blob: bab64fc48a784b8d5cfce4cd103a0e5e4c658c61 [file] [log] [blame]
#include "common/utils.hpp"
#include "mocked_utils.hpp"
#include <libpldm/platform.h>
#include <linux/mctp.h>
#include <gtest/gtest.h>
using namespace pldm::utils;
TEST(GetInventoryObjects, testForEmptyObject)
{
ObjectValueTree result =
DBusHandler::getInventoryObjects<GetManagedEmptyObject>();
EXPECT_TRUE(result.empty());
}
TEST(GetInventoryObjects, testForObject)
{
std::string path = "/foo/bar";
std::string service = "foo.bar";
auto result = DBusHandler::getInventoryObjects<GetManagedObject>();
EXPECT_EQ(result[path].begin()->first, service);
auto function =
std::get<bool>(result[path][service][std::string("Functional")]);
auto model =
std::get<std::string>(result[path][service][std::string("Model")]);
EXPECT_FALSE(result.empty());
EXPECT_TRUE(function);
EXPECT_EQ(model, std::string("1234 - 00Z"));
}
TEST(printBuffer, testprintBufferGoodPath)
{
std::vector<uint8_t> buffer = {10, 12, 14, 25, 233};
std::ostringstream localString;
auto coutBuffer = std::cout.rdbuf();
std::cout.rdbuf(localString.rdbuf());
printBuffer(false, buffer);
std::cout.rdbuf(coutBuffer);
EXPECT_EQ(localString.str(), "Rx: 0a 0c 0e 19 e9 \n");
localString.str("");
localString.clear();
std::cerr << localString.str() << std::endl;
buffer = {12, 0, 200, 12, 255};
std::cout.rdbuf(localString.rdbuf());
printBuffer(true, buffer);
std::cout.rdbuf(coutBuffer);
EXPECT_EQ(localString.str(), "Tx: 0c 00 c8 0c ff \n");
}
TEST(printBuffer, testprintBufferBadPath)
{
std::vector<uint8_t> buffer = {};
std::ostringstream localString;
auto coutBuffer = std::cout.rdbuf();
std::cout.rdbuf(localString.rdbuf());
printBuffer(false, buffer);
EXPECT_EQ(localString.str(), "");
printBuffer(true, buffer);
std::cout.rdbuf(coutBuffer);
EXPECT_EQ(localString.str(), "");
}
TEST(decodeDate, testGooduintToDate)
{
uint64_t data = 20191212115959;
uint16_t year = 2019;
uint8_t month = 12;
uint8_t day = 12;
uint8_t hours = 11;
uint8_t minutes = 59;
uint8_t seconds = 59;
uint16_t retyear = 0;
uint8_t retmonth = 0;
uint8_t retday = 0;
uint8_t rethours = 0;
uint8_t retminutes = 0;
uint8_t retseconds = 0;
auto ret = uintToDate(data, &retyear, &retmonth, &retday, &rethours,
&retminutes, &retseconds);
EXPECT_EQ(ret, true);
EXPECT_EQ(year, retyear);
EXPECT_EQ(month, retmonth);
EXPECT_EQ(day, retday);
EXPECT_EQ(hours, rethours);
EXPECT_EQ(minutes, retminutes);
EXPECT_EQ(seconds, retseconds);
}
TEST(decodeDate, testBaduintToDate)
{
uint64_t data = 10191212115959;
uint16_t retyear = 0;
uint8_t retmonth = 0;
uint8_t retday = 0;
uint8_t rethours = 0;
uint8_t retminutes = 0;
uint8_t retseconds = 0;
auto ret = uintToDate(data, &retyear, &retmonth, &retday, &rethours,
&retminutes, &retseconds);
EXPECT_EQ(ret, false);
}
TEST(parseEffecterData, testGoodDecodeEffecterData)
{
std::vector<uint8_t> effecterData = {1, 1, 0, 1};
uint8_t effecterCount = 2;
set_effecter_state_field stateField0 = {1, 1};
set_effecter_state_field stateField1 = {0, 1};
auto effecterField = parseEffecterData(effecterData, effecterCount);
EXPECT_NE(effecterField, std::nullopt);
EXPECT_EQ(effecterCount, effecterField->size());
std::vector<set_effecter_state_field> stateField = effecterField.value();
EXPECT_EQ(stateField[0].set_request, stateField0.set_request);
EXPECT_EQ(stateField[0].effecter_state, stateField0.effecter_state);
EXPECT_EQ(stateField[1].set_request, stateField1.set_request);
EXPECT_EQ(stateField[1].effecter_state, stateField1.effecter_state);
}
TEST(parseEffecterData, testBadDecodeEffecterData)
{
std::vector<uint8_t> effecterData = {0, 1, 0, 1, 0, 1};
uint8_t effecterCount = 2;
auto effecterField = parseEffecterData(effecterData, effecterCount);
EXPECT_EQ(effecterField, std::nullopt);
}
TEST(FindStateEffecterPDR, testOneMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 33;
uint16_t stateSetId = 196;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec = reinterpret_cast<pldm_state_effecter_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_effecter_possible_states*>(rec->possible_states);
rec->hdr.type = 11;
rec->hdr.record_handle = 1;
rec->entity_type = 33;
rec->container_id = 0;
rec->composite_effecter_count = 1;
state->state_set_id = 196;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
auto record = findStateEffecterPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(pdr, record[0]);
