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android / platform / external / chromium_org / 862bd7759b5ede90f02436dab473f47a24ab7e9b / . / mojo / system / dispatcher.cc
blob: d03fca71ab1738ef30aa80e0425694decf6f08b4 [file] [log] [blame]
// Copyright 2013 The Chromium 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 "mojo/system/dispatcher.h"
#include "base/logging.h"
#include "mojo/system/constants.h"
#include "mojo/system/message_pipe_dispatcher.h"
#include "mojo/system/platform_handle_dispatcher.h"
#include "mojo/system/shared_buffer_dispatcher.h"
namespace mojo {
namespace system {
namespace test {
// TODO(vtl): Maybe this should be defined in a test-only file instead.
DispatcherTransport DispatcherTryStartTransport(
Dispatcher* dispatcher) {
return Dispatcher::HandleTableAccess::TryStartTransport(dispatcher);
}
} // namespace test
// Dispatcher ------------------------------------------------------------------
// static
DispatcherTransport Dispatcher::HandleTableAccess::TryStartTransport(
Dispatcher* dispatcher) {
DCHECK(dispatcher);
if (!dispatcher->lock_.Try())
return DispatcherTransport();
// We shouldn't race with things that close dispatchers, since closing can
// only take place either under |handle_table_lock_| or when the handle is
// marked as busy.
DCHECK(!dispatcher->is_closed_);
return DispatcherTransport(dispatcher);
}
// static
void Dispatcher::TransportDataAccess::StartSerialize(
Dispatcher* dispatcher,
Channel* channel,
size_t* max_size,
size_t* max_platform_handles) {
DCHECK(dispatcher);
dispatcher->StartSerialize(channel, max_size, max_platform_handles);
}
// static
bool Dispatcher::TransportDataAccess::EndSerializeAndClose(
Dispatcher* dispatcher,
Channel* channel,
void* destination,
size_t* actual_size,
embedder::PlatformHandleVector* platform_handles) {
DCHECK(dispatcher);
return dispatcher->EndSerializeAndClose(channel, destination, actual_size,
platform_handles);
}
// static
scoped_refptr<Dispatcher> Dispatcher::TransportDataAccess::Deserialize(
Channel* channel,
int32_t type,
const void* source,
size_t size,
embedder::PlatformHandleVector* platform_handles) {
switch (static_cast<int32_t>(type)) {
case kTypeUnknown:
DVLOG(2) << "Deserializing invalid handle";
return scoped_refptr<Dispatcher>();
case kTypeMessagePipe:
return scoped_refptr<Dispatcher>(
MessagePipeDispatcher::Deserialize(channel, source, size));
case kTypeDataPipeProducer:
case kTypeDataPipeConsumer:
// TODO(vtl): Implement.
LOG(WARNING) << "Deserialization of dispatcher type " << type
<< " not supported";
return scoped_refptr<Dispatcher>();
case kTypeSharedBuffer:
return scoped_refptr<Dispatcher>(
SharedBufferDispatcher::Deserialize(channel, source, size,
platform_handles));
case kTypePlatformHandle:
return scoped_refptr<Dispatcher>(
PlatformHandleDispatcher::Deserialize(channel, source, size,
platform_handles));
}
LOG(WARNING) << "Unknown dispatcher type " << type;
return scoped_refptr<Dispatcher>();
}
MojoResult Dispatcher::Close() {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
CloseNoLock();
return MOJO_RESULT_OK;
}
MojoResult Dispatcher::WriteMessage(
const void* bytes,
uint32_t num_bytes,
std::vector<DispatcherTransport>* transports,
MojoWriteMessageFlags flags) {
DCHECK(!transports || (transports->size() > 0 &&
transports->size() < kMaxMessageNumHandles));
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return WriteMessageImplNoLock(bytes, num_bytes, transports, flags);
}
MojoResult Dispatcher::ReadMessage(void* bytes,
uint32_t* num_bytes,
DispatcherVector* dispatchers,
uint32_t* num_dispatchers,
MojoReadMessageFlags flags) {
DCHECK(!num_dispatchers || *num_dispatchers == 0 ||
(dispatchers && dispatchers->empty()));
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return ReadMessageImplNoLock(bytes, num_bytes, dispatchers, num_dispatchers,
flags);
}
MojoResult Dispatcher::WriteData(const void* elements,
uint32_t* num_bytes,
MojoWriteDataFlags flags) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return WriteDataImplNoLock(elements, num_bytes, flags);
}
MojoResult Dispatcher::BeginWriteData(void** buffer,
uint32_t* buffer_num_bytes,
MojoWriteDataFlags flags) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return BeginWriteDataImplNoLock(buffer, buffer_num_bytes, flags);
}
MojoResult Dispatcher::EndWriteData(uint32_t num_bytes_written) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return EndWriteDataImplNoLock(num_bytes_written);
