xref: /freebsd/contrib/kyua/drivers/run_tests.cpp (revision e17f5b1d307b7b8910d67883e57a9604305906d5)
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28 
29 #include "drivers/run_tests.hpp"
30 
31 #include <utility>
32 
33 #include "engine/config.hpp"
34 #include "engine/filters.hpp"
35 #include "engine/kyuafile.hpp"
36 #include "engine/scanner.hpp"
37 #include "engine/scheduler.hpp"
38 #include "model/context.hpp"
39 #include "model/metadata.hpp"
40 #include "model/test_case.hpp"
41 #include "model/test_program.hpp"
42 #include "model/test_result.hpp"
43 #include "store/write_backend.hpp"
44 #include "store/write_transaction.hpp"
45 #include "utils/config/tree.ipp"
46 #include "utils/datetime.hpp"
47 #include "utils/defs.hpp"
48 #include "utils/format/macros.hpp"
49 #include "utils/logging/macros.hpp"
50 #include "utils/noncopyable.hpp"
51 #include "utils/optional.ipp"
52 #include "utils/passwd.hpp"
53 #include "utils/text/operations.ipp"
54 
55 namespace config = utils::config;
56 namespace datetime = utils::datetime;
57 namespace fs = utils::fs;
58 namespace passwd = utils::passwd;
59 namespace scheduler = engine::scheduler;
60 namespace text = utils::text;
61 
62 using utils::none;
63 using utils::optional;
64 
65 
66 namespace {
67 
68 
69 /// Map of test program identifiers (relative paths) to their identifiers in the
70 /// database.  We need to keep this in memory because test programs can be
71 /// returned by the scanner in any order, and we only want to put each test
72 /// program once.
73 typedef std::map< fs::path, int64_t > path_to_id_map;
74 
75 
76 /// Map of in-flight PIDs to their corresponding test case IDs.
77 typedef std::map< int, int64_t > pid_to_id_map;
78 
79 
80 /// Pair of PID to a test case ID.
81 typedef pid_to_id_map::value_type pid_and_id_pair;
82 
83 
84 /// Puts a test program in the store and returns its identifier.
85 ///
86 /// This function is idempotent: we maintain a side cache of already-put test
87 /// programs so that we can return their identifiers without having to put them
88 /// again.
89 /// TODO(jmmv): It's possible that the store module should offer this
90 /// functionality and not have to do this ourselves here.
91 ///
92 /// \param test_program The test program being put.
93 /// \param [in,out] tx Writable transaction on the store.
94 /// \param [in,out] ids_cache Cache of already-put test programs.
95 ///
96 /// \return A test program identifier.
97 static int64_t
98 find_test_program_id(const model::test_program_ptr test_program,
99                      store::write_transaction& tx,
100                      path_to_id_map& ids_cache)
101 {
102     const fs::path& key = test_program->relative_path();
103     std::map< fs::path, int64_t >::const_iterator iter = ids_cache.find(key);
104     if (iter == ids_cache.end()) {
105         const int64_t id = tx.put_test_program(*test_program);
106         ids_cache.insert(std::make_pair(key, id));
107         return id;
108     } else {
109         return (*iter).second;
110     }
111 }
112 
113 
114 /// Stores the result of an execution in the database.
115 ///
116 /// \param test_case_id Identifier of the test case in the database.
117 /// \param result The result of the execution.
118 /// \param [in,out] tx Writable transaction where to store the result data.
119 static void
120 put_test_result(const int64_t test_case_id,
121                 const scheduler::test_result_handle& result,
122                 store::write_transaction& tx)
123 {
124     tx.put_result(result.test_result(), test_case_id,
125                   result.start_time(), result.end_time());
126     tx.put_test_case_file("__STDOUT__", result.stdout_file(), test_case_id);
127     tx.put_test_case_file("__STDERR__", result.stderr_file(), test_case_id);
128 
129 }
130 
131 
132 /// Cleans up a test case and folds any errors into the test result.
