Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jordan Crouse | 361 | 95.00% | 6 | 85.71% |
Rob Clark | 19 | 5.00% | 1 | 14.29% |
Total | 380 | 7 |
/* Copyright (c) 2016-2017 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 __A5XX_GPU_H__ #define __A5XX_GPU_H__ #include "adreno_gpu.h" /* Bringing over the hack from the previous targets */ #undef ROP_COPY #undef ROP_XOR #include "a5xx.xml.h" struct a5xx_gpu { struct adreno_gpu base; struct drm_gem_object *pm4_bo; uint64_t pm4_iova; struct drm_gem_object *pfp_bo; uint64_t pfp_iova; struct drm_gem_object *gpmu_bo; uint64_t gpmu_iova; uint32_t gpmu_dwords; uint32_t lm_leakage; struct msm_ringbuffer *cur_ring; struct msm_ringbuffer *next_ring; struct drm_gem_object *preempt_bo[MSM_GPU_MAX_RINGS]; struct a5xx_preempt_record *preempt[MSM_GPU_MAX_RINGS]; uint64_t preempt_iova[MSM_GPU_MAX_RINGS]; atomic_t preempt_state; struct timer_list preempt_timer; }; #define to_a5xx_gpu(x) container_of(x, struct a5xx_gpu, base) #ifdef CONFIG_DEBUG_FS int a5xx_debugfs_init(struct msm_gpu *gpu, struct drm_minor *minor); #endif /* * In order to do lockless preemption we use a simple state machine to progress * through the process. * * PREEMPT_NONE - no preemption in progress. Next state START. * PREEMPT_START - The trigger is evaulating if preemption is possible. Next * states: TRIGGERED, NONE * PREEMPT_ABORT - An intermediate state before moving back to NONE. Next * state: NONE. * PREEMPT_TRIGGERED: A preemption has been executed on the hardware. Next * states: FAULTED, PENDING * PREEMPT_FAULTED: A preemption timed out (never completed). This will trigger * recovery. Next state: N/A * PREEMPT_PENDING: Preemption complete interrupt fired - the callback is * checking the success of the operation. Next state: FAULTED, NONE. */ enum preempt_state { PREEMPT_NONE = 0, PREEMPT_START, PREEMPT_ABORT, PREEMPT_TRIGGERED, PREEMPT_FAULTED, PREEMPT_PENDING, }; /* * struct a5xx_preempt_record is a shared buffer between the microcode and the * CPU to store the state for preemption. The record itself is much larger * (64k) but most of that is used by the CP for storage. * * There is a preemption record assigned per ringbuffer. When the CPU triggers a * preemption, it fills out the record with the useful information (wptr, ring * base, etc) and the microcode uses that information to set up the CP following * the preemption. When a ring is switched out, the CP will save the ringbuffer * state back to the record. In this way, once the records are properly set up * the CPU can quickly switch back and forth between ringbuffers by only * updating a few registers (often only the wptr). * * These are the CPU aware registers in the record: * @magic: Must always be 0x27C4BAFC * @info: Type of the record - written 0 by the CPU, updated by the CP * @data: Data field from SET_RENDER_MODE or a checkpoint. Written and used by * the CP * @cntl: Value of RB_CNTL written by CPU, save/restored by CP * @rptr: Value of RB_RPTR written by CPU, save/restored by CP * @wptr: Value of RB_WPTR written by CPU, save/restored by CP * @rptr_addr: Value of RB_RPTR_ADDR written by CPU, save/restored by CP * @rbase: Value of RB_BASE written by CPU, save/restored by CP * @counter: GPU address of the storage area for the performance counters */ struct a5xx_preempt_record { uint32_t magic; uint32_t info; uint32_t data; uint32_t cntl; uint32_t rptr; uint32_t wptr; uint64_t rptr_addr; uint64_t rbase; uint64_t counter; }; /* Magic identifier for the preemption record */ #define A5XX_PREEMPT_RECORD_MAGIC 0x27C4BAFCUL /* * Even though the structure above is only a few bytes, we need a full 64k to * store the entire preemption record from the CP */ #define A5XX_PREEMPT_RECORD_SIZE (64 * 1024) /* * The preemption counter block is a storage area for the value of the * preemption counters that are saved immediately before context switch. We * append it on to the end of the allocation for the preemption record. */ #define A5XX_PREEMPT_COUNTER_SIZE (16 * 4) int a5xx_power_init(struct msm_gpu *gpu); void a5xx_gpmu_ucode_init(struct msm_gpu *gpu); static inline int spin_usecs(struct msm_gpu *gpu, uint32_t usecs, uint32_t reg, uint32_t mask, uint32_t value) { while (usecs--) { udelay(1); if ((gpu_read(gpu, reg) & mask) == value) return 0; cpu_relax(); } return -ETIMEDOUT; } bool a5xx_idle(struct msm_gpu *gpu, struct msm_ringbuffer *ring); void a5xx_set_hwcg(struct msm_gpu *gpu, bool state); void a5xx_preempt_init(struct msm_gpu *gpu); void a5xx_preempt_hw_init(struct msm_gpu *gpu); void a5xx_preempt_trigger(struct msm_gpu *gpu); void a5xx_preempt_irq(struct msm_gpu *gpu); void a5xx_preempt_fini(struct msm_gpu *gpu); /* Return true if we are in a preempt state */ static inline bool a5xx_in_preempt(struct a5xx_gpu *a5xx_gpu) { int preempt_state = atomic_read(&a5xx_gpu->preempt_state); return !(preempt_state == PREEMPT_NONE || preempt_state == PREEMPT_ABORT); } #endif /* __A5XX_GPU_H__ */
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