Coverage Report

Created: 2024-10-29 12:15

/root/bitcoin/src/common/pcp.cpp
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Source (jump to first uncovered line)
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// Copyright (c) 2024 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or https://www.opensource.org/licenses/mit-license.php.
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#include <common/pcp.h>
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#include <common/netif.h>
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#include <crypto/common.h>
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#include <logging.h>
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#include <netaddress.h>
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#include <netbase.h>
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#include <random.h>
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#include <span.h>
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#include <util/check.h>
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#include <util/readwritefile.h>
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#include <util/sock.h>
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#include <util/strencodings.h>
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namespace {
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// RFC6886 NAT-PMP and RFC6887 Port Control Protocol (PCP) implementation.
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// NAT-PMP and PCP use network byte order (big-endian).
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// NAT-PMP (v0) protocol constants.
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//! NAT-PMP uses a fixed server port number (RFC6887 section 1.1).
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constexpr uint16_t NATPMP_SERVER_PORT = 5351;
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//! Version byte for NATPMP (RFC6886 1.1)
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constexpr uint8_t NATPMP_VERSION = 0;
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//! Request opcode base (RFC6886 3).
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constexpr uint8_t NATPMP_REQUEST = 0x00;
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//! Response opcode base (RFC6886 3).
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constexpr uint8_t NATPMP_RESPONSE = 0x80;
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//! Get external address (RFC6886 3.2)
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constexpr uint8_t NATPMP_OP_GETEXTERNAL = 0x00;
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//! Map TCP port (RFC6886 3.3)
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constexpr uint8_t NATPMP_OP_MAP_TCP = 0x02;
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//! Shared request header size in bytes.
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constexpr size_t NATPMP_REQUEST_HDR_SIZE = 2;
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//! Shared response header (minimum) size in bytes.
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constexpr size_t NATPMP_RESPONSE_HDR_SIZE = 8;
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//! GETEXTERNAL request size in bytes, including header (RFC6886 3.2).
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constexpr size_t NATPMP_GETEXTERNAL_REQUEST_SIZE = NATPMP_REQUEST_HDR_SIZE + 0;
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//! GETEXTERNAL response size in bytes, including header (RFC6886 3.2).
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constexpr size_t NATPMP_GETEXTERNAL_RESPONSE_SIZE = NATPMP_RESPONSE_HDR_SIZE + 4;
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//! MAP request size in bytes, including header (RFC6886 3.3).
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constexpr size_t NATPMP_MAP_REQUEST_SIZE = NATPMP_REQUEST_HDR_SIZE + 10;
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//! MAP response size in bytes, including header (RFC6886 3.3).
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constexpr size_t NATPMP_MAP_RESPONSE_SIZE = NATPMP_RESPONSE_HDR_SIZE + 8;
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// Shared header offsets (RFC6886 3.2, 3.3), relative to start of packet.
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//!  Offset of version field in packets.
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constexpr size_t NATPMP_HDR_VERSION_OFS = 0;
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//!  Offset of opcode field in packets
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constexpr size_t NATPMP_HDR_OP_OFS = 1;
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//!  Offset of result code in packets. Result codes are 16 bit in NAT-PMP instead of 8 bit in PCP.
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constexpr size_t NATPMP_RESPONSE_HDR_RESULT_OFS = 2;
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// GETEXTERNAL response offsets (RFC6886 3.2), relative to start of packet.
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//!  Returned external address
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constexpr size_t NATPMP_GETEXTERNAL_RESPONSE_IP_OFS = 8;
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// MAP request offsets (RFC6886 3.3), relative to start of packet.
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//!  Internal port to be mapped.
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constexpr size_t NATPMP_MAP_REQUEST_INTERNAL_PORT_OFS = 4;
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//!  Suggested external port for mapping.
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constexpr size_t NATPMP_MAP_REQUEST_EXTERNAL_PORT_OFS = 6;
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//!  Requested port mapping lifetime in seconds.
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constexpr size_t NATPMP_MAP_REQUEST_LIFETIME_OFS = 8;
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// MAP response offsets (RFC6886 3.3), relative to start of packet.
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//!  Internal port for mapping (will match internal port of request).
