/* Copyright (c) 2008-2018, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #ifndef ____ADRENO_DISPATCHER_H #define ____ADRENO_DISPATCHER_H extern unsigned int adreno_disp_preempt_fair_sched; extern unsigned int adreno_drawobj_timeout; extern unsigned int adreno_dispatch_starvation_time; extern unsigned int adreno_dispatch_time_slice; /** * enum adreno_dispatcher_starve_timer_states - Starvation control states of * a RB * @ADRENO_DISPATCHER_RB_STARVE_TIMER_UNINIT: Uninitialized, starvation control * is not operating * @ADRENO_DISPATCHER_RB_STARVE_TIMER_INIT: Starvation timer is initialized * and counting * @ADRENO_DISPATCHER_RB_STARVE_TIMER_ELAPSED: The starvation timer has elapsed * this state indicates that the RB is starved * @ADRENO_DISPATCHER_RB_STARVE_TIMER_SCHEDULED: RB is scheduled on the device * and will remain scheduled for a minimum time slice when in this state. */ enum adreno_dispatcher_starve_timer_states { ADRENO_DISPATCHER_RB_STARVE_TIMER_UNINIT = 0, ADRENO_DISPATCHER_RB_STARVE_TIMER_INIT = 1, ADRENO_DISPATCHER_RB_STARVE_TIMER_ELAPSED = 2, ADRENO_DISPATCHER_RB_STARVE_TIMER_SCHEDULED = 3, }; /* * Maximum size of the dispatcher ringbuffer - the actual inflight size will be * smaller then this but this size will allow for a larger range of inflight * sizes that can be chosen at runtime */ #define ADRENO_DISPATCH_DRAWQUEUE_SIZE 128 #define DRAWQUEUE_NEXT(_i, _s) (((_i) + 1) % (_s)) /** * struct adreno_dispatcher_drawqueue - List of commands for a RB level * @cmd_q: List of command obj's submitted to dispatcher * @inflight: Number of commands inflight in this q * @head: Head pointer to the q * @tail: Queues tail pointer * @active_context_count: Number of active contexts seen in this rb drawqueue * @expires: The jiffies value at which this drawqueue has run too long */ struct adreno_dispatcher_drawqueue { struct kgsl_drawobj_cmd *cmd_q[ADRENO_DISPATCH_DRAWQUEUE_SIZE]; unsigned int inflight; unsigned int head; unsigned int tail; int active_context_count; unsigned long expires; }; /** * struct adreno_dispatcher - container for the adreno GPU dispatcher * @mutex: Mutex to protect the structure * @state: Current state of the dispatcher (active or paused) * @timer: Timer to monitor the progress of the drawobjs * @inflight: Number of drawobj operations pending in the ringbuffer * @fault: Non-zero if a fault was detected. * @pending: Priority list of contexts waiting to submit drawobjs * @plist_lock: Spin lock to protect the pending queue * @work: work_struct to put the dispatcher in a work queue * @kobj: kobject for the dispatcher directory in the device sysfs node * @idle_gate: Gate to wait on for dispatcher to idle * @disp_preempt_fair_sched: If set then dispatcher will try to be fair to * starving RB's by scheduling them in and enforcing a minimum time slice * for every RB that is scheduled to run on the device */ struct adreno_dispatcher { struct mutex mutex; unsigned long priv; struct timer_list timer; struct timer_list fault_timer; unsigned int inflight; atomic_t fault; struct plist_head pending; spinlock_t plist_lock; struct kthread_work work; struct kobject kobj; struct completion idle_gate; unsigned int disp_preempt_fair_sched; }; enum adreno_dispatcher_flags { ADRENO_DISPATCHER_POWER = 0, ADRENO_DISPATCHER_ACTIVE = 1, }; void adreno_dispatcher_start(struct kgsl_device *device); void adreno_dispatcher_halt(struct kgsl_device *device); void adreno_dispatcher_unhalt(struct kgsl_device *device); int adreno_dispatcher_init(struct adreno_device *adreno_dev); void adreno_dispatcher_close(struct adreno_device *adreno_dev); int adreno_dispatcher_idle(struct adreno_device *adreno_dev); void adreno_dispatcher_irq_fault(struct adreno_device *adreno_dev); void adreno_dispatcher_stop(struct adreno_device *adreno_dev); void adreno_dispatcher_stop_fault_timer(struct kgsl_device *device); int adreno_dispatcher_queue_cmds(struct kgsl_device_private *dev_priv, struct kgsl_context *context, struct kgsl_drawobj *drawobj[], uint32_t count, uint32_t *timestamp); void adreno_dispatcher_schedule(struct kgsl_device *device); void adreno_dispatcher_pause(struct adreno_device *adreno_dev); void adreno_dispatcher_queue_context(struct kgsl_device *device, struct adreno_context *drawctxt); void adreno_dispatcher_preempt_callback(struct adreno_device *adreno_dev, int bit); void adreno_preempt_process_dispatch_queue(struct adreno_device *adreno_dev, struct adreno_dispatcher_drawqueue *dispatch_q); static inline bool adreno_drawqueue_is_empty( struct adreno_dispatcher_drawqueue *drawqueue) { return (drawqueue != NULL && drawqueue->head == drawqueue->tail); } #endif /* __ADRENO_DISPATCHER_H */