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- /* vim: set expandtab ts=4 sw=4: */
- /*
- * You may redistribute this program and/or modify it under the terms of
- * the GNU General Public License as published by the Free Software Foundation,
- * either version 3 of the License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program. If not, see <https://www.gnu.org/licenses/>.
- */
- #ifndef Version_H
- #define Version_H
- #include "util/Linker.h"
- Linker_require("util/version/Version.c");
- #include <stdint.h>
- /*
- * Cjdns Protocol Versions
- *
- * The first argument to Version_COMPAT is the new version, the second argument is a list of
- * older versions with which it is compatible. All versions are obviously assumed to be compatible
- * with themselves and any version which is compatible with the most recent version to date is
- * assumed to be compatible with all future versions.
- */
- #ifndef Version_COMPAT
- // defined otherwise in Version.c
- #define Version_COMPAT(one, twoRange)
- #endif
- /*
- * Version 0:
- * January 2012
- *
- * First version.
- */
- Version_COMPAT(0, ([]))
- /*
- * Version 1:
- * October 2012
- *
- * When you send someone a message through cjdns, it's encrypted.
- * When you send the first message to a router, it has a nice header on it which tells them your key
- * and allows them to establish a cryptographic session with you. For every message after that, they
- * need to remember that session and use it to decrypt the message.
- *
- * The way they remember which session a message is associated with is to look at the switching
- * label from that message and compare that with the label which was used when the first message was
- * sent (with the header).
- *
- * What I didn't think about at the time is that labels change. Nodes find a better path to a
- * destination and expect the same session to work. It would work if the other end knew which
- * session to use but it can't know, the label is different.
- *
- * This is a protocol bug.
- *
- * In my opinion, the best way to fix it is to send an additional header before the crypto nonce
- * which tells the foreign node who it came from. When the handshake message is sent, the node will
- * send a 4 byte integer which the other end will store. Every time the other end sends a
- * non-handshake message to this end, it will prepend that same integer to the encrypted message and
- * on recieving a message, a node will use that number to do a lookup of the correct session to use.
- * The number can be a pointer or index offset so this can be quite fast.
- * Integer 0xFFFFFFFF shall be reserved and handshake messages which contain this value must be
- * ignored or treated as protocol 0 messages.
- *
- * But this is a protocol break.
- *
- * If a node gets handed a number and doesn't know what to do with it, it will think it's a
- * CryptoAuth header and it will fail. New nodes would be able to try a message as the old form if
- * the new form doesn't work but old nodes will just fail if they are ever sent a message in the new
- * form.
- *
- * Proposed Solution:
- * A key will be sent in all findNodes responses in the router, this key will be "np" for nodes'
- * protocol (version).
- * It will contain a string representation of a list of the protocol version numbers for the nodes
- * which it is introducing. The numbers will all be the same number of bytes and the first byte will
- * give that number. The length of the string will always be equal to one, plus the number of nodes
- * times the value of the first byte.
- *
- * This example shows the p which would accompany a findNodes response containing 1 node with
- * protocol version zero and one node with protocol version 1.
- *
- * "np": "\x01\x00\x01"
- *
- * 2:np3:\x01\x00\x01
- *
- * This example shows the p which would accompany a findNodes response containing 1 node with
- * protocol version 300 and two nodes with protocol version 5.
- *
- * "np": "\x02\x01\x2c\x00\x05\x00\x05"
- *
- * 2:np7:\x02\x01\x2c\x00\x05\x00\x05
- *
- * All multi-byte numbers shall be encoded in big endian encoding.
- *
- * Each node will have an internal compatibility matrix giving protocol version numbers which
- * can communicate, a node shall not respond to a findNodes message with a response containing any
- * nodes which are known to be incompatible with the protocol version of the requesting node.
- * Versions which are beyond the highest version number in the compatability matrix will be assumed
- * to have the same compatability as the highest number in the table.
