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/*
* Phusion Passenger - https://www.phusionpassenger.com/
* Copyright (c) 2017-2018 Phusion Holding B.V.
*
* "Passenger", "Phusion Passenger" and "Union Station" are registered
* trademarks of Phusion Holding B.V.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* THE SOFTWARE.
*/
#ifndef _PASSENGER_CONFIG_KIT_STORE_H_
#define _PASSENGER_CONFIG_KIT_STORE_H_
#include <string>
#include <vector>
#include <cassert>
// for std::swap()
#if __cplusplus >= 201103L
#include <utility>
#else
#include <algorithm>
#endif
#include <boost/config.hpp>
#include <jsoncpp/json.h>
#include <ConfigKit/Common.h>
#include <ConfigKit/Schema.h>
#include <ConfigKit/Utils.h>
#include <ConfigKit/Translator.h>
#include <LoggingKit/Assert.h>
#include <Exceptions.h>
#include <DataStructures/StringKeyTable.h>
#include <StrIntTools/StrIntUtils.h>
namespace Passenger {
namespace ConfigKit {
using namespace std;
// See the ConfigKit README for a description.
class Store {
private:
friend class Schema;
struct Entry {
const Schema::Entry *schemaEntry;
Json::Value userValue;
mutable Json::Value cachedDefaultValue;
mutable bool defaultValueCachePopulated;
Entry()
: schemaEntry(NULL)
{ }
Entry(const Schema::Entry &_schemaEntry)
: schemaEntry(&_schemaEntry),
userValue(Json::nullValue),
defaultValueCachePopulated(false)
{ }
Json::Value getDefaultValue(const Store &store) const {
if (defaultValueCachePopulated) {
return cachedDefaultValue;
} else if (schemaEntry->defaultValueGetter) {
if (schemaEntry->flags & CACHE_DEFAULT_VALUE) {
defaultValueCachePopulated = true;
cachedDefaultValue = schemaEntry->defaultValueGetter(store);
return cachedDefaultValue;
} else {
return schemaEntry->defaultValueGetter(store);
}
} else {
return Json::Value(Json::nullValue);
}
}
Json::Value getEffectiveValue(const Store &store) const {
if (userValue.isNull()) {
return getDefaultValue(store);
} else if (schemaEntry->nestedSchema == NULL) {
return userValue;
} else {
// The user value may contain nulls that should
// be populated with the default value from the
// corresponding nested schema.
Json::Value result;
schemaEntry->tryTypecastArrayOrObjectValueWithNestedSchema(
userValue, result, "effective_value");
return result;
}
}
};
const Schema *schema;
StringKeyTable<Entry> entries;
bool updatedOnce;
static Json::Value getEffectiveValue(const Json::Value &userValue,
const Json::Value &defaultValue, const Schema::Entry &schemaEntry)
{
if (userValue.isNull()) {
return defaultValue;
} else if (schemaEntry.nestedSchema == NULL) {
return userValue;
} else {
// The user value may contain nulls that should
// be populated with the default value from the
// corresponding nested schema.
Json::Value result;
schemaEntry.tryTypecastArrayOrObjectValueWithNestedSchema(
userValue, result, "effective_value");
return result;
}
}
static Json::Value maybeFilterSecret(const Entry &entry, const Json::Value &value) {
if (entry.schemaEntry->flags & SECRET) {
if (value.isNull()) {
return Json::nullValue;
} else {
return "[FILTERED]";
}
} else {
return value;
}
}
void initialize() {
Schema::ConstIterator it = schema->getIterator();
while (*it != NULL) {
Entry entry(it.getValue());
entries.insert(it.getKey(), entry);
it.next();
}
entries.compact();
}
bool isWritable(const Entry &entry) const {
return !(entry.schemaEntry->flags & READ_ONLY) || !updatedOnce;
}
void applyCustomValidators(const Json::Value &updates, vector<Error> &errors) const {
Store tempStore(*schema);
StringKeyTable<Entry>::Iterator it(tempStore.entries);
while (*it != NULL) {
const HashedStaticString &key = it.getKey();
Entry &entry = it.getValue();
if (isWritable(entry) && updates.isMember(key)) {
entry.userValue = updates[key];
}
it.next();
}
boost::container::vector<Schema::Validator>::const_iterator v_it, v_end
= schema->getValidators().end();
for (v_it = schema->getValidators().begin(); v_it != v_end; v_it++) {
const Schema::Validator &validator = *v_it;
validator(tempStore, errors);
