freebsd-dev/contrib/kyua/model/metadata.cpp
Brooks Davis b0d29bc47d Import the kyua test framework.
Having kyua in the base system will simplify automated testing in CI and
eliminates bootstrapping issues on new platforms.

The build of kyua is controlled by WITH(OUT)_TESTS_SUPPORT.

Reviewed by:	emaste
Obtained from:	CheriBSD
Sponsored by:	DARPA
Differential Revision:	https://reviews.freebsd.org/D24103
2020-03-23 19:01:23 +00:00

1069 lines
30 KiB
C++

// Copyright 2012 The Kyua Authors.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// * Neither the name of Google Inc. nor the names of its contributors
// may be used to endorse or promote products derived from this software
// without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "model/metadata.hpp"
#include <memory>
#include "model/exceptions.hpp"
#include "model/types.hpp"
#include "utils/config/exceptions.hpp"
#include "utils/config/nodes.ipp"
#include "utils/config/tree.ipp"
#include "utils/datetime.hpp"
#include "utils/defs.hpp"
#include "utils/format/macros.hpp"
#include "utils/fs/exceptions.hpp"
#include "utils/fs/path.hpp"
#include "utils/noncopyable.hpp"
#include "utils/optional.ipp"
#include "utils/sanity.hpp"
#include "utils/text/exceptions.hpp"
#include "utils/text/operations.hpp"
#include "utils/units.hpp"
namespace config = utils::config;
namespace datetime = utils::datetime;
namespace fs = utils::fs;
namespace text = utils::text;
namespace units = utils::units;
using utils::optional;
namespace {
/// Global instance of defaults.
///
/// This exists so that the getters in metadata can return references instead
/// of object copies. Use get_defaults() to query.
static optional< config::tree > defaults;
/// A leaf node that holds a bytes quantity.
class bytes_node : public config::native_leaf_node< units::bytes > {
public:
/// Copies the node.
///
/// \return A dynamically-allocated node.
virtual base_node*
deep_copy(void) const
{
std::auto_ptr< bytes_node > new_node(new bytes_node());
new_node->_value = _value;
return new_node.release();
}
/// Pushes the node's value onto the Lua stack.
void
push_lua(lutok::state& /* state */) const
{
UNREACHABLE;
}
/// Sets the value of the node from an entry in the Lua stack.
void
set_lua(lutok::state& /* state */, const int /* index */)
{
UNREACHABLE;
}
};
/// A leaf node that holds a time delta.
class delta_node : public config::typed_leaf_node< datetime::delta > {
public:
/// Copies the node.
///
/// \return A dynamically-allocated node.
virtual base_node*
deep_copy(void) const
{
std::auto_ptr< delta_node > new_node(new delta_node());
new_node->_value = _value;
return new_node.release();
}
/// Sets the value of the node from a raw string representation.
///
/// \param raw_value The value to set the node to.
///
/// \throw value_error If the value is invalid.
void
set_string(const std::string& raw_value)
{
unsigned int seconds;
try {
seconds = text::to_type< unsigned int >(raw_value);
} catch (const text::error& e) {
throw config::value_error(F("Invalid time delta %s") % raw_value);
}
set(datetime::delta(seconds, 0));
}
/// Converts the contents of the node to a string.
///
/// \pre The node must have a value.
///
/// \return A string representation of the value held by the node.
std::string
to_string(void) const
{
return F("%s") % value().seconds;
}
/// Pushes the node's value onto the Lua stack.
void
push_lua(lutok::state& /* state */) const
{
UNREACHABLE;
}
/// Sets the value of the node from an entry in the Lua stack.
void
set_lua(lutok::state& /* state */, const int /* index */)
{
UNREACHABLE;
}
};
/// A leaf node that holds a "required user" property.
///
/// This node is just a string, but it provides validation of the only allowed
/// values.
class user_node : public config::string_node {
/// Copies the node.
