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/*
* Copyright (C) 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 "src/tracing/ipc/service/producer_ipc_service.h"
#include <cinttypes>
#include "perfetto/base/logging.h"
#include "perfetto/base/task_runner.h"
#include "perfetto/ext/ipc/host.h"
#include "perfetto/ext/ipc/service.h"
#include "perfetto/ext/tracing/core/commit_data_request.h"
#include "perfetto/ext/tracing/core/tracing_service.h"
#include "perfetto/tracing/core/data_source_config.h"
#include "perfetto/tracing/core/data_source_descriptor.h"
#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
#include "src/tracing/ipc/shared_memory_windows.h"
#else
#include "src/tracing/ipc/posix_shared_memory.h"
#endif
// The remote Producer(s) are not trusted. All the methods from the ProducerPort
// IPC layer (e.g. RegisterDataSource()) must assume that the remote Producer is
// compromised.
namespace perfetto {
ProducerIPCService::ProducerIPCService(TracingService* core_service)
: core_service_(core_service), weak_ptr_factory_(this) {}
ProducerIPCService::~ProducerIPCService() = default;
ProducerIPCService::RemoteProducer*
ProducerIPCService::GetProducerForCurrentRequest() {
const ipc::ClientID ipc_client_id = ipc::Service::client_info().client_id();
PERFETTO_CHECK(ipc_client_id);
auto it = producers_.find(ipc_client_id);
if (it == producers_.end())
return nullptr;
return it->second.get();
}
// Called by the remote Producer through the IPC channel soon after connecting.
void ProducerIPCService::InitializeConnection(
const protos::gen::InitializeConnectionRequest& req,
DeferredInitializeConnectionResponse response) {
const auto& client_info = ipc::Service::client_info();
const ipc::ClientID ipc_client_id = client_info.client_id();
PERFETTO_CHECK(ipc_client_id);
if (producers_.count(ipc_client_id) > 0) {
PERFETTO_DLOG(
"The remote Producer is trying to re-initialize the connection");
return response.Reject();
}
// Create a new entry.
std::unique_ptr<RemoteProducer> producer(new RemoteProducer());
TracingService::ProducerSMBScrapingMode smb_scraping_mode =
TracingService::ProducerSMBScrapingMode::kDefault;
switch (req.smb_scraping_mode()) {
case protos::gen::InitializeConnectionRequest::SMB_SCRAPING_UNSPECIFIED:
break;
case protos::gen::InitializeConnectionRequest::SMB_SCRAPING_DISABLED:
smb_scraping_mode = TracingService::ProducerSMBScrapingMode::kDisabled;
break;
case protos::gen::InitializeConnectionRequest::SMB_SCRAPING_ENABLED:
smb_scraping_mode = TracingService::ProducerSMBScrapingMode::kEnabled;
break;
}
// If the producer provided an SMB, tell the service to attempt to adopt it.
std::unique_ptr<SharedMemory> shmem;
if (req.producer_provided_shmem()) {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
if (!req.has_shm_key_windows() || req.shm_key_windows().empty()) {
PERFETTO_ELOG(
"shm_key_windows must be non-empty when "
"producer_provided_shmem = true");
} else {
shmem = SharedMemoryWindows::Attach(req.shm_key_windows());
// Attach() does error logging if something fails, no need to extra ELOGs.
}
#else
base::ScopedFile shmem_fd = ipc::Service::TakeReceivedFD();
if (shmem_fd) {
shmem = PosixSharedMemory::AttachToFd(
std::move(shmem_fd), /*require_seals_if_supported=*/true);
if (!shmem) {
PERFETTO_ELOG(
"Couldn't map producer-provided SMB, falling back to "
"service-provided SMB");
}
} else {
PERFETTO_DLOG(
"InitializeConnectionRequest's producer_provided_shmem flag is set "
"but the producer didn't provide an FD");
}
#endif
}
// ConnectProducer will call OnConnect() on the next task.
producer->service_endpoint = core_service_->ConnectProducer(
producer.get(), client_info.uid(), client_info.pid(), req.producer_name(),
req.shared_memory_size_hint_bytes(),
/*in_process=*/false, smb_scraping_mode,
req.shared_memory_page_size_hint_bytes(), std::move(shmem),
req.sdk_version());
// Could happen if the service has too many producers connected.
if (!producer->service_endpoint) {
response.Reject();
return;
}
bool using_producer_shmem =
producer->service_endpoint->IsShmemProvidedByProducer();
producers_.emplace(ipc_client_id, std::move(producer));
// Because of the std::move() |producer| is invalid after this point.
