Index: mojo/edk/system/transport_data.cc |
diff --git a/mojo/edk/system/transport_data.cc b/mojo/edk/system/transport_data.cc |
deleted file mode 100644 |
index d388151bd49fd7ab21f989f8eac3966a0c576144..0000000000000000000000000000000000000000 |
--- a/mojo/edk/system/transport_data.cc |
+++ /dev/null |
@@ -1,337 +0,0 @@ |
-// Copyright 2014 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/edk/system/transport_data.h" |
- |
-#include <string.h> |
- |
-#include "base/compiler_specific.h" |
-#include "base/logging.h" |
-#include "mojo/edk/system/channel.h" |
-#include "mojo/edk/system/configuration.h" |
-#include "mojo/edk/system/message_in_transit.h" |
- |
-namespace mojo { |
-namespace system { |
- |
-// The maximum amount of space needed per platform handle. |
-// (|{Channel,RawChannel}::GetSerializedPlatformHandleSize()| should always |
-// return a value which is at most this. This is only used to calculate |
-// |TransportData::kMaxBufferSize|. This value should be a multiple of the |
-// alignment in order to simplify calculations, even though the actual amount of |
-// space needed need not be a multiple of the alignment. |
-const size_t kMaxSizePerPlatformHandle = 8; |
-static_assert(kMaxSizePerPlatformHandle % MessageInTransit::kMessageAlignment == |
- 0, |
- "kMaxSizePerPlatformHandle not a multiple of alignment"); |
- |
-STATIC_CONST_MEMBER_DEFINITION const size_t |
- TransportData::kMaxSerializedDispatcherSize; |
-STATIC_CONST_MEMBER_DEFINITION const size_t |
- TransportData::kMaxSerializedDispatcherPlatformHandles; |
- |
-// static |
-size_t TransportData::GetMaxBufferSize() { |
- // In additional to the header, for each attached (Mojo) handle there'll be a |
- // handle table entry and serialized dispatcher data. |
- return sizeof(Header) + |
- GetConfiguration().max_message_num_handles * |
- (sizeof(HandleTableEntry) + kMaxSerializedDispatcherSize) + |
- GetMaxPlatformHandles() * kMaxSizePerPlatformHandle; |
-} |
- |
-// static |
-size_t TransportData::GetMaxPlatformHandles() { |
- return GetConfiguration().max_message_num_handles * |
- kMaxSerializedDispatcherPlatformHandles; |
-} |
- |
-struct TransportData::PrivateStructForCompileAsserts { |
- static_assert(sizeof(Header) % MessageInTransit::kMessageAlignment == 0, |
- "sizeof(MessageInTransit::Header) not a multiple of alignment"); |
- static_assert(kMaxSerializedDispatcherSize % |
- MessageInTransit::kMessageAlignment == |
- 0, |
- "kMaxSerializedDispatcherSize not a multiple of alignment"); |
- static_assert(sizeof(HandleTableEntry) % |
- MessageInTransit::kMessageAlignment == |
- 0, |
- "sizeof(MessageInTransit::HandleTableEntry) not a multiple of " |
- "alignment"); |
-}; |
- |
-TransportData::TransportData(scoped_ptr<DispatcherVector> dispatchers, |
- Channel* channel) { |
- DCHECK(dispatchers); |
- DCHECK(channel); |
- |
- const size_t num_handles = dispatchers->size(); |
- DCHECK_GT(num_handles, 0u); |
- |
- // The offset to the start of the (Mojo) handle table. |
- const size_t handle_table_start_offset = sizeof(Header); |
- // The offset to the start of the serialized dispatcher data. |
- const size_t serialized_dispatcher_start_offset = |
- handle_table_start_offset + num_handles * sizeof(HandleTableEntry); |
- // The estimated size of the secondary buffer. We compute this estimate below. |
- // It must be at least as big as the (eventual) actual size. |
