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644 lines
23 KiB
C
644 lines
23 KiB
C
/* * Copyright (c) 2012-2017, The Tor Project, Inc. */
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/* See LICENSE for licensing information */
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/**
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* \file channel.h
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* \brief Header file for channel.c
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**/
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#ifndef TOR_CHANNEL_H
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#define TOR_CHANNEL_H
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#include "or.h"
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#include "circuitmux.h"
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#include "timers.h"
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#include "handles.h"
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/* Channel handler function pointer typedefs */
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typedef void (*channel_listener_fn_ptr)(channel_listener_t *, channel_t *);
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typedef void (*channel_cell_handler_fn_ptr)(channel_t *, cell_t *);
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typedef void (*channel_var_cell_handler_fn_ptr)(channel_t *, var_cell_t *);
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/**
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* This enum is used by channelpadding to decide when to pad channels.
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* Don't add values to it without updating the checks in
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* channelpadding_decide_to_pad_channel().
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*/
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typedef enum {
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CHANNEL_USED_NOT_USED_FOR_FULL_CIRCS = 0,
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CHANNEL_USED_FOR_FULL_CIRCS,
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CHANNEL_USED_FOR_USER_TRAFFIC,
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} channel_usage_info_t;
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/**
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* Channel struct; see the channel_t typedef in or.h. A channel is an
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* abstract interface for the OR-to-OR connection, similar to connection_or_t,
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* but without the strong coupling to the underlying TLS implementation. They
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* are constructed by calling a protocol-specific function to open a channel
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* to a particular node, and once constructed support the abstract operations
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* defined below.
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*/
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struct channel_s {
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/** Magic number for type-checking cast macros */
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uint32_t magic;
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/** List entry for hashtable for global-identifier lookup. */
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HT_ENTRY(channel_s) gidmap_node;
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/** Handle entry for handle-based lookup */
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HANDLE_ENTRY(channel, channel_s);
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/** Current channel state */
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channel_state_t state;
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/** Globally unique ID number for a channel over the lifetime of a Tor
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* process. This may not be 0.
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*/
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uint64_t global_identifier;
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/** Should we expect to see this channel in the channel lists? */
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unsigned char registered:1;
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/** has this channel ever been open? */
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unsigned int has_been_open:1;
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/**
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* This field indicates if the other side has enabled or disabled
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* padding via either the link protocol version or
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* channelpadding_negotiate cells.
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*
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* Clients can override this with ConnectionPadding in torrc to
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* disable or force padding to relays, but relays cannot override the
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* client's request.
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*/
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unsigned int padding_enabled:1;
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/** Cached value of our decision to pad (to avoid expensive
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* checks during critical path statistics counting). */
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unsigned int currently_padding:1;
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/** Is there a pending netflow padding callback? */
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unsigned int pending_padding_callback:1;
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/** Is our peer likely to consider this channel canonical? */
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unsigned int is_canonical_to_peer:1;
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/** Has this channel ever been used for non-directory traffic?
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* Used to decide what channels to pad, and when. */
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channel_usage_info_t channel_usage;
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/** When should we send a cell for netflow padding? 0 means no padding is
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* scheduled. */
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monotime_coarse_t next_padding_time;
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/** The callback pointer for the padding callbacks */
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tor_timer_t *padding_timer;
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/** The handle to this channel (to free on canceled timers) */
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struct channel_handle_t *timer_handle;
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/**
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* These two fields specify the minimum and maximum negotiated timeout
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* values for inactivity (send or receive) before we decide to pad a
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* channel. These fields can be set either via a PADDING_NEGOTIATE cell,
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* or the torrc option ReducedConnectionPadding. The consensus parameters
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* nf_ito_low and nf_ito_high are used to ensure that padding can only be
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* negotiated to be less frequent than what is specified in the consensus.
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* (This is done to prevent wingnut clients from requesting excessive
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* padding).
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*
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* The actual timeout value is randomly chosen between these two values
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* as per the table in channelpadding_get_netflow_inactive_timeout_ms(),
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* after ensuring that these values do not specify lower timeouts than
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* the consensus parameters.
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*
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* If these are 0, we have not negotiated or specified custom padding
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* times, and instead use consensus defaults. */
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uint16_t padding_timeout_low_ms;
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uint16_t padding_timeout_high_ms;
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/** Why did we close?
