blob: 1ddf7a353a72a0de12fba5d8ce104c4605ad98e0 [file] [log] [blame]
Simon Glass25404102021-03-07 17:35:17 -07001.. SPDX-License-Identifier: GPL-2.0+
2.. Copyright 2021 Google LLC
3.. sectionauthor:: Simon Glass <sjg@chromium.org>
4
5Writing Tests
6=============
7
8This describes how to write tests in U-Boot and describes the possible options.
9
10Test types
11----------
12
13There are two basic types of test in U-Boot:
14
15 - Python tests, in test/py/tests
16 - C tests, in test/ and its subdirectories
17
18(there are also UEFI tests in lib/efi_selftest/ not considered here.)
19
20Python tests talk to U-Boot via the command line. They support both sandbox and
21real hardware. They typically do not require building test code into U-Boot
22itself. They are fairly slow to run, due to the command-line interface and there
23being two separate processes. Python tests are fairly easy to write. They can
24be a little tricky to debug sometimes due to the voluminous output of pytest.
25
26C tests are written directly in U-Boot. While they can be used on boards, they
27are more commonly used with sandbox, as they obviously add to U-Boot code size.
28C tests are easy to write so long as the required facilities exist. Where they
29do not it can involve refactoring or adding new features to sandbox. They are
30fast to run and easy to debug.
31
32Regardless of which test type is used, all tests are collected and run by the
33pytest framework, so there is typically no need to run them separately. This
34means that C tests can be used when it makes sense, and Python tests when it
35doesn't.
36
37
38This table shows how to decide whether to write a C or Python test:
39
40===================== =========================== =============================
41Attribute C test Python test
42===================== =========================== =============================
43Fast to run? Yes No (two separate processes)
44Easy to write? Yes, if required test Yes
45 features exist in sandbox
46 or the target system
47Needs code in U-Boot? Yes No, provided the test can be
48 executed and the result
49 determined using the command
50 line
51Easy to debug? Yes No, since access to the U-Boot
52 state is not available and the
53 amount of output can
54 sometimes require a bit of
55 digging
56Can use gdb? Yes, directly Yes, with --gdbserver
57Can run on boards? Some can, but only if Some
58 compiled in and not
59 dependent on sandboxau
60===================== =========================== =============================
61
62
63Python or C
64-----------
65
66Typically in U-Boot we encourage C test using sandbox for all features. This
67allows fast testing, easy development and allows contributors to make changes
68without needing dozens of boards to test with.
69
70When a test requires setup or interaction with the running host (such as to
71generate images and then running U-Boot to check that they can be loaded), or
72cannot be run on sandbox, Python tests should be used. These should typically
73NOT rely on running with sandbox, but instead should function correctly on any
74board supported by U-Boot.
75
76
77How slow are Python tests?
78--------------------------
79
80Under the hood, when running on sandbox, Python tests work by starting a sandbox
81test and connecting to it via a pipe. Each interaction with the U-Boot process
82requires at least a context switch to handle the pipe interaction. The test
83sends a command to U-Boot, which then reacts and shows some output, then the
84test sees that and continues. Of course on real hardware, communications delays
85(e.g. with a serial console) make this slower.
86
87For comparison, consider a test that checks the 'md' (memory dump). All times
88below are approximate, as measured on an AMD 2950X system. Here is is the test
89in Python::
90
91 @pytest.mark.buildconfigspec('cmd_memory')
92 def test_md(u_boot_console):
93 """Test that md reads memory as expected, and that memory can be modified
94 using the mw command."""
95
96 ram_base = u_boot_utils.find_ram_base(u_boot_console)
97 addr = '%08x' % ram_base
98 val = 'a5f09876'
99 expected_response = addr + ': ' + val
100 u_boot_console.run_command('mw ' + addr + ' 0 10')
101 response = u_boot_console.run_command('md ' + addr + ' 10')
102 assert(not (expected_response in response))
103 u_boot_console.run_command('mw ' + addr + ' ' + val)
104 response = u_boot_console.run_command('md ' + addr + ' 10')
105 assert(expected_response in response)
106
107This runs a few commands and checks the output. Note that it runs a command,
108waits for the response and then checks it agains what is expected. If run by
109itself it takes around 800ms, including test collection. For 1000 runs it takes
11019 seconds, or 19ms per run. Of course 1000 runs it not that useful since we
111only want to run it once.
