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In Certain QCOM SoCs like apq8096 and msm8996 that have KRYO processors, the CPU frequency subset and voltage value of each OPP varies based on the silicon variant in use. Qualcomm Process Voltage Scaling Tables defines the voltage and frequency value based on the msm-id in SMEM and speedbin blown in the efuse combination. The qcom-cpufreq-kryo driver reads the msm-id and efuse value from the SoC to provide the OPP framework with required information. This is used to determine the voltage and frequency value for each OPP of operating-points-v2 table when it is parsed by the OPP framework. Signed-off-by: Ilia Lin <ilialin@codeaurora.org> Acked-by: Viresh Kumar <viresh.kumar@linaro.org> Reviewed-by: Amit Kucheria <amit.kucheria@linaro.org> Tested-by: Amit Kucheria <amit.kucheria@linaro.org> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
213 lines
5.0 KiB
C
213 lines
5.0 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* Copyright (c) 2018, The Linux Foundation. All rights reserved.
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*/
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/*
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* In Certain QCOM SoCs like apq8096 and msm8996 that have KRYO processors,
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* the CPU frequency subset and voltage value of each OPP varies
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* based on the silicon variant in use. Qualcomm Process Voltage Scaling Tables
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* defines the voltage and frequency value based on the msm-id in SMEM
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* and speedbin blown in the efuse combination.
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* The qcom-cpufreq-kryo driver reads the msm-id and efuse value from the SoC
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* to provide the OPP framework with required information.
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* This is used to determine the voltage and frequency value for each OPP of
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* operating-points-v2 table when it is parsed by the OPP framework.
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*/
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#include <linux/cpu.h>
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#include <linux/err.h>
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#include <linux/init.h>
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#include <linux/kernel.h>
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#include <linux/module.h>
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#include <linux/nvmem-consumer.h>
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#include <linux/of.h>
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#include <linux/platform_device.h>
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#include <linux/pm_opp.h>
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#include <linux/slab.h>
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#include <linux/soc/qcom/smem.h>
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#define MSM_ID_SMEM 137
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enum _msm_id {
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MSM8996V3 = 0xF6ul,
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APQ8096V3 = 0x123ul,
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MSM8996SG = 0x131ul,
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APQ8096SG = 0x138ul,
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};
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enum _msm8996_version {
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MSM8996_V3,
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MSM8996_SG,
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NUM_OF_MSM8996_VERSIONS,
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};
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static enum _msm8996_version __init qcom_cpufreq_kryo_get_msm_id(void)
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{
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size_t len;
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u32 *msm_id;
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enum _msm8996_version version;
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msm_id = qcom_smem_get(QCOM_SMEM_HOST_ANY, MSM_ID_SMEM, &len);
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if (IS_ERR(msm_id))
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return NUM_OF_MSM8996_VERSIONS;
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/* The first 4 bytes are format, next to them is the actual msm-id */
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msm_id++;
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switch ((enum _msm_id)*msm_id) {
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case MSM8996V3:
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case APQ8096V3:
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version = MSM8996_V3;
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break;
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case MSM8996SG:
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case APQ8096SG:
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version = MSM8996_SG;
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break;
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default:
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version = NUM_OF_MSM8996_VERSIONS;
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}
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return version;
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}
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static int qcom_cpufreq_kryo_probe(struct platform_device *pdev)
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{
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struct opp_table *opp_tables[NR_CPUS] = {0};
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struct platform_device *cpufreq_dt_pdev;
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enum _msm8996_version msm8996_version;
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struct nvmem_cell *speedbin_nvmem;
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struct device_node *np;
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struct device *cpu_dev;
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unsigned cpu;
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u8 *speedbin;
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u32 versions;
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size_t len;
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int ret;
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cpu_dev = get_cpu_device(0);
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if (NULL == cpu_dev)
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ret = -ENODEV;
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msm8996_version = qcom_cpufreq_kryo_get_msm_id();
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if (NUM_OF_MSM8996_VERSIONS == msm8996_version) {
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dev_err(cpu_dev, "Not Snapdragon 820/821!");
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return -ENODEV;
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}
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np = dev_pm_opp_of_get_opp_desc_node(cpu_dev);
