upstream u-boot with additional patches for our devices/boards: https://lists.denx.de/pipermail/u-boot/2017-March/282789.html (AXP crashes) ; Gbit ethernet patch for some LIME2 revisions ; with SPI flash support
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u-boot/board/amcc/redwood/redwood.c

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/*
* This is the main board level file for the Redwood AMCC board.
*
* (C) Copyright 2008
* Feng Kan, Applied Micro Circuits Corp., fkan@amcc.com
*
* See file CREDITS for list of people who contributed to this
* project.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*
*/
#include <common.h>
#include "redwood.h"
#include <asm/ppc4xx.h>
#include <asm/processor.h>
#include <i2c.h>
#include <asm/io.h>
int compare_to_true(char *str);
char *remove_l_w_space(char *in_str);
char *remove_t_w_space(char *in_str);
int get_console_port(void);
static void early_init_EBC(void);
static int bootdevice_selected(void);
static void early_reinit_EBC(int);
static void early_init_UIC(void);
/*
* Define Boot devices
*/
#define BOOT_FROM_8BIT_SRAM 0x00
#define BOOT_FROM_16BIT_SRAM 0x01
#define BOOT_FROM_32BIT_SRAM 0x02
#define BOOT_FROM_8BIT_NAND 0x03
#define BOOT_FROM_16BIT_NOR 0x04
#define BOOT_DEVICE_UNKNOWN 0xff
/*
* EBC Devices Characteristics
* Peripheral Bank Access Parameters - EBC_BxAP
* Peripheral Bank Configuration Register - EBC_BxCR
*/
/*
* 8 bit width SRAM
* BU Value
* BxAP : 0x03800000 - 0 00000111 0 00 00 00 00 00 000 0 0 0 0 00000
* B0CR : 0xff098000 - BAS = ff0 - 100 11 00 0000000000000
* B2CR : 0xe7098000 - BAS = e70 - 100 11 00 0000000000000
*/
#define EBC_BXAP_8BIT_SRAM \
EBC_BXAP_BME_DISABLED | EBC_BXAP_TWT_ENCODE(7) | \
EBC_BXAP_BCE_DISABLE | EBC_BXAP_BCT_2TRANS | \
EBC_BXAP_CSN_ENCODE(0) | EBC_BXAP_OEN_ENCODE(0) | \
EBC_BXAP_WBN_ENCODE(0) | EBC_BXAP_WBF_ENCODE(0) | \
EBC_BXAP_TH_ENCODE(0) | EBC_BXAP_RE_DISABLED | \
EBC_BXAP_SOR_DELAYED | EBC_BXAP_BEM_WRITEONLY | \
EBC_BXAP_PEN_DISABLED
#define EBC_BXAP_16BIT_SRAM EBC_BXAP_8BIT_SRAM
#define EBC_BXAP_32BIT_SRAM EBC_BXAP_8BIT_SRAM
/*
* NAND flash
* BU Value
* BxAP : 0x048ff240 - 0 00000111 0 00 00 00 00 00 000 0 0 0 0 00000
* B0CR : 0xff09a000 - BAS = ff0 - 100 11 01 0000000000000
* B2CR : 0xe709a000 - BAS = e70 - 100 11 01 0000000000000
*/
#define EBC_BXAP_NAND \
EBC_BXAP_BME_DISABLED | EBC_BXAP_TWT_ENCODE(7) | \
EBC_BXAP_BCE_DISABLE | EBC_BXAP_BCT_2TRANS | \
EBC_BXAP_CSN_ENCODE(0) | EBC_BXAP_OEN_ENCODE(0) | \
EBC_BXAP_WBN_ENCODE(0) | EBC_BXAP_WBF_ENCODE(0) | \
EBC_BXAP_TH_ENCODE(0) | EBC_BXAP_RE_DISABLED | \
EBC_BXAP_SOR_DELAYED | EBC_BXAP_BEM_WRITEONLY | \
EBC_BXAP_PEN_DISABLED
/*
* NOR flash
* BU Value
* BxAP : 0x048ff240 - 0 00000111 0 00 00 00 00 00 000 0 0 0 0 00000
