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PyBitmessage-2024-12-18/docs/protocol.rst

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Protocol specification
======================
.. warning:: All objects sent on the network should support protocol v3
starting on Sun, 16 Nov 2014 22:00:00 GMT.
.. toctree::
:maxdepth: 2
Common standards
----------------
Hashes
^^^^^^
Most of the time `SHA-512 <http://en.wikipedia.org/wiki/SHA-2>`_ hashes are
used, however `RIPEMD-160 <http://en.wikipedia.org/wiki/RIPEMD>`_ is also used
when creating an address.
A double-round of SHA-512 is used for the Proof Of Work. Example of
double-SHA-512 encoding of string "hello":
.. highlight:: nasm
::
hello
9b71d224bd62f3785d96d46ad3ea3d73319bfbc2890caadae2dff72519673ca72323c3d99ba5c11d7c7acc6e14b8c5da0c4663475c2e5c3adef46f73bcdec043(first round of sha-512)
0592a10584ffabf96539f3d780d776828c67da1ab5b169e9e8aed838aaecc9ed36d49ff1423c55f019e050c66c6324f53588be88894fef4dcffdb74b98e2b200(second round of sha-512)
For Bitmessage addresses (RIPEMD-160) this would give:
::
hello
9b71d224bd62f3785d96d46ad3ea3d73319bfbc2890caadae2dff72519673ca72323c3d99ba5c11d7c7acc6e14b8c5da0c4663475c2e5c3adef46f73bcdec043(first round is sha-512)
79a324faeebcbf9849f310545ed531556882487e (with ripemd-160)
Common structures
-----------------
All integers are encoded in big endian. (This is different from Bitcoin).
.. list-table:: Message structure
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 4
- magic
- uint32_t
- Magic value indicating message origin network, and used to seek to next
message when stream state is unknown
* - 12
- command
- char[12]
- ASCII string identifying the packet content, NULL padded (non-NULL
padding results in packet rejected)
* - 4
- length
- uint32_t
- Length of payload in number of bytes. Because of other restrictions,
there is no reason why this length would ever be larger than 1600003
bytes. Some clients include a sanity-check to avoid processing messages
which are larger than this.
* - 4
- checksum
- uint32_t
- First 4 bytes of sha512(payload)
* - ?
- message_payload
- uchar[]
- The actual data, a :ref:`message <msg-types>` or an object_.
Not to be confused with objectPayload.
Known magic values:
+-------------+-------------------+
| Magic value | Sent over wire as |
+=============+===================+
| 0xE9BEB4D9 | E9 BE B4 D9 |
+-------------+-------------------+
.. _varint:
Variable length integer
^^^^^^^^^^^^^^^^^^^^^^^
Integer can be encoded depending on the represented value to save space.
Variable length integers always precede an array/vector of a type of data that
may vary in length. Varints MUST use the minimum possible number of bytes to
encode a value. For example, the value 6 can be encoded with one byte therefore
a varint that uses three bytes to encode the value 6 is malformed and the
decoding task must be aborted.
+---------------+----------------+------------------------------------------+
| Value | Storage length | Format |
+===============+================+==========================================+
| < 0xfd | 1 | uint8_t |
+---------------+----------------+------------------------------------------+
| <= 0xffff | 3 | 0xfd followed by the integer as uint16_t |
+---------------+----------------+------------------------------------------+
| <= 0xffffffff | 5 | 0xfe followed by the integer as uint32_t |
+---------------+----------------+------------------------------------------+
| - | 9 | 0xff followed by the integer as uint64_t |
+---------------+----------------+------------------------------------------+
Variable length string
^^^^^^^^^^^^^^^^^^^^^^
Variable length string can be stored using a variable length integer followed by
the string itself.
+------------+-------------+------------+----------------------------------+
| Field Size | Description | Data type | Comments |
+============+=============+============+==================================+
| 1+ | length | |var_int| | Length of the string |
+------------+-------------+------------+----------------------------------+
| ? | string | char[] | The string itself (can be empty) |
+------------+-------------+------------+----------------------------------+
Variable length list of integers
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
n integers can be stored using n+1 :ref:`variable length integers <varint>`
where the first var_int equals n.
