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JustOS/linux-6.13/drivers/clk/sophgo/clk-sg2042-clkgen.c
justuser 02e73b8cd9 up
2025-01-24 17:00:19 +03:00

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// SPDX-License-Identifier: GPL-2.0
/*
* Sophgo SG2042 Clock Generator Driver
*
* Copyright (C) 2024 Sophgo Technology Inc.
* Copyright (C) 2024 Chen Wang <unicorn_wang@outlook.com>
*/
#include <linux/array_size.h>
#include <linux/bits.h>
#include <linux/clk.h>
#include <linux/clk-provider.h>
#include <linux/io.h>
#include <linux/platform_device.h>
#include <asm/div64.h>
#include <dt-bindings/clock/sophgo,sg2042-clkgen.h>
#include "clk-sg2042.h"
/* Registers defined in SYS_CTRL */
#define R_PLL_BEGIN 0xC0
#define R_PLL_STAT (0xC0 - R_PLL_BEGIN)
#define R_PLL_CLKEN_CONTROL (0xC4 - R_PLL_BEGIN)
#define R_MPLL_CONTROL (0xE8 - R_PLL_BEGIN)
#define R_FPLL_CONTROL (0xF4 - R_PLL_BEGIN)
#define R_DPLL0_CONTROL (0xF8 - R_PLL_BEGIN)
#define R_DPLL1_CONTROL (0xFC - R_PLL_BEGIN)
/* Registers defined in CLOCK */
#define R_CLKENREG0 0x00
#define R_CLKENREG1 0x04
#define R_CLKSELREG0 0x20
#define R_CLKDIVREG0 0x40
#define R_CLKDIVREG1 0x44
#define R_CLKDIVREG2 0x48
#define R_CLKDIVREG3 0x4C
#define R_CLKDIVREG4 0x50
#define R_CLKDIVREG5 0x54
#define R_CLKDIVREG6 0x58
#define R_CLKDIVREG7 0x5C
#define R_CLKDIVREG8 0x60
#define R_CLKDIVREG9 0x64
#define R_CLKDIVREG10 0x68
#define R_CLKDIVREG11 0x6C
#define R_CLKDIVREG12 0x70
#define R_CLKDIVREG13 0x74
#define R_CLKDIVREG14 0x78
#define R_CLKDIVREG15 0x7C
#define R_CLKDIVREG16 0x80
#define R_CLKDIVREG17 0x84
#define R_CLKDIVREG18 0x88
#define R_CLKDIVREG19 0x8C
#define R_CLKDIVREG20 0x90
#define R_CLKDIVREG21 0x94
#define R_CLKDIVREG22 0x98
#define R_CLKDIVREG23 0x9C
#define R_CLKDIVREG24 0xA0
#define R_CLKDIVREG25 0xA4
#define R_CLKDIVREG26 0xA8
#define R_CLKDIVREG27 0xAC
#define R_CLKDIVREG28 0xB0
#define R_CLKDIVREG29 0xB4
#define R_CLKDIVREG30 0xB8
/* All following shift value are the same for all DIV registers */
#define SHIFT_DIV_RESET_CTRL 0
#define SHIFT_DIV_FACTOR_SEL 3
#define SHIFT_DIV_FACTOR 16
/**
* struct sg2042_divider_clock - Divider clock
* @hw: clk_hw for initialization
* @id: used to map clk_onecell_data
* @reg: used for readl/writel.
* **NOTE**: DIV registers are ALL in CLOCK!
* @lock: spinlock to protect register access, modification of
* frequency can only be served one at the time
* @offset_ctrl: offset of divider control registers
* @shift: shift of "Clock Divider Factor" in divider control register
* @width: width of "Clock Divider Factor" in divider control register
* @div_flags: private flags for this clock, not for framework-specific
* @initval: In the divider control register, we can configure whether
* to use the value of "Clock Divider Factor" or just use
* the initial value pre-configured by IC. BIT[3] controls
* this and by default (value is 0), means initial value
* is used.
* **NOTE** that we cannot read the initial value (default
* value when poweron) and default value of "Clock Divider
* Factor" is zero, which I think is a hardware design flaw
* and should be sync-ed with the initial value. So in
* software we have to add a configuration item (initval)
* to manually configure this value and use it when BIT[3]
* is zero.
*/
struct sg2042_divider_clock {
struct clk_hw hw;
unsigned int id;
void __iomem *reg;
/* protect register access */
spinlock_t *lock;
u32 offset_ctrl;
u8 shift;
u8 width;
u8 div_flags;
u32 initval;
};
#define to_sg2042_clk_divider(_hw) \
container_of(_hw, struct sg2042_divider_clock, hw)
/**
* struct sg2042_gate_clock - Gate clock
* @hw: clk_hw for initialization
* @id: used to map clk_onecell_data
* @offset_enable: offset of gate enable registers
* @bit_idx: which bit in the register controls gating of this clock
*/
struct sg2042_gate_clock {
struct clk_hw hw;
unsigned int id;
u32 offset_enable;
u8 bit_idx;
};
/**
* struct sg2042_mux_clock - Mux clock
* @hw: clk_hw for initialization
* @id: used to map clk_onecell_data
* @offset_select: offset of mux selection registers
* **NOTE**: MUX registers are ALL in CLOCK!
