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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/>.
- */
- #include "subnode/ReachabilityAnnouncer.h"
- #include "util/events/Timeout.h"
- #include "util/Identity.h"
- #include "util/events/Time.h"
- #include "wire/Announce.h"
- #include "crypto/AddressCalc.h"
- #include "crypto/Sign.h"
- #include "switch/LabelSplicer.h"
- #include "util/AddrTools.h"
- #include "util/Hex.h"
- #include "util/Hash.h"
- #include "crypto_hash_sha512.h"
- // This is the time between the timestamp of the newest message and the point where
- // snode and subnode agree to drop messages from the snode state.
- #define AGREED_TIMEOUT_MS (1000 * 60 * 20)
- #define ArrayList_TYPE struct Message
- #define ArrayList_NAME OfMessages
- #include "util/ArrayList.h"
- #define ArrayList_TYPE struct Announce_ItemHeader
- #define ArrayList_NAME OfAnnItems
- #include "util/ArrayList.h"
- #define ArrayList_TYPE struct Announce_Peer
- #define ArrayList_NAME OfBarePeers
- #include "util/ArrayList.h"
- // -- Generic Functions -- //
- // We must reannounce before the agreed timeout because if it happens that there are
- // too many peers to fit in one packet, the packet will go out and re-announce the ones
- // who fit but the others will not fit in the packet and once the timestamp comes in,
- // they will be pulled by the route server.
- //
- // We could just declare that we are re-announcing everything at minute 15 but if we
- // do so then there will potentially be be a flood of full packets every 15 minutes
- // and link state will not be communicated.
- //
- // To fix this, we begin re-announcing after 14 minutes, which peers are eligable to be
- // re-announced is randomized by the timestamp of the previous announcement (something
- // which changes each cycle). Re-announcements occur between minutes 14 and minutes 19
- // with the last minute reserved as a 1 minute "quiet period" where announcements can
- // catch up before minute 20 when peers will be dropped by the route server.
- //
- #define QUIET_PERIOD_MS (1000 * 60)
- static int64_t timeUntilReannounce(
- int64_t nowServerTime,
- int64_t lastAnnouncedTime,
- struct Announce_ItemHeader* item)
- {
- uint32_t hash = Hash_compute((uint8_t*)item, item->length);
- int64_t timeSince = nowServerTime - lastAnnouncedTime;
- int64_t random5Min = (((uint64_t)lastAnnouncedTime + hash) % 600) * 1000;
- return (AGREED_TIMEOUT_MS - QUIET_PERIOD_MS) - (timeSince + random5Min);
- }
- static int64_t timestampFromMsg(struct Message* msg)
- {
- struct Announce_Header* hdr = (struct Announce_Header*) msg->bytes;
- Assert_true(msg->length >= Announce_Header_SIZE);
- return Announce_Header_getTimestamp(hdr);
- }
- static struct Announce_ItemHeader* itemFromSnodeState(struct ArrayList_OfMessages* snodeState,
- struct Announce_ItemHeader* ref,
- int64_t sinceTime,
- int64_t* timeOut)
- {
- for (int i = snodeState->length - 1; i >= 0; i--) {
- struct Message* msg = ArrayList_OfMessages_get(snodeState, i);
- struct Announce_ItemHeader* item = Announce_itemInMessage(msg, ref);
- if (!item) { continue; }
- int64_t ts = timestampFromMsg(msg);
- if (sinceTime > ts) { return NULL; }
- if (timeOut) { *timeOut = ts; }
- return item;
- }
- return NULL;
- }
- // Calculate the sha512 of a message list where a given set of signed messages will corrispond
- // to a given hash.
- static void hashMsgList(struct ArrayList_OfMessages* msgList, uint8_t out[64])
- {
- uint8_t hash[64] = {0};
- for (int i = 0; i < msgList->length; i++) {
- struct Message* msg = ArrayList_OfMessages_get(msgList, i);
- Er_assert(Message_epush(msg, hash, 64));
- crypto_hash_sha512(hash, msg->bytes, msg->length);
- Er_assert(Message_epop(msg, NULL, 64));
- }
- Bits_memcpy(out, hash, 64);
- }
- static int64_t estimateClockSkew(int64_t sentTime, int64_t snodeRecvTime, int64_t now)
- {
- // We estimate that the snode received our message at time: 1/2 the RTT
- int64_t halfRtt = sentTime + ((now - sentTime) / 2);
- return halfRtt - snodeRecvTime;
- }
- // We'll try to halve our estimated clock skew each RTT so on average it should eventually
- // target in on the exact skew. Ideal would be to use a rolling average such that one
- // screwy RTT has little effect but that's more work.
