// Copyright (c) 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 "webkit/browser/fileapi/external_mount_points.h"
#include "base/files/file_path.h"
#include "base/lazy_instance.h"
#include "base/path_service.h"
#include "base/stl_util.h"
#include "webkit/browser/fileapi/file_system_url.h"
namespace {
// Normalizes file path so it has normalized separators and ends with exactly
// one separator. Paths have to be normalized this way for use in
// GetVirtualPath method. Separators cannot be completely stripped, or
// GetVirtualPath could not working in some edge cases.
// For example, /a/b/c(1)/d would be erroneously resolved as c/d if the
// following mount points were registered: "/a/b/c", "/a/b/c(1)". (Note:
// "/a/b/c" < "/a/b/c(1)" < "/a/b/c/").
base::FilePath NormalizeFilePath(const base::FilePath& path) {
if (path.empty())
return path;
base::FilePath::StringType path_str = path.StripTrailingSeparators().value();
if (!base::FilePath::IsSeparator(path_str[path_str.length() - 1]))
path_str.append(FILE_PATH_LITERAL("/"));
return base::FilePath(path_str).NormalizePathSeparators();
}
// Wrapper around ref-counted ExternalMountPoints that will be used to lazily
// create and initialize LazyInstance system ExternalMountPoints.
class SystemMountPointsLazyWrapper {
public:
SystemMountPointsLazyWrapper()
: system_mount_points_(fileapi::ExternalMountPoints::CreateRefCounted()) {
}
~SystemMountPointsLazyWrapper() {}
fileapi::ExternalMountPoints* get() {
return system_mount_points_.get();
}
private:
scoped_refptr<fileapi::ExternalMountPoints> system_mount_points_;
};
base::LazyInstance<SystemMountPointsLazyWrapper>::Leaky
g_external_mount_points = LAZY_INSTANCE_INITIALIZER;
} // namespace
namespace fileapi {
class ExternalMountPoints::Instance {
public:
Instance(FileSystemType type,
const base::FilePath& path,
const FileSystemMountOption& mount_option)
: type_(type),
path_(path.StripTrailingSeparators()),
mount_option_(mount_option) {}
~Instance() {}
FileSystemType type() const { return type_; }
const base::FilePath& path() const { return path_; }
const FileSystemMountOption& mount_option() const { return mount_option_; }
private:
const FileSystemType type_;
const base::FilePath path_;
const FileSystemMountOption mount_option_;
DISALLOW_COPY_AND_ASSIGN(Instance);
};
//--------------------------------------------------------------------------
// static
ExternalMountPoints* ExternalMountPoints::GetSystemInstance() {
return g_external_mount_points.Pointer()->get();
}
// static
scoped_refptr<ExternalMountPoints> ExternalMountPoints::CreateRefCounted() {
return new ExternalMountPoints();
}
bool ExternalMountPoints::RegisterFileSystem(
const std::string& mount_name,
FileSystemType type,
const FileSystemMountOption& mount_option,
const base::FilePath& path_in) {
// COPY_SYNC_OPTION_SYNC is only applicable to native local file system.
DCHECK(type == kFileSystemTypeNativeLocal ||
mount_option.copy_sync_option() != COPY_SYNC_OPTION_SYNC);
base::AutoLock locker(lock_);
base::FilePath path = NormalizeFilePath(path_in);
if (!ValidateNewMountPoint(mount_name, path))
return false;
instance_map_[mount_name] = new Instance(type, path, mount_option);
if (!path.empty())
path_to_name_map_.insert(std::make_pair(path, mount_name));
return true;
}
bool ExternalMountPoints::HandlesFileSystemMountType(
FileSystemType type) const {
return type == kFileSystemTypeExternal ||
type == kFileSystemTypeNativeForPlatformApp;
}
bool ExternalMountPoints::RevokeFileSystem(const std::string& mount_name) {
base::AutoLock locker(lock_);
NameToInstance::iterator found = instance_map_.find(mount_name);
if (found == instance_map_.end())
return false;
Instance* instance = found->second;
path_to_name_map_.erase(NormalizeFilePath(instance->path()));
delete found->second;
instance_map_.erase(found);
return true;
}
bool ExternalMountPoints::GetRegisteredPath(
const std::string& filesystem_id, base::FilePath* path) const {
DCHECK(path);
base::AutoLock locker(lock_);
NameToInstance::const_iterator found = instance_map_.find(filesystem_id);
if (found == instance_map_.end())
return false;
*path = found->second->path();
return true;
}
bool ExternalMountPoints::CrackVirtualPath(
const base::FilePath& virtual_path,
std::string* mount_name,
FileSystemType* type,
base::FilePath* path,
FileSystemMountOption* mount_option) const {
DCHECK(mount_name);
DCHECK(path);
// The path should not contain any '..' references.
if (virtual_path.ReferencesParent())
return false;
// The virtual_path should comprise of <mount_name> and <relative_path> parts.
