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// Copyright 2015 Brian Smith. // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES // WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR // ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN // ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF // OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. use crate::{ cert::{Cert, EndEntityOrCA}, der, Error, }; use core; /// A DNS Name suitable for use in the TLS Server Name Indication (SNI) /// extension and/or for use as the reference hostname for which to verify a /// certificate. /// /// A `DNSName` is guaranteed to be syntactically valid. The validity rules are /// specified in [RFC 5280 Section 7.2], except that underscores are also /// allowed. /// /// `DNSName` stores a copy of the input it was constructed from in a `String` /// and so it is only available when the `std` default feature is enabled. /// /// `Eq`, `PartialEq`, etc. are not implemented because name comparison /// frequently should be done case-insensitively and/or with other caveats that /// depend on the specific circumstances in which the comparison is done. /// /// [RFC 5280 Section 7.2]: https://tools.ietf.org/html/rfc5280#section-7.2 #[cfg(feature = "std")] #[derive(Clone, Debug, Eq, PartialEq, Hash)] pub struct DNSName(String); #[cfg(feature = "std")] impl DNSName { /// Returns a `DNSNameRef` that refers to this `DNSName`. pub fn as_ref(&self) -> DNSNameRef { DNSNameRef(self.0.as_bytes()) } } #[cfg(feature = "std")] impl AsRef<str> for DNSName { fn as_ref(&self) -> &str { self.0.as_ref() } } // Deprecated #[cfg(feature = "std")] impl From<DNSNameRef<'_>> for DNSName { fn from(dns_name: DNSNameRef) -> Self { dns_name.to_owned() } } /// A reference to a DNS Name suitable for use in the TLS Server Name Indication /// (SNI) extension and/or for use as the reference hostname for which to verify /// a certificate. /// /// A `DNSNameRef` is guaranteed to be syntactically valid. The validity rules /// are specified in [RFC 5280 Section 7.2], except that underscores are also /// allowed. /// /// `Eq`, `PartialEq`, etc. are not implemented because name comparison /// frequently should be done case-insensitively and/or with other caveats that /// depend on the specific circumstances in which the comparison is done. /// /// [RFC 5280 Section 7.2]: https://tools.ietf.org/html/rfc5280#section-7.2 #[derive(Clone, Copy)] pub struct DNSNameRef<'a>(&'a [u8]); /// An error indicating that a `DNSNameRef` could not built because the input /// is not a syntactically-valid DNS Name. #[derive(Clone, Copy, Debug, Eq, PartialEq)] pub struct InvalidDNSNameError; impl core::fmt::Display for InvalidDNSNameError { fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result { write!(f, "{:?}", self) } } #[cfg(feature = "std")] impl ::std::error::Error for InvalidDNSNameError {} impl<'a> DNSNameRef<'a> { /// Constructs a `DNSNameRef` from the given input if the input is a /// syntactically-valid DNS name. pub fn try_from_ascii(dns_name: &'a [u8]) -> Result<Self, InvalidDNSNameError> { if !is_valid_reference_dns_id(untrusted::Input::from(dns_name)) { return Err(InvalidDNSNameError); } Ok(Self(dns_name)) } /// Constructs a `DNSNameRef` from the given input if the input is a /// syntactically-valid DNS name. pub fn try_from_ascii_str(dns_name: &'a str) -> Result<Self, InvalidDNSNameError> { Self::try_from_ascii(dns_name.as_bytes()) } /// Constructs a `DNSName` from this `DNSNameRef` #[cfg(feature = "std")] pub fn to_owned(&self) -> DNSName { // DNSNameRef is already guaranteed to be valid ASCII, which is a // subset of UTF-8. let s: &str = self.clone().into(); DNSName(s.to_ascii_lowercase()) } } #[cfg(feature = "std")] impl core::fmt::Debug for DNSNameRef<'_> { fn fmt(&self, f: &mut core::fmt::Formatter) -> Result<(), core::fmt::Error> { let lowercase = self.clone().to_owned(); f.debug_tuple("DNSNameRef").field(&lowercase.0).finish() } } impl<'a> From<DNSNameRef<'a>> for &'a str { fn from(DNSNameRef(d): DNSNameRef<'a>) -> Self { // The unwrap won't fail because DNSNameRefs are guaranteed to be ASCII // and ASCII is a subset of UTF-8. core::str::from_utf8(d).unwrap() } } pub fn verify_cert_dns_name( cert: &super::EndEntityCert, DNSNameRef(dns_name): DNSNameRef, ) -> Result<(), Error> { let cert = &cert.inner; let dns_name = untrusted::Input::from(dns_name); iterate_names( cert.subject, cert.subject_alt_name, Err(Error::CertNotValidForName), &|name| { match