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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2018-2020, The Linux Foundation. All rights reserved.
*/
#include <linux/clk-provider.h>
#include <linux/err.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/of_device.h>
#include <linux/platform_device.h>
#include <soc/qcom/cmd-db.h>
#include <soc/qcom/rpmh.h>
#include <soc/qcom/tcs.h>
#include <dt-bindings/clock/qcom,rpmh.h>
#define CLK_RPMH_ARC_EN_OFFSET 0
#define CLK_RPMH_VRM_EN_OFFSET 4
/**
* struct bcm_db - Auxiliary data pertaining to each Bus Clock Manager(BCM)
* @unit: divisor used to convert Hz value to an RPMh msg
* @width: multiplier used to convert Hz value to an RPMh msg
* @vcd: virtual clock domain that this bcm belongs to
* @reserved: reserved to pad the struct
*/
struct bcm_db {
__le32 unit;
__le16 width;
u8 vcd;
u8 reserved;
};
/**
* struct clk_rpmh - individual rpmh clock data structure
* @hw: handle between common and hardware-specific interfaces
* @res_name: resource name for the rpmh clock
* @div: clock divider to compute the clock rate
* @res_addr: base address of the rpmh resource within the RPMh
* @res_on_val: rpmh clock enable value
* @state: rpmh clock requested state
* @aggr_state: rpmh clock aggregated state
* @last_sent_aggr_state: rpmh clock last aggr state sent to RPMh
* @valid_state_mask: mask to determine the state of the rpmh clock
* @unit: divisor to convert rate to rpmh msg in magnitudes of Khz
* @dev: device to which it is attached
* @peer: pointer to the clock rpmh sibling
*/
struct clk_rpmh {
struct clk_hw hw;
const char *res_name;
u8 div;
u32 res_addr;
u32 res_on_val;
u32 state;
u32 aggr_state;
u32 last_sent_aggr_state;
u32 valid_state_mask;
u32 unit;
struct device *dev;
struct clk_rpmh *peer;
};
struct clk_rpmh_desc {
struct clk_hw **clks;
size_t num_clks;
};
static DEFINE_MUTEX(rpmh_clk_lock);
#define __DEFINE_CLK_RPMH(_platform, _name, _name_active, _res_name, \
_res_en_offset, _res_on, _div) \
static struct clk_rpmh _platform##_##_name_active; \
static struct clk_rpmh _platform##_##_name = { \
.res_name = _res_name, \
.res_addr = _res_en_offset, \
.res_on_val = _res_on, \
.div = _div, \
.peer = &_platform##_##_name_active, \
.valid_state_mask = (BIT(RPMH_WAKE_ONLY_STATE) | \
BIT(RPMH_ACTIVE_ONLY_STATE) | \
BIT(RPMH_SLEEP_STATE)), \
.hw.init = &(struct clk_init_data){ \
.ops = &clk_rpmh_ops, \
.name = #_name, \
.parent_data = &(const struct clk_parent_data){ \
.fw_name = "xo", \
.name = "xo_board", \
}, \
.num_parents = 1, \
}, \
}; \
static struct clk_rpmh _platform##_##_name_active = { \
.res_name = _res_name, \
.res_addr = _res_en_offset, \
.res_on_val = _res_on, \
.div = _div, \
.peer = &_platform##_##_name, \
.valid_state_mask = (BIT(RPMH_WAKE_ONLY_STATE) | \
BIT(RPMH_ACTIVE_ONLY_STATE)), \
.hw.init = &(struct clk_init_data){ \
.ops = &clk_rpmh_ops, \
.name = #_name_active, \
.parent_data = &(const struct clk_parent_data){ \
.fw_name = "xo", \
.name = "xo_board", \
}, \
.num_parents = 1, \
}, \
}
#define DEFINE_CLK_RPMH_ARC(_platform, _name, _name_active, _res_name, \