112
113There is no exactly equivalent C test, but here is a similar one that tests 'ms'
114(memory search)::
115
116 /* Test 'ms' command with bytes */
117 static int mem_test_ms_b(struct unit_test_state *uts)
118 {
119 u8 *buf;
120
121 buf = map_sysmem(0, BUF_SIZE + 1);
122 memset(buf, '\0', BUF_SIZE);
123 buf[0x0] = 0x12;
124 buf[0x31] = 0x12;
125 buf[0xff] = 0x12;
126 buf[0x100] = 0x12;
127 ut_assertok(console_record_reset_enable());
128 run_command("ms.b 1 ff 12", 0);
129 ut_assert_nextline("00000030: 00 12 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................");
130 ut_assert_nextline("--");
131 ut_assert_nextline("000000f0: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 12 ................");
132 ut_assert_nextline("2 matches");
133 ut_assert_console_end();
134
135 ut_asserteq(2, env_get_hex("memmatches", 0));
136 ut_asserteq(0xff, env_get_hex("memaddr", 0));
137 ut_asserteq(0xfe, env_get_hex("mempos", 0));
138
139 unmap_sysmem(buf);
140
141 return 0;
142 }
143 MEM_TEST(mem_test_ms_b, UT_TESTF_CONSOLE_REC);
144
145This runs the command directly in U-Boot, then checks the console output, also
146directly in U-Boot. If run by itself this takes 100ms. For 1000 runs it takes
147660ms, or 0.66ms per run.
148
149So overall running a C test is perhaps 8 times faster individually and the
150interactions are perhaps 25 times faster.
151
152It should also be noted that the C test is fairly easy to debug. You can set a
153breakpoint on do_mem_search(), which is what implements the 'ms' command,
154single step to see what might be wrong, etc. That is also possible with the
155pytest, but requires two terminals and --gdbserver.
156
157
158Why does speed matter?
159----------------------
160
161Many development activities rely on running tests:
162
163 - 'git bisect run make qcheck' can be used to find a failing commit
164 - test-driven development relies on quick iteration of build/test
165 - U-Boot's continuous integration (CI) systems make use of tests. Running
166 all sandbox tests typically takes 90 seconds and running each qemu test
167 takes about 30 seconds. This is currently dwarfed by the time taken to
168 build all boards
169
170As U-Boot continues to grow its feature set, fast and reliable tests are a
171critical factor factor in developer productivity and happiness.
172
173
174Writing C tests
175---------------
176
177C tests are arranged into suites which are typically executed by the 'ut'
178command. Each suite is in its own file. This section describes how to accomplish
179some common test tasks.
180
181(there are also UEFI C tests in lib/efi_selftest/ not considered here.)
182
183Add a new driver model test
184~~~~~~~~~~~~~~~~~~~~~~~~~~~
185
186Use this when adding a test for a new or existing uclass, adding new operations
187or features to a uclass, adding new ofnode or dev_read_() functions, or anything
188else related to driver model.
189
190Find a suitable place for your test, perhaps near other test functions in
191existing code, or in a new file. Each uclass should have its own test file.
192
193Declare the test with::
194
195 /* Test that ... */
196 static int dm_test_uclassname_what(struct unit_test_state *uts)
197 {
198 /* test code here */
199
200 return 0;
201 }
202 DM_TEST(dm_test_uclassname_what, UT_TESTF_SCAN_FDT);
203
204Replace 'uclassname' with the name of your uclass, if applicable. Replace 'what'
205with what you are testing.
206
207The flags for DM_TEST() are defined in test/test.h and you typically want
208UT_TESTF_SCAN_FDT so that the devicetree is scanned and all devices are bound
209and ready for use. The DM_TEST macro adds UT_TESTF_DM automatically so that
210the test runner knows it is a driver model test.
211
212Driver model tests are special in that the entire driver model state is
213recreated anew for each test. This ensures that if a previous test deletes a
214device, for example, it does not affect subsequent tests. Driver model tests
215also run both with livetree and flattree, to ensure that both devicetree
216implementations work as expected.
217
218Example commit: c48cb7ebfb4 ("sandbox: add ADC unit tests") [1]
219
220[1] https://gitlab.denx.de/u-boot/u-boot/-/commit/c48cb7ebfb4
221
222
223Add a C test to an existing suite
224~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
225
226Use this when you are adding to or modifying an existing feature outside driver
227model. An example is bloblist.
