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Steven Sombar6b280142018-02-12 10:45:13 -06001*** Settings ***
Steven Sombar43d6ba32018-02-16 11:25:09 -06002Documentation Utilities for fan tests.
Steven Sombar6b280142018-02-12 10:45:13 -06003
Steven Sombar43d6ba32018-02-16 11:25:09 -06004Library ../lib/bmc_ssh_utils.py
Steven Sombar741e99d2019-05-07 07:20:51 -05005Resource ../lib/state_manager.robot
Steven Sombar43d6ba32018-02-16 11:25:09 -06006Resource ../lib/openbmc_ffdc_utils.robot
7Variables ../data/variables.py
Steven Sombar6b280142018-02-12 10:45:13 -06008
Steven Sombar47ac2f42019-04-17 21:13:43 -05009*** Variables ***
10
11# Fan state values.
12${fan_functional} ${1}
13${fan_nonfunctional} ${0}
14
15# Criteria for a fan at maximum speed.
16${max_speed}= ${10400}
17
18
Steven Sombar6b280142018-02-12 10:45:13 -060019*** Keywords ***
20
Steven Sombar6b280142018-02-12 10:45:13 -060021Is Water Cooled
22 [Documentation] Return 1 if system is water cooled, 0 othersise.
23
24 ${water_cooled}= Read Attribute
Steven Sombaraaaab222018-12-19 13:16:23 -060025 ... ${HOST_INVENTORY_URI}system/chassis WaterCooled
Steven Sombar6b280142018-02-12 10:45:13 -060026 [Return] ${water_cooled}
27
28
Steven Sombar43d6ba32018-02-16 11:25:09 -060029Get Fan Names
Steven Sombar1e656462018-07-13 14:04:27 -050030 [Documentation] Get the names of the fans marked present in inventory.
Steven Sombar43d6ba32018-02-16 11:25:09 -060031 [Arguments] ${fan_names}
32 # This keyword populates the fan_names list with the names of
33 # fans present in inventory e.g. fan0, fan2, fan3.
Steven Sombar6b280142018-02-12 10:45:13 -060034
Steven Sombar43d6ba32018-02-16 11:25:09 -060035 # Description of Argument(s):
36 # fan_names The list of fan names to which new fan names are to be
37 # added to. This list is returned to the caller.
38
Steven Sombaraaaab222018-12-19 13:16:23 -060039 ${fan_uris}= Get Endpoint Paths ${HOST_INVENTORY_URI}system fan
Steven Sombar6b280142018-02-12 10:45:13 -060040 : FOR ${fan_uri} IN @{fan_uris}
Steven Sombar43d6ba32018-02-16 11:25:09 -060041 \ ${fan_properties}= Read Properties ${fan_uri}
Steven Sombar1e656462018-07-13 14:04:27 -050042 \ ${fan_present}= Get Variable Value ${fan_properties['Present']} 0
Steven Sombar47ac2f42019-04-17 21:13:43 -050043 \ ${fan_functional}= Get Variable Value
44 ... ${fan_properties['Functional']} 0
Steven Sombar84689182018-09-07 13:46:06 -050045 \ Continue For Loop If ${fan_present} == 0 or ${fan_functional} == 0
Steven Sombar43d6ba32018-02-16 11:25:09 -060046 \ ${remaining_uri} ${fan_name}= Split Path ${fan_uri}
47 \ Append To List ${fan_names} ${fan_name}
48
49 [Return] ${fan_names}
50
51
52Verify System Error Indication Due To Fans
53 [Documentation] Verify enclosure LEDs are on and there's an error log.
54
55 # Both enclosure LEDs should now be On.
56 Verify Front And Rear LED State On
57
58 # An error log should now exist.
59 Error Logs Should Exist
60
61
62Verify Front And Rear LED State
63 [Documentation] Check state of the front and rear enclsure fault LEDs.
64 [Arguments] ${state}
65 # Both LEDs should be in the specified state. If not fail the test case.
66
67 # Description of Argument(s):
68 # state The state to check for, either 'Off' or 'On'.
69
70 ${front_fault}= Get System LED State front_fault
71 ${rear_fault}= Get System LED State rear_fault
Steven Sombar1508aff2018-04-06 12:53:42 -050072
Steven Sombar43d6ba32018-02-16 11:25:09 -060073 Run Keyword If
74 ... '${front_fault}' != '${state}' or '${rear_fault}' != '${state}'
75 ... Fail msg=Expecting both enclosure LEDs to be ${state}.