+------------+-------------+-----------+----------------------------+
| Field Size | Description | Data type | Comments |
+============+=============+===========+============================+
| 1+ | count | |var_int| | Number of var_ints below |
+------------+-------------+-----------+----------------------------+
| 1+ | | var_int | The first value stored |
+------------+-------------+-----------+----------------------------+
| 1+ | | var_int | The second value stored... |
+------------+-------------+-----------+----------------------------+
| 1+ | | var_int | etc... |
+------------+-------------+-----------+----------------------------+
.. |var_int| replace:: :ref:`var_int <varint>`
Network address
^^^^^^^^^^^^^^^
When a network address is needed somewhere, this structure is used. Network
addresses are not prefixed with a timestamp or stream in the version_ message.
.. list-table::
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 8
- time
- uint64
- the Time.
* - 4
- stream
- uint32
- Stream number for this node
* - 8
- services
- uint64_t
- same service(s) listed in version_
* - 16
- IPv6/4
- char[16]
- IPv6 address. IPv4 addresses are written into the message as a 16 byte
`IPv4-mapped IPv6 address <http://en.wikipedia.org/wiki/IPv6#IPv4-mapped_IPv6_addresses>`_
(12 bytes 00 00 00 00 00 00 00 00 00 00 FF FF, followed by the 4 bytes of
the IPv4 address).
* - 2
- port
- uint16_t
- port number
Inventory Vectors
^^^^^^^^^^^^^^^^^
Inventory vectors are used for notifying other nodes about objects they have or
data which is being requested. Two rounds of SHA-512 are used, resulting in a
64 byte hash. Only the first 32 bytes are used; the later 32 bytes are ignored.
Inventory vectors consist of the following data format:
+------------+-------------+-----------+--------------------+
| Field Size | Description | Data type | Comments |
+============+=============+===========+====================+
| 32 | hash | char[32] | Hash of the object |
+------------+-------------+-----------+--------------------+
Encrypted payload
^^^^^^^^^^^^^^^^^
Bitmessage uses `ECIES <https://en.wikipedia.org/wiki/Integrated_Encryption_Scheme>`_ to encrypt its messages. For more information see :doc:`encryption`
.. include:: encrypted_payload.rst
Unencrypted Message Data
^^^^^^^^^^^^^^^^^^^^^^^^
.. list-table::
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 1+
- msg_version
- var_int
- Message format version. **This field is not included after the
protocol v3 upgrade period**.
* - 1+
- address_version
- var_int
- Sender's address version number. This is needed in order to calculate
the sender's address to show in the UI, and also to allow for forwards
compatible changes to the public-key data included below.
* - 1+
- stream
- var_int
- Sender's stream number
* - 4
- behavior bitfield
- uint32_t
- A bitfield of optional behaviors and features that can be expected from
the node with this pubkey included in this msg message (the sender's
pubkey).
* - 64
- public signing key
- uchar[]
- The ECC public key used for signing (uncompressed format;
normally prepended with \x04)
* - 64
- public encryption key
- uchar[]
- The ECC public key used for encryption (uncompressed format;
normally prepended with \x04)
* - 1+
- nonce_trials_per_byte
- var_int
- Used to calculate the difficulty target of messages accepted by this
node. The higher this value, the more difficult the Proof of Work must
be before this individual will accept the message. This number is the
average number of nonce trials a node will have to perform to meet the
Proof of Work requirement. 1000 is the network minimum so any lower
values will be automatically raised to 1000. **This field is new and is
only included when the address_version >= 3**.
* - 1+
- extra_bytes
- var_int
- Used to calculate the difficulty target of messages accepted by this
node. The higher this value, the more difficult the Proof of Work must
be before this individual will accept the message. This number is added
to the data length to make sending small messages more difficult.
1000 is the network minimum so any lower values will be automatically
raised to 1000. **This field is new and is only included when the
address_version >= 3**.
* - 20
- destination ripe
- uchar[]
- The ripe hash of the public key of the receiver of the message
* - 1+
- encoding
- var_int
- :ref:`Message Encoding <msg-encodings>` type
* - 1+
- message_length
- var_int
- Message Length
* - message_length
- message
- uchar[]
- The message.
* - 1+
- ack_length
- var_int
- Length of the acknowledgement data
* - ack_length
- ack_data
- uchar[]
- The acknowledgement data to be transmitted. This takes the form of a
Bitmessage protocol message, like another msg message. The POW therein
must already be completed.
* - 1+
- sig_length
- var_int
- Length of the signature
* - sig_length
- signature
- uchar[]
- The ECDSA signature which covers the object header starting with the
time, appended with the data described in this table down to the
ack_data.
