// 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.
#include "chrome/common/extensions/extension_messages.h"
#include "chrome/common/extensions/extension_constants.h"
#include "content/common/common_param_traits.h"
ExtensionMsg_Loaded_Params::ExtensionMsg_Loaded_Params()
: location(Extension::INVALID) {}
ExtensionMsg_Loaded_Params::~ExtensionMsg_Loaded_Params() {}
ExtensionMsg_Loaded_Params::ExtensionMsg_Loaded_Params(
const ExtensionMsg_Loaded_Params& other)
: manifest(other.manifest->DeepCopy()),
location(other.location),
path(other.path),
apis(other.apis),
explicit_hosts(other.explicit_hosts),
scriptable_hosts(other.scriptable_hosts),
id(other.id),
creation_flags(other.creation_flags) {}
ExtensionMsg_Loaded_Params::ExtensionMsg_Loaded_Params(
const Extension* extension)
: manifest(new DictionaryValue()),
location(extension->location()),
path(extension->path()),
apis(extension->GetActivePermissions()->apis()),
explicit_hosts(extension->GetActivePermissions()->explicit_hosts()),
scriptable_hosts(extension->GetActivePermissions()->scriptable_hosts()),
id(extension->id()),
creation_flags(extension->creation_flags()) {
// As we need more bits of extension data in the renderer, add more keys to
// this list.
const char* kRendererExtensionKeys[] = {
extension_manifest_keys::kPublicKey,
extension_manifest_keys::kName,
extension_manifest_keys::kVersion,
extension_manifest_keys::kIcons,
extension_manifest_keys::kPageAction,
extension_manifest_keys::kPageActions,
extension_manifest_keys::kPermissions,
extension_manifest_keys::kApp,
extension_manifest_keys::kContentScripts
};
// Copy only the data we need.
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kRendererExtensionKeys); ++i) {
Value* temp = NULL;
if (extension->manifest_value()->Get(kRendererExtensionKeys[i], &temp))
manifest->Set(kRendererExtensionKeys[i], temp->DeepCopy());
}
}
scoped_refptr<Extension>
ExtensionMsg_Loaded_Params::ConvertToExtension() const {
std::string error;
scoped_refptr<Extension> extension(
Extension::Create(path, location, *manifest, creation_flags,
&error));
if (!extension.get())
LOG(ERROR) << "Error deserializing extension: " << error;
else
extension->SetActivePermissions(
new ExtensionPermissionSet(apis, explicit_hosts, scriptable_hosts));
return extension;
}
namespace IPC {
template <>
struct ParamTraits<Extension::Location> {
typedef Extension::Location param_type;
static void Write(Message* m, const param_type& p) {
int val = static_cast<int>(p);
WriteParam(m, val);
}
static bool Read(const Message* m, void** iter, param_type* p) {
int val = 0;
if (!ReadParam(m, iter, &val) ||
val < Extension::INVALID ||
val >= Extension::NUM_LOCATIONS)
return false;
*p = static_cast<param_type>(val);
return true;
}
static void Log(const param_type& p, std::string* l) {
ParamTraits<int>::Log(static_cast<int>(p), l);
}
};
void ParamTraits<URLPattern>::Write(Message* m, const param_type& p) {
WriteParam(m, p.valid_schemes());
WriteParam(m, p.GetAsString());
}
bool ParamTraits<URLPattern>::Read(const Message* m, void** iter,
param_type* p) {
int valid_schemes;
std::string spec;
if (!ReadParam(m, iter, &valid_schemes) ||
!ReadParam(m, iter, &spec))
return false;
// TODO(jstritar): We don't want the URLPattern to fail parsing when the
// scheme is invalid. Instead, the pattern should parse but it should not
// match the invalid patterns. We get around this by setting the valid
// schemes after parsing the pattern. Update these method calls once we can
// ignore scheme validation with URLPattern parse options. crbug.com/90544
p->SetValidSchemes(URLPattern::SCHEME_ALL);
URLPattern::ParseResult result = p->Parse(spec, URLPattern::IGNORE_PORTS);
p->SetValidSchemes(valid_schemes);
return URLPattern::PARSE_SUCCESS == result;
}
void ParamTraits<URLPattern>::Log(const param_type& p, std::string* l) {
LogParam(p.GetAsString(), l);
}
void ParamTraits<URLPatternSet>::Write(Message* m, const param_type& p) {
WriteParam(m, p.patterns());
}
bool ParamTraits<URLPatternSet>::Read(const Message* m, void** iter,
param_type* p) {
std::set<URLPattern> patterns;
if (!ReadParam(m, iter, &patterns))
return false;
for (std::set<URLPattern>::iterator i = patterns.begin();
i != patterns.end(); ++i)
p->AddPattern(*i);
return true;
}
void ParamTraits<URLPatternSet>::Log(const param_type& p, std::string* l) {
LogParam(p.patterns(), l);
}
void ParamTraits<ExtensionAPIPermission::ID>::Write(
Message* m, const param_type& p) {
WriteParam(m, static_cast<int>(p));
}
bool ParamTraits<ExtensionAPIPermission::ID>::Read(
const Message* m, void** iter, param_type* p) {
int api_id = -2;
if (!ReadParam(m, iter, &api_id))
return false;
*p = static_cast<ExtensionAPIPermission::ID>(api_id);
return true;
}
void ParamTraits<ExtensionAPIPermission::ID>::Log(
const param_type& p, std::string* l) {
LogParam(static_cast<int>(p), l);
}
void ParamTraits<ExtensionMsg_Loaded_Params>::Write(Message* m,
const param_type& p) {
WriteParam(m, p.location);
WriteParam(m, p.path);
WriteParam(m, *(p.manifest));
WriteParam(m, p.creation_flags);
WriteParam(m, p.apis);
WriteParam(m, p.explicit_hosts);
WriteParam(m, p.scriptable_hosts);
}
bool ParamTraits<ExtensionMsg_Loaded_Params>::Read(const Message* m,
void** iter,
param_type* p) {
p->manifest.reset(new DictionaryValue());
return ReadParam(m, iter, &p->location) &&
ReadParam(m, iter, &p->path) &&
ReadParam(m, iter, p->manifest.get()) &&
ReadParam(m, iter, &p->creation_flags) &&
ReadParam(m, iter, &p->apis) &&
ReadParam(m, iter, &p->explicit_hosts) &&
ReadParam(m, iter, &p->scriptable_hosts);
}
void ParamTraits<ExtensionMsg_Loaded_Params>::Log(const param_type& p,
std::string* l) {
l->append(p.id);
}
} // namespace IPC