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litecoin/src/protocol.h

462 lines
17 KiB

// Copyright (c) 2009-2010 Satoshi Nakamoto
// Copyright (c) 2009-2020 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 __cplusplus
#error This header can only be compiled as C++.
#endif
#ifndef BITCOIN_PROTOCOL_H
#define BITCOIN_PROTOCOL_H
#include <netaddress.h>
#include <primitives/transaction.h>
#include <serialize.h>
#include <uint256.h>
#include <version.h>
#include <stdint.h>
#include <string>
/** Message header.
* (4) message start.
* (12) command.
* (4) size.
* (4) checksum.
*/
class CMessageHeader
{
public:
static constexpr size_t MESSAGE_START_SIZE = 4;
static constexpr size_t COMMAND_SIZE = 12;
static constexpr size_t MESSAGE_SIZE_SIZE = 4;
static constexpr size_t CHECKSUM_SIZE = 4;
static constexpr size_t MESSAGE_SIZE_OFFSET = MESSAGE_START_SIZE + COMMAND_SIZE;
static constexpr size_t CHECKSUM_OFFSET = MESSAGE_SIZE_OFFSET + MESSAGE_SIZE_SIZE;
static constexpr size_t HEADER_SIZE = MESSAGE_START_SIZE + COMMAND_SIZE + MESSAGE_SIZE_SIZE + CHECKSUM_SIZE;
typedef unsigned char MessageStartChars[MESSAGE_START_SIZE];
explicit CMessageHeader();
/** Construct a P2P message header from message-start characters, a command and the size of the message.
* @note Passing in a `pszCommand` longer than COMMAND_SIZE will result in a run-time assertion error.
*/
CMessageHeader(const MessageStartChars& pchMessageStartIn, const char* pszCommand, unsigned int nMessageSizeIn);
std::string GetCommand() const;
bool IsCommandValid() const;
SERIALIZE_METHODS(CMessageHeader, obj) { READWRITE(obj.pchMessageStart, obj.pchCommand, obj.nMessageSize, obj.pchChecksum); }
char pchMessageStart[MESSAGE_START_SIZE];
char pchCommand[COMMAND_SIZE];
uint32_t nMessageSize;
uint8_t pchChecksum[CHECKSUM_SIZE];
};
/**
* Bitcoin protocol message types. When adding new message types, don't forget
* to update allNetMessageTypes in protocol.cpp.
*/
namespace NetMsgType {
/**
* The version message provides information about the transmitting node to the
* receiving node at the beginning of a connection.
*/
extern const char* VERSION;
/**
* The verack message acknowledges a previously-received version message,
* informing the connecting node that it can begin to send other messages.
*/
extern const char* VERACK;
/**
* The addr (IP address) message relays connection information for peers on the
* network.
*/
extern const char* ADDR;
/**
* The addrv2 message relays connection information for peers on the network just
* like the addr message, but is extended to allow gossiping of longer node
* addresses (see BIP155).
*/
extern const char *ADDRV2;
/**
* The sendaddrv2 message signals support for receiving ADDRV2 messages (BIP155).
* It also implies that its sender can encode as ADDRV2 and would send ADDRV2
* instead of ADDR to a peer that has signaled ADDRV2 support by sending SENDADDRV2.
*/
extern const char *SENDADDRV2;
/**
* The inv message (inventory message) transmits one or more inventories of
* objects known to the transmitting peer.
*/
extern const char* INV;
/**
* The getdata message requests one or more data objects from another node.
*/
extern const char* GETDATA;
/**
* The merkleblock message is a reply to a getdata message which requested a
* block using the inventory type MSG_MERKLEBLOCK.
* @since protocol version 70001 as described by BIP37.
*/
extern const char* MERKLEBLOCK;
/**
* The getblocks message requests an inv message that provides block header
* hashes starting from a particular point in the block chain.
*/
extern const char* GETBLOCKS;
/**
* The getheaders message requests a headers message that provides block
* headers starting from a particular point in the block chain.
* @since protocol version 31800.
*/
extern const char* GETHEADERS;
/**
* The tx message transmits a single transaction.
*/
extern const char* TX;
/**
* The headers message sends one or more block headers to a node which
* previously requested certain headers with a getheaders message.
* @since protocol version 31800.
*/
extern const char* HEADERS;
/**
* The block message transmits a single serialized block.