* @shift: shift of "Clock Select" in mux selection register
* @width: width of "Clock Select" in mux selection register
* @clk_nb: used for notification
* @original_index: set by notifier callback
*/
struct sg2042_mux_clock {
struct clk_hw hw;
unsigned int id;
u32 offset_select;
u8 shift;
u8 width;
struct notifier_block clk_nb;
u8 original_index;
};
#define to_sg2042_mux_nb(_nb) container_of(_nb, struct sg2042_mux_clock, clk_nb)
static unsigned long sg2042_clk_divider_recalc_rate(struct clk_hw *hw,
unsigned long parent_rate)
{
struct sg2042_divider_clock *divider = to_sg2042_clk_divider(hw);
unsigned long ret_rate;
u32 val;
if (!(readl(divider->reg) & BIT(SHIFT_DIV_FACTOR_SEL))) {
val = divider->initval;
} else {
val = readl(divider->reg) >> divider->shift;
val &= clk_div_mask(divider->width);
}
ret_rate = divider_recalc_rate(hw, parent_rate, val, NULL,
divider->div_flags, divider->width);
pr_debug("--> %s: divider_recalc_rate: ret_rate = %ld\n",
clk_hw_get_name(hw), ret_rate);
return ret_rate;
}
static long sg2042_clk_divider_round_rate(struct clk_hw *hw,
unsigned long rate,
unsigned long *prate)
{
struct sg2042_divider_clock *divider = to_sg2042_clk_divider(hw);
unsigned long ret_rate;
u32 bestdiv;
/* if read only, just return current value */
if (divider->div_flags & CLK_DIVIDER_READ_ONLY) {
if (!(readl(divider->reg) & BIT(SHIFT_DIV_FACTOR_SEL))) {
bestdiv = divider->initval;
} else {
bestdiv = readl(divider->reg) >> divider->shift;
bestdiv &= clk_div_mask(divider->width);
}
ret_rate = DIV_ROUND_UP_ULL((u64)*prate, bestdiv);
} else {
ret_rate = divider_round_rate(hw, rate, prate, NULL,
divider->width, divider->div_flags);
}
pr_debug("--> %s: divider_round_rate: val = %ld\n",
clk_hw_get_name(hw), ret_rate);
return ret_rate;
}
static int sg2042_clk_divider_set_rate(struct clk_hw *hw,
unsigned long rate,
unsigned long parent_rate)
{
struct sg2042_divider_clock *divider = to_sg2042_clk_divider(hw);
unsigned long flags = 0;
u32 val, val2, value;
value = divider_get_val(rate, parent_rate, NULL,
divider->width, divider->div_flags);
if (divider->lock)
spin_lock_irqsave(divider->lock, flags);
else
__acquire(divider->lock);
/*
* The sequence of clock frequency modification is:
* Assert to reset divider.
* Modify the value of Clock Divide Factor (and High Wide if needed).
* De-assert to restore divided clock with new frequency.
*/
val = readl(divider->reg);
/* assert */
val &= ~BIT(SHIFT_DIV_RESET_CTRL);
writel(val, divider->reg);
if (divider->div_flags & CLK_DIVIDER_HIWORD_MASK) {
val = clk_div_mask(divider->width) << (divider->shift + 16);
} else {
val = readl(divider->reg);
val &= ~(clk_div_mask(divider->width) << divider->shift);
}
val |= value << divider->shift;
val |= BIT(SHIFT_DIV_FACTOR_SEL);
writel(val, divider->reg);
val2 = val;
/* de-assert */
val |= BIT(SHIFT_DIV_RESET_CTRL);
writel(val, divider->reg);
if (divider->lock)
spin_unlock_irqrestore(divider->lock, flags);
else
__release(divider->lock);
pr_debug("--> %s: divider_set_rate: register val = 0x%x\n",
clk_hw_get_name(hw), val2);
return 0;
}
static const struct clk_ops sg2042_clk_divider_ops = {
.recalc_rate = sg2042_clk_divider_recalc_rate,
.round_rate = sg2042_clk_divider_round_rate,
.set_rate = sg2042_clk_divider_set_rate,
};
static const struct clk_ops sg2042_clk_divider_ro_ops = {
.recalc_rate = sg2042_clk_divider_recalc_rate,
.round_rate = sg2042_clk_divider_round_rate,
};
/*
* Clock initialization macro naming rules:
* FW: use CLK_HW_INIT_FW_NAME
* HW: use CLK_HW_INIT_HW
* HWS: use CLK_HW_INIT_HWS
* RO: means Read-Only
*/
#define SG2042_DIV_FW(_id, _name, _parent, \
_r_ctrl, _shift, _width, \
_div_flag, _initval) { \
.id = _id, \
.hw.init = CLK_HW_INIT_FW_NAME( \
_name, \
_parent, \
&sg2042_clk_divider_ops, \
0), \
.offset_ctrl = _r_ctrl, \
.shift = _shift, \
.width = _width, \
.div_flags = _div_flag, \
.initval = _initval, \
}
#define SG2042_DIV_FW_RO(_id, _name, _parent, \
_r_ctrl, _shift, _width, \
_div_flag, _initval) { \
.id = _id, \
.hw.init = CLK_HW_INIT_FW_NAME( \
_name, \
_parent, \
&sg2042_clk_divider_ro_ops, \
0), \
.offset_ctrl = _r_ctrl, \
.shift = _shift, \
.width = _width, \
.div_flags = (_div_flag) | CLK_DIVIDER_READ_ONLY, \
.initval = _initval, \
}
#define SG2042_DIV_HW(_id, _name, _parent, \
_r_ctrl, _shift, _width, \
_div_flag, _initval) { \
.id = _id, \
.hw.init = CLK_HW_INIT_HW( \
_name, \
_parent, \
&sg2042_clk_divider_ops, \
0), \
.offset_ctrl = _r_ctrl, \
.shift = _shift, \
.width = _width, \
.div_flags = _div_flag, \
.initval = _initval, \
}
#define SG2042_DIV_HW_RO(_id, _name, _parent, \
_r_ctrl, _shift, _width, \
_div_flag, _initval) { \
.id = _id, \
.hw.init = CLK_HW_INIT_HW( \
_name, \
_parent, \
&sg2042_clk_divider_ro_ops, \
0), \
.offset_ctrl = _r_ctrl, \
.shift = _shift, \
.width = _width, \
.div_flags = (_div_flag) | CLK_DIVIDER_READ_ONLY, \
.initval = _initval, \
}
#define SG2042_DIV_HWS(_id, _name, _parent, \
_r_ctrl, _shift, _width, \
_div_flag, _initval) { \
.id = _id, \
.hw.init = CLK_HW_INIT_HWS( \
_name, \
_parent, \
&sg2042_clk_divider_ops, \
0), \
.offset_ctrl = _r_ctrl, \
.shift = _shift, \
.width = _width, \
.div_flags = _div_flag, \
.initval = _initval, \
}
#define SG2042_DIV_HWS_RO(_id, _name, _parent, \
_r_ctrl, _shift, _width, \
_div_flag, _initval) { \
.id = _id, \
.hw.init = CLK_HW_INIT_HWS( \
_name, \
_parent, \
&sg2042_clk_divider_ro_ops, \
0), \
.offset_ctrl = _r_ctrl, \
.shift = _shift, \
.width = _width, \
.div_flags = (_div_flag) | CLK_DIVIDER_READ_ONLY, \
.initval = _initval, \
}
#define SG2042_GATE_HWS(_id, _name, _parent, _flags, \
_r_enable, _bit_idx) { \
.id = _id, \
.hw.init = CLK_HW_INIT_HWS( \
_name, \
_parent, \
NULL, \
_flags), \
.offset_enable = _r_enable, \
.bit_idx = _bit_idx, \
}
#define SG2042_GATE_HW(_id, _name, _parent, _flags, \
_r_enable, _bit_idx) { \
.id = _id, \
.hw.init = CLK_HW_INIT_HW( \
_name, \
_parent, \
NULL, \
_flags), \
.offset_enable = _r_enable, \
.bit_idx = _bit_idx, \
}
#define SG2042_GATE_FW(_id, _name, _parent, _flags, \
_r_enable, _bit_idx) { \
.id = _id, \
.hw.init = CLK_HW_INIT_FW_NAME( \
_name, \
_parent, \
NULL, \
_flags), \
.offset_enable = _r_enable, \
.bit_idx = _bit_idx, \
}
#define SG2042_MUX(_id, _name, _parents, _flags, _r_select, _shift, _width) { \
.id = _id, \
.hw.init = CLK_HW_INIT_PARENTS_HW( \
_name, \
_parents, \
NULL, \
_flags), \
.offset_select = _r_select, \
.shift = _shift, \
.width = _width, \
}
/*
* Clock items in the array are sorted according to the clock-tree diagram,
* from top to bottom, from upstream to downstream. Read TRM for details.
