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// SPDX-License-Identifier: GPL-2.0-only
/*
* AXI clkgen driver
*
* Copyright 2012-2013 Analog Devices Inc.
* Author: Lars-Peter Clausen <lars@metafoo.de>
*/
#include <linux/platform_device.h>
#include <linux/clk-provider.h>
#include <linux/slab.h>
#include <linux/io.h>
#include <linux/of.h>
#include <linux/module.h>
#include <linux/err.h>
#define AXI_CLKGEN_V2_REG_RESET 0x40
#define AXI_CLKGEN_V2_REG_CLKSEL 0x44
#define AXI_CLKGEN_V2_REG_DRP_CNTRL 0x70
#define AXI_CLKGEN_V2_REG_DRP_STATUS 0x74
#define AXI_CLKGEN_V2_RESET_MMCM_ENABLE BIT(1)
#define AXI_CLKGEN_V2_RESET_ENABLE BIT(0)
#define AXI_CLKGEN_V2_DRP_CNTRL_SEL BIT(29)
#define AXI_CLKGEN_V2_DRP_CNTRL_READ BIT(28)
#define AXI_CLKGEN_V2_DRP_STATUS_BUSY BIT(16)
#define MMCM_REG_CLKOUT5_2 0x07
#define MMCM_REG_CLKOUT0_1 0x08
#define MMCM_REG_CLKOUT0_2 0x09
#define MMCM_REG_CLKOUT6_2 0x13
#define MMCM_REG_CLK_FB1 0x14
#define MMCM_REG_CLK_FB2 0x15
#define MMCM_REG_CLK_DIV 0x16
#define MMCM_REG_LOCK1 0x18
#define MMCM_REG_LOCK2 0x19
#define MMCM_REG_LOCK3 0x1a
#define MMCM_REG_POWER 0x28
#define MMCM_REG_FILTER1 0x4e
#define MMCM_REG_FILTER2 0x4f
#define MMCM_CLKOUT_NOCOUNT BIT(6)
#define MMCM_CLK_DIV_DIVIDE BIT(11)
#define MMCM_CLK_DIV_NOCOUNT BIT(12)
struct axi_clkgen_limits {
unsigned int fpfd_min;
unsigned int fpfd_max;
unsigned int fvco_min;
unsigned int fvco_max;
};
struct axi_clkgen {
void __iomem *base;
struct clk_hw clk_hw;
struct axi_clkgen_limits limits;
};
static uint32_t axi_clkgen_lookup_filter(unsigned int m)
{
switch (m) {
case 0:
return 0x01001990;
case 1:
return 0x01001190;
case 2:
return 0x01009890;
case 3:
return 0x01001890;
case 4:
return 0x01008890;
case 5 ... 8:
return 0x01009090;
case 9 ... 11:
return 0x01000890;
case 12:
return 0x08009090;
case 13 ... 22:
return 0x01001090;
case 23 ... 36:
return 0x01008090;
case 37 ... 46:
return 0x08001090;
default:
return 0x08008090;
}
}
static const uint32_t axi_clkgen_lock_table[] = {
0x060603e8, 0x060603e8, 0x080803e8, 0x0b0b03e8,
0x0e0e03e8, 0x111103e8, 0x131303e8, 0x161603e8,
0x191903e8, 0x1c1c03e8, 0x1f1f0384, 0x1f1f0339,
0x1f1f02ee, 0x1f1f02bc, 0x1f1f028a, 0x1f1f0271,
0x1f1f023f, 0x1f1f0226, 0x1f1f020d, 0x1f1f01f4,
0x1f1f01db, 0x1f1f01c2, 0x1f1f01a9, 0x1f1f0190,
0x1f1f0190, 0x1f1f0177, 0x1f1f015e, 0x1f1f015e,
0x1f1f0145, 0x1f1f0145, 0x1f1f012c, 0x1f1f012c,
0x1f1f012c, 0x1f1f0113, 0x1f1f0113, 0x1f1f0113,
};
static uint32_t axi_clkgen_lookup_lock(unsigned int m)
{
if (m < ARRAY_SIZE(axi_clkgen_lock_table))
return axi_clkgen_lock_table[m];
return 0x1f1f00fa;
}
static const struct axi_clkgen_limits axi_clkgen_zynqmp_default_limits = {
.fpfd_min = 10000,
.fpfd_max = 450000,
.fvco_min = 800000,
.fvco_max = 1600000,
};
static const struct axi_clkgen_limits axi_clkgen_zynq_default_limits = {
.fpfd_min = 10000,
.fpfd_max = 300000,
.fvco_min = 600000,
