# Status Whisper Mailserver Specification > Version: 0.1 (Draft) > > Authors: Adam Babik , Oskar Thorén (alphabetical order) - [Status Whisper Mailserver Specification](#status-whisper-mailserver-specification) - [Abstract](#abstract) - [Mailserver](#mailserver) - [Archiving messages](#archiving-messages) - [Requesting messages](#requesting-messages) - [Receiving historic messages](#receiving-historic-messages) - [Security considerations](#security-considerations) - [Confidentiality](#confidentiality) - [Altruistic and centralized operator risk](#altruistic-and-centralized-operator-risk) - [Privacy concerns](#privacy-concerns) - [Denial-of-service](#denial-of-service) ## Abstract Being mostly offline is an intrinsic property of mobile clients. They need to save network transfer and battery consumption to avoid spending too much money or constant charging. Whisper protocol, on the other hand, is an online protocol. Messages are available in the Whisper network only for short period of time calculate in seconds. Whisper Mailserver is a Whisper extension that allows to store messages permanently and deliver them to the clients even though they are already not available in the network and expired. ## Mailserver From the network perspective, Mailserver is just like any other Whisper node. The only difference is that it has a capability of archiving messages and delivering them to its peers on-demand. It is important to notice that Mailserver will only handle requests from its direct peers and exchanged packets between Mailserver and a peer are p2p messages. ### Archiving messages A node which wants to provide mailserver functionality MUST store envelopes from incoming message packets (Whisper packet-code `0x01`). The envelopes can be stored in any format, however they MUST be serialized and deserialized to the Whisper envelope format. A mailserver SHOULD store envelopes for all topics to be generally useful for any peer, however for specific use cases it MAY store envelopes for a subset of topics. ### Requesting messages In order to request historic messages, a node MUST send a packet P2P Request (`0x7e`) to a peer providing mailserver functionality. This packet requires one argument which MUST be a Whisper envelope. In the Whisper envelope's payload section, there MUST be RLP-encoded information about the details of the request: ``` [ Lower, Upper, Bloom, Limit, Cursor ] ``` `Lower`: 4-byte wide unsigned integer (UNIX time in seconds; oldest requested envelope's creation time) `Upper`: 4-byte wide unsigned integer (UNIX time in seconds; newest requested envelope's creation time) `Bloom`: 64-byte wide array of Whisper topics encoded in a bloom filter to filter envelopes `Limit`: 4-byte wide unsigned integer limiting the number of returned envelopes `Cursor`: an array of a cursor returned from the previous request (optional) The `Cursor` field SHOULD be filled in if a number of envelopes between `Lower` and `Upper` is greater than `Limit` so that the requester can send another request using the obtained `Cursor` value. What exactly is in the `Cursor` is up to the implementation. The requester SHOULD NOT use a `Cursor` obtained from one mailserver in a request to another mailserver because the format or the result MAY be different. The envelope MUST be encrypted with a symmetric key agreed between the requester and Mailserver. ### Receiving historic messages Historic messages MUST be sent to a peer as a packet with a P2P Message code (`0x7f`) followed by an array of Whisper envelopes. It is incompatible with the original Whisper spec (EIP-627) because it allows only a single envelope, however, an array of envelopes is much more performant. In order to stay compatible with EIP-627, a peer receiving historic message MUST handle both cases. In order to receive historic messages from a mailserver, a node MUST trust the selected mailserver, that is allow to receive packets with the P2P Message code. By default, such packets are discarded. Received envelopes MUST be passed through the Whisper envelope pipelines so that they are picked up by registered filters and passed to subscribers. For a requester, to know that all messages have been sent by mailserver, it SHOULD handle P2P Request Complete code (`0x7d`). This code is followed by the following parameters: ``` [ RequestID, LastEnvelopeHash, Cursor ] ``` `RequestID`: 32-byte wide array with a Keccak-256 hash of the envelope containing the original request `LastEnvelopeHash`: 32-byte wide array with a Keccak-256 hash of the last sent envelope for the request `Cursor`: an array of a cursor returned from the previous request (optional) If `Cursor` is not empty, it means that not all messages were sent due to the set `Limit` in the request. One or more consecutive requests MAY be sent with `Cursor` field filled in in order to receive the rest of the messages. ## Security considerations ### Confidentiality All Whisper envelopes are encrypted. Mailserver node can not inspect their contents. ### Altruistic and centralized operator risk In order to be useful, a mailserver SHOULD be online most of time. That means you either have to be a bit tech-savvy to run your own node, or rely on someone else to run it for you. Currently Status Gmbh provides mailservers in an altruistic manner, but this is suboptimal from a decentralization, continuance and risk point of view. Coming up with a better system for this is ongoing research. A Status client SHOULD allow the mailserver selection to be customizable. ### Privacy concerns In order to use a Mailserver, a given node needs to connect to it directly, i.e. add the Mailserver as its peer and mark it as trusted. This means that the Mailserver is able to send direct p2p messages to the node instead of broadcasting them. Effectively, it knows which topics the node is interested in, when it is online as well as many metadata like IP address. ### Denial-of-service Since a mailserver is delivering expired envelopes and has a direct TCP connection with the recipient, the recipient is vulnerable to DoS attacks from a malicious mailserver node.