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|
/*
* Copyright 2004-2007 Freescale Semiconductor, Inc. All Rights Reserved.
* Copyright 2008 Juergen Beisert, kernel@pengutronix.de
* Copyright 2008 Martin Fuzzey, mfuzzey@gmail.com
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
* MA 02110-1301, USA.
*/
#include <linux/clk.h>
#include <linux/io.h>
#include <linux/module.h>
#include <mach/clock.h>
#include <mach/hardware.h>
#include <mach/common.h>
#include <asm/clkdev.h>
#include <asm/div64.h>
#define IO_ADDR_CCM(off) (IO_ADDRESS(MX21_CCM_BASE_ADDR) + (off))
/* Register offsets */
#define CCM_CSCR IO_ADDR_CCM(0x0)
#define CCM_MPCTL0 IO_ADDR_CCM(0x4)
#define CCM_MPCTL1 IO_ADDR_CCM(0x8)
#define CCM_SPCTL0 IO_ADDR_CCM(0xc)
#define CCM_SPCTL1 IO_ADDR_CCM(0x10)
#define CCM_OSC26MCTL IO_ADDR_CCM(0x14)
#define CCM_PCDR0 IO_ADDR_CCM(0x18)
#define CCM_PCDR1 IO_ADDR_CCM(0x1c)
#define CCM_PCCR0 IO_ADDR_CCM(0x20)
#define CCM_PCCR1 IO_ADDR_CCM(0x24)
#define CCM_CCSR IO_ADDR_CCM(0x28)
#define CCM_PMCTL IO_ADDR_CCM(0x2c)
#define CCM_PMCOUNT IO_ADDR_CCM(0x30)
#define CCM_WKGDCTL IO_ADDR_CCM(0x34)
#define CCM_CSCR_PRESC_OFFSET 29
#define CCM_CSCR_PRESC_MASK (0x7 << CCM_CSCR_PRESC_OFFSET)
#define CCM_CSCR_USB_OFFSET 26
#define CCM_CSCR_USB_MASK (0x7 << CCM_CSCR_USB_OFFSET)
#define CCM_CSCR_SD_OFFSET 24
#define CCM_CSCR_SD_MASK (0x3 << CCM_CSCR_SD_OFFSET)
#define CCM_CSCR_SPLLRES (1 << 22)
#define CCM_CSCR_MPLLRES (1 << 21)
#define CCM_CSCR_SSI2_OFFSET 20
#define CCM_CSCR_SSI2 (1 << CCM_CSCR_SSI2_OFFSET)
#define CCM_CSCR_SSI1_OFFSET 19
#define CCM_CSCR_SSI1 (1 << CCM_CSCR_SSI1_OFFSET)
#define CCM_CSCR_FIR_OFFSET 18
#define CCM_CSCR_FIR (1 << CCM_CSCR_FIR_OFFSET)
#define CCM_CSCR_SP (1 << 17)
#define CCM_CSCR_MCU (1 << 16)
#define CCM_CSCR_BCLK_OFFSET 10
#define CCM_CSCR_BCLK_MASK (0xf << CCM_CSCR_BCLK_OFFSET)
#define CCM_CSCR_IPDIV_OFFSET 9
#define CCM_CSCR_IPDIV (1 << CCM_CSCR_IPDIV_OFFSET)
#define CCM_CSCR_OSC26MDIV (1 << 4)
#define CCM_CSCR_OSC26M (1 << 3)
#define CCM_CSCR_FPM (1 << 2)
#define CCM_CSCR_SPEN (1 << 1)
#define CCM_CSCR_MPEN 1
#define CCM_MPCTL0_CPLM (1 << 31)
#define CCM_MPCTL0_PD_OFFSET 26
#define CCM_MPCTL0_PD_MASK (0xf << 26)
#define CCM_MPCTL0_MFD_OFFSET 16
#define CCM_MPCTL0_MFD_MASK (0x3ff << 16)
#define CCM_MPCTL0_MFI_OFFSET 10
#define CCM_MPCTL0_MFI_MASK (0xf << 10)
#define CCM_MPCTL0_MFN_OFFSET 0
#define CCM_MPCTL0_MFN_MASK 0x3ff
#define CCM_MPCTL1_LF (1 << 15)
#define CCM_MPCTL1_BRMO (1 << 6)
#define CCM_SPCTL0_CPLM (1 << 31)
#define CCM_SPCTL0_PD_OFFSET 26
#define CCM_SPCTL0_PD_MASK (0xf << 26)
#define CCM_SPCTL0_MFD_OFFSET 16
#define CCM_SPCTL0_MFD_MASK (0x3ff << 16)
#define CCM_SPCTL0_MFI_OFFSET 10
#define CCM_SPCTL0_MFI_MASK (0xf << 10)
#define CCM_SPCTL0_MFN_OFFSET 0
#define CCM_SPCTL0_MFN_MASK 0x3ff
#define CCM_SPCTL1_LF (1 << 15)
#define CCM_SPCTL1_BRMO (1 << 6)
#define CCM_OSC26MCTL_PEAK_OFFSET 16
#define CCM_OSC26MCTL_PEAK_MASK (0x3 << 16)
#define CCM_OSC26MCTL_AGC_OFFSET 8
#define CCM_OSC26MCTL_AGC_MASK (0x3f << 8)
#define CCM_OSC26MCTL_ANATEST_OFFSET 0
#define CCM_OSC26MCTL_ANATEST_MASK 0x3f
#define CCM_PCDR0_SSI2BAUDDIV_OFFSET 26
#define CCM_PCDR0_SSI2BAUDDIV_MASK (0x3f << 26)
#define CCM_PCDR0_SSI1BAUDDIV_OFFSET 16
#define CCM_PCDR0_SSI1BAUDDIV_MASK (0x3f << 16)
#define CCM_PCDR0_NFCDIV_OFFSET 12
#define CCM_PCDR0_NFCDIV_MASK (0xf << 12)
