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11eee67b85
Until now, our kernel has reimplemented a number of AK classes to provide automatic internal locking: - RefPtr - NonnullRefPtr - WeakPtr - Weakable This patch renames the Kernel classes so that they can coexist with the original AK classes: - RefPtr => LockRefPtr - NonnullRefPtr => NonnullLockRefPtr - WeakPtr => LockWeakPtr - Weakable => LockWeakable The goal here is to eventually get rid of the Lock* classes in favor of using external locking.
345 lines
13 KiB
C++
345 lines
13 KiB
C++
/*
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* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/HashMap.h>
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#include <AK/Singleton.h>
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#include <Kernel/Debug.h>
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#include <Kernel/Locking/MutexProtected.h>
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#include <Kernel/Net/LoopbackAdapter.h>
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#include <Kernel/Net/NetworkTask.h>
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#include <Kernel/Net/NetworkingManagement.h>
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#include <Kernel/Net/Routing.h>
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#include <Kernel/Thread.h>
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namespace Kernel {
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static Singleton<SpinlockProtected<HashMap<IPv4Address, MACAddress>>> s_arp_table;
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static Singleton<SpinlockProtected<Route::RouteList>> s_routing_table;
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class ARPTableBlocker final : public Thread::Blocker {
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public:
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ARPTableBlocker(IPv4Address ip_addr, Optional<MACAddress>& addr);
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virtual StringView state_string() const override { return "Routing (ARP)"sv; }
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virtual Type blocker_type() const override { return Type::Routing; }
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virtual bool setup_blocker() override;
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virtual void will_unblock_immediately_without_blocking(UnblockImmediatelyReason) override;
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bool unblock_if_matching_ip_address(bool from_add_blocker, IPv4Address const& ip_address, MACAddress const& mac_address)
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{
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if (m_ip_address != ip_address)
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return false;
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{
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SpinlockLocker lock(m_lock);
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if (m_did_unblock)
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return false;
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m_did_unblock = true;
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m_mac_address = mac_address;
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}
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if (!from_add_blocker)
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unblock_from_blocker();
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return true;
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}
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IPv4Address const& ip_address() const { return m_ip_address; }
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private:
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IPv4Address const m_ip_address;
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Optional<MACAddress>& m_mac_address;
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bool m_did_unblock { false };
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};
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class ARPTableBlockerSet final : public Thread::BlockerSet {
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public:
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void unblock_blockers_waiting_for_ipv4_address(IPv4Address const& ipv4_address, MACAddress const& mac_address)
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{
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BlockerSet::unblock_all_blockers_whose_conditions_are_met([&](auto& b, void*, bool&) {
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VERIFY(b.blocker_type() == Thread::Blocker::Type::Routing);
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auto& blocker = static_cast<ARPTableBlocker&>(b);
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return blocker.unblock_if_matching_ip_address(false, ipv4_address, mac_address);
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});
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}
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protected:
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virtual bool should_add_blocker(Thread::Blocker& b, void*) override
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{
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VERIFY(b.blocker_type() == Thread::Blocker::Type::Routing);
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auto& blocker = static_cast<ARPTableBlocker&>(b);
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auto maybe_mac_address = arp_table().with([&](auto const& table) -> auto{
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return table.get(blocker.ip_address());
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});
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if (!maybe_mac_address.has_value())
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return true;
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return !blocker.unblock_if_matching_ip_address(true, blocker.ip_address(), maybe_mac_address.value());
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}
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};
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static Singleton<ARPTableBlockerSet> s_arp_table_blocker_set;
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ARPTableBlocker::ARPTableBlocker(IPv4Address ip_addr, Optional<MACAddress>& addr)
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: m_ip_address(ip_addr)
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, m_mac_address(addr)
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{
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}
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bool ARPTableBlocker::setup_blocker()
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{
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return add_to_blocker_set(*s_arp_table_blocker_set);
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}
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void ARPTableBlocker::will_unblock_immediately_without_blocking(UnblockImmediatelyReason)
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{
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auto addr = arp_table().with([&](auto const& table) -> auto{
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return table.get(ip_address());
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});
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SpinlockLocker lock(m_lock);
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if (!m_did_unblock) {
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m_did_unblock = true;
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m_mac_address = move(addr);
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}
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}
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SpinlockProtected<HashMap<IPv4Address, MACAddress>>& arp_table()
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{
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return *s_arp_table;
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}
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void update_arp_table(IPv4Address const& ip_addr, MACAddress const& addr, UpdateTable update)
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{
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arp_table().with([&](auto& table) {
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if (update == UpdateTable::Set)
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table.set(ip_addr, addr);
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if (update == UpdateTable::Delete)
