htonll
probe_pkt.pr_icmp_timestamp = htonll(start_hrtime);
physicalportWWN = htonll(physicalportWWN);
virtualportWWN = htonll(virtualportWWN);
physicalportWWN = htonll(physicalportWWN);
virtualnodeWWN = htonll(virtualnodeWWN);
virtualportWWN = htonll(virtualportWWN);
physicalportWWN = htonll(physicalportWWN);
virtualnodeWWN = htonll(virtualnodeWWN);
virtualportWWN = htonll(virtualportWWN);
hbaWWN = htonll(hbaWWN);
remotePortWWN = htonll(remotePortWWN);
hbaPortWWN = htonll(hbaPortWWN);
hbaWWN = htonll(hbaWWN);
portWWN = htonll(portWWN);
nodeWWN = htonll(nodeWWN);
tmp = htonll(*(uint64_t *)(void *)&block[0]);
*(uint64_t *)(void *)&out_block[0] = htonll(tmp);
tmp = htonll(*(uint64_t *)(void *)&block[0]);
*(uint64_t *)(void *)&out_block[0] = htonll(tmp);
key_so_far = htonll(*(uint64_t *)(void *)&key[0]);
*(uint64_t *)(void *)&corrected_key[0] = htonll(key_so_far);
key_so_far = htonll(*(uint64_t *)(void *)&paritied_key[offset]);
*(uint64_t *)(void *)&paritied_key[offset] = htonll(key_so_far);
htonll(*(uint64_t *)(void *)&cipherKey[j]);
counter = htonll(counter + 1);
counter = htonll(counter + 1);
aes_ctx->ccm_counter_mask = htonll(mask);
ctr_ctx->ctr_lower_mask = htonll(lower_mask);
ctr_ctx->ctr_upper_mask = htonll(upper_mask);
lower_counter = htonll(lower_counter + 1);
upper_counter = htonll(upper_counter + 1);
res[0] = htonll(z.a);
res[1] = htonll(z.b);
counter = htonll(counter + 1);
counter = htonll(counter + 1);
ctx->gcm_len_a_len_c[0] = htonll(ctx->gcm_len_a_len_c[0]);
htonll(CRYPTO_BYTES2BITS(ctx->gcm_processed_data_len));
ctx->gcm_len_a_len_c[0] = htonll(ctx->gcm_len_a_len_c[0]);
counter = htonll(counter + 1);
counter = htonll(counter + 1);
ctx->gcm_len_a_len_c[0] = htonll(ctx->gcm_len_a_len_c[0]);
ctx->gcm_len_a_len_c[1] = htonll(CRYPTO_BYTES2BITS(pt_len));
len_a_len_c[1] = htonll(CRYPTO_BYTES2BITS(iv_len));
#define LOAD_BIG_64(addr) htonll(*((uint64_t *)(addr)))
seq_n = htonll(sequence);
uint64 = htonll(strtoull(from, &endptr, 0));
portWWN = htonll(portWWN);
nodeWWN = htonll(nodeWWN);
uint64_t lwwn = htonll(e->getPortWWN());
uint64_t lwwn = htonll(e->getPortWWN());
lwwn = htonll(lwwn);
lwwn = htonll(lwwn);
uint64_t lwwn = htonll(e->getPortWWN());
uint64_t targetWwn = htonll(wwn);
uint64_t targetWwn = htonll(pwwn);
uint64_t netdestwwn = htonll(destwwn);
uint64_t en_wwn = htonll(vportwwn);
uint64_t en_wwn = htonll(vnodewwn);
en_wwn = htonll(vportwwn);
uint64_t en_wwn = htonll(wwn);
uint64_t targetWwn = htonll(wwn);
uint64_t lwwn = htonll(e->getPortWWN());
uint64_t tmp = htonll(port->getPortWWN());
uint64_t tmp = htonll(port->getPortWWN());
uint64_t tmp = htonll(port->getPortWWN());
uint64_t tmp = htonll(port->getPortWWN());
uint64_t tmp = htonll(port->getPortWWN());
uint64_t tmp = htonll(port->getPortWWN());
hbalwwn = htonll(hbalwwn);
uint64_t tgtlwwn = htonll(e->getTargetPortWWN());
uint64_t en_wwn = htonll(portwwn);
