numam-spdk/include/spdk/env.h
Changpeng Liu 01831056c5 env/app: add unlink hugepages option to app
DPDK has an option "huge-unlink" which can be used to
remove mmapped files after EAL initialization, SPDK
doesn't enable the option by default, ethier DPDK,
while here, export a new parameter which can let
user to decide enable it or not.

Fix issues #349 and #350.

Change-Id: Ic516b9f48f7b1c7c51712cc7bb7475ed904ff24b
Signed-off-by: Changpeng Liu <changpeng.liu@intel.com>
Reviewed-on: https://review.gerrithub.io/419156
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Chandler-Test-Pool: SPDK Automated Test System <sys_sgsw@intel.com>
Reviewed-by: Ben Walker <benjamin.walker@intel.com>
Reviewed-by: Shuhei Matsumoto <shuhei.matsumoto.xt@hitachi.com>
2018-07-17 07:06:53 +00:00

1072 lines
32 KiB
C

/*-
* BSD LICENSE
*
* Copyright (c) Intel Corporation.
* Copyright (c) NetApp, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/** \file
* Encapsulated third-party dependencies
*/
#ifndef SPDK_ENV_H
#define SPDK_ENV_H
#include "spdk/stdinc.h"
#ifdef __cplusplus
extern "C" {
#endif
#define SPDK_ENV_SOCKET_ID_ANY (-1)
#define SPDK_ENV_LCORE_ID_ANY (UINT32_MAX)
/**
* Memory is dma-safe.
*/
#define SPDK_MALLOC_DMA 0x01
/**
* Memory is sharable across process boundries.
*/
#define SPDK_MALLOC_SHARE 0x02
#define SPDK_MAX_MEMZONE_NAME_LEN 32
#define SPDK_MAX_MEMPOOL_NAME_LEN 29
/**
* Memzone flags
*/
#define SPDK_MEMZONE_NO_IOVA_CONTIG 0x00100000 /**< no iova contiguity */
struct spdk_pci_device;
/**
* \brief Environment initialization options
*/
struct spdk_env_opts {
const char *name;
const char *core_mask;
int shm_id;
int mem_channel;
int master_core;
int mem_size;
bool no_pci;
bool hugepage_single_segments;
bool unlink_hugepage;
size_t num_pci_addr;
struct spdk_pci_addr *pci_blacklist;
struct spdk_pci_addr *pci_whitelist;
/** Opaque context for use of the env implementation. */
void *env_context;
};
/**
* Allocate dma/sharable memory based on a given dma_flg. It is a physically
* contiguous memory buffer with the given size, alignment and socket id.
*
* \param size Size in bytes.
* \param align Alignment value for the allocated memory. If '0', the allocated
* buffer is suitably aligned (in the same manner as malloc()). Otherwise, the
* allocated buffer is aligned to the multiple of align. In this case, it must
* be a power of two.
* \param phys_addr A pointer to the variable to hold the physical address of
* the allocated buffer is passed. If NULL, the physical address is not returned.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
* \param flags Combination of SPDK_MALLOC flags (\ref SPDK_MALLOC_DMA, \ref SPDK_MALLOC_SHARE).
* At least one flag must be specified.
*
* \return a pointer to the allocated memory buffer.
*/
void *spdk_malloc(size_t size, size_t align, uint64_t *phys_addr, int socket_id, uint32_t flags);
/**
* Allocate dma/sharable memory based on a given dma_flg. It is a physically
* contiguous memory buffer with the given size, alignment and socket id.
* Also, the buffer will be zeroed.
*
* \param size Size in bytes.
* \param align Alignment value for the allocated memory. If '0', the allocated
* buffer is suitably aligned (in the same manner as malloc()). Otherwise, the
* allocated buffer is aligned to the multiple of align. In this case, it must
* be a power of two.
