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gerrit.openbmc.org / openbmc / phosphor-logging / 7f3c8a4904d450d5bdb4343c72c096aa09a2925a / . / test / openpower-pels / src_test.cpp
blob: 97d9b27e58fd605fa6e67433f538eaf6aedb020d [file] [log] [blame]
/**
* Copyright © 2019 IBM Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* 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.
*/
#include "extensions/openpower-pels/src.hpp"
#include "mocks.hpp"
#include "pel_utils.hpp"
#include <fstream>
#include <gtest/gtest.h>
using namespace openpower::pels;
using ::testing::_;
using ::testing::DoAll;
using ::testing::InvokeWithoutArgs;
using ::testing::NiceMock;
using ::testing::Return;
using ::testing::SetArgReferee;
using ::testing::Throw;
namespace fs = std::filesystem;
const auto testRegistry = R"(
{
"PELs":
[
{
"Name": "xyz.openbmc_project.Error.Test",
"Subsystem": "bmc_firmware",
"SRC":
{
"ReasonCode": "0xABCD",
"Words6To9":
{
"6":
{
"Description": "Component ID",
"AdditionalDataPropSource": "COMPID"
},
"7":
{
"Description": "Failure count",
"AdditionalDataPropSource": "FREQUENCY"
},
"8":
{
"Description": "Time period",
"AdditionalDataPropSource": "DURATION"
},
"9":
{
"Description": "Error code",
"AdditionalDataPropSource": "ERRORCODE"
}
}
},
"Documentation":
{
"Description": "A Component Fault",
"Message": "Comp %1 failed %2 times over %3 secs with ErrorCode %4",
"MessageArgSources":
[
"SRCWord6", "SRCWord7", "SRCWord8", "SRCWord9"
]
}
}
]
}
)";
class SRCTest : public ::testing::Test
{
protected:
static void SetUpTestCase()
{
char path[] = "/tmp/srctestXXXXXX";
regDir = mkdtemp(path);
}
static void TearDownTestCase()
{
fs::remove_all(regDir);
}
static std::string writeData(const char* data)
{
fs::path path = regDir / "registry.json";
std::ofstream stream{path};
stream << data;
return path;
}
static fs::path regDir;
};
fs::path SRCTest::regDir{};
TEST_F(SRCTest, UnflattenFlattenTestNoCallouts)
{
auto data = pelDataFactory(TestPELType::primarySRCSection);
Stream stream{data};
SRC src{stream};
EXPECT_TRUE(src.valid());
EXPECT_EQ(src.header().id, 0x5053);
EXPECT_EQ(src.header().size, 0x50);
EXPECT_EQ(src.header().version, 0x01);
EXPECT_EQ(src.header().subType, 0x01);
EXPECT_EQ(src.header().componentID, 0x0202);
EXPECT_EQ(src.version(), 0x02);
EXPECT_EQ(src.flags(), 0x00);
EXPECT_EQ(src.hexWordCount(), 9);
EXPECT_EQ(src.size(), 0x48);
const auto& hexwords = src.hexwordData();
EXPECT_EQ(0x02020255, hexwords[0]);
EXPECT_EQ(0x03030310, hexwords[1]);
EXPECT_EQ(0x04040404, hexwords[2]);
EXPECT_EQ(0x05050505, hexwords[3]);
EXPECT_EQ(0x06060606, hexwords[4]);
EXPECT_EQ(0x07070707, hexwords[5]);
EXPECT_EQ(0x08080808, hexwords[6]);
EXPECT_EQ(0x09090909, hexwords[7]);
EXPECT_EQ(src.asciiString(), "BD8D5678 ");
EXPECT_FALSE(src.callouts());
// Flatten
std::vector<uint8_t> newData;
Stream newStream{newData};
src.flatten(newStream);
EXPECT_EQ(data, newData);
}
TEST_F(SRCTest, UnflattenFlattenTest2Callouts)
{
auto data = pelDataFactory(TestPELType::primarySRCSection2Callouts);
Stream stream{data};
SRC src{stream};
EXPECT_TRUE(src.valid());
EXPECT_EQ(src.flags(), 0x01); // Additional sections within the SRC.
// Spot check the SRC fields, but they're the same as above
EXPECT_EQ(src.asciiString(), "BD8D5678 ");
// There should be 2 callouts
const auto& calloutsSection = src.callouts();
ASSERT_TRUE(calloutsSection);
const auto& callouts = calloutsSection->callouts();
EXPECT_EQ(callouts.size(), 2);
// spot check that each callout has the right substructures
EXPECT_TRUE(callouts.front()->fruIdentity());
EXPECT_FALSE(callouts.front()->pceIdentity());
EXPECT_FALSE(callouts.front()->mru());
EXPECT_TRUE(callouts.back()->fruIdentity());
EXPECT_TRUE(callouts.back()->pceIdentity());
EXPECT_TRUE(callouts.back()->mru());
// Flatten
std::vector<uint8_t> newData;
Stream newStream{newData};
src.flatten(newStream);
EXPECT_EQ(data, newData);
}
// Create an SRC from the message registry
TEST_F(SRCTest, CreateTestNoCallouts)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = true;
entry.src.hexwordADFields = {
{5, {"TEST1", "DESCR1"}}, // Not a user defined word
{6, {"TEST1", "DESCR1"}},
{7, {"TEST2", "DESCR2"}},
{8, {"TEST3", "DESCR3"}},
{9, {"TEST4", "DESCR4"}}};
// Values for the SRC words pointed to above
std::vector<std::string> adData{"TEST1=0x12345678", "TEST2=12345678",
"TEST3=0XDEF", "TEST4=Z"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
EXPECT_CALL(dataIface, getMotherboardCCIN).WillOnce(Return("ABCD"));
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
EXPECT_TRUE(src.isPowerFaultEvent());
EXPECT_EQ(src.size(), baseSRCSize);
const auto& hexwords = src.hexwordData();
// The spec always refers to SRC words 2 - 9, and as the hexwordData()
// array index starts at 0 use the math in the [] below to make it easier
// to tell what is being accessed.
