/* $NetBSD: sunxi_ccu.h,v 1.23 2021/11/07 17:13:12 jmcneill Exp $ */
/*-
* Copyright (c) 2017 Jared McNeill <jmcneill@invisible.ca>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#ifndef _ARM_SUNXI_CCU_H
#define _ARM_SUNXI_CCU_H
#include <dev/clk/clk_backend.h>
struct sunxi_ccu_softc;
struct sunxi_ccu_clk;
struct sunxi_ccu_reset;
/*
* Resets
*/
struct sunxi_ccu_reset {
bus_size_t reg;
uint32_t mask;
};
#define SUNXI_CCU_RESET(_id, _reg, _bit) \
[_id] = { \
.reg = (_reg), \
.mask = __BIT(_bit), \
}
/*
* Clocks
*/
enum sunxi_ccu_clktype {
SUNXI_CCU_UNKNOWN,
SUNXI_CCU_GATE,
SUNXI_CCU_NM,
SUNXI_CCU_NKMP,
SUNXI_CCU_PREDIV,
SUNXI_CCU_DIV,
SUNXI_CCU_PHASE,
SUNXI_CCU_FIXED_FACTOR,
SUNXI_CCU_FRACTIONAL,
SUNXI_CCU_MUX,
};
struct sunxi_ccu_gate {
bus_size_t reg;
uint32_t mask;
const char *parent;
};
int sunxi_ccu_gate_enable(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, int);
const char *sunxi_ccu_gate_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_GATE(_id, _name, _pname, _reg, _bit) \
[_id] = { \
.type = SUNXI_CCU_GATE, \
.base.name = (_name), \
.base.flags = CLK_SET_RATE_PARENT, \
.u.gate.parent = (_pname), \
.u.gate.reg = (_reg), \
.u.gate.mask = __BIT(_bit), \
.enable = sunxi_ccu_gate_enable, \
.get_parent = sunxi_ccu_gate_get_parent, \
}
struct sunxi_ccu_nkmp_tbl {
u_int rate;
uint32_t n;
uint32_t k;
uint32_t m;
uint32_t p;
};
struct sunxi_ccu_nkmp {
bus_size_t reg;
const char *parent;
uint32_t n;
uint32_t k;
uint32_t m;
uint32_t p;
uint32_t lock;
uint32_t enable;
uint32_t flags;
const struct sunxi_ccu_nkmp_tbl *table;
#define SUNXI_CCU_NKMP_DIVIDE_BY_TWO __BIT(0)
#define SUNXI_CCU_NKMP_FACTOR_N_EXACT __BIT(1)
#define SUNXI_CCU_NKMP_SCALE_CLOCK __BIT(2)
#define SUNXI_CCU_NKMP_FACTOR_P_POW2 __BIT(3)
#define SUNXI_CCU_NKMP_FACTOR_N_ZERO_IS_ONE __BIT(4)
#define SUNXI_CCU_NKMP_FACTOR_P_X4 __BIT(5)
};
int sunxi_ccu_nkmp_enable(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, int);
u_int sunxi_ccu_nkmp_get_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int sunxi_ccu_nkmp_set_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
const char *sunxi_ccu_nkmp_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_NKMP_TABLE(_id, _name, _parent, _reg, _n, _k, _m, \
_p, _enable, _lock, _tbl, _flags) \
[_id] = { \
.type = SUNXI_CCU_NKMP, \
.base.name = (_name), \
.u.nkmp.reg = (_reg), \
.u.nkmp.parent = (_parent), \
.u.nkmp.n = (_n), \
.u.nkmp.k = (_k), \
.u.nkmp.m = (_m), \
.u.nkmp.p = (_p), \
.u.nkmp.enable = (_enable), \
.u.nkmp.flags = (_flags), \
.u.nkmp.lock = (_lock), \
.u.nkmp.table = (_tbl), \
.enable = sunxi_ccu_nkmp_enable, \
.get_rate = sunxi_ccu_nkmp_get_rate, \
.set_rate = sunxi_ccu_nkmp_set_rate, \
.get_parent = sunxi_ccu_nkmp_get_parent, \
}
#define SUNXI_CCU_NKMP(_id, _name, _parent, _reg, _n, _k, _m, \
_p, _enable, _flags) \
SUNXI_CCU_NKMP_TABLE(_id, _name, _parent, _reg, _n, _k, _m, \
_p, _enable, 0, NULL, _flags)
struct sunxi_ccu_nm {
bus_size_t reg;
const char **parents;
u_int nparents;
uint32_t n;
uint32_t m;
uint32_t sel;
uint32_t enable;
uint32_t flags;
#define SUNXI_CCU_NM_POWER_OF_TWO __BIT(0)
#define SUNXI_CCU_NM_ROUND_DOWN __BIT(1)