- static int64_t estimateImprovedClockSkew(int64_t sentTime,
- int64_t snodeRecvTime,
- int64_t now,
- int64_t lastSkew)
- {
- int64_t thisSkew = estimateClockSkew(sentTime, snodeRecvTime, now);
- int64_t skewDiff = thisSkew - lastSkew;
- return lastSkew + (skewDiff / 2);
- }
- // -- Context -- //
- // Depending on what news we have learned, we will adopt one of a set of possible states
- // whcih inform how often we contact our supernode. The numeric representation of the
- // state corrisponds to the number of milliseconds between messages to be sent to our
- // supernode.
- enum ReachabilityAnnouncer_State
- {
- // The message we build up from our local state is full, we obviously need to send it
- // asap in order that we can finish informing the snode of our peers.
- ReachabilityAnnouncer_State_MSGFULL = 500,
- // In this state we know how to reach the snode but we have no announced reachability
- // (so we are effectively offline) we have to announce quickly in order to be online.
- ReachabilityAnnouncer_State_FIRSTPEER = 1000,
- // The message became full adding link state info, it's not the same as MSGFULL
- // because we need not worry about going out of sync with the snode, but we should
- // send an update fairly soon
- ReachabilityAnnouncer_State_LINKSTATE_FULL = 2000,
- // We have just dropped a peer, we should announce quickly in order to help the snode
- // know that our link is dead.
- ReachabilityAnnouncer_State_PEERGONE = 6000,
- // We have picked up a new peer, we should announce moderately fast in order to make
- // sure that the snode picks the best path out of the possible options.
- ReachabilityAnnouncer_State_NEWPEER = 12000,
- // No new peers or dropped peers, we'll just send announcements at a low interval in
- // order to keep our snode up to date on latencies and drop percentages of different
- // links.
- ReachabilityAnnouncer_State_NORMAL = 60000
- };
- struct ReachabilityAnnouncer_pvt;
- struct Query {
- struct ReachabilityAnnouncer_pvt* rap;
- struct Message* msg;
- struct Address target;
- Identity
- };
- struct ReachabilityAnnouncer_pvt
- {
- struct ReachabilityAnnouncer pub;
- struct Timeout* announceCycle;
- struct Allocator* alloc;
- struct Log* log;
- struct EventBase* base;
- struct MsgCore* msgCore;
- struct Random* rand;
- struct SupernodeHunter* snh;
- struct EncodingScheme* myScheme;
- struct ReachabilityCollector* rc;
- String* encodingSchemeStr;
- struct Announce_ItemHeader* mySchemeItem;
- uint8_t signingKeypair[64];
- uint8_t pubSigningKey[32];
- int64_t timeOfLastReply;
- // The cjdns clock is monotonic and is calibrated once on launch so clockSkew
- // will be reliable even if the machine also has NTP and NTP also changes the clock
- // clockSkew is literally the number of milliseconds which we believe our clock is ahead of
- // our supernode's clock.
- int64_t clockSkew;
- struct Address snode;
- // This is effectively a log which means we add messages to it as time goes but we remove
- // messages which are more than AGREED_TIMEOUT_MS (20 minutes) older than the most recent
- // message in the list (the one at the highest index). We also identify messages in the list
- // which update only peers that have been updated again since and we remove those as well.
- // IMPORTANT: The removal of messages from this list is using the same algorithm that is used
- // on the supernode and if it changes then they will desync and go into a reset
- // loop.
- struct ArrayList_OfMessages* snodeState;
- struct Query* onTheWire;
- // this is by our clock, not skewed to the snode time.
- int64_t msgOnWireSentTime;
- // If true then when we send nextMsg, it will be a state reset of the node.