.. _msg-encodings:
Message Encodings
"""""""""""""""""
.. list-table::
:header-rows: 1
:widths: auto
* - Value
- Name
- Description
* - 0
- IGNORE
- Any data with this number may be ignored. The sending node might simply
be sharing its public key with you.
* - 1
- TRIVIAL
- UTF-8. No 'Subject' or 'Body' sections. Useful for simple strings
of data, like URIs or magnet links.
* - 2
- SIMPLE
- UTF-8. Uses 'Subject' and 'Body' sections. No MIME is used.
::
messageToTransmit = 'Subject:' + subject + '\n' + 'Body:' + message
* - 3
- EXTENDED
- See :doc:`extended_encoding`
Further values for the message encodings can be decided upon by the community.
Any MIME or MIME-like encoding format, should they be used, should make use of
Bitmessage's 8-bit bytes.
.. _behavior-bitfield:
Pubkey bitfield features
""""""""""""""""""""""""
.. list-table::
:header-rows: 1
:widths: auto
* - Bit
- Name
- Description
* - 0
- undefined
- The most significant bit at the beginning of the structure. Undefined
* - 1
- undefined
- The next most significant bit. Undefined
* - ...
- ...
- ...
* - 27
- onion_router
- (**Proposal**) Node can be used to onion-route messages. In theory any
node can onion route, but since it requires more resources, they may have
the functionality disabled. This field will be used to indicate that the
node is willing to do this.
* - 28
- forward_secrecy
- (**Proposal**) Receiving node supports a forward secrecy encryption
extension. The exact design is pending.
* - 29
- chat
- (**Proposal**) Address if for chatting rather than messaging.
* - 30
- include_destination
- (**Proposal**) Receiving node expects that the RIPE hash encoded in their
address preceedes the encrypted message data of msg messages bound for
them.
.. note:: since hardly anyone implements this, this will be redesigned as
`simple recipient verification <https://github.com/Bitmessage/PyBitmessage/pull/808#issuecomment-170189856>`_
* - 31
- does_ack
- If true, the receiving node does send acknowledgements (rather than
dropping them).
.. _msg-types:
Message types
-------------
Undefined messages received on the wire must be ignored.
version
^^^^^^^
When a node creates an outgoing connection, it will immediately advertise its
version. The remote node will respond with its version. No futher communication
is possible until both peers have exchanged their version.
.. list-table:: Payload
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 4
- version
- int32_t
- Identifies protocol version being used by the node. Should equal 3.
Nodes should disconnect if the remote node's version is lower but
continue with the connection if it is higher.
* - 8
- services
- uint64_t
- bitfield of features to be enabled for this connection
* - 8
- timestamp
- int64_t
- standard UNIX timestamp in seconds
* - 26
- addr_recv
- net_addr
- The network address of the node receiving this message (not including the
time or stream number)
* - 26
- addr_from
- net_addr
- The network address of the node emitting this message (not including the
time or stream number and the ip itself is ignored by the receiver)
* - 8
- nonce
- uint64_t
- Random nonce used to detect connections to self.
* - 1+
- user_agent
- var_str
- :doc:`useragent` (0x00 if string is 0 bytes long). Sending nodes must not
include a user_agent longer than 5000 bytes.
* - 1+
- stream_numbers
- var_int_list
- The stream numbers that the emitting node is interested in. Sending nodes
must not include more than 160000 stream numbers.
A "verack" packet shall be sent if the version packet was accepted. Once you
have sent and received a verack messages with the remote node, send an addr
message advertising up to 1000 peers of which you are aware, and one or more
inv messages advertising all of the valid objects of which you are aware.
.. list-table:: The following services are currently assigned
:header-rows: 1
:widths: auto
* - Value
- Name
- Description
* - 1
- NODE_NETWORK
- This is a normal network node.
* - 2
- NODE_SSL
- This node supports SSL/TLS in the current connect (python < 2.7.9 only
supports a SSL client, so in that case it would only have this on when
the connection is a client).
* - 3
- NODE_POW
- (**Proposal**) This node may do PoW on behalf of some its peers (PoW
offloading/delegating), but it doesn't have to. Clients may have to meet
additional requirements (e.g. TLS authentication)
* - 4
- NODE_DANDELION
- Node supports `dandelion <https://github.com/gfanti/bips/blob/master/bip-dandelion.mediawiki>`_
verack
^^^^^^
The *verack* message is sent in reply to *version*. This message consists of
only a :ref:`message header <Message structure>` with the command string
"verack". The TCP timeout starts out at 20 seconds; after verack messages are
exchanged, the timeout is raised to 10 minutes.
