nvidia-open-gpu-kernel-modules/kernel-open/nvidia-peermem/nv-p2p.h

424 lines
14 KiB
C

/*
* SPDX-FileCopyrightText: Copyright (c) 2011-2016 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
* SPDX-License-Identifier: MIT
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#ifndef _NV_P2P_H_
#define _NV_P2P_H_
/*
* NVIDIA P2P Structure Versioning
*
* For the nvidia_p2p_*_t structures allocated by the NVIDIA driver, it will
* set the version field of the structure according to the definition used by
* the NVIDIA driver. The "major" field of the version is defined as the upper
* 16 bits, and the "minor" field of the version is defined as the lower 16
* bits. The version field will always be the first 4 bytes of the structure,
* and third-party drivers should check the value of this field in structures
* allocated by the NVIDIA driver to ensure runtime compatibility.
*
* In general, version numbers will be incremented as follows:
* - When a backwards-compatible change is made to the structure layout, the
* minor version for that structure will be incremented. Third-party drivers
* built against an older minor version will continue to work with the newer
* minor version used by the NVIDIA driver, without recompilation.
* - When a breaking change is made to the structure layout, the major version
* will be incremented. Third-party drivers built against an older major
* version require at least recompilation and potentially additional updates
* to use the new API.
*/
#define NVIDIA_P2P_MAJOR_VERSION_MASK 0xffff0000
#define NVIDIA_P2P_MINOR_VERSION_MASK 0x0000ffff
#define NVIDIA_P2P_MAJOR_VERSION(v) \
(((v) & NVIDIA_P2P_MAJOR_VERSION_MASK) >> 16)
#define NVIDIA_P2P_MINOR_VERSION(v) \
(((v) & NVIDIA_P2P_MINOR_VERSION_MASK))
#define NVIDIA_P2P_MAJOR_VERSION_MATCHES(p, v) \
(NVIDIA_P2P_MAJOR_VERSION((p)->version) == NVIDIA_P2P_MAJOR_VERSION(v))
#define NVIDIA_P2P_VERSION_COMPATIBLE(p, v) \
(NVIDIA_P2P_MAJOR_VERSION_MATCHES(p, v) && \
(NVIDIA_P2P_MINOR_VERSION((p)->version) >= (NVIDIA_P2P_MINOR_VERSION(v))))
enum {
NVIDIA_P2P_ARCHITECTURE_TESLA = 0,
NVIDIA_P2P_ARCHITECTURE_FERMI,
NVIDIA_P2P_ARCHITECTURE_CURRENT = NVIDIA_P2P_ARCHITECTURE_FERMI
};
#define NVIDIA_P2P_PARAMS_VERSION 0x00010001
enum {
NVIDIA_P2P_PARAMS_ADDRESS_INDEX_GPU = 0,
NVIDIA_P2P_PARAMS_ADDRESS_INDEX_THIRD_PARTY_DEVICE,
NVIDIA_P2P_PARAMS_ADDRESS_INDEX_MAX = \
NVIDIA_P2P_PARAMS_ADDRESS_INDEX_THIRD_PARTY_DEVICE
};
#define NVIDIA_P2P_GPU_UUID_LEN 16
typedef
struct nvidia_p2p_params {
uint32_t version;
uint32_t architecture;
union nvidia_p2p_mailbox_addresses {
struct {
uint64_t wmb_addr;
uint64_t wmb_data;
uint64_t rreq_addr;
uint64_t rcomp_addr;
uint64_t reserved[2];
} fermi;
} addresses[NVIDIA_P2P_PARAMS_ADDRESS_INDEX_MAX+1];
} nvidia_p2p_params_t;
/*
* Capability flag for users to detect
* driver support for persistent pages.
*/
extern int nvidia_p2p_cap_persistent_pages;
#define NVIDIA_P2P_CAP_PERSISTENT_PAGES
/*
* This API is not supported.
*/
int nvidia_p2p_init_mapping(uint64_t p2p_token,
struct nvidia_p2p_params *params,
void (*destroy_callback)(void *data),
void *data);
/*
* This API is not supported.
*/
int nvidia_p2p_destroy_mapping(uint64_t p2p_token);
enum nvidia_p2p_page_size_type {
NVIDIA_P2P_PAGE_SIZE_4KB = 0,
NVIDIA_P2P_PAGE_SIZE_64KB,
NVIDIA_P2P_PAGE_SIZE_128KB,
NVIDIA_P2P_PAGE_SIZE_COUNT
};
typedef
struct nvidia_p2p_page {
uint64_t physical_address;
union nvidia_p2p_request_registers {
struct {
uint32_t wreqmb_h;
uint32_t rreqmb_h;
uint32_t rreqmb_0;
uint32_t reserved[3];
} fermi;
} registers;
} nvidia_p2p_page_t;
#define NVIDIA_P2P_PAGE_TABLE_VERSION 0x00010002
#define NVIDIA_P2P_PAGE_TABLE_VERSION_COMPATIBLE(p) \
NVIDIA_P2P_VERSION_COMPATIBLE(p, NVIDIA_P2P_PAGE_TABLE_VERSION)
typedef
struct nvidia_p2p_page_table {
uint32_t version;
uint32_t page_size; /* enum nvidia_p2p_page_size_type */
struct nvidia_p2p_page **pages;
uint32_t entries;
uint8_t *gpu_uuid;
} nvidia_p2p_page_table_t;
/*
* @brief
* Make the pages underlying a range of GPU virtual memory
* accessible to a third-party device.
