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nvme: utilize two queue maps, one for reads and one for writes
NVMe does round-robin between queues by default, which means that sharing a queue map for both reads and writes can be problematic in terms of read servicing. It's much easier to flood the queue with writes and reduce the read servicing. Implement two queue maps, one for reads and one for writes. The write queue count is configurable through the 'write_queues' parameter. By default, we retain the previous behavior of having a single queue set, shared between reads and writes. Setting 'write_queues' to a non-zero value will create two queue sets, one for reads and one for writes, the latter using the configurable number of queues (hardware queue counts permitting). Reviewed-by: Hannes Reinecke <hare@suse.com> Reviewed-by: Keith Busch <keith.busch@intel.com> Signed-off-by: Jens Axboe <axboe@kernel.dk>
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@ -74,11 +74,29 @@ static int io_queue_depth = 1024;
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module_param_cb(io_queue_depth, &io_queue_depth_ops, &io_queue_depth, 0644);
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MODULE_PARM_DESC(io_queue_depth, "set io queue depth, should >= 2");
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static int queue_count_set(const char *val, const struct kernel_param *kp);
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static const struct kernel_param_ops queue_count_ops = {
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.set = queue_count_set,
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.get = param_get_int,
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};
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static int write_queues;
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module_param_cb(write_queues, &queue_count_ops, &write_queues, 0644);
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MODULE_PARM_DESC(write_queues,
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"Number of queues to use for writes. If not set, reads and writes "
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"will share a queue set.");
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struct nvme_dev;
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struct nvme_queue;
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static void nvme_dev_disable(struct nvme_dev *dev, bool shutdown);
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enum {
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NVMEQ_TYPE_READ,
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NVMEQ_TYPE_WRITE,
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NVMEQ_TYPE_NR,
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};
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/*
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* Represents an NVM Express device. Each nvme_dev is a PCI function.
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*/
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@ -92,6 +110,7 @@ struct nvme_dev {
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struct dma_pool *prp_small_pool;
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unsigned online_queues;
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unsigned max_qid;
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unsigned io_queues[NVMEQ_TYPE_NR];
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unsigned int num_vecs;
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int q_depth;
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u32 db_stride;
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@ -134,6 +153,17 @@ static int io_queue_depth_set(const char *val, const struct kernel_param *kp)
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return param_set_int(val, kp);
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}
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static int queue_count_set(const char *val, const struct kernel_param *kp)
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{
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int n = 0, ret;
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ret = kstrtoint(val, 10, &n);
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if (n > num_possible_cpus())
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n = num_possible_cpus();
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return param_set_int(val, kp);
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}
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static inline unsigned int sq_idx(unsigned int qid, u32 stride)
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{
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return qid * 2 * stride;
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@ -218,9 +248,20 @@ static inline void _nvme_check_size(void)
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BUILD_BUG_ON(sizeof(struct nvme_dbbuf) != 64);
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}
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static unsigned int max_io_queues(void)
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{
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return num_possible_cpus() + write_queues;
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}
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static unsigned int max_queue_count(void)
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{
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/* IO queues + admin queue */
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return 1 + max_io_queues();
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}
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static inline unsigned int nvme_dbbuf_size(u32 stride)
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{
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return ((num_possible_cpus() + 1) * 8 * stride);
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return (max_queue_count() * 8 * stride);
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}
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static int nvme_dbbuf_dma_alloc(struct nvme_dev *dev)
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@ -431,12 +472,41 @@ static int nvme_init_request(struct blk_mq_tag_set *set, struct request *req,
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return 0;
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}
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static int queue_irq_offset(struct nvme_dev *dev)
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{
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/* if we have more than 1 vec, admin queue offsets us by 1 */
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if (dev->num_vecs > 1)
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return 1;
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return 0;
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}
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static int nvme_pci_map_queues(struct blk_mq_tag_set *set)
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{
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struct nvme_dev *dev = set->driver_data;
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int i, qoff, offset;
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return blk_mq_pci_map_queues(&set->map[0], to_pci_dev(dev->dev),
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dev->num_vecs > 1 ? 1 /* admin queue */ : 0);
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offset = queue_irq_offset(dev);
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for (i = 0, qoff = 0; i < set->nr_maps; i++) {
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struct blk_mq_queue_map *map = &set->map[i];
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map->nr_queues = dev->io_queues[i];
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if (!map->nr_queues) {
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BUG_ON(i == NVMEQ_TYPE_READ);
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/* shared set, resuse read set parameters */
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map->nr_queues = dev->io_queues[NVMEQ_TYPE_READ];
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qoff = 0;
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offset = queue_irq_offset(dev);
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}
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map->queue_offset = qoff;
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blk_mq_pci_map_queues(map, to_pci_dev(dev->dev), offset);
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qoff += map->nr_queues;
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offset += map->nr_queues;
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}
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return 0;
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}
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/**
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@ -849,6 +919,14 @@ out_free_cmd:
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return ret;
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}
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static int nvme_rq_flags_to_type(struct request_queue *q, unsigned int flags)
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{
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if ((flags & REQ_OP_MASK) == REQ_OP_READ)
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return NVMEQ_TYPE_READ;
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return NVMEQ_TYPE_WRITE;
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}
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static void nvme_pci_complete_rq(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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@ -1475,13 +1553,14 @@ static const struct blk_mq_ops nvme_mq_admin_ops = {
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};
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static const struct blk_mq_ops nvme_mq_ops = {
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.queue_rq = nvme_queue_rq,
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.complete = nvme_pci_complete_rq,
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.init_hctx = nvme_init_hctx,
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.init_request = nvme_init_request,
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.map_queues = nvme_pci_map_queues,
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.timeout = nvme_timeout,
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.poll = nvme_poll,
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.queue_rq = nvme_queue_rq,
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.rq_flags_to_type = nvme_rq_flags_to_type,
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.complete = nvme_pci_complete_rq,
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.init_hctx = nvme_init_hctx,
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.init_request = nvme_init_request,
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.map_queues = nvme_pci_map_queues,
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.timeout = nvme_timeout,
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.poll = nvme_poll,
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};
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static void nvme_dev_remove_admin(struct nvme_dev *dev)
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@ -1891,6 +1970,87 @@ static int nvme_setup_host_mem(struct nvme_dev *dev)
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return ret;
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}
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static void nvme_calc_io_queues(struct nvme_dev *dev, unsigned int nr_io_queues)
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{
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unsigned int this_w_queues = write_queues;
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/*
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* Setup read/write queue split
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*/
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if (nr_io_queues == 1) {
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dev->io_queues[NVMEQ_TYPE_READ] = 1;
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dev->io_queues[NVMEQ_TYPE_WRITE] = 0;
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return;
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}
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/*
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* If 'write_queues' is set, ensure it leaves room for at least
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* one read queue
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*/
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if (this_w_queues >= nr_io_queues)
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this_w_queues = nr_io_queues - 1;
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/*
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* If 'write_queues' is set to zero, reads and writes will share
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* a queue set.
