test: check and collect performance via CI

pull/1249/merge
He Yin Ling 2017-11-08 12:27:57 +08:00
rodzic c6f7a38536
commit 9395a702ef
7 zmienionych plików z 165 dodań i 50 usunięć

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@ -0,0 +1,5 @@
#
# Component Makefile
#
# (Uses default behaviour of compiling all source files in directory, adding 'include' to include path.)

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@ -0,0 +1,15 @@
/* @brief macro to print IDF performance
* @param mode : performance item name. a string pointer.
* @param value_fmt: print format and unit of the value, for example: "%02fms", "%dKB"
* @param value : the performance value.
*/
#define IDF_LOG_PERFORMANCE(item, value_fmt, value) \
printf("[Performance][%s]: "value_fmt"\n", item, value)
/* declare the performance here */
#define IDF_PERFORMANCE_MAX_HTTPS_REQUEST_BIN_SIZE 610
#define IDF_PERFORMANCE_MAX_FREERTOS_SPINLOCK_CYCLES_PER_OP 200
#define IDF_PERFORMANCE_MAX_FREERTOS_SPINLOCK_CYCLES_PER_OP_UNICORE 130
#define IDF_PERFORMANCE_MAX_ESP_TIMER_GET_TIME_PER_CALL 1000

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@ -47,6 +47,8 @@ import functools
import serial
from serial.tools import list_ports
import Utility
if sys.version_info[0] == 2:
import Queue as _queue
else:
@ -72,6 +74,17 @@ def _expect_lock(func):
return handler
def _decode_data(data):
""" for python3, if the data is bytes, then decode it to string """
if isinstance(data, bytes):
# convert bytes to string
try:
data = data.decode("utf-8", "ignore")
except UnicodeDecodeError:
data = data.decode("iso8859-1", )
return data
class _DataCache(_queue.Queue):
"""
Data cache based on Queue. Allow users to process data cache based on bytes instead of Queue."
@ -94,13 +107,7 @@ class _DataCache(_queue.Queue):
try:
data = self.get(timeout=timeout)
if isinstance(data, bytes):
# convert bytes to string
try:
data = data.decode("utf-8", "ignore")
except UnicodeDecodeError:
data = data.decode("iso8859-1",)
self.data_cache += data
self.data_cache += _decode_data(data)
except _queue.Empty:
# don't do anything when on update for cache
pass
@ -122,18 +129,48 @@ class _DataCache(_queue.Queue):
class _RecvThread(threading.Thread):
PERFORMANCE_PATTERN = re.compile(r"\[Performance]\[(\w+)]: ([^\r\n]+)\r?\n")
def __init__(self, read, data_cache):
super(_RecvThread, self).__init__()
self.exit_event = threading.Event()
self.setDaemon(True)
self.read = read
self.data_cache = data_cache
# cache the last line of recv data for collecting performance
self._line_cache = str()
def collect_performance(self, data):
""" collect performance """
if data:
decoded_data = _decode_data(data)
matches = self.PERFORMANCE_PATTERN.findall(self._line_cache + decoded_data)
for match in matches:
Utility.console_log("[Performance][{}]: {}".format(match[0], match[1]),
color="orange")
# cache incomplete line to later process
lines = decoded_data.splitlines(True)
last_line = lines[-1]
if last_line[-1] != "\n":
if len(lines) == 1:
# only one line and the line is not finished, then append this to cache
self._line_cache += lines[-1]
else:
# more than one line and not finished, replace line cache
self._line_cache = lines[-1]
else:
# line finishes, flush cache
self._line_cache = str()
def run(self):
while not self.exit_event.isSet():
data = self.read(1000)
if data:
self.data_cache.put(data)
self.collect_performance(data)
def exit(self):
self.exit_event.set()
@ -522,11 +559,7 @@ class SerialDUT(BaseDUT):
timestamp = time.time()
timestamp = "{}:{}".format(time.strftime("%m-%d %H:%M:%S", time.localtime(timestamp)),
str(timestamp % 1)[2:5])
try:
formatted_data = "[{}]:\r\n{}\r\n".format(timestamp, data.decode("utf-8", "ignore"))
except UnicodeDecodeError:
# if utf-8 fail, use iso-8859-1 (single char codec with range 0-255)
formatted_data = "[{}]:\r\n{}\r\n".format(timestamp, data.decode("iso8859-1",))
formatted_data = "[{}]:\r\n{}\r\n".format(timestamp, _decode_data(data))
return formatted_data
def _port_open(self):

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@ -11,9 +11,12 @@
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import os
import re
import TinyFW
from IDF.IDFApp import Example, UT
import Utility
from IDF.IDFApp import IDFApp, Example, UT
from IDF.IDFDUT import IDFDUT
@ -34,3 +37,43 @@ def idf_example_test(app=Example, dut=IDFDUT, chip="ESP32",
# not use partial function as define as function support auto generating document
return TinyFW.test_method(app=app, dut=dut, chip=chip, module=module,
execution_time=execution_time, **kwargs)
def log_performance(item, value):
"""
do print performance with pre-defined format to console
:param item: performance item name
:param value: performance value
"""
Utility.console_log("[Performance][{}]: {}".format(item, value), "orange")
def check_performance(item, value):
"""
check if idf performance meet pass standard
:param item: performance item name
:param value: performance item value
:raise: AssertionError: if check fails
"""
ret = True
standard_value = 0
idf_path = IDFApp.get_sdk_path()
performance_file = os.path.join(idf_path, "components", "idf_test", "include", "idf_performance.h")
if os.path.exists(performance_file):
with open(performance_file, "r") as f:
data = f.read()
match = re.search(r"#define\s+IDF_PERFORMANCE_(MIN|MAX)_{}\s+([\d.]+)".format(item.upper()), data)
if match:
op = match.group(1)
standard_value = float(match.group(2))
if op == "MAX":
ret = value <= standard_value
else:
ret = value >= standard_value
if not ret:
raise AssertionError("[Performance] {} value is {}, doesn't meet pass standard {}"
.format(item, value, standard_value))

