int
out_cmdline(struct if_info *ifarg_cur, int v4args, struct misc_args m_argv4,
int v6args, struct misc_args m_argv6)
{
int ret = 0;
if ((v4args & V4CHECK) == V4CHECK || (v6args & V6CHECK) == V6CHECK) {
if ((v4args & V4CHECK) == V4CHECK && strlen(ifarg_cur->p_v4addr) > 0) {
if (get_addrv4(ifarg_cur) == 0)
printf("%s\n", ifarg_cur->p_v4addr);
} else if ((v6args & V6CHECK) == V6CHECK && strlen(ifarg_cur->p_v6addr) > 0) {
if (get_addrv6(ifarg_cur) == 0)
printf("%s\n", ifarg_cur->p_v6addr);
}
return 0;
}
if (ifarg_cur->type == IFT_V4)
ret = get_addrv4(ifarg_cur);
if (ifarg_cur->type == IFT_V6)
ret = get_addrv6(ifarg_cur);
if (ifarg_cur->type == IFT_INTV4 || ifarg_cur->type == IFT_INTV6) {
if (ifarg_cur->errorstr[0] != 0) {
warnx("Invalid address: %s", ifarg_cur->errorstr);
return 0;
}
ret = get_addrv4(ifarg_cur);
}
if (ifarg_cur->type == IFT_UNKWN) {
warnx("Unknown %s: %s", ifarg_cur->cmdstr, ifarg_cur->errorstr);
return 0;
}
if (ret == -1) {
warnx("Invalid address");
return 0;
}
if (ret == -2) {
warnx("Invalid netmask");
return 0;
}
if (ifarg_cur->type == IFT_V4 || ifarg_cur->type == IFT_INTV4) {
if (!v4args)
v4args = V4_INFO;
if ((v4args & V4_INFO) == V4_INFO)
print_cf_info_v4(ifarg_cur);
if ((v4args & V4SPLIT) == V4SPLIT)
show_split_networks_v4(ifarg_cur, m_argv4.splitmask);
if ((v4args & V4RANGE) == V4RANGE)
show_network_ranges_v4(ifarg_cur, m_argv4.range_min, m_argv4.range_max);
printf("\n");
}
if (ifarg_cur->type == IFT_V6 || ifarg_cur->type == IFT_INTV6) {
if (!v6args)
v6args = V6_INFO;
if ((v6args & V6_INFO) == V6_INFO)
print_v6(ifarg_cur);
if ((v6args & V4INV6) == V4INV6)
print_v4inv6(ifarg_cur);
if ((v6args & V6REV) == V6REV)
print_rev_v6(ifarg_cur);
if ((v6args & V6SPLIT) == V6SPLIT)
show_split_networks_v6(ifarg_cur, m_argv6.v6splitmask);
printf("\n");
}
return 0;
}
int
out_cmdline(struct if_info *ifarg_cur, int v4args, struct misc_args m_argv4,
int v6args, struct misc_args m_argv6, int recurse, int index)
{
int ret = 0;
if (ifarg_cur->type == IFT_V4)
ret = get_addrv4(ifarg_cur);
if (ifarg_cur->type == IFT_V6)
ret = get_addrv6(ifarg_cur);
if (ifarg_cur->type == IFT_INTV4 || ifarg_cur->type == IFT_INTV6) {
if (ifarg_cur->errorstr[0] != 0) {
warnx("Invalid address: %s", ifarg_cur->errorstr);
return 0;
}
ret = get_addrv4(ifarg_cur);
}
if (ifarg_cur->type == IFT_UNKWN) {
warnx("Unknown %s: %s", ifarg_cur->cmdstr, ifarg_cur->errorstr);
return 0;
}
if (ret == -1) {
warnx("Invalid address");
return 0;
}
if (ret == -2) {
warnx("Invalid netmask");
return 0;
}
if (ifarg_cur->type == IFT_V4 || ifarg_cur->type == IFT_INTV4) {
if (!v4args)
v4args = V4_INFO;
if ((v4args & V4_INFO) == V4_INFO)
print_cf_info_v4(ifarg_cur);
if ((v4args & V4SPLIT) == V4SPLIT)
show_split_networks_v4(ifarg_cur, m_argv4.splitmask, v4args, m_argv4);
printf("\n");
}
if (ifarg_cur->type == IFT_V6 || ifarg_cur->type == IFT_INTV6) {
if (!v6args)
v6args = V6_INFO;
if ((v6args & V6_INFO) == V6_INFO)
print_v6(ifarg_cur);
if ((v6args & V4INV6) == V4INV6)
print_v4inv6(ifarg_cur);
if ((v6args & V6REV) == V6REV)
print_rev_v6(ifarg_cur);
if ((v6args & V6SPLIT) == V6SPLIT)
show_split_networks_v6(ifarg_cur, m_argv6.v6splitmask, v6args, m_argv6);
printf("\n");
}
return 0;
}
