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gerrit.openbmc.org / openbmc / phosphor-logging / 45ab43ac750e4d6040fa9986d1bcba1acacaad02 / . / test / openpower-pels / registry_test.cpp
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/**
* 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/registry.hpp"
#include <filesystem>
#include <fstream>
#include <nlohmann/json.hpp>
#include <gtest/gtest.h>
using namespace openpower::pels::message;
using namespace openpower::pels;
namespace fs = std::filesystem;
const auto registryData = R"(
{
"PELs":
[
{
"Name": "xyz.openbmc_project.Power.Fault",
"Subsystem": "power_supply",
"SRC":
{
"ReasonCode": "0x2030"
},
"Documentation":
{
"Description": "A PGOOD Fault",
"Message": "PS had a PGOOD Fault"
}
},
{
"Name": "xyz.openbmc_project.Power.OverVoltage",
"Subsystem": "power_control_hw",
"Severity":
[
{
"System": "systemA",
"SevValue": "unrecoverable"
},
{
"System": "systemB",
"SevValue": "recovered"
},
{
"SevValue": "predictive"
}
],
"MfgSeverity": "non_error",
"ActionFlags": ["service_action", "report", "call_home"],
"MfgActionFlags": ["hidden"],
"SRC":
{
"ReasonCode": "0x2333",
"Type": "BD",
"SymptomIDFields": ["SRCWord5", "SRCWord6", "SRCWord7"],
"PowerFault": true,
"Words6To9":
{
"6":
{
"Description": "Failing unit number",
"AdditionalDataPropSource": "PS_NUM"
},
"7":
{
"Description": "bad voltage",
"AdditionalDataPropSource": "VOLTAGE"
}
}
},
"Documentation":
{
"Description": "A PGOOD Fault",
"Message": "PS %1 had a PGOOD Fault",
"MessageArgSources":
[
"SRCWord6"
],
"Notes": [
"In the UserData section there is a JSON",
"dump that provides debug information."
]
}
}
]
}
)";
class RegistryTest : public ::testing::Test
{
protected:
static void SetUpTestCase()
{
char path[] = "/tmp/regtestXXXXXX";
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 RegistryTest::regDir{};
TEST_F(RegistryTest, TestNoEntry)
{
auto path = RegistryTest::writeData(registryData);
Registry registry{path};
auto entry = registry.lookup("foo", LookupType::name);
EXPECT_FALSE(entry);
}
TEST_F(RegistryTest, TestFindEntry)
{
auto path = RegistryTest::writeData(registryData);
Registry registry{path};
auto entry = registry.lookup("xyz.openbmc_project.Power.OverVoltage",
LookupType::name);
ASSERT_TRUE(entry);
EXPECT_EQ(entry->name, "xyz.openbmc_project.Power.OverVoltage");
EXPECT_EQ(entry->subsystem, 0x62);
ASSERT_EQ(entry->severity->size(), 3);
EXPECT_EQ((*entry->severity)[0].severity, 0x40);
EXPECT_EQ((*entry->severity)[0].system, "systemA");
EXPECT_EQ((*entry->severity)[1].severity, 0x10);
EXPECT_EQ((*entry->severity)[1].system, "systemB");
