cyclic_t
cyclic_t *cyc;
cyc = mdb_alloc(sizeof (cyclic_t) * cpu.cyp_size, UM_SLEEP | UM_GC);
if (mdb_vread(cyc, sizeof (cyclic_t) * cpu.cyp_size, caddr) == -1) {
mdb_printf("%0?p %3d ", caddr + i * sizeof (cyclic_t), i);
uintptr_t cyc_addr = caddr + buf[i] * sizeof (cyclic_t);
caddr + buf[i] * sizeof (cyclic_t));
cyclic_t c;
cyclic_t cyc;
if (mdb_vread(&cyc, sizeof (cyclic_t), addr) == -1) {
cyclic_t cyc;
caddr = (uintptr_t)cpu.cyp_cyclics + ndx * sizeof (cyclic_t);
cyclic_remove_pend(cyc_cpu_t *cpu, cyc_level_t level, cyclic_t *cyclic)
DTRACE_PROBE1(cyclic__start, cyclic_t *, cyclic);
DTRACE_PROBE1(cyclic__end, cyclic_t *, cyclic);
cyclic_t *cyclics = cpu->cyp_cyclics;
cyclic_t *cyclic = &cyclics[buf[consmasked]];
DTRACE_PROBE1(cyclic__start, cyclic_t *, cyclic);
DTRACE_PROBE1(cyclic__end, cyclic_t *, cyclic);
cyclic_t *cyclics = cpu->cyp_cyclics, *new_cyclics = arg->cyx_cyclics;
bcopy(cyclics, new_cyclics, sizeof (cyclic_t) * size);
cyclic_t *new_cyclics, *old_cyclics;
new_cyclics = kmem_zalloc(sizeof (cyclic_t) * new_size, KM_SLEEP);
kmem_free(old_cyclics, sizeof (cyclic_t) * old_size);
cyclic_t *cyclic;
cyclic_t *cyclic;
cyclic_t *cyclic = &cpu->cyp_cyclics[ndx];
cyclic_t *cyclic;
cyclic_t *cyclic;
cyclic_t *cyclic = &cpu->cyp_cyclics[ndx];
cyclic_t *cyclic = &cpu->cyp_cyclics[idp->cyi_ndx];
cyclic_t *cyclic = &cpu->cyp_cyclics[idp->cyi_ndx];
cyclic_t *cyc = &cpu->cyp_cyclics[idp->cyi_ndx];
cyclic_t *cyc = &cpu->cyp_cyclics[idp->cyi_ndx];
cpu->cyp_cyclics = kmem_zalloc(sizeof (cyclic_t), KM_SLEEP);
kmem_free(cpu->cyp_cyclics, cpu->cyp_size * sizeof (cyclic_t));
cyclic_t *cyclic = &cpu->cyp_cyclics[cpu->cyp_heap[0]];
cyclic_t *cyclic;
cyclic_t *cyclic, *cyclics = cpu->cyp_cyclics;
cyclic_t *cyclics;
cyclic_t *cyclics = cpu->cyp_cyclics;
cyclic_expire(cyc_cpu_t *cpu, cyc_index_t ndx, cyclic_t *cyclic)
DTRACE_PROBE1(cyclic__start, cyclic_t *, cyclic);
DTRACE_PROBE1(cyclic__end, cyclic_t *, cyclic);
cyclic_t *cyclic, *cyclics = cpu->cyp_cyclics;
cyclic_t *cyp_cyclics;
cyclic_t *cyx_cyclics;