forked from Minki/linux
48dc16e2e5
Extend common protocol registration routines and provide some new generic protocols get/put helpers that can track protocols usage and automatically perform the proper initialization and de-initialization on demand when required. Convert all standard protocols to use this new registration scheme while keeping them all still using the usual initialization logic bound to SCMI devices probing. Link: https://lore.kernel.org/r/20210316124903.35011-2-cristian.marussi@arm.com Tested-by: Florian Fainelli <f.fainelli@gmail.com> Signed-off-by: Cristian Marussi <cristian.marussi@arm.com> Signed-off-by: Sudeep Holla <sudeep.holla@arm.com>
376 lines
8.4 KiB
C
376 lines
8.4 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* System Control and Management Interface (SCMI) Clock Protocol
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*
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* Copyright (C) 2018-2021 ARM Ltd.
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*/
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#include <linux/sort.h>
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#include "common.h"
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enum scmi_clock_protocol_cmd {
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CLOCK_ATTRIBUTES = 0x3,
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CLOCK_DESCRIBE_RATES = 0x4,
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CLOCK_RATE_SET = 0x5,
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CLOCK_RATE_GET = 0x6,
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CLOCK_CONFIG_SET = 0x7,
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};
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struct scmi_msg_resp_clock_protocol_attributes {
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__le16 num_clocks;
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u8 max_async_req;
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u8 reserved;
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};
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struct scmi_msg_resp_clock_attributes {
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__le32 attributes;
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#define CLOCK_ENABLE BIT(0)
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u8 name[SCMI_MAX_STR_SIZE];
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};
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struct scmi_clock_set_config {
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__le32 id;
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__le32 attributes;
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};
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struct scmi_msg_clock_describe_rates {
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__le32 id;
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__le32 rate_index;
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};
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struct scmi_msg_resp_clock_describe_rates {
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__le32 num_rates_flags;
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#define NUM_RETURNED(x) ((x) & 0xfff)
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#define RATE_DISCRETE(x) !((x) & BIT(12))
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#define NUM_REMAINING(x) ((x) >> 16)
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struct {
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__le32 value_low;
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__le32 value_high;
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} rate[0];
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#define RATE_TO_U64(X) \
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({ \
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typeof(X) x = (X); \
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le32_to_cpu((x).value_low) | (u64)le32_to_cpu((x).value_high) << 32; \
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})
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};
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struct scmi_clock_set_rate {
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__le32 flags;
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#define CLOCK_SET_ASYNC BIT(0)
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#define CLOCK_SET_IGNORE_RESP BIT(1)
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#define CLOCK_SET_ROUND_UP BIT(2)
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#define CLOCK_SET_ROUND_AUTO BIT(3)
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__le32 id;
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__le32 value_low;
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__le32 value_high;
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};
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struct clock_info {
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u32 version;
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int num_clocks;
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int max_async_req;
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atomic_t cur_async_req;
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struct scmi_clock_info *clk;
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};
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static int scmi_clock_protocol_attributes_get(const struct scmi_handle *handle,
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struct clock_info *ci)
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{
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int ret;
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struct scmi_xfer *t;
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struct scmi_msg_resp_clock_protocol_attributes *attr;
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ret = scmi_xfer_get_init(handle, PROTOCOL_ATTRIBUTES,
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SCMI_PROTOCOL_CLOCK, 0, sizeof(*attr), &t);
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if (ret)
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return ret;
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attr = t->rx.buf;
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ret = scmi_do_xfer(handle, t);
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if (!ret) {
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ci->num_clocks = le16_to_cpu(attr->num_clocks);
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ci->max_async_req = attr->max_async_req;
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}
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scmi_xfer_put(handle, t);
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return ret;
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}
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static int scmi_clock_attributes_get(const struct scmi_handle *handle,
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u32 clk_id, struct scmi_clock_info *clk)
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{
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int ret;
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struct scmi_xfer *t;
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struct scmi_msg_resp_clock_attributes *attr;
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ret = scmi_xfer_get_init(handle, CLOCK_ATTRIBUTES, SCMI_PROTOCOL_CLOCK,
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sizeof(clk_id), sizeof(*attr), &t);
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if (ret)
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return ret;
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put_unaligned_le32(clk_id, t->tx.buf);
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attr = t->rx.buf;
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ret = scmi_do_xfer(handle, t);
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if (!ret)
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strlcpy(clk->name, attr->name, SCMI_MAX_STR_SIZE);
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else
