freebsd-skq/contrib/kyua/cli/cmd_report_html.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

475 lines
18 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 "cli/cmd_report_html.hpp"
#include <algorithm>
#include <cerrno>
#include <cstdlib>
#include <set>
#include <stdexcept>
#include "cli/common.ipp"
#include "drivers/scan_results.hpp"
#include "engine/filters.hpp"
#include "model/context.hpp"
#include "model/metadata.hpp"
#include "model/test_case.hpp"
#include "model/test_program.hpp"
#include "model/test_result.hpp"
#include "store/layout.hpp"
#include "store/read_transaction.hpp"
#include "utils/cmdline/options.hpp"
#include "utils/cmdline/parser.ipp"
#include "utils/cmdline/ui.hpp"
#include "utils/datetime.hpp"
#include "utils/env.hpp"
#include "utils/format/macros.hpp"
#include "utils/fs/exceptions.hpp"
#include "utils/fs/operations.hpp"
#include "utils/fs/path.hpp"
#include "utils/optional.ipp"
#include "utils/text/templates.hpp"
namespace cmdline = utils::cmdline;
namespace config = utils::config;
namespace datetime = utils::datetime;
namespace fs = utils::fs;
namespace layout = store::layout;
namespace text = utils::text;
using utils::optional;
namespace {
/// Creates the report's top directory and fails if it exists.
///
/// \param directory The directory to create.
/// \param force Whether to wipe an existing directory or not.
///
/// \throw std::runtime_error If the directory already exists; this is a user
/// error that the user must correct.
/// \throw fs::error If the directory creation fails for any other reason.
static void
create_top_directory(const fs::path& directory, const bool force)
{
if (force) {
if (fs::exists(directory))
fs::rm_r(directory);
}
try {
fs::mkdir(directory, 0755);
} catch (const fs::system_error& e) {
if (e.original_errno() == EEXIST)
throw std::runtime_error(F("Output directory '%s' already exists; "
"maybe use --force?") %
directory);
else
throw e;
}
}
/// Generates a flat unique filename for a given test case.
///
/// \param test_program The test program for which to genereate the name.
/// \param test_case_name The test case name.
///
/// \return A filename unique within a directory with a trailing HTML extension.
static std::string
test_case_filename(const model::test_program& test_program,
const std::string& test_case_name)
{
static const char* special_characters = "/:";
std::string name = cli::format_test_case_id(test_program, test_case_name);
std::string::size_type pos = name.find_first_of(special_characters);
while (pos != std::string::npos) {
name.replace(pos, 1, "_");
pos = name.find_first_of(special_characters, pos + 1);
}
return name + ".html";
}
/// Adds a string to string map to the templates.
///
/// \param [in,out] templates The templates to add the map to.
/// \param props The map to add to the templates.
/// \param key_vector Name of the template vector that holds the keys.
/// \param value_vector Name of the template vector that holds the values.
static void
add_map(text::templates_def& templates, const config::properties_map& props,
const std::string& key_vector, const std::string& value_vector)
{
templates.add_vector(key_vector);
templates.add_vector(value_vector);
for (config::properties_map::const_iterator iter = props.begin();
iter != props.end(); ++iter) {
templates.add_to_vector(key_vector, (*iter).first);
templates.add_to_vector(value_vector, (*iter).second);
}
}
/// Generates an HTML report.
class html_hooks : public drivers::scan_results::base_hooks {
/// User interface object where to report progress.
cmdline::ui* _ui;
/// The top directory in which to create the HTML files.
fs::path _directory;
/// Collection of result types to include in the report.
const cli::result_types& _results_filters;
/// The start time of the first test.
optional< utils::datetime::timestamp > _start_time;
/// The end time of the last test.
optional< utils::datetime::timestamp > _end_time;
/// The total run time of the tests. Note that we cannot subtract _end_time
/// from _start_time to compute this due to parallel execution.
utils::datetime::delta _runtime;
/// Templates accumulator to generate the index.html file.
text::templates_def _summary_templates;
/// Mapping of result types to the amount of tests with such result.
std::map< model::test_result_type, std::size_t > _types_count;
/// Generates a common set of templates for all of our files.
///
/// \return A new templates object with common parameters.
static text::templates_def
common_templates(void)
{
text::templates_def templates;
templates.add_variable("css", "report.css");
return templates;
}
/// Adds a test case result to the summary.
///
/// \param test_program The test program with the test case to be added.
/// \param test_case_name Name of the test case.
/// \param result The result of the test case.
