iface_fuzzer/ProtoFuzzerRunner.cpp - platform/test/vts-testcase/fuzz - Git at Google

 /*
  * Copyright 2017 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 "ProtoFuzzerRunner.h"

 #include <dlfcn.h>
 #include <sstream>

 #include "utils/InterfaceSpecUtil.h"
 #include "vintf/HalManifest.h"
 #include "vintf/Version.h"
 #include "vintf/VintfObject.h"

 using android::vintf::HalManifest;
 using android::vintf::Version;

 using std::cerr;
 using std::cout;
 using std::string;
 using std::unordered_map;
 using std::vector;

 namespace android {
 namespace vts {
 namespace fuzzer {

 static string GetDriverName(const CompSpec &comp_spec) {
   stringstream version;
   version.precision(1);
   version << fixed << comp_spec.component_type_version();
   string driver_name =
       comp_spec.package() + "@" + version.str() + "-vts.driver.so";
   return driver_name;
 }

 static string GetServiceName(const CompSpec &comp_spec) {
   string hal_name = comp_spec.package();
   string hal_version = GetVersionString(comp_spec.component_type_version());
   string iface_name = comp_spec.component_name();

   size_t major_version =
       std::stoul(hal_version.substr(0, hal_version.find(".")));
   size_t minor_version =
       std::stoul(hal_version.substr(hal_version.find(".") + 1));

   auto instance_names =
       ::android::vintf::VintfObject::GetDeviceHalManifest()->getInstances(
           hal_name, Version(major_version, minor_version), iface_name);
   if (instance_names.empty()) {
     cerr << "HAL service name not available in VINTF." << endl;
     std::abort();
   }

   // For fuzzing we don't care which instance of the HAL is targeted.
   string service_name = *instance_names.begin();
   cout << "Available HAL instances: " << endl;
   for (const string &instance_name : instance_names) {
     cout << instance_name << endl;
   }
   cout << "Using HAL instance: " << service_name << endl;

   return service_name;
 }

 static void *Dlopen(string lib_name) {
   // Clear dlerror().
   dlerror();
   void *handle = dlopen(lib_name.c_str(), RTLD_LAZY);
   if (!handle) {
     cerr << __func__ << ": " << dlerror() << endl;
     cerr << __func__ << ": Can't load shared library: " << lib_name << endl;
     std::abort();
   }
   return handle;
 }

 static void *Dlsym(void *handle, string function_name) {
   const char *error;
   // Clear dlerror().
   dlerror();
   void *function = dlsym(handle, function_name.c_str());
   if ((error = dlerror()) != NULL) {
     cerr << __func__ << ": Can't find: " << function_name << endl;
     cerr << error << endl;
     std::abort();
   }
   return function;
 }

 static void GetService(DriverBase *hal, string service_name, bool binder_mode) {
   // For fuzzing, only passthrough mode provides coverage.
   // If binder mode is not requested, attempt to open HAL in passthrough mode.
   // If the attempt fails, fall back to binder mode.
   if (!binder_mode) {
     if (!hal->GetService(true, service_name.c_str())) {
       cerr << __func__ << ": Failed to open HAL in passthrough mode. "
            << "Falling back to binder mode." << endl;
     } else {
       cerr << "HAL opened in passthrough mode." << endl;
       return;
     }
   }

   if (!hal->GetService(false, service_name.c_str())) {
     cerr << __func__ << ": Failed to open HAL in binder mode." << endl;
     std::abort();
   } else {
     cerr << "HAL opened in binder mode." << endl;
     return;
   }
 }

 DriverBase *ProtoFuzzerRunner::LoadInterface(const CompSpec &comp_spec,
                                              uint64_t hidl_service = 0) {
   DriverBase *hal;
   // Clear dlerror().
   dlerror();

