0ca1e290b7
On the recent i.mx (mx25/50/53), there is a gasket inside fec controller which needs to be enabled no matter phy works in MII or RMII mode. The current code enables the gasket only when phy interface is RMII. It's broken when the driver works with a MII phy. The patch uses platform_device_id to distinguish the SoCs that have the gasket and enables it on these SoCs for both MII and RMII mode. Signed-off-by: Shawn Guo <shawn.guo@linaro.org> Reported-by: Troy Kisky <troy.kisky@boundarydevices.com> Cc: David S. Miller <davem@davemloft.net> Cc: Sascha Hauer <s.hauer@pengutronix.de> Acked-by: David S. Miller <davem@davemloft.net>
764 lines
22 KiB
C
764 lines
22 KiB
C
/*
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* Copyright 2004-2007 Freescale Semiconductor, Inc. All Rights Reserved.
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* Copyright 2008 Juergen Beisert, kernel@pengutronix.de
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* Copyright 2008 Martin Fuzzey, mfuzzey@gmail.com
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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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 Street, Fifth Floor, Boston,
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* MA 02110-1301, USA.
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*/
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#include <linux/clk.h>
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#include <linux/io.h>
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#include <linux/module.h>
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#include <linux/clkdev.h>
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#include <asm/div64.h>
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#include <mach/clock.h>
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#include <mach/common.h>
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#include <mach/hardware.h>
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#define IO_ADDR_CCM(off) (MX27_IO_ADDRESS(MX27_CCM_BASE_ADDR + (off)))
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/* Register offsets */
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#define CCM_CSCR IO_ADDR_CCM(0x0)
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#define CCM_MPCTL0 IO_ADDR_CCM(0x4)
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#define CCM_MPCTL1 IO_ADDR_CCM(0x8)
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#define CCM_SPCTL0 IO_ADDR_CCM(0xc)
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#define CCM_SPCTL1 IO_ADDR_CCM(0x10)
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#define CCM_OSC26MCTL IO_ADDR_CCM(0x14)
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#define CCM_PCDR0 IO_ADDR_CCM(0x18)
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#define CCM_PCDR1 IO_ADDR_CCM(0x1c)
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#define CCM_PCCR0 IO_ADDR_CCM(0x20)
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#define CCM_PCCR1 IO_ADDR_CCM(0x24)
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#define CCM_CCSR IO_ADDR_CCM(0x28)
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#define CCM_PMCTL IO_ADDR_CCM(0x2c)
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#define CCM_PMCOUNT IO_ADDR_CCM(0x30)
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#define CCM_WKGDCTL IO_ADDR_CCM(0x34)
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#define CCM_CSCR_UPDATE_DIS (1 << 31)
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#define CCM_CSCR_SSI2 (1 << 23)
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#define CCM_CSCR_SSI1 (1 << 22)
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#define CCM_CSCR_VPU (1 << 21)
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#define CCM_CSCR_MSHC (1 << 20)
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#define CCM_CSCR_SPLLRES (1 << 19)
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#define CCM_CSCR_MPLLRES (1 << 18)
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#define CCM_CSCR_SP (1 << 17)
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#define CCM_CSCR_MCU (1 << 16)
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#define CCM_CSCR_OSC26MDIV (1 << 4)
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#define CCM_CSCR_OSC26M (1 << 3)
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#define CCM_CSCR_FPM (1 << 2)
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#define CCM_CSCR_SPEN (1 << 1)
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#define CCM_CSCR_MPEN (1 << 0)
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/* i.MX27 TO 2+ */
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#define CCM_CSCR_ARM_SRC (1 << 15)
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#define CCM_SPCTL1_LF (1 << 15)
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#define CCM_SPCTL1_BRMO (1 << 6)
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static struct clk mpll_main1_clk, mpll_main2_clk;
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static int clk_pccr_enable(struct clk *clk)
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{
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unsigned long reg;
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if (!clk->enable_reg)
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return 0;
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reg = __raw_readl(clk->enable_reg);
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reg |= 1 << clk->enable_shift;
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__raw_writel(reg, clk->enable_reg);
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return 0;
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}
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static void clk_pccr_disable(struct clk *clk)
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{
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unsigned long reg;
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if (!clk->enable_reg)
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return;
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reg = __raw_readl(clk->enable_reg);
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reg &= ~(1 << clk->enable_shift);
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__raw_writel(reg, clk->enable_reg);
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}
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static int clk_spll_enable(struct clk *clk)
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{
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unsigned long reg;
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reg = __raw_readl(CCM_CSCR);
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reg |= CCM_CSCR_SPEN;
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__raw_writel(reg, CCM_CSCR);
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while (!(__raw_readl(CCM_SPCTL1) & CCM_SPCTL1_LF));
