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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 <http://www.gnu.org/licenses/>.
- */
- #include "benc/String.h"
- #include "dht/Address.h"
- #include "dht/dhtcore/RouterModule.h"
- #include "dht/dhtcore/RouterModule_pvt.h"
- #include "dht/dhtcore/Node.h"
- #include "dht/dhtcore/NodeList.h"
- #include "dht/dhtcore/NodeStore.h"
- #include "dht/dhtcore/VersionList.h"
- #include "dht/CJDHTConstants.h"
- #include "dht/DHTMessage.h"
- #include "dht/DHTModule.h"
- #include "dht/DHTModuleRegistry.h"
- #include "util/log/Log.h"
- #include "memory/Allocator.h"
- #include "switch/LabelSplicer.h"
- #include "switch/NumberCompress.h"
- #include "util/events/EventBase.h"
- #include "util/AverageRoller.h"
- #include "util/Bits.h"
- #include "util/Hex.h"
- #include "util/Endian.h"
- #include "util/Pinger.h"
- #include "util/events/Time.h"
- #include "util/events/Timeout.h"
- #include "util/version/Version.h"
- #include "wire/Message.h"
- /*
- * The router module is the central part of the DHT engine.
- * It's job is to maintain a routing table which is updated by all incoming packets.
- * When it gets an incoming query, its job is to add nodes to the reply so that the asking node
- * can find other nodes which are closer to its target than us.
- *
- * This implementation does not split nodes explicitly into buckets not does it explicitly try to
- * distinguish between "good" and "bad" nodes. Instead it tries to determine which node will help
- * get to the requested record the fastest. Instead of periodicly pinging a random node in each
- * "bucket", this implementation periodically searches for a random[1] hash. When a node is sent a
- * query, the the distance[2] between it and the first node is divided by the amount of time it
- * takes the node to respond, for each successful search, this number is added to an attribute of
- * the node called "reach".
- *
- * Visually representing a node as an area whose location is defined by the node id and its size is
- * defined by the node reach, you can see that there is a possibility for a record to be closer in
- * key space to node2 while is is still further inside of node1's reach thus node1 is a better
- * choice for the next node to ask.
- *
- * |<--------- Node 1 ---------->|
- * |<--- Node 2 ---->|
- * ^----- Desired record location.
- *
- * New nodes are inserted into the table but with a reach of 0. It is up to the search client to
- * send search requests to them so they can prove their validity and have their reach number
- * updated.
- *
- * Reach of a node is incremented by 2 every time the node responds to a query and incremented by 1
- * every time a node sends a query of its own. This has almost no effect except that it means a
- * node which has recently sent data will be preferred over one which has not.
- *
- * When a search is carried out, the next K returned nodes are not necessarily the closest known
- * nodes to the id of the record. The nodes returned will be the nodes with the lowest
- * distance:reach ratio. The distance:reach ratio is calculated by dividing the distance between
- * the node and the record by the node's reach number. Actually it is done by multiplying
- * UINT32_MAX minus the distance by the reach so that it does not need to use slower divison.
- * See: NodeCollector.h
- *
- * Since information about a node becomes stale over time, all reach numbers are decreased by
- * the constant REACH_DECREASE_PER_SECOND times the number of seconds since the last cycle,
- * this operation is performed periodicly every LOCAL_MAINTENANCE_SEARCH_MILLISECONDS unless
- * a local maintainence search is being run which is not often once the network is stable.
- *
- * TODO(cjd): ---
- * In order to have the nodes with least distance:reach ratio ready to handle any incoming search,
- * we precompute the borders where the "best next node" changes. This computation is best understood
- * by graphing the nodes with their location in keyspace on the X axis and their reach on the Y
- * axis. The border between two nodes, nodeA and nodeB is the location where a line drawn from the
- * X axis up to either node location would be the same angle.