#define CCM_PCDR0_48MDIV_OFFSET 5
#define CCM_PCDR0_48MDIV_MASK (0x7 << CCM_PCDR0_48MDIV_OFFSET)
#define CCM_PCDR0_FIRIDIV_OFFSET 0
#define CCM_PCDR0_FIRIDIV_MASK 0x1f
#define CCM_PCDR1_PERDIV4_OFFSET 24
#define CCM_PCDR1_PERDIV4_MASK (0x3f << 24)
#define CCM_PCDR1_PERDIV3_OFFSET 16
#define CCM_PCDR1_PERDIV3_MASK (0x3f << 16)
#define CCM_PCDR1_PERDIV2_OFFSET 8
#define CCM_PCDR1_PERDIV2_MASK (0x3f << 8)
#define CCM_PCDR1_PERDIV1_OFFSET 0
#define CCM_PCDR1_PERDIV1_MASK 0x3f
#define CCM_PCCR_HCLK_CSI_OFFSET 31
#define CCM_PCCR_HCLK_CSI_REG CCM_PCCR0
#define CCM_PCCR_HCLK_DMA_OFFSET 30
#define CCM_PCCR_HCLK_DMA_REG CCM_PCCR0
#define CCM_PCCR_HCLK_BROM_OFFSET 28
#define CCM_PCCR_HCLK_BROM_REG CCM_PCCR0
#define CCM_PCCR_HCLK_EMMA_OFFSET 27
#define CCM_PCCR_HCLK_EMMA_REG CCM_PCCR0
#define CCM_PCCR_HCLK_LCDC_OFFSET 26
#define CCM_PCCR_HCLK_LCDC_REG CCM_PCCR0
#define CCM_PCCR_HCLK_SLCDC_OFFSET 25
#define CCM_PCCR_HCLK_SLCDC_REG CCM_PCCR0
#define CCM_PCCR_HCLK_USBOTG_OFFSET 24
#define CCM_PCCR_HCLK_USBOTG_REG CCM_PCCR0
#define CCM_PCCR_HCLK_BMI_OFFSET 23
#define CCM_PCCR_BMI_MASK (1 << CCM_PCCR_BMI_MASK)
#define CCM_PCCR_HCLK_BMI_REG CCM_PCCR0
#define CCM_PCCR_PERCLK4_OFFSET 22
#define CCM_PCCR_PERCLK4_REG CCM_PCCR0
#define CCM_PCCR_SLCDC_OFFSET 21
#define CCM_PCCR_SLCDC_REG CCM_PCCR0
#define CCM_PCCR_FIRI_BAUD_OFFSET 20
#define CCM_PCCR_FIRI_BAUD_MASK (1 << CCM_PCCR_FIRI_BAUD_MASK)
#define CCM_PCCR_FIRI_BAUD_REG CCM_PCCR0
#define CCM_PCCR_NFC_OFFSET 19
#define CCM_PCCR_NFC_REG CCM_PCCR0
#define CCM_PCCR_LCDC_OFFSET 18
#define CCM_PCCR_LCDC_REG CCM_PCCR0
#define CCM_PCCR_SSI1_BAUD_OFFSET 17
#define CCM_PCCR_SSI1_BAUD_REG CCM_PCCR0
#define CCM_PCCR_SSI2_BAUD_OFFSET 16
#define CCM_PCCR_SSI2_BAUD_REG CCM_PCCR0
#define CCM_PCCR_EMMA_OFFSET 15
#define CCM_PCCR_EMMA_REG CCM_PCCR0
#define CCM_PCCR_USBOTG_OFFSET 14
#define CCM_PCCR_USBOTG_REG CCM_PCCR0
#define CCM_PCCR_DMA_OFFSET 13
#define CCM_PCCR_DMA_REG CCM_PCCR0
#define CCM_PCCR_I2C1_OFFSET 12
#define CCM_PCCR_I2C1_REG CCM_PCCR0
#define CCM_PCCR_GPIO_OFFSET 11
#define CCM_PCCR_GPIO_REG CCM_PCCR0
#define CCM_PCCR_SDHC2_OFFSET 10
#define CCM_PCCR_SDHC2_REG CCM_PCCR0
#define CCM_PCCR_SDHC1_OFFSET 9
#define CCM_PCCR_SDHC1_REG CCM_PCCR0
#define CCM_PCCR_FIRI_OFFSET 8
#define CCM_PCCR_FIRI_MASK (1 << CCM_PCCR_BAUD_MASK)
#define CCM_PCCR_FIRI_REG CCM_PCCR0
#define CCM_PCCR_SSI2_IPG_OFFSET 7
#define CCM_PCCR_SSI2_REG CCM_PCCR0
#define CCM_PCCR_SSI1_IPG_OFFSET 6
#define CCM_PCCR_SSI1_REG CCM_PCCR0
#define CCM_PCCR_CSPI2_OFFSET 5
#define CCM_PCCR_CSPI2_REG CCM_PCCR0
#define CCM_PCCR_CSPI1_OFFSET 4
#define CCM_PCCR_CSPI1_REG CCM_PCCR0
#define CCM_PCCR_UART4_OFFSET 3
#define CCM_PCCR_UART4_REG CCM_PCCR0
#define CCM_PCCR_UART3_OFFSET 2
#define CCM_PCCR_UART3_REG CCM_PCCR0
#define CCM_PCCR_UART2_OFFSET 1
#define CCM_PCCR_UART2_REG CCM_PCCR0
#define CCM_PCCR_UART1_OFFSET 0
#define CCM_PCCR_UART1_REG CCM_PCCR0
#define CCM_PCCR_OWIRE_OFFSET 31
#define CCM_PCCR_OWIRE_REG CCM_PCCR1
#define CCM_PCCR_KPP_OFFSET 30
#define CCM_PCCR_KPP_REG CCM_PCCR1
#define CCM_PCCR_RTC_OFFSET 29
#define CCM_PCCR_RTC_REG CCM_PCCR1
#define CCM_PCCR_PWM_OFFSET 28
#define CCM_PCCR_PWM_REG CCM_PCCR1
#define CCM_PCCR_GPT3_OFFSET 27
#define CCM_PCCR_GPT3_REG CCM_PCCR1
#define CCM_PCCR_GPT2_OFFSET 26
#define CCM_PCCR_GPT2_REG CCM_PCCR1
