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|
// SPDX-License-Identifier: GPL-2.0
/* Copyright (c) 2017-2019 The Linux Foundation. All rights reserved. */
#include "msm_gem.h"
#include "msm_mmu.h"
#include "msm_gpu_trace.h"
#include "a6xx_gpu.h"
#include "a6xx_gmu.xml.h"
#include <linux/bitfield.h>
#include <linux/devfreq.h>
#include <linux/nvmem-consumer.h>
#include <linux/soc/qcom/llcc-qcom.h>
#define GPU_PAS_ID 13
static inline bool _a6xx_check_idle(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
/* Check that the GMU is idle */
if (!a6xx_gmu_isidle(&a6xx_gpu->gmu))
return false;
/* Check tha the CX master is idle */
if (gpu_read(gpu, REG_A6XX_RBBM_STATUS) &
~A6XX_RBBM_STATUS_CP_AHB_BUSY_CX_MASTER)
return false;
return !(gpu_read(gpu, REG_A6XX_RBBM_INT_0_STATUS) &
A6XX_RBBM_INT_0_MASK_RBBM_HANG_DETECT);
}
static bool a6xx_idle(struct msm_gpu *gpu, struct msm_ringbuffer *ring)
{
/* wait for CP to drain ringbuffer: */
if (!adreno_idle(gpu, ring))
return false;
if (spin_until(_a6xx_check_idle(gpu))) {
DRM_ERROR("%s: %ps: timeout waiting for GPU to idle: status %8.8X irq %8.8X rptr/wptr %d/%d\n",
gpu->name, __builtin_return_address(0),
gpu_read(gpu, REG_A6XX_RBBM_STATUS),
gpu_read(gpu, REG_A6XX_RBBM_INT_0_STATUS),
gpu_read(gpu, REG_A6XX_CP_RB_RPTR),
gpu_read(gpu, REG_A6XX_CP_RB_WPTR));
return false;
}
return true;
}
static void a6xx_flush(struct msm_gpu *gpu, struct msm_ringbuffer *ring)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
uint32_t wptr;
unsigned long flags;
/* Expanded APRIV doesn't need to issue the WHERE_AM_I opcode */
if (a6xx_gpu->has_whereami && !adreno_gpu->base.hw_apriv) {
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
OUT_PKT7(ring, CP_WHERE_AM_I, 2);
OUT_RING(ring, lower_32_bits(shadowptr(a6xx_gpu, ring)));
OUT_RING(ring, upper_32_bits(shadowptr(a6xx_gpu, ring)));
}
spin_lock_irqsave(&ring->preempt_lock, flags);
/* Copy the shadow to the actual register */
ring->cur = ring->next;
/* Make sure to wrap wptr if we need to */
wptr = get_wptr(ring);
spin_unlock_irqrestore(&ring->preempt_lock, flags);
/* Make sure everything is posted before making a decision */
mb();
gpu_write(gpu, REG_A6XX_CP_RB_WPTR, wptr);
}
static void get_stats_counter(struct msm_ringbuffer *ring, u32 counter,
u64 iova)
{
OUT_PKT7(ring, CP_REG_TO_MEM, 3);
OUT_RING(ring, CP_REG_TO_MEM_0_REG(counter) |
CP_REG_TO_MEM_0_CNT(2) |
CP_REG_TO_MEM_0_64B);
OUT_RING(ring, lower_32_bits(iova));
OUT_RING(ring, upper_32_bits(iova));
}
static void a6xx_set_pagetable(struct a6xx_gpu *a6xx_gpu,
struct msm_ringbuffer *ring, struct msm_file_private *ctx)
{
phys_addr_t ttbr;
u32 asid;
u64 memptr = rbmemptr(ring, ttbr0);
if (ctx == a6xx_gpu->cur_ctx)
return;
if (msm_iommu_pagetable_params(ctx->aspace->mmu, &ttbr, &asid))
return;
/* Execute the table update */
OUT_PKT7(ring, CP_SMMU_TABLE_UPDATE, 4);
OUT_RING(ring, CP_SMMU_TABLE_UPDATE_0_TTBR0_LO(lower_32_bits(ttbr)));
OUT_RING(ring,
CP_SMMU_TABLE_UPDATE_1_TTBR0_HI(upper_32_bits(ttbr)) |
CP_SMMU_TABLE_UPDATE_1_ASID(asid));
OUT_RING(ring, CP_SMMU_TABLE_UPDATE_2_CONTEXTIDR(0));
OUT_RING(ring, CP_SMMU_TABLE_UPDATE_3_CONTEXTBANK(0));
/*
* Write the new TTBR0 to the memstore. This is good for debugging.
*/
OUT_PKT7(ring, CP_MEM_WRITE, 4);
OUT_RING(ring, CP_MEM_WRITE_0_ADDR_LO(lower_32_bits(memptr)));
OUT_RING(ring, CP_MEM_WRITE_1_ADDR_HI(upper_32_bits(memptr)));
OUT_RING(ring, lower_32_bits(ttbr));
OUT_RING(ring, (asid << 16) | upper_32_bits(ttbr));
/*
* And finally, trigger a uche flush to be sure there isn't anything
* lingering in that part of the GPU
*/
OUT_PKT7(ring, CP_EVENT_WRITE, 1);
OUT_RING(ring, 0x31);
a6xx_gpu->cur_ctx = ctx;
}
static void a6xx_submit(struct msm_gpu *gpu, struct msm_gem_submit *submit)
{
unsigned int index = submit->seqno % MSM_GPU_SUBMIT_STATS_COUNT;
struct msm_drm_private *priv = gpu->dev->dev_private;
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
struct msm_ringbuffer *ring = submit->ring;
unsigned int i;
a6xx_set_pagetable(a6xx_gpu, ring, submit->queue->ctx);
get_stats_counter(ring, REG_A6XX_RBBM_PERFCTR_CP_0_LO,
rbmemptr_stats(ring, index, cpcycles_start));
/*
* For PM4 the GMU register offsets are calculated from the base of the
* GPU registers so we need to add 0x1a800 to the register value on A630
* to get the right value from PM4.
*/
get_stats_counter(ring, REG_A6XX_CP_ALWAYS_ON_COUNTER_LO,
rbmemptr_stats(ring, index, alwayson_start));
/* Invalidate CCU depth and color */
OUT_PKT7(ring, CP_EVENT_WRITE, 1);
OUT_RING(ring, CP_EVENT_WRITE_0_EVENT(PC_CCU_INVALIDATE_DEPTH));
OUT_PKT7(ring, CP_EVENT_WRITE, 1);
OUT_RING(ring, CP_EVENT_WRITE_0_EVENT(PC_CCU_INVALIDATE_COLOR));
/* Submit the commands */
for (i = 0; i < submit->nr_cmds; i++) {
switch (submit->cmd[i].type) {
case MSM_SUBMIT_CMD_IB_TARGET_BUF:
break;
case MSM_SUBMIT_CMD_CTX_RESTORE_BUF:
if (priv->lastctx == submit->queue->ctx)
break;
fallthrough;
case MSM_SUBMIT_CMD_BUF:
OUT_PKT7(ring, CP_INDIRECT_BUFFER_PFE, 3);
OUT_RING(ring, lower_32_bits(submit->cmd[i].iova));
OUT_RING(ring, upper_32_bits(submit->cmd[i].iova));
OUT_RING(ring, submit->cmd[i].size);
break;
}
}
get_stats_counter(ring, REG_A6XX_RBBM_PERFCTR_CP_0_LO,
rbmemptr_stats(ring, index, cpcycles_end));
get_stats_counter(ring, REG_A6XX_CP_ALWAYS_ON_COUNTER_LO,
rbmemptr_stats(ring, index, alwayson_end));
/* Write the fence to the scratch register */
OUT_PKT4(ring, REG_A6XX_CP_SCRATCH_REG(2), 1);
OUT_RING(ring, submit->seqno);
/*
* Execute a CACHE_FLUSH_TS event. This will ensure that the
* timestamp is written to the memory and then triggers the interrupt
*/
OUT_PKT7(ring, CP_EVENT_WRITE, 4);
OUT_RING(ring, CP_EVENT_WRITE_0_EVENT(CACHE_FLUSH_TS) |
CP_EVENT_WRITE_0_IRQ);
OUT_RING(ring, lower_32_bits(rbmemptr(ring, fence)));