uint64_t en_wwn = htonll(portwwn);
uint64_t en_wwn = htonll(portwwn);
uint64_t en_wwn = htonll(portwwn);
uint64_t en_wwn = htonll(wwn);
en_portWWN = htonll(portWWN);
tmpAddr = htonll(strtoll(charptr, NULL, 16));
tmpAddr = htonll(strtoll(charptr, NULL, 16));
tmpAddr = htonll(strtoll(charptr, NULL, 16));
tmpAddr = htonll(strtoll(charptr, NULL, 16));
tmpAddr = htonll(strtoll(charptr, NULL, 16));
tmpAddr = htonll(strtoll(charptr, NULL, 16));
addr = htonll(strtoll(charptr,
bootenv->vbe_version = htonll(bootenv->vbe_version);
kaddr[i] = htonll(addr | HERMON_MTT_ENTRY_PRESENT);
kaddr[i+j] = htonll(kcookie_paddr);
kaddr[i+j] = htonll(addr | HERMON_MTT_ENTRY_PRESENT);
mtt_table[i] = htonll(mtt_entry);
mpt_table[3] = htonll(mem_pattr_p->pmr_len);
mpt_table[2] = htonll(mem_pattr_p->pmr_iova);
port_guid = htonll(port_gid.gid_guid);
port_guid = htonll(port_gid.gid_guid);
dmac_mask = htonll(dmac_mask);
port_guid = htonll(port_gid.gid_guid);
dgid_nworder.gid_prefix = htonll(
dgid_nworder.gid_guid = htonll(
dgid_nworder.gid_prefix = htonll(
dgid_nworder.gid_guid = htonll(
mcast_gid.gid_prefix = htonll(
mcast_gid.gid_guid = htonll(
ofs_client, (void *)(uintptr_t)htonll(guid));
if (device->node_guid == htonll(guid)) {
ofs_client, (void *)(uintptr_t)htonll(guid));
device->node_guid = htonll(event->ev_hca_guid);
device->node_guid = htonll(guidp[i]);
attr->sys_image_guid = htonll(hattr.hca_si_guid);
resp.node_guid = htonll(hca_attr.hca_node_guid);
resp.sys_image_guid = htonll(hca_attr.hca_si_guid);
temp = htonll(port_info->p_sgid_tbl[cmd.gid_index].gid.ucast_gid.
temp = htonll(port_info->p_sgid_tbl[cmd.gid_index].gid.ucast_gid.
(longlong_t)htonll(dev_attr->hca_node_guid));
hdr->h_ack = htonll(seq);
rm->m_inc.i_hdr.h_ack = htonll(rdsv3_ib_piggyb_ack(ic));
hdr->h_sequence = htonll(seq);
rm->m_inc.i_hdr.h_sequence = htonll(conn->c_next_tx_seq++);
dev->pd_wwid = htonll(e->wwid);
#define BSWAP_64(x) htonll(x)
#define BE_IN64(xa) htonll(*((uint64_t *)(void *)(xa)))
#define BE_OUT64(xa, yv) *((uint64_t *)(void *)(xa)) = htonll((uint64_t)(yv));
extern uint64_t htonll(uint64_t);
tmp[0] = htonll((wr_rdma)->rdma_raddr); \
tmp[1] = htonll((uint64_t)(wr_rdma)->rdma_rkey << 32); \
tmp[0] = htonll((wr)->wr.rc.rcwr.atomic->atom_raddr); \
tmp[1] = htonll((uint64_t)(wr)->wr.rc.rcwr.atomic->atom_rkey << 32); \
tmp[0] = htonll((wr_atom)->atom_arg2); \
tmp[1] = htonll((wr_atom)->atom_arg1); \
tmp[0] = htonll(bn0_tmp); \
tmp[1] = htonll(((uint64_t)(wr_bind)->bind_rkey_out << 32) | \
tmp[2] = htonll((wr_bind)->bind_va); \
tmp[3] = htonll((wr_bind)->bind_len); \
frwr64[1] = htonll(pmr->pmr_addr_list->p_laddr); \
frwr64[2] = htonll(pmr->pmr_iova); \
frwr64[3] = htonll(pmr->pmr_len); \
tmp[0] = htonll((((uint64_t)((sgl)->ds_len & \
tmp[1] = htonll((sgl)->ds_va); \
((uint64_t *)(ds))[1] = htonll((sgl)->ds_va); \
#define h2b64(x) (htonll(x))
#define b2h64(x) (htonll(x))