- bool resetState;
- enum ReachabilityAnnouncer_State state;
- Identity
- };
- // -- "Methods" -- //
- static int64_t ourTime(struct ReachabilityAnnouncer_pvt* rap)
- {
- uint64_t now = Time_currentTimeMilliseconds(rap->base);
- Assert_true(!(now >> 63));
- return (int64_t) now;
- }
- static int64_t snTime(struct ReachabilityAnnouncer_pvt* rap)
- {
- return ourTime(rap) - rap->clockSkew;
- }
- static char* printPeer(
- char out[60],
- struct ReachabilityAnnouncer_pvt* rap,
- struct Announce_Peer* p)
- {
- uint64_t path = Endian_bigEndianToHost16(p->peerNum_be);
- AddrTools_printPath(out, path);
- out[19] = '.';
- AddrTools_printIp(&out[20], p->peerIpv6);
- return out;
- }
- static char* printItem(
- char out[60],
- struct ReachabilityAnnouncer_pvt* rap,
- struct Announce_ItemHeader* item)
- {
- if (item->type == Announce_Type_PEER) {
- struct Announce_Peer* p = (struct Announce_Peer*) item;
- return printPeer(out, rap, p);
- } else if (item->type == Announce_Type_ENCODING_SCHEME) {
- return "encoding scheme";
- } else if (item->type == Announce_Type_VERSION) {
- return "version";
- } else {
- return "unknown";
- }
- }
- static bool pushLinkState(struct ReachabilityAnnouncer_pvt* rap,
- struct Message* msg)
- {
- for (int i = 0;; i++) {
- struct ReachabilityCollector_PeerInfo* pi = ReachabilityCollector_getPeerInfo(rap->rc, i);
- if (!pi || !pi->pathThemToUs) { break; }
- int lastLen = msg->length;
- pi->linkState.nodeId = pi->addr.path & 0xffff;
- if (LinkState_encode(msg, &pi->linkState, pi->lastAnnouncedSamples)) {
- Log_debug(rap->log, "Failed to add link state for [%s]",
- Address_toString(&pi->addr, msg->alloc)->bytes);
- }
- if (msg->length > 904) {
- Er_assert(Message_epop(msg, NULL, msg->length - lastLen));
- Log_debug(rap->log, "Couldn't add link state for [%s] (out of space)",
- Address_toString(&pi->addr, msg->alloc)->bytes);
- return true;
- } else {
- Log_debug(rap->log, "Updated link state for [%s]",
- Address_toString(&pi->addr, msg->alloc)->bytes);
- pi->lastAnnouncedSamples = pi->linkState.samples;
- }
- }
- return false;
- }
- // Insert or update the state information for a peer in a msgList
- #define updateItem_NOOP 0
- #define updateItem_ADD 1
- #define updateItem_UPDATE 2
- #define updateItem_ENOSPACE -1
- static int updateItem(struct ReachabilityAnnouncer_pvt* rap,
- struct Message* msg,
- struct Announce_ItemHeader* refItem)
- {
- char buf[60];
- const char* logInfo = "";
- if (Defined(Log_DEBUG)) {
- logInfo = printItem(buf, rap, refItem);
- }
- int64_t serverTime = snTime(rap);
- int64_t sinceTime = serverTime - AGREED_TIMEOUT_MS;
- struct Announce_ItemHeader* item = NULL;
- if (rap->onTheWire) {
- item = Announce_itemInMessage(rap->onTheWire->msg, refItem);
- }
- if (!item) {
- int64_t peerTime = 0;
- item = itemFromSnodeState(rap->snodeState, refItem, sinceTime, &peerTime);
- if (item && Announce_ItemHeader_equals(item, refItem)) {
- int64_t tur = timeUntilReannounce(serverTime, peerTime, item);
- if (tur < 0) {
- Log_debug(rap->log, "updateItem [%s] needs re-announce", logInfo);
- } else {
- Log_debug(rap->log, "updateItem [%s] no re-announce for [%d] sec",
- logInfo, (int)(tur / 1000));
- return updateItem_NOOP;
- }
- } else if (item) {
- Log_debug(rap->log, "updateItem [%s] needs update (changed)", logInfo);
- } else {
- Log_debug(rap->log, "updateItem [%s] not found in snodeState", logInfo);
- }
- } else if (Announce_ItemHeader_equals(item, refItem)) {
- Log_debug(rap->log, "updateItem [%s] found onTheWire, noop", logInfo);
- return updateItem_NOOP;
- } else {