- *
- * ^ ^
- * | nodeA | nodeA
- * | |\ | |\__
- * | | \ | | \__
- * | | \ nodeB | | \nodeB
- * | | \ /| | | \__
- * | | \ / | | | | \__
- * | | \/ | | | | \__
- * +---------------------------------------> +--------------------------------------->
- * ^-- border ^-- border2
- *
- * Everything to the left of the border and everything to the right of border2 is to be serviced by
- * nodeA. Everything between the two borders is serviced by nodeB. Border2 is found by
- * drawing a line from the point given for nodeA to through the point given for nodeB and finding
- * the intersection of that line with the Y axis. border and border2 are shown on different graphs
- * only to limit clutter, they are the same nodeA and nodeB.
- *
- * When resolving a search, this implementation will lookup the location of the searched for record
- * and return the nodes which belong to the insides of the nearest K borders, this guarantees return
- * of the nodes whose distance:reach ratio is the lowest for that location.
- * ---
- *
- * This implementation must never respond to a search by sending any node who's id is not closer
- * to the target than its own. Such an event would lead to the possibility of "routing loops" and
- * must be prevented. Searches for which this node has the lowest distance:reach ratio will be
- * replied to with nodes which have 0 reach but are closer than this node or, if there are no such
- * nodes, no nodes at all.
- *
- * The search consumer in this routing module tries to minimize the amount of traffic sent when
- * doing a lookup. To achieve this, it sends a request only to the last node in the search response
- * packet, after the global mean response time has passed without it getting a response, it sends
- * requests to the second to last and so forth, working backward. Nodes which fail to respond in
- * time have their reach immedietly set to zero.
- *
- * The global mean response time is the average amount of time it takes a node to respond to a
- * search query. It is a rolling average over the past 256 seconds.
- *
- * To maximize the quality of service offered by this node this implementation will repeat
- * searches which it handles every number of seconds given by the constant:
- * GLOBAL_MAINTENANCE_SEARCH_MILLISECONDS.
- * Any incoming search with a get_peers request is eligable to be repeated.
- *
- * [1] The implementation runs periodic searches for random hashes but unless the search target
- * is closer in keyspace to this node than it is to any node with non-zero reach, the search
- * is not performed. This means that the node will send out lots of searches when it doesn't
- * know many reliable nodes but it will taper off like a governer as it becomes more
- * integrated in the network. These searches are run every number of milliseconds given
- * by the constant LOCAL_MAINTENANCE_SEARCH_MILLISECONDS.
- *
- * [2] If a response "overshoots" the record requested then it is calculated as if it had undershot
- * by the same amount so as not to provide arbitrage advantage to nodes who return results which
- * are very far away yet very inaccurate. If it overshoots by more than the distance between the
- * node and the searched for location (this should never happen), it is considered to be 0.
- */
- /*--------------------Constants--------------------*/
- /** The number of seconds of time overwhich to calculate the global mean response time. */
- #define GMRT_SECONDS 256
- /**
- * The number to initialize the global mean response time averager with so that it will
- * return sane results early on, this number can be much higher than the expected average.
- */
- #define GMRT_INITAL_MILLISECONDS 5000
- /** The number of nodes which we will keep track of. */
- #define NODE_STORE_SIZE 8192
- /** The number of milliseconds between attempting local maintenance searches. */
- #define LOCAL_MAINTENANCE_SEARCH_MILLISECONDS 1000
- /**
- * The number of milliseconds to pass between global maintainence searches.
- * These are searches for random targets which are used to discover new nodes.
- */
- #define GLOBAL_MAINTENANCE_SEARCH_MILLISECONDS 30000
- #define SEARCH_REPEAT_MILLISECONDS 7500
- /** The number of times the GMRT before pings should be timed out. */
- #define PING_TIMEOUT_GMRT_MULTIPLIER 100
- /** The minimum amount of time before a ping should timeout. */
- #define PING_TIMEOUT_MINIMUM 3000
- /** You are not expected to understand this. */
- #define LINK_STATE_MULTIPLIER 536870
- /** All searches will be killed after this amount of time nomatter how bad the GMRT is. */
- #define MAX_TIMEOUT 10000
- /** Never allow a search to be timed out in less than this number of milliseconds. */
- #define MIN_TIMEOUT 10
- /*--------------------Prototypes--------------------*/
- static int handleIncoming(struct DHTMessage* message, void* vcontext);
- static int handleOutgoing(struct DHTMessage* message, void* vcontext);
- /*--------------------Interface--------------------*/
- /**
- * Register a new RouterModule.