}
}
void applyNormalizers(Json::Value &doc) const {
boost::container::vector<Schema::Normalizer>::const_iterator n_it, n_end;
n_it = schema->getNormalizers().begin();
n_end = schema->getNormalizers().end();
for (; n_it != n_end; n_it++) {
const Schema::Normalizer &normalizer = *n_it;
Json::Value effectiveValues(Json::objectValue);
Json::Value::iterator it, end = doc.end();
for (it = doc.begin(); it != end; it++) {
string name = it.name();
effectiveValues[name] = doc[name]["effective_value"];
}
Json::Value updates = normalizer(effectiveValues);
if (OXT_UNLIKELY(!updates.isNull() && !updates.isObject())) {
P_BUG("ConfigKit normalizers may only return null or object values");
}
if (updates.isNull() || updates.empty()) {
continue;
}
end = updates.end();
for (it = updates.begin(); it != end; it++) {
string name = it.name();
if (doc.isMember(name)) {
Json::Value &subdoc = doc[name];
subdoc["user_value"] = *it;
subdoc["effective_value"] = *it;
} else {
P_BUG("A ConfigKit normalizer returned a key that is not part of the schema: "
<< name);
}
}
}
}
void applyInspectFilters(Json::Value &doc) const {
StringKeyTable<Entry>::ConstIterator it(entries);
while (*it != NULL) {
const Entry &entry = it.getValue();
if (entry.schemaEntry->inspectFilter.empty()) {
it.next();
continue;
}
const HashedStaticString &key = it.getKey();
Json::Value &subdoc = doc[key];
Json::Value &userValue = subdoc["user_value"];
userValue = entry.schemaEntry->inspectFilter(userValue);
if (subdoc.isMember("default_value")) {
Json::Value &defaultValue = subdoc["default_value"];
defaultValue = entry.schemaEntry->inspectFilter(defaultValue);
}
Json::Value &effectiveValue = subdoc["effective_value"];
effectiveValue = entry.schemaEntry->inspectFilter(effectiveValue);
it.next();
}
}
void doFilterSecrets(Json::Value &doc) const {
StringKeyTable<Entry>::ConstIterator it(entries);
while (*it != NULL) {
const HashedStaticString &key = it.getKey();
const Entry &entry = it.getValue();
Json::Value &subdoc = doc[key];
Json::Value &userValue = subdoc["user_value"];
userValue = maybeFilterSecret(entry, userValue);
if (subdoc.isMember("default_value")) {
Json::Value &defaultValue = subdoc["default_value"];
defaultValue = maybeFilterSecret(entry, defaultValue);
}
Json::Value &effectiveValue = subdoc["effective_value"];
effectiveValue = maybeFilterSecret(entry, effectiveValue);
it.next();
}
}
public:
struct PreviewOptions {
bool filterSecrets;
bool shouldApplyInspectFilters;
PreviewOptions()
: filterSecrets(true),
shouldApplyInspectFilters()
{ }
};
Store()
: schema(NULL),
entries(0, 0),
updatedOnce(false)
{ }
Store(const Schema &_schema)
: schema(&_schema),
updatedOnce(false)
{
initialize();
}
Store(const Schema &_schema, const Json::Value &initialValues)
: schema(&_schema),
updatedOnce(false)
{
vector<Error> errors;
initialize();
if (!update(initialValues, errors)) {
throw ArgumentException("Invalid initial configuration: "
+ toString(errors));
}
}
Store(const Schema &_schema, const Json::Value &initialValues,
const Translator &translator)
: schema(&_schema),
updatedOnce(false)
{
vector<Error> errors;
initialize();
if (!update(translator.translate(initialValues), errors)) {
errors = translator.reverseTranslate(errors);
throw ArgumentException("Invalid initial configuration: "
+ toString(errors));
}
}
Store(const Store &other, const Json::Value &updates, vector<Error> &errors)
: schema(other.schema),
updatedOnce(false)
{
Json::Value result(Json::objectValue);
StringKeyTable<Entry>::ConstIterator it(other.entries);
while (*it != NULL) {
const Entry &entry = it.getValue();
if (updates.isMember(it.getKey())) {
result[it.getKey()] = updates[it.getKey()];
} else if (!entry.userValue.isNull()) {
result[it.getKey()] = entry.userValue;
}
it.next();
}
initialize();
update(result, errors);
}
const Schema &getSchema() const {
return *schema;
}
bool hasBeenUpdatedAtLeastOnce() const {
return updatedOnce;
}
/**
* Returns the effective value of the given configuration key.