_res_on, _div) \
__DEFINE_CLK_RPMH(_platform, _name, _name_active, _res_name, \
CLK_RPMH_ARC_EN_OFFSET, _res_on, _div)
#define DEFINE_CLK_RPMH_VRM(_platform, _name, _name_active, _res_name, \
_div) \
__DEFINE_CLK_RPMH(_platform, _name, _name_active, _res_name, \
CLK_RPMH_VRM_EN_OFFSET, 1, _div)
#define DEFINE_CLK_RPMH_BCM(_platform, _name, _res_name) \
static struct clk_rpmh _platform##_##_name = { \
.res_name = _res_name, \
.valid_state_mask = BIT(RPMH_ACTIVE_ONLY_STATE), \
.div = 1, \
.hw.init = &(struct clk_init_data){ \
.ops = &clk_rpmh_bcm_ops, \
.name = #_name, \
}, \
}
static inline struct clk_rpmh *to_clk_rpmh(struct clk_hw *_hw)
{
return container_of(_hw, struct clk_rpmh, hw);
}
static inline bool has_state_changed(struct clk_rpmh *c, u32 state)
{
return (c->last_sent_aggr_state & BIT(state))
!= (c->aggr_state & BIT(state));
}
static int clk_rpmh_send(struct clk_rpmh *c, enum rpmh_state state,
struct tcs_cmd *cmd, bool wait)
{
if (wait)
return rpmh_write(c->dev, state, cmd, 1);
return rpmh_write_async(c->dev, state, cmd, 1);
}
static int clk_rpmh_send_aggregate_command(struct clk_rpmh *c)
{
struct tcs_cmd cmd = { 0 };
u32 cmd_state, on_val;
enum rpmh_state state = RPMH_SLEEP_STATE;
int ret;
bool wait;
cmd.addr = c->res_addr;
cmd_state = c->aggr_state;
on_val = c->res_on_val;
for (; state <= RPMH_ACTIVE_ONLY_STATE; state++) {
if (has_state_changed(c, state)) {
if (cmd_state & BIT(state))
cmd.data = on_val;
wait = cmd_state && state == RPMH_ACTIVE_ONLY_STATE;
ret = clk_rpmh_send(c, state, &cmd, wait);
if (ret) {
dev_err(c->dev, "set %s state of %s failed: (%d)\n",
!state ? "sleep" :
state == RPMH_WAKE_ONLY_STATE ?
"wake" : "active", c->res_name, ret);
return ret;
}
}
}
c->last_sent_aggr_state = c->aggr_state;
c->peer->last_sent_aggr_state = c->last_sent_aggr_state;
return 0;
}
/*
* Update state and aggregate state values based on enable value.
*/
static int clk_rpmh_aggregate_state_send_command(struct clk_rpmh *c,
bool enable)
{
int ret;
/* Nothing required to be done if already off or on */
if (enable == c->state)
return 0;
c->state = enable ? c->valid_state_mask : 0;
c->aggr_state = c->state | c->peer->state;
c->peer->aggr_state = c->aggr_state;
ret = clk_rpmh_send_aggregate_command(c);
if (!ret)
return 0;
if (ret && enable)
c->state = 0;
else if (ret)
c->state = c->valid_state_mask;
WARN(1, "clk: %s failed to %s\n", c->res_name,
enable ? "enable" : "disable");
return ret;
}
static int clk_rpmh_prepare(struct clk_hw *hw)
{
struct clk_rpmh *c = to_clk_rpmh(hw);
int ret = 0;
mutex_lock(&rpmh_clk_lock);
ret = clk_rpmh_aggregate_state_send_command(c, true);
mutex_unlock(&rpmh_clk_lock);
return ret;
}
static void clk_rpmh_unprepare(struct clk_hw *hw)
{
struct clk_rpmh *c = to_clk_rpmh(hw);
mutex_lock(&rpmh_clk_lock);
clk_rpmh_aggregate_state_send_command(c, false);
mutex_unlock(&rpmh_clk_lock);
};
static unsigned long clk_rpmh_recalc_rate(struct clk_hw *hw,
unsigned long prate)
{
struct clk_rpmh *r = to_clk_rpmh(hw);
/*
* RPMh clocks have a fixed rate. Return static rate.