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return 0;
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}
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static void clk_spll_disable(struct clk *clk)
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{
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unsigned long reg;
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reg = __raw_readl(CCM_CSCR);
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reg &= ~CCM_CSCR_SPEN;
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__raw_writel(reg, CCM_CSCR);
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}
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static int clk_cpu_set_parent(struct clk *clk, struct clk *parent)
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{
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int cscr = __raw_readl(CCM_CSCR);
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if (clk->parent == parent)
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return 0;
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0) {
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if (parent == &mpll_main1_clk) {
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cscr |= CCM_CSCR_ARM_SRC;
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} else {
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if (parent == &mpll_main2_clk)
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cscr &= ~CCM_CSCR_ARM_SRC;
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else
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return -EINVAL;
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}
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__raw_writel(cscr, CCM_CSCR);
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clk->parent = parent;
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return 0;
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}
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return -ENODEV;
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}
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static unsigned long round_rate_cpu(struct clk *clk, unsigned long rate)
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{
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int div;
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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div = parent_rate / rate;
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if (parent_rate % rate)
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div++;
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if (div > 4)
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div = 4;
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return parent_rate / div;
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}
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static int set_rate_cpu(struct clk *clk, unsigned long rate)
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{
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unsigned int div;
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uint32_t reg;
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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div = parent_rate / rate;
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if (div > 4 || div < 1 || ((parent_rate / div) != rate))
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return -EINVAL;
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div--;
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reg = __raw_readl(CCM_CSCR);
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0) {
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reg &= ~(3 << 12);
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reg |= div << 12;
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reg &= ~(CCM_CSCR_FPM | CCM_CSCR_SPEN);
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__raw_writel(reg | CCM_CSCR_UPDATE_DIS, CCM_CSCR);
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} else {
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printk(KERN_ERR "Can't set CPU frequency!\n");
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}
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return 0;
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}
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static unsigned long round_rate_per(struct clk *clk, unsigned long rate)
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{
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u32 div;
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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div = parent_rate / rate;
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if (parent_rate % rate)
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div++;
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if (div > 64)
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div = 64;
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return parent_rate / div;
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}
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static int set_rate_per(struct clk *clk, unsigned long rate)
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{
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u32 reg;
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u32 div;
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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if (clk->id < 0 || clk->id > 3)
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return -EINVAL;
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div = parent_rate / rate;
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if (div > 64 || div < 1 || ((parent_rate / div) != rate))
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return -EINVAL;
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div--;
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reg = __raw_readl(CCM_PCDR1) & ~(0x3f << (clk->id << 3));
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reg |= div << (clk->id << 3);
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__raw_writel(reg, CCM_PCDR1);
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return 0;
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}
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static unsigned long get_rate_usb(struct clk *clk)
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{
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unsigned long usb_pdf;
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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usb_pdf = (__raw_readl(CCM_CSCR) >> 28) & 0x7;
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return parent_rate / (usb_pdf + 1U);
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}
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static unsigned long get_rate_ssix(struct clk *clk, unsigned long pdf)
