// SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note /* * * (C) COPYRIGHT 2010-2022 ARM Limited. All rights reserved. * * This program is free software and is provided to you under the terms of the * GNU General Public License version 2 as published by the Free Software * Foundation, and any use by you of this program is subject to the terms * of such GNU license. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you can access it online at * http://www.gnu.org/licenses/gpl-2.0.html. * */ /** * DOC: Base kernel power management APIs */ #include #include #include #include #include #include #include #ifdef CONFIG_MALI_ARBITER_SUPPORT #include #endif /* CONFIG_MALI_ARBITER_SUPPORT */ #include int kbase_pm_powerup(struct kbase_device *kbdev, unsigned int flags) { return kbase_hwaccess_pm_powerup(kbdev, flags); } void kbase_pm_halt(struct kbase_device *kbdev) { kbase_hwaccess_pm_halt(kbdev); } void kbase_pm_context_active(struct kbase_device *kbdev) { (void)kbase_pm_context_active_handle_suspend(kbdev, KBASE_PM_SUSPEND_HANDLER_NOT_POSSIBLE); } int kbase_pm_context_active_handle_suspend(struct kbase_device *kbdev, enum kbase_pm_suspend_handler suspend_handler) { int c; KBASE_DEBUG_ASSERT(kbdev != NULL); dev_dbg(kbdev->dev, "%s - reason = %d, pid = %d\n", __func__, suspend_handler, current->pid); kbase_pm_lock(kbdev); #ifdef CONFIG_MALI_ARBITER_SUPPORT if (kbase_arbiter_pm_ctx_active_handle_suspend(kbdev, suspend_handler)) { kbase_pm_unlock(kbdev); return 1; } #endif /* CONFIG_MALI_ARBITER_SUPPORT */ if (kbase_pm_is_suspending(kbdev)) { switch (suspend_handler) { case KBASE_PM_SUSPEND_HANDLER_DONT_REACTIVATE: if (kbdev->pm.active_count != 0) break; fallthrough; case KBASE_PM_SUSPEND_HANDLER_DONT_INCREASE: kbase_pm_unlock(kbdev); return 1; case KBASE_PM_SUSPEND_HANDLER_NOT_POSSIBLE: fallthrough; default: KBASE_DEBUG_ASSERT_MSG(false, "unreachable"); break; } } c = ++kbdev->pm.active_count; KBASE_KTRACE_ADD(kbdev, PM_CONTEXT_ACTIVE, NULL, c); if (c == 1) { /* First context active: Power on the GPU and * any cores requested by the policy */ kbase_hwaccess_pm_gpu_active(kbdev); #ifdef CONFIG_MALI_ARBITER_SUPPORT kbase_arbiter_pm_vm_event(kbdev, KBASE_VM_REF_EVENT); #endif /* CONFIG_MALI_ARBITER_SUPPORT */ kbase_clk_rate_trace_manager_gpu_active(kbdev); } kbase_pm_unlock(kbdev); dev_dbg(kbdev->dev, "%s %d\n", __func__, kbdev->pm.active_count); return 0; } KBASE_EXPORT_TEST_API(kbase_pm_context_active); void kbase_pm_context_idle(struct kbase_device *kbdev) { int c; KBASE_DEBUG_ASSERT(kbdev != NULL); kbase_pm_lock(kbdev); c = --kbdev->pm.active_count; KBASE_KTRACE_ADD(kbdev, PM_CONTEXT_IDLE, NULL, c); KBASE_DEBUG_ASSERT(c >= 0); if (c == 0) { /* Last context has gone idle */ kbase_hwaccess_pm_gpu_idle(kbdev); kbase_clk_rate_trace_manager_gpu_idle(kbdev); /* Wake up anyone waiting for this to become 0 (e.g. suspend). * The waiters must synchronize with us by locking the pm.lock * after waiting. */ wake_up(&kbdev->pm.zero_active_count_wait); } kbase_pm_unlock(kbdev); dev_dbg(kbdev->dev, "%s %d (pid = %d)\n", __func__, kbdev->pm.active_count, current->pid); } KBASE_EXPORT_TEST_API(kbase_pm_context_idle); int kbase_pm_driver_suspend(struct kbase_device *kbdev) { KBASE_DEBUG_ASSERT(kbdev); /* Suspend HW counter intermediaries. This blocks until workers and timers * are no longer running. */ kbase_vinstr_suspend(kbdev->vinstr_ctx); kbase_kinstr_prfcnt_suspend(kbdev->kinstr_prfcnt_ctx); /* Disable GPU hardware counters. * This call will block until counters are disabled. */ kbase_hwcnt_context_disable(kbdev->hwcnt_gpu_ctx); mutex_lock(&kbdev->pm.lock); if (WARN_ON(kbase_pm_is_suspending(kbdev))) { mutex_unlock(&kbdev->pm.lock); return 0; } kbdev->pm.suspending = true; mutex_unlock(&kbdev->pm.lock); #ifdef CONFIG_MALI_ARBITER_SUPPORT if (kbdev->arb.arb_if) { int i; unsigned