OUT_RING(ring, upper_32_bits(rbmemptr(ring, fence)));
OUT_RING(ring, submit->seqno);
trace_msm_gpu_submit_flush(submit,
gpu_read64(gpu, REG_A6XX_CP_ALWAYS_ON_COUNTER_LO,
REG_A6XX_CP_ALWAYS_ON_COUNTER_HI));
a6xx_flush(gpu, ring);
}
const struct adreno_reglist a630_hwcg[] = {
{REG_A6XX_RBBM_CLOCK_CNTL_SP0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL_SP1, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL_SP2, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL_SP3, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_SP0, 0x02022220},
{REG_A6XX_RBBM_CLOCK_CNTL2_SP1, 0x02022220},
{REG_A6XX_RBBM_CLOCK_CNTL2_SP2, 0x02022220},
{REG_A6XX_RBBM_CLOCK_CNTL2_SP3, 0x02022220},
{REG_A6XX_RBBM_CLOCK_DELAY_SP0, 0x00000080},
{REG_A6XX_RBBM_CLOCK_DELAY_SP1, 0x00000080},
{REG_A6XX_RBBM_CLOCK_DELAY_SP2, 0x00000080},
{REG_A6XX_RBBM_CLOCK_DELAY_SP3, 0x00000080},
{REG_A6XX_RBBM_CLOCK_HYST_SP0, 0x0000f3cf},
{REG_A6XX_RBBM_CLOCK_HYST_SP1, 0x0000f3cf},
{REG_A6XX_RBBM_CLOCK_HYST_SP2, 0x0000f3cf},
{REG_A6XX_RBBM_CLOCK_HYST_SP3, 0x0000f3cf},
{REG_A6XX_RBBM_CLOCK_CNTL_TP0, 0x02222222},
{REG_A6XX_RBBM_CLOCK_CNTL_TP1, 0x02222222},
{REG_A6XX_RBBM_CLOCK_CNTL_TP2, 0x02222222},
{REG_A6XX_RBBM_CLOCK_CNTL_TP3, 0x02222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_TP0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_TP1, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_TP2, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_TP3, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL3_TP0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL3_TP1, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL3_TP2, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL3_TP3, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL4_TP0, 0x00022222},
{REG_A6XX_RBBM_CLOCK_CNTL4_TP1, 0x00022222},
{REG_A6XX_RBBM_CLOCK_CNTL4_TP2, 0x00022222},
{REG_A6XX_RBBM_CLOCK_CNTL4_TP3, 0x00022222},
{REG_A6XX_RBBM_CLOCK_HYST_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST_TP1, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST_TP2, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST_TP3, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST2_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST2_TP1, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST2_TP2, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST2_TP3, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST3_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST3_TP1, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST3_TP2, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST3_TP3, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST4_TP0, 0x00077777},
{REG_A6XX_RBBM_CLOCK_HYST4_TP1, 0x00077777},
{REG_A6XX_RBBM_CLOCK_HYST4_TP2, 0x00077777},
{REG_A6XX_RBBM_CLOCK_HYST4_TP3, 0x00077777},
{REG_A6XX_RBBM_CLOCK_DELAY_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY_TP1, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY_TP2, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY_TP3, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY2_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY2_TP1, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY2_TP2, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY2_TP3, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY3_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY3_TP1, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY3_TP2, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY3_TP3, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY4_TP0, 0x00011111},
{REG_A6XX_RBBM_CLOCK_DELAY4_TP1, 0x00011111},
{REG_A6XX_RBBM_CLOCK_DELAY4_TP2, 0x00011111},
{REG_A6XX_RBBM_CLOCK_DELAY4_TP3, 0x00011111},
{REG_A6XX_RBBM_CLOCK_CNTL_UCHE, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_UCHE, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL3_UCHE, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL4_UCHE, 0x00222222},
{REG_A6XX_RBBM_CLOCK_HYST_UCHE, 0x00000004},
{REG_A6XX_RBBM_CLOCK_DELAY_UCHE, 0x00000002},
{REG_A6XX_RBBM_CLOCK_CNTL_RB0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL_RB1, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL_RB2, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL_RB3, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_RB0, 0x00002222},
{REG_A6XX_RBBM_CLOCK_CNTL2_RB1, 0x00002222},
{REG_A6XX_RBBM_CLOCK_CNTL2_RB2, 0x00002222},
{REG_A6XX_RBBM_CLOCK_CNTL2_RB3, 0x00002222},
{REG_A6XX_RBBM_CLOCK_CNTL_CCU0, 0x00002220},
{REG_A6XX_RBBM_CLOCK_CNTL_CCU1, 0x00002220},
{REG_A6XX_RBBM_CLOCK_CNTL_CCU2, 0x00002220},
{REG_A6XX_RBBM_CLOCK_CNTL_CCU3, 0x00002220},
{REG_A6XX_RBBM_CLOCK_HYST_RB_CCU0, 0x00040f00},
{REG_A6XX_RBBM_CLOCK_HYST_RB_CCU1, 0x00040f00},
{REG_A6XX_RBBM_CLOCK_HYST_RB_CCU2, 0x00040f00},
{REG_A6XX_RBBM_CLOCK_HYST_RB_CCU3, 0x00040f00},
{REG_A6XX_RBBM_CLOCK_CNTL_RAC, 0x05022022},
{REG_A6XX_RBBM_CLOCK_CNTL2_RAC, 0x00005555},
{REG_A6XX_RBBM_CLOCK_DELAY_RAC, 0x00000011},
{REG_A6XX_RBBM_CLOCK_HYST_RAC, 0x00445044},
{REG_A6XX_RBBM_CLOCK_CNTL_TSE_RAS_RBBM, 0x04222222},
{REG_A6XX_RBBM_CLOCK_MODE_GPC, 0x00222222},
{REG_A6XX_RBBM_CLOCK_MODE_VFD, 0x00002222},
{REG_A6XX_RBBM_CLOCK_HYST_TSE_RAS_RBBM, 0x00000000},
{REG_A6XX_RBBM_CLOCK_HYST_GPC, 0x04104004},
{REG_A6XX_RBBM_CLOCK_HYST_VFD, 0x00000000},
{REG_A6XX_RBBM_CLOCK_DELAY_HLSQ, 0x00000000},
{REG_A6XX_RBBM_CLOCK_DELAY_TSE_RAS_RBBM, 0x00004000},
{REG_A6XX_RBBM_CLOCK_DELAY_GPC, 0x00000200},
{REG_A6XX_RBBM_CLOCK_DELAY_VFD, 0x00002222},
{REG_A6XX_RBBM_CLOCK_DELAY_HLSQ_2, 0x00000002},
{REG_A6XX_RBBM_CLOCK_MODE_HLSQ, 0x00002222},
{REG_A6XX_RBBM_CLOCK_CNTL_GMU_GX, 0x00000222},
{REG_A6XX_RBBM_CLOCK_DELAY_GMU_GX, 0x00000111},
{REG_A6XX_RBBM_CLOCK_HYST_GMU_GX, 0x00000555},
{},
};
const struct adreno_reglist a640_hwcg[] = {