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{
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0)
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pdf += 4; /* MX27 TO2+ */
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else
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pdf = (pdf < 2) ? 124UL : pdf; /* MX21 & MX27 TO1 */
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return 2UL * parent_rate / pdf;
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}
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static unsigned long get_rate_ssi1(struct clk *clk)
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{
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return get_rate_ssix(clk, (__raw_readl(CCM_PCDR0) >> 16) & 0x3f);
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}
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static unsigned long get_rate_ssi2(struct clk *clk)
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{
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return get_rate_ssix(clk, (__raw_readl(CCM_PCDR0) >> 26) & 0x3f);
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}
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static unsigned long get_rate_nfc(struct clk *clk)
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{
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unsigned long nfc_pdf;
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0)
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nfc_pdf = (__raw_readl(CCM_PCDR0) >> 6) & 0xf;
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else
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nfc_pdf = (__raw_readl(CCM_PCDR0) >> 12) & 0xf;
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return parent_rate / (nfc_pdf + 1);
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}
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static unsigned long get_rate_vpu(struct clk *clk)
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{
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unsigned long vpu_pdf;
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0) {
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vpu_pdf = (__raw_readl(CCM_PCDR0) >> 10) & 0x3f;
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vpu_pdf += 4;
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} else {
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vpu_pdf = (__raw_readl(CCM_PCDR0) >> 8) & 0xf;
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vpu_pdf = (vpu_pdf < 2) ? 124 : vpu_pdf;
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}
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return 2UL * parent_rate / vpu_pdf;
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}
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static unsigned long round_rate_parent(struct clk *clk, unsigned long rate)
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{
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return clk->parent->round_rate(clk->parent, rate);
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}
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static unsigned long get_rate_parent(struct clk *clk)
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{
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return clk_get_rate(clk->parent);
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}
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static int set_rate_parent(struct clk *clk, unsigned long rate)
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{
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return clk->parent->set_rate(clk->parent, rate);
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}
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/* in Hz */
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static unsigned long external_high_reference = 26000000;
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static unsigned long get_rate_high_reference(struct clk *clk)
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{
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return external_high_reference;
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}
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/* in Hz */
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static unsigned long external_low_reference = 32768;
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static unsigned long get_rate_low_reference(struct clk *clk)
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{
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return external_low_reference;
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}
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static unsigned long get_rate_fpm(struct clk *clk)
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{
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return clk_get_rate(clk->parent) * 1024;
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}
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static unsigned long get_rate_mpll(struct clk *clk)
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{
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return mxc_decode_pll(__raw_readl(CCM_MPCTL0),
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clk_get_rate(clk->parent));
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}
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static unsigned long get_rate_mpll_main(struct clk *clk)
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{
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unsigned long parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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/* i.MX27 TO2:
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* clk->id == 0: arm clock source path 1 which is from 2 * MPLL / 2
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* clk->id == 1: arm clock source path 2 which is from 2 * MPLL / 3
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*/
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0 && clk->id == 1)
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return 2UL * parent_rate / 3UL;
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return parent_rate;
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}
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static unsigned long get_rate_spll(struct clk *clk)
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{
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uint32_t reg;
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unsigned long rate;
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rate = clk_get_rate(clk->parent);
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reg = __raw_readl(CCM_SPCTL0);
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/* On TO2 we have to write the value back. Otherwise we
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* read 0 from this register the next time.
