476 строки
12 KiB
C
476 строки
12 KiB
C
/*
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* Copyright (C) 2007 Felix Fietkau <nbd@openwrt.org>
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* Copyright (C) 2007 Eugene Konev <ejka@openwrt.org>
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* Copyright (C) 2009 Florian Fainelli <florian@openwrt.org>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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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/types.h>
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#include <linux/module.h>
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#include <linux/delay.h>
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#include <linux/gcd.h>
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#include <linux/io.h>
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#include <linux/err.h>
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#include <linux/clk.h>
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#include <asm/addrspace.h>
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#include <asm/mach-ar7/ar7.h>
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#define BOOT_PLL_SOURCE_MASK 0x3
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#define CPU_PLL_SOURCE_SHIFT 16
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#define BUS_PLL_SOURCE_SHIFT 14
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#define USB_PLL_SOURCE_SHIFT 18
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#define DSP_PLL_SOURCE_SHIFT 22
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#define BOOT_PLL_SOURCE_AFE 0
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#define BOOT_PLL_SOURCE_BUS 0
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#define BOOT_PLL_SOURCE_REF 1
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#define BOOT_PLL_SOURCE_XTAL 2
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#define BOOT_PLL_SOURCE_CPU 3
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#define BOOT_PLL_BYPASS 0x00000020
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#define BOOT_PLL_ASYNC_MODE 0x02000000
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#define BOOT_PLL_2TO1_MODE 0x00008000
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#define TNETD7200_CLOCK_ID_CPU 0
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#define TNETD7200_CLOCK_ID_DSP 1
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#define TNETD7200_CLOCK_ID_USB 2
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#define TNETD7200_DEF_CPU_CLK 211000000
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#define TNETD7200_DEF_DSP_CLK 125000000
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#define TNETD7200_DEF_USB_CLK 48000000
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struct tnetd7300_clock {
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u32 ctrl;
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#define PREDIV_MASK 0x001f0000
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#define PREDIV_SHIFT 16
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#define POSTDIV_MASK 0x0000001f
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u32 unused1[3];
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u32 pll;
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#define MUL_MASK 0x0000f000
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#define MUL_SHIFT 12
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#define PLL_MODE_MASK 0x00000001
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#define PLL_NDIV 0x00000800
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#define PLL_DIV 0x00000002
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#define PLL_STATUS 0x00000001
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u32 unused2[3];
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};
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struct tnetd7300_clocks {
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struct tnetd7300_clock bus;
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struct tnetd7300_clock cpu;
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struct tnetd7300_clock usb;
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struct tnetd7300_clock dsp;
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};
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struct tnetd7200_clock {
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u32 ctrl;
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u32 unused1[3];
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#define DIVISOR_ENABLE_MASK 0x00008000
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u32 mul;
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u32 prediv;
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u32 postdiv;
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u32 postdiv2;
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u32 unused2[6];
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u32 cmd;
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u32 status;
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u32 cmden;
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u32 padding[15];
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};
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struct tnetd7200_clocks {
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struct tnetd7200_clock cpu;
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struct tnetd7200_clock dsp;
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struct tnetd7200_clock usb;
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};
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static struct clk bus_clk = {
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.rate = 125000000,
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};
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static struct clk cpu_clk = {
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.rate = 150000000,
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};
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static struct clk dsp_clk;
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static struct clk vbus_clk;
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static void approximate(int base, int target, int *prediv,
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int *postdiv, int *mul)
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{
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int i, j, k, freq, res = target;
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for (i = 1; i <= 16; i++)
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for (j = 1; j <= 32; j++)
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for (k = 1; k <= 32; k++) {
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freq = abs(base / j * i / k - target);
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if (freq < res) {
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res = freq;
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*mul = i;
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*prediv = j;
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*postdiv = k;
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}
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}
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}
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static void calculate(int base, int target, int *prediv, int *postdiv,
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int *mul)
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{
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int tmp_gcd, tmp_base, tmp_freq;
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for (*prediv = 1; *prediv <= 32; (*prediv)++) {