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constexpr size_t NATPMP_MAP_RESPONSE_INTERNAL_PORT_OFS = 8;
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//!  External port for mapping.
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constexpr size_t NATPMP_MAP_RESPONSE_EXTERNAL_PORT_OFS = 10;
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//!  Created port mapping lifetime in seconds.
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constexpr size_t NATPMP_MAP_RESPONSE_LIFETIME_OFS = 12;
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// Relevant NETPMP result codes (RFC6886 3.5).
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//! Result code representing success status.
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constexpr uint8_t NATPMP_RESULT_SUCCESS = 0;
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//! Result code representing unsupported version.
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constexpr uint8_t NATPMP_RESULT_UNSUPP_VERSION = 1;
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//! Result code representing lack of resources.
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constexpr uint8_t NATPMP_RESULT_NO_RESOURCES = 4;
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//! Mapping of NATPMP result code to string (RFC6886 3.5). Result codes <=2 match PCP.
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const std::map<uint8_t, std::string> NATPMP_RESULT_STR{
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    {0,  "SUCCESS"},
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    {1,  "UNSUPP_VERSION"},
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    {2,  "NOT_AUTHORIZED"},
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    {3,  "NETWORK_FAILURE"},
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    {4,  "NO_RESOURCES"},
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    {5,  "UNSUPP_OPCODE"},
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};
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// PCP (v2) protocol constants.
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//! Maximum packet size in bytes (RFC6887 section 7).
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constexpr size_t PCP_MAX_SIZE = 1100;
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//! PCP uses a fixed server port number (RFC6887 section 19.1). Shared with NAT-PMP.
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constexpr uint16_t PCP_SERVER_PORT = NATPMP_SERVER_PORT;
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//! Version byte. 0 is NAT-PMP (RFC6886), 1 is forbidden, 2 for PCP (RFC6887).
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constexpr uint8_t PCP_VERSION = 2;
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//! PCP Request Header. See RFC6887 section 7.1. Shared with NAT-PMP.
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constexpr uint8_t PCP_REQUEST = NATPMP_REQUEST; // R = 0
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//! PCP Response Header. See RFC6887 section 7.2. Shared with NAT-PMP.
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constexpr uint8_t PCP_RESPONSE = NATPMP_RESPONSE; // R = 1
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//! Map opcode. See RFC6887 section 19.2
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constexpr uint8_t PCP_OP_MAP = 0x01;
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//! TCP protocol number (IANA).
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constexpr uint16_t PCP_PROTOCOL_TCP = 6;
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//! Request and response header size in bytes (RFC6887 section 7.1).
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constexpr size_t PCP_HDR_SIZE = 24;
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//! Map request and response size in bytes (RFC6887 section 11.1).
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constexpr size_t PCP_MAP_SIZE = 36;
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// Header offsets shared between request and responses (RFC6887 7.1, 7.2), relative to start of packet.
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//!  Version field (1 byte).
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constexpr size_t PCP_HDR_VERSION_OFS = NATPMP_HDR_VERSION_OFS;
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//!  Opcode field (1 byte).
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constexpr size_t PCP_HDR_OP_OFS = NATPMP_HDR_OP_OFS;
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//!  Requested lifetime (request), granted lifetime (response) (4 bytes).
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constexpr size_t PCP_HDR_LIFETIME_OFS = 4;
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// Request header offsets (RFC6887 7.1), relative to start of packet.
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//!  PCP client's IP address (16 bytes).
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constexpr size_t PCP_REQUEST_HDR_IP_OFS = 8;
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// Response header offsets (RFC6887 7.2), relative to start of packet.
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//!  Result code (1 byte).
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constexpr size_t PCP_RESPONSE_HDR_RESULT_OFS = 3;
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// MAP request/response offsets (RFC6887 11.1), relative to start of opcode-specific data.
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//!  Mapping nonce (12 bytes).
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constexpr size_t PCP_MAP_NONCE_OFS = 0;
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//!  Protocol (1 byte).
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constexpr size_t PCP_MAP_PROTOCOL_OFS = 12;
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//!  Internal port for mapping (2 bytes).
