u-boot/arch/arm/cpu/armv7/ls102xa/fsl_epu.c

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// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright 2014 Freescale Semiconductor, Inc.
*/
#include <common.h>
#include <asm/io.h>
#include "fsl_epu.h"
struct fsm_reg_vals epu_default_val[] = {
/* EPGCR (Event Processor Global Control Register) */
{EPGCR, 0},
/* EPECR (Event Processor Event Control Registers) */
{EPECR0 + EPECR_STRIDE * 0, 0},
{EPECR0 + EPECR_STRIDE * 1, 0},
{EPECR0 + EPECR_STRIDE * 2, 0xF0004004},
{EPECR0 + EPECR_STRIDE * 3, 0x80000084},
{EPECR0 + EPECR_STRIDE * 4, 0x20000084},
{EPECR0 + EPECR_STRIDE * 5, 0x08000004},
{EPECR0 + EPECR_STRIDE * 6, 0x80000084},
{EPECR0 + EPECR_STRIDE * 7, 0x80000084},
{EPECR0 + EPECR_STRIDE * 8, 0x60000084},
{EPECR0 + EPECR_STRIDE * 9, 0x08000084},
{EPECR0 + EPECR_STRIDE * 10, 0x42000084},
{EPECR0 + EPECR_STRIDE * 11, 0x90000084},
{EPECR0 + EPECR_STRIDE * 12, 0x80000084},
{EPECR0 + EPECR_STRIDE * 13, 0x08000084},
{EPECR0 + EPECR_STRIDE * 14, 0x02000084},
{EPECR0 + EPECR_STRIDE * 15, 0x00000004},
/*
* EPEVTCR (Event Processor EVT Pin Control Registers)
* SCU8 triger EVT2, and SCU11 triger EVT9
*/
{EPEVTCR0 + EPEVTCR_STRIDE * 0, 0},
{EPEVTCR0 + EPEVTCR_STRIDE * 1, 0},
{EPEVTCR0 + EPEVTCR_STRIDE * 2, 0x80000001},
{EPEVTCR0 + EPEVTCR_STRIDE * 3, 0},
{EPEVTCR0 + EPEVTCR_STRIDE * 4, 0},
{EPEVTCR0 + EPEVTCR_STRIDE * 5, 0},
{EPEVTCR0 + EPEVTCR_STRIDE * 6, 0},
{EPEVTCR0 + EPEVTCR_STRIDE * 7, 0},
{EPEVTCR0 + EPEVTCR_STRIDE * 8, 0},
{EPEVTCR0 + EPEVTCR_STRIDE * 9, 0xB0000001},
/* EPCMPR (Event Processor Counter Compare Registers) */
{EPCMPR0 + EPCMPR_STRIDE * 0, 0},
{EPCMPR0 + EPCMPR_STRIDE * 1, 0},
{EPCMPR0 + EPCMPR_STRIDE * 2, 0x000000FF},
{EPCMPR0 + EPCMPR_STRIDE * 3, 0},
{EPCMPR0 + EPCMPR_STRIDE * 4, 0x000000FF},
{EPCMPR0 + EPCMPR_STRIDE * 5, 0x00000020},
{EPCMPR0 + EPCMPR_STRIDE * 6, 0},
{EPCMPR0 + EPCMPR_STRIDE * 7, 0},
{EPCMPR0 + EPCMPR_STRIDE * 8, 0x000000FF},
{EPCMPR0 + EPCMPR_STRIDE * 9, 0x000000FF},
{EPCMPR0 + EPCMPR_STRIDE * 10, 0x000000FF},
{EPCMPR0 + EPCMPR_STRIDE * 11, 0x000000FF},
{EPCMPR0 + EPCMPR_STRIDE * 12, 0x000000FF},
{EPCMPR0 + EPCMPR_STRIDE * 13, 0},
{EPCMPR0 + EPCMPR_STRIDE * 14, 0x000000FF},
{EPCMPR0 + EPCMPR_STRIDE * 15, 0x000000FF},
/* EPCCR (Event Processor Counter Control Registers) */
{EPCCR0 + EPCCR_STRIDE * 0, 0},
{EPCCR0 + EPCCR_STRIDE * 1, 0},
{EPCCR0 + EPCCR_STRIDE * 2, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 3, 0},