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tmp_base = base / *prediv;
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tmp_gcd = gcd(target, tmp_base);
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*mul = target / tmp_gcd;
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*postdiv = tmp_base / tmp_gcd;
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if ((*mul < 1) || (*mul >= 16))
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continue;
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if ((*postdiv > 0) & (*postdiv <= 32))
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break;
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}
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if (base / *prediv * *mul / *postdiv != target) {
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approximate(base, target, prediv, postdiv, mul);
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tmp_freq = base / *prediv * *mul / *postdiv;
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printk(KERN_WARNING
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"Adjusted requested frequency %d to %d\n",
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target, tmp_freq);
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}
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printk(KERN_DEBUG "Clocks: prediv: %d, postdiv: %d, mul: %d\n",
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*prediv, *postdiv, *mul);
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}
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static int tnetd7300_dsp_clock(void)
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{
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u32 didr1, didr2;
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u8 rev = ar7_chip_rev();
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didr1 = readl((void *)KSEG1ADDR(AR7_REGS_GPIO + 0x18));
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didr2 = readl((void *)KSEG1ADDR(AR7_REGS_GPIO + 0x1c));
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if (didr2 & (1 << 23))
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return 0;
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if ((rev >= 0x23) && (rev != 0x57))
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return 250000000;
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if ((((didr2 & 0x1fff) << 10) | ((didr1 & 0xffc00000) >> 22))
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> 4208000)
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return 250000000;
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return 0;
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}
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static int tnetd7300_get_clock(u32 shift, struct tnetd7300_clock *clock,
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u32 *bootcr, u32 bus_clock)
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{
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int product;
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int base_clock = AR7_REF_CLOCK;
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u32 ctrl = readl(&clock->ctrl);
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u32 pll = readl(&clock->pll);
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int prediv = ((ctrl & PREDIV_MASK) >> PREDIV_SHIFT) + 1;
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int postdiv = (ctrl & POSTDIV_MASK) + 1;
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int divisor = prediv * postdiv;
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int mul = ((pll & MUL_MASK) >> MUL_SHIFT) + 1;
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switch ((*bootcr & (BOOT_PLL_SOURCE_MASK << shift)) >> shift) {
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case BOOT_PLL_SOURCE_BUS:
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base_clock = bus_clock;
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break;
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case BOOT_PLL_SOURCE_REF:
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base_clock = AR7_REF_CLOCK;
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break;
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case BOOT_PLL_SOURCE_XTAL:
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base_clock = AR7_XTAL_CLOCK;
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break;
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case BOOT_PLL_SOURCE_CPU:
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base_clock = cpu_clk.rate;
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break;
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}
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if (*bootcr & BOOT_PLL_BYPASS)
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return base_clock / divisor;
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if ((pll & PLL_MODE_MASK) == 0)
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return (base_clock >> (mul / 16 + 1)) / divisor;
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if ((pll & (PLL_NDIV | PLL_DIV)) == (PLL_NDIV | PLL_DIV)) {
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product = (mul & 1) ?
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(base_clock * mul) >> 1 :
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(base_clock * (mul - 1)) >> 2;
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return product / divisor;
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}
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if (mul == 16)
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return base_clock / divisor;
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return base_clock * mul / divisor;
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}
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static void tnetd7300_set_clock(u32 shift, struct tnetd7300_clock *clock,
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u32 *bootcr, u32 frequency)
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{
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int prediv, postdiv, mul;
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int base_clock = bus_clk.rate;
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switch ((*bootcr & (BOOT_PLL_SOURCE_MASK << shift)) >> shift) {
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case BOOT_PLL_SOURCE_BUS:
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base_clock = bus_clk.rate;
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break;
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case BOOT_PLL_SOURCE_REF:
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base_clock = AR7_REF_CLOCK;
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break;
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case BOOT_PLL_SOURCE_XTAL:
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base_clock = AR7_XTAL_CLOCK;
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break;
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case BOOT_PLL_SOURCE_CPU:
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base_clock = cpu_clk.rate;
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break;
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}
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calculate(base_clock, frequency, &prediv, &postdiv, &mul);
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writel(((prediv - 1) << PREDIV_SHIFT) | (postdiv - 1), &clock->ctrl);
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mdelay(1);
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writel(4, &clock->pll);
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while (readl(&clock->pll) & PLL_STATUS)
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;
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writel(((mul - 1) << MUL_SHIFT) | (0xff << 3) | 0x0e, &clock->pll);