- size_t estimated_size = serialized_dispatcher_start_offset; |
- size_t estimated_num_platform_handles = 0; |
-#if DCHECK_IS_ON() |
- std::vector<size_t> all_max_sizes(num_handles); |
- std::vector<size_t> all_max_platform_handles(num_handles); |
-#endif |
- for (size_t i = 0; i < num_handles; i++) { |
- if (Dispatcher* dispatcher = (*dispatchers)[i].get()) { |
- size_t max_size = 0; |
- size_t max_platform_handles = 0; |
- Dispatcher::TransportDataAccess::StartSerialize( |
- dispatcher, channel, &max_size, &max_platform_handles); |
- |
- DCHECK_LE(max_size, kMaxSerializedDispatcherSize); |
- estimated_size += MessageInTransit::RoundUpMessageAlignment(max_size); |
- DCHECK_LE(estimated_size, GetMaxBufferSize()); |
- |
- DCHECK_LE(max_platform_handles, kMaxSerializedDispatcherPlatformHandles); |
- estimated_num_platform_handles += max_platform_handles; |
- DCHECK_LE(estimated_num_platform_handles, GetMaxPlatformHandles()); |
- |
-#if DCHECK_IS_ON() |
- all_max_sizes[i] = max_size; |
- all_max_platform_handles[i] = max_platform_handles; |
-#endif |
- } |
- } |
- |
- size_t size_per_platform_handle = 0; |
- if (estimated_num_platform_handles > 0) { |
- size_per_platform_handle = channel->GetSerializedPlatformHandleSize(); |
- DCHECK_LE(size_per_platform_handle, kMaxSizePerPlatformHandle); |
- estimated_size += estimated_num_platform_handles * size_per_platform_handle; |
- estimated_size = MessageInTransit::RoundUpMessageAlignment(estimated_size); |
- DCHECK_LE(estimated_size, GetMaxBufferSize()); |
- } |
- |
- buffer_.reset(static_cast<char*>( |
- base::AlignedAlloc(estimated_size, MessageInTransit::kMessageAlignment))); |
- // Entirely clear out the secondary buffer, since then we won't have to worry |
- // about clearing padding or unused space (e.g., if a dispatcher fails to |
- // serialize). |
- memset(buffer_.get(), 0, estimated_size); |
- |
- if (estimated_num_platform_handles > 0) { |
- DCHECK(!platform_handles_); |
- platform_handles_.reset(new embedder::PlatformHandleVector()); |
- } |
- |
- Header* header = reinterpret_cast<Header*>(buffer_.get()); |
- header->num_handles = static_cast<uint32_t>(num_handles); |
- // (Okay to leave |platform_handle_table_offset|, |num_platform_handles|, and |
- // |unused| be zero; we'll set the former two later if necessary.) |
- |
- HandleTableEntry* handle_table = reinterpret_cast<HandleTableEntry*>( |
- buffer_.get() + handle_table_start_offset); |
- size_t current_offset = serialized_dispatcher_start_offset; |
- for (size_t i = 0; i < num_handles; i++) { |
- Dispatcher* dispatcher = (*dispatchers)[i].get(); |
- if (!dispatcher) { |
- static_assert(Dispatcher::kTypeUnknown == 0, |
- "Value of Dispatcher::kTypeUnknown must be 0"); |
- continue; |
- } |
- |
-#if DCHECK_IS_ON() |
- size_t old_platform_handles_size = |
- platform_handles_ ? platform_handles_->size() : 0; |
-#endif |
- |
- void* destination = buffer_.get() + current_offset; |
- size_t actual_size = 0; |
- if (Dispatcher::TransportDataAccess::EndSerializeAndClose( |
- dispatcher, channel, destination, &actual_size, |
- platform_handles_.get())) { |
- handle_table[i].type = static_cast<int32_t>(dispatcher->GetType()); |
- handle_table[i].offset = static_cast<uint32_t>(current_offset); |
- handle_table[i].size = static_cast<uint32_t>(actual_size); |
-// (Okay to not set |unused| since we cleared the entire buffer.) |
- |
-#if DCHECK_IS_ON() |
- DCHECK_LE(actual_size, all_max_sizes[i]); |
