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271 lines
8.6 KiB
C++
271 lines
8.6 KiB
C++
// Copyright (c) 2020-2020 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#ifndef BITCOIN_I2P_H
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#define BITCOIN_I2P_H
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#include <compat.h>
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#include <fs.h>
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#include <netaddress.h>
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#include <sync.h>
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#include <threadinterrupt.h>
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#include <util/sock.h>
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#include <memory>
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#include <optional>
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#include <string>
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#include <unordered_map>
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#include <vector>
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namespace i2p {
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/**
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* Binary data.
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*/
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using Binary = std::vector<uint8_t>;
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/**
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* An established connection with another peer.
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*/
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struct Connection {
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/** Connected socket. */
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std::unique_ptr<Sock> sock;
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/** Our I2P address. */
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CService me;
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/** The peer's I2P address. */
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CService peer;
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};
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namespace sam {
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/**
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* The maximum size of an incoming message from the I2P SAM proxy (in bytes).
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* Used to avoid a runaway proxy from sending us an "unlimited" amount of data without a terminator.
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* The longest known message is ~1400 bytes, so this is high enough not to be triggered during
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* normal operation, yet low enough to avoid a malicious proxy from filling our memory.
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*/
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static constexpr size_t MAX_MSG_SIZE{65536};
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/**
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* I2P SAM session.
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*/
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class Session
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{
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public:
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/**
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* Construct a session. This will not initiate any IO, the session will be lazily created
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* later when first used.
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* @param[in] private_key_file Path to a private key file. If the file does not exist then the
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* private key will be generated and saved into the file.
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* @param[in] control_host Location of the SAM proxy.
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* @param[in,out] interrupt If this is signaled then all operations are canceled as soon as
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* possible and executing methods throw an exception. Notice: only a pointer to the
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* `CThreadInterrupt` object is saved, so it must not be destroyed earlier than this
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* `Session` object.
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*/
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Session(const fs::path& private_key_file,
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const CService& control_host,
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CThreadInterrupt* interrupt);
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/**
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* Destroy the session, closing the internally used sockets. The sockets that have been
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* returned by `Accept()` or `Connect()` will not be closed, but they will be closed by
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* the SAM proxy because the session is destroyed. So they will return an error next time
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* we try to read or write to them.
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*/
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~Session();
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/**
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* Start listening for an incoming connection.
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* @param[out] conn Upon successful completion the `sock` and `me` members will be set
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* to the listening socket and address.
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* @return true on success
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*/
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bool Listen(Connection& conn);
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/**
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* Wait for and accept a new incoming connection.
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* @param[in,out] conn The `sock` member is used for waiting and accepting. Upon successful
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* completion the `peer` member will be set to the address of the incoming peer.
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* @return true on success
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*/
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bool Accept(Connection& conn);
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/**
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* Connect to an I2P peer.
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* @param[in] to Peer to connect to.
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* @param[out] conn Established connection. Only set if `true` is returned.
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* @param[out] proxy_error If an error occurs due to proxy or general network failure, then
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* this is set to `true`. If an error occurs due to unreachable peer (likely peer is down), then
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* it is set to `false`. Only set if `false` is returned.
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* @return true on success
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*/
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bool Connect(const CService& to, Connection& conn, bool& proxy_error);
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private:
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/**
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* A reply from the SAM proxy.
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*/
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struct Reply {
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/**
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* Full, unparsed reply.
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*/
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std::string full;
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/**
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* Request, used for detailed error reporting.
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*/
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std::string request;
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/**
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* A map of keywords from the parsed reply.
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* For example, if the reply is "A=X B C=YZ", then the map will be
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* keys["A"] == "X"
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* keys["B"] == (empty std::optional)
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* keys["C"] == "YZ"
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*/
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std::unordered_map<std::string, std::optional<std::string>> keys;
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/**
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* Get the value of a given key.
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* For example if the reply is "A=X B" then:
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* Value("A") -> "X"
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* Value("B") -> throws
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* Value("C") -> throws
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* @param[in] key Key whose value to retrieve
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* @returns the key's value
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* @throws std::runtime_error if the key is not present or if it has no value
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*/
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std::string Get(const std::string& key) const;
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};
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/**
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* Log a message in the `BCLog::I2P` category.
