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/* * Copyright (C) 2015 Benjamin Fry <benjaminfry@me.com> * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ //! Message metadata use std::convert::From; use super::op_code::OpCode; use super::response_code::ResponseCode; use crate::error::*; use crate::serialize::binary::*; /// Metadata for the `Message` struct. /// /// [RFC 1035, DOMAIN NAMES - IMPLEMENTATION AND SPECIFICATION, November 1987](https://tools.ietf.org/html/rfc1035) /// /// ```text /// 4.1.1. Header section format /// /// The header contains the following fields /// /// 1 1 1 1 1 1 /// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 /// +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ /// | ID | /// +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ /// |QR| Opcode |AA|TC|RD|RA|ZZ|AD|CD| RCODE | /// AD and CD from RFC4035 /// +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ /// | QDCOUNT / ZCOUNT | /// +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ /// | ANCOUNT / PRCOUNT | /// +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ /// | NSCOUNT / UPCOUNT | /// +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ /// | ARCOUNT / ADCOUNT | /// +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ /// /// where /// /// Z Reserved for future use. Must be zero in all queries /// and responses. /// /// ``` /// #[derive(Clone, Debug, PartialEq, PartialOrd)] pub struct Header { id: u16, message_type: MessageType, op_code: OpCode, authoritative: bool, truncation: bool, recursion_desired: bool, recursion_available: bool, authentic_data: bool, checking_disabled: bool, response_code: u8, /* ideally u4 */ query_count: u16, answer_count: u16, name_server_count: u16, additional_count: u16, } /// Message types are either Query (also Update) or Response #[derive(Debug, PartialEq, PartialOrd, Copy, Clone)] pub enum MessageType { /// Queries are Client requests, these are either Queries or Updates Query, /// Response message from the Server or upstream Resolver Response, } impl Default for Header { fn default() -> Self { Header { id: 0, message_type: MessageType::Query, op_code: OpCode::Query, authoritative: false, truncation: false, recursion_desired: false, recursion_available: false, authentic_data: false, checking_disabled: false, response_code: 0, query_count: 0, answer_count: 0, name_server_count: 0, additional_count: 0, } } } impl Header { // TODO: we should make id, message_type and op_code all required and non-editable /// A default Header, not very useful. pub fn new() -> Self { Default::default() } /// Length of the header, always 12 bytes #[inline(always)] pub fn len() -> usize { 12 /* this is always 12 bytes */ } /// Sets the id of the message, for queries this shoudl be random. pub fn set_id(&mut self, id: u16) -> &mut Self { self.id = id; self } /// Sets the message type, Queries and Updates both use Query. pub fn set_message_type(&mut self, message_type: MessageType) -> &mut Self { self.message_type = message_type; self } /// Set the operation code for the message pub fn set_op_code(&mut self, op_code: OpCode) -> &mut Self { self.op_code = op_code; self } /// From the server is specifies that it is an authoritative reqponse. pub fn set_authoritative(&mut self, authoritative: bool) -> &mut Self { self.authoritative = authoritative; self } /// Specifies that the records were too large for the payload. /// /// See EDNS or TCP for resolutions to truncation. pub fn set_truncated(&mut self, truncated: bool) -> &mut Self { self.truncation = truncated; self } /// Specify that the resolver should recursiviley request data from upstream DNS nodes pub fn set_recursion_desired(&mut self, recursion_desired: bool) -> &mut Self { self.recursion_desired = recursion_desired; self } /// Specifies that recursion is available from this or the remote resolver pub fn set_recursion_available(&mut self, recursion_available: bool) -> &mut Self { self.recursion_available = recursion_available; self } /// Specifies that the data is authnetic, i.e. the resolver believes all data to be valid through DNSSec pub fn set_authentic_data(&mut self, authentic_data: bool) -> &mut Self { self.authentic_data = authentic_data; self } /// Used during recursive resolution to specified if a resolver should or should not validate DNSSec signatures pub fn set_checking_disabled(&mut self, checking_disabled: bool) -> &mut Self { self.checking_disabled = checking_disabled; self } /// The low responsed code (original response codes before EDNS extensions) pub fn set_response_code(&mut self, response_code: ResponseCode) -> &mut Self { self.response_code = response_code.low(); self } /// Number or query records in the message pub fn set_query_count(&mut self, query_count: u16) -> &mut Self { self.query_count = query_count; self } /// Number of answer records in the message pub fn set_answer_count(&mut self, answer_count: u16) -> &mut Self { self.answer_count = answer_count; self } /// Number of name server records in the message pub fn set_name_server_count(&mut self, name_server_count: u16) -> &mut Self { self.name_server_count = name_server_count; self } /// Number of additional records in the message pub fn set_additional_count(&mut self, additional_count: u16) -> &mut Self { self.additional_count = additional_count; self } /// ```text /// ID A 16 bit identifier assigned by the program that /// generates any kind of query. This identifier is copied /// the corresponding reply and can be used by the requester /// to match up replies to outstanding queries. /// ``` pub fn id(&self) -> u16 { self.id } /// ```text /// QR A one bit field that specifies whether this message is a /// query (0), or a response (1). /// ``` pub fn message_type(&self) -> MessageType { self.message_type } /// ```text /// OPCODE A four bit field that specifies kind of query in this /// message. This value is set by the originator of a query /// and copied into the response. The values are: <see super::op_code> /// ``` pub fn op_code(&self) -> OpCode { self.op_code } /// ```text /// AA Authoritative Answer - this bit is valid in responses, /// and specifies that the responding name server is an /// authority for the domain name in question section. /// /// Note that the contents of the answer section may have /// multiple owner names because of aliases. The AA bit /// corresponds to the name which matches the query name, or /// the first owner name in the answer section. /// ``` pub fn authoritative(&self) -> bool { self.authoritative } /// ```text /// TC TrunCation - specifies that this message was truncated /// due to length greater than that permitted on the /// transmission channel. /// ``` pub fn truncated(&self) -> bool { self.truncation } /// ```text /// RD Recursion Desired - this bit may be set in a query and /// is copied into the response. If RD is set, it directs /// the name server to pursue the query recursively. /// Recursive query support is optional. /// ``` pub fn recursion_desired(&self) -> bool { self.recursion_desired } /// ```text /// RA Recursion Available - this be is set or cleared in a /// response, and denotes whether recursive query support is /// available in the name server. /// ``` pub fn recursion_available(&self) -> bool { self.recursion_available } /// [RFC 4035, DNSSEC Resource Records, March 2005](https://tools.ietf.org/html/rfc4035#section-3.1.6) /// /// ```text /// /// 3.1.6. The AD and CD Bits in an Authoritative Response /// /// The CD and AD bits are designed for use in communication between /// security-aware resolvers and security-aware recursive name servers. /// These bits are for the most part not relevant to query processing by /// security-aware authoritative name servers. /// /// A security-aware name server does not perform signature validation /// for authoritative data during query processing, even when the CD bit /// is clear. A security-aware name server SHOULD clear the CD bit when /// composing an authoritative response. /// /// A security-aware name server MUST NOT set the AD bit in a response /// unless the name server considers all RRsets in the Answer and /// Authority sections of the response to be authentic. A security-aware /// name server's local policy MAY consider data from an authoritative /// zone to be authentic without further validation. However, the name /// server MUST NOT do so unless the name server obtained the /// authoritative zone via secure means (such as a secure zone transfer /// mechanism) and MUST NOT do so unless this behavior has been /// configured explicitly. /// /// A security-aware name server that supports recursion MUST follow the /// rules for the CD and AD bits given in Section 3.2 when generating a /// response that involves data obtained via recursion. /// ``` pub fn authentic_data(&self) -> bool { self.authentic_data } /// see `is_authentic_data()` pub fn checking_disabled(&self) -> bool { self.checking_disabled } /// ```text /// RCODE Response code - this 4 bit field is set as part of /// responses. The values have the following /// interpretation: <see super::response_code> /// ``` pub fn response_code(&self) -> u8 { self.response_code } /// ```text /// QDCOUNT an unsigned 16 bit integer specifying the number of /// entries in the question section. /// ``` /// /// # Return value /// /// If this is a query, this will return the number of queries in the query section of the // message, fo updates this represents the zone count (must be no more than 1). pub fn query_count(&self) -> u16 { self.query_count } /// ```text /// ANCOUNT an unsigned 16 bit integer specifying the number of /// resource records in the answer section. /// ``` /// /// # Return value /// /// For query responses this is the number of records in the answer section, should be 0 for /// requests, for updates this is the count of prerequisite records. pub fn answer_count(&self) -> u16 { self.answer_count } /// for queries this is the nameservers which are authorities for the SOA of the Record /// for updates this is the update record count /// ```text /// NSCOUNT an unsigned 16 bit integer specifying the number of name /// server resource records in the authority records /// section. /// ``` /// /// # Return value /// /// For query responses this is