forked from Minki/linux
1dc5c2cfc1
This is the small version of MT7620a. Signed-off-by: John Crispin <blogic@openwrt.org> Patchwork: http://patchwork.linux-mips.org/patch/8030/ Signed-off-by: Ralf Baechle <ralf@linux-mips.org>
363 lines
9.7 KiB
C
363 lines
9.7 KiB
C
/*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License version 2 as published
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* by the Free Software Foundation.
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*
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* Parts of this file are based on Ralink's 2.6.21 BSP
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*
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* Copyright (C) 2008-2011 Gabor Juhos <juhosg@openwrt.org>
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* Copyright (C) 2008 Imre Kaloz <kaloz@openwrt.org>
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* Copyright (C) 2013 John Crispin <blogic@openwrt.org>
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*/
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#include <linux/kernel.h>
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#include <linux/init.h>
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#include <linux/module.h>
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#include <asm/mipsregs.h>
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#include <asm/mach-ralink/ralink_regs.h>
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#include <asm/mach-ralink/mt7620.h>
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#include <asm/mach-ralink/pinmux.h>
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#include "common.h"
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/* analog */
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#define PMU0_CFG 0x88
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#define PMU_SW_SET BIT(28)
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#define A_DCDC_EN BIT(24)
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#define A_SSC_PERI BIT(19)
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#define A_SSC_GEN BIT(18)
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#define A_SSC_M 0x3
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#define A_SSC_S 16
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#define A_DLY_M 0x7
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#define A_DLY_S 8
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#define A_VTUNE_M 0xff
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/* digital */
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#define PMU1_CFG 0x8C
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#define DIG_SW_SEL BIT(25)
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/* does the board have sdram or ddram */
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static int dram_type;
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static struct rt2880_pmx_func i2c_grp[] = { FUNC("i2c", 0, 1, 2) };
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static struct rt2880_pmx_func spi_grp[] = { FUNC("spi", 0, 3, 4) };
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static struct rt2880_pmx_func uartlite_grp[] = { FUNC("uartlite", 0, 15, 2) };
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static struct rt2880_pmx_func mdio_grp[] = { FUNC("mdio", 0, 22, 2) };
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static struct rt2880_pmx_func rgmii1_grp[] = { FUNC("rgmii1", 0, 24, 12) };
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static struct rt2880_pmx_func refclk_grp[] = { FUNC("spi refclk", 0, 37, 3) };
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static struct rt2880_pmx_func ephy_grp[] = { FUNC("ephy", 0, 40, 5) };
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static struct rt2880_pmx_func rgmii2_grp[] = { FUNC("rgmii2", 0, 60, 12) };
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static struct rt2880_pmx_func wled_grp[] = { FUNC("wled", 0, 72, 1) };
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static struct rt2880_pmx_func pa_grp[] = { FUNC("pa", 0, 18, 4) };
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static struct rt2880_pmx_func uartf_grp[] = {
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FUNC("uartf", MT7620_GPIO_MODE_UARTF, 7, 8),
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FUNC("pcm uartf", MT7620_GPIO_MODE_PCM_UARTF, 7, 8),
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FUNC("pcm i2s", MT7620_GPIO_MODE_PCM_I2S, 7, 8),
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FUNC("i2s uartf", MT7620_GPIO_MODE_I2S_UARTF, 7, 8),
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FUNC("pcm gpio", MT7620_GPIO_MODE_PCM_GPIO, 11, 4),
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FUNC("gpio uartf", MT7620_GPIO_MODE_GPIO_UARTF, 7, 4),
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FUNC("gpio i2s", MT7620_GPIO_MODE_GPIO_I2S, 7, 4),
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};
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static struct rt2880_pmx_func wdt_grp[] = {
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FUNC("wdt rst", 0, 17, 1),
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FUNC("wdt refclk", 0, 17, 1),
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};
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static struct rt2880_pmx_func pcie_rst_grp[] = {
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FUNC("pcie rst", MT7620_GPIO_MODE_PCIE_RST, 36, 1),
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FUNC("pcie refclk", MT7620_GPIO_MODE_PCIE_REF, 36, 1)
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};
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static struct rt2880_pmx_func nd_sd_grp[] = {
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FUNC("nand", MT7620_GPIO_MODE_NAND, 45, 15),
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FUNC("sd", MT7620_GPIO_MODE_SD, 45, 15)
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};
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static struct rt2880_pmx_group mt7620a_pinmux_data[] = {
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GRP("i2c", i2c_grp, 1, MT7620_GPIO_MODE_I2C),
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GRP("uartf", uartf_grp, MT7620_GPIO_MODE_UART0_MASK,