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constexpr size_t PCP_MAP_INTERNAL_PORT_OFS = 16;
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//!  Suggested external port (request), assigned external port (response) (2 bytes).
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constexpr size_t PCP_MAP_EXTERNAL_PORT_OFS = 18;
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//!  Suggested external IP (request), assigned external IP (response) (16 bytes).
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constexpr size_t PCP_MAP_EXTERNAL_IP_OFS = 20;
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//! Result code representing success (RFC6887 7.4), shared with NAT-PMP.
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constexpr uint8_t PCP_RESULT_SUCCESS = NATPMP_RESULT_SUCCESS;
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//! Result code representing lack of resources (RFC6887 7.4).
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constexpr uint8_t PCP_RESULT_NO_RESOURCES = 8;
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//! Mapping of PCP result code to string (RFC6887 7.4). Result codes <=2 match NAT-PMP.
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const std::map<uint8_t, std::string> PCP_RESULT_STR{
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    {0,  "SUCCESS"},
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    {1,  "UNSUPP_VERSION"},
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    {2,  "NOT_AUTHORIZED"},
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    {3,  "MALFORMED_REQUEST"},
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    {4,  "UNSUPP_OPCODE"},
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    {5,  "UNSUPP_OPTION"},
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    {6,  "MALFORMED_OPTION"},
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    {7,  "NETWORK_FAILURE"},
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    {8,  "NO_RESOURCES"},
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    {9,  "UNSUPP_PROTOCOL"},
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    {10, "USER_EX_QUOTA"},
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    {11, "CANNOT_PROVIDE_EXTERNAL"},
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    {12, "ADDRESS_MISMATCH"},
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    {13, "EXCESSIVE_REMOTE_PEER"},
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};
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//! Return human-readable string from NATPMP result code.
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std::string NATPMPResultString(uint8_t result_code)
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0
{
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    auto result_i = NATPMP_RESULT_STR.find(result_code);
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0
    return strprintf("%s (code %d)", result_i == NATPMP_RESULT_STR.end() ? "(unknown)" : result_i->second,  result_code);
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0
}
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//! Return human-readable string from PCP result code.
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std::string PCPResultString(uint8_t result_code)
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0
{
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    auto result_i = PCP_RESULT_STR.find(result_code);
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    return strprintf("%s (code %d)", result_i == PCP_RESULT_STR.end() ? "(unknown)" : result_i->second,  result_code);
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0
}
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//! Wrap address in IPv6 according to RFC6887. wrapped_addr needs to be able to store 16 bytes.
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[[nodiscard]] bool PCPWrapAddress(Span<uint8_t> wrapped_addr, const CNetAddr &addr)
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0
{
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0
    Assume(wrapped_addr.size() == ADDR_IPV6_SIZE);
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0
    if (addr.IsIPv4()) {
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        struct in_addr addr4;
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        if (!addr.GetInAddr(&addr4)) return false;
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        // Section 5: "When the address field holds an IPv4 address, an IPv4-mapped IPv6 address [RFC4291] is used (::ffff:0:0/96)."
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        std::memcpy(wrapped_addr.data(), IPV4_IN_IPV6_PREFIX.data(), IPV4_IN_IPV6_PREFIX.size());
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        std::memcpy(wrapped_addr.data() + IPV4_IN_IPV6_PREFIX.size(), &addr4, ADDR_IPV4_SIZE);
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        return true;
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    } else if (addr.IsIPv6()) {
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        struct in6_addr addr6;
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        if (!addr.GetIn6Addr(&addr6)) return false;
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        std::memcpy(wrapped_addr.data(), &addr6, ADDR_IPV6_SIZE);
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        return true;
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    } else {
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        return false;
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0
    }
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0
}
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//! Unwrap PCP-encoded address according to RFC6887.
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CNetAddr PCPUnwrapAddress(Span<const uint8_t> wrapped_addr)
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{
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    Assume(wrapped_addr.size() == ADDR_IPV6_SIZE);
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    if (util::HasPrefix(wrapped_addr, IPV4_IN_IPV6_PREFIX)) {
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        struct in_addr addr4;
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        std::memcpy(&addr4, wrapped_addr.data() + IPV4_IN_IPV6_PREFIX.size(), ADDR_IPV4_SIZE);
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        return CNetAddr(addr4);
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    } else {
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        struct in6_addr addr6;
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        std::memcpy(&addr6, wrapped_addr.data(), ADDR_IPV6_SIZE);
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        return CNetAddr(addr6);
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    }
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0
}
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//! PCP or NAT-PMP send-receive loop.