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*/
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0)
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__raw_writel(reg, CCM_SPCTL0);
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return mxc_decode_pll(reg, rate);
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}
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static unsigned long get_rate_cpu(struct clk *clk)
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{
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u32 div;
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unsigned long rate;
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0)
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div = (__raw_readl(CCM_CSCR) >> 12) & 0x3;
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else
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div = (__raw_readl(CCM_CSCR) >> 13) & 0x7;
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rate = clk_get_rate(clk->parent);
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return rate / (div + 1);
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}
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static unsigned long get_rate_ahb(struct clk *clk)
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{
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unsigned long rate, bclk_pdf;
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0)
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bclk_pdf = (__raw_readl(CCM_CSCR) >> 8) & 0x3;
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else
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bclk_pdf = (__raw_readl(CCM_CSCR) >> 9) & 0xf;
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rate = clk_get_rate(clk->parent);
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return rate / (bclk_pdf + 1);
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}
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static unsigned long get_rate_ipg(struct clk *clk)
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{
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unsigned long rate, ipg_pdf;
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0)
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return clk_get_rate(clk->parent);
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else
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ipg_pdf = (__raw_readl(CCM_CSCR) >> 8) & 1;
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rate = clk_get_rate(clk->parent);
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return rate / (ipg_pdf + 1);
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}
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static unsigned long get_rate_per(struct clk *clk)
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{
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unsigned long perclk_pdf, parent_rate;
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parent_rate = clk_get_rate(clk->parent);
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if (clk->id < 0 || clk->id > 3)
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return 0;
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perclk_pdf = (__raw_readl(CCM_PCDR1) >> (clk->id << 3)) & 0x3f;
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return parent_rate / (perclk_pdf + 1);
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}
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/*
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* the high frequency external clock reference
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* Default case is 26MHz. Could be changed at runtime
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* with a call to change_external_high_reference()
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*/
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static struct clk ckih_clk = {
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.get_rate = get_rate_high_reference,
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};
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static struct clk mpll_clk = {
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.parent = &ckih_clk,
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.get_rate = get_rate_mpll,
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};
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/* For i.MX27 TO2, it is the MPLL path 1 of ARM core
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* It provides the clock source whose rate is same as MPLL
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*/
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static struct clk mpll_main1_clk = {
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.id = 0,
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.parent = &mpll_clk,
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.get_rate = get_rate_mpll_main,
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};
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/* For i.MX27 TO2, it is the MPLL path 2 of ARM core
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* It provides the clock source whose rate is same MPLL * 2 / 3
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*/
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static struct clk mpll_main2_clk = {
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.id = 1,
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.parent = &mpll_clk,
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.get_rate = get_rate_mpll_main,
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};
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static struct clk ahb_clk = {
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.parent = &mpll_main2_clk,
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.get_rate = get_rate_ahb,
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};
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static struct clk ipg_clk = {
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.parent = &ahb_clk,
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.get_rate = get_rate_ipg,
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};
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static struct clk cpu_clk = {
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.parent = &mpll_main2_clk,
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.set_parent = clk_cpu_set_parent,
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.round_rate = round_rate_cpu,
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.get_rate = get_rate_cpu,
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.set_rate = set_rate_cpu,
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};
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static struct clk spll_clk = {
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.parent = &ckih_clk,
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.get_rate = get_rate_spll,
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.enable = clk_spll_enable,
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.disable = clk_spll_disable,
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};
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/*
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* the low frequency external clock reference
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* Default case is 32.768kHz.
