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Library recently rewritten to promises and mocha tests.
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Library implements tags, messages, groups, encryption, state, total ordering, key rotation, group completion, completed-group GC, multi-peer symmetric synchronization.
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Library does not implement triangulation or surveying, root group state-propagation.
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Old prototype HTML UI abandoned. New prototype UI just beginning to be written, AngularJS, packaged as 4 separate forms, chrome/firefox, extension/app. "Works" as far as packaging, running and interacting with library, but nothing else. Unusable as an application.
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Tag: a nickname + nonce pair. Public.
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Message: a plaintext carrying sender-tag, message kind, group ID, timestamp, ancestor-hashes, key rotation parameters, and body.
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Message ID: hash of a message (plaintext).
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Envelope: a message encrypted with group symmetric key.
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Envelope ID: Hash of ciphertext.
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Group ID: hash of a symmetric key, not a tag.
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Group: combination of concepts, depending on use:
- A collection of envelopes addressed to a group ID.
- The decrypted view of the messages contained therein, including a cryptographic DAG based on the parent-hashes.
- A combination of a current ID (key hash), persistent-state (a general multimap), and current-epoch message graph.
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Graph: A cryptographic DAG, similar to in git. It gives us causal order (avoiding Lamport clocks) and integrity checks on the consensus view of history and message contents. May lead to jarring time-travel effects of messages appearing "in the past" in your current UI because you just got patched by someone carrying causally "older" messages. Reality does not follow linear-causal rules, so any linearization of the message graph is going to reflect some such possibility. We use the timestamp as a self-claimed tie-breaker when causality doesn't yield any better order.
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State: A multimap of general values that gets re-transmitted at each rotation, used to store things the users want to be visible over extended (multi-rotation) periods within the group. Includes member-list or similar things.
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Epoch: a group's message graph, between first-use of a new key, and rotation to a new-new key.
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Rotation: every message carries multiparty ECDH parameters advancing negotiation of the group's next key. When the next key is negotiated, the members all jump ship to the new group, updating whatever links they had pointing to the current group ID to point to the new one.
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Completion: when a group's members have negotiated a next key, an epoch finishes, the persistent state is re-encrypted under the new key, the key is hashed to make the new group ID, and the old ID (and its messages) eventually gets GC'ed.
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Members: Part of the persistent state of a group: a list of tags of the people who should be involved in a key negotiation. Also called Agency.
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Agent: the combination of a user-tag, a group, and symmetric key to decrypt the group, and current and next ECC keypairs for negotiation of the symmetric key(s). "Having agency" means you are participating in a group. The members of a group are synonymous with the set of user tags who have agency in it.
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Peer: a collection of agents and carried groups, located on a specific machine. A peer stores its agents in a "root group", the key for which is itself encrypted with a machine-specific passphrase for storage when it is inactive. When active, a peer is the data structure that participates automatically in a root group, and owns access to the keys that access agents. Multiple peers may be joined together by sharing a common root group.
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Root group: a special kind of group that a set of peers use to synchronize their contact and group-membership lists, agent keys and shared/common identity through. Any message written to a root group is taken up unquestioningly by all peers sharing it. A root group should only be used to keep two or more peers (devices) owned by the same person / logical identity, and subject to the same trust considerations, in sync. Root groups should be used sparingly since there is no cross-validation of messages, trust is absolute (a message exists => it is trusted). A peer is only ever a member of at most one root group.
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Links: persistent state can carry links to other groups by ID, not by tag; group A linking to group B means that members of A will all carry B. But will not necessarily be members of B itself, nor even know what B is called (in terms of tag). Just carry it, as a sort of redundant transport service for those other peers who are members.
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Carrying: A peer carries all the groups it has agency within, as well as the groups linked by the groups it has agency within. A peer does not necessarily have agency in all groups it carries, but it does keep copies and propagate changes to the group-to-group links made by other peers. Peers do not carry any groups beyond the threshold of agency - no-agency; peers are not obliged to carry the whole world worth of messages, nor even a random selection thereof. They carry stuff that's either relevant to themselves, or relevant to someone they know.
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GC: old groups get collected when all members have committed to the new rotation key (written messages into the new group ID).
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Drop: A peer that runs strictly for the purpose of being findable and propagating messages between other peers. A drop participates in a private conversation with a non-drop (active) peer, in which the active peer repeatedly injects content-meaning messages and the drop just emits pings in response, carrying on the key rotation protocol.
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Triangulating: the process of cross-checking trust between two different groups by sending a nonce into one, accompanied by a request to sent it to the other. For example, if Alice is a member of two groups, each private conversations that (she thinks) are with Bob and Carol, then Alice can send an "Alice:Bob:Carol" triangulation nonce to Bob. Bob will then send the nonce on to Carol who will send it back to Alice. Upon observing the nonce returning in the private conversation with Carol, Alice will have increased confidence that one of the following is true:
- Someone is pretending to be Bob, and has convinced Alice and Carol
- Someone is pretending to be Carol, and has convinced Alice and Bob
- Someone is pretending to be both Bob and Carol, and has convinced Alice
- Bob and Carol are both who they appear to be in their respective groups
Stxt's notion of identity (which is intentionally blurry) emerges from the observation that an attacker masquerading as some user may have need to spend social effort maintaining the illusion in the face of ongoing triangulation traffic. Of course if a peer itself is compromised, this arrangement offers no stronger identity guarantee than any other cryptographic system. But it combines with the absence of long-lived keys in the system to offer some sense of identity while eliminating the risks of long-lived keys (non-repudiation, lost passphrases, lost keys, stolen devices, etc.)
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Surveying: optional higher-level service running on stxt network for estimating quorum of network with respect to a given message. Assuming each peer indicates abstract "approval" for messages (or ignores), surveying builds on fast-mix hypothesis of social networks, sends a query into network with hash function that randomly partitions message space, collects hyperloglog estimator of set of peers; exact aggregation algorithm still TBD to minimize statistical form of permitted attacks.
Will investigate:
- travis-ci.org (basic)
- coveralls.io (coverage)
- saucelabs.com (multi-browsers, selenium)
- ci.testling.com (multi-browsers)
- david-dm.org (dependencies)