* \param phys_addr A pointer to the variable to hold the physical address of
* the allocated buffer is passed. If NULL, the physical address is not returned.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
* \param flags Combination of SPDK_MALLOC flags (\ref SPDK_MALLOC_DMA, \ref SPDK_MALLOC_SHARE).
*
* \return a pointer to the allocated memory buffer.
*/
void *spdk_zmalloc(size_t size, size_t align, uint64_t *phys_addr, int socket_id, uint32_t flags);
/**
* Free buffer memory that was previously allocated with spdk_malloc() or spdk_zmalloc().
*
* \param buf Buffer to free.
*/
void spdk_free(void *buf);
/**
* Initialize the default value of opts.
*
* \param opts Data structure where SPDK will initialize the default options.
*/
void spdk_env_opts_init(struct spdk_env_opts *opts);
/**
* Initialize the environment library. This must be called prior to using
* any other functions in this library.
*
* \param opts Environment initialization options.
* \return 0 on success, or negative errno on failure.
*/
int spdk_env_init(const struct spdk_env_opts *opts);
/**
* Allocate a pinned, physically contiguous memory buffer with the given size
* and alignment.
*
* \param size Size in bytes.
* \param align Alignment value for the allocated memory. If '0', the allocated
* buffer is suitably aligned (in the same manner as malloc()). Otherwise, the
* allocated buffer is aligned to the multiple of align. In this case, it must
* be a power of two.
* \param phys_addr A pointer to the variable to hold the physical address of
* the allocated buffer is passed. If NULL, the physical address is not returned.
*
* \return a pointer to the allocated memory buffer.
*/
void *spdk_dma_malloc(size_t size, size_t align, uint64_t *phys_addr);
/**
* Allocate a pinned, physically contiguous memory buffer with the given size,
* alignment and socket id.
*
* \param size Size in bytes.
* \param align Alignment value for the allocated memory. If '0', the allocated
* buffer is suitably aligned (in the same manner as malloc()). Otherwise, the
* allocated buffer is aligned to the multiple of align. In this case, it must
* be a power of two.
* \param phys_addr A pointer to the variable to hold the physical address of
* the allocated buffer is passed. If NULL, the physical address is not returned.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
*
* \return a pointer to the allocated memory buffer.
*/
void *spdk_dma_malloc_socket(size_t size, size_t align, uint64_t *phys_addr, int socket_id);
/**
* Allocate a pinned, physically contiguous memory buffer with the given size
* and alignment. The buffer will be zeroed.
*
* \param size Size in bytes.
* \param align Alignment value for the allocated memory. If '0', the allocated
* buffer is suitably aligned (in the same manner as malloc()). Otherwise, the
* allocated buffer is aligned to the multiple of align. In this case, it must
* be a power of two.
* \param phys_addr A pointer to the variable to hold the physical address of
* the allocated buffer is passed. If NULL, the physical address is not returned.
*
* \return a pointer to the allocated memory buffer.
*/
void *spdk_dma_zmalloc(size_t size, size_t align, uint64_t *phys_addr);
/**
* Allocate a pinned, physically contiguous memory buffer with the given size,
* alignment and socket id. The buffer will be zeroed.
*
* \param size Size in bytes.
* \param align Alignment value for the allocated memory. If '0', the allocated
* buffer is suitably aligned (in the same manner as malloc()). Otherwise, the
* allocated buffer is aligned to the multiple of align. In this case, it must
* be a power of two.
* \param phys_addr A pointer to the variable to hold the physical address of
* the allocated buffer is passed. If NULL, the physical address is not returned.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
*
* \return a pointer to the allocated memory buffer.
*/
void *spdk_dma_zmalloc_socket(size_t size, size_t align, uint64_t *phys_addr, int socket_id);
/**
* Resize the allocated and pinned memory buffer with the given new size and
* alignment. Existing contents are preserved.
*
* \param buf Buffer to resize.
* \param size Size in bytes.
