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/*
* Copyright (c) 2017, The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef DBG
#define DBG true
#endif /* DBG */
#define LOG_TAG "IPAHALService"
/* HIDL Includes */
#include <hwbinder/IPCThreadState.h>
#include <hwbinder/ProcessState.h>
/* Kernel Includes */
#include <linux/netfilter/nfnetlink_compat.h>
/* External Includes */
#include <cutils/log.h>
#include <cstring>
#include <sys/socket.h>
#include <sys/types.h>
#include <vector>
/* Internal Includes */
#include "HAL.h"
#include "LocalLogBuffer.h"
#include "PrefixParser.h"
/* Namespace pollution avoidance */
using ::android::hardware::Void;
using ::android::status_t;
using RET = ::IOffloadManager::RET;
using Prefix = ::IOffloadManager::Prefix;
using ::std::map;
using ::std::vector;
/* ------------------------------ PUBLIC ------------------------------------ */
Return<::android::sp<HAL>> HAL::makeIPAHAL(int version, IOffloadManager* mgr) {
android::hardware::ProcessState::initWithMmapSize((size_t)(2 * KERNEL_PAGE));
if (DBG)
ALOGI("makeIPAHAL(%d, %s)", version,
(mgr != nullptr) ? "provided" : "null");
if (nullptr == mgr) return NULL;
else if (version != 1) return NULL;
::android::sp<HAL> ret = new HAL(mgr);
if (nullptr == ret) return NULL;
configureRpcThreadpool(1, false);
ret->registerAsSystemService("ipacm");
return ret;
} /* makeIPAHAL */
/* ------------------------------ PRIVATE ----------------------------------- */
HAL::HAL(IOffloadManager* mgr) : mLogs("HAL Function Calls", 50) {
mIPA = mgr;
mCb.clear();
mCb_1_1.clear();
mCbIpa = nullptr;
mCbCt = nullptr;
} /* HAL */
void HAL::registerAsSystemService(const char* name) {
status_t ret = 0;
ret = IOffloadControl::registerAsService();
if (ret != 0) ALOGE("Failed to register IOffloadControl (%d) name(%s)", ret, name);
else if (DBG) {
ALOGI("Successfully registered IOffloadControl");
}
ret = IOffloadConfig::registerAsService();
if (ret != 0) ALOGE("Failed to register IOffloadConfig (%d)", ret);
else if (DBG) {
ALOGI("Successfully registered IOffloadConfig");
}
} /* registerAsSystemService */
void HAL::doLogcatDump() {
ALOGD("mHandles");
ALOGD("========");
/* @TODO This will segfault if they aren't initialized and I don't currently
* care to check for initialization in a function that isn't used anyways
* ALOGD("fd1->%d", mHandle1->data[0]);
* ALOGD("fd2->%d", mHandle2->data[0]);
*/
ALOGD("========");
} /* doLogcatDump */
HAL::BoolResult HAL::makeInputCheckFailure(string customErr) {
BoolResult ret;
ret.success = false;
ret.errMsg = "Failed Input Checks: " + customErr;
return ret;
} /* makeInputCheckFailure */
HAL::BoolResult HAL::ipaResultToBoolResult(RET in) {
BoolResult ret;
ret.success = (in >= RET::SUCCESS);
switch (in) {
case RET::FAIL_TOO_MANY_PREFIXES:
ret.errMsg = "Too Many Prefixes Provided";
break;
case RET::FAIL_UNSUPPORTED:
ret.errMsg = "Unsupported by Hardware";
break;
case RET::FAIL_INPUT_CHECK:
ret.errMsg = "Failed Input Checks";
break;
case RET::FAIL_HARDWARE:
ret.errMsg = "Hardware did not accept";
break;
case RET::FAIL_TRY_AGAIN:
ret.errMsg = "Try Again";
break;
case RET::SUCCESS:
ret.errMsg = "Successful";
break;
case RET::SUCCESS_DUPLICATE_CONFIG:
ret.errMsg = "Successful: Was a duplicate configuration";
break;
case RET::SUCCESS_NO_OP:
ret.errMsg = "Successful: No action needed";
break;
case RET::SUCCESS_OPTIMIZED:
ret.errMsg = "Successful: Performed optimized version of action";
break;
default:
ret.errMsg = "Unknown Error";
break;
}
return ret;
} /* ipaResultToBoolResult */
/* This will likely always result in doubling the number of loops the execution
* goes through. Obviously that is suboptimal. But if we first translate
* away from all HIDL specific code, then we can avoid sprinkling HIDL
* dependencies everywhere.
