src/developer/forensics/exceptions/process_limbo_manager.cc - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.

 #include "src/developer/forensics/exceptions/process_limbo_manager.h"

 #include <lib/syslog/cpp/macros.h>

 #include "fuchsia/exception/cpp/fidl.h"
 #include "src/lib/fsl/handles/object_info.h"

 namespace forensics {
 namespace exceptions {

 namespace {

 using fuchsia::exception::MAX_EXCEPTIONS_PER_CALL;
 using fuchsia::exception::ProcessException;
 using fuchsia::exception::ProcessExceptionMetadata;

 // Removes all stale weak pointers from the handler list.
 void PruneStaleHandlers(std::vector<fxl::WeakPtr<ProcessLimboHandler>>* handlers) {
   // We only move active handlers to the new list.
   std::vector<fxl::WeakPtr<ProcessLimboHandler>> new_handlers;
   for (auto& handler : *handlers) {
     if (handler)
       new_handlers.push_back(std::move(handler));
   }

   *handlers = std::move(new_handlers);
 }

 // This verification was getting repeated for every call.
 template <typename CallbackType>
 bool VerifyState(const fxl::WeakPtr<ProcessLimboManager> limbo_manager, CallbackType* cb) {
   if (!limbo_manager) {
     (*cb)(fit::error(ZX_ERR_UNAVAILABLE));
     return false;
   }
   return true;
 }

 std::vector<std::string> CreateFilterVector(const std::set<std::string>& filter_set) {
   std::vector<std::string> filters;
   filters.reserve(filter_set.size());

   for (auto& filter : filter_set) {
     filters.emplace_back(filter);
   }

   return filters;
 }

 }  // namespace

 ProcessLimboManager::ProcessLimboManager() : weak_factory_(this) {
   // Set the default function for getting process names.
   obtain_process_name_fn_ = [](zx_handle_t handle) -> std::string {
     return fsl::GetObjectName(handle);
   };
 }

 fxl::WeakPtr<ProcessLimboManager> ProcessLimboManager::GetWeakPtr() {
   return weak_factory_.GetWeakPtr();
 }

 void ProcessLimboManager::AddToLimbo(ProcessException process_exception) {
   // Check filters.
   auto process_name = obtain_process_name_fn_(process_exception.process().get());

   // Empty names will be stored within the limbo.
   if (!process_name.empty() && !filters_.empty()) {
     // Search for a partial match over the filters.
     bool filter_found = false;
     for (auto& filter : filters_) {
       if (process_name.find(filter) != std::string::npos) {
         filter_found = true;
         break;
       }
     }

     // If a matching filter was found, we will not store this process.
     if (filter_found)
       return;
   }

   limbo_[process_exception.info().process_koid] = std::move(process_exception);

   NotifyLimboChanged();
 }

 void ProcessLimboManager::NotifyLimboChanged() {
   // Notify the handlers of the new list of processes in limbo.
   PruneStaleHandlers(&handlers_);
   for (auto& handler : handlers_) {
     auto limbo_list = ListProcessesInLimbo();
     handler->LimboChanged(std::move(limbo_list));
   }
 }

 void ProcessLimboManager::AddHandler(fxl::WeakPtr<ProcessLimboHandler> handler) {
   handlers_.push_back(std::move(handler));
 }

 void ProcessLimboManager::AppendFiltersForTesting(const std::vector<std::string>& filters) {
   for (auto& filter : filters) {
     filters_.insert(filter);
   }
 }

 std::vector<ProcessExceptionMetadata> ProcessLimboManager::ListProcessesInLimbo() {
   std::vector<ProcessExceptionMetadata> exceptions;

   size_t max_size =
       limbo_.size() <= MAX_EXCEPTIONS_PER_CALL ? limbo_.size() : MAX_EXCEPTIONS_PER_CALL;
   exceptions.reserve(max_size);

