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nvmf_transport.ko provides routines for managing NVMeoF queue pairs and capsules. It provides a glue layer between transports (such as TCP or RDMA) and an NVMeoF host (initiator) and controller (target). Unlike the synchronous API exposed to the host and controller by libnvmf, the kernel's transport layer uses an asynchronous API built on callbacks. Upper layers provide callbacks on queue pairs that are invoked for transport errors (error_cb) or anytime a capsule is received (receive_cb). Data transfers for a command are usually associated with a callback that is invoked once a transfer has finished either due to an error or successful completion. For an upper layer that is a host, command capsules are allocated and populated with an NVMe SQE by calling nvmf_allocate_command. A data buffer (described by a struct memdesc) can be associated with a command capsule before it is transmitted via nvmf_capsule_append_data. This function accepts a direction (send vs receive) as well as the data transfer callback. The host then transmits the command via nvmf_transmit_capsule. The host must ensure that the data buffer described by the 'struct memdesc' remains valid until the data transfer callback is called. The queue pair's receive_cb callback should match received response capsules up with previously transmitted commands. For the controller, incoming commands are received via the queue pair's receive_cb callback. nvmf_receive_controller_data is used to retrieve any data from a command (e.g. the data for a WRITE command). It can be called multiple times to split the data transfer into smaller sizes. This function accepts an I/O completion callback that is invoked once the data transfer has completed. nvmf_send_controller_data is used to send data to a remote host in response to a command. In this case a callback function is not used but the status is returned synchronously. Finally, the controller can allocate a response capsule via nvmf_allocate_response populated with a supplied CQE and send the response via nvmf_transmit_capsule. Reviewed by: imp Sponsored by: Chelsio Communications Differential Revision: https://reviews.freebsd.org/D44711
129 lines
3.2 KiB
C
129 lines
3.2 KiB
C
/*-
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* SPDX-License-Identifier: BSD-2-Clause
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*
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* Copyright (c) 2022-2024 Chelsio Communications, Inc.
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* Written by: John Baldwin <jhb@FreeBSD.org>
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*/
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#ifndef __NVMF_TRANSPORT_INTERNAL_H__
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#define __NVMF_TRANSPORT_INTERNAL_H__
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#include <sys/memdesc.h>
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/*
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* Interface between the transport-independent APIs in
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* nvmf_transport.c and individual transports.
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*/
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struct module;
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struct nvmf_io_request;
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struct nvmf_transport_ops {
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/* Queue pair management. */
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struct nvmf_qpair *(*allocate_qpair)(bool controller,
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const struct nvmf_handoff_qpair_params *params);
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void (*free_qpair)(struct nvmf_qpair *qp);
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/* Capsule operations. */
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struct nvmf_capsule *(*allocate_capsule)(struct nvmf_qpair *qp,
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int how);
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void (*free_capsule)(struct nvmf_capsule *nc);
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int (*transmit_capsule)(struct nvmf_capsule *nc);
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uint8_t (*validate_command_capsule)(struct nvmf_capsule *nc);
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/* Transferring controller data. */
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size_t (*capsule_data_len)(const struct nvmf_capsule *nc);
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int (*receive_controller_data)(struct nvmf_capsule *nc,
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uint32_t data_offset, struct nvmf_io_request *io);
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u_int (*send_controller_data)(struct nvmf_capsule *nc,
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uint32_t data_offset, struct mbuf *m, size_t len);
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enum nvmf_trtype trtype;
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int priority;
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};
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/* Either an Admin or I/O Submission/Completion Queue pair. */
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struct nvmf_qpair {
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struct nvmf_transport *nq_transport;
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struct nvmf_transport_ops *nq_ops;
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bool nq_controller;
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/* Callback to invoke for a received capsule. */
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nvmf_capsule_receive_t *nq_receive;
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void *nq_receive_arg;
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/* Callback to invoke for an error. */
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nvmf_qpair_error_t *nq_error;
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void *nq_error_arg;
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bool nq_admin;
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};
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struct nvmf_io_request {
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/*
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* Data buffer contains io_len bytes in the backing store
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* described by mem.
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*/
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struct memdesc io_mem;
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size_t io_len;
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nvmf_io_complete_t *io_complete;
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void *io_complete_arg;
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};
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/*
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* Fabrics Command and Response Capsules. The Fabrics host
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* (initiator) and controller (target) drivers work with capsules that
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* are transmitted and received by a specific transport.
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*/
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struct nvmf_capsule {
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struct nvmf_qpair *nc_qpair;
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/* Either a SQE or CQE. */
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union {
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struct nvme_command nc_sqe;
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struct nvme_completion nc_cqe;
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};
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int nc_qe_len;
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/*
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* Is SQHD in received capsule valid? False for locally-
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* synthesized responses.
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*/
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bool nc_sqhd_valid;
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bool nc_send_data;
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struct nvmf_io_request nc_data;
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};
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static void __inline
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nvmf_qpair_error(struct nvmf_qpair *nq, int error)
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{
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nq->nq_error(nq->nq_error_arg, error);
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}
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static void __inline
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nvmf_capsule_received(struct nvmf_qpair *nq, struct nvmf_capsule *nc)
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{
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nq->nq_receive(nq->nq_receive_arg, nc);
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}
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static void __inline
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nvmf_complete_io_request(struct nvmf_io_request *io, size_t xfered, int error)
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{
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io->io_complete(io->io_complete_arg, xfered, error);
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}
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int nvmf_transport_module_handler(struct module *, int, void *);
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#define NVMF_TRANSPORT(name, ops) \
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static moduledata_t nvmf_transport_##name##_mod = { \
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"nvmf/" #name, \
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nvmf_transport_module_handler, \
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&(ops) \
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}; \
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DECLARE_MODULE(nvmf_transport_##name, nvmf_transport_##name##_mod, \
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SI_SUB_DRIVERS, SI_ORDER_ANY); \
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MODULE_DEPEND(nvmf_transport_##name, nvmf_transport, 1, 1, 1)
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#endif /* !__NVMF_TRANSPORT_INTERNAL_H__ */
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