server/StrictController.cpp - platform/system/netd - Git at Google

 /*
  * Copyright (C) 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include <errno.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #define LOG_TAG "StrictController"
 #define LOG_NDEBUG 0

 #include <cutils/log.h>

 #include "ConnmarkFlags.h"
 #include "NetdConstants.h"
 #include "StrictController.h"

 const char* StrictController::LOCAL_OUTPUT = "st_OUTPUT";
 const char* StrictController::LOCAL_CLEAR_DETECT = "st_clear_detect";
 const char* StrictController::LOCAL_CLEAR_CAUGHT = "st_clear_caught";
 const char* StrictController::LOCAL_PENALTY_LOG = "st_penalty_log";
 const char* StrictController::LOCAL_PENALTY_REJECT = "st_penalty_reject";

 StrictController::StrictController(void) {
 }

 int StrictController::enableStrict(void) {
     char connmarkFlagAccept[16];
     char connmarkFlagReject[16];
     char connmarkFlagTestAccept[32];
     char connmarkFlagTestReject[32];
     sprintf(connmarkFlagAccept, "0x%x", ConnmarkFlags::STRICT_RESOLVED_ACCEPT);
     sprintf(connmarkFlagReject, "0x%x", ConnmarkFlags::STRICT_RESOLVED_REJECT);
     sprintf(connmarkFlagTestAccept, "0x%x/0x%x",
             ConnmarkFlags::STRICT_RESOLVED_ACCEPT,
             ConnmarkFlags::STRICT_RESOLVED_ACCEPT);
     sprintf(connmarkFlagTestReject, "0x%x/0x%x",
             ConnmarkFlags::STRICT_RESOLVED_REJECT,
             ConnmarkFlags::STRICT_RESOLVED_REJECT);

     int res = 0;

     disableStrict();

     // Chain triggered when cleartext socket detected and penalty is log
     res |= execIptables(V4V6, "-N", LOCAL_PENALTY_LOG, NULL);
     res |= execIptables(V4V6, "-A", LOCAL_PENALTY_LOG,
             "-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);
     res |= execIptables(V4V6, "-A", LOCAL_PENALTY_LOG,
             "-j", "NFLOG", "--nflog-group", "0", NULL);

     // Chain triggered when cleartext socket detected and penalty is reject
     res |= execIptables(V4V6, "-N", LOCAL_PENALTY_REJECT, NULL);
     res |= execIptables(V4V6, "-A", LOCAL_PENALTY_REJECT,
             "-j", "CONNMARK", "--or-mark", connmarkFlagReject, NULL);
     res |= execIptables(V4V6, "-A", LOCAL_PENALTY_REJECT,
             "-j", "NFLOG", "--nflog-group", "0", NULL);
     res |= execIptables(V4V6, "-A", LOCAL_PENALTY_REJECT,
             "-j", "REJECT", NULL);

     // Create chain to detect non-TLS traffic. We use a high-order
     // mark bit to keep track of connections that we've already resolved.
     res |= execIptables(V4V6, "-N", LOCAL_CLEAR_DETECT, NULL);
     res |= execIptables(V4V6, "-N", LOCAL_CLEAR_CAUGHT, NULL);

     // Quickly skip connections that we've already resolved
     res |= execIptables(V4V6, "-A", LOCAL_CLEAR_DETECT,
             "-m", "connmark", "--mark", connmarkFlagTestReject,
             "-j", "REJECT", NULL);
     res |= execIptables(V4V6, "-A", LOCAL_CLEAR_DETECT,
             "-m", "connmark", "--mark", connmarkFlagTestAccept,
             "-j", "RETURN", NULL);

     // Look for IPv4 TCP/UDP connections with TLS/DTLS header
     res |= execIptables(V4, "-A", LOCAL_CLEAR_DETECT, "-p", "tcp",
             "-m", "u32", "--u32", "0>>22&0x3C@ 12>>26&0x3C@ 0&0xFFFF0000=0x16030000 &&"
                                   "0>>22&0x3C@ 12>>26&0x3C@ 4&0x00FF0000=0x00010000",
             "-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);
     res |= execIptables(V4, "-A", LOCAL_CLEAR_DETECT, "-p", "udp",
             "-m", "u32", "--u32", "0>>22&0x3C@ 8&0xFFFF0000=0x16FE0000 &&"
                                   "0>>22&0x3C@ 20&0x00FF0000=0x00010000",
             "-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);