long flags; spin_lock_irqsave(&kbdev->hwaccess_lock, flags); kbdev->js_data.runpool_irq.submit_allowed = 0; kbase_disjoint_state_up(kbdev); for (i = 0; i < kbdev->gpu_props.num_job_slots; i++) kbase_job_slot_softstop(kbdev, i, NULL); spin_unlock_irqrestore(&kbdev->hwaccess_lock, flags); } #endif /* CONFIG_MALI_ARBITER_SUPPORT */ /* From now on, the active count will drop towards zero. Sometimes, * it'll go up briefly before going down again. However, once * it reaches zero it will stay there - guaranteeing that we've idled * all pm references */ #if !MALI_USE_CSF /* Suspend job scheduler and associated components, so that it releases all * the PM active count references */ kbasep_js_suspend(kbdev); #else if (kbase_csf_scheduler_pm_suspend(kbdev)) { mutex_lock(&kbdev->pm.lock); kbdev->pm.suspending = false; mutex_unlock(&kbdev->pm.lock); return -1; } #endif /* Wait for the active count to reach zero. This is not the same as * waiting for a power down, since not all policies power down when this * reaches zero. */ dev_dbg(kbdev->dev, ">wait_event - waiting for active_count == 0 (pid = %d)\n", current->pid); wait_event(kbdev->pm.zero_active_count_wait, kbdev->pm.active_count == 0); dev_dbg(kbdev->dev, ">wait_event - waiting done\n"); /* NOTE: We synchronize with anything that was just finishing a * kbase_pm_context_idle() call by locking the pm.lock below */ if (kbase_hwaccess_pm_suspend(kbdev)) { mutex_lock(&kbdev->pm.lock); kbdev->pm.suspending = false; mutex_unlock(&kbdev->pm.lock); return -1; } #ifdef CONFIG_MALI_ARBITER_SUPPORT if (kbdev->arb.arb_if) { mutex_lock(&kbdev->pm.arb_vm_state->vm_state_lock); kbase_arbiter_pm_vm_stopped(kbdev); mutex_unlock(&kbdev->pm.arb_vm_state->vm_state_lock); } #endif /* CONFIG_MALI_ARBITER_SUPPORT */ return 0; } void kbase_pm_driver_resume(struct kbase_device *kbdev, bool arb_gpu_start) { unsigned long flags; /* MUST happen before any pm_context_active calls occur */ kbase_hwaccess_pm_resume(kbdev); /* Initial active call, to power on the GPU/cores if needed */ #ifdef CONFIG_MALI_ARBITER_SUPPORT if (kbase_pm_context_active_handle_suspend(kbdev, (arb_gpu_start ? KBASE_PM_SUSPEND_HANDLER_VM_GPU_GRANTED : KBASE_PM_SUSPEND_HANDLER_NOT_POSSIBLE))) return; #else kbase_pm_context_active(kbdev); #endif #if !MALI_USE_CSF /* Resume any blocked atoms (which may cause contexts to be scheduled in * and dependent atoms to run) */ kbase_resume_suspended_soft_jobs(kbdev); /* Resume the Job Scheduler and associated components, and start running * atoms */ kbasep_js_resume(kbdev); #endif /* Matching idle call, to power off the GPU/cores if we didn't actually * need it and the policy doesn't want it on */ kbase_pm_context_idle(kbdev); /* Re-enable GPU hardware counters */ #if MALI_USE_CSF kbase_csf_scheduler_spin_lock(kbdev, &flags); kbase_hwcnt_context_enable(kbdev->hwcnt_gpu_ctx); kbase_csf_scheduler_spin_unlock(kbdev, flags); #else spin_lock_irqsave(&kbdev->hwaccess_lock, flags); kbase_hwcnt_context_enable(kbdev->hwcnt_gpu_ctx); spin_unlock_irqrestore(&kbdev->hwaccess_lock, flags); #endif /* Resume HW counters intermediaries. */ kbase_vinstr_resume(kbdev->vinstr_ctx); kbase_kinstr_prfcnt_resume(kbdev->kinstr_prfcnt_ctx); } int kbase_pm_suspend(struct kbase_device *kbdev) { int result = 0; #ifdef CONFIG_MALI_ARBITER_SUPPORT if (kbdev->arb.arb_if) kbase_arbiter_pm_vm_event(kbdev, KBASE_VM_OS_SUSPEND_EVENT); else result = kbase_pm_driver_suspend(kbdev); #else result = kbase_pm_driver_suspend(kbdev); #endif /* CONFIG_MALI_ARBITER_SUPPORT */ return result; } void kbase_pm_resume(struct kbase_device *kbdev) { #ifdef CONFIG_MALI_ARBITER_SUPPORT if (kbdev->arb.arb_if) kbase_arbiter_pm_vm_event(kbdev, KBASE_VM_OS_RESUME_EVENT); else kbase_pm_driver_resume(kbdev, false); #else kbase_pm_driver_resume(kbdev, false); #endif /* CONFIG_MALI_ARBITER_SUPPORT */ }