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/* SPDX-License-Identifier: GPL-2.0 */
/* Copyright (c) 2017 The Linux Foundation. All rights reserved. */
#ifndef _A6XX_GMU_H_
#define _A6XX_GMU_H_
#include <linux/iopoll.h>
#include <linux/interrupt.h>
#include "msm_drv.h"
#include "a6xx_hfi.h"
struct a6xx_gmu_bo {
void *virt;
size_t size;
u64 iova;
struct page **pages;
};
/*
* These define the different GMU wake up options - these define how both the
* CPU and the GMU bring up the hardware
*/
/* THe GMU has already been booted and the rentention registers are active */
#define GMU_WARM_BOOT 0
/* the GMU is coming up for the first time or back from a power collapse */
#define GMU_COLD_BOOT 1
/*
* These define the level of control that the GMU has - the higher the number
* the more things that the GMU hardware controls on its own.
*/
/* The GMU does not do any idle state management */
#define GMU_IDLE_STATE_ACTIVE 0
/* The GMU manages SPTP power collapse */
#define GMU_IDLE_STATE_SPTP 2
/* The GMU does automatic IFPC (intra-frame power collapse) */
#define GMU_IDLE_STATE_IFPC 3
struct a6xx_gmu {
struct device *dev;
void * __iomem mmio;
int hfi_irq;
int gmu_irq;
struct iommu_domain *domain;
u64 uncached_iova_base;
struct device *gxpd;
int idle_level;
struct a6xx_gmu_bo *hfi;
struct a6xx_gmu_bo *debug;
int nr_clocks;
struct clk_bulk_data *clocks;
struct clk *core_clk;
int nr_gpu_freqs;
unsigned long gpu_freqs[16];
u32 gx_arc_votes[16];
int nr_gmu_freqs;
unsigned long gmu_freqs[4];
u32 cx_arc_votes[4];
unsigned long freq;
struct a6xx_hfi_queue queues[2];
bool hung;
};
static inline u32 gmu_read(struct a6xx_gmu *gmu, u32 offset)
{
return msm_readl(gmu->mmio + (offset << 2));
}
static inline void gmu_write(struct a6xx_gmu *gmu, u32 offset, u32 value)
{
return msm_writel(value, gmu->mmio + (offset << 2));
}
static inline void gmu_rmw(struct a6xx_gmu *gmu, u32 reg, u32 mask, u32 or)
{
u32 val = gmu_read(gmu, reg);
val &= ~mask;
gmu_write(gmu, reg, val | or);
}
static inline u64 gmu_read64(struct a6xx_gmu *gmu, u32 lo, u32 hi)
{
u64 val;
val = (u64) msm_readl(gmu->mmio + (lo << 2));
val |= ((u64) msm_readl(gmu->mmio + (hi << 2)) << 32);
return val;
}
#define gmu_poll_timeout(gmu, addr, val, cond, interval, timeout) \
readl_poll_timeout((gmu)->mmio + ((addr) << 2), val, cond, \
interval, timeout)
/*
* These are the available OOB (out of band requests) to the GMU where "out of
* band" means that the CPU talks to the GMU directly and not through HFI.
* Normally this works by writing a ITCM/DTCM register and then triggering a
* interrupt (the "request" bit) and waiting for an acknowledgment (the "ack"
* bit). The state is cleared by writing the "clear' bit to the GMU interrupt.
*
* These are used to force the GMU/GPU to stay on during a critical sequence or
* for hardware workarounds.
*/
enum a6xx_gmu_oob_state {
GMU_OOB_BOOT_SLUMBER = 0,
GMU_OOB_GPU_SET,
GMU_OOB_DCVS_SET,
};
/* These are the interrupt / ack bits for each OOB request that are set
* in a6xx_gmu_set_oob and a6xx_clear_oob
*/
/*
* Let the GMU know that a boot or slumber operation has started. The value in
* REG_A6XX_GMU_BOOT_SLUMBER_OPTION lets the GMU know which operation we are
* doing
*/
#define GMU_OOB_BOOT_SLUMBER_REQUEST 22
#define GMU_OOB_BOOT_SLUMBER_ACK 30
#define GMU_OOB_BOOT_SLUMBER_CLEAR 30
/*
* Set a new power level for the GPU when the CPU is doing frequency scaling
*/
#define GMU_OOB_DCVS_REQUEST 23
#define GMU_OOB_DCVS_ACK 31
#define GMU_OOB_DCVS_CLEAR 31
/*
* Let the GMU know to not turn off any GPU registers while the CPU is in a
* critical section
*/
#define GMU_OOB_GPU_SET_REQUEST 16
#define GMU_OOB_GPU_SET_ACK 24
#define GMU_OOB_GPU_SET_CLEAR 24
void a6xx_hfi_init(struct a6xx_gmu *gmu);
int a6xx_hfi_start(struct a6xx_gmu *gmu, int boot_state);
void a6xx_hfi_stop(struct a6xx_gmu *gmu);
bool a6xx_gmu_gx_is_on(struct a6xx_gmu *gmu);
bool a6xx_gmu_sptprac_is_on(struct a6xx_gmu *gmu);
#endif
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