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linux-next/arch/arm/mach-tegra/tegra2_clocks.c

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/*
* arch/arm/mach-tegra/tegra2_clocks.c
*
* Copyright (C) 2010 Google, Inc.
*
* Author:
* Colin Cross <ccross@google.com>
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* 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.
*
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/list.h>
#include <linux/spinlock.h>
#include <linux/delay.h>
#include <linux/io.h>
#include <linux/hrtimer.h>
#include <asm/clkdev.h>
#include <mach/iomap.h>
#include "clock.h"
#define RST_DEVICES 0x004
#define RST_DEVICES_SET 0x300
#define RST_DEVICES_CLR 0x304
#define CLK_OUT_ENB 0x010
#define CLK_OUT_ENB_SET 0x320
#define CLK_OUT_ENB_CLR 0x324
#define OSC_CTRL 0x50
#define OSC_CTRL_OSC_FREQ_MASK (3<<30)
#define OSC_CTRL_OSC_FREQ_13MHZ (0<<30)
#define OSC_CTRL_OSC_FREQ_19_2MHZ (1<<30)
#define OSC_CTRL_OSC_FREQ_12MHZ (2<<30)
#define OSC_CTRL_OSC_FREQ_26MHZ (3<<30)
#define OSC_FREQ_DET 0x58
#define OSC_FREQ_DET_TRIG (1<<31)
#define OSC_FREQ_DET_STATUS 0x5C
#define OSC_FREQ_DET_BUSY (1<<31)
#define OSC_FREQ_DET_CNT_MASK 0xFFFF
#define PERIPH_CLK_SOURCE_MASK (3<<30)
#define PERIPH_CLK_SOURCE_SHIFT 30
#define PERIPH_CLK_SOURCE_ENABLE (1<<28)
#define PERIPH_CLK_SOURCE_DIV_MASK 0xFF
#define PERIPH_CLK_SOURCE_DIV_SHIFT 0
#define PLL_BASE 0x0
#define PLL_BASE_BYPASS (1<<31)
#define PLL_BASE_ENABLE (1<<30)
#define PLL_BASE_REF_ENABLE (1<<29)
#define PLL_BASE_OVERRIDE (1<<28)
#define PLL_BASE_LOCK (1<<27)
#define PLL_BASE_DIVP_MASK (0x7<<20)
#define PLL_BASE_DIVP_SHIFT 20
#define PLL_BASE_DIVN_MASK (0x3FF<<8)
#define PLL_BASE_DIVN_SHIFT 8
#define PLL_BASE_DIVM_MASK (0x1F)
#define PLL_BASE_DIVM_SHIFT 0
#define PLL_OUT_RATIO_MASK (0xFF<<8)
#define PLL_OUT_RATIO_SHIFT 8
#define PLL_OUT_OVERRIDE (1<<2)
#define PLL_OUT_CLKEN (1<<1)
#define PLL_OUT_RESET_DISABLE (1<<0)
#define PLL_MISC(c) (((c)->flags & PLL_ALT_MISC_REG) ? 0x4 : 0xc)
#define PLL_MISC_DCCON_SHIFT 20
#define PLL_MISC_LOCK_ENABLE (1<<18)
#define PLL_MISC_CPCON_SHIFT 8
#define PLL_MISC_CPCON_MASK (0xF<<PLL_MISC_CPCON_SHIFT)
#define PLL_MISC_LFCON_SHIFT 4
#define PLL_MISC_LFCON_MASK (0xF<<PLL_MISC_LFCON_SHIFT)
#define PLL_MISC_VCOCON_SHIFT 0
#define PLL_MISC_VCOCON_MASK (0xF<<PLL_MISC_VCOCON_SHIFT)
#define PLLD_MISC_CLKENABLE (1<<30)
#define PLLD_MISC_DIV_RST (1<<23)
#define PLLD_MISC_DCCON_SHIFT 12
#define PERIPH_CLK_TO_ENB_REG(c) ((c->clk_num / 32) * 4)
#define PERIPH_CLK_TO_ENB_SET_REG(c) ((c->clk_num / 32) * 8)
#define PERIPH_CLK_TO_ENB_BIT(c) (1 << (c->clk_num % 32))
#define SUPER_CLK_MUX 0x00
#define SUPER_STATE_SHIFT 28
#define SUPER_STATE_MASK (0xF << SUPER_STATE_SHIFT)
#define SUPER_STATE_STANDBY (0x0 << SUPER_STATE_SHIFT)
#define SUPER_STATE_IDLE (0x1 << SUPER_STATE_SHIFT)
#define SUPER_STATE_RUN (0x2 << SUPER_STATE_SHIFT)
#define SUPER_STATE_IRQ (0x3 << SUPER_STATE_SHIFT)
#define SUPER_STATE_FIQ (0x4 << SUPER_STATE_SHIFT)
#define SUPER_SOURCE_MASK 0xF
#define SUPER_FIQ_SOURCE_SHIFT 12
#define SUPER_IRQ_SOURCE_SHIFT 8
#define SUPER_RUN_SOURCE_SHIFT 4
#define SUPER_IDLE_SOURCE_SHIFT 0
#define SUPER_CLK_DIVIDER 0x04
#define BUS_CLK_DISABLE (1<<3)
#define BUS_CLK_DIV_MASK 0x3
static void __iomem *reg_clk_base = IO_ADDRESS(TEGRA_CLK_RESET_BASE);
#define clk_writel(value, reg) \
__raw_writel(value, (u32)reg_clk_base + (reg))
#define clk_readl(reg) \
__raw_readl((u32)reg_clk_base + (reg))
unsigned long clk_measure_input_freq(void)
{
u32 clock_autodetect;
clk_writel(OSC_FREQ_DET_TRIG | 1, OSC_FREQ_DET);
do {} while (clk_readl(OSC_FREQ_DET_STATUS) & OSC_FREQ_DET_BUSY);
clock_autodetect = clk_readl(OSC_FREQ_DET_STATUS);
if (clock_autodetect >= 732 - 3 && clock_autodetect <= 732 + 3) {
return 12000000;
} else if (clock_autodetect >= 794 - 3 && clock_autodetect <= 794 + 3) {
return 13000000;
} else if (clock_autodetect >= 1172 - 3 && clock_autodetect <= 1172 + 3) {
return 19200000;
} else if (clock_autodetect >= 1587 - 3 && clock_autodetect <= 1587 + 3) {
return 26000000;
} else {
pr_err("%s: Unexpected clock autodetect value %d", __func__, clock_autodetect);
BUG();
return 0;
}
}
static int clk_div71_get_divider(struct clk *c, unsigned long rate)
{
unsigned long divider_u71;
divider_u71 = DIV_ROUND_UP(c->rate * 2, rate);
if (divider_u71 - 2 > 255 || divider_u71 - 2 < 0)
return -EINVAL;
return divider_u71 - 2;
}
static unsigned long tegra2_clk_recalculate_rate(struct clk *c)
{
unsigned long rate;