*/
vector<string> HAL::convertHidlStrToStdStr(hidl_vec<hidl_string> in) {
vector<string> ret;
for (size_t i = 0; i < in.size(); i++) {
string add = in[i];
ret.push_back(add);
}
return ret;
} /* convertHidlStrToStdStr */
void HAL::registerEventListeners() {
registerIpaCb();
registerCtCb();
} /* registerEventListeners */
void HAL::registerIpaCb() {
if (isInitialized() && mCbIpa == nullptr) {
LocalLogBuffer::FunctionLog fl("registerEventListener");
mCbIpa = new IpaEventRelay(mCb, mCb_1_1);
mIPA->registerEventListener(mCbIpa);
mLogs.addLog(fl);
} else {
ALOGE("Failed to registerIpaCb (isInitialized()=%s, (mCbIpa == nullptr)=%s)",
isInitialized() ? "true" : "false",
(mCbIpa == nullptr) ? "true" : "false");
}
} /* registerIpaCb */
void HAL::registerCtCb() {
if (isInitialized() && mCbCt == nullptr) {
LocalLogBuffer::FunctionLog fl("registerCtTimeoutUpdater");
// We can allways use the 1.0 callback here since it is always guarenteed to
// be non-nullptr if any version is created.
mCbCt = new CtUpdateAmbassador(mCb);
mIPA->registerCtTimeoutUpdater(mCbCt);
mLogs.addLog(fl);
} else {
ALOGE("Failed to registerCtCb (isInitialized()=%s, (mCbCt == nullptr)=%s)",
isInitialized() ? "true" : "false",
(mCbCt == nullptr) ? "true" : "false");
}
} /* registerCtCb */
void HAL::unregisterEventListeners() {
unregisterIpaCb();
unregisterCtCb();
} /* unregisterEventListeners */
void HAL::unregisterIpaCb() {
if (mCbIpa != nullptr) {
LocalLogBuffer::FunctionLog fl("unregisterEventListener");
mIPA->unregisterEventListener(mCbIpa);
mCbIpa = nullptr;
mLogs.addLog(fl);
} else {
ALOGE("Failed to unregisterIpaCb");
}
} /* unregisterIpaCb */
void HAL::unregisterCtCb() {
if (mCbCt != nullptr) {
LocalLogBuffer::FunctionLog fl("unregisterCtTimeoutUpdater");
mIPA->unregisterCtTimeoutUpdater(mCbCt);
mCbCt = nullptr;
mLogs.addLog(fl);
} else {
ALOGE("Failed to unregisterCtCb");
}
} /* unregisterCtCb */
void HAL::clearHandles() {
ALOGI("clearHandles()");
/* @TODO handle this more gracefully... also remove the log
*
* Things that would be nice, but I can't do:
* [1] Destroy the object (it's on the stack)
* [2] Call freeHandle (it's private)
*
* Things I can do but are hacks:
* [1] Look at code and notice that setTo immediately calls freeHandle
*/
mHandle1.setTo(nullptr, true);
mHandle2.setTo(nullptr, true);
} /* clearHandles */
bool HAL::isInitialized() {
// Only have to check 1.0 Callback since it will always be created.
return mCb.get() != nullptr;
} /* isInitialized */
/* -------------------------- IOffloadConfig -------------------------------- */
Return<void> HAL::setHandles(
const hidl_handle &fd1,
const hidl_handle &fd2,
setHandles_cb hidl_cb
) {
LocalLogBuffer::FunctionLog fl(__func__);
if (fd1->numFds != 1) {
BoolResult res = makeInputCheckFailure("Must provide exactly one FD per handle (fd1)");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
return Void();
}
if (fd2->numFds != 1) {
BoolResult res = makeInputCheckFailure("Must provide exactly one FD per handle (fd2)");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
return Void();
}
/* The = operator calls freeHandle internally. Therefore, if we were using
* these handles previously, they're now gone... forever. But hopefully the
* new ones kick in very quickly.