*/
extern const char* BLOCK;
/**
* The getaddr message requests an addr message from the receiving node,
* preferably one with lots of IP addresses of other receiving nodes.
*/
extern const char* GETADDR;
/**
* The mempool message requests the TXIDs of transactions that the receiving
* node has verified as valid but which have not yet appeared in a block.
* @since protocol version 60002.
*/
extern const char* MEMPOOL;
/**
* The ping message is sent periodically to help confirm that the receiving
* peer is still connected.
*/
extern const char* PING;
/**
* The pong message replies to a ping message, proving to the pinging node that
* the ponging node is still alive.
* @since protocol version 60001 as described by BIP31.
*/
extern const char* PONG;
/**
* The notfound message is a reply to a getdata message which requested an
* object the receiving node does not have available for relay.
* @since protocol version 70001.
*/
extern const char* NOTFOUND;
/**
* The filterload message tells the receiving peer to filter all relayed
* transactions and requested merkle blocks through the provided filter.
* @since protocol version 70001 as described by BIP37.
* Only available with service bit NODE_BLOOM since protocol version
* 70011 as described by BIP111.
*/
extern const char* FILTERLOAD;
/**
* The filteradd message tells the receiving peer to add a single element to a
* previously-set bloom filter, such as a new public key.
* @since protocol version 70001 as described by BIP37.
* Only available with service bit NODE_BLOOM since protocol version
* 70011 as described by BIP111.
*/
extern const char* FILTERADD;
/**
* The filterclear message tells the receiving peer to remove a previously-set
* bloom filter.
* @since protocol version 70001 as described by BIP37.
* Only available with service bit NODE_BLOOM since protocol version
* 70011 as described by BIP111.
*/
extern const char* FILTERCLEAR;
/**
* Indicates that a node prefers to receive new block announcements via a
* "headers" message rather than an "inv".
* @since protocol version 70012 as described by BIP130.
*/
extern const char* SENDHEADERS;
/**
* The feefilter message tells the receiving peer not to inv us any txs
* which do not meet the specified min fee rate.
* @since protocol version 70013 as described by BIP133
*/
extern const char* FEEFILTER;
/**
* Contains a 1-byte bool and 8-byte LE version number.
* Indicates that a node is willing to provide blocks via "cmpctblock" messages.
* May indicate that a node prefers to receive new block announcements via a
* "cmpctblock" message rather than an "inv", depending on message contents.
* @since protocol version 70014 as described by BIP 152
*/
extern const char* SENDCMPCT;
/**
* Contains a CBlockHeaderAndShortTxIDs object - providing a header and
* list of "short txids".
* @since protocol version 70014 as described by BIP 152
*/
extern const char* CMPCTBLOCK;
/**
* Contains a BlockTransactionsRequest
* Peer should respond with "blocktxn" message.
* @since protocol version 70014 as described by BIP 152
*/
extern const char* GETBLOCKTXN;
/**
* Contains a BlockTransactions.
* Sent in response to a "getblocktxn" message.
* @since protocol version 70014 as described by BIP 152
*/
extern const char* BLOCKTXN;
/**
* getcfilters requests compact filters for a range of blocks.
* Only available with service bit NODE_COMPACT_FILTERS as described by
* BIP 157 & 158.
*/
extern const char* GETCFILTERS;
/**
* cfilter is a response to a getcfilters request containing a single compact
* filter.
*/
extern const char* CFILTER;
/**
* getcfheaders requests a compact filter header and the filter hashes for a
* range of blocks, which can then be used to reconstruct the filter headers
* for those blocks.
* Only available with service bit NODE_COMPACT_FILTERS as described by
* BIP 157 & 158.
*/
extern const char* GETCFHEADERS;
/**
* cfheaders is a response to a getcfheaders request containing a filter header
* and a vector of filter hashes for each subsequent block in the requested range.
*/
extern const char* CFHEADERS;
/**
* getcfcheckpt requests evenly spaced compact filter headers, enabling
* parallelized download and validation of the headers between them.
* Only available with service bit NODE_COMPACT_FILTERS as described by
* BIP 157 & 158.
*/
extern const char* GETCFCHECKPT;
/**
* cfcheckpt is a response to a getcfcheckpt request containing a vector of
* evenly spaced filter headers for blocks on the requested chain.
