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kernel-ark/drivers/clk/clk-fractional-divider.c
Heiko Stübner feaefa0ea1 clk: fractional-divider: cast parent_rate to u64 before multiplying 
On 32bit architectures, like ARM calculating the fractional rate will
do the multiplication before converting the value to u64 when it gets
assigned to ret, which can produce overflows.

The error in question happened with a parent_rate of 386MHz, m = 3000,
n = 60000, which resulted in a wrong rate value of 15812Hz.

Therefore cast parent_rate to u64 to make sure the multiplication
happens in a 64bit space and produces the correct 192MHz in the example.

Signed-off-by: Heiko Stuebner <heiko@sntech.de>
Signed-off-by: Mike Turquette <mturquette@linaro.org>
2014-09-10 09:42:37 -07:00

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/*
* Copyright (C) 2014 Intel Corporation
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* Adjustable fractional divider clock implementation.
* Output rate = (m / n) * parent_rate.
*/
#include <linux/clk-provider.h>
#include <linux/module.h>
#include <linux/device.h>
#include <linux/slab.h>
#include <linux/gcd.h>
#define to_clk_fd(_hw) container_of(_hw, struct clk_fractional_divider, hw)
static unsigned long clk_fd_recalc_rate(struct clk_hw *hw,
unsigned long parent_rate)
{
struct clk_fractional_divider *fd = to_clk_fd(hw);
unsigned long flags = 0;
u32 val, m, n;
u64 ret;
if (fd->lock)
spin_lock_irqsave(fd->lock, flags);
val = clk_readl(fd->reg);
if (fd->lock)
spin_unlock_irqrestore(fd->lock, flags);
m = (val & fd->mmask) >> fd->mshift;
n = (val & fd->nmask) >> fd->nshift;
ret = (u64)parent_rate * m;
do_div(ret, n);
return ret;
}
static long clk_fd_round_rate(struct clk_hw *hw, unsigned long rate,
unsigned long *prate)
{
struct clk_fractional_divider *fd = to_clk_fd(hw);
unsigned maxn = (fd->nmask >> fd->nshift) + 1;
unsigned div;
if (!rate || rate >= *prate)
return *prate;
div = gcd(*prate, rate);
while ((*prate / div) > maxn) {
div <<= 1;
rate <<= 1;
}
return rate;
}
static int clk_fd_set_rate(struct clk_hw *hw, unsigned long rate,
unsigned long parent_rate)
{
struct clk_fractional_divider *fd = to_clk_fd(hw);
unsigned long flags = 0;
unsigned long div;
unsigned n, m;
u32 val;
div = gcd(parent_rate, rate);
m = rate / div;
n = parent_rate / div;
if (fd->lock)
spin_lock_irqsave(fd->lock, flags);
val = clk_readl(fd->reg);
val &= ~(fd->mmask | fd->nmask);
val |= (m << fd->mshift) | (n << fd->nshift);
clk_writel(val, fd->reg);
if (fd->lock)
spin_unlock_irqrestore(fd->lock, flags);
return 0;
}
const struct clk_ops clk_fractional_divider_ops = {
.recalc_rate = clk_fd_recalc_rate,
.round_rate = clk_fd_round_rate,
.set_rate = clk_fd_set_rate,
};
EXPORT_SYMBOL_GPL(clk_fractional_divider_ops);
struct clk *clk_register_fractional_divider(struct device *dev,
const char *name, const char *parent_name, unsigned long flags,
void __iomem *reg, u8 mshift, u8 mwidth, u8 nshift, u8 nwidth,
u8 clk_divider_flags, spinlock_t *lock)
{
struct clk_fractional_divider *fd;
struct clk_init_data init;
struct clk *clk;
fd = kzalloc(sizeof(*fd), GFP_KERNEL);
if (!fd) {
dev_err(dev, "could not allocate fractional divider clk\n");
return ERR_PTR(-ENOMEM);
}
init.name = name;
init.ops = &clk_fractional_divider_ops;
init.flags = flags | CLK_IS_BASIC;
init.parent_names = parent_name ? &parent_name : NULL;
init.num_parents = parent_name ? 1 : 0;
fd->reg = reg;
fd->mshift = mshift;
fd->mmask = (BIT(mwidth) - 1) << mshift;
fd->nshift = nshift;
fd->nmask = (BIT(nwidth) - 1) << nshift;
fd->flags = clk_divider_flags;
fd->lock = lock;
fd->hw.init = &init;
clk = clk_register(dev, &fd->hw);
if (IS_ERR(clk))
kfree(fd);
return clk;
}
EXPORT_SYMBOL_GPL(clk_register_fractional_divider);
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