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gerrit.openbmc.org / openbmc / entity-manager / f49aa9cf34b4deae45a5fee984943c447efce972 / . / test / test_gpio_presence_state.cpp
blob: 47e81fc063d02c720b914e1d6bfef49e6b2de6c6 [file] [log] [blame]
Patrick Williamsa005e3e2025-10-10 19:36:12 -0400[diff] [blame]1#include "gpio-presence/device_presence.hpp"
2#include "gpio-presence/gpio_presence_manager.hpp"
3
4#include <gpiod.hpp>
5#include <phosphor-logging/lg2.hpp>
6
7#include <gtest/gtest.h>
8
9using namespace gpio_presence;
10
11class DevicePresenceDetailedTest : public ::testing::Test
12{
13 protected:
14 DevicePresenceDetailedTest() = default;
15 ~DevicePresenceDetailedTest() noexcept override = default;
16
17 sdbusplus::async::context ctx;
18 std::unordered_map<std::string, bool> gpioState;
19};
20
21// Test DevicePresence constructor with single GPIO, active low
22TEST_F(DevicePresenceDetailedTest, ConstructorSingleGpioActiveLow)
23{
24 std::vector<std::string> gpioNames = {"GPIO1"};
25 std::vector<uint64_t> gpioValues = {0}; // Active low
26 std::string deviceName = "device1";
27
28 DevicePresence device(ctx, gpioNames, gpioValues, deviceName, gpioState);
29
30 EXPECT_EQ(device.deviceName, deviceName);
31 EXPECT_EQ(device.gpioPolarity.size(), 1);
32 EXPECT_EQ(device.gpioPolarity["GPIO1"], ACTIVE_LOW);
33}
34
35// Test DevicePresence constructor with single GPIO, active high
36TEST_F(DevicePresenceDetailedTest, ConstructorSingleGpioActiveHigh)
37{
38 std::vector<std::string> gpioNames = {"GPIO2"};
39 std::vector<uint64_t> gpioValues = {1}; // Active high
40 std::string deviceName = "device2";
41
42 DevicePresence device(ctx, gpioNames, gpioValues, deviceName, gpioState);
43
44 EXPECT_EQ(device.deviceName, deviceName);
45 EXPECT_EQ(device.gpioPolarity.size(), 1);
46 EXPECT_EQ(device.gpioPolarity["GPIO2"], ACTIVE_HIGH);
47}
48
49// Test DevicePresence constructor with multiple GPIOs with mixed polarities
50TEST_F(DevicePresenceDetailedTest, ConstructorMultipleGpiosMixedPolarities)
51{
52 std::vector<std::string> gpioNames = {"GPIO1", "GPIO2", "GPIO3"};
53 std::vector<uint64_t> gpioValues = {0, 1, 0}; // Active low, high, low
54 std::string deviceName = "device3";
55
56 DevicePresence device(ctx, gpioNames, gpioValues, deviceName, gpioState);
57
58 EXPECT_EQ(device.deviceName, deviceName);
59 EXPECT_EQ(device.gpioPolarity.size(), 3);
60 EXPECT_EQ(device.gpioPolarity["GPIO1"], ACTIVE_LOW);
61 EXPECT_EQ(device.gpioPolarity["GPIO2"], ACTIVE_HIGH);
62 EXPECT_EQ(device.gpioPolarity["GPIO3"], ACTIVE_LOW);
63}
64
65// Test DevicePresence isPresent method with active low GPIO is low (device
66// present)
67TEST_F(DevicePresenceDetailedTest, IsPresentActiveLowGpioLow)
68{
69 std::unordered_map<std::string, bool> localGpioState;
70 std::vector<std::string> gpioNames = {"GPIO1"};
71 std::vector<uint64_t> gpioValues = {0}; // Active low
72 std::string deviceName = "device1";
73
74 localGpioState["GPIO1"] = false; // GPIO is low
75
76 DevicePresence device(ctx, gpioNames, gpioValues, deviceName,
77 localGpioState);
78 EXPECT_TRUE(device.isPresent());
79}
80
81// Test DevicePresence isPresent method with active low GPIO is high (device
82// absent)
83TEST_F(DevicePresenceDetailedTest, IsPresentActiveLowGpioHigh)
84{
85 std::unordered_map<std::string, bool> localGpioState;
86 std::vector<std::string> gpioNames = {"GPIO1"};
87 std::vector<uint64_t> gpioValues = {0}; // Active low
88 std::string deviceName = "device1";
89
90 localGpioState["GPIO1"] = true; // GPIO is high
91
92 DevicePresence device(ctx, gpioNames, gpioValues, deviceName,
93 localGpioState);
94 EXPECT_FALSE(device.isPresent());
95}
96
97// Test DevicePresence isPresent method with active high GPIO is high (device
