ClickHouse/src/Access/LDAPAccessStorage.cpp

572 lines
18 KiB
C++

#include <Access/LDAPAccessStorage.h>
#include <Access/AccessControl.h>
#include <Access/ExternalAuthenticators.h>
#include <Access/User.h>
#include <Access/Role.h>
#include <Access/Credentials.h>
#include <Access/LDAPClient.h>
#include <Common/Exception.h>
#include <base/logger_useful.h>
#include <base/scope_guard.h>
#include <Poco/Util/AbstractConfiguration.h>
#include <Poco/JSON/JSON.h>
#include <Poco/JSON/Object.h>
#include <Poco/JSON/Stringifier.h>
#include <boost/container_hash/hash.hpp>
#include <boost/range/algorithm/copy.hpp>
#include <iterator>
#include <sstream>
#include <unordered_map>
namespace DB
{
namespace ErrorCodes
{
extern const int BAD_ARGUMENTS;
}
LDAPAccessStorage::LDAPAccessStorage(const String & storage_name_, AccessControl * access_control_, const Poco::Util::AbstractConfiguration & config, const String & prefix)
: IAccessStorage(storage_name_)
{
setConfiguration(access_control_, config, prefix);
}
String LDAPAccessStorage::getLDAPServerName() const
{
return ldap_server_name;
}
void LDAPAccessStorage::setConfiguration(AccessControl * access_control_, const Poco::Util::AbstractConfiguration & config, const String & prefix)
{
std::scoped_lock lock(mutex);
// TODO: switch to passing config as a ConfigurationView and remove this extra prefix once a version of Poco with proper implementation is available.
const String prefix_str = (prefix.empty() ? "" : prefix + ".");
const bool has_server = config.has(prefix_str + "server");
const bool has_roles = config.has(prefix_str + "roles");
const bool has_role_mapping = config.has(prefix_str + "role_mapping");
if (!has_server)
throw Exception("Missing 'server' field for LDAP user directory", ErrorCodes::BAD_ARGUMENTS);
const auto ldap_server_name_cfg = config.getString(prefix_str + "server");
if (ldap_server_name_cfg.empty())
throw Exception("Empty 'server' field for LDAP user directory", ErrorCodes::BAD_ARGUMENTS);
std::set<String> common_roles_cfg;
if (has_roles)
{
Poco::Util::AbstractConfiguration::Keys role_names;
config.keys(prefix_str + "roles", role_names);
// Currently, we only extract names of roles from the section names and assign them directly and unconditionally.
common_roles_cfg.insert(role_names.begin(), role_names.end());
}
LDAPClient::RoleSearchParamsList role_search_params_cfg;
if (has_role_mapping)
{
Poco::Util::AbstractConfiguration::Keys all_keys;
config.keys(prefix, all_keys);
for (const auto & key : all_keys)
{
if (key == "role_mapping" || key.find("role_mapping[") == 0)
parseLDAPRoleSearchParams(role_search_params_cfg.emplace_back(), config, prefix_str + key);
}
}
access_control = access_control_;
ldap_server_name = ldap_server_name_cfg;
role_search_params.swap(role_search_params_cfg);
common_role_names.swap(common_roles_cfg);
external_role_hashes.clear();
users_per_roles.clear();
roles_per_users.clear();
granted_role_names.clear();
granted_role_ids.clear();
role_change_subscription = access_control->subscribeForChanges<Role>(
[this] (const UUID & id, const AccessEntityPtr & entity)
{
return this->processRoleChange(id, entity);
}
);
}
void LDAPAccessStorage::processRoleChange(const UUID & id, const AccessEntityPtr & entity)
{
std::scoped_lock lock(mutex);
const auto role = typeid_cast<std::shared_ptr<const Role>>(entity);
const auto it = granted_role_names.find(id);
if (role) // Added or renamed a role.
{
const auto & new_role_name = role->getName();
if (it != granted_role_names.end()) // Renamed a granted role.
{
const auto & old_role_name = it->second;
if (new_role_name != old_role_name)
{
// Revoke the old role first, then grant the new role.
applyRoleChangeNoLock(false /* revoke */, id, old_role_name);
applyRoleChangeNoLock(true /* grant */, id, new_role_name);
}
}
else // Added a role.
{
applyRoleChangeNoLock(true /* grant */, id, new_role_name);
}
}
else // Removed a role.
