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// Copyright (c) 2009-2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef BITCOIN_NETBASE_H
#define BITCOIN_NETBASE_H
#if defined(HAVE_CONFIG_H)
#include <config/bitcoin-config.h>
#endif
#include <compat/compat.h>
#include <netaddress.h>
#include <serialize.h>
#include <util/sock.h>
#include <functional>
#include <memory>
#include <stdint.h>
#include <string>
#include <type_traits>
#include <unordered_set>
#include <vector>
extern int nConnectTimeout;
extern bool fNameLookup;
//! -timeout default
static const int DEFAULT_CONNECT_TIMEOUT = 5000;
//! -dns default
static const int DEFAULT_NAME_LOOKUP = true;
enum class ConnectionDirection {
None = 0,
In = (1U << 0),
Out = (1U << 1),
Both = (In | Out),
};
static inline ConnectionDirection& operator|=(ConnectionDirection& a, ConnectionDirection b) {
using underlying = typename std::underlying_type<ConnectionDirection>::type;
a = ConnectionDirection(underlying(a) | underlying(b));
return a;
}
static inline bool operator&(ConnectionDirection a, ConnectionDirection b) {
using underlying = typename std::underlying_type<ConnectionDirection>::type;
return (underlying(a) & underlying(b));
}
class Proxy
{
public:
Proxy(): randomize_credentials(false) {}
explicit Proxy(const CService &_proxy, bool _randomize_credentials=false): proxy(_proxy), randomize_credentials(_randomize_credentials) {}
bool IsValid() const { return proxy.IsValid(); }
CService proxy;
bool randomize_credentials;
};
/** Credentials for proxy authentication */
struct ProxyCredentials
{
std::string username;
std::string password;
};
/**
* List of reachable networks. Everything is reachable by default.
*/
class ReachableNets {
public:
void Add(Network net) EXCLUSIVE_LOCKS_REQUIRED(!m_mutex)
{
AssertLockNotHeld(m_mutex);
LOCK(m_mutex);
m_reachable.insert(net);
}
void Remove(Network net) EXCLUSIVE_LOCKS_REQUIRED(!m_mutex)
{
AssertLockNotHeld(m_mutex);
LOCK(m_mutex);
m_reachable.erase(net);
}
void RemoveAll() EXCLUSIVE_LOCKS_REQUIRED(!m_mutex)
{
AssertLockNotHeld(m_mutex);
LOCK(m_mutex);
m_reachable.clear();
}
[[nodiscard]] bool Contains(Network net) const EXCLUSIVE_LOCKS_REQUIRED(!m_mutex)
{
AssertLockNotHeld(m_mutex);
LOCK(m_mutex);
return m_reachable.count(net) > 0;
}
[[nodiscard]] bool Contains(const CNetAddr& addr) const EXCLUSIVE_LOCKS_REQUIRED(!m_mutex)
{
AssertLockNotHeld(m_mutex);
return Contains(addr.GetNetwork());
}
private:
mutable Mutex m_mutex;
std::unordered_set<Network> m_reachable GUARDED_BY(m_mutex){
NET_UNROUTABLE,
NET_IPV4,
NET_IPV6,
NET_ONION,
NET_I2P,
NET_CJDNS,
NET_INTERNAL
};
};
extern ReachableNets g_reachable_nets;
/**
* Wrapper for getaddrinfo(3). Do not use directly: call Lookup/LookupHost/LookupNumeric/LookupSubNet.
*/
std::vector<CNetAddr> WrappedGetAddrInfo(const std::string& name, bool allow_lookup);
enum Network ParseNetwork(const std::string& net);
std::string GetNetworkName(enum Network net);
/** Return a vector of publicly routable Network names; optionally append NET_UNROUTABLE. */
std::vector<std::string> GetNetworkNames(bool append_unroutable = false);
bool SetProxy(enum Network net, const Proxy &addrProxy);
bool GetProxy(enum Network net, Proxy &proxyInfoOut);
bool IsProxy(const CNetAddr &addr);
/**
* Set the name proxy to use for all connections to nodes specified by a
* hostname. After setting this proxy, connecting to a node specified by a
* hostname won't result in a local lookup of said hostname, rather, connect to
* the node by asking the name proxy for a proxy connection to the hostname,
* effectively delegating the hostname lookup to the specified proxy.
*
* This delegation increases privacy for those who set the name proxy as they no
* longer leak their external hostname queries to their DNS servers.
*
* @returns Whether or not the operation succeeded.
*
* @note SOCKS5's support for UDP-over-SOCKS5 has been considered, but no SOCK5
* server in common use (most notably Tor) actually implements UDP
* support, and a DNS resolver is beyond the scope of this project.
*/
bool SetNameProxy(const Proxy &addrProxy);
bool HaveNameProxy();
bool GetNameProxy(Proxy &nameProxyOut);
using DNSLookupFn = std::function<std::vector<CNetAddr>(const std::string&, bool)>;
extern DNSLookupFn g_dns_lookup;
/**
* Resolve a host string to its corresponding network addresses.
*
* @param name The string representing a host. Could be a name or a numerical
* IP address (IPv6 addresses in their bracketed form are
* allowed).
*
* @returns The resulting network addresses to which the specified host
* string resolved.
*
* @see Lookup(const std::string&, uint16_t, bool, unsigned int, DNSLookupFn)
* for additional parameter descriptions.
*/
std::vector<CNetAddr> LookupHost(const std::string& name, unsigned int nMaxSolutions, bool fAllowLookup, DNSLookupFn dns_lookup_function = g_dns_lookup);
/**
* Resolve a host string to its first corresponding network address.
*
* @returns The resulting network address to which the specified host
* string resolved or std::nullopt if host does not resolve to an address.