///
/// \return A dynamically-allocated node.
virtual base_node*
deep_copy(void) const
{
std::auto_ptr< user_node > new_node(new user_node());
new_node->_value = _value;
return new_node.release();
}
/// Checks a given user textual representation for validity.
///
/// \param user The value to validate.
///
/// \throw config::value_error If the value is not valid.
void
validate(const value_type& user) const
{
if (!user.empty() && user != "root" && user != "unprivileged")
throw config::value_error("Invalid required user value");
}
};
/// A leaf node that holds a set of paths.
///
/// This node type is used to represent the value of the required files and
/// required programs, for example, and these do not allow relative paths. We
/// check this here.
class paths_set_node : public config::base_set_node< fs::path > {
/// Copies the node.
///
/// \return A dynamically-allocated node.
virtual base_node*
deep_copy(void) const
{
std::auto_ptr< paths_set_node > new_node(new paths_set_node());
new_node->_value = _value;
return new_node.release();
}
/// Converts a single path to the native type.
///
/// \param raw_value The value to parse.
///
/// \return The parsed value.
///
/// \throw config::value_error If the value is invalid.
fs::path
parse_one(const std::string& raw_value) const
{
try {
return fs::path(raw_value);
} catch (const fs::error& e) {
throw config::value_error(e.what());
}
}
/// Checks a collection of paths for validity.
///
/// \param paths The value to validate.
///
/// \throw config::value_error If the value is not valid.
void
validate(const value_type& paths) const
{
for (value_type::const_iterator iter = paths.begin();
iter != paths.end(); ++iter) {
const fs::path& path = *iter;
if (!path.is_absolute() && path.ncomponents() > 1)
throw config::value_error(F("Relative path '%s' not allowed") %
*iter);
}
}
};
/// Initializes a tree to hold test case requirements.
///
/// \param [in,out] tree The tree to initialize.
static void
init_tree(config::tree& tree)
{
tree.define< config::strings_set_node >("allowed_architectures");
tree.define< config::strings_set_node >("allowed_platforms");
tree.define_dynamic("custom");
tree.define< config::string_node >("description");
tree.define< config::bool_node >("has_cleanup");
tree.define< config::bool_node >("is_exclusive");
tree.define< config::strings_set_node >("required_configs");
tree.define< bytes_node >("required_disk_space");
tree.define< paths_set_node >("required_files");
tree.define< bytes_node >("required_memory");
tree.define< paths_set_node >("required_programs");
tree.define< user_node >("required_user");
tree.define< delta_node >("timeout");
}
/// Sets default values on a tree object.
///
/// \param [in,out] tree The tree to configure.
static void
set_defaults(config::tree& tree)
{
tree.set< config::strings_set_node >("allowed_architectures",
model::strings_set());
tree.set< config::strings_set_node >("allowed_platforms",
model::strings_set());
tree.set< config::string_node >("description", "");
tree.set< config::bool_node >("has_cleanup", false);
tree.set< config::bool_node >("is_exclusive", false);
tree.set< config::strings_set_node >("required_configs",
model::strings_set());
tree.set< bytes_node >("required_disk_space", units::bytes(0));
tree.set< paths_set_node >("required_files", model::paths_set());
tree.set< bytes_node >("required_memory", units::bytes(0));
tree.set< paths_set_node >("required_programs", model::paths_set());
tree.set< user_node >("required_user", "");
// TODO(jmmv): We shouldn't be setting a default timeout like this. See
// Issue 5 for details.
tree.set< delta_node >("timeout", datetime::delta(300, 0));
}
/// Queries the global defaults tree object with lazy initialization.
///
/// \return A metadata tree. This object is statically allocated so it is
/// acceptable to obtain references to it and its members.
const config::tree&
get_defaults(void)
{
if (!defaults) {
config::tree props;
init_tree(props);
set_defaults(props);
defaults = props;
}
return defaults.get();
}
/// Looks up a value in a tree with error rewriting.
///
/// \tparam NodeType The type of the node.
/// \param tree The tree in which to insert the value.
/// \param key The key to set.