- *
- * @param registry the DHT module registry for signal handling.
- * @param allocator a means to allocate memory.
- * @param myAddress the address for this DHT node.
- * @param nodeStore the place to put the nodes
- * @return the RouterModule.
- */
- struct RouterModule* RouterModule_register(struct DHTModuleRegistry* registry,
- struct Allocator* allocator,
- const uint8_t myAddress[Address_KEY_SIZE],
- struct EventBase* eventBase,
- struct Log* logger,
- struct Random* rand,
- struct NodeStore* nodeStore)
- {
- struct RouterModule* const out = Allocator_calloc(allocator, sizeof(struct RouterModule), 1);
- struct DHTModule* dm = Allocator_clone(allocator, (&(struct DHTModule) {
- .name = "RouterModule",
- .context = out,
- .handleIncoming = handleIncoming,
- .handleOutgoing = handleOutgoing
- }));
- DHTModuleRegistry_register(dm, registry);
- Address_forKey(&out->address, myAddress);
- out->gmrtRoller = AverageRoller_new(GMRT_SECONDS, eventBase, allocator);
- AverageRoller_update(out->gmrtRoller, GMRT_INITAL_MILLISECONDS);
- out->nodeStore = nodeStore;
- out->registry = registry;
- out->eventBase = eventBase;
- out->logger = logger;
- out->allocator = allocator;
- out->rand = rand;
- out->pinger = Pinger_new(eventBase, rand, logger, allocator);
- Identity_set(out);
- return out;
- }
- /**
- * The amount of time to wait before skipping over the first node and trying another in a search.
- * Any node which can't beat this time will have its reach set to 0.
- *
- * @param module this module.
- * @return the timeout time.
- */
- uint64_t RouterModule_searchTimeoutMilliseconds(struct RouterModule* module)
- {
- uint64_t x = (((uint64_t) AverageRoller_getAverage(module->gmrtRoller)) * 4);
- x = x + (Random_uint32(module->rand) % (x | 1)) / 2;
- return (x > MAX_TIMEOUT) ? MAX_TIMEOUT : (x < MIN_TIMEOUT) ? MIN_TIMEOUT : x;
- }
- static inline int sendNodes(struct NodeList* nodeList,
- struct DHTMessage* message,
- struct RouterModule* module,
- uint32_t askerVersion)
- {
- struct DHTMessage* query = message->replyTo;
- String* nodes =
- String_newBinary(NULL, nodeList->size * Address_SERIALIZED_SIZE, message->allocator);
- struct VersionList* versions = VersionList_new(nodeList->size, message->allocator);
- int i = 0;
- for (; i < (int)nodeList->size; i++) {
- // We have to modify the reply in case this node uses a longer label discriminator
- // in our switch than its target address, the target address *must* have the same
- // length or longer.
- struct Address addr;
- Bits_memcpyConst(&addr, &nodeList->nodes[i]->address, sizeof(struct Address));
- addr.path = NumberCompress_getLabelFor(addr.path, query->address->path);
- Address_serialize(&nodes->bytes[i * Address_SERIALIZED_SIZE], &addr);
- versions->versions[i] = nodeList->nodes[i]->address.protocolVersion;
- Assert_ifParanoid(!Bits_isZero(&nodes->bytes[i * Address_SERIALIZED_SIZE],
- Address_SERIALIZED_SIZE));
- }
- nodes->len = i * Address_SERIALIZED_SIZE;
- versions->length = i;
- if (i > 0) {
- Dict_putString(message->asDict, CJDHTConstants_NODES, nodes, message->allocator);
- String* versionsStr = VersionList_stringify(versions, message->allocator);
- Dict_putString(message->asDict,
- CJDHTConstants_NODE_PROTOCOLS,
- versionsStr,
- message->allocator);
- }
- return 0;
- }
- /**
- * Handle an incoming search query.