EXPECT_EQ(hexwords[2 - 2] & 0xF0000000, 0); // Partition dump status
EXPECT_EQ(hexwords[2 - 2] & 0x00F00000, 0); // Partition boot type
EXPECT_EQ(hexwords[2 - 2] & 0x000000FF, 0x55); // SRC format
EXPECT_EQ(hexwords[3 - 2] & 0x000000FF, 0x10); // BMC position
EXPECT_EQ(hexwords[3 - 2] & 0xFFFF0000, 0xABCD0000); // Motherboard CCIN
// Validate more fields here as the code starts filling them in.
// Ensure hex word 5 wasn't allowed to be set to TEST1's contents
EXPECT_EQ(hexwords[5 - 2], 0);
// The user defined hex word fields specifed in the additional data.
EXPECT_EQ(hexwords[6 - 2], 0x12345678); // TEST1
EXPECT_EQ(hexwords[7 - 2], 12345678); // TEST2
EXPECT_EQ(hexwords[8 - 2], 0xdef); // TEST3
EXPECT_EQ(hexwords[9 - 2], 0); // TEST4, but can't convert a 'Z'
EXPECT_EQ(src.asciiString(), "BD42ABCD ");
// No callouts
EXPECT_FALSE(src.callouts());
// May as well spot check the flatten/unflatten
std::vector<uint8_t> data;
Stream stream{data};
src.flatten(stream);
stream.offset(0);
SRC newSRC{stream};
EXPECT_TRUE(newSRC.valid());
EXPECT_EQ(newSRC.isPowerFaultEvent(), src.isPowerFaultEvent());
EXPECT_EQ(newSRC.asciiString(), src.asciiString());
EXPECT_FALSE(newSRC.callouts());
}
// Create an SRC to test POWER_THERMAL_CRITICAL_FAULT set to TRUE
// sets the power fault bit in SRC
TEST_F(SRCTest, PowerFaultTest)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
// Values for the SRC words pointed to above
std::vector<std::string> adData{"POWER_THERMAL_CRITICAL_FAULT=TRUE",
"TEST2=12345678", "TEST3=0XDEF", "TEST4=Z"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
EXPECT_TRUE(src.isPowerFaultEvent());
EXPECT_EQ(src.size(), baseSRCSize);
}
// Test when the CCIN string isn't a 4 character number
TEST_F(SRCTest, BadCCINTest)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
std::vector<std::string> adData{};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillRepeatedly(Return(std::vector<bool>{false, false, false}));
// First it isn't a number, then it is too long,
// then it is empty.
EXPECT_CALL(dataIface, getMotherboardCCIN)
.WillOnce(Return("X"))
.WillOnce(Return("12345"))
.WillOnce(Return(""));
// The CCIN in the first half should still be 0 each time.
{
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
const auto& hexwords = src.hexwordData();
EXPECT_EQ(hexwords[3 - 2] & 0xFFFF0000, 0x00000000);
}
{
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
const auto& hexwords = src.hexwordData();
EXPECT_EQ(hexwords[3 - 2] & 0xFFFF0000, 0x00000000);
}
{
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
const auto& hexwords = src.hexwordData();
EXPECT_EQ(hexwords[3 - 2] & 0xFFFF0000, 0x00000000);
}
}
// Test the getErrorDetails function
TEST_F(SRCTest, MessageSubstitutionTest)
{
auto path = SRCTest::writeData(testRegistry);
message::Registry registry{path};
auto entry = registry.lookup("0xABCD", message::LookupType::reasonCode);
std::vector<std::string> adData{"COMPID=0x1", "FREQUENCY=0x4",
"DURATION=30", "ERRORCODE=0x01ABCDEF"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
SRC src{*entry, ad, dataIface};
EXPECT_TRUE(src.valid());
auto errorDetails = src.getErrorDetails(registry, DetailLevel::message);
ASSERT_TRUE(errorDetails);
EXPECT_EQ(errorDetails.value(),
"Comp 0x00000001 failed 0x00000004 times over 0x0000001E secs "
"with ErrorCode 0x01ABCDEF");
}
// Test that an inventory path callout string is
// converted into the appropriate FRU callout.
