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* swarm, swarm/network, swarm/pss: log error and fix logs * swarm/pss: log compressed publickey |
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client | ||
notify | ||
testdata | ||
api.go | ||
ARCHITECTURE.md | ||
doc.go | ||
handshake_none.go | ||
handshake_test.go | ||
handshake.go | ||
ping.go | ||
protocol_none.go | ||
protocol_test.go | ||
protocol.go | ||
pss_test.go | ||
pss.go | ||
README.md | ||
types.go | ||
writeup.md |
Postal Services over Swarm
pss
enables message relay over swarm. This means nodes can send messages to each other without being directly connected with each other, while taking advantage of the efficient routing algorithms that swarm uses for transporting and storing data.
CONTENTS
- Status of this document
- Core concepts
- Caveat
- Examples
- API
- Retrieve node information
- Receive messages
- Send messages using public key encryption
- Send messages using symmetric encryption
- Querying peer keys
- Handshakes
STATUS OF THIS DOCUMENT
pss
is under active development, and the first implementation is yet to be merged to the Ethereum main branch. Expect things to change.
Details on swarm routing and encryption schemes out of scope of this document.
Please refer to ARCHITECTURE.md for in-depth topics concerning pss
.
CORE CONCEPTS
Three things are required to send a pss
message:
- Encryption key
- Topic
- Message payload
Encryption key can be a public key or a 32 byte symmetric key. It must be coupled with a peer address in the node prior to sending.
Topic is the initial 4 bytes of a hash value.
Message payload is an arbitrary byte slice of data.
Upon sending the message it is encrypted and passed on from peer to peer. Any node along the route that can successfully decrypt the message is regarded as a recipient. Recipients continue to pass on the message to their peers, to make traffic analysis attacks more difficult.
The Address that is coupled with the encryption keys are used for routing the message. This does not need to be a full addresses; the network will route the message to the best of its ability with the information that is available. If no address is given (zero-length byte slice), routing is effectively deactivated, and the message is passed to all peers by all peers.
CAVEAT
pss
connectivity resembles UDP. This means there is no delivery guarantee for a message. Furthermore there is no strict definition of what a connection between two nodes communicating via pss
is. Reception acknowledgements and keepalive-schemes is the responsibility of the application.
Due to the inherent properties of the swarm
routing algorithm, a node may receive the same message more than once. Message deduplication cannot be guaranteed by pss
, and must be handled in the application layer to ensure predictable results.
EXAMPLES
The code tutorial p2p programming in go-ethereum by @nolash provides step-by-step code examples for usage of pss
API with go-ethereum
nodes.
A quite unpolished example using javascript
is available here: https://github.com/nolash/pss-js/tree/withcrypt
API
The pss
API is available through IPC and Websockets. There is currently no web3.js
implementation, as this does not support message subscription.
For golang
clients, please use the rpc.Client
provided by the go-ethereum
repository. The return values may have special types in golang
. Please refer to godoc
for details.
RETRIEVE NODE INFORMATION
pss_getPublicKey
Retrieves the public key of the node, in hex format
parameters:
none
returns:
1. publickey (hex)
pss_baseAddr
Retrieves the swarm overlay address of the node, in hex format
parameters:
none
returns:
1. swarm overlay address (hex)
pss_stringToTopic
Creates a deterministic 4 byte topic value from input, returned in hex format
parameters:
1. topic string (string)
returns:
1. pss topic (hex)
RECEIVE MESSAGES
pss_subscribe
Creates a subscription. Received messages with matching topic will be passed to subscription client.
parameters:
1. string("receive")
2. topic (4 bytes in hex)
returns:
1. subscription handle `base64(byte)` `rpc.ClientSubscription`
In golang
as special method is used:
rpc.Client.Subscribe(context.Context, "pss", chan pss.APIMsg, "receive", pss.Topic)
Incoming messages are encapsulated in an object (pss.APIMsg
in golang
) with the following members:
1. Msg (hex) - the message payload
2. Asymmetric (bool) - true if message used public key encryption
3. Key (string) - the encryption key used
SEND MESSAGE USING PUBLIC KEY ENCRYPTION
pss_setPeerPublicKey
Register a peer's public key. This is done once for every topic that will be used with the peer. Address can be anything from 0 to 32 bytes inclusive of the peer's swarm overlay address.