std::vector<base::FilePath::StringType> components;
virtual_path.GetComponents(&components);
if (components.size() < 1)
return false;
std::vector<base::FilePath::StringType>::iterator component_iter =
components.begin();
std::string maybe_mount_name =
base::FilePath(*component_iter++).MaybeAsASCII();
if (maybe_mount_name.empty())
return false;
base::FilePath cracked_path;
{
base::AutoLock locker(lock_);
NameToInstance::const_iterator found_instance =
instance_map_.find(maybe_mount_name);
if (found_instance == instance_map_.end())
return false;
*mount_name = maybe_mount_name;
const Instance* instance = found_instance->second;
if (type)
*type = instance->type();
cracked_path = instance->path();
*mount_option = instance->mount_option();
}
for (; component_iter != components.end(); ++component_iter)
cracked_path = cracked_path.Append(*component_iter);
*path = cracked_path;
return true;
}
FileSystemURL ExternalMountPoints::CrackURL(const GURL& url) const {
FileSystemURL filesystem_url = FileSystemURL(url);
if (!filesystem_url.is_valid())
return FileSystemURL();
return CrackFileSystemURL(filesystem_url);
}
FileSystemURL ExternalMountPoints::CreateCrackedFileSystemURL(
const GURL& origin,
FileSystemType type,
const base::FilePath& path) const {
return CrackFileSystemURL(FileSystemURL(origin, type, path));
}
void ExternalMountPoints::AddMountPointInfosTo(
std::vector<MountPointInfo>* mount_points) const {
base::AutoLock locker(lock_);
DCHECK(mount_points);
for (NameToInstance::const_iterator iter = instance_map_.begin();
iter != instance_map_.end(); ++iter) {
mount_points->push_back(MountPointInfo(iter->first, iter->second->path()));
}
}
bool ExternalMountPoints::GetVirtualPath(const base::FilePath& path_in,
base::FilePath* virtual_path) const {
DCHECK(virtual_path);
base::AutoLock locker(lock_);
base::FilePath path = NormalizeFilePath(path_in);
std::map<base::FilePath, std::string>::const_reverse_iterator iter(
path_to_name_map_.upper_bound(path));
if (iter == path_to_name_map_.rend())
return false;
*virtual_path = CreateVirtualRootPath(iter->second);
if (iter->first == path)
return true;
return iter->first.AppendRelativePath(path, virtual_path);
}
base::FilePath ExternalMountPoints::CreateVirtualRootPath(
const std::string& mount_name) const {
return base::FilePath().AppendASCII(mount_name);
}
FileSystemURL ExternalMountPoints::CreateExternalFileSystemURL(
const GURL& origin,
const std::string& mount_name,
const base::FilePath& path) const {
return CreateCrackedFileSystemURL(
origin,
fileapi::kFileSystemTypeExternal,
// Avoid using FilePath::Append as path may be an absolute path.
base::FilePath(
CreateVirtualRootPath(mount_name).value() +
base::FilePath::kSeparators[0] + path.value()));
}
void ExternalMountPoints::RevokeAllFileSystems() {
NameToInstance instance_map_copy;
{
base::AutoLock locker(lock_);
instance_map_copy = instance_map_;
instance_map_.clear();
path_to_name_map_.clear();
}
STLDeleteContainerPairSecondPointers(instance_map_copy.begin(),
instance_map_copy.end());
}
ExternalMountPoints::ExternalMountPoints() {}
ExternalMountPoints::~ExternalMountPoints() {
STLDeleteContainerPairSecondPointers(instance_map_.begin(),
instance_map_.end());
}
FileSystemURL ExternalMountPoints::CrackFileSystemURL(
const FileSystemURL& url) const {
if (!HandlesFileSystemMountType(url.type()))
return FileSystemURL();
base::FilePath virtual_path = url.path();
if (url.type() == kFileSystemTypeNativeForPlatformApp) {
#if defined(OS_CHROMEOS)
// On Chrome OS, find a mount point and virtual path for the external fs.
if (!GetVirtualPath(url.path(), &virtual_path))
return FileSystemURL();
#else
// On other OS, it is simply a native local path.
return FileSystemURL(
url.origin(), url.mount_type(), url.virtual_path(),
url.mount_filesystem_id(), kFileSystemTypeNativeLocal,
url.path(), url.filesystem_id(), url.mount_option());
#endif
}
std::string mount_name;
FileSystemType cracked_type;
base::FilePath cracked_path;
FileSystemMountOption cracked_mount_option;
if (!CrackVirtualPath(virtual_path, &mount_name, &cracked_type,
&cracked_path, &cracked_mount_option)) {
return FileSystemURL();
}
return FileSystemURL(
url.origin(), url.mount_type(), url.virtual_path(),
!url.filesystem_id().empty() ? url.filesystem_id() : mount_name,
cracked_type, cracked_path, mount_name, cracked_mount_option);
}
bool ExternalMountPoints::ValidateNewMountPoint(const std::string& mount_name,
const base::FilePath& path) {
lock_.AssertAcquired();
// Mount name must not be empty.
if (mount_name.empty())
return false;
// Verify there is no registered mount point with the same name.
NameToInstance::iterator found = instance_map_.find(mount_name);
if (found != instance_map_.end())
return false;
// Allow empty paths.
if (path.empty())
return true;
// Verify path is legal.
if (path.ReferencesParent() || !path.IsAbsolute())
return false;
// Check there the new path does not overlap with one of the existing ones.
std::map<base::FilePath, std::string>::reverse_iterator potential_parent(
path_to_name_map_.upper_bound(path));
if (potential_parent != path_to_name_map_.rend()) {
if (potential_parent->first == path ||
potential_parent->first.IsParent(path)) {
return false;
}
}
std::map<base::FilePath, std::string>::iterator potential_child =
path_to_name_map_.upper_bound(path);
if (potential_child == path_to_name_map_.end())
return true;
return !(potential_child->first == path) &&
!path.IsParent(potential_child->first);
}
} // namespace fileapi