     // Look for IPv6 TCP/UDP connections with TLS/DTLS header.  The IPv6 header
     // doesn't have an IHL field to shift with, so we have to manually add in
     // the 40-byte offset at every step.
     res |= execIptables(V6, "-A", LOCAL_CLEAR_DETECT, "-p", "tcp",
             "-m", "u32", "--u32", "52>>26&0x3C@ 40&0xFFFF0000=0x16030000 &&"
                                   "52>>26&0x3C@ 44&0x00FF0000=0x00010000",
             "-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);
     res |= execIptables(V6, "-A", LOCAL_CLEAR_DETECT, "-p", "udp",
             "-m", "u32", "--u32", "48&0xFFFF0000=0x16FE0000 &&"
                                   "60&0x00FF0000=0x00010000",
             "-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);

     // Skip newly classified connections from above
     res |= execIptables(V4V6, "-A", LOCAL_CLEAR_DETECT,
             "-m", "connmark", "--mark", connmarkFlagTestAccept,
             "-j", "RETURN", NULL);

     // Handle TCP/UDP payloads that didn't match TLS/DTLS filters above,
     // which means we've probably found cleartext data.  The TCP variant
     // depends on u32 returning false when we try reading into the message
     // body to ignore empty ACK packets.
     res |= execIptables(V4, "-A", LOCAL_CLEAR_DETECT, "-p", "tcp",
             "-m", "state", "--state", "ESTABLISHED",
             "-m", "u32", "--u32", "0>>22&0x3C@ 12>>26&0x3C@ 0&0x0=0x0",
             "-j", LOCAL_CLEAR_CAUGHT, NULL);
     res |= execIptables(V6, "-A", LOCAL_CLEAR_DETECT, "-p", "tcp",
             "-m", "state", "--state", "ESTABLISHED",
             "-m", "u32", "--u32", "52>>26&0x3C@ 40&0x0=0x0",
             "-j", LOCAL_CLEAR_CAUGHT, NULL);

     res |= execIptables(V4V6, "-A", LOCAL_CLEAR_DETECT, "-p", "udp",
             "-j", LOCAL_CLEAR_CAUGHT, NULL);

     return res;
 }

 int StrictController::disableStrict(void) {
     int res = 0;

     // Flush any existing rules
     res |= execIptables(V4V6, "-F", LOCAL_OUTPUT, NULL);

     res |= execIptables(V4V6, "-F", LOCAL_PENALTY_LOG, NULL);
     res |= execIptables(V4V6, "-F", LOCAL_PENALTY_REJECT, NULL);
     res |= execIptables(V4V6, "-F", LOCAL_CLEAR_CAUGHT, NULL);
     res |= execIptables(V4V6, "-F", LOCAL_CLEAR_DETECT, NULL);

     res |= execIptables(V4V6, "-X", LOCAL_PENALTY_LOG, NULL);
     res |= execIptables(V4V6, "-X", LOCAL_PENALTY_REJECT, NULL);
     res |= execIptables(V4V6, "-X", LOCAL_CLEAR_CAUGHT, NULL);
     res |= execIptables(V4V6, "-X", LOCAL_CLEAR_DETECT, NULL);

     return res;
 }

 int StrictController::setUidCleartextPenalty(uid_t uid, StrictPenalty penalty) {
     char uidStr[16];
     sprintf(uidStr, "%d", uid);

     int res = 0;
     if (penalty == ACCEPT) {
         // Clean up any old rules
         execIptables(V4V6, "-D", LOCAL_OUTPUT,
                 "-m", "owner", "--uid-owner", uidStr,
                 "-j", LOCAL_CLEAR_DETECT, NULL);
         execIptables(V4V6, "-D", LOCAL_CLEAR_CAUGHT,
                 "-m", "owner", "--uid-owner", uidStr,
                 "-j", LOCAL_PENALTY_LOG, NULL);
         execIptables(V4V6, "-D", LOCAL_CLEAR_CAUGHT,
                 "-m", "owner", "--uid-owner", uidStr,
                 "-j", LOCAL_PENALTY_REJECT, NULL);

     } else {
         // Always take a detour to investigate this UID
         res |= execIptables(V4V6, "-I", LOCAL_OUTPUT,
                 "-m", "owner", "--uid-owner", uidStr,
                 "-j", LOCAL_CLEAR_DETECT, NULL);

         if (penalty == LOG) {
             res |= execIptables(V4V6, "-I", LOCAL_CLEAR_CAUGHT,
                     "-m", "owner", "--uid-owner", uidStr,
                     "-j", LOCAL_PENALTY_LOG, NULL);
         } else if (penalty == REJECT) {
             res |= execIptables(V4V6, "-I", LOCAL_CLEAR_CAUGHT,
                     "-m", "owner", "--uid-owner", uidStr,
                     "-j", LOCAL_PENALTY_REJECT, NULL);
         }
     }

     return res;
 }
	/*
	* Copyright (C) 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <errno.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#define LOG_TAG "StrictController"
	#define LOG_NDEBUG 0

