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/cpu/arm_cortexa8/omap3/lowlevel_init.S

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9.8 KiB

/*
* Board specific setup info
*
* (C) Copyright 2008
* Texas Instruments, <www.ti.com>
*
* Initial Code by:
* Richard Woodruff <r-woodruff2@ti.com>
* Syed Mohammed Khasim <khasim@ti.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 <config.h>
#include <version.h>
#include <asm/arch/mem.h>
#include <asm/arch/clocks_omap3.h>
_TEXT_BASE:
.word TEXT_BASE /* sdram load addr from config.mk */
#if !defined(CONFIG_SYS_NAND_BOOT) && !defined(CONFIG_SYS_NAND_BOOT)
/**************************************************************************
* cpy_clk_code: relocates clock code into SRAM where its safer to execute
* R1 = SRAM destination address.
*************************************************************************/
.global cpy_clk_code
cpy_clk_code:
/* Copy DPLL code into SRAM */
adr r0, go_to_speed /* get addr of clock setting code */
mov r2, #384 /* r2 size to copy (div by 32 bytes) */
mov r1, r1 /* r1 <- dest address (passed in) */
add r2, r2, r0 /* r2 <- source end address */
next2:
ldmia r0!, {r3 - r10} /* copy from source address [r0] */
stmia r1!, {r3 - r10} /* copy to target address [r1] */
cmp r0, r2 /* until source end address [r2] */
bne next2
mov pc, lr /* back to caller */
/* ***************************************************************************
* go_to_speed: -Moves to bypass, -Commits clock dividers, -puts dpll at speed
* -executed from SRAM.
* R0 = CM_CLKEN_PLL-bypass value
* R1 = CM_CLKSEL1_PLL-m, n, and divider values
* R2 = CM_CLKSEL_CORE-divider values
* R3 = CM_IDLEST_CKGEN - addr dpll lock wait
*
* Note: If core unlocks/relocks and SDRAM is running fast already it gets
* confused. A reset of the controller gets it back. Taking away its
* L3 when its not in self refresh seems bad for it. Normally, this
* code runs from flash before SDR is init so that should be ok.
****************************************************************************/
.global go_to_speed
go_to_speed:
stmfd sp!, {r4 - r6}
/* move into fast relock bypass */
ldr r4, pll_ctl_add
str r0, [r4]
wait1:
ldr r5, [r3] /* get status */
and r5, r5, #0x1 /* isolate core status */
cmp r5, #0x1 /* still locked? */
beq wait1 /* if lock, loop */
/* set new dpll dividers _after_ in bypass */
ldr r5, pll_div_add1
str r1, [r5] /* set m, n, m2 */
ldr r5, pll_div_add2
str r2, [r5] /* set l3/l4/.. dividers*/
ldr r5, pll_div_add3 /* wkup */
ldr r2, pll_div_val3 /* rsm val */
str r2, [r5]
ldr r5, pll_div_add4 /* gfx */
ldr r2, pll_div_val4
str r2, [r5]
ldr r5, pll_div_add5 /* emu */
ldr r2, pll_div_val5
str r2, [r5]
/* now prepare GPMC (flash) for new dpll speed */
/* flash needs to be stable when we jump back to it */
ldr r5, flash_cfg3_addr
ldr r2, flash_cfg3_val
str r2, [r5]
ldr r5, flash_cfg4_addr
ldr r2, flash_cfg4_val
str r2, [r5]
ldr r5, flash_cfg5_addr
ldr r2, flash_cfg5_val
str r2, [r5]
ldr r5, flash_cfg1_addr
ldr r2, [r5]
orr r2, r2, #0x3 /* up gpmc divider */
str r2, [r5]