   // The new rights of the handles we're going to duplicate.
   zx_rights_t rights =
       ZX_RIGHT_READ | ZX_RIGHT_GET_PROPERTY | ZX_RIGHT_TRANSFER | ZX_RIGHT_DUPLICATE;
   for (const auto& [process_koid, limbo_exception] : limbo_) {
     ProcessExceptionMetadata metadata = {};

     zx::process process;
     if (auto res = limbo_exception.process().duplicate(rights, &process); res != ZX_OK) {
       FX_PLOGS(ERROR, res) << "Could not duplicate process handle.";
       continue;
     }

     zx::thread thread;
     if (auto res = limbo_exception.thread().duplicate(rights, &thread); res != ZX_OK) {
       FX_PLOGS(ERROR, res) << "Could not duplicate thread handle.";
       continue;
     }

     metadata.set_info(limbo_exception.info());
     metadata.set_process(std::move(process));
     metadata.set_thread(std::move(thread));

     exceptions.push_back(std::move(metadata));

     if (exceptions.size() >= MAX_EXCEPTIONS_PER_CALL)
       break;
   }

   return exceptions;
 }

 bool ProcessLimboManager::SetActive(bool active) {
   // Ignore if no change.
   if (active == active_)
     return false;
   active_ = active;

   // If the limbo was disabled, free all the exceptions.
   if (!active_)
     limbo_.clear();

   // Notify the handlers of the new activa state.
   PruneStaleHandlers(&handlers_);
   for (auto& handler : handlers_) {
     handler->ActiveStateChanged(active);
   }

   return true;
 }

 // ProcessLimboHandler -----------------------------------------------------------------------------

 ProcessLimboHandler::ProcessLimboHandler(fxl::WeakPtr<ProcessLimboManager> limbo_manager)
     : limbo_manager_(std::move(limbo_manager)), weak_factory_(this) {}

 fxl::WeakPtr<ProcessLimboHandler> ProcessLimboHandler::GetWeakPtr() {
   return weak_factory_.GetWeakPtr();
 }

 void ProcessLimboHandler::SetActive(bool active, SetActiveCallback cb) {
   // Call the callback before so that the response of this call is sent before any hanging gets.
   cb();
   limbo_manager_->SetActive(active);
 }

 void ProcessLimboHandler::ActiveStateChanged(bool active) {
   if (!is_active_callback_) {
     // Reset the WatchActive state as the state is different from the last time the get was called.
     watch_active_dirty_bit_ = true;
   } else {
     is_active_callback_(active);
     is_active_callback_ = {};
     watch_active_dirty_bit_ = false;
   }

   // If there is a limbo call waiting, we tell them that it's canceled.
   if (!active) {
     if (watch_limbo_callback_) {
       watch_limbo_callback_(fit::error(ZX_ERR_CANCELED));
       watch_limbo_callback_ = {};
       watch_limbo_dirty_bit_ = false;
     } else {
       watch_limbo_dirty_bit_ = true;
     }
   }
 }

 void ProcessLimboHandler::LimboChanged(std::vector<ProcessExceptionMetadata> limbo_list) {
   if (!watch_limbo_callback_) {
     // Reset the hanging get state as the state is different from the first time the get was called.
     watch_limbo_dirty_bit_ = true;
     return;
   }

   watch_limbo_callback_(fit::ok(std::move(limbo_list)));
   watch_limbo_callback_ = {};
   watch_limbo_dirty_bit_ = false;
 }

 void ProcessLimboHandler::WatchActive(WatchActiveCallback cb) {
   if (watch_active_dirty_bit_) {
     watch_active_dirty_bit_ = false;

     bool is_active = !!limbo_manager_ ? limbo_manager_->active() : false;
     cb(is_active);
     return;
   }

   // We store the latest callback for when the active state changes.
   is_active_callback_ = std::move(cb);
 }

 void ProcessLimboHandler::WatchProcessesWaitingOnException(
     WatchProcessesWaitingOnExceptionCallback cb) {
   if (watch_limbo_dirty_bit_) {
     watch_limbo_dirty_bit_ = false;

     if (!limbo_manager_) {
       cb(fit::error(ZX_ERR_BAD_STATE));
       return;
     }

     if (!limbo_manager_->active()) {
       cb(fit::error(ZX_ERR_UNAVAILABLE));
       return;
     }

     auto processes = limbo_manager_->ListProcessesInLimbo();
     cb(fit::ok(std::move(processes)));
     return;
   }