* \param align Alignment value for the allocated memory. If '0', the allocated
* buffer is suitably aligned (in the same manner as malloc()). Otherwise, the
* allocated buffer is aligned to the multiple of align. In this case, it must
* be a power of two.
* \param phys_addr A pointer to the variable to hold the physical address of
* the allocated buffer is passed. If NULL, the physical address is not returned.
*
* \return a pointer to the resized memory buffer.
*/
void *spdk_dma_realloc(void *buf, size_t size, size_t align, uint64_t *phys_addr);
/**
* Free a memory buffer previously allocated, for example from spdk_dma_zmalloc().
* This call is never made from the performance path.
*
* \param buf Buffer to free.
*/
void spdk_dma_free(void *buf);
/**
* Reserve a named, process shared memory zone with the given size, socket_id
* and flags.
*
* \param name Name to set for this memory zone.
* \param len Length in bytes.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
* \param flags Flags to set for this memory zone.
*
* \return a pointer to the allocated memory address on success, or NULL on failure.
*/
void *spdk_memzone_reserve(const char *name, size_t len, int socket_id, unsigned flags);
/**
* Reserve a named, process shared memory zone with the given size, socket_id,
* flags and alignment.
*
* \param name Name to set for this memory zone.
* \param len Length in bytes.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
* \param flags Flags to set for this memory zone.
* \param align Alignment for resulting memzone. Must be a power of 2.
*
* \return a pointer to the allocated memory address on success, or NULL on failure.
*/
void *spdk_memzone_reserve_aligned(const char *name, size_t len, int socket_id,
unsigned flags, unsigned align);
/**
* Lookup the memory zone identified by the given name.
*
* \param name Name of the memory zone.
*
* \return a pointer to the reserved memory address on success, or NULL on failure.
*/
void *spdk_memzone_lookup(const char *name);
/**
* Free the memory zone identified by the given name.
*
* \return 0 on success, -1 on failure.
*/
int spdk_memzone_free(const char *name);
/**
* Dump debug information about all memzones.
*
* \param f File to write debug information to.
*/
void spdk_memzone_dump(FILE *f);
struct spdk_mempool;
#define SPDK_MEMPOOL_DEFAULT_CACHE_SIZE SIZE_MAX
/**
* Create a thread-safe memory pool.
*
* \param name Name for the memory pool.
* \param count Count of elements.
* \param ele_size Element size in bytes.
* \param cache_size How many elements may be cached in per-core caches. Use
* SPDK_MEMPOOL_DEFAULT_CACHE_SIZE for a reasonable default, or 0 for no per-core cache.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
*
* \return a pointer to the created memory pool.
*/
struct spdk_mempool *spdk_mempool_create(const char *name, size_t count,
size_t ele_size, size_t cache_size, int socket_id);
/**
* An object callback function for memory pool.
*
* Used by spdk_mempool_create_ctor().
*/
typedef void (spdk_mempool_obj_cb_t)(struct spdk_mempool *mp,
void *opaque, void *obj, unsigned obj_idx);
/**
* Create a thread-safe memory pool with user provided initialization function
* and argument.
*
* \param name Name for the memory pool.
* \param count Count of elements.
* \param ele_size Element size in bytes.
* \param cache_size How many elements may be cached in per-core caches. Use
* SPDK_MEMPOOL_DEFAULT_CACHE_SIZE for a reasonable default, or 0 for no per-core cache.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
* \param obj_init User provided object calllback initialization function.
* \param obj_init_arg User provided callback initialization function argument.
*
* \return a pointer to the created memory pool.
*/
struct spdk_mempool *spdk_mempool_create_ctor(const char *name, size_t count,
size_t ele_size, size_t cache_size, int socket_id,
spdk_mempool_obj_cb_t *obj_init, void *obj_init_arg);
/**
* Get the name of a memory pool.
*
* \param mp Memory pool to query.
*
* \return the name of the memory pool.