}
MojoResult Dispatcher::ReadData(void* elements,
uint32_t* num_bytes,
MojoReadDataFlags flags) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return ReadDataImplNoLock(elements, num_bytes, flags);
}
MojoResult Dispatcher::BeginReadData(const void** buffer,
uint32_t* buffer_num_bytes,
MojoReadDataFlags flags) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return BeginReadDataImplNoLock(buffer, buffer_num_bytes, flags);
}
MojoResult Dispatcher::EndReadData(uint32_t num_bytes_read) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return EndReadDataImplNoLock(num_bytes_read);
}
MojoResult Dispatcher::DuplicateBufferHandle(
const MojoDuplicateBufferHandleOptions* options,
scoped_refptr<Dispatcher>* new_dispatcher) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return DuplicateBufferHandleImplNoLock(options, new_dispatcher);
}
MojoResult Dispatcher::MapBuffer(
uint64_t offset,
uint64_t num_bytes,
MojoMapBufferFlags flags,
scoped_ptr<RawSharedBufferMapping>* mapping) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return MapBufferImplNoLock(offset, num_bytes, flags, mapping);
}
MojoResult Dispatcher::AddWaiter(Waiter* waiter,
MojoHandleSignals signals,
uint32_t context) {
base::AutoLock locker(lock_);
if (is_closed_)
return MOJO_RESULT_INVALID_ARGUMENT;
return AddWaiterImplNoLock(waiter, signals, context);
}
void Dispatcher::RemoveWaiter(Waiter* waiter) {
base::AutoLock locker(lock_);
if (is_closed_)
return;
RemoveWaiterImplNoLock(waiter);
}
Dispatcher::Dispatcher()
: is_closed_(false) {
}
Dispatcher::~Dispatcher() {
// Make sure that |Close()| was called.
DCHECK(is_closed_);
}
void Dispatcher::CancelAllWaitersNoLock() {
lock_.AssertAcquired();
DCHECK(is_closed_);
// By default, waiting isn't supported. Only dispatchers that can be waited on
// will do something nontrivial.
}
void Dispatcher::CloseImplNoLock() {
lock_.AssertAcquired();
DCHECK(is_closed_);
// This may not need to do anything. Dispatchers should override this to do
// any actual close-time cleanup necessary.
}
MojoResult Dispatcher::WriteMessageImplNoLock(
const void* /*bytes*/,
uint32_t /*num_bytes*/,
std::vector<DispatcherTransport>* /*transports*/,
MojoWriteMessageFlags /*flags*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for message pipe dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::ReadMessageImplNoLock(void* /*bytes*/,
uint32_t* /*num_bytes*/,
DispatcherVector* /*dispatchers*/,
uint32_t* /*num_dispatchers*/,
MojoReadMessageFlags /*flags*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for message pipe dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::WriteDataImplNoLock(const void* /*elements*/,
uint32_t* /*num_bytes*/,
MojoWriteDataFlags /*flags*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for data pipe dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::BeginWriteDataImplNoLock(void** /*buffer*/,
uint32_t* /*buffer_num_bytes*/,
MojoWriteDataFlags /*flags*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for data pipe dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::EndWriteDataImplNoLock(uint32_t /*num_bytes_written*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for data pipe dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::ReadDataImplNoLock(void* /*elements*/,
uint32_t* /*num_bytes*/,
MojoReadDataFlags /*flags*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for data pipe dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::BeginReadDataImplNoLock(const void** /*buffer*/,
uint32_t* /*buffer_num_bytes*/,
MojoReadDataFlags /*flags*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for data pipe dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::EndReadDataImplNoLock(uint32_t /*num_bytes_read*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for data pipe dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::DuplicateBufferHandleImplNoLock(
const MojoDuplicateBufferHandleOptions* /*options*/,
scoped_refptr<Dispatcher>* /*new_dispatcher*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for buffer dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::MapBufferImplNoLock(
uint64_t /*offset*/,
uint64_t /*num_bytes*/,
MojoMapBufferFlags /*flags*/,
scoped_ptr<RawSharedBufferMapping>* /*mapping*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, not supported. Only needed for buffer dispatchers.