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if (IS_ERR(np))
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return PTR_ERR(np);
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ret = of_device_is_compatible(np, "operating-points-v2-kryo-cpu");
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if (!ret) {
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of_node_put(np);
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return -ENOENT;
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}
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speedbin_nvmem = of_nvmem_cell_get(np, NULL);
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of_node_put(np);
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if (IS_ERR(speedbin_nvmem)) {
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dev_err(cpu_dev, "Could not get nvmem cell: %ld\n",
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PTR_ERR(speedbin_nvmem));
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return PTR_ERR(speedbin_nvmem);
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}
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speedbin = nvmem_cell_read(speedbin_nvmem, &len);
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nvmem_cell_put(speedbin_nvmem);
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switch (msm8996_version) {
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case MSM8996_V3:
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versions = 1 << (unsigned int)(*speedbin);
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break;
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case MSM8996_SG:
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versions = 1 << ((unsigned int)(*speedbin) + 4);
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break;
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default:
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BUG();
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break;
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}
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for_each_possible_cpu(cpu) {
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cpu_dev = get_cpu_device(cpu);
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if (NULL == cpu_dev) {
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ret = -ENODEV;
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goto free_opp;
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}
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opp_tables[cpu] = dev_pm_opp_set_supported_hw(cpu_dev,
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&versions, 1);
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if (IS_ERR(opp_tables[cpu])) {
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ret = PTR_ERR(opp_tables[cpu]);
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dev_err(cpu_dev, "Failed to set supported hardware\n");
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goto free_opp;
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}
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}
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cpufreq_dt_pdev = platform_device_register_simple("cpufreq-dt", -1,
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NULL, 0);
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if (!IS_ERR(cpufreq_dt_pdev))
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return 0;
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ret = PTR_ERR(cpufreq_dt_pdev);
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dev_err(cpu_dev, "Failed to register platform device\n");
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free_opp:
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for_each_possible_cpu(cpu) {
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if (IS_ERR_OR_NULL(opp_tables[cpu]))
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break;
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dev_pm_opp_put_supported_hw(opp_tables[cpu]);
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}
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return ret;
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}
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static struct platform_driver qcom_cpufreq_kryo_driver = {
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.probe = qcom_cpufreq_kryo_probe,
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.driver = {
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.name = "qcom-cpufreq-kryo",
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},
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};
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static const struct of_device_id qcom_cpufreq_kryo_match_list[] __initconst = {
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{ .compatible = "qcom,apq8096", },
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{ .compatible = "qcom,msm8996", },
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};
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/*
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* Since the driver depends on smem and nvmem drivers, which may
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* return EPROBE_DEFER, all the real activity is done in the probe,
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* which may be defered as well. The init here is only registering
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* the driver and the platform device.
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*/
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static int __init qcom_cpufreq_kryo_init(void)
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{
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struct device_node *np = of_find_node_by_path("/");
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const struct of_device_id *match;
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int ret;
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if (!np)
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return -ENODEV;
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match = of_match_node(qcom_cpufreq_kryo_match_list, np);
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of_node_put(np);
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if (!match)
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return -ENODEV;
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ret = platform_driver_register(&qcom_cpufreq_kryo_driver);
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if (unlikely(ret < 0))
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return ret;
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ret = PTR_ERR_OR_ZERO(platform_device_register_simple(
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"qcom-cpufreq-kryo", -1, NULL, 0));
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if (0 == ret)
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return 0;
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platform_driver_unregister(&qcom_cpufreq_kryo_driver);
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return ret;
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}
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module_init(qcom_cpufreq_kryo_init);
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MODULE_DESCRIPTION("Qualcomm Technologies, Inc. Kryo CPUfreq driver");
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MODULE_LICENSE("GPL v2");
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