Exemplo n.º 1
0
static void adminInterfaces(Dict* args,
                            void* vcontext,
                            String* txid,
                            struct Allocator* alloc)
{
    struct Context* context = Identity_check((struct Context*)vcontext);

    int64_t* page = Dict_getIntC(args, "page");
    int i = (page) ? *page * ENTRIES_PER_PAGE : 0;

    int count = InterfaceController_ifaceCount(context->ic);
    //int count = InterfaceController_getIface(context->ic, alloc, &stats);

    List* list = List_new(alloc);
    for (int counter = 0; i < count && counter++ < ENTRIES_PER_PAGE; i++) {
        struct InterfaceController_Iface* iface = InterfaceController_getIface(context->ic, i);
        Dict* d = Dict_new(alloc);
        Dict_putIntC(d, "ifNum", iface->ifNum, alloc);
        Dict_putStringC(d, "name", iface->name, alloc);
        char* bs = InterfaceController_beaconStateString(iface->beaconState);
        Dict_putStringCC(d, "beaconState", bs, alloc);
        List_addDict(list, d, alloc);
    }

    Dict* resp = Dict_new(alloc);
    Dict_putListC(resp, "ifaces", list, alloc);
    Dict_putIntC(resp, "total", count, alloc);
    if (i < count) { Dict_putIntC(resp, "more", 1, alloc); }
    Admin_sendMessage(resp, txid, context->admin);
}
Exemplo n.º 2
0
static void adminPeerStats(Dict* args, void* vcontext, String* txid)
{
    struct Context* context = vcontext;
    struct Allocator* alloc = Allocator_child(context->alloc);
    struct InterfaceController_peerStats* stats = NULL;

    int64_t* page = Dict_getInt(args, String_CONST("page"));
    int i = (page) ? *page * ENTRIES_PER_PAGE : 0;

    int count = context->ic->getPeerStats(context->ic, alloc, &stats);

    String* bytesIn = String_CONST("bytesIn");
    String* bytesOut = String_CONST("bytesOut");
    String* pubKey = String_CONST("publicKey");
    String* state = String_CONST("state");
    String* last = String_CONST("last");
    String* switchLabel = String_CONST("switchLabel");
    String* isIncoming = String_CONST("isIncoming");

    List* list = NULL;
    for (int counter=0; i < count && counter++ < ENTRIES_PER_PAGE; i++) {
        Dict* d = Dict_new(alloc);
        Dict_putInt(d, bytesIn, stats[i].bytesIn, alloc);
        Dict_putInt(d, bytesOut, stats[i].bytesOut, alloc);
        Dict_putString(d, pubKey, Key_stringify(stats[i].pubKey, alloc), alloc);

        String* stateString = String_new(InterfaceController_stateString(stats[i].state), alloc);
        Dict_putString(d, state, stateString, alloc);

        Dict_putInt(d, last, stats[i].timeOfLastMessage, alloc);

        uint8_t labelStack[20];
        AddrTools_printPath(labelStack, stats[i].switchLabel);
        Dict_putString(d, switchLabel, String_new((char*)labelStack, alloc), alloc);

        Dict_putInt(d, isIncoming, stats[i].isIncomingConnection, alloc);

        list = List_addDict(list, d, alloc);
    }

    Dict response = Dict_CONST(
        String_CONST("peers"), List_OBJ(list), Dict_CONST(
        String_CONST("total"), Int_OBJ(count), NULL
    ));

    if (i < count) {
      response = Dict_CONST(
        String_CONST("more"), Int_OBJ(1), response
      );
    }

    Admin_sendMessage(&response, txid, context->admin);

    Allocator_free(alloc);
}
Exemplo n.º 3
0
static void dumpTable(Dict* args, void* vcontext, String* txid, struct Allocator* requestAlloc)
{
    struct Context* ctx = Identity_check((struct Context*) vcontext);
    int64_t* page = Dict_getInt(args, String_CONST("page"));
    int ctr = (page) ? *page * ENTRIES_PER_PAGE : 0;

    Dict* out = Dict_new(requestAlloc);
    List* table = List_new(requestAlloc);
    struct Node_Two* nn = NULL;
    for (int i = 0; i < ctr+ENTRIES_PER_PAGE; i++) {
        nn = NodeStore_getNextNode(ctx->store, nn);
        if (!nn) { break; }
        if (i < ctr) { continue; }
        Dict* nodeDict = Dict_new(requestAlloc);