*/
/* updated during probe/registration */
static const struct clk_hw *clk_gate_ddr01_div0[] = { NULL };
static const struct clk_hw *clk_gate_ddr01_div1[] = { NULL };
static const struct clk_hw *clk_gate_ddr23_div0[] = { NULL };
static const struct clk_hw *clk_gate_ddr23_div1[] = { NULL };
static const struct clk_hw *clk_gate_rp_cpu_normal_div0[] = { NULL };
static const struct clk_hw *clk_gate_rp_cpu_normal_div1[] = { NULL };
static const struct clk_hw *clk_gate_axi_ddr_div0[] = { NULL };
static const struct clk_hw *clk_gate_axi_ddr_div1[] = { NULL };
static const struct sg2042_gate_clock sg2042_gate_clks_level_1[] = {
SG2042_GATE_FW(GATE_CLK_DDR01_DIV0, "clk_gate_ddr01_div0", "dpll0",
CLK_SET_RATE_PARENT | CLK_IGNORE_UNUSED,
R_CLKDIVREG27, 4),
SG2042_GATE_FW(GATE_CLK_DDR01_DIV1, "clk_gate_ddr01_div1", "fpll",
CLK_IS_CRITICAL,
R_CLKDIVREG28, 4),
SG2042_GATE_FW(GATE_CLK_DDR23_DIV0, "clk_gate_ddr23_div0", "dpll1",
CLK_SET_RATE_PARENT | CLK_IGNORE_UNUSED,
R_CLKDIVREG29, 4),
SG2042_GATE_FW(GATE_CLK_DDR23_DIV1, "clk_gate_ddr23_div1", "fpll",
CLK_IS_CRITICAL,
R_CLKDIVREG30, 4),
SG2042_GATE_FW(GATE_CLK_RP_CPU_NORMAL_DIV0,
"clk_gate_rp_cpu_normal_div0", "mpll",
CLK_SET_RATE_PARENT | CLK_IS_CRITICAL,
R_CLKDIVREG0, 4),
SG2042_GATE_FW(GATE_CLK_RP_CPU_NORMAL_DIV1,
"clk_gate_rp_cpu_normal_div1", "fpll",
CLK_IS_CRITICAL,
R_CLKDIVREG1, 4),
SG2042_GATE_FW(GATE_CLK_AXI_DDR_DIV0, "clk_gate_axi_ddr_div0", "mpll",
CLK_SET_RATE_PARENT | CLK_IS_CRITICAL,
R_CLKDIVREG25, 4),
SG2042_GATE_FW(GATE_CLK_AXI_DDR_DIV1, "clk_gate_axi_ddr_div1", "fpll",
CLK_IS_CRITICAL,
R_CLKDIVREG26, 4),
};
#define DEF_DIVFLAG (CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO)
static struct sg2042_divider_clock sg2042_div_clks_level_1[] = {
SG2042_DIV_HWS_RO(DIV_CLK_DPLL0_DDR01_0,
"clk_div_ddr01_0", clk_gate_ddr01_div0,
R_CLKDIVREG27, 16, 5, DEF_DIVFLAG, 1),
SG2042_DIV_HWS_RO(DIV_CLK_FPLL_DDR01_1,
"clk_div_ddr01_1", clk_gate_ddr01_div1,
R_CLKDIVREG28, 16, 5, DEF_DIVFLAG, 1),
SG2042_DIV_HWS_RO(DIV_CLK_DPLL1_DDR23_0,
"clk_div_ddr23_0", clk_gate_ddr23_div0,
R_CLKDIVREG29, 16, 5, DEF_DIVFLAG, 1),
SG2042_DIV_HWS_RO(DIV_CLK_FPLL_DDR23_1,
"clk_div_ddr23_1", clk_gate_ddr23_div1,
R_CLKDIVREG30, 16, 5, DEF_DIVFLAG, 1),
SG2042_DIV_HWS(DIV_CLK_MPLL_RP_CPU_NORMAL_0,
"clk_div_rp_cpu_normal_0", clk_gate_rp_cpu_normal_div0,
R_CLKDIVREG0, 16, 5, DEF_DIVFLAG, 1),
SG2042_DIV_HWS(DIV_CLK_FPLL_RP_CPU_NORMAL_1,
"clk_div_rp_cpu_normal_1", clk_gate_rp_cpu_normal_div1,
R_CLKDIVREG1, 16, 5, DEF_DIVFLAG, 1),
SG2042_DIV_HWS(DIV_CLK_MPLL_AXI_DDR_0,
"clk_div_axi_ddr_0", clk_gate_axi_ddr_div0,
R_CLKDIVREG25, 16, 5, DEF_DIVFLAG, 2),
SG2042_DIV_HWS(DIV_CLK_FPLL_AXI_DDR_1,
"clk_div_axi_ddr_1", clk_gate_axi_ddr_div1,
R_CLKDIVREG26, 16, 5, DEF_DIVFLAG, 1),
};
/*
* Note: regarding names for mux clock, "0/1" or "div0/div1" means the
* first/second parent input source, not the register value.
* For example:
* "clk_div_ddr01_0" is the name of Clock divider 0 control of DDR01, and
* "clk_gate_ddr01_div0" is the gate clock in front of the "clk_div_ddr01_0",
* they are both controlled by register CLKDIVREG27;
* "clk_div_ddr01_1" is the name of Clock divider 1 control of DDR01, and
* "clk_gate_ddr01_div1" is the gate clock in front of the "clk_div_ddr01_1",
* they are both controlled by register CLKDIVREG28;
* While for register value of mux selection, use Clock Select for DDR01’s clock
* as example, see CLKSELREG0, bit[2].
