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10ed93dcdd
Configuration in vexpress and u8500.v1 is different from what is needed in u8500.v2. As such, card configuration specifics need to reside in the board file rather than the driver. Signed-off-by: John Rigby <john.rigby@linaro.org> Signed-off-by: Mathieu Poirier <mathieu.poirier@linaro.org> Signed-off-by: Tom Rini <trini@ti.com>
489 lines
14 KiB
C
489 lines
14 KiB
C
/*
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* Copyright (C) ST-Ericsson SA 2009
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*/
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#include <config.h>
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#include <common.h>
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#include <malloc.h>
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#include <i2c.h>
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#include <asm/types.h>
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#include <asm/io.h>
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#include <asm/errno.h>
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#include <asm/arch/clock.h>
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#include <asm/arch/gpio.h>
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#include <asm/arch/hardware.h>
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#include <asm/arch/sys_proto.h>
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#include <asm/arch/prcmu.h>
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#ifdef CONFIG_MMC
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#include "../../../drivers/mmc/arm_pl180_mmci.h"
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#endif
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#define NOMADIK_PER4_BASE (0x80150000)
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#define NOMADIK_BACKUPRAM0_BASE (NOMADIK_PER4_BASE + 0x00000)
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#define NOMADIK_BACKUPRAM1_BASE (NOMADIK_PER4_BASE + 0x01000)
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/* Power, Reset, Clock Management Unit */
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/*
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* SVA: Smart Video Accelerator
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* SIA: Smart Imaging Accelerator
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* SGA: Smart Graphic accelerator
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* B2R2: Graphic blitter
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*/
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#define PRCM_ARMCLKFIX_MGT_REG (PRCMU_BASE + 0x000)
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#define PRCM_ACLK_MGT_REG (PRCMU_BASE + 0x004)
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#define PRCM_SVAMMDSPCLK_MGT_REG (PRCMU_BASE + 0x008)
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#define PRCM_SIAMMDSPCLK_MGT_REG (PRCMU_BASE + 0x00C)
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#define PRCM_SAAMMDSPCLK_MGT_REG (PRCMU_BASE + 0x010)
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#define PRCM_SGACLK_MGT_REG (PRCMU_BASE + 0x014)
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#define PRCM_UARTCLK_MGT_REG (PRCMU_BASE + 0x018)
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#define PRCM_MSPCLK_MGT_REG (PRCMU_BASE + 0x01C)
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#define PRCM_I2CCLK_MGT_REG (PRCMU_BASE + 0x020)
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#define PRCM_SDMMCCLK_MGT_REG (PRCMU_BASE + 0x024)
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#define PRCM_SLIMCLK_MGT_REG (PRCMU_BASE + 0x028)
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#define PRCM_PER1CLK_MGT_REG (PRCMU_BASE + 0x02C)
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#define PRCM_PER2CLK_MGT_REG (PRCMU_BASE + 0x030)
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#define PRCM_PER3CLK_MGT_REG (PRCMU_BASE + 0x034)
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#define PRCM_PER5CLK_MGT_REG (PRCMU_BASE + 0x038)
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#define PRCM_PER6CLK_MGT_REG (PRCMU_BASE + 0x03C)
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#define PRCM_PER7CLK_MGT_REG (PRCMU_BASE + 0x040)
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#define PRCM_DMACLK_MGT_REG (PRCMU_BASE + 0x074)
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#define PRCM_B2R2CLK_MGT_REG (PRCMU_BASE + 0x078)
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#define PRCM_PLLSOC0_FREQ_REG (PRCMU_BASE + 0x080)
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#define PRCM_PLLSOC1_FREQ_REG (PRCMU_BASE + 0x084)
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#define PRCM_PLLARM_FREQ_REG (PRCMU_BASE + 0x088)
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#define PRCM_PLLDDR_FREQ_REG (PRCMU_BASE + 0x08C)
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#define PRCM_ARM_CHGCLKREQ_REG (PRCMU_BASE + 0x114)
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#define PRCM_TCR (PRCMU_BASE + 0x1C8)
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/*
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* Memory controller register
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*/
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#define DMC_BASE_ADDR 0x80156000
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#define DMC_CTL_97 (DMC_BASE_ADDR + 0x184)
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int board_id; /* set in board_late_init() */
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/* PLLs for clock management registers */
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enum {
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GATED = 0,
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PLLSOC0, /* pllsw = 001, ffs() = 1 */
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PLLSOC1, /* pllsw = 010, ffs() = 2 */
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PLLDDR, /* pllsw = 100, ffs() = 3 */
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PLLARM,
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};
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static struct pll_freq_regs {