{REG_A6XX_RBBM_CLOCK_CNTL_SP0, 0x02222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_SP0, 0x02222220},
{REG_A6XX_RBBM_CLOCK_DELAY_SP0, 0x00000080},
{REG_A6XX_RBBM_CLOCK_HYST_SP0, 0x0000F3CF},
{REG_A6XX_RBBM_CLOCK_CNTL_TP0, 0x02222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_TP0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL3_TP0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL4_TP0, 0x00022222},
{REG_A6XX_RBBM_CLOCK_DELAY_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY2_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY3_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY4_TP0, 0x00011111},
{REG_A6XX_RBBM_CLOCK_HYST_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST2_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST3_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST4_TP0, 0x00077777},
{REG_A6XX_RBBM_CLOCK_CNTL_RB0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_RB0, 0x01002222},
{REG_A6XX_RBBM_CLOCK_CNTL_CCU0, 0x00002220},
{REG_A6XX_RBBM_CLOCK_HYST_RB_CCU0, 0x00040F00},
{REG_A6XX_RBBM_CLOCK_CNTL_RAC, 0x05222022},
{REG_A6XX_RBBM_CLOCK_CNTL2_RAC, 0x00005555},
{REG_A6XX_RBBM_CLOCK_DELAY_RAC, 0x00000011},
{REG_A6XX_RBBM_CLOCK_HYST_RAC, 0x00445044},
{REG_A6XX_RBBM_CLOCK_CNTL_TSE_RAS_RBBM, 0x04222222},
{REG_A6XX_RBBM_CLOCK_MODE_VFD, 0x00002222},
{REG_A6XX_RBBM_CLOCK_MODE_GPC, 0x00222222},
{REG_A6XX_RBBM_CLOCK_DELAY_HLSQ_2, 0x00000002},
{REG_A6XX_RBBM_CLOCK_MODE_HLSQ, 0x00002222},
{REG_A6XX_RBBM_CLOCK_DELAY_TSE_RAS_RBBM, 0x00004000},
{REG_A6XX_RBBM_CLOCK_DELAY_VFD, 0x00002222},
{REG_A6XX_RBBM_CLOCK_DELAY_GPC, 0x00000200},
{REG_A6XX_RBBM_CLOCK_DELAY_HLSQ, 0x00000000},
{REG_A6XX_RBBM_CLOCK_HYST_TSE_RAS_RBBM, 0x00000000},
{REG_A6XX_RBBM_CLOCK_HYST_VFD, 0x00000000},
{REG_A6XX_RBBM_CLOCK_HYST_GPC, 0x04104004},
{REG_A6XX_RBBM_CLOCK_HYST_HLSQ, 0x00000000},
{REG_A6XX_RBBM_CLOCK_CNTL_TEX_FCHE, 0x00000222},
{REG_A6XX_RBBM_CLOCK_DELAY_TEX_FCHE, 0x00000111},
{REG_A6XX_RBBM_CLOCK_HYST_TEX_FCHE, 0x00000000},
{REG_A6XX_RBBM_CLOCK_CNTL_UCHE, 0x22222222},
{REG_A6XX_RBBM_CLOCK_HYST_UCHE, 0x00000004},
{REG_A6XX_RBBM_CLOCK_DELAY_UCHE, 0x00000002},
{REG_A6XX_RBBM_ISDB_CNT, 0x00000182},
{REG_A6XX_RBBM_RAC_THRESHOLD_CNT, 0x00000000},
{REG_A6XX_RBBM_SP_HYST_CNT, 0x00000000},
{REG_A6XX_RBBM_CLOCK_CNTL_GMU_GX, 0x00000222},
{REG_A6XX_RBBM_CLOCK_DELAY_GMU_GX, 0x00000111},
{REG_A6XX_RBBM_CLOCK_HYST_GMU_GX, 0x00000555},
{},
};
const struct adreno_reglist a650_hwcg[] = {
{REG_A6XX_RBBM_CLOCK_CNTL_SP0, 0x02222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_SP0, 0x02222220},
{REG_A6XX_RBBM_CLOCK_DELAY_SP0, 0x00000080},
{REG_A6XX_RBBM_CLOCK_HYST_SP0, 0x0000F3CF},
{REG_A6XX_RBBM_CLOCK_CNTL_TP0, 0x02222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_TP0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL3_TP0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL4_TP0, 0x00022222},
{REG_A6XX_RBBM_CLOCK_DELAY_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY2_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY3_TP0, 0x11111111},
{REG_A6XX_RBBM_CLOCK_DELAY4_TP0, 0x00011111},
{REG_A6XX_RBBM_CLOCK_HYST_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST2_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST3_TP0, 0x77777777},
{REG_A6XX_RBBM_CLOCK_HYST4_TP0, 0x00077777},
{REG_A6XX_RBBM_CLOCK_CNTL_RB0, 0x22222222},
{REG_A6XX_RBBM_CLOCK_CNTL2_RB0, 0x01002222},
{REG_A6XX_RBBM_CLOCK_CNTL_CCU0, 0x00002220},
{REG_A6XX_RBBM_CLOCK_HYST_RB_CCU0, 0x00040F00},
{REG_A6XX_RBBM_CLOCK_CNTL_RAC, 0x25222022},
{REG_A6XX_RBBM_CLOCK_CNTL2_RAC, 0x00005555},
{REG_A6XX_RBBM_CLOCK_DELAY_RAC, 0x00000011},
{REG_A6XX_RBBM_CLOCK_HYST_RAC, 0x00445044},
{REG_A6XX_RBBM_CLOCK_CNTL_TSE_RAS_RBBM, 0x04222222},
{REG_A6XX_RBBM_CLOCK_MODE_VFD, 0x00002222},
{REG_A6XX_RBBM_CLOCK_MODE_GPC, 0x00222222},
{REG_A6XX_RBBM_CLOCK_DELAY_HLSQ_2, 0x00000002},
{REG_A6XX_RBBM_CLOCK_MODE_HLSQ, 0x00002222},
{REG_A6XX_RBBM_CLOCK_DELAY_TSE_RAS_RBBM, 0x00004000},
{REG_A6XX_RBBM_CLOCK_DELAY_VFD, 0x00002222},
{REG_A6XX_RBBM_CLOCK_DELAY_GPC, 0x00000200},
{REG_A6XX_RBBM_CLOCK_DELAY_HLSQ, 0x00000000},
{REG_A6XX_RBBM_CLOCK_HYST_TSE_RAS_RBBM, 0x00000000},
{REG_A6XX_RBBM_CLOCK_HYST_VFD, 0x00000000},
{REG_A6XX_RBBM_CLOCK_HYST_GPC, 0x04104004},
{REG_A6XX_RBBM_CLOCK_HYST_HLSQ, 0x00000000},
{REG_A6XX_RBBM_CLOCK_CNTL_TEX_FCHE, 0x00000222},
{REG_A6XX_RBBM_CLOCK_DELAY_TEX_FCHE, 0x00000111},
{REG_A6XX_RBBM_CLOCK_HYST_TEX_FCHE, 0x00000777},
{REG_A6XX_RBBM_CLOCK_CNTL_UCHE, 0x22222222},
{REG_A6XX_RBBM_CLOCK_HYST_UCHE, 0x00000004},
{REG_A6XX_RBBM_CLOCK_DELAY_UCHE, 0x00000002},
{REG_A6XX_RBBM_ISDB_CNT, 0x00000182},
{REG_A6XX_RBBM_RAC_THRESHOLD_CNT, 0x00000000},
{REG_A6XX_RBBM_SP_HYST_CNT, 0x00000000},
{REG_A6XX_RBBM_CLOCK_CNTL_GMU_GX, 0x00000222},
{REG_A6XX_RBBM_CLOCK_DELAY_GMU_GX, 0x00000111},
{REG_A6XX_RBBM_CLOCK_HYST_GMU_GX, 0x00000555},
{},
};
static void a6xx_set_hwcg(struct msm_gpu *gpu, bool state)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
struct a6xx_gmu *gmu = &a6xx_gpu->gmu;
const struct adreno_reglist *reg;
unsigned int i;
u32 val, clock_cntl_on;
if (!adreno_gpu->info->hwcg)
return;
if (adreno_is_a630(adreno_gpu))
clock_cntl_on = 0x8aa8aa02;
else
clock_cntl_on = 0x8aa8aa82;
val = gpu_read(gpu, REG_A6XX_RBBM_CLOCK_CNTL);
/* Don't re-program the registers if they are already correct */
if ((!state && !val) || (state && (val == clock_cntl_on)))
return;
/* Disable SP clock before programming HWCG registers */
gmu_rmw(gmu, REG_A6XX_GPU_GMU_GX_SPTPRAC_CLOCK_CONTROL, 1, 0);
for (i = 0; (reg = &adreno_gpu->info->hwcg[i], reg->offset); i++)
gpu_write(gpu, reg->offset, state ? reg->value : 0);
/* Enable SP clock */
gmu_rmw(gmu, REG_A6XX_GPU_GMU_GX_SPTPRAC_CLOCK_CONTROL, 0, 1);
gpu_write(gpu, REG_A6XX_RBBM_CLOCK_CNTL, state ? clock_cntl_on : 0);