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*/
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enum {
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CHANNEL_NOT_CLOSING = 0,
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CHANNEL_CLOSE_REQUESTED,
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CHANNEL_CLOSE_FROM_BELOW,
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CHANNEL_CLOSE_FOR_ERROR
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} reason_for_closing;
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/** State variable for use by the scheduler */
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enum {
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/*
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* The channel is not open, or it has a full output buffer but no queued
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* cells.
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*/
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SCHED_CHAN_IDLE = 0,
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/*
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* The channel has space on its output buffer to write, but no queued
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* cells.
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*/
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SCHED_CHAN_WAITING_FOR_CELLS,
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/*
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* The scheduler has queued cells but no output buffer space to write.
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*/
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SCHED_CHAN_WAITING_TO_WRITE,
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/*
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* The scheduler has both queued cells and output buffer space, and is
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* eligible for the scheduler loop.
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*/
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SCHED_CHAN_PENDING
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} scheduler_state;
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/** Heap index for use by the scheduler */
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int sched_heap_idx;
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/** Timestamps for both cell channels and listeners */
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time_t timestamp_created; /* Channel created */
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time_t timestamp_active; /* Any activity */
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/**
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* This is a monotonic timestamp that marks when we
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* believe the channel has actually sent or received data to/from
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* the wire. Right now, it is used to determine when we should send
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* a padding cell for channelpadding.
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*
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* XXX: Are we setting timestamp_xfer_ms in the right places to
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* accurately reflect actual network data transfer? Or might this be
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* very wrong wrt when bytes actually go on the wire?
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*/
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monotime_coarse_t timestamp_xfer;
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/* Methods implemented by the lower layer */
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/** Free a channel */
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void (*free_fn)(channel_t *);
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/** Close an open channel */
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void (*close)(channel_t *);
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/** Describe the transport subclass for this channel */
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const char * (*describe_transport)(channel_t *);
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/** Optional method to dump transport-specific statistics on the channel */
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void (*dumpstats)(channel_t *, int);
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/** Registered handlers for incoming cells */
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channel_cell_handler_fn_ptr cell_handler;
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channel_var_cell_handler_fn_ptr var_cell_handler;
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/* Methods implemented by the lower layer */
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/**
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* Ask the lower layer for an estimate of the average overhead for
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* transmissions on this channel.
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*/
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double (*get_overhead_estimate)(channel_t *);
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/*
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* Ask the underlying transport what the remote endpoint address is, in
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* a tor_addr_t. This is optional and subclasses may leave this NULL.
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* If they implement it, they should write the address out to the
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* provided tor_addr_t *, and return 1 if successful or 0 if no address
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* available.
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*/
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int (*get_remote_addr)(channel_t *, tor_addr_t *);
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int (*get_transport_name)(channel_t *chan, char **transport_out);
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#define GRD_FLAG_ORIGINAL 1
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#define GRD_FLAG_ADDR_ONLY 2
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/**
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* Get a text description of the remote endpoint; canonicalized if the flag
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* GRD_FLAG_ORIGINAL is not set, or the one we originally connected
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* to/received from if it is. If GRD_FLAG_ADDR_ONLY is set, we return only
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* the original address.
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*/
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const char * (*get_remote_descr)(channel_t *, int);
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/** Check if the lower layer has queued writes */
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int (*has_queued_writes)(channel_t *);
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/**
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* If the second param is zero, ask the lower layer if this is
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* 'canonical', for a transport-specific definition of canonical; if
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* it is 1, ask if the answer to the preceding query is safe to rely
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* on.
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*/
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int (*is_canonical)(channel_t *, int);
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/** Check if this channel matches a specified extend_info_t */
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int (*matches_extend_info)(channel_t *, extend_info_t *);
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/** Check if this channel matches a target address when extending */
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int (*matches_target)(channel_t *, const tor_addr_t *);
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/* Ask the lower layer how many bytes it has queued but not yet sent */
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size_t (*num_bytes_queued)(channel_t *);
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/* Ask the lower layer how many cells can be written */
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int (*num_cells_writeable)(channel_t *);
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/* Write a cell to an open channel */
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int (*write_cell)(channel_t *, cell_t *);
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/** Write a packed cell to an open channel */
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int (*write_packed_cell)(channel_t *, packed_cell_t *);
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/** Write a variable-length cell to an open channel */
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int (*write_var_cell)(channel_t *, var_cell_t *);
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/**
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* Hash of the public RSA key for the other side's RSA identity key -- or
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* zeroes if we don't have an RSA identity in mind for the other side, and
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* it hasn't shown us one.