EXPECT_EQ((*entry->severity)[2].severity, 0x20);
EXPECT_EQ((*entry->severity)[2].system, "");
EXPECT_EQ(entry->mfgSeverity->size(), 1);
EXPECT_EQ((*entry->mfgSeverity)[0].severity, 0x00);
EXPECT_EQ(*(entry->actionFlags), 0xA800);
EXPECT_EQ(*(entry->mfgActionFlags), 0x4000);
EXPECT_EQ(entry->componentID, 0x2300);
EXPECT_FALSE(entry->eventType);
EXPECT_FALSE(entry->eventScope);
EXPECT_EQ(entry->src.type, 0xBD);
EXPECT_EQ(entry->src.reasonCode, 0x2333);
EXPECT_EQ(*(entry->src.powerFault), true);
auto& hexwords = entry->src.hexwordADFields;
EXPECT_TRUE(hexwords);
EXPECT_EQ((*hexwords).size(), 2);
auto word = (*hexwords).find(6);
EXPECT_NE(word, (*hexwords).end());
EXPECT_EQ(std::get<0>(word->second), "PS_NUM");
word = (*hexwords).find(7);
EXPECT_NE(word, (*hexwords).end());
EXPECT_EQ(std::get<0>(word->second), "VOLTAGE");
auto& sid = entry->src.symptomID;
EXPECT_TRUE(sid);
EXPECT_EQ((*sid).size(), 3);
EXPECT_NE(std::find((*sid).begin(), (*sid).end(), 5), (*sid).end());
EXPECT_NE(std::find((*sid).begin(), (*sid).end(), 6), (*sid).end());
EXPECT_NE(std::find((*sid).begin(), (*sid).end(), 7), (*sid).end());
EXPECT_EQ(entry->doc.description, "A PGOOD Fault");
EXPECT_EQ(entry->doc.message, "PS %1 had a PGOOD Fault");
auto& hexwordSource = entry->doc.messageArgSources;
EXPECT_TRUE(hexwordSource);
EXPECT_EQ((*hexwordSource).size(), 1);
EXPECT_EQ((*hexwordSource).front(), "SRCWord6");
entry = registry.lookup("0x2333", LookupType::reasonCode);
ASSERT_TRUE(entry);
EXPECT_EQ(entry->name, "xyz.openbmc_project.Power.OverVoltage");
}
// Check the entry that mostly uses defaults
TEST_F(RegistryTest, TestFindEntryMinimal)
{
auto path = RegistryTest::writeData(registryData);
Registry registry{path};
auto entry =
registry.lookup("xyz.openbmc_project.Power.Fault", LookupType::name);
ASSERT_TRUE(entry);
EXPECT_EQ(entry->name, "xyz.openbmc_project.Power.Fault");
EXPECT_EQ(entry->subsystem, 0x61);
EXPECT_FALSE(entry->severity);
EXPECT_FALSE(entry->mfgSeverity);
EXPECT_FALSE(entry->mfgActionFlags);
EXPECT_FALSE(entry->actionFlags);
EXPECT_EQ(entry->componentID, 0x2000);
EXPECT_FALSE(entry->eventType);
EXPECT_FALSE(entry->eventScope);
EXPECT_EQ(entry->src.reasonCode, 0x2030);
EXPECT_EQ(entry->src.type, 0xBD);
EXPECT_FALSE(entry->src.powerFault);
EXPECT_FALSE(entry->src.hexwordADFields);
EXPECT_FALSE(entry->src.symptomID);
}
TEST_F(RegistryTest, TestBadJSON)
{
auto path = RegistryTest::writeData("bad {} json");
Registry registry{path};
EXPECT_FALSE(registry.lookup("foo", LookupType::name));
}
// Test the helper functions the use the pel_values data.