}
/* For a615, a616, a618, A619, a630, a640 and a680 */
static const u32 a6xx_protect[] = {
A6XX_PROTECT_RDONLY(0x00000, 0x04ff),
A6XX_PROTECT_RDONLY(0x00501, 0x0005),
A6XX_PROTECT_RDONLY(0x0050b, 0x02f4),
A6XX_PROTECT_NORDWR(0x0050e, 0x0000),
A6XX_PROTECT_NORDWR(0x00510, 0x0000),
A6XX_PROTECT_NORDWR(0x00534, 0x0000),
A6XX_PROTECT_NORDWR(0x00800, 0x0082),
A6XX_PROTECT_NORDWR(0x008a0, 0x0008),
A6XX_PROTECT_NORDWR(0x008ab, 0x0024),
A6XX_PROTECT_RDONLY(0x008de, 0x00ae),
A6XX_PROTECT_NORDWR(0x00900, 0x004d),
A6XX_PROTECT_NORDWR(0x0098d, 0x0272),
A6XX_PROTECT_NORDWR(0x00e00, 0x0001),
A6XX_PROTECT_NORDWR(0x00e03, 0x000c),
A6XX_PROTECT_NORDWR(0x03c00, 0x00c3),
A6XX_PROTECT_RDONLY(0x03cc4, 0x1fff),
A6XX_PROTECT_NORDWR(0x08630, 0x01cf),
A6XX_PROTECT_NORDWR(0x08e00, 0x0000),
A6XX_PROTECT_NORDWR(0x08e08, 0x0000),
A6XX_PROTECT_NORDWR(0x08e50, 0x001f),
A6XX_PROTECT_NORDWR(0x09624, 0x01db),
A6XX_PROTECT_NORDWR(0x09e70, 0x0001),
A6XX_PROTECT_NORDWR(0x09e78, 0x0187),
A6XX_PROTECT_NORDWR(0x0a630, 0x01cf),
A6XX_PROTECT_NORDWR(0x0ae02, 0x0000),
A6XX_PROTECT_NORDWR(0x0ae50, 0x032f),
A6XX_PROTECT_NORDWR(0x0b604, 0x0000),
A6XX_PROTECT_NORDWR(0x0be02, 0x0001),
A6XX_PROTECT_NORDWR(0x0be20, 0x17df),
A6XX_PROTECT_NORDWR(0x0f000, 0x0bff),
A6XX_PROTECT_RDONLY(0x0fc00, 0x1fff),
A6XX_PROTECT_NORDWR(0x11c00, 0x0000), /* note: infinite range */
};
/* These are for a620 and a650 */
static const u32 a650_protect[] = {
A6XX_PROTECT_RDONLY(0x00000, 0x04ff),
A6XX_PROTECT_RDONLY(0x00501, 0x0005),
A6XX_PROTECT_RDONLY(0x0050b, 0x02f4),
A6XX_PROTECT_NORDWR(0x0050e, 0x0000),
A6XX_PROTECT_NORDWR(0x00510, 0x0000),
A6XX_PROTECT_NORDWR(0x00534, 0x0000),
A6XX_PROTECT_NORDWR(0x00800, 0x0082),
A6XX_PROTECT_NORDWR(0x008a0, 0x0008),
A6XX_PROTECT_NORDWR(0x008ab, 0x0024),
A6XX_PROTECT_RDONLY(0x008de, 0x00ae),
A6XX_PROTECT_NORDWR(0x00900, 0x004d),
A6XX_PROTECT_NORDWR(0x0098d, 0x0272),
A6XX_PROTECT_NORDWR(0x00e00, 0x0001),
A6XX_PROTECT_NORDWR(0x00e03, 0x000c),
A6XX_PROTECT_NORDWR(0x03c00, 0x00c3),
A6XX_PROTECT_RDONLY(0x03cc4, 0x1fff),
A6XX_PROTECT_NORDWR(0x08630, 0x01cf),
A6XX_PROTECT_NORDWR(0x08e00, 0x0000),
A6XX_PROTECT_NORDWR(0x08e08, 0x0000),
A6XX_PROTECT_NORDWR(0x08e50, 0x001f),
A6XX_PROTECT_NORDWR(0x08e80, 0x027f),
A6XX_PROTECT_NORDWR(0x09624, 0x01db),
A6XX_PROTECT_NORDWR(0x09e60, 0x0011),
A6XX_PROTECT_NORDWR(0x09e78, 0x0187),
A6XX_PROTECT_NORDWR(0x0a630, 0x01cf),
A6XX_PROTECT_NORDWR(0x0ae02, 0x0000),
A6XX_PROTECT_NORDWR(0x0ae50, 0x032f),
A6XX_PROTECT_NORDWR(0x0b604, 0x0000),
A6XX_PROTECT_NORDWR(0x0b608, 0x0007),
A6XX_PROTECT_NORDWR(0x0be02, 0x0001),
A6XX_PROTECT_NORDWR(0x0be20, 0x17df),
A6XX_PROTECT_NORDWR(0x0f000, 0x0bff),
A6XX_PROTECT_RDONLY(0x0fc00, 0x1fff),
A6XX_PROTECT_NORDWR(0x18400, 0x1fff),
A6XX_PROTECT_NORDWR(0x1a800, 0x1fff),
A6XX_PROTECT_NORDWR(0x1f400, 0x0443),
A6XX_PROTECT_RDONLY(0x1f844, 0x007b),
A6XX_PROTECT_NORDWR(0x1f887, 0x001b),
A6XX_PROTECT_NORDWR(0x1f8c0, 0x0000), /* note: infinite range */
};
static void a6xx_set_cp_protect(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
const u32 *regs = a6xx_protect;
unsigned i, count = ARRAY_SIZE(a6xx_protect), count_max = 32;
BUILD_BUG_ON(ARRAY_SIZE(a6xx_protect) > 32);
BUILD_BUG_ON(ARRAY_SIZE(a650_protect) > 48);
if (adreno_is_a650(adreno_gpu)) {
regs = a650_protect;
count = ARRAY_SIZE(a650_protect);
count_max = 48;
}
/*
* Enable access protection to privileged registers, fault on an access
* protect violation and select the last span to protect from the start
* address all the way to the end of the register address space
*/
gpu_write(gpu, REG_A6XX_CP_PROTECT_CNTL, BIT(0) | BIT(1) | BIT(3));
for (i = 0; i < count - 1; i++)
gpu_write(gpu, REG_A6XX_CP_PROTECT(i), regs[i]);
/* last CP_PROTECT to have "infinite" length on the last entry */
gpu_write(gpu, REG_A6XX_CP_PROTECT(count_max - 1), regs[i]);
}
static void a6xx_set_ubwc_config(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
u32 lower_bit = 2;
u32 amsbc = 0;
u32 rgb565_predicator = 0;
u32 uavflagprd_inv = 0;
/* a618 is using the hw default values */
if (adreno_is_a618(adreno_gpu))
return;
if (adreno_is_a640(adreno_gpu))
amsbc = 1;
if (adreno_is_a650(adreno_gpu)) {
/* TODO: get ddr type from bootloader and use 2 for LPDDR4 */
lower_bit = 3;
amsbc = 1;
rgb565_predicator = 1;
uavflagprd_inv = 2;
}
gpu_write(gpu, REG_A6XX_RB_NC_MODE_CNTL,
rgb565_predicator << 11 | amsbc << 4 | lower_bit << 1);
gpu_write(gpu, REG_A6XX_TPL1_NC_MODE_CNTL, lower_bit << 1);
gpu_write(gpu, REG_A6XX_SP_NC_MODE_CNTL,
uavflagprd_inv << 4 | lower_bit << 1);
gpu_write(gpu, REG_A6XX_UCHE_MODE_CNTL, lower_bit << 21);
}
static int a6xx_cp_init(struct msm_gpu *gpu)
{
struct msm_ringbuffer *ring = gpu->rb[0];
OUT_PKT7(ring, CP_ME_INIT, 8);
OUT_RING(ring, 0x0000002f);
/* Enable multiple hardware contexts */
OUT_RING(ring, 0x00000003);
/* Enable error detection */
OUT_RING(ring, 0x20000000);
/* Don't enable header dump */
OUT_RING(ring, 0x00000000);
OUT_RING(ring, 0x00000000);
/* No workarounds enabled */
OUT_RING(ring, 0x00000000);
/* Pad rest of the cmds with 0's */
OUT_RING(ring, 0x00000000);
OUT_RING(ring, 0x00000000);
a6xx_flush(gpu, ring);
return a6xx_idle(gpu, ring) ? 0 : -EINVAL;
}
/*
* Check that the microcode version is new enough to include several key
* security fixes. Return true if the ucode is safe.
*/
static bool a6xx_ucode_check_version(struct a6xx_gpu *a6xx_gpu,
struct drm_gem_object *obj)
{
struct adreno_gpu *adreno_gpu = &a6xx_gpu->base;
struct msm_gpu *gpu = &adreno_gpu->base;
u32 *buf = msm_gem_get_vaddr(obj);
bool ret = false;
if (IS_ERR(buf))
return false;
/*
* Targets up to a640 (a618, a630 and a640) need to check for a
* microcode version that is patched to support the whereami opcode or
* one that is new enough to include it by default.