TEST_F(SRCTest, InventoryCalloutTest)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
std::vector<std::string> adData{"CALLOUT_INVENTORY_PATH=motherboard"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
EXPECT_CALL(dataIface, getLocationCode("motherboard"))
.WillOnce(Return("UTMS-P1"));
EXPECT_CALL(dataIface, getHWCalloutFields("motherboard", _, _, _))
.Times(1)
.WillOnce(DoAll(SetArgReferee<1>("1234567"), SetArgReferee<2>("CCCC"),
SetArgReferee<3>("123456789ABC")));
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
ASSERT_TRUE(src.callouts());
EXPECT_EQ(src.callouts()->callouts().size(), 1);
auto& callout = src.callouts()->callouts().front();
EXPECT_EQ(callout->locationCode(), "UTMS-P1");
EXPECT_EQ(callout->priority(), 'H');
auto& fru = callout->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "1234567");
EXPECT_EQ(fru->getCCIN().value(), "CCCC");
EXPECT_EQ(fru->getSN().value(), "123456789ABC");
// flatten and unflatten
std::vector<uint8_t> data;
Stream stream{data};
src.flatten(stream);
stream.offset(0);
SRC newSRC{stream};
EXPECT_TRUE(newSRC.valid());
ASSERT_TRUE(src.callouts());
EXPECT_EQ(src.callouts()->callouts().size(), 1);
}
// Test that when the location code can't be obtained that
// no callout is added.
TEST_F(SRCTest, InventoryCalloutNoLocCodeTest)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
std::vector<std::string> adData{"CALLOUT_INVENTORY_PATH=motherboard"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
auto func = []() {
throw sdbusplus::exception::SdBusError(5, "Error");
return std::string{};
};
EXPECT_CALL(dataIface, getLocationCode("motherboard"))
.Times(1)
.WillOnce(InvokeWithoutArgs(func));
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
EXPECT_CALL(dataIface, getHWCalloutFields(_, _, _, _)).Times(0);
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
ASSERT_FALSE(src.callouts());
// flatten and unflatten
std::vector<uint8_t> data;
Stream stream{data};
src.flatten(stream);
stream.offset(0);
SRC newSRC{stream};
EXPECT_TRUE(newSRC.valid());
ASSERT_FALSE(src.callouts());
}
// Test that when the VPD can't be obtained that
// a callout is still created.
TEST_F(SRCTest, InventoryCalloutNoVPDTest)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
std::vector<std::string> adData{"CALLOUT_INVENTORY_PATH=motherboard"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
EXPECT_CALL(dataIface, getLocationCode("motherboard"))
.Times(1)
.WillOnce(Return("UTMS-P10"));
auto func = []() { throw sdbusplus::exception::SdBusError(5, "Error"); };
EXPECT_CALL(dataIface, getHWCalloutFields("motherboard", _, _, _))
.Times(1)
.WillOnce(InvokeWithoutArgs(func));
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
ASSERT_TRUE(src.callouts());
EXPECT_EQ(src.callouts()->callouts().size(), 1);
auto& callout = src.callouts()->callouts().front();
EXPECT_EQ(callout->locationCode(), "UTMS-P10");
EXPECT_EQ(callout->priority(), 'H');
auto& fru = callout->fruIdentity();
EXPECT_EQ(fru->getPN(), "");
EXPECT_EQ(fru->getCCIN(), "");
EXPECT_EQ(fru->getSN(), "");
EXPECT_FALSE(fru->getMaintProc());
// flatten and unflatten
std::vector<uint8_t> data;
Stream stream{data};
src.flatten(stream);
stream.offset(0);
SRC newSRC{stream};
EXPECT_TRUE(newSRC.valid());
ASSERT_TRUE(src.callouts());
EXPECT_EQ(src.callouts()->callouts().size(), 1);
}
TEST_F(SRCTest, RegistryCalloutTest)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
entry.callouts = R"(
[
{
"System": "systemA",
"CalloutList":
[
{
"Priority": "high",
"SymbolicFRU": "service_docs"
},
{
"Priority": "medium",
"Procedure": "bmc_code"
}
]
},
{
"System": "systemB",
"CalloutList":
[
{
"Priority": "high",
"LocCode": "P0-C8",
"SymbolicFRUTrusted": "service_docs"
},
{
"Priority": "medium",
"SymbolicFRUTrusted": "service_docs"
}
]
},
{
"System": "systemC",
"CalloutList":
[
{
"Priority": "high",
"LocCode": "P0-C8"
},
{
"Priority": "medium",
"LocCode": "P0-C9"
}
]
}
])"_json;
{
// Call out a symbolic FRU and a procedure
AdditionalData ad;
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> names{"systemA"};
EXPECT_CALL(dataIface, getSystemNames).WillOnce(Return(names));
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
SRC src{entry, ad, dataIface};
auto& callouts = src.callouts()->callouts();
ASSERT_EQ(callouts.size(), 2);
EXPECT_EQ(callouts[0]->locationCodeSize(), 0);
EXPECT_EQ(callouts[0]->priority(), 'H');
EXPECT_EQ(callouts[1]->locationCodeSize(), 0);
EXPECT_EQ(callouts[1]->priority(), 'M');
auto& fru1 = callouts[0]->fruIdentity();
EXPECT_EQ(fru1->getPN().value(), "SVCDOCS");
EXPECT_EQ(fru1->failingComponentType(), src::FRUIdentity::symbolicFRU);
EXPECT_FALSE(fru1->getMaintProc());
EXPECT_FALSE(fru1->getSN());
EXPECT_FALSE(fru1->getCCIN());
auto& fru2 = callouts[1]->fruIdentity();
EXPECT_EQ(fru2->getMaintProc().value(), "BMC0001");
EXPECT_EQ(fru2->failingComponentType(),
src::FRUIdentity::maintenanceProc);
EXPECT_FALSE(fru2->getPN());
EXPECT_FALSE(fru2->getSN());
EXPECT_FALSE(fru2->getCCIN());
}
{
// Call out a trusted symbolic FRU with a location code, and
// another one without.