///
/// \return A read-write reference to the value in the node.
///
/// \throw model::error If the key is not known or if the value is not valid.
template< class NodeType >
typename NodeType::value_type&
lookup_rw(config::tree& tree, const std::string& key)
{
try {
return tree.lookup_rw< NodeType >(key);
} catch (const config::unknown_key_error& e) {
throw model::error(F("Unknown metadata property %s") % key);
} catch (const config::value_error& e) {
throw model::error(F("Invalid value for metadata property %s: %s") %
key % e.what());
}
}
/// Sets a value in a tree with error rewriting.
///
/// \tparam NodeType The type of the node.
/// \param tree The tree in which to insert the value.
/// \param key The key to set.
/// \param value The value to set the node to.
///
/// \throw model::error If the key is not known or if the value is not valid.
template< class NodeType >
void
set(config::tree& tree, const std::string& key,
const typename NodeType::value_type& value)
{
try {
tree.set< NodeType >(key, value);
} catch (const config::unknown_key_error& e) {
throw model::error(F("Unknown metadata property %s") % key);
} catch (const config::value_error& e) {
throw model::error(F("Invalid value for metadata property %s: %s") %
key % e.what());
}
}
} // anonymous namespace
/// Internal implementation of the metadata class.
struct model::metadata::impl : utils::noncopyable {
/// Metadata properties.
config::tree props;
/// Constructor.
///
/// \param props_ Metadata properties of the test.
impl(const utils::config::tree& props_) :
props(props_)
{
}
/// Equality comparator.
///
/// \param other The other object to compare this one to.
///
/// \return True if this object and other are equal; false otherwise.
bool
operator==(const impl& other) const
{
return (get_defaults().combine(props) ==
get_defaults().combine(other.props));
}
};
/// Constructor.
///
/// \param props Metadata properties of the test.
model::metadata::metadata(const utils::config::tree& props) :
_pimpl(new impl(props))
{
}
/// Destructor.
model::metadata::~metadata(void)
{
}
/// Applies a set of overrides to this metadata object.
///
/// \param overrides The overrides to apply. Any values explicitly set in this
/// other object will override any possible values set in this object.
///
/// \return A new metadata object with the combination.
model::metadata
model::metadata::apply_overrides(const metadata& overrides) const
{
return metadata(_pimpl->props.combine(overrides._pimpl->props));
}
/// Returns the architectures allowed by the test.
///
/// \return Set of architectures, or empty if this does not apply.
const model::strings_set&
model::metadata::allowed_architectures(void) const
{
if (_pimpl->props.is_set("allowed_architectures")) {
return _pimpl->props.lookup< config::strings_set_node >(
"allowed_architectures");
} else {
return get_defaults().lookup< config::strings_set_node >(
"allowed_architectures");
}
}
/// Returns the platforms allowed by the test.
///
/// \return Set of platforms, or empty if this does not apply.
const model::strings_set&
model::metadata::allowed_platforms(void) const
{
if (_pimpl->props.is_set("allowed_platforms")) {
return _pimpl->props.lookup< config::strings_set_node >(
"allowed_platforms");
} else {
return get_defaults().lookup< config::strings_set_node >(
"allowed_platforms");
}
}
/// Returns all the user-defined metadata properties.
///
/// \return A key/value map of properties.
model::properties_map
model::metadata::custom(void) const
{
return _pimpl->props.all_properties("custom", true);
}
/// Returns the description of the test.
///
/// \return Textual description; may be empty.
const std::string&
model::metadata::description(void) const
{
if (_pimpl->props.is_set("description")) {
return _pimpl->props.lookup< config::string_node >("description");
} else {
return get_defaults().lookup< config::string_node >("description");
}
}
/// Returns whether the test has a cleanup part or not.
///
/// \return True if there is a cleanup part; false otherwise.
bool
model::metadata::has_cleanup(void) const
{
if (_pimpl->props.is_set("has_cleanup")) {
return _pimpl->props.lookup< config::bool_node >("has_cleanup");
} else {
return get_defaults().lookup< config::bool_node >("has_cleanup");
}
}
/// Returns whether the test is exclusive or not.