76
77
78Set Fan State
79 [Documentation] Set the fan state, either functional or non-functional.
80 [Arguments] ${fan_name} ${fan_state}
81
82 # Description of Argument(s):
83 # fan_name The name of the fan, e.g. "fan2".
84 # fan_state The state to set, 1 for functional, 2 for non-functional.
85
86 ${valueDict}= Create Dictionary data=${fan_state}
87 Write Attribute
88 ... ${HOST_INVENTORY_URI}system/chassis/motherboard/${fan_name}
89 ... Functional data=${valueDict}
90
91
Steven Sombar1508aff2018-04-06 12:53:42 -050092Set Fan Target Speed
93 [Documentation] Set the target speed of a fan.
94 [Arguments] ${fan_name} ${fan_speed}
95
96 # Description of argument(s):
97 # fan_name The name of the fan (e.g. "fan0").
98 # fan_speed The target speed to set (e.g. "9000").
99
100 ${valueDict}= Create Dictionary data=${fan_speed}
101 Write Attribute ${SENSORS_URI}fan_tach/${fan_name}_0
102 ... Target data=${valueDict}
103
104
Steven Sombar43d6ba32018-02-16 11:25:09 -0600105Get Target Speed Of Fans
Steven Sombar1508aff2018-04-06 12:53:42 -0500106 [Documentation] Return the maximum target speed of the system fans.
Steven Sombar43d6ba32018-02-16 11:25:09 -0600107
108 ${max_target}= Set Variable 0
109 ${paths}= Get Endpoint Paths ${SENSORS_URI}fan_tach/ 0
110 :FOR ${path} IN @{paths}
111 \ ${response}= OpenBMC Get Request ${path}
112 \ ${json}= To JSON ${response.content}
113 \ ${target_speed}= Set Variable ${json["data"]["Target"]}
114 \ ${max_target}= Run Keyword If ${target_speed} > ${max_target}
115 ... Set Variable ${target_speed} ELSE Set Variable ${max_target}
116 [Return] ${max_target}
Steven Sombar6b280142018-02-12 10:45:13 -0600117
118
Steven Sombar1508aff2018-04-06 12:53:42 -0500119Get Target And Blade Speeds
120 [Documentation] Return the fan target speed setting, the speed of the
121 ... fan's clockwise blade, and the speed of the counter-clockwise blade.
122 # Each fan unit has two counter-rotating fan blades
123 # One blade is expected to be moving but the other blade may not be
124 # moving whenever the fan unit is transitioning to a new target speed.
125 [Arguments] ${fan_name}
126
127 # Description of argument(s):
128 # fan_name The name of a fan (e.g. "fan0")
129
130 # Get the fan target speed and the clockwise blade speed.
131 ${path}= Catenate ${SENSORS_URI}fan_tach/${fan_name}_0
132 ${response}= OpenBMC Get Request ${path}
133 ${json}= To JSON ${response.content}
134 ${fan_clockwise_speed}= Set Variable ${json["data"]["Value"]}
135 ${target_speed}= Set Variable ${json["data"]["Target"]}
136
137 # Get the counter-clockwise blade speed.
138 ${path}= Catenate ${SENSORS_URI}fan_tach/${fan_name}_1
139 ${response}= OpenBMC Get Request ${path}
140 ${json}= To JSON ${response.content}
141 ${fan_counterclockwise_speed}= Set Variable ${json["data"]["Value"]}
142
143 [Return] ${target_speed} ${fan_clockwise_speed}
144 ... ${fan_counterclockwise_speed}
145
146
147Get Fan Target And Speed
148 [Documentation] Return the fan target speed setting and the
149 ... speed of the fastest blade.
150 [Arguments] ${fan_name}
151
152 # Description of argument(s):
153 # fan_name The name of a fan (e.g. "fan0")
154
155 ${target_speed} ${clockwise_speed} ${counterclockwise_speed}=
156 ... Get Target And Blade Speeds ${fan_name}
157 ${blade_speed}= Run Keyword If
158 ... ${clockwise_speed} > ${counterclockwise_speed}
159 ... Set Variable ${clockwise_speed} ELSE
160 ... Set Variable ${counterclockwise_speed}
161 [Return] ${target_speed} ${blade_speed}
162
163
164Set Fan Daemon State
165 [Documentation] Set the state of the fan control service.