#define SUNXI_CCU_NM_DIVIDE_BY_TWO __BIT(2)
};
int sunxi_ccu_nm_enable(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, int);
u_int sunxi_ccu_nm_get_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int sunxi_ccu_nm_set_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
int sunxi_ccu_nm_set_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *,
const char *);
const char *sunxi_ccu_nm_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_NM(_id, _name, _parents, _reg, _n, _m, _sel, \
_enable, _flags) \
[_id] = { \
.type = SUNXI_CCU_NM, \
.base.name = (_name), \
.u.nm.reg = (_reg), \
.u.nm.parents = (_parents), \
.u.nm.nparents = __arraycount(_parents), \
.u.nm.n = (_n), \
.u.nm.m = (_m), \
.u.nm.sel = (_sel), \
.u.nm.enable = (_enable), \
.u.nm.flags = (_flags), \
.enable = sunxi_ccu_nm_enable, \
.get_rate = sunxi_ccu_nm_get_rate, \
.set_rate = sunxi_ccu_nm_set_rate, \
.set_parent = sunxi_ccu_nm_set_parent, \
.get_parent = sunxi_ccu_nm_get_parent, \
}
struct sunxi_ccu_div {
bus_size_t reg;
const char **parents;
u_int nparents;
uint32_t div;
uint32_t sel;
uint32_t enable;
uint32_t flags;
#define SUNXI_CCU_DIV_POWER_OF_TWO __BIT(0)
#define SUNXI_CCU_DIV_ZERO_IS_ONE __BIT(1)
#define SUNXI_CCU_DIV_TIMES_TWO __BIT(2)
#define SUNXI_CCU_DIV_SET_RATE_PARENT __BIT(3)
};
int sunxi_ccu_div_enable(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, int);
u_int sunxi_ccu_div_get_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int sunxi_ccu_div_set_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
int sunxi_ccu_div_set_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *,
const char *);
const char *sunxi_ccu_div_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_DIV(_id, _name, _parents, _reg, _div, \
_sel, _flags) \
SUNXI_CCU_DIV_GATE(_id, _name, _parents, _reg, _div, \
_sel, 0, _flags)
#define SUNXI_CCU_DIV_GATE(_id, _name, _parents, _reg, _div, \
_sel, _enable, _flags) \
[_id] = { \
.type = SUNXI_CCU_DIV, \
.base.name = (_name), \
.u.div.reg = (_reg), \
.u.div.parents = (_parents), \
.u.div.nparents = __arraycount(_parents), \
.u.div.div = (_div), \
.u.div.sel = (_sel), \
.u.div.enable = (_enable), \
.u.div.flags = (_flags), \
.enable = sunxi_ccu_div_enable, \
.get_rate = sunxi_ccu_div_get_rate, \
.set_rate = sunxi_ccu_div_set_rate, \
.set_parent = sunxi_ccu_div_set_parent, \
.get_parent = sunxi_ccu_div_get_parent, \
}
/* special case of the div model for display clocks */
int sunxi_ccu_lcdxch0_set_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, struct sunxi_ccu_clk *,
struct sunxi_ccu_clk *, u_int);
u_int sunxi_ccu_lcdxch0_round_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, struct sunxi_ccu_clk *,
struct sunxi_ccu_clk *, u_int);
int sunxi_ccu_lcdxch1_set_rate(struct sunxi_ccu_softc *sc,
struct sunxi_ccu_clk *clk, struct sunxi_ccu_clk *pclk,
struct sunxi_ccu_clk *pclk_x2, u_int);
struct sunxi_ccu_prediv {
bus_size_t reg;
const char **parents;
u_int nparents;
uint32_t prediv;
uint32_t prediv_sel;
uint32_t prediv_fixed;
uint32_t div;
uint32_t sel;
uint32_t flags;
#define SUNXI_CCU_PREDIV_POWER_OF_TWO __BIT(0)
#define SUNXI_CCU_PREDIV_DIVIDE_BY_TWO __BIT(1)
};
