nvmf: Allow higher queue depths
Allow higher queue depths by allowing many more send/recv operations than read/write. Change-Id: I66c424a6463e5e09be6d5463667241ce9271404b Signed-off-by: Ben Walker <benjamin.walker@intel.com>
This commit is contained in:
parent
eee64c69f7
commit
caf8860900
175
lib/nvmf/rdma.c
175
lib/nvmf/rdma.c
@ -66,10 +66,12 @@
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#define NVMF_DEFAULT_RX_SGE 2
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struct spdk_nvmf_rdma_request {
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struct spdk_nvmf_request req;
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struct spdk_nvmf_request req;
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/* In Capsule data buffer */
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void *buf;
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void *buf;
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TAILQ_ENTRY(spdk_nvmf_rdma_request) link;
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};
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@ -79,30 +81,39 @@ struct spdk_nvmf_rdma_conn {
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struct rdma_cm_id *cm_id;
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/* The maximum number of I/O outstanding on this connection at one time */
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uint16_t queue_depth;
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uint16_t max_queue_depth;
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/* The maximum number of active RDMA READ and WRITE operations at one time */
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uint16_t rw_depth;
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uint16_t max_rw_depth;
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/* The current number of I/O outstanding on this connection */
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int num_outstanding_reqs;
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/* The current number of I/O outstanding on this connection. This number
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* includes all I/O from the time the capsule is first received until it is
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* completed.
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*/
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uint16_t cur_queue_depth;
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/* Array of size "queue_depth" containing RDMA requests. */
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/* The number of RDMA READ and WRITE requests that are outstanding */
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uint16_t cur_rdma_rw_depth;
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/* Requests that are waiting to perform an RDMA READ or WRITE */
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TAILQ_HEAD(, spdk_nvmf_rdma_request) pending_rdma_rw_queue;
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/* Array of size "max_queue_depth" containing RDMA requests. */
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struct spdk_nvmf_rdma_request *reqs;
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/* Array of size "queue_depth" containing 64 byte capsules
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/* Array of size "max_queue_depth" containing 64 byte capsules
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* used for receive.
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*/
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union nvmf_h2c_msg *cmds;
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struct ibv_mr *cmds_mr;
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/* Array of size "queue_depth" containing 16 byte completions
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/* Array of size "max_queue_depth" containing 16 byte completions
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* to be sent back to the user.
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*/
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union nvmf_c2h_msg *cpls;
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struct ibv_mr *cpls_mr;
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/* Array of size "queue_depth * InCapsuleDataSize" containing
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/* Array of size "max_queue_depth * InCapsuleDataSize" containing
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* buffers to be used for in capsule data. TODO: Currently, all data
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* is in capsule.
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*/
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@ -178,7 +189,7 @@ spdk_nvmf_rdma_conn_destroy(struct spdk_nvmf_rdma_conn *rdma_conn)
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}
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static struct spdk_nvmf_rdma_conn *
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spdk_nvmf_rdma_conn_create(struct rdma_cm_id *id, uint16_t queue_depth, uint16_t rw_depth)
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spdk_nvmf_rdma_conn_create(struct rdma_cm_id *id, uint16_t max_queue_depth, uint16_t max_rw_depth)
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{
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struct spdk_nvmf_rdma_conn *rdma_conn;
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struct spdk_nvmf_conn *conn;
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@ -192,14 +203,15 @@ spdk_nvmf_rdma_conn_create(struct rdma_cm_id *id, uint16_t queue_depth, uint16_t
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return NULL;
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}
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rdma_conn->queue_depth = queue_depth;
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rdma_conn->rw_depth = rw_depth;
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rdma_conn->max_queue_depth = max_queue_depth;
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rdma_conn->max_rw_depth = max_rw_depth;
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rdma_conn->cm_id = id;
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TAILQ_INIT(&rdma_conn->pending_rdma_rw_queue);