* That is: either the user-supplied value, or the default value,
* or null (whichever is first applicable).
*
* Note that `key` *must* be NULL-terminated!
*/
Json::Value get(const HashedStaticString &key) const {
const Entry *entry;
if (entries.lookup(key, &entry)) {
return entry->getEffectiveValue(*this);
} else {
return Json::Value(Json::nullValue);
}
}
Json::Value operator[](const HashedStaticString &key) const {
return get(key);
}
/**
* Given a JSON document containing configuration updates, returns
* a JSON document that describes how the new configuration would
* look like (when the updates are merged with the existing configuration),
* and whether it passes validation, without actually updating the
* stored configuration.
*
* If validation fails then any validation errors will be added to `errors`.
*
* Any keys in `updates` that are not registered are omitted from the result.
* Any keys not in `updates` do not affect existing values stored in the store.
*
* The format returned by this method is the same as that of `inspect()`,
* with the following exceptions:
*
* - If `filterSecrets` is set to false, values of fields
* marked with the `SECRET` flag are not filtered.
* - If `shouldApplyInspectFilters` is set to false, values of fields
* are not passed through inspect filters.
*/
Json::Value previewUpdate(const Json::Value &updates, vector<Error> &errors,
const PreviewOptions &options = PreviewOptions()) const
{
if (!updates.isNull() && !updates.isObject()) {
errors.push_back(Error("The JSON document must be an object"));
return inspect();
}
Json::Value result(Json::objectValue);
Store storeWithPreviewData(*this);
StringKeyTable<Entry>::Iterator p_it(storeWithPreviewData.entries);
StringKeyTable<Entry>::ConstIterator it(entries);
vector<Error> tmpErrors;
while (*p_it != NULL) {
const HashedStaticString &key = p_it.getKey();
Entry &entry = p_it.getValue();
if (isWritable(entry) && updates.isMember(key)) {
bool ok = entry.schemaEntry->tryTypecastValue(
updates[key], entry.userValue);
if (!ok) {
entry.userValue = updates[key];
}
}
p_it.next();
}
while (*it != NULL) {
const HashedStaticString &key = it.getKey();
const Entry &entry = it.getValue();
Json::Value subdoc(Json::objectValue);
entry.schemaEntry->inspect(subdoc);
if (isWritable(entry) && updates.isMember(key)) {
bool ok = entry.schemaEntry->tryTypecastValue(updates[key],
subdoc["user_value"]);
if (!ok) {
subdoc["user_value"] = updates[key];
}
} else {
subdoc["user_value"] = entry.userValue;
}
if (entry.schemaEntry->defaultValueGetter) {
subdoc["default_value"] = entry.getDefaultValue(storeWithPreviewData);
}
const Json::Value &effectiveValue =
subdoc["effective_value"] =
getEffectiveValue(subdoc["user_value"],
subdoc["default_value"],
*entry.schemaEntry);
schema->validateValue(it.getKey(), effectiveValue, tmpErrors);
result[it.getKey()] = subdoc;
it.next();
}
if (!schema->getValidators().empty()) {
applyCustomValidators(updates, tmpErrors);
}
if (tmpErrors.empty()) {
applyNormalizers(result);
}
if (options.shouldApplyInspectFilters) {
applyInspectFilters(result);
}
if (options.filterSecrets) {
doFilterSecrets(result);
}
errors.insert(errors.end(), tmpErrors.begin(), tmpErrors.end());
return result;
}
/**
* Attempts to merge the given configuration updates into this store.
* Only succeeds if the merged result passes validation. Any
* validation errors are stored in `errors`.
* Returns whether the update succeeded.
*
* Any keys in `updates` that are not registered will not participate in the update.
* Any keys not in `updates` do not affect existing values stored in the store.