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*
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* Note that this is the RSA identity that we hope the other side has -- not
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* necessarily its true identity. Don't believe this identity unless
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* authentication has happened.
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*/
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char identity_digest[DIGEST_LEN];
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/**
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* Ed25519 key for the other side of this channel -- or zeroes if we don't
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* have an Ed25519 identity in mind for the other side, and it hasn't shown
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* us one.
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*
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* Note that this is the identity that we hope the other side has -- not
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* necessarily its true identity. Don't believe this identity unless
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* authentication has happened.
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*/
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ed25519_public_key_t ed25519_identity;
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/**
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* Linked list of channels with the same RSA identity digest, for use with
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* the digest->channel map
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*/
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TOR_LIST_ENTRY(channel_s) next_with_same_id;
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/** Circuit mux for circuits sending on this channel */
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circuitmux_t *cmux;
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/** Circuit ID generation stuff for use by circuitbuild.c */
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/**
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* When we send CREATE cells along this connection, which half of the
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* space should we use?
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*/
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circ_id_type_bitfield_t circ_id_type:2;
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/* DOCDOC */
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unsigned wide_circ_ids:1;
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/** For how many circuits are we n_chan? What about p_chan? */
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unsigned int num_n_circuits, num_p_circuits;
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/**
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* True iff this channel shouldn't get any new circs attached to it,
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* because the connection is too old, or because there's a better one.
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* More generally, this flag is used to note an unhealthy connection;
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* for example, if a bad connection fails we shouldn't assume that the
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* router itself has a problem.
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*/
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unsigned int is_bad_for_new_circs:1;
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/** True iff we have decided that the other end of this connection
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* is a client or bridge relay. Connections with this flag set should never
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* be used to satisfy an EXTEND request. */
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unsigned int is_client:1;
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/** Set if the channel was initiated remotely (came from a listener) */
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unsigned int is_incoming:1;
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/** Set by lower layer if this is local; i.e., everything it communicates
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* with for this channel returns true for is_local_addr(). This is used
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* to decide whether to declare reachability when we receive something on
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* this channel in circuitbuild.c
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*/
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unsigned int is_local:1;
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/** Have we logged a warning about circID exhaustion on this channel?
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* If so, when? */
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ratelim_t last_warned_circ_ids_exhausted;
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/** Channel timestamps for cell channels */
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time_t timestamp_client; /* Client used this, according to relay.c */
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time_t timestamp_recv; /* Cell received from lower layer */
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time_t timestamp_xmit; /* Cell sent to lower layer */
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/** Timestamp for run_connection_housekeeping(). We update this once a
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* second when we run housekeeping and find a circuit on this channel, and
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* whenever we add a circuit to the channel. */
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time_t timestamp_last_had_circuits;
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/** Unique ID for measuring direct network status requests;vtunneled ones
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* come over a circuit_t, which has a dirreq_id field as well, but is a
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* distinct namespace. */
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uint64_t dirreq_id;
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/** Channel counters for cell channels */
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uint64_t n_cells_recved, n_bytes_recved;
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uint64_t n_cells_xmitted, n_bytes_xmitted;
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};
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struct channel_listener_s {
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/* Current channel listener state */
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channel_listener_state_t state;
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/* Globally unique ID number for a channel over the lifetime of a Tor
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* process.
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*/
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uint64_t global_identifier;
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/** Should we expect to see this channel in the channel lists? */
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unsigned char registered:1;
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/** Why did we close?