* B0CR : 0xff09a000 - BAS = ff0 - 100 11 01 0000000000000
* B2CR : 0xe709a000 - BAS = e70 - 100 11 01 0000000000000
*/
#define EBC_BXAP_NOR \
EBC_BXAP_BME_DISABLED | EBC_BXAP_TWT_ENCODE(7) | \
EBC_BXAP_BCE_DISABLE | EBC_BXAP_BCT_2TRANS | \
EBC_BXAP_CSN_ENCODE(0) | EBC_BXAP_OEN_ENCODE(0) | \
EBC_BXAP_WBN_ENCODE(0) | EBC_BXAP_WBF_ENCODE(0) | \
EBC_BXAP_TH_ENCODE(0) | EBC_BXAP_RE_DISABLED | \
EBC_BXAP_SOR_DELAYED | EBC_BXAP_BEM_WRITEONLY | \
EBC_BXAP_PEN_DISABLED
/*
* FPGA
* BU value :
* B1AP = 0x05895240 - 0 00001011 0 00 10 01 01 01 001 0 0 1 0 00000
* B1CR = 0xe201a000 - BAS = e20 - 000 11 01 00000000000000
*/
#define EBC_BXAP_FPGA \
EBC_BXAP_BME_DISABLED | EBC_BXAP_TWT_ENCODE(11) | \
EBC_BXAP_BCE_DISABLE | EBC_BXAP_BCT_2TRANS | \
EBC_BXAP_CSN_ENCODE(10) | EBC_BXAP_OEN_ENCODE(1) | \
EBC_BXAP_WBN_ENCODE(1) | EBC_BXAP_WBF_ENCODE(1) | \
EBC_BXAP_TH_ENCODE(1) | EBC_BXAP_RE_DISABLED | \
EBC_BXAP_SOR_DELAYED | EBC_BXAP_BEM_RW | \
EBC_BXAP_PEN_DISABLED
#define EBC_BXCR_8BIT_SRAM_CS0 \
EBC_BXCR_BAS_ENCODE(0xFFE00000) | EBC_BXCR_BS_1MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_8BIT
#define EBC_BXCR_32BIT_SRAM_CS0 \
EBC_BXCR_BAS_ENCODE(0xFFC00000) | EBC_BXCR_BS_1MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_32BIT
#define EBC_BXCR_NAND_CS0 \
EBC_BXCR_BAS_ENCODE(0xFF000000) | EBC_BXCR_BS_16MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_8BIT
#define EBC_BXCR_16BIT_SRAM_CS0 \
EBC_BXCR_BAS_ENCODE(0xFFE00000) | EBC_BXCR_BS_2MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_16BIT
#define EBC_BXCR_NOR_CS0 \
EBC_BXCR_BAS_ENCODE(0xFF000000) | EBC_BXCR_BS_16MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_16BIT
#define EBC_BXCR_NOR_CS1 \
EBC_BXCR_BAS_ENCODE(0xE0000000) | EBC_BXCR_BS_128MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_16BIT
#define EBC_BXCR_NAND_CS1 \
EBC_BXCR_BAS_ENCODE(0xE0000000) | EBC_BXCR_BS_128MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_8BIT
#define EBC_BXCR_NAND_CS2 \
EBC_BXCR_BAS_ENCODE(0xC0000000) | EBC_BXCR_BS_128MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_8BIT
#define EBC_BXCR_SRAM_CS2 \
EBC_BXCR_BAS_ENCODE(0xC0000000) | EBC_BXCR_BS_4MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_32BIT
#define EBC_BXCR_LARGE_FLASH_CS2 \
EBC_BXCR_BAS_ENCODE(0xE7000000) | EBC_BXCR_BS_16MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_16BIT
#define EBC_BXCR_FPGA_CS3 \
EBC_BXCR_BAS_ENCODE(0xE2000000) | EBC_BXCR_BS_1MB | \
EBC_BXCR_BU_RW | EBC_BXCR_BW_16BIT
/*****************************************************************************
* UBOOT initiated board specific function calls
****************************************************************************/
int board_early_init_f(void)
{
int computed_boot_device = BOOT_DEVICE_UNKNOWN;
