Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Ansuel Smith | 628 | 34.60% | 2 | 7.69% |
Ilia Lin | 494 | 27.22% | 3 | 11.54% |
Niklas Cassel | 276 | 15.21% | 2 | 7.69% |
R Sricharan | 166 | 9.15% | 1 | 3.85% |
Viresh Kumar | 159 | 8.76% | 6 | 23.08% |
Masahiro Yamada | 24 | 1.32% | 1 | 3.85% |
Robert Marko | 23 | 1.27% | 2 | 7.69% |
Fabien Parent | 21 | 1.16% | 2 | 7.69% |
Pali Rohár | 7 | 0.39% | 1 | 3.85% |
Dan Carpenter | 7 | 0.39% | 1 | 3.85% |
Yang Yingliang | 5 | 0.28% | 1 | 3.85% |
Yue haibing | 2 | 0.11% | 1 | 3.85% |
Yangtao Li | 1 | 0.06% | 1 | 3.85% |
Luca Weiss | 1 | 0.06% | 1 | 3.85% |
Nathan Chancellor | 1 | 0.06% | 1 | 3.85% |
Total | 1815 | 26 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright (c) 2018, The Linux Foundation. All rights reserved. */ /* * 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-nvmem 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. */ #include <linux/cpu.h> #include <linux/err.h> #include <linux/init.h> #include <linux/kernel.h> #include <linux/module.h> #include <linux/nvmem-consumer.h> #include <linux/of.h> #include <linux/of_device.h> #include <linux/platform_device.h> #include <linux/pm_domain.h> #include <linux/pm_opp.h> #include <linux/slab.h> #include <linux/soc/qcom/smem.h> #include <dt-bindings/arm/qcom,ids.h> struct qcom_cpufreq_drv; struct qcom_cpufreq_match_data { int (*get_version)(struct device *cpu_dev, struct nvmem_cell *speedbin_nvmem, char **pvs_name, struct qcom_cpufreq_drv *drv); const char **genpd_names; }; struct qcom_cpufreq_drv { int *opp_tokens; u32 versions; const struct qcom_cpufreq_match_data *data; }; static struct platform_device *cpufreq_dt_pdev, *cpufreq_pdev; static void get_krait_bin_format_a(struct device *cpu_dev, int *speed, int *pvs, int *pvs_ver, u8 *buf) { u32 pte_efuse; pte_efuse = *((u32 *)buf); *speed = pte_efuse & 0xf; if (*speed == 0xf) *speed = (pte_efuse >> 4) & 0xf; if (*speed == 0xf) { *speed = 0; dev_warn(cpu_dev, "Speed bin: Defaulting to %d\n", *speed); } else { dev_dbg(cpu_dev, "Speed bin: %d\n", *speed); } *pvs = (pte_efuse >> 10) & 0x7; if (*pvs == 0x7) *pvs = (pte_efuse >> 13) & 0x7; if (*pvs == 0x7) { *pvs = 0; dev_warn(cpu_dev, "PVS bin: Defaulting to %d\n", *pvs); } else { dev_dbg(cpu_dev, "PVS bin: %d\n", *pvs); } } static void get_krait_bin_format_b(struct device *cpu_dev, int *speed, int *pvs, int *pvs_ver, u8 *buf) { u32 pte_efuse, redundant_sel; pte_efuse = *((u32 *)buf); redundant_sel = (pte_efuse >> 24) & 0x7; *pvs_ver = (pte_efuse >> 4) & 0x3; switch (redundant_sel) { case 1: *pvs = ((pte_efuse >> 28) & 0x8) | ((pte_efuse >> 6) & 0x7); *speed = (pte_efuse >> 27) & 0xf; break; case 2: *pvs = (pte_efuse >> 27) & 0xf; *speed = pte_efuse & 0x7; break; default: /* 4 bits of PVS are in efuse register bits 31, 8-6. */ *pvs = ((pte_efuse >> 28) & 0x8) | ((pte_efuse >> 6) & 0x7); *speed = pte_efuse & 0x7; } /* Check SPEED_BIN_BLOW_STATUS */ if (pte_efuse & BIT(3)) { dev_dbg(cpu_dev, "Speed bin: %d\n", *speed); } else { dev_warn(cpu_dev, "Speed bin not set. Defaulting to 0!\n"); *speed = 0; } /* Check PVS_BLOW_STATUS */ pte_efuse = *(((u32 *)buf) + 1); pte_efuse &= BIT(21); if (pte_efuse) { dev_dbg(cpu_dev, "PVS bin: %d\n", *pvs); } else { dev_warn(cpu_dev, "PVS bin not set. Defaulting to 0!