	#include <cutils/log.h>

	#include "ConnmarkFlags.h"
	#include "NetdConstants.h"
	#include "StrictController.h"

	const char* StrictController::LOCAL_OUTPUT = "st_OUTPUT";
	const char* StrictController::LOCAL_CLEAR_DETECT = "st_clear_detect";
	const char* StrictController::LOCAL_CLEAR_CAUGHT = "st_clear_caught";
	const char* StrictController::LOCAL_PENALTY_LOG = "st_penalty_log";
	const char* StrictController::LOCAL_PENALTY_REJECT = "st_penalty_reject";

	StrictController::StrictController(void) {
	}

	int StrictController::enableStrict(void) {
	char connmarkFlagAccept[16];
	char connmarkFlagReject[16];
	char connmarkFlagTestAccept[32];
	char connmarkFlagTestReject[32];
	sprintf(connmarkFlagAccept, "0x%x", ConnmarkFlags::STRICT_RESOLVED_ACCEPT);
	sprintf(connmarkFlagReject, "0x%x", ConnmarkFlags::STRICT_RESOLVED_REJECT);
	sprintf(connmarkFlagTestAccept, "0x%x/0x%x",
	ConnmarkFlags::STRICT_RESOLVED_ACCEPT,
	ConnmarkFlags::STRICT_RESOLVED_ACCEPT);
	sprintf(connmarkFlagTestReject, "0x%x/0x%x",
	ConnmarkFlags::STRICT_RESOLVED_REJECT,
	ConnmarkFlags::STRICT_RESOLVED_REJECT);

	int res = 0;

	disableStrict();

	// Chain triggered when cleartext socket detected and penalty is log
	res \|= execIptables(V4V6, "-N", LOCAL_PENALTY_LOG, NULL);
	res \|= execIptables(V4V6, "-A", LOCAL_PENALTY_LOG,
	"-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);
	res \|= execIptables(V4V6, "-A", LOCAL_PENALTY_LOG,
	"-j", "NFLOG", "--nflog-group", "0", NULL);

	// Chain triggered when cleartext socket detected and penalty is reject
	res \|= execIptables(V4V6, "-N", LOCAL_PENALTY_REJECT, NULL);
	res \|= execIptables(V4V6, "-A", LOCAL_PENALTY_REJECT,
	"-j", "CONNMARK", "--or-mark", connmarkFlagReject, NULL);
	res \|= execIptables(V4V6, "-A", LOCAL_PENALTY_REJECT,
	"-j", "NFLOG", "--nflog-group", "0", NULL);
	res \|= execIptables(V4V6, "-A", LOCAL_PENALTY_REJECT,
	"-j", "REJECT", NULL);

	// Create chain to detect non-TLS traffic. We use a high-order
	// mark bit to keep track of connections that we've already resolved.
	res \|= execIptables(V4V6, "-N", LOCAL_CLEAR_DETECT, NULL);
	res \|= execIptables(V4V6, "-N", LOCAL_CLEAR_CAUGHT, NULL);

	// Quickly skip connections that we've already resolved
	res \|= execIptables(V4V6, "-A", LOCAL_CLEAR_DETECT,
	"-m", "connmark", "--mark", connmarkFlagTestReject,
	"-j", "REJECT", NULL);
	res \|= execIptables(V4V6, "-A", LOCAL_CLEAR_DETECT,
	"-m", "connmark", "--mark", connmarkFlagTestAccept,
	"-j", "RETURN", NULL);

	// Look for IPv4 TCP/UDP connections with TLS/DTLS header
	res \|= execIptables(V4, "-A", LOCAL_CLEAR_DETECT, "-p", "tcp",
	"-m", "u32", "--u32", "0>>22&0x3C@ 12>>26&0x3C@ 0&0xFFFF0000=0x16030000 &&"
	"0>>22&0x3C@ 12>>26&0x3C@ 4&0x00FF0000=0x00010000",
	"-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);
	res \|= execIptables(V4, "-A", LOCAL_CLEAR_DETECT, "-p", "udp",
	"-m", "u32", "--u32", "0>>22&0x3C@ 8&0xFFFF0000=0x16FE0000 &&"
	"0>>22&0x3C@ 20&0x00FF0000=0x00010000",
	"-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);