rate = c->parent->rate;
if (c->mul != 0 && c->div != 0)
c->rate = rate * c->mul / c->div;
else
c->rate = rate;
return c->rate;
}
/* clk_m functions */
static unsigned long tegra2_clk_m_autodetect_rate(struct clk *c)
{
u32 auto_clock_control = clk_readl(OSC_CTRL) & ~OSC_CTRL_OSC_FREQ_MASK;
c->rate = clk_measure_input_freq();
switch (c->rate) {
case 12000000:
auto_clock_control |= OSC_CTRL_OSC_FREQ_12MHZ;
break;
case 13000000:
auto_clock_control |= OSC_CTRL_OSC_FREQ_13MHZ;
break;
case 19200000:
auto_clock_control |= OSC_CTRL_OSC_FREQ_19_2MHZ;
break;
case 26000000:
auto_clock_control |= OSC_CTRL_OSC_FREQ_26MHZ;
break;
default:
pr_err("%s: Unexpected clock rate %ld", __func__, c->rate);
BUG();
}
clk_writel(auto_clock_control, OSC_CTRL);
return c->rate;
}
static void tegra2_clk_m_init(struct clk *c)
{
pr_debug("%s on clock %s\n", __func__, c->name);
tegra2_clk_m_autodetect_rate(c);
}
static int tegra2_clk_m_enable(struct clk *c)
{
pr_debug("%s on clock %s\n", __func__, c->name);
return 0;
}
static void tegra2_clk_m_disable(struct clk *c)
{
pr_debug("%s on clock %s\n", __func__, c->name);
BUG();
}
static struct clk_ops tegra_clk_m_ops = {
.init = tegra2_clk_m_init,
.enable = tegra2_clk_m_enable,
.disable = tegra2_clk_m_disable,
};
/* super clock functions */
/* "super clocks" on tegra have two-stage muxes and a clock skipping
* super divider. We will ignore the clock skipping divider, since we
* can't lower the voltage when using the clock skip, but we can if we
* lower the PLL frequency.
*/
static void tegra2_super_clk_init(struct clk *c)
{
u32 val;
int source;
int shift;
const struct clk_mux_sel *sel;
val = clk_readl(c->reg + SUPER_CLK_MUX);
c->state = ON;
BUG_ON(((val & SUPER_STATE_MASK) != SUPER_STATE_RUN) &&
((val & SUPER_STATE_MASK) != SUPER_STATE_IDLE));
shift = ((val & SUPER_STATE_MASK) == SUPER_STATE_IDLE) ?
SUPER_IDLE_SOURCE_SHIFT : SUPER_RUN_SOURCE_SHIFT;
source = (val >> shift) & SUPER_SOURCE_MASK;
for (sel = c->inputs; sel->input != NULL; sel++) {
if (sel->value == source)
break;
}
BUG_ON(sel->input == NULL);
c->parent = sel->input;
tegra2_clk_recalculate_rate(c);
}
static int tegra2_super_clk_enable(struct clk *c)
{
clk_writel(0, c->reg + SUPER_CLK_DIVIDER);
return 0;
}
static void tegra2_super_clk_disable(struct clk *c)
{
pr_debug("%s on clock %s\n", __func__, c->name);
/* oops - don't disable the CPU clock! */
BUG();
}
static int tegra2_super_clk_set_parent(struct clk *c, struct clk *p)
{
u32 val;
const struct clk_mux_sel *sel;
int shift;
val = clk_readl(c->reg + SUPER_CLK_MUX);;
BUG_ON(((val & SUPER_STATE_MASK) != SUPER_STATE_RUN) &&
((val & SUPER_STATE_MASK) != SUPER_STATE_IDLE));
shift = ((val & SUPER_STATE_MASK) == SUPER_STATE_IDLE) ?
SUPER_IDLE_SOURCE_SHIFT : SUPER_RUN_SOURCE_SHIFT;
for (sel = c->inputs; sel->input != NULL; sel++) {
if (sel->input == p) {
clk_reparent(c, p);
val &= ~(SUPER_SOURCE_MASK << shift);
val |= sel->value << shift;
clk_writel(val, c->reg);
c->rate = c->parent->rate;
return 0;
}
}
return -EINVAL;
}
static struct clk_ops tegra_super_ops = {
.init = tegra2_super_clk_init,
.enable = tegra2_super_clk_enable,
.disable = tegra2_super_clk_disable,
.set_parent = tegra2_super_clk_set_parent,
.recalculate_rate = tegra2_clk_recalculate_rate,
};
/* bus clock functions */
static void tegra2_bus_clk_init(struct clk *c)
{
u32 val = clk_readl(c->reg);
c->state = ((val >> c->reg_shift) & BUS_CLK_DISABLE) ? OFF : ON;
c->div = ((val >> c->reg_shift) & BUS_CLK_DIV_MASK) + 1;
c->mul = 1;
tegra2_clk_recalculate_rate(c);
}
static int tegra2_bus_clk_enable(struct clk *c)
{
u32 val = clk_readl(c->reg);
val &= ~(BUS_CLK_DISABLE << c->reg_shift);
clk_writel(val, c->reg);
return 0;
}
static void tegra2_bus_clk_disable(struct clk *c)
{
u32 val = clk_readl(c->reg);
val |= BUS_CLK_DISABLE << c->reg_shift;
clk_writel(val, c->reg);
}
static int tegra2_bus_clk_set_rate(struct clk *c, unsigned long rate)
{
u32 val = clk_readl(c->reg);
unsigned long parent_rate = c->parent->rate;
int i;
for (i = 1; i <= 4; i++) {
if (rate == parent_rate / i) {
val &= ~(BUS_CLK_DIV_MASK << c->reg_shift);
val |= (i - 1) << c->reg_shift;
clk_writel(val, c->reg);
c->div = i;
c->mul = 1;
return 0;
}
}
return -EINVAL;
}
static struct clk_ops tegra_bus_ops = {
.init = tegra2_bus_clk_init,
.enable = tegra2_bus_clk_enable,
.disable = tegra2_bus_clk_disable,
.set_rate = tegra2_bus_clk_set_rate,
.recalculate_rate = tegra2_clk_recalculate_rate,
};
/* PLL Functions */