auto async_res =
ipc::AsyncResult<protos::gen::InitializeConnectionResponse>::Create();
async_res->set_using_shmem_provided_by_producer(using_producer_shmem);
async_res->set_direct_smb_patching_supported(true);
response.Resolve(std::move(async_res));
}
// Called by the remote Producer through the IPC channel.
void ProducerIPCService::RegisterDataSource(
const protos::gen::RegisterDataSourceRequest& req,
DeferredRegisterDataSourceResponse response) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked RegisterDataSource() before InitializeConnection()");
if (response.IsBound())
response.Reject();
return;
}
const DataSourceDescriptor& dsd = req.data_source_descriptor();
GetProducerForCurrentRequest()->service_endpoint->RegisterDataSource(dsd);
// RegisterDataSource doesn't expect any meaningful response.
if (response.IsBound()) {
response.Resolve(
ipc::AsyncResult<protos::gen::RegisterDataSourceResponse>::Create());
}
}
// Called by the remote Producer through the IPC channel.
void ProducerIPCService::UpdateDataSource(
const protos::gen::UpdateDataSourceRequest& req,
DeferredUpdateDataSourceResponse response) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked UpdateDataSource() before InitializeConnection()");
if (response.IsBound())
response.Reject();
return;
}
const DataSourceDescriptor& dsd = req.data_source_descriptor();
GetProducerForCurrentRequest()->service_endpoint->UpdateDataSource(dsd);
// UpdateDataSource doesn't expect any meaningful response.
if (response.IsBound()) {
response.Resolve(
ipc::AsyncResult<protos::gen::UpdateDataSourceResponse>::Create());
}
}
// Called by the IPC layer.
void ProducerIPCService::OnClientDisconnected() {
ipc::ClientID client_id = ipc::Service::client_info().client_id();
PERFETTO_DLOG("Client %" PRIu64 " disconnected", client_id);
producers_.erase(client_id);
}
// TODO(fmayer): test what happens if we receive the following tasks, in order:
// RegisterDataSource, UnregisterDataSource, OnDataSourceRegistered.
// which essentially means that the client posted back to back a
// ReqisterDataSource and UnregisterDataSource speculating on the next id.
// Called by the remote Service through the IPC channel.
void ProducerIPCService::UnregisterDataSource(
const protos::gen::UnregisterDataSourceRequest& req,
DeferredUnregisterDataSourceResponse response) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked UnregisterDataSource() before "
"InitializeConnection()");
if (response.IsBound())
response.Reject();
return;
}
producer->service_endpoint->UnregisterDataSource(req.data_source_name());
// UnregisterDataSource doesn't expect any meaningful response.
if (response.IsBound()) {
response.Resolve(
ipc::AsyncResult<protos::gen::UnregisterDataSourceResponse>::Create());
}
}
void ProducerIPCService::RegisterTraceWriter(
const protos::gen::RegisterTraceWriterRequest& req,
DeferredRegisterTraceWriterResponse response) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked RegisterTraceWriter() before "
"InitializeConnection()");
if (response.IsBound())
response.Reject();
return;
}
producer->service_endpoint->RegisterTraceWriter(req.trace_writer_id(),
req.target_buffer());
// RegisterTraceWriter doesn't expect any meaningful response.
if (response.IsBound()) {
response.Resolve(
ipc::AsyncResult<protos::gen::RegisterTraceWriterResponse>::Create());
}
}
void ProducerIPCService::UnregisterTraceWriter(
const protos::gen::UnregisterTraceWriterRequest& req,
DeferredUnregisterTraceWriterResponse response) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked UnregisterTraceWriter() before "
"InitializeConnection()");
if (response.IsBound())
response.Reject();
return;
}
producer->service_endpoint->UnregisterTraceWriter(req.trace_writer_id());
// UnregisterTraceWriter doesn't expect any meaningful response.
if (response.IsBound()) {
response.Resolve(
ipc::AsyncResult<protos::gen::UnregisterTraceWriterResponse>::Create());
}
}
void ProducerIPCService::CommitData(const protos::gen::CommitDataRequest& req,
DeferredCommitDataResponse resp) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked CommitData() before InitializeConnection()");
if (resp.IsBound())
resp.Reject();
return;
}
// We don't want to send a response if the client didn't attach a callback to
// the original request. Doing so would generate unnecessary wakeups and
// context switches.
