Use the new one from io_channel.h. Change-Id: I7bf6729caf6eeebcb58450a36119601957ad5da4 Signed-off-by: Ben Walker <benjamin.walker@intel.com> Reviewed-on: https://review.gerrithub.io/388290 Reviewed-by: Jim Harris <james.r.harris@intel.com> Reviewed-by: Dariusz Stojaczyk <dariuszx.stojaczyk@intel.com> Reviewed-by: Daniel Verkamp <daniel.verkamp@intel.com> Tested-by: SPDK Automated Test System <sys_sgsw@intel.com>
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Changelog
v18.01: (Upcoming Release)
Build System
The build system now includes a make install
rule, including support for the common
DESTDIR
and prefix
variables as used in other build systems. Additionally, the prefix
may be set via the configure --prefix
option. Example: make install prefix=/usr
.
RPC
A JSON RPC listener is now enabled by default using a UNIX domain socket at /var/run/spdk.sock. A -r option command line option has been added to enable an alternative UNIX domain socket location, or a TCP port in the format ip_addr:tcp_port (i.e. 127.0.0.1:5260). The Rpc configuration file section is now deprecated and will be removed in the v18.04 release.
I/O Channels
spdk_poller_register() and spdk_poller_unregister() were moved from the event framework (include/spdk/event.h) to the I/O channel library (include/spdk/io_channel.h). This allows code that doesn't depend on the event framework to request registration and unregistration of pollers.
Block Device Abstraction Layer (bdev)
The poller abstraction was removed from the bdev layer. There is now a general purpose abstraction for pollers available in include/spdk/io_channel.h
v17.10: Logical Volumes
New dependencies
libuuid was added as new dependency for logical volumes.
libnuma is now required unconditionally now that the DPDK submodule has been updated to DPDK 17.08.
Block Device Abstraction Layer (bdev)
An fio plugin was added that can route I/O to the bdev layer. See the plugin documentation for more information.
spdk_bdev_unmap() was modified to take an offset and a length in bytes as arguments instead of requiring the user to provide an array of SCSI unmap descriptors. This limits unmaps to a single contiguous range.
spdk_bdev_write_zeroes() was introduced. It ensures that all specified blocks will be zeroed out. If a block device doesn't natively support a write zeroes command, the bdev layer emulates it using write commands.
New API functions that accept I/O parameters in units of blocks instead of bytes have been added:
- spdk_bdev_read_blocks(), spdk_bdev_readv_blocks()
- spdk_bdev_write_blocks(), spdk_bdev_writev_blocks()
- spdk_bdev_write_zeroes_blocks()
- spdk_bdev_unmap_blocks()
The bdev layer now handles temporary out-of-memory I/O failures internally by queueing the I/O to be retried later.
Linux AIO bdev
The AIO bdev now allows the user to override the auto-detected block size.
NVMe driver
The NVMe driver now recognizes the NVMe 1.3 Namespace Optimal I/O Boundary field. NVMe 1.3 devices may report an optimal I/O boundary, which the driver will take into account when splitting I/O requests.
The HotplugEnable option in [Nvme]
sections of the configuration file is now
"No" by default. It was previously "Yes".
The NVMe library now includes a spdk_nvme_ns_get_ctrlr() function which returns the NVMe Controller associated with a given namespace.
The NVMe library now allows the user to specify a host identifier when attaching to a controller. The host identifier is used as part of the Reservations feature, as well as in the NVMe-oF Connect command. The default host ID is also now a randomly-generated UUID, and the default host NQN uses the host ID to generate a UUID-based NQN.
spdk_nvme_connect() was added to allow the user to connect directly to a single NVMe or NVMe-oF controller.
NVMe-oF Target (nvmf_tgt)
The NVMe-oF target no longer requires any in-capsule data buffers to run, and the feature is now entirely optional. Previously, at least 4 KiB in-capsule data buffers were required.