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clk->name[0] = '\0';
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scmi_xfer_put(handle, t);
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return ret;
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}
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static int rate_cmp_func(const void *_r1, const void *_r2)
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{
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const u64 *r1 = _r1, *r2 = _r2;
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if (*r1 < *r2)
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return -1;
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else if (*r1 == *r2)
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return 0;
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else
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return 1;
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}
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static int
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scmi_clock_describe_rates_get(const struct scmi_handle *handle, u32 clk_id,
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struct scmi_clock_info *clk)
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{
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u64 *rate = NULL;
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int ret, cnt;
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bool rate_discrete = false;
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u32 tot_rate_cnt = 0, rates_flag;
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u16 num_returned, num_remaining;
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struct scmi_xfer *t;
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struct scmi_msg_clock_describe_rates *clk_desc;
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struct scmi_msg_resp_clock_describe_rates *rlist;
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ret = scmi_xfer_get_init(handle, CLOCK_DESCRIBE_RATES,
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SCMI_PROTOCOL_CLOCK, sizeof(*clk_desc), 0, &t);
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if (ret)
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return ret;
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clk_desc = t->tx.buf;
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rlist = t->rx.buf;
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do {
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clk_desc->id = cpu_to_le32(clk_id);
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/* Set the number of rates to be skipped/already read */
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clk_desc->rate_index = cpu_to_le32(tot_rate_cnt);
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ret = scmi_do_xfer(handle, t);
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if (ret)
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goto err;
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rates_flag = le32_to_cpu(rlist->num_rates_flags);
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num_remaining = NUM_REMAINING(rates_flag);
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rate_discrete = RATE_DISCRETE(rates_flag);
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num_returned = NUM_RETURNED(rates_flag);
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if (tot_rate_cnt + num_returned > SCMI_MAX_NUM_RATES) {
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dev_err(handle->dev, "No. of rates > MAX_NUM_RATES");
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break;
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}
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if (!rate_discrete) {
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clk->range.min_rate = RATE_TO_U64(rlist->rate[0]);
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clk->range.max_rate = RATE_TO_U64(rlist->rate[1]);
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clk->range.step_size = RATE_TO_U64(rlist->rate[2]);
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dev_dbg(handle->dev, "Min %llu Max %llu Step %llu Hz\n",
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clk->range.min_rate, clk->range.max_rate,
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clk->range.step_size);
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break;
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}
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rate = &clk->list.rates[tot_rate_cnt];
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for (cnt = 0; cnt < num_returned; cnt++, rate++) {
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*rate = RATE_TO_U64(rlist->rate[cnt]);
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dev_dbg(handle->dev, "Rate %llu Hz\n", *rate);
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}
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tot_rate_cnt += num_returned;
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scmi_reset_rx_to_maxsz(handle, t);
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/*
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* check for both returned and remaining to avoid infinite
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* loop due to buggy firmware
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*/
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} while (num_returned && num_remaining);
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if (rate_discrete && rate) {
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clk->list.num_rates = tot_rate_cnt;
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sort(rate, tot_rate_cnt, sizeof(*rate), rate_cmp_func, NULL);
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}
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clk->rate_discrete = rate_discrete;
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err:
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scmi_xfer_put(handle, t);
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return ret;
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}
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static int
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scmi_clock_rate_get(const struct scmi_handle *handle, u32 clk_id, u64 *value)
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{
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int ret;
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struct scmi_xfer *t;
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ret = scmi_xfer_get_init(handle, CLOCK_RATE_GET, SCMI_PROTOCOL_CLOCK,
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sizeof(__le32), sizeof(u64), &t);
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if (ret)
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return ret;
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put_unaligned_le32(clk_id, t->tx.buf);
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ret = scmi_do_xfer(handle, t);
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if (!ret)
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*value = get_unaligned_le64(t->rx.buf);
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scmi_xfer_put(handle, t);
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return ret;
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}
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static int scmi_clock_rate_set(const struct scmi_handle *handle, u32 clk_id,
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u64 rate)
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{
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int ret;
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u32 flags = 0;
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struct scmi_xfer *t;
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struct scmi_clock_set_rate *cfg;
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struct clock_info *ci = handle->clk_priv;
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ret = scmi_xfer_get_init(handle, CLOCK_RATE_SET, SCMI_PROTOCOL_CLOCK,