        String* ip = String_newBinary(NULL, 39, requestAlloc);
        Address_printIp(ip->bytes, &nn->address);
        Dict_putString(nodeDict, String_CONST("ip"), ip, requestAlloc);

        String* addr = Address_toString(&nn->address, requestAlloc);
        Dict_putString(nodeDict, String_CONST("addr"), addr, requestAlloc);

        String* path = String_newBinary(NULL, 19, requestAlloc);
        AddrTools_printPath(path->bytes, nn->address.path);
        Dict_putString(nodeDict, String_CONST("path"), path, requestAlloc);

        Dict_putInt(nodeDict, String_CONST("link"), Node_getCost(nn), requestAlloc);
        Dict_putInt(nodeDict, String_CONST("version"), nn->address.protocolVersion, requestAlloc);

        Dict_putInt(nodeDict,
                    String_CONST("time"),
                    NodeStore_timeSinceLastPing(ctx->store, nn),
                    requestAlloc);

        Dict_putInt(nodeDict,
                    String_CONST("bucket"),
                    NodeStore_bucketForAddr(ctx->store->selfAddress, &nn->address),
                    requestAlloc);

        List_addDict(table, nodeDict, requestAlloc);
    }
    Dict_putList(out, String_CONST("routingTable"), table, requestAlloc);

    if (nn) {
        Dict_putInt(out, String_CONST("more"), 1, requestAlloc);
    }
    Dict_putInt(out, String_CONST("count"), ctx->store->nodeCount, requestAlloc);
    Dict_putInt(out, String_CONST("peers"), ctx->store->peerCount, requestAlloc);

    Dict_putString(out, String_CONST("deprecation"),
        String_CONST("ip,path,version will soon be removed"), requestAlloc);

    Admin_sendMessage(out, txid, ctx->admin);
}
Exemplo n.º 4
0
static void adminPeerStats(Dict* args, void* vcontext, String* txid, struct Allocator* alloc)
{
    struct Context* context = Identity_check((struct Context*)vcontext);
    struct InterfaceController_PeerStats* stats = NULL;

    int64_t* page = Dict_getIntC(args, "page");
    int i = (page) ? *page * ENTRIES_PER_PAGE : 0;

    int count = InterfaceController_getPeerStats(context->ic, alloc, &stats);

    List* list = List_new(alloc);
    for (int counter=0; i < count && counter++ < ENTRIES_PER_PAGE; i++) {
        Dict* d = Dict_new(alloc);
        Dict_putIntC(d, "bytesIn", stats[i].bytesIn, alloc);
        Dict_putIntC(d, "bytesOut", stats[i].bytesOut, alloc);

        Dict_putIntC(d, "recvKbps", stats[i].recvKbps, alloc);
        Dict_putIntC(d, "sendKbps", stats[i].sendKbps, alloc);

        Dict_putStringC(d, "addr", Address_toString(&stats[i].addr, alloc), alloc);

        String* stateString = String_new(InterfaceController_stateString(stats[i].state), alloc);
        Dict_putStringC(d, "state", stateString, alloc);

        Dict_putIntC(d, "last", stats[i].timeOfLastMessage, alloc);

        Dict_putIntC(d, "isIncoming", stats[i].isIncomingConnection, alloc);
        Dict_putIntC(d, "duplicates", stats[i].duplicates, alloc);
        Dict_putIntC(d, "lostPackets", stats[i].lostPackets, alloc);
        Dict_putIntC(d, "receivedOutOfRange", stats[i].receivedOutOfRange, alloc);

        if (stats[i].user) {
            Dict_putStringC(d, "user", stats[i].user, alloc);
        }