parameters:
1. public key of peer (hex)
2. topic (4 bytes in hex)
3. address of peer (hex)
returns:
none
pss_sendAsym
Encrypts the message using the provided public key, and signs it using the node's private key. It then wraps it in an envelope containing the topic, and sends it to the network.
parameters:
1. public key of peer (hex)
2. topic (4 bytes in hex)
3. message (hex)
returns:
none
SEND MESSAGE USING SYMMETRIC ENCRYPTION
pss_setSymmetricKey
Register a symmetric key shared with a peer. This is done once for every topic that will be used with the peer. Address can be anything from 0 to 32 bytes inclusive of the peer's swarm overlay address.
If the fourth parameter is false, the key will not be added to the list of symmetric keys used for decryption attempts.
parameters:
1. symmetric key (hex)
2. topic (4 bytes in hex)
3. address of peer (hex)
4. use for decryption (bool)
returns:
1. symmetric key id (string)
pss_sendSym
Encrypts the message using the provided symmetric key, wraps it in an envelope containing the topic, and sends it to the network.
parameters:
1. symmetric key id (string)
2. topic (4 bytes in hex)
3. message (hex)
returns:
none
QUERY PEER KEYS
pss_GetSymmetricAddressHint
Return the swarm overlay address associated with the peer registered with the given symmetric key and topic combination.
parameters:
1. topic (4 bytes in hex)
2. symmetric key id (string)
returns:
1. peer address (hex)
pss_GetAsymmetricAddressHint
Return the swarm overlay address associated with the peer registered with the given symmetric key and topic combination.
parameters:
1. topic (4 bytes in hex)
2. public key in hex form (string)
returns:
1. peer address (hex)
HANDSHAKES
Convenience implementation of Diffie-Hellman handshakes using ephemeral symmetric keys. Peers keep separate sets of keys for incoming and outgoing communications.
This functionality is an optional feature in pss
. It is compiled in by default, but can be omitted by providing the nopsshandshake
build tag.
pss_addHandshake
Activate handshake functionality on the specified topic.
parameters:
1. topic (4 bytes in hex)
returns:
none
pss_removeHandshake
Remove handshake functionality on the specified topic.
parameters:
1. topic (4 bytes in hex)
returns:
none
pss_handshake
Instantiate handshake with peer, refreshing symmetric encryption keys.
If parameter 3 is false, the returned array will be empty.
parameters:
1. public key of peer in hex format (string)
2. topic (4 bytes in hex)
3. block calls until keys are received (bool)
4. flush existing incoming keys (bool)
returns:
1. list of symmetric keys (string[])
pss_getHandshakeKeys
Get valid symmetric encryption keys for a specified peer and topic.
parameters:
- public key of peer in hex format (string)
- topic (4 bytes in hex)
- include keys for incoming messages (bool)
- include keys for outgoing messages (bool)
returns:
- list of symmetric keys (string[])
pss_getHandshakeKeyCapacity
Get amount of remaining messages the specified key is valid for.
parameters:
1. symmetric key id (string)
returns:
1. number of messages (uint16)
pss_getHandshakePublicKey
Get the peer's public key associated with the specified symmetric key.
parameters:
1. symmetric key id (string)
returns:
1. Associated public key in hex format (string)
pss_releaseHandshakeKey
Invalidate the specified key.
Normally, the key will be kept for a grace period to allow for decryption of delayed messages. If instant removal is set, this grace period is omitted, and the key removed instantaneously.
parameters:
1. public key of peer in hex format (string)
2. topic (4 bytes in hex)
3. symmetric key id to release (string)
4. remove keys instantly (bool)
returns:
1. whether key was successfully removed (bool)