#define CCM_PCCR_GPT1_OFFSET 25
#define CCM_PCCR_GPT1_REG CCM_PCCR1
#define CCM_PCCR_WDT_OFFSET 24
#define CCM_PCCR_WDT_REG CCM_PCCR1
#define CCM_PCCR_CSPI3_OFFSET 23
#define CCM_PCCR_CSPI3_REG CCM_PCCR1
#define CCM_PCCR_CSPI1_MASK (1 << CCM_PCCR_CSPI1_OFFSET)
#define CCM_PCCR_CSPI2_MASK (1 << CCM_PCCR_CSPI2_OFFSET)
#define CCM_PCCR_CSPI3_MASK (1 << CCM_PCCR_CSPI3_OFFSET)
#define CCM_PCCR_DMA_MASK (1 << CCM_PCCR_DMA_OFFSET)
#define CCM_PCCR_EMMA_MASK (1 << CCM_PCCR_EMMA_OFFSET)
#define CCM_PCCR_GPIO_MASK (1 << CCM_PCCR_GPIO_OFFSET)
#define CCM_PCCR_GPT1_MASK (1 << CCM_PCCR_GPT1_OFFSET)
#define CCM_PCCR_GPT2_MASK (1 << CCM_PCCR_GPT2_OFFSET)
#define CCM_PCCR_GPT3_MASK (1 << CCM_PCCR_GPT3_OFFSET)
#define CCM_PCCR_HCLK_BROM_MASK (1 << CCM_PCCR_HCLK_BROM_OFFSET)
#define CCM_PCCR_HCLK_CSI_MASK (1 << CCM_PCCR_HCLK_CSI_OFFSET)
#define CCM_PCCR_HCLK_DMA_MASK (1 << CCM_PCCR_HCLK_DMA_OFFSET)
#define CCM_PCCR_HCLK_EMMA_MASK (1 << CCM_PCCR_HCLK_EMMA_OFFSET)
#define CCM_PCCR_HCLK_LCDC_MASK (1 << CCM_PCCR_HCLK_LCDC_OFFSET)
#define CCM_PCCR_HCLK_SLCDC_MASK (1 << CCM_PCCR_HCLK_SLCDC_OFFSET)
#define CCM_PCCR_HCLK_USBOTG_MASK (1 << CCM_PCCR_HCLK_USBOTG_OFFSET)
#define CCM_PCCR_I2C1_MASK (1 << CCM_PCCR_I2C1_OFFSET)
#define CCM_PCCR_KPP_MASK (1 << CCM_PCCR_KPP_OFFSET)
#define CCM_PCCR_LCDC_MASK (1 << CCM_PCCR_LCDC_OFFSET)
#define CCM_PCCR_NFC_MASK (1 << CCM_PCCR_NFC_OFFSET)
#define CCM_PCCR_OWIRE_MASK (1 << CCM_PCCR_OWIRE_OFFSET)
#define CCM_PCCR_PERCLK4_MASK (1 << CCM_PCCR_PERCLK4_OFFSET)
#define CCM_PCCR_PWM_MASK (1 << CCM_PCCR_PWM_OFFSET)
#define CCM_PCCR_RTC_MASK (1 << CCM_PCCR_RTC_OFFSET)
#define CCM_PCCR_SDHC1_MASK (1 << CCM_PCCR_SDHC1_OFFSET)
#define CCM_PCCR_SDHC2_MASK (1 << CCM_PCCR_SDHC2_OFFSET)
#define CCM_PCCR_SLCDC_MASK (1 << CCM_PCCR_SLCDC_OFFSET)
#define CCM_PCCR_SSI1_BAUD_MASK (1 << CCM_PCCR_SSI1_BAUD_OFFSET)
#define CCM_PCCR_SSI1_IPG_MASK (1 << CCM_PCCR_SSI1_IPG_OFFSET)
#define CCM_PCCR_SSI2_BAUD_MASK (1 << CCM_PCCR_SSI2_BAUD_OFFSET)
#define CCM_PCCR_SSI2_IPG_MASK (1 << CCM_PCCR_SSI2_IPG_OFFSET)
#define CCM_PCCR_UART1_MASK (1 << CCM_PCCR_UART1_OFFSET)
#define CCM_PCCR_UART2_MASK (1 << CCM_PCCR_UART2_OFFSET)
#define CCM_PCCR_UART3_MASK (1 << CCM_PCCR_UART3_OFFSET)
#define CCM_PCCR_UART4_MASK (1 << CCM_PCCR_UART4_OFFSET)
#define CCM_PCCR_USBOTG_MASK (1 << CCM_PCCR_USBOTG_OFFSET)
#define CCM_PCCR_WDT_MASK (1 << CCM_PCCR_WDT_OFFSET)
#define CCM_CCSR_32KSR (1 << 15)
#define CCM_CCSR_CLKMODE1 (1 << 9)
#define CCM_CCSR_CLKMODE0 (1 << 8)
#define CCM_CCSR_CLKOSEL_OFFSET 0
#define CCM_CCSR_CLKOSEL_MASK 0x1f
#define SYS_FMCR 0x14 /* Functional Muxing Control Reg */
#define SYS_CHIP_ID 0x00 /* The offset of CHIP ID register */
static int _clk_enable(struct clk *clk)
{
u32 reg;
reg = __raw_readl(clk->enable_reg);
reg |= 1 << clk->enable_shift;
__raw_writel(reg, clk->enable_reg);
return 0;
}
static void _clk_disable(struct clk *clk)
{
u32 reg;
reg = __raw_readl(clk->enable_reg);
reg &= ~(1 << clk->enable_shift);
__raw_writel(reg, clk->enable_reg);
}
static unsigned long _clk_generic_round_rate(struct clk *clk,
unsigned long rate,
u32 max_divisor)
{
u32 div;
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
div = parent_rate / rate;
if (parent_rate % rate)
div++;
if (div > max_divisor)
div = max_divisor;
return parent_rate / div;
}
static int _clk_spll_enable(struct clk *clk)
