transmission/libtransmission/handshake.cc

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// This file Copyright © 2017-2022 Mnemosyne LLC.
// It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only),
// or any future license endorsed by Mnemosyne LLC.
// License text can be found in the licenses/ folder.
#include <algorithm>
#include <array>
#include <cerrno>
#include <cstring>
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#include <string_view>
#include <event2/buffer.h>
#include <event2/event.h>
#include <fmt/format.h>
#include "transmission.h"
#include "clients.h"
#include "crypto-utils.h"
#include "handshake.h"
#include "log.h"
#include "peer-io.h"
#include "peer-mgr.h"
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#include "session.h"
#include "torrent.h"
#include "tr-assert.h"
#include "tr-dht.h"
#include "utils.h"
using namespace std::literals;
/* enable LibTransmission extension protocol */
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#define ENABLE_LTEP
/* fast extensions */
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#define ENABLE_FAST
/* DHT */
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#define ENABLE_DHT
/***
****
***/
#define HANDSHAKE_NAME "\023BitTorrent protocol"
// bittorrent handshake constants
static auto constexpr HANDSHAKE_NAME_LEN = int{ 20 };
static auto constexpr HANDSHAKE_FLAGS_LEN = int{ 8 };
static auto constexpr HANDSHAKE_SIZE = int{ 68 };
static auto constexpr INCOMING_HANDSHAKE_LEN = int{ 48 };
// encryption constants
static auto constexpr PadA_MAXLEN = int{ 512 };
static auto constexpr PadB_MAXLEN = int{ 512 };
static auto constexpr VC_LENGTH = int{ 8 };
static auto constexpr CRYPTO_PROVIDE_PLAINTEXT = int{ 1 };
static auto constexpr CRYPTO_PROVIDE_CRYPTO = int{ 2 };
// how long to wait before giving up on a handshake
static auto constexpr HANDSHAKE_TIMEOUT_SEC = int{ 30 };
#ifdef ENABLE_LTEP
#define HANDSHAKE_HAS_LTEP(bits) (((bits)[5] & 0x10) != 0)
#define HANDSHAKE_SET_LTEP(bits) ((bits)[5] |= 0x10)
#else
#define HANDSHAKE_HAS_LTEP(bits) (false)
#define HANDSHAKE_SET_LTEP(bits) ((void)0)
#endif
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#ifdef ENABLE_FAST
#define HANDSHAKE_HAS_FASTEXT(bits) (((bits)[7] & 0x04) != 0)
#define HANDSHAKE_SET_FASTEXT(bits) ((bits)[7] |= 0x04)
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#else
#define HANDSHAKE_HAS_FASTEXT(bits) (false)
#define HANDSHAKE_SET_FASTEXT(bits) ((void)0)
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#endif
#ifdef ENABLE_DHT
#define HANDSHAKE_HAS_DHT(bits) (((bits)[7] & 0x01) != 0)
#define HANDSHAKE_SET_DHT(bits) ((bits)[7] |= 0x01)
#else
#define HANDSHAKE_HAS_DHT(bits) (false)
#define HANDSHAKE_SET_DHT(bits) ((void)0)
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#endif
/**
***
**/
enum handshake_state_t
{
/* incoming */
AWAITING_HANDSHAKE,
AWAITING_PEER_ID,
AWAITING_YA,
AWAITING_PAD_A,
AWAITING_CRYPTO_PROVIDE,
AWAITING_PAD_C,
AWAITING_IA,
AWAITING_PAYLOAD_STREAM,
/* outgoing */
AWAITING_YB,
AWAITING_VC,
AWAITING_CRYPTO_SELECT,
AWAITING_PAD_D,
/* */
N_STATES
};
struct tr_handshake
{
bool haveReadAnythingFromPeer;
bool haveSentBitTorrentHandshake;
tr_peerIo* io;
tr_crypto* crypto;
tr_session* session;
handshake_state_t state;
tr_encryption_mode encryptionMode;
uint16_t pad_c_len;
uint16_t pad_d_len;
uint16_t ia_len;
uint32_t crypto_select;
uint32_t crypto_provide;
tr_sha1_digest_t myReq1;
struct event* timeout_timer;
std::optional<tr_peer_id_t> peer_id;
tr_handshake_done_func done_func;
void* done_func_user_data;
};
/**
***
**/
#define tr_logAddTraceHand(handshake, msg) tr_logAddTrace(msg, (handshake)->io->addrStr())
static char const* getStateName(handshake_state_t const state)
{
static char const* const state_strings[N_STATES] = {
"awaiting handshake", /* AWAITING_HANDSHAKE */
"awaiting peer id", /* AWAITING_PEER_ID */
"awaiting ya", /* AWAITING_YA */
"awaiting pad a", /* AWAITING_PAD_A */
"awaiting crypto_provide", /* AWAITING_CRYPTO_PROVIDE */
"awaiting pad c", /* AWAITING_PAD_C */
"awaiting ia", /* AWAITING_IA */
"awaiting payload stream", /* AWAITING_PAYLOAD_STREAM */
"awaiting yb", /* AWAITING_YB */
"awaiting vc", /* AWAITING_VC */
"awaiting crypto select", /* AWAITING_CRYPTO_SELECT */
"awaiting pad d" /* AWAITING_PAD_D */
};
return state < N_STATES ? state_strings[state] : "unknown state";
}
static void setState(tr_handshake* handshake, handshake_state_t state)
{
tr_logAddTraceHand(handshake, fmt::format("setting to state [{}]", getStateName(state)));
handshake->state = state;
}
static void setReadState(tr_handshake* handshake, handshake_state_t state)
{
setState(handshake, state);
}
static bool buildHandshakeMessage(tr_handshake* handshake, uint8_t* buf)
{
auto const torrent_hash = tr_cryptoGetTorrentHash(handshake->crypto);
auto* const tor = torrent_hash ? handshake->session->torrents().get(*torrent_hash) : nullptr;
bool const success = tor != nullptr;
if (success)
{
uint8_t* walk = buf;
walk = std::copy_n(HANDSHAKE_NAME, HANDSHAKE_NAME_LEN, walk);
memset(walk, 0, HANDSHAKE_FLAGS_LEN);
HANDSHAKE_SET_LTEP(walk);
HANDSHAKE_SET_FASTEXT(walk);
/* Note that this doesn't depend on whether the torrent is private.