*
* @see LookupHost(const std::string&, unsigned int, bool, DNSLookupFn)
* for additional parameter descriptions.
*/
std::optional<CNetAddr> LookupHost(const std::string& name, bool fAllowLookup, DNSLookupFn dns_lookup_function = g_dns_lookup);
/**
* Resolve a service string to its corresponding service.
*
* @param name The string representing a service. Could be a name or a
* numerical IP address (IPv6 addresses should be in their
* disambiguated bracketed form), optionally followed by a uint16_t port
* number. (e.g. example.com:8333 or
* [2001:db8:85a3:8d3:1319:8a2e:370:7348]:420)
* @param portDefault The default port for resulting services if not specified
* by the service string.
* @param fAllowLookup Whether or not hostname lookups are permitted. If yes,
* external queries may be performed.
* @param nMaxSolutions The maximum number of results we want, specifying 0
* means "as many solutions as we get."
*
* @returns The resulting services to which the specified service string
* resolved.
*/
std::vector<CService> Lookup(const std::string& name, uint16_t portDefault, bool fAllowLookup, unsigned int nMaxSolutions, DNSLookupFn dns_lookup_function = g_dns_lookup);
/**
* Resolve a service string to its first corresponding service.
*
* @see Lookup(const std::string&, uint16_t, bool, unsigned int, DNSLookupFn)
* for additional parameter descriptions.
*/
std::optional<CService> Lookup(const std::string& name, uint16_t portDefault, bool fAllowLookup, DNSLookupFn dns_lookup_function = g_dns_lookup);
/**
* Resolve a service string with a numeric IP to its first corresponding
* service.
*
* @returns The resulting CService if the resolution was successful, [::]:0 otherwise.
*
* @see Lookup(const std::string&, uint16_t, bool, unsigned int, DNSLookupFn)
* for additional parameter descriptions.
*/
CService LookupNumeric(const std::string& name, uint16_t portDefault = 0, DNSLookupFn dns_lookup_function = g_dns_lookup);
/**
* Parse and resolve a specified subnet string into the appropriate internal
* representation.
*
* @param[in] subnet_str A string representation of a subnet of the form
* `network address [ "/", ( CIDR-style suffix | netmask ) ]`
* e.g. "2001:db8::/32", "192.0.2.0/255.255.255.0" or "8.8.8.8".
* @param[out] subnet_out Internal subnet representation, if parsable/resolvable
* from `subnet_str`.
* @returns whether the operation succeeded or not.
*/
bool LookupSubNet(const std::string& subnet_str, CSubNet& subnet_out);
/**
* Create a TCP socket in the given address family.
* @param[in] address_family The socket is created in the same address family as this address.
* @return pointer to the created Sock object or unique_ptr that owns nothing in case of failure
*/
std::unique_ptr<Sock> CreateSockTCP(const CService& address_family);
/**
* Socket factory. Defaults to `CreateSockTCP()`, but can be overridden by unit tests.
*/
extern std::function<std::unique_ptr<Sock>(const CService&)> CreateSock;
/**
* Try to connect to the specified service on the specified socket.
*
* @param addrConnect The service to which to connect.
* @param sock The socket on which to connect.
* @param nTimeout Wait this many milliseconds for the connection to be
* established.
* @param manual_connection Whether or not the connection was manually requested
* (e.g. through the addnode RPC)
*
* @returns Whether or not a connection was successfully made.
*/
bool ConnectSocketDirectly(const CService &addrConnect, const Sock& sock, int nTimeout, bool manual_connection);
/**
* Connect to a specified destination service through a SOCKS5 proxy by first
* connecting to the SOCKS5 proxy.
*
* @param proxy The SOCKS5 proxy.
* @param strDest The destination service to which to connect.
* @param port The destination port.
* @param sock The socket on which to connect to the SOCKS5 proxy.
* @param nTimeout Wait this many milliseconds for the connection to the SOCKS5
* proxy to be established.
* @param[out] outProxyConnectionFailed Whether or not the connection to the
* SOCKS5 proxy failed.
*
* @returns Whether or not the operation succeeded.
*/
bool ConnectThroughProxy(const Proxy& proxy, const std::string& strDest, uint16_t port, const Sock& sock, int nTimeout, bool& outProxyConnectionFailed);
void InterruptSocks5(bool interrupt);
/**
* Connect to a specified destination service through an already connected
* SOCKS5 proxy.
*
* @param strDest The destination fully-qualified domain name.
* @param port The destination port.
* @param auth The credentials with which to authenticate with the specified
* SOCKS5 proxy.
* @param socket The SOCKS5 proxy socket.
*
* @returns Whether or not the operation succeeded.
*
* @note The specified SOCKS5 proxy socket must already be connected to the
* SOCKS5 proxy.
*
* @see <a href="https://www.ietf.org/rfc/rfc1928.txt">RFC1928: SOCKS Protocol
* Version 5</a>
*/
bool Socks5(const std::string& strDest, uint16_t port, const ProxyCredentials* auth, const Sock& socket);
/**
* Determine if a port is "bad" from the perspective of attempting to connect
* to a node on that port.
* @see doc/p2p-bad-ports.md
* @param[in] port Port to check.
* @returns whether the port is bad
*/
bool IsBadPort(uint16_t port);
/**
* If an IPv6 address belongs to the address range used by the CJDNS network and
* the CJDNS network is reachable (-cjdnsreachable config is set), then change
* the type from NET_IPV6 to NET_CJDNS.
* @param[in] service Address to potentially convert.
* @return a copy of `service` either unmodified or changed to CJDNS.
*/
CService MaybeFlipIPv6toCJDNS(const CService& service);
#endif // BITCOIN_NETBASE_H
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