\n"); *pvs = 0; } dev_dbg(cpu_dev, "PVS version: %d\n", *pvs_ver); } static int qcom_cpufreq_kryo_name_version(struct device *cpu_dev, struct nvmem_cell *speedbin_nvmem, char **pvs_name, struct qcom_cpufreq_drv *drv) { size_t len; u32 msm_id; u8 *speedbin; int ret; *pvs_name = NULL; ret = qcom_smem_get_soc_id(&msm_id); if (ret) return ret; speedbin = nvmem_cell_read(speedbin_nvmem, &len); if (IS_ERR(speedbin)) return PTR_ERR(speedbin); switch (msm_id) { case QCOM_ID_MSM8996: case QCOM_ID_APQ8096: drv->versions = 1 << (unsigned int)(*speedbin); break; case QCOM_ID_MSM8996SG: case QCOM_ID_APQ8096SG: drv->versions = 1 << ((unsigned int)(*speedbin) + 4); break; default: BUG(); break; } kfree(speedbin); return 0; } static int qcom_cpufreq_krait_name_version(struct device *cpu_dev, struct nvmem_cell *speedbin_nvmem, char **pvs_name, struct qcom_cpufreq_drv *drv) { int speed = 0, pvs = 0, pvs_ver = 0; u8 *speedbin; size_t len; int ret = 0; speedbin = nvmem_cell_read(speedbin_nvmem, &len); if (IS_ERR(speedbin)) return PTR_ERR(speedbin); switch (len) { case 4: get_krait_bin_format_a(cpu_dev, &speed, &pvs, &pvs_ver, speedbin); break; case 8: get_krait_bin_format_b(cpu_dev, &speed, &pvs, &pvs_ver, speedbin); break; default: dev_err(cpu_dev, "Unable to read nvmem data. Defaulting to 0!\n"); ret = -ENODEV; goto len_error; } snprintf(*pvs_name, sizeof("speedXX-pvsXX-vXX"), "speed%d-pvs%d-v%d", speed, pvs, pvs_ver); drv->versions = (1 << speed); len_error: kfree(speedbin); return ret; } static const struct qcom_cpufreq_match_data match_data_kryo = { .get_version = qcom_cpufreq_kryo_name_version, }; static const struct qcom_cpufreq_match_data match_data_krait = { .get_version = qcom_cpufreq_krait_name_version, }; static const char *qcs404_genpd_names[] = { "cpr", NULL }; static const struct qcom_cpufreq_match_data match_data_qcs404 = { .genpd_names = qcs404_genpd_names, }; static int qcom_cpufreq_probe(struct platform_device *pdev) { struct qcom_cpufreq_drv *drv; struct nvmem_cell *speedbin_nvmem; struct device_node *np; struct device *cpu_dev; char pvs_name_buffer[] = "speedXX-pvsXX-vXX"; char *pvs_name = pvs_name_buffer; unsigned cpu; const struct of_device_id *match; int ret; cpu_dev = get_cpu_device(0); if (!cpu_dev) return -ENODEV; np = dev_pm_opp_of_get_opp_desc_node(cpu_dev); if (!np) return -ENOENT; ret = of_device_is_compatible(np, "operating-points-v2-kryo-cpu"); if (!ret) { of_node_put(np); return -ENOENT; } drv = kzalloc(sizeof(*drv), GFP_KERNEL); if (!drv) return -ENOMEM; match = pdev->dev.platform_data; drv->data = match->data; if (!drv->data) { ret = -ENODEV; goto free_drv; } if (drv->data->get_version) { speedbin_nvmem = of_nvmem_cell_get(np, NULL); if (IS_ERR(speedbin_nvmem)) { ret = dev_err_probe(cpu_dev, PTR_ERR(speedbin_nvmem), "Could not get nvmem cell\n"); goto free_drv; } ret = drv->data->get_version(cpu_dev, speedbin_nvmem, &pvs_name, drv); if (ret) { nvmem_cell_put(speedbin_nvmem); goto free_drv; } nvmem_cell_put(speedbin_nvmem); } of_node_put(np); drv->opp_tokens = kcalloc(num_possible_cpus(), sizeof(*drv->opp_tokens), GFP_KERNEL); if (!drv->opp_tokens) { ret = -ENOMEM; goto free_drv; } for_each_possible_cpu(cpu) { struct