   // Store the latest callback for when the processes enter the limbo.
   watch_limbo_callback_ = std::move(cb);
 }

 void ProcessLimboHandler::RetrieveException(zx_koid_t process_koid, RetrieveExceptionCallback cb) {
   if (!VerifyState(limbo_manager_, &cb))
     return;

   fuchsia::exception::ProcessLimbo_RetrieveException_Result result;

   auto& limbo = limbo_manager_->limbo_;

   auto it = limbo.find(process_koid);
   if (it == limbo.end()) {
     FX_LOGS(WARNING) << "Could not find process " << process_koid << " in limbo.";
     cb(fit::error(ZX_ERR_NOT_FOUND));
     return;
   }

   auto res = fit::ok(std::move(it->second));
   limbo.erase(it);
   cb(std::move(res));

   limbo_manager_->NotifyLimboChanged();
 }

 void ProcessLimboHandler::ReleaseProcess(zx_koid_t process_koid, ReleaseProcessCallback cb) {
   if (!VerifyState(limbo_manager_, &cb))
     return;

   auto& limbo = limbo_manager_->limbo_;

   auto it = limbo.find(process_koid);
   if (it == limbo.end()) {
     return cb(fit::error(ZX_ERR_NOT_FOUND));
   }

   limbo.erase(it);
   cb(fit::ok());

   limbo_manager_->NotifyLimboChanged();
 }

 void ProcessLimboHandler::GetFilters(GetFiltersCallback cb) {
   if (!limbo_manager_) {
     cb({});
     return;
   }

   cb(CreateFilterVector(limbo_manager_->filters_));
 }

 void ProcessLimboHandler::AppendFilters(std::vector<std::string> new_filters,
                                         AppendFiltersCallback cb) {
   if (!VerifyState(limbo_manager_, &cb))
     return;

   auto current_filters = limbo_manager_->filters_;

   for (auto& filter : new_filters) {
     current_filters.insert(filter);
     if (current_filters.size() >= ProcessLimboManager::kMaxFilters) {
       cb(fit::error(ZX_ERR_NO_RESOURCES));
       return;
     }
   }

   limbo_manager_->filters_ = std::move(current_filters);
   cb(fit::ok());
 }

 void ProcessLimboHandler::RemoveFilters(std::vector<std::string> filters,
                                         RemoveFiltersCallback cb) {
   if (!VerifyState(limbo_manager_, &cb))
     return;

   for (auto& filter : filters) {
     limbo_manager_->filters_.erase(filter);
   }

   cb(fit::ok());
 }

 }  // namespace exceptions
 }  // namespace forensics
	// Copyright 2019 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.

	#include "src/developer/forensics/exceptions/process_limbo_manager.h"

	#include <lib/syslog/cpp/macros.h>

	#include "fuchsia/exception/cpp/fidl.h"
	#include "src/lib/fsl/handles/object_info.h"

	namespace forensics {
	namespace exceptions {

	namespace {

	using fuchsia::exception::MAX_EXCEPTIONS_PER_CALL;
	using fuchsia::exception::ProcessException;
	using fuchsia::exception::ProcessExceptionMetadata;

	// Removes all stale weak pointers from the handler list.
	void PruneStaleHandlers(std::vector<fxl::WeakPtr<ProcessLimboHandler>>* handlers) {
	// We only move active handlers to the new list.
	std::vector<fxl::WeakPtr<ProcessLimboHandler>> new_handlers;
	for (auto& handler : *handlers) {
	if (handler)
	new_handlers.push_back(std::move(handler));
	}

	*handlers = std::move(new_handlers);
	}

	// This verification was getting repeated for every call.
	template <typename CallbackType>
	bool VerifyState(const fxl::WeakPtr<ProcessLimboManager> limbo_manager, CallbackType* cb) {
	if (!limbo_manager) {
	(*cb)(fit::error(ZX_ERR_UNAVAILABLE));
	return false;
	}
	return true;
	}

	std::vector<std::string> CreateFilterVector(const std::set<std::string>& filter_set) {
	std::vector<std::string> filters;
	filters.reserve(filter_set.size());

	for (auto& filter : filter_set) {
	filters.emplace_back(filter);
	}

	return filters;
	}

	} // namespace

	ProcessLimboManager::ProcessLimboManager() : weak_factory_(this) {
	// Set the default function for getting process names.
	obtain_process_name_fn_ = [](zx_handle_t handle) -> std::string {
	return fsl::GetObjectName(handle);
	};
	}

	fxl::WeakPtr<ProcessLimboManager> ProcessLimboManager::GetWeakPtr() {
	return weak_factory_.GetWeakPtr();
	}

	void ProcessLimboManager::AddToLimbo(ProcessException process_exception) {
	// Check filters.
	auto process_name = obtain_process_name_fn_(process_exception.process().get());

