mirror of
https://github.com/brain-hackers/u-boot-brain
synced 2024-07-27 21:33:44 +09:00
83d290c56f
When U-Boot started using SPDX tags we were among the early adopters and there weren't a lot of other examples to borrow from. So we picked the area of the file that usually had a full license text and replaced it with an appropriate SPDX-License-Identifier: entry. Since then, the Linux Kernel has adopted SPDX tags and they place it as the very first line in a file (except where shebangs are used, then it's second line) and with slightly different comment styles than us. In part due to community overlap, in part due to better tag visibility and in part for other minor reasons, switch over to that style. This commit changes all instances where we have a single declared license in the tag as both the before and after are identical in tag contents. There's also a few places where I found we did not have a tag and have introduced one. Signed-off-by: Tom Rini <trini@konsulko.com>
526 lines
12 KiB
C
526 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
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#include <fsl_esdhc.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
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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
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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)
|
|
{
|
|
return fsl_esdhc_mmc_init(bis);
|
|
}
|
|
#endif
|
|
|
|
int get_clocks(void)
|
|
{
|
|
#ifdef CONFIG_FSL_ESDHC
|
|
#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;
|
|
}
|