98// present)
99TEST_F(DevicePresenceDetailedTest, IsPresentActiveHighGpioHigh)
100{
101 std::unordered_map<std::string, bool> localGpioState;
102 std::vector<std::string> gpioNames = {"GPIO1"};
103 std::vector<uint64_t> gpioValues = {1}; // Active high
104 std::string deviceName = "device1";
105
106 localGpioState["GPIO1"] = true; // GPIO is high
107
108 DevicePresence device(ctx, gpioNames, gpioValues, deviceName,
109 localGpioState);
110 EXPECT_TRUE(device.isPresent());
111}
112
113// Test DevicePresence isPresent method with active high GPIO is low (device
114// absent)
115TEST_F(DevicePresenceDetailedTest, IsPresentActiveHighGpioLow)
116{
117 std::unordered_map<std::string, bool> localGpioState;
118 std::vector<std::string> gpioNames = {"GPIO1"};
119 std::vector<uint64_t> gpioValues = {1}; // Active high
120 std::string deviceName = "device1";
121
122 localGpioState["GPIO1"] = false; // GPIO is low
123
124 DevicePresence device(ctx, gpioNames, gpioValues, deviceName,
125 localGpioState);
126 EXPECT_FALSE(device.isPresent());
127}
128
129// Test DevicePresence isPresent method with multiple GPIOs all correct (device
130// present)
131TEST_F(DevicePresenceDetailedTest, IsPresentMultipleGpiosAllCorrect)
132{
133 std::unordered_map<std::string, bool> localGpioState;
134 std::vector<std::string> gpioNames = {"GPIO1", "GPIO2", "GPIO3"};
135 std::vector<uint64_t> gpioValues = {0, 1, 0}; // Active low, high, low
136 std::string deviceName = "device1";
137
138 localGpioState["GPIO1"] = false; // Active low, should be low
139 localGpioState["GPIO2"] = true; // Active high, should be high
140 localGpioState["GPIO3"] = false; // Active low, should be low
141
142 DevicePresence device(ctx, gpioNames, gpioValues, deviceName,
143 localGpioState);
144 EXPECT_TRUE(device.isPresent());
145}
146
147// Test DevicePresence isPresent method with multiple GPIOs one incorrect
148// (device absent)
149TEST_F(DevicePresenceDetailedTest, IsPresentMultipleGpiosOneIncorrect)
150{
151 std::unordered_map<std::string, bool> localGpioState;
152 std::vector<std::string> gpioNames = {"GPIO1", "GPIO2", "GPIO3"};
153 std::vector<uint64_t> gpioValues = {0, 1, 0}; // Active low, high, low
154 std::string deviceName = "device1";
155
156 localGpioState["GPIO1"] = false; // Active low, should be low - correct
157 localGpioState["GPIO2"] = false; // Active high, should be high - incorrect
158 localGpioState["GPIO3"] = false; // Active low, should be low - correct
159
160 DevicePresence device(ctx, gpioNames, gpioValues, deviceName,
161 localGpioState);
162 EXPECT_FALSE(device.isPresent());
163}
164
165// Test DevicePresence isPresent method with missing GPIO state (device absent)
166TEST_F(DevicePresenceDetailedTest, IsPresentMissingGpioState)
167{
168 std::unordered_map<std::string, bool> localGpioState;
169 std::vector<std::string> gpioNames = {"GPIO1"};
170 std::vector<uint64_t> gpioValues = {0}; // Active low
171 std::string deviceName = "device1";
172
173 // localGpioState["GPIO1"] is not set - simulating missing GPIO
174
175 DevicePresence device(ctx, gpioNames, gpioValues, deviceName,
176 localGpioState);
177 EXPECT_FALSE(device.isPresent());
178}
179
180// Test DevicePresence getObjPath method
181TEST_F(DevicePresenceDetailedTest, GetObjPathTest)
182{
183 std::vector<std::string> gpioNames = {"GPIO1"};
184 std::vector<uint64_t> gpioValues = {0};
185 std::string deviceName = "test_device";
186
187 DevicePresence device(ctx, gpioNames, gpioValues, deviceName, gpioState);
188
189 sdbusplus::message::object_path objPath = device.getObjPath();
190 std::string expectedPath =
191 "/xyz/openbmc_project/GPIODeviceDetected/" + deviceName;
192
193 EXPECT_EQ(objPath.str, expectedPath);
194}