static unsigned long tegra2_pll_clk_recalculate_rate(struct clk *c)
{
u64 rate;
rate = c->parent->rate;
rate *= c->n;
do_div(rate, c->m);
if (c->p == 2)
rate >>= 1;
c->rate = rate;
return c->rate;
}
static int tegra2_pll_clk_wait_for_lock(struct clk *c)
{
ktime_t before;
before = ktime_get();
while (!(clk_readl(c->reg + PLL_BASE) & PLL_BASE_LOCK)) {
if (ktime_us_delta(ktime_get(), before) > 5000) {
pr_err("Timed out waiting for lock bit on pll %s",
c->name);
return -1;
}
}
return 0;
}
static void tegra2_pll_clk_init(struct clk *c)
{
u32 val = clk_readl(c->reg + PLL_BASE);
c->state = (val & PLL_BASE_ENABLE) ? ON : OFF;
if (c->flags & PLL_FIXED && !(val & PLL_BASE_OVERRIDE)) {
pr_warning("Clock %s has unknown fixed frequency\n", c->name);
c->n = 1;
c->m = 0;
c->p = 1;
} else if (val & PLL_BASE_BYPASS) {
c->n = 1;
c->m = 1;
c->p = 1;
} else {
c->n = (val & PLL_BASE_DIVN_MASK) >> PLL_BASE_DIVN_SHIFT;
c->m = (val & PLL_BASE_DIVM_MASK) >> PLL_BASE_DIVM_SHIFT;
c->p = (val & PLL_BASE_DIVP_MASK) ? 2 : 1;
}
val = clk_readl(c->reg + PLL_MISC(c));
if (c->flags & PLL_HAS_CPCON)
c->cpcon = (val & PLL_MISC_CPCON_MASK) >> PLL_MISC_CPCON_SHIFT;
tegra2_pll_clk_recalculate_rate(c);
}
static int tegra2_pll_clk_enable(struct clk *c)
{
u32 val;
pr_debug("%s on clock %s\n", __func__, c->name);
val = clk_readl(c->reg + PLL_BASE);
val &= ~PLL_BASE_BYPASS;
val |= PLL_BASE_ENABLE;
clk_writel(val, c->reg + PLL_BASE);
val = clk_readl(c->reg + PLL_MISC(c));
val |= PLL_MISC_LOCK_ENABLE;
clk_writel(val, c->reg + PLL_MISC(c));
tegra2_pll_clk_wait_for_lock(c);
return 0;
}
static void tegra2_pll_clk_disable(struct clk *c)
{
u32 val;
pr_debug("%s on clock %s\n", __func__, c->name);
val = clk_readl(c->reg);
val &= ~(PLL_BASE_BYPASS | PLL_BASE_ENABLE);
clk_writel(val, c->reg);
}
static int tegra2_pll_clk_set_rate(struct clk *c, unsigned long rate)
{
u32 val;
unsigned long input_rate;
const struct clk_pll_table *sel;
pr_debug("%s: %s %lu\n", __func__, c->name, rate);
BUG_ON(c->refcnt != 0);
input_rate = c->parent->rate;
for (sel = c->pll_table; sel->input_rate != 0; sel++) {
if (sel->input_rate == input_rate && sel->output_rate == rate) {
c->n = sel->n;
c->m = sel->m;
c->p = sel->p;
c->cpcon = sel->cpcon;
val = clk_readl(c->reg + PLL_BASE);
if (c->flags & PLL_FIXED)
val |= PLL_BASE_OVERRIDE;
val &= ~(PLL_BASE_DIVP_MASK | PLL_BASE_DIVN_MASK |
PLL_BASE_DIVM_MASK);
val |= (c->m << PLL_BASE_DIVM_SHIFT) |
(c->n << PLL_BASE_DIVN_SHIFT);
BUG_ON(c->p > 2);
if (c->p == 2)
val |= 1 << PLL_BASE_DIVP_SHIFT;
clk_writel(val, c->reg + PLL_BASE);
if (c->flags & PLL_HAS_CPCON) {
val = c->cpcon << PLL_MISC_CPCON_SHIFT;
val |= PLL_MISC_LOCK_ENABLE;
clk_writel(val, c->reg + PLL_MISC(c));
}
if (c->state == ON)
tegra2_pll_clk_enable(c);
c->rate = rate;
return 0;
}
}
return -EINVAL;
}
static struct clk_ops tegra_pll_ops = {
.init = tegra2_pll_clk_init,
.enable = tegra2_pll_clk_enable,
.disable = tegra2_pll_clk_disable,
.set_rate = tegra2_pll_clk_set_rate,
.recalculate_rate = tegra2_pll_clk_recalculate_rate,
};
/* Clock divider ops */
static void tegra2_pll_div_clk_init(struct clk *c)
{
u32 val = clk_readl(c->reg);
u32 divu71;
val >>= c->reg_shift;
c->state = (val & PLL_OUT_CLKEN) ? ON : OFF;
if (!(val & PLL_OUT_RESET_DISABLE))
c->state = OFF;
if (c->flags & DIV_U71) {
divu71 = (val & PLL_OUT_RATIO_MASK) >> PLL_OUT_RATIO_SHIFT;
c->div = (divu71 + 2);
c->mul = 2;
} else if (c->flags & DIV_2) {
c->div = 2;
c->mul = 1;
} else {
c->div = 1;
c->mul = 1;
}
tegra2_clk_recalculate_rate(c);
}
static int tegra2_pll_div_clk_enable(struct clk *c)
{
u32 val;
u32 new_val;
pr_debug("%s: %s\n", __func__, c->name);
if (c->flags & DIV_U71) {
val = clk_readl(c->reg);
new_val = val >> c->reg_shift;
new_val &= 0xFFFF;
new_val |= PLL_OUT_CLKEN | PLL_OUT_RESET_DISABLE;
val &= ~(0xFFFF << c->reg_shift);
val |= new_val << c->reg_shift;
clk_writel(val, c->reg);
return 0;
} else if (c->flags & DIV_2) {
BUG_ON(!(c->flags & PLLD));
val = clk_readl(c->reg);
val &= ~PLLD_MISC_DIV_RST;
clk_writel(val, c->reg);
return 0;
}
return -EINVAL;
}
static void tegra2_pll_div_clk_disable(struct clk *c)
{
u32 val;
u32 new_val;
pr_debug("%s: %s\n", __func__, c->name);
if (c->flags & DIV_U71) {
val = clk_readl(c->reg);
new_val = val >> c->reg_shift;
new_val &= 0xFFFF;
new_val &= ~(PLL_OUT_CLKEN | PLL_OUT_RESET_DISABLE);
val &= ~(0xFFFF << c->reg_shift);
val |= new_val << c->reg_shift;
clk_writel(val, c->reg);
} else if (c->flags & DIV_2) {
BUG_ON(!(c->flags & PLLD));
val = clk_readl(c->reg);