return MOJO_RESULT_INVALID_ARGUMENT;
}
MojoResult Dispatcher::AddWaiterImplNoLock(Waiter* /*waiter*/,
MojoHandleSignals /*signals*/,
uint32_t /*context*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, waiting isn't supported. Only dispatchers that can be waited on
// will do something nontrivial.
return MOJO_RESULT_FAILED_PRECONDITION;
}
void Dispatcher::RemoveWaiterImplNoLock(Waiter* /*waiter*/) {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// By default, waiting isn't supported. Only dispatchers that can be waited on
// will do something nontrivial.
}
void Dispatcher::StartSerializeImplNoLock(Channel* /*channel*/,
size_t* max_size,
size_t* max_platform_handles) {
DCHECK(HasOneRef()); // Only one ref => no need to take the lock.
DCHECK(!is_closed_);
*max_size = 0;
*max_platform_handles = 0;
}
bool Dispatcher::EndSerializeAndCloseImplNoLock(
Channel* /*channel*/,
void* /*destination*/,
size_t* /*actual_size*/,
embedder::PlatformHandleVector* /*platform_handles*/) {
DCHECK(HasOneRef()); // Only one ref => no need to take the lock.
DCHECK(is_closed_);
// By default, serializing isn't supported, so just close.
CloseImplNoLock();
return false;
}
bool Dispatcher::IsBusyNoLock() const {
lock_.AssertAcquired();
DCHECK(!is_closed_);
// Most dispatchers support only "atomic" operations, so they are never busy
// (in this sense).
return false;
}
void Dispatcher::CloseNoLock() {
lock_.AssertAcquired();
DCHECK(!is_closed_);
is_closed_ = true;
CancelAllWaitersNoLock();
CloseImplNoLock();
}
scoped_refptr<Dispatcher>
Dispatcher::CreateEquivalentDispatcherAndCloseNoLock() {
lock_.AssertAcquired();
DCHECK(!is_closed_);
is_closed_ = true;
CancelAllWaitersNoLock();
return CreateEquivalentDispatcherAndCloseImplNoLock();
}
void Dispatcher::StartSerialize(Channel* channel,
size_t* max_size,
size_t* max_platform_handles) {
DCHECK(channel);
DCHECK(max_size);
DCHECK(max_platform_handles);
DCHECK(HasOneRef()); // Only one ref => no need to take the lock.
DCHECK(!is_closed_);
StartSerializeImplNoLock(channel, max_size, max_platform_handles);
}
bool Dispatcher::EndSerializeAndClose(
Channel* channel,
void* destination,
size_t* actual_size,
embedder::PlatformHandleVector* platform_handles) {
DCHECK(channel);
DCHECK(actual_size);
DCHECK(HasOneRef()); // Only one ref => no need to take the lock.
DCHECK(!is_closed_);
// Like other |...Close()| methods, we mark ourselves as closed before calling
// the impl.
is_closed_ = true;
// No need to cancel waiters: we shouldn't have any (and shouldn't be in
// |Core|'s handle table.
#if !defined(NDEBUG)
// See the comment above |EndSerializeAndCloseImplNoLock()|. In brief: Locking
// isn't actually needed, but we need to satisfy assertions (which we don't
// want to remove or weaken).
base::AutoLock locker(lock_);
#endif
return EndSerializeAndCloseImplNoLock(channel, destination, actual_size,
platform_handles);
}
// DispatcherTransport ---------------------------------------------------------
void DispatcherTransport::End() {
DCHECK(dispatcher_);
dispatcher_->lock_.Release();
dispatcher_ = NULL;
}
} // namespace system
} // namespace mojo