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MT7620_GPIO_MODE_UART0_SHIFT),
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GRP("spi", spi_grp, 1, MT7620_GPIO_MODE_SPI),
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GRP("uartlite", uartlite_grp, 1, MT7620_GPIO_MODE_UART1),
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GRP_G("wdt", wdt_grp, MT7620_GPIO_MODE_WDT_MASK,
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MT7620_GPIO_MODE_WDT_GPIO, MT7620_GPIO_MODE_WDT_SHIFT),
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GRP("mdio", mdio_grp, 1, MT7620_GPIO_MODE_MDIO),
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GRP("rgmii1", rgmii1_grp, 1, MT7620_GPIO_MODE_RGMII1),
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GRP("spi refclk", refclk_grp, 1, MT7620_GPIO_MODE_SPI_REF_CLK),
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GRP_G("pcie", pcie_rst_grp, MT7620_GPIO_MODE_PCIE_MASK,
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MT7620_GPIO_MODE_PCIE_GPIO, MT7620_GPIO_MODE_PCIE_SHIFT),
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GRP_G("nd_sd", nd_sd_grp, MT7620_GPIO_MODE_ND_SD_MASK,
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MT7620_GPIO_MODE_ND_SD_GPIO, MT7620_GPIO_MODE_ND_SD_SHIFT),
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GRP("rgmii2", rgmii2_grp, 1, MT7620_GPIO_MODE_RGMII2),
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GRP("wled", wled_grp, 1, MT7620_GPIO_MODE_WLED),
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GRP("ephy", ephy_grp, 1, MT7620_GPIO_MODE_EPHY),
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GRP("pa", pa_grp, 1, MT7620_GPIO_MODE_PA),
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{ 0 }
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};
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static __init u32
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mt7620_calc_rate(u32 ref_rate, u32 mul, u32 div)
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{
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u64 t;
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t = ref_rate;
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t *= mul;
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do_div(t, div);
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return t;
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}
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#define MHZ(x) ((x) * 1000 * 1000)
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static __init unsigned long
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mt7620_get_xtal_rate(void)
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{
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u32 reg;
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reg = rt_sysc_r32(SYSC_REG_SYSTEM_CONFIG0);
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if (reg & SYSCFG0_XTAL_FREQ_SEL)
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return MHZ(40);
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return MHZ(20);
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}
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static __init unsigned long
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mt7620_get_periph_rate(unsigned long xtal_rate)
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{
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u32 reg;
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reg = rt_sysc_r32(SYSC_REG_CLKCFG0);
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if (reg & CLKCFG0_PERI_CLK_SEL)
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return xtal_rate;
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return MHZ(40);
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}
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static const u32 mt7620_clk_divider[] __initconst = { 2, 3, 4, 8 };
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static __init unsigned long
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mt7620_get_cpu_pll_rate(unsigned long xtal_rate)
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{
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u32 reg;
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u32 mul;
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u32 div;
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reg = rt_sysc_r32(SYSC_REG_CPLL_CONFIG0);
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if (reg & CPLL_CFG0_BYPASS_REF_CLK)
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return xtal_rate;
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if ((reg & CPLL_CFG0_SW_CFG) == 0)
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return MHZ(600);
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mul = (reg >> CPLL_CFG0_PLL_MULT_RATIO_SHIFT) &
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CPLL_CFG0_PLL_MULT_RATIO_MASK;
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mul += 24;
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if (reg & CPLL_CFG0_LC_CURFCK)
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mul *= 2;
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div = (reg >> CPLL_CFG0_PLL_DIV_RATIO_SHIFT) &
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CPLL_CFG0_PLL_DIV_RATIO_MASK;
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WARN_ON(div >= ARRAY_SIZE(mt7620_clk_divider));
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return mt7620_calc_rate(xtal_rate, mul, mt7620_clk_divider[div]);
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}
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static __init unsigned long
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mt7620_get_pll_rate(unsigned long xtal_rate, unsigned long cpu_pll_rate)
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{
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u32 reg;
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reg = rt_sysc_r32(SYSC_REG_CPLL_CONFIG1);
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if (reg & CPLL_CFG1_CPU_AUX1)
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return xtal_rate;
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if (reg & CPLL_CFG1_CPU_AUX0)