166 [Arguments] ${state}
167
168 # Description of argument(s):
169 # state The desired state of the service, usually
170 # "start", "stop", or "restart".
171
172 ${cmd}= Catenate systemctl ${state} phosphor-fan-control@0.service
173 ${stdout} ${stderr} ${rc}= BMC Execute Command ${cmd}
174
175
Steven Sombar6b280142018-02-12 10:45:13 -0600176Verify Minimum Number Of Fans With Cooling Type
177 [Documentation] Verify minimum number of fans.
Steven Sombar43d6ba32018-02-16 11:25:09 -0600178 [Arguments] ${num_fans} ${water_cooled}
Steven Sombar6b280142018-02-12 10:45:13 -0600179
180 # Description of argument(s):
Steven Sombar43d6ba32018-02-16 11:25:09 -0600181 # num_fans The number of fans present in the system.
Steven Sombar6b280142018-02-12 10:45:13 -0600182 # water_cooled The value 1 if the system is water cooled,
Steven Sombar43d6ba32018-02-16 11:25:09 -0600183 # 0 if air cooled.
Steven Sombar6b280142018-02-12 10:45:13 -0600184
185 # For a water cooled system.
186 ${min_fans_water}= Set Variable 2
187
188 # For an air cooled system.
189 ${min_fans_air}= Set Variable 3
190
Michael Walshc108e422019-03-28 12:27:18 -0500191 Printn
Steven Sombar43d6ba32018-02-16 11:25:09 -0600192 Rpvars num_fans water_cooled
Steven Sombar6b280142018-02-12 10:45:13 -0600193
194 # If water cooled must have at least min_fans_water fans, otherwise
195 # issue Fatal Error and terminate testing.
196 Run Keyword If ${water_cooled} == 1 and ${num_fans} < ${min_fans_water}
197 ... Fatal Error
198 ... msg=Water cooled but less than ${min_fans_water} fans present.
199
200 # If air cooled must have at least min_fans_air fans.
201 Run Keyword If ${water_cooled} == 0 and ${num_fans} < ${min_fans_air}
202 ... Fatal Error
203 ... msg=Air cooled but less than ${min_fans_air} fans present.
204
205
206Verify Fan Monitors With State
207 [Documentation] Verify fan monitor daemons in the system state.
Steven Sombar43d6ba32018-02-16 11:25:09 -0600208 [Arguments] ${power_state}
Steven Sombar6b280142018-02-12 10:45:13 -0600209 # The number of monitoring daemons is dependent upon the system
210 # power state. If power is off there should be 0, if power
211 # is on there should be several.
Steven Sombar6b280142018-02-12 10:45:13 -0600212
213 # Description of argument(s):
214 # power_state Power staet of the system, either "On" or "Off"
215
216 ${cmd}= Catenate systemctl list-units | grep phosphor-fan | wc -l
217 ${num_fan_daemons} ${stderr} ${rc}= BMC Execute Command ${cmd}
218
219 Rpvars power_state num_fan_daemons
220
221 # Fail if system is On and there are no fan monitors.
222 Run Keyword If '${power_state}' == 'On' and ${num_fan_daemons} == 0
223 ... Fail msg=No phosphor-fan monitors found at power on.
224
225 # Fail if system is Off and the fan monitors are present.
226 Run Keyword If '${power_state}' == 'Off' and ${num_fan_daemons} != 0
227 ... Fail msg=Phosphor-fan monitors found at power off.
Steven Sombar47ac2f42019-04-17 21:13:43 -0500228
229
230Get Fan Count And Names
231 [Documentation] Return the number of fans and the fan names.
232
233 # The @{fan_names} list holds the names of the fans in the system.
234 @{fan_names} Create List
235 ${fan_names}= Get Fan Names ${fan_names}
236
237 ${number_of_fans}= Get Length ${fan_names}
238
Steven Sombar47ac2f42019-04-17 21:13:43 -0500239 [Return] ${number_of_fans} ${fan_names}
240
241
Steven Sombar741e99d2019-05-07 07:20:51 -0500242
Steven Sombar47ac2f42019-04-17 21:13:43 -0500243Reset Fans
244 [Documentation] Set the fans to functional state.
245 # Set state of fans to functional by writing 1 to the Functional
246 # attribute of each fan in the @{fan_names} list. If @{fan_names}
247 # is empty nothing is done.
248 [Arguments] ${fan_names}
249
250 # Description of Argument(s):
251 # fan_names A list containing the names of the fans (e.g. fan0
252 # fan2 fan3).