- * This is setup to handle the outgoing *response* to the query, it should
- * be called from handleOutgoing() and populate the response with nodes.
- *
- * @param message the empty response message to populate.
- * @param replyArgs the arguments dictionary in the response (to be populated).
- * @param module the routing module context.
- * @return 0 as long as the packet should not be stopped (at this point always 0).
- */
- static inline int handleQuery(struct DHTMessage* message,
- struct RouterModule* module)
- {
- struct DHTMessage* query = message->replyTo;
- int64_t* versionPtr = Dict_getInt(query->asDict, CJDHTConstants_PROTOCOL);
- uint32_t version = (versionPtr && *versionPtr <= UINT32_MAX) ? *versionPtr : 0;
- struct NodeList* nodeList = NULL;
- String* queryType = Dict_getString(query->asDict, CJDHTConstants_QUERY);
- if (String_equals(queryType, CJDHTConstants_QUERY_FN)) {
- // get the target
- String* target = Dict_getString(query->asDict, CJDHTConstants_TARGET);
- if (target == NULL || target->len != Address_SEARCH_TARGET_SIZE) {
- return 0;
- }
- struct Address targetAddr = { .path = 0 };
- Bits_memcpyConst(targetAddr.ip6.bytes, target->bytes, Address_SEARCH_TARGET_SIZE);
- // send the closest nodes
- nodeList = NodeStore_getClosestNodes(module->nodeStore,
- &targetAddr,
- RouterModule_K,
- version,
- message->allocator);
- } else if (String_equals(queryType, CJDHTConstants_QUERY_GP)) {
- // get the target
- String* target = Dict_getString(query->asDict, CJDHTConstants_TARGET);
- if (target == NULL || target->len != 8) {
- return 0;
- }
- uint64_t targetPath;
- Bits_memcpyConst(&targetPath, target->bytes, 8);
- targetPath = Endian_bigEndianToHost64(targetPath);
- nodeList =
- NodeStore_getPeers(targetPath, RouterModule_K, message->allocator, module->nodeStore);
- } else if (String_equals(queryType, CJDHTConstants_QUERY_NH)) {
- // get the target
- String* target = Dict_getString(query->asDict, CJDHTConstants_TARGET);
- if (target == NULL || target->len != Address_SEARCH_TARGET_SIZE) {
- return 0;
- }
- struct Node_Two* nn = NodeStore_getBest(module->nodeStore, target->bytes);
- nodeList = Allocator_calloc(message->allocator, sizeof(struct NodeList), 1);
- if (nn) {
- nodeList->size = 1;
- nodeList->nodes = Allocator_calloc(message->allocator, sizeof(char*), 1);
- nodeList->nodes[0] = nn;
- }
- }
- return (nodeList) ? sendNodes(nodeList, message, module, version) : 0;
- }
- /**
- * We handle 2 kinds of packets on the outgoing.
- * 1. our requests
- * 2. our replies to others' requests.
- * Everything is tagged with our address, replies to requests which are not ping requests
- * will also be given a list of nodes.