*/
if (adreno_is_a618(adreno_gpu) || adreno_is_a630(adreno_gpu) ||
adreno_is_a640(adreno_gpu)) {
/*
* If the lowest nibble is 0xa that is an indication that this
* microcode has been patched. The actual version is in dword
* [3] but we only care about the patchlevel which is the lowest
* nibble of dword [3]
*
* Otherwise check that the firmware is greater than or equal
* to 1.90 which was the first version that had this fix built
* in
*/
if ((((buf[0] & 0xf) == 0xa) && (buf[2] & 0xf) >= 1) ||
(buf[0] & 0xfff) >= 0x190) {
a6xx_gpu->has_whereami = true;
ret = true;
goto out;
}
DRM_DEV_ERROR(&gpu->pdev->dev,
"a630 SQE ucode is too old. Have version %x need at least %x\n",
buf[0] & 0xfff, 0x190);
} else {
/*
* a650 tier targets don't need whereami but still need to be
* equal to or newer than 0.95 for other security fixes
*/
if (adreno_is_a650(adreno_gpu)) {
if ((buf[0] & 0xfff) >= 0x095) {
ret = true;
goto out;
}
DRM_DEV_ERROR(&gpu->pdev->dev,
"a650 SQE ucode is too old. Have version %x need at least %x\n",
buf[0] & 0xfff, 0x095);
}
/*
* When a660 is added those targets should return true here
* since those have all the critical security fixes built in
* from the start
*/
}
out:
msm_gem_put_vaddr(obj);
return ret;
}
static int a6xx_ucode_init(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
if (!a6xx_gpu->sqe_bo) {
a6xx_gpu->sqe_bo = adreno_fw_create_bo(gpu,
adreno_gpu->fw[ADRENO_FW_SQE], &a6xx_gpu->sqe_iova);
if (IS_ERR(a6xx_gpu->sqe_bo)) {
int ret = PTR_ERR(a6xx_gpu->sqe_bo);
a6xx_gpu->sqe_bo = NULL;
DRM_DEV_ERROR(&gpu->pdev->dev,
"Could not allocate SQE ucode: %d\n", ret);
return ret;
}
msm_gem_object_set_name(a6xx_gpu->sqe_bo, "sqefw");
if (!a6xx_ucode_check_version(a6xx_gpu, a6xx_gpu->sqe_bo)) {
msm_gem_unpin_iova(a6xx_gpu->sqe_bo, gpu->aspace);
drm_gem_object_put(a6xx_gpu->sqe_bo);
a6xx_gpu->sqe_bo = NULL;
return -EPERM;
}
}
gpu_write64(gpu, REG_A6XX_CP_SQE_INSTR_BASE_LO,
REG_A6XX_CP_SQE_INSTR_BASE_HI, a6xx_gpu->sqe_iova);
return 0;
}
static int a6xx_zap_shader_init(struct msm_gpu *gpu)
{
static bool loaded;
int ret;
if (loaded)
return 0;
ret = adreno_zap_shader_load(gpu, GPU_PAS_ID);
loaded = !ret;
return ret;
}
#define A6XX_INT_MASK (A6XX_RBBM_INT_0_MASK_CP_AHB_ERROR | \
A6XX_RBBM_INT_0_MASK_RBBM_ATB_ASYNCFIFO_OVERFLOW | \
A6XX_RBBM_INT_0_MASK_CP_HW_ERROR | \
A6XX_RBBM_INT_0_MASK_CP_IB2 | \
A6XX_RBBM_INT_0_MASK_CP_IB1 | \
A6XX_RBBM_INT_0_MASK_CP_RB | \
A6XX_RBBM_INT_0_MASK_CP_CACHE_FLUSH_TS | \
A6XX_RBBM_INT_0_MASK_RBBM_ATB_BUS_OVERFLOW | \
A6XX_RBBM_INT_0_MASK_RBBM_HANG_DETECT | \
A6XX_RBBM_INT_0_MASK_UCHE_OOB_ACCESS | \
A6XX_RBBM_INT_0_MASK_UCHE_TRAP_INTR)
static int a6xx_hw_init(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
int ret;
/* Make sure the GMU keeps the GPU on while we set it up */
a6xx_gmu_set_oob(&a6xx_gpu->gmu, GMU_OOB_GPU_SET);
gpu_write(gpu, REG_A6XX_RBBM_SECVID_TSB_CNTL, 0);
/*
* Disable the trusted memory range - we don't actually supported secure
* memory rendering at this point in time and we don't want to block off
* part of the virtual memory space.
*/
gpu_write64(gpu, REG_A6XX_RBBM_SECVID_TSB_TRUSTED_BASE_LO,
REG_A6XX_RBBM_SECVID_TSB_TRUSTED_BASE_HI, 0x00000000);
gpu_write(gpu, REG_A6XX_RBBM_SECVID_TSB_TRUSTED_SIZE, 0x00000000);
/* Turn on 64 bit addressing for all blocks */
gpu_write(gpu, REG_A6XX_CP_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_VSC_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_GRAS_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_RB_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_PC_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_HLSQ_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_VFD_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_VPC_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_UCHE_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_SP_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_TPL1_ADDR_MODE_CNTL, 0x1);
gpu_write(gpu, REG_A6XX_RBBM_SECVID_TSB_ADDR_MODE_CNTL, 0x1);
/* enable hardware clockgating */
a6xx_set_hwcg(gpu, true);
/* VBIF/GBIF start*/
if (adreno_is_a640(adreno_gpu) || adreno_is_a650(adreno_gpu)) {
gpu_write(gpu, REG_A6XX_GBIF_QSB_SIDE0, 0x00071620);
gpu_write(gpu, REG_A6XX_GBIF_QSB_SIDE1, 0x00071620);
gpu_write(gpu, REG_A6XX_GBIF_QSB_SIDE2, 0x00071620);
gpu_write(gpu, REG_A6XX_GBIF_QSB_SIDE3, 0x00071620);
gpu_write(gpu, REG_A6XX_GBIF_QSB_SIDE3, 0x00071620);
gpu_write(gpu, REG_A6XX_RBBM_GBIF_CLIENT_QOS_CNTL, 0x3);
} else {
gpu_write(gpu, REG_A6XX_RBBM_VBIF_CLIENT_QOS_CNTL, 0x3);
}
if (adreno_is_a630(adreno_gpu))
gpu_write(gpu, REG_A6XX_VBIF_GATE_OFF_WRREQ_EN, 0x00000009);
/* Make all blocks contribute to the GPU BUSY perf counter */
gpu_write(gpu, REG_A6XX_RBBM_PERFCTR_GPU_BUSY_MASKED, 0xffffffff);
/* Disable L2 bypass in the UCHE */
gpu_write(gpu, REG_A6XX_UCHE_WRITE_RANGE_MAX_LO, 0xffffffc0);
gpu_write(gpu, REG_A6XX_UCHE_WRITE_RANGE_MAX_HI, 0x0001ffff);
gpu_write(gpu, REG_A6XX_UCHE_TRAP_BASE_LO, 0xfffff000);
gpu_write(gpu, REG_A6XX_UCHE_TRAP_BASE_HI, 0x0001ffff);
gpu_write(gpu, REG_A6XX_UCHE_WRITE_THRU_BASE_LO, 0xfffff000);
gpu_write(gpu, REG_A6XX_UCHE_WRITE_THRU_BASE_HI, 0x0001ffff);
if (!adreno_is_a650(adreno_gpu)) {
/* Set the GMEM VA range [0x100000:0x100000 + gpu->gmem - 1] */
gpu_write64(gpu, REG_A6XX_UCHE_GMEM_RANGE_MIN_LO,
REG_A6XX_UCHE_GMEM_RANGE_MIN_HI, 0x00100000);
gpu_write64(gpu, REG_A6XX_UCHE_GMEM_RANGE_MAX_LO,
REG_A6XX_UCHE_GMEM_RANGE_MAX_HI,
0x00100000 + adreno_gpu->gmem - 1);
}
gpu_write(gpu, REG_A6XX_UCHE_FILTER_CNTL, 0x804);
gpu_write(gpu, REG_A6XX_UCHE_CACHE_WAYS, 0x4);
if (adreno_is_a640(adreno_gpu) || adreno_is_a650(adreno_gpu))
gpu_write(gpu, REG_A6XX_CP_ROQ_THRESHOLDS_2, 0x02000140);
else
gpu_write(gpu, REG_A6XX_CP_ROQ_THRESHOLDS_2, 0x010000c0);
gpu_write(gpu, REG_A6XX_CP_ROQ_THRESHOLDS_1, 0x8040362c);
/* Setting the mem pool size */
gpu_write(gpu, REG_A6XX_CP_MEM_POOL_SIZE, 128);
/* Setting the primFifo thresholds default values */
if (adreno_is_a650(adreno_gpu))
gpu_write(gpu, REG_A6XX_PC_DBG_ECO_CNTL, 0x00300000);
else if (adreno_is_a640(adreno_gpu))
gpu_write(gpu, REG_A6XX_PC_DBG_ECO_CNTL, 0x00200000);
else
gpu_write(gpu, REG_A6XX_PC_DBG_ECO_CNTL, (0x300 << 11));
/* Set the AHB default slave response to "ERROR" */
gpu_write(gpu, REG_A6XX_CP_AHB_CNTL, 0x1);
/* Turn on performance counters */
gpu_write(gpu, REG_A6XX_RBBM_PERFCTR_CNTL, 0x1);
/* Select CP0 to always count cycles */
gpu_write(gpu, REG_A6XX_CP_PERFCTR_CP_SEL_0, PERF_CP_ALWAYS_COUNT);
a6xx_set_ubwc_config(gpu);
/* Enable fault detection */
gpu_write(gpu, REG_A6XX_RBBM_INTERFACE_HANG_INT_CNTL,