.fvco_max = 1200000,
};
static void axi_clkgen_calc_params(const struct axi_clkgen_limits *limits,
unsigned long fin, unsigned long fout,
unsigned int *best_d, unsigned int *best_m, unsigned int *best_dout)
{
unsigned long d, d_min, d_max, _d_min, _d_max;
unsigned long m, m_min, m_max;
unsigned long f, dout, best_f, fvco;
unsigned long fract_shift = 0;
unsigned long fvco_min_fract, fvco_max_fract;
fin /= 1000;
fout /= 1000;
best_f = ULONG_MAX;
*best_d = 0;
*best_m = 0;
*best_dout = 0;
d_min = max_t(unsigned long, DIV_ROUND_UP(fin, limits->fpfd_max), 1);
d_max = min_t(unsigned long, fin / limits->fpfd_min, 80);
again:
fvco_min_fract = limits->fvco_min << fract_shift;
fvco_max_fract = limits->fvco_max << fract_shift;
m_min = max_t(unsigned long, DIV_ROUND_UP(fvco_min_fract, fin) * d_min, 1);
m_max = min_t(unsigned long, fvco_max_fract * d_max / fin, 64 << fract_shift);
for (m = m_min; m <= m_max; m++) {
_d_min = max(d_min, DIV_ROUND_UP(fin * m, fvco_max_fract));
_d_max = min(d_max, fin * m / fvco_min_fract);
for (d = _d_min; d <= _d_max; d++) {
fvco = fin * m / d;
dout = DIV_ROUND_CLOSEST(fvco, fout);
dout = clamp_t(unsigned long, dout, 1, 128 << fract_shift);
f = fvco / dout;
if (abs(f - fout) < abs(best_f - fout)) {
best_f = f;
*best_d = d;
*best_m = m << (3 - fract_shift);
*best_dout = dout << (3 - fract_shift);
if (best_f == fout)
return;
}
}
}
/* Lets see if we find a better setting in fractional mode */
if (fract_shift == 0) {
fract_shift = 3;
goto again;
}
}
struct axi_clkgen_div_params {
unsigned int low;
unsigned int high;
unsigned int edge;
unsigned int nocount;
unsigned int frac_en;
unsigned int frac;
unsigned int frac_wf_f;
unsigned int frac_wf_r;
unsigned int frac_phase;
};
static void axi_clkgen_calc_clk_params(unsigned int divider,
unsigned int frac_divider, struct axi_clkgen_div_params *params)
{
memset(params, 0x0, sizeof(*params));
if (divider == 1) {
params->nocount = 1;
return;
}
if (frac_divider == 0) {
params->high = divider / 2;
params->edge = divider % 2;
params->low = divider - params->high;
} else {
params->frac_en = 1;
params->frac = frac_divider;
params->high = divider / 2;
params->edge = divider % 2;
params->low = params->high;
if (params->edge == 0) {
params->high--;
params->frac_wf_r = 1;
}
if (params->edge == 0 || frac_divider == 1)
params->low--;
if (((params->edge == 0) ^ (frac_divider == 1)) ||
(divider == 2 && frac_divider == 1))
params->frac_wf_f = 1;
params->frac_phase = params->edge * 4 + frac_divider / 2;
}
}
static void axi_clkgen_write(struct axi_clkgen *axi_clkgen,
unsigned int reg, unsigned int val)
{
writel(val, axi_clkgen->base + reg);
}
static void axi_clkgen_read(struct axi_clkgen *axi_clkgen,
unsigned int reg, unsigned int *val)
{
*val = readl(axi_clkgen->base + reg);
}
static int axi_clkgen_wait_non_busy(struct axi_clkgen *axi_clkgen)
{