pldm_pdr_destroy(repo);
}
TEST(FindStateEffecterPDR, testNoMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 44;
uint16_t stateSetId = 196;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec = reinterpret_cast<pldm_state_effecter_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_effecter_possible_states*>(rec->possible_states);
rec->hdr.type = 11;
rec->hdr.record_handle = 1;
rec->entity_type = 33;
rec->container_id = 0;
rec->composite_effecter_count = 1;
state->state_set_id = 196;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
auto record = findStateEffecterPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(record.empty(), true);
pldm_pdr_destroy(repo);
}
TEST(FindStateEffecterPDR, testEmptyRepo)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 33;
uint16_t stateSetId = 196;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto record = findStateEffecterPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(record.empty(), true);
pldm_pdr_destroy(repo);
}
TEST(FindStateEffecterPDR, testMoreMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec = reinterpret_cast<pldm_state_effecter_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_effecter_possible_states*>(rec->possible_states);
rec->hdr.type = 11;
rec->hdr.record_handle = 1;
rec->entity_type = 31;
rec->container_id = 0;
rec->composite_effecter_count = 1;
state->state_set_id = 129;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
std::vector<uint8_t> pdr_second(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec_second =
reinterpret_cast<pldm_state_effecter_pdr*>(pdr_second.data());
auto state_second = reinterpret_cast<state_effecter_possible_states*>(
rec_second->possible_states);
rec_second->hdr.type = 11;
rec_second->hdr.record_handle = 2;
rec_second->entity_type = 31;
rec_second->container_id = 0;
rec_second->composite_effecter_count = 1;
state_second->state_set_id = 129;
state_second->possible_states_size = 1;
handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr_second.data(), pdr_second.size(), false, 1,
&handle),
0);
uint16_t entityID_ = 31;
uint16_t stateSetId_ = 129;
auto record = findStateEffecterPDR(tid, entityID_, stateSetId_, repo);
EXPECT_EQ(pdr, record[0]);
EXPECT_EQ(pdr_second, record[1]);
pldm_pdr_destroy(repo);
}
TEST(FindStateEffecterPDR, testManyNoMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 33;
uint16_t stateSetId = 196;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec = reinterpret_cast<pldm_state_effecter_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_effecter_possible_states*>(rec->possible_states);
rec->hdr.type = 11;
rec->hdr.record_handle = 1;
rec->entity_type = 34;
rec->container_id = 0;
rec->composite_effecter_count = 1;
state->state_set_id = 198;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
std::vector<uint8_t> pdr_second(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec_second =
reinterpret_cast<pldm_state_effecter_pdr*>(pdr_second.data());
auto state_second = reinterpret_cast<state_effecter_possible_states*>(
rec_second->possible_states);
rec_second->hdr.type = 11;
rec_second->hdr.record_handle = 2;
rec_second->entity_type = 39;
rec_second->container_id = 0;
rec_second->composite_effecter_count = 1;
state_second->state_set_id = 169;
state_second->possible_states_size = 1;
handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr_second.data(), pdr_second.size(), false, 1,
&handle),
0);
auto record = findStateEffecterPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(record.empty(), true);
pldm_pdr_destroy(repo);
}
TEST(FindStateEffecterPDR, testOneMatchOneNoMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 67;
uint16_t stateSetId = 192;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec = reinterpret_cast<pldm_state_effecter_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_effecter_possible_states*>(rec->possible_states);
rec->hdr.type = 11;
rec->hdr.record_handle = 1;
rec->entity_type = 32;
rec->container_id = 0;
rec->composite_effecter_count = 1;
state->state_set_id = 198;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
std::vector<uint8_t> pdr_second(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec_second =
reinterpret_cast<pldm_state_effecter_pdr*>(pdr_second.data());