- *
- * All messages shall contain shall contain an "p" key as well but these will have a benc integer
- * representing the protocol version of the sending node.
- *
- * Change to the Ping switch control message:
- * New switch ping messages will all be 8 or more bytes long, they will begin with a magic field
- * and then a version number which is the version of the sending node.
- * The magic will be set to 0x09f91102 for all ping messages and to 0x9d74e35b in the response
- * messages (these numbers shall be big endian encoded). Following this number will be a 4 byte
- * field containing the protocol version. Nodes which only speak protocol version 0 will be
- * identifyable because they echo back 0x09f91102 rather than replacing it and they will be unlikely
- * to send a ping request whose content begins with 0x09f91102.
- *
- * Protocol1.1
- * In protocol0 there was a single pool of sessions shared between the outer and inner layer.
- * In protocol1 it was split because one pool needed to have handles and the other pool didn't.
- * The problem with this is communications do not necessarily travel back and forth along the
- * same path and protocol1 exhibited a pathology wherein one node was direct sending packets to
- * another while the other was routing the responses via an intermediary.
- * There were 2 CryptoAuth sessions between the two nodes and neither session was entering run
- * state. So protocol1 was broken and the new protocol1 (protocol1.1) sends session handles on top
- * of the CryptoAuth handshake headers even if the handshake is in the inner layer (under the Ipv6
- * header). It does not however send handles in the inner layer when the inner layer CryptoAuth
- * session is in HANDSHAKE3 state or above.
- * Protocol1.1 still identifies itself as Protocol1, it will not be able to communicate with
- * protocol0 in some circumstances. If it knows nothing about the other node and it forwards a
- * message via an intermediary, the message will be unreadable at the other end.
- *
- * Protocol1.2
- * Changes in protocol1.1 are reverted as a solution was found in the implementation.
- */
- Version_COMPAT(1, ([0]))
- /*
- * Version 2:
- * February 21, 2013
- *
- * Remove compatibility layer for communicating with version 0 nodes.
- *
- * August 22, 2014
- * The Version_2_COMPAT ifdefs were removed in e2a7ebc4d7c54b6b5fac2c0ba5c7882af8b238f2
- */
- Version_COMPAT(2, ([1]))
- /*
- * Version 3:
- * August 16, 2013
- *
- * In version 1, handles were introduced so that a session could be looked when a packet came in.
- * During the initiation of a session, the node's handle was placed before the CryptoAuth block
- * unless the message was a layer-3 (forwarded) message in which case it was at the beginning
- * inside of the innermost CryptoAuth block. This handle was transferred to the peer so they could
- * tell how *this* node identifies the session.
- *
- * When a layer-2 (non-forwarded) message was received which was *not* a session initiation packet,
- * the peer's handle was placed before the CryptoAuth block in order for the peer to be able to
- * lookup the session in their table.
- *
- * Unfortunately the handle outside of the CryptoAuth initiation block was not authenticated in any
- * way and a switch could alter it accidently or maliciously causing the wrong session identifier
- * to be stored leading to the session failing until it eventually times out.
- *
- * To fix this bug the handle attached to the initiation message has been moved into the CryptoAuth
- * block where it should have been in the first place. Obviously the peer's handle is still placed
- * outside of the CryptoAuth block so it can serve it's function.
- *
- * As of version 3, implementations must not send handles which are less than 4 so that when they
- * receive them back, they will not be confused with the initial 4 bytes of a CryptoAuth setup
- * packet which is not preceeded by a handle.
- */
- Version_COMPAT(3, ([1,2]))
- /*
- * Version 4:
- * August 27, 2013
- *
- * This version makes no protocol changes but fixes a nasty bug with forwarding which caused
- * messages to be forwarded to random nodes, updated to encourage nodes to forward via others
- * who do not have the bug.
