mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-25 12:33:41 +00:00
e37ac717d7
Converted to use fsl_esdhc_imx for i.MX platforms. Signed-off-by: Yangbo Lu <yangbo.lu@nxp.com> Tested-by: Steffen Dirkwinkel <s.dirkwinkel@beckhoff.com> Reviewed-by: Peng Fan <peng.fan@nxp.com> Reviewed-by: Lukasz Majewski <lukma@denx.de> Reviewed-by: Martyn Welch <martyn.welch@collabora.com> Acked-by: Jason Liu <Jason.hui.liu@nxp.com>
525 lines
12 KiB
C
525 lines
12 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* (C) Copyright 2007
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* Sascha Hauer, Pengutronix
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*
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* (C) Copyright 2008-2010 Freescale Semiconductor, Inc.
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*/
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#include <common.h>
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#include <div64.h>
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#include <asm/io.h>
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#include <linux/errno.h>
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#include <asm/arch/imx-regs.h>
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#include <asm/arch/crm_regs.h>
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#include <asm/arch/clock.h>
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#include <asm/arch/sys_proto.h>
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#ifdef CONFIG_FSL_ESDHC_IMX
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#include <fsl_esdhc_imx.h>
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#endif
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#include <netdev.h>
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#include <spl.h>
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#define CLK_CODE(arm, ahb, sel) (((arm) << 16) + ((ahb) << 8) + (sel))
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#define CLK_CODE_ARM(c) (((c) >> 16) & 0xFF)
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#define CLK_CODE_AHB(c) (((c) >> 8) & 0xFF)
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#define CLK_CODE_PATH(c) ((c) & 0xFF)
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#define CCM_GET_DIVIDER(x, m, o) (((x) & (m)) >> (o))
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#ifdef CONFIG_FSL_ESDHC_IMX
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DECLARE_GLOBAL_DATA_PTR;
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#endif
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static int g_clk_mux_auto[8] = {
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CLK_CODE(1, 3, 0), CLK_CODE(1, 2, 1), CLK_CODE(2, 1, 1), -1,
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CLK_CODE(1, 6, 0), CLK_CODE(1, 4, 1), CLK_CODE(2, 2, 1), -1,
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};
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static int g_clk_mux_consumer[16] = {
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CLK_CODE(1, 4, 0), CLK_CODE(1, 3, 1), CLK_CODE(1, 3, 1), -1,
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-1, -1, CLK_CODE(4, 1, 0), CLK_CODE(1, 5, 0),
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CLK_CODE(1, 8, 1), CLK_CODE(1, 6, 1), CLK_CODE(2, 4, 0), -1,
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-1, -1, CLK_CODE(4, 2, 0), -1,
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};
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static int hsp_div_table[3][16] = {
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{4, 3, 2, -1, -1, -1, 1, 5, 4, 3, 2, -1, -1, -1, 1, -1},
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{-1, -1, -1, -1, -1, -1, -1, -1, 8, 6, 4, -1, -1, -1, 2, -1},
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{3, -1, -1, -1, -1, -1, -1, -1, 3, -1, -1, -1, -1, -1, -1, -1},
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};
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u32 get_cpu_rev(void)
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{
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int reg;
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struct iim_regs *iim =
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(struct iim_regs *)IIM_BASE_ADDR;
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reg = readl(&iim->iim_srev);
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if (!reg) {
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reg = readw(ROMPATCH_REV);
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reg <<= 4;
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} else {
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reg += CHIP_REV_1_0;
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}
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return 0x35000 + (reg & 0xFF);
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}
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static u32 get_arm_div(u32 pdr0, u32 *fi, u32 *fd)
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{
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int *pclk_mux;
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if (pdr0 & MXC_CCM_PDR0_AUTO_CON) {
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pclk_mux = g_clk_mux_consumer +
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((pdr0 & MXC_CCM_PDR0_CON_MUX_DIV_MASK) >>
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MXC_CCM_PDR0_CON_MUX_DIV_OFFSET);
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} else {
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pclk_mux = g_clk_mux_auto +
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((pdr0 & MXC_CCM_PDR0_AUTO_MUX_DIV_MASK) >>
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MXC_CCM_PDR0_AUTO_MUX_DIV_OFFSET);
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}
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if ((*pclk_mux) == -1)
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return -1;
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if (fi && fd) {
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if (!CLK_CODE_PATH(*pclk_mux)) {
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*fi = *fd = 1;
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return CLK_CODE_ARM(*pclk_mux);
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}
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if (pdr0 & MXC_CCM_PDR0_AUTO_CON) {
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*fi = 3;
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*fd = 4;
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} else {
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*fi = 2;
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*fd = 3;
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}
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}
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return CLK_CODE_ARM(*pclk_mux);
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}
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static int get_ahb_div(u32 pdr0)
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{
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int *pclk_mux;
