Exemplo n.º 1
0
static void allowConnection(Dict* args, void* vcontext, String* txid)
{
    struct Context* context = (struct Context*) vcontext;
    String* publicKeyOfAuthorizedNode =
        Dict_getString(args, String_CONST("publicKeyOfAuthorizedNode"));
    String* ip6Address = Dict_getString(args, String_CONST("ip6Address"));
    String* ip4Address = Dict_getString(args, String_CONST("ip4Address"));
    uint8_t pubKey[32];
    uint8_t ip6Addr[16];

    uint8_t ip6ToGive[16];
    uint8_t ip4ToGive[4];

    char* error;
    int ret;
    if (!ip6Address && !ip4Address) {
        error = "Must specify ip6Address or ip4Address";
    } else if ((ret = Key_parse(publicKeyOfAuthorizedNode, pubKey, ip6Addr)) != 0) {
        error = Key_parse_strerror(ret);
    } else if (ip6Address && evutil_inet_pton(AF_INET6, ip6Address->bytes, ip6ToGive) < 1) {
        error = "malformed ip6Address";
    } else if (ip4Address && evutil_inet_pton(AF_INET, ip4Address->bytes, ip4ToGive) < 1) {
        error = "malformed ip4Address";
    } else {
        int conn = IpTunnel_allowConnection(pubKey,
                                            (ip6Address) ? ip6ToGive : NULL,
                                            (ip4Address) ? ip4ToGive : NULL,
                                            context->ipTun);
        sendResponse(conn, txid, context->admin);
        return;
    }

    sendError(error, txid, context->admin);
}
Exemplo n.º 2
0
static void allowConnection(Dict* args,
                            void* vcontext,
                            String* txid,
                            struct Allocator* requestAlloc)
{
    struct Context* context = (struct Context*) vcontext;
    String* publicKeyOfAuthorizedNode =
        Dict_getString(args, String_CONST("publicKeyOfAuthorizedNode"));
    String* ip6Address = Dict_getString(args, String_CONST("ip6Address"));
    int64_t* ip6Prefix = Dict_getInt(args, String_CONST("ip6Prefix"));
    String* ip4Address = Dict_getString(args, String_CONST("ip4Address"));
    int64_t* ip4Prefix = Dict_getInt(args, String_CONST("ip4Prefix"));
    uint8_t pubKey[32];
    uint8_t ip6Addr[16];

    struct Sockaddr_storage ip6ToGive;
    struct Sockaddr_storage ip4ToGive;

    char* error;
    int ret;
    if (!ip6Address && !ip4Address) {
        error = "Must specify ip6Address or ip4Address";
    } else if ((ret = Key_parse(publicKeyOfAuthorizedNode, pubKey, ip6Addr)) != 0) {
        error = Key_parse_strerror(ret);
    } else if (ip6Prefix && !ip6Address) {
        error = "Must specify ip6Address with ip6Prefix";
    } else if (ip6Prefix && (*ip6Prefix > 128 || *ip6Prefix < 0)) {
        error = "ip6Prefix out of range: must be 0 to 128";
    } else if (ip4Prefix && (*ip4Prefix > 32 || *ip4Prefix < 0)) {
        error = "ip4Prefix out of range: must be 0 to 32";
    } else if (ip4Prefix && !ip4Address) {
        error = "Must specify ip4Address with ip4Prefix";
    } else if (ip6Address
        && (Sockaddr_parse(ip6Address->bytes, &ip6ToGive)
            || Sockaddr_getFamily(&ip6ToGive.addr) != Sockaddr_AF_INET6))
    {
        error = "malformed ip6Address";
    } else if (ip4Address
        && (Sockaddr_parse(ip4Address->bytes, &ip4ToGive)
            || Sockaddr_getFamily(&ip4ToGive.addr) != Sockaddr_AF_INET))
    {
        error = "malformed ip4Address";
    } else {
        int conn = IpTunnel_allowConnection(pubKey,
                                            (ip6Address) ? &ip6ToGive.addr : NULL,
                                            (ip6Prefix) ? (uint8_t) (*ip6Prefix) : 0,
                                            (ip4Address) ? &ip4ToGive.addr : NULL,
                                            (ip4Prefix) ? (uint8_t) (*ip4Prefix) : 0,
                                            context->ipTun);
        sendResponse(conn, txid, context->admin);
        return;
    }