- Log_debug(rap->log, "updateItem [%s] found onTheWire but needs update", logInfo);
- }
- if (msg->length > 700) {
- Log_debug(rap->log, "updateItem [%s] msg is too big to [%s] item",
- logInfo, item ? "UPDATE" : "INSERT");
- return updateItem_ENOSPACE;
- }
- Er_assert(Message_epush(msg, refItem, refItem->length));
- while ((uintptr_t)msg->bytes % 4) {
- // Ensure alignment
- Er_assert(Message_epush8(msg, 1));
- }
- return (item) ? updateItem_UPDATE : updateItem_ADD;
- }
- static void stateUpdate(struct ReachabilityAnnouncer_pvt* rap, enum ReachabilityAnnouncer_State st)
- {
- if (rap->state < st) { return; }
- rap->state = st;
- }
- static void annPeerForPi(struct ReachabilityAnnouncer_pvt* rap,
- struct Announce_Peer* apOut,
- struct ReachabilityCollector_PeerInfo* pi)
- {
- Assert_true(pi);
- Announce_Peer_init(apOut);
- apOut->encodingFormNum = EncodingScheme_getFormNum(rap->myScheme, pi->addr.path);
- apOut->peerNum_be = Endian_hostToBigEndian16(pi->addr.path & 0xffff);
- Bits_memcpy(apOut->peerIpv6, pi->addr.ip6.bytes, 16);
- apOut->label_be = Endian_hostToBigEndian32(pi->pathThemToUs);
- }
- static bool pushPeers(struct ReachabilityAnnouncer_pvt* rap, struct Message* msg)
- {
- for (int i = 0;; i++) {
- struct ReachabilityCollector_PeerInfo* pi = ReachabilityCollector_getPeerInfo(rap->rc, i);
- if (!pi || !pi->pathThemToUs) { return false; }
- struct Announce_Peer annP;
- annPeerForPi(rap, &annP, pi);
- if (updateItem(rap, msg, (struct Announce_ItemHeader*) &annP) == updateItem_ENOSPACE) {
- return true;
- }
- }
- }
- static void stateReset(struct ReachabilityAnnouncer_pvt* rap)
- {
- for (int i = rap->snodeState->length - 1; i >= 0; i--) {
- struct Message* msg = ArrayList_OfMessages_remove(rap->snodeState, i);
- Allocator_free(msg->alloc);
- }
- if (rap->onTheWire) {
- // this message is owned by a ping allocator so it will be freed by that
- rap->onTheWire = NULL;
- }
- // we must force the state to FIRSTPEER
- rap->state = ReachabilityAnnouncer_State_FIRSTPEER;
- rap->resetState = true;
- }
- static void addServerStateMsg(struct ReachabilityAnnouncer_pvt* rap, struct Message* msg)
- {
- Assert_true(msg->length >= Announce_Header_SIZE);
- int64_t mostRecentTime = timestampFromMsg(msg);
- int64_t sinceTime = mostRecentTime - AGREED_TIMEOUT_MS;
- ArrayList_OfMessages_add(rap->snodeState, msg);
- // Filter completely redundant messages and messages older than sinceTime
- struct Allocator* tempAlloc = Allocator_child(rap->alloc);
- struct ArrayList_OfAnnItems* knownItems = ArrayList_OfAnnItems_new(tempAlloc);
- for (int i = rap->snodeState->length - 1; i >= 0; i--) {
- bool redundant = true;
- struct Message* m = ArrayList_OfMessages_get(rap->snodeState, i);
- struct Announce_ItemHeader* item = Announce_ItemHeader_next(m, NULL);
- for (; item; item = Announce_ItemHeader_next(m, item)) {
- if (Announce_ItemHeader_isEphimeral(item)) {
- // Ephimeral items do not make a message non-redundant
- continue;
- }
- bool inList = false;
- for (int j = 0; j < knownItems->length; j++) {
- struct Announce_ItemHeader* knownItem = ArrayList_OfAnnItems_get(knownItems, j);
- if (Announce_ItemHeader_doesReplace(knownItem, item)) {
- inList = true;
- break;
- }
- }
- if (!inList) {
- ArrayList_OfAnnItems_add(knownItems, item);
- redundant = false;
- }
- }
- if (redundant && m != msg) {
- ArrayList_OfMessages_remove(rap->snodeState, i);
- Allocator_free(m->alloc);
- } else if (timestampFromMsg(m) < sinceTime) {
- // this will cause an immediate reset of state because we don't remove it and
- // the server side will.