name { GeneralName::DNSName(presented_id) => match presented_dns_id_matches_reference_dns_id(presented_id, dns_name) { Some(true) => { return NameIteration::Stop(Ok(())); }, Some(false) => (), None => { return NameIteration::Stop(Err(Error::BadDER)); }, }, _ => (), } NameIteration::KeepGoing }, ) } // https://tools.ietf.org/html/rfc5280#section-4.2.1.10 pub fn check_name_constraints( input: Option<&mut untrusted::Reader>, subordinate_certs: &Cert, ) -> Result<(), Error> { let input = match input { Some(input) => input, None => { return Ok(()); }, }; fn parse_subtrees<'b>( inner: &mut untrusted::Reader<'b>, subtrees_tag: der::Tag, ) -> Result<Option<untrusted::Input<'b>>, Error> { if !inner.peek(subtrees_tag as u8) { return Ok(None); } let subtrees = der::nested(inner, subtrees_tag, Error::BadDER, |tagged| { der::expect_tag_and_get_value(tagged, der::Tag::Sequence) })?; Ok(Some(subtrees)) } let permitted_subtrees = parse_subtrees(input, der::Tag::ContextSpecificConstructed0)?; let excluded_subtrees = parse_subtrees(input, der::Tag::ContextSpecificConstructed1)?; let mut child = subordinate_certs; loop { iterate_names(child.subject, child.subject_alt_name, Ok(()), &|name| { check_presented_id_conforms_to_constraints(name, permitted_subtrees, excluded_subtrees) })?; child = match child.ee_or_ca { EndEntityOrCA::CA(child_cert) => child_cert, EndEntityOrCA::EndEntity => { break; }, }; } Ok(()) } fn check_presented_id_conforms_to_constraints( name: GeneralName, permitted_subtrees: Option<untrusted::Input>, excluded_subtrees: Option<untrusted::Input>, ) -> NameIteration { match check_presented_id_conforms_to_constraints_in_subtree( name, Subtrees::PermittedSubtrees, permitted_subtrees, ) { stop @ NameIteration::Stop(..) => { return stop; }, NameIteration::KeepGoing => (), }; check_presented_id_conforms_to_constraints_in_subtree( name, Subtrees::ExcludedSubtrees, excluded_subtrees, ) } #[derive(Clone, Copy)] enum Subtrees { PermittedSubtrees, ExcludedSubtrees, } fn check_presented_id_conforms_to_constraints_in_subtree( name: GeneralName, subtrees: Subtrees, constraints: Option<untrusted::Input>, ) -> NameIteration { let mut constraints = match constraints { Some(constraints) => untrusted::Reader::new(constraints), None => { return NameIteration::KeepGoing; }, }; let mut has_permitted_subtrees_match = false; let mut has_permitted_subtrees_mismatch = false; loop { // http://tools.ietf.org/html/rfc5280#section-4.2.1.10: "Within this // profile, the minimum and maximum fields are not used with any name // forms, thus, the minimum MUST be zero, and maximum MUST be absent." // // Since the default value isn't allowed to be encoded according to the // DER encoding rules for DEFAULT, this is equivalent to saying that // neither minimum or maximum must be encoded. fn general_subtree<'b>( input: &mut untrusted::Reader<'b>, ) -> Result<GeneralName<'b>, Error> { let general_subtree = der::expect_tag_and_get_value(input, der::Tag::Sequence)?; general_subtree.read_all(Error::BadDER, |subtree| general_name(subtree)) } let base = match general_subtree(&mut constraints) { Ok(base) => base, Err(err) => { return NameIteration::Stop(Err(err)); }, }; let matches = match (name, base) { (GeneralName::DNSName(name), GeneralName::DNSName(base)) => presented_dns_id_matches_dns_id_constraint(name, base).ok_or(Error::BadDER), (GeneralName::DirectoryName(name), GeneralName::DirectoryName(base)) => presented_directory_name_matches_constraint(name, base, subtrees), (GeneralName::IPAddress(name), GeneralName::IPAddress(base)) => presented_ip_address_matches_constraint(name, base), // RFC 4280 says "If a name constraints extension that is marked as // critical imposes constraints on a particular name form, and an // instance of that name form appears in the subject field or // subjectAltName extension of a subsequent certificate, then the // application MUST either process the constraint or reject the // certificate." Later, the CABForum agreed to support non-critical // constraints, so it is important to reject the cert without // considering whether the name constraint it critical. (GeneralName::Unsupported(name_tag), GeneralName::Unsupported(base_tag)) if name_tag == base_tag => Err(Error::NameConstraintViolation), _ => Ok(false), }; match (subtrees, matches) { (Subtrees::PermittedSubtrees, Ok(true)) => { has_permitted_subtrees_match = true; }, (Subtrees::PermittedSubtrees, Ok(false)) => { has_permitted_subtrees_mismatch = true; }, (Subtrees::ExcludedSubtrees, Ok(true)) => { return NameIteration::Stop(Err(Error::NameConstraintViolation)); }, (Subtrees::ExcludedSubtrees, Ok(false)) => (), (_, Err(err)) => { return NameIteration::Stop(Err(err)); }, } if constraints.at_end() { break; } } if has_permitted_subtrees_mismatch && !has_permitted_subtrees_match { // If there was any entry of the given type in permittedSubtrees, then // it required that at least one of them must match. Since none of them // did, we have a failure. NameIteration::Stop(Err(Error::NameConstraintViolation)) } else { NameIteration::KeepGoing } } // TODO: document this. fn presented_directory_name_matches_constraint( name: untrusted::Input, constraint: untrusted::Input, subtrees: Subtrees, ) -> Result<bool, Error> { match subtrees { Subtrees::PermittedSubtrees => Ok(name == constraint), Subtrees::ExcludedSubtrees => Ok(true), } } // https://tools.ietf.org/html/rfc5280#section-4.2.1.10 says: // // For IPv4 addresses, the iPAddress field of GeneralName MUST contain // eight (8) octets, encoded in the style of RFC 4632 (CIDR) to represent // an address range [RFC4632]. For IPv6 addresses, the iPAddress field // MUST contain 32 octets similarly encoded. For example, a name // constraint for "class C" subnet 192.0.2.0 is represented as the // octets C0 00 02 00 FF FF FF 00, representing the CIDR notation // 192.0.2.0/24 (mask 255.255.255.0). fn presented_ip_address_matches_constraint( name: untrusted::Input, constraint: untrusted::Input, ) -> Result<bool, Error> { if name.len() != 4 && name.len() != 16 { return Err(Error::BadDER); } if constraint.len() != 8 && constraint.len() != 32 { return Err(Error::BadDER); } // an IPv4 address never matches an IPv6 constraint, and vice versa. if name.len() * 2 != constraint.len() { return Ok(false); } let (constraint_address, constraint_mask) = constraint.read_all(Error::BadDER, |value| { let address = value.read_bytes(constraint.len() / 2).unwrap(); let mask = value.read_bytes(constraint.len() / 2).unwrap(); Ok((address, mask)) })?; let mut name = untrusted::Reader::new(name); let mut constraint_address = untrusted::Reader::new(constraint_address); let mut constraint_mask = untrusted::Reader::new(constraint_mask); loop { let name_byte = name.read_byte().unwrap(); let constraint_address_byte = constraint_address.read_byte().unwrap(); let constraint_mask_byte = constraint_mask.read_byte().unwrap(); if ((name_byte ^ constraint_address_byte) & constraint_mask_byte) != 0 { return Ok(false); } if name.at_end() { break; } } return Ok(true); } #[derive(Clone, Copy)] enum NameIteration { KeepGoing, Stop(Result<(), Error>), } fn iterate_names( subject: untrusted::Input, subject_alt_name: Option<untrusted::Input>, result_if_never_stopped_early: Result<(), Error>, f: &dyn Fn(GeneralName) -> NameIteration, ) -> Result<(), Error> { match subject_alt_name { Some(subject_alt_name) => { let mut subject_alt_name = untrusted::Reader::new(subject_alt_name); // https://bugzilla.mozilla.org/show_bug.cgi?id=1143085: An empty // subjectAltName is not legal, but some certificates have an empty // subjectAltName. Since we don't support CN-IDs, the certificate // will be rejected either way, but checking `at_end` before // attempting to parse the first entry allows us to return a better // error code. while !subject_alt_name.at_end() { let name = general_name(&mut subject_alt_name)?; match f(name) { NameIteration::Stop(result) => { return result; }, NameIteration::KeepGoing => (), } } }, None => (), } match f(GeneralName::DirectoryName(subject)) { NameIteration::Stop(result) => result, NameIteration::KeepGoing => result_if_never_stopped_early, } } // It is *not* valid to derive `Eq`, `PartialEq, etc. for this type. In // particular, for the types of `GeneralName`s that we don't understand, we // don't even store the value. Also, the meaning of a `GeneralName` in a name // constraint is different than the meaning of the identically-represented // `GeneralName` in other contexts. #[derive(Clone, Copy)] enum GeneralName<'a> { DNSName(untrusted::Input<'a>), DirectoryName(untrusted::Input<'a>), IPAddress(untrusted::Input<'a>), // The value is the `tag & ~(der::CONTEXT_SPECIFIC | der::CONSTRUCTED)` so // that the name constraint checking matches tags regardless of whether // those bits are set. Unsupported(u8), } fn