*/
return prate / r->div;
}
static const struct clk_ops clk_rpmh_ops = {
.prepare = clk_rpmh_prepare,
.unprepare = clk_rpmh_unprepare,
.recalc_rate = clk_rpmh_recalc_rate,
};
static int clk_rpmh_bcm_send_cmd(struct clk_rpmh *c, bool enable)
{
struct tcs_cmd cmd = { 0 };
u32 cmd_state;
int ret = 0;
mutex_lock(&rpmh_clk_lock);
if (enable) {
cmd_state = 1;
if (c->aggr_state)
cmd_state = c->aggr_state;
} else {
cmd_state = 0;
}
if (c->last_sent_aggr_state != cmd_state) {
cmd.addr = c->res_addr;
cmd.data = BCM_TCS_CMD(1, enable, 0, cmd_state);
ret = clk_rpmh_send(c, RPMH_ACTIVE_ONLY_STATE, &cmd, enable);
if (ret) {
dev_err(c->dev, "set active state of %s failed: (%d)\n",
c->res_name, ret);
} else {
c->last_sent_aggr_state = cmd_state;
}
}
mutex_unlock(&rpmh_clk_lock);
return ret;
}
static int clk_rpmh_bcm_prepare(struct clk_hw *hw)
{
struct clk_rpmh *c = to_clk_rpmh(hw);
return clk_rpmh_bcm_send_cmd(c, true);
}
static void clk_rpmh_bcm_unprepare(struct clk_hw *hw)
{
struct clk_rpmh *c = to_clk_rpmh(hw);
clk_rpmh_bcm_send_cmd(c, false);
}
static int clk_rpmh_bcm_set_rate(struct clk_hw *hw, unsigned long rate,
unsigned long parent_rate)
{
struct clk_rpmh *c = to_clk_rpmh(hw);
c->aggr_state = rate / c->unit;
/*
* Since any non-zero value sent to hw would result in enabling the
* clock, only send the value if the clock has already been prepared.
*/
if (clk_hw_is_prepared(hw))
clk_rpmh_bcm_send_cmd(c, true);
return 0;
}
static long clk_rpmh_round_rate(struct clk_hw *hw, unsigned long rate,
unsigned long *parent_rate)
{
return rate;
}
static unsigned long clk_rpmh_bcm_recalc_rate(struct clk_hw *hw,
unsigned long prate)
{
struct clk_rpmh *c = to_clk_rpmh(hw);
return c->aggr_state * c->unit;
}
static const struct clk_ops clk_rpmh_bcm_ops = {
.prepare = clk_rpmh_bcm_prepare,
.unprepare = clk_rpmh_bcm_unprepare,
.set_rate = clk_rpmh_bcm_set_rate,
.round_rate = clk_rpmh_round_rate,
.recalc_rate = clk_rpmh_bcm_recalc_rate,
};
/* Resource name must match resource id present in cmd-db */
DEFINE_CLK_RPMH_ARC(sdm845, bi_tcxo, bi_tcxo_ao, "xo.lvl", 0x3, 2);
DEFINE_CLK_RPMH_VRM(sdm845, ln_bb_clk2, ln_bb_clk2_ao, "lnbclka2", 2);
DEFINE_CLK_RPMH_VRM(sdm845, ln_bb_clk3, ln_bb_clk3_ao, "lnbclka3", 2);
DEFINE_CLK_RPMH_VRM(sdm845, rf_clk1, rf_clk1_ao, "rfclka1", 1);
DEFINE_CLK_RPMH_VRM(sdm845, rf_clk2, rf_clk2_ao, "rfclka2", 1);
DEFINE_CLK_RPMH_VRM(sdm845, rf_clk3, rf_clk3_ao, "rfclka3", 1);
DEFINE_CLK_RPMH_VRM(sm8150, rf_clk3, rf_clk3_ao, "rfclka3", 1);
DEFINE_CLK_RPMH_BCM(sdm845, ipa, "IP0");
static struct clk_hw *sdm845_rpmh_clocks[] = {
[RPMH_CXO_CLK] = &sdm845_bi_tcxo.hw,
[RPMH_CXO_CLK_A] = &sdm845_bi_tcxo_ao.hw,