        List_addDict(list, d, alloc);
    }

    Dict* resp = Dict_new(alloc);
    Dict_putListC(resp, "peers", list, alloc);
    Dict_putIntC(resp, "total", count, alloc);

    if (i < count) {
        Dict_putIntC(resp, "more", 1, alloc);
    }

    Admin_sendMessage(resp, txid, context->admin);
}
Exemplo n.º 5
0
List* EncodingScheme_asList(struct EncodingScheme* list, struct Allocator* alloc)
{
    Assert_true(EncodingScheme_isSane(list));
    String* prefixLen = String_new("prefixLen", alloc);
    String* bitCount = String_new("bitCount", alloc);
    String* prefix = String_new("prefix", alloc);
    List* scheme = NULL;
    for (int i = 0; i < (int)list->count; i++) {
        Dict* form = Dict_new(alloc);
        Dict_putInt(form, prefixLen, list->forms[i].prefixLen, alloc);
        Dict_putInt(form, bitCount, list->forms[i].bitCount, alloc);
        String* pfx = String_newBinary(NULL, 8, alloc);
        uint32_t prefix_be = Endian_hostToBigEndian32(list->forms[i].prefix);
        Hex_encode(pfx->bytes, 8, (uint8_t*)&prefix_be, 4);
        Dict_putString(form, prefix, pfx, alloc);
        scheme = List_addDict(scheme, form, alloc);
    }
    return scheme;
}
Exemplo n.º 6
0
static void ethInterface(Dict* config, struct Context* ctx)
{
    List* ifaces = Dict_getList(config, String_CONST("ETHInterface"));
    if (!ifaces) {
        ifaces = List_new(ctx->alloc);
        List_addDict(ifaces, Dict_getDict(config, String_CONST("ETHInterface")), ctx->alloc);
    }

    uint32_t count = List_size(ifaces);

    for (uint32_t i = 0; i < count; i++) {
        Dict *eth = List_getDict(ifaces, i);
        if (!eth) { continue; }
        String* deviceStr = Dict_getString(eth, String_CONST("bind"));
        if (!deviceStr || !String_equals(String_CONST("all"), deviceStr)) { continue; }
        Log_info(ctx->logger, "Setting up all ETHInterfaces...");
        Dict* res = NULL;
        Dict* d = Dict_new(ctx->alloc);
        if (rpcCall0(String_CONST("ETHInterface_listDevices"), d, ctx, ctx->alloc, &res, false)) {
            Log_info(ctx->logger, "Getting device list failed");
            break;
        }
        List* devs = Dict_getList(res, String_CONST("devices"));
        uint32_t devCount = List_size(devs);
        for (uint32_t j = 0; j < devCount; j++) {
            Dict* d = Dict_new(ctx->alloc);
            String* deviceName = List_getString(devs, j);
            // skip loopback...
            if (String_equals(String_CONST("lo"), deviceName)) { continue; }
            Dict_putString(d, String_CONST("bindDevice"), deviceName, ctx->alloc);
            Dict* resp;
            Log_info(ctx->logger, "Creating new ETHInterface [%s]", deviceName->bytes);
            if (rpcCall0(String_CONST("ETHInterface_new"), d, ctx, ctx->alloc, &resp, false)) {
                Log_warn(ctx->logger, "Failed to create ETHInterface.");
                continue;
            }
            int ifNum = *(Dict_getInt(resp, String_CONST("interfaceNumber")));
            ethInterfaceSetBeacon(ifNum, eth, ctx);
        }
        return;
    }

    for (uint32_t i = 0; i < count; i++) {
        Dict *eth = List_getDict(ifaces, i);
        if (!eth) { continue; }
        // Setup the interface.
        String* deviceStr = Dict_getString(eth, String_CONST("bind"));
        Log_info(ctx->logger, "Setting up ETHInterface [%d].", i);
        Dict* d = Dict_new(ctx->alloc);
        if (deviceStr) {
            Log_info(ctx->logger, "Binding to device [%s].", deviceStr->bytes);
            Dict_putString(d, String_CONST("bindDevice"), deviceStr, ctx->alloc);
        }
        Dict* resp = NULL;
        if (rpcCall0(String_CONST("ETHInterface_new"), d, ctx, ctx->alloc, &resp, false)) {
            Log_warn(ctx->logger, "Failed to create ETHInterface.");
            continue;
        }
        int ifNum = *(Dict_getInt(resp, String_CONST("interfaceNumber")));
        ethInterfaceSetBeacon(ifNum, eth, ctx);