If both sides announce that they support SSL, they MUST perform a SSL handshake
immediately after they both send and receive verack. During this SSL handshake,
the TCP client acts as a SSL client, and the TCP server acts as a SSL server.
The current implementation (v0.5.4 or later) requires the AECDH-AES256-SHA
cipher over TLSv1 protocol, and prefers the secp256k1 curve (but other curves
may be accepted, depending on the version of python and OpenSSL used).
addr
^^^^
Provide information on known nodes of the network. Non-advertised nodes should
be forgotten after typically 3 hours
Payload:
+------------+-------------+-----------+---------------------------------------+
| Field Size | Description | Data type | Comments |
+============+=============+===========+=======================================+
| 1+ | count | |var_int| | Number of address entries (max: 1000) |
+------------+-------------+-----------+---------------------------------------+
| 38 | addr_list | net_addr | Address of other nodes on the network.|
+------------+-------------+-----------+---------------------------------------+
inv
^^^
Allows a node to advertise its knowledge of one or more objects. Payload
(maximum payload length: 50000 items):
+------------+-------------+------------+-----------------------------+
| Field Size | Description | Data type | Comments |
+============+=============+============+=============================+
| ? | count | |var_int| | Number of inventory entries |
+------------+-------------+------------+-----------------------------+
| 32x? | inventory | inv_vect[] | Inventory vectors |
+------------+-------------+------------+-----------------------------+
getdata
^^^^^^^
getdata is used in response to an inv message to retrieve the content of a
specific object after filtering known elements.
Payload (maximum payload length: 50000 entries):
+------------+-------------+------------+-----------------------------+
| Field Size | Description | Data type | Comments |
+============+=============+============+=============================+
| ? | count | |var_int| | Number of inventory entries |
+------------+-------------+------------+-----------------------------+
| 32x? | inventory | inv_vect[] | Inventory vectors |
+------------+-------------+------------+-----------------------------+
error
^^^^^
.. note:: New in version 3
This message may be silently ignored (and therefor handled like any other
"unknown" message).
The message is intended to inform the other node about protocol errors and
can be used for debugging and improving code.
.. list-table::
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 1+
- fatal
- |var_int|
- This qualifies the error. If set to 0, than its just a "warning".
You can expect, everything still worked fine. If set to 1, than
it's an error, so you may expect, something was going wrong
(e.g. an object got lost). If set to 2, it's a fatal error. The node
will drop the line for that error and maybe ban you for some time.
* - 1+
- ban time
- var_int
- If the error is fatal, you can specify the ban time in seconds, here.
You inform the other node, that you will not accept further connections
for this number of seconds. For non fatal errors this field has
no meaning and should be zero.
* - 1+
- inventory vector
- var_str
- If the error is related to an object, this Variable length string
contains the inventory vector of that object. If the error is not
related to an object, this string is empty.
* - 1+
- error text
- var_str
- A human readable string in English, which describes the error.
object
^^^^^^
An object is a message which is shared throughout a stream. It is the only
message which propagates; all others are only between two nodes. Objects have a
type, like 'msg', or 'broadcast'. To be a valid object, the
:doc:`pow` must be done. The maximum allowable length of an object
(not to be confused with the ``objectPayload``) is |2^18| bytes.
.. |2^18| replace:: 2\ :sup:`18`\
.. list-table:: Message structure
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 8
- nonce
- uint64_t
- Random nonce used for the :doc:`pow`
* - 8
- expiresTime
- uint64_t
- The "end of life" time of this object (be aware, in version 2 of the
protocol this was the generation time). Objects shall be shared with
peers until its end-of-life time has been reached. The node should store
the inventory vector of that object for some extra period of time to
avoid reloading it from another node with a small time delay. The time
may be no further than 28 days + 3 hours in the future.
* - 4
- objectType
- uint32_t
- Four values are currently defined: 0-"getpubkey", 1-"pubkey", 2-"msg",
3-"broadcast". All other values are reserved. Nodes should relay objects
even if they use an undefined object type.
* - 1+
- version
- var_int
- The object's version. Note that msg objects won't contain a version
until Sun, 16 Nov 2014 22:00:00 GMT.
* - 1+
- stream number
- var_int
- The stream number in which this object may propagate
* - ?
- objectPayload
- uchar[]
- This field varies depending on the object type; see below.
Unsupported messages
^^^^^^^^^^^^^^^^^^^^
If a node receives an unknown message it **must** silently ignore it. This is
for further extensions of the protocol with other messages. Nodes that don't
understand such a new message type shall be able to work correct with the
message types they understand.