std::function<void()> callback;
if (resp.IsBound()) {
// Capturing |resp| by reference here speculates on the fact that
// CommitData() in tracing_service_impl.cc invokes the passed callback
// inline, without posting it. If that assumption changes this code needs to
// wrap the response in a shared_ptr (C+11 lambdas don't support move) and
// use a weak ptr in the caller.
callback = [&resp] {
resp.Resolve(ipc::AsyncResult<protos::gen::CommitDataResponse>::Create());
};
}
producer->service_endpoint->CommitData(req, callback);
}
void ProducerIPCService::NotifyDataSourceStarted(
const protos::gen::NotifyDataSourceStartedRequest& request,
DeferredNotifyDataSourceStartedResponse response) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked NotifyDataSourceStarted() before "
"InitializeConnection()");
if (response.IsBound())
response.Reject();
return;
}
producer->service_endpoint->NotifyDataSourceStarted(request.data_source_id());
// NotifyDataSourceStopped shouldn't expect any meaningful response, avoid
// a useless IPC in that case.
if (response.IsBound()) {
response.Resolve(ipc::AsyncResult<
protos::gen::NotifyDataSourceStartedResponse>::Create());
}
}
void ProducerIPCService::NotifyDataSourceStopped(
const protos::gen::NotifyDataSourceStoppedRequest& request,
DeferredNotifyDataSourceStoppedResponse response) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked NotifyDataSourceStopped() before "
"InitializeConnection()");
if (response.IsBound())
response.Reject();
return;
}
producer->service_endpoint->NotifyDataSourceStopped(request.data_source_id());
// NotifyDataSourceStopped shouldn't expect any meaningful response, avoid
// a useless IPC in that case.
if (response.IsBound()) {
response.Resolve(ipc::AsyncResult<
protos::gen::NotifyDataSourceStoppedResponse>::Create());
}
}
void ProducerIPCService::ActivateTriggers(
const protos::gen::ActivateTriggersRequest& proto_req,
DeferredActivateTriggersResponse resp) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked ActivateTriggers() before InitializeConnection()");
if (resp.IsBound())
resp.Reject();
return;
}
std::vector<std::string> triggers;
for (const auto& name : proto_req.trigger_names()) {
triggers.push_back(name);
}
producer->service_endpoint->ActivateTriggers(triggers);
// ActivateTriggers shouldn't expect any meaningful response, avoid
// a useless IPC in that case.
if (resp.IsBound()) {
resp.Resolve(
ipc::AsyncResult<protos::gen::ActivateTriggersResponse>::Create());
}
}
void ProducerIPCService::GetAsyncCommand(
const protos::gen::GetAsyncCommandRequest&,
DeferredGetAsyncCommandResponse response) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG(
"Producer invoked GetAsyncCommand() before "
"InitializeConnection()");
return response.Reject();
}
// Keep the back channel open, without ever resolving the ipc::Deferred fully,
// to send async commands to the RemoteProducer (e.g., starting/stopping a
// data source).
producer->async_producer_commands = std::move(response);
// Service may already have issued the OnTracingSetup() event, in which case
// we should forward it to the producer now.
if (producer->send_setup_tracing_on_async_commands_bound)
producer->SendSetupTracing();
}
void ProducerIPCService::Sync(const protos::gen::SyncRequest&,
DeferredSyncResponse resp) {
RemoteProducer* producer = GetProducerForCurrentRequest();
if (!producer) {
PERFETTO_DLOG("Producer invoked Sync() before InitializeConnection()");
return resp.Reject();
}
auto weak_this = weak_ptr_factory_.GetWeakPtr();
auto resp_it = pending_syncs_.insert(pending_syncs_.end(), std::move(resp));
auto callback = [weak_this, resp_it]() {
if (!weak_this)
return;
auto pending_resp = std::move(*resp_it);
weak_this->pending_syncs_.erase(resp_it);
pending_resp.Resolve(ipc::AsyncResult<protos::gen::SyncResponse>::Create());
};
producer->service_endpoint->Sync(callback);
}
////////////////////////////////////////////////////////////////////////////////
// RemoteProducer methods
////////////////////////////////////////////////////////////////////////////////
ProducerIPCService::RemoteProducer::RemoteProducer() = default;
ProducerIPCService::RemoteProducer::~RemoteProducer() = default;
// Invoked by the |core_service_| business logic after the ConnectProducer()
// call. There is nothing to do here, we really expected the ConnectProducer()
// to just work in the local case.