/* lock DPLL3 and wait a bit */
orr r0, r0, #0x7 /* set up for lock mode */
str r0, [r4] /* lock */
nop /* ARM slow at this point working at sys_clk */
nop
nop
nop
wait2:
ldr r5, [r3] /* get status */
and r5, r5, #0x1 /* isolate core status */
cmp r5, #0x1 /* still locked? */
bne wait2 /* if lock, loop */
nop
nop
nop
nop
ldmfd sp!, {r4 - r6}
mov pc, lr /* back to caller, locked */
_go_to_speed: .word go_to_speed
/* these constants need to be close for PIC code */
/* The Nor has to be in the Flash Base CS0 for this condition to happen */
flash_cfg1_addr:
.word (GPMC_CONFIG_CS0 + GPMC_CONFIG1)
flash_cfg3_addr:
.word (GPMC_CONFIG_CS0 + GPMC_CONFIG3)
flash_cfg3_val:
.word STNOR_GPMC_CONFIG3
flash_cfg4_addr:
.word (GPMC_CONFIG_CS0 + GPMC_CONFIG4)
flash_cfg4_val:
.word STNOR_GPMC_CONFIG4
flash_cfg5_val:
.word STNOR_GPMC_CONFIG5
flash_cfg5_addr:
.word (GPMC_CONFIG_CS0 + GPMC_CONFIG5)
pll_ctl_add:
.word CM_CLKEN_PLL
pll_div_add1:
.word CM_CLKSEL1_PLL
pll_div_add2:
.word CM_CLKSEL_CORE
pll_div_add3:
.word CM_CLKSEL_WKUP
pll_div_val3:
.word (WKUP_RSM << 1)
pll_div_add4:
.word CM_CLKSEL_GFX
pll_div_val4:
.word (GFX_DIV << 0)
pll_div_add5:
.word CM_CLKSEL1_EMU
pll_div_val5:
.word CLSEL1_EMU_VAL
#endif
.globl lowlevel_init
lowlevel_init:
ldr sp, SRAM_STACK
str ip, [sp] /* stash old link register */
mov ip, lr /* save link reg across call */
bl s_init /* go setup pll, mux, memory */
ldr ip, [sp] /* restore save ip */
mov lr, ip /* restore link reg */
/* back to arch calling code */
mov pc, lr
/* the literal pools origin */
.ltorg
REG_CONTROL_STATUS:
.word CONTROL_STATUS
SRAM_STACK:
.word LOW_LEVEL_SRAM_STACK
/* DPLL(1-4) PARAM TABLES */
/*
* Each of the tables has M, N, FREQSEL, M2 values defined for nominal
* OPP (1.2V). The fields are defined according to dpll_param struct (clock.c).
* The values are defined for all possible sysclk and for ES1 and ES2.
*/
mpu_dpll_param:
/* 12MHz */
/* ES1 */
.word MPU_M_12_ES1, MPU_N_12_ES1, MPU_FSEL_12_ES1, MPU_M2_12_ES1
/* ES2 */
.word MPU_M_12_ES2, MPU_N_12_ES2, MPU_FSEL_12_ES2, MPU_M2_ES2
/* 3410 */
.word MPU_M_12, MPU_N_12, MPU_FSEL_12, MPU_M2_12
/* 13MHz */
/* ES1 */
.word MPU_M_13_ES1, MPU_N_13_ES1, MPU_FSEL_13_ES1, MPU_M2_13_ES1
/* ES2 */
.word MPU_M_13_ES2, MPU_N_13_ES2, MPU_FSEL_13_ES2, MPU_M2_13_ES2
/* 3410 */
.word MPU_M_13, MPU_N_13, MPU_FSEL_13, MPU_M2_13
/* 19.2MHz */
/* ES1 */
.word MPU_M_19P2_ES1, MPU_N_19P2_ES1, MPU_FSEL_19P2_ES1, MPU_M2_19P2_ES1
/* ES2 */
.word MPU_M_19P2_ES2, MPU_N_19P2_ES2, MPU_FSEL_19P2_ES2, MPU_M2_19P2_ES2
/* 3410 */
.word MPU_M_19P2, MPU_N_19P2, MPU_FSEL_19P2, MPU_M2_19P2
/* 26MHz */
/* ES1 */
.word MPU_M_26_ES1, MPU_N_26_ES1, MPU_FSEL_26_ES1, MPU_M2_26_ES1
/* ES2 */
.word MPU_M_26_ES2, MPU_N_26_ES2, MPU_FSEL_26_ES2, MPU_M2_26_ES2
/* 3410 */
.word MPU_M_26, MPU_N_26, MPU_FSEL_26, MPU_M2_26
/* 38.4MHz */
/* ES1 */
.word MPU_M_38P4_ES1, MPU_N_38P4_ES1, MPU_FSEL_38P4_ES1, MPU_M2_38P4_ES1
/* ES2 */
.word MPU_M_38P4_ES2, MPU_N_38P4_ES2, MPU_FSEL_38P4_ES2, MPU_M2_38P4_ES2
/* 3410 */
.word MPU_M_38P4, MPU_N_38P4, MPU_FSEL_38P4, MPU_M2_38P4
.globl get_mpu_dpll_param
