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384 | // Copyright (C) 2018-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <util/encode/encode.h>
#include <yang/adaptor.h>
#include <yang/translator.h>
#include <sysrepo-cpp/utils/exception.hpp><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <cstring><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <vector><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
using namespace std;
using namespace isc::data;
using namespace isc::util::encode;
using namespace libyang;
using namespace sysrepo;
namespace isc {
namespace yang {
Translator::Translator(Session session, const string& model)
: session_(session), model_(model) {
}
void
Translator::checkAndGetLeaf(ElementPtr& storage,
DataNode const& data_node,
string const& name) const {
ElementPtr const& x(getItem(data_node, name));
if (x) {
storage->set(name, x);
}
}
void
Translator::checkAndGetDivergingLeaf(ElementPtr& storage,
DataNode const& data_node,
string const& name,
string const& yang_name) const {
ElementPtr const& x(getItem(data_node, yang_name));
if (x) {
storage->set(name, x);
}
}
void
Translator::checkAndGetAndJsonifyLeaf(ElementPtr& storage,
DataNode const& data_node,
string const& name) const {
ElementPtr const& x(getItem(data_node, name));
if (x) {
storage->set(name, Element::fromJSON(x->stringValue()));
}
}
void
Translator::checkAndSetLeaf(ConstElementPtr const& from,
string const& xpath,
string const& name,
LeafBaseType const type) {
ConstElementPtr const& x(from->get(name));
if (x) {
setItem(xpath + "/" + name, x, type);
}
}
void
Translator::checkAndSetDivergingLeaf(ConstElementPtr const& from,
string const& xpath,
string const& name,
string const& yang_name,
LeafBaseType const type) {
ConstElementPtr const& x(from->get(name));
if (x) {
setItem(xpath + "/" + yang_name, x, type);
}
}
void
Translator::checkAndSetLeafList(ConstElementPtr const& from,
string const& xpath,
string const& name,
LeafBaseType const type) {
ConstElementPtr const& leaf_list(from->get(name));
if (leaf_list && !leaf_list->empty()) {
for (ElementPtr const& leaf : leaf_list->listValue()) {
setItem(xpath + "/" + name, leaf, type);
}
}
}
void
Translator::checkAndSetUserContext(ConstElementPtr const& from,
string const& xpath) {
ConstElementPtr const& user_context(Adaptor::getContext(from));
if (user_context) {
setItem(xpath + "/user-context", Element::create(user_context->str()),
LeafBaseType::String);
}
}
void
Translator::checkAndStringifyAndSetLeaf(ConstElementPtr const& from,
string const& xpath,
string const& name) {
ConstElementPtr const& x(from->get(name));
if (x) {
ElementPtr const& json(Element::create(x->str()));
setItem(xpath + "/" + name, json, LeafBaseType::String);
}
}
void
Translator::deleteItem(string const& xpath) {
try {
if (session_.getData(xpath)) {
session_.deleteItem(xpath);
}
} catch (sysrepo::Error const& ex) {
isc_throw(NetconfError, "deleting item at '" << xpath << "': " << ex.what());
}
session_.applyChanges();
}
DataNode
Translator::findXPath(string const& xpath) const {
optional<DataNode> const& data_node(getData(xpath));
if (!data_node) {
isc_throw(NetconfError, "no data at xpath " << xpath);
}
Set<DataNode> at_path(data_node->findXPath(xpath));
if (at_path.empty()) {
isc_throw(NetconfError, "no data at xpath " << xpath);
}
return at_path.front();
}
optional<DataNode>
Translator::getData(string const& xpath) const {
optional<DataNode> data_node;
try {
data_node = session_.getData(xpath);
} catch (sysrepo::Error const& ex) {
isc_throw(NetconfError, "getting item at '" << xpath << "': " << ex.what());
}
return data_node;
}
ElementPtr
Translator::getItem(DataNode const& data_node,
string const& xpath) const {
try {
Set<DataNode> const& nodes(data_node.findXPath(xpath));
if (nodes.empty()) {
return ElementPtr();
}
DataNode const& front(nodes.front());
NodeType const node_type(front.schema().nodeType());
// Leaf
if (node_type == NodeType::Leaf) {
return translateFromYang(front);
} else if (node_type == NodeType::Leaflist) {
ElementPtr result(Element::createList());
for (DataNode const& i : nodes) {
result->add(translateFromYang(i));
}
return result;
} else {
isc_throw(NotImplemented, "getting node of type "
<< int(node_type) << " not supported, xpath is '" << xpath
<< "'");
}
} catch (sysrepo::Error const& ex) {
isc_throw(NetconfError, "getting item at '" << xpath << "': " << ex.what());
}
}
ElementPtr
Translator::getItemFromAbsoluteXpath(string const& xpath) const {
optional<DataNode> const& data_node(getData(xpath));
if (!data_node) {
return ElementPtr();
}
return getItem(*data_node, xpath);
}
void
Translator::getMandatoryLeaf(ElementPtr& storage,
DataNode const& data_node,
string const& name) const {
ElementPtr const& x(getItem(data_node, name));
if (!x) {
isc_throw(MissingNode, name);
}
storage->set(name, x);
}
void
Translator::getMandatoryDivergingLeaf(ElementPtr& storage,
DataNode const& data_node,
string const& name,
string const& yang_name) const {
ElementPtr const& x(getItem(data_node, yang_name));
if (!x) {
isc_throw(MissingNode, yang_name);