- Log_warn(rap->log, "Announcement expiring which has not been replaced in time");
- }
- }
- Allocator_free(tempAlloc);
- }
- static struct ArrayList_OfBarePeers* getSnodeStatePeers(
- struct ReachabilityAnnouncer_pvt* rap,
- struct Allocator* alloc)
- {
- struct ArrayList_OfBarePeers* out = ArrayList_OfBarePeers_new(alloc);
- for (int i = 0; i < rap->snodeState->length; i++) {
- struct Message* snm = ArrayList_OfMessages_get(rap->snodeState, i);
- struct Announce_Peer* p = NULL;
- for (p = Announce_Peer_next(snm, NULL); p; p = Announce_Peer_next(snm, p)) {
- bool found = false;
- for (int j = 0; j < out->length; j++) {
- struct Announce_Peer* p1 = ArrayList_OfBarePeers_get(out, j);
- if (p1->peerNum_be == p->peerNum_be) {
- Bits_memcpy(p1, p, sizeof(struct Announce_Peer));
- found = true;
- }
- }
- if (!found) {
- struct Announce_Peer* p1 = Allocator_clone(alloc, p);
- ArrayList_OfBarePeers_add(out, p1);
- }
- }
- }
- for (int j = out->length - 1; j >= 0; j--) {
- struct Announce_Peer* p1 = ArrayList_OfBarePeers_get(out, j);
- if (!p1->label_be) { ArrayList_OfBarePeers_remove(out, j); }
- }
- return out;
- }
- // -- Public -- //
- void ReachabilityAnnouncer_updatePeer(struct ReachabilityAnnouncer* ra,
- struct Address* nodeAddr,
- struct ReachabilityCollector_PeerInfo* pi)
- {
- struct ReachabilityAnnouncer_pvt* rap = Identity_check((struct ReachabilityAnnouncer_pvt*) ra);
- struct Allocator* tempAlloc = Allocator_child(rap->alloc);
- if (!pi) {
- Log_debug(rap->log, "Update for [%s] - gone", Address_toString(nodeAddr, tempAlloc)->bytes);
- stateUpdate(rap, ReachabilityAnnouncer_State_PEERGONE);
- } else {
- struct ArrayList_OfBarePeers* snodeState = getSnodeStatePeers(rap, tempAlloc);
- if (snodeState->length == 0) {
- Log_debug(rap->log, "Update for [%s] - first peer",
- Address_toString(nodeAddr, tempAlloc)->bytes);
- stateUpdate(rap, ReachabilityAnnouncer_State_FIRSTPEER);
- } else {
- Log_debug(rap->log, "Update for [%s] - new peer",
- Address_toString(nodeAddr, tempAlloc)->bytes);
- stateUpdate(rap, ReachabilityAnnouncer_State_NEWPEER);
- }
- }
- Allocator_free(tempAlloc);
- }
- // -- Event Callbacks -- //
- static void onReplyTimeout(struct ReachabilityAnnouncer_pvt* rap, struct Query* q)
- {
- // TODO(cjd): one lost packet shouldn't trigger unreachable state
- if (!Bits_memcmp(&q->target, &rap->snode, Address_SIZE)) {
- rap->snh->snodeIsReachable = false;
- if (rap->snh->onSnodeUnreachable) {
- rap->snh->onSnodeUnreachable(rap->snh, 0, 0);
- }
- }
- }
- static void onReply(Dict* msg, struct Address* src, struct MsgCore_Promise* prom)
- {
- struct Query* q = Identity_check((struct Query*) prom->userData);
- struct ReachabilityAnnouncer_pvt* rap = Identity_check(q->rap);
- if (rap->onTheWire != q) {
- Log_debug(rap->log, "Got a reply from [%s] which was outstanding when "
- "we triggered a state reset, discarding",
- Address_toString(prom->target, prom->alloc)->bytes);
- return;
- }
- rap->onTheWire = NULL;
- if (!src) {
- onReplyTimeout(rap, q);
- return;
- }
- int64_t* snodeRecvTime = Dict_getIntC(msg, "recvTime");
- if (!snodeRecvTime) {
- Log_warn(rap->log, "snode did not send back recvTime");
- onReplyTimeout(rap, q);
- return;
- }
- int64_t sentTime = rap->msgOnWireSentTime;
- Log_debug(rap->log, "snode messages before [%d]", rap->snodeState->length);
- // We need to takeover the message allocator because it belongs to the ping message which
- // will auto-free at the end of this cycle.