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*/
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static struct clk ckil_clk = {
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.get_rate = get_rate_low_reference,
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};
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/* Output of frequency pre multiplier */
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static struct clk fpm_clk = {
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.parent = &ckil_clk,
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.get_rate = get_rate_fpm,
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};
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#define PCCR0 CCM_PCCR0
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#define PCCR1 CCM_PCCR1
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#define DEFINE_CLOCK(name, i, er, es, gr, s, p) \
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static struct clk name = { \
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.id = i, \
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.enable_reg = er, \
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.enable_shift = es, \
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.get_rate = gr, \
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.enable = clk_pccr_enable, \
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.disable = clk_pccr_disable, \
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.secondary = s, \
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.parent = p, \
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}
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#define DEFINE_CLOCK1(name, i, er, es, getsetround, s, p) \
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static struct clk name = { \
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.id = i, \
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.enable_reg = er, \
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.enable_shift = es, \
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.get_rate = get_rate_##getsetround, \
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.set_rate = set_rate_##getsetround, \
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.round_rate = round_rate_##getsetround, \
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.enable = clk_pccr_enable, \
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.disable = clk_pccr_disable, \
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.secondary = s, \
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.parent = p, \
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}
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/* Forward declaration to keep the following list in order */
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static struct clk slcdc_clk1, sahara2_clk1, rtic_clk1, fec_clk1, emma_clk1,
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dma_clk1, lcdc_clk2, vpu_clk1;
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/* All clocks we can gate through PCCRx in the order of PCCRx bits */
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DEFINE_CLOCK(ssi2_clk1, 1, PCCR0, 0, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(ssi1_clk1, 0, PCCR0, 1, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(slcdc_clk, 0, PCCR0, 2, NULL, &slcdc_clk1, &ahb_clk);
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DEFINE_CLOCK(sdhc3_clk1, 0, PCCR0, 3, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(sdhc2_clk1, 0, PCCR0, 4, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(sdhc1_clk1, 0, PCCR0, 5, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(scc_clk, 0, PCCR0, 6, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(sahara2_clk, 0, PCCR0, 7, NULL, &sahara2_clk1, &ahb_clk);
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DEFINE_CLOCK(rtic_clk, 0, PCCR0, 8, NULL, &rtic_clk1, &ahb_clk);
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DEFINE_CLOCK(rtc_clk, 0, PCCR0, 9, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(pwm_clk1, 0, PCCR0, 11, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(owire_clk, 0, PCCR0, 12, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(mstick_clk1, 0, PCCR0, 13, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(lcdc_clk1, 0, PCCR0, 14, NULL, &lcdc_clk2, &ipg_clk);
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DEFINE_CLOCK(kpp_clk, 0, PCCR0, 15, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(iim_clk, 0, PCCR0, 16, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(i2c2_clk, 1, PCCR0, 17, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(i2c1_clk, 0, PCCR0, 18, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(gpt6_clk1, 0, PCCR0, 29, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(gpt5_clk1, 0, PCCR0, 20, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(gpt4_clk1, 0, PCCR0, 21, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(gpt3_clk1, 0, PCCR0, 22, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(gpt2_clk1, 0, PCCR0, 23, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(gpt1_clk1, 0, PCCR0, 24, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(gpio_clk, 0, PCCR0, 25, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(fec_clk, 0, PCCR0, 26, NULL, &fec_clk1, &ahb_clk);
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DEFINE_CLOCK(emma_clk, 0, PCCR0, 27, NULL, &emma_clk1, &ahb_clk);
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DEFINE_CLOCK(dma_clk, 0, PCCR0, 28, NULL, &dma_clk1, &ahb_clk);