        // Make the connections.
        Dict* connectTo = Dict_getDict(eth, String_CONST("connectTo"));
        if (connectTo) {
            Log_info(ctx->logger, "ETHInterface should connect to a specific node.");
            struct Dict_Entry* entry = *connectTo;
            while (entry != NULL) {
                String* key = (String*) entry->key;
                if (entry->val->type != Object_DICT) {
                    Log_critical(ctx->logger, "interfaces.ETHInterface.connectTo: entry [%s] "
                                               "is not a dictionary type.", key->bytes);
                    exit(-1);
                }
                Dict* value = entry->val->as.dictionary;

                Log_keys(ctx->logger, "Attempting to connect to node [%s].", key->bytes);

                struct Allocator* perCallAlloc = Allocator_child(ctx->alloc);
                // Turn the dict from the config into our RPC args dict by filling in all
                // the arguments,
                Dict_putString(value, String_CONST("macAddress"), key, perCallAlloc);
                Dict_putInt(value, String_CONST("interfaceNumber"), ifNum, perCallAlloc);
                rpcCall(String_CONST("ETHInterface_beginConnection"), value, ctx, perCallAlloc);
                Allocator_free(perCallAlloc);

                entry = entry->next;
            }
        }
    }
}
Exemplo n.º 7
0
static void udpInterface(Dict* config, struct Context* ctx)
{
    List* ifaces = Dict_getList(config, String_CONST("UDPInterface"));
    if (!ifaces) {
        ifaces = List_new(ctx->alloc);
        List_addDict(ifaces, Dict_getDict(config, String_CONST("UDPInterface")), ctx->alloc);
    }

    uint32_t count = List_size(ifaces);
    for (uint32_t i = 0; i < count; i++) {
        Dict *udp = List_getDict(ifaces, i);
        if (!udp) {
            continue;
        }
        // Setup the interface.
        String* bindStr = Dict_getString(udp, String_CONST("bind"));
        Dict* d = Dict_new(ctx->alloc);
        if (bindStr) {
            Dict_putString(d, String_CONST("bindAddress"), bindStr, ctx->alloc);
        }
        Dict* resp = NULL;
        rpcCall0(String_CONST("UDPInterface_new"), d, ctx, ctx->alloc, &resp, true);
        int ifNum = *(Dict_getInt(resp, String_CONST("interfaceNumber")));

        // Make the connections.
        Dict* connectTo = Dict_getDict(udp, String_CONST("connectTo"));
        if (connectTo) {
            struct Dict_Entry* entry = *connectTo;
            struct Allocator* perCallAlloc = Allocator_child(ctx->alloc);
            while (entry != NULL) {
                String* key = (String*) entry->key;
                if (entry->val->type != Object_DICT) {
                    Log_critical(ctx->logger, "interfaces.UDPInterface.connectTo: entry [%s] "
                                               "is not a dictionary type.", key->bytes);
                    exit(-1);
                }
                Dict* all =  entry->val->as.dictionary;
                Dict* value = Dict_new(perCallAlloc);
                String* pub_d = Dict_getString(all, String_CONST("publicKey"));
                String* pss_d = Dict_getString(all, String_CONST("password"));
                String* peerName_d = Dict_getString(all, String_CONST("peerName"));
                String* login_d = Dict_getString(all, String_CONST("login"));

                if ( !pub_d || !pss_d ) {
                    const char * error_name = "(unknown)";
                    if ( !pub_d ) {
                        error_name = "publicKey";
                    }
                    if ( !pss_d ) {
                        error_name = "password";
                    }
                    Log_warn(ctx->logger,
                        "Skipping peer: missing %s for peer [%s]", error_name, key->bytes);
                    if (abort_if_invalid_ref) {
                        Assert_failure("Invalid peer reference");
                    }
                    else {
                        entry = entry->next;
                        continue;
                    }
                }

                Dict_putString(value, String_CONST("publicKey"), pub_d, perCallAlloc);
                Dict_putString(value, String_CONST("password"), pss_d, perCallAlloc);
                Dict_putString(value, String_CONST("peerName"), peerName_d, perCallAlloc);
                Dict_putString(value, String_CONST("login"), login_d, perCallAlloc);

