audk/ArmPlatformPkg/Drivers/PL34xDmc/PL341Dmc.c

228 lines
7.7 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 <Uefi.h>
#include <Library/IoLib.h>
#include <Library/DebugLib.h>
#include <Drivers/PL341Dmc.h>
// Macros for writing to DDR2 controller.
#define DmcWriteReg(reg,val) MmioWrite32(DmcBase + reg, val)
#define DmcReadReg(reg) MmioRead32(DmcBase + reg)
// Macros for writing/reading to DDR2 PHY controller
#define DmcPhyWriteReg(reg,val) MmioWrite32(DmcPhyBase + reg, val)
#define DmcPhyReadReg(reg) MmioRead32(DmcPhyBase + reg)
// Initialise PL341 Dynamic Memory Controller
VOID
PL341DmcInit (
IN UINTN DmcBase,
IN PL341_DMC_CONFIG* DmcConfig
)
{
UINTN Index;
UINT32 Chip;
// Set config mode
DmcWriteReg(DMC_COMMAND_REG, DMC_COMMAND_CONFIGURE);
//
// Setup the QoS AXI ID bits
//
if (DmcConfig->HasQos) {
// CLCD AXIID = 000
DmcWriteReg(DMC_ID_0_CFG_REG, DMC_ID_CFG_QOS_ENABLE | DMC_ID_CFG_QOS_MIN);
// Default disable QoS
DmcWriteReg(DMC_ID_1_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_2_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_3_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_4_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_5_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_6_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_7_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_8_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_9_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_10_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_11_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_12_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_13_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_14_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
DmcWriteReg(DMC_ID_15_CFG_REG, DMC_ID_CFG_QOS_DISABLE);
}
//
// Initialise memory controlller
//
DmcWriteReg(DMC_REFRESH_PRD_REG, DmcConfig->RefreshPeriod);
DmcWriteReg(DMC_CAS_LATENCY_REG, DmcConfig->CasLatency);
DmcWriteReg(DMC_WRITE_LATENCY_REG, DmcConfig->WriteLatency);
DmcWriteReg(DMC_T_MRD_REG, DmcConfig->t_mrd);
DmcWriteReg(DMC_T_RAS_REG, DmcConfig->t_ras);
DmcWriteReg(DMC_T_RC_REG, DmcConfig->t_rc);
DmcWriteReg(DMC_T_RCD_REG, DmcConfig->t_rcd);
DmcWriteReg(DMC_T_RFC_REG, DmcConfig->t_rfc);
DmcWriteReg(DMC_T_RP_REG, DmcConfig->t_rp);
DmcWriteReg(DMC_T_RRD_REG, DmcConfig->t_rrd);
DmcWriteReg(DMC_T_WR_REG, DmcConfig->t_wr);
DmcWriteReg(DMC_T_WTR_REG, DmcConfig->t_wtr);
DmcWriteReg(DMC_T_XP_REG, DmcConfig->t_xp);
DmcWriteReg(DMC_T_XSR_REG, DmcConfig->t_xsr);
DmcWriteReg(DMC_T_ESR_REG, DmcConfig->t_esr);
DmcWriteReg(DMC_T_FAW_REG, DmcConfig->t_faw);
DmcWriteReg(DMC_T_WRLAT_DIFF, DmcConfig->t_wdata_en);
DmcWriteReg(DMC_T_RDATA_EN, DmcConfig->t_data_en);
//
// Initialise PL341 Mem Config Registers
//
// Set PL341 Memory Config
DmcWriteReg(DMC_MEMORY_CONFIG_REG, DmcConfig->MemoryCfg);
// Set PL341 Memory Config 2
DmcWriteReg(DMC_MEMORY_CFG2_REG, DmcConfig->MemoryCfg2);
// Set PL341 Memory Config 3
DmcWriteReg(DMC_MEMORY_CFG3_REG, DmcConfig->MemoryCfg3);
// Set PL341 Chip Select <n>
DmcWriteReg(DMC_CHIP_0_CFG_REG, DmcConfig->ChipCfg0);
DmcWriteReg(DMC_CHIP_1_CFG_REG, DmcConfig->ChipCfg1);
DmcWriteReg(DMC_CHIP_2_CFG_REG, DmcConfig->ChipCfg2);
DmcWriteReg(DMC_CHIP_3_CFG_REG, DmcConfig->ChipCfg3);
// Delay
