/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (c) 2002,2007-2021, The Linux Foundation. All rights reserved.
* Copyright (c) 2023 Qualcomm Innovation Center, Inc. All rights reserved.
*/
#ifndef __ADRENO_RINGBUFFER_H
#define __ADRENO_RINGBUFFER_H
/* Given a ringbuffer, return the adreno device that owns it */
#define _RB_OFFSET(_id) (offsetof(struct adreno_device, ringbuffers) + \
((_id) * sizeof(struct adreno_ringbuffer)))
#define ADRENO_RB_DEVICE(_rb) \
((struct adreno_device *) (((void *) (_rb)) - _RB_OFFSET((_rb)->id)))
/* Adreno ringbuffer size in bytes */
#define KGSL_RB_SIZE (32 * 1024)
/*
* A handy macro to convert the RB size to dwords since most ringbuffer
* operations happen in dword increments
*/
#define KGSL_RB_DWORDS (KGSL_RB_SIZE >> 2)
/* Specifies that the command should be run in protected mode */
#define F_NOTPROTECTED BIT(0)
/* Indicates that the CP should wait for idle after executing the command */
#define F_WFI BIT(1)
/* Indicates that the poweron fixup should be executed before the command */
#define F_PWRON_FIXUP BIT(2)
/* Indicates that the submission should be secure */
#define F_SECURE BIT(3)
/* Indicates that the IBs in the submission should be skipped */
#define F_SKIP BIT(4)
/* Indicates that user always on timer profiling is enabled */
#define F_USER_PROFILE BIT(5)
/* Indicates that kernel always on timer profiling is enabled */
#define F_KERNEL_PROFILE BIT(6)
/* Indicates that the submission has a preamble */
#define F_PREAMBLE BIT(7)
#define IS_NOTPROTECTED(flags) ((flags) & F_NOTPROTECTED)
#define IS_WFI(flags) ((flags) & F_WFI)
#define IS_PWRON_FIXUP(flags) ((flags) & F_PWRON_FIXUP)
#define IS_SECURE(flags) ((flags) & F_SECURE)
#define IS_SKIP(flags) ((flags) & F_SKIP)
#define IS_USER_PROFILE(flags) ((flags) & F_USER_PROFILE)
#define IS_KERNEL_PROFILE(flags) ((flags) & F_KERNEL_PROFILE)
#define IS_PREAMBLE(flags) ((flags) & F_PREAMBLE)
struct kgsl_device;
struct kgsl_device_private;
/**
* struct adreno_submit_time - utility structure to store the wall clock / GPU
* ticks at command submit time
* @ticks: GPU ticks at submit time (from the 19.2Mhz timer)
* @ktime: local clock time (in nanoseconds)
* @utime: Wall clock time
* @drawobj: the object that we want to profile
*/
struct adreno_submit_time {
uint64_t ticks;
u64 ktime;
struct timespec64 utime;
struct kgsl_drawobj *drawobj;
};
/**
* This is to keep track whether the SET_PSEUDO_REGISTER packet needs to be submitted
* or not
*/
#define ADRENO_RB_SET_PSEUDO_DONE 0
/**
* struct adreno_ringbuffer - Definition for an adreno ringbuffer object
* @flags: Internal control flags for the ringbuffer
* @buffer_desc: Pointer to the ringbuffer memory descriptor
* @_wptr: The next value of wptr to be written to the hardware on submit
* @wptr: Local copy of the wptr offset last written to hardware
* @last_wptr: offset of the last wptr that was written to CFF
* @rb_ctx: The context that represents a ringbuffer
* @id: Priority level of the ringbuffer, also used as an ID
* @fault_detect_ts: The last retired global timestamp read during fault detect
* @timestamp: The RB's global timestamp
* @events: A kgsl_event_group for this context - contains the list of GPU
* events
* @drawctxt_active: The last pagetable that this ringbuffer is set to
* @preemption_desc: The memory descriptor containing
* preemption info written/read by CP
* @secure_preemption_desc: The memory descriptor containing
* preemption info written/read by CP for secure contexts