*
* After freeing anything previously held, it will dup the FD so we have our
* own copy.
*/
mHandle1 = fd1;
mHandle2 = fd2;
/* Log the DUPed FD instead of the actual input FD so that we can lookup
* this value in ls -l /proc/<pid>/<fd>
*/
fl.addArg("fd1", mHandle1->data[0]);
fl.addArg("fd2", mHandle2->data[0]);
/* Try to provide each handle to IPACM. Destroy our DUPed hidl_handles if
* IPACM does not like either input. This keeps us from leaking FDs or
* providing half solutions.
*
* @TODO unfortunately, this does not cover duplicate configs where IPACM
* thinks it is still holding on to a handle that we would have freed above.
* It also probably means that IPACM would not know about the first FD being
* freed if it rejects the second FD.
*/
RET ipaReturn = mIPA->provideFd(mHandle1->data[0], UDP_SUBSCRIPTIONS);
if (ipaReturn == RET::SUCCESS) {
ipaReturn = mIPA->provideFd(mHandle2->data[0], TCP_SUBSCRIPTIONS);
}
if (ipaReturn != RET::SUCCESS) {
ALOGE("IPACM failed to accept the FDs (%d %d)", mHandle1->data[0],
mHandle2->data[0]);
clearHandles();
} else {
/* @TODO remove logs after stabilization */
ALOGI("IPACM was provided two FDs (%d, %d)", mHandle1->data[0],
mHandle2->data[0]);
}
BoolResult res = ipaResultToBoolResult(ipaReturn);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
return Void();
} /* setHandles */
/* -------------------------- IOffloadControl ------------------------------- */
Return<void> HAL::initOffload
(
const ::android::sp<V1_0::ITetheringOffloadCallback>& cb,
initOffload_cb hidl_cb
) {
LocalLogBuffer::FunctionLog fl(__func__);
if (isInitialized()) {
BoolResult res = makeInputCheckFailure("Already initialized");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
} else {
/* Should storing the CB be a function? */
mCb = cb;
mCb_1_1 = V1_1::ITetheringOffloadCallback::castFrom(cb).withDefault(nullptr);
// As long as 1 callback version is supported we are fine.
if (mCb == nullptr && mCb_1_1 == nullptr) {
BoolResult res = makeInputCheckFailure("callbacks are nullptr");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
} else {
registerEventListeners();
BoolResult res = ipaResultToBoolResult(RET::SUCCESS);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
}
}
return Void();
} /* initOffload */
Return<void> HAL::stopOffload
(
stopOffload_cb hidl_cb
) {
LocalLogBuffer::FunctionLog fl(__func__);
if (!isInitialized()) {
BoolResult res = makeInputCheckFailure("Was never initialized");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
} else {
/* Should removing the CB be a function? */
mCb.clear();
mCb_1_1.clear();
unregisterEventListeners();
RET ipaReturn = mIPA->stopAllOffload();
if (ipaReturn != RET::SUCCESS) {
/* Ignore IPAs return value here and provide why stopAllOffload
* failed. However, if IPA failed to clearAllFds, then we can't
* clear our map because they may still be in use.