* 1: Select in_dpll0_clk as clock source, correspondng to the parent input
* source from "clk_div_ddr01_0".
* 0: Select in_fpll_clk as clock source, corresponding to the parent input
* source from "clk_div_ddr01_1".
* So we need a table to define the array of register values corresponding to
* the parent index and tell CCF about this when registering mux clock.
*/
static const u32 sg2042_mux_table[] = {1, 0};
/* Aliases just for easy reading */
#define clk_div_ddr01_0 (&sg2042_div_clks_level_1[0].hw)
#define clk_div_ddr01_1 (&sg2042_div_clks_level_1[1].hw)
#define clk_div_ddr23_0 (&sg2042_div_clks_level_1[2].hw)
#define clk_div_ddr23_1 (&sg2042_div_clks_level_1[3].hw)
#define clk_div_rp_cpu_normal_0 (&sg2042_div_clks_level_1[4].hw)
#define clk_div_rp_cpu_normal_1 (&sg2042_div_clks_level_1[5].hw)
#define clk_div_axi_ddr_0 (&sg2042_div_clks_level_1[6].hw)
#define clk_div_axi_ddr_1 (&sg2042_div_clks_level_1[7].hw)
static const struct clk_hw *clk_mux_ddr01_p[] = {
clk_div_ddr01_0,
clk_div_ddr01_1,
};
static const struct clk_hw *clk_mux_ddr23_p[] = {
clk_div_ddr23_0,
clk_div_ddr23_1,
};
static const struct clk_hw *clk_mux_rp_cpu_normal_p[] = {
clk_div_rp_cpu_normal_0,
clk_div_rp_cpu_normal_1,
};
static const struct clk_hw *clk_mux_axi_ddr_p[] = {
clk_div_axi_ddr_0,
clk_div_axi_ddr_1,
};
/* Mux clocks to be updated during probe/registration */
static const struct clk_hw *clk_mux_ddr01[] = { NULL };
static const struct clk_hw *clk_mux_ddr23[] = { NULL };
static const struct clk_hw *clk_mux_rp_cpu_normal[] = { NULL };
static const struct clk_hw *clk_mux_axi_ddr[] = { NULL };
static struct sg2042_mux_clock sg2042_mux_clks[] = {
SG2042_MUX(MUX_CLK_DDR01, "clk_mux_ddr01", clk_mux_ddr01_p,
CLK_SET_RATE_PARENT | CLK_SET_RATE_NO_REPARENT | CLK_MUX_READ_ONLY,
R_CLKSELREG0, 2, 1),
SG2042_MUX(MUX_CLK_DDR23, "clk_mux_ddr23", clk_mux_ddr23_p,
CLK_SET_RATE_PARENT | CLK_SET_RATE_NO_REPARENT | CLK_MUX_READ_ONLY,
R_CLKSELREG0, 3, 1),
SG2042_MUX(MUX_CLK_RP_CPU_NORMAL, "clk_mux_rp_cpu_normal", clk_mux_rp_cpu_normal_p,
CLK_SET_RATE_PARENT | CLK_SET_RATE_NO_REPARENT,
R_CLKSELREG0, 0, 1),
SG2042_MUX(MUX_CLK_AXI_DDR, "clk_mux_axi_ddr", clk_mux_axi_ddr_p,
CLK_SET_RATE_PARENT | CLK_SET_RATE_NO_REPARENT,
R_CLKSELREG0, 1, 1),
};
/* Aliases just for easy reading */
#define clk_div_top_rp_cmn_div2 (&sg2042_div_clks_level_2[0].hw)
#define clk_div_50m_a53 (&sg2042_div_clks_level_2[1].hw)
#define clk_div_timer1 (&sg2042_div_clks_level_2[2].hw)
#define clk_div_timer2 (&sg2042_div_clks_level_2[3].hw)
#define clk_div_timer3 (&sg2042_div_clks_level_2[4].hw)
#define clk_div_timer4 (&sg2042_div_clks_level_2[5].hw)
#define clk_div_timer5 (&sg2042_div_clks_level_2[6].hw)
#define clk_div_timer6 (&sg2042_div_clks_level_2[7].hw)
#define clk_div_timer7 (&sg2042_div_clks_level_2[8].hw)
#define clk_div_timer8 (&sg2042_div_clks_level_2[9].hw)
#define clk_div_uart_500m (&sg2042_div_clks_level_2[10].hw)
#define clk_div_ahb_lpc (&sg2042_div_clks_level_2[11].hw)
#define clk_div_efuse (&sg2042_div_clks_level_2[12].hw)
#define clk_div_tx_eth0 (&sg2042_div_clks_level_2[13].hw)
#define clk_div_ptp_ref_i_eth0 (&sg2042_div_clks_level_2[14].hw)
#define clk_div_ref_eth0 (&sg2042_div_clks_level_2[15].hw)
#define clk_div_emmc (&sg2042_div_clks_level_2[16].hw)
#define clk_div_sd (&sg2042_div_clks_level_2[17].hw)
#define clk_div_top_axi0 (&sg2042_div_clks_level_2[18].hw)
#define clk_div_100k_emmc (&sg2042_div_clks_level_2[19].hw)
#define clk_div_100k_sd (&sg2042_div_clks_level_2[20].hw)
#define clk_div_gpio_db (&sg2042_div_clks_level_2[21].hw)
#define clk_div_top_axi_hsperi (&sg2042_div_clks_level_2[22].hw)
static struct sg2042_divider_clock sg2042_div_clks_level_2[] = {
SG2042_DIV_HWS(DIV_CLK_FPLL_TOP_RP_CMN_DIV2,
"clk_div_top_rp_cmn_div2", clk_mux_rp_cpu_normal,
R_CLKDIVREG3, 16, 16, DEF_DIVFLAG, 2),
SG2042_DIV_FW(DIV_CLK_FPLL_50M_A53, "clk_div_50m_a53", "fpll",
R_CLKDIVREG2, 16, 8, DEF_DIVFLAG, 20),
/* downstream of div_50m_a53 */
SG2042_DIV_HW(DIV_CLK_FPLL_DIV_TIMER1, "clk_div_timer1", clk_div_50m_a53,
R_CLKDIVREG6, 16, 16, DEF_DIVFLAG, 1),
SG2042_DIV_HW(DIV_CLK_FPLL_DIV_TIMER2, "clk_div_timer2", clk_div_50m_a53,
R_CLKDIVREG7, 16, 16, DEF_DIVFLAG, 1),
SG2042_DIV_HW(DIV_CLK_FPLL_DIV_TIMER3, "clk_div_timer3", clk_div_50m_a53,
R_CLKDIVREG8, 16, 16, DEF_DIVFLAG, 1),
SG2042_DIV_HW(DIV_CLK_FPLL_DIV_TIMER4, "clk_div_timer4", clk_div_50m_a53,
R_CLKDIVREG9, 16, 16, DEF_DIVFLAG, 1),
SG2042_DIV_HW(DIV_CLK_FPLL_DIV_TIMER5, "clk_div_timer5", clk_div_50m_a53,
R_CLKDIVREG10, 16, 16, DEF_DIVFLAG, 1),
SG2042_DIV_HW(DIV_CLK_FPLL_DIV_TIMER6, "clk_div_timer6", clk_div_50m_a53,
R_CLKDIVREG11, 16, 16, DEF_DIVFLAG, 1),
SG2042_DIV_HW(DIV_CLK_FPLL_DIV_TIMER7, "clk_div_timer7", clk_div_50m_a53,
R_CLKDIVREG12, 16, 16, DEF_DIVFLAG, 1),
SG2042_DIV_HW(DIV_CLK_FPLL_DIV_TIMER8, "clk_div_timer8", clk_div_50m_a53,
R_CLKDIVREG13, 16, 16, DEF_DIVFLAG, 1),
/*
* Set clk_div_uart_500m as RO, because the width of CLKDIVREG4 is too
* narrow for us to produce 115200. Use UART internal divider directly.