- */
- static int handleOutgoing(struct DHTMessage* message, void* vcontext)
- {
- struct RouterModule* module = Identity_check((struct RouterModule*) vcontext);
- Dict_putInt(message->asDict,
- CJDHTConstants_PROTOCOL,
- Version_CURRENT_PROTOCOL,
- message->allocator);
- if (message->replyTo != NULL) {
- return handleQuery(message, module);
- }
- return 0;
- }
- struct PingContext
- {
- struct RouterModule_Promise pub;
- /** nonNull if this ping is part of a search. */
- struct SearchContext* search;
- struct RouterModule* router;
- struct Address address;
- /** The internal ping structure */
- struct Pinger_Ping* pp;
- /** A template of the message to be sent. */
- Dict* messageDict;
- Identity
- };
- static void sendMsg(String* txid, void* vpingContext)
- {
- struct PingContext* pc = Identity_check((struct PingContext*) vpingContext);
- // "t":"1234"
- Dict_putString(pc->messageDict, CJDHTConstants_TXID, txid, pc->pp->pingAlloc);
- struct Allocator* temp = Allocator_child(pc->pp->pingAlloc);
- struct Message* msg = Message_new(0, DHTMessage_MAX_SIZE + 512, temp);
- struct DHTMessage* dmesg = Allocator_calloc(temp, sizeof(struct DHTMessage), 1);
- dmesg->binMessage = msg;
- dmesg->address = &pc->address;
- dmesg->asDict = pc->messageDict;
- dmesg->allocator = temp;
- DHTModuleRegistry_handleOutgoing(dmesg, pc->router->registry);
- }
- static void onTimeout(uint32_t milliseconds, struct PingContext* pctx)
- {
- struct Node_Two* n = NodeStore_closestNode(pctx->router->nodeStore, pctx->address.path);
- // Ping timeout -> decrease reach
- if (n && !Bits_memcmp(pctx->address.key, n->address.key, 32)) {
- NodeStore_pathTimeout(pctx->router->nodeStore, pctx->address.path);
- }
- if (pctx->pub.callback) {
- pctx->pub.callback(&pctx->pub, milliseconds, NULL, NULL);
- }
- }
- static uint64_t pingTimeoutMilliseconds(struct RouterModule* module)
- {
- uint64_t out = AverageRoller_getAverage(module->gmrtRoller) * PING_TIMEOUT_GMRT_MULTIPLIER;
- return (out < PING_TIMEOUT_MINIMUM) ? PING_TIMEOUT_MINIMUM : out;
- }
- /**
- * The only type of message we handle on the incoming side is
- * a response to one of our queries.
- */
- static int handleIncoming(struct DHTMessage* message, void* vcontext)
- {
- String* txid = Dict_getString(message->asDict, CJDHTConstants_TXID);
- String* query = Dict_getString(message->asDict, CJDHTConstants_QUERY);
- if (query || !txid) {
- return 0;
- }
- struct RouterModule* module = Identity_check((struct RouterModule*) vcontext);
- // This is retreived below by onResponseOrTimeout()
- module->currentMessage = message;
- Pinger_pongReceived(txid, module->pinger);
- module->currentMessage = NULL;
- return 0;
- }
- // ping or search response came in
- static void onResponseOrTimeout(String* data, uint32_t milliseconds, void* vping)
- {
- struct PingContext* pctx = Identity_check((struct PingContext*) vping);
- if (data == NULL) {
- // This is how Pinger signals a timeout.
- onTimeout(milliseconds, pctx);
- return;
- }
- struct RouterModule* module = pctx->router;
- // Grab out the message which was put here in handleIncoming()
- struct DHTMessage* message = module->currentMessage;
- module->currentMessage = NULL;
- // This should never happen
- if (!Address_isSameIp(&pctx->address, message->address)) {
- #ifdef Log_WARN
- uint8_t expectedAddr[60];
- Address_print(expectedAddr, &pctx->address);
- uint8_t receivedAddr[60];
- Address_print(receivedAddr, message->address);
- Log_warn(module->logger,
- "Got return packet from different address than search was sent!\n"
- "Expected:%s\n"
- " Got:%s\n",
- expectedAddr,
- receivedAddr);
- #endif
- return;
- }
- // update the GMRT
- AverageRoller_update(pctx->router->gmrtRoller, milliseconds);
- /*
- Log_debug(pctx->router->logger,
- "Received response in %u milliseconds, gmrt now %u\n",
- milliseconds,
- AverageRoller_getAverage(pctx->router->gmrtRoller));
- */
- // prevent division by zero
- if (milliseconds == 0) { milliseconds++; }
- struct Node_Two* node = NodeStore_closestNode(module->nodeStore, message->address->path);
- if (node && !Bits_memcmp(node->address.key, message->address->key, 32)) {
- NodeStore_pathResponse(module->nodeStore, message->address->path, milliseconds);
- } else {
- struct Node_Link* link = NodeStore_discoverNode(module->nodeStore,
- message->address,
- message->encodingScheme,
- message->encIndex,
- milliseconds);
- node = (link) ? link->child : NULL;
- }
- // EncodingSchemeModule should have added this node to the store, check it.
