Merge pull request #25 from japaric/ja-impl-by-ref
take `Implementation` by reference
This commit is contained in:
Jorge Aparicio
GitHub
commit
49c89f764e
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@ -12,11 +12,11 @@ fn can_resolve() -> Result<()> {
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let needle_fqdn = FQDN("example.nameservers.com.")?;
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let network = Network::new()?;
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let mut root_ns = NameServer::new(dns_test::peer(), FQDN::ROOT, &network)?;
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let mut com_ns = NameServer::new(dns_test::peer(), FQDN::COM, &network)?;
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let peer = dns_test::peer();
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let mut root_ns = NameServer::new(&peer, FQDN::ROOT, &network)?;
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let mut com_ns = NameServer::new(&peer, FQDN::COM, &network)?;
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let mut nameservers_ns =
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NameServer::new(dns_test::peer(), FQDN("nameservers.com.")?, &network)?;
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let mut nameservers_ns = NameServer::new(&peer, FQDN("nameservers.com.")?, &network)?;
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nameservers_ns
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.add(Record::a(root_ns.fqdn().clone(), root_ns.ipv4_addr()))
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.add(Record::a(com_ns.fqdn().clone(), com_ns.ipv4_addr()))
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@ -40,7 +40,7 @@ fn can_resolve() -> Result<()> {
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eprintln!("root.zone:\n{}", root_ns.zone_file());
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let roots = &[Root::new(root_ns.fqdn().clone(), root_ns.ipv4_addr())];
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let resolver = Resolver::start(dns_test::subject(), roots, &TrustAnchor::empty(), &network)?;
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let resolver = Resolver::start(&dns_test::subject(), roots, &TrustAnchor::empty(), &network)?;
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let resolver_ip_addr = resolver.ipv4_addr();
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let client = Client::new(&network)?;
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@ -65,11 +65,11 @@ fn nxdomain() -> Result<()> {
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let needle_fqdn = FQDN("unicorn.nameservers.com.")?;
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let network = Network::new()?;
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let mut root_ns = NameServer::new(dns_test::peer(), FQDN::ROOT, &network)?;
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let mut com_ns = NameServer::new(dns_test::peer(), FQDN::COM, &network)?;
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let peer = dns_test::peer();
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let mut root_ns = NameServer::new(&peer, FQDN::ROOT, &network)?;
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let mut com_ns = NameServer::new(&peer, FQDN::COM, &network)?;
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let mut nameservers_ns =
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NameServer::new(dns_test::peer(), FQDN("nameservers.com.")?, &network)?;
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let mut nameservers_ns = NameServer::new(&peer, FQDN("nameservers.com.")?, &network)?;
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nameservers_ns
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.add(Record::a(root_ns.fqdn().clone(), root_ns.ipv4_addr()))
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.add(Record::a(com_ns.fqdn().clone(), com_ns.ipv4_addr()));
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@ -86,7 +86,7 @@ fn nxdomain() -> Result<()> {
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let root_ns = root_ns.start()?;
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let roots = &[Root::new(root_ns.fqdn().clone(), root_ns.ipv4_addr())];
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let resolver = Resolver::start(dns_test::subject(), roots, &TrustAnchor::empty(), &network)?;
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let resolver = Resolver::start(&dns_test::subject(), roots, &TrustAnchor::empty(), &network)?;
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let resolver_ip_addr = resolver.ipv4_addr();
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let client = Client::new(&network)?;
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@ -9,9 +9,9 @@ use dns_test::{Network, Resolver, Result, TrustAnchor, FQDN};
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#[ignore]
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fn edns_support() -> Result<()> {
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let network = &Network::new()?;
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let ns = NameServer::new(dns_test::peer(), FQDN::ROOT, network)?.start()?;
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let ns = NameServer::new(&dns_test::peer(), FQDN::ROOT, network)?.start()?;
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let resolver = Resolver::start(
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dns_test::subject(),
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&dns_test::subject(),
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&[Root::new(ns.fqdn().clone(), ns.ipv4_addr())],
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&TrustAnchor::empty(),
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network,
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@ -15,10 +15,10 @@ fn bad_signature_in_leaf_nameserver() -> Result<()> {
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let network = Network::new()?;
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let peer = dns_test::peer();
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let mut root_ns = NameServer::new(peer.clone(), FQDN::ROOT, &network)?;
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let mut com_ns = NameServer::new(peer.clone(), FQDN::COM, &network)?;
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let mut root_ns = NameServer::new(&peer, FQDN::ROOT, &network)?;
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let mut com_ns = NameServer::new(&peer, FQDN::COM, &network)?;
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let mut nameservers_ns = NameServer::new(peer, FQDN("nameservers.com.")?, &network)?;
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let mut nameservers_ns = NameServer::new(&peer, FQDN("nameservers.com.")?, &network)?;
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nameservers_ns
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.add(Record::a(root_ns.fqdn().clone(), root_ns.ipv4_addr()))
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.add(Record::a(com_ns.fqdn().clone(), com_ns.ipv4_addr()))
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@ -67,7 +67,7 @@ fn bad_signature_in_leaf_nameserver() -> Result<()> {
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let roots = &[Root::new(root_ns.fqdn().clone(), root_ns.ipv4_addr())];
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let trust_anchor = TrustAnchor::from_iter([root_ksk.clone(), root_zsk.clone()]);
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let resolver = Resolver::start(dns_test::subject(), roots, &trust_anchor, &network)?;
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let resolver = Resolver::start(&dns_test::subject(), roots, &trust_anchor, &network)?;
