phase = !phase;
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776
		}
777

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		if (tag && *tag == cqe.command_id)
			*tag = -1;
780

781
		if (unlikely(cqe.command_id >= nvmeq->q_depth)) {
782
			dev_warn(nvmeq->dev->ctrl.device,
783 784 785 786 787
				"invalid id %d completed on queue %d\n",
				cqe.command_id, le16_to_cpu(cqe.sq_id));
			continue;
		}

788 789 790 791 792 793 794 795
		/*
		 * AEN requests are special as they don't time out and can
		 * survive any kind of queue freeze and often don't respond to
		 * aborts.  We don't even bother to allocate a struct request
		 * for them but rather special case them here.
		 */
		if (unlikely(nvmeq->qid == 0 &&
				cqe.command_id >= NVME_AQ_BLKMQ_DEPTH)) {
796 797
			nvme_complete_async_event(&nvmeq->dev->ctrl,
					cqe.status, &cqe.result);
798 799 800
			continue;
		}

801
		req = blk_mq_tag_to_rq(*nvmeq->tags, cqe.command_id);
802
		nvme_end_request(req, cqe.status, cqe.result);
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803 804
	}

805
	if (head == nvmeq->cq_head && phase == nvmeq->cq_phase)
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806
		return;
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807

808
	if (likely(nvmeq->cq_vector >= 0))
809 810 811
		if (nvme_dbbuf_update_and_check_event(head, nvmeq->dbbuf_cq_db,
						      nvmeq->dbbuf_cq_ei))
			writel(head, nvmeq->q_db + nvmeq->dev->db_stride);
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812
	nvmeq->cq_head = head;
813
	nvmeq->cq_phase = phase;
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814

815
	nvmeq->cqe_seen = 1;
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}

static void nvme_process_cq(struct nvme_queue *nvmeq)
{
	__nvme_process_cq(nvmeq, NULL);
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}

static irqreturn_t nvme_irq(int irq, void *data)
824 825 826 827
{
	irqreturn_t result;
	struct nvme_queue *nvmeq = data;
	spin_lock(&nvmeq->q_lock);
828 829 830
	nvme_process_cq(nvmeq);
	result = nvmeq->cqe_seen ? IRQ_HANDLED : IRQ_NONE;
	nvmeq->cqe_seen = 0;
831 832 833 834 835 836 837
	spin_unlock(&nvmeq->q_lock);
	return result;
}

static irqreturn_t nvme_irq_check(int irq, void *data)
{
	struct nvme_queue *nvmeq = data;
838 839 840
	if (nvme_cqe_valid(nvmeq, nvmeq->cq_head, nvmeq->cq_phase))
		return IRQ_WAKE_THREAD;
	return IRQ_NONE;
841 842
}

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843
static int __nvme_poll(struct nvme_queue *nvmeq, unsigned int tag)
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844
{
845
	if (nvme_cqe_valid(nvmeq, nvmeq->cq_head, nvmeq->cq_phase)) {
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		spin_lock_irq(&nvmeq->q_lock);
		__nvme_process_cq(nvmeq, &tag);
		spin_unlock_irq(&nvmeq->q_lock);

		if (tag == -1)
			return 1;
	}

	return 0;
}

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static int nvme_poll(struct blk_mq_hw_ctx *hctx, unsigned int tag)
{
	struct nvme_queue *nvmeq = hctx->driver_data;

	return __nvme_poll(nvmeq, tag);
}

864
static void nvme_pci_submit_async_event(struct nvme_ctrl *ctrl, int aer_idx)
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865
{
866
	struct nvme_dev *dev = to_nvme_dev(ctrl);
867
	struct nvme_queue *nvmeq = dev->queues[0];
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868
	struct nvme_command c;
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869

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	memset(&c, 0, sizeof(c));
	c.common.opcode = nvme_admin_async_event;
872
	c.common.command_id = NVME_AQ_BLKMQ_DEPTH + aer_idx;
873