{
if (it != granted_role_names.end()) // Removed a granted role.
{
const auto & old_role_name = it->second;
applyRoleChangeNoLock(false /* revoke */, id, old_role_name);
}
}
}
void LDAPAccessStorage::applyRoleChangeNoLock(bool grant, const UUID & role_id, const String & role_name)
{
std::vector<UUID> user_ids;
// Build a list of ids of the relevant users.
if (common_role_names.count(role_name))
{
user_ids = memory_storage.findAll<User>();
}
else
{
const auto it = users_per_roles.find(role_name);
if (it != users_per_roles.end())
{
const auto & user_names = it->second;
user_ids.reserve(user_names.size());
for (const auto & user_name : user_names)
{
if (const auto user_id = memory_storage.find<User>(user_name))
user_ids.emplace_back(*user_id);
}
}
}
// Update the granted roles of the relevant users.
if (!user_ids.empty())
{
auto update_func = [&role_id, &grant] (const AccessEntityPtr & entity_) -> AccessEntityPtr
{
if (auto user = typeid_cast<std::shared_ptr<const User>>(entity_))
{
auto changed_user = typeid_cast<std::shared_ptr<User>>(user->clone());
if (grant)
changed_user->granted_roles.grant(role_id);
else
changed_user->granted_roles.revoke(role_id);
return changed_user;
}
return entity_;
};
memory_storage.update(user_ids, update_func);
}
// Actualize granted_role_* mappings.
if (grant)
{
if (!user_ids.empty())
{
granted_role_names.insert_or_assign(role_id, role_name);
granted_role_ids.insert_or_assign(role_name, role_id);
}
}
else
{
granted_role_names.erase(role_id);
granted_role_ids.erase(role_name);
}
}
void LDAPAccessStorage::assignRolesNoLock(User & user, const LDAPClient::SearchResultsList & external_roles) const
{
const auto external_roles_hash = boost::hash<LDAPClient::SearchResultsList>{}(external_roles);
return assignRolesNoLock(user, external_roles, external_roles_hash);
}
void LDAPAccessStorage::assignRolesNoLock(User & user, const LDAPClient::SearchResultsList & external_roles, const std::size_t external_roles_hash) const
{
const auto & user_name = user.getName();
auto & granted_roles = user.granted_roles;
const auto local_role_names = mapExternalRolesNoLock(external_roles);
auto grant_role = [this, &user_name, &granted_roles] (const String & role_name, const bool common)
{
auto it = granted_role_ids.find(role_name);
if (it == granted_role_ids.end())
{
if (const auto role_id = access_control->find<Role>(role_name))
{
granted_role_names.insert_or_assign(*role_id, role_name);
it = granted_role_ids.insert_or_assign(role_name, *role_id).first;
}
}
if (it != granted_role_ids.end())
{
const auto & role_id = it->second;
granted_roles.grant(role_id);
}
else
{
LOG_WARNING(getLogger(), "Unable to grant {} role '{}' to user '{}': role not found", (common ? "common" : "mapped"), role_name, user_name);
}
};
external_role_hashes.erase(user_name);
granted_roles = {};
const auto old_role_names = std::move(roles_per_users[user_name]);
// Grant the common roles first.
for (const auto & role_name : common_role_names)
{
grant_role(role_name, true /* common */);
}
// Grant the mapped external roles and actualize users_per_roles mapping.
// local_role_names allowed to overlap with common_role_names.
for (const auto & role_name : local_role_names)
{
grant_role(role_name, false /* mapped */);
users_per_roles[role_name].insert(user_name);
}
// Cleanup users_per_roles and granted_role_* mappings.
for (const auto & old_role_name : old_role_names)
{
if (local_role_names.count(old_role_name))
continue;
const auto rit = users_per_roles.find(old_role_name);
if (rit == users_per_roles.end())
continue;
auto & user_names = rit->second;
user_names.erase(user_name);
if (!user_names.empty())
continue;
users_per_roles.erase(rit);
if (common_role_names.count(old_role_name))
continue;
const auto iit = granted_role_ids.find(old_role_name);
if (iit == granted_role_ids.end())
continue;
const auto old_role_id = iit->second;
granted_role_names.erase(old_role_id);
granted_role_ids.erase(iit);
}
// Actualize roles_per_users mapping and external_role_hashes cache.