   // DriverBase can be constructed with or without an argument.
   // Using different DriverBase constructors requires dlsym'ing different
   // symbols from the driver library.
   string function_name = GetFunctionNamePrefix(comp_spec);
   if (hidl_service) {
     function_name += "with_arg";
     using loader_func = DriverBase *(*)(uint64_t);
     auto hal_loader = (loader_func)Dlsym(driver_handle_, function_name.c_str());
     hal = hal_loader(hidl_service);
   } else {
     using loader_func = DriverBase *(*)();
     auto hal_loader = (loader_func)Dlsym(driver_handle_, function_name.c_str());
     hal = hal_loader();
   }
   return hal;
 }

 ProtoFuzzerRunner::ProtoFuzzerRunner(const vector<CompSpec> &comp_specs) {
   for (const auto &comp_spec : comp_specs) {
     if (comp_spec.has_interface()) {
       string name = comp_spec.component_name();
       comp_specs_[name] = comp_spec;
     }
   }
 }

 void ProtoFuzzerRunner::Init(const string &iface_name, bool binder_mode) {
   const CompSpec *comp_spec = FindCompSpec(iface_name);
   // dlopen VTS driver library.
   string driver_name = GetDriverName(*comp_spec);
   driver_handle_ = Dlopen(driver_name);

   std::shared_ptr<DriverBase> hal{LoadInterface(*comp_spec)};
   string service_name = GetServiceName(*comp_spec);
   cerr << "HAL name: " << comp_spec->package() << endl
        << "Interface name: " << comp_spec->component_name() << endl
        << "Service name: " << service_name << endl;

   // This should only be done for top-level interfaces.
   GetService(hal.get(), service_name, binder_mode);

   // Register this interface as opened by the runner.
   opened_ifaces_[iface_name] = {
       .comp_spec_ = comp_spec, .hal_ = hal,
   };
 }

 void ProtoFuzzerRunner::Execute(const ExecSpec &exec_spec) {
   for (const auto &func_call : exec_spec.function_call()) {
     cout << func_call.DebugString() << endl;
     Execute(func_call);
   }
 }

 void ProtoFuzzerRunner::Execute(const FuncCall &func_call) {
   string iface_name = func_call.hidl_interface_name();
   const FuncSpec &func_spec = func_call.api();

   auto iface_desc = opened_ifaces_.find(iface_name);
   if (iface_desc == opened_ifaces_.end()) {
     cerr << "Interface is not open: " << iface_name << endl;
     std::abort();
   }

   FuncSpec result{};
   iface_desc->second.hal_->CallFunction(func_spec, "", &result);

   stats_.RegisterTouch(iface_name, func_spec.name());
   ProcessReturnValue(result);
 }

 static string StripNamespace(const string &type) {
   size_t idx = type.find_last_of(':');
   if (idx == string::npos) {
     return "";
   }
   return type.substr(idx + 1);
 }

 void ProtoFuzzerRunner::ProcessReturnValue(const FuncSpec &result) {
   for (const auto &var : result.return_type_hidl()) {
     // If result contains a pointer to an interface, register it in
     // opened_ifaces_ table. That pointer must not be a nullptr.
     if (var.has_hidl_interface_pointer() && var.hidl_interface_pointer() &&
         var.has_predefined_type()) {
       uint64_t hidl_service = var.hidl_interface_pointer();
       string type = var.predefined_type();
       string iface_name = StripNamespace(type);

       const CompSpec *comp_spec = FindCompSpec(iface_name);
       std::shared_ptr<DriverBase> hal{LoadInterface(*comp_spec, hidl_service)};

       // If this interface has not been seen before, record the fact.
       if (opened_ifaces_.find(iface_name) == opened_ifaces_.end()) {
         cerr << "Discovered new interface: " << iface_name << endl;
       }

       // Register this interface as opened by the runner.
       opened_ifaces_[iface_name] = {
           .comp_spec_ = comp_spec, .hal_ = hal,
       };
     }
   }
 }

 const CompSpec *ProtoFuzzerRunner::FindCompSpec(std::string name) {
   auto comp_spec = comp_specs_.find(name);
   if (comp_spec == comp_specs_.end()) {
     cerr << "VTS spec not found: " << name << endl;
     std::abort();
   }
   return &comp_spec->second;
 }