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pclk_mux = g_clk_mux_consumer +
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((pdr0 & MXC_CCM_PDR0_CON_MUX_DIV_MASK) >>
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MXC_CCM_PDR0_CON_MUX_DIV_OFFSET);
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if ((*pclk_mux) == -1)
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return -1;
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return CLK_CODE_AHB(*pclk_mux);
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}
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static u32 decode_pll(u32 reg, u32 infreq)
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{
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u32 mfi = (reg >> 10) & 0xf;
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s32 mfn = reg & 0x3ff;
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u32 mfd = (reg >> 16) & 0x3ff;
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u32 pd = (reg >> 26) & 0xf;
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mfi = mfi <= 5 ? 5 : mfi;
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mfn = mfn >= 512 ? mfn - 1024 : mfn;
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mfd += 1;
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pd += 1;
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return lldiv(2 * (u64)infreq * (mfi * mfd + mfn),
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mfd * pd);
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}
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static u32 get_mcu_main_clk(void)
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{
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u32 arm_div = 0, fi = 0, fd = 0;
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struct ccm_regs *ccm =
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(struct ccm_regs *)IMX_CCM_BASE;
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arm_div = get_arm_div(readl(&ccm->pdr0), &fi, &fd);
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fi *= decode_pll(readl(&ccm->mpctl), MXC_HCLK);
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return fi / (arm_div * fd);
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}
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static u32 get_ipg_clk(void)
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{
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u32 freq = get_mcu_main_clk();
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struct ccm_regs *ccm =
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(struct ccm_regs *)IMX_CCM_BASE;
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u32 pdr0 = readl(&ccm->pdr0);
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return freq / (get_ahb_div(pdr0) * 2);
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}
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static u32 get_ipg_per_clk(void)
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{
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u32 freq = get_mcu_main_clk();
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struct ccm_regs *ccm =
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(struct ccm_regs *)IMX_CCM_BASE;
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u32 pdr0 = readl(&ccm->pdr0);
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u32 pdr4 = readl(&ccm->pdr4);
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u32 div;
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if (pdr0 & MXC_CCM_PDR0_PER_SEL) {
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div = CCM_GET_DIVIDER(pdr4,
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MXC_CCM_PDR4_PER0_PODF_MASK,
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MXC_CCM_PDR4_PER0_PODF_OFFSET) + 1;
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} else {
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div = CCM_GET_DIVIDER(pdr0,
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MXC_CCM_PDR0_PER_PODF_MASK,
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MXC_CCM_PDR0_PER_PODF_OFFSET) + 1;
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div *= get_ahb_div(pdr0);
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}
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return freq / div;
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}
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u32 imx_get_uartclk(void)
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{
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u32 freq;
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struct ccm_regs *ccm =
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(struct ccm_regs *)IMX_CCM_BASE;
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u32 pdr4 = readl(&ccm->pdr4);
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if (readl(&ccm->pdr3) & MXC_CCM_PDR3_UART_M_U)
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freq = get_mcu_main_clk();
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else
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freq = decode_pll(readl(&ccm->ppctl), MXC_HCLK);
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freq /= CCM_GET_DIVIDER(pdr4,
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MXC_CCM_PDR4_UART_PODF_MASK,
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MXC_CCM_PDR4_UART_PODF_OFFSET) + 1;
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return freq;
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}
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unsigned int mxc_get_main_clock(enum mxc_main_clock clk)
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{
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u32 nfc_pdf, hsp_podf;
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u32 pll, ret_val = 0, usb_podf;
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struct ccm_regs *ccm =
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(struct ccm_regs *)IMX_CCM_BASE;
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u32 reg = readl(&ccm->pdr0);
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u32 reg4 = readl(&ccm->pdr4);
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reg |= 0x1;
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switch (clk) {
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case CPU_CLK:
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ret_val = get_mcu_main_clk();
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break;
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case AHB_CLK:
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ret_val = get_mcu_main_clk();
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break;
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case HSP_CLK:
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if (reg & CLKMODE_CONSUMER) {
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hsp_podf = (reg >> 20) & 0x3;
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pll = get_mcu_main_clk();
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hsp_podf = hsp_div_table[hsp_podf][(reg>>16)&0xF];
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if (hsp_podf > 0) {