/// \param has_detail If true, the result of the test case has not been
/// filtered and therefore there exists a separate file for the test
/// with all of its information.
void
add_to_summary(const model::test_program& test_program,
const std::string& test_case_name,
const model::test_result& result,
const bool has_detail)
{
++_types_count[result.type()];
if (!has_detail)
return;
std::string test_cases_vector;
std::string test_cases_file_vector;
switch (result.type()) {
case model::test_result_broken:
test_cases_vector = "broken_test_cases";
test_cases_file_vector = "broken_test_cases_file";
break;
case model::test_result_expected_failure:
test_cases_vector = "xfail_test_cases";
test_cases_file_vector = "xfail_test_cases_file";
break;
case model::test_result_failed:
test_cases_vector = "failed_test_cases";
test_cases_file_vector = "failed_test_cases_file";
break;
case model::test_result_passed:
test_cases_vector = "passed_test_cases";
test_cases_file_vector = "passed_test_cases_file";
break;
case model::test_result_skipped:
test_cases_vector = "skipped_test_cases";
test_cases_file_vector = "skipped_test_cases_file";
break;
}
INV(!test_cases_vector.empty());
INV(!test_cases_file_vector.empty());
_summary_templates.add_to_vector(
test_cases_vector,
cli::format_test_case_id(test_program, test_case_name));
_summary_templates.add_to_vector(
test_cases_file_vector,
test_case_filename(test_program, test_case_name));
}
/// Instantiate a template to generate an HTML file in the output directory.
///
/// \param templates The templates to use.
/// \param template_name The name of the template. This is automatically
/// searched for in the installed directory, so do not provide a path.
/// \param output_name The name of the output file. This is a basename to
/// be created within the output directory.
///
/// \throw text::error If there is any problem applying the templates.
void
generate(const text::templates_def& templates,
const std::string& template_name,
const std::string& output_name) const
{
const fs::path miscdir(utils::getenv_with_default(
"KYUA_MISCDIR", KYUA_MISCDIR));
const fs::path template_file = miscdir / template_name;
const fs::path output_path(_directory / output_name);
_ui->out(F("Generating %s") % output_path);
text::instantiate(templates, template_file, output_path);
}
/// Gets the number of tests with a given result type.
///
/// \param type The type to be queried.
///
/// \return The number of tests of the given type, or 0 if none have yet
/// been registered by add_to_summary().
std::size_t
get_count(const model::test_result_type type) const
{
const std::map< model::test_result_type, std::size_t >::const_iterator
iter = _types_count.find(type);
if (iter == _types_count.end())
return 0;
else
return (*iter).second;
}
public:
/// Constructor for the hooks.
///
/// \param ui_ User interface object where to report progress.
/// \param directory_ The directory in which to create the HTML files.
/// \param results_filters_ The result types to include in the report.
/// Cannot be empty.
html_hooks(cmdline::ui* ui_, const fs::path& directory_,
const cli::result_types& results_filters_) :
_ui(ui_),
_directory(directory_),
_results_filters(results_filters_),
_summary_templates(common_templates())
{
PRE(!results_filters_.empty());
// Keep in sync with add_to_summary().
_summary_templates.add_vector("broken_test_cases");
_summary_templates.add_vector("broken_test_cases_file");
_summary_templates.add_vector("xfail_test_cases");
_summary_templates.add_vector("xfail_test_cases_file");
_summary_templates.add_vector("failed_test_cases");
_summary_templates.add_vector("failed_test_cases_file");
_summary_templates.add_vector("passed_test_cases");
_summary_templates.add_vector("passed_test_cases_file");
_summary_templates.add_vector("skipped_test_cases");
_summary_templates.add_vector("skipped_test_cases_file");
}
/// Callback executed when the context is loaded.
///
/// \param context The context loaded from the database.
void
got_context(const model::context& context)
{
text::templates_def templates = common_templates();
templates.add_variable("cwd", context.cwd().str());
add_map(templates, context.env(), "env_var", "env_var_value");
generate(templates, "context.html", "context.html");
}
/// Callback executed when a test results is found.