* We don't accept DHT peers for a private torrent,
* but we participate in the DHT regardless. */
if (tr_dhtEnabled(handshake->session))
{
HANDSHAKE_SET_DHT(walk);
}
walk += HANDSHAKE_FLAGS_LEN;
walk = std::copy_n(reinterpret_cast<char const*>(std::data(tor->infoHash())), std::size(tor->infoHash()), walk);
auto const& peer_id = tr_torrentGetPeerId(tor);
std::copy_n(std::data(peer_id), std::size(peer_id), walk);
TR_ASSERT(walk + std::size(peer_id) - buf == HANDSHAKE_SIZE);
}
return success;
}
static ReadState tr_handshakeDone(tr_handshake* handshake, bool isConnected);
enum handshake_parse_err_t
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{
HANDSHAKE_OK,
HANDSHAKE_ENCRYPTION_WRONG,
HANDSHAKE_BAD_TORRENT,
HANDSHAKE_PEER_IS_SELF,
};
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static handshake_parse_err_t parseHandshake(tr_handshake* handshake, struct evbuffer* inbuf)
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{
uint8_t name[HANDSHAKE_NAME_LEN];
uint8_t reserved[HANDSHAKE_FLAGS_LEN];
tr_logAddTraceHand(handshake, fmt::format("payload: need {}, got {}", HANDSHAKE_SIZE, evbuffer_get_length(inbuf)));
if (evbuffer_get_length(inbuf) < HANDSHAKE_SIZE)
{
return HANDSHAKE_ENCRYPTION_WRONG;
}
/* confirm the protocol */
tr_peerIoReadBytes(handshake->io, inbuf, name, HANDSHAKE_NAME_LEN);
if (memcmp(name, HANDSHAKE_NAME, HANDSHAKE_NAME_LEN) != 0)
{
return HANDSHAKE_ENCRYPTION_WRONG;
}
/* read the reserved bytes */
tr_peerIoReadBytes(handshake->io, inbuf, reserved, HANDSHAKE_FLAGS_LEN);
/* torrent hash */
auto hash = tr_sha1_digest_t{};
tr_peerIoReadBytes(handshake->io, inbuf, std::data(hash), std::size(hash));
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if (auto const torrent_hash = tr_peerIoGetTorrentHash(handshake->io); !torrent_hash || *torrent_hash != hash)
{
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tr_logAddTraceHand(handshake, "peer returned the wrong hash. wtf?");
return HANDSHAKE_BAD_TORRENT;
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}
// peer_id
auto peer_id = tr_peer_id_t{};
tr_peerIoReadBytes(handshake->io, inbuf, std::data(peer_id), std::size(peer_id));
handshake->peer_id = peer_id;
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/* peer id */
auto const peer_id_sv = std::string_view{ std::data(peer_id), std::size(peer_id) };
tr_logAddTraceHand(handshake, fmt::format("peer-id is '{}'", peer_id_sv));
if (auto* const tor = handshake->session->torrents().get(hash); peer_id == tr_torrentGetPeerId(tor))
{
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tr_logAddTraceHand(handshake, "streuth! we've connected to ourselves.");
return HANDSHAKE_PEER_IS_SELF;
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}
/**
*** Extensions
**/
tr_peerIoEnableDHT(handshake->io, HANDSHAKE_HAS_DHT(reserved));
tr_peerIoEnableLTEP(handshake->io, HANDSHAKE_HAS_LTEP(reserved));
tr_peerIoEnableFEXT(handshake->io, HANDSHAKE_HAS_FASTEXT(reserved));
return HANDSHAKE_OK;
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}
/***
****
**** OUTGOING CONNECTIONS
****
***/
/* 1 A->B: Diffie Hellman Ya, PadA */
static void sendYa(tr_handshake* handshake)
{
/* add our public key (Ya) */
int len = 0;
uint8_t const* const public_key = tr_cryptoGetMyPublicKey(handshake->crypto, &len);
TR_ASSERT(len == KEY_LEN);
TR_ASSERT(public_key != nullptr);
char outbuf[KEY_LEN + PadA_MAXLEN];
char* walk = outbuf;
walk = std::copy_n(public_key, len, walk);
/* add some bullshit padding */
len = tr_rand_int(PadA_MAXLEN);
tr_rand_buffer(walk, len);
walk += len;
/* send it */
setReadState(handshake, AWAITING_YB);
tr_peerIoWriteBytes(handshake->io, outbuf, walk - outbuf, false);
}
static uint32_t getCryptoProvide(tr_handshake const* handshake)
{
uint32_t provide = 0;
switch (handshake->encryptionMode)
{
case TR_ENCRYPTION_REQUIRED:
case TR_ENCRYPTION_PREFERRED:
provide |= CRYPTO_PROVIDE_CRYPTO;
break;
case TR_CLEAR_PREFERRED:
provide |= CRYPTO_PROVIDE_CRYPTO | CRYPTO_PROVIDE_PLAINTEXT;
break;
}
return provide;
}
static uint32_t getCryptoSelect(tr_handshake const* handshake, uint32_t crypto_provide)
{