general_name<'a>(input: &mut untrusted::Reader<'a>) -> Result<GeneralName<'a>, Error> { use ring::io::der::{CONSTRUCTED, CONTEXT_SPECIFIC}; const OTHER_NAME_TAG: u8 = CONTEXT_SPECIFIC | CONSTRUCTED | 0; const RFC822_NAME_TAG: u8 = CONTEXT_SPECIFIC | 1; const DNS_NAME_TAG: u8 = CONTEXT_SPECIFIC | 2; const X400_ADDRESS_TAG: u8 = CONTEXT_SPECIFIC | CONSTRUCTED | 3; const DIRECTORY_NAME_TAG: u8 = CONTEXT_SPECIFIC | CONSTRUCTED | 4; const EDI_PARTY_NAME_TAG: u8 = CONTEXT_SPECIFIC | CONSTRUCTED | 5; const UNIFORM_RESOURCE_IDENTIFIER_TAG: u8 = CONTEXT_SPECIFIC | 6; const IP_ADDRESS_TAG: u8 = CONTEXT_SPECIFIC | 7; const REGISTERED_ID_TAG: u8 = CONTEXT_SPECIFIC | 8; let (tag, value) = der::read_tag_and_get_value(input)?; let name = match tag { DNS_NAME_TAG => GeneralName::DNSName(value), DIRECTORY_NAME_TAG => GeneralName::DirectoryName(value), IP_ADDRESS_TAG => GeneralName::IPAddress(value), OTHER_NAME_TAG | RFC822_NAME_TAG | X400_ADDRESS_TAG | EDI_PARTY_NAME_TAG | UNIFORM_RESOURCE_IDENTIFIER_TAG | REGISTERED_ID_TAG => GeneralName::Unsupported(tag & !(CONTEXT_SPECIFIC | CONSTRUCTED)), _ => return Err(Error::BadDER), }; Ok(name) } fn presented_dns_id_matches_reference_dns_id( presented_dns_id: untrusted::Input, reference_dns_id: untrusted::Input, ) -> Option<bool> { presented_dns_id_matches_reference_dns_id_internal( presented_dns_id, IDRole::ReferenceID, reference_dns_id, ) } fn presented_dns_id_matches_dns_id_constraint( presented_dns_id: untrusted::Input, reference_dns_id: untrusted::Input, ) -> Option<bool> { presented_dns_id_matches_reference_dns_id_internal( presented_dns_id, IDRole::NameConstraint, reference_dns_id, ) } // We do not distinguish between a syntactically-invalid presented_dns_id and // one that is syntactically valid but does not match reference_dns_id; in both // cases, the result is false. // // We assume that both presented_dns_id and reference_dns_id are encoded in // such a way that US-ASCII (7-bit) characters are encoded in one byte and no // encoding of a non-US-ASCII character contains a code point in the range // 0-127. For example, UTF-8 is OK but UTF-16 is not. // // RFC6125 says that a wildcard label may be of the form <x>*<y>.<DNSID>, where // <x> and/or <y> may be empty. However, NSS requires <y> to be empty, and we // follow NSS's stricter policy by accepting wildcards only of the form // <x>*.<DNSID>, where <x> may be empty. // // An relative presented DNS ID matches both an absolute reference ID and a // relative reference ID. Absolute presented DNS IDs are not supported: // // Presented ID Reference ID Result // ------------------------------------- // example.com example.com Match // example.com. example.com Mismatch // example.com example.com. Match // example.com. example.com. Mismatch // // There are more subtleties documented inline in the code. // // Name constraints /////////////////////////////////////////////////////////// // // This is all RFC 5280 has to say about DNSName constraints: // // DNS name restrictions are expressed as host.example.com. Any DNS // name that can be constructed by simply adding zero or more labels to // the left-hand side of the name satisfies the name constraint. For // example, www.host.example.com would satisfy the constraint but // host1.example.com would not. // // This lack of specificity has lead to a lot of uncertainty regarding // subdomain matching. In particular, the following questions have been // raised and answered: // // Q: Does a presented identifier equal (case insensitive) to the name // constraint match the constraint? For example, does the presented // ID "host.example.com" match a "host.example.com" constraint? // A: Yes. RFC5280 says "by simply adding zero or more labels" and this // is the case of adding zero labels. // // Q: When the name constraint does not start with ".", do subdomain // presented identifiers match it? For example, does the presented // ID "www.host.example.com" match a "host.example.com" constraint? // A: Yes. RFC5280 says "by simply adding zero or more labels" and this // is the case of adding more than zero labels. The example is the // one from RFC 5280. // // Q: When the name constraint does not start with ".", does a // non-subdomain prefix match it? For example, does "bigfoo.bar.com" // match "foo.bar.com"? [4] // A: No. We interpret RFC 5280's language of "adding zero or more labels" // to mean that whole labels must be prefixed. // // (Note that the