	// Empty names will be stored within the limbo.
	if (!process_name.empty() && !filters_.empty()) {
	// Search for a partial match over the filters.
	bool filter_found = false;
	for (auto& filter : filters_) {
	if (process_name.find(filter) != std::string::npos) {
	filter_found = true;
	break;
	}
	}

	// If a matching filter was found, we will not store this process.
	if (filter_found)
	return;
	}

	limbo_[process_exception.info().process_koid] = std::move(process_exception);

	NotifyLimboChanged();
	}

	void ProcessLimboManager::NotifyLimboChanged() {
	// Notify the handlers of the new list of processes in limbo.
	PruneStaleHandlers(&handlers_);
	for (auto& handler : handlers_) {
	auto limbo_list = ListProcessesInLimbo();
	handler->LimboChanged(std::move(limbo_list));
	}
	}

	void ProcessLimboManager::AddHandler(fxl::WeakPtr<ProcessLimboHandler> handler) {
	handlers_.push_back(std::move(handler));
	}

	void ProcessLimboManager::AppendFiltersForTesting(const std::vector<std::string>& filters) {
	for (auto& filter : filters) {
	filters_.insert(filter);
	}
	}

	std::vector<ProcessExceptionMetadata> ProcessLimboManager::ListProcessesInLimbo() {
	std::vector<ProcessExceptionMetadata> exceptions;

	size_t max_size =
	limbo_.size() <= MAX_EXCEPTIONS_PER_CALL ? limbo_.size() : MAX_EXCEPTIONS_PER_CALL;
	exceptions.reserve(max_size);

	// The new rights of the handles we're going to duplicate.
	zx_rights_t rights =
	ZX_RIGHT_READ \| ZX_RIGHT_GET_PROPERTY \| ZX_RIGHT_TRANSFER \| ZX_RIGHT_DUPLICATE;
	for (const auto& [process_koid, limbo_exception] : limbo_) {
	ProcessExceptionMetadata metadata = {};

	zx::process process;
	if (auto res = limbo_exception.process().duplicate(rights, &process); res != ZX_OK) {
	FX_PLOGS(ERROR, res) << "Could not duplicate process handle.";
	continue;
	}

	zx::thread thread;
	if (auto res = limbo_exception.thread().duplicate(rights, &thread); res != ZX_OK) {
	FX_PLOGS(ERROR, res) << "Could not duplicate thread handle.";
	continue;
	}

	metadata.set_info(limbo_exception.info());
	metadata.set_process(std::move(process));
	metadata.set_thread(std::move(thread));

	exceptions.push_back(std::move(metadata));

	if (exceptions.size() >= MAX_EXCEPTIONS_PER_CALL)
	break;
	}

	return exceptions;
	}

	bool ProcessLimboManager::SetActive(bool active) {
	// Ignore if no change.
	if (active == active_)
	return false;
	active_ = active;

	// If the limbo was disabled, free all the exceptions.
	if (!active_)
	limbo_.clear();

	// Notify the handlers of the new activa state.
	PruneStaleHandlers(&handlers_);
	for (auto& handler : handlers_) {
	handler->ActiveStateChanged(active);
	}

	return true;
	}

	// ProcessLimboHandler -----------------------------------------------------------------------------

	ProcessLimboHandler::ProcessLimboHandler(fxl::WeakPtr<ProcessLimboManager> limbo_manager)
	: limbo_manager_(std::move(limbo_manager)), weak_factory_(this) {}

	fxl::WeakPtr<ProcessLimboHandler> ProcessLimboHandler::GetWeakPtr() {
	return weak_factory_.GetWeakPtr();
	}

	void ProcessLimboHandler::SetActive(bool active, SetActiveCallback cb) {
	// Call the callback before so that the response of this call is sent before any hanging gets.
	cb();
	limbo_manager_->SetActive(active);
	}

	void ProcessLimboHandler::ActiveStateChanged(bool active) {
	if (!is_active_callback_) {
	// Reset the WatchActive state as the state is different from the last time the get was called.
	watch_active_dirty_bit_ = true;
	} else {
	is_active_callback_(active);
	is_active_callback_ = {};
	watch_active_dirty_bit_ = false;
	}