uint32_t choices[2];
int nChoices = 0;
switch (handshake->encryptionMode)
{
case TR_ENCRYPTION_REQUIRED:
choices[nChoices++] = CRYPTO_PROVIDE_CRYPTO;
break;
case TR_ENCRYPTION_PREFERRED:
choices[nChoices++] = CRYPTO_PROVIDE_CRYPTO;
choices[nChoices++] = CRYPTO_PROVIDE_PLAINTEXT;
break;
case TR_CLEAR_PREFERRED:
choices[nChoices++] = CRYPTO_PROVIDE_PLAINTEXT;
choices[nChoices++] = CRYPTO_PROVIDE_CRYPTO;
break;
}
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for (int i = 0; i < nChoices; ++i)
{
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if ((crypto_provide & choices[i]) != 0)
{
return choices[i];
}
}
return 0;
}
static auto computeRequestHash(tr_handshake const* handshake, std::string_view name)
{
return tr_cryptoSecretKeySha1(handshake->crypto, std::data(name), std::size(name), "", 0);
}
static ReadState readYb(tr_handshake* handshake, struct evbuffer* inbuf)
{
uint8_t yb[KEY_LEN];
size_t needlen = HANDSHAKE_NAME_LEN;
if (evbuffer_get_length(inbuf) < needlen)
{
return READ_LATER;
}
bool const isEncrypted = memcmp(evbuffer_pullup(inbuf, HANDSHAKE_NAME_LEN), HANDSHAKE_NAME, HANDSHAKE_NAME_LEN) != 0;
if (isEncrypted)
{
needlen = KEY_LEN;
if (evbuffer_get_length(inbuf) < needlen)
{
return READ_LATER;
}
}
tr_logAddTraceHand(handshake, isEncrypted ? "got an encrypted handshake" : "got a plain handshake");
tr_peerIoSetEncryption(handshake->io, isEncrypted ? PEER_ENCRYPTION_RC4 : PEER_ENCRYPTION_NONE);
if (!isEncrypted)
{
setState(handshake, AWAITING_HANDSHAKE);
return READ_NOW;
}
handshake->haveReadAnythingFromPeer = true;
/* compute the secret */
evbuffer_remove(inbuf, yb, KEY_LEN);
if (!tr_cryptoComputeSecret(handshake->crypto, yb))
{
return tr_handshakeDone(handshake, false);
}
/* now send these: HASH('req1', S), HASH('req2', SKEY) xor HASH('req3', S),
* ENCRYPT(VC, crypto_provide, len(PadC), PadC, len(IA)), ENCRYPT(IA) */
evbuffer* const outbuf = evbuffer_new();
/* HASH('req1', S) */
{
auto const req1 = computeRequestHash(handshake, "req1"sv);
if (!req1)
{
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tr_logAddTraceHand(handshake, "error while computing req1 hash after Yb");
return tr_handshakeDone(handshake, false);
}
evbuffer_add(outbuf, std::data(*req1), std::size(*req1));
}
/* HASH('req2', SKEY) xor HASH('req3', S) */
{
auto const req2 = tr_sha1("req2"sv, *tr_cryptoGetTorrentHash(handshake->crypto));
auto const req3 = computeRequestHash(handshake, "req3"sv);
if (!req2 || !req3)
{
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tr_logAddTraceHand(handshake, "error while computing req2/req3 hash after Yb");
return tr_handshakeDone(handshake, false);
}
auto buf = tr_sha1_digest_t{};
for (size_t i = 0, n = std::size(buf); i < n; ++i)
{
buf[i] = (*req2)[i] ^ (*req3)[i];
}
evbuffer_add(outbuf, std::data(buf), std::size(buf));
}
/* ENCRYPT(VC, crypto_provide, len(PadC), PadC
* PadC is reserved for future extensions to the handshake...
* standard practice at this time is for it to be zero-length */
{
uint8_t vc[VC_LENGTH] = { 0, 0, 0, 0, 0, 0, 0, 0 };
tr_peerIoWriteBuf(handshake->io, outbuf, false);
tr_cryptoEncryptInit(handshake->crypto);
tr_peerIoSetEncryption(handshake->io, PEER_ENCRYPTION_RC4);
evbuffer_add(outbuf, vc, VC_LENGTH);
evbuffer_add_uint32(outbuf, getCryptoProvide(handshake));
evbuffer_add_uint16(outbuf, 0);
}
/* ENCRYPT len(IA)), ENCRYPT(IA) */
{
uint8_t msg[HANDSHAKE_SIZE];
if (!buildHandshakeMessage(handshake, msg))
{
return tr_handshakeDone(handshake, false);
}
evbuffer_add_uint16(outbuf, sizeof(msg));
evbuffer_add(outbuf, msg, sizeof(msg));
handshake->haveSentBitTorrentHandshake = true;
}
/* send it */
tr_cryptoDecryptInit(handshake->crypto);
setReadState(handshake, AWAITING_VC);
tr_peerIoWriteBuf(handshake->io, outbuf, false);
/* cleanup */
evbuffer_free(outbuf);
return READ_LATER;
}
static ReadState readVC(tr_handshake* handshake, struct evbuffer* inbuf)
{
uint8_t tmp[VC_LENGTH];
int const key_len = VC_LENGTH;
uint8_t const key[VC_LENGTH] = { 0, 0, 0, 0, 0, 0, 0, 0 };
/* note: this works w/o having to `unwind' the buffer if
* we read too much, but it is pretty brute-force.