[RPMH_LN_BB_CLK2] = &sdm845_ln_bb_clk2.hw,
[RPMH_LN_BB_CLK2_A] = &sdm845_ln_bb_clk2_ao.hw,
[RPMH_LN_BB_CLK3] = &sdm845_ln_bb_clk3.hw,
[RPMH_LN_BB_CLK3_A] = &sdm845_ln_bb_clk3_ao.hw,
[RPMH_RF_CLK1] = &sdm845_rf_clk1.hw,
[RPMH_RF_CLK1_A] = &sdm845_rf_clk1_ao.hw,
[RPMH_RF_CLK2] = &sdm845_rf_clk2.hw,
[RPMH_RF_CLK2_A] = &sdm845_rf_clk2_ao.hw,
[RPMH_RF_CLK3] = &sdm845_rf_clk3.hw,
[RPMH_RF_CLK3_A] = &sdm845_rf_clk3_ao.hw,
[RPMH_IPA_CLK] = &sdm845_ipa.hw,
};
static const struct clk_rpmh_desc clk_rpmh_sdm845 = {
.clks = sdm845_rpmh_clocks,
.num_clks = ARRAY_SIZE(sdm845_rpmh_clocks),
};
static struct clk_hw *sm8150_rpmh_clocks[] = {
[RPMH_CXO_CLK] = &sdm845_bi_tcxo.hw,
[RPMH_CXO_CLK_A] = &sdm845_bi_tcxo_ao.hw,
[RPMH_LN_BB_CLK2] = &sdm845_ln_bb_clk2.hw,
[RPMH_LN_BB_CLK2_A] = &sdm845_ln_bb_clk2_ao.hw,
[RPMH_LN_BB_CLK3] = &sdm845_ln_bb_clk3.hw,
[RPMH_LN_BB_CLK3_A] = &sdm845_ln_bb_clk3_ao.hw,
[RPMH_RF_CLK1] = &sdm845_rf_clk1.hw,
[RPMH_RF_CLK1_A] = &sdm845_rf_clk1_ao.hw,
[RPMH_RF_CLK2] = &sdm845_rf_clk2.hw,
[RPMH_RF_CLK2_A] = &sdm845_rf_clk2_ao.hw,
[RPMH_RF_CLK3] = &sdm845_rf_clk3.hw,
[RPMH_RF_CLK3_A] = &sdm845_rf_clk3_ao.hw,
};
static const struct clk_rpmh_desc clk_rpmh_sm8150 = {
.clks = sm8150_rpmh_clocks,
.num_clks = ARRAY_SIZE(sm8150_rpmh_clocks),
};
static struct clk_hw *sc7180_rpmh_clocks[] = {
[RPMH_CXO_CLK] = &sdm845_bi_tcxo.hw,
[RPMH_CXO_CLK_A] = &sdm845_bi_tcxo_ao.hw,
[RPMH_LN_BB_CLK2] = &sdm845_ln_bb_clk2.hw,
[RPMH_LN_BB_CLK2_A] = &sdm845_ln_bb_clk2_ao.hw,
[RPMH_LN_BB_CLK3] = &sdm845_ln_bb_clk3.hw,
[RPMH_LN_BB_CLK3_A] = &sdm845_ln_bb_clk3_ao.hw,
[RPMH_RF_CLK1] = &sdm845_rf_clk1.hw,
[RPMH_RF_CLK1_A] = &sdm845_rf_clk1_ao.hw,
[RPMH_RF_CLK2] = &sdm845_rf_clk2.hw,
[RPMH_RF_CLK2_A] = &sdm845_rf_clk2_ao.hw,
[RPMH_IPA_CLK] = &sdm845_ipa.hw,
};
static const struct clk_rpmh_desc clk_rpmh_sc7180 = {
.clks = sc7180_rpmh_clocks,
.num_clks = ARRAY_SIZE(sc7180_rpmh_clocks),
};
DEFINE_CLK_RPMH_VRM(sm8250, ln_bb_clk1, ln_bb_clk1_ao, "lnbclka1", 2);
static struct clk_hw *sm8250_rpmh_clocks[] = {
[RPMH_CXO_CLK] = &sdm845_bi_tcxo.hw,
[RPMH_CXO_CLK_A] = &sdm845_bi_tcxo_ao.hw,
[RPMH_LN_BB_CLK1] = &sm8250_ln_bb_clk1.hw,
[RPMH_LN_BB_CLK1_A] = &sm8250_ln_bb_clk1_ao.hw,
[RPMH_LN_BB_CLK2] = &sdm845_ln_bb_clk2.hw,
[RPMH_LN_BB_CLK2_A] = &sdm845_ln_bb_clk2_ao.hw,
[RPMH_LN_BB_CLK3] = &sdm845_ln_bb_clk3.hw,
[RPMH_LN_BB_CLK3_A] = &sdm845_ln_bb_clk3_ao.hw,
[RPMH_RF_CLK1] = &sdm845_rf_clk1.hw,
[RPMH_RF_CLK1_A] = &sdm845_rf_clk1_ao.hw,
[RPMH_RF_CLK3] = &sdm845_rf_clk3.hw,
[RPMH_RF_CLK3_A] = &sdm845_rf_clk3_ao.hw,
};
static const struct clk_rpmh_desc clk_rpmh_sm8250 = {
.clks = sm8250_rpmh_clocks,
.num_clks = ARRAY_SIZE(sm8250_rpmh_clocks),