- */
- Version_COMPAT(4, ([1,2,3]))
- /*
- * Version 5:
- * September 4, 2013
- *
- * This version introduces a new RPC call for getting directly connected peers from a node.
- * The new RPC call is called "gp" and it takes a target label called "tar" which must be an
- * 8 byte long benc string. It returns a list of peers exactly the same as a search but they
- * must all be direct peers and they are the peers whose labels have smallest XOR distance
- * from "tar".
- */
- Version_COMPAT(5, ([1,2,3,4]))
- /*
- * Version 6:
- * December 14, 2013
- *
- * Drop support for versions older than 5
- */
- Version_COMPAT(6, ([5]))
- /*
- * Version 7:
- * March 16, 2014
- *
- * A ceremonial version which has the pathfinder2 implemented.
- * this is still compatible with the same versions and doesn't expressly change the protocol
- * although it is nolonger able to communicate with *older* version 5 nodes which do not advertize
- * their encoding scheme.
- */
- Version_COMPAT(7, ([5,6]))
- /*
- * Version 8:
- * August 22, 2014
- *
- * Previous to version 8, switch headers had a "Type" field which indicated the data type.
- * The data type is now inferred from the content of the packet and in the case of need to send
- * a control (error) packet, the switch sends a "handle" which is set to 0xffffffff.
- * Also switches previous to v8 zeroed the priority field, now it is left untouched.
- */
- Version_COMPAT(8, ([5,6,7]))
- /*
- * Version 9:
- * September 12, 2014
- *
- * Version 8 was sending improper checksums on error frames, corrected in v9.
- */
- Version_COMPAT(9, ([5,6,7,8]))
- /*
- * Version 10:
- * September 18, 2014
- *
- * Drop support for pre-v7
- */
- Version_COMPAT(10, ([7,8,9]))
- /*
- * Version 11:
- * October 7, 2014
- *
- * New QoS system and changes to SwitchHeader structure, see SwitchHeader.h
- */
- Version_COMPAT(11, ([7,8,9,10]))
- /*
- * Version 12:
- * November 21, 2014
- *
- * New inter-router API "nh" which has same semantics as "fn" but gets the next hop in
- * a hypothetical packet forwarding operation.
- */
- Version_COMPAT(12, ([7,8,9,10,11]))
- /*
- * Version 13:
- * December 30, 2014
- *
- * 1. Drop nodes older than 12.
- *
- * 2. Change of ETHInterface protocol.
- * We determined that the ETHInterface frame format was not possible to evolve
- * so we determined to add the low 16 bits of the version number to the header.
- * This was brought about by a need to include the message length in the header
- * to fix ethernet cards which fail to strip the CRC from the received message.
- *
- * The beacon contains a version number so if an old node is beaconing then the
- * new node can still speak the old protocol. If the new node is beaconing and
- * an old node receives it and responds, it will fail as we have determined that
- * there is no reasonable way for the new node to determine that an old format
- * message is old. It will begin working again if the old node sends a beacon.
- */
- Version_COMPAT(13, ([12]))
- /*
- * Version 14:
- * January 23, 2014
- *
- * Cerimonial version 14 to indicate a bug-fix in the getPeers function which
- * previously returned the same list of peers every time. Furthermore the switch
- * pinger was fixed to set the labelShift field correctly, fixing a bug which
- * caused spurious loss of switch ping packets (culminating in peers "missing"
- * from the routing table).
- */
- Version_COMPAT(14, ([12,13]))
- /**
- * Version 15:
- * January 29, 2014
- *
- * Cerimonial version 15 to indicate a change in routing behavior, for each incoming
- * packet, remember the path it took, if no path to the return node is known,
- * use the path that the incoming packet took for the response.
- */
- Version_COMPAT(15, ([12,13,14]))
- /**
- * Version 16:
- * February 13, 2014
- *
- * Verschlumbesserung
- *
- * This version comprises a major refactoring both in the internal organizatin of and the behavior
- * of cjdns. First on the internal organization note, the file formerly known as Ducttape.c is no
- * more, it made cjdns when cjdns didn't work but now it's time has passed, long live Ducttape.