above three scenarios are the same as the RFC 6265 // domain matching rules [0].) // // Q: Is a name constraint that starts with "." valid, and if so, what // semantics does it have? For example, does a presented ID of // "www.example.com" match a constraint of ".example.com"? Does a // presented ID of "example.com" match a constraint of ".example.com"? // A: This implementation, NSS[1], and SChannel[2] all support a // leading ".", but OpenSSL[3] does not yet. Amongst the // implementations that support it, a leading "." is legal and means // the same thing as when the "." is omitted, EXCEPT that a // presented identifier equal (case insensitive) to the name // constraint is not matched; i.e. presented DNSName identifiers // must be subdomains. Some CAs in Mozilla's CA program (e.g. HARICA) // have name constraints with the leading "." in their root // certificates. The name constraints imposed on DCISS by Mozilla also // have the it, so supporting this is a requirement for backward // compatibility, even if it is not yet standardized. So, for example, a // presented ID of "www.example.com" matches a constraint of // ".example.com" but a presented ID of "example.com" does not. // // Q: Is there a way to prevent subdomain matches? // A: Yes. // // Some people have proposed that dNSName constraints that do not // start with a "." should be restricted to exact (case insensitive) // matches. However, such a change of semantics from what RFC5280 // specifies would be a non-backward-compatible change in the case of // permittedSubtrees constraints, and it would be a security issue for // excludedSubtrees constraints. // // However, it can be done with a combination of permittedSubtrees and // excludedSubtrees, e.g. "example.com" in permittedSubtrees and // ".example.com" in excludedSubtrees. // // Q: Are name constraints allowed to be specified as absolute names? // For example, does a presented ID of "example.com" match a name // constraint of "example.com." and vice versa. // A: Absolute names are not supported as presented IDs or name // constraints. Only reference IDs may be absolute. // // Q: Is "" a valid DNSName constraint? If so, what does it mean? // A: Yes. Any valid presented DNSName can be formed "by simply adding zero // or more labels to the left-hand side" of "". In particular, an // excludedSubtrees DNSName constraint of "" forbids all DNSNames. // // Q: Is "." a valid DNSName constraint? If so, what does it mean? // A: No, because absolute names are not allowed (see above). // // [0] RFC 6265 (Cookies) Domain Matching rules: // http://tools.ietf.org/html/rfc6265#section-5.1.3 // [1] NSS source code: // https://mxr.mozilla.org/nss/source/lib/certdb/genname.c?rev=2a7348f013cb#1209 // [2] Description of SChannel's behavior from Microsoft: // http://www.imc.org/ietf-pkix/mail-archive/msg04668.html // [3] Proposal to add such support to OpenSSL: // http://www.mail-archive.com/openssl-dev%40openssl.org/msg36204.html // https://rt.openssl.org/Ticket/Display.html?id=3562 // [4] Feedback on the lack of clarify in the definition that never got // incorporated into the spec: // https://www.ietf.org/mail-archive/web/pkix/current/msg21192.html fn presented_dns_id_matches_reference_dns_id_internal( presented_dns_id: untrusted::Input, reference_dns_id_role: IDRole, reference_dns_id: untrusted::Input, ) -> Option<bool> { if !is_valid_dns_id(presented_dns_id, IDRole::PresentedID, AllowWildcards::Yes) { return None; } if !is_valid_dns_id(reference_dns_id, reference_dns_id_role, AllowWildcards::No) { return None; } let mut presented = untrusted::Reader::new(presented_dns_id); let mut reference = untrusted::Reader::new(reference_dns_id); match reference_dns_id_role { IDRole::ReferenceID => (), IDRole::NameConstraint if presented_dns_id.len() > reference_dns_id.len() => { if reference_dns_id.len() == 0 { // An empty constraint matches everything. return Some(true); } // If the reference ID starts with a dot then skip the prefix of // the presented ID and start the comparison at the position of // that dot. Examples: // // Matches Doesn't Match // ----------------------------------------------------------- // original presented ID: www.example.com badexample.com // skipped: www ba // presented ID w/o prefix: .example.com dexample.com // reference ID: .example.com .example.com // // If the reference ID does not start with a dot then we skip // the prefix of the presented ID but also verify that the // prefix ends with a dot. Examples: // // Matches Doesn't Match // ----------------------------------------------------------- // original presented ID: www.example.com badexample.com // skipped: www ba // must be '.': . d // presented ID w/o prefix: example.com example.com // reference ID: example.com example.com // if reference.peek(b'.') { if presented .skip(presented_dns_id.len() - reference_dns_id.len()) .is_err() { unreachable!