{
u32 reg;
reg = __raw_readl(CCM_CSCR);
reg |= CCM_CSCR_SPEN;
__raw_writel(reg, CCM_CSCR);
while ((__raw_readl(CCM_SPCTL1) & CCM_SPCTL1_LF) == 0)
;
return 0;
}
static void _clk_spll_disable(struct clk *clk)
{
u32 reg;
reg = __raw_readl(CCM_CSCR);
reg &= ~CCM_CSCR_SPEN;
__raw_writel(reg, CCM_CSCR);
}
#define CSCR() (__raw_readl(CCM_CSCR))
#define PCDR0() (__raw_readl(CCM_PCDR0))
#define PCDR1() (__raw_readl(CCM_PCDR1))
static unsigned long _clk_perclkx_round_rate(struct clk *clk,
unsigned long rate)
{
return _clk_generic_round_rate(clk, rate, 64);
}
static int _clk_perclkx_set_rate(struct clk *clk, unsigned long rate)
{
u32 reg;
u32 div;
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
if (clk->id < 0 || clk->id > 3)
return -EINVAL;
div = parent_rate / rate;
if (div > 64 || div < 1 || ((parent_rate / div) != rate))
return -EINVAL;
div--;
reg =
__raw_readl(CCM_PCDR1) & ~(CCM_PCDR1_PERDIV1_MASK <<
(clk->id << 3));
reg |= div << (clk->id << 3);
__raw_writel(reg, CCM_PCDR1);
return 0;
}
static unsigned long _clk_usb_recalc(struct clk *clk)
{
unsigned long usb_pdf;
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
usb_pdf = (CSCR() & CCM_CSCR_USB_MASK) >> CCM_CSCR_USB_OFFSET;
return parent_rate / (usb_pdf + 1U);
}
static unsigned long _clk_usb_round_rate(struct clk *clk,
unsigned long rate)
{
return _clk_generic_round_rate(clk, rate, 8);
}
static int _clk_usb_set_rate(struct clk *clk, unsigned long rate)
{
u32 reg;
u32 div;
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
div = parent_rate / rate;
if (div > 8 || div < 1 || ((parent_rate / div) != rate))
return -EINVAL;
div--;
reg = CSCR() & ~CCM_CSCR_USB_MASK;
reg |= div << CCM_CSCR_USB_OFFSET;
__raw_writel(reg, CCM_CSCR);
return 0;
}
static unsigned long _clk_ssix_recalc(struct clk *clk, unsigned long pdf)
{
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
pdf = (pdf < 2) ? 124UL : pdf; /* MX21 & MX27 TO1 */
return 2UL * parent_rate / pdf;
}
static unsigned long _clk_ssi1_recalc(struct clk *clk)
{
return _clk_ssix_recalc(clk,
(PCDR0() & CCM_PCDR0_SSI1BAUDDIV_MASK)
>> CCM_PCDR0_SSI1BAUDDIV_OFFSET);
}
static unsigned long _clk_ssi2_recalc(struct clk *clk)
{
return _clk_ssix_recalc(clk,
(PCDR0() & CCM_PCDR0_SSI2BAUDDIV_MASK) >>
CCM_PCDR0_SSI2BAUDDIV_OFFSET);
}
static unsigned long _clk_nfc_recalc(struct clk *clk)
{
unsigned long nfc_pdf;
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
nfc_pdf = (PCDR0() & CCM_PCDR0_NFCDIV_MASK)
>> CCM_PCDR0_NFCDIV_OFFSET;
return parent_rate / (nfc_pdf + 1);
}
static unsigned long _clk_parent_round_rate(struct clk *clk, unsigned long rate)
{
return clk->parent->round_rate(clk->parent, rate);
}
static int _clk_parent_set_rate(struct clk *clk, unsigned long rate)
{
return clk->parent->set_rate(clk->parent, rate);
}
static unsigned long external_high_reference; /* in Hz */
static unsigned long get_high_reference_clock_rate(struct clk *clk)
{
return external_high_reference;
}
/*
* the high frequency external clock reference
* Default case is 26MHz.
*/
static struct clk ckih_clk = {
.get_rate = get_high_reference_clock_rate,
};
static unsigned long external_low_reference; /* in Hz */
static unsigned long get_low_reference_clock_rate(struct clk *clk)
{
return external_low_reference;
}
/*
* the low frequency external clock reference
* Default case is 32.768kHz.
