MAXMIN
if ((mrp->my_fsid & MAXMIN) == ksp->ks_instance)
if (minno == (minor_t)-1 || minno > MAXMIN) {
"'%s' - valid range is 0-%lu\n", argv[4], MAXMIN);
#define noparttn(x) (x & (MAXMIN & ~(V_NUMPAR-1)))
return (devnum & MAXMIN);
#if MAXMIN != 0xfffffffful /* assumes minor_t == uint32_t */
if (mindev > MAXMIN) {
((mrp->nml_fsid & MAXMIN) != ksp->ks_instance)) {
return ((minor_t)(dev & MAXMIN));
return (((dev_t)maj << NBITSMINOR) | (minor & MAXMIN));
if (big_count > MAXMIN) {
regs[rd] = tupregs[0].dttk_value & MAXMIN;
m = dtrace_load32(maddr + dev) & MAXMIN;
ASSERT((dev != OPENFAIL) && (dev != 0) && (dev <= MAXMIN));
INET_MIN_DEV + 2, MAXMIN, KM_SLEEP)) == NULL) {
keysock_vmem = vmem_create("keysock", (void *)1, MAXMIN, 1,
spdsock_vmem = vmem_create("spdsock", (void *)1, MAXMIN, 1,
if ((dev != OPENFAIL) && (dev != 0) && (dev <= MAXMIN))
INET_MIN_DEV, MAXMIN, KM_SLEEP);
dev = MAXMIN + ++mi_head->mh_module_dev;
if (dev <= MAXMIN) {
dev = MAXMIN + 1;
ASSERT(dptblsize <= MAXMIN);
if ((oldsize = dptblsize) >= MAXMIN) {
if (dptblsize > MAXMIN) {
dptblsize = MAXMIN;
if (logdmux_maxminor == MAXMIN) {
logdmux_maxminor = MIN(logdmux_maxminor << 1, MAXMIN);
return ((minor_t)(dev & MAXMIN));
return ((minor_t)(dev & MAXMIN));
return (((dev_t)maj << NBITSMINOR) | (minor & MAXMIN));
minor_d = dev & MAXMIN;