Maybe some version 2 nodes did already implement it that way, but in version 3
it is **part of the protocol specification**, that a node **must**
silently ignore unsupported messages.
Object types
------------
Here are the payloads for various object types.
getpubkey
^^^^^^^^^
When a node has the hash of a public key (from an address) but not the public
key itself, it must send out a request for the public key.
.. list-table::
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 20
- ripe
- uchar[]
- The ripemd hash of the public key. This field is only included when the
address version is <= 3.
* - 32
- tag
- uchar[]
- The tag derived from the address version, stream number, and ripe. This
field is only included when the address version is >= 4.
pubkey
^^^^^^
A version 2 pubkey. This is still in use and supported by current clients but
*new* v2 addresses are not generated by clients.
.. list-table::
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 4
- |behavior_bitfield|
- uint32_t
- A bitfield of optional behaviors and features that can be expected from
the node receiving the message.
* - 64
- public signing key
- uchar[]
- The ECC public key used for signing (uncompressed format;
normally prepended with \x04 )
* - 64
- public encryption key
- uchar[]
- The ECC public key used for encryption (uncompressed format;
normally prepended with \x04 )
.. list-table:: A version 3 pubkey
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 4
- |behavior_bitfield|
- uint32_t
- A bitfield of optional behaviors and features that can be expected from
the node receiving the message.
* - 64
- public signing key
- uchar[]
- The ECC public key used for signing (uncompressed format;
normally prepended with \x04 )
* - 64
- public encryption key
- uchar[]
- The ECC public key used for encryption (uncompressed format;
normally prepended with \x04 )
* - 1+
- nonce_trials_per_byte
- var_int
- Used to calculate the difficulty target of messages accepted by this
node. The higher this value, the more difficult the Proof of Work must
be before this individual will accept the message. This number is the
average number of nonce trials a node will have to perform to meet the
Proof of Work requirement. 1000 is the network minimum so any lower
values will be automatically raised to 1000.
* - 1+
- extra_bytes
- var_int
- Used to calculate the difficulty target of messages accepted by this
node. The higher this value, the more difficult the Proof of Work must
be before this individual will accept the message. This number is added
to the data length to make sending small messages more difficult.
1000 is the network minimum so any lower values will be automatically
raised to 1000.
* - 1+
- sig_length
- var_int
- Length of the signature
* - sig_length
- signature
- uchar[]
- The ECDSA signature which, as of protocol v3, covers the object
header starting with the time, appended with the data described in this
table down to the extra_bytes.
.. list-table:: A version 4 pubkey
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 32
- tag
- uchar[]
- The tag, made up of bytes 32-64 of the double hash of the address data
(see example python code below)
* - ?
- encrypted
- uchar[]
- Encrypted pubkey data.
When version 4 pubkeys are created, most of the data in the pubkey is encrypted.
This is done in such a way that only someone who has the Bitmessage address
which corresponds to a pubkey can decrypt and use that pubkey. This prevents
people from gathering pubkeys sent around the network and using the data from
them to create messages to be used in spam or in flooding attacks.
In order to encrypt the pubkey data, a double SHA-512 hash is calculated from
the address version number, stream number, and ripe hash of the Bitmessage
address that the pubkey corresponds to. The first 32 bytes of this hash are used
to create a public and private key pair with which to encrypt and decrypt the
pubkey data, using the same algorithm as message encryption
(see :doc:`encryption`). The remaining 32 bytes of this hash are added to the
unencrypted part of the pubkey and used as a tag, as above. This allows nodes to
determine which pubkey to decrypt when they wish to send a message.
In PyBitmessage, the double hash of the address data is calculated using the
python code below:
.. code-block:: python
doubleHashOfAddressData = hashlib.sha512(hashlib.sha512(
encodeVarint(addressVersionNumber) + encodeVarint(streamNumber) + hash
).digest()).digest()
.. list-table:: Encrypted data in version 4 pubkeys:
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 4
- |behavior_bitfield|
- uint32_t
- A bitfield of optional behaviors and features that can be expected from
the node receiving the message.
* - 64
- public signing key
- uchar[]
- The ECC public key used for signing (uncompressed format;
normally prepended with \x04 )
* - 64
- public encryption key
- uchar[]
- The ECC public key used for encryption (uncompressed format;
normally prepended with \x04 )
* - 1+
- nonce_trials_per_byte
- var_int
- Used to calculate the difficulty target of messages accepted by this
node. The higher this value, the more difficult the Proof of Work must
be before this individual will accept the message. This number is the
average number of nonce trials a node will have to perform to meet the
Proof of Work requirement. 1000 is the network minimum so any lower
values will be automatically raised to 1000.