*/
static struct clk ckil_clk = {
.get_rate = get_low_reference_clock_rate,
};
static unsigned long _clk_fpm_recalc(struct clk *clk)
{
return clk_get_rate(clk->parent) * 512;
}
/* Output of frequency pre multiplier */
static struct clk fpm_clk = {
.parent = &ckil_clk,
.get_rate = _clk_fpm_recalc,
};
static unsigned long get_mpll_clk(struct clk *clk)
{
uint32_t reg;
unsigned long ref_clk;
unsigned long mfi = 0, mfn = 0, mfd = 0, pdf = 0;
unsigned long long temp;
ref_clk = clk_get_rate(clk->parent);
reg = __raw_readl(CCM_MPCTL0);
pdf = (reg & CCM_MPCTL0_PD_MASK) >> CCM_MPCTL0_PD_OFFSET;
mfd = (reg & CCM_MPCTL0_MFD_MASK) >> CCM_MPCTL0_MFD_OFFSET;
mfi = (reg & CCM_MPCTL0_MFI_MASK) >> CCM_MPCTL0_MFI_OFFSET;
mfn = (reg & CCM_MPCTL0_MFN_MASK) >> CCM_MPCTL0_MFN_OFFSET;
mfi = (mfi <= 5) ? 5 : mfi;
temp = 2LL * ref_clk * mfn;
do_div(temp, mfd + 1);
temp = 2LL * ref_clk * mfi + temp;
do_div(temp, pdf + 1);
return (unsigned long)temp;
}
static struct clk mpll_clk = {
.parent = &ckih_clk,
.get_rate = get_mpll_clk,
};
static unsigned long _clk_fclk_get_rate(struct clk *clk)
{
unsigned long parent_rate;
u32 div;
div = (CSCR() & CCM_CSCR_PRESC_MASK) >> CCM_CSCR_PRESC_OFFSET;
parent_rate = clk_get_rate(clk->parent);
return parent_rate / (div+1);
}
static struct clk fclk_clk = {
.parent = &mpll_clk,
.get_rate = _clk_fclk_get_rate
};
static unsigned long get_spll_clk(struct clk *clk)
{
uint32_t reg;
unsigned long ref_clk;
unsigned long mfi = 0, mfn = 0, mfd = 0, pdf = 0;
unsigned long long temp;
ref_clk = clk_get_rate(clk->parent);
reg = __raw_readl(CCM_SPCTL0);
pdf = (reg & CCM_SPCTL0_PD_MASK) >> CCM_SPCTL0_PD_OFFSET;
mfd = (reg & CCM_SPCTL0_MFD_MASK) >> CCM_SPCTL0_MFD_OFFSET;
mfi = (reg & CCM_SPCTL0_MFI_MASK) >> CCM_SPCTL0_MFI_OFFSET;
mfn = (reg & CCM_SPCTL0_MFN_MASK) >> CCM_SPCTL0_MFN_OFFSET;
mfi = (mfi <= 5) ? 5 : mfi;
temp = 2LL * ref_clk * mfn;
do_div(temp, mfd + 1);
temp = 2LL * ref_clk * mfi + temp;
do_div(temp, pdf + 1);
return (unsigned long)temp;
}
static struct clk spll_clk = {
.parent = &ckih_clk,
.get_rate = get_spll_clk,
.enable = _clk_spll_enable,
.disable = _clk_spll_disable,
};
static unsigned long get_hclk_clk(struct clk *clk)
{
unsigned long rate;
unsigned long bclk_pdf;
bclk_pdf = (CSCR() & CCM_CSCR_BCLK_MASK)
>> CCM_CSCR_BCLK_OFFSET;
rate = clk_get_rate(clk->parent);
return rate / (bclk_pdf + 1);
}
static struct clk hclk_clk = {
.parent = &fclk_clk,
.get_rate = get_hclk_clk,
};
static unsigned long get_ipg_clk(struct clk *clk)
{
unsigned long rate;
unsigned long ipg_pdf;
ipg_pdf = (CSCR() & CCM_CSCR_IPDIV) >> CCM_CSCR_IPDIV_OFFSET;
rate = clk_get_rate(clk->parent);
return rate / (ipg_pdf + 1);
}
static struct clk ipg_clk = {
.parent = &hclk_clk,
.get_rate = get_ipg_clk,
};
static unsigned long _clk_perclkx_recalc(struct clk *clk)
{
unsigned long perclk_pdf;
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
if (clk->id < 0 || clk->id > 3)
return 0;
perclk_pdf = (PCDR1() >> (clk->id << 3)) & CCM_PCDR1_PERDIV1_MASK;
return parent_rate / (perclk_pdf + 1);
}
static struct clk per_clk[] = {
{
.id = 0,
.parent = &mpll_clk,
.get_rate = _clk_perclkx_recalc,
}, {
.id = 1,
.parent = &mpll_clk,
.get_rate = _clk_perclkx_recalc,
}, {
.id = 2,
.parent = &mpll_clk,
.round_rate = _clk_perclkx_round_rate,
.set_rate = _clk_perclkx_set_rate,
.get_rate = _clk_perclkx_recalc,
/* Enable/Disable done via lcd_clkc[1] */
}, {
.id = 3,
.parent = &mpll_clk,
.round_rate = _clk_perclkx_round_rate,
.set_rate = _clk_perclkx_set_rate,
.get_rate = _clk_perclkx_recalc,
/* Enable/Disable done via csi_clk[1] */
},
};
static struct clk uart_ipg_clk[];
static struct clk uart_clk[] = {
{
.id = 0,
.parent = &per_clk[0],
.secondary = &uart_ipg_clk[0],
}, {
.id = 1,
.parent = &per_clk[0],
.secondary = &uart_ipg_clk[1],
}, {
.id = 2,
.parent = &per_clk[0],
.secondary = &uart_ipg_clk[2],
}, {
.id = 3,
.parent = &per_clk[0],
.secondary = &uart_ipg_clk[3],
},
};
static struct clk uart_ipg_clk[] = {
{
.id = 0,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_UART1_REG,
.enable_shift = CCM_PCCR_UART1_OFFSET,
.disable = _clk_disable,
}, {
.id = 1,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_UART2_REG,
.enable_shift = CCM_PCCR_UART2_OFFSET,
.disable = _clk_disable,
}, {
.id = 2,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_UART3_REG,