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std::optional<std::vector<uint8_t>> PCPSendRecv(Sock &sock, const std::string &protocol, Span<const uint8_t> request, int num_tries,
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        std::chrono::milliseconds timeout_per_try,
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        std::function<bool(Span<const uint8_t>)> check_packet)
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{
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    using namespace std::chrono;
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    // UDP is a potentially lossy protocol, so we try to send again a few times.
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    uint8_t response[PCP_MAX_SIZE];
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    bool got_response = false;
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0
    int recvsz = 0;
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    for (int ntry = 0; !got_response && ntry < num_tries; ++ntry) {
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        if (ntry > 0) {
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            LogPrintLevel(BCLog::NET, BCLog::Level::Debug, "%s: Retrying (%d)\n", protocol, ntry);
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        }
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        // Dispatch packet to gateway.
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        if (sock.Send(request.data(), request.size(), 0) != static_cast<ssize_t>(request.size())) {
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            LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "%s: Could not send request: %s\n", protocol, NetworkErrorString(WSAGetLastError()));
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            return std::nullopt; // Network-level error, probably no use retrying.
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        }
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        // Wait for response(s) until we get a valid response, a network error, or time out.
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        auto cur_time = time_point_cast<milliseconds>(steady_clock::now());
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        auto deadline = cur_time + timeout_per_try;
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        while ((cur_time = time_point_cast<milliseconds>(steady_clock::now())) < deadline) {
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            Sock::Event occurred = 0;
242
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            if (!sock.Wait(deadline - cur_time, Sock::RECV, &occurred)) {
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                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "%s: Could not wait on socket: %s\n", protocol, NetworkErrorString(WSAGetLastError()));
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                return std::nullopt; // Network-level error, probably no use retrying.
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0
            }
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            if (!occurred) {
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                LogPrintLevel(BCLog::NET, BCLog::Level::Debug, "%s: Timeout\n", protocol);
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                break; // Retry.
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0
            }
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            // Receive response.
252
0
            recvsz = sock.Recv(response, sizeof(response), MSG_DONTWAIT);
253
0
            if (recvsz < 0) {
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                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "%s: Could not receive response: %s\n", protocol, NetworkErrorString(WSAGetLastError()));
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                return std::nullopt; // Network-level error, probably no use retrying.
256
0
            }
257
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            LogPrintLevel(BCLog::NET, BCLog::Level::Debug, "%s: Received response of %d bytes: %s\n", protocol, recvsz, HexStr(Span(response, recvsz)));
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259
0
            if (check_packet(Span<uint8_t>(response, recvsz))) {
260
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                got_response = true; // Got expected response, break from receive loop as well as from retry loop.
261
0
                break;
262
0
            }
263
0
        }
264
0
    }
265
0
    if (!got_response) {
266
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Debug, "%s: Giving up after %d tries\n", protocol, num_tries);
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0
        return std::nullopt;
268
0
    }
269
0
    return std::vector<uint8_t>(response, response + recvsz);
270
0
}
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}
273
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std::variant<MappingResult, MappingError> NATPMPRequestPortMap(const CNetAddr &gateway, uint16_t port, uint32_t lifetime, int num_tries, std::chrono::milliseconds timeout_per_try)
275
0
{
276
0
    struct sockaddr_storage dest_addr;
277
0
    socklen_t dest_addrlen = sizeof(struct sockaddr_storage);
278
279
0
    LogPrintLevel(BCLog::NET, BCLog::Level::Debug, "natpmp: Requesting port mapping port %d from gateway %s\n", port, gateway.ToStringAddr());
280
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    // Validate gateway, make sure it's IPv4. NAT-PMP does not support IPv6.