{EPCCR0 + EPCCR_STRIDE * 4, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 5, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 6, 0},
{EPCCR0 + EPCCR_STRIDE * 7, 0},
{EPCCR0 + EPCCR_STRIDE * 8, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 9, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 10, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 11, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 12, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 13, 0},
{EPCCR0 + EPCCR_STRIDE * 14, 0x92840000},
{EPCCR0 + EPCCR_STRIDE * 15, 0x92840000},
/* EPSMCR (Event Processor SCU Mux Control Registers) */
{EPSMCR0 + EPSMCR_STRIDE * 0, 0},
{EPSMCR0 + EPSMCR_STRIDE * 1, 0},
{EPSMCR0 + EPSMCR_STRIDE * 2, 0x6C700000},
{EPSMCR0 + EPSMCR_STRIDE * 3, 0x2F000000},
{EPSMCR0 + EPSMCR_STRIDE * 4, 0x002F0000},
{EPSMCR0 + EPSMCR_STRIDE * 5, 0x00002E00},
{EPSMCR0 + EPSMCR_STRIDE * 6, 0x7C000000},
{EPSMCR0 + EPSMCR_STRIDE * 7, 0x30000000},
{EPSMCR0 + EPSMCR_STRIDE * 8, 0x64300000},
{EPSMCR0 + EPSMCR_STRIDE * 9, 0x00003000},
{EPSMCR0 + EPSMCR_STRIDE * 10, 0x65000030},
{EPSMCR0 + EPSMCR_STRIDE * 11, 0x31740000},
{EPSMCR0 + EPSMCR_STRIDE * 12, 0x7F000000},
{EPSMCR0 + EPSMCR_STRIDE * 13, 0x00003100},
{EPSMCR0 + EPSMCR_STRIDE * 14, 0x00000031},
{EPSMCR0 + EPSMCR_STRIDE * 15, 0x76000000},
/* EPACR (Event Processor Action Control Registers) */
{EPACR0 + EPACR_STRIDE * 0, 0},
{EPACR0 + EPACR_STRIDE * 1, 0},
{EPACR0 + EPACR_STRIDE * 2, 0},
{EPACR0 + EPACR_STRIDE * 3, 0x00000080},
{EPACR0 + EPACR_STRIDE * 4, 0},
{EPACR0 + EPACR_STRIDE * 5, 0x00000040},
{EPACR0 + EPACR_STRIDE * 6, 0},
{EPACR0 + EPACR_STRIDE * 7, 0},
{EPACR0 + EPACR_STRIDE * 8, 0},
{EPACR0 + EPACR_STRIDE * 9, 0x0000001C},
{EPACR0 + EPACR_STRIDE * 10, 0x00000020},
{EPACR0 + EPACR_STRIDE * 11, 0},
{EPACR0 + EPACR_STRIDE * 12, 0x00000003},
{EPACR0 + EPACR_STRIDE * 13, 0x06000000},
{EPACR0 + EPACR_STRIDE * 14, 0x04000000},
{EPACR0 + EPACR_STRIDE * 15, 0x02000000},
/* EPIMCR (Event Processor Input Mux Control Registers) */
{EPIMCR0 + EPIMCR_STRIDE * 0, 0},
{EPIMCR0 + EPIMCR_STRIDE * 1, 0},
{EPIMCR0 + EPIMCR_STRIDE * 2, 0},
{EPIMCR0 + EPIMCR_STRIDE * 3, 0},
{EPIMCR0 + EPIMCR_STRIDE * 4, 0x44000000},
{EPIMCR0 + EPIMCR_STRIDE * 5, 0x40000000},
{EPIMCR0 + EPIMCR_STRIDE * 6, 0},
{EPIMCR0 + EPIMCR_STRIDE * 7, 0},
{EPIMCR0 + EPIMCR_STRIDE * 8, 0},
{EPIMCR0 + EPIMCR_STRIDE * 9, 0},