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memset(&attr, 0, sizeof(struct ibv_qp_init_attr));
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attr.qp_type = IBV_QPT_RC;
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attr.cap.max_send_wr = rdma_conn->queue_depth * 2; /* SEND, READ, and WRITE operations */
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attr.cap.max_recv_wr = rdma_conn->queue_depth; /* RECV operations */
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attr.cap.max_send_wr = rdma_conn->max_queue_depth * 2; /* SEND, READ, and WRITE operations */
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attr.cap.max_recv_wr = rdma_conn->max_queue_depth; /* RECV operations */
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attr.cap.max_send_sge = NVMF_DEFAULT_TX_SGE;
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attr.cap.max_recv_sge = NVMF_DEFAULT_RX_SGE;
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@ -234,12 +246,12 @@ spdk_nvmf_rdma_conn_create(struct rdma_cm_id *id, uint16_t queue_depth, uint16_t
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SPDK_TRACELOG(SPDK_TRACE_RDMA, "New RDMA Connection: %p\n", conn);
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rdma_conn->reqs = calloc(rdma_conn->queue_depth, sizeof(*rdma_conn->reqs));
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rdma_conn->cmds = rte_calloc("nvmf_rdma_cmd", rdma_conn->queue_depth,
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rdma_conn->reqs = calloc(max_queue_depth, sizeof(*rdma_conn->reqs));
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rdma_conn->cmds = rte_calloc("nvmf_rdma_cmd", max_queue_depth,
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sizeof(*rdma_conn->cmds), 0);
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rdma_conn->cpls = rte_calloc("nvmf_rdma_cpl", rdma_conn->queue_depth,
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rdma_conn->cpls = rte_calloc("nvmf_rdma_cpl", max_queue_depth,
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sizeof(*rdma_conn->cpls), 0);
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rdma_conn->bufs = rte_calloc("nvmf_rdma_buf", rdma_conn->queue_depth,
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rdma_conn->bufs = rte_calloc("nvmf_rdma_buf", max_queue_depth,
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g_rdma.in_capsule_data_size, 0);
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if (!rdma_conn->reqs || !rdma_conn->cmds || !rdma_conn->cpls || !rdma_conn->bufs) {
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SPDK_ERRLOG("Unable to allocate sufficient memory for RDMA queue.\n");
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@ -248,18 +260,18 @@ spdk_nvmf_rdma_conn_create(struct rdma_cm_id *id, uint16_t queue_depth, uint16_t
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}
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rdma_conn->cmds_mr = rdma_reg_msgs(rdma_conn->cm_id, rdma_conn->cmds,
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queue_depth * sizeof(*rdma_conn->cmds));
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max_queue_depth * sizeof(*rdma_conn->cmds));
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rdma_conn->cpls_mr = rdma_reg_msgs(rdma_conn->cm_id, rdma_conn->cpls,
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queue_depth * sizeof(*rdma_conn->cpls));
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max_queue_depth * sizeof(*rdma_conn->cpls));
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rdma_conn->bufs_mr = rdma_reg_msgs(rdma_conn->cm_id, rdma_conn->bufs,
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rdma_conn->queue_depth * g_rdma.in_capsule_data_size);
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max_queue_depth * g_rdma.in_capsule_data_size);
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if (!rdma_conn->cmds_mr || !rdma_conn->cpls_mr || !rdma_conn->bufs_mr) {
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SPDK_ERRLOG("Unable to register required memory for RDMA queue.\n");
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spdk_nvmf_rdma_conn_destroy(rdma_conn);
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return NULL;
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}
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for (i = 0; i < queue_depth; i++) {
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for (i = 0; i < max_queue_depth; i++) {
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rdma_req = &rdma_conn->reqs[i];
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rdma_req->buf = (void *)((uintptr_t)rdma_conn->bufs + (i * g_rdma.in_capsule_data_size));
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rdma_req->req.cmd = &rdma_conn->cmds[i];
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@ -462,16 +474,33 @@ nvmf_post_rdma_send(struct spdk_nvmf_request *req)
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static int
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spdk_nvmf_rdma_request_transfer_data(struct spdk_nvmf_request *req)
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{
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if (req->xfer == SPDK_NVME_DATA_CONTROLLER_TO_HOST) {
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return nvmf_post_rdma_write(req);
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} else if (req->xfer == SPDK_NVME_DATA_HOST_TO_CONTROLLER) {
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return nvmf_post_rdma_read(req);
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int rc;
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struct spdk_nvmf_rdma_request *rdma_req = get_rdma_req(req);
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struct spdk_nvmf_conn *conn = req->conn;
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struct spdk_nvmf_rdma_conn *rdma_conn = get_rdma_conn(conn);
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assert(req->xfer != SPDK_NVME_DATA_NONE);
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if (rdma_conn->cur_rdma_rw_depth < rdma_conn->max_rw_depth) {
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if (req->xfer == SPDK_NVME_DATA_CONTROLLER_TO_HOST) {
