/*
* Copyright (C) 2017 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "VintfObject.h"
#include "CompatibilityMatrix.h"
#include "parse_xml.h"
#include "utils.h"
#include <functional>
#include <memory>
#include <mutex>
namespace android {
namespace vintf {
template <typename T>
struct LockedUniquePtr {
std::unique_ptr<T> object;
std::mutex mutex;
};
static LockedUniquePtr<HalManifest> gDeviceManifest;
static LockedUniquePtr<HalManifest> gFrameworkManifest;
static LockedUniquePtr<CompatibilityMatrix> gDeviceMatrix;
static LockedUniquePtr<CompatibilityMatrix> gFrameworkMatrix;
static LockedUniquePtr<RuntimeInfo> gDeviceRuntimeInfo;
template <typename T, typename F>
static const T *Get(
LockedUniquePtr<T> *ptr,
bool skipCache,
const F &fetchAllInformation) {
std::unique_lock<std::mutex> _lock(ptr->mutex);
if (skipCache || ptr->object == nullptr) {
ptr->object = std::make_unique<T>();
if (fetchAllInformation(ptr->object.get()) != OK) {
ptr->object = nullptr; // frees the old object
}
}
return ptr->object.get();
}
// static
const HalManifest *VintfObject::GetDeviceHalManifest(bool skipCache) {
return Get(&gDeviceManifest, skipCache,
std::bind(&HalManifest::fetchAllInformation, std::placeholders::_1,
"/vendor/manifest.xml"));
}
// static
const HalManifest *VintfObject::GetFrameworkHalManifest(bool skipCache) {
return Get(&gFrameworkManifest, skipCache,
std::bind(&HalManifest::fetchAllInformation, std::placeholders::_1,
"/system/manifest.xml"));
}
// static
const CompatibilityMatrix *VintfObject::GetDeviceCompatibilityMatrix(bool skipCache) {
return Get(&gDeviceMatrix, skipCache,
std::bind(&CompatibilityMatrix::fetchAllInformation, std::placeholders::_1,
"/vendor/compatibility_matrix.xml"));
}
// static
const CompatibilityMatrix *VintfObject::GetFrameworkCompatibilityMatrix(bool skipCache) {
return Get(&gFrameworkMatrix, skipCache,
std::bind(&CompatibilityMatrix::fetchAllInformation, std::placeholders::_1,
"/system/compatibility_matrix.xml"));
}
// static
const RuntimeInfo *VintfObject::GetRuntimeInfo(bool skipCache) {
return Get(&gDeviceRuntimeInfo, skipCache,
std::bind(&RuntimeInfo::fetchAllInformation, std::placeholders::_1));
}
namespace details {
enum class ParseStatus {
OK,
PARSE_ERROR,
DUPLICATED_FWK_ENTRY,
DUPLICATED_DEV_ENTRY,
};
static std::string toString(ParseStatus status) {
switch(status) {
case ParseStatus::OK: return "OK";
case ParseStatus::PARSE_ERROR: return "parse error";
case ParseStatus::DUPLICATED_FWK_ENTRY: return "duplicated framework";
case ParseStatus::DUPLICATED_DEV_ENTRY: return "duplicated device";
}
return "";
}
template<typename T>
static ParseStatus tryParse(const std::string &xml, const XmlConverter<T> &parse,
std::unique_ptr<T> *fwk, std::unique_ptr<T> *dev) {
std::unique_ptr<T> ret = std::make_unique<T>();
if (!parse(ret.get(), xml)) {
return ParseStatus::PARSE_ERROR;
}
if (ret->type() == SchemaType::FRAMEWORK) {
if (fwk->get() != nullptr) {
return ParseStatus::DUPLICATED_FWK_ENTRY;
}
*fwk = std::move(ret);
} else if (ret->type() == SchemaType::DEVICE) {
if (dev->get() != nullptr) {
return ParseStatus::DUPLICATED_DEV_ENTRY;
}
*dev = std::move(ret);
}
return ParseStatus::OK;
}
template<typename T, typename GetFunction>
static status_t getMissing(const T *pkg, bool mount,
std::function<status_t(void)> mountFunction,
const T **updated,
GetFunction getFunction) {
if (pkg != nullptr) {
*updated = pkg;
} else {
if (mount) {
(void)mountFunction(); // ignore mount errors
}
*updated = getFunction();
}
return OK;
}
#define ADD_MESSAGE(__error__) \
if (error != nullptr) { \
*error += (__error__); \
} \
struct PackageInfo {
struct Pair {
std::unique_ptr<HalManifest> manifest;
std::unique_ptr<CompatibilityMatrix> matrix;
};
Pair dev;
Pair fwk;
};
struct UpdatedInfo {
struct Pair {
const HalManifest *manifest;
const CompatibilityMatrix *matrix;
};
Pair dev;
Pair fwk;
const RuntimeInfo *runtimeInfo;
};
// Checks given compatibility info against info on the device. If no
// compatability info is given then the device info will be checked against
// itself.
int32_t checkCompatibility(const std::vector<std::string> &xmls, bool mount,
const PartitionMounter &mounter, std::string *error) {
status_t status;
ParseStatus parseStatus;
PackageInfo pkg; // All information from package.