* it would be nice to make this cleaner. */
for (;;)
{
if (evbuffer_get_length(inbuf) < VC_LENGTH)
{
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tr_logAddTraceHand(handshake, "not enough bytes... returning read_more");
return READ_LATER;
}
memcpy(tmp, evbuffer_pullup(inbuf, key_len), key_len);
tr_cryptoDecryptInit(handshake->crypto);
tr_cryptoDecrypt(handshake->crypto, key_len, tmp, tmp);
if (memcmp(tmp, key, key_len) == 0)
{
break;
}
evbuffer_drain(inbuf, 1);
}
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tr_logAddTraceHand(handshake, "got it!");
evbuffer_drain(inbuf, key_len);
setState(handshake, AWAITING_CRYPTO_SELECT);
return READ_NOW;
}
static ReadState readCryptoSelect(tr_handshake* handshake, struct evbuffer* inbuf)
{
static size_t const needlen = sizeof(uint32_t) + sizeof(uint16_t);
if (evbuffer_get_length(inbuf) < needlen)
{
return READ_LATER;
}
uint32_t crypto_select = 0;
tr_peerIoReadUint32(handshake->io, inbuf, &crypto_select);
handshake->crypto_select = crypto_select;
tr_logAddTraceHand(handshake, fmt::format("crypto select is {}", crypto_select));
if ((crypto_select & getCryptoProvide(handshake)) == 0)
{
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tr_logAddTraceHand(handshake, "peer selected an encryption option we didn't offer");
return tr_handshakeDone(handshake, false);
}
uint16_t pad_d_len = 0;
tr_peerIoReadUint16(handshake->io, inbuf, &pad_d_len);
tr_logAddTraceHand(handshake, fmt::format("pad_d_len is {}", pad_d_len));
if (pad_d_len > 512)
{
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tr_logAddTraceHand(handshake, "encryption handshake: pad_d_len is too long");
return tr_handshakeDone(handshake, false);
}
handshake->pad_d_len = pad_d_len;
setState(handshake, AWAITING_PAD_D);
return READ_NOW;
}
static ReadState readPadD(tr_handshake* handshake, struct evbuffer* inbuf)
{
size_t const needlen = handshake->pad_d_len;
tr_logAddTraceHand(handshake, fmt::format("pad d: need {}, got {}", needlen, evbuffer_get_length(inbuf)));
if (evbuffer_get_length(inbuf) < needlen)
{
return READ_LATER;
}
tr_peerIoDrain(handshake->io, inbuf, needlen);
tr_peerIoSetEncryption(handshake->io, static_cast<tr_encryption_type>(handshake->crypto_select));
setState(handshake, AWAITING_HANDSHAKE);
return READ_NOW;
}
/***
****
**** INCOMING CONNECTIONS
****
***/
static ReadState readHandshake(tr_handshake* handshake, struct evbuffer* inbuf)
{
tr_logAddTraceHand(handshake, fmt::format("payload: need {}, got {}", INCOMING_HANDSHAKE_LEN, evbuffer_get_length(inbuf)));
if (evbuffer_get_length(inbuf) < INCOMING_HANDSHAKE_LEN)
{
return READ_LATER;
}
handshake->haveReadAnythingFromPeer = true;
uint8_t pstrlen = evbuffer_pullup(inbuf, 1)[0]; /* peek, don't read. We may be handing inbuf to AWAITING_YA */
if (pstrlen == 19) /* unencrypted */
{
tr_peerIoSetEncryption(handshake->io, PEER_ENCRYPTION_NONE);
if (handshake->encryptionMode == TR_ENCRYPTION_REQUIRED)
{
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tr_logAddTraceHand(handshake, "peer is unencrypted, and we're disallowing that");
return tr_handshakeDone(handshake, false);
}
}
else /* encrypted or corrupt */
{
tr_peerIoSetEncryption(handshake->io, PEER_ENCRYPTION_RC4);
if (tr_peerIoIsIncoming(handshake->io))
{
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tr_logAddTraceHand(handshake, "I think peer is sending us an encrypted handshake...");
setState(handshake, AWAITING_YA);
return READ_NOW;
}
tr_cryptoDecrypt(handshake->crypto, 1, &pstrlen, &pstrlen);
if (pstrlen != 19)
{
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tr_logAddTraceHand(handshake, "I think peer has sent us a corrupt handshake...");
return tr_handshakeDone(handshake, false);
}
}
evbuffer_drain(inbuf, 1);
/* pstr (BitTorrent) */
TR_ASSERT(pstrlen == 19);
uint8_t pstr[20];
tr_peerIoReadBytes(handshake->io, inbuf, pstr, pstrlen);
pstr[pstrlen] = '\0';
if (strncmp((char const*)pstr, "BitTorrent protocol", 19) != 0)
{
return tr_handshakeDone(handshake, false);
}
/* reserved bytes */
uint8_t reserved[HANDSHAKE_FLAGS_LEN];
tr_peerIoReadBytes(handshake->io, inbuf, reserved, sizeof(reserved));
/**
*** Extensions
**/
tr_peerIoEnableDHT(handshake->io, HANDSHAKE_HAS_DHT(reserved));
tr_peerIoEnableLTEP(handshake->io, HANDSHAKE_HAS_LTEP(reserved));
tr_peerIoEnableFEXT(handshake->io, HANDSHAKE_HAS_FASTEXT(reserved));
/* torrent hash */
auto hash = tr_sha1_digest_t{};
tr_peerIoReadBytes(handshake->io, inbuf, std::data(hash), std::size(hash));
if (tr_peerIoIsIncoming(handshake->io))