unsigned int timeout = 10000;
unsigned int val;
do {
axi_clkgen_read(axi_clkgen, AXI_CLKGEN_V2_REG_DRP_STATUS, &val);
} while ((val & AXI_CLKGEN_V2_DRP_STATUS_BUSY) && --timeout);
if (val & AXI_CLKGEN_V2_DRP_STATUS_BUSY)
return -EIO;
return val & 0xffff;
}
static int axi_clkgen_mmcm_read(struct axi_clkgen *axi_clkgen,
unsigned int reg, unsigned int *val)
{
unsigned int reg_val;
int ret;
ret = axi_clkgen_wait_non_busy(axi_clkgen);
if (ret < 0)
return ret;
reg_val = AXI_CLKGEN_V2_DRP_CNTRL_SEL | AXI_CLKGEN_V2_DRP_CNTRL_READ;
reg_val |= (reg << 16);
axi_clkgen_write(axi_clkgen, AXI_CLKGEN_V2_REG_DRP_CNTRL, reg_val);
ret = axi_clkgen_wait_non_busy(axi_clkgen);
if (ret < 0)
return ret;
*val = ret;
return 0;
}
static int axi_clkgen_mmcm_write(struct axi_clkgen *axi_clkgen,
unsigned int reg, unsigned int val, unsigned int mask)
{
unsigned int reg_val = 0;
int ret;
ret = axi_clkgen_wait_non_busy(axi_clkgen);
if (ret < 0)
return ret;
if (mask != 0xffff) {
axi_clkgen_mmcm_read(axi_clkgen, reg, ®_val);
reg_val &= ~mask;
}
reg_val |= AXI_CLKGEN_V2_DRP_CNTRL_SEL | (reg << 16) | (val & mask);
axi_clkgen_write(axi_clkgen, AXI_CLKGEN_V2_REG_DRP_CNTRL, reg_val);
return 0;
}
static void axi_clkgen_mmcm_enable(struct axi_clkgen *axi_clkgen,
bool enable)
{
unsigned int val = AXI_CLKGEN_V2_RESET_ENABLE;
if (enable)
val |= AXI_CLKGEN_V2_RESET_MMCM_ENABLE;
axi_clkgen_write(axi_clkgen, AXI_CLKGEN_V2_REG_RESET, val);
}
static struct axi_clkgen *clk_hw_to_axi_clkgen(struct clk_hw *clk_hw)
{
return container_of(clk_hw, struct axi_clkgen, clk_hw);
}
static void axi_clkgen_set_div(struct axi_clkgen *axi_clkgen,
unsigned int reg1, unsigned int reg2, unsigned int reg3,
struct axi_clkgen_div_params *params)
{
axi_clkgen_mmcm_write(axi_clkgen, reg1,
(params->high << 6) | params->low, 0xefff);
axi_clkgen_mmcm_write(axi_clkgen, reg2,
(params->frac << 12) | (params->frac_en << 11) |
(params->frac_wf_r << 10) | (params->edge << 7) |
(params->nocount << 6), 0x7fff);
if (reg3 != 0) {
axi_clkgen_mmcm_write(axi_clkgen, reg3,
(params->frac_phase << 11) | (params->frac_wf_f << 10), 0x3c00);
}
}
static int axi_clkgen_set_rate(struct clk_hw *clk_hw,
unsigned long rate, unsigned long parent_rate)
{
struct axi_clkgen *axi_clkgen = clk_hw_to_axi_clkgen(clk_hw);
const struct axi_clkgen_limits *limits = &axi_clkgen->limits;
unsigned int d, m, dout;
struct axi_clkgen_div_params params;
uint32_t power = 0;
uint32_t filter;
uint32_t lock;
if (parent_rate == 0 || rate == 0)
return -EINVAL;
axi_clkgen_calc_params(limits, parent_rate, rate, &d, &m, &dout);
if (d == 0 || dout == 0 || m == 0)
return -EINVAL;
if ((dout & 0x7) != 0 || (m & 0x7) != 0)
power |= 0x9800;
axi_clkgen_mmcm_write(axi_clkgen, MMCM_REG_POWER, power, 0x9800);
filter = axi_clkgen_lookup_filter(m - 1);
lock = axi_clkgen_lookup_lock(m - 1);
axi_clkgen_calc_clk_params(dout >> 3, dout & 0x7, ¶ms);