u_int sunxi_ccu_prediv_get_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int sunxi_ccu_prediv_set_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
int sunxi_ccu_prediv_set_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *,
const char *);
const char *sunxi_ccu_prediv_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_PREDIV(_id, _name, _parents, _reg, _prediv, \
_prediv_sel, _div, _sel, _flags) \
SUNXI_CCU_PREDIV_FIXED(_id, _name, _parents, _reg, _prediv, \
_prediv_sel, 0, _div, _sel, _flags)
#define SUNXI_CCU_PREDIV_FIXED(_id, _name, _parents, _reg, _prediv, \
_prediv_sel, _prediv_fixed, _div, _sel, _flags) \
[_id] = { \
.type = SUNXI_CCU_PREDIV, \
.base.name = (_name), \
.u.prediv.reg = (_reg), \
.u.prediv.parents = (_parents), \
.u.prediv.nparents = __arraycount(_parents), \
.u.prediv.prediv = (_prediv), \
.u.prediv.prediv_sel = (_prediv_sel), \
.u.prediv.prediv_fixed = (_prediv_fixed), \
.u.prediv.div = (_div), \
.u.prediv.sel = (_sel), \
.u.prediv.flags = (_flags), \
.get_rate = sunxi_ccu_prediv_get_rate, \
.set_rate = sunxi_ccu_prediv_set_rate, \
.set_parent = sunxi_ccu_prediv_set_parent, \
.get_parent = sunxi_ccu_prediv_get_parent, \
}
struct sunxi_ccu_phase {
bus_size_t reg;
const char *parent;
uint32_t mask;
};
u_int sunxi_ccu_phase_get_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int sunxi_ccu_phase_set_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
const char *sunxi_ccu_phase_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_PHASE(_id, _name, _parent, _reg, _mask) \
[_id] = { \
.type = SUNXI_CCU_PHASE, \
.base.name = (_name), \
.u.phase.reg = (_reg), \
.u.phase.parent = (_parent), \
.u.phase.mask = (_mask), \
.get_rate = sunxi_ccu_phase_get_rate, \
.set_rate = sunxi_ccu_phase_set_rate, \
.get_parent = sunxi_ccu_phase_get_parent, \
}
struct sunxi_ccu_fixed_factor {
const char *parent;
u_int div;
u_int mult;
};
u_int sunxi_ccu_fixed_factor_get_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int sunxi_ccu_fixed_factor_set_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
const char *sunxi_ccu_fixed_factor_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_FIXED_FACTOR(_id, _name, _parent, _div, _mult) \
[_id] = { \
.type = SUNXI_CCU_FIXED_FACTOR, \
.base.name = (_name), \
.u.fixed_factor.parent = (_parent), \
.u.fixed_factor.div = (_div), \
.u.fixed_factor.mult = (_mult), \
.get_rate = sunxi_ccu_fixed_factor_get_rate, \
.get_parent = sunxi_ccu_fixed_factor_get_parent, \
.set_rate = sunxi_ccu_fixed_factor_set_rate, \
}
struct sunxi_ccu_fractional {
bus_size_t reg;
const char *parent;
uint32_t m;
uint32_t m_min;
uint32_t m_max;
uint32_t div_en;
uint32_t frac_sel;
uint32_t frac[2];
uint32_t prediv;
uint32_t prediv_val;
uint32_t enable;
uint32_t flags;
#define SUNXI_CCU_FRACTIONAL_PLUSONE __BIT(0)
#define SUNXI_CCU_FRACTIONAL_SET_ENABLE __BIT(1)
};
int sunxi_ccu_fractional_enable(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, int);
u_int sunxi_ccu_fractional_get_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int sunxi_ccu_fractional_set_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