    sendError(error, txid, context->admin);
}
Exemplo n.º 3
0
int main()
{
    AddressCalc_addressForPublicKey(nodeCjdnsIp6, fakePubKey);
    struct Allocator* alloc = MallocAllocator_new(1<<20);
    struct Writer* w = FileWriter_new(stdout, alloc);
    struct Log* logger = WriterLog_new(w, alloc);
    struct Random* rand = Random_new(alloc, logger, NULL);
    struct EventBase* eb = EventBase_new(alloc);

    struct IpTunnel* ipTun = IpTunnel_new(logger, eb, alloc, rand, NULL);
    struct Sockaddr_storage ip6ToGive;
    Sockaddr_parse("fd01:0101:0101:0101:0101:0101:0101:0101", &ip6ToGive);
    IpTunnel_allowConnection(fakePubKey, &ip6ToGive.addr, NULL, ipTun);

    struct Message* message;
    Message_STACK(message, 64, 512);
    message->alloc = alloc;

    const char* requestForAddresses =
        "d"
          "1:q" "21:IpTunnel_getAddresses"
          "4:txid" "4:abcd"
        "e";
    CString_strcpy((char*)message->bytes, requestForAddresses);
    message->length = CString_strlen(requestForAddresses);

    Message_shift(message, Headers_UDPHeader_SIZE, NULL);
    struct Headers_UDPHeader* uh = (struct Headers_UDPHeader*) message->bytes;

    uh->srcPort_be = 0;
    uh->destPort_be = 0;
    uh->length_be = Endian_hostToBigEndian16(message->length - Headers_UDPHeader_SIZE);
    uint16_t* checksum = &uh->checksum_be;
    *checksum = 0;
    uint32_t length = message->length;

    Message_shift(message, Headers_IP6Header_SIZE, NULL);
    struct Headers_IP6Header* ip = (struct Headers_IP6Header*) message->bytes;

    ip->versionClassAndFlowLabel = 0;
    ip->flowLabelLow_be = 0;
    ip->payloadLength_be = Endian_hostToBigEndian16(length);
    ip->nextHeader = 17;
    ip->hopLimit = 255;
    Bits_memset(ip->sourceAddr, 0, 32);
    Headers_setIpVersion(ip);

    Message_shift(message, IpTunnel_PacketInfoHeader_SIZE, NULL);
    struct IpTunnel_PacketInfoHeader* pi = (struct IpTunnel_PacketInfoHeader*) message->bytes;

    Bits_memcpyConst(pi->nodeIp6Addr, nodeCjdnsIp6, 16);
    Bits_memcpyConst(pi->nodeKey, fakePubKey, 32);

    *checksum = Checksum_udpIp6(ip->sourceAddr, (uint8_t*) uh, length);

    ipTun->nodeInterface.receiveMessage = responseWithIpCallback;
    ipTun->nodeInterface.sendMessage(message, &ipTun->nodeInterface);
    Assert_true(called);
    called = 0;

    // Now create a message for someone else.
    Message_shift(message,
        Headers_UDPHeader_SIZE
        + Headers_IP6Header_SIZE
        + IpTunnel_PacketInfoHeader_SIZE,
        NULL);
    Bits_memcpyConst(ip->sourceAddr, fakeIp6ToGive, 16);
    // This can't be zero.
    Bits_memset(ip->destinationAddr, 1, 16);

    ipTun->tunInterface.receiveMessage = messageToTun;
    ipTun->nodeInterface.sendMessage(message, &ipTun->nodeInterface);
    Assert_true(called);

