#include #include struct neighborhood neigh_info[NR_CPUS]; /* called by _init_litmus() */ void init_topology(void) { int cpu; int i; int chk; int depth = num_cache_leaves; if (depth > NUM_CACHE_LEVELS) depth = NUM_CACHE_LEVELS; for_each_online_cpu(cpu) { for (i = 0; i < depth; ++i) { long unsigned int firstbits; chk = get_shared_cpu_map((struct cpumask *)&neigh_info[cpu].neighbors[i], cpu, i); if (chk) { /* failed */ neigh_info[cpu].size[i] = 0; } else { /* size = num bits in mask */ neigh_info[cpu].size[i] = cpumask_weight((struct cpumask *)&neigh_info[cpu].neighbors[i]); } firstbits = *neigh_info[cpu].neighbors[i]->bits; printk("CPU %d has %d neighbors at level %d. (mask = %lx)\n", cpu, neigh_info[cpu].size[i], i, firstbits); } /* set data for non-existent levels */ for (; i < NUM_CACHE_LEVELS; ++i) { neigh_info[cpu].size[i] = 0; printk("CPU %d has %d neighbors at level %d. (mask = %lx)\n", cpu, neigh_info[cpu].size[i], i, 0lu); } } }