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mdelay(75);
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}
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static void __init tnetd7300_init_clocks(void)
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{
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u32 *bootcr = (u32 *)ioremap_nocache(AR7_REGS_DCL, 4);
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struct tnetd7300_clocks *clocks =
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ioremap_nocache(UR8_REGS_CLOCKS,
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sizeof(struct tnetd7300_clocks));
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bus_clk.rate = tnetd7300_get_clock(BUS_PLL_SOURCE_SHIFT,
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&clocks->bus, bootcr, AR7_AFE_CLOCK);
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if (*bootcr & BOOT_PLL_ASYNC_MODE)
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cpu_clk.rate = tnetd7300_get_clock(CPU_PLL_SOURCE_SHIFT,
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&clocks->cpu, bootcr, AR7_AFE_CLOCK);
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else
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cpu_clk.rate = bus_clk.rate;
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if (dsp_clk.rate == 250000000)
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tnetd7300_set_clock(DSP_PLL_SOURCE_SHIFT, &clocks->dsp,
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bootcr, dsp_clk.rate);
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iounmap(clocks);
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iounmap(bootcr);
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}
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static void tnetd7200_set_clock(int base, struct tnetd7200_clock *clock,
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int prediv, int postdiv, int postdiv2, int mul, u32 frequency)
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{
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printk(KERN_INFO
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"Clocks: base = %d, frequency = %u, prediv = %d, "
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"postdiv = %d, postdiv2 = %d, mul = %d\n",
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base, frequency, prediv, postdiv, postdiv2, mul);
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writel(0, &clock->ctrl);
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writel(DIVISOR_ENABLE_MASK | ((prediv - 1) & 0x1F), &clock->prediv);
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writel((mul - 1) & 0xF, &clock->mul);
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while (readl(&clock->status) & 0x1)
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; /* nop */
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writel(DIVISOR_ENABLE_MASK | ((postdiv - 1) & 0x1F), &clock->postdiv);
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writel(readl(&clock->cmden) | 1, &clock->cmden);
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writel(readl(&clock->cmd) | 1, &clock->cmd);
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while (readl(&clock->status) & 0x1)
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; /* nop */
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writel(DIVISOR_ENABLE_MASK | ((postdiv2 - 1) & 0x1F), &clock->postdiv2);
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writel(readl(&clock->cmden) | 1, &clock->cmden);
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writel(readl(&clock->cmd) | 1, &clock->cmd);
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while (readl(&clock->status) & 0x1)
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; /* nop */
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writel(readl(&clock->ctrl) | 1, &clock->ctrl);
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}
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static int tnetd7200_get_clock_base(int clock_id, u32 *bootcr)
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{
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if (*bootcr & BOOT_PLL_ASYNC_MODE)
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/* Async */
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switch (clock_id) {
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case TNETD7200_CLOCK_ID_DSP:
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return AR7_REF_CLOCK;
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default:
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return AR7_AFE_CLOCK;
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}
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else
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/* Sync */
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if (*bootcr & BOOT_PLL_2TO1_MODE)
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/* 2:1 */
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switch (clock_id) {
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case TNETD7200_CLOCK_ID_DSP:
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return AR7_REF_CLOCK;
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default:
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return AR7_AFE_CLOCK;
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}
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else
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/* 1:1 */
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return AR7_REF_CLOCK;
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}
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static void __init tnetd7200_init_clocks(void)
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{
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u32 *bootcr = (u32 *)ioremap_nocache(AR7_REGS_DCL, 4);
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struct tnetd7200_clocks *clocks =
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ioremap_nocache(AR7_REGS_CLOCKS,
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sizeof(struct tnetd7200_clocks));
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int cpu_base, cpu_mul, cpu_prediv, cpu_postdiv;
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int dsp_base, dsp_mul, dsp_prediv, dsp_postdiv;
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int usb_base, usb_mul, usb_prediv, usb_postdiv;
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cpu_base = tnetd7200_get_clock_base(TNETD7200_CLOCK_ID_CPU, bootcr);
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dsp_base = tnetd7200_get_clock_base(TNETD7200_CLOCK_ID_DSP, bootcr);
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if (*bootcr & BOOT_PLL_ASYNC_MODE) {
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printk(KERN_INFO "Clocks: Async mode\n");
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printk(KERN_INFO "Clocks: Setting DSP clock\n");
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calculate(dsp_base, TNETD7200_DEF_DSP_CLK,
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&dsp_prediv, &dsp_postdiv, &dsp_mul);
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bus_clk.rate =
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((dsp_base / dsp_prediv) * dsp_mul) / dsp_postdiv;
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tnetd7200_set_clock(dsp_base, &clocks->dsp,
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dsp_prediv, dsp_postdiv * 2, dsp_postdiv, dsp_mul * 2,
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bus_clk.rate);
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printk(KERN_INFO "Clocks: Setting CPU clock\n");
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calculate(cpu_base, TNETD7200_DEF_CPU_CLK, &cpu_prediv,
