/* * Copyright (c) 2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include "Answer.h" #include #include #include #include namespace DNS { Answer::Answer(Name const& name, RecordType type, RecordClass class_code, u32 ttl, String const& record_data, bool mdns_cache_flush) : m_name(name) , m_type(type) , m_class_code(class_code) , m_ttl(ttl) , m_record_data(record_data) , m_mdns_cache_flush(mdns_cache_flush) { time(&m_received_time); } bool Answer::has_expired() const { return time(nullptr) >= m_received_time + m_ttl; } unsigned Answer::hash() const { auto hash = pair_int_hash(CaseInsensitiveStringTraits::hash(name().as_string()), (u32)type()); hash = pair_int_hash(hash, pair_int_hash((u32)class_code(), ttl())); hash = pair_int_hash(hash, record_data().hash()); hash = pair_int_hash(hash, (u32)mdns_cache_flush()); return hash; } bool Answer::operator==(Answer const& other) const { if (&other == this) return true; if (!Name::Traits::equals(name(), other.name())) return false; if (type() != other.type()) return false; if (class_code() != other.class_code()) return false; if (ttl() != other.ttl()) return false; if (record_data() != other.record_data()) return false; if (mdns_cache_flush() != other.mdns_cache_flush()) return false; return true; } } ErrorOr AK::Formatter::format(AK::FormatBuilder& builder, DNS::RecordType value) { switch (value) { case DNS::RecordType::A: return builder.put_string("A"); case DNS::RecordType::NS: return builder.put_string("NS"); case DNS::RecordType::CNAME: return builder.put_string("CNAME"); case DNS::RecordType::SOA: return builder.put_string("SOA"); case DNS::RecordType::PTR: return builder.put_string("PTR"); case DNS::RecordType::MX: return builder.put_string("MX"); case DNS::RecordType::TXT: return builder.put_string("TXT"); case DNS::RecordType::AAAA: return builder.put_string("AAAA"); case DNS::RecordType::SRV: return builder.put_string("SRV"); } TRY(builder.put_string("DNS record type ")); TRY(builder.put_u64((u16)value)); return {}; } ErrorOr AK::Formatter::format(AK::FormatBuilder& builder, DNS::RecordClass value) { switch (value) { case DNS::RecordClass::IN: return builder.put_string("IN"); } TRY(builder.put_string("DNS record class ")); TRY(builder.put_u64((u16)value)); return {}; } namespace IPC { bool encode(Encoder& encoder, DNS::Answer const& answer) { encoder << answer.name().as_string() << (u16)answer.type() << (u16)answer.class_code() << answer.ttl() << answer.record_data() << answer.mdns_cache_flush(); return true; } ErrorOr decode(Decoder& decoder, DNS::Answer& answer) { String name; TRY(decoder.decode(name)); u16 record_type, class_code; TRY(decoder.decode(record_type)); TRY(decoder.decode(class_code)); u32 ttl; TRY(decoder.decode(ttl)); String record_data; TRY(decoder.decode(record_data)); bool cache_flush; TRY(decoder.decode(cache_flush)); answer = { { name }, (DNS::RecordType)record_type, (DNS::RecordClass)class_code, ttl, record_data, cache_flush }; return {}; } }