// 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. #include "extensions/browser/extension_error.h" #include "base/strings/string_number_conversions.h" #include "base/strings/utf_string_conversions.h" #include "base/values.h" #include "extensions/common/constants.h" #include "url/gurl.h" using base::string16; using base::DictionaryValue; namespace extensions { //////////////////////////////////////////////////////////////////////////////// // ExtensionError // Static JSON keys. const char ExtensionError::kExtensionIdKey[] = "extensionId"; const char ExtensionError::kFromIncognitoKey[] = "fromIncognito"; const char ExtensionError::kLevelKey[] = "level"; const char ExtensionError::kMessageKey[] = "message"; const char ExtensionError::kSourceKey[] = "source"; const char ExtensionError::kTypeKey[] = "type"; ExtensionError::ExtensionError(Type type, const std::string& extension_id, bool from_incognito, logging::LogSeverity level, const string16& source, const string16& message) : type_(type), extension_id_(extension_id), from_incognito_(from_incognito), level_(level), source_(source), message_(message), occurrences_(1u) { } ExtensionError::~ExtensionError() { } scoped_ptr<DictionaryValue> ExtensionError::ToValue() const { // TODO(rdevlin.cronin): Use ValueBuilder when it's moved from // chrome/common/extensions. scoped_ptr<DictionaryValue> value(new DictionaryValue); value->SetInteger(kTypeKey, static_cast<int>(type_)); value->SetString(kExtensionIdKey, extension_id_); value->SetBoolean(kFromIncognitoKey, from_incognito_); value->SetInteger(kLevelKey, static_cast<int>(level_)); value->SetString(kSourceKey, source_); value->SetString(kMessageKey, message_); return value.Pass(); } std::string ExtensionError::PrintForTest() const { return std::string("Extension Error:") + "\n OTR: " + std::string(from_incognito_ ? "true" : "false") + "\n Level: " + base::IntToString(static_cast<int>(level_)) + "\n Source: " + base::UTF16ToUTF8(source_) + "\n Message: " + base::UTF16ToUTF8(message_) + "\n ID: " + extension_id_; } bool ExtensionError::IsEqual(const ExtensionError* rhs) const { // We don't check |source_| or |level_| here, since they are constant for // manifest errors. Check them in RuntimeError::IsEqualImpl() instead. return type_ == rhs->type_ && extension_id_ == rhs->extension_id_ && message_ == rhs->message_ && IsEqualImpl(rhs); } //////////////////////////////////////////////////////////////////////////////// // ManifestError // Static JSON keys. const char ManifestError::kManifestKeyKey[] = "manifestKey"; const char ManifestError::kManifestSpecificKey[] = "manifestSpecific"; ManifestError::ManifestError(const std::string& extension_id, const string16& message, const string16& manifest_key, const string16& manifest_specific) : ExtensionError(ExtensionError::MANIFEST_ERROR, extension_id, false, // extensions can't be installed while incognito. logging::LOG_WARNING, // All manifest errors are warnings. base::FilePath(kManifestFilename).AsUTF16Unsafe(), message), manifest_key_(manifest_key), manifest_specific_(manifest_specific) { } ManifestError::~ManifestError() { } scoped_ptr<DictionaryValue> ManifestError::ToValue() const { scoped_ptr<DictionaryValue> value = ExtensionError::ToValue(); if (!manifest_key_.empty()) value->SetString(kManifestKeyKey, manifest_key_); if (!manifest_specific_.empty()) value->SetString(kManifestSpecificKey, manifest_specific_); return value.Pass(); } std::string ManifestError::PrintForTest() const { return ExtensionError::PrintForTest() + "\n Type: ManifestError"; } bool ManifestError::IsEqualImpl(const ExtensionError* rhs) const { // If two manifest errors have the same extension id and message (which are // both checked in ExtensionError::IsEqual), then they are equal. return true; } //////////////////////////////////////////////////////////////////////////////// // RuntimeError // Static JSON keys. const