TEST_F(RegistryTest, TestHelperFunctions)
{
using namespace openpower::pels::message::helper;
EXPECT_EQ(getSubsystem("input_power_source"), 0xA1);
EXPECT_THROW(getSubsystem("foo"), std::runtime_error);
EXPECT_EQ(getSeverity("symptom_recovered"), 0x71);
EXPECT_THROW(getSeverity("foo"), std::runtime_error);
EXPECT_EQ(getEventType("dump_notification"), 0x08);
EXPECT_THROW(getEventType("foo"), std::runtime_error);
EXPECT_EQ(getEventScope("possibly_multiple_platforms"), 0x04);
EXPECT_THROW(getEventScope("foo"), std::runtime_error);
std::vector<std::string> flags{"service_action", "dont_report",
"termination"};
EXPECT_EQ(getActionFlags(flags), 0x9100);
flags.clear();
flags.push_back("foo");
EXPECT_THROW(getActionFlags(flags), std::runtime_error);
}
TEST_F(RegistryTest, TestGetSRCReasonCode)
{
using namespace openpower::pels::message::helper;
EXPECT_EQ(getSRCReasonCode(R"({"ReasonCode": "0x5555"})"_json, "foo"),
0x5555);
EXPECT_THROW(getSRCReasonCode(R"({"ReasonCode": "ZZZZ"})"_json, "foo"),
std::runtime_error);
}
TEST_F(RegistryTest, TestGetSRCType)
{
using namespace openpower::pels::message::helper;
EXPECT_EQ(getSRCType(R"({"Type": "11"})"_json, "foo"), 0x11);
EXPECT_EQ(getSRCType(R"({"Type": "BF"})"_json, "foo"), 0xBF);
EXPECT_THROW(getSRCType(R"({"Type": "1"})"_json, "foo"),
std::runtime_error);
EXPECT_THROW(getSRCType(R"({"Type": "111"})"_json, "foo"),
std::runtime_error);
}
TEST_F(RegistryTest, TestGetSRCHexwordFields)
{
using namespace openpower::pels::message::helper;
const auto hexwords = R"(
{"Words6To9":
{
"8":
{
"Description": "TEST",
"AdditionalDataPropSource": "TEST"
}
}
})"_json;
auto fields = getSRCHexwordFields(hexwords, "foo");
EXPECT_TRUE(fields);
auto word = fields->find(8);
EXPECT_NE(word, fields->end());
const auto theInvalidRWord = R"(
{"Words6To9":
{
"R":
{
"Description": "TEST",
"AdditionalDataPropSource": "TEST"
}
}
})"_json;
EXPECT_THROW(getSRCHexwordFields(theInvalidRWord, "foo"),
std::runtime_error);
}
TEST_F(RegistryTest, TestGetSRCSymptomIDFields)
{
using namespace openpower::pels::message::helper;
const auto sID = R"(
{
"SymptomIDFields": ["SRCWord3", "SRCWord4", "SRCWord5"]
})"_json;
auto fields = getSRCSymptomIDFields(sID, "foo");
EXPECT_NE(std::find(fields->begin(), fields->end(), 3), fields->end());
EXPECT_NE(std::find(fields->begin(), fields->end(), 4), fields->end());
EXPECT_NE(std::find(fields->begin(), fields->end(), 5), fields->end());
const auto badField = R"(
{
"SymptomIDFields": ["SRCWord3", "SRCWord4", "SRCWord"]
})"_json;
EXPECT_THROW(getSRCSymptomIDFields(badField, "foo"), std::runtime_error);
}
TEST_F(RegistryTest, TestGetComponentID)
{
using namespace openpower::pels::message::helper;
// Get it from the JSON
auto id =
getComponentID(0xBD, 0x4200, R"({"ComponentID":"0x4200"})"_json, "foo");
EXPECT_EQ(id, 0x4200);
// Get it from the reason code on a 0xBD SRC
id = getComponentID(0xBD, 0x6700, R"({})"_json, "foo");
EXPECT_EQ(id, 0x6700);
// Not present on a 0x11 SRC
EXPECT_THROW(getComponentID(0x11, 0x8800, R"({})"_json, "foo"),
std::runtime_error);
}
// Test when callouts are in the JSON.
TEST_F(RegistryTest, TestGetCallouts)
{
std::vector<std::string> names;
{
// Callouts without AD, that depend on system type,
// where there is a default entry without a system type.