*/
bool update(const Json::Value &updates, vector<Error> &errors) {
PreviewOptions options;
options.filterSecrets = false;
options.shouldApplyInspectFilters = false;
Json::Value preview = previewUpdate(updates, errors, options);
if (errors.empty()) {
StringKeyTable<Entry>::Iterator it(entries);
while (*it != NULL) {
Entry &entry = it.getValue();
if (isWritable(entry)) {
const Json::Value &subdoc =
const_cast<const Json::Value &>(preview)[it.getKey()];
entry.userValue = subdoc["user_value"];
}
it.next();
}
updatedOnce = true;
return true;
} else {
return false;
}
}
Store extractDataForSubSchema(const Schema &subSchema,
const Translator &translator) const
{
Store result(subSchema);
StringKeyTable<Entry>::Iterator it(result.entries);
while (*it != NULL) {
const HashedStaticString &subSchemaKey = it.getKey();
Entry &subSchemaEntry = it.getValue();
const string mainSchemaKey = translator.reverseTranslateOne(
subSchemaKey);
const Entry *mainSchemaEntry;
if (entries.lookup(mainSchemaKey, &mainSchemaEntry)) {
subSchemaEntry.userValue = mainSchemaEntry->userValue;
}
it.next();
}
return result;
}
void swap(Store &other) BOOST_NOEXCEPT_OR_NOTHROW {
std::swap(schema, other.schema);
entries.swap(other.entries);
std::swap(updatedOnce, other.updatedOnce);
}
/**
* Inspects the current store's configuration keys and values in a format
* that displays user-supplied and effective values, as well as
* other useful information. See the README's "Inspecting all data"
* section to learn about the format.
*/
Json::Value inspect() const {
Json::Value result(Json::objectValue);
StringKeyTable<Entry>::ConstIterator it(entries);
while (*it != NULL) {
const Entry &entry = it.getValue();
Json::Value subdoc(Json::objectValue);
entry.schemaEntry->inspect(subdoc);
subdoc["user_value"] = entry.userValue;
subdoc["effective_value"] = entry.getEffectiveValue(*this);
if (entry.schemaEntry->defaultValueGetter && entry.schemaEntry->flags & _DYNAMIC_DEFAULT_VALUE) {
subdoc["default_value"] = entry.getDefaultValue(*this);
}
result[it.getKey()] = subdoc;
it.next();
}
applyInspectFilters(result);
doFilterSecrets(result);
return result;
}
/**
* Inspects the current store's configuration keys and effective
* values only. This is like `inspect()` but much less verbose.
* See the README's "Inspecting all data" section to learn more
* about the format.
* Note that values with the SECRET flag are not filtered.
*/
Json::Value inspectEffectiveValues() const {
Json::Value result(Json::objectValue);
StringKeyTable<Entry>::ConstIterator it(entries);
while (*it != NULL) {
const Entry &entry = it.getValue();
result[it.getKey()] = entry.getEffectiveValue(*this);
it.next();
}
return result;
}
/**
* Inspects the current store's configuration keys and user
* values only. This is like `inspect()` but much less verbose.
* Note that values with the SECRET flag are not filtered.
*/
Json::Value inspectUserValues() const {
Json::Value result(Json::objectValue);
StringKeyTable<Entry>::ConstIterator it(entries);
while (*it != NULL) {
const Entry &entry = it.getValue();
result[it.getKey()] = entry.userValue;
it.next();
}
return result;
}
};
inline bool
Schema::Entry::tryTypecastArrayOrObjectValueWithNestedSchema(const Json::Value &val,
Json::Value &result, const char *userOrEffectiveValue) const
{
assert(type == ARRAY_TYPE || type == OBJECT_TYPE);
assert(nestedSchema != NULL);
assert(!val.isNull());
assert(val.isConvertibleTo(Json::arrayValue)
|| val.isConvertibleTo(Json::objectValue));
bool ok = true;
result = val;
Json::Value::iterator it, end = result.end();
for (it = result.begin(); it != end; it++) {
Json::Value &userSubdoc = *it;
if (!userSubdoc.isConvertibleTo(Json::objectValue)) {
ok = false;
continue;
}
vector<Error> errors;
Json::Value preview = Store(*nestedSchema).previewUpdate(
userSubdoc, errors);
Json::Value::const_iterator p_it, p_end = preview.end();
for (p_it = preview.begin(); p_it != p_end; p_it++) {
const Json::Value &previewSubdoc = *p_it;