                Log_keys(ctx->logger, "Attempting to connect to node [%s].", key->bytes);
                key = String_clone(key, perCallAlloc);
                char* lastColon = CString_strrchr(key->bytes, ':');

                if (!Sockaddr_parse(key->bytes, NULL)) {
                    // it's a sockaddr, fall through
                } else if (lastColon) {
                    // try it as a hostname.
                    int port = atoi(lastColon+1);
                    if (!port) {
                        Log_critical(ctx->logger, "Couldn't get port number from [%s]", key->bytes);
                        exit(-1);
                    }
                    *lastColon = '\0';
                    struct Sockaddr* adr = Sockaddr_fromName(key->bytes, perCallAlloc);
                    if (adr != NULL) {
                        Sockaddr_setPort(adr, port);
                        key = String_new(Sockaddr_print(adr, perCallAlloc), perCallAlloc);
                    } else {
                        Log_warn(ctx->logger, "Failed to lookup hostname [%s]", key->bytes);
                        entry = entry->next;
                        continue;
                    }
                }
                struct Allocator* child = Allocator_child(ctx->alloc);
                struct Message* msg = Message_new(0, AdminClient_MAX_MESSAGE_SIZE + 256, child);
                int r = BencMessageWriter_writeDictTry(value, msg, NULL);

                const int max_reference_size = 298;
                if (r != 0 || msg->length > max_reference_size) {
                    Log_warn(ctx->logger, "Peer skipped:");
                    Log_warn(ctx->logger, "Too long peer reference for [%s]", key->bytes);
                    if (abort_if_invalid_ref) {
                        Assert_failure("Invalid peer reference");
                    }
                    else {
                        entry = entry->next;
                        continue;
                    }
                }
                Dict_putInt(value, String_CONST("interfaceNumber"), ifNum, perCallAlloc);
                Dict_putString(value, String_CONST("address"), key, perCallAlloc);
                rpcCall(String_CONST("UDPInterface_beginConnection"), value, ctx, perCallAlloc);
                entry = entry->next;
            }
            Allocator_free(perCallAlloc);
        }
    }
}
Exemplo n.º 8
0
static void adminPeerStats(Dict* args, void* vcontext, String* txid, struct Allocator* alloc)
{
    struct Context* context = Identity_check((struct Context*)vcontext);
    struct InterfaceController_PeerStats* stats = NULL;

    int64_t* page = Dict_getInt(args, String_CONST("page"));
    int i = (page) ? *page * ENTRIES_PER_PAGE : 0;

    int count = InterfaceController_getPeerStats(context->ic, alloc, &stats);

    String* bytesIn = String_CONST("bytesIn");
    String* bytesOut = String_CONST("bytesOut");
    String* pubKey = String_CONST("publicKey");
    String* addr = String_CONST("addr");
    String* state = String_CONST("state");
    String* last = String_CONST("last");
    String* switchLabel = String_CONST("switchLabel");
    String* isIncoming = String_CONST("isIncoming");
    String* user = String_CONST("user");
    String* version = String_CONST("version");

    String* duplicates = String_CONST("duplicates");
    String* lostPackets = String_CONST("lostPackets");
    String* receivedOutOfRange = String_CONST("receivedOutOfRange");

    List* list = List_new(alloc);
    for (int counter=0; i < count && counter++ < ENTRIES_PER_PAGE; i++) {
        Dict* d = Dict_new(alloc);
        Dict_putInt(d, bytesIn, stats[i].bytesIn, alloc);
        Dict_putInt(d, bytesOut, stats[i].bytesOut, alloc);
        Dict_putString(d, addr, Address_toString(&stats[i].addr, alloc), alloc);
        Dict_putString(d, pubKey, Key_stringify(stats[i].addr.key, alloc), alloc);

        String* stateString = String_new(InterfaceController_stateString(stats[i].state), alloc);
        Dict_putString(d, state, stateString, alloc);

        Dict_putInt(d, last, stats[i].timeOfLastMessage, alloc);

        uint8_t labelStack[20];
        AddrTools_printPath(labelStack, stats[i].addr.path);
        Dict_putString(d, switchLabel, String_new((char*)labelStack, alloc), alloc);

        Dict_putInt(d, isIncoming, stats[i].isIncomingConnection, alloc);
        Dict_putInt(d, duplicates, stats[i].duplicates, alloc);
        Dict_putInt(d, lostPackets, stats[i].lostPackets, alloc);
        Dict_putInt(d, receivedOutOfRange, stats[i].receivedOutOfRange, alloc);

        if (stats[i].user) {
            Dict_putString(d, user, stats[i].user, alloc);
        }

        uint8_t address[16];
        AddressCalc_addressForPublicKey(address, stats[i].addr.key);
        Dict_putInt(d, version, stats[i].addr.protocolVersion, alloc);