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DEFINE_CLOCK(cspi13_clk1, 0, PCCR0, 29, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(cspi2_clk1, 0, PCCR0, 30, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(cspi1_clk1, 0, PCCR0, 31, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(mstick_clk, 0, PCCR1, 2, NULL, &mstick_clk1, &ipg_clk);
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DEFINE_CLOCK(nfc_clk, 0, PCCR1, 3, get_rate_nfc, NULL, &cpu_clk);
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DEFINE_CLOCK(ssi2_clk, 1, PCCR1, 4, get_rate_ssi2, &ssi2_clk1, &mpll_main2_clk);
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DEFINE_CLOCK(ssi1_clk, 0, PCCR1, 5, get_rate_ssi1, &ssi1_clk1, &mpll_main2_clk);
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DEFINE_CLOCK(vpu_clk, 0, PCCR1, 6, get_rate_vpu, &vpu_clk1, &mpll_main2_clk);
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DEFINE_CLOCK1(per4_clk, 3, PCCR1, 7, per, NULL, &mpll_main2_clk);
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DEFINE_CLOCK1(per3_clk, 2, PCCR1, 8, per, NULL, &mpll_main2_clk);
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DEFINE_CLOCK1(per2_clk, 1, PCCR1, 9, per, NULL, &mpll_main2_clk);
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DEFINE_CLOCK1(per1_clk, 0, PCCR1, 10, per, NULL, &mpll_main2_clk);
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DEFINE_CLOCK(usb_clk1, 0, PCCR1, 11, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(slcdc_clk1, 0, PCCR1, 12, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(sahara2_clk1, 0, PCCR1, 13, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(rtic_clk1, 0, PCCR1, 14, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(lcdc_clk2, 0, PCCR1, 15, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(vpu_clk1, 0, PCCR1, 16, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(fec_clk1, 0, PCCR1, 17, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(emma_clk1, 0, PCCR1, 18, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(emi_clk, 0, PCCR1, 19, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(dma_clk1, 0, PCCR1, 20, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(csi_clk1, 0, PCCR1, 21, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(brom_clk, 0, PCCR1, 22, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(ata_clk, 0, PCCR1, 23, NULL, NULL, &ahb_clk);
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DEFINE_CLOCK(wdog_clk, 0, PCCR1, 24, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(usb_clk, 0, PCCR1, 25, get_rate_usb, &usb_clk1, &spll_clk);
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DEFINE_CLOCK(uart6_clk1, 0, PCCR1, 26, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(uart5_clk1, 0, PCCR1, 27, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(uart4_clk1, 0, PCCR1, 28, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(uart3_clk1, 0, PCCR1, 29, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(uart2_clk1, 0, PCCR1, 30, NULL, NULL, &ipg_clk);
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DEFINE_CLOCK(uart1_clk1, 0, PCCR1, 31, NULL, NULL, &ipg_clk);
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/* Clocks we cannot directly gate, but drivers need their rates */
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DEFINE_CLOCK(cspi1_clk, 0, NULL, 0, NULL, &cspi1_clk1, &per2_clk);
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DEFINE_CLOCK(cspi2_clk, 1, NULL, 0, NULL, &cspi2_clk1, &per2_clk);
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DEFINE_CLOCK(cspi3_clk, 2, NULL, 0, NULL, &cspi13_clk1, &per2_clk);
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DEFINE_CLOCK(sdhc1_clk, 0, NULL, 0, NULL, &sdhc1_clk1, &per2_clk);
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DEFINE_CLOCK(sdhc2_clk, 1, NULL, 0, NULL, &sdhc2_clk1, &per2_clk);
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DEFINE_CLOCK(sdhc3_clk, 2, NULL, 0, NULL, &sdhc3_clk1, &per2_clk);
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DEFINE_CLOCK(pwm_clk, 0, NULL, 0, NULL, &pwm_clk1, &per1_clk);
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DEFINE_CLOCK(gpt1_clk, 0, NULL, 0, NULL, &gpt1_clk1, &per1_clk);
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DEFINE_CLOCK(gpt2_clk, 1, NULL, 0, NULL, &gpt2_clk1, &per1_clk);
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DEFINE_CLOCK(gpt3_clk, 2, NULL, 0, NULL, &gpt3_clk1, &per1_clk);
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DEFINE_CLOCK(gpt4_clk, 3, NULL, 0, NULL, &gpt4_clk1, &per1_clk);
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DEFINE_CLOCK(gpt5_clk, 4, NULL, 0, NULL, &gpt5_clk1, &per1_clk);
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DEFINE_CLOCK(gpt6_clk, 5, NULL, 0, NULL, &gpt6_clk1, &per1_clk);
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DEFINE_CLOCK(uart1_clk, 0, NULL, 0, NULL, &uart1_clk1, &per1_clk);
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DEFINE_CLOCK(uart2_clk, 1, NULL, 0, NULL, &uart2_clk1, &per1_clk);
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DEFINE_CLOCK(uart3_clk, 2, NULL, 0, NULL, &uart3_clk1, &per1_clk);
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DEFINE_CLOCK(uart4_clk, 3, NULL, 0, NULL, &uart4_clk1, &per1_clk);
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DEFINE_CLOCK(uart5_clk, 4, NULL, 0, NULL, &uart5_clk1, &per1_clk);
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DEFINE_CLOCK(uart6_clk, 5, NULL, 0, NULL, &uart6_clk1, &per1_clk);
