1#!/usr/bin/env drgn 2# 3# Copyright (C) 2023 Tejun Heo <tj@kernel.org> 4# Copyright (C) 2023 Meta Platforms, Inc. and affiliates. 5 6desc = """ 7This is a drgn script to show the current workqueue configuration. For more 8info on drgn, visit https://github.com/osandov/drgn. 9 10Affinity Scopes 11=============== 12 13Shows the CPUs that can be used for unbound workqueues and how they will be 14grouped by each available affinity type. For each type: 15 16 nr_pods number of CPU pods in the affinity type 17 pod_cpus CPUs in each pod 18 pod_node NUMA node for memory allocation for each pod 19 cpu_pod pod that each CPU is associated to 20 21Worker Pools 22============ 23 24Lists all worker pools indexed by their ID. For each pool: 25 26 ref number of pool_workqueue's associated with this pool 27 nice nice value of the worker threads in the pool 28 idle number of idle workers 29 workers number of all workers 30 cpu CPU the pool is associated with (per-cpu pool) 31 cpus CPUs the workers in the pool can run on (unbound pool) 32 33Workqueue CPU -> pool 34===================== 35 36Lists all workqueues along with their type and worker pool association. For 37each workqueue: 38 39 NAME TYPE[,FLAGS] POOL_ID... 40 41 NAME name of the workqueue 42 TYPE percpu, unbound or ordered 43 FLAGS S: strict affinity scope 44 POOL_ID worker pool ID associated with each possible CPU 45""" 46 47import sys 48 49import drgn 50from drgn.helpers.linux.list import list_for_each_entry,list_empty 51from drgn.helpers.linux.percpu import per_cpu_ptr 52from drgn.helpers.linux.cpumask import for_each_cpu,for_each_possible_cpu 53from drgn.helpers.linux.idr import idr_for_each 54 55import argparse 56parser = argparse.ArgumentParser(description=desc, 57 formatter_class=argparse.RawTextHelpFormatter) 58args = parser.parse_args() 59 60def err(s): 61 print(s, file=sys.stderr, flush=True) 62 sys.exit(1) 63 64def cpumask_str(cpumask): 65 output = "" 66 base = 0 67 v = 0 68 for cpu in for_each_cpu(cpumask[0]): 69 while cpu - base >= 32: 70 output += f'{hex(v)} ' 71 base += 32 72 v = 0 73 v |= 1 << (cpu - base) 74 if v > 0: 75 output += f'{v:08x}' 76 return output.strip() 77 78worker_pool_idr = prog['worker_pool_idr'] 79workqueues = prog['workqueues'] 80wq_unbound_cpumask = prog['wq_unbound_cpumask'] 81wq_pod_types = prog['wq_pod_types'] 82wq_affn_dfl = prog['wq_affn_dfl'] 83wq_affn_names = prog['wq_affn_names'] 84 85WQ_UNBOUND = prog['WQ_UNBOUND'] 86WQ_ORDERED = prog['__WQ_ORDERED'] 87WQ_MEM_RECLAIM = prog['WQ_MEM_RECLAIM'] 88 89WQ_AFFN_CPU = prog['WQ_AFFN_CPU'] 90WQ_AFFN_SMT = prog['WQ_AFFN_SMT'] 91WQ_AFFN_CACHE = prog['WQ_AFFN_CACHE'] 92WQ_AFFN_NUMA = prog['WQ_AFFN_NUMA'] 93WQ_AFFN_SYSTEM = prog['WQ_AFFN_SYSTEM'] 94 95print('Affinity Scopes') 96print('===============') 97 98print(f'wq_unbound_cpumask={cpumask_str(wq_unbound_cpumask)}') 99 100def print_pod_type(pt): 101 print(f' nr_pods {pt.nr_pods.value_()}') 102 103 print(' pod_cpus', end='') 104 for pod in range(pt.nr_pods): 105 print(f' [{pod}]={cpumask_str(pt.pod_cpus[pod])}', end='') 106 print('') 107 108 print(' pod_node', end='') 109 for pod in range(pt.nr_pods): 110 print(f' [{pod}]={pt.pod_node[pod].value_()}', end='') 111 print('') 112 113 print(f' cpu_pod ', end='') 114 for cpu in for_each_possible_cpu(prog): 115 print(f' [{cpu}]={pt.cpu_pod[cpu].value_()}', end='') 116 print('') 117 118for affn in [WQ_AFFN_CPU, WQ_AFFN_SMT, WQ_AFFN_CACHE, WQ_AFFN_NUMA, WQ_AFFN_SYSTEM]: 119 print('') 120 print(f'{wq_affn_names[affn].string_().decode().upper()}{" (default)" if affn == wq_affn_dfl else ""}') 121 print_pod_type(wq_pod_types[affn]) 122 123print('') 124print('Worker Pools') 125print('============') 126 127max_pool_id_len = 0 128max_ref_len = 0 129for pi, pool in idr_for_each(worker_pool_idr): 130 pool = drgn.Object(prog, 'struct worker_pool', address=pool) 131 max_pool_id_len = max(max_pool_id_len, len(f'{pi}')) 132 max_ref_len = max(max_ref_len, len(f'{pool.refcnt.value_()}')) 133 134for pi, pool in idr_for_each(worker_pool_idr): 135 pool = drgn.Object(prog, 'struct worker_pool', address=pool) 136 print(f'pool[{pi:0{max_pool_id_len}}] ref={pool.refcnt.value_():{max_ref_len}} nice={pool.attrs.nice.value_():3} ', end='') 137 print(f'idle/workers={pool.nr_idle.value_():3}/{pool.nr_workers.value_():3} ', end='') 138 if pool.cpu >= 0: 139 print(f'cpu={pool.cpu.value_():3}', end='') 140 else: 141 print(f'cpus={cpumask_str(pool.attrs.cpumask)}', end='') 142 print(f' pod_cpus={cpumask_str(pool.attrs.__pod_cpumask)}', end='') 143 if pool.attrs.affn_strict: 144 print(' strict', end='') 145 print('') 146 147print('') 148print('Workqueue CPU -> pool') 149print('=====================') 150 151print('[ workqueue \ type CPU', end='') 152for cpu in for_each_possible_cpu(prog): 153 print(f' {cpu:{max_pool_id_len}}', end='') 154print(' dfl]') 155 156for wq in list_for_each_entry('struct workqueue_struct', workqueues.address_of_(), 'list'): 157 print(f'{wq.name.string_().decode()[-24:]:24}', end='') 158 if wq.flags & WQ_UNBOUND: 159 if wq.flags & WQ_ORDERED: 160 print(' ordered ', end='') 161 else: 162 print(' unbound', end='') 163 if wq.unbound_attrs.affn_strict: 164 print(',S ', end='') 165 else: 166 print(' ', end='') 167 else: 168 print(' percpu ', end='') 169 170 for cpu in for_each_possible_cpu(prog): 171 pool_id = per_cpu_ptr(wq.cpu_pwq, cpu)[0].pool.id.value_() 172 field_len = max(len(str(cpu)), max_pool_id_len) 173 print(f' {pool_id:{field_len}}', end='') 174 175 if wq.flags & WQ_UNBOUND: 176 print(f' {wq.dfl_pwq.pool.id.value_():{max_pool_id_len}}', end='') 177 print('') 178