- Allocator_adopt(rap->alloc, q->msg->alloc);
- addServerStateMsg(rap, q->msg);
- Log_debug(rap->log, "snode messages after [%d]", rap->snodeState->length);
- rap->resetState = false;
- int64_t now = rap->timeOfLastReply = ourTime(rap);
- int64_t oldClockSkew = rap->clockSkew;
- Log_debug(rap->log, "sentTime [%lld]", (long long int) sentTime);
- Log_debug(rap->log, "snodeRecvTime [%lld]", (long long int) *snodeRecvTime);
- Log_debug(rap->log, "now [%lld]", (long long int) now);
- Log_debug(rap->log, "oldClockSkew [%lld]", (long long int) oldClockSkew);
- rap->clockSkew = estimateImprovedClockSkew(sentTime, *snodeRecvTime, now, oldClockSkew);
- Log_debug(rap->log, "Adjusting clock skew by [%lld]",
- (long long int) (rap->clockSkew - oldClockSkew));
- // We reset the state to NORMAL unless the synchronization of state took more space than
- // the last message could hold, however if the state was MSGFULL but then another message
- // was sent and now all state is synced (nothing new to send), we set to NORMAL.
- // TODO(cjd): This implies a risk of oscillation wherein there is always a tiny bit of
- // additional state keeps being added (bouncing link?)
- if (ReachabilityAnnouncer_State_LINKSTATE_FULL == rap->state) {
- // LINKSTATE_FULL gets unflagged when the linkstate is pushed
- } else if (ReachabilityAnnouncer_State_MSGFULL != rap->state) {
- rap->state = ReachabilityAnnouncer_State_NORMAL;
- }
- String* snodeStateHash = Dict_getStringC(msg, "stateHash");
- uint8_t ourStateHash[64];
- hashMsgList(rap->snodeState, ourStateHash);
- if (!snodeStateHash) {
- Log_warn(rap->log, "no stateHash in reply from snode");
- } else if (snodeStateHash->len != 64) {
- Log_warn(rap->log, "bad stateHash in reply from snode");
- } else if (Bits_memcmp(snodeStateHash->bytes, ourStateHash, 64)) {
- uint8_t snodeHash[129];
- Assert_true(128 == Hex_encode(snodeHash, 129, snodeStateHash->bytes, 64));
- uint8_t ourHash[129];
- Assert_true(128 == Hex_encode(ourHash, 129, ourStateHash, 64));
- Log_warn(rap->log, "state mismatch with snode, [%u] announces\n[%s]\n[%s]",
- rap->snodeState->length, snodeHash, ourHash);
- } else {
- return;
- }
- Log_warn(rap->log, "desynchronized with snode, resetting state");
- stateReset(rap);
- }
- static bool pushMeta(struct ReachabilityAnnouncer_pvt* rap, struct Message* msg)
- {
- struct Announce_Version version;
- Announce_Version_init(&version);
- if (updateItem(rap, msg, (struct Announce_ItemHeader*)&version) == updateItem_ENOSPACE) {
- return true;
- } else if (updateItem(rap, msg, rap->mySchemeItem) == updateItem_ENOSPACE) {
- return true;
- }
- return false;
- }
- static bool pushWithdrawLinks(struct ReachabilityAnnouncer_pvt* rap, struct Message* msg)
- {
- // First withdraw any announcements which are nolonger valid
- struct Allocator* tempAlloc = Allocator_child(rap->alloc);
- struct ArrayList_OfBarePeers* snodePeers = getSnodeStatePeers(rap, tempAlloc);
- bool outOfSpace = false;
- for (int i = 0; i < snodePeers->length; i++) {
- struct Announce_Peer* p = ArrayList_OfBarePeers_get(snodePeers, i);
- uint64_t path = Endian_bigEndianToHost16(p->peerNum_be);
- struct ReachabilityCollector_PeerInfo* pi =
- ReachabilityCollector_piForLabel(rap->rc, path);
- if (pi && pi->pathThemToUs) { continue; }
- char buf[60];
- Log_debug(rap->log, "Withdrawing route to [%s]", printPeer(buf, rap, p));
- p->label_be = 0;
- if (updateItem(rap, msg, (struct Announce_ItemHeader*) p) == updateItem_ENOSPACE) {
- outOfSpace = true;
- break;
- }
- }
- Allocator_free(tempAlloc);
- return outOfSpace;
- }
- static void onAnnounceCycle(void* vRap)
- {
- struct ReachabilityAnnouncer_pvt* rap =
- Identity_check((struct ReachabilityAnnouncer_pvt*) vRap);
- // Message out on the wire...