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int idx; /* index fror pll_name and pll_khz arrays */
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uint32_t addr;
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} pll_freq_regs[] = {
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{PLLSOC0, PRCM_PLLSOC0_FREQ_REG},
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{PLLSOC1, PRCM_PLLSOC1_FREQ_REG},
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{PLLDDR, PRCM_PLLDDR_FREQ_REG},
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{PLLARM, PRCM_PLLARM_FREQ_REG},
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{0, 0},
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};
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static const char *pll_name[5] = {"GATED", "SOC0", "SOC1", "DDR", "ARM"};
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static uint32_t pll_khz[5]; /* use ffs(pllsw(reg)) as index for 0..3 */
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static struct clk_mgt_regs {
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uint32_t addr;
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uint32_t val;
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const char *descr;
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} clk_mgt_regs[] = {
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/* register content taken from bootrom settings */
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{PRCM_ARMCLKFIX_MGT_REG, 0x0120, "ARMCLKFIX"}, /* ena, SOC0/0, ??? */
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{PRCM_ACLK_MGT_REG, 0x0125, "ACLK"}, /* ena, SOC0/5, 160 MHz */
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{PRCM_SVAMMDSPCLK_MGT_REG, 0x1122, "SVA"}, /* ena, SOC0/2, 400 MHz */
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{PRCM_SIAMMDSPCLK_MGT_REG, 0x0022, "SIA"}, /* dis, SOC0/2, 400 MHz */
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{PRCM_SAAMMDSPCLK_MGT_REG, 0x0822, "SAA"}, /* dis, SOC0/4, 200 MHz */
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{PRCM_SGACLK_MGT_REG, 0x0024, "SGA"}, /* dis, SOC0/4, 200 MHz */
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{PRCM_UARTCLK_MGT_REG, 0x0300, "UART"}, /* ena, GATED, CLK38 */
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{PRCM_MSPCLK_MGT_REG, 0x0200, "MSP"}, /* dis, GATED, CLK38 */
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{PRCM_I2CCLK_MGT_REG, 0x0130, "I2C"}, /* ena, SOC0/16, 50 MHz */
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{PRCM_SDMMCCLK_MGT_REG, 0x0130, "SDMMC"}, /* ena, SOC0/16, 50 MHz */
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{PRCM_PER1CLK_MGT_REG, 0x126, "PER1"}, /* ena, SOC0/6, 133 MHz */
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{PRCM_PER2CLK_MGT_REG, 0x126, "PER2"}, /* ena, SOC0/6, 133 MHz */
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{PRCM_PER3CLK_MGT_REG, 0x126, "PER3"}, /* ena, SOC0/6, 133 MHz */
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{PRCM_PER5CLK_MGT_REG, 0x126, "PER5"}, /* ena, SOC0/6, 133 MHz */
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{PRCM_PER6CLK_MGT_REG, 0x126, "PER6"}, /* ena, SOC0/6, 133 MHz */
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{PRCM_PER7CLK_MGT_REG, 0x128, "PER7"}, /* ena, SOC0/8, 100 MHz */
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{PRCM_DMACLK_MGT_REG, 0x125, "DMA"}, /* ena, SOC0/5, 160 MHz */
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{PRCM_B2R2CLK_MGT_REG, 0x025, "B2R2"}, /* dis, SOC0/5, 160 MHz */
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{0, 0, NULL},
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};
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static void init_regs(void);
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DECLARE_GLOBAL_DATA_PTR;
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#if defined(CONFIG_SHOW_BOOT_PROGRESS)
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void show_boot_progress(int progress)
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{
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printf("Boot reached stage %d\n", progress);
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}
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#endif
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/*
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* Miscellaneous platform dependent initialisations
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*/
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int board_early_init_f(void)
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{
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init_regs();
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return 0;
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}
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int board_init(void)
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{
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uint32_t unused_cols_rows;
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unsigned int nrows;
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unsigned int ncols;
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gd->bd->bi_arch_number = 0x1A4;
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gd->bd->bi_boot_params = 0x00000100;
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gd->bd->bi_dram[0].start = CONFIG_SYS_SDRAM_BASE;
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/*
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* Assumption: 2 CS active, both CS have same layout.
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* 15 rows max, 11 cols max (controller spec).
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* memory chip has 8 banks, I/O width 32 bit.
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* The correct way would be to read MR#8: I/O width and density,
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* but this requires locking against the PRCMU firmware.
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* Simplified approach:
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* Read number of unused rows and columns from mem controller.