val |= PLLD_MISC_DIV_RST;
clk_writel(val, c->reg);
}
}
static int tegra2_pll_div_clk_set_rate(struct clk *c, unsigned long rate)
{
u32 val;
u32 new_val;
int divider_u71;
pr_debug("%s: %s %lu\n", __func__, c->name, rate);
if (c->flags & DIV_U71) {
divider_u71 = clk_div71_get_divider(c->parent, rate);
if (divider_u71 >= 0) {
val = clk_readl(c->reg);
new_val = val >> c->reg_shift;
new_val &= 0xFFFF;
if (c->flags & DIV_U71_FIXED)
new_val |= PLL_OUT_OVERRIDE;
new_val &= ~PLL_OUT_RATIO_MASK;
new_val |= divider_u71 << PLL_OUT_RATIO_SHIFT;
val &= ~(0xFFFF << c->reg_shift);
val |= new_val << c->reg_shift;
clk_writel(val, c->reg);
c->div = divider_u71 + 2;
c->mul = 2;
tegra2_clk_recalculate_rate(c);
return 0;
}
} else if (c->flags & DIV_2) {
if (c->parent->rate == rate * 2) {
c->rate = rate;
return 0;
}
}
return -EINVAL;
}
static struct clk_ops tegra_pll_div_ops = {
.init = tegra2_pll_div_clk_init,
.enable = tegra2_pll_div_clk_enable,
.disable = tegra2_pll_div_clk_disable,
.set_rate = tegra2_pll_div_clk_set_rate,
.recalculate_rate = tegra2_clk_recalculate_rate,
};
/* Periph clk ops */
static void tegra2_periph_clk_init(struct clk *c)
{
u32 val = clk_readl(c->reg);
const struct clk_mux_sel *mux = 0;
const struct clk_mux_sel *sel;
if (c->flags & MUX) {
for (sel = c->inputs; sel->input != NULL; sel++) {
if (val >> PERIPH_CLK_SOURCE_SHIFT == sel->value)
mux = sel;
}
BUG_ON(!mux);
c->parent = mux->input;
} else {
c->parent = c->inputs[0].input;
}
if (c->flags & DIV_U71) {
u32 divu71 = val & PERIPH_CLK_SOURCE_DIV_MASK;
c->div = divu71 + 2;
c->mul = 2;
} else {
c->div = 1;
c->mul = 1;
}
c->state = ON;
if (!(clk_readl(CLK_OUT_ENB + PERIPH_CLK_TO_ENB_REG(c)) &
PERIPH_CLK_TO_ENB_BIT(c)))
c->state = OFF;
if (!(c->flags & PERIPH_NO_RESET))
if (clk_readl(RST_DEVICES + PERIPH_CLK_TO_ENB_REG(c)) &
PERIPH_CLK_TO_ENB_BIT(c))
c->state = OFF;
tegra2_clk_recalculate_rate(c);
}
static int tegra2_periph_clk_enable(struct clk *c)
{
u32 val;
pr_debug("%s on clock %s\n", __func__, c->name);
clk_writel(PERIPH_CLK_TO_ENB_BIT(c),
CLK_OUT_ENB_SET + PERIPH_CLK_TO_ENB_SET_REG(c));
if (!(c->flags & PERIPH_NO_RESET) && !(c->flags & PERIPH_MANUAL_RESET))
clk_writel(PERIPH_CLK_TO_ENB_BIT(c),
RST_DEVICES_CLR + PERIPH_CLK_TO_ENB_SET_REG(c));
if (c->flags & PERIPH_EMC_ENB) {
/* The EMC peripheral clock has 2 extra enable bits */
/* FIXME: Do they need to be disabled? */
val = clk_readl(c->reg);
val |= 0x3 << 24;
clk_writel(val, c->reg);
}
return 0;
}
static void tegra2_periph_clk_disable(struct clk *c)
{
pr_debug("%s on clock %s\n", __func__, c->name);
clk_writel(PERIPH_CLK_TO_ENB_BIT(c),
CLK_OUT_ENB_CLR + PERIPH_CLK_TO_ENB_SET_REG(c));
}
void tegra2_periph_reset_deassert(struct clk *c)
{
pr_debug("%s on clock %s\n", __func__, c->name);
if (!(c->flags & PERIPH_NO_RESET))
clk_writel(PERIPH_CLK_TO_ENB_BIT(c),
RST_DEVICES_CLR + PERIPH_CLK_TO_ENB_SET_REG(c));
}
void tegra2_periph_reset_assert(struct clk *c)
{
pr_debug("%s on clock %s\n", __func__, c->name);
if (!(c->flags & PERIPH_NO_RESET))
clk_writel(PERIPH_CLK_TO_ENB_BIT(c),
RST_DEVICES_SET + PERIPH_CLK_TO_ENB_SET_REG(c));
}
static int tegra2_periph_clk_set_parent(struct clk *c, struct clk *p)
{
u32 val;
const struct clk_mux_sel *sel;
pr_debug("%s: %s %s\n", __func__, c->name, p->name);
for (sel = c->inputs; sel->input != NULL; sel++) {
if (sel->input == p) {
clk_reparent(c, p);
val = clk_readl(c->reg);
val &= ~PERIPH_CLK_SOURCE_MASK;
val |= (sel->value) << PERIPH_CLK_SOURCE_SHIFT;
clk_writel(val, c->reg);
c->rate = c->parent->rate;
return 0;
}
}
return -EINVAL;
}
static int tegra2_periph_clk_set_rate(struct clk *c, unsigned long rate)
{
u32 val;
int divider_u71;
pr_debug("%s: %lu\n", __func__, rate);
if (c->flags & DIV_U71) {
divider_u71 = clk_div71_get_divider(c->parent, rate);
if (divider_u71 >= 0) {
val = clk_readl(c->reg);
val &= ~PERIPH_CLK_SOURCE_DIV_MASK;
val |= divider_u71;
clk_writel(val, c->reg);
c->div = divider_u71 + 2;
c->mul = 2;
tegra2_clk_recalculate_rate(c);
return 0;
}
}
return -EINVAL;
}
static struct clk_ops tegra_periph_clk_ops = {
.init = &tegra2_periph_clk_init,
.enable = &tegra2_periph_clk_enable,
.disable = &tegra2_periph_clk_disable,
.set_parent = &tegra2_periph_clk_set_parent,
.set_rate = &tegra2_periph_clk_set_rate,
.recalculate_rate = &tegra2_clk_recalculate_rate,
};
/* Clock doubler ops */
static void tegra2_clk_double_init(struct clk *c)
{
c->mul = 2;
c->div = 1;
c->state = ON;
if (!(clk_readl(CLK_OUT_ENB + PERIPH_CLK_TO_ENB_REG(c)) &
