/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (c) 2024-2025, NVIDIA CORPORATION & AFFILIATES
*/
#ifndef __LINUX_FWCTL_H
#define __LINUX_FWCTL_H
#include <linux/device.h>
#include <linux/cdev.h>
#include <linux/cleanup.h>
#include <uapi/fwctl/fwctl.h>
struct fwctl_device;
struct fwctl_uctx;
/**
* struct fwctl_ops - Driver provided operations
*
* fwctl_unregister() will wait until all excuting ops are completed before it
* returns. Drivers should be mindful to not let their ops run for too long as
* it will block device hot unplug and module unloading.
*/
struct fwctl_ops {
/**
* @device_type: The drivers assigned device_type number. This is uABI.
*/
enum fwctl_device_type device_type;
/**
* @uctx_size: The size of the fwctl_uctx struct to allocate. The first
* bytes of this memory will be a fwctl_uctx. The driver can use the
* remaining bytes as its private memory.
*/
size_t uctx_size;
/**
* @open_uctx: Called when a file descriptor is opened before the uctx
* is ever used.
*/
int (*open_uctx)(struct fwctl_uctx *uctx);
/**
* @close_uctx: Called when the uctx is destroyed, usually when the FD
* is closed.
*/
void (*close_uctx)(struct fwctl_uctx *uctx);
/**
* @info: Implement FWCTL_INFO. Return a kmalloc() memory that is copied
* to out_device_data. On input length indicates the size of the user
* buffer on output it indicates the size of the memory. The driver can
* ignore length on input, the core code will handle everything.
*/
void *(*info)(struct fwctl_uctx *uctx, size_t *length);
/**
* @fw_rpc: Implement FWCTL_RPC. Deliver rpc_in/in_len to the FW and
* return the response and set out_len. rpc_in can be returned as the
* response pointer. Otherwise the returned pointer is freed with
* kvfree().
*/
void *(*fw_rpc)(struct fwctl_uctx *uctx, enum fwctl_rpc_scope scope,
void *rpc_in, size_t in_len, size_t *out_len);
};
/**
* struct fwctl_device - Per-driver registration struct
* @dev: The sysfs (class/fwctl/fwctlXX) device
*
* Each driver instance will have one of these structs with the driver private
* data following immediately after. This struct is refcounted, it is freed by
* calling fwctl_put().
*/
struct fwctl_device {
struct device dev;
/* private: */
struct cdev cdev;
/* Protect uctx_list */
struct mutex uctx_list_lock;
struct list_head uctx_list;
/*
* Protect ops, held for write when ops becomes NULL during unregister,
* held for read whenever ops is loaded or an ops function is running.
*/
struct rw_semaphore registration_lock;
const struct fwctl_ops *ops;
};
struct fwctl_device *_fwctl_alloc_device(struct device *parent,
const struct fwctl_ops *ops,
size_t size);
/**
* fwctl_alloc_device - Allocate a fwctl
* @parent: Physical device that provides the FW interface
* @ops: Driver ops to register
* @drv_struct: 'struct driver_fwctl' that holds the struct fwctl_device
* @member: Name of the struct fwctl_device in @drv_struct
*
* This allocates and initializes the fwctl_device embedded in the drv_struct.
* Upon success the pointer must be freed via fwctl_put(). Returns a 'drv_struct
* \*' on success, NULL on error.
*/
#define fwctl_alloc_device(parent, ops, drv_struct, member) \
({ \
static_assert(__same_type(struct fwctl_device, \
((drv_struct *)NULL)->member)); \
static_assert(offsetof(drv_struct, member) == 0); \
(drv_struct *)_fwctl_alloc_device(parent, ops, \
sizeof(drv_struct)); \
})
static inline struct fwctl_device *fwctl_get(struct fwctl_device *fwctl)
{
get_device(&fwctl->dev);
return fwctl;
}
static inline void fwctl_put(struct fwctl_device *fwctl)
{
put_device(&fwctl->dev);
}
DEFINE_FREE(fwctl, struct fwctl_device *, if (_T) fwctl_put(_T));
int fwctl_register(struct fwctl_device *fwctl);
void fwctl_unregister(struct fwctl_device *fwctl);
/**
* struct fwctl_uctx - Per user FD context
* @fwctl: fwctl instance that owns the context
*
* Every FD opened by userspace will get a unique context allocation. Any driver
* private data will follow immediately after.
*/
struct fwctl_uctx {
struct fwctl_device *fwctl;
/* private: */
/* Head at fwctl_device::uctx_list */
struct list_head uctx_list_entry;
};
#endif