(); } } else { if presented .skip(presented_dns_id.len() - reference_dns_id.len() - 1) .is_err() { unreachable!(); } if presented.read_byte() != Ok(b'.') { return Some(false); } } }, IDRole::NameConstraint => (), IDRole::PresentedID => unreachable!(), } // Only allow wildcard labels that consist only of '*'. if presented.peek(b'*') { if presented.skip(1).is_err() { unreachable!(); } loop { if reference.read_byte().is_err() { return Some(false); } if reference.peek(b'.') { break; } } } loop { let presented_byte = match (presented.read_byte(), reference.read_byte()) { (Ok(p), Ok(r)) if ascii_lower(p) == ascii_lower(r) => p, _ => { return Some(false); }, }; if presented.at_end() { // Don't allow presented IDs to be absolute. if presented_byte == b'.' { return None; } break; } } // Allow a relative presented DNS ID to match an absolute reference DNS ID, // unless we're matching a name constraint. if !reference.at_end() { if reference_dns_id_role != IDRole::NameConstraint { match reference.read_byte() { Ok(b'.') => (), _ => { return Some(false); }, }; } if !reference.at_end() { return Some(false); } } assert!(presented.at_end()); assert!(reference.at_end()); return Some(true); } #[inline] fn ascii_lower(b: u8) -> u8 { match b { b'A'..=b'Z' => b + b'a' - b'A', _ => b, } } #[derive(PartialEq)] enum AllowWildcards { No, Yes, } #[derive(Clone, Copy, PartialEq)] enum IDRole { ReferenceID, PresentedID, NameConstraint, } fn is_valid_reference_dns_id(hostname: untrusted::Input) -> bool { is_valid_dns_id(hostname, IDRole::ReferenceID, AllowWildcards::No) } // https://tools.ietf.org/html/rfc5280#section-4.2.1.6: // // When the subjectAltName extension contains a domain name system // label, the domain name MUST be stored in the dNSName (an IA5String). // The name MUST be in the "preferred name syntax", as specified by // Section 3.5 of [RFC1034] and as modified by Section 2.1 of // [RFC1123]. // // https://bugzilla.mozilla.org/show_bug.cgi?id=1136616: As an exception to the // requirement above, underscores are also allowed in names for compatibility. fn is_valid_dns_id( hostname: untrusted::Input, id_role: IDRole, allow_wildcards: AllowWildcards, ) -> bool { // https://blogs.msdn.microsoft.com/oldnewthing/20120412-00/?p=7873/ if hostname.len() > 253 { return false; } let mut input = untrusted::Reader::new(hostname); if id_role == IDRole::NameConstraint && input.at_end() { return true; } let mut dot_count = 0; let mut label_length = 0; let mut label_is_all_numeric = false; let mut label_ends_with_hyphen = false; // Only presented IDs are allowed to have wildcard labels. And, like // Chromium, be stricter than RFC 6125 requires by insisting that a // wildcard label consist only of '*'. let is_wildcard = allow_wildcards == AllowWildcards::Yes && input.peek(b'*'); let mut is_first_byte = !is_wildcard; if is_wildcard { if input.read_byte() != Ok(b'*') || input.read_byte() != Ok(b'.') { return false; } dot_count += 1; } loop { const MAX_LABEL_LENGTH: usize = 63; match input.read_byte() { Ok(b'-') => { if label_length == 0 { return false; // Labels must not start with a hyphen. } label_is_all_numeric = false; label_ends_with_hyphen = true; label_length += 1; if label_length > MAX_LABEL_LENGTH { return false; } }, Ok(b'0'..=b'9') => { if label_length == 0 { label_is_all_numeric = true; } label_ends_with_hyphen = false; label_length += 1; if label_length > MAX_LABEL_LENGTH { return false; } }, Ok(b'a'..=b'z') | Ok(b'A'..