/*
* Initialise EBC
*/
early_init_EBC();
/*
* Determine which boot device was selected
*/
computed_boot_device = bootdevice_selected();
/*
* Reinit EBC based on selected boot device
*/
early_reinit_EBC(computed_boot_device);
/*
* Setup for UIC on 460SX redwood board
*/
early_init_UIC();
return 0;
}
int checkboard(void)
{
char *s = getenv("serial#");
printf("Board: Redwood - AMCC 460SX Reference Board");
if (s != NULL) {
puts(", serial# ");
puts(s);
}
putc('\n');
return 0;
}
static void early_init_EBC(void)
{
/*
* Initialize EBC CONFIG -
* Keep the Default value, but the bit PDT which has to be set to 1 ?TBC
* default value :
* 0x07C00000 - 0 0 000 1 1 1 1 1 0000 0 00000 000000000000
*/
mtebc(EBC0_CFG, EBC_CFG_LE_UNLOCK |
EBC_CFG_PTD_ENABLE |
EBC_CFG_RTC_16PERCLK |
EBC_CFG_ATC_PREVIOUS |
EBC_CFG_DTC_PREVIOUS |
EBC_CFG_CTC_PREVIOUS |
EBC_CFG_OEO_PREVIOUS |
EBC_CFG_EMC_DEFAULT | EBC_CFG_PME_DISABLE | EBC_CFG_PR_16);
/*
* PART 1 : Initialize EBC Bank 3
* ==============================
* Bank1 is always associated to the EPLD.
* It has to be initialized prior to other banks settings computation
* since some board registers values may be needed to determine the
* boot type
*/
mtebc(PB1AP, EBC_BXAP_FPGA);
mtebc(PB1CR, EBC_BXCR_FPGA_CS3);
}
static int bootdevice_selected(void)
{
unsigned long sdr0_pinstp;
unsigned long bootstrap_settings;
int computed_boot_device = BOOT_DEVICE_UNKNOWN;
/*
* Determine which boot device was selected
* =================================================
*
* Read Pin Strap Register in PPC460SX
* Result can either be :
* - Boot strap = boot from EBC 8bits => Small Flash
* - Boot strap = boot from PCI
* - Boot strap = IIC
* In case of boot from IIC, read Serial Device Strap Register1
*
* Result can either be :
* - Boot from EBC - EBC Bus Width = 8bits => Small Flash
* - Boot from EBC - EBC Bus Width = 16bits => Large Flash or SRAM
* - Boot from PCI
*/
/* Read Pin Strap Register in PPC460SX */
mfsdr(SDR0_PINSTP, sdr0_pinstp);
bootstrap_settings = sdr0_pinstp & SDR0_PSTRP0_BOOTSTRAP_MASK;
switch (bootstrap_settings) {
case SDR0_PSTRP0_BOOTSTRAP_SETTINGS0:
/*
* Boot from SRAM, 8bit width
*/
computed_boot_device = BOOT_FROM_8BIT_SRAM;
break;
case SDR0_PSTRP0_BOOTSTRAP_SETTINGS1:
/*
* Boot from SRAM, 32bit width
*/
computed_boot_device = BOOT_FROM_32BIT_SRAM;
break;
case SDR0_PSTRP0_BOOTSTRAP_SETTINGS2:
/*
* Boot from NAND, 8bit width
*/
computed_boot_device = BOOT_FROM_8BIT_NAND;
break;
case SDR0_PSTRP0_BOOTSTRAP_SETTINGS4:
/*
* Boot from SRAM, 16bit width
* Boot setting in IIC EEPROM 0x50
*/
computed_boot_device = BOOT_FROM_16BIT_SRAM;
break;
case SDR0_PSTRP0_BOOTSTRAP_SETTINGS5:
/*
* Boot from NOR, 16bit width
* Boot setting in IIC EEPROM 0x54