253
254 :FOR ${fan_name} IN @{fan_names}
255 \ Set Fan State ${fan_name} ${fan_functional}
256
257
258Verify Fan Speed
259 [Documentation] Verify fans are running at or near target speed.
260 [Arguments] ${tolerance} ${fan_names}
261
262 # Description of argument(s):
263 # tolerance The speed tolerance criteria.
264 # A tolerance value of .15 means that the fan's speed
265 # should be within 15% of its set target speed.
266 # Fans may be accelerating to meet a new target, so
267 # allow .10 extra.
268 # fan_names A list containing the names of the fans (e.g. fan0 fan1).
269
270 # Compare the fan's speed with its target speed.
271 :FOR ${fan_name} IN @{fan_names}
272 \ ${target_speed} ${fan_speed}= Get Fan Target And Speed ${fan_name}
273 \ Rpvars fan_name target_speed fan_speed
274 \ # Calculate tolerance, which is a % of the target speed.
275 \ ${tolerance_value}= Evaluate ${tolerance}*${target_speed}
276 \ # Calculate upper and lower speed limits.
277 \ ${max_limit}= Evaluate ${target_speed}+${tolerance_value}
278 \ ${min_limit}= Evaluate ${target_speed}-${tolerance_value}
279 \ Run Keyword If
280 ... ${fan_speed} < ${min_limit} or ${fan_speed} > ${max_limit}
281 ... Fail msg=${fan_name} speed of ${fan_speed} is out of range.
282
283
284Verify Direct Fan Control
285 [Documentation] Verify direct control of fans.
Steven Sombar741e99d2019-05-07 07:20:51 -0500286 [Arguments] ${max_speed} ${min_speed}
Steven Sombar47ac2f42019-04-17 21:13:43 -0500287 ... ${minutes_to_stabilize} ${number_of_fans} ${fan_names}
288
289 # Overview:
290 # Turn off BMC's fan control daemon, then test to confirm
291 # that fans can be controlled manually.
292 # The app that takes data from sysfs and updates dbus is named hwmon.
293 # Verify hwmon functionality by comparing with what's on dbus
294 # (/xyz/openbmc_project/sensors/fan_tach/fan0_0, fan0_1, etc.)
295 # with what's in the BMC's file system at
296 # /sys/class/hwmon/hwmon9/fan*_input.
297
298 # Description of argument(s):
Steven Sombar741e99d2019-05-07 07:20:51 -0500299 # max_speed Integer value of maximum fan speed.
Steven Sombar47ac2f42019-04-17 21:13:43 -0500300 # min_speed Integer value of minimum speed.
301 # minutes_to_stabilize Time to wait for fan daemons to
302 # stabilize fan operation after
303 # tests (e.g. "4").
304 # number_of_fans The number of fans in the system.
305 # fan_names A list containing the names of the
306 # fans (e.g. fan0 fan1).
307
308 # Login to BMC and disable the fan daemon. Disabling the daemon sets
309 # manual mode.
310 Open Connection And Log In
311 Set Fan Daemon State stop
312
313 # For each fan, set a new target speed and wait for the fan to
314 # accelerate. Then check that the fan is running near that speed.
315 :FOR ${fan_name} IN @{fan_names}
Steven Sombar741e99d2019-05-07 07:20:51 -0500316 \ Set Fan Target Speed ${fan_name} ${max_speed}
Steven Sombar47ac2f42019-04-17 21:13:43 -0500317 \ Run Key U Sleep \ 60s
318 \ ${target_speed} ${cw_speed} ${ccw_speed}=
319 ... Get Target And Blade Speeds ${fan_name}
320 \ Rpvars fan_name target_speed cw_speed ccw_speed
321 \ Run Keyword If
322 ... ${cw_speed} < ${min_speed} or ${ccw_speed} < ${min_speed}
323 ... Fail msg=${fan_name} failed manual speed test.
324
325 # Check the fan speeds in the BMC file system.
326
327 # Get the location of the fan hwmon.
328 ${controller_path} ${stderr} ${rc}= BMC Execute Command
329 ... grep -ir max31785a /sys/class/hwmon/hwmon* | grep name
330 # E.g., controller_path=/sys/class/hwmon/hwmon10/name:max31785a.
331
332 ${hwmon_path} ${file_name}= Split Path ${controller_path}
333 # E.g., /sys/class/hwmon/hwmon10 or /sys/class/hwmon/hwmon9.