};
static struct clk_hw *of_clk_rpmh_hw_get(struct of_phandle_args *clkspec,
void *data)
{
struct clk_rpmh_desc *rpmh = data;
unsigned int idx = clkspec->args[0];
if (idx >= rpmh->num_clks) {
pr_err("%s: invalid index %u\n", __func__, idx);
return ERR_PTR(-EINVAL);
}
return rpmh->clks[idx];
}
static int clk_rpmh_probe(struct platform_device *pdev)
{
struct clk_hw **hw_clks;
struct clk_rpmh *rpmh_clk;
const struct clk_rpmh_desc *desc;
int ret, i;
desc = of_device_get_match_data(&pdev->dev);
if (!desc)
return -ENODEV;
hw_clks = desc->clks;
for (i = 0; i < desc->num_clks; i++) {
const char *name;
u32 res_addr;
size_t aux_data_len;
const struct bcm_db *data;
if (!hw_clks[i])
continue;
name = hw_clks[i]->init->name;
rpmh_clk = to_clk_rpmh(hw_clks[i]);
res_addr = cmd_db_read_addr(rpmh_clk->res_name);
if (!res_addr) {
dev_err(&pdev->dev, "missing RPMh resource address for %s\n",
rpmh_clk->res_name);
return -ENODEV;
}
data = cmd_db_read_aux_data(rpmh_clk->res_name, &aux_data_len);
if (IS_ERR(data)) {
ret = PTR_ERR(data);
dev_err(&pdev->dev,
"error reading RPMh aux data for %s (%d)\n",
rpmh_clk->res_name, ret);
return ret;
}
/* Convert unit from Khz to Hz */
if (aux_data_len == sizeof(*data))
rpmh_clk->unit = le32_to_cpu(data->unit) * 1000ULL;
rpmh_clk->res_addr += res_addr;
rpmh_clk->dev = &pdev->dev;
ret = devm_clk_hw_register(&pdev->dev, hw_clks[i]);
if (ret) {
dev_err(&pdev->dev, "failed to register %s\n", name);
return ret;
}
}
/* typecast to silence compiler warning */
ret = devm_of_clk_add_hw_provider(&pdev->dev, of_clk_rpmh_hw_get,
(void *)desc);
if (ret) {
dev_err(&pdev->dev, "Failed to add clock provider\n");
return ret;
}
dev_dbg(&pdev->dev, "Registered RPMh clocks\n");
return 0;
}
static const struct of_device_id clk_rpmh_match_table[] = {
{ .compatible = "qcom,sc7180-rpmh-clk", .data = &clk_rpmh_sc7180},
{ .compatible = "qcom,sdm845-rpmh-clk", .data = &clk_rpmh_sdm845},
{ .compatible = "qcom,sm8150-rpmh-clk", .data = &clk_rpmh_sm8150},
{ .compatible = "qcom,sm8250-rpmh-clk", .data = &clk_rpmh_sm8250},
{ }
};
MODULE_DEVICE_TABLE(of, clk_rpmh_match_table);
static struct platform_driver clk_rpmh_driver = {
.probe = clk_rpmh_probe,
.driver = {
.name = "clk-rpmh",
.of_match_table = clk_rpmh_match_table,
},
};
static int __init clk_rpmh_init(void)
{
return platform_driver_register(&clk_rpmh_driver);
}
core_initcall(clk_rpmh_init);
static void __exit clk_rpmh_exit(void)
{
platform_driver_unregister(&clk_rpmh_driver);
}
module_exit(clk_rpmh_exit);
MODULE_DESCRIPTION("QCOM RPMh Clock Driver");
MODULE_LICENSE("GPL v2");
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