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&cpu_postdiv, &cpu_mul);
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cpu_clk.rate =
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((cpu_base / cpu_prediv) * cpu_mul) / cpu_postdiv;
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tnetd7200_set_clock(cpu_base, &clocks->cpu,
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cpu_prediv, cpu_postdiv, -1, cpu_mul,
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cpu_clk.rate);
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} else
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if (*bootcr & BOOT_PLL_2TO1_MODE) {
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printk(KERN_INFO "Clocks: Sync 2:1 mode\n");
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printk(KERN_INFO "Clocks: Setting CPU clock\n");
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calculate(cpu_base, TNETD7200_DEF_CPU_CLK, &cpu_prediv,
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&cpu_postdiv, &cpu_mul);
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cpu_clk.rate = ((cpu_base / cpu_prediv) * cpu_mul)
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/ cpu_postdiv;
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tnetd7200_set_clock(cpu_base, &clocks->cpu,
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cpu_prediv, cpu_postdiv, -1, cpu_mul,
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cpu_clk.rate);
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printk(KERN_INFO "Clocks: Setting DSP clock\n");
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calculate(dsp_base, TNETD7200_DEF_DSP_CLK, &dsp_prediv,
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&dsp_postdiv, &dsp_mul);
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bus_clk.rate = cpu_clk.rate / 2;
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tnetd7200_set_clock(dsp_base, &clocks->dsp,
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dsp_prediv, dsp_postdiv * 2, dsp_postdiv,
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dsp_mul * 2, bus_clk.rate);
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} else {
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printk(KERN_INFO "Clocks: Sync 1:1 mode\n");
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printk(KERN_INFO "Clocks: Setting DSP clock\n");
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calculate(dsp_base, TNETD7200_DEF_DSP_CLK, &dsp_prediv,
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&dsp_postdiv, &dsp_mul);
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bus_clk.rate = ((dsp_base / dsp_prediv) * dsp_mul)
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/ dsp_postdiv;
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tnetd7200_set_clock(dsp_base, &clocks->dsp,
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dsp_prediv, dsp_postdiv * 2, dsp_postdiv,
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dsp_mul * 2, bus_clk.rate);
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cpu_clk.rate = bus_clk.rate;
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}
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printk(KERN_INFO "Clocks: Setting USB clock\n");
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usb_base = bus_clk.rate;
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calculate(usb_base, TNETD7200_DEF_USB_CLK, &usb_prediv,
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&usb_postdiv, &usb_mul);
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tnetd7200_set_clock(usb_base, &clocks->usb,
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usb_prediv, usb_postdiv, -1, usb_mul,
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TNETD7200_DEF_USB_CLK);
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dsp_clk.rate = cpu_clk.rate;
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iounmap(clocks);
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iounmap(bootcr);
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}
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/*
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* Linux clock API
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*/
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int clk_enable(struct clk *clk)
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{
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return 0;
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}
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EXPORT_SYMBOL(clk_enable);
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void clk_disable(struct clk *clk)
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{
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}
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EXPORT_SYMBOL(clk_disable);
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unsigned long clk_get_rate(struct clk *clk)
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{
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return clk->rate;
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}
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EXPORT_SYMBOL(clk_get_rate);
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struct clk *clk_get(struct device *dev, const char *id)
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{
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if (!strcmp(id, "bus"))
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return &bus_clk;
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/* cpmac and vbus share the same rate */
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if (!strcmp(id, "cpmac"))
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return &vbus_clk;
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if (!strcmp(id, "cpu"))
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return &cpu_clk;
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if (!strcmp(id, "dsp"));
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return &dsp_clk;
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if (!strcmp(id, "vbus"))
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return &vbus_clk;
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return ERR_PTR(-ENOENT);
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}
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EXPORT_SYMBOL(clk_get);
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void clk_put(struct clk *clk)
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{
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}
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EXPORT_SYMBOL(clk_put);
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void __init ar7_init_clocks(void)
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{
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switch (ar7_chip_id()) {
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case AR7_CHIP_7100:
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case AR7_CHIP_7200:
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tnetd7200_init_clocks();
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break;
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case AR7_CHIP_7300:
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dsp_clk.rate = tnetd7300_dsp_clock();
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tnetd7300_init_clocks();
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break;
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default:
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break;
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}
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/* adjust vbus clock rate */
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vbus_clk.rate = bus_clk.rate / 2;
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}
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