*/
char *spdk_mempool_get_name(struct spdk_mempool *mp);
/**
* Free a memory pool.
*/
void spdk_mempool_free(struct spdk_mempool *mp);
/**
* Get an element from a memory pool. If no elements remain, return NULL.
*
* \param mp Memory pool to query.
*
* \return a pointer to the element.
*/
void *spdk_mempool_get(struct spdk_mempool *mp);
/**
* Get multiple elements from a memory pool.
*
* \param mp Memory pool to get multiple elements from.
* \param ele_arr Array of the elements to fill.
* \param count Count of elements to get.
*
* \return 0 on success, negative errno on failure.
*/
int spdk_mempool_get_bulk(struct spdk_mempool *mp, void **ele_arr, size_t count);
/**
* Put an element back into the memory pool.
*
* \param mp Memory pool to put element back into.
* \param ele Element to put.
*/
void spdk_mempool_put(struct spdk_mempool *mp, void *ele);
/**
* Put multiple elements back into the memory pool.
*
* \param mp Memory pool to put multiple elements back into.
* \param ele_arr Array of the elements to put.
* \param count Count of elements to put.
*/
void spdk_mempool_put_bulk(struct spdk_mempool *mp, void **ele_arr, size_t count);
/**
* Get the number of entries in the memory pool.
*
* \param pool Memory pool to query.
*
* \return the number of entries in the memory pool.
*/
size_t spdk_mempool_count(const struct spdk_mempool *pool);
/**
* Get the number of dedicated CPU cores utilized by this env abstraction.
*
* \return the number of dedicated CPU cores.
*/
uint32_t spdk_env_get_core_count(void);
/**
* Get the CPU core index of the current thread.
*
* This will only function when called from threads set up by
* this environment abstraction. For any other threads \c SPDK_ENV_LCORE_ID_ANY
* will be returned.
*
* \return the CPU core index of the current thread.
*/
uint32_t spdk_env_get_current_core(void);
/**
* Get the index of the first dedicated CPU core for this application.
*
* \return the index of the first dedicated CPU core.
*/
uint32_t spdk_env_get_first_core(void);
/**
* Get the index of the last dedicated CPU core for this application.
*
* \return the index of the last dedicated CPU core.
*/
uint32_t spdk_env_get_last_core(void);
/**
* Get the index of the next dedicated CPU core for this application.
*
* If there is no next core, return UINT32_MAX.
*
* \param prev_core Index of previous core.
*
* \return the index of the next dedicated CPU core.
*/
uint32_t spdk_env_get_next_core(uint32_t prev_core);
#define SPDK_ENV_FOREACH_CORE(i) \
for (i = spdk_env_get_first_core(); \
i < UINT32_MAX; \
i = spdk_env_get_next_core(i))
/**
* Get the socket ID for the given core.
*
* \param core CPU core to query.
*
* \return the socket ID for the given core.
*/
uint32_t spdk_env_get_socket_id(uint32_t core);
typedef int (*thread_start_fn)(void *);
/**
* Launch a thread pinned to the given core. Only a single pinned thread may be
* launched per core. Subsequent attempts to launch pinned threads on that core
* will fail.
*
* \param core The core to pin the thread to.
* \param fn Entry point on the new thread.
* \param arg Argument apssed to thread_start_fn
*
* \return 0 on success, negative errno on failure.
*/
int spdk_env_thread_launch_pinned(uint32_t core, thread_start_fn fn, void *arg);
/**
* Wait for all threads to exit before returning.
*/
void spdk_env_thread_wait_all(void);
/**
* Check whether the calling process is primary process.
*
* \return true if the calling process is primary process, or false otherwise.
*/
bool spdk_process_is_primary(void);
/**
* Get a monotonic timestamp counter.
*
* \return the monotonic timestamp counter.
*/
uint64_t spdk_get_ticks(void);
/**
* Get the tick rate of spdk_get_ticks() per second.