///
/// \param iter Container for the test result's data.
void
got_result(store::results_iterator& iter)
{
const model::test_program_ptr test_program = iter.test_program();
const std::string& test_case_name = iter.test_case_name();
const model::test_result result = iter.result();
if (std::find(_results_filters.begin(), _results_filters.end(),
result.type()) == _results_filters.end()) {
add_to_summary(*test_program, test_case_name, result, false);
return;
}
add_to_summary(*test_program, test_case_name, result, true);
if (!_start_time || _start_time.get() > iter.start_time())
_start_time = iter.start_time();
if (!_end_time || _end_time.get() < iter.end_time())
_end_time = iter.end_time();
const datetime::delta duration = iter.end_time() - iter.start_time();
_runtime += duration;
text::templates_def templates = common_templates();
templates.add_variable("test_case",
cli::format_test_case_id(*test_program,
test_case_name));
templates.add_variable("test_program",
test_program->absolute_path().str());
templates.add_variable("result", cli::format_result(result));
templates.add_variable("start_time",
iter.start_time().to_iso8601_in_utc());
templates.add_variable("end_time",
iter.end_time().to_iso8601_in_utc());
templates.add_variable("duration", cli::format_delta(duration));
const model::test_case& test_case = test_program->find(test_case_name);
add_map(templates, test_case.get_metadata().to_properties(),
"metadata_var", "metadata_value");
{
const std::string stdout_text = iter.stdout_contents();
if (!stdout_text.empty())
templates.add_variable("stdout", stdout_text);
}
{
const std::string stderr_text = iter.stderr_contents();
if (!stderr_text.empty())
templates.add_variable("stderr", stderr_text);
}
generate(templates, "test_result.html",
test_case_filename(*test_program, test_case_name));
}
/// Writes the index.html file in the output directory.
///
/// This should only be called once all the processing has been done;
/// i.e. when the scan_results driver returns.
void
write_summary(void)
{
const std::size_t n_passed = get_count(model::test_result_passed);
const std::size_t n_failed = get_count(model::test_result_failed);
const std::size_t n_skipped = get_count(model::test_result_skipped);
const std::size_t n_xfail = get_count(
model::test_result_expected_failure);
const std::size_t n_broken = get_count(model::test_result_broken);
const std::size_t n_bad = n_broken + n_failed;
if (_start_time) {
INV(_end_time);
_summary_templates.add_variable(
"start_time", _start_time.get().to_iso8601_in_utc());
_summary_templates.add_variable(
"end_time", _end_time.get().to_iso8601_in_utc());
} else {
_summary_templates.add_variable("start_time", "No tests run");
_summary_templates.add_variable("end_time", "No tests run");
}
_summary_templates.add_variable("duration",
cli::format_delta(_runtime));
_summary_templates.add_variable("passed_tests_count",
F("%s") % n_passed);
_summary_templates.add_variable("failed_tests_count",
F("%s") % n_failed);
_summary_templates.add_variable("skipped_tests_count",
F("%s") % n_skipped);
_summary_templates.add_variable("xfail_tests_count",
F("%s") % n_xfail);
_summary_templates.add_variable("broken_tests_count",
F("%s") % n_broken);
_summary_templates.add_variable("bad_tests_count", F("%s") % n_bad);
generate(text::templates_def(), "report.css", "report.css");
generate(_summary_templates, "index.html", "index.html");
}
};
} // anonymous namespace
/// Default constructor for cmd_report_html.
cli::cmd_report_html::cmd_report_html(void) : cli_command(
"report-html", "", 0, 0,
"Generates an HTML report with the result of a test suite run")
{
add_option(results_file_open_option);
add_option(cmdline::bool_option(
"force", "Wipe the output directory before generating the new report; "
"use care"));
add_option(cmdline::path_option(
"output", "The directory in which to store the HTML files",
"path", "html"));
add_option(cmdline::list_option(
"results-filter", "Comma-separated list of result types to include in "
"the report", "types", "skipped,xfail,broken,failed"));
}
/// Entry point for the "report-html" subcommand.
///
/// \param ui Object to interact with the I/O of the program.
/// \param cmdline Representation of the command line to the subcommand.
///
/// \return 0 if everything is OK, 1 if the statement is invalid or if there is
/// any other problem.
int
cli::cmd_report_html::run(cmdline::ui* ui,
const cmdline::parsed_cmdline& cmdline,
const config::tree& /* user_config */)
{
const result_types types = get_result_types(cmdline);
const fs::path results_file = layout::find_results(
results_file_open(cmdline));
const fs::path directory =
cmdline.get_option< cmdline::path_option >("output");
create_top_directory(directory, cmdline.has_option("force"));
html_hooks hooks(ui, directory, types);
drivers::scan_results::drive(results_file,
std::set< engine::test_filter >(),
hooks);
hooks.write_summary();
return EXIT_SUCCESS;
}