*/
RET ret = mIPA->clearAllFds();
if (ret == RET::SUCCESS) {
clearHandles();
}
} else {
ipaReturn = mIPA->clearAllFds();
/* If IPA fails, they may still be using these for some reason. */
if (ipaReturn == RET::SUCCESS) {
clearHandles();
} else {
ALOGE("IPACM failed to return success for clearAllFds so they will not be released...");
}
}
BoolResult res = ipaResultToBoolResult(ipaReturn);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
}
return Void();
} /* stopOffload */
Return<void> HAL::setLocalPrefixes
(
const hidl_vec<hidl_string>& prefixes,
setLocalPrefixes_cb hidl_cb
) {
BoolResult res;
PrefixParser parser;
vector<string> prefixesStr = convertHidlStrToStdStr(prefixes);
LocalLogBuffer::FunctionLog fl(__func__);
fl.addArg("prefixes", prefixesStr);
memset(&res,0,sizeof(BoolResult));
if (!isInitialized()) {
res = makeInputCheckFailure("Not initialized");
} else if(prefixesStr.size() < 1) {
res = ipaResultToBoolResult(RET::FAIL_INPUT_CHECK);
} else if (!parser.add(prefixesStr)) {
res = makeInputCheckFailure(parser.getLastErrAsStr());
} else {
res = ipaResultToBoolResult(RET::SUCCESS);
}
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
mLogs.addLog(fl);
return Void();
} /* setLocalPrefixes */
Return<void> HAL::getForwardedStats
(
const hidl_string& upstream,
getForwardedStats_cb hidl_cb
) {
LocalLogBuffer::FunctionLog fl(__func__);
fl.addArg("upstream", upstream);
OffloadStatistics ret;
RET ipaReturn = mIPA->getStats(upstream.c_str(), true, ret);
if (ipaReturn == RET::SUCCESS) {
hidl_cb(ret.getTotalRxBytes(), ret.getTotalTxBytes());
fl.setResult(ret.getTotalRxBytes(), ret.getTotalTxBytes());
} else {
/* @TODO Ensure the output is zeroed, but this is probably not enough to
* tell Framework that an error has occurred. If, for example, they had
* not yet polled for statistics previously, they may incorrectly assume
* that simply no statistics have transpired on hardware path.
*
* Maybe ITetheringOffloadCallback:onEvent(OFFLOAD_STOPPED_ERROR) is
* enough to handle this case, time will tell.
*/
hidl_cb(0, 0);
fl.setResult(0, 0);
}
mLogs.addLog(fl);
return Void();
} /* getForwardedStats */
Return<void> HAL::setDataLimit
(
const hidl_string& upstream,
uint64_t limit,
setDataLimit_cb hidl_cb
) {
LocalLogBuffer::FunctionLog fl(__func__);
fl.addArg("upstream", upstream);
fl.addArg("limit", limit);
if (!isInitialized()) {
BoolResult res = makeInputCheckFailure("Not initialized (setDataLimit)");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else {
RET ipaReturn = mIPA->setQuota(upstream.c_str(), limit);
if(ipaReturn == RET::FAIL_TRY_AGAIN) {
ipaReturn = RET::SUCCESS;
}
BoolResult res = ipaResultToBoolResult(ipaReturn);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
}
mLogs.addLog(fl);
return Void();
} /* setDataLimit */
Return<void> HAL::setUpstreamParameters
(
const hidl_string& iface,
const hidl_string& v4Addr,
const hidl_string& v4Gw,
const hidl_vec<hidl_string>& v6Gws,
setUpstreamParameters_cb hidl_cb
) {
vector<string> v6GwStrs = convertHidlStrToStdStr(v6Gws);
LocalLogBuffer::FunctionLog fl(__func__);
fl.addArg("iface", iface);
fl.addArg("v4Addr", v4Addr);
fl.addArg("v4Gw", v4Gw);
fl.addArg("v6Gws", v6GwStrs);
PrefixParser v4AddrParser;
PrefixParser v4GwParser;
PrefixParser v6GwParser;
/* @TODO maybe we should enforce that these addresses and gateways are fully
* qualified here. But then, how do we allow them to be empty/null as well
* while still preserving a sane API on PrefixParser?