    Allocator_free(alloc);
    return 0;
}
Exemplo n.º 4
0
static void testAddr(struct Context* ctx,
                     char* addr4, int prefix4, int alloc4,
                     char* addr6, int prefix6, int alloc6)
{
    struct Allocator* alloc = Allocator_child(ctx->alloc);
    struct IpTunnel* ipTun = IpTunnel_new(ctx->log, ctx->base, alloc, ctx->rand, NULL);

    struct Sockaddr* sa4 = NULL;
    struct Sockaddr_storage ip6ToGive;
    struct Sockaddr_storage ip4ToGive;
    if (addr4) {
        Assert_true(!Sockaddr_parse(addr4, &ip4ToGive));
        sa4 = &ip4ToGive.addr;
        Assert_true(Sockaddr_getFamily(sa4) == Sockaddr_AF_INET);
    }
    struct Sockaddr* sa6 = NULL;
    if (addr6) {
        Assert_true(!Sockaddr_parse(addr6, &ip6ToGive));
        sa6 = &ip6ToGive.addr;
        Assert_true(Sockaddr_getFamily(sa6) == Sockaddr_AF_INET6);
    }

    IpTunnel_allowConnection(ctx->pubKey,
                             sa6, prefix6, alloc6,
                             sa4, prefix4, alloc4,
                             ipTun);

    struct Message* msg = Message_new(64, 512, alloc);
    const char* requestForAddresses =
        "d"
          "1:q" "21:IpTunnel_getAddresses"
          "4:txid" "4:abcd"
        "e";
    CString_strcpy(msg->bytes, requestForAddresses);
    msg->length = CString_strlen(requestForAddresses);

    Message_push(msg, NULL, Headers_UDPHeader_SIZE, NULL);
    struct Headers_UDPHeader* uh = (struct Headers_UDPHeader*) msg->bytes;
    uh->length_be = Endian_hostToBigEndian16(msg->length - Headers_UDPHeader_SIZE);

    uint16_t* checksum = &((struct Headers_UDPHeader*) msg->bytes)->checksum_be;
    *checksum = 0;
    uint32_t length = msg->length;

    // Because of old reasons, we need to have at least an empty IPv6 header
    Message_push(msg, NULL, Headers_IP6Header_SIZE, NULL);
    struct Headers_IP6Header* ip = (struct Headers_IP6Header*) msg->bytes;
    Headers_setIpVersion(ip);
    ip->payloadLength_be = Endian_hostToBigEndian16(msg->length - Headers_IP6Header_SIZE);
    ip->nextHeader = 17;

    *checksum = Checksum_udpIp6(ip->sourceAddr, (uint8_t*) uh, length);

    pushRouteDataHeaders(ctx, msg);

    struct IfaceContext* nodeIf = Allocator_calloc(alloc, sizeof(struct IfaceContext), 1);
    nodeIf->ctx = ctx;
    nodeIf->iface.send = responseWithIpCallback;
    struct IfaceContext* tunIf = Allocator_calloc(alloc, sizeof(struct IfaceContext), 1);
    tunIf->ctx = ctx;
    tunIf->iface.send = messageToTun;
    Iface_plumb(&nodeIf->iface, &ipTun->nodeInterface);
    Iface_plumb(&tunIf->iface, &ipTun->tunInterface);
    ctx->expectedResponse =
        getExpectedResponse(sa4, prefix4, alloc4, sa6, prefix6, alloc6, alloc);
    Iface_send(&nodeIf->iface, msg);
    Assert_true(ctx->called == 2);
    ctx->called = 0;

    if (sa4) {
        uint8_t* addrBytes = NULL;
        Assert_true(Sockaddr_getAddress(sa4, &addrBytes) == 4);
        uint32_t addr;
        Bits_memcpy(&addr, addrBytes, 4);
        addr = Endian_bigEndianToHost32(addr);
        // Send from the address specified
        Assert_true(trySend4(alloc, addr, &nodeIf->iface, ctx));