PERIPH_CLK_TO_ENB_BIT(c)))
c->state = OFF;
tegra2_clk_recalculate_rate(c);
};
static struct clk_ops tegra_clk_double_ops = {
.init = &tegra2_clk_double_init,
.enable = &tegra2_periph_clk_enable,
.disable = &tegra2_periph_clk_disable,
.recalculate_rate = &tegra2_clk_recalculate_rate,
};
/* Clock definitions */
static struct clk tegra_clk_32k = {
.name = "clk_32k",
.rate = 32678,
.ops = NULL,
};
static struct clk_pll_table tegra_pll_s_table[] = {
{32768, 12000000, 366, 1, 1, 0},
{32768, 13000000, 397, 1, 1, 0},
{32768, 19200000, 586, 1, 1, 0},
{32768, 26000000, 793, 1, 1, 0},
{0, 0, 0, 0, 0, 0},
};
static struct clk tegra_pll_s = {
.name = "pll_s",
.flags = PLL_ALT_MISC_REG,
.ops = &tegra_pll_ops,
.reg = 0xf0,
.input_min = 32768,
.input_max = 32768,
.parent = &tegra_clk_32k,
.cf_min = 0, /* FIXME */
.cf_max = 0, /* FIXME */
.vco_min = 12000000,
.vco_max = 26000000,
.pll_table = tegra_pll_s_table,
};
static struct clk_mux_sel tegra_clk_m_sel[] = {
{ .input = &tegra_clk_32k, .value = 0},
{ .input = &tegra_pll_s, .value = 1},
{ 0, 0},
};
static struct clk tegra_clk_m = {
.name = "clk_m",
.flags = ENABLE_ON_INIT,
.ops = &tegra_clk_m_ops,
.inputs = tegra_clk_m_sel,
.reg = 0x1fc,
.reg_mask = (1<<28),
.reg_shift = 28,
};
static struct clk_pll_table tegra_pll_c_table[] = {
{ 0, 0, 0, 0, 0, 0 },
};
static struct clk tegra_pll_c = {
.name = "pll_c",
.flags = PLL_HAS_CPCON,
.ops = &tegra_pll_ops,
.reg = 0x80,
.input_min = 2000000,
.input_max = 31000000,
.parent = &tegra_clk_m,
.cf_min = 1000000,
.cf_max = 6000000,
.vco_min = 20000000,
.vco_max = 1400000000,
.pll_table = tegra_pll_c_table,
};
static struct clk tegra_pll_c_out1 = {
.name = "pll_c_out1",
.ops = &tegra_pll_div_ops,
.flags = DIV_U71,
.parent = &tegra_pll_c,
.reg = 0x84,
.reg_shift = 0,
};
static struct clk_pll_table tegra_pll_m_table[] = {
{ 0, 0, 0, 0, 0, 0 },
};
static struct clk tegra_pll_m = {
.name = "pll_m",
.flags = PLL_HAS_CPCON,
.ops = &tegra_pll_ops,
.reg = 0x90,
.input_min = 2000000,
.input_max = 31000000,
.parent = &tegra_clk_m,
.cf_min = 1000000,
.cf_max = 6000000,
.vco_min = 20000000,
.vco_max = 1200000000,
.pll_table = tegra_pll_m_table,
};
static struct clk tegra_pll_m_out1 = {
.name = "pll_m_out1",
.ops = &tegra_pll_div_ops,
.flags = DIV_U71,
.parent = &tegra_pll_m,
.reg = 0x94,
.reg_shift = 0,
};
static struct clk_pll_table tegra_pll_p_table[] = {
{ 12000000, 216000000, 432, 12, 2, 8},
{ 13000000, 216000000, 432, 13, 2, 8},
{ 19200000, 216000000, 90, 4, 2, 1},
{ 26000000, 216000000, 432, 26, 2, 8},
{ 12000000, 432000000, 432, 12, 1, 8},
{ 13000000, 432000000, 432, 13, 1, 8},
{ 19200000, 432000000, 90, 4, 1, 1},
{ 26000000, 432000000, 432, 26, 1, 8},
{ 0, 0, 0, 0, 0, 0 },
};
static struct clk tegra_pll_p = {
.name = "pll_p",
.flags = ENABLE_ON_INIT | PLL_FIXED | PLL_HAS_CPCON,
.ops = &tegra_pll_ops,
.reg = 0xa0,
.input_min = 2000000,
.input_max = 31000000,
.parent = &tegra_clk_m,
.cf_min = 1000000,
.cf_max = 6000000,
.vco_min = 20000000,
.vco_max = 1400000000,
.pll_table = tegra_pll_p_table,
};
static struct clk tegra_pll_p_out1 = {
.name = "pll_p_out1",
.ops = &tegra_pll_div_ops,
.flags = ENABLE_ON_INIT | DIV_U71 | DIV_U71_FIXED,
.parent = &tegra_pll_p,
.reg = 0xa4,
.reg_shift = 0,
};
static struct clk tegra_pll_p_out2 = {
.name = "pll_p_out2",
.ops = &tegra_pll_div_ops,
.flags = ENABLE_ON_INIT | DIV_U71 | DIV_U71_FIXED,
.parent = &tegra_pll_p,
.reg = 0xa4,
.reg_shift = 16,
};
static struct clk tegra_pll_p_out3 = {
.name = "pll_p_out3",
.ops = &tegra_pll_div_ops,
.flags = ENABLE_ON_INIT | DIV_U71 | DIV_U71_FIXED,
.parent = &tegra_pll_p,
.reg = 0xa8,
.reg_shift = 0,
};
static struct clk tegra_pll_p_out4 = {
.name = "pll_p_out4",
.ops = &tegra_pll_div_ops,
.flags = ENABLE_ON_INIT | DIV_U71 | DIV_U71_FIXED,
.parent = &tegra_pll_p,
.reg = 0xa8,
.reg_shift = 16,
};
static struct clk_pll_table tegra_pll_a_table[] = {
{ 28800000, 56448000, 49, 25, 1, 1},
{ 28800000, 73728000, 64, 25, 1, 1},
{ 28800000, 11289600, 49, 25, 1, 1},
{ 28800000, 12288000, 64, 25, 1, 1},
{ 0, 0, 0, 0, 0, 0 },
};
static struct clk tegra_pll_a = {
.name = "pll_a",
.flags = PLL_HAS_CPCON,
.ops = &tegra_pll_ops,
.reg = 0xb0,
.input_min = 2000000,
.input_max = 31000000,
.parent = &tegra_pll_p_out1,
.cf_min = 1000000,
.cf_max = 6000000,
.vco_min = 20000000,
.vco_max = 1400000000,
.pll_table = tegra_pll_a_table,
};
static struct clk tegra_pll_a_out0 = {
.name = "pll_a_out0",
.ops = &tegra_pll_div_ops,
.flags = DIV_U71,
.parent = &tegra_pll_a,