228
229Add a new function in the same file as the rest of the suite and register it
230with the suite. For example, to add a new mem_search test::
231
232 /* Test 'ms' command with 32-bit values */
233 static int mem_test_ms_new_thing(struct unit_test_state *uts)
234 {
235 /* test code here*/
236
237 return 0;
238 }
239 MEM_TEST(mem_test_ms_new_thing, UT_TESTF_CONSOLE_REC);
240
241Note that the MEM_TEST() macros is defined at the top of the file.
242
243Example commit: 9fe064646d2 ("bloblist: Support relocating to a larger space") [1]
244
245[1] https://gitlab.denx.de/u-boot/u-boot/-/commit/9fe064646d2
246
247
248Add a new test suite
249~~~~~~~~~~~~~~~~~~~~
250
251Each suite should focus on one feature or subsystem, so if you are writing a
252new one of those, you should add a new suite.
253
254Create a new file in test/ or a subdirectory and define a macro to register the
255suite. For example::
256
257 #include <common.h>
258 #include <console.h>
259 #include <mapmem.h>
260 #include <dm/test.h>
261 #include <test/ut.h>
262
263 /* Declare a new wibble test */
264 #define WIBBLE_TEST(_name, _flags) UNIT_TEST(_name, _flags, wibble_test)
265
266 /* Tetss go here */
267
268 /* At the bottom of the file: */
269
270 int do_ut_wibble(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[])
271 {
272 struct unit_test *tests = UNIT_TEST_SUITE_START(wibble_test);
273 const int n_ents = UNIT_TEST_SUITE_COUNT(wibble_test);
274
275 return cmd_ut_category("cmd_wibble", "wibble_test_", tests, n_ents, argc, argv);
276 }
277
278Then add new tests to it as above.
279
280Register this new suite in test/cmd_ut.c by adding to cmd_ut_sub[]::
281
282 /* Within cmd_ut_sub[]... */
283
284 U_BOOT_CMD_MKENT(wibble, CONFIG_SYS_MAXARGS, 1, do_ut_wibble, "", ""),
285
286and adding new help to ut_help_text[]::
287
288 "ut wibble - Test the wibble feature\n"
289
290If your feature is conditional on a particular Kconfig, then you can use #ifdef
291to control that.
292
293Finally, add the test to the build by adding to the Makefile in the same
294directory::
295
296 obj-$(CONFIG_$(SPL_)CMDLINE) += wibble.o
297
298Note that CMDLINE is never enabled in SPL, so this test will only be present in
299U-Boot proper. See below for how to do SPL tests.
300
301As before, you can add an extra Kconfig check if needed::
302
303 ifneq ($(CONFIG_$(SPL_)WIBBLE),)
304 obj-$(CONFIG_$(SPL_)CMDLINE) += wibble.o
305 endif
306
307
308Example commit: 919e7a8fb64 ("test: Add a simple test for bloblist") [1]
309
310[1] https://gitlab.denx.de/u-boot/u-boot/-/commit/919e7a8fb64
311
312
313Making the test run from pytest
314~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
315
316All C tests must run from pytest. Typically this is automatic, since pytest
317scans the U-Boot executable for available tests to run. So long as you have a
318'ut' subcommand for your test suite, it will run. The same applies for driver
319model tests since they use the 'ut dm' subcommand.
320
321See test/py/tests/test_ut.py for how unit tests are run.
322
323
324Add a C test for SPL
325~~~~~~~~~~~~~~~~~~~~
326
327Note: C tests are only available for sandbox_spl at present. There is currently
328no mechanism in other boards to existing SPL tests even if they are built into
329the image.
330
331SPL tests cannot be run from the 'ut' command since there are no commands
332available in SPL. Instead, sandbox (only) calls ut_run_list() on start-up, when
333the -u flag is given. This runs the available unit tests, no matter what suite
334they are in.
335
336To create a new SPL test, follow the same rules as above, either adding to an
337existing suite or creating a new one.
338
339An example SPL test is spl_test_load().
340
341
342Writing Python tests
343--------------------
344
345See :doc:`py_testing` for brief notes how to write Python tests. You
346should be able to use the existing tests in test/py/tests as examples.