282
0
    if (!CService(gateway, PCP_SERVER_PORT).GetSockAddr((struct sockaddr*)&dest_addr, &dest_addrlen)) return MappingError::NETWORK_ERROR;
283
0
    if (dest_addr.ss_family != AF_INET) return MappingError::NETWORK_ERROR;
284
285
    // Create IPv4 UDP socket
286
0
    auto sock{CreateSock(AF_INET, SOCK_DGRAM, IPPROTO_UDP)};
287
0
    if (!sock) {
288
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Could not create UDP socket: %s\n", NetworkErrorString(WSAGetLastError()));
289
0
        return MappingError::NETWORK_ERROR;
290
0
    }
291
292
    // Associate UDP socket to gateway.
293
0
    if (sock->Connect((struct sockaddr*)&dest_addr, dest_addrlen) != 0) {
294
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Could not connect to gateway: %s\n", NetworkErrorString(WSAGetLastError()));
295
0
        return MappingError::NETWORK_ERROR;
296
0
    }
297
298
    // Use getsockname to get the address toward the default gateway (the internal address).
299
0
    struct sockaddr_in internal;
300
0
    socklen_t internal_addrlen = sizeof(struct sockaddr_in);
301
0
    if (sock->GetSockName((struct sockaddr*)&internal, &internal_addrlen) != 0) {
302
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Could not get sock name: %s\n", NetworkErrorString(WSAGetLastError()));
303
0
        return MappingError::NETWORK_ERROR;
304
0
    }
305
306
    // Request external IP address (RFC6886 section 3.2).
307
0
    std::vector<uint8_t> request(NATPMP_GETEXTERNAL_REQUEST_SIZE);
308
0
    request[NATPMP_HDR_VERSION_OFS] = NATPMP_VERSION;
309
0
    request[NATPMP_HDR_OP_OFS] = NATPMP_REQUEST | NATPMP_OP_GETEXTERNAL;
310
311
0
    auto recv_res = PCPSendRecv(*sock, "natpmp", request, num_tries, timeout_per_try,
312
0
        [&](const Span<const uint8_t> response) -> bool {
313
0
            if (response.size() < NATPMP_GETEXTERNAL_RESPONSE_SIZE) {
314
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Response too small\n");
315
0
                return false; // Wasn't response to what we expected, try receiving next packet.
316
0
            }
317
0
            if (response[NATPMP_HDR_VERSION_OFS] != NATPMP_VERSION || response[NATPMP_HDR_OP_OFS] != (NATPMP_RESPONSE | NATPMP_OP_GETEXTERNAL)) {
318
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Response to wrong command\n");
319
0
                return false; // Wasn't response to what we expected, try receiving next packet.
320
0
            }
321
0
            return true;
322
0
        });
323
324
0
    struct in_addr external_addr;
325
0
    if (recv_res) {
326
0
        const std::span<const uint8_t> response = *recv_res;
327
328
0
        Assume(response.size() >= NATPMP_GETEXTERNAL_RESPONSE_SIZE);
329
0
        uint16_t result_code = ReadBE16(response.data() + NATPMP_RESPONSE_HDR_RESULT_OFS);
330
0
        if (result_code != NATPMP_RESULT_SUCCESS) {
331
0
            LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Getting external address failed with result %s\n", NATPMPResultString(result_code));
332
0
            return MappingError::PROTOCOL_ERROR;
333
0
        }
334
335
0
        std::memcpy(&external_addr, response.data() + NATPMP_GETEXTERNAL_RESPONSE_IP_OFS, ADDR_IPV4_SIZE);
336
0
    } else {
337
0
        return MappingError::NETWORK_ERROR;
338
0
    }
339
340
    // Create TCP mapping request (RFC6886 section 3.3).
341
0
    request = std::vector<uint8_t>(NATPMP_MAP_REQUEST_SIZE);
342
0
    request[NATPMP_HDR_VERSION_OFS] = NATPMP_VERSION;
343
0
    request[NATPMP_HDR_OP_OFS] = NATPMP_REQUEST | NATPMP_OP_MAP_TCP;
344
0
    WriteBE16(request.data() + NATPMP_MAP_REQUEST_INTERNAL_PORT_OFS, port);
345
0
    WriteBE16(request.data() + NATPMP_MAP_REQUEST_EXTERNAL_PORT_OFS, port);
346
0
    WriteBE32(request.data() + NATPMP_MAP_REQUEST_LIFETIME_OFS, lifetime);
347
348
0
    recv_res = PCPSendRecv(*sock, "natpmp", request, num_tries, timeout_per_try,
349
0
        [&](const Span<const uint8_t> response) -> bool {
350
0
            if (response.size() < NATPMP_MAP_RESPONSE_SIZE) {
351
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Response too small\n");
352
0
                return false; // Wasn't response to what we expected, try receiving next packet.