{EPIMCR0 + EPIMCR_STRIDE * 10, 0},
{EPIMCR0 + EPIMCR_STRIDE * 11, 0},
{EPIMCR0 + EPIMCR_STRIDE * 12, 0x44000000},
{EPIMCR0 + EPIMCR_STRIDE * 13, 0},
{EPIMCR0 + EPIMCR_STRIDE * 14, 0},
{EPIMCR0 + EPIMCR_STRIDE * 15, 0},
{EPIMCR0 + EPIMCR_STRIDE * 16, 0x6A000000},
{EPIMCR0 + EPIMCR_STRIDE * 17, 0},
{EPIMCR0 + EPIMCR_STRIDE * 18, 0},
{EPIMCR0 + EPIMCR_STRIDE * 19, 0},
{EPIMCR0 + EPIMCR_STRIDE * 20, 0x48000000},
{EPIMCR0 + EPIMCR_STRIDE * 21, 0},
{EPIMCR0 + EPIMCR_STRIDE * 22, 0x6C000000},
{EPIMCR0 + EPIMCR_STRIDE * 23, 0},
{EPIMCR0 + EPIMCR_STRIDE * 24, 0},
{EPIMCR0 + EPIMCR_STRIDE * 25, 0},
{EPIMCR0 + EPIMCR_STRIDE * 26, 0},
{EPIMCR0 + EPIMCR_STRIDE * 27, 0},
{EPIMCR0 + EPIMCR_STRIDE * 28, 0x76000000},
{EPIMCR0 + EPIMCR_STRIDE * 29, 0},
{EPIMCR0 + EPIMCR_STRIDE * 30, 0},
{EPIMCR0 + EPIMCR_STRIDE * 31, 0x76000000},
/* EPXTRIGCR (Event Processor Crosstrigger Control Register) */
{EPXTRIGCR, 0x0000FFDF},
/* end */
{FSM_END_FLAG, 0},
};
/**
* fsl_epu_setup - Setup EPU registers to default values
*/
void fsl_epu_setup(void *epu_base)
{
struct fsm_reg_vals *data = epu_default_val;
if (!epu_base || !data)
return;
while (data->offset != FSM_END_FLAG) {
out_be32(epu_base + data->offset, data->value);
data++;
}
}
/**
* fsl_epu_clean - Clear EPU registers
*/
void fsl_epu_clean(void *epu_base)
{
u32 offset;
/* follow the exact sequence to clear the registers */
/* Clear EPACRn */
for (offset = EPACR0; offset <= EPACR15; offset += EPACR_STRIDE)
out_be32(epu_base + offset, 0);
/* Clear EPEVTCRn */
for (offset = EPEVTCR0; offset <= EPEVTCR9; offset += EPEVTCR_STRIDE)
out_be32(epu_base + offset, 0);
/* Clear EPGCR */
out_be32(epu_base + EPGCR, 0);
/* Clear EPSMCRn */
for (offset = EPSMCR0; offset <= EPSMCR15; offset += EPSMCR_STRIDE)
out_be32(epu_base + offset, 0);
/* Clear EPCCRn */
for (offset = EPCCR0; offset <= EPCCR31; offset += EPCCR_STRIDE)
out_be32(epu_base + offset, 0);
/* Clear EPCMPRn */
for (offset = EPCMPR0; offset <= EPCMPR31; offset += EPCMPR_STRIDE)
out_be32(epu_base + offset, 0);
/* Clear EPCTRn */
for (offset = EPCTR0; offset <= EPCTR31; offset += EPCTR_STRIDE)
out_be32(epu_base + offset, 0);
/* Clear EPIMCRn */
for (offset = EPIMCR0; offset <= EPIMCR31; offset += EPIMCR_STRIDE)
out_be32(epu_base + offset, 0);
/* Clear EPXTRIGCRn */
out_be32(epu_base + EPXTRIGCR, 0);
/* Clear EPECRn */
for (offset = EPECR0; offset <= EPECR15; offset += EPECR_STRIDE)
out_be32(epu_base + offset, 0);
}