blob: 65505fb3c7592a433ab73ab5d6e9c1507b5f7f00 [file] [log] [blame]
Gilbert Cheneac61a42022-02-23 20:56:19 +00001#include "common/instance_id.hpp"
2#include "common/types.hpp"
3#include "mock_sensor_manager.hpp"
4#include "platform-mc/terminus_manager.hpp"
5#include "test/test_instance_id.hpp"
6
7#include <sdeventplus/event.hpp>
8
9#include <gtest/gtest.h>
10
Thu Nguyen57632092024-08-21 15:52:40 +000011using namespace ::testing;
Gilbert Cheneac61a42022-02-23 20:56:19 +000012
13class SensorManagerTest : public testing::Test
14{
15 protected:
16 SensorManagerTest() :
17 bus(pldm::utils::DBusHandler::getBus()),
18 event(sdeventplus::Event::get_default()), instanceIdDb(),
19 reqHandler(pldmTransport, event, instanceIdDb, false),
Thu Nguyen51d66b52024-08-06 09:15:55 +000020 terminusManager(event, reqHandler, instanceIdDb, termini, nullptr,
21 pldm::BmcMctpEid),
Gilbert Cheneac61a42022-02-23 20:56:19 +000022 sensorManager(event, terminusManager, termini)
23 {}
24
25 void runEventLoopForSeconds(uint64_t sec)
26 {
27 uint64_t t0 = 0;
28 uint64_t t1 = 0;
29 uint64_t usec = sec * 1000000;
30 uint64_t elapsed = 0;
31 sd_event_now(event.get(), CLOCK_MONOTONIC, &t0);
32 do
33 {
34 if (!sd_event_run(event.get(), usec - elapsed))
35 {
36 break;
37 }
38 sd_event_now(event.get(), CLOCK_MONOTONIC, &t1);
39 elapsed = t1 - t0;
40 } while (elapsed < usec);
41 }
42
43 PldmTransport* pldmTransport = nullptr;
Patrick Williamse2b83742024-08-20 02:34:33 -040044 sdbusplus::bus_t& bus;
Gilbert Cheneac61a42022-02-23 20:56:19 +000045 sdeventplus::Event event;
46 TestInstanceIdDb instanceIdDb;
47 pldm::requester::Handler<pldm::requester::Request> reqHandler;
48 pldm::platform_mc::TerminusManager terminusManager;
49 pldm::platform_mc::MockSensorManager sensorManager;
50 std::map<pldm_tid_t, std::shared_ptr<pldm::platform_mc::Terminus>> termini;
51
52 std::vector<uint8_t> pdr1{
53 0x1,
54 0x0,
55 0x0,
56 0x0, // record handle
57 0x1, // PDRHeaderVersion
58 PLDM_NUMERIC_SENSOR_PDR, // PDRType
59 0x0,
60 0x0, // recordChangeNumber
61 PLDM_PDR_NUMERIC_SENSOR_PDR_FIXED_LENGTH +
62 PLDM_PDR_NUMERIC_SENSOR_PDR_VARIED_SENSOR_DATA_SIZE_MIN_LENGTH +
63 PLDM_PDR_NUMERIC_SENSOR_PDR_VARIED_RANGE_FIELD_MIN_LENGTH,
64 0, // dataLength
65 0,
66 0, // PLDMTerminusHandle
67 0x1,
68 0x0, // sensorID=1
69 PLDM_ENTITY_POWER_SUPPLY,
70 0, // entityType=Power Supply(120)
71 1,
72 0, // entityInstanceNumber
73 0x1,
74 0x0, // containerID=1
75 PLDM_NO_INIT, // sensorInit
76 false, // sensorAuxiliaryNamesPDR
77 PLDM_SENSOR_UNIT_DEGRESS_C, // baseUint(2)=degrees C
78 1, // unitModifier = 1
79 0, // rateUnit
80 0, // baseOEMUnitHandle
81 0, // auxUnit
82 0, // auxUnitModifier
83 0, // auxRateUnit
84 0, // rel
85 0, // auxOEMUnitHandle
86 true, // isLinear
87 PLDM_RANGE_FIELD_FORMAT_SINT8, // sensorDataSize
88 0,
89 0,
90 0xc0,
91 0x3f, // resolution=1.5
92 0,
93 0,
94 0x80,
95 0x3f, // offset=1.0
96 0,
97 0, // accuracy
98 0, // plusTolerance
99 0, // minusTolerance
100 2, // hysteresis
101 0, // supportedThresholds
102 0, // thresholdAndHysteresisVolatility
103 0,
104 0,
105 0x80,
106 0x3f, // stateTransistionInterval=1.0
107 0,
108 0,
109 0x80,
110 0x3f, // updateInverval=1.0
111 255, // maxReadable
112 0, // minReadable
113 PLDM_RANGE_FIELD_FORMAT_UINT8, // rangeFieldFormat
114 0, // rangeFieldsupport
115 0, // nominalValue
116 0, // normalMax
117 0, // normalMin
118 0, // warningHigh
119 0, // warningLow
120 0, // criticalHigh
121 0, // criticalLow
122 0, // fatalHigh
123 0 // fatalLow
124 };
125
126 std::vector<uint8_t> pdr2{
127 0x1, 0x0, 0x0,
128 0x0, // record handle
129 0x1, // PDRHeaderVersion
130 PLDM_ENTITY_AUXILIARY_NAMES_PDR, // PDRType
131 0x1,
132 0x0, // recordChangeNumber
133 0x11,
134 0, // dataLength
135 /* Entity Auxiliary Names PDR Data*/
136 3,
137 0x80, // entityType system software
138 0x1,
139 0x0, // Entity instance number =1
140 0,
141 0, // Overal system
142 0, // shared Name Count one name only
143 01, // nameStringCount
144 0x65, 0x6e, 0x00,
145 0x00, // Language Tag "en"
146 0x53, 0x00, 0x30, 0x00,
147 0x00 // Entity Name "S0"
148 };
149};
150
151TEST_F(SensorManagerTest, sensorPollingTest)
152{
153 uint64_t seconds = 10;
Gilbert Cheneac61a42022-02-23 20:56:19 +0000154
155 pldm_tid_t tid = 1;
156 termini[tid] = std::make_shared<pldm::platform_mc::Terminus>(tid, 0);
157 termini[tid]->pdrs.push_back(pdr1);
158 termini[tid]->pdrs.push_back(pdr2);
159 termini[tid]->parseTerminusPDRs();
160
Thu Nguyen57632092024-08-21 15:52:40 +0000161 uint64_t t0, t1;
162 ASSERT_TRUE(sd_event_now(event.get(), CLOCK_MONOTONIC, &t0) >= 0);
163 ON_CALL(sensorManager, doSensorPolling(tid))
164 .WillByDefault([this, &t0, &t1](unsigned char) {
165 ASSERT_TRUE(sd_event_now(event.get(), CLOCK_MONOTONIC, &t1) >= 0);
166 EXPECT_GE(t1 - t0, SENSOR_POLLING_TIME * 1000);
167 t0 = t1;
168 });
Gilbert Cheneac61a42022-02-23 20:56:19 +0000169 EXPECT_CALL(sensorManager, doSensorPolling(tid))
Thu Nguyen57632092024-08-21 15:52:40 +0000170 .Times(AtLeast(2))
Gilbert Cheneac61a42022-02-23 20:56:19 +0000171 .WillRepeatedly(Return());
172
173 sensorManager.startPolling(tid);
174
175 runEventLoopForSeconds(seconds);
176
177 sensorManager.stopPolling(tid);
178}