2019-03-14 14:20:38 +03:00
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#include <Kernel/TCPSocket.h>
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#include <Kernel/TCP.h>
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#include <Kernel/NetworkAdapter.h>
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#include <Kernel/Process.h>
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2019-03-14 14:28:30 +03:00
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Lockable<HashMap<word, TCPSocket*>>& TCPSocket::sockets_by_port()
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{
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static Lockable<HashMap<word, TCPSocket*>>* s_map;
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if (!s_map)
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s_map = new Lockable<HashMap<word, TCPSocket*>>;
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return *s_map;
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}
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TCPSocketHandle TCPSocket::from_port(word port)
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{
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RetainPtr<TCPSocket> socket;
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{
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LOCKER(sockets_by_port().lock());
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auto it = sockets_by_port().resource().find(port);
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if (it == sockets_by_port().resource().end())
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return { };
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socket = (*it).value;
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ASSERT(socket);
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}
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return { move(socket) };
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}
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2019-03-14 14:20:38 +03:00
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TCPSocket::TCPSocket(int protocol)
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: IPv4Socket(SOCK_STREAM, protocol)
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{
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}
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TCPSocket::~TCPSocket()
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{
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2019-03-14 14:28:30 +03:00
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LOCKER(sockets_by_port().lock());
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sockets_by_port().resource().remove(source_port());
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2019-03-14 14:20:38 +03:00
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}
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Retained<TCPSocket> TCPSocket::create(int protocol)
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{
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return adopt(*new TCPSocket(protocol));
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}
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int TCPSocket::protocol_receive(const ByteBuffer& packet_buffer, void* buffer, size_t buffer_size, int flags, sockaddr* addr, socklen_t* addr_length)
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{
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(void)flags;
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(void)addr_length;
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ASSERT(!packet_buffer.is_null());
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auto& ipv4_packet = *(const IPv4Packet*)(packet_buffer.pointer());
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auto& tcp_packet = *static_cast<const TCPPacket*>(ipv4_packet.payload());
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size_t payload_size = packet_buffer.size() - sizeof(IPv4Packet) - tcp_packet.header_size();
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2019-03-14 21:57:54 +03:00
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kprintf("payload_size %u, will it fit in %u?\n", payload_size, buffer_size);
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2019-03-14 14:20:38 +03:00
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ASSERT(buffer_size >= payload_size);
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if (addr) {
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auto& ia = *(sockaddr_in*)addr;
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ia.sin_port = htons(tcp_packet.destination_port());
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}
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memcpy(buffer, tcp_packet.payload(), payload_size);
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return payload_size;
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}
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int TCPSocket::protocol_send(const void* data, int data_length)
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{
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// FIXME: Figure out the adapter somehow differently.
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auto* adapter = NetworkAdapter::from_ipv4_address(IPv4Address(192, 168, 5, 2));
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if (!adapter)
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ASSERT_NOT_REACHED();
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send_tcp_packet(TCPFlags::PUSH | TCPFlags::ACK, data, data_length);
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return data_length;
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}
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void TCPSocket::send_tcp_packet(word flags, const void* payload, int payload_size)
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{
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// FIXME: Figure out the adapter somehow differently.
