1 #include <cmath>
2 #include <sensorutils.hpp>
3 
4 #include "gtest/gtest.h"
5 
6 TEST(sensorutils, TranslateToIPMI)
7 {
8     /*bool getSensorAttributes(double maxValue, double minValue, int16_t
9        &mValue, int8_t &rExp, int16_t &bValue, int8_t &bExp, bool &bSigned); */
10     // normal unsigned sensor
11     double maxValue = 0xFF;
12     double minValue = 0x0;
13     int16_t mValue;
14     int8_t rExp;
15     int16_t bValue;
16     int8_t bExp;
17     bool bSigned;
18     bool result;
19 
20     uint8_t scaledVal;
21 
22     result = ipmi::getSensorAttributes(maxValue, minValue, mValue, rExp, bValue,
23                                        bExp, bSigned);
24     EXPECT_EQ(result, true);
25     if (result)
26     {
27         EXPECT_EQ(bSigned, false);
28         EXPECT_EQ(mValue, 1);
29         EXPECT_EQ(rExp, 0);
30         EXPECT_EQ(bValue, 0);
31         EXPECT_EQ(bExp, 0);
32     }
33     double expected = 0x50;
34     scaledVal = ipmi::scaleIPMIValueFromDouble(0x50, mValue, rExp, bValue, bExp,
35                                                bSigned);
36     EXPECT_NEAR(scaledVal, expected, expected * 0.01);
37 
38     // normal signed sensor
39     maxValue = 127;
40     minValue = -128;
41 
42     result = ipmi::getSensorAttributes(maxValue, minValue, mValue, rExp, bValue,
43                                        bExp, bSigned);
44     EXPECT_EQ(result, true);
45 
46     if (result)
47     {
48         EXPECT_EQ(bSigned, true);
49         EXPECT_EQ(mValue, 1);
50         EXPECT_EQ(rExp, 0);
51         EXPECT_EQ(bValue, 0);
52         EXPECT_EQ(bExp, 0);
53     }
54 
55     // fan example
56     maxValue = 16000;
57     minValue = 0;
58 
59     result = ipmi::getSensorAttributes(maxValue, minValue, mValue, rExp, bValue,
60                                        bExp, bSigned);
61     EXPECT_EQ(result, true);
62     if (result)
63     {
64         EXPECT_EQ(bSigned, false);
65         EXPECT_EQ(mValue, floor(16000.0 / 0xFF + 0.5));
66         EXPECT_EQ(rExp, 0);
67         EXPECT_EQ(bValue, 0);
68         EXPECT_EQ(bExp, 0);
69     }
70 
71     // voltage sensor example
72     maxValue = 20;
73     minValue = 0;
74 
75     result = ipmi::getSensorAttributes(maxValue, minValue, mValue, rExp, bValue,
76                                        bExp, bSigned);
77     EXPECT_EQ(result, true);
78     if (result)
79     {
80         EXPECT_EQ(bSigned, false);
81         EXPECT_EQ(mValue, floor(0.5 + ((20.0 / 0xFF) / std::pow(10, rExp))));
82         EXPECT_EQ(rExp, -3);
83         EXPECT_EQ(bValue, 0);
84         EXPECT_EQ(bExp, 0);
85     }
86     scaledVal = ipmi::scaleIPMIValueFromDouble(12.2, mValue, rExp, bValue, bExp,
87                                                bSigned);
88 
89     expected = 12.2 / (mValue * std::pow(10, rExp));
90     EXPECT_NEAR(scaledVal, expected, expected * 0.01);
91 
92     // shifted fan example
93     maxValue = 16000;
94     minValue = 8000;
95 
96     result = ipmi::getSensorAttributes(maxValue, minValue, mValue, rExp, bValue,
97                                        bExp, bSigned);
98     EXPECT_EQ(result, true);
99 
100     if (result)
101     {
102         EXPECT_EQ(bSigned, false);
103         EXPECT_EQ(mValue, floor(8000.0 / 0xFF + 0.5));
104         EXPECT_EQ(rExp, 0);
105         EXPECT_EQ(bValue, 80);
106         EXPECT_EQ(bExp, 2);
107     }
108 
109     // signed voltage sensor example
110     maxValue = 10;
111     minValue = -10;
112 
113     result = ipmi::getSensorAttributes(maxValue, minValue, mValue, rExp, bValue,
114                                        bExp, bSigned);
115     EXPECT_EQ(result, true);
116     if (result)
117     {
118         EXPECT_EQ(bSigned, true);
119         EXPECT_EQ(mValue, floor(0.5 + ((20.0 / 0xFF) / std::pow(10, rExp))));
120         EXPECT_EQ(rExp, -3);
121         EXPECT_EQ(bValue, 0);
122         EXPECT_EQ(bExp, 0);
123     }
124 
125     scaledVal =
126         ipmi::scaleIPMIValueFromDouble(5, mValue, rExp, bValue, bExp, bSigned);
127 
128     expected = 5 / (mValue * std::pow(10, rExp));
129     EXPECT_NEAR(scaledVal, expected, expected * 0.01);
130 
131     // 0, 0 failure
132     maxValue = 0;
133     minValue = 0;
134     result = ipmi::getSensorAttributes(maxValue, minValue, mValue, rExp, bValue,
135                                        bExp, bSigned);
136     EXPECT_EQ(result, false);
137 
138     // too close failure
139     maxValue = 12;
140     minValue = 10;
141     result = ipmi::getSensorAttributes(maxValue, minValue, mValue, rExp, bValue,
142                                        bExp, bSigned);
143     EXPECT_EQ(result, false);
144 }
145