if (local_role_names.empty())
roles_per_users.erase(user_name);
else
roles_per_users[user_name] = std::move(local_role_names);
external_role_hashes[user_name] = external_roles_hash;
}
void LDAPAccessStorage::updateAssignedRolesNoLock(const UUID & id, const String & user_name, const LDAPClient::SearchResultsList & external_roles) const
{
// No need to include common_role_names in this hash each time, since they don't change.
const auto external_roles_hash = boost::hash<LDAPClient::SearchResultsList>{}(external_roles);
// Map and grant the roles from scratch only if the list of external role has changed.
const auto it = external_role_hashes.find(user_name);
if (it != external_role_hashes.end() && it->second == external_roles_hash)
return;
auto update_func = [this, &external_roles, external_roles_hash] (const AccessEntityPtr & entity_) -> AccessEntityPtr
{
if (auto user = typeid_cast<std::shared_ptr<const User>>(entity_))
{
auto changed_user = typeid_cast<std::shared_ptr<User>>(user->clone());
assignRolesNoLock(*changed_user, external_roles, external_roles_hash);
return changed_user;
}
return entity_;
};
memory_storage.update(id, update_func);
}
std::set<String> LDAPAccessStorage::mapExternalRolesNoLock(const LDAPClient::SearchResultsList & external_roles) const
{
std::set<String> role_names;
if (external_roles.size() != role_search_params.size())
throw Exception("Unable to map external roles", ErrorCodes::BAD_ARGUMENTS);
for (std::size_t i = 0; i < external_roles.size(); ++i)
{
const auto & external_role_set = external_roles[i];
const auto & prefix = role_search_params[i].prefix;
for (const auto & external_role : external_role_set)
{
if (
prefix.size() < external_role.size() &&
external_role.compare(0, prefix.size(), prefix) == 0
)
{
role_names.emplace(external_role, prefix.size());
}
}
}
return role_names;
}
bool LDAPAccessStorage::areLDAPCredentialsValidNoLock(const User & user, const Credentials & credentials,
const ExternalAuthenticators & external_authenticators, LDAPClient::SearchResultsList & role_search_results) const
{
if (!credentials.isReady())
return false;
if (credentials.getUserName() != user.getName())
return false;
if (const auto * basic_credentials = dynamic_cast<const BasicCredentials *>(&credentials))
return external_authenticators.checkLDAPCredentials(ldap_server_name, *basic_credentials, &role_search_params, &role_search_results);
return false;
}
const char * LDAPAccessStorage::getStorageType() const
{
return STORAGE_TYPE;
}
String LDAPAccessStorage::getStorageParamsJSON() const
{
std::scoped_lock lock(mutex);
Poco::JSON::Object params_json;
params_json.set("server", ldap_server_name);
Poco::JSON::Array common_role_names_json;
for (const auto & role : common_role_names)
{
common_role_names_json.add(role);
}
params_json.set("roles", common_role_names_json);
Poco::JSON::Array role_mappings_json;
for (const auto & role_mapping : role_search_params)
{
Poco::JSON::Object role_mapping_json;
role_mapping_json.set("base_dn", role_mapping.base_dn);
role_mapping_json.set("search_filter", role_mapping.search_filter);
role_mapping_json.set("attribute", role_mapping.attribute);
role_mapping_json.set("prefix", role_mapping.prefix);
String scope;
switch (role_mapping.scope)
{
case LDAPClient::SearchParams::Scope::BASE: scope = "base"; break;
case LDAPClient::SearchParams::Scope::ONE_LEVEL: scope = "one_level"; break;
case LDAPClient::SearchParams::Scope::SUBTREE: scope = "subtree"; break;
case LDAPClient::SearchParams::Scope::CHILDREN: scope = "children"; break;
}
role_mapping_json.set("scope", scope);
role_mappings_json.add(role_mapping_json);
}
params_json.set("role_mappings", role_mappings_json);
std::ostringstream oss; // STYLE_CHECK_ALLOW_STD_STRING_STREAM
oss.exceptions(std::ios::failbit);
Poco::JSON::Stringifier::stringify(params_json, oss);
return oss.str();
}
std::optional<UUID> LDAPAccessStorage::findImpl(AccessEntityType type, const String & name) const
{