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sizeof(*cfg), 0, &t);
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if (ret)
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return ret;
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if (ci->max_async_req &&
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atomic_inc_return(&ci->cur_async_req) < ci->max_async_req)
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flags |= CLOCK_SET_ASYNC;
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cfg = t->tx.buf;
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cfg->flags = cpu_to_le32(flags);
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cfg->id = cpu_to_le32(clk_id);
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cfg->value_low = cpu_to_le32(rate & 0xffffffff);
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cfg->value_high = cpu_to_le32(rate >> 32);
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if (flags & CLOCK_SET_ASYNC)
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ret = scmi_do_xfer_with_response(handle, t);
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else
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ret = scmi_do_xfer(handle, t);
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if (ci->max_async_req)
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atomic_dec(&ci->cur_async_req);
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scmi_xfer_put(handle, t);
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return ret;
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}
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static int
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scmi_clock_config_set(const struct scmi_handle *handle, u32 clk_id, u32 config)
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{
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int ret;
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struct scmi_xfer *t;
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struct scmi_clock_set_config *cfg;
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ret = scmi_xfer_get_init(handle, CLOCK_CONFIG_SET, SCMI_PROTOCOL_CLOCK,
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sizeof(*cfg), 0, &t);
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if (ret)
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return ret;
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cfg = t->tx.buf;
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cfg->id = cpu_to_le32(clk_id);
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cfg->attributes = cpu_to_le32(config);
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ret = scmi_do_xfer(handle, t);
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scmi_xfer_put(handle, t);
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return ret;
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}
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static int scmi_clock_enable(const struct scmi_handle *handle, u32 clk_id)
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{
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return scmi_clock_config_set(handle, clk_id, CLOCK_ENABLE);
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}
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static int scmi_clock_disable(const struct scmi_handle *handle, u32 clk_id)
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{
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return scmi_clock_config_set(handle, clk_id, 0);
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}
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static int scmi_clock_count_get(const struct scmi_handle *handle)
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{
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struct clock_info *ci = handle->clk_priv;
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return ci->num_clocks;
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}
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static const struct scmi_clock_info *
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scmi_clock_info_get(const struct scmi_handle *handle, u32 clk_id)
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{
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struct clock_info *ci = handle->clk_priv;
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struct scmi_clock_info *clk = ci->clk + clk_id;
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if (!clk->name[0])
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return NULL;
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return clk;
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}
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static const struct scmi_clk_ops clk_ops = {
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.count_get = scmi_clock_count_get,
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.info_get = scmi_clock_info_get,
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.rate_get = scmi_clock_rate_get,
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.rate_set = scmi_clock_rate_set,
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.enable = scmi_clock_enable,
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.disable = scmi_clock_disable,
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};
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static int scmi_clock_protocol_init(struct scmi_handle *handle)
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{
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u32 version;
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int clkid, ret;
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struct clock_info *cinfo;
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scmi_version_get(handle, SCMI_PROTOCOL_CLOCK, &version);
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dev_dbg(handle->dev, "Clock Version %d.%d\n",
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PROTOCOL_REV_MAJOR(version), PROTOCOL_REV_MINOR(version));
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cinfo = devm_kzalloc(handle->dev, sizeof(*cinfo), GFP_KERNEL);
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if (!cinfo)
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return -ENOMEM;
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scmi_clock_protocol_attributes_get(handle, cinfo);
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cinfo->clk = devm_kcalloc(handle->dev, cinfo->num_clocks,
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sizeof(*cinfo->clk), GFP_KERNEL);
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if (!cinfo->clk)
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return -ENOMEM;
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for (clkid = 0; clkid < cinfo->num_clocks; clkid++) {
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struct scmi_clock_info *clk = cinfo->clk + clkid;
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ret = scmi_clock_attributes_get(handle, clkid, clk);
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if (!ret)
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scmi_clock_describe_rates_get(handle, clkid, clk);
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}
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cinfo->version = version;
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handle->clk_ops = &clk_ops;
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handle->clk_priv = cinfo;
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return 0;
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}
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static const struct scmi_protocol scmi_clock = {
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.id = SCMI_PROTOCOL_CLOCK,
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.init = &scmi_clock_protocol_init,
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.ops = &clk_ops,
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};
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DEFINE_SCMI_PROTOCOL_REGISTER_UNREGISTER(clock, scmi_clock)
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