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android_mt6572_jiabo/system/netd/server/FirewallController.cpp
FuQuan 3ff2876a30 first commit
2025-09-05 16:56:03 +08:00

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/*
* Copyright (C) 2012 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 "FirewallController"
#define LOG_NDEBUG 0
#include <android-base/stringprintf.h>
#include <cutils/log.h>
#include "NetdConstants.h"
#include "FirewallController.h"
using android::base::StringAppendF;
auto FirewallController::execIptables = ::execIptables;
auto FirewallController::execIptablesSilently = ::execIptablesSilently;
auto FirewallController::execIptablesRestore = ::execIptablesRestore;
const char* FirewallController::TABLE = "filter";
const char* FirewallController::LOCAL_INPUT = "fw_INPUT";
const char* FirewallController::LOCAL_OUTPUT = "fw_OUTPUT";
const char* FirewallController::LOCAL_FORWARD = "fw_FORWARD";
const char* FirewallController::LOCAL_DOZABLE = "fw_dozable";
const char* FirewallController::LOCAL_STANDBY = "fw_standby";
const char* FirewallController::LOCAL_POWERSAVE = "fw_powersave";
// ICMPv6 types that are required for any form of IPv6 connectivity to work. Note that because the
// fw_dozable chain is called from both INPUT and OUTPUT, this includes both packets that we need
// to be able to send (e.g., RS, NS), and packets that we need to receive (e.g., RA, NA).
const char* FirewallController::ICMPV6_TYPES[] = {
"packet-too-big",
"router-solicitation",
"router-advertisement",
"neighbour-solicitation",
"neighbour-advertisement",
"redirect",
};
FirewallController::FirewallController(void) {
// If no rules are set, it's in BLACKLIST mode
mFirewallType = BLACKLIST;
}
int FirewallController::setupIptablesHooks(void) {
int res = 0;
// child chains are created but not attached, they will be attached explicitly.
FirewallType firewallType = getFirewallType(DOZABLE);
res |= createChain(LOCAL_DOZABLE, LOCAL_INPUT, firewallType);
firewallType = getFirewallType(STANDBY);
res |= createChain(LOCAL_STANDBY, LOCAL_INPUT, firewallType);
firewallType = getFirewallType(POWERSAVE);
res |= createChain(LOCAL_POWERSAVE, LOCAL_INPUT, firewallType);
return res;
}
int FirewallController::enableFirewall(FirewallType ftype) {
int res = 0;
if (mFirewallType != ftype) {
// flush any existing rules
disableFirewall();
if (ftype == WHITELIST) {
// create default rule to drop all traffic
res |= execIptables(V4V6, "-A", LOCAL_INPUT, "-j", "DROP", NULL);
res |= execIptables(V4V6, "-A", LOCAL_OUTPUT, "-j", "REJECT", NULL);
res |= execIptables(V4V6, "-A", LOCAL_FORWARD, "-j", "REJECT", NULL);
}
// Set this after calling disableFirewall(), since it defaults to WHITELIST there
mFirewallType = ftype;
}
return res;
}
int FirewallController::disableFirewall(void) {
int res = 0;
mFirewallType = WHITELIST;
// flush any existing rules
res |= execIptables(V4V6, "-F", LOCAL_INPUT, NULL);
res |= execIptables(V4V6, "-F", LOCAL_OUTPUT, NULL);
res |= execIptables(V4V6, "-F", LOCAL_FORWARD, NULL);
return res;
}
int FirewallController::enableChildChains(ChildChain chain, bool enable) {
int res = 0;
const char* name;
switch(chain) {
case DOZABLE:
name = LOCAL_DOZABLE;
break;
case STANDBY:
name = LOCAL_STANDBY;
break;
case POWERSAVE:
name = LOCAL_POWERSAVE;
break;
default:
return res;
}
if (enable) {
res |= attachChain(name, LOCAL_INPUT);
res |= attachChain(name, LOCAL_OUTPUT);
} else {
res |= detachChain(name, LOCAL_INPUT);
res |= detachChain(name, LOCAL_OUTPUT);
}
return res;
}
int FirewallController::isFirewallEnabled(void) {
// TODO: verify that rules are still in place near top
return -1;
}
int FirewallController::setInterfaceRule(const char* iface, FirewallRule rule) {
if (mFirewallType == BLACKLIST) {
// Unsupported in BLACKLIST mode
return -1;
}
if (!isIfaceName(iface)) {
errno = ENOENT;
return -1;
}
const char* op;
if (rule == ALLOW) {
op = "-I";
} else {
op = "-D";
}
int res = 0;
res |= execIptables(V4V6, op, LOCAL_INPUT, "-i", iface, "-j", "RETURN", NULL);
res |= execIptables(V4V6, op, LOCAL_OUTPUT, "-o", iface, "-j", "RETURN", NULL);
return res;
}
int FirewallController::setEgressSourceRule(const char* addr, FirewallRule rule) {
if (mFirewallType == BLACKLIST) {
// Unsupported in BLACKLIST mode
return -1;
}
IptablesTarget target = V4;
if (strchr(addr, ':')) {
target = V6;
}
const char* op;
if (rule == ALLOW) {
op = "-I";
} else {
op = "-D";
}
int res = 0;
res |= execIptables(target, op, LOCAL_INPUT, "-d", addr, "-j", "RETURN", NULL);
res |= execIptables(target, op, LOCAL_OUTPUT, "-s", addr, "-j", "RETURN", NULL);
return res;
}
int FirewallController::setEgressDestRule(const char* addr, int protocol, int port,
FirewallRule rule) {
if (mFirewallType == BLACKLIST) {
// Unsupported in BLACKLIST mode
return -1;
}
IptablesTarget target = V4;
if (strchr(addr, ':')) {
target = V6;
}
char protocolStr[16];
sprintf(protocolStr, "%d", protocol);
char portStr[16];
sprintf(portStr, "%d", port);
const char* op;
if (rule == ALLOW) {
op = "-I";
} else {
op = "-D";
}
int res = 0;
res |= execIptables(target, op, LOCAL_INPUT, "-s", addr, "-p", protocolStr,
"--sport", portStr, "-j", "RETURN", NULL);
res |= execIptables(target, op, LOCAL_OUTPUT, "-d", addr, "-p", protocolStr,
"--dport", portStr, "-j", "RETURN", NULL);
return res;
}
FirewallType FirewallController::getFirewallType(ChildChain chain) {
switch(chain) {
case DOZABLE:
return WHITELIST;
case STANDBY:
return BLACKLIST;
case POWERSAVE:
return WHITELIST;
case NONE:
return mFirewallType;
default:
return BLACKLIST;
}
}
int FirewallController::setUidRule(ChildChain chain, int uid, FirewallRule rule) {
char uidStr[16];
sprintf(uidStr, "%d", uid);
const char* op;
const char* target;
FirewallType firewallType = getFirewallType(chain);
if (firewallType == WHITELIST) {
target = "RETURN";
// When adding, insert RETURN rules at the front, before the catch-all DROP at the end.