*
* \return the tick rate of spdk_get_ticks() per second.
*/
uint64_t spdk_get_ticks_hz(void);
/**
* Delay the given number of microseconds.
*
* \param us Number of microseconds.
*/
void spdk_delay_us(unsigned int us);
struct spdk_ring;
enum spdk_ring_type {
SPDK_RING_TYPE_SP_SC, /* Single-producer, single-consumer */
SPDK_RING_TYPE_MP_SC, /* Multi-producer, single-consumer */
};
/**
* Create a ring.
*
* \param type Type for the ring. (SPDK_RING_TYPE_SP_SC or SPDK_RING_TYPE_MP_SC).
* \param count Size of the ring in elements.
* \param socket_id Socket ID to allocate memory on, or SPDK_ENV_SOCKET_ID_ANY
* for any socket.
*
* \return a pointer to the created ring.
*/
struct spdk_ring *spdk_ring_create(enum spdk_ring_type type, size_t count, int socket_id);
/**
* Free the ring.
*
* \param ring Ring to free.
*/
void spdk_ring_free(struct spdk_ring *ring);
/**
* Get the number of objects in the ring.
*
* \param ring the ring.
*
* \return the number of objects in the ring.
*/
size_t spdk_ring_count(struct spdk_ring *ring);
/**
* Queue the array of objects (with length count) on the ring.
*
* \param ring A pointer to the ring.
* \param objs A pointer to the array to be queued.
* \param count Length count of the array of objects.
*
* \return the number of objects enqueued.
*/
size_t spdk_ring_enqueue(struct spdk_ring *ring, void **objs, size_t count);
/**
* Dequeue count objects from the ring into the array objs.
*
* \param ring A pointer to the ring.
* \param objs A pointer to the array to be dequeued.
* \param count Maximum number of elements to be dequeued.
*
* \return the number of objects dequeued which is less than 'count'.
*/
size_t spdk_ring_dequeue(struct spdk_ring *ring, void **objs, size_t count);
#define SPDK_VTOPHYS_ERROR (0xFFFFFFFFFFFFFFFFULL)
/**
* Get the physical address of a buffer.
*
* \param buf A pointer to a buffer.
*
* \return the physical address of this buffer on success, or SPDK_VTOPHYS_ERROR
* on failure.
*/
uint64_t spdk_vtophys(void *buf);
struct spdk_pci_addr {
uint32_t domain;
uint8_t bus;
uint8_t dev;
uint8_t func;
};
struct spdk_pci_id {
uint16_t vendor_id;
uint16_t device_id;
uint16_t subvendor_id;
uint16_t subdevice_id;
};
typedef int (*spdk_pci_enum_cb)(void *enum_ctx, struct spdk_pci_device *pci_dev);
/**
* Enumerate NVMe devices.
*
* \param enum_cb Called when the enumerate operation completes.
* \param enum_ctx Argument passed to the callback function.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_nvme_enumerate(spdk_pci_enum_cb enum_cb, void *enum_ctx);
/**
* Enumerate I/OAT device.
*
* \param enum_cb Called when the enumerate operation completes.
* \param enum_ctx Argument passed to the callback function.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_ioat_enumerate(spdk_pci_enum_cb enum_cb, void *enum_ctx);
/**
* Enumerate virtio device.
*
* \param enum_cb Called when the enumerate operation completes.
* \param enum_ctx Argument passed to the callback function.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_virtio_enumerate(spdk_pci_enum_cb enum_cb, void *enum_ctx);
/**
* Get a mapping of the virtual address to the BAR of the PCI device.
*
* \param dev PCI device.
* \param bar Index to the BAR.
* \param mapped_addr A pointer to the pointer to hold the virtual address of
* the mapping.
* \param phys_addr A pointer to the variable to hold the physical address of
* the mapping.
* \param size A pointer to the variable to hold the mapped size in bytes.