.reg = 0xb4,
.reg_shift = 0,
};
static struct clk_pll_table tegra_pll_d_table[] = {
{ 12000000, 1000000000, 1000, 12, 1, 12},
{ 13000000, 1000000000, 1000, 13, 1, 12},
{ 19200000, 1000000000, 625, 12, 1, 8},
{ 26000000, 1000000000, 1000, 26, 1, 12},
{ 0, 0, 0, 0, 0, 0 },
};
static struct clk tegra_pll_d = {
.name = "pll_d",
.flags = PLL_HAS_CPCON | PLLD,
.ops = &tegra_pll_ops,
.reg = 0xd0,
.input_min = 2000000,
.input_max = 40000000,
.parent = &tegra_clk_m,
.cf_min = 1000000,
.cf_max = 6000000,
.vco_min = 40000000,
.vco_max = 1000000000,
.pll_table = tegra_pll_d_table,
};
static struct clk tegra_pll_d_out0 = {
.name = "pll_d_out0",
.ops = &tegra_pll_div_ops,
.flags = DIV_2 | PLLD,
.parent = &tegra_pll_d,
};
static struct clk_pll_table tegra_pll_u_table[] = {
{ 12000000, 480000000, 960, 12, 1, 0},
{ 13000000, 480000000, 960, 13, 1, 0},
{ 19200000, 480000000, 200, 4, 1, 0},
{ 26000000, 480000000, 960, 26, 1, 0},
{ 0, 0, 0, 0, 0, 0 },
};
static struct clk tegra_pll_u = {
.name = "pll_u",
.flags = 0,
.ops = &tegra_pll_ops,
.reg = 0xc0,
.input_min = 2000000,
.input_max = 40000000,
.parent = &tegra_clk_m,
.cf_min = 1000000,
.cf_max = 6000000,
.vco_min = 480000000,
.vco_max = 960000000,
.pll_table = tegra_pll_u_table,
};
static struct clk_pll_table tegra_pll_x_table[] = {
{ 12000000, 1000000000, 1000, 12, 1, 12},
{ 13000000, 1000000000, 1000, 13, 1, 12},
{ 19200000, 1000000000, 625, 12, 1, 8},
{ 26000000, 1000000000, 1000, 26, 1, 12},
{ 12000000, 750000000, 750, 12, 1, 12},
{ 13000000, 750000000, 750, 13, 1, 12},
{ 19200000, 750000000, 625, 16, 1, 8},
{ 26000000, 750000000, 750, 26, 1, 12},
{ 0, 0, 0, 0, 0, 0 },
};
static struct clk tegra_pll_x = {
.name = "pll_x",
.flags = PLL_HAS_CPCON | PLL_ALT_MISC_REG,
.ops = &tegra_pll_ops,
.reg = 0xe0,
.input_min = 2000000,
.input_max = 31000000,
.parent = &tegra_clk_m,
.cf_min = 1000000,
.cf_max = 6000000,
.vco_min = 20000000,
.vco_max = 1200000000,
.pll_table = tegra_pll_x_table,
};
static struct clk tegra_clk_d = {
.name = "clk_d",
.flags = PERIPH_NO_RESET,
.ops = &tegra_clk_double_ops,
.clk_num = 90,
.reg = 0x34,
.reg_shift = 12,
.parent = &tegra_clk_m,
};
/* FIXME: need tegra_audio
static struct clk tegra_clk_audio_2x = {
.name = "clk_d",
.flags = PERIPH_NO_RESET,
.ops = &tegra_clk_double_ops,
.clk_num = 89,
.reg = 0x34,
.reg_shift = 8,
.parent = &tegra_audio,
}
*/
static struct clk_mux_sel mux_cclk[] = {
{ .input = &tegra_clk_m, .value = 0},
{ .input = &tegra_pll_c, .value = 1},
{ .input = &tegra_clk_32k, .value = 2},
{ .input = &tegra_pll_m, .value = 3},
{ .input = &tegra_pll_p, .value = 4},
{ .input = &tegra_pll_p_out4, .value = 5},
{ .input = &tegra_pll_p_out3, .value = 6},
{ .input = &tegra_clk_d, .value = 7},
{ .input = &tegra_pll_x, .value = 8},
{ 0, 0},
};
static struct clk_mux_sel mux_sclk[] = {
{ .input = &tegra_clk_m, .value = 0},
{ .input = &tegra_pll_c_out1, .value = 1},
{ .input = &tegra_pll_p_out4, .value = 2},
{ .input = &tegra_pll_p_out3, .value = 3},
{ .input = &tegra_pll_p_out2, .value = 4},
{ .input = &tegra_clk_d, .value = 5},
{ .input = &tegra_clk_32k, .value = 6},
{ .input = &tegra_pll_m_out1, .value = 7},
{ 0, 0},
};
static struct clk tegra_clk_cpu = {
.name = "cpu",
.inputs = mux_cclk,
.reg = 0x20,
.ops = &tegra_super_ops,
};
static struct clk tegra_clk_sys = {
.name = "sys",
.inputs = mux_sclk,
.reg = 0x28,
.ops = &tegra_super_ops,
};
static struct clk tegra_clk_hclk = {
.name = "hclk",
.flags = DIV_BUS,
.parent = &tegra_clk_sys,
.reg = 0x30,
.reg_shift = 4,
.ops = &tegra_bus_ops,
};
static struct clk tegra_clk_pclk = {
.name = "pclk",
.flags = DIV_BUS,
.parent = &tegra_clk_hclk,
.reg = 0x30,
.reg_shift = 0,
.ops = &tegra_bus_ops,
};
static struct clk_mux_sel mux_pllm_pllc_pllp_plla[] = {
{ .input = &tegra_pll_m, .value = 0},
{ .input = &tegra_pll_c, .value = 1},
{ .input = &tegra_pll_p, .value = 2},
{ .input = &tegra_pll_a_out0, .value = 3},
{ 0, 0},
};
static struct clk_mux_sel mux_pllm_pllc_pllp_clkm[] = {
{ .input = &tegra_pll_m, .value = 0},
{ .input = &tegra_pll_c, .value = 1},
{ .input = &tegra_pll_p, .value = 2},
{ .input = &tegra_clk_m, .value = 3},
{ 0, 0},
};
static struct clk_mux_sel mux_pllp_pllc_pllm_clkm[] = {
{ .input = &tegra_pll_p, .value = 0},
{ .input = &tegra_pll_c, .value = 1},
{ .input = &tegra_pll_m, .value = 2},
{ .input = &tegra_clk_m, .value = 3},
{ 0, 0},
};
static struct clk_mux_sel mux_plla_audio_pllp_clkm[] = {
{.input = &tegra_pll_a, .value = 0},
/* FIXME: no mux defined for tegra_audio