userSubdoc[p_it.name()] = previewSubdoc[userOrEffectiveValue];
}
}
return ok;
}
inline Json::Value
Schema::getValueFromSubSchema(
const Store &store,
const Schema *subschema, const Translator *translator,
const HashedStaticString &key)
{
Store tempStore = store.extractDataForSubSchema(*subschema, *translator);
Store::Entry *tempEntry;
if (tempStore.entries.lookup(translator->translateOne(key), &tempEntry)) {
if (tempEntry->schemaEntry->defaultValueGetter) {
return tempEntry->schemaEntry->defaultValueGetter(tempStore);
} else {
return Json::nullValue;
}
} else {
return Json::nullValue;
}
}
inline void
Schema::validateSubSchema(const Store &store, vector<Error> &errors,
const Schema *subschema, const Translator *translator,
const Validator &origValidator)
{
Store tempStore = store.extractDataForSubSchema(*subschema, *translator);
vector<Error> tempErrors;
origValidator(tempStore, tempErrors);
if (!tempErrors.empty()) {
tempErrors = translator->reverseTranslate(tempErrors);
errors.insert(errors.end(), tempErrors.begin(), tempErrors.end());
}
}
inline Json::Value
Schema::normalizeSubSchema(const Json::Value &effectiveValues,
const Schema *mainSchema, const Schema *subschema,
const Translator *translator, const Normalizer &origNormalizer)
{
Json::Value translatedEffectiveValues(Json::objectValue);
StringKeyTable<Entry>::ConstIterator it(subschema->entries);
while (*it != NULL) {
const HashedStaticString &subSchemaKey = it.getKey();
const string mainSchemaKey = translator->reverseTranslateOne(
subSchemaKey);
const Entry *mainSchemaEntry;
if (mainSchema->entries.lookup(mainSchemaKey, &mainSchemaEntry)) {
translatedEffectiveValues[subSchemaKey] = effectiveValues[mainSchemaKey];
}
it.next();
}
return translator->reverseTranslate(origNormalizer(translatedEffectiveValues));
}
inline Json::Value
Schema::getStaticDefaultValue(const Schema::Entry &entry) {
Store::Entry storeEntry(entry);
return Store::maybeFilterSecret(storeEntry, storeEntry.getDefaultValue(Store()));
}
inline bool
Schema::validateNestedSchemaArrayValue(const HashedStaticString &key,
const Schema::Entry &entry, const Json::Value &value, vector<Error> &errors)
{
bool warnedAboutNonObjectValue = false;
bool result = true;
Json::Value::const_iterator it, end = value.end();
for (it = value.begin(); it != end; it++) {
if (!it->isConvertibleTo(Json::objectValue)) {
if (!warnedAboutNonObjectValue) {
warnedAboutNonObjectValue = true;
result = false;
errors.push_back(Error(
"'{{" + key + "}}' may only contain JSON objects"));
}
continue;
}
Store store(*entry.nestedSchema);
vector<Error> nestedSchemaErrors;
if (store.update(*it, nestedSchemaErrors)) {
continue;
}
vector<Error>::const_iterator e_it, e_end = nestedSchemaErrors.end();
for (e_it = nestedSchemaErrors.begin(); e_it != e_end; e_it++) {
errors.push_back(Error("'{{" + key + "}}' element "
+ Passenger::toString(it.index() + 1) + " is invalid: "
+ e_it->getMessage()));
}
result = false;
}
return result;
}
inline bool
Schema::validateNestedSchemaObjectValue(const HashedStaticString &key,
const Schema::Entry &entry, const Json::Value &value, vector<Error> &errors)
{
bool warnedAboutNonObjectValue = false;
bool result = true;
Json::Value::const_iterator it, end = value.end();
for (it = value.begin(); it != end; it++) {
if (!it->isConvertibleTo(Json::objectValue)) {
if (!warnedAboutNonObjectValue) {
warnedAboutNonObjectValue = true;
result = false;
errors.push_back(Error(
"'{{" + key + "}}' may only contain JSON objects"));
}
continue;
}
Store store(*entry.nestedSchema);
vector<Error> nestedSchemaErrors;
if (store.update(*it, nestedSchemaErrors)) {
continue;
}
vector<Error>::const_iterator e_it, e_end = nestedSchemaErrors.end();
for (e_it = nestedSchemaErrors.begin(); e_it != e_end; e_it++) {
errors.push_back(Error("'{{" + key + "}}' key '"
+ it.name() + "' is invalid: "
+ e_it->getMessage()));
}
result = false;
}
return result;
}
} // namespace ConfigKit
} // namespace Passenger
#endif /* _PASSENGER_CONFIG_KIT_STORE_H_ */