// 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.
#ifndef CHROME_BROWSER_EXTENSIONS_INSTALL_VERIFIER_H_
#define CHROME_BROWSER_EXTENSIONS_INSTALL_VERIFIER_H_
#include <queue>
#include <set>
#include <string>
#include "base/basictypes.h"
#include "base/callback.h"
#include "base/memory/linked_ptr.h"
#include "base/memory/scoped_ptr.h"
#include "base/memory/weak_ptr.h"
#include "extensions/browser/management_policy.h"
#include "extensions/common/extension.h"
namespace content {
class BrowserContext;
}
namespace net {
class URLRequestContextGetter;
}
namespace extensions {
class ExtensionPrefs;
class InstallSigner;
struct InstallSignature;
// This class implements verification that a set of extensions are either from
// the webstore or are whitelisted by enterprise policy. The webstore
// verification process works by sending a request to a backend server to get a
// signature proving that a set of extensions are verified. This signature is
// written into the extension preferences and is checked for validity when
// being read back again.
//
// This class should be kept notified of runtime changes to the set of
// extensions installed from the webstore.
class InstallVerifier : public ManagementPolicy::Provider {
public:
InstallVerifier(ExtensionPrefs* prefs, content::BrowserContext* context);
virtual ~InstallVerifier();
// Returns whether |extension| is of a type that needs verification.
static bool NeedsVerification(const Extension& extension);
// Initializes this object for use, including reading preferences and
// validating the stored signature.
void Init();
// Returns the timestamp of our InstallSignature, if we have one.
base::Time SignatureTimestamp();
// Returns true if |id| is either verified or our stored signature explicitly
// tells us that it was invalid when we asked the server about it.
bool IsKnownId(const std::string& id);
// Attempts to verify a single extension and add it to the verified list.
void VerifyExtension(const std::string& extension_id);
// Attempts to verify all extensions.
void VerifyAllExtensions();
// Call this to add a set of ids that will immediately be considered allowed,
// and kick off an aysnchronous request to Add.
void AddProvisional(const ExtensionIdSet& ids);
// Removes an id or set of ids from the verified list.
void Remove(const std::string& id);
void RemoveMany(const ExtensionIdSet& ids);
// ManagementPolicy::Provider interface.
virtual std::string GetDebugPolicyProviderName() const OVERRIDE;
virtual bool MustRemainDisabled(const Extension* extension,
Extension::DisableReason* reason,
base::string16* error) const OVERRIDE;
private:
// We keep a list of operations to the current set of extensions.
enum OperationType {
ADD_SINGLE, // Adding a single extension to be verified.
ADD_ALL, // Adding all extensions to be verified.
ADD_ALL_BOOTSTRAP, // Adding all extensions because of a bootstrapping.
ADD_PROVISIONAL, // Adding one or more provisionally-allowed extensions.
REMOVE // Remove one or more extensions.
};
// This is an operation we want to apply to the current set of verified ids.
struct PendingOperation {
OperationType type;
// This is the set of ids being either added or removed.
ExtensionIdSet ids;
explicit PendingOperation(OperationType type);
~PendingOperation();
};
// Returns the set of IDs for all extensions that potentially need to be
// verified.
ExtensionIdSet GetExtensionsToVerify() const;
// Bootstrap the InstallVerifier if we do not already have a signature, or if
// there are unknown extensions which need to be verified.
void MaybeBootstrapSelf();
// Try adding a new set of |ids| to the list of verified ids.
void AddMany(const ExtensionIdSet& ids, OperationType type);
// Record the result of the verification for the histograms, and notify the
// ExtensionPrefs if we verified all extensions.
void OnVerificationComplete(bool success, OperationType type);
// Removes any no-longer-installed ids, requesting a new signature if needed.
void GarbageCollect();
// Returns whether an extension id is allowed by policy.
bool AllowedByEnterprisePolicy(const std::string& id) const;
// Returns whether the given |id| is included in our verified signature.
bool IsVerified(const std::string& id) const;
// Returns true if the extension with |id| was installed later than the
// timestamp of our signature.
bool WasInstalledAfterSignature(const std::string& id) const;
// Begins the process of fetching a new signature, based on applying the
// operation at the head of the queue to the current set of ids in
// |signature_| (if any) and then sending a request to sign that.
void BeginFetch();
// Saves the current value of |signature_| to the prefs;
void SaveToPrefs();
// Called with the result of a signature request, or NULL on failure.
void SignatureCallback(scoped_ptr<InstallSignature> signature);
ExtensionPrefs* prefs_;
// The context with which the InstallVerifier is associated.
content::BrowserContext* context_;
// Have we finished our bootstrap check yet?
bool bootstrap_check_complete_;
// This is the most up-to-date signature, read out of |prefs_| during
// initialization and updated anytime we get new id's added.
scoped_ptr<InstallSignature> signature_;
// The current InstallSigner, if we have a signature request running.
scoped_ptr<InstallSigner> signer_;
// A queue of operations to apply to the current set of allowed ids.
std::queue<linked_ptr<PendingOperation> > operation_queue_;
// A set of ids that have been provisionally added, which we're willing to
// consider allowed until we hear back from the server signature request.
ExtensionIdSet provisional_;
base::WeakPtrFactory<InstallVerifier> weak_factory_;
DISALLOW_COPY_AND_ASSIGN(InstallVerifier);
};
} // namespace extensions
#endif // CHROME_BROWSER_EXTENSIONS_INSTALL_VERIFIER_H_