platform_system_core/libappfuse/FuseBridgeLoop.cc
Daichi Hirono 96c6aa4f20 Enable FuseBridgeLoop to accept new mount point after starting
The CL turns StartFuseBridgeLoop function into FuseBridgeLoop class, and
adds a method adding new appfuse mount to the loop.

After doing this, one FuseBridgeLoop can process FUSE commands from
multiple AppFuse mounts.

Bug: 34903085
Test: libappfuse_test
Change-Id: I54f11f54bc26c551281b9c32e9bb91f8f043774c
2017-03-23 16:22:03 +09:00

371 lines
12 KiB
C++

/*
* Copyright (C) 2016 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 specic language governing permissions and
* limitations under the License.
*/
#include "libappfuse/FuseBridgeLoop.h"
#include <sys/epoll.h>
#include <sys/socket.h>
#include <unordered_map>
#include <android-base/logging.h>
#include <android-base/unique_fd.h>
#include "libappfuse/EpollController.h"
namespace android {
namespace fuse {
namespace {
enum class FuseBridgeState { kWaitToReadEither, kWaitToReadProxy, kWaitToWriteProxy, kClosing };
struct FuseBridgeEntryEvent {
FuseBridgeEntry* entry;
int events;
};
void GetObservedEvents(FuseBridgeState state, int* device_events, int* proxy_events) {
switch (state) {
case FuseBridgeState::kWaitToReadEither:
*device_events = EPOLLIN;
*proxy_events = EPOLLIN;
return;
case FuseBridgeState::kWaitToReadProxy:
*device_events = 0;
*proxy_events = EPOLLIN;
return;
case FuseBridgeState::kWaitToWriteProxy:
*device_events = 0;
*proxy_events = EPOLLOUT;
return;
case FuseBridgeState::kClosing:
*device_events = 0;
*proxy_events = 0;
return;
}
}
}
class FuseBridgeEntry {
public:
FuseBridgeEntry(int mount_id, base::unique_fd&& dev_fd, base::unique_fd&& proxy_fd)
: mount_id_(mount_id),
device_fd_(std::move(dev_fd)),
proxy_fd_(std::move(proxy_fd)),
state_(FuseBridgeState::kWaitToReadEither),
last_state_(FuseBridgeState::kWaitToReadEither),
last_device_events_({this, 0}),
last_proxy_events_({this, 0}),
open_count_(0) {}
// Transfer bytes depends on availability of FDs and the internal |state_|.
void Transfer(FuseBridgeLoopCallback* callback) {
constexpr int kUnexpectedEventMask = ~(EPOLLIN | EPOLLOUT);
const bool unexpected_event = (last_device_events_.events & kUnexpectedEventMask) ||
(last_proxy_events_.events & kUnexpectedEventMask);
const bool device_read_ready = last_device_events_.events & EPOLLIN;
const bool proxy_read_ready = last_proxy_events_.events & EPOLLIN;
const bool proxy_write_ready = last_proxy_events_.events & EPOLLOUT;
last_device_events_.events = 0;
last_proxy_events_.events = 0;
LOG(VERBOSE) << "Transfer device_read_ready=" << device_read_ready
<< " proxy_read_ready=" << proxy_read_ready
<< " proxy_write_ready=" << proxy_write_ready;
if (unexpected_event) {
LOG(ERROR) << "Invalid epoll event is observed";
state_ = FuseBridgeState::kClosing;
return;
}
switch (state_) {
case FuseBridgeState::kWaitToReadEither:
if (proxy_read_ready) {