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ret_val = pll / hsp_podf;
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} else {
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puts("mismatch HSP with ARM clock setting\n");
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ret_val = 0;
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}
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} else {
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ret_val = get_mcu_main_clk();
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}
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break;
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case IPG_CLK:
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ret_val = get_ipg_clk();
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break;
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case IPG_PER_CLK:
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ret_val = get_ipg_per_clk();
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break;
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case NFC_CLK:
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nfc_pdf = (reg4 >> 28) & 0xF;
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pll = get_mcu_main_clk();
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/* AHB/nfc_pdf */
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ret_val = pll / (nfc_pdf + 1);
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break;
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case USB_CLK:
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usb_podf = (reg4 >> 22) & 0x3F;
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if (reg4 & 0x200)
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pll = get_mcu_main_clk();
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else
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pll = decode_pll(readl(&ccm->ppctl), MXC_HCLK);
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ret_val = pll / (usb_podf + 1);
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break;
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default:
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printf("Unknown clock: %d\n", clk);
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break;
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}
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return ret_val;
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}
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unsigned int mxc_get_peri_clock(enum mxc_peri_clock clk)
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{
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u32 ret_val = 0, pdf, pre_pdf, clk_sel;
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struct ccm_regs *ccm =
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(struct ccm_regs *)IMX_CCM_BASE;
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u32 mpdr2 = readl(&ccm->pdr2);
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u32 mpdr3 = readl(&ccm->pdr3);
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u32 mpdr4 = readl(&ccm->pdr4);
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switch (clk) {
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case UART1_BAUD:
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case UART2_BAUD:
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case UART3_BAUD:
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clk_sel = mpdr3 & (1 << 14);
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pdf = (mpdr4 >> 10) & 0x3F;
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) / (pdf + 1);
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break;
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case SSI1_BAUD:
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pre_pdf = (mpdr2 >> 24) & 0x7;
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pdf = mpdr2 & 0x3F;
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clk_sel = mpdr2 & (1 << 6);
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) /
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((pre_pdf + 1) * (pdf + 1));
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break;
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case SSI2_BAUD:
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pre_pdf = (mpdr2 >> 27) & 0x7;
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pdf = (mpdr2 >> 8) & 0x3F;
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clk_sel = mpdr2 & (1 << 6);
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) /
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((pre_pdf + 1) * (pdf + 1));
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break;
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case CSI_BAUD:
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clk_sel = mpdr2 & (1 << 7);
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pdf = (mpdr2 >> 16) & 0x3F;
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) / (pdf + 1);
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break;
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case MSHC_CLK:
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pre_pdf = readl(&ccm->pdr1);
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clk_sel = (pre_pdf & 0x80);
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pdf = (pre_pdf >> 22) & 0x3F;
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pre_pdf = (pre_pdf >> 28) & 0x7;
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) /
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((pre_pdf + 1) * (pdf + 1));
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break;
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case ESDHC1_CLK:
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clk_sel = mpdr3 & 0x40;
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pdf = mpdr3 & 0x3F;
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) / (pdf + 1);
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break;
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case ESDHC2_CLK:
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clk_sel = mpdr3 & 0x40;
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pdf = (mpdr3 >> 8) & 0x3F;
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) / (pdf + 1);
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break;
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case ESDHC3_CLK:
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clk_sel = mpdr3 & 0x40;
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pdf = (mpdr3 >> 16) & 0x3F;
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) / (pdf + 1);
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break;
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case SPDIF_CLK:
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clk_sel = mpdr3 & 0x400000;
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pre_pdf = (mpdr3 >> 29) & 0x7;
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pdf = (mpdr3 >> 23) & 0x3F;
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ret_val = ((clk_sel != 0) ? mxc_get_main_clock(CPU_CLK) :
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decode_pll(readl(&ccm->ppctl), MXC_HCLK)) /