*
* \return 0 on success.
*/
int spdk_pci_device_map_bar(struct spdk_pci_device *dev, uint32_t bar,
void **mapped_addr, uint64_t *phys_addr, uint64_t *size);
/**
* Remove the mapping of the virtual address to the BAR of the PCI device.
*
* \param dev PCI device.
* \param bar Index to the BAR.
* \param addr Virtual address to remove that must be the mapped_addr returned
* by a previous call to spdk_pci_device_map_bar().
*
* \return 0 on success.
*/
int spdk_pci_device_unmap_bar(struct spdk_pci_device *dev, uint32_t bar, void *addr);
/**
* Get the domain address of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the domain address of PCI device.
*/
uint32_t spdk_pci_device_get_domain(struct spdk_pci_device *dev);
/**
* Get the bus address of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the bus address of PCI device.
*/
uint8_t spdk_pci_device_get_bus(struct spdk_pci_device *dev);
/**
* Get the device address of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the device address of PCI device.
*/
uint8_t spdk_pci_device_get_dev(struct spdk_pci_device *dev);
/**
* Get the function address of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the function address of PCI device.
*/
uint8_t spdk_pci_device_get_func(struct spdk_pci_device *dev);
/**
* Get the PCI address of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the PCI address structure.
*/
struct spdk_pci_addr spdk_pci_device_get_addr(struct spdk_pci_device *dev);
/**
* Get the vendor ID of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the vendor ID of PCI device.
*/
uint16_t spdk_pci_device_get_vendor_id(struct spdk_pci_device *dev);
/**
* Get the device ID of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the device ID of PCI device.
*/
uint16_t spdk_pci_device_get_device_id(struct spdk_pci_device *dev);
/**
* Get the subvendor ID of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the subvendor ID of PCI device.
*/
uint16_t spdk_pci_device_get_subvendor_id(struct spdk_pci_device *dev);
/**
* Get the subdevice ID of a PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return the subdevice ID of PCI device.
*/
uint16_t spdk_pci_device_get_subdevice_id(struct spdk_pci_device *dev);
/**
* Allocate a PCI ID struct for the PCI device.
*
* \param dev A pointer to the PCI device.
*
* \return a PCI ID struct.
*/
struct spdk_pci_id spdk_pci_device_get_id(struct spdk_pci_device *dev);
/**
* Get the NUMA socket ID of a PCI device.
*
* \param dev PCI device to get the socket ID of.
*
* \return the socket ID (>= 0) of PCI device.
*/
int spdk_pci_device_get_socket_id(struct spdk_pci_device *dev);
/**
* Get the serial number of a PCI device.
*
* \param dev A pointer to the PCI device.
* \param sn String to store the serial number.
* \param len Length of the 'sn'.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_get_serial_number(struct spdk_pci_device *dev, char *sn, size_t len);
/**
* Claim a PCI device for exclusive SPDK userspace access.
*
* Uses F_SETLK on a shared memory file with the PCI address embedded in its name.
* As long as this file remains open with the lock acquired, other processes will
* not be able to successfully call this function on the same PCI device.
*
* \param pci_addr PCI address of the device to claim
*
* \return -1 if the device has already been claimed, an fd otherwise. This fd
* should be closed when the application no longer needs access to the PCI device
* (including when it is hot removed).
*/
int spdk_pci_device_claim(const struct spdk_pci_addr *pci_addr);
/**
* Detach a PCI device.
*
* \param device PCI device to detach.
*/
void spdk_pci_device_detach(struct spdk_pci_device *device);
/**
* Attach a NVMe device.
*
* \param enum_cb Called when the attach operation completes.
* \param enum_ctx Argument passed to the callback function.
* \param pci_address PCI address of the NVMe device.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_nvme_device_attach(spdk_pci_enum_cb enum_cb, void *enum_ctx,
struct spdk_pci_addr *pci_address);
/**
* Attach a I/OAT device.