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DEFINE_CLOCK1(lcdc_clk, 0, NULL, 0, parent, &lcdc_clk1, &per3_clk);
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DEFINE_CLOCK1(csi_clk, 0, NULL, 0, parent, &csi_clk1, &per4_clk);
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#define _REGISTER_CLOCK(d, n, c) \
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{ \
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.dev_id = d, \
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.con_id = n, \
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.clk = &c, \
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},
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static struct clk_lookup lookups[] = {
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/* i.mx27 has the i.mx21 type uart */
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_REGISTER_CLOCK("imx21-uart.0", NULL, uart1_clk)
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_REGISTER_CLOCK("imx21-uart.1", NULL, uart2_clk)
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_REGISTER_CLOCK("imx21-uart.2", NULL, uart3_clk)
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_REGISTER_CLOCK("imx21-uart.3", NULL, uart4_clk)
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_REGISTER_CLOCK("imx21-uart.4", NULL, uart5_clk)
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_REGISTER_CLOCK("imx21-uart.5", NULL, uart6_clk)
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_REGISTER_CLOCK(NULL, "gpt1", gpt1_clk)
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_REGISTER_CLOCK(NULL, "gpt2", gpt2_clk)
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_REGISTER_CLOCK(NULL, "gpt3", gpt3_clk)
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_REGISTER_CLOCK(NULL, "gpt4", gpt4_clk)
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_REGISTER_CLOCK(NULL, "gpt5", gpt5_clk)
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_REGISTER_CLOCK(NULL, "gpt6", gpt6_clk)
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_REGISTER_CLOCK("mxc_pwm.0", NULL, pwm_clk)
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_REGISTER_CLOCK("mxc-mmc.0", NULL, sdhc1_clk)
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_REGISTER_CLOCK("mxc-mmc.1", NULL, sdhc2_clk)
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_REGISTER_CLOCK("mxc-mmc.2", NULL, sdhc3_clk)
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_REGISTER_CLOCK("imx27-cspi.0", NULL, cspi1_clk)
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_REGISTER_CLOCK("imx27-cspi.1", NULL, cspi2_clk)
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_REGISTER_CLOCK("imx27-cspi.2", NULL, cspi3_clk)
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_REGISTER_CLOCK("imx-fb.0", NULL, lcdc_clk)
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_REGISTER_CLOCK("mx2-camera.0", NULL, csi_clk)
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_REGISTER_CLOCK("fsl-usb2-udc", "usb", usb_clk)
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_REGISTER_CLOCK("fsl-usb2-udc", "usb_ahb", usb_clk1)
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_REGISTER_CLOCK("mxc-ehci.0", "usb", usb_clk)
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_REGISTER_CLOCK("mxc-ehci.0", "usb_ahb", usb_clk1)
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_REGISTER_CLOCK("mxc-ehci.1", "usb", usb_clk)
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_REGISTER_CLOCK("mxc-ehci.1", "usb_ahb", usb_clk1)
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_REGISTER_CLOCK("mxc-ehci.2", "usb", usb_clk)
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_REGISTER_CLOCK("mxc-ehci.2", "usb_ahb", usb_clk1)
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_REGISTER_CLOCK("imx-ssi.0", NULL, ssi1_clk)
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_REGISTER_CLOCK("imx-ssi.1", NULL, ssi2_clk)
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_REGISTER_CLOCK("mxc_nand.0", NULL, nfc_clk)
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_REGISTER_CLOCK(NULL, "vpu", vpu_clk)
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_REGISTER_CLOCK(NULL, "dma", dma_clk)
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_REGISTER_CLOCK(NULL, "rtic", rtic_clk)
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_REGISTER_CLOCK(NULL, "brom", brom_clk)
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_REGISTER_CLOCK(NULL, "emma", emma_clk)
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_REGISTER_CLOCK(NULL, "slcdc", slcdc_clk)
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_REGISTER_CLOCK("imx27-fec.0", NULL, fec_clk)
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_REGISTER_CLOCK(NULL, "emi", emi_clk)
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_REGISTER_CLOCK(NULL, "sahara2", sahara2_clk)
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_REGISTER_CLOCK(NULL, "ata", ata_clk)
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_REGISTER_CLOCK(NULL, "mstick", mstick_clk)
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_REGISTER_CLOCK("imx2-wdt.0", NULL, wdog_clk)
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_REGISTER_CLOCK(NULL, "gpio", gpio_clk)
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_REGISTER_CLOCK("imx-i2c.0", NULL, i2c1_clk)
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_REGISTER_CLOCK("imx-i2c.1", NULL, i2c2_clk)
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_REGISTER_CLOCK(NULL, "iim", iim_clk)