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table.remove(ip_addr);
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});
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s_arp_table_blocker_set->unblock_blockers_waiting_for_ipv4_address(ip_addr, addr);
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if constexpr (ARP_DEBUG) {
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arp_table().with([&](auto const& table) {
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dmesgln("ARP table ({} entries):", table.size());
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for (auto& it : table)
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dmesgln("{} :: {}", it.value.to_string(), it.key.to_string());
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});
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}
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}
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SpinlockProtected<Route::RouteList>& routing_table()
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{
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return *s_routing_table;
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}
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ErrorOr<void> update_routing_table(IPv4Address const& destination, IPv4Address const& gateway, IPv4Address const& netmask, u16 flags, LockRefPtr<NetworkAdapter> adapter, UpdateTable update)
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{
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dbgln_if(ROUTING_DEBUG, "update_routing_table {} {} {} {} {} {}", destination, gateway, netmask, flags, adapter, update == UpdateTable::Set ? "Set" : "Delete");
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auto route_entry = adopt_lock_ref_if_nonnull(new (nothrow) Route { destination, gateway, netmask, flags, adapter.release_nonnull() });
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if (!route_entry)
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return ENOMEM;
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TRY(routing_table().with([&](auto& table) -> ErrorOr<void> {
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if (update == UpdateTable::Set) {
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for (auto const& route : table) {
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if (route == *route_entry)
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return EEXIST;
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}
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table.append(*route_entry);
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}
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if (update == UpdateTable::Delete) {
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for (auto& route : table) {
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dbgln_if(ROUTING_DEBUG, "candidate: {} {} {} {} {}", route.destination, route.gateway, route.netmask, route.flags, route.adapter);
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if (route.matches(*route_entry)) {
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// FIXME: Remove all entries, not only the first one.
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table.remove(route);
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return {};
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}
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}
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return ESRCH;
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}
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return {};
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}));
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return {};
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}
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bool RoutingDecision::is_zero() const
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{
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return adapter.is_null() || next_hop.is_zero();
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}
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static MACAddress multicast_ethernet_address(IPv4Address const& address)
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{
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return MACAddress { 0x01, 0x00, 0x5e, (u8)(address[1] & 0x7f), address[2], address[3] };
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}
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RoutingDecision route_to(IPv4Address const& target, IPv4Address const& source, LockRefPtr<NetworkAdapter> const through, AllowUsingGateway allow_using_gateway)
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{
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auto matches = [&](auto& adapter) {
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if (!through)
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return true;
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return through == adapter;
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};
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auto if_matches = [&](auto& adapter, auto const& mac) -> RoutingDecision {
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if (!matches(adapter))
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return { nullptr, {} };
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return { adapter, mac };
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};
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if (target[0] == 0 && target[1] == 0 && target[2] == 0 && target[3] == 0)
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return if_matches(*NetworkingManagement::the().loopback_adapter(), NetworkingManagement::the().loopback_adapter()->mac_address());
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if (target[0] == 127)
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return if_matches(*NetworkingManagement::the().loopback_adapter(), NetworkingManagement::the().loopback_adapter()->mac_address());
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auto target_addr = target.to_u32();
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auto source_addr = source.to_u32();
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LockRefPtr<NetworkAdapter> local_adapter = nullptr;
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LockRefPtr<Route> chosen_route = nullptr;
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NetworkingManagement::the().for_each([source_addr, &target_addr, &local_adapter, &matches, &through](NetworkAdapter& adapter) {
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auto adapter_addr = adapter.ipv4_address().to_u32();
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auto adapter_mask = adapter.ipv4_netmask().to_u32();
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if (target_addr == adapter_addr) {
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local_adapter = NetworkingManagement::the().loopback_adapter();
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return;
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}
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if (!adapter.link_up() || (adapter_addr == 0 && !through))
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return;
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if (source_addr != 0 && source_addr != adapter_addr)
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return;
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if ((target_addr & adapter_mask) == (adapter_addr & adapter_mask) && matches(adapter))
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local_adapter = adapter;
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});
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u32 longest_prefix_match = 0;
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routing_table().for_each([&target_addr, &matches, &longest_prefix_match, &chosen_route](auto& route) {
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auto route_addr = route.destination.to_u32();
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auto route_mask = route.netmask.to_u32();
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if (route_addr == 0 && matches(*route.adapter)) {
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dbgln_if(ROUTING_DEBUG, "Resorting to default route found for adapter: {}", route.adapter->name());
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chosen_route = route;
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}
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// We have a direct match and we can exit the routing table earlier.