        List_addDict(list, d, alloc);
    }

    Dict* resp = Dict_new(alloc);
    Dict_putList(resp, String_CONST("peers"), list, alloc);
    Dict_putInt(resp, String_CONST("total"), count, alloc);

    if (i < count) {
        Dict_putInt(resp, String_CONST("more"), 1, alloc);
    }

    Dict_putString(resp, String_CONST("deprecation"),
        String_CONST("publicKey,switchLabel,version will soon be removed"), alloc);

    Admin_sendMessage(resp, txid, context->admin);
}
Exemplo n.º 9
0
static void udpInterface(Dict* config, struct Context* ctx)
{
    List* ifaces = Dict_getList(config, String_CONST("UDPInterface"));
    if (!ifaces) {
        ifaces = List_new(ctx->alloc);
        List_addDict(ifaces, Dict_getDict(config, String_CONST("UDPInterface")), ctx->alloc);
    }

    uint32_t count = List_size(ifaces);
    for (uint32_t i = 0; i < count; i++) {
        Dict *udp = List_getDict(ifaces, i);
        if (!udp) {
            continue;
        }
        // Setup the interface.
        String* bindStr = Dict_getString(udp, String_CONST("bind"));
        Dict* d = Dict_new(ctx->alloc);
        if (bindStr) {
            Dict_putString(d, String_CONST("bindAddress"), bindStr, ctx->alloc);
        }
        Dict* resp = NULL;
        rpcCall0(String_CONST("UDPInterface_new"), d, ctx, ctx->alloc, &resp, true);
        int ifNum = *(Dict_getInt(resp, String_CONST("interfaceNumber")));

        // Make the connections.
        Dict* connectTo = Dict_getDict(udp, String_CONST("connectTo"));
        if (connectTo) {
            struct Dict_Entry* entry = *connectTo;
            struct Allocator* perCallAlloc = Allocator_child(ctx->alloc);
            while (entry != NULL) {
                String* key = (String*) entry->key;
                if (entry->val->type != Object_DICT) {
                    Log_critical(ctx->logger, "interfaces.UDPInterface.connectTo: entry [%s] "
                                 "is not a dictionary type.", key->bytes);
                    exit(-1);
                }
                Dict* value = entry->val->as.dictionary;
                Log_keys(ctx->logger, "Attempting to connect to node [%s].", key->bytes);
                key = String_clone(key, perCallAlloc);
                char* lastColon = CString_strrchr(key->bytes, ':');

                if (!Sockaddr_parse(key->bytes, NULL)) {
                    // it's a sockaddr, fall through
                } else if (lastColon) {
                    // try it as a hostname.
                    Log_critical(ctx->logger, "Couldn't add connection [%s], "
                                 "hostnames aren't supported.", key->bytes);
                    exit(-1);
                }
                Dict_putInt(value, String_CONST("interfaceNumber"), ifNum, perCallAlloc);
                Dict_putString(value, String_CONST("address"), key, perCallAlloc);
                rpcCall(String_CONST("UDPInterface_beginConnection"), value, ctx, perCallAlloc);

                // Make a IPTunnel exception for this node
                Dict* aed = Dict_new(perCallAlloc);
                *lastColon = '\0';
                Dict_putString(aed, String_CONST("route"), String_new(key->bytes, perCallAlloc),
                               perCallAlloc);
                *lastColon = ':';
                rpcCall(String_CONST("RouteGen_addException"), aed, ctx, perCallAlloc);

                entry = entry->next;
            }
            Allocator_free(perCallAlloc);
        }
    }
}
Exemplo n.º 10
0
static void ethInterface(Dict* config, struct Context* ctx)
{
    List* ifaces = Dict_getList(config, String_CONST("ETHInterface"));
    if (!ifaces) {
        ifaces = List_addDict(ifaces,
                              Dict_getDict(config, String_CONST("ETHInterface")), ctx->alloc);
    }

    uint32_t count = List_size(ifaces);
    for (uint32_t i = 0; i < count; i++) {
        Dict *eth = List_getDict(ifaces, i);
        if (!eth) {
            continue;
        }
        // Setup the interface.
        String* deviceStr = Dict_getString(eth, String_CONST("bind"));
        Log_info(ctx->logger, "Setting up ETHInterface [%d].", i);
        Dict* d = Dict_new(ctx->alloc);
        if (deviceStr) {
            Log_info(ctx->logger, "Binding to device [%s].", deviceStr->bytes);
            Dict_putString(d, String_CONST("bindDevice"), deviceStr, ctx->alloc);
        }
        if (rpcCall0(String_CONST("ETHInterface_new"), d, ctx, ctx->alloc, false)) {
            Log_warn(ctx->logger, "Failed to create ETHInterface.");
            continue;
        }