.enable_shift = CCM_PCCR_UART3_OFFSET,
.disable = _clk_disable,
}, {
.id = 3,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_UART4_REG,
.enable_shift = CCM_PCCR_UART4_OFFSET,
.disable = _clk_disable,
},
};
static struct clk gpt_ipg_clk[];
static struct clk gpt_clk[] = {
{
.id = 0,
.parent = &per_clk[0],
.secondary = &gpt_ipg_clk[0],
}, {
.id = 1,
.parent = &per_clk[0],
.secondary = &gpt_ipg_clk[1],
}, {
.id = 2,
.parent = &per_clk[0],
.secondary = &gpt_ipg_clk[2],
},
};
static struct clk gpt_ipg_clk[] = {
{
.id = 0,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_GPT1_REG,
.enable_shift = CCM_PCCR_GPT1_OFFSET,
.disable = _clk_disable,
}, {
.id = 1,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_GPT2_REG,
.enable_shift = CCM_PCCR_GPT2_OFFSET,
.disable = _clk_disable,
}, {
.id = 2,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_GPT3_REG,
.enable_shift = CCM_PCCR_GPT3_OFFSET,
.disable = _clk_disable,
},
};
static struct clk pwm_clk[] = {
{
.parent = &per_clk[0],
.secondary = &pwm_clk[1],
}, {
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_PWM_REG,
.enable_shift = CCM_PCCR_PWM_OFFSET,
.disable = _clk_disable,
},
};
static struct clk sdhc_ipg_clk[];
static struct clk sdhc_clk[] = {
{
.id = 0,
.parent = &per_clk[1],
.secondary = &sdhc_ipg_clk[0],
}, {
.id = 1,
.parent = &per_clk[1],
.secondary = &sdhc_ipg_clk[1],
},
};
static struct clk sdhc_ipg_clk[] = {
{
.id = 0,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_SDHC1_REG,
.enable_shift = CCM_PCCR_SDHC1_OFFSET,
.disable = _clk_disable,
}, {
.id = 1,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_SDHC2_REG,
.enable_shift = CCM_PCCR_SDHC2_OFFSET,
.disable = _clk_disable,
},
};
static struct clk cspi_ipg_clk[];
static struct clk cspi_clk[] = {
{
.id = 0,
.parent = &per_clk[1],
.secondary = &cspi_ipg_clk[0],
}, {
.id = 1,
.parent = &per_clk[1],
.secondary = &cspi_ipg_clk[1],
}, {
.id = 2,
.parent = &per_clk[1],
.secondary = &cspi_ipg_clk[2],
},
};
static struct clk cspi_ipg_clk[] = {
{
.id = 0,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_CSPI1_REG,
.enable_shift = CCM_PCCR_CSPI1_OFFSET,
.disable = _clk_disable,
}, {
.id = 1,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_CSPI2_REG,
.enable_shift = CCM_PCCR_CSPI2_OFFSET,
.disable = _clk_disable,
}, {
.id = 3,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_CSPI3_REG,
.enable_shift = CCM_PCCR_CSPI3_OFFSET,
.disable = _clk_disable,
},
};
static struct clk lcdc_clk[] = {
{
.parent = &per_clk[2],
.secondary = &lcdc_clk[1],
.round_rate = _clk_parent_round_rate,
.set_rate = _clk_parent_set_rate,
}, {
.parent = &ipg_clk,
.secondary = &lcdc_clk[2],
.enable = _clk_enable,
.enable_reg = CCM_PCCR_LCDC_REG,
.enable_shift = CCM_PCCR_LCDC_OFFSET,
.disable = _clk_disable,
}, {
.parent = &hclk_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_HCLK_LCDC_REG,
.enable_shift = CCM_PCCR_HCLK_LCDC_OFFSET,
.disable = _clk_disable,
},
};
static struct clk csi_clk[] = {
{
.parent = &per_clk[3],
.secondary = &csi_clk[1],
.round_rate = _clk_parent_round_rate,
.set_rate = _clk_parent_set_rate,
}, {
.parent = &hclk_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_HCLK_CSI_REG,
.enable_shift = CCM_PCCR_HCLK_CSI_OFFSET,
.disable = _clk_disable,
},
};
static struct clk usb_clk[] = {
{
.parent = &spll_clk,
.secondary = &usb_clk[1],
.get_rate = _clk_usb_recalc,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_USBOTG_REG,
.enable_shift = CCM_PCCR_USBOTG_OFFSET,
.disable = _clk_disable,
.round_rate = _clk_usb_round_rate,
.set_rate = _clk_usb_set_rate,
}, {
.parent = &hclk_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_HCLK_USBOTG_REG,
.enable_shift = CCM_PCCR_HCLK_USBOTG_OFFSET,
.disable = _clk_disable,
}
};
static struct clk ssi_ipg_clk[];
static struct clk ssi_clk[] = {
{
.id = 0,
.parent = &mpll_clk,
.secondary = &ssi_ipg_clk[0],
.get_rate = _clk_ssi1_recalc,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_SSI1_BAUD_REG,
.enable_shift = CCM_PCCR_SSI1_BAUD_OFFSET,
.disable = _clk_disable,
}, {
.id = 1,
.parent = &mpll_clk,
.secondary = &ssi_ipg_clk[1],
.get_rate = _clk_ssi2_recalc,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_SSI2_BAUD_REG,
.enable_shift = CCM_PCCR_SSI2_BAUD_OFFSET,
.disable = _clk_disable,
