/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (C) 2020-2024 Intel Corporation
*/
#ifndef __IVPU_HW_H__
#define __IVPU_HW_H__
#include <linux/kfifo.h>
#include "ivpu_drv.h"
#include "ivpu_hw_btrs.h"
#include "ivpu_hw_ip.h"
#define IVPU_HW_IRQ_FIFO_LENGTH 1024
#define IVPU_HW_IRQ_SRC_IPC 1
#define IVPU_HW_IRQ_SRC_MMU_EVTQ 2
#define IVPU_HW_IRQ_SRC_DCT 3
struct ivpu_addr_range {
resource_size_t start;
resource_size_t end;
};
struct ivpu_hw_info {
struct {
bool (*btrs_irq_handler)(struct ivpu_device *vdev, int irq);
bool (*ip_irq_handler)(struct ivpu_device *vdev, int irq);
DECLARE_KFIFO(fifo, u8, IVPU_HW_IRQ_FIFO_LENGTH);
} irq;
struct {
struct ivpu_addr_range global;
struct ivpu_addr_range user;
struct ivpu_addr_range shave;
struct ivpu_addr_range dma;
} ranges;
struct {
u8 min_ratio;
u8 max_ratio;
/*
* Pll ratio for the efficiency frequency. The VPU has optimum
* performance to power ratio at this frequency.
*/
u8 pn_ratio;
u32 profiling_freq;
} pll;
u32 tile_fuse;
u32 sched_mode;
u32 sku;
u16 config;
int dma_bits;
ktime_t d0i3_entry_host_ts;
u64 d0i3_entry_vpu_ts;
};
int ivpu_hw_init(struct ivpu_device *vdev);
int ivpu_hw_power_up(struct ivpu_device *vdev);
int ivpu_hw_power_down(struct ivpu_device *vdev);
int ivpu_hw_reset(struct ivpu_device *vdev);
int ivpu_hw_boot_fw(struct ivpu_device *vdev);
void ivpu_hw_profiling_freq_drive(struct ivpu_device *vdev, bool enable);
void ivpu_irq_handlers_init(struct ivpu_device *vdev);
void ivpu_hw_irq_enable(struct ivpu_device *vdev);
void ivpu_hw_irq_disable(struct ivpu_device *vdev);
irqreturn_t ivpu_hw_irq_handler(int irq, void *ptr);
static inline u32 ivpu_hw_btrs_irq_handler(struct ivpu_device *vdev, int irq)
{
return vdev->hw->irq.btrs_irq_handler(vdev, irq);
}
static inline u32 ivpu_hw_ip_irq_handler(struct ivpu_device *vdev, int irq)
{
return vdev->hw->irq.ip_irq_handler(vdev, irq);
}
static inline void ivpu_hw_range_init(struct ivpu_addr_range *range, u64 start, u64 size)
{
range->start = start;
range->end = start + size;
}
static inline u64 ivpu_hw_range_size(const struct ivpu_addr_range *range)
{
return range->end - range->start;
}
static inline u32 ivpu_hw_ratio_to_freq(struct ivpu_device *vdev, u32 ratio)
{
return ivpu_hw_btrs_ratio_to_freq(vdev, ratio);
}
static inline void ivpu_hw_irq_clear(struct ivpu_device *vdev)
{
ivpu_hw_ip_irq_clear(vdev);
}
static inline u32 ivpu_hw_pll_freq_get(struct ivpu_device *vdev)
{
return ivpu_hw_btrs_pll_freq_get(vdev);
}
static inline u32 ivpu_hw_profiling_freq_get(struct ivpu_device *vdev)
{
return vdev->hw->pll.profiling_freq;
}
static inline void ivpu_hw_diagnose_failure(struct ivpu_device *vdev)
{
ivpu_hw_ip_diagnose_failure(vdev);
ivpu_hw_btrs_diagnose_failure(vdev);
}
static inline u32 ivpu_hw_telemetry_offset_get(struct ivpu_device *vdev)
{
return ivpu_hw_btrs_telemetry_offset_get(vdev);
}
static inline u32 ivpu_hw_telemetry_size_get(struct ivpu_device *vdev)
{
return ivpu_hw_btrs_telemetry_size_get(vdev);
}
static inline u32 ivpu_hw_telemetry_enable_get(struct ivpu_device *vdev)
{
return ivpu_hw_btrs_telemetry_enable_get(vdev);
}
static inline bool ivpu_hw_is_idle(struct ivpu_device *vdev)
{
return ivpu_hw_btrs_is_idle(vdev);
}
static inline int ivpu_hw_wait_for_idle(struct ivpu_device *vdev)
{
return ivpu_hw_btrs_wait_for_idle(vdev);
}
static inline void ivpu_hw_ipc_tx_set(struct ivpu_device *vdev, u32 vpu_addr)
{
ivpu_hw_ip_ipc_tx_set(vdev, vpu_addr);
}
static inline void ivpu_hw_db_set(struct ivpu_device *vdev, u32 db_id)
{
ivpu_hw_ip_db_set(vdev, db_id);
}
static inline u32 ivpu_hw_ipc_rx_addr_get(struct ivpu_device *vdev)
{
return ivpu_hw_ip_ipc_rx_addr_get(vdev);
}
static inline u32 ivpu_hw_ipc_rx_count_get(struct ivpu_device *vdev)
{
return ivpu_hw_ip_ipc_rx_count_get(vdev);
}
#endif /* __IVPU_HW_H__ */
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