AdditionalData ad;
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> names{"systemB"};
EXPECT_CALL(dataIface, expandLocationCode).WillOnce(Return("P0-C8"));
EXPECT_CALL(dataIface, getSystemNames).WillOnce(Return(names));
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
SRC src{entry, ad, dataIface};
auto& callouts = src.callouts()->callouts();
EXPECT_EQ(callouts.size(), 2);
EXPECT_EQ(callouts[0]->locationCode(), "P0-C8");
EXPECT_EQ(callouts[0]->priority(), 'H');
EXPECT_EQ(callouts[1]->locationCodeSize(), 0);
EXPECT_EQ(callouts[1]->priority(), 'M');
auto& fru1 = callouts[0]->fruIdentity();
EXPECT_EQ(fru1->getPN().value(), "SVCDOCS");
EXPECT_EQ(fru1->failingComponentType(),
src::FRUIdentity::symbolicFRUTrustedLocCode);
EXPECT_FALSE(fru1->getMaintProc());
EXPECT_FALSE(fru1->getSN());
EXPECT_FALSE(fru1->getCCIN());
// It asked for a trusted symbolic FRU, but no location code
// was provided so it is switched back to a normal one
auto& fru2 = callouts[1]->fruIdentity();
EXPECT_EQ(fru2->getPN().value(), "SVCDOCS");
EXPECT_EQ(fru2->failingComponentType(), src::FRUIdentity::symbolicFRU);
EXPECT_FALSE(fru2->getMaintProc());
EXPECT_FALSE(fru2->getSN());
EXPECT_FALSE(fru2->getCCIN());
}
{
// Two hardware callouts
AdditionalData ad;
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> names{"systemC"};
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
EXPECT_CALL(dataIface, getSystemNames).WillOnce(Return(names));
EXPECT_CALL(dataIface, expandLocationCode("P0-C8", 0))
.WillOnce(Return("UXXX-P0-C8"));
EXPECT_CALL(dataIface, expandLocationCode("P0-C9", 0))
.WillOnce(Return("UXXX-P0-C9"));
EXPECT_CALL(dataIface, getInventoryFromLocCode("P0-C8", 0, false))
.WillOnce(Return(
"/xyz/openbmc_project/inventory/chassis/motherboard/cpu0"));
EXPECT_CALL(dataIface, getInventoryFromLocCode("P0-C9", 0, false))
.WillOnce(Return(
"/xyz/openbmc_project/inventory/chassis/motherboard/cpu1"));
EXPECT_CALL(
dataIface,
getHWCalloutFields(
"/xyz/openbmc_project/inventory/chassis/motherboard/cpu0", _, _,
_))
.Times(1)
.WillOnce(DoAll(SetArgReferee<1>("1234567"),
SetArgReferee<2>("CCCC"),
SetArgReferee<3>("123456789ABC")));
EXPECT_CALL(
dataIface,
getHWCalloutFields(
"/xyz/openbmc_project/inventory/chassis/motherboard/cpu1", _, _,
_))
.Times(1)
.WillOnce(DoAll(SetArgReferee<1>("2345678"),
SetArgReferee<2>("DDDD"),
SetArgReferee<3>("23456789ABCD")));
SRC src{entry, ad, dataIface};
auto& callouts = src.callouts()->callouts();
EXPECT_EQ(callouts.size(), 2);
EXPECT_EQ(callouts[0]->locationCode(), "UXXX-P0-C8");
EXPECT_EQ(callouts[0]->priority(), 'H');
auto& fru1 = callouts[0]->fruIdentity();
EXPECT_EQ(fru1->getPN().value(), "1234567");
EXPECT_EQ(fru1->getCCIN().value(), "CCCC");
EXPECT_EQ(fru1->getSN().value(), "123456789ABC");
EXPECT_EQ(callouts[1]->locationCode(), "UXXX-P0-C9");
EXPECT_EQ(callouts[1]->priority(), 'M');
auto& fru2 = callouts[1]->fruIdentity();
EXPECT_EQ(fru2->getPN().value(), "2345678");
EXPECT_EQ(fru2->getCCIN().value(), "DDDD");
EXPECT_EQ(fru2->getSN().value(), "23456789ABCD");
}
}
// Test that a symbolic FRU with a trusted location code callout
// from the registry can get its location from the
// CALLOUT_INVENTORY_PATH AdditionalData entry.
TEST_F(SRCTest, SymbolicFRUWithInvPathTest)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
entry.callouts = R"(
[{
"CalloutList":
[
{
"Priority": "high",
"SymbolicFRUTrusted": "service_docs",
"UseInventoryLocCode": true
},
{
"Priority": "medium",
"LocCode": "P0-C8",
"SymbolicFRUTrusted": "pwrsply"
}
]
}])"_json;
{
// The location code for the first symbolic FRU callout will
// come from this inventory path since UseInventoryLocCode is set.