for (Index = 0; Index < 10; Index++) {
DmcReadReg(DMC_STATUS_REG);
}
if (DmcConfig->IsUserCfg) {
//
// Set Test Chip PHY Registers via PL341 User Config Reg
// Note that user_cfgX registers are Write Only
//
// DLL Freq set = 250MHz - 266MHz
//
DmcWriteReg(DMC_USER_0_CFG_REG, DmcConfig->User0Cfg);
// user_config2
// ------------
// Set defaults before calibrating the DDR2 buffer impendence
// - Disable ODT
// - Default drive strengths
DmcWriteReg(DMC_USER_2_CFG_REG, 0x40000198);
//
// Auto calibrate the DDR2 buffers impendence
//
while (!(DmcReadReg(DMC_USER_STATUS_REG) & 0x100));
// Set the output driven strength
DmcWriteReg(DMC_USER_2_CFG_REG, 0x40800000 | DmcConfig->User2Cfg);
//
// Set PL341 Feature Control Register
//
// Disable early BRESP - use to optimise CLCD performance
DmcWriteReg(DMC_FEATURE_CRTL_REG, 0x00000001);
}
//
// Config memories
//
for (Chip = 0; Chip < DmcConfig->MaxChip; Chip++) {
// Send nop
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | DMC_DIRECT_CMD_MEMCMD_NOP);
// Pre-charge all
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | DMC_DIRECT_CMD_MEMCMD_PRECHARGEALL);
// Delay
for (Index = 0; Index < 10; Index++) {
DmcReadReg(DMC_STATUS_REG);
}
// Set (EMR2) extended mode register 2
DmcWriteReg(DMC_DIRECT_CMD_REG,
DMC_DIRECT_CMD_CHIP_ADDR(Chip) |
DMC_DIRECT_CMD_BANKADDR(2) |
DMC_DIRECT_CMD_MEMCMD_EXTMODEREG);
// Set (EMR3) extended mode register 3
DmcWriteReg(DMC_DIRECT_CMD_REG,
DMC_DIRECT_CMD_CHIP_ADDR(Chip) |
DMC_DIRECT_CMD_BANKADDR(3) |
DMC_DIRECT_CMD_MEMCMD_EXTMODEREG);
//
// Set (EMR) Extended Mode Register
//
// Put into OCD default state
DmcWriteReg(DMC_DIRECT_CMD_REG,DMC_DIRECT_CMD_CHIP_ADDR(Chip) | DMC_DIRECT_CMD_BANKADDR(1) | DMC_DIRECT_CMD_MEMCMD_EXTMODEREG);
//
// Set (MR) mode register - With DLL reset
//
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | DMC_DIRECT_CMD_MEMCMD_EXTMODEREG | DmcConfig->ModeReg | DDR2_MR_DLL_RESET);
// Pre-charge all
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | DMC_DIRECT_CMD_MEMCMD_PRECHARGEALL);
// Auto-refresh
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | DMC_DIRECT_CMD_MEMCMD_AUTOREFRESH);
// Auto-refresh
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | DMC_DIRECT_CMD_MEMCMD_AUTOREFRESH);
//
// Set (MR) mode register - Without DLL reset
//
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | DMC_DIRECT_CMD_MEMCMD_EXTMODEREG | DmcConfig->ModeReg);
// Delay
for (Index = 0; Index < 10; Index++) {
DmcReadReg(DMC_STATUS_REG);
}
//
// Set (EMR) extended mode register - Enable OCD defaults
//
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | (0x00090000) |
(1 << DDR_MODESET_SHFT) | (DDR_EMR_OCD_DEFAULT << DDR_EMR_OCD_SHIFT) | DmcConfig->ExtModeReg);
// Delay
for (Index = 0; Index < 10; Index++) {
DmcReadReg(DMC_STATUS_REG);
}
// Set (EMR) extended mode register - OCD Exit
DmcWriteReg(DMC_DIRECT_CMD_REG, DMC_DIRECT_CMD_CHIP_ADDR(Chip) | (0x00090000) |
(1 << DDR_MODESET_SHFT) | (DDR_EMR_OCD_NS << DDR_EMR_OCD_SHIFT) | DmcConfig->ExtModeReg);
// Delay
for (Index = 0; Index < 10; Index++) {
DmcReadReg(DMC_STATUS_REG);
}
}
// Move DDR2 Controller to Ready state by issueing GO command
DmcWriteReg(DMC_COMMAND_REG, DMC_COMMAND_GO);
// wait for ready
while (!(DmcReadReg(DMC_STATUS_REG) & DMC_STATUS_READY));
}