NVMe-oF subsytems have a new configuration option, AllowAnyHost, to control whether the host NQN whitelist is enforced when accepting new connections. If no Host options have been specified and AllowAnyHost is disabled, the connection will be denied; this is a behavior change from previous releases, which allowed any host NQN to connect if the Host list was empty. AllowAnyHost is disabled by default.
NVMe-oF namespaces may now be assigned arbitrary namespace IDs, and the number of namespaces per subsystem is no longer limited.
The NVMe-oF target now supports the Write Zeroes command.
Environment Abstraction Layer
A new default value, SPDK_MEMPOOL_DEFAULT_CACHE_SIZE, was added to provide additional clarity when constructing spdk_mempools. Previously, -1 could be passed and the library would choose a reasonable default, but this new value makes it explicit that the default is being used.
Blobstore
The blobstore super block now contains a bstype field to identify the type of the blobstore. Existing code should be updated to fill out bstype when calling spdk_bs_init() and spdk_bs_load().
spdk_bs_destroy() was added to allow destroying blobstore on device with an initialized blobstore.
spdk_bs_io_readv_blob() and spdk_bs_io_writev_blob() were added to enable scattered payloads.
A CLI tool for blobstore has been added, allowing basic operations through either command line or shell interface. See the blobcli documentation for more details.
Event Framework
The ability to set a thread name, previously only used by the reactor code, is
now part of the spdk_thread_allocate() API. Users may specify a thread name
which will show up in tools like gdb
.
Log
The spdk_trace_dump() function now takes a new parameter to allow the caller to specify an output file handle (stdout or stderr, for example).
Logical Volumes
Logical volumes library built on top of SPDK blobstore has been added. It is possible to create logical volumes on top of other devices using RPC.
See the logical volumes documentation for more information.
Persistent Memory
A new persistent memory bdev type has been added. The persistent memory block device is built on top of libpmemblk. It is possible to create pmem devices on top of pmem pool files using RPC.
See the Pmem Block Device documentation for more information.
Virtio SCSI driver
A userspace driver for Virtio SCSI devices has been added. The driver is capable of creating block devices on top of LUNs exposed by another SPDK vhost-scsi application.
See the Virtio SCSI documentation and Getting Started guide for more information.
v17.07: Build system improvements, userspace vhost-blk target, and GPT bdev
Build System
A configure
script has been added to simplify the build configuration process.
The existing CONFIG file and make CONFIG_...
options are also still supported.
Run ./configure --help
for information about available configuration options.
A DPDK submodule has been added to make building SPDK easier. If no --with-dpdk
option is specified to configure, the SPDK build system will automatically build a
known-good configuration of DPDK with the minimal options enabled. See the Building
section of README.md for more information.
A Vagrant setup has been added to make it easier to develop and use SPDK on systems without suitable NVMe hardware. See the Vagrant section of README.md for more information.
Userspace vhost-blk target
The vhost library and example app have been updated to support the vhost-blk protocol in addition to the existing vhost-scsi protocol. See the vhost documentation for more details.
Block device abstraction layer (bdev)
A GPT virtual block device has been added, which automatically exposes GPT partitions with a special SPDK-specific partition type as bdevs. See the GPT bdev documentation for more information.
NVMe driver
The NVMe driver has been updated to support recent Intel SSDs, including the Intel® Optane™ SSD DC P4800X series.
A workaround has been added for devices that failed to recognize register writes during controller reset.
The NVMe driver now allocates request tracking objects on a per-queue basis. The
number of requests allowed on an I/O queue may be set during spdk_nvme_probe()
by
modifying io_queue_requests
in the opts structure.
The SPDK NVMe fio_plugin
has been updated to support multiple threads (numjobs
).
spdk_nvme_ctrlr_alloc_io_qpair() has been modified to allow the user to override controller-level options for each individual I/O queue pair. Existing callers with qprio == 0 can be updated to:
... = spdk_nvme_ctrlr_alloc_io_qpair(ctrlr, NULL, 0);
Callers that need to specify a non-default qprio should be updated to:
struct spdk_nvme_io_qpair_opts opts;
spdk_nvme_ctrlr_get_default_io_qpair_opts(ctrlr, &opts, sizeof(opts));
opts.qprio = SPDK_NVME_QPRIO_...;
... = spdk_nvme_ctrlr_alloc_io_qpair(ctrlr, &opts, sizeof(opts));
Environment Abstraction Layer
The environment abstraction layer has been updated to include several new functions
in order to wrap additional DPDK functionality. See include/spdk/env.h
for the
current set of functions.