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*/
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if (!this_w_queues) {
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dev->io_queues[NVMEQ_TYPE_WRITE] = 0;
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dev->io_queues[NVMEQ_TYPE_READ] = nr_io_queues;
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} else {
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dev->io_queues[NVMEQ_TYPE_WRITE] = this_w_queues;
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dev->io_queues[NVMEQ_TYPE_READ] = nr_io_queues - this_w_queues;
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}
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}
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static int nvme_setup_irqs(struct nvme_dev *dev, int nr_io_queues)
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{
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struct pci_dev *pdev = to_pci_dev(dev->dev);
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int irq_sets[2];
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struct irq_affinity affd = {
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.pre_vectors = 1,
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.nr_sets = ARRAY_SIZE(irq_sets),
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.sets = irq_sets,
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};
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int result;
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/*
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* For irq sets, we have to ask for minvec == maxvec. This passes
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* any reduction back to us, so we can adjust our queue counts and
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* IRQ vector needs.
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*/
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do {
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nvme_calc_io_queues(dev, nr_io_queues);
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irq_sets[0] = dev->io_queues[NVMEQ_TYPE_READ];
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irq_sets[1] = dev->io_queues[NVMEQ_TYPE_WRITE];
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if (!irq_sets[1])
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affd.nr_sets = 1;
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/*
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* Need IRQs for read+write queues, and one for the admin queue
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*/
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nr_io_queues = irq_sets[0] + irq_sets[1] + 1;
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result = pci_alloc_irq_vectors_affinity(pdev, nr_io_queues,
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nr_io_queues,
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PCI_IRQ_ALL_TYPES | PCI_IRQ_AFFINITY, &affd);
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/*
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* Need to reduce our vec counts
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*/
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if (result == -ENOSPC) {
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nr_io_queues--;
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if (!nr_io_queues)
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return result;
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continue;
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} else if (result <= 0)
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return -EIO;
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break;
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} while (1);
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return result;
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}
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static int nvme_setup_io_queues(struct nvme_dev *dev)
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{
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struct nvme_queue *adminq = &dev->queues[0];
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@ -1898,11 +2058,7 @@ static int nvme_setup_io_queues(struct nvme_dev *dev)
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int result, nr_io_queues;
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unsigned long size;
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struct irq_affinity affd = {
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.pre_vectors = 1
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};
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nr_io_queues = num_possible_cpus();
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nr_io_queues = max_io_queues();
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result = nvme_set_queue_count(&dev->ctrl, &nr_io_queues);
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if (result < 0)
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return result;
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@ -1937,13 +2093,18 @@ static int nvme_setup_io_queues(struct nvme_dev *dev)
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* setting up the full range we need.
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*/
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pci_free_irq_vectors(pdev);
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result = pci_alloc_irq_vectors_affinity(pdev, 1, nr_io_queues + 1,
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PCI_IRQ_ALL_TYPES | PCI_IRQ_AFFINITY, &affd);
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result = nvme_setup_irqs(dev, nr_io_queues);
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if (result <= 0)
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return -EIO;
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dev->num_vecs = result;
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dev->max_qid = max(result - 1, 1);
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dev_info(dev->ctrl.device, "%d/%d read/write queues\n",
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dev->io_queues[NVMEQ_TYPE_READ],
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dev->io_queues[NVMEQ_TYPE_WRITE]);
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/*
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* Should investigate if there's a performance win from allocating
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* more queues than interrupt vectors; it might allow the submission
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@ -2045,6 +2206,7 @@ static int nvme_dev_add(struct nvme_dev *dev)
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if (!dev->ctrl.tagset) {
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dev->tagset.ops = &nvme_mq_ops;
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dev->tagset.nr_hw_queues = dev->online_queues - 1;
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dev->tagset.nr_maps = NVMEQ_TYPE_NR;
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dev->tagset.timeout = NVME_IO_TIMEOUT;
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dev->tagset.numa_node = dev_to_node(dev->dev);
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dev->tagset.queue_depth =
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@ -2491,8 +2653,8 @@ static int nvme_probe(struct pci_dev *pdev, const struct pci_device_id *id)
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if (!dev)
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return -ENOMEM;
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dev->queues = kcalloc_node(num_possible_cpus() + 1,
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sizeof(struct nvme_queue), GFP_KERNEL, node);
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dev->queues = kcalloc_node(max_queue_count(), sizeof(struct nvme_queue),
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GFP_KERNEL, node);
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if (!dev->queues)
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goto free;
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