state_ = ReadFromProxy();
} else if (device_read_ready) {
state_ = ReadFromDevice(callback);
}
return;
case FuseBridgeState::kWaitToReadProxy:
CHECK(proxy_read_ready);
state_ = ReadFromProxy();
return;
case FuseBridgeState::kWaitToWriteProxy:
CHECK(proxy_write_ready);
state_ = WriteToProxy();
return;
case FuseBridgeState::kClosing:
return;
}
}
bool IsClosing() const { return state_ == FuseBridgeState::kClosing; }
int mount_id() const { return mount_id_; }
private:
friend class BridgeEpollController;
FuseBridgeState ReadFromProxy() {
switch (buffer_.response.ReadOrAgain(proxy_fd_)) {
case ResultOrAgain::kSuccess:
break;
case ResultOrAgain::kFailure:
return FuseBridgeState::kClosing;
case ResultOrAgain::kAgain:
return FuseBridgeState::kWaitToReadProxy;
}
if (!buffer_.response.Write(device_fd_)) {
return FuseBridgeState::kClosing;
}
auto it = opcode_map_.find(buffer_.response.header.unique);
if (it != opcode_map_.end()) {
switch (it->second) {
case FUSE_OPEN:
if (buffer_.response.header.error == fuse::kFuseSuccess) {
open_count_++;
}
break;
case FUSE_RELEASE:
if (open_count_ > 0) {
open_count_--;
} else {
LOG(WARNING) << "Unexpected FUSE_RELEASE before opening a file.";
break;
}
if (open_count_ == 0) {
return FuseBridgeState::kClosing;
}
break;
}
opcode_map_.erase(it);
}
return FuseBridgeState::kWaitToReadEither;
}
FuseBridgeState ReadFromDevice(FuseBridgeLoopCallback* callback) {
LOG(VERBOSE) << "ReadFromDevice";
if (!buffer_.request.Read(device_fd_)) {
return FuseBridgeState::kClosing;
}
const uint32_t opcode = buffer_.request.header.opcode;
LOG(VERBOSE) << "Read a fuse packet, opcode=" << opcode;
switch (opcode) {
case FUSE_FORGET:
// Do not reply to FUSE_FORGET.
return FuseBridgeState::kWaitToReadEither;
case FUSE_LOOKUP:
case FUSE_GETATTR:
case FUSE_OPEN:
case FUSE_READ:
case FUSE_WRITE:
case FUSE_RELEASE:
case FUSE_FSYNC:
if (opcode == FUSE_OPEN || opcode == FUSE_RELEASE) {
opcode_map_.emplace(buffer_.request.header.unique, opcode);
}
return WriteToProxy();
case FUSE_INIT:
buffer_.HandleInit();
break;
default:
buffer_.HandleNotImpl();
break;
}
if (!buffer_.response.Write(device_fd_)) {
return FuseBridgeState::kClosing;
}
if (opcode == FUSE_INIT) {
callback->OnMount(mount_id_);
}
return FuseBridgeState::kWaitToReadEither;
}
FuseBridgeState WriteToProxy() {
switch (buffer_.request.WriteOrAgain(proxy_fd_)) {
case ResultOrAgain::kSuccess:
return FuseBridgeState::kWaitToReadEither;
case ResultOrAgain::kFailure:
return FuseBridgeState::kClosing;
case ResultOrAgain::kAgain:
return FuseBridgeState::kWaitToWriteProxy;
}
}
const int mount_id_;
base::unique_fd device_fd_;
base::unique_fd proxy_fd_;
FuseBuffer buffer_;
FuseBridgeState state_;
FuseBridgeState last_state_;
FuseBridgeEntryEvent last_device_events_;
FuseBridgeEntryEvent last_proxy_events_;
// Remember map between unique and opcode in fuse_in_header so that we can
// refer the opcode later.