 }  // namespace fuzzer
 }  // namespace vts
 }  // namespace android
	/*
	* Copyright 2017 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 "ProtoFuzzerRunner.h"

	#include <dlfcn.h>
	#include <sstream>

	#include "utils/InterfaceSpecUtil.h"
	#include "vintf/HalManifest.h"
	#include "vintf/Version.h"
	#include "vintf/VintfObject.h"

	using android::vintf::HalManifest;
	using android::vintf::Version;

	using std::cerr;
	using std::cout;
	using std::string;
	using std::unordered_map;
	using std::vector;

	namespace android {
	namespace vts {
	namespace fuzzer {

	static string GetDriverName(const CompSpec &comp_spec) {
	stringstream version;
	version.precision(1);
	version << fixed << comp_spec.component_type_version();
	string driver_name =
	comp_spec.package() + "@" + version.str() + "-vts.driver.so";
	return driver_name;
	}

	static string GetServiceName(const CompSpec &comp_spec) {
	string hal_name = comp_spec.package();
	string hal_version = GetVersionString(comp_spec.component_type_version());
	string iface_name = comp_spec.component_name();

	size_t major_version =
	std::stoul(hal_version.substr(0, hal_version.find(".")));
	size_t minor_version =
	std::stoul(hal_version.substr(hal_version.find(".") + 1));

	auto instance_names =
	::android::vintf::VintfObject::GetDeviceHalManifest()->getInstances(
	hal_name, Version(major_version, minor_version), iface_name);
	if (instance_names.empty()) {
	cerr << "HAL service name not available in VINTF." << endl;
	std::abort();
	}

	// For fuzzing we don't care which instance of the HAL is targeted.
	string service_name = *instance_names.begin();
	cout << "Available HAL instances: " << endl;
	for (const string &instance_name : instance_names) {
	cout << instance_name << endl;
	}
	cout << "Using HAL instance: " << service_name << endl;

	return service_name;
	}

	static void *Dlopen(string lib_name) {
	// Clear dlerror().
	dlerror();
	void *handle = dlopen(lib_name.c_str(), RTLD_LAZY);
	if (!handle) {
	cerr << __func__ << ": " << dlerror() << endl;
	cerr << __func__ << ": Can't load shared library: " << lib_name << endl;
	std::abort();
	}
	return handle;
	}

	static void Dlsym(void handle, string function_name) {
	const char *error;
	// Clear dlerror().
	dlerror();
	void *function = dlsym(handle, function_name.c_str());
	if ((error = dlerror()) != NULL) {
	cerr << __func__ << ": Can't find: " << function_name << endl;
	cerr << error << endl;
	std::abort();
	}
	return function;
	}

	static void GetService(DriverBase *hal, string service_name, bool binder_mode) {
	// For fuzzing, only passthrough mode provides coverage.
	// If binder mode is not requested, attempt to open HAL in passthrough mode.
	// If the attempt fails, fall back to binder mode.
	if (!binder_mode) {
	if (!hal->GetService(true, service_name.c_str())) {
	cerr << __func__ << ": Failed to open HAL in passthrough mode. "
	<< "Falling back to binder mode." << endl;
	} else {
	cerr << "HAL opened in passthrough mode." << endl;
	return;
	}
	}

	if (!hal->GetService(false, service_name.c_str())) {
	cerr << __func__ << ": Failed to open HAL in binder mode." << endl;
	std::abort();
	} else {
	cerr << "HAL opened in binder mode." << endl;
	return;
	}
	}

	DriverBase *ProtoFuzzerRunner::LoadInterface(const CompSpec &comp_spec,
	uint64_t hidl_service = 0) {
	DriverBase *hal;
	// Clear dlerror().
	dlerror();