// In this case there will be no normal FRU callout for the motherboard.
std::vector<std::string> adData{"CALLOUT_INVENTORY_PATH=motherboard"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> names{"systemA"};
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
EXPECT_CALL(dataIface, getSystemNames).WillOnce(Return(names));
EXPECT_CALL(dataIface, getLocationCode("motherboard"))
.Times(1)
.WillOnce(Return("Ufcs-P10"));
EXPECT_CALL(dataIface, expandLocationCode("P0-C8", 0))
.WillOnce(Return("Ufcs-P0-C8"));
SRC src{entry, ad, dataIface};
auto& callouts = src.callouts()->callouts();
EXPECT_EQ(callouts.size(), 2);
// The location code for the first symbolic FRU callout with a
// trusted location code comes from the motherboard.
EXPECT_EQ(callouts[0]->locationCode(), "Ufcs-P10");
EXPECT_EQ(callouts[0]->priority(), 'H');
auto& fru1 = callouts[0]->fruIdentity();
EXPECT_EQ(fru1->getPN().value(), "SVCDOCS");
EXPECT_EQ(fru1->failingComponentType(),
src::FRUIdentity::symbolicFRUTrustedLocCode);
// The second trusted symbolic FRU callouts uses the location
// code in the registry as usual.
EXPECT_EQ(callouts[1]->locationCode(), "Ufcs-P0-C8");
EXPECT_EQ(callouts[1]->priority(), 'M');
auto& fru2 = callouts[1]->fruIdentity();
EXPECT_EQ(fru2->getPN().value(), "PWRSPLY");
EXPECT_EQ(fru2->failingComponentType(),
src::FRUIdentity::symbolicFRUTrustedLocCode);
}
{
// This time say we want to use the location code from
// the inventory, but don't pass it in and the callout should
// end up a regular symbolic FRU
entry.callouts = R"(
[{
"CalloutList":
[
{
"Priority": "high",
"SymbolicFRUTrusted": "service_docs",
"UseInventoryLocCode": true
}
]
}])"_json;
AdditionalData ad;
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> names{"systemA"};
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
EXPECT_CALL(dataIface, getSystemNames).WillOnce(Return(names));
SRC src{entry, ad, dataIface};
auto& callouts = src.callouts()->callouts();
EXPECT_EQ(callouts.size(), 1);
EXPECT_EQ(callouts[0]->locationCode(), "");
EXPECT_EQ(callouts[0]->priority(), 'H');
auto& fru1 = callouts[0]->fruIdentity();
EXPECT_EQ(fru1->getPN().value(), "SVCDOCS");
EXPECT_EQ(fru1->failingComponentType(), src::FRUIdentity::symbolicFRU);
}
}
// Test looking up device path fails in the callout jSON.
TEST_F(SRCTest, DevicePathCalloutTest)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
const auto calloutJSON = R"(
{
"I2C":
{
"14":
{
"114":
{
"Callouts":[
{
"Name": "/chassis/motherboard/cpu0",
"LocationCode": "P1-C40",
"Priority": "H"
},
{
"Name": "/chassis/motherboard",
"LocationCode": "P1",
"Priority": "M"
},
{
"Name": "/chassis/motherboard/bmc",
"LocationCode": "P1-C15",
"Priority": "L"
}
],
"Dest": "proc 0 target"
}
}
}
})";
auto dataPath = getPELReadOnlyDataPath();
std::ofstream file{dataPath / "systemA_dev_callouts.json"};
file << calloutJSON;
file.close();
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> names{"systemA"};
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillRepeatedly(Return(std::vector<bool>{false, false, false}));
EXPECT_CALL(dataIface, getSystemNames)
.Times(5)
.WillRepeatedly(Return(names));
EXPECT_CALL(dataIface, getInventoryFromLocCode("P1-C40", 0, false))
.Times(3)
.WillRepeatedly(
Return("/xyz/openbmc_project/inventory/chassis/motherboard/cpu0"));
EXPECT_CALL(dataIface, getInventoryFromLocCode("P1", 0, false))
.Times(3)
.WillRepeatedly(
Return("/xyz/openbmc_project/inventory/chassis/motherboard"));
EXPECT_CALL(dataIface, getInventoryFromLocCode("P1-C15", 0, false))
.Times(3)
.WillRepeatedly(
Return("/xyz/openbmc_project/inventory/chassis/motherboard/bmc"));
EXPECT_CALL(dataIface, expandLocationCode("P1-C40", 0))
.Times(3)
.WillRepeatedly(Return("Ufcs-P1-C40"));
EXPECT_CALL(dataIface, expandLocationCode("P1", 0))
.Times(3)
.WillRepeatedly(Return("Ufcs-P1"));
EXPECT_CALL(dataIface, expandLocationCode("P1-C15", 0))
.Times(3)
.WillRepeatedly(Return("Ufcs-P1-C15"));
EXPECT_CALL(
dataIface,
getHWCalloutFields(
"/xyz/openbmc_project/inventory/chassis/motherboard/cpu0", _, _, _))
.Times(3)
.WillRepeatedly(DoAll(SetArgReferee<1>("1234567"),
SetArgReferee<2>("CCCC"),
SetArgReferee<3>("123456789ABC")));
EXPECT_CALL(
dataIface,
getHWCalloutFields("/xyz/openbmc_project/inventory/chassis/motherboard",
_, _, _))
.Times(3)
.WillRepeatedly(DoAll(SetArgReferee<1>("7654321"),
SetArgReferee<2>("MMMM"),
SetArgReferee<3>("CBA987654321")));
EXPECT_CALL(
dataIface,
getHWCalloutFields(
"/xyz/openbmc_project/inventory/chassis/motherboard/bmc", _, _, _))
.Times(3)
.WillRepeatedly(DoAll(SetArgReferee<1>("7123456"),
SetArgReferee<2>("BBBB"),
SetArgReferee<3>("C123456789AB")));
// Call this below with different AdditionalData values that
// result in the same callouts.
