/* 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 .
*/
#include "client/AdminClient.h"
#include "client/Configurator.h"
#include "benc/String.h"
#include "benc/Dict.h"
#include "benc/Int.h"
#include "benc/List.h"
#include "memory/Allocator.h"
#include "util/events/Event.h"
#include "util/events/UDPAddrIface.h"
#include "util/Bits.h"
#include "util/log/Log.h"
#include "util/platform/Sockaddr.h"
#include "util/Defined.h"
#include "util/events/Timeout.h"
#include
#include
struct Context
{
struct Log* logger;
struct Allocator* alloc;
struct AdminClient* client;
struct Allocator* currentReqAlloc;
struct AdminClient_Result* currentResult;
struct EventBase* base;
};
static void rpcCallback(struct AdminClient_Promise* p, struct AdminClient_Result* res)
{
struct Context* ctx = p->userData;
Allocator_adopt(ctx->alloc, p->alloc);
ctx->currentResult = res;
EventBase_endLoop(ctx->base);
}
static void die(struct AdminClient_Result* res, struct Context* ctx, struct Allocator* alloc)
{
Log_keys(ctx->logger, "message bytes = [%s]", res->messageBytes);
#ifndef Log_KEYS
Log_critical(ctx->logger, "enable Log_LEVEL=KEYS to see message content.");
#endif
Dict d = NULL;
struct AdminClient_Promise* exitPromise =
AdminClient_rpcCall(String_CONST("Core_exit"), &d, ctx->client, alloc);
exitPromise->callback = rpcCallback;
exitPromise->userData = ctx;
EventBase_beginLoop(ctx->base);
if (ctx->currentResult->err) {
Log_critical(ctx->logger, "Failed to stop the core.");
}
Log_critical(ctx->logger, "Aborting.");
exit(1);
}
static int rpcCall0(String* function,
Dict* args,
struct Context* ctx,
struct Allocator* alloc,
Dict** resultP,
bool exitIfError)
{
ctx->currentReqAlloc = Allocator_child(alloc);
ctx->currentResult = NULL;
struct AdminClient_Promise* promise = AdminClient_rpcCall(function, args, ctx->client, alloc);
promise->callback = rpcCallback;
promise->userData = ctx;
EventBase_beginLoop(ctx->base);
struct AdminClient_Result* res = ctx->currentResult;
Assert_true(res);
if (res->err) {
Log_critical(ctx->logger,
"Failed to make function call [%s], error: [%s]",
AdminClient_errorString(res->err),
function->bytes);
die(res, ctx, alloc);
}
String* error = Dict_getString(res->responseDict, String_CONST("error"));
int ret = 0;
if (error && !String_equals(error, String_CONST("none"))) {
if (exitIfError) {
Log_critical(ctx->logger,
"Got error [%s] calling [%s]",
error->bytes,
function->bytes);
die(res, ctx, alloc);
}
Log_warn(ctx->logger, "Got error [%s] calling [%s], ignoring.",
error->bytes, function->bytes);
ret = 1;
}
if (resultP) {
*resultP = res->responseDict;
} else {
Allocator_free(ctx->currentReqAlloc);
}
ctx->currentReqAlloc = NULL;
return ret;
}
static void rpcCall(String* function, Dict* args, struct Context* ctx, struct Allocator* alloc)
{
rpcCall0(function, args, ctx, alloc, NULL, true);
}
static void authorizedPasswords(List* list, struct Context* ctx)
{
uint32_t count = List_size(list);
for (uint32_t i = 0; i < count; i++) {
Dict* d = List_getDict(list, i);
Log_info(ctx->logger, "Checking authorized password %d.", i);
if (!d) {
Log_critical(ctx->logger, "Not a dictionary type %d.", i);
exit(-1);
}
String* passwd = Dict_getString(d, String_CONST("password"));
if (!passwd) {
Log_critical(ctx->logger, "Must specify a password %d.", i);
exit(-1);
}
}
for (uint32_t i = 0; i < count; i++) {
struct Allocator* child = Allocator_child(ctx->alloc);
Dict* d = List_getDict(list, i);
String* passwd = Dict_getString(d, String_CONST("password"));
String* user = Dict_getString(d, String_CONST("user"));
if (!user) {
// This is synchronized with cjdnsctl.js
user = String_printf(child, "_noname_%d", i);
}
//String* publicKey = Dict_getString(d, String_CONST("publicKey"));
String* ipv6 = Dict_getString(d, String_CONST("ipv6"));
Log_info(ctx->logger, "Adding authorized password #[%d] for user [%s].", i, user->bytes);
Dict *args = Dict_new(child);
uint32_t i = 1;
Dict_putInt(args, String_CONST("authType"), i, child);
Dict_putString(args, String_CONST("password"), passwd, child);
if (user) {
Dict_putString(args, String_CONST("user"), user, child);
}
if (ipv6) {
Log_info(ctx->logger,
" This connection password restricted to [%s] only.", ipv6->bytes);
Dict_putString(args, String_CONST("ipv6"), ipv6, child);
}
rpcCall(String_CONST("AuthorizedPasswords_add"), args, ctx, child);
Allocator_free(child);
}
}
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);
String* ifName = Dict_getString(resp, String_CONST("ifName"));
// 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.