SPDK Performance Analysis with Intel® VTune™ Amplifier
Support for SPDK performance analysis has been added to Intel® VTune™ Amplifier 2018.
This analysis provides:
- I/O performance monitoring (calculating standard I/O metrics like IOPS, throughput, etc.)
- Tuning insights on the interplay of I/O and compute devices by estimating how many cores would be reasonable to provide for SPDK to keep up with a current storage workload.
See the VTune Amplifier documentation for more information.
v17.03: Blobstore and userspace vhost-scsi target
Blobstore and BlobFS
The blobstore is a persistent, power-fail safe block allocator designed to be used as the local storage system backing a higher-level storage service. See the blobstore documentation for more details.
BlobFS adds basic filesystem functionality like filenames on top of the blobstore. This release also includes a RocksDB Env implementation using BlobFS in place of the kernel filesystem. See the BlobFS documentation for more details.
Userspace vhost-scsi target
A userspace implementation of the QEMU vhost-scsi protocol has been added. The vhost target is capable of exporting SPDK bdevs to QEMU-based VMs as virtio devices. See the vhost documentation for more details.
Event framework
The overhead of the main reactor event loop was reduced by optimizing the number of calls to spdk_get_ticks() per iteration.
NVMe library
The NVMe library will now automatically split readv/writev requests with scatter-gather lists that do not map to valid PRP lists when the NVMe controller does not natively support SGLs.
The identify
and perf
NVMe examples were modified to add a consistent format for
specifying remote NVMe over Fabrics devices via the -r
option.
This is implemented using the new spdk_nvme_transport_id_parse()
function.
iSCSI Target
The [Nvme] section of the configuration file was modified to remove the BDF
directive
and replace it with a TransportID
directive. Both local (PCIe) and remote (NVMe-oF)
devices can now be specified as the backing block device. A script to generate an
entire [Nvme] section based on the local NVMe devices attached was added at
scripts/gen_nvme.sh
.
NVMe-oF Target
The [Nvme] section of the configuration file was modified to remove the BDF
directive
and replace it with a TransportID
directive. Both local (PCIe) and remote (NVMe-oF)
devices can now be specified as the backing block device. A script to generate an
entire [Nvme] section based on the local NVMe devices attached was added at
scripts/gen_nvme.sh
.
v16.12: NVMe over Fabrics host, hotplug, and multi-process
NVMe library
The NVMe library has been changed to create its own request memory pool rather than
requiring the user to initialize the global request_mempool
variable. Apps can be
updated by simply removing the initialization of request_mempool
. Since the NVMe
library user no longer needs to know the size of the internal NVMe request
structure to create the pool, the spdk_nvme_request_size()
function was also removed.
The spdk_nvme_ns_cmd_deallocate()
function was renamed and extended to become
spdk_nvme_ns_cmd_dataset_management()
, which allows access to all of the NVMe
Dataset Management command's parameters. Existing callers can be updated to use
spdk_nvme_ns_cmd_dataset_management()
with SPDK_NVME_DSM_ATTR_DEALLOCATE
as the
type
parameter.
The NVMe library SGL callback prototype has been changed to return virtual addresses
rather than physical addresses. Callers of spdk_nvme_ns_cmd_readv()
and
spdk_nvme_ns_cmd_writev()
must update their next_sge_fn
callbacks to match.
The NVMe library now supports NVMe over Fabrics devices in addition to the existing
support for local PCIe-attached NVMe devices. For an example of how to enable
NVMe over Fabrics support in an application, see examples/nvme/identify
and
examples/nvme/perf
.