///
/// \return True if the test has to be run on its own, not concurrently with any
/// other tests; false otherwise.
bool
model::metadata::is_exclusive(void) const
{
if (_pimpl->props.is_set("is_exclusive")) {
return _pimpl->props.lookup< config::bool_node >("is_exclusive");
} else {
return get_defaults().lookup< config::bool_node >("is_exclusive");
}
}
/// Returns the list of configuration variables needed by the test.
///
/// \return Set of configuration variables.
const model::strings_set&
model::metadata::required_configs(void) const
{
if (_pimpl->props.is_set("required_configs")) {
return _pimpl->props.lookup< config::strings_set_node >(
"required_configs");
} else {
return get_defaults().lookup< config::strings_set_node >(
"required_configs");
}
}
/// Returns the amount of free disk space required by the test.
///
/// \return Number of bytes, or 0 if this does not apply.
const units::bytes&
model::metadata::required_disk_space(void) const
{
if (_pimpl->props.is_set("required_disk_space")) {
return _pimpl->props.lookup< bytes_node >("required_disk_space");
} else {
return get_defaults().lookup< bytes_node >("required_disk_space");
}
}
/// Returns the list of files needed by the test.
///
/// \return Set of paths.
const model::paths_set&
model::metadata::required_files(void) const
{
if (_pimpl->props.is_set("required_files")) {
return _pimpl->props.lookup< paths_set_node >("required_files");
} else {
return get_defaults().lookup< paths_set_node >("required_files");
}
}
/// Returns the amount of memory required by the test.
///
/// \return Number of bytes, or 0 if this does not apply.
const units::bytes&
model::metadata::required_memory(void) const
{
if (_pimpl->props.is_set("required_memory")) {
return _pimpl->props.lookup< bytes_node >("required_memory");
} else {
return get_defaults().lookup< bytes_node >("required_memory");
}
}
/// Returns the list of programs needed by the test.
///
/// \return Set of paths.
const model::paths_set&
model::metadata::required_programs(void) const
{
if (_pimpl->props.is_set("required_programs")) {
return _pimpl->props.lookup< paths_set_node >("required_programs");
} else {
return get_defaults().lookup< paths_set_node >("required_programs");
}
}
/// Returns the user required by the test.
///
/// \return One of unprivileged, root or empty.
const std::string&
model::metadata::required_user(void) const
{
if (_pimpl->props.is_set("required_user")) {
return _pimpl->props.lookup< user_node >("required_user");
} else {
return get_defaults().lookup< user_node >("required_user");
}
}
/// Returns the timeout of the test.
///
/// \return A time delta; should be compared to default_timeout to see if it has
/// been overriden.
const datetime::delta&
model::metadata::timeout(void) const
{
if (_pimpl->props.is_set("timeout")) {
return _pimpl->props.lookup< delta_node >("timeout");
} else {
return get_defaults().lookup< delta_node >("timeout");
}
}
/// Externalizes the metadata to a set of key/value textual pairs.
///
/// \return A key/value representation of the metadata.
model::properties_map
model::metadata::to_properties(void) const
{
const config::tree fully_specified = get_defaults().combine(_pimpl->props);
return fully_specified.all_properties();
}
/// Equality comparator.
///
/// \param other The other object to compare this one to.
///
/// \return True if this object and other are equal; false otherwise.
bool
model::metadata::operator==(const metadata& other) const
{
return _pimpl == other._pimpl || *_pimpl == *other._pimpl;
}
/// Inequality comparator.
///
/// \param other The other object to compare this one to.
///
/// \return True if this object and other are different; false otherwise.
bool
model::metadata::operator!=(const metadata& other) const
{
return !(*this == other);
}
/// Injects the object into a stream.
///
/// \param output The stream into which to inject the object.
/// \param object The object to format.