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* @param[in] fmt printf(3)-like format string.
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* @param[in] args printf(3)-like arguments that correspond to `fmt`.
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*/
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template <typename... Args>
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void Log(const std::string& fmt, const Args&... args) const;
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/**
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* Send request and get a reply from the SAM proxy.
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* @param[in] sock A socket that is connected to the SAM proxy.
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* @param[in] request Raw request to send, a newline terminator is appended to it.
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* @param[in] check_result_ok If true then after receiving the reply a check is made
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* whether it contains "RESULT=OK" and an exception is thrown if it does not.
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* @throws std::runtime_error if an error occurs
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*/
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Reply SendRequestAndGetReply(const Sock& sock,
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const std::string& request,
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bool check_result_ok = true) const;
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/**
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* Open a new connection to the SAM proxy.
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* @return a connected socket
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* @throws std::runtime_error if an error occurs
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*/
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std::unique_ptr<Sock> Hello() const EXCLUSIVE_LOCKS_REQUIRED(m_mutex);
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/**
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* Check the control socket for errors and possibly disconnect.
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*/
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void CheckControlSock();
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/**
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* Generate a new destination with the SAM proxy and set `m_private_key` to it.
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* @param[in] sock Socket to use for talking to the SAM proxy.
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* @throws std::runtime_error if an error occurs
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*/
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void DestGenerate(const Sock& sock) EXCLUSIVE_LOCKS_REQUIRED(m_mutex);
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/**
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* Generate a new destination with the SAM proxy, set `m_private_key` to it and save
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* it on disk to `m_private_key_file`.
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* @param[in] sock Socket to use for talking to the SAM proxy.
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* @throws std::runtime_error if an error occurs
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*/
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void GenerateAndSavePrivateKey(const Sock& sock) EXCLUSIVE_LOCKS_REQUIRED(m_mutex);
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/**
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* Derive own destination from `m_private_key`.
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* @see https://geti2p.net/spec/common-structures#destination
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* @return an I2P destination
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*/
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Binary MyDestination() const EXCLUSIVE_LOCKS_REQUIRED(m_mutex);
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/**
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* Create the session if not already created. Reads the private key file and connects to the
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* SAM proxy.
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* @throws std::runtime_error if an error occurs
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*/
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void CreateIfNotCreatedAlready() EXCLUSIVE_LOCKS_REQUIRED(m_mutex);
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/**
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* Open a new connection to the SAM proxy and issue "STREAM ACCEPT" request using the existing
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* session id.
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* @return the idle socket that is waiting for a peer to connect to us
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* @throws std::runtime_error if an error occurs
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*/
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std::unique_ptr<Sock> StreamAccept() EXCLUSIVE_LOCKS_REQUIRED(m_mutex);
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/**
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* Destroy the session, closing the internally used sockets.
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*/
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void Disconnect() EXCLUSIVE_LOCKS_REQUIRED(m_mutex);
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/**
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* The name of the file where this peer's private key is stored (in binary).
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*/
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const fs::path m_private_key_file;
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/**
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* The host and port of the SAM control service.
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*/
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const CService m_control_host;
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/**
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* Cease network activity when this is signaled.
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*/
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CThreadInterrupt* const m_interrupt;
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/**
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* Mutex protecting the members that can be concurrently accessed.
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*/
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mutable Mutex m_mutex;
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/**
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* The private key of this peer.
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* @see The reply to the "DEST GENERATE" command in https://geti2p.net/en/docs/api/samv3
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*/
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Binary m_private_key GUARDED_BY(m_mutex);
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/**
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* SAM control socket.
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* Used to connect to the I2P SAM service and create a session
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* ("SESSION CREATE"). With the established session id we later open
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* other connections to the SAM service to accept incoming I2P
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* connections and make outgoing ones.
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* See https://geti2p.net/en/docs/api/samv3
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*/
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std::unique_ptr<Sock> m_control_sock GUARDED_BY(m_mutex);
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/**
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* Our .b32.i2p address.
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* Derived from `m_private_key`.
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*/
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CService m_my_addr GUARDED_BY(m_mutex);
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/**
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* SAM session id.
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*/
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std::string m_session_id GUARDED_BY(m_mutex);
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};
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} // namespace sam
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} // namespace i2p
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#endif /* BITCOIN_I2P_H */
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