auto state_second = reinterpret_cast<state_effecter_possible_states*>(
rec_second->possible_states);
rec_second->hdr.type = 11;
rec_second->hdr.record_handle = 2;
rec_second->entity_type = 67;
rec_second->container_id = 0;
rec_second->composite_effecter_count = 1;
state_second->state_set_id = 192;
state_second->possible_states_size = 1;
handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr_second.data(), pdr_second.size(), false, 1,
&handle),
0);
auto record = findStateEffecterPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(pdr_second, record[0]);
EXPECT_EQ(record.size(), 1);
pldm_pdr_destroy(repo);
}
TEST(FindStateEffecterPDR, testOneMatchManyNoMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 67;
uint16_t stateSetId = 192;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec = reinterpret_cast<pldm_state_effecter_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_effecter_possible_states*>(rec->possible_states);
rec->hdr.type = 11;
rec->hdr.record_handle = 1;
rec->entity_type = 32;
rec->container_id = 0;
rec->composite_effecter_count = 1;
state->state_set_id = 198;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
std::vector<uint8_t> pdr_second(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec_second =
reinterpret_cast<pldm_state_effecter_pdr*>(pdr_second.data());
auto state_second = reinterpret_cast<state_effecter_possible_states*>(
rec_second->possible_states);
rec_second->hdr.type = 11;
rec_second->hdr.record_handle = 2;
rec_second->entity_type = 67;
rec_second->container_id = 0;
rec_second->composite_effecter_count = 1;
state_second->state_set_id = 192;
state_second->possible_states_size = 1;
handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr_second.data(), pdr_second.size(), false, 1,
&handle),
0);
std::vector<uint8_t> pdr_third(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states));
auto rec_third =
reinterpret_cast<pldm_state_effecter_pdr*>(pdr_third.data());
auto state_third = reinterpret_cast<state_effecter_possible_states*>(
rec_third->possible_states);
rec_third->hdr.type = 11;
rec_third->hdr.record_handle = 3;
rec_third->entity_type = 69;
rec_third->container_id = 0;
rec_third->composite_effecter_count = 1;
state_third->state_set_id = 199;
state_third->possible_states_size = 1;
auto record = findStateEffecterPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(pdr_second, record[0]);
EXPECT_EQ(record.size(), 1);
pldm_pdr_destroy(repo);
}
TEST(FindStateEffecterPDR, testCompositeEffecter)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 67;
uint16_t stateSetId = 192;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states) * 3);
auto rec = reinterpret_cast<pldm_state_effecter_pdr*>(pdr.data());
auto state_start = rec->possible_states;
auto state = reinterpret_cast<state_effecter_possible_states*>(state_start);
rec->hdr.type = 11;
rec->hdr.record_handle = 1;
rec->entity_type = 67;
rec->container_id = 0;
rec->composite_effecter_count = 3;
state->state_set_id = 198;
state->possible_states_size = 1;
state_start += state->possible_states_size + sizeof(state->state_set_id) +
sizeof(state->possible_states_size);
state = reinterpret_cast<state_effecter_possible_states*>(state_start);
state->state_set_id = 193;
state->possible_states_size = 1;
state_start += state->possible_states_size + sizeof(state->state_set_id) +
sizeof(state->possible_states_size);
state = reinterpret_cast<state_effecter_possible_states*>(state_start);
state->state_set_id = 192;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
auto record = findStateEffecterPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(pdr, record[0]);
pldm_pdr_destroy(repo);
}
TEST(FindStateEffecterPDR, testNoMatchCompositeEffecter)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 67;
uint16_t stateSetId = 192;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_effecter_pdr) - sizeof(uint8_t) +
sizeof(struct state_effecter_possible_states) * 3);
auto rec = reinterpret_cast<pldm_state_effecter_pdr*>(pdr.data());
auto state_start = rec->possible_states;
auto state = reinterpret_cast<state_effecter_possible_states*>(state_start);
rec->hdr.type = 11;
rec->hdr.record_handle = 1;
rec->entity_type = 34;
rec->container_id = 0;
rec->composite_effecter_count = 3;
state->state_set_id = 198;
state->possible_states_size = 1;