{
if (!handshake->session->torrents().contains(hash))
{
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tr_logAddTraceHand(handshake, "peer is trying to connect to us for a torrent we don't have.");
return tr_handshakeDone(handshake, false);
}
tr_peerIoSetTorrentHash(handshake->io, hash);
}
else /* outgoing */
{
auto const torrent_hash = tr_peerIoGetTorrentHash(handshake->io);
if (!torrent_hash || *torrent_hash != hash)
{
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tr_logAddTraceHand(handshake, "peer returned the wrong hash. wtf?");
return tr_handshakeDone(handshake, false);
}
}
/**
*** If it's an incoming message, we need to send a response handshake
**/
if (!handshake->haveSentBitTorrentHandshake)
{
uint8_t msg[HANDSHAKE_SIZE];
if (!buildHandshakeMessage(handshake, msg))
{
return tr_handshakeDone(handshake, false);
}
tr_peerIoWriteBytes(handshake->io, msg, sizeof(msg), false);
handshake->haveSentBitTorrentHandshake = true;
}
setReadState(handshake, AWAITING_PEER_ID);
return READ_NOW;
}
static ReadState readPeerId(tr_handshake* handshake, struct evbuffer* inbuf)
{
// read the peer_id
auto peer_id = tr_peer_id_t{};
if (evbuffer_get_length(inbuf) < std::size(peer_id))
{
return READ_LATER;
}
tr_peerIoReadBytes(handshake->io, inbuf, std::data(peer_id), std::size(peer_id));
handshake->peer_id = peer_id;
char client[128] = {};
tr_clientForId(client, sizeof(client), peer_id);
tr_logAddTraceHand(
handshake,
fmt::format("peer-id is '{}' ... isIncoming is {}", client, tr_peerIoIsIncoming(handshake->io)));
// if we've somehow connected to ourselves, don't keep the connection
auto const hash = tr_peerIoGetTorrentHash(handshake->io);
auto* const tor = hash ? handshake->session->torrents().get(*hash) : nullptr;
bool const connected_to_self = peer_id == tr_torrentGetPeerId(tor);
return tr_handshakeDone(handshake, !connected_to_self);
}
static ReadState readYa(tr_handshake* handshake, struct evbuffer* inbuf)
{
tr_logAddTraceHand(handshake, fmt::format("in readYa... need {}, have {}", KEY_LEN, evbuffer_get_length(inbuf)));
if (evbuffer_get_length(inbuf) < KEY_LEN)
{
return READ_LATER;
}
/* read the incoming peer's public key */
uint8_t ya[KEY_LEN];
evbuffer_remove(inbuf, ya, KEY_LEN);
if (!tr_cryptoComputeSecret(handshake->crypto, ya))
{
return tr_handshakeDone(handshake, false);
}
auto req1 = computeRequestHash(handshake, "req1"sv);
if (!req1)
{
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tr_logAddTraceHand(handshake, "error while computing req1 hash after Ya");
return tr_handshakeDone(handshake, false);
}
handshake->myReq1 = *req1;
/* send our public key to the peer */
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tr_logAddTraceHand(handshake, "sending B->A: Diffie Hellman Yb, PadB");
uint8_t outbuf[KEY_LEN + PadB_MAXLEN];
uint8_t* walk = outbuf;
int len = 0;
uint8_t const* const myKey = tr_cryptoGetMyPublicKey(handshake->crypto, &len);
walk = std::copy_n(myKey, len, walk);
len = tr_rand_int(PadB_MAXLEN);
tr_rand_buffer(walk, len);
walk += len;
setReadState(handshake, AWAITING_PAD_A);
tr_peerIoWriteBytes(handshake->io, outbuf, walk - outbuf, false);
return READ_NOW;
}
static ReadState readPadA(tr_handshake* handshake, struct evbuffer* inbuf)
{
/* resynchronizing on HASH('req1', S) */
struct evbuffer_ptr ptr = evbuffer_search(
inbuf,
reinterpret_cast<char const*>(std::data(handshake->myReq1)),
std::size(handshake->myReq1),
nullptr);
if (ptr.pos != -1) /* match */
{
evbuffer_drain(inbuf, ptr.pos);
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tr_logAddTraceHand(handshake, "found it... looking setting to awaiting_crypto_provide");
setState(handshake, AWAITING_CRYPTO_PROVIDE);
return READ_NOW;
}
if (size_t const len = evbuffer_get_length(inbuf); len > SHA_DIGEST_LENGTH)
{
evbuffer_drain(inbuf, len - SHA_DIGEST_LENGTH);
}
return READ_LATER;
}
static ReadState readCryptoProvide(tr_handshake* handshake, struct evbuffer* inbuf)
{
/* HASH('req2', SKEY) xor HASH('req3', S), ENCRYPT(VC, crypto_provide, len(PadC)) */
uint8_t vc_in[VC_LENGTH];
uint16_t padc_len = 0;
uint32_t crypto_provide = 0;
size_t const needlen = SHA_DIGEST_LENGTH + /* HASH('req1', s) */
SHA_DIGEST_LENGTH + /* HASH('req2', SKEY) xor HASH('req3', S) */
VC_LENGTH + sizeof(crypto_provide) + sizeof(padc_len);
if (evbuffer_get_length(inbuf) < needlen)
{
return READ_LATER;
}
/* TODO: confirm they sent HASH('req1',S) here? */
evbuffer_drain(inbuf, SHA_DIGEST_LENGTH);
/* This next piece is HASH('req2', SKEY) xor HASH('req3', S) ...
