// SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note /* * * (C) COPYRIGHT 2018-2021 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. * */ #include "mali_kbase_hwcnt_backend_jm.h" #include "mali_kbase_hwcnt_gpu.h" #include "mali_kbase_hwcnt_types.h" #include "mali_kbase.h" #include "backend/gpu/mali_kbase_pm_ca.h" #include "mali_kbase_hwaccess_instr.h" #include "mali_kbase_hwaccess_time.h" #include "mali_kbase_ccswe.h" #include "backend/gpu/mali_kbase_clk_rate_trace_mgr.h" #include "backend/gpu/mali_kbase_pm_internal.h" /** * struct kbase_hwcnt_backend_jm_info - Information used to create an instance * of a JM hardware counter backend. * @kbdev: KBase device. * @counter_set: The performance counter set to use. * @metadata: Hardware counter metadata. * @dump_bytes: Bytes of GPU memory required to perform a * hardware counter dump. */ struct kbase_hwcnt_backend_jm_info { struct kbase_device *kbdev; enum kbase_hwcnt_set counter_set; const struct kbase_hwcnt_metadata *metadata; size_t dump_bytes; }; /** * struct kbase_hwcnt_backend_jm - Instance of a JM hardware counter backend. * @info: Info used to create the backend. * @kctx: KBase context used for GPU memory allocation and * counter dumping. * @gpu_dump_va: GPU hardware counter dump buffer virtual address. * @cpu_dump_va: CPU mapping of gpu_dump_va. * @vmap: Dump buffer vmap. * @enabled: True if dumping has been enabled, else false. * @pm_core_mask: PM state sync-ed shaders core mask for the enabled * dumping. * @curr_config: Current allocated hardware resources to correctly map the src * raw dump buffer to the dst dump buffer. * @clk_enable_map: The enable map specifying enabled clock domains. * @cycle_count_elapsed: * Cycle count elapsed for a given sample period. * The top clock cycle, index 0, is read directly from * hardware, but the other clock domains need to be * calculated with software estimation. * @prev_cycle_count: Previous cycle count to calculate the cycle count for * sample period. * @rate_listener: Clock rate listener callback state. * @ccswe_shader_cores: Shader cores cycle count software estimator. */ struct kbase_hwcnt_backend_jm { const struct kbase_hwcnt_backend_jm_info *info; struct kbase_context *kctx; u64 gpu_dump_va; void *cpu_dump_va; struct kbase_vmap_struct *vmap; bool enabled; u64 pm_core_mask; struct kbase_hwcnt_curr_config curr_config; u64 clk_enable_map; u64 cycle_count_elapsed[BASE_MAX_NR_CLOCKS_REGULATORS]; u64 prev_cycle_count[BASE_MAX_NR_CLOCKS_REGULATORS]; struct kbase_clk_rate_listener rate_listener; struct kbase_ccswe ccswe_shader_cores; }; /** * kbasep_hwcnt_backend_jm_gpu_info_init() - Initialise an info structure used * to create the hwcnt metadata. * @kbdev: Non-NULL pointer to kbase device. * @info: Non-NULL pointer to data structure to be filled in. * * The initialised info struct will only be valid for use while kbdev is valid. */ static int kbasep_hwcnt_backend_jm_gpu_info_init(struct kbase_device *kbdev, struct kbase_hwcnt_gpu_info *info) { size_t clk; if (!kbdev || !info) return -EINVAL; { const struct base_gpu_props *props = &kbdev->gpu_props.props; const size_t l2_count = props->l2_props.num_l2_slices; const size_t core_mask = props->coherency_info.group[0].core_mask; info->l2_count = l2_count; info->core_mask = core_mask; info->prfcnt_values_per_block = KBASE_HWCNT_V5_DEFAULT_VALUES_PER_BLOCK; } /* Determine the number of available clock domains. */ for (clk = 0; clk < BASE_MAX_NR_CLOCKS_REGULATORS; clk++) { if (kbdev->pm.clk_rtm.clks[clk] == NULL) break; } info->clk_cnt = clk; return 0; } /** * kbasep_hwcnt_backend_jm_on_freq_change() - On freq change callback * * @rate_listener: Callback state * @clk_index: Clock index * @clk_rate_hz: Clock frequency(hz) */ static void kbasep_hwcnt_backend_jm_on_freq_change( struct kbase_clk_rate_listener *rate_listener, u32 clk_index, u32 clk_rate_hz) { struct kbase_hwcnt_backend_jm *backend_jm = container_of( rate_listener, struct kbase_hwcnt_backend_jm, rate_listener); u64 timestamp_ns; if (clk_index != KBASE_CLOCK_DOMAIN_SHADER_CORES) return; timestamp_ns = ktime_get_raw_ns(); kbase_ccswe_freq_change( &backend_jm->ccswe_shader_cores, timestamp_ns, clk_rate_hz); } /** * kbasep_hwcnt_backend_jm_cc_enable() - Enable cycle count tracking * * @backend_jm: Non-NULL pointer to backend. * @enable_map: Non-NULL pointer to enable map specifying enabled counters. * @timestamp_ns: Timestamp(ns) when HWCNT were enabled. */ static void kbasep_hwcnt_backend_jm_cc_enable( struct kbase_hwcnt_backend_jm *backend_jm, const struct kbase_hwcnt_enable_map *enable_map, u64 timestamp_ns) { struct kbase_device *kbdev = backend_jm->kctx->kbdev; u64 clk_enable_map = enable_map->clk_enable_map; u64 cycle_count; if (kbase_hwcnt_clk_enable_map_enabled( clk_enable_map, KBASE_CLOCK_DOMAIN_TOP)) { /* turn on the cycle counter */ kbase_pm_request_gpu_cycle_counter_l2_is_on(kbdev); /* Read cycle count for top clock domain. */ kbase_backend_get_gpu_time_norequest( kbdev, &cycle_count, NULL, NULL); backend_jm->prev_cycle_count[KBASE_CLOCK_DOMAIN_TOP] = cycle_count; } if (kbase_hwcnt_clk_enable_map_enabled( clk_enable_map, KBASE_CLOCK_DOMAIN_SHADER_CORES)) { /* software estimation for non-top clock domains */ struct kbase_clk_rate_trace_manager *rtm = &kbdev->pm.clk_rtm; const struct kbase_clk_data *clk_data = rtm->clks[KBASE_CLOCK_DOMAIN_SHADER_CORES]; u32 cur_freq; unsigned long flags; spin_lock_irqsave(&rtm->lock, flags); cur_freq = (u32) clk_data->clock_val; kbase_ccswe_reset(&backend_jm->ccswe_shader_cores); kbase_ccswe_freq_change( &backend_jm->ccswe_shader_cores, timestamp_ns, cur_freq); kbase_clk_rate_trace_manager_subscribe_no_lock( rtm, &backend_jm->rate_listener); spin_unlock_irqrestore(&rtm->lock, flags); /* ccswe was reset. The estimated cycle is zero. */ backend_jm->prev_cycle_count[ KBASE_CLOCK_DOMAIN_SHADER_CORES] = 0; } /* Keep clk_enable_map for dump_request. */ backend_jm->clk_enable_map = clk_enable_map; } /** * kbasep_hwcnt_backend_jm_cc_disable() - Disable cycle count tracking * * @backend_jm: Non-NULL pointer to backend. */ static void kbasep_hwcnt_backend_jm_cc_disable( struct kbase_hwcnt_backend_jm *backend_jm) { struct kbase_device *kbdev = backend_jm->kctx->kbdev; struct kbase_clk_rate_trace_manager *rtm = &kbdev->pm.clk_rtm; u64 clk_enable_map = backend_jm->clk_enable_map; if (kbase_hwcnt_clk_enable_map_enabled( clk_enable_map, KBASE_CLOCK_DOMAIN_TOP)) { /* turn off the cycle counter */ kbase_pm_release_gpu_cycle_counter(kbdev); } if (kbase_hwcnt_clk_enable_map_enabled( clk_enable_map, KBASE_CLOCK_DOMAIN_SHADER_CORES)) { kbase_clk_rate_trace_manager_unsubscribe( rtm, &backend_jm->rate_listener); } } /** * kbasep_hwcnt_gpu_update_curr_config() - Update the destination buffer with * current config information. * @kbdev: Non-NULL pointer to kbase device. * @curr_config: Non-NULL pointer to return the current configuration of * hardware allocated to the GPU. * * The current configuration information is used for architectures where the * max_config interface is available from the Arbiter. In this case the current * allocated hardware is not always the same, so the current config information * is used to correctly map the current allocated resources to the memory layout * that is copied to the user space. * * Return: 0 on success, else error code. */ static int kbasep_hwcnt_gpu_update_curr_config( struct kbase_device *kbdev, struct kbase_hwcnt_curr_config *curr_config) { if (WARN_ON(!kbdev) || WARN_ON(!curr_config)) return -EINVAL; lockdep_assert_held(&kbdev->hwaccess_lock); curr_config->num_l2_slices = kbdev->gpu_props.curr_config.l2_slices; curr_config->shader_present = kbdev->gpu_props.curr_config.shader_present; return 0; } /* JM backend implementation of kbase_hwcnt_backend_timestamp_ns_fn */ static u64 kbasep_hwcnt_backend_jm_timestamp_ns( struct kbase_hwcnt_backend *backend) { (void)backend; return ktime_get_raw_ns(); } /* JM backend implementation of kbase_hwcnt_backend_dump_enable_nolock_fn */ static int kbasep_hwcnt_backend_jm_dump_enable_nolock( struct kbase_hwcnt_backend *backend, const struct kbase_hwcnt_enable_map *enable_map) { int errcode; struct kbase_hwcnt_backend_jm *backend_jm = (struct kbase_hwcnt_backend_jm *)backend; struct kbase_context *kctx; struct kbase_device *kbdev; struct kbase_hwcnt_physical_enable_map phys_enable_map; enum kbase_hwcnt_physical_set phys_counter_set; struct kbase_instr_hwcnt_enable enable; u64 timestamp_ns; if (!backend_jm || !enable_map || backend_jm->enabled || (enable_map->metadata != backend_jm->info->metadata)) return -EINVAL; kctx = backend_jm->kctx; kbdev = backend_jm->kctx->kbdev; lockdep_assert_held(&kbdev->hwaccess_lock); kbase_hwcnt_gpu_enable_map_to_physical(&phys_enable_map, enable_map); kbase_hwcnt_gpu_set_to_physical(&phys_counter_set, backend_jm->info->counter_set); enable.fe_bm = phys_enable_map.fe_bm; enable.shader_bm = phys_enable_map.shader_bm; enable.tiler_bm = phys_enable_map.tiler_bm; enable.mmu_l2_bm = phys_enable_map.mmu_l2_bm; enable.counter_set = phys_counter_set; enable.dump_buffer = backend_jm->gpu_dump_va; enable.dump_buffer_bytes = backend_jm->info->dump_bytes; timestamp_ns = kbasep_hwcnt_backend_jm_timestamp_ns(backend); /* Update the current configuration information. */ errcode = kbasep_hwcnt_gpu_update_curr_config(kbdev, &backend_jm->curr_config); if (errcode) goto error; errcode = kbase_instr_hwcnt_enable_internal(kbdev, kctx, &enable); if (errcode) goto error; backend_jm->pm_core_mask = kbase_pm_ca_get_instr_core_mask(kbdev); backend_jm->enabled = true; kbasep_hwcnt_backend_jm_cc_enable(backend_jm, enable_map, timestamp_ns); return 0; error: return errcode; } /* JM backend implementation of kbase_hwcnt_backend_dump_enable_fn */ static int kbasep_hwcnt_backend_jm_dump_enable( struct kbase_hwcnt_backend *backend, const struct kbase_hwcnt_enable_map *enable_map) { unsigned long flags; int errcode; struct kbase_hwcnt_backend_jm *backend_jm = (struct kbase_hwcnt_backend_jm *)backend; struct kbase_device *kbdev; if (!backend_jm) return -EINVAL; kbdev = backend_jm->kctx->kbdev; spin_lock_irqsave(&kbdev->hwaccess_lock, flags); errcode = kbasep_hwcnt_backend_jm_dump_enable_nolock( backend, enable_map); spin_unlock_irqrestore(&kbdev->hwaccess_lock, flags); return errcode; } /* JM backend implementation of kbase_hwcnt_backend_dump_disable_fn */ static void kbasep_hwcnt_backend_jm_dump_disable( struct kbase_hwcnt_backend *backend) { int errcode; struct kbase_hwcnt_backend_jm *backend_jm = (struct kbase_hwcnt_backend_jm *)backend; if (WARN_ON(!backend_jm) || !backend_jm->enabled) return; kbasep_hwcnt_backend_jm_cc_disable(backend_jm); errcode = kbase_instr_hwcnt_disable_internal(backend_jm->kctx); WARN_ON(errcode); backend_jm->enabled = false; } /* JM backend implementation of kbase_hwcnt_backend_dump_clear_fn */ static int kbasep_hwcnt_backend_jm_dump_clear( struct kbase_hwcnt_backend *backend) { struct kbase_hwcnt_backend_jm *backend_jm = (struct kbase_hwcnt_backend_jm *)backend; if (!backend_jm || !backend_jm->enabled) return -EINVAL; return kbase_instr_hwcnt_clear(backend_jm->kctx); } /* JM backend implementation of kbase_hwcnt_backend_dump_request_fn */ static int kbasep_hwcnt_backend_jm_dump_request( struct kbase_hwcnt_backend *backend, u64 *dump_time_ns) { struct kbase_hwcnt_backend_jm *backend_jm = (struct kbase_hwcnt_backend_jm *)backend; struct kbase_device *kbdev; const struct kbase_hwcnt_metadata *metadata; u64 current_cycle_count; size_t clk; int ret; if (!backend_jm || !backend_jm->enabled || !dump_time_ns) return -EINVAL; kbdev = backend_jm->kctx->kbdev; metadata = backend_jm->info->metadata; /* Disable pre-emption, to make the timestamp as accurate as possible */ preempt_disable(); { *dump_time_ns = kbasep_hwcnt_backend_jm_timestamp_ns(backend); ret = kbase_instr_hwcnt_request_dump(backend_jm->kctx); kbase_hwcnt_metadata_for_each_clock(metadata, clk) { if (!kbase_hwcnt_clk_enable_map_enabled( backend_jm->clk_enable_map, clk)) continue; if (clk == KBASE_CLOCK_DOMAIN_TOP) { /* Read cycle count for top clock domain. */ kbase_backend_get_gpu_time_norequest( kbdev, ¤t_cycle_count, NULL, NULL); } else { /* * Estimate cycle count for non-top clock * domain. */ current_cycle_count = kbase_ccswe_cycle_at( &backend_jm->ccswe_shader_cores, *dump_time_ns); } backend_jm->cycle_count_elapsed[clk] = current_cycle_count - backend_jm->prev_cycle_count[clk]; /* * Keep the current cycle count for later calculation. */ backend_jm->prev_cycle_count[clk] = current_cycle_count; } } preempt_enable(); return ret; } /* JM backend implementation of kbase_hwcnt_backend_dump_wait_fn */ static int kbasep_hwcnt_backend_jm_dump_wait( struct kbase_hwcnt_backend *backend) { struct kbase_hwcnt_backend_jm *backend_jm = (struct kbase_hwcnt_backend_jm *)backend; if (!backend_jm || !backend_jm->enabled) return -EINVAL; return kbase_instr_hwcnt_wait_for_dump(backend_jm->kctx); } /* JM backend implementation of kbase_hwcnt_backend_dump_get_fn */ static int kbasep_hwcnt_backend_jm_dump_get( struct kbase_hwcnt_backend *backend, struct kbase_hwcnt_dump_buffer *dst, const struct kbase_hwcnt_enable_map *dst_enable_map, bool accumulate) { struct kbase_hwcnt_backend_jm *backend_jm = (struct kbase_hwcnt_backend_jm *)backend; size_t clk; if (!backend_jm || !dst || !dst_enable_map || (backend_jm->info->metadata != dst->metadata) || (dst_enable_map->metadata != dst->metadata)) return -EINVAL; /* Invalidate the kernel buffer before reading from it. */ kbase_sync_mem_regions( backend_jm->kctx, backend_jm->vmap, KBASE_SYNC_TO_CPU); kbase_hwcnt_metadata_for_each_clock(dst_enable_map->metadata, clk) { if (!kbase_hwcnt_clk_enable_map_enabled( dst_enable_map->clk_enable_map, clk)) continue; /* Extract elapsed cycle count for each clock domain. */ dst->clk_cnt_buf[clk] = backend_jm->cycle_count_elapsed[clk]; } return kbase_hwcnt_jm_dump_get(dst, backend_jm->cpu_dump_va, dst_enable_map, backend_jm->pm_core_mask, &backend_jm->curr_config, accumulate); } /** * kbasep_hwcnt_backend_jm_dump_alloc() - Allocate