*/
computed_boot_device = BOOT_FROM_16BIT_NOR;
break;
default:
/* should not be */
computed_boot_device = BOOT_DEVICE_UNKNOWN;
break;
}
return computed_boot_device;
}
static void early_reinit_EBC(int computed_boot_device)
{
/*
* Compute EBC settings depending on selected boot device
* ======================================================
*
* Resulting EBC init will be among following configurations :
*
* - Boot from EBC 8bits => boot from Small Flash selected
* EBC-CS0 = Small Flash
* EBC-CS2 = Large Flash and SRAM
*
* - Boot from EBC 16bits => boot from Large Flash or SRAM
* EBC-CS0 = Large Flash or SRAM
* EBC-CS2 = Small Flash
*
* - Boot from PCI
* EBC-CS0 = not initialized to avoid address contention
* EBC-CS2 = same as boot from Small Flash selected
*/
unsigned long ebc0_cs0_bxap_value = 0, ebc0_cs0_bxcr_value = 0;
unsigned long ebc0_cs1_bxap_value = 0, ebc0_cs1_bxcr_value = 0;
unsigned long ebc0_cs2_bxap_value = 0, ebc0_cs2_bxcr_value = 0;
switch (computed_boot_device) {
/*-------------------------------------------------------------------*/
case BOOT_FROM_8BIT_SRAM:
/*-------------------------------------------------------------------*/
ebc0_cs0_bxap_value = EBC_BXAP_8BIT_SRAM;
ebc0_cs0_bxcr_value = EBC_BXCR_8BIT_SRAM_CS0;
ebc0_cs1_bxap_value = EBC_BXAP_NOR;
ebc0_cs1_bxcr_value = EBC_BXCR_NOR_CS1;
ebc0_cs2_bxap_value = EBC_BXAP_NAND;
ebc0_cs2_bxcr_value = EBC_BXCR_NAND_CS2;
break;
/*-------------------------------------------------------------------*/
case BOOT_FROM_16BIT_SRAM:
/*-------------------------------------------------------------------*/
ebc0_cs0_bxap_value = EBC_BXAP_16BIT_SRAM;
ebc0_cs0_bxcr_value = EBC_BXCR_16BIT_SRAM_CS0;
ebc0_cs1_bxap_value = EBC_BXAP_NOR;
ebc0_cs1_bxcr_value = EBC_BXCR_NOR_CS1;
ebc0_cs2_bxap_value = EBC_BXAP_NAND;
ebc0_cs2_bxcr_value = EBC_BXCR_NAND_CS2;
break;
/*-------------------------------------------------------------------*/
case BOOT_FROM_32BIT_SRAM:
/*-------------------------------------------------------------------*/
ebc0_cs0_bxap_value = EBC_BXAP_32BIT_SRAM;
ebc0_cs0_bxcr_value = EBC_BXCR_32BIT_SRAM_CS0;
ebc0_cs1_bxap_value = EBC_BXAP_NOR;
ebc0_cs1_bxcr_value = EBC_BXCR_NOR_CS1;
ebc0_cs2_bxap_value = EBC_BXAP_NAND;
ebc0_cs2_bxcr_value = EBC_BXCR_NAND_CS2;
break;
/*-------------------------------------------------------------------*/
case BOOT_FROM_16BIT_NOR:
/*-------------------------------------------------------------------*/
ebc0_cs0_bxap_value = EBC_BXAP_NOR;
ebc0_cs0_bxcr_value = EBC_BXCR_NOR_CS0;
ebc0_cs1_bxap_value = EBC_BXAP_NAND;
ebc0_cs1_bxcr_value = EBC_BXCR_NAND_CS1;
ebc0_cs2_bxap_value = EBC_BXAP_32BIT_SRAM;
ebc0_cs2_bxcr_value = EBC_BXCR_SRAM_CS2;
break;
/*-------------------------------------------------------------------*/