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*/
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enum {
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CHANNEL_LISTENER_NOT_CLOSING = 0,
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CHANNEL_LISTENER_CLOSE_REQUESTED,
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CHANNEL_LISTENER_CLOSE_FROM_BELOW,
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CHANNEL_LISTENER_CLOSE_FOR_ERROR
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} reason_for_closing;
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/** Timestamps for both cell channels and listeners */
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time_t timestamp_created; /* Channel created */
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time_t timestamp_active; /* Any activity */
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/* Methods implemented by the lower layer */
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/** Free a channel */
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void (*free_fn)(channel_listener_t *);
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/** Close an open channel */
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void (*close)(channel_listener_t *);
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/** Describe the transport subclass for this channel */
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const char * (*describe_transport)(channel_listener_t *);
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/** Optional method to dump transport-specific statistics on the channel */
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void (*dumpstats)(channel_listener_t *, int);
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/** Registered listen handler to call on incoming connection */
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channel_listener_fn_ptr listener;
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/** List of pending incoming connections */
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smartlist_t *incoming_list;
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/** Timestamps for listeners */
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time_t timestamp_accepted;
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/** Counters for listeners */
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uint64_t n_accepted;
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};
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/* Channel state manipulations */
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int channel_state_is_valid(channel_state_t state);
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int channel_listener_state_is_valid(channel_listener_state_t state);
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int channel_state_can_transition(channel_state_t from, channel_state_t to);
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int channel_listener_state_can_transition(channel_listener_state_t from,
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channel_listener_state_t to);
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const char * channel_state_to_string(channel_state_t state);
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const char *
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channel_listener_state_to_string(channel_listener_state_t state);
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/* Abstract channel operations */
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void channel_mark_for_close(channel_t *chan);
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int channel_write_packed_cell(channel_t *chan, packed_cell_t *cell);
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void channel_listener_mark_for_close(channel_listener_t *chan_l);
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/* Channel callback registrations */
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/* Listener callback */
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void channel_listener_set_listener_fn(channel_listener_t *chan,
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channel_listener_fn_ptr listener);
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/* Incoming cell callbacks */
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channel_cell_handler_fn_ptr channel_get_cell_handler(channel_t *chan);
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channel_var_cell_handler_fn_ptr
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channel_get_var_cell_handler(channel_t *chan);
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void channel_set_cell_handlers(channel_t *chan,
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channel_cell_handler_fn_ptr cell_handler,
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channel_var_cell_handler_fn_ptr
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var_cell_handler);
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/* Clean up closed channels and channel listeners periodically; these are
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* called from run_scheduled_events() in main.c.
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*/
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void channel_run_cleanup(void);
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void channel_listener_run_cleanup(void);
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/* Close all channels and deallocate everything */
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void channel_free_all(void);
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/* Dump some statistics in the log */
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void channel_dumpstats(int severity);
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void channel_listener_dumpstats(int severity);
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/* Set the cmux policy on all active channels */
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void channel_set_cmux_policy_everywhere(circuitmux_policy_t *pol);
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#ifdef TOR_CHANNEL_INTERNAL_
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#ifdef CHANNEL_PRIVATE_
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STATIC void channel_add_to_digest_map(channel_t *chan);
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#endif /* defined(CHANNEL_PRIVATE_) */
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/* Channel operations for subclasses and internal use only */
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/* Initialize a newly allocated channel - do this first in subclass
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* constructors.