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((pre_pdf + 1) * (pdf + 1));
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break;
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default:
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printf("%s(): This clock: %d not supported yet\n",
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__func__, clk);
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break;
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}
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return ret_val;
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}
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unsigned int mxc_get_clock(enum mxc_clock clk)
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{
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switch (clk) {
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case MXC_ARM_CLK:
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return get_mcu_main_clk();
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case MXC_AHB_CLK:
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break;
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case MXC_IPG_CLK:
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return get_ipg_clk();
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case MXC_IPG_PERCLK:
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case MXC_I2C_CLK:
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return get_ipg_per_clk();
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case MXC_UART_CLK:
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return imx_get_uartclk();
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case MXC_ESDHC1_CLK:
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return mxc_get_peri_clock(ESDHC1_CLK);
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case MXC_ESDHC2_CLK:
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return mxc_get_peri_clock(ESDHC2_CLK);
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case MXC_ESDHC3_CLK:
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return mxc_get_peri_clock(ESDHC3_CLK);
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case MXC_USB_CLK:
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return mxc_get_main_clock(USB_CLK);
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case MXC_FEC_CLK:
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return get_ipg_clk();
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case MXC_CSPI_CLK:
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return get_ipg_clk();
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}
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return -1;
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}
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#ifdef CONFIG_FEC_MXC
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/*
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* The MX35 has no fuse for MAC, return a NULL MAC
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*/
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void imx_get_mac_from_fuse(int dev_id, unsigned char *mac)
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{
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memset(mac, 0, 6);
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}
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u32 imx_get_fecclk(void)
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{
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return mxc_get_clock(MXC_IPG_CLK);
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}
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#endif
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int do_mx35_showclocks(cmd_tbl_t *cmdtp,
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int flag, int argc, char * const argv[])
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{
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u32 cpufreq = get_mcu_main_clk();
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printf("mx35 cpu clock: %dMHz\n", cpufreq / 1000000);
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printf("ipg clock : %dHz\n", get_ipg_clk());
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printf("ipg per clock : %dHz\n", get_ipg_per_clk());
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printf("uart clock : %dHz\n", mxc_get_clock(MXC_UART_CLK));
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return 0;
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}
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U_BOOT_CMD(
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clocks, CONFIG_SYS_MAXARGS, 1, do_mx35_showclocks,
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"display clocks",
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""
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);
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#if defined(CONFIG_DISPLAY_CPUINFO)
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static char *get_reset_cause(void)
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{
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/* read RCSR register from CCM module */
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struct ccm_regs *ccm =
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(struct ccm_regs *)IMX_CCM_BASE;
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u32 cause = readl(&ccm->rcsr) & 0x0F;
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switch (cause) {
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case 0x0000:
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return "POR";
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case 0x0002:
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return "JTAG";
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case 0x0004:
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return "RST";
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case 0x0008:
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return "WDOG";
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default:
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return "unknown reset";
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}
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}
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int print_cpuinfo(void)
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{
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u32 srev = get_cpu_rev();
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printf("CPU: Freescale i.MX35 rev %d.%d at %d MHz.\n",
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(srev & 0xF0) >> 4, (srev & 0x0F),
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get_mcu_main_clk() / 1000000);
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printf("Reset cause: %s\n", get_reset_cause());
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return 0;
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}
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#endif
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/*
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* Initializes on-chip ethernet controllers.