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@ -25,6 +25,7 @@ import xunitgen
import Env
import DUT
import App
import Utility
XUNIT_FILE_NAME = "XUNIT_RESULT.xml"
@ -32,40 +33,6 @@ XUNIT_RECEIVER = xunitgen.EventReceiver()
XUNIT_DEFAULT_TEST_SUITE = "test-suite"
_COLOR_CODES = {
"white": '\033[0m',
"red": '\033[31m',
"green": '\033[32m',
"orange": '\033[33m',
"blue": '\033[34m',
"purple": '\033[35m',
"W": '\033[0m',
"R": '\033[31m',
"G": '\033[32m',
"O": '\033[33m',
"B": '\033[34m',
"P": '\033[35m'
}
def console_log(data, color="white"):
"""
log data to console.
(if not flush console log, Gitlab-CI won't update logs during job execution)
:param data: data content
:param color: color
"""
if color not in _COLOR_CODES:
color = "white"
color_codes = _COLOR_CODES[color]
print(color_codes + data)
if color not in ["white", "W"]:
# reset color to white for later logs
print(_COLOR_CODES["white"] + "\r")
sys.stdout.flush()
class DefaultEnvConfig(object):
"""
default test configs. There're 3 places to set configs, priority is (high -> low):
@ -187,7 +154,7 @@ def test_method(**kwargs):
XUNIT_FILE_NAME)
XUNIT_RECEIVER.begin_case(test_func.__name__, time.time(), test_func_file_name)
try:
console_log("starting running test: " + test_func.__name__, color="green")
Utility.console_log("starting running test: " + test_func.__name__, color="green")
# execute test function
test_func(env_inst, extra_data)
# if finish without exception, test result is True
@ -208,9 +175,9 @@ def test_method(**kwargs):
XUNIT_DEFAULT_TEST_SUITE))
if result:
console_log("Test Succeed: " + test_func.__name__, color="green")
Utility.console_log("Test Succeed: " + test_func.__name__, color="green")
else:
console_log(("Test Fail: " + test_func.__name__), color="red")
Utility.console_log(("Test Fail: " + test_func.__name__), color="red")
TestResult.set_result(result, test_func.__name__)
return result

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@ -0,0 +1,35 @@
import sys
_COLOR_CODES = {
"white": '\033[0m',
"red": '\033[31m',
"green": '\033[32m',
"orange": '\033[33m',
"blue": '\033[34m',
"purple": '\033[35m',
"W": '\033[0m',
"R": '\033[31m',
"G": '\033[32m',
"O": '\033[33m',
"B": '\033[34m',
"P": '\033[35m'
}
def console_log(data, color="white"):
"""
log data to console.
(if not flush console log, Gitlab-CI won't update logs during job execution)
:param data: data content
:param color: color
"""
if color not in _COLOR_CODES:
color = "white"
color_codes = _COLOR_CODES[color]
print(color_codes + data)
if color not in ["white", "W"]:
# reset color to white for later logs
print(_COLOR_CODES["white"] + "\r")
sys.stdout.flush()

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@ -16,6 +16,9 @@ extern "C"
#define UNITY_INCLUDE_CONFIG_H
#include "unity_internals.h"
/* include performance pass standards header file */
#include "idf_performance.h"
void setUp(void);
void tearDown(void);
@ -285,6 +288,20 @@ void tearDown(void);
#define TEST_ASSERT_DOUBLE_IS_NOT_NAN_MESSAGE(actual, message) UNITY_TEST_ASSERT_DOUBLE_IS_NOT_NAN((actual), __LINE__, (message))
#define TEST_ASSERT_DOUBLE_IS_NOT_DETERMINATE_MESSAGE(actual, message) UNITY_TEST_ASSERT_DOUBLE_IS_NOT_DETERMINATE((actual), __LINE__, (message))
/* For performance check with unity test on IDF */
/* These macros should only be used with ESP-IDF.
* To use performance check, we need to first define pass standard in idf_performance.h.
*/
#define TEST_PERFORMANCE_LESS_THAN(name, value_fmt, value) do { \
printf("[Performance]["#name"]: "value_fmt"\n", value); \
TEST_ASSERT(value < IDF_PERFORMANCE_MAX_##name); \
} while(0)
#define TEST_PERFORMANCE_GREATER_THAN(name, value_fmt, value) do { \
printf("[Performance]["#name"]: "value_fmt"\n", value); \
TEST_ASSERT(value > IDF_PERFORMANCE_MIN_##name); \
} while(0)
/* end of UNITY_FRAMEWORK_H */
#ifdef __cplusplus
}