*
* This API only supports pinned, GPU-resident memory, such as that provided
* by cudaMalloc().
*
* This API may sleep.
*
* @param[in] p2p_token
* A token that uniquely identifies the P2P mapping.
* @param[in] va_space
* A GPU virtual address space qualifier.
* @param[in] virtual_address
* The start address in the specified virtual address space.
* Address must be aligned to the 64KB boundary.
* @param[in] length
* The length of the requested P2P mapping.
* Length must be a multiple of 64KB.
* @param[out] page_table
* A pointer to an array of structures with P2P PTEs.
* @param[in] free_callback
* A pointer to the function to be invoked when the pages
* underlying the virtual address range are freed
* implicitly.
* If NULL, persistent pages will be returned.
* This means the pages underlying the range of GPU virtual memory
* will persist until explicitly freed by nvidia_p2p_put_pages().
* Persistent GPU memory mappings are not supported on PowerPC,
* MIG-enabled devices and vGPU.
* @param[in] data
* A non-NULL opaque pointer to private data to be passed to the
* callback function.
*
* @return
* 0 upon successful completion.
* -EINVAL if an invalid argument was supplied.
* -ENOTSUPP if the requested operation is not supported.
* -ENOMEM if the driver failed to allocate memory or if
* insufficient resources were available to complete the operation.
* -EIO if an unknown error occurred.
*/
int nvidia_p2p_get_pages(uint64_t p2p_token, uint32_t va_space,
uint64_t virtual_address,
uint64_t length,
struct nvidia_p2p_page_table **page_table,
void (*free_callback)(void *data),
void *data);
#define NVIDIA_P2P_DMA_MAPPING_VERSION 0x00020003
#define NVIDIA_P2P_DMA_MAPPING_VERSION_COMPATIBLE(p) \
NVIDIA_P2P_VERSION_COMPATIBLE(p, NVIDIA_P2P_DMA_MAPPING_VERSION)
struct pci_dev;
typedef
struct nvidia_p2p_dma_mapping {
uint32_t version;
enum nvidia_p2p_page_size_type page_size_type;
uint32_t entries;
uint64_t *dma_addresses;
void *private;
struct pci_dev *pci_dev;
} nvidia_p2p_dma_mapping_t;
/*
* @brief
* Make the physical pages retrieved using nvidia_p2p_get_pages accessible to
* a third-party device.
*
* @param[in] peer
* The struct pci_dev * of the peer device that needs to DMA to/from the
* mapping.
* @param[in] page_table
* The page table outlining the physical pages underlying the mapping, as
* retrieved with nvidia_p2p_get_pages().
* @param[out] dma_mapping
* The DMA mapping containing the DMA addresses to use on the third-party
* device.
*
* @return
* 0 upon successful completion.
* -EINVAL if an invalid argument was supplied.
* -ENOTSUPP if the requested operation is not supported.
* -EIO if an unknown error occurred.
*/
int nvidia_p2p_dma_map_pages(struct pci_dev *peer,
struct nvidia_p2p_page_table *page_table,
struct nvidia_p2p_dma_mapping **dma_mapping);
/*
* @brief
* Unmap the physical pages previously mapped to the third-party device by
* nvidia_p2p_dma_map_pages().
*
* @param[in] peer
* The struct pci_dev * of the peer device that the DMA mapping belongs to.
* @param[in] page_table
* The page table backing the DMA mapping to be unmapped.
* @param[in] dma_mapping
* The DMA mapping containing the DMA addresses used by the third-party
* device, as retrieved with nvidia_p2p_dma_map_pages(). After this call
* returns, neither this struct nor the addresses contained within will be
* valid for use by the third-party device.
*
* @return
* 0 upon successful completion.
* -EINVAL if an invalid argument was supplied.
* -EIO if an unknown error occurred.
*/
int nvidia_p2p_dma_unmap_pages(struct pci_dev *peer,
struct nvidia_p2p_page_table *page_table,
struct nvidia_p2p_dma_mapping *dma_mapping);
/*
* @brief
* Release a set of pages previously made accessible to
* a third-party device.
*
* @param[in] p2p_token
* A token that uniquely identifies the P2P mapping.
* @param[in] va_space
* A GPU virtual address space qualifier.
* @param[in] virtual_address
* The start address in the specified virtual address space.
* @param[in] page_table
* A pointer to the array of structures with P2P PTEs.
*
* @return
* 0 upon successful completion.
* -EINVAL if an invalid argument was supplied.
* -EIO if an unknown error occurred.