std::scoped_lock lock(mutex);
return memory_storage.find(type, name);
}
std::vector<UUID> LDAPAccessStorage::findAllImpl(AccessEntityType type) const
{
std::scoped_lock lock(mutex);
return memory_storage.findAll(type);
}
bool LDAPAccessStorage::existsImpl(const UUID & id) const
{
std::scoped_lock lock(mutex);
return memory_storage.exists(id);
}
AccessEntityPtr LDAPAccessStorage::readImpl(const UUID & id) const
{
std::scoped_lock lock(mutex);
return memory_storage.read(id);
}
String LDAPAccessStorage::readNameImpl(const UUID & id) const
{
std::scoped_lock lock(mutex);
return memory_storage.readName(id);
}
bool LDAPAccessStorage::canInsertImpl(const AccessEntityPtr &) const
{
return false;
}
UUID LDAPAccessStorage::insertImpl(const AccessEntityPtr & entity, bool)
{
throwReadonlyCannotInsert(entity->getType(), entity->getName());
}
void LDAPAccessStorage::removeImpl(const UUID & id)
{
std::scoped_lock lock(mutex);
auto entity = read(id);
throwReadonlyCannotRemove(entity->getType(), entity->getName());
}
void LDAPAccessStorage::updateImpl(const UUID & id, const UpdateFunc &)
{
std::scoped_lock lock(mutex);
auto entity = read(id);
throwReadonlyCannotUpdate(entity->getType(), entity->getName());
}
scope_guard LDAPAccessStorage::subscribeForChangesImpl(const UUID & id, const OnChangedHandler & handler) const
{
std::scoped_lock lock(mutex);
return memory_storage.subscribeForChanges(id, handler);
}
scope_guard LDAPAccessStorage::subscribeForChangesImpl(AccessEntityType type, const OnChangedHandler & handler) const
{
std::scoped_lock lock(mutex);
return memory_storage.subscribeForChanges(type, handler);
}
bool LDAPAccessStorage::hasSubscriptionImpl(const UUID & id) const
{
std::scoped_lock lock(mutex);
return memory_storage.hasSubscription(id);
}
bool LDAPAccessStorage::hasSubscriptionImpl(AccessEntityType type) const
{
std::scoped_lock lock(mutex);
return memory_storage.hasSubscription(type);
}
UUID LDAPAccessStorage::loginImpl(const Credentials & credentials, const Poco::Net::IPAddress & address, const ExternalAuthenticators & external_authenticators) const
{
std::scoped_lock lock(mutex);
LDAPClient::SearchResultsList external_roles;
auto id = memory_storage.find<User>(credentials.getUserName());
if (id)
{
auto user = memory_storage.read<User>(*id);
if (!isAddressAllowedImpl(*user, address))
throwAddressNotAllowed(address);
if (!areLDAPCredentialsValidNoLock(*user, credentials, external_authenticators, external_roles))
throwInvalidCredentials();
// Just in case external_roles are changed. This will be no-op if they are not.
updateAssignedRolesNoLock(*id, user->getName(), external_roles);
return *id;
}
else
{
// User does not exist, so we create one, and will add it if authentication is successful.
auto user = std::make_shared<User>();
user->setName(credentials.getUserName());
user->auth_data = AuthenticationData(AuthenticationType::LDAP);
user->auth_data.setLDAPServerName(ldap_server_name);
if (!isAddressAllowedImpl(*user, address))
throwAddressNotAllowed(address);
if (!areLDAPCredentialsValidNoLock(*user, credentials, external_authenticators, external_roles))
throwInvalidCredentials();
assignRolesNoLock(*user, external_roles);
return memory_storage.insert(user);
}
}
UUID LDAPAccessStorage::getIDOfLoggedUserImpl(const String & user_name) const
{
std::scoped_lock lock(mutex);
auto id = memory_storage.find<User>(user_name);
if (id)
{
return *id;
}
else
{
// User does not exist, so we create one, and add it pretending that the authentication is successful.
auto user = std::make_shared<User>();
user->setName(user_name);
user->auth_data = AuthenticationData(AuthenticationType::LDAP);
user->auth_data.setLDAPServerName(ldap_server_name);
LDAPClient::SearchResultsList external_roles;
// TODO: mapped external roles are not available here. Without a password we can't authenticate and retrieve roles from LDAP server.
assignRolesNoLock(*user, external_roles);
return memory_storage.insert(user);
}
}
}