state_start += state->possible_states_size + sizeof(state->state_set_id) +
sizeof(state->possible_states_size);
state = reinterpret_cast<state_effecter_possible_states*>(state_start);
state->state_set_id = 193;
state->possible_states_size = 1;
state_start += state->possible_states_size + sizeof(state->state_set_id) +
sizeof(state->possible_states_size);
state = reinterpret_cast<state_effecter_possible_states*>(state_start);
state->state_set_id = 123;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
auto record = findStateEffecterPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(record.empty(), true);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testOneMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 5;
uint16_t stateSetId = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec = reinterpret_cast<pldm_state_sensor_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_sensor_possible_states*>(rec->possible_states);
rec->hdr.type = 4;
rec->hdr.record_handle = 1;
rec->entity_type = 5;
rec->container_id = 0;
rec->composite_sensor_count = 1;
state->state_set_id = 1;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
auto record = findStateSensorPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(pdr, record[0]);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testNoMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 5;
uint16_t stateSetId = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec = reinterpret_cast<pldm_state_sensor_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_sensor_possible_states*>(rec->possible_states);
rec->hdr.type = 4;
rec->hdr.record_handle = 1;
rec->entity_type = 55;
rec->container_id = 0;
rec->composite_sensor_count = 1;
state->state_set_id = 1;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
auto record = findStateSensorPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(record.empty(), true);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testEmptyRepo)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 5;
uint16_t stateSetId = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto record = findStateSensorPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(record.empty(), true);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testMoreMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec = reinterpret_cast<pldm_state_sensor_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_sensor_possible_states*>(rec->possible_states);
rec->hdr.type = 4;
rec->hdr.record_handle = 1;
rec->entity_type = 5;
rec->container_id = 0;
rec->composite_sensor_count = 1;
state->state_set_id = 1;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
std::vector<uint8_t> pdr_second(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec_second =
reinterpret_cast<pldm_state_sensor_pdr*>(pdr_second.data());
auto state_second = reinterpret_cast<state_sensor_possible_states*>(
rec_second->possible_states);
rec_second->hdr.type = 4;
rec_second->hdr.record_handle = 2;
rec_second->entity_type = 5;
rec_second->container_id = 0;
rec_second->composite_sensor_count = 1;
state_second->state_set_id = 1;
state_second->possible_states_size = 1;
handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr_second.data(), pdr_second.size(), false, 1,
&handle),
0);
uint16_t entityID_ = 5;
uint16_t stateSetId_ = 1;
auto record = findStateSensorPDR(tid, entityID_, stateSetId_, repo);
EXPECT_EQ(pdr, record[0]);
EXPECT_EQ(pdr_second, record[1]);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testManyNoMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 5;
uint16_t stateSetId = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec = reinterpret_cast<pldm_state_sensor_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_sensor_possible_states*>(rec->possible_states);
rec->hdr.type = 4;
rec->hdr.record_handle = 1;
rec->entity_type = 56;
rec->container_id = 0;
rec->composite_sensor_count = 1;
state->state_set_id = 2;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
std::vector<uint8_t> pdr_second(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec_second =
reinterpret_cast<pldm_state_sensor_pdr*>(pdr_second.data());
auto state_second = reinterpret_cast<state_sensor_possible_states*>(
rec_second->possible_states);
rec_second->hdr.type = 4;
rec_second->hdr.record_handle = 2;
rec_second->entity_type = 66;