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rc = nvmf_post_rdma_write(req);
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if (rc) {
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SPDK_ERRLOG("Unable to transfer data from target to host\n");
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return -1;
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}
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} else if (req->xfer == SPDK_NVME_DATA_HOST_TO_CONTROLLER) {
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rc = nvmf_post_rdma_read(req);
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if (rc) {
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SPDK_ERRLOG("Unable to transfer data from host to target\n");
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return -1;
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}
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}
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rdma_conn->cur_rdma_rw_depth++;
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} else {
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TAILQ_INSERT_TAIL(&rdma_conn->pending_rdma_rw_queue, rdma_req, link);
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}
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/* This should not have been called if there is no data to xfer */
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assert(false);
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return -1;
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return 0;
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}
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static int
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@ -484,7 +513,7 @@ spdk_nvmf_rdma_request_send_completion(struct spdk_nvmf_request *req)
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/* Advance our sq_head pointer */
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conn->sq_head++;
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if (conn->sq_head == rdma_conn->queue_depth) {
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if (conn->sq_head == rdma_conn->max_queue_depth) {
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conn->sq_head = 0;
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}
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rsp->sqhd = conn->sq_head;
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@ -513,11 +542,11 @@ spdk_nvmf_rdma_request_ack_completion(struct spdk_nvmf_request *req)
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/* Advance our sq_head pointer */
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conn->sq_head++;
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if (conn->sq_head == rdma_conn->queue_depth) {
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if (conn->sq_head == rdma_conn->max_queue_depth) {
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conn->sq_head = 0;
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}
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rdma_conn->num_outstanding_reqs--;
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rdma_conn->cur_queue_depth--;
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return 0;
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}
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@ -554,8 +583,8 @@ nvmf_rdma_connect(struct rdma_cm_event *event)
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const struct spdk_nvmf_rdma_request_private_data *private_data = NULL;
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struct spdk_nvmf_rdma_accept_private_data accept_data;
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uint16_t sts = 0;
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uint16_t queue_depth;
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uint16_t rw_depth;
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uint16_t max_queue_depth;
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uint16_t max_rw_depth;
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int rc;
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@ -579,8 +608,8 @@ nvmf_rdma_connect(struct rdma_cm_event *event)
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SPDK_TRACELOG(SPDK_TRACE_RDMA, "Calculating Queue Depth\n");
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/* Start with the maximum queue depth allowed by the target */
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queue_depth = g_rdma.max_queue_depth;
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rw_depth = g_rdma.max_queue_depth;
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max_queue_depth = g_rdma.max_queue_depth;
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max_rw_depth = g_rdma.max_queue_depth;
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SPDK_TRACELOG(SPDK_TRACE_RDMA, "Target Max Queue Depth: %d\n", g_rdma.max_queue_depth);
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/* Next check the local NIC's hardware limitations */
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@ -593,15 +622,15 @@ nvmf_rdma_connect(struct rdma_cm_event *event)
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SPDK_TRACELOG(SPDK_TRACE_RDMA,
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"Local NIC Max Send/Recv Queue Depth: %d Max Read/Write Queue Depth: %d\n",
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ibdev_attr.max_qp_wr, ibdev_attr.max_qp_rd_atom);
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queue_depth = nvmf_min(queue_depth, ibdev_attr.max_qp_wr);
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rw_depth = nvmf_min(rw_depth, ibdev_attr.max_qp_rd_atom);
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max_queue_depth = nvmf_min(max_queue_depth, ibdev_attr.max_qp_wr);
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max_rw_depth = nvmf_min(max_rw_depth, ibdev_attr.max_qp_rd_atom);
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/* Next check the remote NIC's hardware limitations */
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rdma_param = &event->param.conn;
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SPDK_TRACELOG(SPDK_TRACE_RDMA,