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*/
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void channel_init(channel_t *chan);
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void channel_init_listener(channel_listener_t *chan);
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/* Channel registration/unregistration */
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void channel_register(channel_t *chan);
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void channel_unregister(channel_t *chan);
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/* Channel listener registration/unregistration */
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void channel_listener_register(channel_listener_t *chan_l);
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void channel_listener_unregister(channel_listener_t *chan_l);
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/* Close from below */
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void channel_close_from_lower_layer(channel_t *chan);
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void channel_close_for_error(channel_t *chan);
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void channel_closed(channel_t *chan);
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/* Free a channel */
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void channel_free_(channel_t *chan);
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#define channel_free(chan) FREE_AND_NULL(channel_t, channel_free_, (chan))
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void channel_listener_free_(channel_listener_t *chan_l);
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#define channel_listener_free(chan_l) \
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FREE_AND_NULL(channel_listener_t, channel_listener_free_, (chan_l))
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/* State/metadata setters */
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void channel_change_state(channel_t *chan, channel_state_t to_state);
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void channel_change_state_open(channel_t *chan);
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void channel_clear_identity_digest(channel_t *chan);
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void channel_clear_remote_end(channel_t *chan);
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void channel_mark_local(channel_t *chan);
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void channel_mark_incoming(channel_t *chan);
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void channel_mark_outgoing(channel_t *chan);
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void channel_mark_remote(channel_t *chan);
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void channel_set_identity_digest(channel_t *chan,
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const char *identity_digest,
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const ed25519_public_key_t *ed_identity);
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void channel_listener_change_state(channel_listener_t *chan_l,
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channel_listener_state_t to_state);
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/* Timestamp updates */
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void channel_timestamp_created(channel_t *chan);
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void channel_timestamp_active(channel_t *chan);
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void channel_timestamp_recv(channel_t *chan);
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void channel_timestamp_xmit(channel_t *chan);
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void channel_listener_timestamp_created(channel_listener_t *chan_l);
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void channel_listener_timestamp_active(channel_listener_t *chan_l);
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void channel_listener_timestamp_accepted(channel_listener_t *chan_l);
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/* Incoming channel handling */
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void channel_listener_process_incoming(channel_listener_t *listener);
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void channel_listener_queue_incoming(channel_listener_t *listener,
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channel_t *incoming);
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/* Incoming cell handling */
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void channel_process_cell(channel_t *chan, cell_t *cell);
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|
/* Request from lower layer for more cells if available */
|
|
MOCK_DECL(ssize_t, channel_flush_some_cells,
|
|
(channel_t *chan, ssize_t num_cells));
|
|
|
|
/* Query if data available on this channel */
|
|
MOCK_DECL(int, channel_more_to_flush, (channel_t *chan));
|
|
|
|
/* Notify flushed outgoing for dirreq handling */
|
|
void channel_notify_flushed(channel_t *chan);
|
|
|
|
/* Handle stuff we need to do on open like notifying circuits */
|
|
void channel_do_open_actions(channel_t *chan);
|
|
|
|
#endif /* defined(TOR_CHANNEL_INTERNAL_) */
|
|
|
|
/* Helper functions to perform operations on channels */
|
|
|
|
int channel_send_destroy(circid_t circ_id, channel_t *chan,
|
|
int reason);
|
|
|
|
/*
|
|
* Outside abstract interfaces that should eventually get turned into
|
|
* something transport/address format independent.
|
|
*/
|
|
|
|
channel_t * channel_connect(const tor_addr_t *addr, uint16_t port,
|
|
const char *rsa_id_digest,
|
|
const ed25519_public_key_t *ed_id);
|
|
|
|
channel_t * channel_get_for_extend(const char *rsa_id_digest,
|
|
const ed25519_public_key_t *ed_id,
|
|
const tor_addr_t *target_addr,
|
|
const char **msg_out,
|
|
int *launch_out);
|
|
|
|
/* Ask which of two channels is better for circuit-extension purposes */
|
|
int channel_is_better(channel_t *a, channel_t *b);
|
|
|
|
/** Channel lookups
|
|
*/
|
|
|
|
channel_t * channel_find_by_global_id(uint64_t global_identifier);
|
|
channel_t * channel_find_by_remote_identity(const char *rsa_id_digest,
|
|
const ed25519_public_key_t *ed_id);
|
|
|
|
/** For things returned by channel_find_by_remote_digest(), walk the list.
|
|
* The RSA key will match for all returned elements; the Ed25519 key might not.
|
|
*/
|
|
channel_t * channel_next_with_rsa_identity(channel_t *chan);
|
|
|
|
/*
|
|
* Helper macros to lookup state of given channel.