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auto& adapter = *NetworkAdapter::from_ipv4_address(IPv4Address(192, 168, 5, 2));
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auto buffer = ByteBuffer::create_zeroed(sizeof(TCPPacket) + payload_size);
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auto& tcp_packet = *(TCPPacket*)(buffer.pointer());
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ASSERT(source_port());
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tcp_packet.set_source_port(source_port());
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tcp_packet.set_destination_port(destination_port());
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tcp_packet.set_window_size(1024);
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tcp_packet.set_sequence_number(m_sequence_number);
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tcp_packet.set_data_offset(sizeof(TCPPacket) / sizeof(dword));
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tcp_packet.set_flags(flags);
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if (flags & TCPFlags::ACK)
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tcp_packet.set_ack_number(m_ack_number);
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if (flags == TCPFlags::SYN) {
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++m_sequence_number;
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} else {
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m_sequence_number += payload_size;
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}
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memcpy(tcp_packet.payload(), payload, payload_size);
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tcp_packet.set_checksum(compute_tcp_checksum(adapter.ipv4_address(), destination_address(), tcp_packet, payload_size));
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kprintf("sending tcp packet from %s:%u to %s:%u with (%s %s) seq_no=%u, ack_no=%u\n",
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adapter.ipv4_address().to_string().characters(),
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source_port(),
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destination_address().to_string().characters(),
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destination_port(),
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tcp_packet.has_syn() ? "SYN" : "",
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tcp_packet.has_ack() ? "ACK" : "",
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tcp_packet.sequence_number(),
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tcp_packet.ack_number()
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);
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adapter.send_ipv4(MACAddress(), destination_address(), IPv4Protocol::TCP, move(buffer));
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}
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NetworkOrdered<word> TCPSocket::compute_tcp_checksum(const IPv4Address& source, const IPv4Address& destination, const TCPPacket& packet, word payload_size)
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{
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struct [[gnu::packed]] PseudoHeader {
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IPv4Address source;
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IPv4Address destination;
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byte zero;
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byte protocol;
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NetworkOrdered<word> payload_size;
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};
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PseudoHeader pseudo_header { source, destination, 0, (byte)IPv4Protocol::TCP, sizeof(TCPPacket) + payload_size };
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dword checksum = 0;
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auto* w = (const NetworkOrdered<word>*)&pseudo_header;
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for (size_t i = 0; i < sizeof(pseudo_header) / sizeof(word); ++i) {
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checksum += w[i];
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if (checksum > 0xffff)
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checksum = (checksum >> 16) + (checksum & 0xffff);
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}
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w = (const NetworkOrdered<word>*)&packet;
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for (size_t i = 0; i < sizeof(packet) / sizeof(word); ++i) {
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checksum += w[i];
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if (checksum > 0xffff)
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checksum = (checksum >> 16) + (checksum & 0xffff);
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}
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ASSERT(packet.data_offset() * 4 == sizeof(TCPPacket));
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w = (const NetworkOrdered<word>*)packet.payload();
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for (size_t i = 0; i < payload_size / sizeof(word); ++i) {
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checksum += w[i];
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if (checksum > 0xffff)
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checksum = (checksum >> 16) + (checksum & 0xffff);
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}
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if (payload_size & 1) {
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2019-03-14 21:57:54 +03:00
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word expanded_byte = ((const byte*)packet.payload())[payload_size - 1] << 8;
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2019-03-14 14:20:38 +03:00
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checksum += expanded_byte;
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if (checksum > 0xffff)
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checksum = (checksum >> 16) + (checksum & 0xffff);
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}
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return ~(checksum & 0xffff);
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}
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KResult TCPSocket::protocol_connect()
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{
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// FIXME: Figure out the adapter somehow differently.
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auto* adapter = NetworkAdapter::from_ipv4_address(IPv4Address(192, 168, 5, 2));
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if (!adapter)
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ASSERT_NOT_REACHED();
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allocate_source_port_if_needed();
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m_sequence_number = 0;
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m_ack_number = 0;
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send_tcp_packet(TCPFlags::SYN);
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m_state = State::Connecting;
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current->set_blocked_socket(this);
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block(Process::BlockedConnect);
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Scheduler::yield();
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ASSERT(is_connected());
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return KSuccess;
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}
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2019-03-14 14:28:30 +03:00
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void TCPSocket::protocol_allocate_source_port()
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{
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// This is not a very efficient allocation algorithm.
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// FIXME: Replace it with a bitmap or some other fast-paced looker-upper.
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LOCKER(sockets_by_port().lock());
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for (word port = 2000; port < 60000; ++port) {
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auto it = sockets_by_port().resource().find(port);
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if (it == sockets_by_port().resource().end()) {
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set_source_port(port);
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sockets_by_port().resource().set(port, this);
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return;
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}
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}
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}
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2019-03-14 17:23:32 +03:00
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bool TCPSocket::protocol_is_disconnected() const
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{
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return m_state == State::Disconnecting || m_state == State::Disconnected;
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}
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