- DCHECK_LE(platform_handles_ |
- ? (platform_handles_->size() - old_platform_handles_size) |
- : 0, |
- all_max_platform_handles[i]); |
-#endif |
- } else { |
- // Nothing to do on failure, since |buffer_| was cleared, and |
- // |kTypeUnknown| is zero. The handle was simply closed. |
- LOG(ERROR) << "Failed to serialize handle to remote message pipe"; |
- } |
- |
- current_offset += MessageInTransit::RoundUpMessageAlignment(actual_size); |
- DCHECK_LE(current_offset, estimated_size); |
- DCHECK_LE(platform_handles_ ? platform_handles_->size() : 0, |
- estimated_num_platform_handles); |
- } |
- |
- if (platform_handles_ && platform_handles_->size() > 0) { |
- header->platform_handle_table_offset = |
- static_cast<uint32_t>(current_offset); |
- header->num_platform_handles = |
- static_cast<uint32_t>(platform_handles_->size()); |
- current_offset += platform_handles_->size() * size_per_platform_handle; |
- current_offset = MessageInTransit::RoundUpMessageAlignment(current_offset); |
- } |
- |
- // There's no aligned realloc, so it's no good way to release unused space (if |
- // we overshot our estimated space requirements). |
- buffer_size_ = current_offset; |
- |
- // |dispatchers_| will be destroyed as it goes out of scope. |
-} |
- |
-TransportData::TransportData( |
- embedder::ScopedPlatformHandleVectorPtr platform_handles) |
- : buffer_size_(sizeof(Header)), platform_handles_(platform_handles.Pass()) { |
- buffer_.reset(static_cast<char*>( |
- base::AlignedAlloc(buffer_size_, MessageInTransit::kMessageAlignment))); |
- memset(buffer_.get(), 0, buffer_size_); |
- |
- Header* header = reinterpret_cast<Header*>(buffer_.get()); |
- header->num_platform_handles = |
- static_cast<uint32_t>(platform_handles_->size()); |
-} |
- |
-TransportData::~TransportData() { |
-} |
- |
-// static |
-const char* TransportData::ValidateBuffer( |
- size_t serialized_platform_handle_size, |
- const void* buffer, |
- size_t buffer_size) { |
- DCHECK(buffer); |
- DCHECK_GT(buffer_size, 0u); |
- |
- // Always make sure that the buffer size is sane; if it's not, someone's |
- // messing with us. |
- if (buffer_size < sizeof(Header) || buffer_size > GetMaxBufferSize() || |
- buffer_size % MessageInTransit::kMessageAlignment != 0) |
- return "Invalid message secondary buffer size"; |
- |
- const Header* header = static_cast<const Header*>(buffer); |
- const size_t num_handles = header->num_handles; |
- |
- // Sanity-check |num_handles| (before multiplying it against anything). |
- if (num_handles > GetConfiguration().max_message_num_handles) |
- return "Message handle payload too large"; |
- |
- if (buffer_size < sizeof(Header) + num_handles * sizeof(HandleTableEntry)) |
- return "Message secondary buffer too small"; |
- |
- if (header->num_platform_handles == 0) { |
- // Then |platform_handle_table_offset| should also be zero. |
- if (header->platform_handle_table_offset != 0) { |
- return "Message has no handles attached, but platform handle table " |
- "present"; |
- } |
- } else { |
- if (header->num_platform_handles > |
- GetConfiguration().max_message_num_handles * |
- kMaxSerializedDispatcherPlatformHandles) |
- return "Message has too many platform handles attached"; |
- |
- static const char kInvalidPlatformHandleTableOffset[] = |
- "Message has invalid platform handle table offset"; |
- // This doesn't check that the platform handle table doesn't alias other |