*/
extern const char* CFCHECKPT;
/**
* Indicates that a node prefers to relay transactions via wtxid, rather than
* txid.
* @since protocol version 70016 as described by BIP 339.
*/
extern const char* WTXIDRELAY;
}; // namespace NetMsgType
/* Get a vector of all valid message types (see above) */
const std::vector<std::string>& getAllNetMessageTypes();
/** nServices flags */
enum ServiceFlags : uint64_t {
// NOTE: When adding here, be sure to update serviceFlagToStr too
// Nothing
NODE_NONE = 0,
// NODE_NETWORK means that the node is capable of serving the complete block chain. It is currently
// set by all Bitcoin Core non pruned nodes, and is unset by SPV clients or other light clients.
NODE_NETWORK = (1 << 0),
// NODE_BLOOM means the node is capable and willing to handle bloom-filtered connections.
// Bitcoin Core nodes used to support this by default, without advertising this bit,
// but no longer do as of protocol version 70011 (= NO_BLOOM_VERSION)
NODE_BLOOM = (1 << 2),
// NODE_WITNESS indicates that a node can be asked for blocks and transactions including
// witness data.
NODE_WITNESS = (1 << 3),
// NODE_COMPACT_FILTERS means the node will service basic block filter requests.
// See BIP157 and BIP158 for details on how this is implemented.
NODE_COMPACT_FILTERS = (1 << 6),
// NODE_NETWORK_LIMITED means the same as NODE_NETWORK with the limitation of only
// serving the last 288 (2 day) blocks
// See BIP159 for details on how this is implemented.
NODE_NETWORK_LIMITED = (1 << 10),
// Bits 24-31 are reserved for temporary experiments. Just pick a bit that
// isn't getting used, or one not being used much, and notify the
// bitcoin-development mailing list. Remember that service bits are just
// unauthenticated advertisements, so your code must be robust against
// collisions and other cases where nodes may be advertising a service they
// do not actually support. Other service bits should be allocated via the
// BIP process.
};
/**
* Convert service flags (a bitmask of NODE_*) to human readable strings.
* It supports unknown service flags which will be returned as "UNKNOWN[...]".
* @param[in] flags multiple NODE_* bitwise-OR-ed together
*/
std::vector<std::string> serviceFlagsToStr(uint64_t flags);
/**
* Gets the set of service flags which are "desirable" for a given peer.
*
* These are the flags which are required for a peer to support for them
* to be "interesting" to us, ie for us to wish to use one of our few
* outbound connection slots for or for us to wish to prioritize keeping
* their connection around.
*
* Relevant service flags may be peer- and state-specific in that the
* version of the peer may determine which flags are required (eg in the
* case of NODE_NETWORK_LIMITED where we seek out NODE_NETWORK peers
* unless they set NODE_NETWORK_LIMITED and we are out of IBD, in which
* case NODE_NETWORK_LIMITED suffices).
*
* Thus, generally, avoid calling with peerServices == NODE_NONE, unless
* state-specific flags must absolutely be avoided. When called with
* peerServices == NODE_NONE, the returned desirable service flags are
* guaranteed to not change dependent on state - ie they are suitable for
* use when describing peers which we know to be desirable, but for which
* we do not have a confirmed set of service flags.
*
* If the NODE_NONE return value is changed, contrib/seeds/makeseeds.py
* should be updated appropriately to filter for the same nodes.
*/
ServiceFlags GetDesirableServiceFlags(ServiceFlags services);
/** Set the current IBD status in order to figure out the desirable service flags */
void SetServiceFlagsIBDCache(bool status);
/**
* A shortcut for (services & GetDesirableServiceFlags(services))
* == GetDesirableServiceFlags(services), ie determines whether the given
* set of service flags are sufficient for a peer to be "relevant".
*/
static inline bool HasAllDesirableServiceFlags(ServiceFlags services)
{
return !(GetDesirableServiceFlags(services) & (~services));
}
/**
* Checks if a peer with the given service flags may be capable of having a
* robust address-storage DB.