auto checkCallouts = [&entry, &dataIface](const auto& items) {
AdditionalData ad{items};
SRC src{entry, ad, dataIface};
ASSERT_TRUE(src.callouts());
auto& callouts = src.callouts()->callouts();
ASSERT_EQ(callouts.size(), 3);
{
EXPECT_EQ(callouts[0]->priority(), 'H');
EXPECT_EQ(callouts[0]->locationCode(), "Ufcs-P1-C40");
auto& fru = callouts[0]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "1234567");
EXPECT_EQ(fru->getCCIN().value(), "CCCC");
EXPECT_EQ(fru->getSN().value(), "123456789ABC");
}
{
EXPECT_EQ(callouts[1]->priority(), 'M');
EXPECT_EQ(callouts[1]->locationCode(), "Ufcs-P1");
auto& fru = callouts[1]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "7654321");
EXPECT_EQ(fru->getCCIN().value(), "MMMM");
EXPECT_EQ(fru->getSN().value(), "CBA987654321");
}
{
EXPECT_EQ(callouts[2]->priority(), 'L');
EXPECT_EQ(callouts[2]->locationCode(), "Ufcs-P1-C15");
auto& fru = callouts[2]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "7123456");
EXPECT_EQ(fru->getCCIN().value(), "BBBB");
EXPECT_EQ(fru->getSN().value(), "C123456789AB");
}
};
{
// Callouts based on the device path
std::vector<std::string> items{
"CALLOUT_ERRNO=5",
"CALLOUT_DEVICE_PATH=/sys/devices/platform/ahb/ahb:apb/"
"ahb:apb:bus@1e78a000/1e78a340.i2c-bus/i2c-14/14-0072"};
checkCallouts(items);
}
{
// Callouts based on the I2C bus and address
std::vector<std::string> items{"CALLOUT_ERRNO=5", "CALLOUT_IIC_BUS=14",
"CALLOUT_IIC_ADDR=0x72"};
checkCallouts(items);
}
{
// Also based on I2C bus and address, but with bus = /dev/i2c-14
std::vector<std::string> items{"CALLOUT_ERRNO=5", "CALLOUT_IIC_BUS=14",
"CALLOUT_IIC_ADDR=0x72"};
checkCallouts(items);
}
{
// Callout not found
std::vector<std::string> items{
"CALLOUT_ERRNO=5",
"CALLOUT_DEVICE_PATH=/sys/devices/platform/ahb/ahb:apb/"
"ahb:apb:bus@1e78a000/1e78a340.i2c-bus/i2c-24/24-0012"};
AdditionalData ad{items};
SRC src{entry, ad, dataIface};
EXPECT_FALSE(src.callouts());
ASSERT_EQ(src.getDebugData().size(), 1);
EXPECT_EQ(src.getDebugData()[0],
"Problem looking up I2C callouts on 24 18: "
"[json.exception.out_of_range.403] key '24' not found");
}
{
// Callout not found
std::vector<std::string> items{"CALLOUT_ERRNO=5", "CALLOUT_IIC_BUS=22",
"CALLOUT_IIC_ADDR=0x99"};
AdditionalData ad{items};
SRC src{entry, ad, dataIface};
EXPECT_FALSE(src.callouts());
ASSERT_EQ(src.getDebugData().size(), 1);
EXPECT_EQ(src.getDebugData()[0],
"Problem looking up I2C callouts on 22 153: "
"[json.exception.out_of_range.403] key '22' not found");
}
fs::remove_all(dataPath);
}
// Test when callouts are passed in via JSON
TEST_F(SRCTest, JsonCalloutsTest)
{
const auto jsonCallouts = R"(
[
{
"LocationCode": "P0-C1",
"Priority": "H",
"MRUs": [
{
"ID": 42,
"Priority": "H"
},
{
"ID": 43,
"Priority": "M"
}
]
},
{
"InventoryPath": "/inv/system/chassis/motherboard/cpu0",
"Priority": "M",
"Guarded": true,
"Deconfigured": true
},
{
"Procedure": "PROCEDU",
"Priority": "A"
},
{
"SymbolicFRU": "TRUSTED",
"Priority": "B",
"TrustedLocationCode": true,
"LocationCode": "P1-C23"
},
{
"SymbolicFRU": "FRUTST1",
"Priority": "C",
"LocationCode": "P1-C24"
},
{
"SymbolicFRU": "FRUTST2LONG",
"Priority": "L"
}
]
)"_json;
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
AdditionalData ad;
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
// Callout 0 mock calls
{
EXPECT_CALL(dataIface, expandLocationCode("P0-C1", 0))
.Times(1)
.WillOnce(Return("UXXX-P0-C1"));
EXPECT_CALL(dataIface, getInventoryFromLocCode("P0-C1", 0, false))
.Times(1)
.WillOnce(Return("/inv/system/chassis/motherboard/bmc"));
EXPECT_CALL(
dataIface,
getHWCalloutFields("/inv/system/chassis/motherboard/bmc", _, _, _))
.Times(1)
.WillOnce(DoAll(SetArgReferee<1>("1234567"),
SetArgReferee<2>("CCCC"),
SetArgReferee<3>("123456789ABC")));
}
// Callout 1 mock calls
