u-boot/arch/nds32/cpu/n1213/ag102/lowlevel_init.S
Macpaul Lin cf14123021 nds32/ag102: add ag102 soc support
Add lowlevel ag102 soc support.

Signed-off-by: Macpaul Lin <macpaul@andestech.com>
2012-04-22 16:58:23 +08:00

297 lines
7.5 KiB
ArmAsm

/*
* Copyright (C) 2011 Andes Technology Corporation
* Macpaul Lin, Andes Technology Corporation <macpaul@andestech.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
*/
.text
#include <common.h>
#include <config.h>
#include <asm/macro.h>
#include <generated/asm-offsets.h>
/*
* parameters for Synopsys DWC DDR2/DDR1 Memory Controller
*/
#define DDR2C_BASE_A (CONFIG_DWCDDR21MCTL_BASE)
#define DDR2C_CCR_A (DDR2C_BASE_A + DWCDDR21MCTL_CCR)
#define DDR2C_DCR_A (DDR2C_BASE_A + DWCDDR21MCTL_DCR)
#define DDR2C_IOCR_A (DDR2C_BASE_A + DWCDDR21MCTL_IOCR)
#define DDR2C_CSR_A (DDR2C_BASE_A + DWCDDR21MCTL_CSR)
#define DDR2C_DRR_A (DDR2C_BASE_A + DWCDDR21MCTL_DRR)
#define DDR2C_DLLCR0_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR0)
#define DDR2C_DLLCR1_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR1)
#define DDR2C_DLLCR2_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR2)
#define DDR2C_DLLCR3_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR3)
#define DDR2C_DLLCR4_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR4)
#define DDR2C_DLLCR5_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR5)
#define DDR2C_DLLCR6_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR6)
#define DDR2C_DLLCR7_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR7)
#define DDR2C_DLLCR8_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR8)
#define DDR2C_DLLCR9_A (DDR2C_BASE_A + DWCDDR21MCTL_DLLCR9)
#define DDR2C_RSLR0_A (DDR2C_BASE_A + DWCDDR21MCTL_RSLR0)
#define DDR2C_RDGR0_A (DDR2C_BASE_A + DWCDDR21MCTL_RDGR0)
#define DDR2C_DTAR_A (DDR2C_BASE_A + DWCDDR21MCTL_DTAR)
#define DDR2C_MR_A (DDR2C_BASE_A + DWCDDR21MCTL_MR)
#define DDR2C_CCR_D CONFIG_SYS_DWCDDR21MCTL_CCR
#define DDR2C_CCR_D2 CONFIG_SYS_DWCDDR21MCTL_CCR2
#define DDR2C_DCR_D CONFIG_SYS_DWCDDR21MCTL_DCR
#define DDR2C_IOCR_D CONFIG_SYS_DWCDDR21MCTL_IOCR
#define DDR2C_CSR_D CONFIG_SYS_DWCDDR21MCTL_CSR
#define DDR2C_DRR_D CONFIG_SYS_DWCDDR21MCTL_DRR
#define DDR2C_RSLR0_D CONFIG_SYS_DWCDDR21MCTL_RSLR0
#define DDR2C_RDGR0_D CONFIG_SYS_DWCDDR21MCTL_RDGR0
#define DDR2C_DTAR_D CONFIG_SYS_DWCDDR21MCTL_DTAR
#define DDR2C_MR_D CONFIG_SYS_DWCDDR21MCTL_MR
#define DDR2C_DLLCR0_D CONFIG_SYS_DWCDDR21MCTL_DLLCR0 /* 0-9 are same */
/*
* parameters for the ahbc controller
*/
#define AHBC_CR_A (CONFIG_FTAHBC020S_BASE + FTAHBC020S_CR)
#define AHBC_BSR6_A (CONFIG_FTAHBC020S_BASE + FTAHBC020S_SLAVE_BSR_6)
#define AHBC_BSR6_D CONFIG_SYS_FTAHBC020S_SLAVE_BSR_6
/*
* parameters for the ANDES PCU controller
*/
#define PCU_PCS4_A (CONFIG_ANDES_PCU_BASE + ANDES_PCU_PCS4)
#define PCU_PCS4_D CONFIG_SYS_ANDES_CPU_PCS4
/*
* numeric 7 segment display
*/
.macro led, num
write32 CONFIG_DEBUG_LED, \num
.endm
/*
* Waiting for SDRAM to set up
*/
/*
.macro wait_sdram
li $r0, DDR2C_CSR_A
1:
lwi $r1, [$r0+FTSDMC021_CR2]
bnez $r1, 1b
.endm
*/
#ifndef CONFIG_SKIP_LOWLEVEL_INIT
.globl lowlevel_init
lowlevel_init:
move $r10, $lp
/* U200 */
! led 0x00
! jal scale_to_500mhz
led 0x10
jal mem_init
led 0x20
jal remap
led 0x30
ret $r10
scale_to_500mhz:
move $r11, $lp
/*
* scale to 500Mhz
*/
led 0x01
write32 PCU_PCS4_A, 0x1102000f ! save data to PCS4
move $lp, $r11
ret
mem_init:
move $r11, $lp
/*
* config AHB Controller
*/
led 0x12
write32 AHBC_BSR6_A, AHBC_BSR6_D
/*
* config Synopsys DWC DDR2/DDR1 Memory Controller
*/
ddr2c_init:
set_dcr:
led 0x14