op = (rule == ALLOW)? "-I" : "-D";
} else { // BLACKLIST mode
target = "DROP";
// When adding, append DROP rules at the end, after the RETURN rule that matches TCP RSTs.
op = (rule == DENY)? "-A" : "-D";
}
int res = 0;
switch(chain) {
case DOZABLE:
res |= execIptables(V4V6, op, LOCAL_DOZABLE, "-m", "owner", "--uid-owner",
uidStr, "-j", target, NULL);
break;
case STANDBY:
res |= execIptables(V4V6, op, LOCAL_STANDBY, "-m", "owner", "--uid-owner",
uidStr, "-j", target, NULL);
break;
case POWERSAVE:
res |= execIptables(V4V6, op, LOCAL_POWERSAVE, "-m", "owner", "--uid-owner",
uidStr, "-j", target, NULL);
break;
case NONE:
res |= execIptables(V4V6, op, LOCAL_INPUT, "-m", "owner", "--uid-owner", uidStr,
"-j", target, NULL);
res |= execIptables(V4V6, op, LOCAL_OUTPUT, "-m", "owner", "--uid-owner", uidStr,
"-j", target, NULL);
break;
default:
ALOGW("Unknown child chain: %d", chain);
break;
}
return res;
}
int FirewallController::attachChain(const char* childChain, const char* parentChain) {
return execIptables(V4V6, "-t", TABLE, "-A", parentChain, "-j", childChain, NULL);
}
int FirewallController::detachChain(const char* childChain, const char* parentChain) {
return execIptables(V4V6, "-t", TABLE, "-D", parentChain, "-j", childChain, NULL);
}
int FirewallController::createChain(const char* childChain,
const char* parentChain, FirewallType type) {
execIptablesSilently(V4V6, "-t", TABLE, "-D", parentChain, "-j", childChain, NULL);
std::vector<int32_t> uids;
return replaceUidChain(childChain, type == WHITELIST, uids);
}
std::string FirewallController::makeUidRules(IptablesTarget target, const char *name,
bool isWhitelist, const std::vector<int32_t>& uids) {
std::string commands;
StringAppendF(&commands, "*filter\n:%s -\n", name);
// Always allow networking on loopback.
StringAppendF(&commands, "-A %s -i lo -o lo -j RETURN\n", name);
// Allow TCP RSTs so we can cleanly close TCP connections of apps that no longer have network
// access. Both incoming and outgoing RSTs are allowed.
StringAppendF(&commands, "-A %s -p tcp --tcp-flags RST RST -j RETURN\n", name);
if (isWhitelist) {
// Allow ICMPv6 packets necessary to make IPv6 connectivity work. http://b/23158230 .
if (target == V6) {
for (size_t i = 0; i < ARRAY_SIZE(ICMPV6_TYPES); i++) {
StringAppendF(&commands, "-A %s -p icmpv6 --icmpv6-type %s -j RETURN\n",
name, ICMPV6_TYPES[i]);
}
}
// Always whitelist system UIDs.
StringAppendF(&commands,
"-A %s -m owner --uid-owner %d-%d -j RETURN\n", name, 0, MAX_SYSTEM_UID);
}
// Whitelist or blacklist the specified UIDs.
const char *action = isWhitelist ? "RETURN" : "DROP";
for (auto uid : uids) {
StringAppendF(&commands, "-A %s -m owner --uid-owner %d -j %s\n", name, uid, action);
}
// If it's a whitelist chain, add a default DROP at the end. This is not necessary for a
// blacklist chain, because all user-defined chains implicitly RETURN at the end.
if (isWhitelist) {
StringAppendF(&commands, "-A %s -j DROP\n", name);
}
StringAppendF(&commands, "COMMIT\n\x04"); // EOT.
return commands;
}
int FirewallController::replaceUidChain(
const char *name, bool isWhitelist, const std::vector<int32_t>& uids) {
std::string commands4 = makeUidRules(V4, name, isWhitelist, uids);
std::string commands6 = makeUidRules(V6, name, isWhitelist, uids);
return execIptablesRestore(V4, commands4.c_str()) | execIptablesRestore(V6, commands6.c_str());
}
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