{.input = &tegra_audio, .value = 1},*/
{.input = &tegra_pll_p, .value = 2},
{.input = &tegra_clk_m, .value = 3},
{ 0, 0},
};
static struct clk_mux_sel mux_pllp_plld_pllc_clkm[] = {
{.input = &tegra_pll_p, .value = 0},
{.input = &tegra_pll_d_out0, .value = 1},
{.input = &tegra_pll_c, .value = 2},
{.input = &tegra_clk_m, .value = 3},
{ 0, 0},
};
static struct clk_mux_sel mux_pllp_pllc_audio_clkm_clk32[] = {
{.input = &tegra_pll_p, .value = 0},
{.input = &tegra_pll_c, .value = 1},
/* FIXME: no mux defined for tegra_audio
{.input = &tegra_audio, .value = 2},*/
{.input = &tegra_clk_m, .value = 3},
{.input = &tegra_clk_32k, .value = 4},
{ 0, 0},
};
static struct clk_mux_sel mux_pllp_pllc_pllm[] = {
{.input = &tegra_pll_p, .value = 0},
{.input = &tegra_pll_c, .value = 1},
{.input = &tegra_pll_m, .value = 2},
{ 0, 0},
};
static struct clk_mux_sel mux_clk_m[] = {
{ .input = &tegra_clk_m, .value = 0},
{ 0, 0},
};
static struct clk_mux_sel mux_pllp_out3[] = {
{ .input = &tegra_pll_p_out3, .value = 0},
{ 0, 0},
};
static struct clk_mux_sel mux_plld[] = {
{ .input = &tegra_pll_d, .value = 0},
{ 0, 0},
};
static struct clk_mux_sel mux_clk_32k[] = {
{ .input = &tegra_clk_32k, .value = 0},
{ 0, 0},
};
#define PERIPH_CLK(_name, _dev, _con, _clk_num, _reg, _inputs, _flags) \
{ \
.name = _name, \
.lookup = { \
.dev_id = _dev, \
.con_id = _con, \
}, \
.ops = &tegra_periph_clk_ops, \
.clk_num = _clk_num, \
.reg = _reg, \
.inputs = _inputs, \
.flags = _flags, \
}
struct clk tegra_periph_clks[] = {
PERIPH_CLK("rtc", "rtc-tegra", NULL, 4, 0, mux_clk_32k, PERIPH_NO_RESET),
PERIPH_CLK("timer", "timer", NULL, 5, 0, mux_clk_m, 0),
PERIPH_CLK("i2s1", "i2s.0", NULL, 11, 0x100, mux_plla_audio_pllp_clkm, MUX | DIV_U71),
PERIPH_CLK("i2s2", "i2s.1", NULL, 18, 0x104, mux_plla_audio_pllp_clkm, MUX | DIV_U71),
/* FIXME: spdif has 2 clocks but 1 enable */
PERIPH_CLK("spdif_out", "spdif_out", NULL, 10, 0x108, mux_plla_audio_pllp_clkm, MUX | DIV_U71),
PERIPH_CLK("spdif_in", "spdif_in", NULL, 10, 0x10c, mux_pllp_pllc_pllm, MUX | DIV_U71),
PERIPH_CLK("pwm", "pwm", NULL, 17, 0x110, mux_pllp_pllc_audio_clkm_clk32, MUX | DIV_U71),
PERIPH_CLK("spi", "spi", NULL, 43, 0x114, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("xio", "xio", NULL, 45, 0x120, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("twc", "twc", NULL, 16, 0x12c, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("sbc1", "spi_tegra.0", NULL, 41, 0x134, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("sbc2", "spi_tegra.1", NULL, 44, 0x118, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("sbc3", "spi_tegra.2", NULL, 46, 0x11c, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("sbc4", "spi_tegra.3", NULL, 68, 0x1b4, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("ide", "ide", NULL, 25, 0x144, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("ndflash", "tegra_nand", NULL, 13, 0x160, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
/* FIXME: vfir shares an enable with uartb */
PERIPH_CLK("vfir", "vfir", NULL, 7, 0x168, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("sdmmc1", "sdhci-tegra.0", NULL, 14, 0x150, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("sdmmc2", "sdhci-tegra.1", NULL, 9, 0x154, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("sdmmc3", "sdhci-tegra.2", NULL, 69, 0x1bc, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("sdmmc4", "sdhci-tegra.3", NULL, 15, 0x160, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("vde", "vde", NULL, 61, 0x1c8, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("csite", "csite", NULL, 73, 0x1d4, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
/* FIXME: what is la? */
PERIPH_CLK("la", "la", NULL, 76, 0x1f8, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("owr", "owr", NULL, 71, 0x1cc, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("nor", "nor", NULL, 42, 0x1d0, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("mipi", "mipi", NULL, 50, 0x174, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("i2c1", "tegra-i2c.0", NULL, 12, 0x124, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("i2c2", "tegra-i2c.1", NULL, 54, 0x198, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("i2c3", "tegra-i2c.2", NULL, 67, 0x1b8, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("dvc", "tegra-i2c.3", NULL, 47, 0x128, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("i2c1_i2c", "tegra-i2c.0", "i2c", 0, 0, mux_pllp_out3, 0),