},
};
static struct clk ssi_ipg_clk[] = {
{
.id = 0,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_SSI1_REG,
.enable_shift = CCM_PCCR_SSI1_IPG_OFFSET,
.disable = _clk_disable,
}, {
.id = 1,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_SSI2_REG,
.enable_shift = CCM_PCCR_SSI2_IPG_OFFSET,
.disable = _clk_disable,
},
};
static struct clk nfc_clk = {
.parent = &fclk_clk,
.get_rate = _clk_nfc_recalc,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_NFC_REG,
.enable_shift = CCM_PCCR_NFC_OFFSET,
.disable = _clk_disable,
};
static struct clk dma_clk[] = {
{
.parent = &hclk_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_DMA_REG,
.enable_shift = CCM_PCCR_DMA_OFFSET,
.disable = _clk_disable,
.secondary = &dma_clk[1],
}, {
.enable = _clk_enable,
.enable_reg = CCM_PCCR_HCLK_DMA_REG,
.enable_shift = CCM_PCCR_HCLK_DMA_OFFSET,
.disable = _clk_disable,
},
};
static struct clk brom_clk = {
.parent = &hclk_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_HCLK_BROM_REG,
.enable_shift = CCM_PCCR_HCLK_BROM_OFFSET,
.disable = _clk_disable,
};
static struct clk emma_clk[] = {
{
.parent = &hclk_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_EMMA_REG,
.enable_shift = CCM_PCCR_EMMA_OFFSET,
.disable = _clk_disable,
.secondary = &emma_clk[1],
}, {
.enable = _clk_enable,
.enable_reg = CCM_PCCR_HCLK_EMMA_REG,
.enable_shift = CCM_PCCR_HCLK_EMMA_OFFSET,
.disable = _clk_disable,
}
};
static struct clk slcdc_clk[] = {
{
.parent = &hclk_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_SLCDC_REG,
.enable_shift = CCM_PCCR_SLCDC_OFFSET,
.disable = _clk_disable,
.secondary = &slcdc_clk[1],
}, {
.enable = _clk_enable,
.enable_reg = CCM_PCCR_HCLK_SLCDC_REG,
.enable_shift = CCM_PCCR_HCLK_SLCDC_OFFSET,
.disable = _clk_disable,
}
};
static struct clk wdog_clk = {
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_WDT_REG,
.enable_shift = CCM_PCCR_WDT_OFFSET,
.disable = _clk_disable,
};
static struct clk gpio_clk = {
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_GPIO_REG,
.enable_shift = CCM_PCCR_GPIO_OFFSET,
.disable = _clk_disable,
};
static struct clk i2c_clk = {
.id = 0,
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_I2C1_REG,
.enable_shift = CCM_PCCR_I2C1_OFFSET,
.disable = _clk_disable,
};
static struct clk kpp_clk = {
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_KPP_REG,
.enable_shift = CCM_PCCR_KPP_OFFSET,
.disable = _clk_disable,
};
static struct clk owire_clk = {
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_OWIRE_REG,
.enable_shift = CCM_PCCR_OWIRE_OFFSET,
.disable = _clk_disable,
};
static struct clk rtc_clk = {
.parent = &ipg_clk,
.enable = _clk_enable,
.enable_reg = CCM_PCCR_RTC_REG,
.enable_shift = CCM_PCCR_RTC_OFFSET,
.disable = _clk_disable,
};
static unsigned long _clk_clko_round_rate(struct clk *clk, unsigned long rate)
{
return _clk_generic_round_rate(clk, rate, 8);
}
static int _clk_clko_set_rate(struct clk *clk, unsigned long rate)
{
u32 reg;
u32 div;
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
div = parent_rate / rate;
if (div > 8 || div < 1 || ((parent_rate / div) != rate))
return -EINVAL;
div--;
reg = __raw_readl(CCM_PCDR0);
if (clk->parent == &usb_clk[0]) {
reg &= ~CCM_PCDR0_48MDIV_MASK;
reg |= div << CCM_PCDR0_48MDIV_OFFSET;
}
__raw_writel(reg, CCM_PCDR0);
return 0;
}
static unsigned long _clk_clko_recalc(struct clk *clk)
{
u32 div = 0;
unsigned long parent_rate;
parent_rate = clk_get_rate(clk->parent);
if (clk->parent == &usb_clk[0]) /* 48M */
div = __raw_readl(CCM_PCDR0) & CCM_PCDR0_48MDIV_MASK
>> CCM_PCDR0_48MDIV_OFFSET;
div++;
return parent_rate / div;
}
static struct clk clko_clk;
static int _clk_clko_set_parent(struct clk *clk, struct clk *parent)
{
u32 reg;
reg = __raw_readl(CCM_CCSR) & ~CCM_CCSR_CLKOSEL_MASK;
if (parent == &ckil_clk)
reg |= 0 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &fpm_clk)
reg |= 1 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &ckih_clk)
reg |= 2 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == mpll_clk.parent)
reg |= 3 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == spll_clk.parent)
reg |= 4 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &mpll_clk)
reg |= 5 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &spll_clk)