Hot insert/remove support for NVMe devices has been added. To enable NVMe hotplug
support, an application should call the spdk_nvme_probe()
function on a regular
basis to probe for new devices (reported via the existing probe_cb
callback) and
removed devices (reported via a new remove_cb
callback). Hotplug is currently
only supported on Linux with the uio_pci_generic
driver, and newly-added NVMe
devices must be bound to uio_pci_generic
by an external script or tool.
Multiple processes may now coordinate and use a single NVMe device simultaneously using DPDK Multi-process Support.
NVMe over Fabrics target (nvmf_tgt
)
The nvmf_tgt
configuration file format has been updated significantly to enable
new features. See the example configuration file etc/spdk/nvmf.conf.in
for
more details on the new and changed options.
The NVMe over Fabrics target now supports virtual mode subsystems, which allow the
user to export devices from the SPDK block device abstraction layer as NVMe over
Fabrics subsystems. Direct mode (raw NVMe device access) is also still supported,
and a single nvmf_tgt
may export both types of subsystems simultaneously.
Block device abstraction layer (bdev)
The bdev layer now supports scatter/gather read and write I/O APIs, and the NVMe
blockdev driver has been updated to support scatter/gather. Apps can use the
new scatter/gather support via the spdk_bdev_readv()
and spdk_bdev_writev()
functions.
The bdev status returned from each I/O has been extended to pass through NVMe or SCSI status codes directly in cases where the underlying device can provide a more specific status code.
A Ceph RBD (RADOS Block Device) blockdev driver has been added. This allows the
iscsi_tgt
and nvmf_tgt
apps to export Ceph RBD volumes as iSCSI LUNs or
NVMe namespaces.
General changes
libpciaccess
has been removed as a dependency and DPDK PCI enumeration is
used instead. Prior to DPDK 16.07 enumeration by class code was not supported,
so for earlier DPDK versions, only Intel SSD DC P3x00 devices will be discovered
by the NVMe library.
The env
environment abstraction library has been introduced, and a default
DPDK-based implementation is provided as part of SPDK. The goal of the env
layer is to enable use of alternate user-mode memory allocation and PCI access
libraries. See doc/porting.md
for more details.
The build process has been modified to produce all of the library files in the
build/lib
directory. This is intended to simplify the use of SPDK from external
projects, which can now link to SPDK libraries by adding the build/lib
directory
to the library path via -L
and linking the SPDK libraries by name (for example,
-lspdk_nvme -lspdk_log -lspdk_util
).
nvmf_tgt
and iscsi_tgt
now have a JSON-RPC interface, which allows the user
to query and modify the configuration at runtime. The RPC service is disabled by
default, since it currently does not provide any authentication or security
mechanisms; it should only be enabled on systems with controlled user access
behind a firewall. An example RPC client implemented in Python is provided in
scripts/rpc.py
.
v16.08: iSCSI target, NVMe over Fabrics maturity
This release adds a userspace iSCSI target. The iSCSI target is capable of exporting NVMe devices over a network using the iSCSI protocol. The application is located in app/iscsi_tgt and a documented configuration file can be found at etc/spdk/spdk.conf.in.
This release also significantly improves the existing NVMe over Fabrics target.
- The configuration file format was changed, which will require updates to
any existing nvmf.conf files (see
etc/spdk/nvmf.conf.in
):SubsystemGroup
was renamed toSubsystem
.AuthFile
was removed (it was unimplemented).nvmf_tgt
was updated to correctly recognize NQN (NVMe Qualified Names) when naming subsystems. The default node name was changed to reflect this; it is now "nqn.2016-06.io.spdk".Port
andHost
sections were merged into theSubsystem
section- Global options to control max queue depth, number of queues, max I/O size, and max in-capsule data size were added.
- The Nvme section was removed. Now a list of devices is specified by bus/device/function directly in the Subsystem section.
- Subsystems now have a Mode, which can be Direct or Virtual. This is an attempt to future-proof the interface, so the only mode supported by this release is "Direct".
- Many bug fixes and cleanups were applied to the
nvmf_tgt
app and library. - The target now supports discovery.
This release also adds one new feature and provides some better examples and tools for the NVMe driver.