        // Make the connections.
        Dict* connectTo = Dict_getDict(eth, String_CONST("connectTo"));
        if (connectTo) {
            Log_info(ctx->logger, "ETHInterface should connect to a specific node.");
            struct Dict_Entry* entry = *connectTo;
            while (entry != NULL) {
                String* key = (String*) entry->key;
                if (entry->val->type != Object_DICT) {
                    Log_critical(ctx->logger, "interfaces.ETHInterface.connectTo: entry [%s] "
                                               "is not a dictionary type.", key->bytes);
                    exit(-1);
                }
                Dict* value = entry->val->as.dictionary;

                Log_keys(ctx->logger, "Attempting to connect to node [%s].", key->bytes);

                struct Allocator* perCallAlloc = Allocator_child(ctx->alloc);
                // Turn the dict from the config into our RPC args dict by filling in all
                // the arguments,
                Dict_putString(value, String_CONST("macAddress"), key, perCallAlloc);
                Dict_putInt(value, String_CONST("interfaceNumber"), i, perCallAlloc);
                rpcCall(String_CONST("ETHInterface_beginConnection"), value, ctx, perCallAlloc);
                Allocator_free(perCallAlloc);

                entry = entry->next;
            }
        }

        int64_t* beaconP = Dict_getInt(eth, String_CONST("beacon"));
        if (beaconP) {
            int64_t beacon = *beaconP;
            if (beacon > 3 || beacon < 0) {
                Log_error(ctx->logger, "interfaces.ETHInterface.beacon may only be 0, 1,or 2");
            } else {
                // We can cast beacon to an int here because we know it's small enough
                Log_info(ctx->logger, "Setting beacon mode on ETHInterface to [%d].", (int) beacon);
                Dict d = Dict_CONST(String_CONST("interfaceNumber"), Int_OBJ(i),
                         Dict_CONST(String_CONST("state"), Int_OBJ(beacon), NULL));
                rpcCall(String_CONST("ETHInterface_beacon"), &d, ctx, ctx->alloc);
            }
        }
    }
}
Exemplo n.º 11
0
static void udpInterface(Dict* config, struct Context* ctx)
{
    List* ifaces = Dict_getList(config, String_CONST("UDPInterface"));
    if (!ifaces) {
        ifaces = List_addDict(ifaces,
                Dict_getDict(config, String_CONST("UDPInterface")), ctx->alloc);
    }

    uint32_t count = List_size(ifaces);
    for (uint32_t i = 0; i < count; i++) {
        Dict *udp = List_getDict(ifaces, i);
        if (!udp) {
            continue;
        }
        // Setup the interface.
        String* bindStr = Dict_getString(udp, String_CONST("bind"));
        Dict* d = Dict_new(ctx->alloc);
        if (bindStr) {
            Dict_putString(d, String_CONST("bindAddress"), bindStr, ctx->alloc);
        }
        rpcCall(String_CONST("UDPInterface_new"), d, ctx, ctx->alloc);

        // Make the connections.
        Dict* connectTo = Dict_getDict(udp, String_CONST("connectTo"));
        if (connectTo) {
            struct Dict_Entry* entry = *connectTo;
            struct Allocator* perCallAlloc = Allocator_child(ctx->alloc);
            while (entry != NULL) {
                String* key = (String*) entry->key;
                if (entry->val->type != Object_DICT) {
                    Log_critical(ctx->logger, "interfaces.UDPInterface.connectTo: entry [%s] "
                                               "is not a dictionary type.", key->bytes);
                    exit(-1);
                }
                Dict* value = entry->val->as.dictionary;
                Log_keys(ctx->logger, "Attempting to connect to node [%s].", key->bytes);
                key = String_clone(key, perCallAlloc);
                char* lastColon = strrchr(key->bytes, ':');