case BOOT_FROM_8BIT_NAND:
/*-------------------------------------------------------------------*/
ebc0_cs0_bxap_value = EBC_BXAP_NAND;
ebc0_cs0_bxcr_value = EBC_BXCR_NAND_CS0;
ebc0_cs1_bxap_value = EBC_BXAP_NOR;
ebc0_cs1_bxcr_value = EBC_BXCR_NOR_CS1;
ebc0_cs2_bxap_value = EBC_BXAP_32BIT_SRAM;
ebc0_cs2_bxcr_value = EBC_BXCR_SRAM_CS2;
break;
/*-------------------------------------------------------------------*/
default:
/*-------------------------------------------------------------------*/
/* BOOT_DEVICE_UNKNOWN */
break;
}
mtebc(PB0AP, ebc0_cs0_bxap_value);
mtebc(PB0CR, ebc0_cs0_bxcr_value);
mtebc(PB1AP, ebc0_cs1_bxap_value);
mtebc(PB1CR, ebc0_cs1_bxcr_value);
mtebc(PB2AP, ebc0_cs2_bxap_value);
mtebc(PB2CR, ebc0_cs2_bxcr_value);
}
static void early_init_UIC(void)
{
/*
* Initialise UIC registers. Clear all interrupts. Disable all
* interrupts.
* Set critical interrupt values. Set interrupt polarities. Set
* interrupt trigger levels. Make bit 0 High priority. Clear all
* interrupts again.
*/
mtdcr(UIC3SR, 0xffffffff); /* Clear all interrupts */
mtdcr(UIC3ER, 0x00000000); /* disable all interrupts */
mtdcr(UIC3CR, 0x00000000); /* Set Critical / Non Critical
* interrupts */
mtdcr(UIC3PR, 0xffffffff); /* Set Interrupt Polarities */
mtdcr(UIC3TR, 0x001fffff); /* Set Interrupt Trigger Levels */
mtdcr(UIC3VR, 0x00000000); /* int31 highest, base=0x000 */
mtdcr(UIC3SR, 0xffffffff); /* clear all interrupts */
mtdcr(UIC2SR, 0xffffffff); /* Clear all interrupts */
mtdcr(UIC2ER, 0x00000000); /* disable all interrupts */
mtdcr(UIC2CR, 0x00000000); /* Set Critical / Non Critical
* interrupts */
mtdcr(UIC2PR, 0xebebebff); /* Set Interrupt Polarities */
mtdcr(UIC2TR, 0x74747400); /* Set Interrupt Trigger Levels */
mtdcr(UIC2VR, 0x00000000); /* int31 highest, base=0x000 */
mtdcr(UIC2SR, 0xffffffff); /* clear all interrupts */
mtdcr(UIC1SR, 0xffffffff); /* Clear all interrupts */
mtdcr(UIC1ER, 0x00000000); /* disable all interrupts */
mtdcr(UIC1CR, 0x00000000); /* Set Critical / Non Critical
* interrupts */
mtdcr(UIC1PR, 0xffffffff); /* Set Interrupt Polarities */
mtdcr(UIC1TR, 0x001fc0ff); /* Set Interrupt Trigger Levels */
mtdcr(UIC1VR, 0x00000000); /* int31 highest, base=0x000 */
mtdcr(UIC1SR, 0xffffffff); /* clear all interrupts */
mtdcr(UIC0SR, 0xffffffff); /* Clear all interrupts */
mtdcr(UIC0ER, 0x00000000); /* disable all interrupts excepted
* cascade to be checked */
mtdcr(UIC0CR, 0x00104001); /* Set Critical / Non Critical
* interrupts */
mtdcr(UIC0PR, 0xffffffff); /* Set Interrupt Polarities */
mtdcr(UIC0TR, 0x000f003c); /* Set Interrupt Trigger Levels */
mtdcr(UIC0VR, 0x00000000); /* int31 highest, base=0x000 */
mtdcr(UIC0SR, 0xffffffff); /* clear all interrupts */
}