874
	spin_lock_irq(&nvmeq->q_lock);
875
	__nvme_submit_cmd(nvmeq, &c);
876
	spin_unlock_irq(&nvmeq->q_lock);
877 878
}

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879
static int adapter_delete_queue(struct nvme_dev *dev, u8 opcode, u16 id)
880
{
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	struct nvme_command c;

	memset(&c, 0, sizeof(c));
	c.delete_queue.opcode = opcode;
	c.delete_queue.qid = cpu_to_le16(id);

887
	return nvme_submit_sync_cmd(dev->ctrl.admin_q, &c, NULL, 0);
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}

static int adapter_alloc_cq(struct nvme_dev *dev, u16 qid,
						struct nvme_queue *nvmeq)
{
	struct nvme_command c;
	int flags = NVME_QUEUE_PHYS_CONTIG | NVME_CQ_IRQ_ENABLED;

896 897 898 899
	/*
	 * Note: we (ab)use the fact the the prp fields survive if no data
	 * is attached to the request.
	 */
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	memset(&c, 0, sizeof(c));
	c.create_cq.opcode = nvme_admin_create_cq;
	c.create_cq.prp1 = cpu_to_le64(nvmeq->cq_dma_addr);
	c.create_cq.cqid = cpu_to_le16(qid);
	c.create_cq.qsize = cpu_to_le16(nvmeq->q_depth - 1);
	c.create_cq.cq_flags = cpu_to_le16(flags);
	c.create_cq.irq_vector = cpu_to_le16(nvmeq->cq_vector);

908
	return nvme_submit_sync_cmd(dev->ctrl.admin_q, &c, NULL, 0);
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}

static int adapter_alloc_sq(struct nvme_dev *dev, u16 qid,
						struct nvme_queue *nvmeq)
{
	struct nvme_command c;
915
	int flags = NVME_QUEUE_PHYS_CONTIG;
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	/*
	 * Note: we (ab)use the fact the the prp fields survive if no data
	 * is attached to the request.
	 */
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	memset(&c, 0, sizeof(c));
	c.create_sq.opcode = nvme_admin_create_sq;
	c.create_sq.prp1 = cpu_to_le64(nvmeq->sq_dma_addr);
	c.create_sq.sqid = cpu_to_le16(qid);
	c.create_sq.qsize = cpu_to_le16(nvmeq->q_depth - 1);
	c.create_sq.sq_flags = cpu_to_le16(flags);
	c.create_sq.cqid = cpu_to_le16(qid);

929
	return nvme_submit_sync_cmd(dev->ctrl.admin_q, &c, NULL, 0);
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}

static int adapter_delete_cq(struct nvme_dev *dev, u16 cqid)
{
	return adapter_delete_queue(dev, nvme_admin_delete_cq, cqid);
}

static int adapter_delete_sq(struct nvme_dev *dev, u16 sqid)
{
	return adapter_delete_queue(dev, nvme_admin_delete_sq, sqid);
}

942
static void abort_endio(struct request *req, int error)
943
{
944 945
	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
	struct nvme_queue *nvmeq = iod->nvmeq;
946

947 948
	dev_warn(nvmeq->dev->ctrl.device,
		 "Abort status: 0x%x", nvme_req(req)->status);
949 950
	atomic_inc(&nvmeq->dev->ctrl.abort_limit);
	blk_mq_free_request(req);
951 952
}

953
static enum blk_eh_timer_return nvme_timeout(struct request *req, bool reserved)
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954
{
955 956
	struct nvme_iod *iod = blk_mq_rq_to_pdu(req);
	struct nvme_queue *nvmeq = iod->nvmeq;
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	struct nvme_dev *dev = nvmeq->dev;
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	struct request *abort_req;
	struct nvme_command cmd;
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960