=b'Z') | Ok(b'_') => { label_is_all_numeric = false; label_ends_with_hyphen = false; label_length += 1; if label_length > MAX_LABEL_LENGTH { return false; } }, Ok(b'.') => { dot_count += 1; if label_length == 0 && (id_role != IDRole::NameConstraint || !is_first_byte) { return false; } if label_ends_with_hyphen { return false; // Labels must not end with a hyphen. } label_length = 0; }, _ => { return false; }, } is_first_byte = false; if input.at_end() { break; } } // Only reference IDs, not presented IDs or name constraints, may be // absolute. if label_length == 0 && id_role != IDRole::ReferenceID { return false; } if label_ends_with_hyphen { return false; // Labels must not end with a hyphen. } if label_is_all_numeric { return false; // Last label must not be all numeric. } if is_wildcard { // If the DNS ID ends with a dot, the last dot signifies an absolute ID. let label_count = if label_length == 0 { dot_count } else { dot_count + 1 }; // Like NSS, require at least two labels to follow the wildcard label. // TODO: Allow the TrustDomain to control this on a per-eTLD+1 basis, // similar to Chromium. Even then, it might be better to still enforce // that there are at least two labels after the wildcard. if label_count < 3 { return false; } } true } #[cfg(test)] mod tests { use super::*; const PRESENTED_MATCHES_REFERENCE: &[(&[u8], &[u8], Option<bool>)] = &[ (b"", b"a", None), (b"a", b"a", Some(true)), (b"b", b"a", Some(false)), (b"*.b.a", b"c.b.a", Some(true)), (b"*.b.a", b"b.a", Some(false)), (b"*.b.a", b"b.a.", Some(false)), // Wildcard not in leftmost label (b"d.c.b.a", b"d.c.b.a", Some(true)), (b"d.*.b.a", b"d.c.b.a", None), (b"d.c*.b.a", b"d.c.b.a", None), (b"d.c*.b.a", b"d.cc.b.a", None), // case sensitivity ( b"abcdefghijklmnopqrstuvwxyz", b"ABCDEFGHIJKLMNOPQRSTUVWXYZ", Some(true), ), ( b"ABCDEFGHIJKLMNOPQRSTUVWXYZ", b"abcdefghijklmnopqrstuvwxyz", Some(true), ), (b"aBc", b"Abc", Some(true)), // digits (b"a1", b"a1", Some(true)), // A trailing dot indicates an absolute name, and absolute names can match // relative names, and vice-versa. (b"example", b"example", Some(true)), (b"example.", b"example.", None), (b"example", b"example.", Some(true)), (b"example.", b"example", None), (b"example.com", b"example.com", Some(true)), (b"example.com.", b"example.com.", None), (b"example.com", b"example.com.", Some(true)), (b"example.com.", b"example.com", None), (b"example.com..", b"example.com.", None), (b"example.com..", b"example.com", None), (b"example.com...", b"example.com.", None), // xn-- IDN prefix (b"x*.b.a", b"xa.b.a", None), (b"x*.b.a", b"xna.b.a", None), (b"x*.b.a", b"xn-a.b.a", None), (b"x*.b.a", b"xn--a.b.a", None), (b"xn*.b.a", b"xn--a.b.a", None), (b"xn-*.b.a", b"xn--a.b.a", None), (b"xn--*.b.a", b"xn--a.b.a", None), (b"xn*.b.a", b"xn--a.b.a", None), (b"xn-*.b.a", b"xn--a.b.a", None), (b"xn--*.b.a", b"xn--a.b.a", None), (b"xn---*.b.a", b"xn--a.b.a", None), // "*" cannot expand to nothing. (b"c*.b.a", b"c.b.a", None), // -------------------------------------------------------------------------- // The rest of these are test cases adapted from Chromium's // x509_certificate_unittest.cc. The parameter order is the opposite in // Chromium's tests. Also, they some tests were modified to fit into this // framework or due to intentional differences between mozilla::pkix and // Chromium. (b"foo.com", b"foo.com", Some(true)), (b"f", b"f", Some(true)), (b"i", b"h", Some(false)), (b"*.foo.com", b"bar.foo.com", Some(true)), (b"*.test.fr", b"www.test.fr", Some(true)), (b"*.test.FR", b"wwW.tESt.fr", Some(true)), (b".uk", b"f.uk", None), (b"?.bar.foo.com", b"w.bar.foo.com", None), (b"(www|ftp).foo.com", b"www.foo.com", None), // regex! (b"www.foo.com\0", b"www.foo.com", None), (b"www.foo.com\0*.foo.com", b"www.foo.com", None), (b"ww.house.example", b"www.house.example", Some(false)), (b"www.test.org", b"test.org", Some(false)), (b"*.test.org", b"test.org", Some(false)), (b"*.org", b"test.org", None), // '*' must be the only character in the wildcard label (b"w*.bar.foo.com", b"w.bar.foo.com", None), (b"ww*ww.bar.foo.com", b"www.bar.foo.com", None), (b"ww*ww.bar.foo.com", b"wwww.bar.foo.com", None), (b"w*w.bar.foo.com", b"wwww.bar.foo.com", None), (b"w*w.bar.foo.c0m", b"wwww.bar.foo.com", None), (b"wa*.bar.foo.com", b"WALLY.bar.foo.com", None), (b"*Ly.bar.foo.com", b"wally.bar.foo.com", None), // Chromium does URL decoding of the reference ID, but we don't, and we also // require that the reference ID is valid, so we can't test these two. // (b"www.foo.com", b"ww%57.foo.com", Some(true)), // (b"www&.foo.com", b"www%26.foo.com", Some(true)), (b"*.test.de", b"www.test.co.jp", Some(false)), (b"*.jp", b"www.test.co.jp", None), (b"www.test.co.uk", b"www.test.co.jp", Some(false)), (b"www.*.co.jp", b"www.test.co.jp", None), (b"www.bar.foo.com", b"www.bar.foo.com", Some(true)), (b"*.foo.com", b"www.bar.foo.com", Some(false)), (b"*.