* we can get the first half of that (the obufscatedTorrentHash)
* by building the latter and xor'ing it with what the peer sent us */
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tr_logAddTraceHand(handshake, "reading obfuscated torrent hash...");
auto req2 = tr_sha1_digest_t{};
evbuffer_remove(inbuf, std::data(req2), std::size(req2));
auto const req3 = computeRequestHash(handshake, "req3"sv);
if (!req3)
{
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tr_logAddTraceHand(handshake, "error while computing req3 hash after req2");
return tr_handshakeDone(handshake, false);
}
auto obfuscated_hash = tr_sha1_digest_t{};
for (size_t i = 0; i < std::size(obfuscated_hash); ++i)
{
obfuscated_hash[i] = req2[i] ^ (*req3)[i];
}
if (auto const* const tor = tr_torrentFindFromObfuscatedHash(handshake->session, obfuscated_hash); tor != nullptr)
{
bool const clientIsSeed = tor->isDone();
bool const peerIsSeed = tr_peerMgrPeerIsSeed(tor, tr_peerIoGetAddress(handshake->io, nullptr));
tr_logAddTraceHand(
handshake,
fmt::format("got INCOMING connection's encrypted handshake for torrent [{}]", tor->name()));
tr_peerIoSetTorrentHash(handshake->io, tor->infoHash());
if (clientIsSeed && peerIsSeed)
{
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tr_logAddTraceHand(handshake, "another seed tried to reconnect to us!");
return tr_handshakeDone(handshake, false);
}
}
else
{
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tr_logAddTraceHand(handshake, "can't find that torrent...");
return tr_handshakeDone(handshake, false);
}
/* next part: ENCRYPT(VC, crypto_provide, len(PadC), */
tr_cryptoDecryptInit(handshake->crypto);
tr_peerIoReadBytes(handshake->io, inbuf, vc_in, VC_LENGTH);
tr_peerIoReadUint32(handshake->io, inbuf, &crypto_provide);
handshake->crypto_provide = crypto_provide;
tr_logAddTraceHand(handshake, fmt::format("crypto_provide is {}", crypto_provide));
tr_peerIoReadUint16(handshake->io, inbuf, &padc_len);
tr_logAddTraceHand(handshake, fmt::format("padc is {}", padc_len));
handshake->pad_c_len = padc_len;
setState(handshake, AWAITING_PAD_C);
return READ_NOW;
}
static ReadState readPadC(tr_handshake* handshake, struct evbuffer* inbuf)
{
uint16_t ia_len = 0;
if (auto const needlen = handshake->pad_c_len + sizeof(uint16_t); evbuffer_get_length(inbuf) < needlen)
{
return READ_LATER;
}
/* read the throwaway padc */
fix: sonarcloud (#2227) * fix: sonarcloud useless-sequence-of-pointer-operators warning Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AXzyMRYbK9dvryvWm8XC\&open\=AXzyMRYbK9dvryvWm8XC * fix: sonarcloud unused-function warning Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AX06Stxd1usi2gyYkPTE\&open\=AX06Stxd1usi2gyYkPTE * fix: sonarcloud init-statement warning Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AXzyMRABK9dvryvWm8Wv\&open\=AXzyMRABK9dvryvWm8Wv * fix: sonarcloud assignment-in-expression warning Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AXztC8rqIH_lVCrUGWcX\&open\=AXztC8rqIH_lVCrUGWcX * fix: sonarcloud use-init-statement warning Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AXy-sssdW63O2GMuTBKY\&open\=AXy-sssdW63O2GMuTBKY * fix: replace-redundant-type-with-auto warning Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AXy-sssdW63O2GMuTBKZ\&open\=AXy-sssdW63O2GMuTBKZ * fix: use-init-statement Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AXzOK_MX7S1ht0f4sjIh\&open\=AXzOK_MX7S1ht0f4sjIh * fix: use-structured-binding-declaration warning Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AX06Stxd1usi2gyYkPTK\&open\=AX06Stxd1usi2gyYkPTK * fix: use-init-statement Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AX06Stxd1usi2gyYkPTL\&open\=AX06Stxd1usi2gyYkPTL * fix: use-structured-binding-declaration warning Xref: https://sonarcloud.io/project/issues\?id\=transmission_transmission\&issues\=AX06Stxd1usi2gyYkPTP\&open\=AX06Stxd1usi2gyYkPTP * fixup! fix: use-structured-binding-declaration warning * Revert "fix: sonarcloud useless-sequence-of-pointer-operators warning" This reverts commit 26c99e75c68208da180a63cb3c2b5d5d48bac4b6. cannot convert from 'const _InIt' to 'const rpc_method *'
2021-11-25 22:39:19 +00:00
auto* const padc = tr_new(char, handshake->pad_c_len);
tr_peerIoReadBytes(handshake->io, inbuf, padc, handshake->pad_c_len);
tr_free(padc);
/* read ia_len */
tr_peerIoReadUint16(handshake->io, inbuf, &ia_len);
tr_logAddTraceHand(handshake, fmt::format("ia_len is {}", ia_len));
handshake->ia_len = ia_len;
setState(handshake, AWAITING_IA);
return READ_NOW;
}
static ReadState readIA(tr_handshake* handshake, struct evbuffer const* inbuf)
{
size_t const needlen = handshake->ia_len;
tr_logAddTraceHand(handshake, fmt::format("reading IA... have {}, need {}", evbuffer_get_length(inbuf), needlen));
if (evbuffer_get_length(inbuf) < needlen)
{
return READ_LATER;
}
/**
*** B->A: ENCRYPT(VC, crypto_select, len(padD), padD), ENCRYPT2(Payload Stream)
**/
tr_cryptoEncryptInit(handshake->crypto);
evbuffer* const outbuf = evbuffer_new();
{
/* send VC */
uint8_t vc[VC_LENGTH];
memset(vc, 0, VC_LENGTH);
evbuffer_add(outbuf, vc, VC_LENGTH);
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tr_logAddTraceHand(handshake, "sending vc");
}
/* send crypto_select */
uint32_t const crypto_select = getCryptoSelect(handshake, handshake->crypto_provide);
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if (crypto_select != 0)
{
tr_logAddTraceHand(handshake, fmt::format("selecting crypto mode '{}'", crypto_select));
evbuffer_add_uint32(outbuf, crypto_select);
}
else
{
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tr_logAddTraceHand(handshake, "peer didn't offer an encryption mode we like.");
evbuffer_free(outbuf);
return tr_handshakeDone(handshake, false);
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}
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tr_logAddTraceHand(handshake, "sending pad d");
/* ENCRYPT(VC, crypto_provide, len(PadD), PadD
* PadD is reserved for future extensions to the handshake...