char RuntimeError::kColumnNumberKey[] = "columnNumber"; const char RuntimeError::kContextUrlKey[] = "contextUrl"; const char RuntimeError::kFunctionNameKey[] = "functionName"; const char RuntimeError::kLineNumberKey[] = "lineNumber"; const char RuntimeError::kStackTraceKey[] = "stackTrace"; const char RuntimeError::kUrlKey[] = "url"; const char RuntimeError::kRenderProcessIdKey[] = "renderProcessId"; const char RuntimeError::kRenderViewIdKey[] = "renderViewId"; RuntimeError::RuntimeError(const std::string& extension_id, bool from_incognito, const string16& source, const string16& message, const StackTrace& stack_trace, const GURL& context_url, logging::LogSeverity level, int render_view_id, int render_process_id) : ExtensionError(ExtensionError::RUNTIME_ERROR, !extension_id.empty() ? extension_id : GURL(source).host(), from_incognito, level, source, message), context_url_(context_url), stack_trace_(stack_trace), render_view_id_(render_view_id), render_process_id_(render_process_id) { CleanUpInit(); } RuntimeError::~RuntimeError() { } scoped_ptr<DictionaryValue> RuntimeError::ToValue() const { scoped_ptr<DictionaryValue> value = ExtensionError::ToValue(); value->SetString(kContextUrlKey, context_url_.spec()); value->SetInteger(kRenderViewIdKey, render_view_id_); value->SetInteger(kRenderProcessIdKey, render_process_id_); base::ListValue* trace_value = new base::ListValue; for (StackTrace::const_iterator iter = stack_trace_.begin(); iter != stack_trace_.end(); ++iter) { DictionaryValue* frame_value = new DictionaryValue; frame_value->SetInteger(kLineNumberKey, iter->line_number); frame_value->SetInteger(kColumnNumberKey, iter->column_number); frame_value->SetString(kUrlKey, iter->source); frame_value->SetString(kFunctionNameKey, iter->function); trace_value->Append(frame_value); } value->Set(kStackTraceKey, trace_value); return value.Pass(); } std::string RuntimeError::PrintForTest() const { std::string result = ExtensionError::PrintForTest() + "\n Type: RuntimeError" "\n Context: " + context_url_.spec() + "\n Stack Trace: "; for (StackTrace::const_iterator iter = stack_trace_.begin(); iter != stack_trace_.end(); ++iter) { result += "\n {" "\n Line: " + base::IntToString(iter->line_number) + "\n Column: " + base::IntToString(iter->column_number) + "\n URL: " + base::UTF16ToUTF8(iter->source) + "\n Function: " + base::UTF16ToUTF8(iter->function) + "\n }"; } return result; } bool RuntimeError::IsEqualImpl(const ExtensionError* rhs) const { const RuntimeError* error = static_cast<const RuntimeError*>(rhs); // Only look at the first frame of a stack trace to save time and group // nearly-identical errors. The most recent error is kept, so there's no risk // of displaying an old and inaccurate stack trace. return level_ == error->level_ && source_ == error->source_ && context_url_ == error->context_url_ && stack_trace_.size() == error->stack_trace_.size() && (stack_trace_.empty() || stack_trace_[0] == error->stack_trace_[0]); } void RuntimeError::CleanUpInit() { // If the error came from a generated background page, the "context" is empty // because there's no visible URL. We should set context to be the generated // background page in this case. GURL source_url = GURL(source_); if (context_url_.is_empty() && source_url.path() == std::string("/") + kGeneratedBackgroundPageFilename) { context_url_ = source_url; } // In some instances (due to the fact that we're reusing error reporting from // other systems), the source won't match up with the final entry in the stack // trace. (For instance, in a browser action error, the source is the page - // sometimes the background page - but the error is thrown from the script.) // Make the source match the stack trace, since that is more likely the cause // of the error. if (!stack_trace_.empty() && source_ != stack_trace_[0].source) source_ = stack_trace_[0].source; } } // namespace extensions