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"Host NIC Max Incoming RDMA R/W operations: %d Max Outgoing RDMA R/W operations: %d\n",
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rdma_param->initiator_depth, rdma_param->responder_resources);
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rw_depth = nvmf_min(rw_depth, rdma_param->initiator_depth);
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max_rw_depth = nvmf_min(max_rw_depth, rdma_param->initiator_depth);
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/* Finally check for the host software requested values, which are
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* optional. */
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@ -610,18 +639,16 @@ nvmf_rdma_connect(struct rdma_cm_event *event)
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private_data = rdma_param->private_data;
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SPDK_TRACELOG(SPDK_TRACE_RDMA, "Host Receive Queue Size: %d\n", private_data->hrqsize);
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SPDK_TRACELOG(SPDK_TRACE_RDMA, "Host Send Queue Size: %d\n", private_data->hsqsize);
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queue_depth = nvmf_min(queue_depth, private_data->hrqsize);
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queue_depth = nvmf_min(queue_depth, private_data->hsqsize);
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max_queue_depth = nvmf_min(max_queue_depth, private_data->hrqsize);
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max_queue_depth = nvmf_min(max_queue_depth, private_data->hsqsize);
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}
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/* Queue Depth cannot exceed R/W depth */
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queue_depth = nvmf_min(queue_depth, rw_depth);
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SPDK_TRACELOG(SPDK_TRACE_RDMA, "Final Negotiated Queue Depth: %d R/W Depth: %d\n",
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queue_depth, rw_depth);
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max_queue_depth, max_rw_depth);
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/* Init the NVMf rdma transport connection */
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rdma_conn = spdk_nvmf_rdma_conn_create(event->id, queue_depth, rw_depth);
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rdma_conn = spdk_nvmf_rdma_conn_create(event->id, max_queue_depth, max_rw_depth);
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if (rdma_conn == NULL) {
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SPDK_ERRLOG("Error on nvmf connection creation\n");
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goto err1;
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@ -632,13 +659,13 @@ nvmf_rdma_connect(struct rdma_cm_event *event)
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TAILQ_INSERT_TAIL(&g_pending_conns, rdma_conn, link);
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accept_data.recfmt = 0;
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accept_data.crqsize = rdma_conn->queue_depth;
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accept_data.crqsize = max_queue_depth;
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ctrlr_event_data = *rdma_param;
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ctrlr_event_data.private_data = &accept_data;
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ctrlr_event_data.private_data_len = sizeof(accept_data);
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if (event->id->ps == RDMA_PS_TCP) {
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ctrlr_event_data.responder_resources = 0; /* We accept 0 reads from the host */
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ctrlr_event_data.initiator_depth = rdma_conn->queue_depth;
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ctrlr_event_data.initiator_depth = max_rw_depth;
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}
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rc = rdma_accept(event->id, &ctrlr_event_data);
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@ -1098,6 +1125,32 @@ spdk_nvmf_rdma_close_conn(struct spdk_nvmf_conn *conn)
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return spdk_nvmf_rdma_conn_destroy(rdma_conn);
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}
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static int
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spdk_nvmf_rdma_handle_pending_rdma_rw(struct spdk_nvmf_conn *conn)
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{
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struct spdk_nvmf_rdma_conn *rdma_conn = get_rdma_conn(conn);
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struct spdk_nvmf_rdma_request *rdma_req;
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int rc;
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while (rdma_conn->cur_rdma_rw_depth < rdma_conn->max_rw_depth) {
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if (TAILQ_EMPTY(&rdma_conn->pending_rdma_rw_queue)) {
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break;
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}
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rdma_req = TAILQ_FIRST(&rdma_conn->pending_rdma_rw_queue);
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TAILQ_REMOVE(&rdma_conn->pending_rdma_rw_queue, rdma_req, link);
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SPDK_TRACELOG(SPDK_TRACE_RDMA, "Submitting previously queued for RDMA R/W request %p\n", rdma_req);
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rc = spdk_nvmf_rdma_request_transfer_data(&rdma_req->req);
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if (rc) {
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return -1;
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}
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}
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return 0;
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}
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/* Returns the number of times that spdk_nvmf_request_exec was called,
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* or -1 on error.