///
/// \return The output stream.
std::ostream&
model::operator<<(std::ostream& output, const metadata& object)
{
output << "metadata{";
bool first = true;
const model::properties_map props = object.to_properties();
for (model::properties_map::const_iterator iter = props.begin();
iter != props.end(); ++iter) {
if (!first)
output << ", ";
output << F("%s=%s") % (*iter).first %
text::quote((*iter).second, '\'');
first = false;
}
output << "}";
return output;
}
/// Internal implementation of the metadata_builder class.
struct model::metadata_builder::impl : utils::noncopyable {
/// Collection of requirements.
config::tree props;
/// Whether we have created a metadata object or not.
bool built;
/// Constructor.
impl(void) :
built(false)
{
init_tree(props);
}
/// Constructor.
///
/// \param base The base model to construct a copy from.
impl(const model::metadata& base) :
props(base._pimpl->props.deep_copy()),
built(false)
{
}
};
/// Constructor.
model::metadata_builder::metadata_builder(void) :
_pimpl(new impl())
{
}
/// Constructor.
model::metadata_builder::metadata_builder(const model::metadata& base) :
_pimpl(new impl(base))
{
}
/// Destructor.
model::metadata_builder::~metadata_builder(void)
{
}
/// Accumulates an additional allowed architecture.
///
/// \param arch The architecture.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::add_allowed_architecture(const std::string& arch)
{
if (!_pimpl->props.is_set("allowed_architectures")) {
_pimpl->props.set< config::strings_set_node >(
"allowed_architectures",
get_defaults().lookup< config::strings_set_node >(
"allowed_architectures"));
}
lookup_rw< config::strings_set_node >(
_pimpl->props, "allowed_architectures").insert(arch);
return *this;
}
/// Accumulates an additional allowed platform.
///
/// \param platform The platform.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::add_allowed_platform(const std::string& platform)
{
if (!_pimpl->props.is_set("allowed_platforms")) {
_pimpl->props.set< config::strings_set_node >(
"allowed_platforms",
get_defaults().lookup< config::strings_set_node >(
"allowed_platforms"));
}
lookup_rw< config::strings_set_node >(
_pimpl->props, "allowed_platforms").insert(platform);
return *this;
}
/// Accumulates a single user-defined property.
///
/// \param key Name of the property to define.
/// \param value Value of the property.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::add_custom(const std::string& key,
const std::string& value)
{
_pimpl->props.set_string(F("custom.%s") % key, value);
return *this;
}
/// Accumulates an additional required configuration variable.
///
/// \param var The name of the configuration variable.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::add_required_config(const std::string& var)
{
if (!_pimpl->props.is_set("required_configs")) {
_pimpl->props.set< config::strings_set_node >(
"required_configs",
get_defaults().lookup< config::strings_set_node >(
"required_configs"));
}
lookup_rw< config::strings_set_node >(
_pimpl->props, "required_configs").insert(var);
return *this;
}
/// Accumulates an additional required file.
///
/// \param path The path to the file.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::add_required_file(const fs::path& path)
{
if (!_pimpl->props.is_set("required_files")) {
_pimpl->props.set< paths_set_node >(
"required_files",
get_defaults().lookup< paths_set_node >("required_files"));
}
lookup_rw< paths_set_node >(_pimpl->props, "required_files").insert(path);
return *this;
}
/// Accumulates an additional required program.
///
/// \param path The path to the program.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::add_required_program(const fs::path& path)
{
if (!_pimpl->props.is_set("required_programs")) {
_pimpl->props.set< paths_set_node >(
"required_programs",
get_defaults().lookup< paths_set_node >("required_programs"));
}
lookup_rw< paths_set_node >(_pimpl->props,
"required_programs").insert(path);
return *this;
}
/// Sets the architectures allowed by the test.
///
/// \param as Set of architectures.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_allowed_architectures(
const model::strings_set& as)
{
set< config::strings_set_node >(_pimpl->props, "allowed_architectures", as);
return *this;
}
/// Sets the platforms allowed by the test.