- if (!node) {
- #ifdef Log_DEBUG
- uint8_t printedAddr[60];
- Address_print(printedAddr, message->address);
- Log_info(module->logger, "Got message from nonexistant node! [%s]\n", printedAddr);
- #endif
- return;
- }
- #ifdef Log_DEBUG
- String* versionBin = Dict_getString(message->asDict, CJDHTConstants_VERSION);
- if (versionBin && versionBin->len == 20) {
- uint8_t printedAddr[60];
- Address_print(printedAddr, message->address);
- uint8_t versionStr[41];
- Hex_encode(versionStr, 41, (uint8_t*) versionBin->bytes, 20);
- Log_debug(module->logger, "Got pong! [%s] ver[%s]\n", printedAddr, versionStr);
- }
- #endif
- if (pctx->pub.callback) {
- pctx->pub.callback(&pctx->pub, milliseconds, message->address, message->asDict);
- }
- }
- struct RouterModule_Promise* RouterModule_newMessage(struct Address* addr,
- uint32_t timeoutMilliseconds,
- struct RouterModule* module,
- struct Allocator* alloc)
- {
- // sending yourself a ping?
- // Assert_true(Bits_memcmp(addr->key, module->address.key, 32));
- Assert_true(addr->path != 1);
- Assert_ifParanoid(addr->path ==
- EncodingScheme_convertLabel(module->nodeStore->selfNode->encodingScheme,
- addr->path,
- EncodingScheme_convertLabel_convertTo_CANNONICAL));
- if (timeoutMilliseconds == 0) {
- timeoutMilliseconds = pingTimeoutMilliseconds(module);
- }
- struct Pinger_Ping* pp = Pinger_newPing(NULL,
- onResponseOrTimeout,
- sendMsg,
- timeoutMilliseconds,
- alloc,
- module->pinger);
- struct PingContext* pctx = Allocator_clone(pp->pingAlloc, (&(struct PingContext) {
- .pub = {
- .alloc = pp->pingAlloc
- },
- .router = module,
- .pp = pp
- }));
- Identity_set(pctx);
- Bits_memcpyConst(&pctx->address, addr, sizeof(struct Address));
- pp->context = pctx;
- return &pctx->pub;
- }
- void RouterModule_sendMessage(struct RouterModule_Promise* promise, Dict* request)
- {
- struct PingContext* pctx = Identity_check((struct PingContext*)promise);
- pctx->messageDict = request;
- // actual send is triggered asynchronously
- }
- struct RouterModule_Promise* RouterModule_pingNode(struct Address* addr,
- uint32_t timeoutMilliseconds,
- struct RouterModule* module,
- struct Allocator* alloc)
- {
- struct RouterModule_Promise* promise =
- RouterModule_newMessage(addr, timeoutMilliseconds, module, alloc);
- Dict* d = Dict_new(promise->alloc);
- Dict_putString(d, CJDHTConstants_QUERY, CJDHTConstants_QUERY_PING, promise->alloc);
- RouterModule_sendMessage(promise, d);
- #ifdef Log_DEBUG
- uint8_t buff[60];
- Address_print(buff, addr);
- Log_debug(module->logger, "Sending ping [%u] to [%s]",
- ((struct PingContext*)promise)->pp->handle, buff);
- #endif
- Assert_true(addr->path != 0);
- return promise;
- }
- struct RouterModule_Promise* RouterModule_nextHop(struct Address* whoToAsk,
- uint8_t target[16],
- uint32_t timeoutMilliseconds,
- struct RouterModule* module,
- struct Allocator* alloc)
- {
- struct RouterModule_Promise* promise =
- RouterModule_newMessage(whoToAsk, timeoutMilliseconds, module, alloc);
- Dict* d = Dict_new(promise->alloc);
- Dict_putString(d, CJDHTConstants_QUERY, CJDHTConstants_QUERY_NH, promise->alloc);