*/
SG2042_DIV_FW_RO(DIV_CLK_FPLL_UART_500M, "clk_div_uart_500m", "fpll",
R_CLKDIVREG4, 16, 7, DEF_DIVFLAG, 2),
SG2042_DIV_FW(DIV_CLK_FPLL_AHB_LPC, "clk_div_ahb_lpc", "fpll",
R_CLKDIVREG5, 16, 16, DEF_DIVFLAG, 5),
SG2042_DIV_FW(DIV_CLK_FPLL_EFUSE, "clk_div_efuse", "fpll",
R_CLKDIVREG14, 16, 7, DEF_DIVFLAG, 40),
SG2042_DIV_FW(DIV_CLK_FPLL_TX_ETH0, "clk_div_tx_eth0", "fpll",
R_CLKDIVREG16, 16, 11, DEF_DIVFLAG, 8),
SG2042_DIV_FW(DIV_CLK_FPLL_PTP_REF_I_ETH0,
"clk_div_ptp_ref_i_eth0", "fpll",
R_CLKDIVREG17, 16, 8, DEF_DIVFLAG, 20),
SG2042_DIV_FW(DIV_CLK_FPLL_REF_ETH0, "clk_div_ref_eth0", "fpll",
R_CLKDIVREG18, 16, 8, DEF_DIVFLAG, 40),
SG2042_DIV_FW(DIV_CLK_FPLL_EMMC, "clk_div_emmc", "fpll",
R_CLKDIVREG19, 16, 5, DEF_DIVFLAG, 10),
SG2042_DIV_FW(DIV_CLK_FPLL_SD, "clk_div_sd", "fpll",
R_CLKDIVREG21, 16, 5, DEF_DIVFLAG, 10),
SG2042_DIV_FW(DIV_CLK_FPLL_TOP_AXI0, "clk_div_top_axi0", "fpll",
R_CLKDIVREG23, 16, 5, DEF_DIVFLAG, 10),
/* downstream of div_top_axi0 */
SG2042_DIV_HW(DIV_CLK_FPLL_100K_EMMC, "clk_div_100k_emmc", clk_div_top_axi0,
R_CLKDIVREG20, 16, 16, DEF_DIVFLAG, 1000),
SG2042_DIV_HW(DIV_CLK_FPLL_100K_SD, "clk_div_100k_sd", clk_div_top_axi0,
R_CLKDIVREG22, 16, 16, DEF_DIVFLAG, 1000),
SG2042_DIV_HW(DIV_CLK_FPLL_GPIO_DB, "clk_div_gpio_db", clk_div_top_axi0,
R_CLKDIVREG15, 16, 16, DEF_DIVFLAG, 1000),
SG2042_DIV_FW(DIV_CLK_FPLL_TOP_AXI_HSPERI,
"clk_div_top_axi_hsperi", "fpll",
R_CLKDIVREG24, 16, 5, DEF_DIVFLAG, 4),
};
/* Gate clocks to be updated during probe/registration */
static const struct clk_hw *clk_gate_rp_cpu_normal[] = { NULL };
static const struct clk_hw *clk_gate_top_rp_cmn_div2[] = { NULL };
static const struct sg2042_gate_clock sg2042_gate_clks_level_2[] = {
SG2042_GATE_HWS(GATE_CLK_DDR01, "clk_gate_ddr01", clk_mux_ddr01,
CLK_SET_RATE_PARENT | CLK_IS_CRITICAL,
R_CLKENREG1, 14),
SG2042_GATE_HWS(GATE_CLK_DDR23, "clk_gate_ddr23", clk_mux_ddr23,
CLK_SET_RATE_PARENT | CLK_IS_CRITICAL,
R_CLKENREG1, 15),
SG2042_GATE_HWS(GATE_CLK_RP_CPU_NORMAL,
"clk_gate_rp_cpu_normal", clk_mux_rp_cpu_normal,
CLK_SET_RATE_PARENT | CLK_IS_CRITICAL,
R_CLKENREG0, 0),
SG2042_GATE_HWS(GATE_CLK_AXI_DDR, "clk_gate_axi_ddr", clk_mux_axi_ddr,
CLK_SET_RATE_PARENT | CLK_IS_CRITICAL,
R_CLKENREG1, 13),
/* upon are gate clocks directly downstream of muxes */
/* downstream of clk_div_top_rp_cmn_div2 */
SG2042_GATE_HW(GATE_CLK_TOP_RP_CMN_DIV2,
"clk_gate_top_rp_cmn_div2", clk_div_top_rp_cmn_div2,
CLK_SET_RATE_PARENT | CLK_IGNORE_UNUSED, R_CLKENREG0, 2),
SG2042_GATE_HWS(GATE_CLK_HSDMA, "clk_gate_hsdma", clk_gate_top_rp_cmn_div2,
CLK_SET_RATE_PARENT, R_CLKENREG1, 10),
/*
* downstream of clk_gate_rp_cpu_normal
*
* FIXME: there should be one 1/2 DIV between clk_gate_rp_cpu_normal
* and clk_gate_axi_pcie0/clk_gate_axi_pcie1.