- * Ducttape has been broken up into a series of 5 modules, SwitchAdapter, ControlHandler,
- * SessionManager, UpperDistributor and TUNAdapter. Furthermore Interface.h has been removed and
- * replaced with Iface.h. Interface.h was "gendered", meaning the male side of one interface could
- * only be linked with the female side of the other, Iface is ungendered and is linked (potentially
- * to any other interface in the project) using Iface_plumb(). Furthermore Iface has been adapted
- * to facilitate manual tail-call optimization.
- *
- * A new protocol called PFChan seperates the Pathfinder from the (packet handling) core. The
- * pathfinder is nolonger required to answer any questions for the core synchronously and since it
- * now communicated using Message and Iface as opposed to function calls, it may be seperated into
- * an external process. Furthermore the EventEmitter (module to which the pathfinder connects) is
- * capable of accepting connections from multiple pathfinders, allowing advanced external
- * pathfinders to be developed outside of the main cjdns project.
- *
- * On the point of protocol, two new headers have been defined, one is sent over the wire to other
- * nodes and the other is merely internal protocol for communicating with the SessionManager.
- * DataHeader is a new header, sent over the wire between any two v16+ nodes, it replaces the faux
- * IPv6 headers which previously were sent over the wire. RouteHeader is used internally to tell
- * SessionManager where one wants the packet to go but is never seen on the wire. The final and
- * perhaps most significant change in this version is the loss of packet forwarding. No longer does
- * a v16 node attempt to forward a message to another node in case that it does not know a route to
- * the final destination instead it bufferes the packet and triggers a DHT search in the same way
- * that Ethernet buffers a frame and triggers an ARP request. This vastly simplifies the debugging
- * of weird routing behaviors.
- */
- Version_COMPAT(16, ([12,13,14,15]))
- /**
- * Version 17:
- * October 9, 2015
- *
- * Ouvrir le parapluie
- *
- * When a node connects to another node, before v17, the connection password is double-hashed and
- * sent while the password hash and a field called Derivations were hashed together (and then
- * hashed with the shared secret from Curve25519 crypto) so that theoretically the hash of the
- * password and a various value of Derivations could be passed to another node who could then
- * establish a more heavily secured session. After v17 Derivations now is meaningless and the
- * previously meaningless bit A which had been set in the CryptoHeader_Challenge is now cleared
- * (see CryptoHeader.h)
- *
- * Also v17 adds a new authType, authType 2 which is for logging in with name and password.
- * In pre-17 when a session setup packet is sent, the double-hash of the password is sent as a
- * key so that the server can lookup the correct password to test.
- * This means someone with the session setup packet could crack to find the actual password and
- * then connect to the server. The change introduces a "login" in addition to the password, this
- * instead is hashed and sent so if the attacker cracks the hash, they'll get the login and will
- * not be able to login to the server.
- */
- Version_COMPAT(17, ([16]))
- /**
- * Version 18:
- * May 13, 2016
- *
- * Rimpasto
- *
- * In early 2016 a fundimental flaw was discovered in the way in which the Pathfinder works.
- * This flaw was named The Drawbridge Bug. When a node starts, it populates it's switch table
- * in first-come-first-serve order. This is desired behavior, we must occasionally reshuffle
- * the switch table in order to avoid persistent holes in the table which cause unduly long
- * switch label directors.
- * Unfortunately when a node reshuffles it's switch table, this breaks labels which pass through
- * the node. More unfortunately, it is not always clear that they were broken. For instance:
- * A->B->C->D->E and C resets and now the same path goes A->B->C->X->Y, the traditional Pathfinder
- * would think that D->E is broken and might replace it with D->Y, which is an incorrect inference
- * but will work for making this particular path again - thus positively reinforcing the wrong
- * inferrence.