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* to override, implement board_eth_init()
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*/
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int cpu_eth_init(bd_t *bis)
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{
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int rc = -ENODEV;
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#if defined(CONFIG_FEC_MXC)
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rc = fecmxc_initialize(bis);
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#endif
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return rc;
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}
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#ifdef CONFIG_FSL_ESDHC_IMX
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/*
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* Initializes on-chip MMC controllers.
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* to override, implement board_mmc_init()
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*/
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int cpu_mmc_init(bd_t *bis)
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{
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return fsl_esdhc_mmc_init(bis);
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}
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#endif
|
|
|
|
int get_clocks(void)
|
|
{
|
|
#ifdef CONFIG_FSL_ESDHC_IMX
|
|
#if CONFIG_SYS_FSL_ESDHC_ADDR == MMC_SDHC2_BASE_ADDR
|
|
gd->arch.sdhc_clk = mxc_get_clock(MXC_ESDHC2_CLK);
|
|
#elif CONFIG_SYS_FSL_ESDHC_ADDR == MMC_SDHC3_BASE_ADDR
|
|
gd->arch.sdhc_clk = mxc_get_clock(MXC_ESDHC3_CLK);
|
|
#else
|
|
gd->arch.sdhc_clk = mxc_get_clock(MXC_ESDHC1_CLK);
|
|
#endif
|
|
#endif
|
|
return 0;
|
|
}
|
|
|
|
#define RCSR_MEM_CTL_WEIM 0
|
|
#define RCSR_MEM_CTL_NAND 1
|
|
#define RCSR_MEM_CTL_ATA 2
|
|
#define RCSR_MEM_CTL_EXPANSION 3
|
|
#define RCSR_MEM_TYPE_NOR 0
|
|
#define RCSR_MEM_TYPE_ONENAND 2
|
|
#define RCSR_MEM_TYPE_SD 0
|
|
#define RCSR_MEM_TYPE_I2C 2
|
|
#define RCSR_MEM_TYPE_SPI 3
|
|
|
|
u32 spl_boot_device(void)
|
|
{
|
|
struct ccm_regs *ccm =
|
|
(struct ccm_regs *)IMX_CCM_BASE;
|
|
|
|
u32 rcsr = readl(&ccm->rcsr);
|
|
u32 mem_type, mem_ctl;
|
|
|
|
/* In external mode, no boot device is returned */
|
|
if ((rcsr >> 10) & 0x03)
|
|
return BOOT_DEVICE_NONE;
|
|
|
|
mem_ctl = (rcsr >> 25) & 0x03;
|
|
mem_type = (rcsr >> 23) & 0x03;
|
|
|
|
switch (mem_ctl) {
|
|
case RCSR_MEM_CTL_WEIM:
|
|
switch (mem_type) {
|
|
case RCSR_MEM_TYPE_NOR:
|
|
return BOOT_DEVICE_NOR;
|
|
case RCSR_MEM_TYPE_ONENAND:
|
|
return BOOT_DEVICE_ONENAND;
|
|
default:
|
|
return BOOT_DEVICE_NONE;
|
|
}
|
|
case RCSR_MEM_CTL_NAND:
|
|
return BOOT_DEVICE_NAND;
|
|
case RCSR_MEM_CTL_EXPANSION:
|
|
switch (mem_type) {
|
|
case RCSR_MEM_TYPE_SD:
|
|
return BOOT_DEVICE_MMC1;
|
|
case RCSR_MEM_TYPE_I2C:
|
|
return BOOT_DEVICE_I2C;
|
|
case RCSR_MEM_TYPE_SPI:
|
|
return BOOT_DEVICE_SPI;
|
|
default:
|
|
return BOOT_DEVICE_NONE;
|
|
}
|
|
}
|
|
|
|
return BOOT_DEVICE_NONE;
|
|
}
|