* But the 1/2 DIV is fixed and no configurable register exported, so
* when reading from these two clocks, the rate value are still the
* same as that of clk_gate_rp_cpu_normal, it's not correct.
* This just affects the value read.
*/
SG2042_GATE_HWS(GATE_CLK_AXI_PCIE0,
"clk_gate_axi_pcie0", clk_gate_rp_cpu_normal,
CLK_SET_RATE_PARENT | CLK_IGNORE_UNUSED, R_CLKENREG1, 8),
SG2042_GATE_HWS(GATE_CLK_AXI_PCIE1,
"clk_gate_axi_pcie1", clk_gate_rp_cpu_normal,
CLK_SET_RATE_PARENT | CLK_IGNORE_UNUSED, R_CLKENREG1, 9),
/* downstream of div_50m_a53 */
SG2042_GATE_HW(GATE_CLK_A53_50M, "clk_gate_a53_50m", clk_div_50m_a53,
CLK_SET_RATE_PARENT | CLK_IGNORE_UNUSED, R_CLKENREG0, 1),
SG2042_GATE_HW(GATE_CLK_TIMER1, "clk_gate_timer1", clk_div_timer1,
CLK_SET_RATE_PARENT, R_CLKENREG0, 12),
SG2042_GATE_HW(GATE_CLK_TIMER2, "clk_gate_timer2", clk_div_timer2,
CLK_SET_RATE_PARENT, R_CLKENREG0, 13),
SG2042_GATE_HW(GATE_CLK_TIMER3, "clk_gate_timer3", clk_div_timer3,
CLK_SET_RATE_PARENT, R_CLKENREG0, 14),
SG2042_GATE_HW(GATE_CLK_TIMER4, "clk_gate_timer4", clk_div_timer4,
CLK_SET_RATE_PARENT, R_CLKENREG0, 15),
SG2042_GATE_HW(GATE_CLK_TIMER5, "clk_gate_timer5", clk_div_timer5,
CLK_SET_RATE_PARENT, R_CLKENREG0, 16),
SG2042_GATE_HW(GATE_CLK_TIMER6, "clk_gate_timer6", clk_div_timer6,
CLK_SET_RATE_PARENT, R_CLKENREG0, 17),
SG2042_GATE_HW(GATE_CLK_TIMER7, "clk_gate_timer7", clk_div_timer7,
CLK_SET_RATE_PARENT, R_CLKENREG0, 18),
SG2042_GATE_HW(GATE_CLK_TIMER8, "clk_gate_timer8", clk_div_timer8,
CLK_SET_RATE_PARENT, R_CLKENREG0, 19),
/* gate clocks downstream from div clocks one-to-one */
SG2042_GATE_HW(GATE_CLK_UART_500M, "clk_gate_uart_500m", clk_div_uart_500m,
CLK_SET_RATE_PARENT | CLK_IGNORE_UNUSED, R_CLKENREG0, 4),
SG2042_GATE_HW(GATE_CLK_AHB_LPC, "clk_gate_ahb_lpc", clk_div_ahb_lpc,
CLK_SET_RATE_PARENT, R_CLKENREG0, 7),
SG2042_GATE_HW(GATE_CLK_EFUSE, "clk_gate_efuse", clk_div_efuse,
CLK_SET_RATE_PARENT, R_CLKENREG0, 20),
SG2042_GATE_HW(GATE_CLK_TX_ETH0, "clk_gate_tx_eth0", clk_div_tx_eth0,
CLK_SET_RATE_PARENT, R_CLKENREG0, 30),
SG2042_GATE_HW(GATE_CLK_PTP_REF_I_ETH0,
"clk_gate_ptp_ref_i_eth0", clk_div_ptp_ref_i_eth0,
CLK_SET_RATE_PARENT, R_CLKENREG1, 0),
SG2042_GATE_HW(GATE_CLK_REF_ETH0, "clk_gate_ref_eth0", clk_div_ref_eth0,
CLK_SET_RATE_PARENT, R_CLKENREG1, 1),
SG2042_GATE_HW(GATE_CLK_EMMC_100M, "clk_gate_emmc", clk_div_emmc,
CLK_SET_RATE_PARENT, R_CLKENREG1, 3),
SG2042_GATE_HW(GATE_CLK_SD_100M, "clk_gate_sd", clk_div_sd,
CLK_SET_RATE_PARENT, R_CLKENREG1, 6),
/* downstream of clk_div_top_axi0 */
SG2042_GATE_HW(GATE_CLK_AHB_ROM, "clk_gate_ahb_rom", clk_div_top_axi0,
0, R_CLKENREG0, 8),
SG2042_GATE_HW(GATE_CLK_AHB_SF, "clk_gate_ahb_sf", clk_div_top_axi0,
0, R_CLKENREG0, 9),
SG2042_GATE_HW(GATE_CLK_AXI_SRAM, "clk_gate_axi_sram", clk_div_top_axi0,
CLK_IGNORE_UNUSED, R_CLKENREG0, 10),
SG2042_GATE_HW(GATE_CLK_APB_TIMER, "clk_gate_apb_timer", clk_div_top_axi0,
CLK_IGNORE_UNUSED, R_CLKENREG0, 11),
SG2042_GATE_HW(GATE_CLK_APB_EFUSE, "clk_gate_apb_efuse", clk_div_top_axi0,
0, R_CLKENREG0, 21),
SG2042_GATE_HW(GATE_CLK_APB_GPIO, "clk_gate_apb_gpio", clk_div_top_axi0,
0, R_CLKENREG0, 22),
SG2042_GATE_HW(GATE_CLK_APB_GPIO_INTR,
"clk_gate_apb_gpio_intr", clk_div_top_axi0,
CLK_IS_CRITICAL, R_CLKENREG0, 23),
SG2042_GATE_HW(GATE_CLK_APB_I2C, "clk_gate_apb_i2c", clk_div_top_axi0,
0, R_CLKENREG0, 26),
SG2042_GATE_HW(GATE_CLK_APB_WDT, "clk_gate_apb_wdt", clk_div_top_axi0,
0, R_CLKENREG0, 27),
SG2042_GATE_HW(GATE_CLK_APB_PWM, "clk_gate_apb_pwm", clk_div_top_axi0,
0, R_CLKENREG0, 28),
SG2042_GATE_HW(GATE_CLK_APB_RTC, "clk_gate_apb_rtc", clk_div_top_axi0,
0, R_CLKENREG0, 29),
SG2042_GATE_HW(GATE_CLK_TOP_AXI0, "clk_gate_top_axi0", clk_div_top_axi0,
CLK_SET_RATE_PARENT | CLK_IS_CRITICAL,
R_CLKENREG1, 11),
/* downstream of DIV clocks which are sourced from clk_div_top_axi0 */
SG2042_GATE_HW(GATE_CLK_GPIO_DB, "clk_gate_gpio_db", clk_div_gpio_db,
CLK_SET_RATE_PARENT, R_CLKENREG0, 24),
SG2042_GATE_HW(GATE_CLK_100K_EMMC, "clk_gate_100k_emmc", clk_div_100k_emmc,
CLK_SET_RATE_PARENT, R_CLKENREG1, 4),
SG2042_GATE_HW(GATE_CLK_100K_SD, "clk_gate_100k_sd", clk_div_100k_sd,
CLK_SET_RATE_PARENT, R_CLKENREG1, 7),
/* downstream of clk_div_top_axi_hsperi */
SG2042_GATE_HW(GATE_CLK_SYSDMA_AXI,
"clk_gate_sysdma_axi", clk_div_top_axi_hsperi,
CLK_SET_RATE_PARENT, R_CLKENREG0, 3),