- * Furthermore this problem has caused the NodeStore to make conclusions which are provably
- * incorrect and this caused assertion failures which caused nodes to reset, causing more and more
- * reshuffling of switch tables and more and more crashes.
- * A secondary and more difficult problem is that the paths resolved by the DHT style routing
- * system are longer than they need to be because as the search wanders looking for a node which
- * knows the full path, so too does the traffic.
- * There exist many routing algorithms which are far more efficient and some are believed to scale
- * smoothly to millions of nodes but the routing table's resistance to poison is specific to cjdns
- * and other algorithms are mostly highly susceptable. A similar issue to poison-resiliance is that
- * cjdns nodes need not implement any highly complex behaviors in order to keep the network
- * functioning, they only answer a few simple questions such as "who do you know whose address is
- * numerically close to X" and "which of your peers has a path numerically close to Y". Most other
- * routing algorithms require complex implementations and even a small deviation in behavior on
- * one node could be disastrous.
- *
- * v18 Rimpasto is a rethink of the routing infrastructure. First we accept that the problem is
- * harder than it was intially thought to be. The old routing infrastructure is now optional and
- * is replaced by something known as subnode, subnode connects to what are called supernodes.
- * The supernode code is in a different codebase which is written in nodejs and is called cjdnsnode.
- * The subnode is mostly located in subnode directory in the project but it makes use of a few parts
- * of the old dht directory.
- * The subnode configuration contains a set of supernodes, not anyone can just start up a supernode
- * and use it to damage the network, subnodes need to trust a supernode in order to use it.
- * The subnode uses findNode and getPeers requests to find a path to a supernode and then it sends
- * a findPath query to the supernode in order to answer all of it's routing needs. The supernode
- * is expected to be able to construct a route label for the optimal path between any one of it's
- * clients and any other node in the network but how that is done is up to the supernode.
- * The subnode still answers all of the queries made by the old DHT based routing code but for
- * findNode queries, the subnode answers the query by requesting the information from the supernode,
- *
- * This version allows optional/experimental subnode using SUBNODE=1 in the build.
- */
- Version_COMPAT(18, ([16,17]))
- /**
- * Version 19:
- * February 21, 2017
- *
- * shibboleth
- *
- * This is a mostly cerimonial release, the supernode/subnode infrastructure is still not completely
- * ready. This release is largely cerimonial, there are no breaking changes to the protocol.
- * There have been improvements to the CryptoAuth handshake which should make it less likely that
- * the CryptoAuth session will go into a bad state and the nodes be unable to talk to eachother.
- */
- Version_COMPAT(19, ([16,17,18]))
- /**
- * Version 20:
- * March 16, 2017
- *
- * baratiner
- *
- * In this release the default behavior is to try to solicit supernodes by asking peers then to
- * attempt to announce to a supernode, however the old messages are still supported and they are
- * handled by the old nodestore. When something needs to be found, this version will use both the
- * old DHT and its supernode (if it has one) at the same time.
- */
- Version_COMPAT(20, ([16,17,18,19]))
- /**
- * The current protocol version.
- */
- #define Version_CURRENT_PROTOCOL 20
- #define Version_16_COMPAT
- #define Version_17_COMPAT
- #define Version_18_COMPAT
- #define Version_19_COMPAT
- #define Version_20_COMPAT
- #define Version_MINIMUM_COMPATIBLE 16
- #define Version_DEFAULT_ASSUMPTION 16
- /**
- * Check the compatibility matrix and return whether two versions are compatible.
- * If a version is not listed on the table, the highest version on the table is
- * substituted for it but if the return value is yes, it is changed to maybe.
- *
- * @param version1 the first version
- * @param version2 the second version
- * @return 1 meaning compatible or 0 meaning incompatible.
- */
- int Version_isCompatible(uint32_t one, uint32_t two);
- #endif
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