                if (!Sockaddr_parse(key->bytes, NULL)) {
                    // it's a sockaddr, fall through
                } else if (lastColon) {
                    // try it as a hostname.
                    int port = atoi(lastColon+1);
                    if (!port) {
                        Log_critical(ctx->logger, "Couldn't get port number from [%s]", key->bytes);
                        exit(-1);
                    }
                    *lastColon = '\0';
                    struct Sockaddr* adr = Sockaddr_fromName(key->bytes, perCallAlloc);
                    if (adr != NULL) {
                        Sockaddr_setPort(adr, port);
                        key = String_new(Sockaddr_print(adr, perCallAlloc), perCallAlloc);
                    } else {
                        Log_warn(ctx->logger, "Failed to lookup hostname [%s]", key->bytes);
                        entry = entry->next;
                        continue;
                    }
                }
                Dict_putString(value, String_CONST("address"), key, perCallAlloc);
                rpcCall(String_CONST("UDPInterface_beginConnection"), value, ctx, perCallAlloc);
                entry = entry->next;
            }
            Allocator_free(perCallAlloc);
        }
    }
}
Exemplo n.º 12
0
static void adminPeerStats(Dict* args, void* vcontext, String* txid, struct Allocator* alloc)
{
    struct Context* context = Identity_check((struct Context*)vcontext);
    struct InterfaceController_PeerStats* stats = NULL;

    int64_t* page = Dict_getIntC(args, "page");
    int i = (page) ? *page * ENTRIES_PER_PAGE : 0;

    int count = InterfaceController_getPeerStats(context->ic, alloc, &stats);

    List* list = List_new(alloc);
    for (int counter=0; i < count && counter++ < ENTRIES_PER_PAGE; i++) {
        Dict* d = Dict_new(alloc);
        Dict_putIntC(d, "bytesIn", stats[i].bytesIn, alloc);
        Dict_putIntC(d, "bytesOut", stats[i].bytesOut, alloc);

        Dict_putIntC(d, "recvKbps", stats[i].recvKbps, alloc);
        Dict_putIntC(d, "sendKbps", stats[i].sendKbps, alloc);

        Dict_putStringC(d, "addr", Address_toString(&stats[i].addr, alloc), alloc);

        String* lladdrString;
#ifdef HAS_ETH_INTERFACE
        if (ETHInterface_Sockaddr_SIZE == stats[i].lladdr->addrLen) {
            struct ETHInterface_Sockaddr* eth = (struct ETHInterface_Sockaddr*) stats[i].lladdr;
            uint8_t printedMac[18];
            AddrTools_printMac(printedMac, eth->mac);
            lladdrString = String_new(printedMac, alloc);
        } else {
            lladdrString = String_new(Sockaddr_print(stats[i].lladdr, alloc), alloc);
        }
#else
        lladdrString = String_new(Sockaddr_print(stats[i].lladdr, alloc), alloc);
#endif
        Dict_putStringC(d, "lladdr", lladdrString, alloc);

        String* stateString = String_new(InterfaceController_stateString(stats[i].state), alloc);
        Dict_putStringC(d, "state", stateString, alloc);

        Dict_putIntC(d, "last", stats[i].timeOfLastMessage, alloc);

        Dict_putIntC(d, "isIncoming", stats[i].isIncomingConnection, alloc);
        Dict_putIntC(d, "duplicates", stats[i].duplicates, alloc);
        Dict_putIntC(d, "lostPackets", stats[i].lostPackets, alloc);
        Dict_putIntC(d, "receivedOutOfRange", stats[i].receivedOutOfRange, alloc);

        Dict_putIntC(d, "ifNum", stats[i].ifNum, alloc);

        if (stats[i].user) {
            Dict_putStringC(d, "user", stats[i].user, alloc);
        }

        Dict_putIntC(d, "receivedPackets", stats[i].receivedPackets, alloc);

        List_addDict(list, d, alloc);
    }

    Dict* resp = Dict_new(alloc);
    Dict_putListC(resp, "peers", list, alloc);
    Dict_putIntC(resp, "total", count, alloc);

    if (i < count) {
        Dict_putIntC(resp, "more", 1, alloc);
    }

    Admin_sendMessage(resp, txid, context->admin);
}