	// If there is a limbo call waiting, we tell them that it's canceled.
	if (!active) {
	if (watch_limbo_callback_) {
	watch_limbo_callback_(fit::error(ZX_ERR_CANCELED));
	watch_limbo_callback_ = {};
	watch_limbo_dirty_bit_ = false;
	} else {
	watch_limbo_dirty_bit_ = true;
	}
	}
	}

	void ProcessLimboHandler::LimboChanged(std::vector<ProcessExceptionMetadata> limbo_list) {
	if (!watch_limbo_callback_) {
	// Reset the hanging get state as the state is different from the first time the get was called.
	watch_limbo_dirty_bit_ = true;
	return;
	}

	watch_limbo_callback_(fit::ok(std::move(limbo_list)));
	watch_limbo_callback_ = {};
	watch_limbo_dirty_bit_ = false;
	}

	void ProcessLimboHandler::WatchActive(WatchActiveCallback cb) {
	if (watch_active_dirty_bit_) {
	watch_active_dirty_bit_ = false;

	bool is_active = !!limbo_manager_ ? limbo_manager_->active() : false;
	cb(is_active);
	return;
	}

	// We store the latest callback for when the active state changes.
	is_active_callback_ = std::move(cb);
	}

	void ProcessLimboHandler::WatchProcessesWaitingOnException(
	WatchProcessesWaitingOnExceptionCallback cb) {
	if (watch_limbo_dirty_bit_) {
	watch_limbo_dirty_bit_ = false;

	if (!limbo_manager_) {
	cb(fit::error(ZX_ERR_BAD_STATE));
	return;
	}

	if (!limbo_manager_->active()) {
	cb(fit::error(ZX_ERR_UNAVAILABLE));
	return;
	}

	auto processes = limbo_manager_->ListProcessesInLimbo();
	cb(fit::ok(std::move(processes)));
	return;
	}

	// Store the latest callback for when the processes enter the limbo.
	watch_limbo_callback_ = std::move(cb);
	}

	void ProcessLimboHandler::RetrieveException(zx_koid_t process_koid, RetrieveExceptionCallback cb) {
	if (!VerifyState(limbo_manager_, &cb))
	return;

	fuchsia::exception::ProcessLimbo_RetrieveException_Result result;

	auto& limbo = limbo_manager_->limbo_;

	auto it = limbo.find(process_koid);
	if (it == limbo.end()) {
	FX_LOGS(WARNING) << "Could not find process " << process_koid << " in limbo.";
	cb(fit::error(ZX_ERR_NOT_FOUND));
	return;
	}

	auto res = fit::ok(std::move(it->second));
	limbo.erase(it);
	cb(std::move(res));

	limbo_manager_->NotifyLimboChanged();
	}

	void ProcessLimboHandler::ReleaseProcess(zx_koid_t process_koid, ReleaseProcessCallback cb) {
	if (!VerifyState(limbo_manager_, &cb))
	return;

	auto& limbo = limbo_manager_->limbo_;

	auto it = limbo.find(process_koid);
	if (it == limbo.end()) {
	return cb(fit::error(ZX_ERR_NOT_FOUND));
	}

	limbo.erase(it);
	cb(fit::ok());

	limbo_manager_->NotifyLimboChanged();
	}

	void ProcessLimboHandler::GetFilters(GetFiltersCallback cb) {
	if (!limbo_manager_) {
	cb({});
	return;
	}

	cb(CreateFilterVector(limbo_manager_->filters_));
	}

	void ProcessLimboHandler::AppendFilters(std::vector<std::string> new_filters,
	AppendFiltersCallback cb) {
	if (!VerifyState(limbo_manager_, &cb))
	return;

	auto current_filters = limbo_manager_->filters_;

	for (auto& filter : new_filters) {
	current_filters.insert(filter);
	if (current_filters.size() >= ProcessLimboManager::kMaxFilters) {
	cb(fit::error(ZX_ERR_NO_RESOURCES));
	return;
	}
	}

	limbo_manager_->filters_ = std::move(current_filters);
	cb(fit::ok());
	}

	void ProcessLimboHandler::RemoveFilters(std::vector<std::string> filters,
	RemoveFiltersCallback cb) {
	if (!VerifyState(limbo_manager_, &cb))
	return;

	for (auto& filter : filters) {
	limbo_manager_->filters_.erase(filter);
	}

	cb(fit::ok());
	}

	} // namespace exceptions
	} // namespace forensics