*
* \param enum_cb Called when the attach operation completes.
* \param enum_ctx Argument passed to the callback function.
* \param pci_address PCI address of the I/OAT device.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_ioat_device_attach(spdk_pci_enum_cb enum_cb, void *enum_ctx,
struct spdk_pci_addr *pci_address);
/**
* Attach a virtio device.
*
* \param enum_cb Called when the attach operation completes.
* \param enum_ctx Argument passed to the callback function.
* \param pci_address PCI address of the virtio device.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_virtio_device_attach(spdk_pci_enum_cb enum_cb, void *enum_ctx,
struct spdk_pci_addr *pci_address);
/**
* Read PCI configuration space in any specified size.
*
* \param dev PCI device.
* \param value A pointer to the buffer to hold the value.
* \param len Length in bytes to read.
* \param offset Offset in bytes.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_cfg_read(struct spdk_pci_device *dev, void *value, uint32_t len,
uint32_t offset);
/**
* Write PCI configuration space in any specified size.
*
* \param dev PCI device.
* \param value A pointer to the value to write.
* \param len Length in bytes to write.
* \param offset Offset in bytes.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_cfg_write(struct spdk_pci_device *dev, void *value, uint32_t len,
uint32_t offset);
/**
* Read 1 byte from PCI configuration space.
*
* \param dev PCI device.
* \param value A pointer to the buffer to hold the value.
* \param offset Offset in bytes.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_cfg_read8(struct spdk_pci_device *dev, uint8_t *value, uint32_t offset);
/**
* Write 1 byte to PCI configuration space.
*
* \param dev PCI device.
* \param value A value to write.
* \param offset Offset in bytes.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_cfg_write8(struct spdk_pci_device *dev, uint8_t value, uint32_t offset);
/**
* Read 2 bytes from PCI configuration space.
*
* \param dev PCI device.
* \param value A pointer to the buffer to hold the value.
* \param offset Offset in bytes.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_cfg_read16(struct spdk_pci_device *dev, uint16_t *value, uint32_t offset);
/**
* Write 2 bytes to PCI configuration space.
*
* \param dev PCI device.
* \param value A value to write.
* \param offset Offset in bytes.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_cfg_write16(struct spdk_pci_device *dev, uint16_t value, uint32_t offset);
/**
* Read 4 bytes from PCI configuration space.
*
* \param dev PCI device.
* \param value A pointer to the buffer to hold the value.
* \param offset Offset in bytes.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_cfg_read32(struct spdk_pci_device *dev, uint32_t *value, uint32_t offset);
/**
* Write 4 bytes to PCI configuration space.
*
* \param dev PCI device.
* \param value A value to write.
* \param offset Offset in bytes.
*
* \return 0 on success, -1 on failure.
*/
int spdk_pci_device_cfg_write32(struct spdk_pci_device *dev, uint32_t value, uint32_t offset);
/**
* Compare two PCI addresses.
*
* \param a1 PCI address 1.
* \param a2 PCI address 2.
*
* \return 0 if a1 == a2, less than 0 if a1 < a2, greater than 0 if a1 > a2
*/
int spdk_pci_addr_compare(const struct spdk_pci_addr *a1, const struct spdk_pci_addr *a2);
/**
* Convert a string representation of a PCI address into a struct spdk_pci_addr.
*
* \param addr PCI adddress output on success.
* \param bdf PCI address in domain:bus:device.function format or
* domain.bus.device.function format.
*
* \return 0 on success, negative errno on failure.
*/
int spdk_pci_addr_parse(struct spdk_pci_addr *addr, const char *bdf);
/**
* Convert a struct spdk_pci_addr to a string.
*
* \param bdf String into which a string will be output in the format
* domain:bus:device.function. The string must be at least 14 characters in size.
* \param sz Size of bdf in bytes. Must be at least 14.
* \param addr PCI address.