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("ifName"), ifName, perCallAlloc);
Dict_putString(value, String_CONST("address"), key, perCallAlloc);
rpcCall(String_CONST("InterfaceController_connectTo"), 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);
}
}
}
static void tunInterface(Dict* ifaceConf, struct Allocator* tempAlloc, struct Context* ctx)
{
String* ifaceType = Dict_getString(ifaceConf, String_CONST("type"));
if (!String_equals(ifaceType, String_CONST("TUNInterface"))) {
return;
}
// Setup the interface.
String* device = Dict_getString(ifaceConf, String_CONST("tunDevice"));
Dict* args = Dict_new(tempAlloc);
if (device) {
Dict_putString(args, String_CONST("desiredTunName"), device, tempAlloc);
}
rpcCall0(String_CONST("Core_initTunnel"), args, ctx, tempAlloc, NULL, false);
}
static void ipTunnel(Dict* ifaceConf, struct Allocator* tempAlloc, struct Context* ctx)
{
List* incoming = Dict_getList(ifaceConf, String_CONST("allowedConnections"));
if (incoming) {
Dict* d;
for (int i = 0; (d = List_getDict(incoming, i)) != NULL; i++) {
String* key = Dict_getString(d, String_CONST("publicKey"));
String* ip4 = Dict_getString(d, String_CONST("ip4Address"));
// Note that the prefix length has to be a proper int in the config
// (not quoted!)
int64_t* ip4Prefix = Dict_getInt(d, String_CONST("ip4Prefix"));
String* ip6 = Dict_getString(d, String_CONST("ip6Address"));
int64_t* ip6Prefix = Dict_getInt(d, String_CONST("ip6Prefix"));
if (!key) {
Log_critical(ctx->logger, "In router.ipTunnel.allowedConnections[%d]"
"'publicKey' required.", i);
exit(1);
}
if (!ip4 && !ip6) {
Log_critical(ctx->logger, "In router.ipTunnel.allowedConnections[%d]"
"either 'ip4Address' or 'ip6Address' required.", i);
exit(1);
} else if (ip4Prefix && !ip4) {
Log_critical(ctx->logger, "In router.ipTunnel.allowedConnections[%d]"
"'ip4Address' required with 'ip4Prefix'.", i);
exit(1);
} else if (ip6Prefix && !ip6) {
Log_critical(ctx->logger, "In router.ipTunnel.allowedConnections[%d]"
"'ip6Address' required with 'ip6Prefix'.", i);
exit(1);
}
Log_debug(ctx->logger, "Allowing IpTunnel connections from [%s]", key->bytes);
if (ip4) {
Log_debug(ctx->logger, "Issue IPv4 address %s", ip4->bytes);
if (ip4Prefix) {
Log_debug(ctx->logger, "Issue IPv4 netmask/prefix length /%d",
(int) *ip4Prefix);
} else {
Log_debug(ctx->logger, "Use default netmask/prefix length /0");
}
}
if (ip6) {
Log_debug(ctx->logger, "Issue IPv6 address [%s]", ip6->bytes);
if (ip6Prefix) {
Log_debug(ctx->logger, "Issue IPv6 netmask/prefix length /%d",
(int) *ip6Prefix);
} else {
Log_debug(ctx->logger, "Use default netmask/prefix length /0");
}
}
Dict_putString(d, String_CONST("publicKeyOfAuthorizedNode"), key, tempAlloc);
rpcCall0(String_CONST("IpTunnel_allowConnection"), d, ctx, tempAlloc, NULL, true);
}
}
List* outgoing = Dict_getList(ifaceConf, String_CONST("outgoingConnections"));
if (outgoing) {
String* s;
for (int i = 0; (s = List_getString(outgoing, i)) != NULL; i++) {
Log_debug(ctx->logger, "Initiating IpTunnel connection to [%s]", s->bytes);
Dict requestDict =
Dict_CONST(String_CONST("publicKeyOfNodeToConnectTo"), String_OBJ(s), NULL);
rpcCall0(String_CONST("IpTunnel_connectTo"), &requestDict, ctx, tempAlloc, NULL, true);
}
}
}
static void routerConfig(Dict* routerConf, struct Allocator* tempAlloc, struct Context* ctx)
{
tunInterface(Dict_getDict(routerConf, String_CONST("interface")), tempAlloc, ctx);