auto json = R"(
[
{
"System": "system1",
"CalloutList":
[
{
"Priority": "high",
"LocCode": "P1-C1"
},
{
"Priority": "low",
"LocCode": "P1"
},
{
"Priority": "low",
"SymbolicFRU": "service_docs"
},
{
"Priority": "low",
"SymbolicFRUTrusted": "air_mover",
"UseInventoryLocCode": true
}
]
},
{
"CalloutList":
[
{
"Priority": "medium",
"Procedure": "bmc_code"
},
{
"Priority": "low",
"LocCode": "P3-C8",
"SymbolicFRUTrusted": "service_docs"
}
]
}
])"_json;
AdditionalData ad;
names.push_back("system1");
auto callouts = Registry::getCallouts(json, names, ad);
EXPECT_EQ(callouts.size(), 4);
EXPECT_EQ(callouts[0].priority, "high");
EXPECT_EQ(callouts[0].locCode, "P1-C1");
EXPECT_EQ(callouts[0].procedure, "");
EXPECT_EQ(callouts[0].symbolicFRU, "");
EXPECT_EQ(callouts[0].symbolicFRUTrusted, "");
EXPECT_EQ(callouts[1].priority, "low");
EXPECT_EQ(callouts[1].locCode, "P1");
EXPECT_EQ(callouts[1].procedure, "");
EXPECT_EQ(callouts[1].symbolicFRU, "");
EXPECT_EQ(callouts[1].symbolicFRUTrusted, "");
EXPECT_EQ(callouts[2].priority, "low");
EXPECT_EQ(callouts[2].locCode, "");
EXPECT_EQ(callouts[2].procedure, "");
EXPECT_EQ(callouts[2].symbolicFRU, "service_docs");
EXPECT_EQ(callouts[2].symbolicFRUTrusted, "");
EXPECT_EQ(callouts[3].priority, "low");
EXPECT_EQ(callouts[3].locCode, "");
EXPECT_EQ(callouts[3].procedure, "");
EXPECT_EQ(callouts[3].symbolicFRU, "");
EXPECT_EQ(callouts[3].symbolicFRUTrusted, "air_mover");
EXPECT_EQ(callouts[3].useInventoryLocCode, true);
// system2 isn't in the JSON, so it will pick the default one
names[0] = "system2";
callouts = Registry::getCallouts(json, names, ad);
EXPECT_EQ(callouts.size(), 2);
EXPECT_EQ(callouts[0].priority, "medium");
EXPECT_EQ(callouts[0].locCode, "");
EXPECT_EQ(callouts[0].procedure, "bmc_code");
EXPECT_EQ(callouts[0].symbolicFRU, "");
EXPECT_EQ(callouts[1].priority, "low");
EXPECT_EQ(callouts[1].locCode, "P3-C8");
EXPECT_EQ(callouts[1].procedure, "");
EXPECT_EQ(callouts[1].symbolicFRU, "");
EXPECT_EQ(callouts[1].symbolicFRUTrusted, "service_docs");
EXPECT_EQ(callouts[1].useInventoryLocCode, false);
}
// Empty JSON array (treated as an error)
{
auto json = R"([])"_json;
AdditionalData ad;
names[0] = "system1";
EXPECT_THROW(Registry::getCallouts(json, names, ad),
std::runtime_error);
}
{
// Callouts without AD, that depend on system type,
// where there isn't a default entry without a system type.
auto json = R"(
[
{
"System": "system1",
"CalloutList":
[
{
"Priority": "high",
"LocCode": "P1-C1"
},
{
"Priority": "low",
"LocCode": "P1",
"SymbolicFRU": "1234567"
}
]
},
{
"System": "system2",
"CalloutList":
[
{
"Priority": "medium",
"LocCode": "P7",
"CalloutType": "tool_fru"
}
]
}
])"_json;
AdditionalData ad;
names[0] = "system1";
auto callouts = Registry::getCallouts(json, names, ad);
EXPECT_EQ(callouts.size(), 2);
EXPECT_EQ(callouts[0].priority, "high");
EXPECT_EQ(callouts[0].locCode, "P1-C1");
EXPECT_EQ(callouts[0].procedure, "");
EXPECT_EQ(callouts[0].symbolicFRU, "");
EXPECT_EQ(callouts[0].symbolicFRUTrusted, "");
EXPECT_EQ(callouts[1].priority, "low");
EXPECT_EQ(callouts[1].locCode, "P1");
EXPECT_EQ(callouts[1].procedure, "");
EXPECT_EQ(callouts[1].symbolicFRU, "1234567");
EXPECT_EQ(callouts[1].symbolicFRUTrusted, "");
names[0] = "system2";
callouts = Registry::getCallouts(json, names, ad);
EXPECT_EQ(callouts.size(), 1);
EXPECT_EQ(callouts[0].priority, "medium");
EXPECT_EQ(callouts[0].locCode, "P7");
EXPECT_EQ(callouts[0].procedure, "");
EXPECT_EQ(callouts[0].symbolicFRU, "");
EXPECT_EQ(callouts[0].symbolicFRUTrusted, "");
// There is no entry for system3 or a default system,
// so this should fail.
names[0] = "system3";
EXPECT_THROW(Registry::getCallouts(json, names, ad),
std::runtime_error);
}
{
// Callouts that use the AdditionalData key PROC_NUM
// as an index into them, along with a system type.