{
EXPECT_CALL(dataIface,
getLocationCode("/inv/system/chassis/motherboard/cpu0"))
.WillOnce(Return("UYYY-P5"));
EXPECT_CALL(
dataIface,
getHWCalloutFields("/inv/system/chassis/motherboard/cpu0", _, _, _))
.Times(1)
.WillOnce(DoAll(SetArgReferee<1>("2345678"),
SetArgReferee<2>("DDDD"),
SetArgReferee<3>("23456789ABCD")));
}
// Callout 3 mock calls
{
EXPECT_CALL(dataIface, expandLocationCode("P1-C23", 0))
.Times(1)
.WillOnce(Return("UXXX-P1-C23"));
}
// Callout 4 mock calls
{
EXPECT_CALL(dataIface, expandLocationCode("P1-C24", 0))
.Times(1)
.WillOnce(Return("UXXX-P1-C24"));
}
SRC src{entry, ad, jsonCallouts, dataIface};
ASSERT_TRUE(src.callouts());
// Check the guarded and deconfigured flags
EXPECT_TRUE(src.hexwordData()[3] & 0x03000000);
const auto& callouts = src.callouts()->callouts();
ASSERT_EQ(callouts.size(), 6);
// Check callout 0
{
EXPECT_EQ(callouts[0]->priority(), 'H');
EXPECT_EQ(callouts[0]->locationCode(), "UXXX-P0-C1");
auto& fru = callouts[0]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "1234567");
EXPECT_EQ(fru->getCCIN().value(), "CCCC");
EXPECT_EQ(fru->getSN().value(), "123456789ABC");
EXPECT_EQ(fru->failingComponentType(), src::FRUIdentity::hardwareFRU);
auto& mruCallouts = callouts[0]->mru();
ASSERT_TRUE(mruCallouts);
auto& mrus = mruCallouts->mrus();
ASSERT_EQ(mrus.size(), 2);
EXPECT_EQ(mrus[0].id, 42);
EXPECT_EQ(mrus[0].priority, 'H');
EXPECT_EQ(mrus[1].id, 43);
EXPECT_EQ(mrus[1].priority, 'M');
}
// Check callout 1
{
EXPECT_EQ(callouts[1]->priority(), 'M');
EXPECT_EQ(callouts[1]->locationCode(), "UYYY-P5");
auto& fru = callouts[1]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "2345678");
EXPECT_EQ(fru->getCCIN().value(), "DDDD");
EXPECT_EQ(fru->getSN().value(), "23456789ABCD");
EXPECT_EQ(fru->failingComponentType(), src::FRUIdentity::hardwareFRU);
}
// Check callout 2
{
EXPECT_EQ(callouts[2]->priority(), 'A');
EXPECT_EQ(callouts[2]->locationCode(), "");
auto& fru = callouts[2]->fruIdentity();
EXPECT_EQ(fru->getMaintProc().value(), "PROCEDU");
EXPECT_EQ(fru->failingComponentType(),
src::FRUIdentity::maintenanceProc);
}
// Check callout 3
{
EXPECT_EQ(callouts[3]->priority(), 'B');
EXPECT_EQ(callouts[3]->locationCode(), "UXXX-P1-C23");
auto& fru = callouts[3]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "TRUSTED");
EXPECT_EQ(fru->failingComponentType(),
src::FRUIdentity::symbolicFRUTrustedLocCode);
}
// Check callout 4
{
EXPECT_EQ(callouts[4]->priority(), 'C');
EXPECT_EQ(callouts[4]->locationCode(), "UXXX-P1-C24");
auto& fru = callouts[4]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "FRUTST1");
EXPECT_EQ(fru->failingComponentType(), src::FRUIdentity::symbolicFRU);
}
// Check callout 5
{
EXPECT_EQ(callouts[5]->priority(), 'L');
EXPECT_EQ(callouts[5]->locationCode(), "");
auto& fru = callouts[5]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "FRUTST2");
EXPECT_EQ(fru->failingComponentType(), src::FRUIdentity::symbolicFRU);
}
// Check that it didn't find any errors
const auto& data = src.getDebugData();
EXPECT_TRUE(data.empty());
}
TEST_F(SRCTest, JsonBadCalloutsTest)
{
// The first call will have a Throw in a mock call.
// The second will have a different Throw in a mock call.
// The others have issues with the Priority field.
const auto jsonCallouts = R"(
[
{
"LocationCode": "P0-C1",
"Priority": "H"
},
{
"LocationCode": "P0-C2",
"Priority": "H"
},
{
"LocationCode": "P0-C3"
},
{
"LocationCode": "P0-C4",
"Priority": "X"
}
]
)"_json;
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
AdditionalData ad;
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillRepeatedly(Return(std::vector<bool>{false, false, false}));
// Callout 0 mock calls
// Expand location code will fail, so the unexpanded location
// code should show up in the callout instead.