a GPU dump buffer. * @info: Non-NULL pointer to JM backend info. * @kctx: Non-NULL pointer to kbase context. * @gpu_dump_va: Non-NULL pointer to where GPU dump buffer virtual address * is stored on success. * * Return: 0 on success, else error code. */ static int kbasep_hwcnt_backend_jm_dump_alloc( const struct kbase_hwcnt_backend_jm_info *info, struct kbase_context *kctx, u64 *gpu_dump_va) { struct kbase_va_region *reg; u64 flags; u64 nr_pages; WARN_ON(!info); WARN_ON(!kctx); WARN_ON(!gpu_dump_va); flags = BASE_MEM_PROT_CPU_RD | BASE_MEM_PROT_GPU_WR | BASEP_MEM_PERMANENT_KERNEL_MAPPING | BASE_MEM_CACHED_CPU | BASE_MEM_UNCACHED_GPU; nr_pages = PFN_UP(info->dump_bytes); reg = kbase_mem_alloc(kctx, nr_pages, nr_pages, 0, &flags, gpu_dump_va); if (!reg) return -ENOMEM; return 0; } /** * kbasep_hwcnt_backend_jm_dump_free() - Free an allocated GPU dump buffer. * @kctx: Non-NULL pointer to kbase context. * @gpu_dump_va: GPU dump buffer virtual address. */ static void kbasep_hwcnt_backend_jm_dump_free( struct kbase_context *kctx, u64 gpu_dump_va) { WARN_ON(!kctx); if (gpu_dump_va) kbase_mem_free(kctx, gpu_dump_va); } /** * kbasep_hwcnt_backend_jm_destroy() - Destroy a JM backend. * @backend: Pointer to JM backend to destroy. * * Can be safely called on a backend in any state of partial construction. */ static void kbasep_hwcnt_backend_jm_destroy( struct kbase_hwcnt_backend_jm *backend) { if (!backend) return; if (backend->kctx) { struct kbase_context *kctx = backend->kctx; struct kbase_device *kbdev = kctx->kbdev; if (backend->cpu_dump_va) kbase_phy_alloc_mapping_put(kctx, backend->vmap); if (backend->gpu_dump_va) kbasep_hwcnt_backend_jm_dump_free( kctx, backend->gpu_dump_va); kbasep_js_release_privileged_ctx(kbdev, kctx); kbase_destroy_context(kctx); } kfree(backend); } /** * kbasep_hwcnt_backend_jm_create() - Create a JM backend. * @info: Non-NULL pointer to backend info. * @out_backend: Non-NULL pointer to where backend is stored on success. * * Return: 0 on success, else error code. */ static int kbasep_hwcnt_backend_jm_create( const struct kbase_hwcnt_backend_jm_info *info, struct kbase_hwcnt_backend_jm **out_backend) { int errcode; struct kbase_device *kbdev; struct kbase_hwcnt_backend_jm *backend = NULL; WARN_ON(!info); WARN_ON(!out_backend); kbdev = info->kbdev; backend = kzalloc(sizeof(*backend), GFP_KERNEL); if (!backend) goto alloc_error; backend->info = info; backend->kctx = kbase_create_context(kbdev, true, BASE_CONTEXT_SYSTEM_MONITOR_SUBMIT_DISABLED, 0, NULL); if (!backend->kctx) goto alloc_error; kbasep_js_schedule_privileged_ctx(kbdev, backend->kctx); errcode = kbasep_hwcnt_backend_jm_dump_alloc( info, backend->kctx, &backend->gpu_dump_va); if (errcode) goto error; backend->cpu_dump_va = kbase_phy_alloc_mapping_get(backend->kctx, backend->gpu_dump_va, &backend->vmap); if (!backend->cpu_dump_va) goto alloc_error; kbase_ccswe_init(&backend->ccswe_shader_cores); backend->rate_listener.notify = kbasep_hwcnt_backend_jm_on_freq_change; *out_backend = backend; return 0; alloc_error: errcode = -ENOMEM; error: kbasep_hwcnt_backend_jm_destroy(backend); return errcode; } /* JM backend implementation of kbase_hwcnt_backend_metadata_fn */ static const struct kbase_hwcnt_metadata * kbasep_hwcnt_backend_jm_metadata(const struct kbase_hwcnt_backend_info *info) { if (!info) return NULL; return ((const struct kbase_hwcnt_backend_jm_info *)info)->metadata; } /* JM backend implementation of kbase_hwcnt_backend_init_fn */ static int