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return MHZ(480);
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return cpu_pll_rate;
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}
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static __init unsigned long
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mt7620_get_cpu_rate(unsigned long pll_rate)
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{
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u32 reg;
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u32 mul;
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u32 div;
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reg = rt_sysc_r32(SYSC_REG_CPU_SYS_CLKCFG);
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mul = reg & CPU_SYS_CLKCFG_CPU_FFRAC_MASK;
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div = (reg >> CPU_SYS_CLKCFG_CPU_FDIV_SHIFT) &
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CPU_SYS_CLKCFG_CPU_FDIV_MASK;
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return mt7620_calc_rate(pll_rate, mul, div);
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}
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static const u32 mt7620_ocp_dividers[16] __initconst = {
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[CPU_SYS_CLKCFG_OCP_RATIO_2] = 2,
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[CPU_SYS_CLKCFG_OCP_RATIO_3] = 3,
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[CPU_SYS_CLKCFG_OCP_RATIO_4] = 4,
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[CPU_SYS_CLKCFG_OCP_RATIO_5] = 5,
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[CPU_SYS_CLKCFG_OCP_RATIO_10] = 10,
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};
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static __init unsigned long
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mt7620_get_dram_rate(unsigned long pll_rate)
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{
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if (dram_type == SYSCFG0_DRAM_TYPE_SDRAM)
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return pll_rate / 4;
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return pll_rate / 3;
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}
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static __init unsigned long
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mt7620_get_sys_rate(unsigned long cpu_rate)
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{
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u32 reg;
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u32 ocp_ratio;
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u32 div;
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reg = rt_sysc_r32(SYSC_REG_CPU_SYS_CLKCFG);
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ocp_ratio = (reg >> CPU_SYS_CLKCFG_OCP_RATIO_SHIFT) &
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CPU_SYS_CLKCFG_OCP_RATIO_MASK;
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if (WARN_ON(ocp_ratio >= ARRAY_SIZE(mt7620_ocp_dividers)))
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return cpu_rate;
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div = mt7620_ocp_dividers[ocp_ratio];
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if (WARN(!div, "invalid divider for OCP ratio %u", ocp_ratio))
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return cpu_rate;
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return cpu_rate / div;
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}
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void __init ralink_clk_init(void)
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{
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unsigned long xtal_rate;
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unsigned long cpu_pll_rate;
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unsigned long pll_rate;
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unsigned long cpu_rate;
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unsigned long sys_rate;
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unsigned long dram_rate;
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unsigned long periph_rate;
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xtal_rate = mt7620_get_xtal_rate();
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cpu_pll_rate = mt7620_get_cpu_pll_rate(xtal_rate);
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pll_rate = mt7620_get_pll_rate(xtal_rate, cpu_pll_rate);
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cpu_rate = mt7620_get_cpu_rate(pll_rate);
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dram_rate = mt7620_get_dram_rate(pll_rate);
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sys_rate = mt7620_get_sys_rate(cpu_rate);
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periph_rate = mt7620_get_periph_rate(xtal_rate);
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#define RFMT(label) label ":%lu.%03luMHz "
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#define RINT(x) ((x) / 1000000)
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#define RFRAC(x) (((x) / 1000) % 1000)
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pr_debug(RFMT("XTAL") RFMT("CPU_PLL") RFMT("PLL"),
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RINT(xtal_rate), RFRAC(xtal_rate),
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RINT(cpu_pll_rate), RFRAC(cpu_pll_rate),
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RINT(pll_rate), RFRAC(pll_rate));
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pr_debug(RFMT("CPU") RFMT("DRAM") RFMT("SYS") RFMT("PERIPH"),
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RINT(cpu_rate), RFRAC(cpu_rate),
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RINT(dram_rate), RFRAC(dram_rate),
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RINT(sys_rate), RFRAC(sys_rate),
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RINT(periph_rate), RFRAC(periph_rate));
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#undef RFRAC
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#undef RINT
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#undef RFMT
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ralink_clk_add("cpu", cpu_rate);
