// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/dns/dns_query.h" #include "base/big_endian.h" #include "base/memory/ptr_util.h" #include "base/sys_byteorder.h" #include "net/base/io_buffer.h" #include "net/dns/dns_protocol.h" #include "net/dns/dns_util.h" #include "net/dns/record_rdata.h" namespace net { namespace { const size_t kHeaderSize = sizeof(dns_protocol::Header); // Size of the fixed part of an OPT RR: // https://tools.ietf.org/html/rfc6891#section-6.1.2 static const size_t kOptRRFixedSize = 11; // https://tools.ietf.org/html/rfc6891#section-6.2.5 // TODO(robpercival): Determine a good value for this programmatically. const uint16_t kMaxUdpPayloadSize = 4096; size_t OptRecordSize(const OptRecordRdata* rdata) { return rdata == nullptr ? 0 : kOptRRFixedSize + rdata->buf().size(); } } // namespace // DNS query consists of a 12-byte header followed by a question section. // For details, see RFC 1035 section 4.1.1. This header template sets RD // bit, which directs the name server to pursue query recursively, and sets // the QDCOUNT to 1, meaning the question section has a single entry. DnsQuery::DnsQuery(uint16_t id, const base::StringPiece& qname, uint16_t qtype, const OptRecordRdata* opt_rdata) : qname_size_(qname.size()), io_buffer_(new IOBufferWithSize(kHeaderSize + question_size() + OptRecordSize(opt_rdata))), header_(reinterpret_cast(io_buffer_->data())) { DCHECK(!DNSDomainToString(qname).empty()); *header_ = {}; header_->id = base::HostToNet16(id); header_->flags = base::HostToNet16(dns_protocol::kFlagRD); header_->qdcount = base::HostToNet16(1); // Write question section after the header. base::BigEndianWriter writer(io_buffer_->data() + kHeaderSize, io_buffer_->size() - kHeaderSize); writer.WriteBytes(qname.data(), qname.size()); writer.WriteU16(qtype); writer.WriteU16(dns_protocol::kClassIN); if (opt_rdata != nullptr) { header_->arcount = base::HostToNet16(1); // Write OPT pseudo-resource record. writer.WriteU8(0); // empty domain name (root domain) writer.WriteU16(OptRecordRdata::kType); // type writer.WriteU16(kMaxUdpPayloadSize); // class // ttl (next 3 fields) writer.WriteU8(0); // rcode does not apply to requests writer.WriteU8(0); // version // TODO(robpercival): Set "DNSSEC OK" flag if/when DNSSEC is supported: // https://tools.ietf.org/html/rfc3225#section-3 writer.WriteU16(0); // flags // rdata writer.WriteU16(opt_rdata->buf().size()); // rdata length writer.WriteBytes(opt_rdata->buf().data(), opt_rdata->buf().size()); } } DnsQuery::~DnsQuery() { } std::unique_ptr DnsQuery::CloneWithNewId(uint16_t id) const { return base::WrapUnique(new DnsQuery(*this, id)); } uint16_t DnsQuery::id() const { return base::NetToHost16(header_->id); } base::StringPiece DnsQuery::qname() const { return base::StringPiece(io_buffer_->data() + kHeaderSize, qname_size_); } uint16_t DnsQuery::qtype() const { uint16_t type; base::ReadBigEndian(io_buffer_->data() + kHeaderSize + qname_size_, &type); return type; } base::StringPiece DnsQuery::question() const { return base::StringPiece(io_buffer_->data() + kHeaderSize, question_size()); } void DnsQuery::set_flags(uint16_t flags) { header_->flags = flags; } DnsQuery::DnsQuery(const DnsQuery& orig, uint16_t id) { qname_size_ = orig.qname_size_; io_buffer_ = new IOBufferWithSize(orig.io_buffer()->size()); memcpy(io_buffer_.get()->data(), orig.io_buffer()->data(), io_buffer_.get()->size()); header_ = reinterpret_cast(io_buffer_->data()); header_->id = base::HostToNet16(id); } } // namespace net