*/
int nvidia_p2p_put_pages(uint64_t p2p_token, uint32_t va_space,
uint64_t virtual_address,
struct nvidia_p2p_page_table *page_table);
/*
* @brief
* Free a third-party P2P page table. (This function is a no-op.)
*
* @param[in] page_table
* A pointer to the array of structures with P2P PTEs.
*
* @return
* 0 upon successful completion.
* -EINVAL if an invalid argument was supplied.
*/
int nvidia_p2p_free_page_table(struct nvidia_p2p_page_table *page_table);
/*
* @brief
* Free a third-party P2P DMA mapping. (This function is a no-op.)
*
* @param[in] dma_mapping
* A pointer to the DMA mapping structure.
*
* @return
* 0 upon successful completion.
* -EINVAL if an invalid argument was supplied.
*/
int nvidia_p2p_free_dma_mapping(struct nvidia_p2p_dma_mapping *dma_mapping);
#define NVIDIA_P2P_RSYNC_DRIVER_VERSION 0x00010001
#define NVIDIA_P2P_RSYNC_DRIVER_VERSION_COMPATIBLE(p) \
NVIDIA_P2P_VERSION_COMPATIBLE(p, NVIDIA_P2P_RSYNC_DRIVER_VERSION)
typedef
struct nvidia_p2p_rsync_driver {
uint32_t version;
int (*get_relaxed_ordering_mode)(int *mode, void *data);
void (*put_relaxed_ordering_mode)(int mode, void *data);
void (*wait_for_rsync)(struct pci_dev *gpu, void *data);
} nvidia_p2p_rsync_driver_t;
/*
* @brief
* Registers the rsync driver.
*
* @param[in] driver
* A pointer to the rsync driver structure. The NVIDIA driver would use,
*
* get_relaxed_ordering_mode to obtain a reference to the current relaxed
* ordering mode (treated as a boolean) from the rsync driver.
*
* put_relaxed_ordering_mode to release a reference to the current relaxed
* ordering mode back to the rsync driver. The NVIDIA driver will call this
* function once for each successful call to get_relaxed_ordering_mode, and
* the relaxed ordering mode must not change until the last reference is
* released.
*
* wait_for_rsync to call into the rsync module to issue RSYNC. This callback
* can't sleep or re-schedule as it may arrive under spinlocks.
* @param[in] data
* A pointer to the rsync driver's private data.
*
* @Returns
* 0 upon successful completion.
* -EINVAL parameters are incorrect.
* -EBUSY if a module is already registered or GPU devices are in use.
*/
int nvidia_p2p_register_rsync_driver(nvidia_p2p_rsync_driver_t *driver,
void *data);
/*
* @brief
* Unregisters the rsync driver.
*
* @param[in] driver
* A pointer to the rsync driver structure.
* @param[in] data
* A pointer to the rsync driver's private data.
*/
void nvidia_p2p_unregister_rsync_driver(nvidia_p2p_rsync_driver_t *driver,
void *data);
#define NVIDIA_P2P_RSYNC_REG_INFO_VERSION 0x00020001
#define NVIDIA_P2P_RSYNC_REG_INFO_VERSION_COMPATIBLE(p) \
NVIDIA_P2P_VERSION_COMPATIBLE(p, NVIDIA_P2P_RSYNC_REG_INFO_VERSION)
typedef struct nvidia_p2p_rsync_reg {
void *ptr;
size_t size;
struct pci_dev *ibmnpu;
struct pci_dev *gpu;
uint32_t cluster_id;
uint32_t socket_id;
} nvidia_p2p_rsync_reg_t;
typedef struct nvidia_p2p_rsync_reg_info {
uint32_t version;
nvidia_p2p_rsync_reg_t *regs;
size_t entries;
} nvidia_p2p_rsync_reg_info_t;
/*
* @brief
* Gets rsync (GEN-ID) register information associated with the supported
* NPUs.
*
* The caller would use the returned information {GPU device, NPU device,
* socket-id, cluster-id} to pick the optimal generation registers to issue
* RSYNC (NVLink HW flush).
*
* The interface allocates structures to return the information, hence
* nvidia_p2p_put_rsync_registers() must be called to free the structures.
*
* Note, cluster-id is hardcoded to zero as early system configurations would
* only support cluster mode i.e. all devices would share the same cluster-id
* (0). In the future, appropriate kernel support would be needed to query
* cluster-ids.
*
* @param[out] reg_info
* A pointer to the rsync reg info structure.
*
* @Returns
* 0 Upon successful completion. Otherwise, returns negative value.
*/
int nvidia_p2p_get_rsync_registers(nvidia_p2p_rsync_reg_info_t **reg_info);
/*
* @brief
* Frees the structures allocated by nvidia_p2p_get_rsync_registers().
*
* @param[in] reg_info
* A pointer to the rsync reg info structure.
*/
void nvidia_p2p_put_rsync_registers(nvidia_p2p_rsync_reg_info_t *reg_info);
#endif /* _NV_P2P_H_ */