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author | Ava Chow <github@achow101.com> | 2024-04-25 16:08:15 -0400 |
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committer | Ava Chow <github@achow101.com> | 2024-04-25 16:08:24 -0400 |
commit | 2eff198f4900c34442439ef2cbd9d82f4903f915 (patch) | |
tree | d85aa630752aab09a6dedcbc6a79a82f1343af9d /src/net.cpp | |
parent | 0e2e7d1a355ab6d4c483e192a2f881a5beef2381 (diff) | |
parent | fd81a37239541d0d508402cd4eeb28f38128c1f2 (diff) | |
download | bitcoin-2eff198f4900c34442439ef2cbd9d82f4903f915.tar.xz |
Merge bitcoin/bitcoin#28834: net: attempts to connect to all resolved addresses when connecting to a node
fd81a37239541d0d508402cd4eeb28f38128c1f2 net: attempts to connect to all resolved addresses when connecting to a node (Sergi Delgado Segura)
Pull request description:
This is a follow-up of #28155 motivated by https://github.com/bitcoin/bitcoin/pull/28155#discussion_r1362677038
## Rationale
Prior to this, when establishing a network connection via `CConnman::ConnectNode`, if the connection needed address resolution, a single address would be picked at random from the resolved addresses and our node would try to connect to it. However, this would lead to the behavior of `ConnectNode` being unpredictable when the address was resolved to various ips (e.g. the address resolving to IPv4 and IPv6, but we only support one of them).
This patches the aforementioned behavior by going over all resolved IPs until a valid one is found or until we
exhaust them.
ACKs for top commit:
mzumsande:
re-ACK fd81a37239541d0d508402cd4eeb28f38128c1f2 (just looked at diff, only small logging change)
achow101:
ACK fd81a37239541d0d508402cd4eeb28f38128c1f2
vasild:
ACK fd81a37239541d0d508402cd4eeb28f38128c1f2
Tree-SHA512: fa1ebc5c84fe61dd0a7fe1113ae2d594a75ad661c43ed8984a31fc9bc50f166b2759b0d8d84ee5dc247691eff78c8156fac970af797bbcbf67492eec0353fb58
Diffstat (limited to 'src/net.cpp')
-rw-r--r-- | src/net.cpp | 166 |
1 files changed, 91 insertions, 75 deletions
diff --git a/src/net.cpp b/src/net.cpp index 3e959c187c..4801f5c1f9 100644 --- a/src/net.cpp +++ b/src/net.cpp @@ -412,6 +412,9 @@ CNode* CConnman::ConnectNode(CAddress addrConnect, const char *pszDest, bool fCo // Resolve const uint16_t default_port{pszDest != nullptr ? GetDefaultPort(pszDest) : m_params.GetDefaultPort()}; + + // Collection of addresses to try to connect to: either all dns resolved addresses if a domain name (pszDest) is provided, or addrConnect otherwise. + std::vector<CAddress> connect_to{}; if (pszDest) { std::vector<CService> resolved{Lookup(pszDest, default_port, fNameLookup && !HaveNameProxy(), 256)}; if (!resolved.empty()) { @@ -432,8 +435,16 @@ CNode* CConnman::ConnectNode(CAddress addrConnect, const char *pszDest, bool fCo LogPrintf("Not opening a connection to %s, already connected to %s\n", pszDest, addrConnect.ToStringAddrPort()); return nullptr; } + // Add the address to the resolved addresses vector so we can try to connect to it later on + connect_to.push_back(addrConnect); } + } else { + // For resolution via proxy + connect_to.push_back(addrConnect); } + } else { + // Connect via addrConnect directly + connect_to.push_back(addrConnect); } // Connect @@ -443,94 +454,99 @@ CNode* CConnman::ConnectNode(CAddress addrConnect, const char *pszDest, bool fCo assert(!addr_bind.IsValid()); std::unique_ptr<i2p::sam::Session> i2p_transient_session; - if (addrConnect.IsValid()) { - const bool use_proxy{GetProxy(addrConnect.GetNetwork(), proxy)}; - bool proxyConnectionFailed = false; + for (auto& target_addr: connect_to) { + if (target_addr.IsValid()) { + const bool use_proxy{GetProxy(target_addr.GetNetwork(), proxy)}; + bool proxyConnectionFailed = false; - if (addrConnect.IsI2P() && use_proxy) { - i2p::Connection conn; - bool connected{false}; + if (target_addr.IsI2P() && use_proxy) { + i2p::Connection conn; + bool connected{false}; - if (m_i2p_sam_session) { - connected = m_i2p_sam_session->Connect(addrConnect, conn, proxyConnectionFailed); - } else { - { - LOCK(m_unused_i2p_sessions_mutex); - if (m_unused_i2p_sessions.empty()) { - i2p_transient_session = - std::make_unique<i2p::sam::Session>(proxy, &interruptNet); - } else { - i2p_transient_session.swap(m_unused_i2p_sessions.front()); - m_unused_i2p_sessions.pop(); + if (m_i2p_sam_session) { + connected = m_i2p_sam_session->Connect(target_addr, conn, proxyConnectionFailed); + } else { + { + LOCK(m_unused_i2p_sessions_mutex); + if (m_unused_i2p_sessions.empty()) { + i2p_transient_session = + std::make_unique<i2p::sam::Session>(proxy, &interruptNet); + } else { + i2p_transient_session.swap(m_unused_i2p_sessions.front()); + m_unused_i2p_sessions.pop(); + } } - } - connected = i2p_transient_session->Connect(addrConnect, conn, proxyConnectionFailed); - if (!connected) { - LOCK(m_unused_i2p_sessions_mutex); - if (m_unused_i2p_sessions.size() < MAX_UNUSED_I2P_SESSIONS_SIZE) { - m_unused_i2p_sessions.emplace(i2p_transient_session.release()); + connected = i2p_transient_session->Connect(target_addr, conn, proxyConnectionFailed); + if (!connected) { + LOCK(m_unused_i2p_sessions_mutex); + if (m_unused_i2p_sessions.size() < MAX_UNUSED_I2P_SESSIONS_SIZE) { + m_unused_i2p_sessions.emplace(i2p_transient_session.release()); + } } } - } - if (connected) { - sock = std::move(conn.sock); - addr_bind = CAddress{conn.me, NODE_NONE}; + if (connected) { + sock = std::move(conn.sock); + addr_bind = CAddress{conn.me, NODE_NONE}; + } + } else if (use_proxy) { + LogPrintLevel(BCLog::PROXY, BCLog::Level::Debug, "Using proxy: %s to connect to %s\n", proxy.ToString(), target_addr.ToStringAddrPort()); + sock = ConnectThroughProxy(proxy, target_addr.ToStringAddr(), target_addr.GetPort(), proxyConnectionFailed); + } else { + // no proxy needed (none set for target network) + sock = ConnectDirectly(target_addr, conn_type == ConnectionType::MANUAL); } - } else if (use_proxy) { - LogPrintLevel(BCLog::PROXY, BCLog::Level::Debug, "Using proxy: %s to connect to %s:%s\n", proxy.ToString(), addrConnect.ToStringAddr(), addrConnect.GetPort()); - sock = ConnectThroughProxy(proxy, addrConnect.ToStringAddr(), addrConnect.GetPort(), proxyConnectionFailed); - } else { - // no proxy needed (none set for target network) - sock = ConnectDirectly(addrConnect, conn_type == ConnectionType::MANUAL); + if (!proxyConnectionFailed) { + // If a connection to the node was attempted, and failure (if any) is not caused by a problem connecting to + // the proxy, mark this as an attempt. + addrman.Attempt(target_addr, fCountFailure); + } + } else if (pszDest && GetNameProxy(proxy)) { + std::string host; + uint16_t port{default_port}; + SplitHostPort(std::string(pszDest), port, host); + bool proxyConnectionFailed; + sock = ConnectThroughProxy(proxy, host, port, proxyConnectionFailed); + } + // Check any other resolved address (if any) if we fail to connect + if (!sock) { + continue; } - if (!proxyConnectionFailed) { - // If a connection to the node was attempted, and failure (if any) is not caused by a problem connecting to - // the proxy, mark this as an attempt. - addrman.Attempt(addrConnect, fCountFailure); + + NetPermissionFlags permission_flags = NetPermissionFlags::None; + std::vector<NetWhitelistPermissions> whitelist_permissions = conn_type == ConnectionType::MANUAL ? vWhitelistedRangeOutgoing : std::vector<NetWhitelistPermissions>{}; + AddWhitelistPermissionFlags(permission_flags, target_addr, whitelist_permissions); + + // Add node + NodeId id = GetNewNodeId(); + uint64_t nonce = GetDeterministicRandomizer(RANDOMIZER_ID_LOCALHOSTNONCE).Write(id).Finalize(); + if (!addr_bind.IsValid()) { + addr_bind = GetBindAddress(*sock); } - } else if (pszDest && GetNameProxy(proxy)) { - std::string host; - uint16_t port{default_port}; - SplitHostPort(std::string(pszDest), port, host); - bool proxyConnectionFailed; - sock = ConnectThroughProxy(proxy, host, port, proxyConnectionFailed); - } - if (!sock) { - return nullptr; - } + CNode* pnode = new CNode(id, + std::move(sock), + target_addr, + CalculateKeyedNetGroup(target_addr), + nonce, + addr_bind, + pszDest ? pszDest : "", + conn_type, + /*inbound_onion=*/false, + CNodeOptions{ + .permission_flags = permission_flags, + .i2p_sam_session = std::move(i2p_transient_session), + .recv_flood_size = nReceiveFloodSize, + .use_v2transport = use_v2transport, + }); + pnode->AddRef(); - NetPermissionFlags permission_flags = NetPermissionFlags::None; - std::vector<NetWhitelistPermissions> whitelist_permissions = conn_type == ConnectionType::MANUAL ? vWhitelistedRangeOutgoing : std::vector<NetWhitelistPermissions>{}; - AddWhitelistPermissionFlags(permission_flags, addrConnect, whitelist_permissions); + // We're making a new connection, harvest entropy from the time (and our peer count) + RandAddEvent((uint32_t)id); - // Add node - NodeId id = GetNewNodeId(); - uint64_t nonce = GetDeterministicRandomizer(RANDOMIZER_ID_LOCALHOSTNONCE).Write(id).Finalize(); - if (!addr_bind.IsValid()) { - addr_bind = GetBindAddress(*sock); + return pnode; } - CNode* pnode = new CNode(id, - std::move(sock), - addrConnect, - CalculateKeyedNetGroup(addrConnect), - nonce, - addr_bind, - pszDest ? pszDest : "", - conn_type, - /*inbound_onion=*/false, - CNodeOptions{ - .permission_flags = permission_flags, - .i2p_sam_session = std::move(i2p_transient_session), - .recv_flood_size = nReceiveFloodSize, - .use_v2transport = use_v2transport, - }); - pnode->AddRef(); - - // We're making a new connection, harvest entropy from the time (and our peer count) - RandAddEvent((uint32_t)id); - return pnode; + return nullptr; } void CNode::CloseSocketDisconnect() |