133 ///
134 /// \param handle The result handle for the test.
135 ///
136 /// \return The test result if the cleanup succeeds; a broken test result
137 /// otherwise.
138 model::test_result
139 safe_cleanup(scheduler::test_result_handle handle) throw()
140 {
141     try {
142         handle.cleanup();
143         return handle.test_result();
144     } catch (const std::exception& e) {
145         return model::test_result(
146             model::test_result_broken,
147             F("Failed to clean up test case's work directory %s: %s") %
148             handle.work_directory() % e.what());
149     }
150 }
151 
152 
153 /// Starts a test asynchronously.
154 ///
155 /// \param handle Scheduler handle.
156 /// \param match Test program and test case to start.
157 /// \param [in,out] tx Writable transaction to obtain test IDs.
158 /// \param [in,out] ids_cache Cache of already-put test cases.
159 /// \param user_config The end-user configuration properties.
160 /// \param hooks The hooks for this execution.
161 ///
162 /// \returns The PID for the started test and the test case's identifier in the
163 /// store.
164 pid_and_id_pair
165 start_test(scheduler::scheduler_handle& handle,
166            const engine::scan_result& match,
167            store::write_transaction& tx,
168            path_to_id_map& ids_cache,
169            const config::tree& user_config,
170            drivers::run_tests::base_hooks& hooks)
171 {
172     const model::test_program_ptr test_program = match.first;
173     const std::string& test_case_name = match.second;
174 
175     hooks.got_test_case(*test_program, test_case_name);
176 
177     const int64_t test_program_id = find_test_program_id(
178         test_program, tx, ids_cache);
179     const int64_t test_case_id = tx.put_test_case(
180         *test_program, test_case_name, test_program_id);
181 
182     const scheduler::exec_handle exec_handle = handle.spawn_test(
183         test_program, test_case_name, user_config);
184     return std::make_pair(exec_handle, test_case_id);
185 }
186 
187 
188 /// Processes the completion of a test.
189 ///
190 /// \param [in,out] result_handle The completion handle of the test subprocess.
191 /// \param test_case_id Identifier of the test case as returned by start_test().
192 /// \param [in,out] tx Writable transaction to put the test results.
193 /// \param hooks The hooks for this execution.
194 ///
195 /// \post result_handle is cleaned up.  The caller cannot clean it up again.
196 void
197 finish_test(scheduler::result_handle_ptr result_handle,
198             const int64_t test_case_id,
199             store::write_transaction& tx,
200             drivers::run_tests::base_hooks& hooks)
201 {
202     const scheduler::test_result_handle* test_result_handle =
203         dynamic_cast< const scheduler::test_result_handle* >(
204             result_handle.get());
205 
206     put_test_result(test_case_id, *test_result_handle, tx);
207 
208     const model::test_result test_result = safe_cleanup(*test_result_handle);
209     hooks.got_result(
210         *test_result_handle->test_program(),
211         test_result_handle->test_case_name(),
212         test_result_handle->test_result(),
213         result_handle->end_time() - result_handle->start_time());
214 }
215 
216 
217 /// Extracts the keys of a pid_to_id_map and returns them as a string.
218 ///
219 /// \param map The PID to test ID map from which to get the PIDs.
220 ///
221 /// \return A user-facing string with the collection of PIDs.
222 static std::string
223 format_pids(const pid_to_id_map& map)
224 {
225     std::set< pid_to_id_map::key_type > pids;
226     for (pid_to_id_map::const_iterator iter = map.begin(); iter != map.end();
227          ++iter) {
228         pids.insert(iter->first);
229     }
230     return text::join(pids, ",");
231 }
232 
233 
234 }  // anonymous namespace
235 
236 
237 /// Pure abstract destructor.
238 drivers::run_tests::base_hooks::~base_hooks(void)
239 {
240 }
241 
242 
243 /// Executes the operation.
244 ///
245 /// \param kyuafile_path The path to the Kyuafile to be loaded.