SG2042_GATE_HW(GATE_CLK_APB_UART,
"clk_gate_apb_uart", clk_div_top_axi_hsperi,
CLK_SET_RATE_PARENT, R_CLKENREG0, 5),
SG2042_GATE_HW(GATE_CLK_AXI_DBG_I2C,
"clk_gate_axi_dbg_i2c", clk_div_top_axi_hsperi,
CLK_SET_RATE_PARENT, R_CLKENREG0, 6),
SG2042_GATE_HW(GATE_CLK_APB_SPI,
"clk_gate_apb_spi", clk_div_top_axi_hsperi,
CLK_SET_RATE_PARENT, R_CLKENREG0, 25),
SG2042_GATE_HW(GATE_CLK_AXI_ETH0,
"clk_gate_axi_eth0", clk_div_top_axi_hsperi,
CLK_SET_RATE_PARENT, R_CLKENREG0, 31),
SG2042_GATE_HW(GATE_CLK_AXI_EMMC,
"clk_gate_axi_emmc", clk_div_top_axi_hsperi,
CLK_SET_RATE_PARENT, R_CLKENREG1, 2),
SG2042_GATE_HW(GATE_CLK_AXI_SD,
"clk_gate_axi_sd", clk_div_top_axi_hsperi,
CLK_SET_RATE_PARENT, R_CLKENREG1, 5),
SG2042_GATE_HW(GATE_CLK_TOP_AXI_HSPERI,
"clk_gate_top_axi_hsperi", clk_div_top_axi_hsperi,
CLK_SET_RATE_PARENT | CLK_IS_CRITICAL,
R_CLKENREG1, 12),
};
static DEFINE_SPINLOCK(sg2042_clk_lock);
static int sg2042_clk_register_divs(struct device *dev,
struct sg2042_clk_data *clk_data,
struct sg2042_divider_clock div_clks[],
int num_div_clks)
{
struct sg2042_divider_clock *div;
struct clk_hw *hw;
int i, ret = 0;
for (i = 0; i < num_div_clks; i++) {
div = &div_clks[i];
if (div->div_flags & CLK_DIVIDER_HIWORD_MASK) {
if (div->width + div->shift > 16) {
pr_warn("divider value exceeds LOWORD field\n");
ret = -EINVAL;
break;
}
}
div->reg = clk_data->iobase + div->offset_ctrl;
div->lock = &sg2042_clk_lock;
hw = &div->hw;
ret = devm_clk_hw_register(dev, hw);
if (ret) {
pr_err("failed to register clock %s\n", div->hw.init->name);
break;
}
clk_data->onecell_data.hws[div->id] = hw;
}
return ret;
}
static int sg2042_clk_register_gates(struct device *dev,
struct sg2042_clk_data *clk_data,
const struct sg2042_gate_clock gate_clks[],
int num_gate_clks)
{
const struct sg2042_gate_clock *gate;
struct clk_hw *hw;
int i, ret = 0;
for (i = 0; i < num_gate_clks; i++) {
gate = &gate_clks[i];
hw = __devm_clk_hw_register_gate
(dev,
NULL,
gate->hw.init->name,
NULL,
gate->hw.init->parent_hws[0],
NULL,
gate->hw.init->flags,
clk_data->iobase + gate->offset_enable,
gate->bit_idx,
0,
&sg2042_clk_lock);
if (IS_ERR(hw)) {
pr_err("failed to register clock %s\n", gate->hw.init->name);
ret = PTR_ERR(hw);
break;
}
clk_data->onecell_data.hws[gate->id] = hw;
/* Updated some clocks which take the role of parent */
switch (gate->id) {
case GATE_CLK_RP_CPU_NORMAL:
*clk_gate_rp_cpu_normal = hw;
break;
case GATE_CLK_TOP_RP_CMN_DIV2:
*clk_gate_top_rp_cmn_div2 = hw;
break;
}
}
return ret;
}
static int sg2042_clk_register_gates_fw(struct device *dev,
struct sg2042_clk_data *clk_data,
const struct sg2042_gate_clock gate_clks[],
int num_gate_clks)
{
const struct sg2042_gate_clock *gate;
struct clk_hw *hw;
int i, ret = 0;
for (i = 0; i < num_gate_clks; i++) {
gate = &gate_clks[i];
hw = devm_clk_hw_register_gate_parent_data
(dev,
gate->hw.init->name,
gate->hw.init->parent_data,
gate->hw.init->flags,
clk_data->iobase + gate->offset_enable,
gate->bit_idx,
0,
&sg2042_clk_lock);
if (IS_ERR(hw)) {
pr_err("failed to register clock %s\n", gate->hw.init->name);
ret = PTR_ERR(hw);
break;
}
clk_data->onecell_data.hws[gate->id] = hw;
/* Updated some clocks which take the role of parent */
switch (gate->id) {
case GATE_CLK_DDR01_DIV0:
*clk_gate_ddr01_div0 = hw;
break;
case GATE_CLK_DDR01_DIV1:
*clk_gate_ddr01_div1 = hw;
break;
case GATE_CLK_DDR23_DIV0:
*clk_gate_ddr23_div0 = hw;
break;
case GATE_CLK_DDR23_DIV1:
*clk_gate_ddr23_div1 = hw;
break;
case GATE_CLK_RP_CPU_NORMAL_DIV0:
*clk_gate_rp_cpu_normal_div0 = hw;
break;
case GATE_CLK_RP_CPU_NORMAL_DIV1:
*clk_gate_rp_cpu_normal_div1 = hw;
break;
case GATE_CLK_AXI_DDR_DIV0:
*clk_gate_axi_ddr_div0 = hw;
break;
case GATE_CLK_AXI_DDR_DIV1:
*clk_gate_axi_ddr_div1 = hw;
break;
}
}
return ret;
}
static int sg2042_mux_notifier_cb(struct notifier_block *nb,
unsigned long event,
void *data)
{
struct sg2042_mux_clock *mux = to_sg2042_mux_nb(nb);
const struct clk_ops *ops = &clk_mux_ops;
struct clk_notifier_data *ndata = data;
struct clk_hw *hw;
int ret = 0;
hw = __clk_get_hw(ndata->clk);
/* To switch to fpll before changing rate and restore after that */
if (event == PRE_RATE_CHANGE) {
mux->original_index = ops->get_parent(hw);
/*
* "1" is the array index of the second parent input source of
* mux. For SG2042, it's fpll for all mux clocks.