axi_clkgen_set_div(axi_clkgen, MMCM_REG_CLKOUT0_1, MMCM_REG_CLKOUT0_2,
MMCM_REG_CLKOUT5_2, ¶ms);
axi_clkgen_calc_clk_params(d, 0, ¶ms);
axi_clkgen_mmcm_write(axi_clkgen, MMCM_REG_CLK_DIV,
(params.edge << 13) | (params.nocount << 12) |
(params.high << 6) | params.low, 0x3fff);
axi_clkgen_calc_clk_params(m >> 3, m & 0x7, ¶ms);
axi_clkgen_set_div(axi_clkgen, MMCM_REG_CLK_FB1, MMCM_REG_CLK_FB2,
MMCM_REG_CLKOUT6_2, ¶ms);
axi_clkgen_mmcm_write(axi_clkgen, MMCM_REG_LOCK1, lock & 0x3ff, 0x3ff);
axi_clkgen_mmcm_write(axi_clkgen, MMCM_REG_LOCK2,
(((lock >> 16) & 0x1f) << 10) | 0x1, 0x7fff);
axi_clkgen_mmcm_write(axi_clkgen, MMCM_REG_LOCK3,
(((lock >> 24) & 0x1f) << 10) | 0x3e9, 0x7fff);
axi_clkgen_mmcm_write(axi_clkgen, MMCM_REG_FILTER1, filter >> 16, 0x9900);
axi_clkgen_mmcm_write(axi_clkgen, MMCM_REG_FILTER2, filter, 0x9900);
return 0;
}
static long axi_clkgen_round_rate(struct clk_hw *hw, unsigned long rate,
unsigned long *parent_rate)
{
struct axi_clkgen *axi_clkgen = clk_hw_to_axi_clkgen(hw);
const struct axi_clkgen_limits *limits = &axi_clkgen->limits;
unsigned int d, m, dout;
unsigned long long tmp;
axi_clkgen_calc_params(limits, *parent_rate, rate, &d, &m, &dout);
if (d == 0 || dout == 0 || m == 0)
return -EINVAL;
tmp = (unsigned long long)*parent_rate * m;
tmp = DIV_ROUND_CLOSEST_ULL(tmp, dout * d);
return min_t(unsigned long long, tmp, LONG_MAX);
}
static unsigned int axi_clkgen_get_div(struct axi_clkgen *axi_clkgen,
unsigned int reg1, unsigned int reg2)
{
unsigned int val1, val2;
unsigned int div;
axi_clkgen_mmcm_read(axi_clkgen, reg2, &val2);
if (val2 & MMCM_CLKOUT_NOCOUNT)
return 8;
axi_clkgen_mmcm_read(axi_clkgen, reg1, &val1);
div = (val1 & 0x3f) + ((val1 >> 6) & 0x3f);
div <<= 3;
if (val2 & MMCM_CLK_DIV_DIVIDE) {
if ((val2 & BIT(7)) && (val2 & 0x7000) != 0x1000)
div += 8;
else
div += 16;
div += (val2 >> 12) & 0x7;
}
return div;
}
static unsigned long axi_clkgen_recalc_rate(struct clk_hw *clk_hw,
unsigned long parent_rate)
{
struct axi_clkgen *axi_clkgen = clk_hw_to_axi_clkgen(clk_hw);
unsigned int d, m, dout;
unsigned long long tmp;
unsigned int val;
dout = axi_clkgen_get_div(axi_clkgen, MMCM_REG_CLKOUT0_1,
MMCM_REG_CLKOUT0_2);
m = axi_clkgen_get_div(axi_clkgen, MMCM_REG_CLK_FB1,
MMCM_REG_CLK_FB2);
axi_clkgen_mmcm_read(axi_clkgen, MMCM_REG_CLK_DIV, &val);
if (val & MMCM_CLK_DIV_NOCOUNT)
d = 1;
else
d = (val & 0x3f) + ((val >> 6) & 0x3f);
if (d == 0 || dout == 0)
return 0;
tmp = (unsigned long long)parent_rate * m;
tmp = DIV_ROUND_CLOSEST_ULL(tmp, dout * d);
return min_t(unsigned long long, tmp, ULONG_MAX);
}
static int axi_clkgen_enable(struct clk_hw *clk_hw)
{
struct axi_clkgen *axi_clkgen = clk_hw_to_axi_clkgen(clk_hw);
axi_clkgen_mmcm_enable(axi_clkgen, true);
return 0;
}
static void axi_clkgen_disable(struct clk_hw *clk_hw)
{
struct axi_clkgen *axi_clkgen = clk_hw_to_axi_clkgen(clk_hw);