353
0
            }
354
0
            if (response[0] != NATPMP_VERSION || response[1] != (NATPMP_RESPONSE | NATPMP_OP_MAP_TCP)) {
355
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Response to wrong command\n");
356
0
                return false; // Wasn't response to what we expected, try receiving next packet.
357
0
            }
358
0
            uint16_t internal_port = ReadBE16(response.data() + NATPMP_MAP_RESPONSE_INTERNAL_PORT_OFS);
359
0
            if (internal_port != port) {
360
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Response port doesn't match request\n");
361
0
                return false; // Wasn't response to what we expected, try receiving next packet.
362
0
            }
363
0
            return true;
364
0
        });
365
366
0
    if (recv_res) {
367
0
        const std::span<uint8_t> response = *recv_res;
368
369
0
        Assume(response.size() >= NATPMP_MAP_RESPONSE_SIZE);
370
0
        uint16_t result_code = ReadBE16(response.data() + NATPMP_RESPONSE_HDR_RESULT_OFS);
371
0
        if (result_code != NATPMP_RESULT_SUCCESS) {
372
0
            LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "natpmp: Port mapping failed with result %s\n", NATPMPResultString(result_code));
373
0
            if (result_code == NATPMP_RESULT_NO_RESOURCES) {
374
0
                return MappingError::NO_RESOURCES;
375
0
            }
376
0
            return MappingError::PROTOCOL_ERROR;
377
0
        }
378
379
0
        uint32_t lifetime_ret = ReadBE32(response.data() + NATPMP_MAP_RESPONSE_LIFETIME_OFS);
380
0
        uint16_t external_port = ReadBE16(response.data() + NATPMP_MAP_RESPONSE_EXTERNAL_PORT_OFS);
381
0
        return MappingResult(NATPMP_VERSION, CService(internal.sin_addr, port), CService(external_addr, external_port), lifetime_ret);
382
0
    } else {
383
0
        return MappingError::NETWORK_ERROR;
384
0
    }
385
0
}
386
387
std::variant<MappingResult, MappingError> PCPRequestPortMap(const PCPMappingNonce &nonce, const CNetAddr &gateway, const CNetAddr &bind, uint16_t port, uint32_t lifetime, int num_tries, std::chrono::milliseconds timeout_per_try)
388
0
{
389
0
    struct sockaddr_storage dest_addr, bind_addr;
390
0
    socklen_t dest_addrlen = sizeof(struct sockaddr_storage), bind_addrlen = sizeof(struct sockaddr_storage);
391
392
0
    LogPrintLevel(BCLog::NET, BCLog::Level::Debug, "pcp: Requesting port mapping for addr %s port %d from gateway %s\n", bind.ToStringAddr(), port, gateway.ToStringAddr());
393
394
    // Validate addresses, make sure they're the same network family.
395
0
    if (!CService(gateway, PCP_SERVER_PORT).GetSockAddr((struct sockaddr*)&dest_addr, &dest_addrlen)) return MappingError::NETWORK_ERROR;
396
0
    if (!CService(bind, 0).GetSockAddr((struct sockaddr*)&bind_addr, &bind_addrlen)) return MappingError::NETWORK_ERROR;
397
0
    if (dest_addr.ss_family != bind_addr.ss_family) return MappingError::NETWORK_ERROR;
398
399
    // Create UDP socket (IPv4 or IPv6 based on provided gateway).
400
0
    auto sock{CreateSock(dest_addr.ss_family, SOCK_DGRAM, IPPROTO_UDP)};
401
0
    if (!sock) {
402
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Could not create UDP socket: %s\n", NetworkErrorString(WSAGetLastError()));
403
0
        return MappingError::NETWORK_ERROR;
404
0
    }
405
406
    // Make sure that we send from requested destination address, anything else will be
407
    // rejected by a security-conscious router.