- The Weighted Round Robin arbitration method is now supported. This allows
the user to specify different priorities on a per-I/O-queue basis. To
enable WRR, set the
arb_mechanism
field duringspdk_nvme_probe()
. - A simplified "Hello World" example was added to show the proper way to use
the NVMe library API; see
examples/nvme/hello_world/hello_world.c
. - A test for measuring software overhead was added. See
test/lib/nvme/overhead
.
v16.06: NVMf userspace target
This release adds a userspace NVMf (NVMe over Fabrics) target, conforming to the newly-released NVMf 1.0/NVMe 1.2.1 specification. The NVMf target exports NVMe devices from a host machine over the network via RDMA. Currently, the target is limited to directly exporting physical NVMe devices, and the discovery subsystem is not supported.
This release includes a general API cleanup, including renaming all declarations
in public headers to include a spdk
prefix to prevent namespace clashes with
user code.
- NVMe
- The
nvme_attach()
API was reworked into a new probe/attach model, which moves device detection into the NVMe library. The new API also allows parallel initialization of NVMe controllers, providing a major reduction in startup time when using multiple controllers. - I/O queue allocation was changed to be explicit in the API. Each function
that generates I/O requests now takes a queue pair (
spdk_nvme_qpair *
) argument, and I/O queues may be allocated usingspdk_nvme_ctrlr_alloc_io_qpair()
. This allows more flexible assignment of queue pairs than the previous model, which only allowed a single queue per thread and limited the total number of I/O queues to the lowest number supported on any attached controller. - Added support for the Write Zeroes command.
examples/nvme/perf
can now report I/O command latency from the the controller's viewpoint using the Intel vendor-specific read/write latency log page.- Added namespace reservation command support, which can be used to coordinate sharing of a namespace between multiple hosts.
- Added hardware SGL support, which enables use of scattered buffers that don't conform to the PRP list alignment and length requirements on supported NVMe controllers.
- Added end-to-end data protection support, including the ability to write and
read metadata in extended LBA (metadata appended to each block of data in the
buffer) and separate metadata buffer modes.
See
spdk_nvme_ns_cmd_write_with_md()
andspdk_nvme_ns_cmd_read_with_md()
for details.
- The
- IOAT
- The DMA block fill feature is now exposed via the
ioat_submit_fill()
function. This is functionally similar tomemset()
, except the memory is filled with an 8-byte repeating pattern instead of a single byte like memset.
- The DMA block fill feature is now exposed via the
- PCI
- Added support for using DPDK for PCI device mapping in addition to the existing libpciaccess option. Using the DPDK PCI support also allows use of the Linux VFIO driver model, which means that SPDK userspace drivers will work with the IOMMU enabled. Additionally, SPDK applications may be run as an unprivileged user with access restricted to a specific set of PCIe devices.
- The PCI library API was made more generic to abstract away differences between the underlying PCI access implementations.
v1.2.0: IOAT user-space driver
This release adds a user-space driver with support for the Intel I/O Acceleration Technology (I/OAT, also known as "Crystal Beach") DMA offload engine.
- IOAT
- New user-space driver supporting DMA memory copy offload
- Example programs
ioat/perf
andioat/verify
- Kernel-mode DMA engine test driver
kperf
for performance comparison
- NVMe
- Per-I/O flags for Force Unit Access (FUA) and Limited Retry
- Public API for retrieving log pages
- Reservation register/acquire/release/report command support
- Scattered payload support - an alternate API to provide I/O buffers via a sequence of callbacks
- Declarations and
nvme/identify
support for Intel SSD DC P3700 series vendor-specific log pages and features
- Updated to support DPDK 2.2.0
v1.0.0: NVMe user-space driver
This is the initial open source release of the Storage Performance Development Kit (SPDK).
Features:
- NVMe user-space driver
- NVMe example programs
examples/nvme/perf
tests performance (IOPS) using the NVMe user-space driverexamples/nvme/identify
displays NVMe controller information in a human-readable format
- Linux and FreeBSD support