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let resolver_addr = resolver.ipv4_addr();
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let client = Client::new(&network)?;
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@ -11,7 +11,7 @@ use dns_test::{Network, Resolver, Result, TrustAnchor, FQDN};
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#[test]
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fn can_validate_without_delegation() -> Result<()> {
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let network = Network::new()?;
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let mut ns = NameServer::new(dns_test::peer(), FQDN::ROOT, &network)?;
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let mut ns = NameServer::new(&dns_test::peer(), FQDN::ROOT, &network)?;
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ns.add(Record::a(ns.fqdn().clone(), ns.ipv4_addr()));
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let ns = ns.sign()?;
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@ -27,7 +27,7 @@ fn can_validate_without_delegation() -> Result<()> {
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let roots = &[Root::new(ns.fqdn().clone(), ns.ipv4_addr())];
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let trust_anchor = TrustAnchor::from_iter([root_ksk.clone(), root_zsk.clone()]);
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let resolver = Resolver::start(dns_test::subject(), roots, &trust_anchor, &network)?;
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let resolver = Resolver::start(&dns_test::subject(), roots, &trust_anchor, &network)?;
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let resolver_addr = resolver.ipv4_addr();
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let client = Client::new(&network)?;
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@ -51,10 +51,10 @@ fn can_validate_with_delegation() -> Result<()> {
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let peer = dns_test::peer();
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let network = Network::new()?;
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let mut root_ns = NameServer::new(peer.clone(), FQDN::ROOT, &network)?;
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let mut com_ns = NameServer::new(peer.clone(), FQDN::COM, &network)?;
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let mut root_ns = NameServer::new(&peer, FQDN::ROOT, &network)?;
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let mut com_ns = NameServer::new(&peer, FQDN::COM, &network)?;
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let mut nameservers_ns = NameServer::new(peer, FQDN("nameservers.com.")?, &network)?;
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let mut nameservers_ns = NameServer::new(&peer, FQDN("nameservers.com.")?, &network)?;
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nameservers_ns
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.add(Record::a(root_ns.fqdn().clone(), root_ns.ipv4_addr()))
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.add(Record::a(com_ns.fqdn().clone(), com_ns.ipv4_addr()))
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@ -94,7 +94,7 @@ fn can_validate_with_delegation() -> Result<()> {
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let roots = &[Root::new(root_ns.fqdn().clone(), root_ns.ipv4_addr())];
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let trust_anchor = TrustAnchor::from_iter([root_ksk.clone(), root_zsk.clone()]);
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let resolver = Resolver::start(dns_test::subject(), roots, &trust_anchor, &network)?;
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let resolver = Resolver::start(&dns_test::subject(), roots, &trust_anchor, &network)?;
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let resolver_addr = resolver.ipv4_addr();
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let client = Client::new(&network)?;
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@ -11,13 +11,13 @@ fn main() -> Result<()> {
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let peer = dns_test::peer();
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println!("building docker image...");
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let mut root_ns = NameServer::new(peer.clone(), FQDN::ROOT, &network)?;
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let mut root_ns = NameServer::new(&peer, FQDN::ROOT, &network)?;
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println!("DONE");
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println!("setting up name servers...");
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let mut com_ns = NameServer::new(peer.clone(), FQDN::COM, &network)?;
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let mut com_ns = NameServer::new(&peer, FQDN::COM, &network)?;
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let mut nameservers_ns = NameServer::new(peer.clone(), FQDN("nameservers.com.")?, &network)?;
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let mut nameservers_ns = NameServer::new(&peer, FQDN("nameservers.com.")?, &network)?;
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nameservers_ns
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.add(Record::a(root_ns.fqdn().clone(), root_ns.ipv4_addr()))
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.add(Record::a(com_ns.fqdn().clone(), com_ns.ipv4_addr()));
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@ -50,7 +50,7 @@ fn main() -> Result<()> {
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let trust_anchor = TrustAnchor::from_iter([root_ksk.clone(), root_zsk.clone()]);
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println!("building docker image...");
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let resolver = Resolver::start(dns_test::subject(), roots, &trust_anchor, &network)?;
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let resolver = Resolver::start(&dns_test::subject(), roots, &trust_anchor, &network)?;
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println!("DONE\n\n");
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let resolver_addr = resolver.ipv4_addr();
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@ -26,7 +26,7 @@ impl NameServer<Stopped> {
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/// - one SOA record, with the primary name server field set to this name server's FQDN
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/// - one NS record, with this name server's FQDN set as the only available name server for
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/// the zone
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pub fn new(implementation: Implementation, zone: FQDN, network: &Network) -> Result<Self> {
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pub fn new(implementation: &Implementation, zone: FQDN, network: &Network) -> Result<Self> {
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assert!(
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matches!(implementation, Implementation::Unbound),
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"currently only `unbound` (`nsd`) can be used as a `NameServer`"
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@ -46,7 +46,7 @@ impl NameServer<Stopped> {
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zone_file.add(Record::ns(zone, nameserver.clone()));
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let image = implementation.into();
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let image = implementation.clone().into();
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Ok(Self {
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container: Container::run(&image, network)?,
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zone_file,