246 /// \param build_root If not none, path to the built test programs.
247 /// \param store_path The path to the store to be used.
248 /// \param filters The test case filters as provided by the user.
249 /// \param user_config The end-user configuration properties.
250 /// \param hooks The hooks for this execution.
251 ///
252 /// \returns A structure with all results computed by this driver.
253 drivers::run_tests::result
254 drivers::run_tests::drive(const fs::path& kyuafile_path,
255                           const optional< fs::path > build_root,
256                           const fs::path& store_path,
257                           const std::set< engine::test_filter >& filters,
258                           const config::tree& user_config,
259                           base_hooks& hooks)
260 {
261     scheduler::scheduler_handle handle = scheduler::setup();
262 
263     const engine::kyuafile kyuafile = engine::kyuafile::load(
264         kyuafile_path, build_root, user_config, handle);
265     store::write_backend db = store::write_backend::open_rw(store_path);
266     store::write_transaction tx = db.start_write();
267 
268     {
269         const model::context context = scheduler::current_context();
270         (void)tx.put_context(context);
271     }
272 
273     engine::scanner scanner(kyuafile.test_programs(), filters);
274 
275     path_to_id_map ids_cache;
276     pid_to_id_map in_flight;
277     std::vector< engine::scan_result > exclusive_tests;
278 
279     const std::size_t slots = user_config.lookup< config::positive_int_node >(
280         "parallelism");
281     INV(slots >= 1);
282     do {
283         INV(in_flight.size() <= slots);
284 
285         // Spawn as many jobs as needed to fill our execution slots.  We do this
286         // first with the assumption that the spawning is faster than any single
287         // job, so we want to keep as many jobs in the background as possible.
288         while (in_flight.size() < slots) {
289             optional< engine::scan_result > match = scanner.yield();
290             if (!match)
291                 break;
292             const model::test_program_ptr test_program = match.get().first;
293             const std::string& test_case_name = match.get().second;
294 
295             const model::test_case& test_case = test_program->find(
296                 test_case_name);
297             if (test_case.get_metadata().is_exclusive()) {
298                 // Exclusive tests get processed later, separately.
299                 exclusive_tests.push_back(match.get());
300                 continue;
301             }
302 
303             const pid_and_id_pair pid_id = start_test(
304                 handle, match.get(), tx, ids_cache, user_config, hooks);
305             INV_MSG(in_flight.find(pid_id.first) == in_flight.end(),
306                     F("Spawned test has PID of still-tracked process %s") %
307                     pid_id.first);
308             in_flight.insert(pid_id);
309         }
310 
311         // If there are any used slots, consume any at random and return the
312         // result.  We consume slots one at a time to give preference to the
313         // spawning of new tests as detailed above.
314         if (!in_flight.empty()) {
315             scheduler::result_handle_ptr result_handle = handle.wait_any();
316 
317             const pid_to_id_map::iterator iter = in_flight.find(
318                 result_handle->original_pid());
319             INV_MSG(iter != in_flight.end(),
320                     F("Lost track of in-flight PID %s; tracking %s") %
321                     result_handle->original_pid() % format_pids(in_flight));
322             const int64_t test_case_id = (*iter).second;
323             in_flight.erase(iter);
324 
325             finish_test(result_handle, test_case_id, tx, hooks);
326         }
327     } while (!in_flight.empty() || !scanner.done());
328 
329     // Run any exclusive tests that we spotted earlier sequentially.
330     for (std::vector< engine::scan_result >::const_iterator
331              iter = exclusive_tests.begin(); iter != exclusive_tests.end();
332              ++iter) {
333         const pid_and_id_pair data = start_test(
334             handle, *iter, tx, ids_cache, user_config, hooks);
335         scheduler::result_handle_ptr result_handle = handle.wait_any();
336         finish_test(result_handle, data.second, tx, hooks);
337     }
338 
339     tx.commit();
340 
341     handle.cleanup();
342 
343     return result(scanner.unused_filters());
344 }
345