get_mpu_dpll_param:
adr r0, mpu_dpll_param
mov pc, lr
iva_dpll_param:
/* 12MHz */
/* ES1 */
.word IVA_M_12_ES1, IVA_N_12_ES1, IVA_FSEL_12_ES1, IVA_M2_12_ES1
/* ES2 */
.word IVA_M_12_ES2, IVA_N_12_ES2, IVA_FSEL_12_ES2, IVA_M2_12_ES2
/* 3410 */
.word IVA_M_12, IVA_N_12, IVA_FSEL_12, IVA_M2_12
/* 13MHz */
/* ES1 */
.word IVA_M_13_ES1, IVA_N_13_ES1, IVA_FSEL_13_ES1, IVA_M2_13_ES1
/* ES2 */
.word IVA_M_13_ES2, IVA_N_13_ES2, IVA_FSEL_13_ES2, IVA_M2_13_ES2
/* 3410 */
.word IVA_M_13, IVA_N_13, IVA_FSEL_13, IVA_M2_13
/* 19.2MHz */
/* ES1 */
.word IVA_M_19P2_ES1, IVA_N_19P2_ES1, IVA_FSEL_19P2_ES1, IVA_M2_19P2_ES1
/* ES2 */
.word IVA_M_19P2_ES2, IVA_N_19P2_ES2, IVA_FSEL_19P2_ES2, IVA_M2_19P2_ES2
/* 3410 */
.word IVA_M_19P2, IVA_N_19P2, IVA_FSEL_19P2, IVA_M2_19P2
/* 26MHz */
/* ES1 */
.word IVA_M_26_ES1, IVA_N_26_ES1, IVA_FSEL_26_ES1, IVA_M2_26_ES1
/* ES2 */
.word IVA_M_26_ES2, IVA_N_26_ES2, IVA_FSEL_26_ES2, IVA_M2_26_ES2
/* 3410 */
.word IVA_M_26, IVA_N_26, IVA_FSEL_26, IVA_M2_26
/* 38.4MHz */
/* ES1 */
.word IVA_M_38P4_ES1, IVA_N_38P4_ES1, IVA_FSEL_38P4_ES1, IVA_M2_38P4_ES1
/* ES2 */
.word IVA_M_38P4_ES2, IVA_N_38P4_ES2, IVA_FSEL_38P4_ES2, IVA_M2_38P4_ES2
/* 3410 */
.word IVA_M_38P4, IVA_N_38P4, IVA_FSEL_38P4, IVA_M2_38P4
.globl get_iva_dpll_param
get_iva_dpll_param:
adr r0, iva_dpll_param
mov pc, lr
/* Core DPLL targets for L3 at 166 & L133 */
core_dpll_param:
/* 12MHz */
/* ES1 */
.word CORE_M_12_ES1, CORE_N_12_ES1, CORE_FSL_12_ES1, CORE_M2_12_ES1
/* ES2 */
.word CORE_M_12, CORE_N_12, CORE_FSEL_12, CORE_M2_12
/* 3410 */
.word CORE_M_12, CORE_N_12, CORE_FSEL_12, CORE_M2_12
/* 13MHz */
/* ES1 */
.word CORE_M_13_ES1, CORE_N_13_ES1, CORE_FSL_13_ES1, CORE_M2_13_ES1
/* ES2 */
.word CORE_M_13, CORE_N_13, CORE_FSEL_13, CORE_M2_13
/* 3410 */
.word CORE_M_13, CORE_N_13, CORE_FSEL_13, CORE_M2_13
/* 19.2MHz */
/* ES1 */
.word CORE_M_19P2_ES1, CORE_N_19P2_ES1, CORE_FSL_19P2_ES1, CORE_M2_19P2_ES1
/* ES2 */
.word CORE_M_19P2, CORE_N_19P2, CORE_FSEL_19P2, CORE_M2_19P2
/* 3410 */
.word CORE_M_19P2, CORE_N_19P2, CORE_FSEL_19P2, CORE_M2_19P2
/* 26MHz */
/* ES1 */
.word CORE_M_26_ES1, CORE_N_26_ES1, CORE_FSL_26_ES1, CORE_M2_26_ES1
/* ES2 */
.word CORE_M_26, CORE_N_26, CORE_FSEL_26, CORE_M2_26
/* 3410 */
.word CORE_M_26, CORE_N_26, CORE_FSEL_26, CORE_M2_26
/* 38.4MHz */
/* ES1 */
.word CORE_M_38P4_ES1, CORE_N_38P4_ES1, CORE_FSL_38P4_ES1, CORE_M2_38P4_ES1
/* ES2 */
.word CORE_M_38P4, CORE_N_38P4, CORE_FSEL_38P4, CORE_M2_38P4
/* 3410 */
.word CORE_M_38P4, CORE_N_38P4, CORE_FSEL_38P4, CORE_M2_38P4
.globl get_core_dpll_param
get_core_dpll_param:
adr r0, core_dpll_param
mov pc, lr
/* PER DPLL values are same for both ES1 and ES2 */
per_dpll_param:
/* 12MHz */
.word PER_M_12, PER_N_12, PER_FSEL_12, PER_M2_12
/* 13MHz */
.word PER_M_13, PER_N_13, PER_FSEL_13, PER_M2_13
/* 19.2MHz */
.word PER_M_19P2, PER_N_19P2, PER_FSEL_19P2, PER_M2_19P2
/* 26MHz */
.word PER_M_26, PER_N_26, PER_FSEL_26, PER_M2_26
/* 38.4MHz */
.word PER_M_38P4, PER_N_38P4, PER_FSEL_38P4, PER_M2_38P4
.globl get_per_dpll_param
get_per_dpll_param:
adr r0, per_dpll_param
mov pc, lr