- if (rap->onTheWire) { return; }
- if (!rap->snode.path) { return; }
- int64_t now = ourTime(rap);
- int64_t snNow = snTime(rap);
- // Not time to send yet?
- if (now < rap->timeOfLastReply + rap->state) { return; }
- struct MsgCore_Promise* qp = MsgCore_createQuery(rap->msgCore, 0, rap->alloc);
- struct Allocator* queryAlloc = Allocator_child(qp->alloc);
- struct Message* msg = Message_new(0, 1300, queryAlloc);
- Log_debug(rap->log, "\n");
- if (pushMeta(rap, msg)) {
- Log_debug(rap->log, "Out of space pushing metadata o_O");
- stateUpdate(rap, ReachabilityAnnouncer_State_MSGFULL);
- } else if (pushWithdrawLinks(rap, msg)) {
- Log_debug(rap->log, "Out of space pushing peer withdrawals");
- stateUpdate(rap, ReachabilityAnnouncer_State_MSGFULL);
- } else if (pushPeers(rap, msg)) {
- Log_debug(rap->log, "Out of space pushing peers");
- stateUpdate(rap, ReachabilityAnnouncer_State_MSGFULL);
- } else if (pushLinkState(rap, msg)) {
- Log_debug(rap->log, "Out of space pushing link state");
- stateUpdate(rap, ReachabilityAnnouncer_State_LINKSTATE_FULL);
- } else if (ReachabilityAnnouncer_State_LINKSTATE_FULL == rap->state) {
- rap->state = ReachabilityAnnouncer_State_NORMAL;
- }
- Er_assert(Message_epush(msg, NULL, Announce_Header_SIZE));
- struct Announce_Header* hdr = (struct Announce_Header*) msg->bytes;
- Bits_memset(hdr, 0, Announce_Header_SIZE);
- Announce_Header_setVersion(hdr, Announce_Header_CURRENT_VERSION);
- Announce_Header_setReset(hdr, rap->resetState);
- Assert_true(Announce_Header_isReset(hdr) == rap->resetState);
- Announce_Header_setTimestamp(hdr, snNow);
- Bits_memcpy(hdr->pubSigningKey, rap->pubSigningKey, 32);
- Bits_memcpy(hdr->snodeIp, rap->snode.ip6.bytes, 16);
- Er_assert(Message_epop(msg, NULL, 64));
- Sign_signMsg(rap->signingKeypair, msg, rap->rand);
- Dict* dict = qp->msg = Dict_new(qp->alloc);
- qp->cb = onReply;
- struct Query* q = Allocator_calloc(qp->alloc, sizeof(struct Query), 1);
- Identity_set(q);
- q->rap = rap;
- q->msg = msg;
- Assert_true(AddressCalc_validAddress(rap->snode.ip6.bytes));
- Bits_memcpy(&q->target, &rap->snode, Address_SIZE);
- qp->userData = q;
- qp->target = &q->target;
- Dict_putStringCC(dict, "sq", "ann", qp->alloc);
- String* annString = String_newBinary(msg->bytes, msg->length, qp->alloc);
- Dict_putStringC(dict, "ann", annString, qp->alloc);
- rap->onTheWire = q;
- rap->msgOnWireSentTime = now;
- }
- static void onSnodeChange(struct SupernodeHunter* sh,
- int64_t sendTime,
- int64_t snodeRecvTime)
- {
- struct ReachabilityAnnouncer_pvt* rap =
- Identity_check((struct ReachabilityAnnouncer_pvt*) sh->userData);
- int64_t clockSkew = estimateClockSkew(sendTime, snodeRecvTime, ourTime(rap));
- uint64_t clockSkewDiff = (clockSkew > rap->clockSkew)
- ? (clockSkew - rap->clockSkew)
- : (rap->clockSkew - clockSkew);
- // If the node is the same and the clock skew difference is less than 10 seconds,
- // just change path and continue.