dev_pm_opp_config config = { .supported_hw = NULL, }; cpu_dev = get_cpu_device(cpu); if (NULL == cpu_dev) { ret = -ENODEV; goto free_opp; } if (drv->data->get_version) { config.supported_hw = &drv->versions; config.supported_hw_count = 1; if (pvs_name) config.prop_name = pvs_name; } if (drv->data->genpd_names) { config.genpd_names = drv->data->genpd_names; config.virt_devs = NULL; } if (config.supported_hw || config.genpd_names) { drv->opp_tokens[cpu] = dev_pm_opp_set_config(cpu_dev, &config); if (drv->opp_tokens[cpu] < 0) { ret = drv->opp_tokens[cpu]; dev_err(cpu_dev, "Failed to set OPP config\n"); goto free_opp; } } } cpufreq_dt_pdev = platform_device_register_simple("cpufreq-dt", -1, NULL, 0); if (!IS_ERR(cpufreq_dt_pdev)) { platform_set_drvdata(pdev, drv); return 0; } ret = PTR_ERR(cpufreq_dt_pdev); dev_err(cpu_dev, "Failed to register platform device\n"); free_opp: for_each_possible_cpu(cpu) dev_pm_opp_clear_config(drv->opp_tokens[cpu]); kfree(drv->opp_tokens); free_drv: kfree(drv); return ret; } static int qcom_cpufreq_remove(struct platform_device *pdev) { struct qcom_cpufreq_drv *drv = platform_get_drvdata(pdev); unsigned int cpu; platform_device_unregister(cpufreq_dt_pdev); for_each_possible_cpu(cpu) dev_pm_opp_clear_config(drv->opp_tokens[cpu]); kfree(drv->opp_tokens); kfree(drv); return 0; } static struct platform_driver qcom_cpufreq_driver = { .probe = qcom_cpufreq_probe, .remove = qcom_cpufreq_remove, .driver = { .name = "qcom-cpufreq-nvmem", }, }; static const struct of_device_id qcom_cpufreq_match_list[] __initconst = { { .compatible = "qcom,apq8096", .data = &match_data_kryo }, { .compatible = "qcom,msm8996", .data = &match_data_kryo }, { .compatible = "qcom,qcs404", .data = &match_data_qcs404 }, { .compatible = "qcom,ipq8064", .data = &match_data_krait }, { .compatible = "qcom,apq8064", .data = &match_data_krait }, { .compatible = "qcom,msm8974", .data = &match_data_krait }, { .compatible = "qcom,msm8960", .data = &match_data_krait }, {}, }; MODULE_DEVICE_TABLE(of, qcom_cpufreq_match_list); /* * Since the driver depends on smem and nvmem drivers, which may * return EPROBE_DEFER, all the real activity is done in the probe, * which may be defered as well. The init here is only registering * the driver and the platform device. */ static int __init qcom_cpufreq_init(void) { struct device_node *np = of_find_node_by_path("/"); const struct of_device_id *match; int ret; if (!np) return -ENODEV; match = of_match_node(qcom_cpufreq_match_list, np); of_node_put(np); if (!match) return -ENODEV; ret = platform_driver_register(&qcom_cpufreq_driver); if (unlikely(ret < 0)) return ret; cpufreq_pdev = platform_device_register_data(NULL, "qcom-cpufreq-nvmem", -1, match, sizeof(*match)); ret = PTR_ERR_OR_ZERO(cpufreq_pdev); if (0 == ret) return 0; platform_driver_unregister(&qcom_cpufreq_driver); return ret; } module_init(qcom_cpufreq_init); static void __exit qcom_cpufreq_exit(void) { platform_device_unregister(cpufreq_pdev); platform_driver_unregister(&qcom_cpufreq_driver); } module_exit(qcom_cpufreq_exit); MODULE_DESCRIPTION("Qualcomm Technologies, Inc. CPUfreq driver"); MODULE_LICENSE("GPL v2");
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