*
* \return 0 on success, or a negated errno on failure.
*/
int spdk_pci_addr_fmt(char *bdf, size_t sz, const struct spdk_pci_addr *addr);
/**
* Remove any CPU affinity from the current thread.
*/
void spdk_unaffinitize_thread(void);
/**
* Call a function with CPU affinity unset.
*
* This can be used to run a function that creates other threads without inheriting the calling
* thread's CPU affinity.
*
* \param cb Function to call
* \param arg Parameter to the function cb().
*
* \return the return value of cb().
*/
void *spdk_call_unaffinitized(void *cb(void *arg), void *arg);
/**
* Page-granularity memory address translation table.
*/
struct spdk_mem_map;
enum spdk_mem_map_notify_action {
SPDK_MEM_MAP_NOTIFY_REGISTER,
SPDK_MEM_MAP_NOTIFY_UNREGISTER,
};
typedef int (*spdk_mem_map_notify_cb)(void *cb_ctx, struct spdk_mem_map *map,
enum spdk_mem_map_notify_action action,
void *vaddr, size_t size);
/**
* Allocate a virtual memory address translation map.
*
* \param default_translation Default translation for the map.
* \param notify_cb Callback function to notify the mapping.
* \param cb_ctx Argument passed to the callback function.
*
* \return a pointer to the allocated virtual memory address translation map.
*/
struct spdk_mem_map *spdk_mem_map_alloc(uint64_t default_translation,
spdk_mem_map_notify_cb notify_cb, void *cb_ctx);
/**
* Free a memory map previously allocated by spdk_mem_map_alloc().
*
* \param pmap Memory map to free.
*/
void spdk_mem_map_free(struct spdk_mem_map **pmap);
/**
* Register an address translation for a range of virtual memory.
*
* \param map Memory map.
* \param vaddr Virtual address of the region to register - must be 2 MB aligned.
* \param size Size of the region in bytes - must be multiple of 2 MB in the
* current implementation.
* \param translation Translation to store in the map for this address range.
*
* \sa spdk_mem_map_clear_translation().
*
* \return 0 on success, negative errno on failure.
*/
int spdk_mem_map_set_translation(struct spdk_mem_map *map, uint64_t vaddr, uint64_t size,
uint64_t translation);
/**
* Unregister an address translation.
*
* \param map Memory map.
* \param vaddr Virtual address of the region to unregister - must be 2 MB aligned.
* \param size Size of the region in bytes - must be multiple of 2 MB in the
* current implementation.
*
* \sa spdk_mem_map_set_translation().
*
* \return 0 on success, negative errno on failure.
*/
int spdk_mem_map_clear_translation(struct spdk_mem_map *map, uint64_t vaddr, uint64_t size);
/**
* Look up the translation of a virtual address in a memory map.
*
* \param map Memory map.
* \param vaddr Virtual address.
* \param size Size of memory region.
*
* \return the translation of vaddr stored in the map, or default_translation
* as specified in spdk_mem_map_alloc() if vaddr is not present in the map.
*/
uint64_t spdk_mem_map_translate(const struct spdk_mem_map *map, uint64_t vaddr, uint64_t size);
/**
* Register the specified memory region for address translation.
*
* The memory region must map to pinned huge pages (2MB or greater).
*
* \param vaddr Virtual address to register.
* \param len Length in bytes of the vaddr.
*
* \return 0 on success, negative errno on failure.
*/
int spdk_mem_register(void *vaddr, size_t len);
/**
* Unregister the specified memory region from vtophys address translation.
*
* The caller must ensure all in-flight DMA operations to this memory region
* are completed or cancelled before calling this function.
*
* \param vaddr Virtual address to unregister.
* \param len Length in bytes of the vaddr.
*
* \return 0 on success, negative errno on failure.
*/
int spdk_mem_unregister(void *vaddr, size_t len);
#ifdef __cplusplus
}
#endif
#endif