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ralink_clk_add("10000100.timer", periph_rate);
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ralink_clk_add("10000120.watchdog", periph_rate);
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ralink_clk_add("10000500.uart", periph_rate);
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ralink_clk_add("10000b00.spi", sys_rate);
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ralink_clk_add("10000c00.uartlite", periph_rate);
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ralink_clk_add("10180000.wmac", xtal_rate);
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}
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void __init ralink_of_remap(void)
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{
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rt_sysc_membase = plat_of_remap_node("ralink,mt7620a-sysc");
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rt_memc_membase = plat_of_remap_node("ralink,mt7620a-memc");
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if (!rt_sysc_membase || !rt_memc_membase)
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panic("Failed to remap core resources");
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}
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void prom_soc_init(struct ralink_soc_info *soc_info)
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{
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void __iomem *sysc = (void __iomem *) KSEG1ADDR(MT7620_SYSC_BASE);
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unsigned char *name = NULL;
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u32 n0;
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u32 n1;
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u32 rev;
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u32 cfg0;
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u32 pmu0;
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u32 pmu1;
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u32 bga;
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n0 = __raw_readl(sysc + SYSC_REG_CHIP_NAME0);
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n1 = __raw_readl(sysc + SYSC_REG_CHIP_NAME1);
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rev = __raw_readl(sysc + SYSC_REG_CHIP_REV);
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bga = (rev >> CHIP_REV_PKG_SHIFT) & CHIP_REV_PKG_MASK;
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if (n0 != MT7620_CHIP_NAME0 || n1 != MT7620_CHIP_NAME1)
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panic("mt7620: unknown SoC, n0:%08x n1:%08x\n", n0, n1);
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if (bga) {
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name = "MT7620A";
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soc_info->compatible = "ralink,mt7620a-soc";
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} else {
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name = "MT7620N";
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soc_info->compatible = "ralink,mt7620n-soc";
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#ifdef CONFIG_PCI
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panic("mt7620n is only supported for non pci kernels");
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#endif
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}
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snprintf(soc_info->sys_type, RAMIPS_SYS_TYPE_LEN,
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"Ralink %s ver:%u eco:%u",
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name,
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(rev >> CHIP_REV_VER_SHIFT) & CHIP_REV_VER_MASK,
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(rev & CHIP_REV_ECO_MASK));
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cfg0 = __raw_readl(sysc + SYSC_REG_SYSTEM_CONFIG0);
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dram_type = (cfg0 >> SYSCFG0_DRAM_TYPE_SHIFT) & SYSCFG0_DRAM_TYPE_MASK;
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switch (dram_type) {
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case SYSCFG0_DRAM_TYPE_SDRAM:
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pr_info("Board has SDRAM\n");
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soc_info->mem_size_min = MT7620_SDRAM_SIZE_MIN;
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soc_info->mem_size_max = MT7620_SDRAM_SIZE_MAX;
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break;
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case SYSCFG0_DRAM_TYPE_DDR1:
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pr_info("Board has DDR1\n");
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soc_info->mem_size_min = MT7620_DDR1_SIZE_MIN;
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soc_info->mem_size_max = MT7620_DDR1_SIZE_MAX;
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break;
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case SYSCFG0_DRAM_TYPE_DDR2:
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pr_info("Board has DDR2\n");
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soc_info->mem_size_min = MT7620_DDR2_SIZE_MIN;
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soc_info->mem_size_max = MT7620_DDR2_SIZE_MAX;
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break;
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default:
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BUG();
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}
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soc_info->mem_base = MT7620_DRAM_BASE;
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pmu0 = __raw_readl(sysc + PMU0_CFG);
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pmu1 = __raw_readl(sysc + PMU1_CFG);
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pr_info("Analog PMU set to %s control\n",
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(pmu0 & PMU_SW_SET) ? ("sw") : ("hw"));
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pr_info("Digital PMU set to %s control\n",
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(pmu1 & DIG_SW_SEL) ? ("sw") : ("hw"));
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}
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