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*/
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@ -1139,10 +1192,10 @@ spdk_nvmf_rdma_poll(struct spdk_nvmf_conn *conn)
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switch (wc.opcode) {
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case IBV_WC_SEND:
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assert(rdma_conn->num_outstanding_reqs > 0);
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assert(rdma_conn->cur_queue_depth > 0);
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SPDK_TRACELOG(SPDK_TRACE_RDMA,
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"RDMA SEND Complete. Request: %p Connection: %p Outstanding I/O: %d\n",
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req, conn, rdma_conn->num_outstanding_reqs - 1);
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req, conn, rdma_conn->cur_queue_depth - 1);
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rc = spdk_nvmf_rdma_request_ack_completion(req);
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if (rc) {
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return -1;
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@ -1157,6 +1210,13 @@ spdk_nvmf_rdma_poll(struct spdk_nvmf_conn *conn)
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if (rc) {
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return -1;
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}
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/* Since an RDMA R/W operation completed, try to submit from the pending list. */
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rdma_conn->cur_rdma_rw_depth--;
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rc = spdk_nvmf_rdma_handle_pending_rdma_rw(conn);
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if (rc) {
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return -1;
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}
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break;
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case IBV_WC_RDMA_READ:
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@ -1168,6 +1228,13 @@ spdk_nvmf_rdma_poll(struct spdk_nvmf_conn *conn)
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return -1;
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}
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count++;
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/* Since an RDMA R/W operation completed, try to submit from the pending list. */
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rdma_conn->cur_rdma_rw_depth--;
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rc = spdk_nvmf_rdma_handle_pending_rdma_rw(conn);
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if (rc) {
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return -1;
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}
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break;
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case IBV_WC_RECV:
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@ -1182,7 +1249,7 @@ spdk_nvmf_rdma_poll(struct spdk_nvmf_conn *conn)
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}
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/* Poll the recv completion queue for incoming requests */
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while (rdma_conn->num_outstanding_reqs < rdma_conn->queue_depth) {
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while (rdma_conn->cur_queue_depth < rdma_conn->max_queue_depth) {
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rc = ibv_poll_cq(rdma_conn->cm_id->recv_cq, 1, &wc);
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if (rc == 0) {
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break;
|
||||
@ -1213,10 +1280,10 @@ spdk_nvmf_rdma_poll(struct spdk_nvmf_conn *conn)
|
||||
return -1;
|
||||
}
|
||||
|
||||
rdma_conn->num_outstanding_reqs++;
|
||||
rdma_conn->cur_queue_depth++;
|
||||
SPDK_TRACELOG(SPDK_TRACE_RDMA,
|
||||
"RDMA RECV Complete. Request: %p Connection: %p Outstanding I/O: %d\n",
|
||||
req, conn, rdma_conn->num_outstanding_reqs);
|
||||
req, conn, rdma_conn->cur_queue_depth);
|
||||
spdk_trace_record(TRACE_NVMF_IO_START, 0, 0, (uint64_t)req, 0);
|
||||
|
||||
memset(req->rsp, 0, sizeof(*req->rsp));
|
||||
|
Loading…
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Reference in New Issue
Block a user