{
EXPECT_CALL(dataIface, expandLocationCode("P0-C1", 0))
.WillOnce(Throw(std::runtime_error("Fail")));
EXPECT_CALL(dataIface, getInventoryFromLocCode("P0-C1", 0, false))
.Times(1)
.WillOnce(Return("/inv/system/chassis/motherboard/bmc"));
EXPECT_CALL(
dataIface,
getHWCalloutFields("/inv/system/chassis/motherboard/bmc", _, _, _))
.Times(1)
.WillOnce(DoAll(SetArgReferee<1>("1234567"),
SetArgReferee<2>("CCCC"),
SetArgReferee<3>("123456789ABC")));
}
// Callout 1 mock calls
// getInventoryFromLocCode will fail
{
EXPECT_CALL(dataIface, expandLocationCode("P0-C2", 0))
.Times(1)
.WillOnce(Return("UXXX-P0-C2"));
EXPECT_CALL(dataIface, getInventoryFromLocCode("P0-C2", 0, false))
.Times(1)
.WillOnce(Throw(std::runtime_error("Fail")));
}
SRC src{entry, ad, jsonCallouts, dataIface};
ASSERT_TRUE(src.callouts());
const auto& callouts = src.callouts()->callouts();
// Only the first callout was successful
ASSERT_EQ(callouts.size(), 1);
{
EXPECT_EQ(callouts[0]->priority(), 'H');
EXPECT_EQ(callouts[0]->locationCode(), "P0-C1");
auto& fru = callouts[0]->fruIdentity();
EXPECT_EQ(fru->getPN().value(), "1234567");
EXPECT_EQ(fru->getCCIN().value(), "CCCC");
EXPECT_EQ(fru->getSN().value(), "123456789ABC");
EXPECT_EQ(fru->failingComponentType(), src::FRUIdentity::hardwareFRU);
}
const auto& data = src.getDebugData();
ASSERT_EQ(data.size(), 4);
EXPECT_STREQ(data[0].c_str(), "Unable to expand location code P0-C1: Fail");
EXPECT_STREQ(data[1].c_str(),
"Failed extracting callout data from JSON: Unable to "
"get inventory path from location code: P0-C2: Fail");
EXPECT_STREQ(data[2].c_str(),
"Failed extracting callout data from JSON: "
"[json.exception.out_of_range.403] key 'Priority' not found");
EXPECT_STREQ(data[3].c_str(),
"Failed extracting callout data from JSON: Invalid "
"priority 'X' found in JSON callout");
}
// Test that an inventory path callout can have
// a different priority than H.
TEST_F(SRCTest, InventoryCalloutTestPriority)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
std::vector<std::string> adData{"CALLOUT_INVENTORY_PATH=motherboard",
"CALLOUT_PRIORITY=M"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
EXPECT_CALL(dataIface, getLocationCode("motherboard"))
.WillOnce(Return("UTMS-P1"));
EXPECT_CALL(dataIface, getHWCalloutFields("motherboard", _, _, _))
.Times(1)
.WillOnce(DoAll(SetArgReferee<1>("1234567"), SetArgReferee<2>("CCCC"),
SetArgReferee<3>("123456789ABC")));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
ASSERT_TRUE(src.callouts());
EXPECT_EQ(src.callouts()->callouts().size(), 1);
auto& callout = src.callouts()->callouts().front();
EXPECT_EQ(callout->locationCode(), "UTMS-P1");
EXPECT_EQ(callout->priority(), 'M');
}
// Test for bmc & platform dump status bits
TEST_F(SRCTest, DumpStatusBitsCheck)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = false;
AdditionalData ad;
NiceMock<MockDataInterface> dataIface;
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
{
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{true, false, false}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
const auto& hexwords = src.hexwordData();
EXPECT_EQ(0x00080055, hexwords[0]);
}
{
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, true, false}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
const auto& hexwords = src.hexwordData();
EXPECT_EQ(0x00000255, hexwords[0]);
}
{
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, true}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
const auto& hexwords = src.hexwordData();
EXPECT_EQ(0x00000455, hexwords[0]);
}
{
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{true, true, true}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
const auto& hexwords = src.hexwordData();
EXPECT_EQ(0x00080655, hexwords[0]);
}
}
// Test SRC with additional data - PEL_SUBSYSTEM
TEST_F(SRCTest, TestPELSubsystem)
{
message::Entry entry;
entry.src.type = 0xBD;
entry.src.reasonCode = 0xABCD;
entry.subsystem = 0x42;
entry.src.powerFault = true;
// Values for the SRC words pointed to above
std::vector<std::string> adData{"PEL_SUBSYSTEM=0x20"};
AdditionalData ad{adData};
NiceMock<MockDataInterface> dataIface;
EXPECT_CALL(dataIface, getMotherboardCCIN).WillOnce(Return("ABCD"));
std::vector<std::string> dumpType{"bmc/entry", "resource/entry",
"system/entry"};
EXPECT_CALL(dataIface, checkDumpStatus(dumpType))
.WillOnce(Return(std::vector<bool>{false, false, false}));
SRC src{entry, ad, dataIface};
EXPECT_TRUE(src.valid());
EXPECT_EQ(src.asciiString(), "BD20ABCD ");
}