PERIPH_CLK("i2c2_i2c", "tegra-i2c.1", "i2c", 0, 0, mux_pllp_out3, 0),
PERIPH_CLK("i2c3_i2c", "tegra-i2c.2", "i2c", 0, 0, mux_pllp_out3, 0),
PERIPH_CLK("dvc_i2c", "tegra-i2c.3", "i2c", 0, 0, mux_pllp_out3, 0),
PERIPH_CLK("uarta", "uart.0", NULL, 6, 0x178, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("uartb", "uart.1", NULL, 7, 0x17c, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("uartc", "uart.2", NULL, 55, 0x1a0, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("uartd", "uart.3", NULL, 65, 0x1c0, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("uarte", "uart.4", NULL, 66, 0x1c4, mux_pllp_pllc_pllm_clkm, MUX | DIV_U71),
PERIPH_CLK("3d", "3d", NULL, 24, 0x158, mux_pllm_pllc_pllp_plla, MUX | DIV_U71 | PERIPH_MANUAL_RESET),
PERIPH_CLK("2d", "2d", NULL, 21, 0x15c, mux_pllm_pllc_pllp_plla, MUX | DIV_U71),
/* FIXME: vi and vi_sensor share an enable */
PERIPH_CLK("vi", "vi", NULL, 20, 0x148, mux_pllm_pllc_pllp_plla, MUX | DIV_U71),
PERIPH_CLK("vi_sensor", "vi_sensor", NULL, 20, 0x1a8, mux_pllm_pllc_pllp_plla, MUX | DIV_U71),
PERIPH_CLK("epp", "epp", NULL, 19, 0x16c, mux_pllm_pllc_pllp_plla, MUX | DIV_U71),
PERIPH_CLK("mpe", "mpe", NULL, 60, 0x170, mux_pllm_pllc_pllp_plla, MUX | DIV_U71),
PERIPH_CLK("host1x", "host1x", NULL, 28, 0x180, mux_pllm_pllc_pllp_plla, MUX | DIV_U71),
/* FIXME: cve and tvo share an enable */
PERIPH_CLK("cve", "cve", NULL, 49, 0x140, mux_pllp_plld_pllc_clkm, MUX | DIV_U71),
PERIPH_CLK("tvo", "tvo", NULL, 49, 0x188, mux_pllp_plld_pllc_clkm, MUX | DIV_U71),
PERIPH_CLK("hdmi", "hdmi", NULL, 51, 0x18c, mux_pllp_plld_pllc_clkm, MUX | DIV_U71),
PERIPH_CLK("tvdac", "tvdac", NULL, 53, 0x194, mux_pllp_plld_pllc_clkm, MUX | DIV_U71),
PERIPH_CLK("disp1", "tegrafb.0", NULL, 27, 0x138, mux_pllp_plld_pllc_clkm, MUX | DIV_U71),
PERIPH_CLK("disp2", "tegrafb.1", NULL, 26, 0x13c, mux_pllp_plld_pllc_clkm, MUX | DIV_U71),
PERIPH_CLK("usbd", "fsl-tegra-udc", NULL, 22, 0, mux_clk_m, 0),
PERIPH_CLK("usb2", "usb.1", NULL, 58, 0, mux_clk_m, 0),
PERIPH_CLK("usb3", "usb.2", NULL, 59, 0, mux_clk_m, 0),
PERIPH_CLK("emc", "emc", NULL, 57, 0x19c, mux_pllm_pllc_pllp_clkm, MUX | DIV_U71 | PERIPH_EMC_ENB),
PERIPH_CLK("dsi", "dsi", NULL, 48, 0, mux_plld, 0),
};
#define CLK_DUPLICATE(_name, _dev, _con) \
{ \
.name = _name, \
.lookup = { \
.dev_id = _dev, \
.con_id = _con, \
}, \
}
/* Some clocks may be used by different drivers depending on the board
* configuration. List those here to register them twice in the clock lookup
* table under two names.
*/
struct clk_duplicate tegra_clk_duplicates[] = {
CLK_DUPLICATE("uarta", "tegra_uart.0", NULL),
CLK_DUPLICATE("uartb", "tegra_uart.1", NULL),
CLK_DUPLICATE("uartc", "tegra_uart.2", NULL),
CLK_DUPLICATE("uartd", "tegra_uart.3", NULL),
CLK_DUPLICATE("uarte", "tegra_uart.4", NULL),
};
#define CLK(dev, con, ck) \
{ \
.dev_id = dev, \
.con_id = con, \
.clk = ck, \
}
struct clk_lookup tegra_clk_lookups[] = {
/* external root sources */
CLK(NULL, "32k_clk", &tegra_clk_32k),
CLK(NULL, "pll_s", &tegra_pll_s),
CLK(NULL, "clk_m", &tegra_clk_m),
CLK(NULL, "pll_m", &tegra_pll_m),
CLK(NULL, "pll_m_out1", &tegra_pll_m_out1),
CLK(NULL, "pll_c", &tegra_pll_c),
CLK(NULL, "pll_c_out1", &tegra_pll_c_out1),
CLK(NULL, "pll_p", &tegra_pll_p),
CLK(NULL, "pll_p_out1", &tegra_pll_p_out1),
CLK(NULL, "pll_p_out2", &tegra_pll_p_out2),
CLK(NULL, "pll_p_out3", &tegra_pll_p_out3),
CLK(NULL, "pll_p_out4", &tegra_pll_p_out4),
CLK(NULL, "pll_a", &tegra_pll_a),
CLK(NULL, "pll_a_out0", &tegra_pll_a_out0),
CLK(NULL, "pll_d", &tegra_pll_d),
CLK(NULL, "pll_d_out0", &tegra_pll_d_out0),
CLK(NULL, "pll_u", &tegra_pll_u),
CLK(NULL, "pll_x", &tegra_pll_x),
CLK(NULL, "cpu", &tegra_clk_cpu),
CLK(NULL, "sys", &tegra_clk_sys),
CLK(NULL, "hclk", &tegra_clk_hclk),
CLK(NULL, "pclk", &tegra_clk_pclk),
CLK(NULL, "clk_d", &tegra_clk_d),
};
void __init tegra2_init_clocks(void)
{
int i;
struct clk_lookup *cl;
struct clk *c;
struct clk_duplicate *cd;
for (i = 0; i < ARRAY_SIZE(tegra_clk_lookups); i++) {
cl = &tegra_clk_lookups[i];
clk_init(cl->clk);
clkdev_add(cl);
}
for (i = 0; i < ARRAY_SIZE(tegra_periph_clks); i++) {
c = &tegra_periph_clks[i];
cl = &c->lookup;
cl->clk = c;
clk_init(cl->clk);
clkdev_add(cl);
}
for (i = 0; i < ARRAY_SIZE(tegra_clk_duplicates); i++) {
cd = &tegra_clk_duplicates[i];
c = tegra_get_clock_by_name(cd->name);
if (c) {
cl = &cd->lookup;
cl->clk = c;
clkdev_add(cl);
} else {
pr_err("%s: Unknown duplicate clock %s\n", __func__,
cd->name);
}
}
}