// It supports PROC_NUMs 0 and 1.
auto json = R"(
{
"ADName": "PROC_NUM",
"CalloutsWithTheirADValues":
[
{
"ADValue": "0",
"Callouts":
[
{
"System": "system3",
"CalloutList":
[
{
"Priority": "high",
"LocCode": "P1-C5"
},
{
"Priority": "medium",
"LocCode": "P1-C6",
"SymbolicFRU": "1234567"
},
{
"Priority": "low",
"Procedure": "bmc_code",
"CalloutType": "config_procedure"
}
]
},
{
"CalloutList":
[
{
"Priority": "low",
"LocCode": "P55"
}
]
}
]
},
{
"ADValue": "1",
"Callouts":
[
{
"CalloutList":
[
{
"Priority": "high",
"LocCode": "P1-C6",
"CalloutType": "external_fru"
}
]
}
]
}
]
})"_json;
{
// Find callouts for PROC_NUM 0 on system3
std::vector<std::string> adData{"PROC_NUM=0"};
AdditionalData ad{adData};
names[0] = "system3";
auto callouts = Registry::getCallouts(json, names, ad);
EXPECT_EQ(callouts.size(), 3);
EXPECT_EQ(callouts[0].priority, "high");
EXPECT_EQ(callouts[0].locCode, "P1-C5");
EXPECT_EQ(callouts[0].procedure, "");
EXPECT_EQ(callouts[0].symbolicFRU, "");
EXPECT_EQ(callouts[0].symbolicFRUTrusted, "");
EXPECT_EQ(callouts[1].priority, "medium");
EXPECT_EQ(callouts[1].locCode, "P1-C6");
EXPECT_EQ(callouts[1].procedure, "");
EXPECT_EQ(callouts[1].symbolicFRU, "1234567");
EXPECT_EQ(callouts[1].symbolicFRUTrusted, "");
EXPECT_EQ(callouts[2].priority, "low");
EXPECT_EQ(callouts[2].locCode, "");
EXPECT_EQ(callouts[2].procedure, "bmc_code");
EXPECT_EQ(callouts[2].symbolicFRU, "");
EXPECT_EQ(callouts[2].symbolicFRUTrusted, "");
// Find callouts for PROC_NUM 0 that uses the default system entry.
names[0] = "system99";
callouts = Registry::getCallouts(json, names, ad);
EXPECT_EQ(callouts.size(), 1);
EXPECT_EQ(callouts[0].priority, "low");
EXPECT_EQ(callouts[0].locCode, "P55");
EXPECT_EQ(callouts[0].procedure, "");
EXPECT_EQ(callouts[0].symbolicFRU, "");
EXPECT_EQ(callouts[0].symbolicFRUTrusted, "");
}
{
// Find callouts for PROC_NUM 1 that uses a default system entry.
std::vector<std::string> adData{"PROC_NUM=1"};
AdditionalData ad{adData};
names[0] = "system1";
auto callouts = Registry::getCallouts(json, names, ad);
EXPECT_EQ(callouts.size(), 1);
EXPECT_EQ(callouts[0].priority, "high");
EXPECT_EQ(callouts[0].locCode, "P1-C6");
EXPECT_EQ(callouts[0].procedure, "");
EXPECT_EQ(callouts[0].symbolicFRU, "");
EXPECT_EQ(callouts[0].symbolicFRUTrusted, "");
}
{
// There is no entry for PROC_NUM 2, so no callouts
std::vector<std::string> adData{"PROC_NUM=2"};
AdditionalData ad{adData};
auto callouts = Registry::getCallouts(json, names, ad);
EXPECT_TRUE(callouts.empty());
}
}
}