ipTunnel(Dict_getDict(routerConf, String_CONST("ipTunnel")), tempAlloc, ctx);
}
static void ethInterfaceSetBeacon(String* ifName, Dict* eth, struct Context* ctx)
{
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("ifName"), String_OBJ(ifName),
Dict_CONST(String_CONST("state"), Int_OBJ(beacon), NULL));
rpcCall(String_CONST("InterfaceController_beacon"), &d, ctx, ctx->alloc);
}
}
}
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;
}
String* ifName = Dict_getString(resp, String_CONST("ifName"));
ethInterfaceSetBeacon(ifName, 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;
}
String* ifName = Dict_getString(resp, String_CONST("ifName"));
ethInterfaceSetBeacon(ifName, 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("address"), key, perCallAlloc);
Dict_putString(value, String_CONST("ifName"), ifName, perCallAlloc);
rpcCall(String_CONST("InterfaceController_connectTo"), value, ctx, perCallAlloc);
Allocator_free(perCallAlloc);
entry = entry->next;
}
}
}
}
static void security(struct Allocator* tempAlloc, List* conf, struct Log* log, struct Context* ctx)
{
int seccomp = 1;
int nofiles = 0;
int noforks = 1;
int chroot = 1;
int setupComplete = 1;
int setuser = 1;
if (Defined(win32)) {
setuser = 0;
}
int uid = -1;
int64_t* group = NULL;
int keepNetAdmin = 1;
do {
Dict* d = Dict_new(tempAlloc);
Dict_putString(d, String_CONST("user"), String_CONST("nobody"), tempAlloc);
if (!Defined(win32)) {
Dict* ret = NULL;
rpcCall0(String_CONST("Security_getUser"), d, ctx, tempAlloc, &ret, true);
uid = *Dict_getInt(ret, String_CONST("uid"));
group = Dict_getInt(ret, String_CONST("gid"));
}
} while (0);
for (int i = 0; conf && i < List_size(conf); i++) {
Dict* elem = List_getDict(conf, i);
String* s;
if (elem && (s = Dict_getString(elem, String_CONST("setuser")))) {
if (setuser == 0) { continue; }
Dict* d = Dict_new(tempAlloc);
Dict_putString(d, String_CONST("user"), s, tempAlloc);
Dict* ret = NULL;
rpcCall0(String_CONST("Security_getUser"), d, ctx, tempAlloc, &ret, true);
uid = *Dict_getInt(ret, String_CONST("uid"));
group = Dict_getInt(ret, String_CONST("gid"));
int64_t* nka = Dict_getInt(elem, String_CONST("keepNetAdmin"));
int64_t* exemptAngel = Dict_getInt(elem, String_CONST("exemptAngel"));
keepNetAdmin = ((nka) ? *nka : ((exemptAngel) ? *exemptAngel : 0));
continue;
}
if (elem && (s = Dict_getString(elem, String_CONST("chroot")))) {
Log_debug(log, "Security_chroot(%s)", s->bytes);
Dict* d = Dict_new(tempAlloc);
Dict_putString(d, String_CONST("root"), s, tempAlloc);
rpcCall0(String_CONST("Security_chroot"), d, ctx, tempAlloc, NULL, false);
chroot = 0;
continue;
}
uint64_t* x;
if (elem && (x = Dict_getInt(elem, String_CONST("nofiles")))) {
if (!*x) { continue; }
nofiles = 1;
continue;
}
if (elem && (x = Dict_getInt(elem, String_CONST("setuser")))) {
if (!*x) { setuser = 0; }
continue;
}
if (elem && (x = Dict_getInt(elem, String_CONST("seccomp")))) {
if (!*x) { seccomp = 0; }
continue;
}
if (elem && (x = Dict_getInt(elem, String_CONST("noforks")))) {
if (!*x) { noforks = 0; }
continue;
}
if (elem && (x = Dict_getInt(elem, String_CONST("chroot")))) {
if (!*x) { chroot = 0; }
continue;
}
if (elem && (x = Dict_getInt(elem, String_CONST("setupComplete")))) {
if (!*x) { setupComplete = 0; }
continue;
}
Log_info(ctx->logger, "Unrecognized entry in security at index [%d]", i);
}
if (chroot) {
Log_debug(log, "Security_chroot(/var/run)");
Dict* d = Dict_new(tempAlloc);