408
0
    if (sock->Bind((struct sockaddr*)&bind_addr, bind_addrlen) != 0) {
409
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Could not bind to address: %s\n", NetworkErrorString(WSAGetLastError()));
410
0
        return MappingError::NETWORK_ERROR;
411
0
    }
412
413
    // Associate UDP socket to gateway.
414
0
    if (sock->Connect((struct sockaddr*)&dest_addr, dest_addrlen) != 0) {
415
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Could not connect to gateway: %s\n", NetworkErrorString(WSAGetLastError()));
416
0
        return MappingError::NETWORK_ERROR;
417
0
    }
418
419
    // Use getsockname to get the address toward the default gateway (the internal address),
420
    // in case we don't know what address to map
421
    // (this is only needed if bind is INADDR_ANY, but it doesn't hurt as an extra check).
422
0
    struct sockaddr_storage internal_addr;
423
0
    socklen_t internal_addrlen = sizeof(struct sockaddr_storage);
424
0
    if (sock->GetSockName((struct sockaddr*)&internal_addr, &internal_addrlen) != 0) {
425
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Could not get sock name: %s\n", NetworkErrorString(WSAGetLastError()));
426
0
        return MappingError::NETWORK_ERROR;
427
0
    }
428
0
    CService internal;
429
0
    if (!internal.SetSockAddr((struct sockaddr*)&internal_addr)) return MappingError::NETWORK_ERROR;
430
0
    LogPrintLevel(BCLog::NET, BCLog::Level::Debug, "pcp: Internal address after connect: %s\n", internal.ToStringAddr());
431
432
    // Build request packet. Make sure the packet is zeroed so that reserved fields are zero
433
    // as required by the spec (and not potentially leak data).
434
    // Make sure there's space for the request header and MAP specific request data.
435
0
    std::vector<uint8_t> request(PCP_HDR_SIZE + PCP_MAP_SIZE);
436
    // Fill in request header, See RFC6887 Figure 2.
437
0
    size_t ofs = 0;
438
0
    request[ofs + PCP_HDR_VERSION_OFS] = PCP_VERSION;
439
0
    request[ofs + PCP_HDR_OP_OFS] = PCP_REQUEST | PCP_OP_MAP;
440
0
    WriteBE32(request.data() + ofs + PCP_HDR_LIFETIME_OFS, lifetime);
441
0
    if (!PCPWrapAddress(Span(request).subspan(ofs + PCP_REQUEST_HDR_IP_OFS, ADDR_IPV6_SIZE), internal)) return MappingError::NETWORK_ERROR;
442
443
0
    ofs += PCP_HDR_SIZE;
444
445
    // Fill in MAP request packet, See RFC6887 Figure 9.
446
    // Randomize mapping nonce (this is repeated in the response, to be able to
447
    // correlate requests and responses, and used to authenticate changes to the mapping).
448
0
    std::memcpy(request.data() + ofs + PCP_MAP_NONCE_OFS, nonce.data(), PCP_MAP_NONCE_SIZE);
449
0
    request[ofs + PCP_MAP_PROTOCOL_OFS] = PCP_PROTOCOL_TCP;
450
0
    WriteBE16(request.data() + ofs + PCP_MAP_INTERNAL_PORT_OFS, port);
451
0
    WriteBE16(request.data() + ofs + PCP_MAP_EXTERNAL_PORT_OFS, port);
452
0
    if (!PCPWrapAddress(Span(request).subspan(ofs + PCP_MAP_EXTERNAL_IP_OFS, ADDR_IPV6_SIZE), bind)) return MappingError::NETWORK_ERROR;
453
454
0
    ofs += PCP_MAP_SIZE;
455
0
    Assume(ofs == request.size());
456
457
    // Receive loop.
458
0
    bool is_natpmp = false;
459
0
    auto recv_res = PCPSendRecv(*sock, "pcp", request, num_tries, timeout_per_try,
460
0
        [&](const Span<const uint8_t> response) -> bool {
461
            // Unsupported version according to RFC6887 appendix A and RFC6886 section 3.5, can fall back to NAT-PMP.
