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/*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA.
*
* Copyright (C) 2007 Xu Liang, infineon
* Copyright (C) 2008 John Crispin <blogic@openwrt.org>
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/version.h>
#include <linux/types.h>
#include <linux/fs.h>
#include <linux/miscdevice.h>
#include <linux/init.h>
#include <linux/uaccess.h>
#include <linux/unistd.h>
#include <linux/errno.h>
#include <asm/irq.h>
#include <asm/div64.h>
#include <ifxmips.h>
#include <ifxmips_cgu.h>
static unsigned int cgu_get_pll0_fdiv(void);
unsigned int ifxmips_clocks[] = {CLOCK_167M, CLOCK_133M, CLOCK_111M, CLOCK_83M };
#define DDR_HZ ifxmips_clocks[ifxmips_r32(IFXMIPS_CGU_SYS) & 0x3]
static inline unsigned int get_input_clock(int pll)
{
switch (pll) {
case 0:
if (ifxmips_r32(IFXMIPS_CGU_PLL0_CFG) & CGU_PLL0_SRC)
return BASIS_INPUT_CRYSTAL_USB;
else if (CGU_PLL0_PHASE_DIVIDER_ENABLE)
return BASIC_INPUT_CLOCK_FREQUENCY_1;
else
return BASIC_INPUT_CLOCK_FREQUENCY_2;
case 1:
if (CGU_PLL1_SRC)
return BASIS_INPUT_CRYSTAL_USB;
else if (CGU_PLL0_PHASE_DIVIDER_ENABLE)
return BASIC_INPUT_CLOCK_FREQUENCY_1;
else
return BASIC_INPUT_CLOCK_FREQUENCY_2;
case 2:
switch (CGU_PLL2_SRC) {
case 0:
return cgu_get_pll0_fdiv();
case 1:
return CGU_PLL2_PHASE_DIVIDER_ENABLE ?
BASIC_INPUT_CLOCK_FREQUENCY_1 :
BASIC_INPUT_CLOCK_FREQUENCY_2;
case 2:
return BASIS_INPUT_CRYSTAL_USB;
}
default:
return 0;
}
}
static inline unsigned int cal_dsm(int pll, unsigned int num, unsigned int den)
{
u64 res, clock = get_input_clock(pll);
res = num * clock;
do_div(res, den);
return res;
}
static inline unsigned int mash_dsm(int pll, unsigned int M, unsigned int N,
unsigned int K)
{
unsigned int num = ((N + 1) << 10) + K;
unsigned int den = (M + 1) << 10;
return cal_dsm(pll, num, den);
}
static inline unsigned int ssff_dsm_1(int pll, unsigned int M, unsigned int N,
unsigned int K)
{
unsigned int num = ((N + 1) << 11) + K + 512;
unsigned int den = (M + 1) << 11;
return cal_dsm(pll, num, den);
}
static inline unsigned int ssff_dsm_2(int pll, unsigned int M, unsigned int N,
unsigned int K)
{
unsigned int num = K >= 512 ?
((N + 1) << 12) + K - 512 : ((N + 1) << 12) + K + 3584;
unsigned int den = (M + 1) << 12;
return cal_dsm(pll, num, den);
}
static inline unsigned int dsm(int pll, unsigned int M, unsigned int N,
unsigned int K, unsigned int dsmsel, unsigned int phase_div_en)
{
if (!dsmsel)
return mash_dsm(pll, M, N, K);
else if (!phase_div_en)
return mash_dsm(pll, M, N, K);
else
return ssff_dsm_2(pll, M, N, K);
}
static inline unsigned int cgu_get_pll0_fosc(void)
{
if (CGU_PLL0_BYPASS)
return get_input_clock(0);
else
return !CGU_PLL0_CFG_FRAC_EN
? dsm(0, CGU_PLL0_CFG_PLLM, CGU_PLL0_CFG_PLLN, 0, CGU_PLL0_CFG_DSMSEL,
CGU_PLL0_PHASE_DIVIDER_ENABLE)
: dsm(0, CGU_PLL0_CFG_PLLM, CGU_PLL0_CFG_PLLN, CGU_PLL0_CFG_PLLK,
CGU_PLL0_CFG_DSMSEL, CGU_PLL0_PHASE_DIVIDER_ENABLE);
}
static unsigned int cgu_get_pll0_fdiv(void)
{
unsigned int div = CGU_PLL2_CFG_INPUT_DIV + 1;
return (cgu_get_pll0_fosc() + (div >> 1)) / div;
}
unsigned int cgu_get_io_region_clock(void)
{
unsigned int ret = cgu_get_pll0_fosc();
switch (ifxmips_r32(IFXMIPS_CGU_PLL2_CFG) & CGU_SYS_DDR_SEL) {
default:
case 0:
return (ret + 1) / 2;
case 1:
return (ret * 2 + 2) / 5;
case 2:
return (ret + 1) / 3;
case 3:
return (ret + 2) / 4;
}
}
void cgu_setup_pci_clk(int external_clock)
{
/* set clock to 33Mhz */
ifxmips_w32(ifxmips_r32(IFXMIPS_CGU_IFCCR) & ~0xf00000,
IFXMIPS_CGU_IFCCR);
ifxmips_w32(ifxmips_r32(IFXMIPS_CGU_IFCCR) | 0x800000,
IFXMIPS_CGU_IFCCR);
if (external_clock) {
ifxmips_w32(ifxmips_r32(IFXMIPS_CGU_IFCCR) & ~(1 << 16),
IFXMIPS_CGU_IFCCR);
ifxmips_w32((1 << 30), IFXMIPS_CGU_PCICR);
} else {
ifxmips_w32(ifxmips_r32(IFXMIPS_CGU_IFCCR) | (1 << 16),
IFXMIPS_CGU_IFCCR);
ifxmips_w32((1 << 31) | (1 << 30), IFXMIPS_CGU_PCICR);
}
}
unsigned int cgu_get_fpi_bus_clock(int fpi)
{
unsigned int ret = cgu_get_io_region_clock();
if ((fpi == 2) && (ifxmips_r32(IFXMIPS_CGU_SYS) & CGU_SYS_FPI_SEL))
ret >>= 1;
return ret;
}
EXPORT_SYMBOL(cgu_get_fpi_bus_clock);
unsigned int ifxmips_get_cpu_hz(void)
{
unsigned int ddr_clock = DDR_HZ;
switch (ifxmips_r32(IFXMIPS_CGU_SYS) & 0xc) {
case 0:
return CLOCK_333M;
case 4:
return ddr_clock;
}
return ddr_clock << 1;
}
EXPORT_SYMBOL(ifxmips_get_cpu_hz);
unsigned int ifxmips_get_fpi_hz(void)
{
unsigned int ddr_clock = DDR_HZ;
if (ifxmips_r32(IFXMIPS_CGU_SYS) & 0x40)
return ddr_clock >> 1;
return ddr_clock;
}
EXPORT_SYMBOL(ifxmips_get_fpi_hz);
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