u_int sunxi_ccu_fractional_round_rate(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
const char *sunxi_ccu_fractional_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_FRACTIONAL(_id, _name, _parent, _reg, _m, _m_min, _m_max, \
_div_en, _frac_sel, _frac0, _frac1, _prediv, _prediv_val, \
_enable, _flags) \
[_id] = { \
.type = SUNXI_CCU_FRACTIONAL, \
.base.name = (_name), \
.u.fractional.reg = (_reg), \
.u.fractional.parent = (_parent), \
.u.fractional.m = (_m), \
.u.fractional.m_min = (_m_min), \
.u.fractional.m_max = (_m_max), \
.u.fractional.prediv = (_prediv), \
.u.fractional.prediv_val = (_prediv_val), \
.u.fractional.div_en = (_div_en), \
.u.fractional.frac_sel = (_frac_sel), \
.u.fractional.frac[0] = (_frac0), \
.u.fractional.frac[1] = (_frac1), \
.u.fractional.enable = (_enable), \
.u.fractional.flags = (_flags), \
.enable = sunxi_ccu_fractional_enable, \
.get_rate = sunxi_ccu_fractional_get_rate, \
.set_rate = sunxi_ccu_fractional_set_rate, \
.round_rate = sunxi_ccu_fractional_round_rate, \
.get_parent = sunxi_ccu_fractional_get_parent, \
}
struct sunxi_ccu_mux {
bus_size_t reg;
const char **parents;
u_int nparents;
uint32_t sel;
uint32_t flags;
};
int sunxi_ccu_mux_set_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *,
const char *);
const char *sunxi_ccu_mux_get_parent(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
#define SUNXI_CCU_MUX(_id, _name, _parents, _reg, _sel, _flags) \
[_id] = { \
.type = SUNXI_CCU_MUX, \
.base.name = (_name), \
.u.mux.reg = (_reg), \
.u.mux.parents = (_parents), \
.u.mux.nparents = __arraycount(_parents), \
.u.mux.sel = (_sel), \
.u.mux.flags = (_flags), \
.set_parent = sunxi_ccu_mux_set_parent, \
.get_parent = sunxi_ccu_mux_get_parent, \
}
struct sunxi_ccu_clk {
struct clk base;
enum sunxi_ccu_clktype type;
union {
struct sunxi_ccu_gate gate;
struct sunxi_ccu_nm nm;
struct sunxi_ccu_nkmp nkmp;
struct sunxi_ccu_prediv prediv;
struct sunxi_ccu_div div;
struct sunxi_ccu_phase phase;
struct sunxi_ccu_fixed_factor fixed_factor;
struct sunxi_ccu_fractional fractional;
struct sunxi_ccu_mux mux;
} u;
int (*enable)(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, int);
u_int (*get_rate)(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int (*set_rate)(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
u_int (*round_rate)(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *, u_int);
const char * (*get_parent)(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *);
int (*set_parent)(struct sunxi_ccu_softc *,
struct sunxi_ccu_clk *,
const char *);
};
struct sunxi_ccu_softc {
device_t sc_dev;
int sc_phandle;
bus_space_tag_t sc_bst;
bus_space_handle_t sc_bsh;
struct clk_domain sc_clkdom;
struct sunxi_ccu_reset *sc_resets;
u_int sc_nresets;
struct sunxi_ccu_clk *sc_clks;
u_int sc_nclks;
};
int sunxi_ccu_attach(struct sunxi_ccu_softc *);
struct sunxi_ccu_clk *sunxi_ccu_clock_find(struct sunxi_ccu_softc *,
const char *);
void sunxi_ccu_print(struct sunxi_ccu_softc *);
#define CCU_READ(sc, reg) \
bus_space_read_4((sc)->sc_bst, (sc)->sc_bsh, (reg))
#define CCU_WRITE(sc, reg, val) \
bus_space_write_4((sc)->sc_bst, (sc)->sc_bsh, (reg), (val))
#endif /* _ARM_SUNXI_CCU_H */