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@ -303,7 +303,7 @@ mod tests {
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#[test]
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fn simplest() -> Result<()> {
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let network = Network::new()?;
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let tld_ns = NameServer::new(Implementation::Unbound, FQDN::COM, &network)?.start()?;
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let tld_ns = NameServer::new(&Implementation::Unbound, FQDN::COM, &network)?.start()?;
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let ip_addr = tld_ns.ipv4_addr();
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let client = Client::new(&network)?;
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@ -318,7 +318,7 @@ mod tests {
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fn with_referral() -> Result<()> {
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let network = Network::new()?;
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let expected_ip_addr = Ipv4Addr::new(172, 17, 200, 1);
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let mut root_ns = NameServer::new(Implementation::Unbound, FQDN::ROOT, &network)?;
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let mut root_ns = NameServer::new(&Implementation::Unbound, FQDN::ROOT, &network)?;
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root_ns.referral(
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FQDN::COM,
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FQDN("primary.tld-server.com.")?,
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@ -346,7 +346,7 @@ mod tests {
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#[test]
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fn signed() -> Result<()> {
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let network = Network::new()?;
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let ns = NameServer::new(Implementation::Unbound, FQDN::ROOT, &network)?.sign()?;
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let ns = NameServer::new(&Implementation::Unbound, FQDN::ROOT, &network)?.sign()?;
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eprintln!("KSK:\n{}", ns.key_signing_key());
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eprintln!("ZSK:\n{}", ns.zone_signing_key());
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@ -377,7 +377,7 @@ mod tests {
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#[test]
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fn terminate_works() -> Result<()> {
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let network = Network::new()?;
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let ns = NameServer::new(Implementation::Unbound, FQDN::ROOT, &network)?.start()?;
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let ns = NameServer::new(&Implementation::Unbound, FQDN::ROOT, &network)?.start()?;
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let logs = ns.terminate()?;
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assert!(logs.contains("nsd starting"));
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@ -21,7 +21,7 @@ impl Resolver {
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///
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/// This constructor panics if `roots` is an empty slice
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pub fn start(
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implementation: Implementation,
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implementation: &Implementation,
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roots: &[Root],
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trust_anchor: &TrustAnchor,
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network: &Network,
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@ -125,9 +125,9 @@ mod tests {
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#[test]
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fn terminate_works() -> Result<()> {
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let network = Network::new()?;
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let ns = NameServer::new(Implementation::Unbound, FQDN::ROOT, &network)?.start()?;
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let ns = NameServer::new(&Implementation::Unbound, FQDN::ROOT, &network)?.start()?;
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let resolver = Resolver::start(
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Implementation::Unbound,
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&Implementation::Unbound,
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&[Root::new(ns.fqdn().clone(), ns.ipv4_addr())],
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&TrustAnchor::empty(),
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&network,
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@ -255,7 +255,7 @@ mod tests {
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#[test]
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fn nameserver() -> Result<()> {
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let network = &Network::new()?;
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let ns = NameServer::new(Implementation::Unbound, FQDN::ROOT, network)?.start()?;
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let ns = NameServer::new(&Implementation::Unbound, FQDN::ROOT, network)?.start()?;
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let mut tshark = ns.eavesdrop()?;
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let client = Client::new(network)?;
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@ -290,11 +290,11 @@ mod tests {
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#[test]
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fn resolver() -> Result<()> {
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let network = &Network::new()?;
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let mut root_ns = NameServer::new(Implementation::Unbound, FQDN::ROOT, network)?;
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let mut com_ns = NameServer::new(Implementation::Unbound, FQDN::COM, network)?;
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let mut root_ns = NameServer::new(&Implementation::Unbound, FQDN::ROOT, network)?;
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let mut com_ns = NameServer::new(&Implementation::Unbound, FQDN::COM, network)?;
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let mut nameservers_ns =
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NameServer::new(Implementation::Unbound, FQDN("nameservers.com.")?, network)?;
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NameServer::new(&Implementation::Unbound, FQDN("nameservers.com.")?, network)?;
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nameservers_ns
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.add(Record::a(root_ns.fqdn().clone(), root_ns.ipv4_addr()))
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.add(Record::a(com_ns.fqdn().clone(), com_ns.ipv4_addr()));
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@ -312,7 +312,7 @@ mod tests {
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let roots = &[Root::new(root_ns.fqdn().clone(), root_ns.ipv4_addr())];
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let resolver = Resolver::start(
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Implementation::Unbound,
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&Implementation::Unbound,
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roots,
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&TrustAnchor::empty(),
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network,
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