audk/ArmPlatformPkg/Drivers/PL301Axi/PL301Axi.c

109 lines
4.0 KiB
C

/** @file
*
* Copyright (c) 2011, ARM Limited. All rights reserved.
*
* This program and the accompanying materials
* are licensed and made available under the terms and conditions of the BSD License
* which accompanies this distribution. The full text of the license may be found at
* http://opensource.org/licenses/bsd-license.php
*
* THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
* WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
*
**/
#include <Library/IoLib.h>
#include <Library/DebugLib.h>
#define PL301_QOS_TIDEMARK_MI_0 0x400
#define PL301_QOS_ACCESSCONTROL_MI_0 0x404
#define PL301_QOS_TIDEMARK_MI_1 0x420
#define PL301_QOS_ACCESSCONTROL_MI_1 0x424
#define PL301_QOS_TIDEMARK_MI_2 0x440
#define PL301_QOS_ACCESSCONTROL_MI_2 0x444
#define PL301_AR_ARB_MI_0 0x408
#define PL301_AW_ARB_MI_0 0x40C
#define PL301_AR_ARB_MI_1 0x428
#define PL301_AW_ARB_MI_1 0x42C
#define PL301_AR_ARB_MI_2 0x448
#define PL301_AW_ARB_MI_2 0x44C
#define PL301_MI_1_OFFSET 0x20
#define PL301_MI_2_OFFSET 0x40
#define PL301_MI_3_OFFSET 0x60
#define PL301_MI_4_OFFSET 0x80
#define PL301_MI_5_OFFSET 0xa0
#define V2P_CA9_FAXI_MI0_TIDEMARK_VAL 0x6
#define V2P_CA9_FAXI_MI0_ACCESSCNTRL_VAL 0x1
#define V2P_CA9_FAXI_MI1_TIDEMARK_VAL 0x6
#define V2P_CA9_FAXI_MI1_ACCESSCNTRL_VAL 0x1
#define V2P_CA9_FAXI_MI2_TIDEMARK_VAL 0x6
#define V2P_CA9_FAXI_MI2_ACCESSCNTRL_VAL 0x1
#define FAxiWriteReg(reg,val) MmioWrite32(FAxiBase + reg, val)
#define FAxiReadReg(reg) MmioRead32(FAxiBase + reg)
// IN FAxiBase
// Initialize PL301 Dynamic Memory Controller
VOID PL301AxiInit(UINTN FAxiBase) {
// Configure Tidemark Register for Master Port 0 (MI 0)
FAxiWriteReg(PL301_QOS_TIDEMARK_MI_0, V2P_CA9_FAXI_MI0_TIDEMARK_VAL);
// Configure the Access Control Register (MI 0)
FAxiWriteReg(PL301_QOS_ACCESSCONTROL_MI_0, V2P_CA9_FAXI_MI0_ACCESSCNTRL_VAL);
// MP0
// Set priority for Read
FAxiWriteReg(PL301_AR_ARB_MI_0, 0x00000100);
FAxiWriteReg(PL301_AR_ARB_MI_0, 0x01000200);
FAxiWriteReg(PL301_AR_ARB_MI_0, 0x02000200);
FAxiWriteReg(PL301_AR_ARB_MI_0, 0x03000200);
FAxiWriteReg(PL301_AR_ARB_MI_0, 0x04000200);
// Set priority for Write
FAxiWriteReg(PL301_AW_ARB_MI_0, 0x00000100);
FAxiWriteReg(PL301_AW_ARB_MI_0, 0x01000200);
FAxiWriteReg(PL301_AW_ARB_MI_0, 0x02000200);
FAxiWriteReg(PL301_AW_ARB_MI_0, 0x03000200);
FAxiWriteReg(PL301_AW_ARB_MI_0, 0x04000200);
// MP1
// Set priority for Read
FAxiWriteReg(PL301_AR_ARB_MI_1, 0x00000100);
FAxiWriteReg(PL301_AR_ARB_MI_1, 0x01000200);
FAxiWriteReg(PL301_AR_ARB_MI_1, 0x02000200);
FAxiWriteReg(PL301_AR_ARB_MI_1, 0x03000200);
FAxiWriteReg(PL301_AR_ARB_MI_1, 0x04000200);
// Set priority for Write
FAxiWriteReg(PL301_AW_ARB_MI_1, 0x00000100);
FAxiWriteReg(PL301_AW_ARB_MI_1, 0x01000200);
FAxiWriteReg(PL301_AW_ARB_MI_1, 0x02000200);
FAxiWriteReg(PL301_AW_ARB_MI_1, 0x03000200);
FAxiWriteReg(PL301_AW_ARB_MI_1, 0x04000200);
// MP2
// Set priority for Read
FAxiWriteReg(PL301_AR_ARB_MI_2, 0x00000100);
FAxiWriteReg(PL301_AR_ARB_MI_2, 0x01000100);
FAxiWriteReg(PL301_AR_ARB_MI_2, 0x02000100);
FAxiWriteReg(PL301_AR_ARB_MI_2, 0x03000100);
FAxiWriteReg(PL301_AR_ARB_MI_2, 0x04000100);
// Set priority for Write
FAxiWriteReg(PL301_AW_ARB_MI_2, 0x00000100);
FAxiWriteReg(PL301_AW_ARB_MI_2, 0x01000200);
FAxiWriteReg(PL301_AW_ARB_MI_2, 0x02000200);
FAxiWriteReg(PL301_AW_ARB_MI_2, 0x03000200);
FAxiWriteReg(PL301_AW_ARB_MI_2, 0x04000200);
}