Changelog ========= Upcoming Release ---------------- 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. 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 SSDs will be discovered. Starting with DPDK 16.07 all devices will be discovered correctly by class code. 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`). 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 to `Subsystem`. - `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` and `Host` sections were merged into the `Subsystem` 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 during `spdk_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 using `spdk_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()` and `spdk_nvme_ns_cmd_read_with_md()` for details. - IOAT - The DMA block fill feature is now exposed via the `ioat_submit_fill()` function. This is functionally similar to `memset()`, except the memory is filled with an 8-byte repeating pattern instead of a single byte like memset. - 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` and `ioat/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 driver - `examples/nvme/identify` displays NVMe controller information in a human-readable format - Linux and FreeBSD support