///
/// \return ps Set of platforms.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_allowed_platforms(const model::strings_set& ps)
{
set< config::strings_set_node >(_pimpl->props, "allowed_platforms", ps);
return *this;
}
/// Sets the user-defined properties.
///
/// \param props The custom properties to set.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_custom(const model::properties_map& props)
{
for (model::properties_map::const_iterator iter = props.begin();
iter != props.end(); ++iter)
_pimpl->props.set_string(F("custom.%s") % (*iter).first,
(*iter).second);
return *this;
}
/// Sets the description of the test.
///
/// \param description Textual description of the test.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_description(const std::string& description)
{
set< config::string_node >(_pimpl->props, "description", description);
return *this;
}
/// Sets whether the test has a cleanup part or not.
///
/// \param cleanup True if the test has a cleanup part; false otherwise.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_has_cleanup(const bool cleanup)
{
set< config::bool_node >(_pimpl->props, "has_cleanup", cleanup);
return *this;
}
/// Sets whether the test is exclusive or not.
///
/// \param exclusive True if the test is exclusive; false otherwise.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_is_exclusive(const bool exclusive)
{
set< config::bool_node >(_pimpl->props, "is_exclusive", exclusive);
return *this;
}
/// Sets the list of configuration variables needed by the test.
///
/// \param vars Set of configuration variables.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_required_configs(const model::strings_set& vars)
{
set< config::strings_set_node >(_pimpl->props, "required_configs", vars);
return *this;
}
/// Sets the amount of free disk space required by the test.
///
/// \param bytes Number of bytes.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_required_disk_space(const units::bytes& bytes)
{
set< bytes_node >(_pimpl->props, "required_disk_space", bytes);
return *this;
}
/// Sets the list of files needed by the test.
///
/// \param files Set of paths.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_required_files(const model::paths_set& files)
{
set< paths_set_node >(_pimpl->props, "required_files", files);
return *this;
}
/// Sets the amount of memory required by the test.
///
/// \param bytes Number of bytes.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_required_memory(const units::bytes& bytes)
{
set< bytes_node >(_pimpl->props, "required_memory", bytes);
return *this;
}
/// Sets the list of programs needed by the test.
///
/// \param progs Set of paths.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_required_programs(const model::paths_set& progs)
{
set< paths_set_node >(_pimpl->props, "required_programs", progs);
return *this;
}
/// Sets the user required by the test.
///
/// \param user One of unprivileged, root or empty.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_required_user(const std::string& user)
{
set< user_node >(_pimpl->props, "required_user", user);
return *this;
}
/// Sets a metadata property by name from its textual representation.
///
/// \param key The property to set.
/// \param value The value to set the property to.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid or the key does not exist.
model::metadata_builder&
model::metadata_builder::set_string(const std::string& key,
const std::string& value)
{
try {
_pimpl->props.set_string(key, value);
} catch (const config::unknown_key_error& e) {
throw model::format_error(F("Unknown metadata property %s") % key);
} catch (const config::value_error& e) {
throw model::format_error(
F("Invalid value for metadata property %s: %s") % key % e.what());
}
return *this;
}
/// Sets the timeout of the test.
///
/// \param timeout The timeout to set.
///
/// \return A reference to this builder.
///
/// \throw model::error If the value is invalid.
model::metadata_builder&
model::metadata_builder::set_timeout(const datetime::delta& timeout)
{
set< delta_node >(_pimpl->props, "timeout", timeout);
return *this;
}
/// Creates a new metadata object.
///
/// \pre This has not yet been called. We only support calling this function
/// once due to the way the internal tree works: we pass around references, not
/// deep copies, so if we allowed a second build, we'd encourage reusing the
/// same builder to construct different metadata objects, and this could have
/// unintended consequences.
///
/// \return The constructed metadata object.
model::metadata
model::metadata_builder::build(void) const
{
PRE(!_pimpl->built);
_pimpl->built = true;
return metadata(_pimpl->props);
}