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* size = nCS x 2^(rows+cols) x nbanks x buswidth_bytes
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*/
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unused_cols_rows = readl(DMC_CTL_97);
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nrows = 15 - (unused_cols_rows & 0x07);
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ncols = 11 - ((unused_cols_rows & 0x0700) >> 8);
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gd->bd->bi_dram[0].size = 2 * (1 << (nrows + ncols)) * 8 * 4;
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icache_enable();
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return 0;
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}
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int dram_init(void)
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{
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gd->ram_size = PHYS_SDRAM_SIZE_1;
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return 0;
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}
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unsigned int addr_vall_arr[] = {
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0x8011F000, 0x0000FFFF, /* Clocks for HSI TODO: Enable reqd only */
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0x8011F008, 0x00001CFF, /* Clocks for HSI TODO: Enable reqd only */
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0x8000F000, 0x00007FFF, /* Clocks for I2C TODO: Enable reqd only */
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0x8000F008, 0x00007FFF, /* Clocks for I2C TODO: Enable reqd only */
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0x80157020, 0x00000150, /* I2C 48MHz clock */
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0x8012F000, 0x00007FFF, /* Clocks for SD TODO: Enable reqd only */
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0x8012F008, 0x00007FFF, /* Clocks for SD TODO: Enable reqd only */
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0xA03DF000, 0x0000000D, /* Clock for MTU Timers */
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0x8011E00C, 0x00000000, /* GPIO ALT FUNC for EMMC */
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0x8011E004, 0x0000FFE0, /* GPIO ALT FUNC for EMMC */
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0x8011E020, 0x0000FFE0, /* GPIO ALT FUNC for EMMC */
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0x8011E024, 0x00000000, /* GPIO ALT FUNC for EMMC */
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0x8012E000, 0x20000000, /* GPIO ALT FUNC for UART */
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0x8012E00C, 0x00000000, /* GPIO ALT FUNC for SD */
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0x8012E004, 0x0FFC0000, /* GPIO ALT FUNC for SD */
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0x8012E020, 0x60000000, /* GPIO ALT FUNC for SD */
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0x8012E024, 0x60000000, /* GPIO ALT FUNC for SD */
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0x801571E4, 0x0000000C, /* PRCMU settings for B2R2,
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PRCM_APE_RESETN_SET_REG */
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0x80157024, 0x00000130, /* PRCMU settings for EMMC/SD */
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0xA03FF000, 0x00000003, /* USB */
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0xA03FF008, 0x00000001, /* USB */
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0xA03FE00C, 0x00000000, /* USB */
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0xA03FE020, 0x00000FFF, /* USB */
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0xA03FE024, 0x00000000 /* USB */
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};
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#ifdef CONFIG_BOARD_LATE_INIT
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/*
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* called after all initialisation were done, but before the generic
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* mmc_initialize().
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*/
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int board_late_init(void)
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{
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uchar byte;
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/*
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* Determine and set board_id environment variable
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* 0: mop500, 1: href500
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* Above boards have different GPIO expander chips which we can
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* distinguish by the chip id.
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*
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* The board_id environment variable is needed for the Linux bootargs.
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*/
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(void) i2c_set_bus_num(0);
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(void) i2c_read(CONFIG_SYS_I2C_GPIOE_ADDR, 0x80, 1, &byte, 1);
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if (byte == 0x01) {
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board_id = 0;
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setenv("board_id", "0");
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} else {
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board_id = 1;
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setenv("board_id", "1");
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}
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#ifdef CONFIG_MMC
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u8500_mmc_power_init();
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/*
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* config extended GPIO pins for level shifter and
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* SDMMC_ENABLE
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*/
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if (board_id == 0) {
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/* MOP500 */
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byte = 0x0c;
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(void) i2c_write(CONFIG_SYS_I2C_GPIOE_ADDR, 0x89, 1, &byte, 1);
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(void) i2c_write(CONFIG_SYS_I2C_GPIOE_ADDR, 0x83, 1, &byte, 1);
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} else {
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/* HREF */
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/* set the direction of GPIO KPY9 and KPY10 */
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byte = 0x06;
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(void) i2c_write(CONFIG_SYS_I2C_GPIOE_ADDR, 0xC8, 1, &byte, 1);
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/* must be a multibyte access */
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(void) i2c_write(CONFIG_SYS_I2C_GPIOE_ADDR, 0xC4, 1,
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(uchar []) {0x06, 0x06}, 2);
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}
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#endif /* CONFIG_MMC */
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/*
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* Create a memargs variable which points uses either the memargs256 or
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* memargs512 environment variable, depending on the memory size.