* "0" is the array index of the frist parent input source of
* mux, For SG2042, it's mpll.
* FIXME, any good idea to avoid magic number?
*/
if (mux->original_index == 0)
ret = ops->set_parent(hw, 1);
} else if (event == POST_RATE_CHANGE) {
ret = ops->set_parent(hw, mux->original_index);
}
return notifier_from_errno(ret);
}
static int sg2042_clk_register_muxs(struct device *dev,
struct sg2042_clk_data *clk_data,
struct sg2042_mux_clock mux_clks[],
int num_mux_clks)
{
struct sg2042_mux_clock *mux;
struct clk_hw *hw;
int i, ret = 0;
for (i = 0; i < num_mux_clks; i++) {
mux = &mux_clks[i];
hw = __devm_clk_hw_register_mux
(dev,
NULL,
mux->hw.init->name,
mux->hw.init->num_parents,
NULL,
mux->hw.init->parent_hws,
NULL,
mux->hw.init->flags,
clk_data->iobase + mux->offset_select,
mux->shift,
BIT(mux->width) - 1,
0,
sg2042_mux_table,
&sg2042_clk_lock);
if (IS_ERR(hw)) {
pr_err("failed to register clock %s\n", mux->hw.init->name);
ret = PTR_ERR(hw);
break;
}
clk_data->onecell_data.hws[mux->id] = hw;
/* Updated some clocks which takes the role of parent */
switch (mux->id) {
case MUX_CLK_DDR01:
*clk_mux_ddr01 = hw;
break;
case MUX_CLK_DDR23:
*clk_mux_ddr23 = hw;
break;
case MUX_CLK_RP_CPU_NORMAL:
*clk_mux_rp_cpu_normal = hw;
break;
case MUX_CLK_AXI_DDR:
*clk_mux_axi_ddr = hw;
break;
}
/*
* FIXME: Theoretically, we should set parent for the
* mux, but seems hardware has done this for us with
* default value, so we don't set parent again here.
*/
if (!(mux->hw.init->flags & CLK_MUX_READ_ONLY)) {
mux->clk_nb.notifier_call = sg2042_mux_notifier_cb;
ret = devm_clk_notifier_register(dev, hw->clk, &mux->clk_nb);
if (ret) {
pr_err("failed to register clock notifier for %s\n",
mux->hw.init->name);
break;
}
}
}
return ret;
}
static int sg2042_init_clkdata(struct platform_device *pdev,
int num_clks,
struct sg2042_clk_data **pp_clk_data)
{
struct sg2042_clk_data *clk_data = NULL;
clk_data = devm_kzalloc(&pdev->dev,
struct_size(clk_data, onecell_data.hws, num_clks),
GFP_KERNEL);
if (!clk_data)
return -ENOMEM;
clk_data->iobase = devm_platform_ioremap_resource(pdev, 0);
if (WARN_ON(IS_ERR(clk_data->iobase)))
return PTR_ERR(clk_data->iobase);
clk_data->onecell_data.num = num_clks;
*pp_clk_data = clk_data;
return 0;
}
static int sg2042_clkgen_probe(struct platform_device *pdev)
{
struct sg2042_clk_data *clk_data = NULL;
int num_clks;
int ret;
num_clks = ARRAY_SIZE(sg2042_div_clks_level_1) +
ARRAY_SIZE(sg2042_div_clks_level_2) +
ARRAY_SIZE(sg2042_gate_clks_level_1) +
ARRAY_SIZE(sg2042_gate_clks_level_2) +
ARRAY_SIZE(sg2042_mux_clks);
ret = sg2042_init_clkdata(pdev, num_clks, &clk_data);
if (ret)
goto error_out;
/* level-1 gates */
ret = sg2042_clk_register_gates_fw(&pdev->dev, clk_data,
sg2042_gate_clks_level_1,
ARRAY_SIZE(sg2042_gate_clks_level_1));
if (ret)
goto error_out;
/* level-1 div */
ret = sg2042_clk_register_divs(&pdev->dev, clk_data, sg2042_div_clks_level_1,
ARRAY_SIZE(sg2042_div_clks_level_1));
if (ret)
goto error_out;
/* mux */
ret = sg2042_clk_register_muxs(&pdev->dev, clk_data, sg2042_mux_clks,
ARRAY_SIZE(sg2042_mux_clks));
if (ret)
goto error_out;
/* level 2 div */
ret = sg2042_clk_register_divs(&pdev->dev, clk_data, sg2042_div_clks_level_2,
ARRAY_SIZE(sg2042_div_clks_level_2));
if (ret)
goto error_out;
/* level 2 gate */
ret = sg2042_clk_register_gates(&pdev->dev, clk_data, sg2042_gate_clks_level_2,
ARRAY_SIZE(sg2042_gate_clks_level_2));
if (ret)
goto error_out;
return devm_of_clk_add_hw_provider(&pdev->dev,
of_clk_hw_onecell_get,
&clk_data->onecell_data);
error_out:
pr_err("%s failed error number %d\n", __func__, ret);
return ret;
}
static const struct of_device_id sg2042_clkgen_match[] = {
{ .compatible = "sophgo,sg2042-clkgen" },
{ /* sentinel */ }
};
MODULE_DEVICE_TABLE(of, sg2042_clkgen_match);
static struct platform_driver sg2042_clkgen_driver = {
.probe = sg2042_clkgen_probe,
.driver = {
.name = "clk-sophgo-sg2042-clkgen",
.of_match_table = sg2042_clkgen_match,
.suppress_bind_attrs = true,
},
};
module_platform_driver(sg2042_clkgen_driver);
MODULE_AUTHOR("Chen Wang");
MODULE_DESCRIPTION("Sophgo SG2042 clock generator driver");
MODULE_LICENSE("GPL");
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