addr_mask
uint8_t addr_mask;
((_a)->addr_mask == (_b)->addr_mask && \
(struct sockaddr *)&(_b)->addr, (_a)->addr_mask) == 0)
((_a)->addr_mask != (_b)->addr_mask || \
(struct sockaddr *)&(_b)->addr, (_a)->addr_mask) != 0)
mv[0] = prefixlen2mask(addr->addr_mask);
prefixlen2mask6(addr->addr_mask, mv);
sa->sa_addrpool->addr_mask != 0)
mask4 = prefixlen2mask(ikecfg->cfg.address.addr_mask);
prefixlen = ikecfg->cfg.address.addr_mask;
mask4 = prefixlen2mask(sa->sa_addrpool->addr_mask);
flow->flow_prenat.addr_mask);
flow->flow_src.addr_mask,
flow->flow_dst.addr_mask,
mask = prefixlen2mask(ikecfg->cfg.address.addr_mask);
mask = (ikecfg->cfg.address.addr_mask >= 96)
? prefixlen2mask(ikecfg->cfg.address.addr_mask - 96)
addr.addr_mask = ikecfg->cfg.address.addr_mask;
patched->addr_mask = 32;
patched->addr_mask = 128;
flow->flow_prenat.addr_mask);
flow->flow_src.addr_mask,
flow->flow_dst.addr_mask,
pol.pol_local.addr_mask = ipa->mask;
pol.pol_peer.addr_mask = ipb->mask;
cfg->cfg.address.addr_mask = ipa->mask;
flow->flow_src.addr_mask = ipa->mask;
flow->flow_dst.addr_mask = ipb->mask;
flow->flow_prenat.addr_mask = ippn->mask;
flow.flow_src.addr_mask =
if (flow.flow_src.addr_mask != 32)
flow.flow_src.addr_mask =
if (flow.flow_src.addr_mask != 128)
flow.flow_dst.addr_mask =
if (flow.flow_src.addr_mask != 32)
flow.flow_dst.addr_mask =
if (flow.flow_src.addr_mask != 128)
flow_src->addr_mask : 32);
flow_src->addr_mask : 128,
flow_dst->addr_mask : 32);
flow_dst->addr_mask : 128,
diff = (int)a->addr_mask - (int)b->addr_mask;
p->pol_peer.addr_mask) != 0)
p->pol_local.addr_mask) != 0)
sa->sa_cp_addr->addr_mask, sa->sa_policy->pol_iface) != 0)
sa->sa_cp_addr6->addr_mask, sa->sa_policy->pol_iface) != 0)
saflow->flow_dst.addr_mask, caddr))
saflow->flow_dst.addr_mask, caddr))
print_verbose("/%d", flow->flow_src.addr_mask);
print_verbose("/%d", flow->flow_dst.addr_mask);
print_verbose("/%d", pol->pol_local.addr_mask);
print_verbose("/%d", pol->pol_peer.addr_mask);
sa->sa_rad_addr->addr_mask = 0;
sa->sa_rad_addr->addr_mask =
if (sa->sa_rad_addr->addr_mask < 32)
if (addr4->addr_mask != 0) {
0xFFFFFFFFUL << (32 - addr4->addr_mask));
addr_mask(addr, *addrlen, *net);
void addr_mask(struct sockaddr_storage* addr, socklen_t len, int net);
u32 addr_mask;
#define IMU_RLC_RAM_GOLDEN_VALUE(ip, inst, reg, data, addr_mask) \
{ ip##_HWIP, inst, reg##_BASE_IDX, reg, data, addr_mask }
reg |= entry->addr_mask;
reg |= entry->addr_mask;
reg |= entry->addr_mask;
struct addr_mask DC_GPIO_DATA_MASK;
struct addr_mask DC_GPIO_DATA_A;
struct addr_mask DC_GPIO_DATA_EN;
struct addr_mask DC_GPIO_DATA_Y;
struct addr_mask GPIO_MUX_CONTROL;
struct addr_mask GPIO_MUX_STEREO_SEL;
u16 flags, u32 addr_mask, u32 ro_mask, u32 device,
.addr_mask = BCM5709_FLASH_BYTE_ADDR_MASK,
u_int32_t addr_mask;
rule->rule_src.addr_mask = $5.prefixlen;
rule->rule_dst.addr_mask = $6.prefixlen;
rule->rule_src.addr_mask);
rule->rule_dst.addr_mask);
u_int8_t addr_mask;
((_a)->addr_mask == (_b)->addr_mask && \
(struct sockaddr *)&(_b)->addr, (_a)->addr_mask) == 0)
(struct sockaddr *)(_b), (_a)->addr_mask)
((_a)->addr_mask != (_b)->addr_mask || \
(struct sockaddr *)&(_b)->addr, (_a)->addr_mask) != 0)
addr_mask((struct sockaddr_storage*)&a4, l4, i);
addr_mask((struct sockaddr_storage*)&a6, l6, 128);
addr_mask((struct sockaddr_storage*)&a6, l6, 122);
addr_mask((struct sockaddr_storage*)&a6, l6, 120);
addr_mask((struct sockaddr_storage*)&a6, l6, 64);
addr_mask((struct sockaddr_storage*)&a6, l6, -100);
addr_mask((struct sockaddr_storage*)&a6, l6, 0);
addr_mask(addr, *addrlen, *net);
void addr_mask(struct sockaddr_storage* addr, socklen_t len, int net);