462
0
            if (response.size() == NATPMP_RESPONSE_HDR_SIZE && response[PCP_HDR_VERSION_OFS] == NATPMP_VERSION && response[PCP_RESPONSE_HDR_RESULT_OFS] == NATPMP_RESULT_UNSUPP_VERSION) {
463
0
                is_natpmp = true;
464
0
                return true; // Let it through to caller.
465
0
            }
466
0
            if (response.size() < (PCP_HDR_SIZE + PCP_MAP_SIZE)) {
467
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Response too small\n");
468
0
                return false; // Wasn't response to what we expected, try receiving next packet.
469
0
            }
470
0
            if (response[PCP_HDR_VERSION_OFS] != PCP_VERSION || response[PCP_HDR_OP_OFS] != (PCP_RESPONSE | PCP_OP_MAP)) {
471
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Response to wrong command\n");
472
0
                return false; // Wasn't response to what we expected, try receiving next packet.
473
0
            }
474
            // Handle MAP opcode response. See RFC6887 Figure 10.
475
            // Check that returned mapping nonce matches our request.
476
0
            if (!std::ranges::equal(response.subspan(PCP_HDR_SIZE + PCP_MAP_NONCE_OFS, PCP_MAP_NONCE_SIZE), nonce)) {
477
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Mapping nonce mismatch\n");
478
0
                return false; // Wasn't response to what we expected, try receiving next packet.
479
0
            }
480
0
            uint8_t protocol = response[PCP_HDR_SIZE + 12];
481
0
            uint16_t internal_port = ReadBE16(response.data() + PCP_HDR_SIZE + 16);
482
0
            if (protocol != PCP_PROTOCOL_TCP || internal_port != port) {
483
0
                LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Response protocol or port doesn't match request\n");
484
0
                return false; // Wasn't response to what we expected, try receiving next packet.
485
0
            }
486
0
            return true;
487
0
        });
488
489
0
    if (!recv_res) {
490
0
        return MappingError::NETWORK_ERROR;
491
0
    }
492
0
    if (is_natpmp) {
493
0
        return MappingError::UNSUPP_VERSION;
494
0
    }
495
496
0
    const std::span<const uint8_t> response = *recv_res;
497
    // If we get here, we got a valid MAP response to our request.
498
    // Check to see if we got the result we expected.
499
0
    Assume(response.size() >= (PCP_HDR_SIZE + PCP_MAP_SIZE));
500
0
    uint8_t result_code = response[PCP_RESPONSE_HDR_RESULT_OFS];
501
0
    uint32_t lifetime_ret = ReadBE32(response.data() + PCP_HDR_LIFETIME_OFS);
502
0
    uint16_t external_port = ReadBE16(response.data() + PCP_HDR_SIZE + PCP_MAP_EXTERNAL_PORT_OFS);
503
0
    CNetAddr external_addr{PCPUnwrapAddress(response.subspan(PCP_HDR_SIZE + PCP_MAP_EXTERNAL_IP_OFS, ADDR_IPV6_SIZE))};
504
0
    if (result_code != PCP_RESULT_SUCCESS) {
505
0
        LogPrintLevel(BCLog::NET, BCLog::Level::Warning, "pcp: Mapping failed with result %s\n", PCPResultString(result_code));
506
0
        if (result_code == PCP_RESULT_NO_RESOURCES) {
507
0
            return MappingError::NO_RESOURCES;
508
0
        }
509
0
        return MappingError::PROTOCOL_ERROR;
510
0
    }
511
512
0
    return MappingResult(PCP_VERSION, CService(internal, port), CService(external_addr, external_port), lifetime_ret);
513
0
}
514
515
std::string MappingResult::ToString()
516
0
{
517
0
    Assume(version == NATPMP_VERSION || version == PCP_VERSION);
518
0
    return strprintf("%s:%s -> %s (for %ds)",
519
0
            version == NATPMP_VERSION ? "natpmp" : "pcp",
520
0
            external.ToStringAddrPort(),
521
0
            internal.ToStringAddrPort(),
522
0
            lifetime
523
0
        );
524
0
}