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140 lines
4.8 KiB
Markdown
140 lines
4.8 KiB
Markdown
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# Circuit Subsystem Trace Events
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The circuit subsystem emits a series of tracing events related to a circuit
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object life cycle and its state change.
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This document describes each event as in what data they record and what they
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represent.
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## Background
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There are two types of circuits: origin and OR (onion router). Both of them
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are derived from a base object called a general circuit.
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- Origin circuits are the ones initiated by tor itself so client or onion
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service circuits for instance.
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- OR circuits are the ones going through us that we have not initiated and
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thus only seen by relays.
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Many operations are done on the base (general) circuit, and some are specific
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to an origin or OR. The following section describes each of them by circuit
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type.
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## Trace Events
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For the LTTng tracer, the subsystem name of these events is: `tor_circuit`.
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Also, unless specified otherwise, every event emits a common set of parameters
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thus they should always be expected in the following order:
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- `circ_id`: For an origin circuit, this is the global circuit identifier used
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in a cell. For an OR circuit, the value is 0.
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- `purpose`: Purpose of the circuit as in what it is used for. Note that this
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can change during the lifetime of a circuit. See `CIRCUIT_PURPOSE_*` in
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`core/or/circuitlist.h` for an exhaustive list of the possible values.
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- `state`: State of a circuit. This changes during the lifetime of a circuit.
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See `CIRCUIT_STATE_*` in `core/or/circuitlist.h` for an exhaustive list of
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the possible values.
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Now, the tracing events.
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### General Circuit (`circuit_t`)
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The following events are triggered for the base circuit object and thus apply
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to all types of circuits.
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* `free`: A circuit object is freed that is memory is released and not
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usable anymore. After this event, no more events will be emitted for the
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specific circuit object.
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* `mark_for_close`: A circuit object is marked for close that is scheduled
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to be closed in a later mainloop periodic event.
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Extra parameters:
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- `end_reason`: Reason why the circuit is closed. Tor often changes that
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reason to something generic sometimes in order to avoid leaking internal
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reasons to the end point. Thus, this value can be different from
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orig_close_reason.
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- `orig_close_reason`: Original reason why the circuit is closed. That
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value never changes and contains the internal reason why we close it. It
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is **never** this reason that is sent back on the circuit.
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* `change_purpose`: Purpose change.
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Extra parameters:
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(`purpose` parameter is not present)
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- `old_purpose`: Previous purpose that is no longer.
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- `new_purpose`: New purpose assigned to the circuit.
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* `change_state`: State change.
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Extra parameters:
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(`state` parameter is not present)
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- `old_state`: Previous state that is no longer.
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- `new_state`: New state assigned to the circuit.
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### Origin Circuit (`origin_circuit_t`)
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The following events are triggered only for origin circuits.
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* `new_origin`: New origin circuit has been created meaning it has been
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newly allocated, initialized and added to the global list.
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* `establish`: Circuit is being established. This is the initial first step
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where the path was selected and a connection to the first hop has been
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launched.
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* `cannibalized`: Circuit has been cannibalized. This happens when we have
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an already opened unused circuit (preemptive circuits) and it was picked.
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* `first_onion_skin`: First onion skin was sent that is the handshake with
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the first hop.
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Extra parameters:
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- `fingerprint`: Identity digest (RSA) of the first hop.
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* `intermediate_onion_skin`: An intermediate onion skin was sent which can
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be why any hops after the first one. There is thus `N - 1` of these events
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where `N` is the total number of hops in the path.
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Extra parameters:
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- `fingerprint`: Identity digest (RSA) of the next hop.
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* `opened`: Circuit just became opened which means that all hops down the
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path have negotiated the handshake between them and us and the circuit is
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now ready to send cells.
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* `timeout`: Circuit has timed out that is we waited too long for the
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circuit to be built.
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* `idle_timeout`: Circuit has timed out due to idleness. This is controlled
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by the MaxCircuitDirtiness parameter which is 10 min by default.
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For the common use case of a 3-hop circuit, the following events should be
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seen in this order:
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`new_origin` -> `establish` -> `first_onion_skin` ->
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`intermediate_onion_skin` -> `intermediate_onion_skin` -> `opened`
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### OR Circuit (`or_circuit_t`)
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The following events are triggered only for OR circuits. For each of them, the
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`circ_id` parameter is not present since it would always be 0. The `purpose`
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and `state` remain.
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* `new_or`: New OR circuit has been created meaning it has been newly
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allocated, initialized and added to the global list.
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