(1 << 30) | 0x1fffff);
gpu_write(gpu, REG_A6XX_UCHE_CLIENT_PF, 1);
/* Set weights for bicubic filtering */
if (adreno_is_a650(adreno_gpu)) {
gpu_write(gpu, REG_A6XX_TPL1_BICUBIC_WEIGHTS_TABLE_0, 0);
gpu_write(gpu, REG_A6XX_TPL1_BICUBIC_WEIGHTS_TABLE_1,
0x3fe05ff4);
gpu_write(gpu, REG_A6XX_TPL1_BICUBIC_WEIGHTS_TABLE_2,
0x3fa0ebee);
gpu_write(gpu, REG_A6XX_TPL1_BICUBIC_WEIGHTS_TABLE_3,
0x3f5193ed);
gpu_write(gpu, REG_A6XX_TPL1_BICUBIC_WEIGHTS_TABLE_4,
0x3f0243f0);
}
/* Protect registers from the CP */
a6xx_set_cp_protect(gpu);
/* Enable expanded apriv for targets that support it */
if (gpu->hw_apriv) {
gpu_write(gpu, REG_A6XX_CP_APRIV_CNTL,
(1 << 6) | (1 << 5) | (1 << 3) | (1 << 2) | (1 << 1));
}
/* Enable interrupts */
gpu_write(gpu, REG_A6XX_RBBM_INT_0_MASK, A6XX_INT_MASK);
ret = adreno_hw_init(gpu);
if (ret)
goto out;
ret = a6xx_ucode_init(gpu);
if (ret)
goto out;
/* Set the ringbuffer address */
gpu_write64(gpu, REG_A6XX_CP_RB_BASE, REG_A6XX_CP_RB_BASE_HI,
gpu->rb[0]->iova);
/* Targets that support extended APRIV can use the RPTR shadow from
* hardware but all the other ones need to disable the feature. Targets
* that support the WHERE_AM_I opcode can use that instead
*/
if (adreno_gpu->base.hw_apriv)
gpu_write(gpu, REG_A6XX_CP_RB_CNTL, MSM_GPU_RB_CNTL_DEFAULT);
else
gpu_write(gpu, REG_A6XX_CP_RB_CNTL,
MSM_GPU_RB_CNTL_DEFAULT | AXXX_CP_RB_CNTL_NO_UPDATE);
/*
* Expanded APRIV and targets that support WHERE_AM_I both need a
* privileged buffer to store the RPTR shadow
*/
if (adreno_gpu->base.hw_apriv || a6xx_gpu->has_whereami) {
if (!a6xx_gpu->shadow_bo) {
a6xx_gpu->shadow = msm_gem_kernel_new_locked(gpu->dev,
sizeof(u32) * gpu->nr_rings,
MSM_BO_UNCACHED | MSM_BO_MAP_PRIV,
gpu->aspace, &a6xx_gpu->shadow_bo,
&a6xx_gpu->shadow_iova);
if (IS_ERR(a6xx_gpu->shadow))
return PTR_ERR(a6xx_gpu->shadow);
}
gpu_write64(gpu, REG_A6XX_CP_RB_RPTR_ADDR_LO,
REG_A6XX_CP_RB_RPTR_ADDR_HI,
shadowptr(a6xx_gpu, gpu->rb[0]));
}
/* Always come up on rb 0 */
a6xx_gpu->cur_ring = gpu->rb[0];
a6xx_gpu->cur_ctx = NULL;
/* Enable the SQE_to start the CP engine */
gpu_write(gpu, REG_A6XX_CP_SQE_CNTL, 1);
ret = a6xx_cp_init(gpu);
if (ret)
goto out;
/*
* Try to load a zap shader into the secure world. If successful
* we can use the CP to switch out of secure mode. If not then we
* have no resource but to try to switch ourselves out manually. If we
* guessed wrong then access to the RBBM_SECVID_TRUST_CNTL register will
* be blocked and a permissions violation will soon follow.
*/
ret = a6xx_zap_shader_init(gpu);
if (!ret) {
OUT_PKT7(gpu->rb[0], CP_SET_SECURE_MODE, 1);
OUT_RING(gpu->rb[0], 0x00000000);
a6xx_flush(gpu, gpu->rb[0]);
if (!a6xx_idle(gpu, gpu->rb[0]))
return -EINVAL;
} else if (ret == -ENODEV) {
/*
* This device does not use zap shader (but print a warning
* just in case someone got their dt wrong.. hopefully they
* have a debug UART to realize the error of their ways...
* if you mess this up you are about to crash horribly)
*/
dev_warn_once(gpu->dev->dev,
"Zap shader not enabled - using SECVID_TRUST_CNTL instead\n");
gpu_write(gpu, REG_A6XX_RBBM_SECVID_TRUST_CNTL, 0x0);
ret = 0;
} else {
return ret;
}
out:
/*
* Tell the GMU that we are done touching the GPU and it can start power
* management
*/
a6xx_gmu_clear_oob(&a6xx_gpu->gmu, GMU_OOB_GPU_SET);
if (a6xx_gpu->gmu.legacy) {
/* Take the GMU out of its special boot mode */
a6xx_gmu_clear_oob(&a6xx_gpu->gmu, GMU_OOB_BOOT_SLUMBER);
}
return ret;
}
static void a6xx_dump(struct msm_gpu *gpu)
{
DRM_DEV_INFO(&gpu->pdev->dev, "status: %08x\n",
gpu_read(gpu, REG_A6XX_RBBM_STATUS));
adreno_dump(gpu);
}
#define VBIF_RESET_ACK_TIMEOUT 100
#define VBIF_RESET_ACK_MASK 0x00f0
static void a6xx_recover(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
int i;
adreno_dump_info(gpu);
for (i = 0; i < 8; i++)
DRM_DEV_INFO(&gpu->pdev->dev, "CP_SCRATCH_REG%d: %u\n", i,
gpu_read(gpu, REG_A6XX_CP_SCRATCH_REG(i)));
if (hang_debug)
a6xx_dump(gpu);
/*
* Turn off keep alive that might have been enabled by the hang
* interrupt
*/
gmu_write(&a6xx_gpu->gmu, REG_A6XX_GMU_GMU_PWR_COL_KEEPALIVE, 0);
gpu->funcs->pm_suspend(gpu);
gpu->funcs->pm_resume(gpu);
msm_gpu_hw_init(gpu);
}
static int a6xx_fault_handler(void *arg, unsigned long iova, int flags)
{
struct msm_gpu *gpu = arg;
pr_warn_ratelimited("*** gpu fault: iova=%08lx, flags=%d (%u,%u,%u,%u)\n",
iova, flags,
gpu_read(gpu, REG_A6XX_CP_SCRATCH_REG(4)),
gpu_read(gpu, REG_A6XX_CP_SCRATCH_REG(5)),
gpu_read(gpu, REG_A6XX_CP_SCRATCH_REG(6)),
gpu_read(gpu, REG_A6XX_CP_SCRATCH_REG(7)));
return -EFAULT;
}
static void a6xx_cp_hw_err_irq(struct msm_gpu *gpu)
{
u32 status = gpu_read(gpu, REG_A6XX_CP_INTERRUPT_STATUS);
if (status & A6XX_CP_INT_CP_OPCODE_ERROR) {
u32 val;
gpu_write(gpu, REG_A6XX_CP_SQE_STAT_ADDR, 1);
val = gpu_read(gpu, REG_A6XX_CP_SQE_STAT_DATA);
dev_err_ratelimited(&gpu->pdev->dev,
"CP | opcode error | possible opcode=0x%8.8X\n",
val);
}
if (status & A6XX_CP_INT_CP_UCODE_ERROR)
dev_err_ratelimited(&gpu->pdev->dev,
"CP ucode error interrupt\n");
if (status & A6XX_CP_INT_CP_HW_FAULT_ERROR)
dev_err_ratelimited(&gpu->pdev->dev, "CP | HW fault | status=0x%8.8X\n",
gpu_read(gpu, REG_A6XX_CP_HW_FAULT));
if (status & A6XX_CP_INT_CP_REGISTER_PROTECTION_ERROR) {
u32 val = gpu_read(gpu, REG_A6XX_CP_PROTECT_STATUS);
dev_err_ratelimited(&gpu->pdev->dev,
"CP | protected mode error | %s | addr=0x%8.8X | status=0x%8.8X\n",
val & (1 << 20) ? "READ" : "WRITE",
(val & 0x3ffff), val);
}
if (status & A6XX_CP_INT_CP_AHB_ERROR)
dev_err_ratelimited(&gpu->pdev->dev, "CP AHB error interrupt\n");
if (status & A6XX_CP_INT_CP_VSD_PARITY_ERROR)
dev_err_ratelimited(&gpu->pdev->dev, "CP VSD decoder parity error\n");
if (status & A6XX_CP_INT_CP_ILLEGAL_INSTR_ERROR)
dev_err_ratelimited(&gpu->pdev->dev, "CP illegal instruction error\n");
}
static void a6xx_fault_detect_irq(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
struct msm_ringbuffer *ring = gpu->funcs->active_ring(gpu);
/*
* Force the GPU to stay on until after we finish
* collecting information
*/
gmu_write(&a6xx_gpu->gmu, REG_A6XX_GMU_GMU_PWR_COL_KEEPALIVE, 1);
DRM_DEV_ERROR(&gpu->pdev->dev,
"gpu fault ring %d fence %x status %8.8X rb %4.4x/%4.4x ib1 %16.16llX/%4.4x ib2 %16.16llX/%4.4x\n",
ring ? ring->id : -1, ring ? ring->seqno : 0,
gpu_read(gpu, REG_A6XX_RBBM_STATUS),
gpu_read(gpu, REG_A6XX_CP_RB_RPTR),
gpu_read(gpu, REG_A6XX_CP_RB_WPTR),
gpu_read64(gpu, REG_A6XX_CP_IB1_BASE, REG_A6XX_CP_IB1_BASE_HI),
gpu_read(gpu, REG_A6XX_CP_IB1_REM_SIZE),
gpu_read64(gpu, REG_A6XX_CP_IB2_BASE, REG_A6XX_CP_IB2_BASE_HI),