*.foo.com", b"www.bar.foo.com", None), // Our matcher requires the reference ID to be a valid DNS name, so we cannot // test this case. // (b"*.*.bar.foo.com", b"*..bar.foo.com", Some(false)), (b"www.bath.org", b"www.bath.org", Some(true)), // Our matcher requires the reference ID to be a valid DNS name, so we cannot // test these cases. // DNS_ID_MISMATCH("www.bath.org", ""), // (b"www.bath.org", b"20.30.40.50", Some(false)), // (b"www.bath.org", b"66.77.88.99", Some(false)), // IDN tests ( b"xn--poema-9qae5a.com.br", b"xn--poema-9qae5a.com.br", Some(true), ), ( b"*.xn--poema-9qae5a.com.br", b"www.xn--poema-9qae5a.com.br", Some(true), ), ( b"*.xn--poema-9qae5a.com.br", b"xn--poema-9qae5a.com.br", Some(false), ), (b"xn--poema-*.com.br", b"xn--poema-9qae5a.com.br", None), (b"xn--*-9qae5a.com.br", b"xn--poema-9qae5a.com.br", None), (b"*--poema-9qae5a.com.br", b"xn--poema-9qae5a.com.br", None), // The following are adapted from the examples quoted from // http://tools.ietf.org/html/rfc6125#section-6.4.3 // (e.g., *.example.com would match foo.example.com but // not bar.foo.example.com or example.com). (b"*.example.com", b"foo.example.com", Some(true)), (b"*.example.com", b"bar.foo.example.com", Some(false)), (b"*.example.com", b"example.com", Some(false)), (b"baz*.example.net", b"baz1.example.net", None), (b"*baz.example.net", b"foobaz.example.net", None), (b"b*z.example.net", b"buzz.example.net", None), // Wildcards should not be valid for public registry controlled domains, // and unknown/unrecognized domains, at least three domain components must // be present. For mozilla::pkix and NSS, there must always be at least two // labels after the wildcard label. (b"*.test.example", b"www.test.example", Some(true)), (b"*.example.co.uk", b"test.example.co.uk", Some(true)), (b"*.example", b"test.example", None), // The result is different than Chromium, because Chromium takes into account // the additional knowledge it has that "co.uk" is a TLD. mozilla::pkix does // not know that. (b"*.co.uk", b"example.co.uk", Some(true)), (b"*.com", b"foo.com", None), (b"*.us", b"foo.us", None), (b"*", b"foo", None), // IDN variants of wildcards and registry controlled domains. ( b"*.xn--poema-9qae5a.com.br", b"www.xn--poema-9qae5a.com.br", Some(true), ), ( b"*.example.xn--mgbaam7a8h", b"test.example.xn--mgbaam7a8h", Some(true), ), // RFC6126 allows this, and NSS accepts it, but Chromium disallows it. // TODO: File bug against Chromium. (b"*.com.br", b"xn--poema-9qae5a.com.br", Some(true)), (b"*.xn--mgbaam7a8h", b"example.xn--mgbaam7a8h", None), // Wildcards should be permissible for 'private' registry-controlled // domains. (In mozilla::pkix, we do not know if it is a private registry- // controlled domain or not.) (b"*.appspot.com", b"www.appspot.com", Some(true)), (b"*.s3.amazonaws.com", b"foo.s3.amazonaws.com", Some(true)), // Multiple wildcards are not valid. (b"*.*.com", b"foo.example.com", None), (b"*.bar.*.com", b"foo.bar.example.com", None), // Absolute vs relative DNS name tests. Although not explicitly specified // in RFC 6125, absolute reference names (those ending in a .) should // match either absolute or relative presented names. // TODO: File errata against RFC 6125 about this. (b"foo.com.", b"foo.com", None), (b"foo.com", b"foo.com.", Some(true)), (b"foo.com.", b"foo.com.", None), (b"f.", b"f", None), (b"f", b"f.", Some(true)), (b"f.", b"f.", None), (b"*.bar.foo.com.", b"www-3.bar.foo.com", None), (b"*.bar.foo.com", b"www-3.bar.foo.com.", Some(true)), (b"*.bar.foo.com.", b"www-3.bar.foo.com.", None), // We require the reference ID to be a valid DNS name, so we cannot test this // case. // (b".", b".", Some(false)), (b"*.com.", b"example.com", None), (b"*.com", b"example.com.", None), (b"*.com.", b"example.com.", None), (b"*.", b"foo.", None), (b"*.", b"foo", None), // The result is different than Chromium because we don't know that co.uk is // a TLD. (b"*.co.uk.", b"foo.co.uk", None), (b"*.co.uk.", b"foo.co.uk.", None), ]; #[test] fn presented_matches_reference_test() { for &(presented, reference, expected_result) in PRESENTED_MATCHES_REFERENCE { use std::string::String; let actual_result = presented_dns_id_matches_reference_dns_id( untrusted::Input::from(presented), untrusted::Input::from(reference), ); assert_eq!( actual_result, expected_result, "presented_dns_id_matches_reference_dns_id(\"{}\", IDRole::ReferenceID, \"{}\")", String::from_utf8_lossy(presented), String::from_utf8_lossy(reference) ); } } }