// Copyright (c) 2011 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_SANDBOXED_EXTENSION_UNPACKER_H_ #define CHROME_BROWSER_EXTENSIONS_SANDBOXED_EXTENSION_UNPACKER_H_ #pragma once #include <string> #include "base/file_path.h" #include "base/memory/ref_counted.h" #include "base/memory/scoped_temp_dir.h" #include "chrome/browser/utility_process_host.h" class DictionaryValue; class Extension; class ResourceDispatcherHost; class SandboxedExtensionUnpackerClient : public base::RefCountedThreadSafe<SandboxedExtensionUnpackerClient> { public: // temp_dir - A temporary directory containing the results of the extension // unpacking. The client is responsible for deleting this directory. // // extension_root - The path to the extension root inside of temp_dir. // // extension - The extension that was unpacked. The client is responsible // for deleting this memory. virtual void OnUnpackSuccess(const FilePath& temp_dir, const FilePath& extension_root, const Extension* extension) = 0; virtual void OnUnpackFailure(const std::string& error) = 0; protected: friend class base::RefCountedThreadSafe<SandboxedExtensionUnpackerClient>; virtual ~SandboxedExtensionUnpackerClient() {} }; // SandboxedExtensionUnpacker unpacks extensions from the CRX format into a // directory. This is done in a sandboxed subprocess to protect the browser // process from parsing complex formats like JPEG or JSON from untrusted // sources. // // Unpacking an extension using this class makes minor changes to its source, // such as transcoding all images to PNG, parsing all message catalogs // and rewriting the manifest JSON. As such, it should not be used when the // output is not intended to be given back to the author. // // // Lifetime management: // // This class is ref-counted by each call it makes to itself on another thread, // and by UtilityProcessHost. // // Additionally, we hold a reference to our own client so that it lives at least // long enough to receive the result of unpacking. // // // NOTE: This class should only be used on the file thread. class SandboxedExtensionUnpacker : public UtilityProcessHost::Client { public: // The size of the magic character sequence at the beginning of each crx // file, in bytes. This should be a multiple of 4. static const size_t kExtensionHeaderMagicSize = 4; // This header is the first data at the beginning of an extension. Its // contents are purposely 32-bit aligned so that it can just be slurped into // a struct without manual parsing. struct ExtensionHeader { char magic[kExtensionHeaderMagicSize]; uint32 version; uint32 key_size; // The size of the public key, in bytes. uint32 signature_size; // The size of the signature, in bytes. // An ASN.1-encoded PublicKeyInfo structure follows. // The signature follows. }; // The maximum size the crx parser will tolerate for a public key. static const uint32 kMaxPublicKeySize = 1 << 16; // The maximum size the crx parser will tolerate for a signature. static const uint32 kMaxSignatureSize = 1 << 16; // The magic character sequence at the beginning of each crx file. static const char kExtensionHeaderMagic[]; // The current version of the crx format. static const uint32 kCurrentVersion = 2; // Unpacks the extension in |crx_path| into a temporary directory and calls // |client| with the result. If |rdh| is provided, unpacking is done in a // sandboxed subprocess. Otherwise, it is done in-process. SandboxedExtensionUnpacker(const FilePath& crx_path, ResourceDispatcherHost* rdh, SandboxedExtensionUnpackerClient* cilent); // Start unpacking the extension. The client is called with the results. void Start(); private: class ProcessHostClient; // Enumerate all the ways unpacking can fail. Calls to ReportFailure() // take a failure reason as an argument, and put it in histogram // Extensions.SandboxUnpackFailureReason. enum FailureReason { // SandboxedExtensionUnpacker::CreateTempDirectory() COULD_NOT_GET_TEMP_DIRECTORY, COULD_NOT_CREATE_TEMP_DIRECTORY, // SandboxedExtensionUnpacker::Start() FAILED_TO_COPY_EXTENSION_FILE_TO_TEMP_DIRECTORY, COULD_NOT_GET_SANDBOX_FRIENDLY_PATH, // SandboxedExtensionUnpacker::OnUnpackExtensionSucceeded() COULD_NOT_LOCALIZE_EXTENSION, INVALID_MANIFEST, //SandboxedExtensionUnpacker::OnUnpackExtensionFailed() UNPACKER_CLIENT_FAILED, // SandboxedExtensionUnpacker::OnProcessCrashed() UTILITY_PROCESS_CRASHED_WHILE_TRYING_TO_INSTALL, // SandboxedExtensionUnpacker::ValidateSignature() CRX_FILE_NOT_READABLE, CRX_HEADER_INVALID, CRX_MAGIC_NUMBER_INVALID, CRX_VERSION_NUMBER_INVALID, CRX_EXCESSIVELY_LARGE_KEY_OR_SIGNATURE, CRX_ZERO_KEY_LENGTH, CRX_ZERO_SIGNATURE_LENGTH, CRX_PUBLIC_KEY_INVALID, CRX_SIGNATURE_INVALID, CRX_SIGNATURE_VERIFICATION_INITIALIZATION_FAILED, CRX_SIGNATURE_VERIFICATION_FAILED, // SandboxedExtensionUnpacker::RewriteManifestFile() ERROR_SERIALIZING_MANIFEST_JSON, ERROR_SAVING_MANIFEST_JSON, // SandboxedExtensionUnpacker::RewriteImageFiles() COULD_NOT_READ_IMAGE_DATA_FROM_DISK, DECODED_IMAGES_DO_NOT_MATCH_THE_MANIFEST, INVALID_PATH_FOR_BROWSER_IMAGE, ERROR_REMOVING_OLD_IMAGE_FILE, INVALID_PATH_FOR_BITMAP_IMAGE, ERROR_RE_ENCODING_THEME_IMAGE, ERROR_SAVING_THEME_IMAGE, // SandboxedExtensionUnpacker::RewriteCatalogFiles() COULD_NOT_READ_CATALOG_DATA_FROM_DISK, INVALID_CATALOG_DATA, INVALID_PATH_FOR_CATALOG, ERROR_SERIALIZING_CATALOG, ERROR_SAVING_CATALOG, NUM_FAILURE_REASONS }; friend class ProcessHostClient; friend class SandboxedExtensionUnpackerTest; virtual ~SandboxedExtensionUnpacker(); // Set |temp_dir_| as a temporary directory to unpack the extension in. // Return true on success. virtual bool CreateTempDirectory(); // Validates the signature of the extension and extract the key to // |public_key_|. Returns true if the signature validates, false otherwise. // // NOTE: Having this method here is a bit ugly. This code should really live // in ExtensionUnpacker as it is not specific to sandboxed unpacking. It was // put here because we cannot run windows crypto code in the sandbox. But we // could still have this method statically on ExtensionUnpacker so that code // just for unpacking is there and code just for sandboxing of unpacking is // here. bool ValidateSignature(); // Starts the utility process that unpacks our extension. void StartProcessOnIOThread(const FilePath& temp_crx_path); // SandboxedExtensionUnpacker virtual void OnUnpackExtensionSucceeded(const DictionaryValue& manifest); virtual void OnUnpackExtensionFailed(const std::string& error_message); virtual void OnProcessCrashed(int exit_code); void ReportFailure(FailureReason reason, const std::string& message); void ReportSuccess(); // Overwrites original manifest with safe result from utility process. // Returns NULL on error. Caller owns the returned object. DictionaryValue* RewriteManifestFile(const DictionaryValue& manifest); // Overwrites original files with safe results from utility process. // Reports error and returns false if it fails. bool RewriteImageFiles(); bool RewriteCatalogFiles(); // The path to the CRX to unpack. FilePath crx_path_; // Our client's thread. This is the thread we respond on. BrowserThread::ID thread_identifier_; // ResourceDispatcherHost to pass to the utility process. ResourceDispatcherHost* rdh_; // Our client. scoped_refptr<SandboxedExtensionUnpackerClient> client_; // A temporary directory to use for unpacking. ScopedTempDir temp_dir_; // The root directory of the unpacked extension. This is a child of temp_dir_. FilePath extension_root_; // Represents the extension we're unpacking. scoped_refptr<Extension> extension_; // Whether we've received a response from the utility process yet. bool got_response_; // The public key that was extracted from the CRX header. std::string public_key_; }; #endif // CHROME_BROWSER_EXTENSIONS_SANDBOXED_EXTENSION_UNPACKER_H_