the number of authorities, or nameservers, in the name server /// section, for updates this is the number of update records being sent. pub fn name_server_count(&self) -> u16 { self.name_server_count } /// ```text /// ARCOUNT an unsigned 16 bit integer specifying the number of /// resource records in the additional records section. /// ``` /// /// # Return value /// /// This is the additional record section count, this section may include EDNS options. pub fn additional_count(&self) -> u16 { self.additional_count } } impl BinEncodable for Header { fn emit(&self, encoder: &mut BinEncoder) -> ProtoResult<()> { encoder.reserve(12)?; // the 12 bytes for the following fields; // Id encoder.emit_u16(self.id)?; // IsQuery, OpCode, Authoritative, Truncation, RecursionDesired let mut q_opcd_a_t_r: u8 = if let MessageType::Response = self.message_type { 0x80 } else { 0x00 }; q_opcd_a_t_r |= u8::from(self.op_code) << 3; q_opcd_a_t_r |= if self.authoritative { 0x4 } else { 0x0 }; q_opcd_a_t_r |= if self.truncation { 0x2 } else { 0x0 }; q_opcd_a_t_r |= if self.recursion_desired { 0x1 } else { 0x0 }; encoder.emit(q_opcd_a_t_r)?; // IsRecursionAvailable, Triple 0's, ResponseCode let mut r_z_ad_cd_rcod: u8 = if self.recursion_available { 0b1000_0000 } else { 0b0000_0000 }; r_z_ad_cd_rcod |= if self.authentic_data { 0b0010_0000 } else { 0b0000_0000 }; r_z_ad_cd_rcod |= if self.checking_disabled { 0b0001_0000 } else { 0b0000_0000 }; r_z_ad_cd_rcod |= self.response_code; encoder.emit(r_z_ad_cd_rcod)?; encoder.emit_u16(self.query_count)?; encoder.emit_u16(self.answer_count)?; encoder.emit_u16(self.name_server_count)?; encoder.emit_u16(self.additional_count)?; Ok(()) } } impl<'r> BinDecodable<'r> for Header { fn read(decoder: &mut BinDecoder<'r>) -> ProtoResult<Self> { let id = decoder.read_u16()?.unverified(/*it is valid for this to be any u16*/); let q_opcd_a_t_r = decoder.pop()?.unverified(/*used as a bitfield, this is safe*/); // if the first bit is set let message_type = if (0b1000_0000 & q_opcd_a_t_r) == 0b1000_0000 { MessageType::Response } else { MessageType::Query }; // the 4bit opcode, masked and then shifted right 3bits for the u8... let op_code: OpCode = OpCode::from_u8((0b0111_1000 & q_opcd_a_t_r) >> 3)?; let authoritative = (0b0000_0100 & q_opcd_a_t_r) == 0b0000_0100; let truncation = (0b0000_0010 & q_opcd_a_t_r) == 0b0000_0010; let recursion_desired = (0b0000_0001 & q_opcd_a_t_r) == 0b0000_0001; let r_z_ad_cd_rcod = decoder.pop()?.unverified(/*used as a bitfield, this is safe*/); // fail fast... let recursion_available = (0b1000_0000 & r_z_ad_cd_rcod) == 0b1000_0000; let authentic_data = (0b0010_0000 & r_z_ad_cd_rcod) == 0b0010_0000; let checking_disabled = (0b0001_0000 & r_z_ad_cd_rcod) == 0b0001_0000; let response_code: u8 = 0b0000_1111 & r_z_ad_cd_rcod; // TODO: We should pass these restrictions on, they can't be trusted, but that would seriosly complicate the Header type.. // TODO: perhaps the read methods for BinDecodable should return Restrict? let query_count = decoder.read_u16()?.unverified(/*this must be verified when reading queries*/); let answer_count = decoder.read_u16()?.unverified(/*this must be evaluated when reading records*/); let name_server_count = decoder.read_u16()?.unverified(/*this must be evaluated when reading records*/); let additional_count = decoder.read_u16()?.unverified(/*this must be evaluated when reading records*/); // TODO: question, should this use the builder pattern instead? might be cleaner code, but // this guarantees that the Header is fully instantiated with all values... Ok(Header { id, message_type, op_code, authoritative, truncation, recursion_desired, recursion_available, authentic_data, checking_disabled, response_code, query_count, answer_count, name_server_count, additional_count, }) } } #[test] fn test_parse() { let byte_vec = vec![ 0x01, 0x10, 0xAA, 0x83, // 0b1010 1010 1000 0011 0x88, 0x77, 0x66, 0x55, 0x44, 0x33, 0x22, 0x11, ]; let mut decoder = BinDecoder::new(&byte_vec); let expect = Header { id: 0x0110, message_type: MessageType::Response, op_code: OpCode::Update, authoritative: false, truncation: true, recursion_desired: false, recursion_available: true, authentic_data: false, checking_disabled: false, response_code: ResponseCode::NXDomain.low(), query_count: 0x8877, answer_count: 0x6655, name_server_count: 0x4433, additional_count: 0x2211, }; let got = Header::read(&mut decoder).unwrap(); assert_eq!(got, expect); } #[test] fn test_write() { let header = Header { id: 0x0110, message_type: MessageType::Response, op_code: OpCode::Update, authoritative: false, truncation: true, recursion_desired: false, recursion_available: true, authentic_data: false, checking_disabled: false, response_code: ResponseCode::NXDomain.low(), query_count: 0x8877, answer_count: 0x6655, name_server_count: 0x4433, additional_count: 0x2211, }; let expect: Vec<u8> = vec![ 0x01, 0x10, 0xAA, 0x83, // 0b1010 1010 1000 0011 0x88, 0x77, 0x66, 0x55, 0x44, 0x33, 0x22, 0x11, ]; let mut bytes = Vec::with_capacity(512); { let mut encoder = BinEncoder::new(&mut bytes); header.emit(&mut encoder).unwrap(); } assert_eq!(bytes, expect); }