gpu_read(gpu, REG_A6XX_CP_IB2_REM_SIZE));
/* Turn off the hangcheck timer to keep it from bothering us */
del_timer(&gpu->hangcheck_timer);
kthread_queue_work(gpu->worker, &gpu->recover_work);
}
static irqreturn_t a6xx_irq(struct msm_gpu *gpu)
{
u32 status = gpu_read(gpu, REG_A6XX_RBBM_INT_0_STATUS);
gpu_write(gpu, REG_A6XX_RBBM_INT_CLEAR_CMD, status);
if (status & A6XX_RBBM_INT_0_MASK_RBBM_HANG_DETECT)
a6xx_fault_detect_irq(gpu);
if (status & A6XX_RBBM_INT_0_MASK_CP_AHB_ERROR)
dev_err_ratelimited(&gpu->pdev->dev, "CP | AHB bus error\n");
if (status & A6XX_RBBM_INT_0_MASK_CP_HW_ERROR)
a6xx_cp_hw_err_irq(gpu);
if (status & A6XX_RBBM_INT_0_MASK_RBBM_ATB_ASYNCFIFO_OVERFLOW)
dev_err_ratelimited(&gpu->pdev->dev, "RBBM | ATB ASYNC overflow\n");
if (status & A6XX_RBBM_INT_0_MASK_RBBM_ATB_BUS_OVERFLOW)
dev_err_ratelimited(&gpu->pdev->dev, "RBBM | ATB bus overflow\n");
if (status & A6XX_RBBM_INT_0_MASK_UCHE_OOB_ACCESS)
dev_err_ratelimited(&gpu->pdev->dev, "UCHE | Out of bounds access\n");
if (status & A6XX_RBBM_INT_0_MASK_CP_CACHE_FLUSH_TS)
msm_gpu_retire(gpu);
return IRQ_HANDLED;
}
static void a6xx_llc_rmw(struct a6xx_gpu *a6xx_gpu, u32 reg, u32 mask, u32 or)
{
return msm_rmw(a6xx_gpu->llc_mmio + (reg << 2), mask, or);
}
static void a6xx_llc_write(struct a6xx_gpu *a6xx_gpu, u32 reg, u32 value)
{
return msm_writel(value, a6xx_gpu->llc_mmio + (reg << 2));
}
static void a6xx_llc_deactivate(struct a6xx_gpu *a6xx_gpu)
{
llcc_slice_deactivate(a6xx_gpu->llc_slice);
llcc_slice_deactivate(a6xx_gpu->htw_llc_slice);
}
static void a6xx_llc_activate(struct a6xx_gpu *a6xx_gpu)
{
struct adreno_gpu *adreno_gpu = &a6xx_gpu->base;
struct msm_gpu *gpu = &adreno_gpu->base;
u32 cntl1_regval = 0;
if (IS_ERR(a6xx_gpu->llc_mmio))
return;
if (!llcc_slice_activate(a6xx_gpu->llc_slice)) {
u32 gpu_scid = llcc_get_slice_id(a6xx_gpu->llc_slice);
gpu_scid &= 0x1f;
cntl1_regval = (gpu_scid << 0) | (gpu_scid << 5) | (gpu_scid << 10) |
(gpu_scid << 15) | (gpu_scid << 20);
}
/*
* For targets with a MMU500, activate the slice but don't program the
* register. The XBL will take care of that.
*/
if (!llcc_slice_activate(a6xx_gpu->htw_llc_slice)) {
if (!a6xx_gpu->have_mmu500) {
u32 gpuhtw_scid = llcc_get_slice_id(a6xx_gpu->htw_llc_slice);
gpuhtw_scid &= 0x1f;
cntl1_regval |= FIELD_PREP(GENMASK(29, 25), gpuhtw_scid);
}
}
if (cntl1_regval) {
/*
* Program the slice IDs for the various GPU blocks and GPU MMU
* pagetables
*/
if (a6xx_gpu->have_mmu500)
gpu_rmw(gpu, REG_A6XX_GBIF_SCACHE_CNTL1, GENMASK(24, 0),
cntl1_regval);
else {
a6xx_llc_write(a6xx_gpu,
REG_A6XX_CX_MISC_SYSTEM_CACHE_CNTL_1, cntl1_regval);
/*
* Program cacheability overrides to not allocate cache
* lines on a write miss
*/
a6xx_llc_rmw(a6xx_gpu,
REG_A6XX_CX_MISC_SYSTEM_CACHE_CNTL_0, 0xF, 0x03);
}
}
}
static void a6xx_llc_slices_destroy(struct a6xx_gpu *a6xx_gpu)
{
llcc_slice_putd(a6xx_gpu->llc_slice);
llcc_slice_putd(a6xx_gpu->htw_llc_slice);
}
static void a6xx_llc_slices_init(struct platform_device *pdev,
struct a6xx_gpu *a6xx_gpu)
{
struct device_node *phandle;
/*
* There is a different programming path for targets with an mmu500
* attached, so detect if that is the case
*/
phandle = of_parse_phandle(pdev->dev.of_node, "iommus", 0);
a6xx_gpu->have_mmu500 = (phandle &&
of_device_is_compatible(phandle, "arm,mmu-500"));
of_node_put(phandle);
if (a6xx_gpu->have_mmu500)
a6xx_gpu->llc_mmio = NULL;
else
a6xx_gpu->llc_mmio = msm_ioremap(pdev, "cx_mem", "gpu_cx");
a6xx_gpu->llc_slice = llcc_slice_getd(LLCC_GPU);
a6xx_gpu->htw_llc_slice = llcc_slice_getd(LLCC_GPUHTW);
if (IS_ERR_OR_NULL(a6xx_gpu->llc_slice) && IS_ERR_OR_NULL(a6xx_gpu->htw_llc_slice))
a6xx_gpu->llc_mmio = ERR_PTR(-EINVAL);
}
static int a6xx_pm_resume(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
int ret;
gpu->needs_hw_init = true;
trace_msm_gpu_resume(0);
ret = a6xx_gmu_resume(a6xx_gpu);
if (ret)
return ret;
msm_gpu_resume_devfreq(gpu);
a6xx_llc_activate(a6xx_gpu);
return 0;
}
static int a6xx_pm_suspend(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
int i, ret;
trace_msm_gpu_suspend(0);
a6xx_llc_deactivate(a6xx_gpu);
devfreq_suspend_device(gpu->devfreq.devfreq);
ret = a6xx_gmu_stop(a6xx_gpu);
if (ret)
return ret;
if (a6xx_gpu->shadow_bo)
for (i = 0; i < gpu->nr_rings; i++)
a6xx_gpu->shadow[i] = 0;
return 0;
}
static int a6xx_get_timestamp(struct msm_gpu *gpu, uint64_t *value)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
static DEFINE_MUTEX(perfcounter_oob);
mutex_lock(&perfcounter_oob);
/* Force the GPU power on so we can read this register */
a6xx_gmu_set_oob(&a6xx_gpu->gmu, GMU_OOB_PERFCOUNTER_SET);
*value = gpu_read64(gpu, REG_A6XX_CP_ALWAYS_ON_COUNTER_LO,
REG_A6XX_CP_ALWAYS_ON_COUNTER_HI);
a6xx_gmu_clear_oob(&a6xx_gpu->gmu, GMU_OOB_PERFCOUNTER_SET);
mutex_unlock(&perfcounter_oob);
return 0;
}
static struct msm_ringbuffer *a6xx_active_ring(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
return a6xx_gpu->cur_ring;
}
static void a6xx_destroy(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
if (a6xx_gpu->sqe_bo) {
msm_gem_unpin_iova(a6xx_gpu->sqe_bo, gpu->aspace);
drm_gem_object_put(a6xx_gpu->sqe_bo);
}
if (a6xx_gpu->shadow_bo) {
msm_gem_unpin_iova(a6xx_gpu->shadow_bo, gpu->aspace);
drm_gem_object_put(a6xx_gpu->shadow_bo);
}
a6xx_llc_slices_destroy(a6xx_gpu);
a6xx_gmu_remove(a6xx_gpu);
adreno_gpu_cleanup(adreno_gpu);
if (a6xx_gpu->opp_table)
dev_pm_opp_put_supported_hw(a6xx_gpu->opp_table);
kfree(a6xx_gpu);
}
static unsigned long a6xx_gpu_busy(struct msm_gpu *gpu)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
u64 busy_cycles, busy_time;
/* Only read the gpu busy if the hardware is already active */
if (pm_runtime_get_if_in_use(a6xx_gpu->gmu.dev) == 0)
return 0;
busy_cycles = gmu_read64(&a6xx_gpu->gmu,
REG_A6XX_GMU_CX_GMU_POWER_COUNTER_XOCLK_0_L,
REG_A6XX_GMU_CX_GMU_POWER_COUNTER_XOCLK_0_H);
busy_time = (busy_cycles - gpu->devfreq.busy_cycles) * 10;
do_div(busy_time, 192);
gpu->devfreq.busy_cycles = busy_cycles;
pm_runtime_put(a6xx_gpu->gmu.dev);
if (WARN_ON(busy_time > ~0LU))
return ~0LU;
return (unsigned long)busy_time;
}
static struct msm_gem_address_space *
a6xx_create_address_space(struct msm_gpu *gpu, struct platform_device *pdev)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
struct iommu_domain *iommu;
struct msm_mmu *mmu;
struct msm_gem_address_space *aspace;
u64 start, size;
iommu = iommu_domain_alloc(&platform_bus_type);
if (!iommu)
return NULL;
/*
* This allows GPU to set the bus attributes required to use system
* cache on behalf of the iommu page table walker.
