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// Copyright (c) 2012 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 "content/browser/media_device_notifications_linux.h"
#include <mntent.h>
#include <stdio.h>
#include "base/bind.h"
#include "base/file_util.h"
#include "base/string_util.h"
#include "base/system_monitor/system_monitor.h"
#include "content/public/browser/browser_thread.h"
using base::SystemMonitor;
namespace {
const char* const kDCIMDirName = "DCIM";
// List of file systems we care about.
const char* const kKnownFileSystems[] = {
"ext2",
"ext3",
"ext4",
"fat",
"hfsplus",
"iso9660",
"msdos",
"ntfs",
"udf",
"vfat",
};
} // namespace
namespace content {
MediaDeviceNotificationsLinux::MediaDeviceNotificationsLinux(
const FilePath& path)
: initialized_(false),
mtab_path_(path),
current_device_id_(0U) {
CHECK(!path.empty());
// Put |kKnownFileSystems| in std::set to get O(log N) access time.
for (size_t i = 0; i < arraysize(kKnownFileSystems); ++i)
known_file_systems_.insert(kKnownFileSystems[i]);
}
MediaDeviceNotificationsLinux::~MediaDeviceNotificationsLinux() {
}
void MediaDeviceNotificationsLinux::Init() {
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
base::Bind(&MediaDeviceNotificationsLinux::InitOnFileThread, this));
}
void MediaDeviceNotificationsLinux::OnFilePathChanged(const FilePath& path) {
if (path != mtab_path_) {
NOTREACHED();
return;
}
UpdateMtab();
}
void MediaDeviceNotificationsLinux::InitOnFileThread() {
DCHECK(!initialized_);
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::FILE));
initialized_ = true;
watcher_delegate_ = new WatcherDelegate(this);
if (!file_watcher_.Watch(mtab_path_, watcher_delegate_)) {
LOG(ERROR) << "Adding watch for " << mtab_path_.value() << " failed";
return;
}
UpdateMtab();
}
void MediaDeviceNotificationsLinux::UpdateMtab() {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::FILE));
MountMap new_mtab;
ReadMtab(&new_mtab);
// Check existing mtab entries for unaccounted mount points.
// These mount points must have been removed in the new mtab.
MountMap::iterator it = mtab_.begin();
while (it != mtab_.end()) {
const MountPoint& mount_point(it->first);
// |mount_point| not in |new_mtab|.
if (new_mtab.find(mount_point) == new_mtab.end()) {
const SystemMonitor::DeviceIdType& device_id(it->second.second);
RemoveOldDevice(device_id);
mtab_.erase(it++);
continue;
}
// Existing mount point. Ignore and deal in the next loop.
++it;
}
// Check new mtab entries against existing ones.
for (MountMap::iterator newiter = new_mtab.begin();
newiter != new_mtab.end();
++newiter) {
const MountPoint& mount_point(newiter->first);
const MountDeviceAndId& mount_device_and_id(newiter->second);
const MountDevice& mount_device(newiter->second.first);
SystemMonitor::DeviceIdType& id(newiter->second.second);
MountMap::iterator olditer = mtab_.find(mount_point);
// Check to see if it is a new mount point.
if (olditer == mtab_.end()) {
if (IsMediaDevice(mount_point)) {
AddNewDevice(mount_device, mount_point, &id);
mtab_[mount_point] = mount_device_and_id;
}
continue;
}
// Existing mount point. Check to see if a new device is mounted there.
MountDeviceAndId& old_mount_device_and_id(olditer->second);
if (mount_device == old_mount_device_and_id.first)
continue;
// New device mounted.
RemoveOldDevice(old_mount_device_and_id.second);
if (IsMediaDevice(mount_point)) {
AddNewDevice(mount_device, mount_point, &id);
olditer->second = mount_device_and_id;
}
}
}
void MediaDeviceNotificationsLinux::ReadMtab(MountMap* mtab) {
FILE* fp = setmntent(mtab_path_.value().c_str(), "r");
if (!fp)
return;
MountMap& new_mtab = *mtab;
struct mntent entry;
char buf[512];
SystemMonitor::DeviceIdType mount_position = 0;
typedef std::pair<MountPoint, SystemMonitor::DeviceIdType> MountPointAndId;
typedef std::map<MountDevice, MountPointAndId> DeviceMap;
DeviceMap device_map;
while (getmntent_r(fp, &entry, buf, sizeof(buf))) {
// We only care about real file systems.
if (known_file_systems_.find(entry.mnt_type) == known_file_systems_.end())
continue;
// Add entries, but overwrite entries for the same mount device. Keep track
// of the entry positions in the device id field and use that below to
// resolve multiple devices mounted at the same mount point.
device_map[entry.mnt_fsname] =
std::make_pair(entry.mnt_dir, mount_position++);
}
endmntent(fp);
for (DeviceMap::iterator device_it = device_map.begin();
device_it != device_map.end();
++device_it) {
const MountDevice& device = device_it->first;
const MountPoint& mount_point = device_it->second.first;
const SystemMonitor::DeviceIdType& position = device_it->second.second;
// No device at |mount_point|, save |device| to it.
MountMap::iterator mount_it = new_mtab.find(mount_point);
if (mount_it == new_mtab.end()) {
new_mtab[mount_point] = std::make_pair(device, position);
continue;
}
// There is already a device mounted at |mount_point|. Check to see if
// the existing mount entry is newer than the current one.
MountDevice& existing_device = mount_it->second.first;
SystemMonitor::DeviceIdType& existing_position = mount_it->second.second;
if (existing_position > position)
continue;
// The current entry is newer, update the mount point entry.
existing_device = device;
existing_position = position;
}
}
bool MediaDeviceNotificationsLinux::IsMediaDevice(
const MountPoint& mount_point) {
FilePath dcim_path(mount_point);
FilePath::StringType dcim_dir(kDCIMDirName);
if (!file_util::DirectoryExists(dcim_path.Append(dcim_dir))) {
// Check for lowercase 'dcim' as well.
FilePath dcim_path_lower(dcim_path.Append(StringToLowerASCII(dcim_dir)));
if (!file_util::DirectoryExists(dcim_path_lower)) {
return false;
}
}
return true;
}
void MediaDeviceNotificationsLinux::AddNewDevice(
const MountDevice& mount_device,
const MountPoint& mount_point,
base::SystemMonitor::DeviceIdType* device_id) {
*device_id = current_device_id_++;
base::SystemMonitor* system_monitor = base::SystemMonitor::Get();
system_monitor->ProcessMediaDeviceAttached(*device_id,
mount_device,
FilePath(mount_point));
}
void MediaDeviceNotificationsLinux::RemoveOldDevice(
const base::SystemMonitor::DeviceIdType& device_id) {
base::SystemMonitor* system_monitor = base::SystemMonitor::Get();
system_monitor->ProcessMediaDeviceDetached(device_id);
}
MediaDeviceNotificationsLinux::WatcherDelegate::WatcherDelegate(
MediaDeviceNotificationsLinux* notifier)
: notifier_(notifier) {
}
MediaDeviceNotificationsLinux::WatcherDelegate::~WatcherDelegate() {
}
void MediaDeviceNotificationsLinux::WatcherDelegate::OnFilePathChanged(
const FilePath& path) {
notifier_->OnFilePathChanged(path);
}
} // namespace content
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