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* memargs is used to build the bootargs, memargs256 and memargs512 are
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* stored in the environment.
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*/
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if (gd->bd->bi_dram[0].size == 0x10000000) {
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setenv("memargs", "setenv bootargs ${bootargs} ${memargs256}");
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setenv("mem", "256M");
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} else {
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setenv("memargs", "setenv bootargs ${bootargs} ${memargs512}");
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setenv("mem", "512M");
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}
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return 0;
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}
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#endif /* CONFIG_BOARD_LATE_INIT */
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static void early_gpio_setup(struct gpio_register *gpio_reg, u32 bits)
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{
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writel(readl(&gpio_reg->gpio_dats) | bits, &gpio_reg->gpio_dats);
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writel(readl(&gpio_reg->gpio_pdis) & ~bits, &gpio_reg->gpio_pdis);
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}
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static void init_regs(void)
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{
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/* FIXME Remove magic register array settings for ED also */
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struct prcmu *prcmu = (struct prcmu *) U8500_PRCMU_BASE;
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/* Enable timers */
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writel(1 << 17, &prcmu->tcr);
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u8500_prcmu_enable(&prcmu->per1clk_mgt);
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u8500_prcmu_enable(&prcmu->per2clk_mgt);
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u8500_prcmu_enable(&prcmu->per3clk_mgt);
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u8500_prcmu_enable(&prcmu->per5clk_mgt);
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u8500_prcmu_enable(&prcmu->per6clk_mgt);
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u8500_prcmu_enable(&prcmu->per7clk_mgt);
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u8500_prcmu_enable(&prcmu->uartclk_mgt);
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u8500_prcmu_enable(&prcmu->i2cclk_mgt);
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u8500_prcmu_enable(&prcmu->sdmmcclk_mgt);
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u8500_clock_enable(1, 9, -1); /* GPIO0 */
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u8500_clock_enable(2, 11, -1); /* GPIO1 */
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u8500_clock_enable(3, 8, -1); /* GPIO2 */
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u8500_clock_enable(5, 1, -1); /* GPIO3 */
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u8500_clock_enable(3, 6, 6); /* UART2 */
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gpio_altfuncenable(GPIO_ALT_I2C_0, "I2C0");
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u8500_clock_enable(3, 3, 3); /* I2C0 */
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early_gpio_setup((struct gpio_register *)U8500_GPIO_0_BASE, 0x60000000);
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gpio_altfuncenable(GPIO_ALT_UART_2, "UART2");
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early_gpio_setup((struct gpio_register *)U8500_GPIO_6_BASE, 0x0000ffe0);
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gpio_altfuncenable(GPIO_ALT_EMMC, "EMMC");
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early_gpio_setup((struct gpio_register *)U8500_GPIO_0_BASE, 0x0000ffe0);
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gpio_altfuncenable(GPIO_ALT_SD_CARD0, "SDCARD");
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u8500_clock_enable(1, 5, 5); /* SDI0 */
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u8500_clock_enable(2, 4, 2); /* SDI4 */
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u8500_clock_enable(6, 7, -1); /* MTU0 */
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u8500_clock_enable(3, 4, 4); /* SDI2 */
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early_gpio_setup((struct gpio_register *)U8500_GPIO_4_BASE, 0x000007ff);
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gpio_altfuncenable(GPIO_ALT_POP_EMMC, "EMMC");
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/*
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* Enabling clocks for all devices which are AMBA devices in the
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* kernel. Otherwise they will not get probe()'d because the
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* peripheral ID register will not be powered.
