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/* SPDX-License-Identifier: MIT */
/*
* Copyright © 2023 Intel Corporation
*/
#ifndef _XE_REG_DEFS_H_
#define _XE_REG_DEFS_H_
#include <linux/build_bug.h>
#include "compat-i915-headers/i915_reg_defs.h"
/**
* struct xe_reg - Register definition
*
* Register defintion to be used by the individual register. Although the same
* definition is used for xe_reg and xe_reg_mcr, they use different internal
* APIs for accesses.
*/
struct xe_reg {
union {
struct {
/** @addr: address */
u32 addr:28;
/**
* @masked: register is "masked", with upper 16bits used
* to identify the bits that are updated on the lower
* bits
*/
u32 masked:1;
/**
* @mcr: register is multicast/replicated in the
* hardware and needs special handling. Any register
* with this set should also use a type of xe_reg_mcr_t.
* It's only here so the few places that deal with MCR
* registers specially (xe_sr.c) and tests using the raw
* value can inspect it.
*/
u32 mcr:1;
/**
* @vf: register is accessible from the Virtual Function.
*/
u32 vf:1;
/**
* @ext: access MMIO extension space for current register.
*/
u32 ext:1;
};
/** @raw: Raw value with both address and options */
u32 raw;
};
};
static_assert(sizeof(struct xe_reg) == sizeof(u32));
/**
* struct xe_reg_mcr - MCR register definition
*
* MCR register is the same as a regular register, but uses another type since
* the internal API used for accessing them is different: it's never correct to
* use regular MMIO access.
*/
struct xe_reg_mcr {
/** @__reg: The register */
struct xe_reg __reg;
};
/**
* XE_REG_OPTION_MASKED - Register is "masked", with upper 16 bits marking the
* written bits on the lower 16 bits.
*
* It only applies to registers explicitly marked in bspec with
* "Access: Masked". Registers with this option can have write operations to
* specific lower bits by setting the corresponding upper bits. Other bits will
* not be affected. This allows register writes without needing a RMW cycle and
* without caching in software the register value.
*
* Example: a write with value 0x00010001 will set bit 0 and all other bits
* retain their previous values.
*
* To be used with XE_REG(). XE_REG_MCR() and XE_REG_INITIALIZER()
*/
#define XE_REG_OPTION_MASKED .masked = 1
/**
* XE_REG_OPTION_VF - Register is "VF" accessible.
*
* To be used with XE_REG() and XE_REG_INITIALIZER().
*/
#define XE_REG_OPTION_VF .vf = 1
/**
* XE_REG_INITIALIZER - Initializer for xe_reg_t.
* @r_: Register offset
* @...: Additional options like access mode. See struct xe_reg for available
* options.
*
* Register field is mandatory, and additional options may be passed as
* arguments. Usually ``XE_REG()`` should be preferred since it creates an
* object of the right type. However when initializing static const storage,
* where a compound statement is not allowed, this can be used instead.
*/
#define XE_REG_INITIALIZER(r_, ...) { .addr = r_, __VA_ARGS__ }
/**
* XE_REG - Create a struct xe_reg from offset and additional flags
* @r_: Register offset
* @...: Additional options like access mode. See struct xe_reg for available
* options.
*/
#define XE_REG(r_, ...) ((const struct xe_reg)XE_REG_INITIALIZER(r_, ##__VA_ARGS__))
/**
* XE_REG_EXT - Create a struct xe_reg from extension offset and additional
* flags
* @r_: Register extension offset
* @...: Additional options like access mode. See struct xe_reg for available
* options.
*/
#define XE_REG_EXT(r_, ...) \
((const struct xe_reg)XE_REG_INITIALIZER(r_, ##__VA_ARGS__, .ext = 1))
/**
* XE_REG_MCR - Create a struct xe_reg_mcr from offset and additional flags
* @r_: Register offset
* @...: Additional options like access mode. See struct xe_reg for available
* options.
*/
#define XE_REG_MCR(r_, ...) ((const struct xe_reg_mcr){ \
.__reg = XE_REG_INITIALIZER(r_, ##__VA_ARGS__, .mcr = 1) \
})
static inline bool xe_reg_is_valid(struct xe_reg r)
{
return r.addr;
}
#endif