Dict_putString(d, String_CONST("root"), String_CONST("/var/run/"), tempAlloc);
rpcCall0(String_CONST("Security_chroot"), d, ctx, tempAlloc, NULL, false);
}
/* FIXME(sdg): moving noforks after setuser might make nproc <- 0,0 work
on older kernels, where doing it before causes setuid to fail w EAGAIN. */
if (noforks) {
Log_debug(log, "Security_noforks()");
Dict* d = Dict_new(tempAlloc);
rpcCall(String_CONST("Security_noforks"), d, ctx, tempAlloc);
}
if (setuser) {
Log_debug(log, "Security_setUser(uid:%d, keepNetAdmin:%d)", uid, keepNetAdmin);
Dict* d = Dict_new(tempAlloc);
Dict_putInt(d, String_CONST("uid"), uid, tempAlloc);
if (group) {
Dict_putInt(d, String_CONST("gid"), (int)*group, tempAlloc);
}
Dict_putInt(d, String_CONST("keepNetAdmin"), keepNetAdmin, tempAlloc);
rpcCall0(String_CONST("Security_setUser"), d, ctx, tempAlloc, NULL, false);
}
if (nofiles) {
Log_debug(log, "Security_nofiles()");
Dict* d = Dict_new(tempAlloc);
rpcCall(String_CONST("Security_nofiles"), d, ctx, tempAlloc);
}
if (seccomp) {
Log_debug(log, "Security_seccomp()");
Dict* d = Dict_new(tempAlloc);
rpcCall(String_CONST("Security_seccomp"), d, ctx, tempAlloc);
}
if (setupComplete) {
Log_debug(log, "Security_setupComplete()");
Dict* d = Dict_new(tempAlloc);
rpcCall(String_CONST("Security_setupComplete"), d, ctx, tempAlloc);
}
}
static int tryPing(struct Allocator* tempAlloc, struct Context* ctx)
{
Dict* resp = NULL;
Dict* d = Dict_new(tempAlloc);
rpcCall0(String_CONST("ping"), d, ctx, tempAlloc, &resp, false);
if (!resp) { return -1; }
String* q = Dict_getString(resp, String_CONST("q"));
if (String_equals(q, String_CONST("pong"))) {
return true;
}
return false;
}
static void awaken(void* vcontext)
{
struct Context* ctx = vcontext;
EventBase_endLoop(ctx->base);
}
static void sleep(int milliseconds, struct Context* ctx, struct Allocator* temp)
{
Timeout_setTimeout(awaken, ctx, milliseconds, ctx->base, temp);
EventBase_beginLoop(ctx->base);
}
static void waitUntilPong(struct Context* ctx)
{
for (int i = 0; i < 10; i++) {
struct Allocator* temp = Allocator_child(ctx->alloc);
if (tryPing(temp, ctx)) {
Allocator_free(temp);
return;
}
sleep(200, ctx, temp);
Allocator_free(temp);
}
Assert_failure("Failed connecting to core (perhaps you have a firewall on loopback device?)");
}
void Configurator_config(Dict* config,
struct Sockaddr* sockAddr,
String* adminPassword,
struct EventBase* eventBase,
struct Log* logger,
struct Allocator* alloc)
{
struct Allocator* tempAlloc = Allocator_child(alloc);
struct UDPAddrIface* udp = UDPAddrIface_new(eventBase, NULL, alloc, NULL, logger);
struct AdminClient* client =
AdminClient_new(&udp->generic, sockAddr, adminPassword, eventBase, logger, tempAlloc);
struct Context ctx = {
.logger = logger,
.alloc = tempAlloc,
.client = client,
.base = eventBase,
};
waitUntilPong(&ctx);
List* authedPasswords = Dict_getList(config, String_CONST("authorizedPasswords"));
if (authedPasswords) {
authorizedPasswords(authedPasswords, &ctx);
}
Dict* ifaces = Dict_getDict(config, String_CONST("interfaces"));
udpInterface(ifaces, &ctx);
if (Defined(HAS_ETH_INTERFACE)) {
ethInterface(ifaces, &ctx);
}
Dict* routerConf = Dict_getDict(config, String_CONST("router"));
routerConfig(routerConf, tempAlloc, &ctx);
List* secList = Dict_getList(config, String_CONST("security"));
security(tempAlloc, secList, logger, &ctx);
Log_debug(logger, "Cjdns started in the background");
Allocator_free(tempAlloc);
}