|
|
*/
|
|
|
|
#define CHANNEL_IS_CLOSED(chan) (channel_is_in_state((chan), \
|
|
CHANNEL_STATE_CLOSED))
|
|
#define CHANNEL_IS_OPENING(chan) (channel_is_in_state((chan), \
|
|
CHANNEL_STATE_OPENING))
|
|
#define CHANNEL_IS_OPEN(chan) (channel_is_in_state((chan), \
|
|
CHANNEL_STATE_OPEN))
|
|
#define CHANNEL_IS_MAINT(chan) (channel_is_in_state((chan), \
|
|
CHANNEL_STATE_MAINT))
|
|
#define CHANNEL_IS_CLOSING(chan) (channel_is_in_state((chan), \
|
|
CHANNEL_STATE_CLOSING))
|
|
#define CHANNEL_IS_ERROR(chan) (channel_is_in_state((chan), \
|
|
CHANNEL_STATE_ERROR))
|
|
|
|
#define CHANNEL_FINISHED(chan) (CHANNEL_IS_CLOSED(chan) || \
|
|
CHANNEL_IS_ERROR(chan))
|
|
|
|
#define CHANNEL_CONDEMNED(chan) (CHANNEL_IS_CLOSING(chan) || \
|
|
CHANNEL_FINISHED(chan))
|
|
|
|
#define CHANNEL_CAN_HANDLE_CELLS(chan) (CHANNEL_IS_OPENING(chan) || \
|
|
CHANNEL_IS_OPEN(chan) || \
|
|
CHANNEL_IS_MAINT(chan))
|
|
|
|
static inline int
|
|
channel_is_in_state(channel_t *chan, channel_state_t state)
|
|
{
|
|
return chan->state == state;
|
|
}
|
|
|
|
/*
|
|
* Metadata queries/updates
|
|
*/
|
|
|
|
const char * channel_describe_transport(channel_t *chan);
|
|
MOCK_DECL(void, channel_dump_statistics, (channel_t *chan, int severity));
|
|
void channel_dump_transport_statistics(channel_t *chan, int severity);
|
|
const char * channel_get_actual_remote_descr(channel_t *chan);
|
|
const char * channel_get_actual_remote_address(channel_t *chan);
|
|
MOCK_DECL(int, channel_get_addr_if_possible, (channel_t *chan,
|
|
tor_addr_t *addr_out));
|
|
const char * channel_get_canonical_remote_descr(channel_t *chan);
|
|
int channel_has_queued_writes(channel_t *chan);
|
|
int channel_is_bad_for_new_circs(channel_t *chan);
|
|
void channel_mark_bad_for_new_circs(channel_t *chan);
|
|
int channel_is_canonical(channel_t *chan);
|
|
int channel_is_canonical_is_reliable(channel_t *chan);
|
|
int channel_is_client(const channel_t *chan);
|
|
int channel_is_local(channel_t *chan);
|
|
int channel_is_incoming(channel_t *chan);
|
|
int channel_is_outgoing(channel_t *chan);
|
|
void channel_mark_client(channel_t *chan);
|
|
void channel_clear_client(channel_t *chan);
|
|
int channel_matches_extend_info(channel_t *chan, extend_info_t *extend_info);
|
|
int channel_matches_target_addr_for_extend(channel_t *chan,
|
|
const tor_addr_t *target);
|
|
unsigned int channel_num_circuits(channel_t *chan);
|
|
MOCK_DECL(void,channel_set_circid_type,(channel_t *chan,
|
|
crypto_pk_t *identity_rcvd,
|
|
int consider_identity));
|
|
void channel_timestamp_client(channel_t *chan);
|
|
|
|
const char * channel_listener_describe_transport(channel_listener_t *chan_l);
|
|
void channel_listener_dump_statistics(channel_listener_t *chan_l,
|
|
int severity);
|
|
void channel_listener_dump_transport_statistics(channel_listener_t *chan_l,
|
|
int severity);
|
|
void channel_check_for_duplicates(void);
|
|
|
|
void channel_update_bad_for_new_circs(const char *digest, int force);
|
|
|
|
/* Flow control queries */
|
|
int channel_num_cells_writeable(channel_t *chan);
|
|
|
|
/* Timestamp queries */
|
|
time_t channel_when_created(channel_t *chan);
|
|
time_t channel_when_last_client(channel_t *chan);
|
|
time_t channel_when_last_xmit(channel_t *chan);
|
|
|
|
/* Counter queries */
|
|
int packed_cell_is_destroy(channel_t *chan,
|
|
const packed_cell_t *packed_cell,
|
|
circid_t *circid_out);
|
|
|
|
/* Declare the handle helpers */
|
|
HANDLE_DECL(channel, channel_s,)
|
|
#define channel_handle_free(h) \
|
|
FREE_AND_NULL(channel_handle_t, channel_handle_free_, (h))
|
|
|
|
#endif /* !defined(TOR_CHANNEL_H) */
|
|
|