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if (target_addr == route_addr) {
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dbgln_if(ROUTING_DEBUG, "Target address has a direct match in the routing table");
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chosen_route = route;
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return;
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}
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if ((target_addr & route_mask) == (route_addr & route_mask) && (route_addr != 0)) {
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auto prefix = (target_addr & (route_addr & route_mask));
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if (chosen_route && prefix == longest_prefix_match) {
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chosen_route = (route.netmask.to_u32() > chosen_route->netmask.to_u32()) ? route : chosen_route;
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dbgln_if(ROUTING_DEBUG, "Found a matching prefix match. Using longer netmask: {}", chosen_route->netmask);
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}
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if (prefix > longest_prefix_match) {
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dbgln_if(ROUTING_DEBUG, "Found a longer prefix match - route: {}, netmask: {}", route.destination.to_string(), route.netmask);
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longest_prefix_match = prefix;
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chosen_route = route;
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}
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}
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});
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if (local_adapter && target == local_adapter->ipv4_address())
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return { local_adapter, local_adapter->mac_address() };
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if (!local_adapter && !chosen_route) {
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dbgln_if(ROUTING_DEBUG, "Routing: Couldn't find a suitable adapter for route to {}", target);
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return { nullptr, {} };
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}
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LockRefPtr<NetworkAdapter> adapter = nullptr;
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IPv4Address next_hop_ip;
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if (local_adapter) {
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dbgln_if(ROUTING_DEBUG, "Routing: Got adapter for route (direct): {} ({}/{}) for {}",
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local_adapter->name(),
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local_adapter->ipv4_address(),
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local_adapter->ipv4_netmask(),
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target);
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adapter = local_adapter;
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next_hop_ip = target;
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} else if (chosen_route && allow_using_gateway == AllowUsingGateway::Yes) {
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dbgln_if(ROUTING_DEBUG, "Routing: Got adapter for route (using gateway {}): {} ({}/{}) for {}",
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chosen_route->gateway,
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chosen_route->adapter->name(),
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chosen_route->adapter->ipv4_address(),
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chosen_route->adapter->ipv4_netmask(),
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target);
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adapter = chosen_route->adapter;
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next_hop_ip = chosen_route->gateway;
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} else {
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return { nullptr, {} };
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}
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// If it's a broadcast, we already know everything we need to know.
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// FIXME: We should also deal with the case where `target_addr` is
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// a broadcast to a subnet rather than a full broadcast.
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if (target_addr == 0xffffffff && matches(adapter))
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return { adapter, { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } };
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if (adapter == NetworkingManagement::the().loopback_adapter())
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return { adapter, adapter->mac_address() };
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if ((target_addr & IPv4Address { 240, 0, 0, 0 }.to_u32()) == IPv4Address { 224, 0, 0, 0 }.to_u32())
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return { adapter, multicast_ethernet_address(target) };
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{
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auto addr = arp_table().with([&](auto const& table) -> auto{
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return table.get(next_hop_ip);
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});
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if (addr.has_value()) {
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dbgln_if(ARP_DEBUG, "Routing: Using cached ARP entry for {} ({})", next_hop_ip, addr.value().to_string());
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return { adapter, addr.value() };
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}
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}
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dbgln_if(ARP_DEBUG, "Routing: Sending ARP request via adapter {} for IPv4 address {}", adapter->name(), next_hop_ip);
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ARPPacket request;
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request.set_operation(ARPOperation::Request);
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request.set_target_hardware_address({ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff });
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request.set_target_protocol_address(next_hop_ip);
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request.set_sender_hardware_address(adapter->mac_address());
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request.set_sender_protocol_address(adapter->ipv4_address());
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adapter->send({ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff }, request);
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if (NetworkTask::is_current()) {
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// FIXME: Waiting for the ARP response from inside the NetworkTask would
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// deadlock, so let's hope that whoever called route_to() tries again in a bit.
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dbgln_if(ARP_DEBUG, "Routing: Not waiting for ARP response from inside NetworkTask, sent ARP request using adapter {} for {}", adapter->name(), target);
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return { nullptr, {} };
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}
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Optional<MACAddress> addr;
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if (!Thread::current()->block<ARPTableBlocker>({}, next_hop_ip, addr).was_interrupted()) {
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if (addr.has_value()) {
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dbgln_if(ARP_DEBUG, "Routing: Got ARP response using adapter {} for {} ({})",
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adapter->name(),
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next_hop_ip,
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addr.value().to_string());
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return { adapter, addr.value() };
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}
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}
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dbgln_if(ROUTING_DEBUG, "Routing: Couldn't find route using adapter {} for {}", adapter->name(), target);
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return { nullptr, {} };
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}
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}
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