std::unordered_map<uint64_t, uint32_t> opcode_map_;
int open_count_;
DISALLOW_COPY_AND_ASSIGN(FuseBridgeEntry);
};
class BridgeEpollController : private EpollController {
public:
BridgeEpollController(base::unique_fd&& poll_fd) : EpollController(std::move(poll_fd)) {}
bool AddBridgePoll(FuseBridgeEntry* bridge) const {
return InvokeControl(EPOLL_CTL_ADD, bridge);
}
bool UpdateOrDeleteBridgePoll(FuseBridgeEntry* bridge) const {
return InvokeControl(
bridge->state_ != FuseBridgeState::kClosing ? EPOLL_CTL_MOD : EPOLL_CTL_DEL, bridge);
}
bool Wait(size_t bridge_count, std::unordered_set<FuseBridgeEntry*>* entries_out) {
CHECK(entries_out);
const size_t event_count = std::max<size_t>(bridge_count * 2, 1);
if (!EpollController::Wait(event_count)) {
return false;
}
entries_out->clear();
for (const auto& event : events()) {
FuseBridgeEntryEvent* const entry_event =
reinterpret_cast<FuseBridgeEntryEvent*>(event.data.ptr);
entry_event->events = event.events;
entries_out->insert(entry_event->entry);
}
return true;
}
private:
bool InvokeControl(int op, FuseBridgeEntry* bridge) const {
LOG(VERBOSE) << "InvokeControl op=" << op << " bridge=" << bridge->mount_id_
<< " state=" << static_cast<int>(bridge->state_)
<< " last_state=" << static_cast<int>(bridge->last_state_);
int last_device_events;
int last_proxy_events;
int device_events;
int proxy_events;
GetObservedEvents(bridge->last_state_, &last_device_events, &last_proxy_events);
GetObservedEvents(bridge->state_, &device_events, &proxy_events);
bool result = true;
if (op != EPOLL_CTL_MOD || last_device_events != device_events) {
result &= EpollController::InvokeControl(op, bridge->device_fd_, device_events,
&bridge->last_device_events_);
}
if (op != EPOLL_CTL_MOD || last_proxy_events != proxy_events) {
result &= EpollController::InvokeControl(op, bridge->proxy_fd_, proxy_events,
&bridge->last_proxy_events_);
}
return result;
}
};
FuseBridgeLoop::FuseBridgeLoop() : opened_(true) {
base::unique_fd epoll_fd(epoll_create1(/* no flag */ 0));
if (epoll_fd.get() == -1) {
PLOG(ERROR) << "Failed to open FD for epoll";
opened_ = false;
return;
}
epoll_controller_.reset(new BridgeEpollController(std::move(epoll_fd)));
}
FuseBridgeLoop::~FuseBridgeLoop() { CHECK(bridges_.empty()); }
bool FuseBridgeLoop::AddBridge(int mount_id, base::unique_fd dev_fd, base::unique_fd proxy_fd) {
LOG(VERBOSE) << "Adding bridge " << mount_id;
std::unique_ptr<FuseBridgeEntry> bridge(
new FuseBridgeEntry(mount_id, std::move(dev_fd), std::move(proxy_fd)));
std::lock_guard<std::mutex> lock(mutex_);
if (!opened_) {
LOG(ERROR) << "Tried to add a mount to a closed bridge";
return false;
}
if (bridges_.count(mount_id)) {
LOG(ERROR) << "Tried to add a mount point that has already been added";
return false;
}
if (!epoll_controller_->AddBridgePoll(bridge.get())) {
return false;
}
bridges_.emplace(mount_id, std::move(bridge));
return true;
}
bool FuseBridgeLoop::ProcessEventLocked(const std::unordered_set<FuseBridgeEntry*>& entries,
FuseBridgeLoopCallback* callback) {
for (auto entry : entries) {
entry->Transfer(callback);
if (!epoll_controller_->UpdateOrDeleteBridgePoll(entry)) {
return false;
}
if (entry->IsClosing()) {
const int mount_id = entry->mount_id();
callback->OnClosed(mount_id);
bridges_.erase(mount_id);
if (bridges_.size() == 0) {
// All bridges are now closed.
return false;
}
}
}
return true;
}
void FuseBridgeLoop::Start(FuseBridgeLoopCallback* callback) {
LOG(DEBUG) << "Start fuse bridge loop";
std::unordered_set<FuseBridgeEntry*> entries;
while (true) {
const bool wait_result = epoll_controller_->Wait(bridges_.size(), &entries);
LOG(VERBOSE) << "Receive epoll events";
{
std::lock_guard<std::mutex> lock(mutex_);
if (!(wait_result && ProcessEventLocked(entries, callback))) {
for (auto it = bridges_.begin(); it != bridges_.end();) {
callback->OnClosed(it->second->mount_id());
it = bridges_.erase(it);
}
opened_ = false;
return;
}
}
}
}
} // namespace fuse
} // namespace android