- String* targetStr = String_newBinary(target, 16, promise->alloc);
- Dict_putString(d, CJDHTConstants_TARGET, targetStr, promise->alloc);
- RouterModule_sendMessage(promise, d);
- return promise;
- }
- struct RouterModule_Promise* RouterModule_findNode(struct Address* whoToAsk,
- uint8_t target[16],
- uint32_t timeoutMilliseconds,
- struct RouterModule* module,
- struct Allocator* alloc)
- {
- struct RouterModule_Promise* promise =
- RouterModule_newMessage(whoToAsk, timeoutMilliseconds, module, alloc);
- Dict* d = Dict_new(promise->alloc);
- Dict_putString(d, CJDHTConstants_QUERY, CJDHTConstants_QUERY_FN, promise->alloc);
- String* targetStr = String_newBinary(target, 16, promise->alloc);
- Dict_putString(d, CJDHTConstants_TARGET, targetStr, promise->alloc);
- RouterModule_sendMessage(promise, d);
- return promise;
- }
- struct RouterModule_Promise* RouterModule_getPeers(struct Address* addr,
- uint64_t nearbyLabel,
- uint32_t timeoutMilliseconds,
- struct RouterModule* module,
- struct Allocator* alloc)
- {
- struct RouterModule_Promise* promise =
- RouterModule_newMessage(addr, timeoutMilliseconds, module, alloc);
- Dict* d = Dict_new(promise->alloc);
- Dict_putString(d, CJDHTConstants_QUERY, CJDHTConstants_QUERY_GP, promise->alloc);
- uint64_t nearbyLabel_be = Endian_hostToBigEndian64(nearbyLabel);
- uint8_t nearbyLabelBytes[8];
- Bits_memcpyConst(nearbyLabelBytes, &nearbyLabel_be, 8);
- String* target = String_newBinary(nearbyLabelBytes, 8, promise->alloc);
- Dict_putString(d, CJDHTConstants_TARGET, target, promise->alloc);
- RouterModule_sendMessage(promise, d);
- return promise;
- }
- struct Node_Two* RouterModule_nodeForPath(uint64_t path, struct RouterModule* module)
- {
- struct Node_Link* link = NodeStore_linkForPath(module->nodeStore, path);
- if (!link) { return NULL; }
- return link->child;
- }
- /*void RouterModule_brokenPath(const uint64_t path, struct RouterModule* module)
- {
- NodeStore_brokenPath(path, module->nodeStore);
- }*/
- uint32_t RouterModule_globalMeanResponseTime(struct RouterModule* module)
- {
- return (uint32_t) AverageRoller_getAverage(module->gmrtRoller);
- }
- void RouterModule_peerIsReachable(uint64_t pathToPeer,
- uint64_t lagMilliseconds,
- struct RouterModule* module)
- {
- Assert_ifParanoid(EncodingScheme_isOneHop(module->nodeStore->selfNode->encodingScheme,
- pathToPeer));
- struct Node_Two* nn = RouterModule_nodeForPath(pathToPeer, module);
- for (struct Node_Link* peerLink = nn->reversePeers; peerLink; peerLink = peerLink->nextPeer) {
- if (peerLink->parent != module->nodeStore->selfNode) { continue; }
- if (peerLink->cannonicalLabel != pathToPeer) { continue; }
- struct Address address = { .path = 0 };
- Bits_memcpyConst(&address, &nn->address, sizeof(struct Address));
- address.path = pathToPeer;
- NodeStore_discoverNode(module->nodeStore,
- &address,
- nn->encodingScheme,
- peerLink->inverseLinkEncodingFormNumber,
- lagMilliseconds);
- return;
- }
- Assert_true(0);
- }
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