        if (alloc4 < 32) {
            // Send from another (random) address in the prefix
            uint32_t flip = Random_uint32(ctx->rand) >> alloc4;
            if (prefix4 != 32) {
                Assert_true(trySend4(alloc, addr ^ flip, &nodeIf->iface, ctx));
            } else {
                // If netSize is not specified, we do not allow multi-address
                Assert_true(!trySend4(alloc, addr ^ flip, &nodeIf->iface, ctx));
            }
        } else {
Exemplo n.º 5
0
int main()
{
    AddressCalc_addressForPublicKey(nodeCjdnsIp6, fakePubKey);
    struct Allocator* alloc = MallocAllocator_new(1<<20);
    struct Log* logger = FileWriterLog_new(stdout, alloc);
    struct Random* rand = Random_new(alloc, logger, NULL);
    struct EventBase* eb = EventBase_new(alloc);

    struct IpTunnel* ipTun = IpTunnel_new(logger, eb, alloc, rand);
    struct Sockaddr_storage ip6ToGive;
    Sockaddr_parse("fd01:0101:0101:0101:0101:0101:0101:0101", &ip6ToGive);
    IpTunnel_allowConnection(fakePubKey, &ip6ToGive.addr, 0, NULL, 0, ipTun);

    struct Message* message;
    Message_STACK(message, 64, 512);
    message->alloc = alloc;

    const char* requestForAddresses =
        "d"
          "1:q" "21:IpTunnel_getAddresses"
          "4:txid" "4:abcd"
        "e";
    CString_strcpy((char*)message->bytes, requestForAddresses);
    message->length = CString_strlen(requestForAddresses);

    Message_shift(message, Headers_UDPHeader_SIZE, NULL);
    struct Headers_UDPHeader* uh = (struct Headers_UDPHeader*) message->bytes;

    uh->srcPort_be = 0;
    uh->destPort_be = 0;
    uh->length_be = Endian_hostToBigEndian16(message->length - Headers_UDPHeader_SIZE);
    uint16_t* checksum = &uh->checksum_be;
    *checksum = 0;
    uint32_t length = message->length;

    Message_shift(message, Headers_IP6Header_SIZE, NULL);
    struct Headers_IP6Header* ip = (struct Headers_IP6Header*) message->bytes;

    ip->versionClassAndFlowLabel = 0;
    ip->flowLabelLow_be = 0;
    ip->payloadLength_be = Endian_hostToBigEndian16(length);
    ip->nextHeader = 17;
    ip->hopLimit = 255;
    Bits_memset(ip->sourceAddr, 0, 32);
    Headers_setIpVersion(ip);

    Message_shift(message, RouteHeader_SIZE + DataHeader_SIZE, NULL);
    struct RouteHeader* rh = (struct RouteHeader*) message->bytes;
    struct DataHeader* dh = (struct DataHeader*) &rh[1];

    Bits_memset(rh, 0, RouteHeader_SIZE + DataHeader_SIZE);
    Bits_memcpy(rh->ip6, nodeCjdnsIp6, 16);
    Bits_memcpy(rh->publicKey, fakePubKey, 32);
    DataHeader_setContentType(dh, ContentType_IPTUN);

    *checksum = Checksum_udpIp6(ip->sourceAddr, (uint8_t*) uh, length);

    int origCap = message->capacity;
    int origLen = message->length;

    struct Iface nodeIface = { .send = responseWithIpCallback };
    Iface_plumb(&nodeIface, &ipTun->nodeInterface);
    struct Iface tunIface = { .send = messageToTun };
    Iface_plumb(&tunIface, &ipTun->tunInterface);

    Iface_send(&nodeIface, message);
    Assert_true(called == 2);
    called = 0;

    // This is a hack, reusing the message will cause breakage if IpTunnel is refactored.
    Message_reset(message);
    Message_shift(message, origCap, NULL);
    message->length = origLen;

    Bits_memcpy(ip->sourceAddr, fakeIp6ToGive, 16);
    // This can't be zero.
    Bits_memset(ip->destinationAddr, 1, 16);

    Iface_send(&nodeIface, message);
    Assert_true(called == 1);

    Allocator_free(alloc);
    return 0;
}