* standard practice at this time is for it to be zero-length */
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{
uint16_t const len = 0;
evbuffer_add_uint16(outbuf, len);
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}
/* maybe de-encrypt our connection */
if (crypto_select == CRYPTO_PROVIDE_PLAINTEXT)
{
tr_peerIoWriteBuf(handshake->io, outbuf, false);
tr_peerIoSetEncryption(handshake->io, PEER_ENCRYPTION_NONE);
}
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tr_logAddTraceHand(handshake, "sending handshake");
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/* send our handshake */
{
uint8_t msg[HANDSHAKE_SIZE];
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if (!buildHandshakeMessage(handshake, msg))
{
return tr_handshakeDone(handshake, false);
}
evbuffer_add(outbuf, msg, sizeof(msg));
handshake->haveSentBitTorrentHandshake = true;
}
/* send it out */
tr_peerIoWriteBuf(handshake->io, outbuf, false);
evbuffer_free(outbuf);
/* now await the handshake */
setState(handshake, AWAITING_PAYLOAD_STREAM);
return READ_NOW;
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}
static ReadState readPayloadStream(tr_handshake* handshake, struct evbuffer* inbuf)
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{
size_t const needlen = HANDSHAKE_SIZE;
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tr_logAddTraceHand(
handshake,
fmt::format("reading payload stream... have {}, need {}", evbuffer_get_length(inbuf), needlen));
if (evbuffer_get_length(inbuf) < needlen)
{
return READ_LATER;
}
/* parse the handshake ... */
handshake_parse_err_t const i = parseHandshake(handshake, inbuf);
tr_logAddTraceHand(handshake, fmt::format("parseHandshake returned {}", i));
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if (i != HANDSHAKE_OK)
{
return tr_handshakeDone(handshake, false);
}
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/* we've completed the BT handshake... pass the work on to peer-msgs */
return tr_handshakeDone(handshake, true);
}
/***
****
****
****
***/
static ReadState canRead(tr_peerIo* io, void* vhandshake, size_t* piece)
{
TR_ASSERT(tr_isPeerIo(io));
auto* handshake = static_cast<tr_handshake*>(vhandshake);
fix: sonarcloud (#2865) * refactor: implement FileTreeItem::children_ with a std::vector * fix: std::move should not be called on forwarding reference * fix: uninitialized scalar variable * fix: unchecked return value from library * fix: dereference before null check * fix: unchecked return value from library * fix: unchecked return value from library * fixup! refactor: implement FileTreeItem::children_ with a std::vector * fix: signed-unsigned comparison in libtransmission tests * fix: avoid unnecessary copy by using const reference * fix: function should be declared const * refactor: use fmt::format to build log timestamps * fix: use init-statement to reduce variable scope * fixup! refactor: use fmt::format to build log timestamps * fix: remove tau_tracker destructor for rule-of-zero * fix: remove tr_peerIo destructor for rule-of-zero * Revert "fix: dereference before null check" This reverts commit cd789678156bb987a8dc6b2eb49cb1db4195d441. * fix: signed-unsigned comparison in libtransmission tests * fix: use init-statement to reduce variable scope * fix: extract nested code block into separate method * fix: extract nested code block into separate method * fix: extract nested code block into separate method * fix: use init-statement to reduce variable scope * fix: extract nested code block into separate method * fix: signed-unsigned comparison in libtransmission tests * fixup! fix: extract nested code block into separate method * fix: mark possibly-unused as [[maybe_unused]] * fix: invalid stack memory reference in tr_found_file_t * fix: signed-unsigned comparison in libtransmission tests
2022-04-02 14:06:02 +00:00
evbuffer* const inbuf = io->getReadBuffer();
bool readyForMore = true;
/* no piece data in handshake */
*piece = 0;
tr_logAddTraceHand(handshake, fmt::format("handling canRead; state is [{}]", getStateName(handshake->state)));
ReadState ret = READ_NOW;
while (readyForMore)
{
switch (handshake->state)
{
case AWAITING_HANDSHAKE:
ret = readHandshake(handshake, inbuf);
break;
case AWAITING_PEER_ID:
ret = readPeerId(handshake, inbuf);
break;
case AWAITING_YA:
ret = readYa(handshake, inbuf);
break;
case AWAITING_PAD_A:
ret = readPadA(handshake, inbuf);
break;
case AWAITING_CRYPTO_PROVIDE:
ret = readCryptoProvide(handshake, inbuf);
break;
case AWAITING_PAD_C:
ret = readPadC(handshake, inbuf);
break;
case AWAITING_IA:
ret = readIA(handshake, inbuf);
break;
case AWAITING_PAYLOAD_STREAM:
ret = readPayloadStream(handshake, inbuf);
break;
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case AWAITING_YB:
ret = readYb(handshake, inbuf);
break;
case AWAITING_VC:
ret = readVC(handshake, inbuf);
break;
case AWAITING_CRYPTO_SELECT:
ret = readCryptoSelect(handshake, inbuf);
break;
case AWAITING_PAD_D:
ret = readPadD(handshake, inbuf);
break;
default:
#ifdef TR_ENABLE_ASSERTS
TR_ASSERT_MSG(false, fmt::format(FMT_STRING("unhandled handshake state {:d}"), handshake->state));
