dtpm_devfreq.c 4.7 KB

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  1. // SPDX-License-Identifier: GPL-2.0-only
  2. /*
  3. * Copyright 2021 Linaro Limited
  4. *
  5. * Author: Daniel Lezcano <daniel.lezcano@linaro.org>
  6. *
  7. * The devfreq device combined with the energy model and the load can
  8. * give an estimation of the power consumption as well as limiting the
  9. * power.
  10. *
  11. */
  12. #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
  13. #include <linux/cpumask.h>
  14. #include <linux/devfreq.h>
  15. #include <linux/dtpm.h>
  16. #include <linux/energy_model.h>
  17. #include <linux/of.h>
  18. #include <linux/pm_qos.h>
  19. #include <linux/slab.h>
  20. #include <linux/units.h>
  21. struct dtpm_devfreq {
  22. struct dtpm dtpm;
  23. struct dev_pm_qos_request qos_req;
  24. struct devfreq *devfreq;
  25. };
  26. static struct dtpm_devfreq *to_dtpm_devfreq(struct dtpm *dtpm)
  27. {
  28. return container_of(dtpm, struct dtpm_devfreq, dtpm);
  29. }
  30. static int update_pd_power_uw(struct dtpm *dtpm)
  31. {
  32. struct dtpm_devfreq *dtpm_devfreq = to_dtpm_devfreq(dtpm);
  33. struct devfreq *devfreq = dtpm_devfreq->devfreq;
  34. struct device *dev = devfreq->dev.parent;
  35. struct em_perf_domain *pd = em_pd_get(dev);
  36. struct em_perf_state *table;
  37. rcu_read_lock();
  38. table = em_perf_state_from_pd(pd);
  39. dtpm->power_min = table[0].power;
  40. dtpm->power_max = table[pd->nr_perf_states - 1].power;
  41. rcu_read_unlock();
  42. return 0;
  43. }
  44. static u64 set_pd_power_limit(struct dtpm *dtpm, u64 power_limit)
  45. {
  46. struct dtpm_devfreq *dtpm_devfreq = to_dtpm_devfreq(dtpm);
  47. struct devfreq *devfreq = dtpm_devfreq->devfreq;
  48. struct device *dev = devfreq->dev.parent;
  49. struct em_perf_domain *pd = em_pd_get(dev);
  50. struct em_perf_state *table;
  51. unsigned long freq;
  52. int i;
  53. rcu_read_lock();
  54. table = em_perf_state_from_pd(pd);
  55. for (i = 0; i < pd->nr_perf_states; i++) {
  56. if (table[i].power > power_limit)
  57. break;
  58. }
  59. freq = table[i - 1].frequency;
  60. power_limit = table[i - 1].power;
  61. rcu_read_unlock();
  62. dev_pm_qos_update_request(&dtpm_devfreq->qos_req, freq);
  63. return power_limit;
  64. }
  65. static void _normalize_load(struct devfreq_dev_status *status)
  66. {
  67. if (status->total_time > 0xfffff) {
  68. status->total_time >>= 10;
  69. status->busy_time >>= 10;
  70. }
  71. status->busy_time <<= 10;
  72. status->busy_time /= status->total_time ? : 1;
  73. status->busy_time = status->busy_time ? : 1;
  74. status->total_time = 1024;
  75. }
  76. static u64 get_pd_power_uw(struct dtpm *dtpm)
  77. {
  78. struct dtpm_devfreq *dtpm_devfreq = to_dtpm_devfreq(dtpm);
  79. struct devfreq *devfreq = dtpm_devfreq->devfreq;
  80. struct device *dev = devfreq->dev.parent;
  81. struct em_perf_domain *pd = em_pd_get(dev);
  82. struct devfreq_dev_status status;
  83. struct em_perf_state *table;
  84. unsigned long freq;
  85. u64 power = 0;
  86. int i;
  87. mutex_lock(&devfreq->lock);
  88. status = devfreq->last_status;
  89. mutex_unlock(&devfreq->lock);
  90. freq = DIV_ROUND_UP(status.current_frequency, HZ_PER_KHZ);
  91. _normalize_load(&status);
  92. rcu_read_lock();
  93. table = em_perf_state_from_pd(pd);
  94. for (i = 0; i < pd->nr_perf_states; i++) {
  95. if (table[i].frequency < freq)
  96. continue;
  97. power = table[i].power;
  98. power *= status.busy_time;
  99. power >>= 10;
  100. break;
  101. }
  102. rcu_read_unlock();
  103. return power;
  104. }
  105. static void pd_release(struct dtpm *dtpm)
  106. {
  107. struct dtpm_devfreq *dtpm_devfreq = to_dtpm_devfreq(dtpm);
  108. if (dev_pm_qos_request_active(&dtpm_devfreq->qos_req))
  109. dev_pm_qos_remove_request(&dtpm_devfreq->qos_req);
  110. kfree(dtpm_devfreq);
  111. }
  112. static struct dtpm_ops dtpm_ops = {
  113. .set_power_uw = set_pd_power_limit,
  114. .get_power_uw = get_pd_power_uw,
  115. .update_power_uw = update_pd_power_uw,
  116. .release = pd_release,
  117. };
  118. static int __dtpm_devfreq_setup(struct devfreq *devfreq, struct dtpm *parent)
  119. {
  120. struct device *dev = devfreq->dev.parent;
  121. struct dtpm_devfreq *dtpm_devfreq;
  122. struct em_perf_domain *pd;
  123. int ret = -ENOMEM;
  124. pd = em_pd_get(dev);
  125. if (!pd) {
  126. ret = dev_pm_opp_of_register_em(dev, NULL);
  127. if (ret) {
  128. pr_err("No energy model available for '%s'\n", dev_name(dev));
  129. return -EINVAL;
  130. }
  131. }
  132. dtpm_devfreq = kzalloc_obj(*dtpm_devfreq);
  133. if (!dtpm_devfreq)
  134. return -ENOMEM;
  135. dtpm_init(&dtpm_devfreq->dtpm, &dtpm_ops);
  136. dtpm_devfreq->devfreq = devfreq;
  137. ret = dtpm_register(dev_name(dev), &dtpm_devfreq->dtpm, parent);
  138. if (ret) {
  139. pr_err("Failed to register '%s': %d\n", dev_name(dev), ret);
  140. kfree(dtpm_devfreq);
  141. return ret;
  142. }
  143. ret = dev_pm_qos_add_request(dev, &dtpm_devfreq->qos_req,
  144. DEV_PM_QOS_MAX_FREQUENCY,
  145. PM_QOS_MAX_FREQUENCY_DEFAULT_VALUE);
  146. if (ret < 0) {
  147. pr_err("Failed to add QoS request: %d\n", ret);
  148. goto out_dtpm_unregister;
  149. }
  150. dtpm_update_power(&dtpm_devfreq->dtpm);
  151. return 0;
  152. out_dtpm_unregister:
  153. dtpm_unregister(&dtpm_devfreq->dtpm);
  154. return ret;
  155. }
  156. static int dtpm_devfreq_setup(struct dtpm *dtpm, struct device_node *np)
  157. {
  158. struct devfreq *devfreq;
  159. devfreq = devfreq_get_devfreq_by_node(np);
  160. if (IS_ERR(devfreq))
  161. return 0;
  162. return __dtpm_devfreq_setup(devfreq, dtpm);
  163. }
  164. struct dtpm_subsys_ops dtpm_devfreq_ops = {
  165. .name = KBUILD_MODNAME,
  166. .setup = dtpm_devfreq_setup,
  167. };