*/
static inline bool MayHaveUsefulAddressDB(ServiceFlags services)
{
return (services & NODE_NETWORK) || (services & NODE_NETWORK_LIMITED);
}
/** A CService with information about it as peer */
class CAddress : public CService
{
static constexpr uint32_t TIME_INIT{100000000};
public:
CAddress() : CService{} {};
CAddress(CService ipIn, ServiceFlags nServicesIn) : CService{ipIn}, nServices{nServicesIn} {};
CAddress(CService ipIn, ServiceFlags nServicesIn, uint32_t nTimeIn) : CService{ipIn}, nTime{nTimeIn}, nServices{nServicesIn} {};
SERIALIZE_METHODS(CAddress, obj)
{
SER_READ(obj, obj.nTime = TIME_INIT);
int nVersion = s.GetVersion();
if (s.GetType() & SER_DISK) {
READWRITE(nVersion);
}
if ((s.GetType() & SER_DISK) ||
(nVersion != INIT_PROTO_VERSION && !(s.GetType() & SER_GETHASH))) {
// The only time we serialize a CAddress object without nTime is in
// the initial VERSION messages which contain two CAddress records.
// At that point, the serialization version is INIT_PROTO_VERSION.
// After the version handshake, serialization version is >=
// MIN_PEER_PROTO_VERSION and all ADDR messages are serialized with
// nTime.
READWRITE(obj.nTime);
}
if (nVersion & ADDRV2_FORMAT) {
uint64_t services_tmp;
SER_WRITE(obj, services_tmp = obj.nServices);
READWRITE(Using<CompactSizeFormatter<false>>(services_tmp));
SER_READ(obj, obj.nServices = static_cast<ServiceFlags>(services_tmp));
} else {
READWRITE(Using<CustomUintFormatter<8>>(obj.nServices));
}
READWRITEAS(CService, obj);
}
// disk and network only
uint32_t nTime{TIME_INIT};
ServiceFlags nServices{NODE_NONE};
};
/** getdata message type flags */
const uint32_t MSG_WITNESS_FLAG = 1 << 30;
const uint32_t MSG_TYPE_MASK = 0xffffffff >> 2;
/** getdata / inv message types.
* These numbers are defined by the protocol. When adding a new value, be sure
* to mention it in the respective BIP.
*/
enum GetDataMsg : uint32_t {
UNDEFINED = 0,
MSG_TX = 1,
MSG_BLOCK = 2,
MSG_WTX = 5, //!< Defined in BIP 339
// The following can only occur in getdata. Invs always use TX/WTX or BLOCK.
MSG_FILTERED_BLOCK = 3, //!< Defined in BIP37
MSG_CMPCT_BLOCK = 4, //!< Defined in BIP152
MSG_WITNESS_BLOCK = MSG_BLOCK | MSG_WITNESS_FLAG, //!< Defined in BIP144
MSG_WITNESS_TX = MSG_TX | MSG_WITNESS_FLAG, //!< Defined in BIP144
// MSG_FILTERED_WITNESS_BLOCK is defined in BIP144 as reserved for future
// use and remains unused.
// MSG_FILTERED_WITNESS_BLOCK = MSG_FILTERED_BLOCK | MSG_WITNESS_FLAG,
};
/** inv message data */
class CInv
{
public:
CInv();
CInv(uint32_t typeIn, const uint256& hashIn);
SERIALIZE_METHODS(CInv, obj) { READWRITE(obj.type, obj.hash); }
friend bool operator<(const CInv& a, const CInv& b);
std::string GetCommand() const;
std::string ToString() const;
// Single-message helper methods
bool IsMsgTx() const { return type == MSG_TX; }
bool IsMsgBlk() const { return type == MSG_BLOCK; }
bool IsMsgWtx() const { return type == MSG_WTX; }
bool IsMsgFilteredBlk() const { return type == MSG_FILTERED_BLOCK; }
bool IsMsgCmpctBlk() const { return type == MSG_CMPCT_BLOCK; }
bool IsMsgWitnessBlk() const { return type == MSG_WITNESS_BLOCK; }
// Combined-message helper methods
bool IsGenTxMsg() const
{
return type == MSG_TX || type == MSG_WTX || type == MSG_WITNESS_TX;
}
bool IsGenBlkMsg() const
{
return type == MSG_BLOCK || type == MSG_FILTERED_BLOCK || type == MSG_CMPCT_BLOCK || type == MSG_WITNESS_BLOCK;
}
uint32_t type;
uint256 hash;
};
/** Convert a TX/WITNESS_TX/WTX CInv to a GenTxid. */
GenTxid ToGenTxid(const CInv& inv);
#endif // BITCOIN_PROTOCOL_H