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*/
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/* XXX: some of these differ between ED/V1 */
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u8500_clock_enable(1, 1, 1); /* UART1 */
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u8500_clock_enable(1, 0, 0); /* UART0 */
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u8500_clock_enable(3, 2, 2); /* SSP1 */
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u8500_clock_enable(3, 1, 1); /* SSP0 */
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u8500_clock_enable(2, 8, -1); /* SPI0 */
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u8500_clock_enable(2, 5, 3); /* MSP2 */
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}
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#ifdef CONFIG_MMC
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static int u8500_mmci_board_init(void)
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{
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enum gpio_error error;
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struct gpio_register *gpio_base_address;
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gpio_base_address = (void *)(U8500_GPIO_0_BASE);
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gpio_base_address->gpio_dats |= 0xFFC0000;
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gpio_base_address->gpio_pdis &= ~0xFFC0000;
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/* save the GPIO0 AFSELA register */
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error = gpio_altfuncenable(GPIO_ALT_SD_CARD0, "MMC");
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if (error != GPIO_OK) {
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printf("u8500_mmci_board_init() gpio_altfuncenable failed\n");
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return -ENODEV;
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}
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return 0;
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}
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int board_mmc_init(bd_t *bd)
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{
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struct pl180_mmc_host *host;
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if (u8500_mmci_board_init())
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return -ENODEV;
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host = malloc(sizeof(struct pl180_mmc_host));
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if (!host)
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return -ENOMEM;
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memset(host, 0, sizeof(*host));
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strcpy(host->name, "MMC");
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host->base = (struct sdi_registers *)CONFIG_ARM_PL180_MMCI_BASE;
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host->pwr_init = INIT_PWR;
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host->clkdiv_init = SDI_CLKCR_CLKDIV_INIT_V1 | SDI_CLKCR_CLKEN;
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host->voltages = VOLTAGE_WINDOW_MMC;
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host->caps = 0;
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host->clock_in = ARM_MCLK;
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host->clock_min = ARM_MCLK / (2 * (SDI_CLKCR_CLKDIV_INIT_V1 + 1));
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host->clock_max = CONFIG_ARM_PL180_MMCI_CLOCK_FREQ;
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return arm_pl180_mmci_init(host);
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}
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#endif
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/*
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* get_pll_freq_khz - return PLL frequency in kHz
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*/
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static uint32_t get_pll_freq_khz(uint32_t inclk_khz, uint32_t freq_reg)
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{
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uint32_t idf, ldf, odf, seldiv, phi;
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/*
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* PLLOUTCLK = PHI = (INCLK*LDF)/(2*ODF*IDF) if SELDIV2=0
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* PLLOUTCLK = PHI = (INCLK*LDF)/(4*ODF*IDF) if SELDIV2=1
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* where:
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* IDF=R(2:0) (when R=000, IDF=1d)
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* LDF = 2*D(7:0) (D must be greater than or equal to 6)
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* ODF = N(5:0) (when N=000000, 0DF=1d)
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*/
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idf = (freq_reg & 0x70000) >> 16;
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ldf = (freq_reg & 0xff) * 2;
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odf = (freq_reg & 0x3f00) >> 8;
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seldiv = (freq_reg & 0x01000000) >> 24;
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phi = (inclk_khz * ldf) / (2 * odf * idf);
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if (seldiv)
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phi = phi/2;
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return phi;
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}
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int do_clkinfo(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[])
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{
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uint32_t inclk_khz;
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uint32_t reg, phi;
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uint32_t clk_khz;
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unsigned int clk_sel;
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struct clk_mgt_regs *clks = clk_mgt_regs;
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struct pll_freq_regs *plls = pll_freq_regs;
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/*
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* Go through list of PLLs.
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* Initialise pll out frequency array (pll_khz) and print frequency.
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*/
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inclk_khz = 38400; /* 38.4 MHz */
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while (plls->addr) {
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reg = readl(plls->addr);
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phi = get_pll_freq_khz(inclk_khz, reg);
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pll_khz[plls->idx] = phi;
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printf("%s PLL out frequency: %d.%d Mhz\n",
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pll_name[plls->idx], phi/1000, phi % 1000);
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plls++;
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}
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/* check ARM clock source */
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reg = readl(PRCM_ARM_CHGCLKREQ_REG);
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printf("A9 running on %s\n",
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(reg & 1) ? "external clock" : "ARM PLL");
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/* go through list of clk_mgt_reg */
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printf("\n%19s %9s %7s %9s enabled\n",
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"name(addr)", "value", "PLL", "CLK[MHz]");
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while (clks->addr) {
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reg = readl(clks->addr);
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/* convert bit position into array index */
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clk_sel = ffs((reg >> 5) & 0x7); /* PLLSW[2:0] */
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if (reg & 0x200)
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clk_khz = 38400; /* CLK38 is set */
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else if ((reg & 0x1f) == 0)
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/* ARMCLKFIX_MGT is 0x120, e.g. div = 0 ! */
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clk_khz = 0;
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else
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clk_khz = pll_khz[clk_sel] / (reg & 0x1f);
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printf("%9s(%08x): %08x, %6s, %4d.%03d, %s\n",
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clks->descr, clks->addr, reg, pll_name[clk_sel],
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clk_khz / 1000, clk_khz % 1000,
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(reg & 0x100) ? "ena" : "dis");
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clks++;
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}
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return 0;
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}
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U_BOOT_CMD(
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clkinfo, 1, 1, do_clkinfo,
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"print clock info",
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""
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);
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