write32 DDR2C_DCR_A, DDR2C_DCR_D ! 0x000020d4
auto_sizing:
/*
* ebios: $r10->$r7, $r11->$r8, $r12->$r9, $r13->$r12, $r14->$r13
*/
set_iocr:
led 0x19
write32 DDR2C_IOCR_A, DDR2C_IOCR_D
set_drr:
led 0x16
write32 DDR2C_DRR_A, DDR2C_DRR_D ! 0x00034812
set_dllcr:
led 0x18
write32 DDR2C_DLLCR0_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR1_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR2_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR3_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR4_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR5_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR6_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR7_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR8_A, DDR2C_DLLCR0_D
write32 DDR2C_DLLCR9_A, DDR2C_DLLCR0_D
set_rslr0:
write32 DDR2C_RSLR0_A, DDR2C_RSLR0_D ! 0x00000040
set_rdgr0:
write32 DDR2C_RDGR0_A, DDR2C_RDGR0_D ! 0x000055cf
set_dtar:
led 0x15
write32 DDR2C_DTAR_A, DDR2C_DTAR_D ! 0x00100000
set_mode:
led 0x17
write32 DDR2C_MR_A, DDR2C_MR_D ! 0x00000852
set_ccr:
write32 DDR2C_CCR_A, DDR2C_CCR_D
#ifdef TRIGGER_INIT:
trigger_init:
write32 DDR2C_CCR_A, DDR2C_CCR_D ! 0x80020000
/* Wait for ddr init state to be set */
msync ALL
isb
/* Wait until the config initialization is finish */
1:
la $r4, DDR2C_CSR_A
lwi $r5, [$r4]
srli $r5, $r5, 23
bnez $r5, 1b
#endif
data_training:
! write32 DDR2C_CCR_A, DDR2C_CCR_D2 ! 0x40020004
/* Wait for ddr init state to be set */
msync ALL
isb
/* wait until the ddr data trainning is complete */
1:
la $r4, DDR2C_CSR_A
lwi $r5, [$r4]
srli $r6, $r5, 23
bnez $r6, 1b
lwi $r1, [$r4]
srli $r6, $r5, 20
li $r5, 0x00ffffff
swi $r1, [$r4]
bnez $r6, ddr2c_init
led 0x1a
move $lp, $r11
ret
remap:
move $r11, $lp
#ifdef __NDS32_N1213_43U1H__ /* NDS32 V0 ISA - AG101 Only */
bal 2f
relo_base:
move $r0, $lp
#else
relo_base:
mfusr $r0, $pc
#endif /* __NDS32_N1213_43U1H__ */
/*
* Remapping
*/
#ifdef CONFIG_MEM_REMAP
/*
* Copy ROM code to SDRAM base for memory remap layout.
* This is not the real relocation, the real relocation is the function
* relocate_code() is start.S which supports the systems is memory
* remapped or not.
*/
/*
* Doing memory remap is essential for preparing some non-OS or RTOS
* applications.
*
* This is also a must on ADP-AG101 board.
* The reason is because the ROM/FLASH circuit on PCB board.
* AG101-A0 board has 2 jumpers MA17 and SW5 to configure which
* ROM/FLASH is used to boot.
*
* When SW5 = "0101", MA17 = LO, the ROM is connected to BANK0,
* and the FLASH is connected to BANK1.
* When SW5 = "1010", MA17 = HI, the ROM is disabled (still at BANK0),
* and the FLASH is connected to BANK0.
* It will occur problem when doing flash probing if the flash is at
* BANK0 (0x00000000) while memory remapping was skipped.
*
* Other board like ADP-AG101P may not enable this since there is only
* a FLASH connected to bank0.
*/
led 0x21
li $r4, PHYS_SDRAM_0_AT_INIT /* 0x10000000 */
li $r5, 0x0
la $r1, relo_base /* get $pc or $lp */
sub $r2, $r0, $r1
sethi $r6, hi20(_end)
ori $r6, $r6, lo12(_end)
add $r6, $r6, $r2
1:
lwi.p $r7, [$r5], #4
swi.p $r7, [$r4], #4
blt $r5, $r6, 1b
/* set remap bit */
/*
* MEM remap bit is operational
* - use it to map writeable memory at 0x00000000, in place of flash
* - before remap: flash/rom 0x00000000, sdram: 0x10000000-0x4fffffff
* - after remap: flash/rom 0x80000000, sdram: 0x00000000
*/
led 0x2c
setbf15 AHBC_CR_A, FTAHBC020S_CR_REMAP ! 0x1
#endif /* #ifdef CONFIG_MEM_REMAP */
move $lp, $r11
2:
ret
.globl show_led
show_led:
li $r8, (CONFIG_DEBUG_LED)
swi $r7, [$r8]
ret
#endif /* #ifndef CONFIG_SKIP_LOWLEVEL_INIT */