	// Look for IPv6 TCP/UDP connections with TLS/DTLS header. The IPv6 header
	// doesn't have an IHL field to shift with, so we have to manually add in
	// the 40-byte offset at every step.
	res \|= execIptables(V6, "-A", LOCAL_CLEAR_DETECT, "-p", "tcp",
	"-m", "u32", "--u32", "52>>26&0x3C@ 40&0xFFFF0000=0x16030000 &&"
	"52>>26&0x3C@ 44&0x00FF0000=0x00010000",
	"-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);
	res \|= execIptables(V6, "-A", LOCAL_CLEAR_DETECT, "-p", "udp",
	"-m", "u32", "--u32", "48&0xFFFF0000=0x16FE0000 &&"
	"60&0x00FF0000=0x00010000",
	"-j", "CONNMARK", "--or-mark", connmarkFlagAccept, NULL);

	// Skip newly classified connections from above
	res \|= execIptables(V4V6, "-A", LOCAL_CLEAR_DETECT,
	"-m", "connmark", "--mark", connmarkFlagTestAccept,
	"-j", "RETURN", NULL);

	// Handle TCP/UDP payloads that didn't match TLS/DTLS filters above,
	// which means we've probably found cleartext data. The TCP variant
	// depends on u32 returning false when we try reading into the message
	// body to ignore empty ACK packets.
	res \|= execIptables(V4, "-A", LOCAL_CLEAR_DETECT, "-p", "tcp",
	"-m", "state", "--state", "ESTABLISHED",
	"-m", "u32", "--u32", "0>>22&0x3C@ 12>>26&0x3C@ 0&0x0=0x0",
	"-j", LOCAL_CLEAR_CAUGHT, NULL);
	res \|= execIptables(V6, "-A", LOCAL_CLEAR_DETECT, "-p", "tcp",
	"-m", "state", "--state", "ESTABLISHED",
	"-m", "u32", "--u32", "52>>26&0x3C@ 40&0x0=0x0",
	"-j", LOCAL_CLEAR_CAUGHT, NULL);

	res \|= execIptables(V4V6, "-A", LOCAL_CLEAR_DETECT, "-p", "udp",
	"-j", LOCAL_CLEAR_CAUGHT, NULL);

	return res;
	}

	int StrictController::disableStrict(void) {
	int res = 0;

	// Flush any existing rules
	res \|= execIptables(V4V6, "-F", LOCAL_OUTPUT, NULL);

	res \|= execIptables(V4V6, "-F", LOCAL_PENALTY_LOG, NULL);
	res \|= execIptables(V4V6, "-F", LOCAL_PENALTY_REJECT, NULL);
	res \|= execIptables(V4V6, "-F", LOCAL_CLEAR_CAUGHT, NULL);
	res \|= execIptables(V4V6, "-F", LOCAL_CLEAR_DETECT, NULL);

	res \|= execIptables(V4V6, "-X", LOCAL_PENALTY_LOG, NULL);
	res \|= execIptables(V4V6, "-X", LOCAL_PENALTY_REJECT, NULL);
	res \|= execIptables(V4V6, "-X", LOCAL_CLEAR_CAUGHT, NULL);
	res \|= execIptables(V4V6, "-X", LOCAL_CLEAR_DETECT, NULL);

	return res;
	}

	int StrictController::setUidCleartextPenalty(uid_t uid, StrictPenalty penalty) {
	char uidStr[16];
	sprintf(uidStr, "%d", uid);

	int res = 0;
	if (penalty == ACCEPT) {
	// Clean up any old rules
	execIptables(V4V6, "-D", LOCAL_OUTPUT,
	"-m", "owner", "--uid-owner", uidStr,
	"-j", LOCAL_CLEAR_DETECT, NULL);
	execIptables(V4V6, "-D", LOCAL_CLEAR_CAUGHT,
	"-m", "owner", "--uid-owner", uidStr,
	"-j", LOCAL_PENALTY_LOG, NULL);
	execIptables(V4V6, "-D", LOCAL_CLEAR_CAUGHT,
	"-m", "owner", "--uid-owner", uidStr,
	"-j", LOCAL_PENALTY_REJECT, NULL);

	} else {
	// Always take a detour to investigate this UID
	res \|= execIptables(V4V6, "-I", LOCAL_OUTPUT,
	"-m", "owner", "--uid-owner", uidStr,
	"-j", LOCAL_CLEAR_DETECT, NULL);

	if (penalty == LOG) {
	res \|= execIptables(V4V6, "-I", LOCAL_CLEAR_CAUGHT,
	"-m", "owner", "--uid-owner", uidStr,
	"-j", LOCAL_PENALTY_LOG, NULL);
	} else if (penalty == REJECT) {
	res \|= execIptables(V4V6, "-I", LOCAL_CLEAR_CAUGHT,
	"-m", "owner", "--uid-owner", uidStr,
	"-j", LOCAL_PENALTY_REJECT, NULL);
	}
	}

	return res;
	}