}
storage->set(name, x);
}
bool
Translator::schemaNodeExists(string const& xpath) const {
Context const& context(session_.getContext());
try {
context.findPath(xpath);
} catch (libyang::Error const& ex) {
return false;
}
return true;
}
void
Translator::setItem(const string& xpath,
ConstElementPtr const elem,
LeafBaseType const type) {
optional<string> const value(translateToYang(elem, type));
try {
session_.setItem(xpath, value);
} catch (sysrepo::Error const& ex) {
isc_throw(NetconfError, "setting item '" << (elem ? elem->str() : "nullopt")
<< "' at '" << xpath << "': " << ex.what());
}
session_.applyChanges();
}
void
Translator::setMandatoryLeaf(ConstElementPtr const& from,
string const& xpath,
string const& name,
LeafBaseType const type) {
ConstElementPtr const& x(from->get(name));
if (!x) {
isc_throw(MissingNode, "xpath: " << xpath << ", name: " << name);
}
setItem(xpath + "/" + name, x, type);
}
void
Translator::setMandatoryDivergingLeaf(ConstElementPtr const& from,
string const& xpath,
string const& name,
string const& yang_name,
LeafBaseType const type) {
ConstElementPtr const& x(from->get(name));
if (!x) {
isc_throw(MissingNode, "xpath: " << xpath << ", name: " << name);
}
setItem(xpath + "/" + yang_name, x, type);
}
ElementPtr
Translator::translateFromYang(optional<DataNode> data_node) {
NodeType const node_type(data_node->schema().nodeType());
if (node_type == NodeType::Leaf || node_type == NodeType::Leaflist) {
DataNodeTerm const& leaf(data_node->asTerm());
LeafBaseType type;
if (node_type == NodeType::Leaf) {
type = leaf.schema().asLeaf().valueType().base();
} else {
type = leaf.schema().asLeafList().valueType().base();
}
static Deserializer deserializer(initializeDeserializer());
return deserializer.at(type)(string(leaf.valueStr()));
}
return ElementPtr();
}
optional<string>
Translator::translateToYang(ConstElementPtr const& element,
libyang::LeafBaseType const type) {
string string_representation;
if (!element) {
// A null ElementPtr is how we signal that this item requires no value.
// Useful when setting YANG lists which is the only way to set their
// keys in sysrepo since setting the key itself results in an error.
return nullopt;
} else if (element->getType() == Element::map) {
isc_throw(NotImplemented, "Translator::value(): map element");
} else if (element->getType() == Element::list) {
isc_throw(NotImplemented, "Translator::value(): list element");
} else if (element->getType() == Element::string) {
// If it's a string, get the variant without quotes.
string_representation = element->stringValue();
} else {
// If it's not a string, also get the variant without quotes, but it's a different method.
string_representation = element->str();
}
static Serializer serializer(initializeSerializer());
return serializer.at(type)(string_representation);
}
string
Translator::decode64(string const& input) {
vector<uint8_t> binary;
decodeBase64(input, binary);
string result;
result.resize(binary.size());
memcpy(&result[0], &binary[0], result.size());
return (result);
}
string
Translator::encode64(string const& input) {
vector<uint8_t> binary;
binary.resize(input.size());
memcpy(&binary[0], input.c_str(), binary.size());
return (encodeBase64(binary));
}
Translator::Deserializer
Translator::initializeDeserializer() {
Deserializer result;
result.emplace(LeafBaseType::Binary, [](string const& value) -> ElementPtr const {
return Element::create(decode64(value));
});
for (LeafBaseType const& i :
{LeafBaseType::Bool, LeafBaseType::Dec64, LeafBaseType::Int8, LeafBaseType::Int16,
LeafBaseType::Int32, LeafBaseType::Int64, LeafBaseType::Uint8, LeafBaseType::Uint16,
LeafBaseType::Uint32, LeafBaseType::Uint64}) {
result.emplace(i, [](string const& value) -> ElementPtr const {
return Element::fromJSON(value);
});
}
// The rest of YANG values can be expressed as strings.
for (LeafBaseType const& i :
{LeafBaseType::Bits, LeafBaseType::Empty, LeafBaseType::Enum, LeafBaseType::IdentityRef,
LeafBaseType::InstanceIdentifier, LeafBaseType::Leafref, LeafBaseType::String,
LeafBaseType::Union}) {
result.emplace(i, [](string const& value) -> ElementPtr const {
return Element::create(value);
});
}
return result;
}
Translator::Serializer
Translator::initializeSerializer() {
Serializer result;
result.emplace(LeafBaseType::Binary, [](string const& value) -> string const {
return encode64(value);
});
// The rest of YANG values can be expressed directly.
for (LeafBaseType const& i :
{LeafBaseType::Bits, LeafBaseType::Bool, LeafBaseType::Dec64, LeafBaseType::Empty,
LeafBaseType::Enum, LeafBaseType::IdentityRef, LeafBaseType::InstanceIdentifier,
LeafBaseType::Int8, LeafBaseType::Int16, LeafBaseType::Int32, LeafBaseType::Int64,
LeafBaseType::Leafref, LeafBaseType::String, LeafBaseType::Uint8, LeafBaseType::Uint16,
LeafBaseType::Uint32, LeafBaseType::Uint64, LeafBaseType::Union, LeafBaseType::Unknown}) {
result.emplace(i, [](string const& value) -> string const {
return value;
});
}
return result;
}
} // namespace yang
} // namespace isc
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