void ProducerIPCService::RemoteProducer::OnConnect() {}
// Invoked by the |core_service_| business logic after we destroy the
// |service_endpoint| (in the RemoteProducer dtor).
void ProducerIPCService::RemoteProducer::OnDisconnect() {}
// Invoked by the |core_service_| business logic when it wants to create a new
// data source.
void ProducerIPCService::RemoteProducer::SetupDataSource(
DataSourceInstanceID dsid,
const DataSourceConfig& cfg) {
if (!async_producer_commands.IsBound()) {
PERFETTO_DLOG(
"The Service tried to create a new data source but the remote Producer "
"has not yet initialized the connection");
return;
}
auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
cmd.set_has_more(true);
cmd->mutable_setup_data_source()->set_new_instance_id(dsid);
*cmd->mutable_setup_data_source()->mutable_config() = cfg;
async_producer_commands.Resolve(std::move(cmd));
}
// Invoked by the |core_service_| business logic when it wants to start a new
// data source.
void ProducerIPCService::RemoteProducer::StartDataSource(
DataSourceInstanceID dsid,
const DataSourceConfig& cfg) {
if (!async_producer_commands.IsBound()) {
PERFETTO_DLOG(
"The Service tried to start a new data source but the remote Producer "
"has not yet initialized the connection");
return;
}
auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
cmd.set_has_more(true);
cmd->mutable_start_data_source()->set_new_instance_id(dsid);
*cmd->mutable_start_data_source()->mutable_config() = cfg;
async_producer_commands.Resolve(std::move(cmd));
}
void ProducerIPCService::RemoteProducer::StopDataSource(
DataSourceInstanceID dsid) {
if (!async_producer_commands.IsBound()) {
PERFETTO_DLOG(
"The Service tried to stop a data source but the remote Producer "
"has not yet initialized the connection");
return;
}
auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
cmd.set_has_more(true);
cmd->mutable_stop_data_source()->set_instance_id(dsid);
async_producer_commands.Resolve(std::move(cmd));
}
void ProducerIPCService::RemoteProducer::OnTracingSetup() {
if (!async_producer_commands.IsBound()) {
// Service may call this before the producer issued GetAsyncCommand.
send_setup_tracing_on_async_commands_bound = true;
return;
}
SendSetupTracing();
}
void ProducerIPCService::RemoteProducer::SendSetupTracing() {
PERFETTO_CHECK(async_producer_commands.IsBound());
PERFETTO_CHECK(service_endpoint->shared_memory());
auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
cmd.set_has_more(true);
auto setup_tracing = cmd->mutable_setup_tracing();
if (!service_endpoint->IsShmemProvidedByProducer()) {
// Nominal case (% Chrome): service provides SMB.
setup_tracing->set_shared_buffer_page_size_kb(
static_cast<uint32_t>(service_endpoint->shared_buffer_page_size_kb()));
#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
const std::string& shm_key =
static_cast<SharedMemoryWindows*>(service_endpoint->shared_memory())
->key();
setup_tracing->set_shm_key_windows(shm_key);
#else
const int shm_fd =
static_cast<PosixSharedMemory*>(service_endpoint->shared_memory())
->fd();
cmd.set_fd(shm_fd);
#endif
}
async_producer_commands.Resolve(std::move(cmd));
}
void ProducerIPCService::RemoteProducer::Flush(
FlushRequestID flush_request_id,
const DataSourceInstanceID* data_source_ids,
size_t num_data_sources) {
if (!async_producer_commands.IsBound()) {
PERFETTO_DLOG(
"The Service tried to request a flush but the remote Producer has not "
"yet initialized the connection");
return;
}
auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
cmd.set_has_more(true);
for (size_t i = 0; i < num_data_sources; i++)
cmd->mutable_flush()->add_data_source_ids(data_source_ids[i]);
cmd->mutable_flush()->set_request_id(flush_request_id);
async_producer_commands.Resolve(std::move(cmd));
}
void ProducerIPCService::RemoteProducer::ClearIncrementalState(
const DataSourceInstanceID* data_source_ids,
size_t num_data_sources) {
if (!async_producer_commands.IsBound()) {
PERFETTO_DLOG(
"The Service tried to request an incremental state invalidation, but "
"the remote Producer has not yet initialized the connection");
return;
}
auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
cmd.set_has_more(true);
for (size_t i = 0; i < num_data_sources; i++)
cmd->mutable_clear_incremental_state()->add_data_source_ids(
data_source_ids[i]);
async_producer_commands.Resolve(std::move(cmd));
}
} // namespace perfetto