- // stuff, but it doesn't matter, since it's all read-only. |
- if (header->platform_handle_table_offset % |
- MessageInTransit::kMessageAlignment != |
- 0) |
- return kInvalidPlatformHandleTableOffset; |
- |
- // ">" instead of ">=" since the size per handle may be zero. |
- if (header->platform_handle_table_offset > buffer_size) |
- return kInvalidPlatformHandleTableOffset; |
- |
- // We already checked |platform_handle_table_offset| and |
- // |num_platform_handles|, so the addition and multiplication are okay. |
- if (header->platform_handle_table_offset + |
- header->num_platform_handles * serialized_platform_handle_size > |
- buffer_size) |
- return kInvalidPlatformHandleTableOffset; |
- } |
- |
- const HandleTableEntry* handle_table = |
- reinterpret_cast<const HandleTableEntry*>( |
- static_cast<const char*>(buffer) + sizeof(Header)); |
- static const char kInvalidSerializedDispatcher[] = |
- "Message contains invalid serialized dispatcher"; |
- for (size_t i = 0; i < num_handles; i++) { |
- size_t offset = handle_table[i].offset; |
- if (offset % MessageInTransit::kMessageAlignment != 0) |
- return kInvalidSerializedDispatcher; |
- |
- size_t size = handle_table[i].size; |
- if (size > kMaxSerializedDispatcherSize || size > buffer_size) |
- return kInvalidSerializedDispatcher; |
- |
- // Note: This is an overflow-safe check for |offset + size > buffer_size| |
- // (we know that |size <= buffer_size| from the previous check). |
- if (offset > buffer_size - size) |
- return kInvalidSerializedDispatcher; |
- } |
- |
- return nullptr; |
-} |
- |
-// static |
-void TransportData::GetPlatformHandleTable(const void* transport_data_buffer, |
- size_t* num_platform_handles, |
- const void** platform_handle_table) { |
- DCHECK(transport_data_buffer); |
- DCHECK(num_platform_handles); |
- DCHECK(platform_handle_table); |
- |
- const Header* header = static_cast<const Header*>(transport_data_buffer); |
- *num_platform_handles = header->num_platform_handles; |
- *platform_handle_table = static_cast<const char*>(transport_data_buffer) + |
- header->platform_handle_table_offset; |
-} |
- |
-// static |
-scoped_ptr<DispatcherVector> TransportData::DeserializeDispatchers( |
- const void* buffer, |
- size_t buffer_size, |
- embedder::ScopedPlatformHandleVectorPtr platform_handles, |
- Channel* channel) { |
- DCHECK(buffer); |
- DCHECK_GT(buffer_size, 0u); |
- DCHECK(channel); |
- |
- const Header* header = static_cast<const Header*>(buffer); |
- const size_t num_handles = header->num_handles; |
- scoped_ptr<DispatcherVector> dispatchers(new DispatcherVector(num_handles)); |
- |
- const HandleTableEntry* handle_table = |
- reinterpret_cast<const HandleTableEntry*>( |
- static_cast<const char*>(buffer) + sizeof(Header)); |
- for (size_t i = 0; i < num_handles; i++) { |
- size_t offset = handle_table[i].offset; |
- size_t size = handle_table[i].size; |
- // Should already have been checked by |ValidateBuffer()|: |
- DCHECK_EQ(offset % MessageInTransit::kMessageAlignment, 0u); |
- DCHECK_LE(offset, buffer_size); |
- DCHECK_LE(offset + size, buffer_size); |
- |
- const void* source = static_cast<const char*>(buffer) + offset; |
- (*dispatchers)[i] = Dispatcher::TransportDataAccess::Deserialize( |
- channel, handle_table[i].type, source, size, platform_handles.get()); |
- } |
- |
- return dispatchers.Pass(); |
-} |
- |
-} // namespace system |
-} // namespace mojo |