kbasep_hwcnt_backend_jm_init( const struct kbase_hwcnt_backend_info *info, struct kbase_hwcnt_backend **out_backend) { int errcode; struct kbase_hwcnt_backend_jm *backend = NULL; if (!info || !out_backend) return -EINVAL; errcode = kbasep_hwcnt_backend_jm_create( (const struct kbase_hwcnt_backend_jm_info *) info, &backend); if (errcode) return errcode; *out_backend = (struct kbase_hwcnt_backend *)backend; return 0; } /* JM backend implementation of kbase_hwcnt_backend_term_fn */ static void kbasep_hwcnt_backend_jm_term(struct kbase_hwcnt_backend *backend) { if (!backend) return; kbasep_hwcnt_backend_jm_dump_disable(backend); kbasep_hwcnt_backend_jm_destroy( (struct kbase_hwcnt_backend_jm *)backend); } /** * kbasep_hwcnt_backend_jm_info_destroy() - Destroy a JM backend info. * @info: Pointer to info to destroy. * * Can be safely called on a backend info in any state of partial construction. */ static void kbasep_hwcnt_backend_jm_info_destroy( const struct kbase_hwcnt_backend_jm_info *info) { if (!info) return; kbase_hwcnt_jm_metadata_destroy(info->metadata); kfree(info); } /** * kbasep_hwcnt_backend_jm_info_create() - Create a JM backend info. * @kbdev: Non_NULL pointer to kbase device. * @out_info: Non-NULL pointer to where info is stored on success. * * Return 0 on success, else error code. */ static int kbasep_hwcnt_backend_jm_info_create( struct kbase_device *kbdev, const struct kbase_hwcnt_backend_jm_info **out_info) { int errcode = -ENOMEM; struct kbase_hwcnt_gpu_info hwcnt_gpu_info; struct kbase_hwcnt_backend_jm_info *info = NULL; WARN_ON(!kbdev); WARN_ON(!out_info); errcode = kbasep_hwcnt_backend_jm_gpu_info_init(kbdev, &hwcnt_gpu_info); if (errcode) return errcode; info = kzalloc(sizeof(*info), GFP_KERNEL); if (!info) goto error; info->kbdev = kbdev; #ifdef CONFIG_MALI_BIFROST_PRFCNT_SET_SECONDARY info->counter_set = KBASE_HWCNT_SET_SECONDARY; #elif defined(CONFIG_MALI_PRFCNT_SET_TERTIARY) info->counter_set = KBASE_HWCNT_SET_TERTIARY; #else /* Default to primary */ info->counter_set = KBASE_HWCNT_SET_PRIMARY; #endif errcode = kbase_hwcnt_jm_metadata_create(&hwcnt_gpu_info, info->counter_set, &info->metadata, &info->dump_bytes); if (errcode) goto error; *out_info = info; return 0; error: kbasep_hwcnt_backend_jm_info_destroy(info); return errcode; } int kbase_hwcnt_backend_jm_create( struct kbase_device *kbdev, struct kbase_hwcnt_backend_interface *iface) { int errcode; const struct kbase_hwcnt_backend_jm_info *info = NULL; if (!kbdev || !iface) return -EINVAL; errcode = kbasep_hwcnt_backend_jm_info_create(kbdev, &info); if (errcode) return errcode; iface->info = (struct kbase_hwcnt_backend_info *)info; iface->metadata = kbasep_hwcnt_backend_jm_metadata; iface->init = kbasep_hwcnt_backend_jm_init; iface->term = kbasep_hwcnt_backend_jm_term; iface->timestamp_ns = kbasep_hwcnt_backend_jm_timestamp_ns; iface->dump_enable = kbasep_hwcnt_backend_jm_dump_enable; iface->dump_enable_nolock = kbasep_hwcnt_backend_jm_dump_enable_nolock; iface->dump_disable = kbasep_hwcnt_backend_jm_dump_disable; iface->dump_clear = kbasep_hwcnt_backend_jm_dump_clear; iface->dump_request = kbasep_hwcnt_backend_jm_dump_request; iface->dump_wait = kbasep_hwcnt_backend_jm_dump_wait; iface->dump_get = kbasep_hwcnt_backend_jm_dump_get; return 0; } void kbase_hwcnt_backend_jm_destroy( struct kbase_hwcnt_backend_interface *iface) { if (!iface) return; kbasep_hwcnt_backend_jm_info_destroy( (const struct kbase_hwcnt_backend_jm_info *)iface->info); memset(iface, 0, sizeof(*iface)); }