- if (Bits_memcmp(rap->snode.key, sh->snodeAddr.key, 32)) {
- if (Defined(Log_DEBUG)) {
- uint8_t oldSnode[40];
- AddrTools_printIp(oldSnode, rap->snode.ip6.bytes);
- uint8_t newSnode[40];
- AddrTools_printIp(newSnode, sh->snodeAddr.ip6.bytes);
- Log_debug(rap->log, "Change Supernode [%s] -> [%s]", oldSnode, newSnode);
- }
- } else if (clockSkewDiff > 5000) {
- Log_debug(rap->log,
- "Change Supernode (no change but clock skew diff [%" PRIu64 "] > 5000ms)",
- clockSkewDiff);
- } else if (rap->snode.path == sh->snodeAddr.path) {
- Log_debug(rap->log, "Change Supernode (not really, false call)");
- return;
- } else {
- uint8_t oldPath[20];
- uint8_t newPath[20];
- AddrTools_printPath(oldPath, rap->snode.path);
- AddrTools_printPath(newPath, sh->snodeAddr.path);
- Log_debug(rap->log, "Change Supernode path [%s] -> [%s]", oldPath, newPath);
- Bits_memcpy(&rap->snode, &sh->snodeAddr, Address_SIZE);
- return;
- }
- Bits_memcpy(&rap->snode, &sh->snodeAddr, Address_SIZE);
- rap->clockSkew = clockSkew;
- stateReset(rap);
- }
- static struct Announce_ItemHeader* mkEncodingSchemeItem(
- struct Allocator* alloc,
- String* compressedScheme)
- {
- struct Allocator* tmpAlloc = Allocator_child(alloc);
- struct Message* esMsg = Message_new(0, 256, tmpAlloc);
- Assert_true(compressedScheme->len + 2 < 256);
- Er_assert(Message_epush(esMsg, compressedScheme->bytes, compressedScheme->len));
- Er_assert(Message_epush8(esMsg, Announce_Type_ENCODING_SCHEME));
- Er_assert(Message_epush8(esMsg, compressedScheme->len + 2));
- struct Announce_ItemHeader* item = Allocator_calloc(alloc, esMsg->length, 1);
- Bits_memcpy(item, esMsg->bytes, esMsg->length);
- Allocator_free(tmpAlloc);
- return item;
- }
- struct ReachabilityAnnouncer* ReachabilityAnnouncer_new(struct Allocator* allocator,
- struct Log* log,
- struct EventBase* base,
- struct Random* rand,
- struct MsgCore* msgCore,
- struct SupernodeHunter* snh,
- uint8_t* privateKey,
- struct EncodingScheme* myScheme,
- struct ReachabilityCollector* rc)
- {
- struct Allocator* alloc = Allocator_child(allocator);
- struct ReachabilityAnnouncer_pvt* rap =
- Allocator_calloc(alloc, sizeof(struct ReachabilityAnnouncer_pvt), 1);
- Identity_set(rap);
- rap->alloc = alloc;
- rap->log = log;
- rap->base = base;
- rap->msgCore = msgCore;
- rap->announceCycle = Timeout_setInterval(onAnnounceCycle, rap, 1000, base, alloc);
- rap->rand = rand;
- rap->snodeState = ArrayList_OfMessages_new(alloc);
- rap->myScheme = myScheme;
- rap->encodingSchemeStr = EncodingScheme_serialize(myScheme, alloc);
- rap->rc = rc;
- rap->mySchemeItem =
- (struct Announce_ItemHeader*) mkEncodingSchemeItem(alloc, rap->encodingSchemeStr);
- rap->snh = snh;
- snh->onSnodeChange = onSnodeChange;
- snh->userData = rap;
- Sign_signingKeyPairFromCurve25519(rap->signingKeypair, privateKey);
- Sign_publicKeyFromKeyPair(rap->pubSigningKey, rap->signingKeypair);
- return &rap->pub;
- }
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