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_REGISTER_CLOCK(NULL, "kpp", kpp_clk)
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_REGISTER_CLOCK("mxc_w1.0", NULL, owire_clk)
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_REGISTER_CLOCK(NULL, "rtc", rtc_clk)
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_REGISTER_CLOCK(NULL, "scc", scc_clk)
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};
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/* Adjust the clock path for TO2 and later */
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static void __init to2_adjust_clocks(void)
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{
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unsigned long cscr = __raw_readl(CCM_CSCR);
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if (mx27_revision() >= IMX_CHIP_REVISION_2_0) {
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if (cscr & CCM_CSCR_ARM_SRC)
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cpu_clk.parent = &mpll_main1_clk;
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if (!(cscr & CCM_CSCR_SSI2))
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ssi1_clk.parent = &spll_clk;
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if (!(cscr & CCM_CSCR_SSI1))
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ssi1_clk.parent = &spll_clk;
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if (!(cscr & CCM_CSCR_VPU))
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vpu_clk.parent = &spll_clk;
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} else {
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cpu_clk.parent = &mpll_clk;
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cpu_clk.set_parent = NULL;
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cpu_clk.round_rate = NULL;
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cpu_clk.set_rate = NULL;
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ahb_clk.parent = &mpll_clk;
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per1_clk.parent = &mpll_clk;
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per2_clk.parent = &mpll_clk;
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per3_clk.parent = &mpll_clk;
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per4_clk.parent = &mpll_clk;
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ssi1_clk.parent = &mpll_clk;
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ssi2_clk.parent = &mpll_clk;
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vpu_clk.parent = &mpll_clk;
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}
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}
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/*
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* must be called very early to get information about the
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* available clock rate when the timer framework starts
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*/
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int __init mx27_clocks_init(unsigned long fref)
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{
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u32 cscr = __raw_readl(CCM_CSCR);
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external_high_reference = fref;
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/* detect clock reference for both system PLLs */
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if (cscr & CCM_CSCR_MCU)
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mpll_clk.parent = &ckih_clk;
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else
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mpll_clk.parent = &fpm_clk;
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if (cscr & CCM_CSCR_SP)
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spll_clk.parent = &ckih_clk;
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else
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spll_clk.parent = &fpm_clk;
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to2_adjust_clocks();
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clkdev_add_table(lookups, ARRAY_SIZE(lookups));
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/* Turn off all clocks we do not need */
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__raw_writel(0, CCM_PCCR0);
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__raw_writel((1 << 10) | (1 << 19), CCM_PCCR1);
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spll_clk.disable(&spll_clk);
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/* enable basic clocks */
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clk_enable(&per1_clk);
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clk_enable(&gpio_clk);
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clk_enable(&emi_clk);
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clk_enable(&iim_clk);
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#if defined(CONFIG_DEBUG_LL) && !defined(CONFIG_DEBUG_ICEDCC)
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clk_enable(&uart1_clk);
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#endif
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mxc_timer_init(&gpt1_clk, MX27_IO_ADDRESS(MX27_GPT1_BASE_ADDR),
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MX27_INT_GPT1);
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return 0;
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}
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