*/
if (!IS_ERR_OR_NULL(a6xx_gpu->htw_llc_slice))
adreno_set_llc_attributes(iommu);
mmu = msm_iommu_new(&pdev->dev, iommu);
if (IS_ERR(mmu)) {
iommu_domain_free(iommu);
return ERR_CAST(mmu);
}
/*
* Use the aperture start or SZ_16M, whichever is greater. This will
* ensure that we align with the allocated pagetable range while still
* allowing room in the lower 32 bits for GMEM and whatnot
*/
start = max_t(u64, SZ_16M, iommu->geometry.aperture_start);
size = iommu->geometry.aperture_end - start + 1;
aspace = msm_gem_address_space_create(mmu, "gpu",
start & GENMASK_ULL(48, 0), size);
if (IS_ERR(aspace) && !IS_ERR(mmu))
mmu->funcs->destroy(mmu);
return aspace;
}
static struct msm_gem_address_space *
a6xx_create_private_address_space(struct msm_gpu *gpu)
{
struct msm_mmu *mmu;
mmu = msm_iommu_pagetable_create(gpu->aspace->mmu);
if (IS_ERR(mmu))
return ERR_CAST(mmu);
return msm_gem_address_space_create(mmu,
"gpu", 0x100000000ULL, 0x1ffffffffULL);
}
static uint32_t a6xx_get_rptr(struct msm_gpu *gpu, struct msm_ringbuffer *ring)
{
struct adreno_gpu *adreno_gpu = to_adreno_gpu(gpu);
struct a6xx_gpu *a6xx_gpu = to_a6xx_gpu(adreno_gpu);
if (adreno_gpu->base.hw_apriv || a6xx_gpu->has_whereami)
return a6xx_gpu->shadow[ring->id];
return ring->memptrs->rptr = gpu_read(gpu, REG_A6XX_CP_RB_RPTR);
}
static u32 a618_get_speed_bin(u32 fuse)
{
if (fuse == 0)
return 0;
else if (fuse == 169)
return 1;
else if (fuse == 174)
return 2;
return UINT_MAX;
}
static u32 fuse_to_supp_hw(struct device *dev, u32 revn, u32 fuse)
{
u32 val = UINT_MAX;
if (revn == 618)
val = a618_get_speed_bin(fuse);
if (val == UINT_MAX) {
DRM_DEV_ERROR(dev,
"missing support for speed-bin: %u. Some OPPs may not be supported by hardware",
fuse);
return UINT_MAX;
}
return (1 << val);
}
static int a6xx_set_supported_hw(struct device *dev, struct a6xx_gpu *a6xx_gpu,
u32 revn)
{
struct opp_table *opp_table;
u32 supp_hw = UINT_MAX;
u16 speedbin;
int ret;
ret = nvmem_cell_read_u16(dev, "speed_bin", &speedbin);
/*
* -ENOENT means that the platform doesn't support speedbin which is
* fine
*/
if (ret == -ENOENT) {
return 0;
} else if (ret) {
DRM_DEV_ERROR(dev,
"failed to read speed-bin (%d). Some OPPs may not be supported by hardware",
ret);
goto done;
}
speedbin = le16_to_cpu(speedbin);
supp_hw = fuse_to_supp_hw(dev, revn, speedbin);
done:
opp_table = dev_pm_opp_set_supported_hw(dev, &supp_hw, 1);
if (IS_ERR(opp_table))
return PTR_ERR(opp_table);
a6xx_gpu->opp_table = opp_table;
return 0;
}
static const struct adreno_gpu_funcs funcs = {
.base = {
.get_param = adreno_get_param,
.hw_init = a6xx_hw_init,
.pm_suspend = a6xx_pm_suspend,
.pm_resume = a6xx_pm_resume,
.recover = a6xx_recover,
.submit = a6xx_submit,
.active_ring = a6xx_active_ring,
.irq = a6xx_irq,
.destroy = a6xx_destroy,
#if defined(CONFIG_DRM_MSM_GPU_STATE)
.show = a6xx_show,
#endif
.gpu_busy = a6xx_gpu_busy,
.gpu_get_freq = a6xx_gmu_get_freq,
.gpu_set_freq = a6xx_gmu_set_freq,
#if defined(CONFIG_DRM_MSM_GPU_STATE)
.gpu_state_get = a6xx_gpu_state_get,
.gpu_state_put = a6xx_gpu_state_put,
#endif
.create_address_space = a6xx_create_address_space,
.create_private_address_space = a6xx_create_private_address_space,
.get_rptr = a6xx_get_rptr,
},
.get_timestamp = a6xx_get_timestamp,
};
struct msm_gpu *a6xx_gpu_init(struct drm_device *dev)
{
struct msm_drm_private *priv = dev->dev_private;
struct platform_device *pdev = priv->gpu_pdev;
struct adreno_platform_config *config = pdev->dev.platform_data;
const struct adreno_info *info;
struct device_node *node;
struct a6xx_gpu *a6xx_gpu;
struct adreno_gpu *adreno_gpu;
struct msm_gpu *gpu;
int ret;
a6xx_gpu = kzalloc(sizeof(*a6xx_gpu), GFP_KERNEL);
if (!a6xx_gpu)
return ERR_PTR(-ENOMEM);
adreno_gpu = &a6xx_gpu->base;
gpu = &adreno_gpu->base;
adreno_gpu->registers = NULL;
/*
* We need to know the platform type before calling into adreno_gpu_init
* so that the hw_apriv flag can be correctly set. Snoop into the info
* and grab the revision number
*/
info = adreno_info(config->rev);
if (info && info->revn == 650)
adreno_gpu->base.hw_apriv = true;
a6xx_llc_slices_init(pdev, a6xx_gpu);
ret = a6xx_set_supported_hw(&pdev->dev, a6xx_gpu, info->revn);
if (ret) {
a6xx_destroy(&(a6xx_gpu->base.base));
return ERR_PTR(ret);
}
ret = adreno_gpu_init(dev, pdev, adreno_gpu, &funcs, 1);
if (ret) {
a6xx_destroy(&(a6xx_gpu->base.base));
return ERR_PTR(ret);
}
/* Check if there is a GMU phandle and set it up */
node = of_parse_phandle(pdev->dev.of_node, "qcom,gmu", 0);
/* FIXME: How do we gracefully handle this? */
BUG_ON(!node);
ret = a6xx_gmu_init(a6xx_gpu, node);
if (ret) {
a6xx_destroy(&(a6xx_gpu->base.base));
return ERR_PTR(ret);
}
if (gpu->aspace)
msm_mmu_set_fault_handler(gpu->aspace->mmu, gpu,
a6xx_fault_handler);
return gpu;
}
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