* - 1+
- extra_bytes
- var_int
- Used to calculate the difficulty target of messages accepted by this
node. The higher this value, the more difficult the Proof of Work must
be before this individual will accept the message. This number is added
to the data length to make sending small messages more difficult.
1000 is the network minimum so any lower values will be automatically
raised to 1000.
* - 1+
- sig_length
- var_int
- Length of the signature
* - sig_length
- signature
- uchar[]
- The ECDSA signature which covers everything from the object header
starting with the time, then appended with the decrypted data down to
the extra_bytes. This was changed in protocol v3.
msg
^^^
Used for person-to-person messages. Note that msg objects won't contain a
version in the object header until Sun, 16 Nov 2014 22:00:00 GMT.
.. list-table::
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - ?
- encrypted
- uchar[]
- Encrypted data. See `Encrypted payload`_.
See also `Unencrypted Message Data`_
broadcast
^^^^^^^^^
Users who are subscribed to the sending address will see the message appear in
their inbox. Broadcasts are version 4 or 5.
Pubkey objects and v5 broadcast objects are encrypted the same way: The data
encoded in the sender's Bitmessage address is hashed twice. The first 32 bytes
of the resulting hash constitutes the "private" encryption key and the last
32 bytes constitute a **tag** so that anyone listening can easily decide if
this particular message is interesting. The sender calculates the public key
from the private key and then encrypts the object with this public key. Thus
anyone who knows the Bitmessage address of the sender of a broadcast or pubkey
object can decrypt it.
The version of broadcast objects was previously 2 or 3 but was changed to 4 or
5 for protocol v3. Having a broadcast version of 5 indicates that a tag is used
which, in turn, is used when the sender's address version is >=4.
.. list-table::
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 32
- tag
- uchar[]
- The tag. This field is new and only included when the broadcast version
is >= 5. Changed in protocol v3
* - ?
- encrypted
- uchar[]
- Encrypted broadcast data. The keys are derived as described in the
paragraph above. See Encrypted payload for details about the encryption
algorithm itself.
Unencrypted data format:
.. list-table::
:header-rows: 1
:widths: auto
* - Field Size
- Description
- Data type
- Comments
* - 1+
- broadcast version
- var_int
- The version number of this broadcast protocol message which is equal
to 2 or 3. This is included here so that it can be signed. This is
no longer included in protocol v3
* - 1+
- address version
- var_int
- The sender's address version
* - 1+
- stream number
- var_int
- The sender's stream number
* - 4
- |behavior_bitfield|
- uint32_t
- A bitfield of optional behaviors and features that can be expected from
the owner of this pubkey.
* - 64
- public signing key
- uchar[]
- The ECC public key used for signing (uncompressed format;
normally prepended with \x04)
* - 64
- public encryption key
- uchar[]
- The ECC public key used for encryption (uncompressed format;
normally prepended with \x04)
* - 1+
- nonce_trials_per_byte
- var_int
- Used to calculate the difficulty target of messages accepted by this
node. The higher this value, the more difficult the Proof of Work must
be before this individual will accept the message. This number is the
average number of nonce trials a node will have to perform to meet the
Proof of Work requirement. 1000 is the network minimum so any lower
values will be automatically raised to 1000. This field is new and is
only included when the address_version >= 3.
* - 1+
- extra_bytes
- var_int
- Used to calculate the difficulty target of messages accepted by this
node. The higher this value, the more difficult the Proof of Work must
be before this individual will accept the message. This number is added
to the data length to make sending small messages more difficult.
1000 is the network minimum so any lower values will be automatically
raised to 1000. This field is new and is only included when the
address_version >= 3.
* - 1+
- encoding
- var_int
- The encoding type of the message
* - 1+
- messageLength
- var_int
- The message length in bytes
* - messageLength
- message
- uchar[]
- The message
* - 1+
- sig_length
- var_int
- Length of the signature
* - sig_length
- signature
- uchar[]
- The signature which did cover the unencrypted data from the broadcast
version down through the message. In protocol v3, it covers the
unencrypted object header starting with the time, all appended with
the decrypted data.
.. |behavior_bitfield| replace:: :ref:`behavior bitfield <behavior-bitfield>`