reg |= 6 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &fclk_clk)
reg |= 7 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &hclk_clk)
reg |= 8 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &ipg_clk)
reg |= 9 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &per_clk[0])
reg |= 0xA << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &per_clk[1])
reg |= 0xB << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &per_clk[2])
reg |= 0xC << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &per_clk[3])
reg |= 0xD << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &ssi_clk[0])
reg |= 0xE << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &ssi_clk[1])
reg |= 0xF << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &nfc_clk)
reg |= 0x10 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &usb_clk[0])
reg |= 0x14 << CCM_CCSR_CLKOSEL_OFFSET;
else if (parent == &clko_clk)
reg |= 0x15 << CCM_CCSR_CLKOSEL_OFFSET;
else
return -EINVAL;
__raw_writel(reg, CCM_CCSR);
return 0;
}
static struct clk clko_clk = {
.get_rate = _clk_clko_recalc,
.set_rate = _clk_clko_set_rate,
.round_rate = _clk_clko_round_rate,
.set_parent = _clk_clko_set_parent,
};
#define _REGISTER_CLOCK(d, n, c) \
{ \
.dev_id = d, \
.con_id = n, \
.clk = &c, \
},
static struct clk_lookup lookups[] = {
/* It's unlikely that any driver wants one of them directly:
_REGISTER_CLOCK(NULL, "ckih", ckih_clk)
_REGISTER_CLOCK(NULL, "ckil", ckil_clk)
_REGISTER_CLOCK(NULL, "fpm", fpm_clk)
_REGISTER_CLOCK(NULL, "mpll", mpll_clk)
_REGISTER_CLOCK(NULL, "spll", spll_clk)
_REGISTER_CLOCK(NULL, "fclk", fclk_clk)
_REGISTER_CLOCK(NULL, "hclk", hclk_clk)
_REGISTER_CLOCK(NULL, "ipg", ipg_clk)
*/
_REGISTER_CLOCK(NULL, "perclk1", per_clk[0])
_REGISTER_CLOCK(NULL, "perclk2", per_clk[1])
_REGISTER_CLOCK(NULL, "perclk3", per_clk[2])
_REGISTER_CLOCK(NULL, "perclk4", per_clk[3])
_REGISTER_CLOCK(NULL, "clko", clko_clk)
_REGISTER_CLOCK("imx-uart.0", NULL, uart_clk[0])
_REGISTER_CLOCK("imx-uart.1", NULL, uart_clk[1])
_REGISTER_CLOCK("imx-uart.2", NULL, uart_clk[2])
_REGISTER_CLOCK("imx-uart.3", NULL, uart_clk[3])
_REGISTER_CLOCK(NULL, "gpt1", gpt_clk[0])
_REGISTER_CLOCK(NULL, "gpt1", gpt_clk[1])
_REGISTER_CLOCK(NULL, "gpt1", gpt_clk[2])
_REGISTER_CLOCK(NULL, "pwm", pwm_clk[0])
_REGISTER_CLOCK(NULL, "sdhc1", sdhc_clk[0])
_REGISTER_CLOCK(NULL, "sdhc2", sdhc_clk[1])
_REGISTER_CLOCK(NULL, "cspi1", cspi_clk[0])
_REGISTER_CLOCK(NULL, "cspi2", cspi_clk[1])
_REGISTER_CLOCK(NULL, "cspi3", cspi_clk[2])
_REGISTER_CLOCK("imx-fb.0", NULL, lcdc_clk[0])
_REGISTER_CLOCK(NULL, "csi", csi_clk[0])
_REGISTER_CLOCK("imx21-hcd.0", NULL, usb_clk[0])
_REGISTER_CLOCK(NULL, "ssi1", ssi_clk[0])
_REGISTER_CLOCK(NULL, "ssi2", ssi_clk[1])
_REGISTER_CLOCK("mxc_nand.0", NULL, nfc_clk)
_REGISTER_CLOCK(NULL, "dma", dma_clk[0])
_REGISTER_CLOCK(NULL, "brom", brom_clk)
_REGISTER_CLOCK(NULL, "emma", emma_clk[0])
_REGISTER_CLOCK(NULL, "slcdc", slcdc_clk[0])
_REGISTER_CLOCK("imx-wdt.0", NULL, wdog_clk)
_REGISTER_CLOCK(NULL, "gpio", gpio_clk)
_REGISTER_CLOCK("imx-i2c.0", NULL, i2c_clk)
_REGISTER_CLOCK("mxc-keypad", NULL, kpp_clk)
_REGISTER_CLOCK(NULL, "owire", owire_clk)
_REGISTER_CLOCK(NULL, "rtc", rtc_clk)
};
/*
* must be called very early to get information about the
* available clock rate when the timer framework starts
*/
int __init mx21_clocks_init(unsigned long lref, unsigned long href)
{
int i;
u32 cscr;
external_low_reference = lref;
external_high_reference = href;
/* detect clock reference for both system PLL */
cscr = CSCR();
if (cscr & CCM_CSCR_MCU)
mpll_clk.parent = &ckih_clk;
else
mpll_clk.parent = &fpm_clk;
if (cscr & CCM_CSCR_SP)
spll_clk.parent = &ckih_clk;
else
spll_clk.parent = &fpm_clk;
for (i = 0; i < ARRAY_SIZE(lookups); i++)
clkdev_add(&lookups[i]);
/* Turn off all clock gates */
__raw_writel(0, CCM_PCCR0);
__raw_writel(CCM_PCCR_GPT1_MASK, CCM_PCCR1);
/* This turns of the serial PLL as well */
spll_clk.disable(&spll_clk);
/* This will propagate to all children and init all the clock rates. */
clk_enable(&per_clk[0]);
clk_enable(&gpio_clk);
#if defined(CONFIG_DEBUG_LL) && !defined(CONFIG_DEBUG_ICEDCC)
clk_enable(&uart_clk[0]);
#endif
mxc_timer_init(&gpt_clk[0], IO_ADDRESS(MX21_GPT1_BASE_ADDR),
MX21_INT_GPT1);
return 0;
}
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