UpdatedInfo updated; // All files and runtime info after the update.
// parse all information from package
for (const auto &xml : xmls) {
parseStatus = tryParse(xml, gHalManifestConverter, &pkg.fwk.manifest, &pkg.dev.manifest);
if (parseStatus == ParseStatus::OK) {
continue; // work on next one
}
if (parseStatus != ParseStatus::PARSE_ERROR) {
ADD_MESSAGE(toString(parseStatus) + " manifest");
return ALREADY_EXISTS;
}
parseStatus = tryParse(xml, gCompatibilityMatrixConverter, &pkg.fwk.matrix, &pkg.dev.matrix);
if (parseStatus == ParseStatus::OK) {
continue; // work on next one
}
if (parseStatus != ParseStatus::PARSE_ERROR) {
ADD_MESSAGE(toString(parseStatus) + " matrix");
return ALREADY_EXISTS;
}
ADD_MESSAGE(toString(parseStatus)); // parse error
return BAD_VALUE;
}
// get missing info from device
// use functions instead of std::bind because std::bind doesn't work well with mock objects
auto mountSystem = [&mounter] { return mounter.mountSystem(); };
auto mountVendor = [&mounter] { return mounter.mountVendor(); };
if ((status = getMissing(
pkg.fwk.manifest.get(), mount, mountSystem, &updated.fwk.manifest,
std::bind(VintfObject::GetFrameworkHalManifest, true /* skipCache */))) != OK) {
return status;
}
if ((status = getMissing(
pkg.dev.manifest.get(), mount, mountVendor, &updated.dev.manifest,
std::bind(VintfObject::GetDeviceHalManifest, true /* skipCache */))) != OK) {
return status;
}
if ((status = getMissing(
pkg.fwk.matrix.get(), mount, mountSystem, &updated.fwk.matrix,
std::bind(VintfObject::GetFrameworkCompatibilityMatrix, true /* skipCache */))) !=
OK) {
return status;
}
if ((status = getMissing(
pkg.dev.matrix.get(), mount, mountVendor, &updated.dev.matrix,
std::bind(VintfObject::GetDeviceCompatibilityMatrix, true /* skipCache */))) != OK) {
return status;
}
if (mount) {
(void)mounter.umountSystem(); // ignore errors
(void)mounter.umountVendor(); // ignore errors
}
updated.runtimeInfo = VintfObject::GetRuntimeInfo(true /* skipCache */);
// null checks for files and runtime info after the update
// TODO(b/37321309) if a compat mat is missing, it is not matched and considered compatible.
if (updated.fwk.manifest == nullptr) {
ADD_MESSAGE("No framework manifest file from device or from update package");
return NO_INIT;
}
if (updated.dev.manifest == nullptr) {
ADD_MESSAGE("No device manifest file from device or from update package");
return NO_INIT;
}
if (updated.fwk.matrix == nullptr) {
ADD_MESSAGE("No framework matrix, skipping;");
// TODO(b/37321309) consider missing matricies as errors.
}
if (updated.dev.matrix == nullptr) {
ADD_MESSAGE("No device matrix, skipping;");
// TODO(b/37321309) consider missing matricies as errors.
}
if (updated.runtimeInfo == nullptr) {
ADD_MESSAGE("No runtime info from device");
return NO_INIT;
}
// compatiblity check.
// TODO(b/37321309) outer if checks can be removed if we consider missing matrices as errors.
if (updated.dev.manifest && updated.fwk.matrix) {
if (!updated.dev.manifest->checkCompatibility(*updated.fwk.matrix, error)) {
if (error)
error->insert(0, "Device manifest and framework compatibility matrix "
"are incompatible: ");
return INCOMPATIBLE;
}
}
if (updated.fwk.manifest && updated.dev.matrix) {
if (!updated.fwk.manifest->checkCompatibility(*updated.dev.matrix, error)) {
if (error)
error->insert(0, "Framework manifest and device compatibility matrix "
"are incompatible: ");
return INCOMPATIBLE;
}
}
if (updated.runtimeInfo && updated.fwk.matrix) {
if (!updated.runtimeInfo->checkCompatibility(*updated.fwk.matrix, error)) {
if (error)
error->insert(0, "Runtime info and framework compatibility matrix "
"are incompatible: ");
return INCOMPATIBLE;
}
}
return COMPATIBLE;
}
} // namespace details
// static
int32_t VintfObject::CheckCompatibility(
const std::vector<std::string> &xmls, std::string *error) {
return details::checkCompatibility(xmls, false /* mount */,
*details::gPartitionMounter,
error);
}
} // namespace vintf
} // namespace android