* @perfcounter_save_restore_desc: Used by CP to save/restore the perfcounter
* values across preemption
* and the commands to switch pagetable on the RB
* @dispatch_q: The dispatcher side queue for this ringbuffer
* @ts_expire_waitq: Wait queue to wait for rb timestamp to expire
* @ts_expire_waitq: Wait q to wait for rb timestamp to expire
* @wptr_preempt_end: Used during preemption to check that preemption occurred
* at the right rptr
* @gpr11: The gpr11 value of this RB
* @preempted_midway: Indicates that the RB was preempted before rptr = wptr
* @preempt_lock: Lock to protect the wptr pointer while it is being updated
* @skip_inline_wptr: Used during preemption to make sure wptr is updated in
* hardware
*/
struct adreno_ringbuffer {
unsigned long flags;
struct kgsl_memdesc *buffer_desc;
unsigned int _wptr;
unsigned int wptr;
unsigned int last_wptr;
int id;
unsigned int fault_detect_ts;
unsigned int timestamp;
struct kgsl_event_group events;
struct adreno_context *drawctxt_active;
struct kgsl_memdesc *preemption_desc;
struct kgsl_memdesc *secure_preemption_desc;
struct kgsl_memdesc *perfcounter_save_restore_desc;
struct adreno_dispatcher_drawqueue dispatch_q;
wait_queue_head_t ts_expire_waitq;
unsigned int wptr_preempt_end;
unsigned int gpr11;
int preempted_midway;
spinlock_t preempt_lock;
bool skip_inline_wptr;
/**
* @profile_desc: global memory to construct IB1s to do user side
* profiling
*/
struct kgsl_memdesc *profile_desc;
/**
* @profile_index: Pointer to the next "slot" in profile_desc for a user
* profiling IB1. This allows for PAGE_SIZE / 16 = 256 simultaneous
* commands per ringbuffer with user profiling enabled
* enough.
*/
u32 profile_index;
};
/* Returns the current ringbuffer */
#define ADRENO_CURRENT_RINGBUFFER(a) ((a)->cur_rb)
/**
* adreno_ringbuffer_setup - Do generic set up on a ringbuffer
* @adreno_dev: Pointer to an Adreno GPU handle
* @rb: Pointer to the ringbuffer struct to set up
* @id: Index of the ringbuffer
*
* Set up generic memory and other bits of a ringbuffer.
* Return: 0 on success or negative on error.
*/
int adreno_ringbuffer_setup(struct adreno_device *adreno_dev,
struct adreno_ringbuffer *rb, int id);
int adreno_ringbuffer_submitcmd(struct adreno_device *adreno_dev,
struct kgsl_drawobj_cmd *cmdobj,
struct adreno_submit_time *time);
void adreno_ringbuffer_stop(struct adreno_device *adreno_dev);
unsigned int *adreno_ringbuffer_allocspace(struct adreno_ringbuffer *rb,
unsigned int numcmds);
int adreno_ringbuffer_waittimestamp(struct adreno_ringbuffer *rb,
unsigned int timestamp,
unsigned int msecs);
int adreno_rb_readtimestamp(struct adreno_device *adreno_dev,
void *priv, enum kgsl_timestamp_type type,
unsigned int *timestamp);
static inline int adreno_ringbuffer_count(struct adreno_ringbuffer *rb,
unsigned int rptr)
{
if (rb->wptr >= rptr)
return rb->wptr - rptr;
return rb->wptr + KGSL_RB_DWORDS - rptr;
}
/* Increment a value by 4 bytes with wrap-around based on size */
static inline unsigned int adreno_ringbuffer_inc_wrapped(unsigned int val,
unsigned int size)
{
return (val + sizeof(unsigned int)) % size;
}
/* Decrement a value by 4 bytes with wrap-around based on size */
static inline unsigned int adreno_ringbuffer_dec_wrapped(unsigned int val,
unsigned int size)
{
return (val + size - sizeof(unsigned int)) % size;
}
void adreno_get_submit_time(struct adreno_device *adreno_dev,
struct adreno_ringbuffer *rb,
struct adreno_submit_time *time);
#endif /* __ADRENO_RINGBUFFER_H */