#else
ret = READ_ERR;
break;
#endif
}
if (ret != READ_NOW)
{
readyForMore = false;
}
else if (handshake->state == AWAITING_PAD_C)
{
readyForMore = evbuffer_get_length(inbuf) >= handshake->pad_c_len;
}
else if (handshake->state == AWAITING_PAD_D)
{
readyForMore = evbuffer_get_length(inbuf) >= handshake->pad_d_len;
}
else if (handshake->state == AWAITING_IA)
{
readyForMore = evbuffer_get_length(inbuf) >= handshake->ia_len;
}
}
return ret;
}
static bool fireDoneFunc(tr_handshake* handshake, bool isConnected)
{
auto result = tr_handshake_result{};
result.handshake = handshake;
result.io = handshake->io;
result.readAnythingFromPeer = handshake->haveReadAnythingFromPeer;
result.isConnected = isConnected;
result.userData = handshake->done_func_user_data;
result.peer_id = handshake->peer_id;
bool const success = (*handshake->done_func)(result);
return success;
}
static void tr_handshakeFree(tr_handshake* handshake)
{
if (handshake->io != nullptr)
{
tr_peerIoUnref(handshake->io); /* balanced by the ref in tr_handshakeNew */
}
event_free(handshake->timeout_timer);
tr_free(handshake);
}
static ReadState tr_handshakeDone(tr_handshake* handshake, bool isOK)
{
tr_logAddTraceHand(handshake, isOK ? "handshakeDone: connected" : "handshakeDone: aborting");
tr_peerIoSetIOFuncs(handshake->io, nullptr, nullptr, nullptr, nullptr);
bool const success = fireDoneFunc(handshake, isOK);
tr_handshakeFree(handshake);
return success ? READ_LATER : READ_ERR;
}
void tr_handshakeAbort(tr_handshake* handshake)
{
if (handshake != nullptr)
{
tr_handshakeDone(handshake, false);
}
}
static void gotError(tr_peerIo* io, short what, void* vhandshake)
{
int errcode = errno;
auto* handshake = static_cast<tr_handshake*>(vhandshake);
if (io->socket.type == TR_PEER_SOCKET_TYPE_UTP && !tr_peerIoIsIncoming(io) && handshake->state == AWAITING_YB)
{
/* This peer probably doesn't speak uTP. */
auto const hash = tr_peerIoGetTorrentHash(io);
auto* const tor = hash ? handshake->session->torrents().get(*hash) : nullptr;
/* Don't mark a peer as non-uTP unless it's really a connect failure. */
if ((errcode == ETIMEDOUT || errcode == ECONNREFUSED) && tr_isTorrent(tor))
{
tr_peerMgrSetUtpFailed(tor, tr_peerIoGetAddress(io, nullptr), true);
}
if (tr_peerIoReconnect(handshake->io) == 0)
{
uint8_t msg[HANDSHAKE_SIZE];
buildHandshakeMessage(handshake, msg);
handshake->haveSentBitTorrentHandshake = true;
setReadState(handshake, AWAITING_HANDSHAKE);
tr_peerIoWriteBytes(handshake->io, msg, sizeof(msg), false);
}
}
/* if the error happened while we were sending a public key, we might
* have encountered a peer that doesn't do encryption... reconnect and
* try a plaintext handshake */
if ((handshake->state == AWAITING_YB || handshake->state == AWAITING_VC) &&
handshake->encryptionMode != TR_ENCRYPTION_REQUIRED && tr_peerIoReconnect(handshake->io) == 0)
{
uint8_t msg[HANDSHAKE_SIZE];
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tr_logAddTraceHand(handshake, "handshake failed, trying plaintext...");
buildHandshakeMessage(handshake, msg);
handshake->haveSentBitTorrentHandshake = true;
setReadState(handshake, AWAITING_HANDSHAKE);
tr_peerIoWriteBytes(handshake->io, msg, sizeof(msg), false);
}
else
{
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tr_logAddTraceHand(
handshake,
fmt::format("libevent got an error what=={}, errno={} ({})", what, errcode, tr_strerror(errcode)));
tr_handshakeDone(handshake, false);
}
}
/**
***
**/
static void handshakeTimeout(evutil_socket_t /*s*/, short /*type*/, void* handshake)
{
tr_handshakeAbort(static_cast<tr_handshake*>(handshake));
}
tr_handshake* tr_handshakeNew(
tr_peerIo* io,
tr_encryption_mode encryptionMode,
tr_handshake_done_func done_func,
void* done_func_user_data)
{
tr_session* session = tr_peerIoGetSession(io);
auto* const handshake = tr_new0(tr_handshake, 1);
handshake->io = io;
handshake->crypto = tr_peerIoGetCrypto(io);
handshake->encryptionMode = encryptionMode;
handshake->done_func = done_func;
handshake->done_func_user_data = done_func_user_data;
handshake->session = session;
handshake->timeout_timer = evtimer_new(session->event_base, handshakeTimeout, handshake);
tr_timerAdd(handshake->timeout_timer, HANDSHAKE_TIMEOUT_SEC, 0);
tr_peerIoRef(io); /* balanced by the unref in tr_handshakeFree */
tr_peerIoSetIOFuncs(handshake->io, canRead, nullptr, gotError, handshake);
tr_peerIoSetEncryption(io, PEER_ENCRYPTION_NONE);
if (tr_peerIoIsIncoming(handshake->io))
{
setReadState(handshake, AWAITING_HANDSHAKE);
}
else if (encryptionMode != TR_CLEAR_PREFERRED)
{
sendYa(handshake);
}
else
{
uint8_t msg[HANDSHAKE_SIZE];
buildHandshakeMessage(handshake, msg);
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handshake->haveSentBitTorrentHandshake = true;
setReadState(handshake, AWAITING_HANDSHAKE);
tr_peerIoWriteBytes(handshake->io, msg, sizeof(msg), false);
}
return handshake;
}
tr_peerIo* tr_handshakeStealIO(tr_handshake* handshake)
{
TR_ASSERT(handshake != nullptr);
TR_ASSERT(handshake->io != nullptr);
tr_peerIo* io = handshake->io;
handshake->io = nullptr;
return io;
}