334
335 Rpvars controller_path hwmon_path
336
337 # Run the BMC command which gets fan speeds from the file system.
338 ${cmd}= Catenate cat ${hwmon_path}/fan*_input
339 ${stdout} ${stderr} ${rc}=
340 ... BMC Execute Command ${cmd}
341
342 # Convert output to integer values.
343 ${speeds}= Evaluate map(int, $stdout.split(${\n}))
344 Rpvars speeds
345 # Count the number of speeds > ${min_speed}.
346 ${count}= Set Variable ${0}
347 :FOR ${speed} IN @{speeds}
348 \ ${count}= Run Keyword If ${speed} > ${min_speed}
349 ... Evaluate ${count}+1 ELSE Set Variable ${count}
350 # Because each fan has two rotating fan blades, the count should be
351 # equual to 2*${number_of_fans}. On water-cooled systems some
352 # speeds may be reported by hwmon as 0. That is expected,
353 # and the number_of_fans reported in the system will be less.
354 ${fail_test}= Evaluate (2*${number_of_fans})-${count}
355
356 # Re-enable the fan daemon
357 Set Fan Daemon State restart
358
359 Run Keyword If ${fail_test} > ${0} Fail
360 ... msg=hwmon did not properly report fan speeds.
361
362 # Wait for the daemon to take control and gracefully set fan speeds
363 # back to normal.
364 ${msg}= Catenate Waiting ${minutes_to_stabilize} minutes
365 ... for fan daemon to stabilize fans.
366 Print Timen ${msg}
367 Run Key U Sleep \ ${minutes_to_stabilize}m
368
369
370Verify Fan Speed Increase
371 [Documentation] Verify that the speed of working fans increase when
372 ... one fan is marked as disabled.
373 # A non-functional fan should cause an error log and
374 # an enclosure LED will light. The other fans should speed up.
375 [Arguments] ${fan_names}
376
377 # Description of argument(s):
378 # fan_names A list containing the names of the fans (e.g. fan0 fan1).
379
380 # Allow system_response_time before checking if there was a
381 # response by the system to an applied fault.
382 ${system_response_time}= Set Variable 60s
383
384 # Choose a fan to test with, e.g., fan0.
385 ${test_fan_name}= Get From List ${fan_names} 0
386
387 ${initial_speed}= Get Target Speed Of Fans
388 Rpvars test_fan_name initial_speed
389
390 # If initial speed is not already at maximum, set expect_increase.
391 # This flag is used later to determine if speed checking is
392 # to be done or not.
393 ${expect_increase}= Run Keyword If
394 ... ${initial_speed} < ${max_speed}
395 ... Set Variable 1 ELSE Set Variable 0
396
397 Set Fan State ${test_fan_name} ${fan_nonfunctional}
398
Steven Sombar47ac2f42019-04-17 21:13:43 -0500399 Run Key U Sleep \ ${system_response_time}
400
401 # A heavily loaded system may have powered-off.
402 ${host_state}= Get Host State
403 Rpvars host_state
404 Run Keyword If 'Running' != '${host_state}' Pass Execution
405 ... msg=System shutdown so skipping remainder of test.
406
407 ${new_fan_speed}= Get Target Speed Of Fans
408 Rpvars expect_increase initial_speed new_fan_speed
409
410 # Fail if current fan speed did not increase past the initial
411 # speed, but do this check only if not at maximum speed to begin with.
412 Run Keyword If
413 ... ${expect_increase} == 1 and ${new_fan_speed} < ${initial_speed}
414 ... Fail msg=Remaining fans did not increase speed with loss of one fan.
415
416
417
418Verify System Shutdown Due To Fans
419 [Documentation] Shut down when not enough fans.
420 [Arguments] ${fan_names}
421
422 # Description of argument(s):
423 # fan_names A list containing the names of the fans (e.g. fan0 fan1).
424
425 ${wait_after_poweroff}= Set Variable 15s
426
Steven Sombar47ac2f42019-04-17 21:13:43 -0500427 # Set fans to be non-functional.
428 :FOR ${fan_name} IN @{fan_names}
429 \ Set Fan State ${fan_name} ${fan_nonfunctional}
430
431 # System should notice the non-functional fans and power-off.
432 # The Wait For PowerOff keyword will time-out and report
433 # an error if power off does not happen within a reasonable time.
434 Wait For PowerOff