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	/*
	 * Did we miss an interrupt?
	 */
	if (__nvme_poll(nvmeq, req->tag)) {
		dev_warn(dev->ctrl.device,
			 "I/O %d QID %d timeout, completion polled\n",
			 req->tag, nvmeq->qid);
		return BLK_EH_HANDLED;
	}

971
	/*
972 973 974 975 976
	 * Shutdown immediately if controller times out while starting. The
	 * reset work will see the pci device disabled when it gets the forced
	 * cancellation error. All outstanding requests are completed on
	 * shutdown, so we return BLK_EH_HANDLED.
	 */
977
	if (dev->ctrl.state == NVME_CTRL_RESETTING) {
978
		dev_warn(dev->ctrl.device,
979 980
			 "I/O %d QID %d timeout, disable controller\n",
			 req->tag, nvmeq->qid);
981
		nvme_dev_disable(dev, false);
982
		nvme_req(req)->flags |= NVME_REQ_CANCELLED;
983
		return BLK_EH_HANDLED;
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	}

986 987 988 989
	/*
 	 * Shutdown the controller immediately and schedule a reset if the
 	 * command was already aborted once before and still hasn't been
 	 * returned to the driver, or if this is the admin queue.
990
	 */
991
	if (!nvmeq->qid || iod->aborted) {
992
		dev_warn(dev->ctrl.device,
993 994
			 "I/O %d QID %d timeout, reset controller\n",
			 req->tag, nvmeq->qid);
995
		nvme_dev_disable(dev, false);
996
		nvme_reset(dev);
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		/*
		 * Mark the request as handled, since the inline shutdown
		 * forces all outstanding requests to complete.
		 */
1002
		nvme_req(req)->flags |= NVME_REQ_CANCELLED;
1003
		return BLK_EH_HANDLED;
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	}

1006
	if (atomic_dec_return(&dev->ctrl.abort_limit) < 0) {
1007
		atomic_inc(&dev->ctrl.abort_limit);
1008
		return BLK_EH_RESET_TIMER;
1009
	}
1010
	iod->aborted = 1;
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	memset(&cmd, 0, sizeof(cmd));
	cmd.abort.opcode = nvme_admin_abort_cmd;
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	cmd.abort.cid = req->tag;
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	cmd.abort.sqid = cpu_to_le16(nvmeq->qid);

1017 1018 1019
	dev_warn(nvmeq->dev->ctrl.device,
		"I/O %d QID %d timeout, aborting\n",
		 req->tag, nvmeq->qid);
1020 1021

	abort_req = nvme_alloc_request(dev->ctrl.admin_q, &cmd,
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			BLK_MQ_REQ_NOWAIT, NVME_QID_ANY);
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	if (IS_ERR(abort_req)) {
		atomic_inc(&dev->ctrl.abort_limit);
		return BLK_EH_RESET_TIMER;
	}

	abort_req->timeout = ADMIN_TIMEOUT;
	abort_req->end_io_data = NULL;
	blk_execute_rq_nowait(abort_req->q, NULL, abort_req, 0, abort_endio);
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	/*
	 * The aborted req will be completed on receiving the abort req.
	 * We enable the timer again. If hit twice, it'll cause a device reset,
	 * as the device then is in a faulty state.
	 */
	return BLK_EH_RESET_TIMER;
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}

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static void nvme_free_queue(struct nvme_queue *nvmeq)
{
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	dma_free_coherent(nvmeq->q_dmadev, CQ_SIZE(nvmeq->q_depth),
				(void *)nvmeq->cqes, nvmeq->cq_dma_addr);
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	if (nvmeq->sq_cmds)
		dma_free_coherent(nvmeq->q_dmadev, SQ_SIZE(nvmeq->q_depth),
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					nvmeq->sq_cmds, nvmeq->sq_dma_addr);
	kfree(nvmeq);
}

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static void nvme_free_queues(struct nvme_dev *dev, int lowest)
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{
	int i;

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	for (i = dev->queue_count - 1; i >= lowest; i--)