axi_clkgen_mmcm_enable(axi_clkgen, false);
}
static int axi_clkgen_set_parent(struct clk_hw *clk_hw, u8 index)
{
struct axi_clkgen *axi_clkgen = clk_hw_to_axi_clkgen(clk_hw);
axi_clkgen_write(axi_clkgen, AXI_CLKGEN_V2_REG_CLKSEL, index);
return 0;
}
static u8 axi_clkgen_get_parent(struct clk_hw *clk_hw)
{
struct axi_clkgen *axi_clkgen = clk_hw_to_axi_clkgen(clk_hw);
unsigned int parent;
axi_clkgen_read(axi_clkgen, AXI_CLKGEN_V2_REG_CLKSEL, &parent);
return parent;
}
static const struct clk_ops axi_clkgen_ops = {
.recalc_rate = axi_clkgen_recalc_rate,
.round_rate = axi_clkgen_round_rate,
.set_rate = axi_clkgen_set_rate,
.enable = axi_clkgen_enable,
.disable = axi_clkgen_disable,
.set_parent = axi_clkgen_set_parent,
.get_parent = axi_clkgen_get_parent,
};
static int axi_clkgen_probe(struct platform_device *pdev)
{
const struct axi_clkgen_limits *dflt_limits;
struct axi_clkgen *axi_clkgen;
struct clk_init_data init;
const char *parent_names[2];
const char *clk_name;
unsigned int i;
int ret;
dflt_limits = device_get_match_data(&pdev->dev);
if (!dflt_limits)
return -ENODEV;
axi_clkgen = devm_kzalloc(&pdev->dev, sizeof(*axi_clkgen), GFP_KERNEL);
if (!axi_clkgen)
return -ENOMEM;
axi_clkgen->base = devm_platform_ioremap_resource(pdev, 0);
if (IS_ERR(axi_clkgen->base))
return PTR_ERR(axi_clkgen->base);
init.num_parents = of_clk_get_parent_count(pdev->dev.of_node);
if (init.num_parents < 1 || init.num_parents > 2)
return -EINVAL;
for (i = 0; i < init.num_parents; i++) {
parent_names[i] = of_clk_get_parent_name(pdev->dev.of_node, i);
if (!parent_names[i])
return -EINVAL;
}
memcpy(&axi_clkgen->limits, dflt_limits, sizeof(axi_clkgen->limits));
clk_name = pdev->dev.of_node->name;
of_property_read_string(pdev->dev.of_node, "clock-output-names",
&clk_name);
init.name = clk_name;
init.ops = &axi_clkgen_ops;
init.flags = CLK_SET_RATE_GATE | CLK_SET_PARENT_GATE;
init.parent_names = parent_names;
axi_clkgen_mmcm_enable(axi_clkgen, false);
axi_clkgen->clk_hw.init = &init;
ret = devm_clk_hw_register(&pdev->dev, &axi_clkgen->clk_hw);
if (ret)
return ret;
return devm_of_clk_add_hw_provider(&pdev->dev, of_clk_hw_simple_get,
&axi_clkgen->clk_hw);
}
static const struct of_device_id axi_clkgen_ids[] = {
{
.compatible = "adi,zynqmp-axi-clkgen-2.00.a",
.data = &axi_clkgen_zynqmp_default_limits,
},
{
.compatible = "adi,axi-clkgen-2.00.a",
.data = &axi_clkgen_zynq_default_limits,
},
{ }
};
MODULE_DEVICE_TABLE(of, axi_clkgen_ids);
static struct platform_driver axi_clkgen_driver = {
.driver = {
.name = "adi-axi-clkgen",
.of_match_table = axi_clkgen_ids,
},
.probe = axi_clkgen_probe,
};
module_platform_driver(axi_clkgen_driver);
MODULE_LICENSE("GPL v2");
MODULE_AUTHOR("Lars-Peter Clausen <lars@metafoo.de>");
MODULE_DESCRIPTION("Driver for the Analog Devices' AXI clkgen pcore clock generator");
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