	// DriverBase can be constructed with or without an argument.
	// Using different DriverBase constructors requires dlsym'ing different
	// symbols from the driver library.
	string function_name = GetFunctionNamePrefix(comp_spec);
	if (hidl_service) {
	function_name += "with_arg";
	using loader_func = DriverBase ()(uint64_t);
	auto hal_loader = (loader_func)Dlsym(driver_handle_, function_name.c_str());
	hal = hal_loader(hidl_service);
	} else {
	using loader_func = DriverBase ()();
	auto hal_loader = (loader_func)Dlsym(driver_handle_, function_name.c_str());
	hal = hal_loader();
	}
	return hal;
	}

	ProtoFuzzerRunner::ProtoFuzzerRunner(const vector<CompSpec> &comp_specs) {
	for (const auto &comp_spec : comp_specs) {
	if (comp_spec.has_interface()) {
	string name = comp_spec.component_name();
	comp_specs_[name] = comp_spec;
	}
	}
	}

	void ProtoFuzzerRunner::Init(const string &iface_name, bool binder_mode) {
	const CompSpec *comp_spec = FindCompSpec(iface_name);
	// dlopen VTS driver library.
	string driver_name = GetDriverName(*comp_spec);
	driver_handle_ = Dlopen(driver_name);

	std::shared_ptr<DriverBase> hal{LoadInterface(*comp_spec)};
	string service_name = GetServiceName(*comp_spec);
	cerr << "HAL name: " << comp_spec->package() << endl
	<< "Interface name: " << comp_spec->component_name() << endl
	<< "Service name: " << service_name << endl;

	// This should only be done for top-level interfaces.
	GetService(hal.get(), service_name, binder_mode);

	// Register this interface as opened by the runner.
	opened_ifaces_[iface_name] = {
	.comp_spec_ = comp_spec, .hal_ = hal,
	};
	}

	void ProtoFuzzerRunner::Execute(const ExecSpec &exec_spec) {
	for (const auto &func_call : exec_spec.function_call()) {
	cout << func_call.DebugString() << endl;
	Execute(func_call);
	}
	}

	void ProtoFuzzerRunner::Execute(const FuncCall &func_call) {
	string iface_name = func_call.hidl_interface_name();
	const FuncSpec &func_spec = func_call.api();

	auto iface_desc = opened_ifaces_.find(iface_name);
	if (iface_desc == opened_ifaces_.end()) {
	cerr << "Interface is not open: " << iface_name << endl;
	std::abort();
	}

	FuncSpec result{};
	iface_desc->second.hal_->CallFunction(func_spec, "", &result);

	stats_.RegisterTouch(iface_name, func_spec.name());
	ProcessReturnValue(result);
	}

	static string StripNamespace(const string &type) {
	size_t idx = type.find_last_of(':');
	if (idx == string::npos) {
	return "";
	}
	return type.substr(idx + 1);
	}

	void ProtoFuzzerRunner::ProcessReturnValue(const FuncSpec &result) {
	for (const auto &var : result.return_type_hidl()) {
	// If result contains a pointer to an interface, register it in
	// opened_ifaces_ table. That pointer must not be a nullptr.
	if (var.has_hidl_interface_pointer() && var.hidl_interface_pointer() &&
	var.has_predefined_type()) {
	uint64_t hidl_service = var.hidl_interface_pointer();
	string type = var.predefined_type();
	string iface_name = StripNamespace(type);

	const CompSpec *comp_spec = FindCompSpec(iface_name);
	std::shared_ptr<DriverBase> hal{LoadInterface(*comp_spec, hidl_service)};

	// If this interface has not been seen before, record the fact.
	if (opened_ifaces_.find(iface_name) == opened_ifaces_.end()) {
	cerr << "Discovered new interface: " << iface_name << endl;
	}

	// Register this interface as opened by the runner.
	opened_ifaces_[iface_name] = {
	.comp_spec_ = comp_spec, .hal_ = hal,
	};
	}
	}
	}

	const CompSpec *ProtoFuzzerRunner::FindCompSpec(std::string name) {
	auto comp_spec = comp_specs_.find(name);
	if (comp_spec == comp_specs_.end()) {
	cerr << "VTS spec not found: " << name << endl;
	std::abort();
	}
	return &comp_spec->second;
	}

	} // namespace fuzzer
	} // namespace vts
	} // namespace android