*/
if (!isInitialized()) {
BoolResult res = makeInputCheckFailure("Not initialized (setUpstreamParameters)");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else if (!v4AddrParser.addV4(v4Addr) && !v4Addr.empty()) {
BoolResult res = makeInputCheckFailure(v4AddrParser.getLastErrAsStr());
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else if (!v4GwParser.addV4(v4Gw) && !v4Gw.empty()) {
BoolResult res = makeInputCheckFailure(v4GwParser.getLastErrAsStr());
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else if (v6GwStrs.size() >= 1 && !v6GwParser.addV6(v6GwStrs)) {
BoolResult res = makeInputCheckFailure(v6GwParser.getLastErrAsStr());
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else if (iface.size()>= 1) {
RET ipaReturn = mIPA->setUpstream(
iface.c_str(),
v4GwParser.getFirstPrefix(),
v6GwParser.getFirstPrefix());
BoolResult res = ipaResultToBoolResult(ipaReturn);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else {
/* send NULL iface string when upstream down */
RET ipaReturn = mIPA->setUpstream(
NULL,
v4GwParser.getFirstPrefix(IP_FAM::V4),
v6GwParser.getFirstPrefix(IP_FAM::V6));
BoolResult res = ipaResultToBoolResult(ipaReturn);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
}
mLogs.addLog(fl);
return Void();
} /* setUpstreamParameters */
Return<void> HAL::addDownstream
(
const hidl_string& iface,
const hidl_string& prefix,
addDownstream_cb hidl_cb
) {
LocalLogBuffer::FunctionLog fl(__func__);
fl.addArg("iface", iface);
fl.addArg("prefix", prefix);
PrefixParser prefixParser;
if (!isInitialized()) {
BoolResult res = makeInputCheckFailure("Not initialized (addDownstream)");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
}
else if (!prefixParser.add(prefix)) {
BoolResult res = makeInputCheckFailure(prefixParser.getLastErrAsStr());
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else {
RET ipaReturn = mIPA->addDownstream(
iface.c_str(),
prefixParser.getFirstPrefix());
BoolResult res = ipaResultToBoolResult(ipaReturn);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
}
mLogs.addLog(fl);
return Void();
} /* addDownstream */
Return<void> HAL::removeDownstream
(
const hidl_string& iface,
const hidl_string& prefix,
removeDownstream_cb hidl_cb
) {
LocalLogBuffer::FunctionLog fl(__func__);
fl.addArg("iface", iface);
fl.addArg("prefix", prefix);
PrefixParser prefixParser;
if (!isInitialized()) {
BoolResult res = makeInputCheckFailure("Not initialized (removeDownstream)");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
}
else if (!prefixParser.add(prefix)) {
BoolResult res = makeInputCheckFailure(prefixParser.getLastErrAsStr());
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else {
RET ipaReturn = mIPA->removeDownstream(
iface.c_str(),
prefixParser.getFirstPrefix());
BoolResult res = ipaResultToBoolResult(ipaReturn);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
}
mLogs.addLog(fl);
return Void();
} /* removeDownstream */
Return<void> HAL::setDataWarningAndLimit
(
const hidl_string& upstream,
uint64_t warningBytes,
uint64_t limitBytes,
setDataWarningAndLimit_cb hidl_cb
) {
LocalLogBuffer::FunctionLog fl(__func__);
fl.addArg("upstream", upstream);
fl.addArg("warningBytes", warningBytes);
fl.addArg("limitBytes", limitBytes);
// Can only be called from HAL 1.1 so no check here is needed.
if (!isInitialized()) {
BoolResult res = makeInputCheckFailure("Not initialized (setDataWarningAndLimit)");
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
} else {
RET ipaReturn = mIPA->setQuotaWarning(upstream.c_str(), limitBytes, warningBytes);
if(ipaReturn == RET::FAIL_TRY_AGAIN) {
ipaReturn = RET::SUCCESS;
}
BoolResult res = ipaResultToBoolResult(ipaReturn);
hidl_cb(res.success, res.errMsg);
fl.setResult(res.success, res.errMsg);
}
mLogs.addLog(fl);
return Void();
} /* setDataWarningAndLimit */