rec_second->container_id = 0;
rec_second->composite_sensor_count = 1;
state_second->state_set_id = 3;
state_second->possible_states_size = 1;
handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr_second.data(), pdr_second.size(), false, 1,
&handle),
0);
auto record = findStateSensorPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(record.empty(), true);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testOneMatchOneNoMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 5;
uint16_t stateSetId = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec = reinterpret_cast<pldm_state_sensor_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_sensor_possible_states*>(rec->possible_states);
rec->hdr.type = 4;
rec->hdr.record_handle = 1;
rec->entity_type = 10;
rec->container_id = 0;
rec->composite_sensor_count = 1;
state->state_set_id = 20;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
std::vector<uint8_t> pdr_second(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec_second =
reinterpret_cast<pldm_state_sensor_pdr*>(pdr_second.data());
auto state_second = reinterpret_cast<state_sensor_possible_states*>(
rec_second->possible_states);
rec_second->hdr.type = 4;
rec_second->hdr.record_handle = 2;
rec_second->entity_type = 5;
rec_second->container_id = 0;
rec_second->composite_sensor_count = 1;
state_second->state_set_id = 1;
state_second->possible_states_size = 1;
handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr_second.data(), pdr_second.size(), false, 1,
&handle),
0);
auto record = findStateSensorPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(pdr_second, record[0]);
EXPECT_EQ(record.size(), 1);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testOneMatchManyNoMatch)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 5;
uint16_t stateSetId = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec = reinterpret_cast<pldm_state_sensor_pdr*>(pdr.data());
auto state =
reinterpret_cast<state_sensor_possible_states*>(rec->possible_states);
rec->hdr.type = 4;
rec->hdr.record_handle = 1;
rec->entity_type = 6;
rec->container_id = 0;
rec->composite_sensor_count = 1;
state->state_set_id = 9;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
std::vector<uint8_t> pdr_second(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec_second =
reinterpret_cast<pldm_state_sensor_pdr*>(pdr_second.data());
auto state_second = reinterpret_cast<state_sensor_possible_states*>(
rec_second->possible_states);
rec_second->hdr.type = 4;
rec_second->hdr.record_handle = 2;
rec_second->entity_type = 5;
rec_second->container_id = 0;
rec_second->composite_sensor_count = 1;
state_second->state_set_id = 1;
state_second->possible_states_size = 1;
handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr_second.data(), pdr_second.size(), false, 1,
&handle),
0);
std::vector<uint8_t> pdr_third(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states));
auto rec_third = reinterpret_cast<pldm_state_sensor_pdr*>(pdr_third.data());
auto state_third = reinterpret_cast<state_sensor_possible_states*>(
rec_third->possible_states);
rec_third->hdr.type = 4;
rec_third->hdr.record_handle = 3;
rec_third->entity_type = 7;
rec_third->container_id = 0;
rec_third->composite_sensor_count = 1;
state_third->state_set_id = 12;
state_third->possible_states_size = 1;
auto record = findStateSensorPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(pdr_second, record[0]);
EXPECT_EQ(record.size(), 1);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testCompositeSensor)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 5;
uint16_t stateSetId = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states) * 3);
auto rec = reinterpret_cast<pldm_state_sensor_pdr*>(pdr.data());
auto state_start = rec->possible_states;
auto state = reinterpret_cast<state_sensor_possible_states*>(state_start);
rec->hdr.type = 4;
rec->hdr.record_handle = 1;
rec->entity_type = 5;
rec->container_id = 0;
rec->composite_sensor_count = 3;
state->state_set_id = 2;
state->possible_states_size = 1;
state_start += state->possible_states_size + sizeof(state->state_set_id) +
sizeof(state->possible_states_size);
state = reinterpret_cast<state_sensor_possible_states*>(state_start);
state->state_set_id = 7;
state->possible_states_size = 1;
state_start += state->possible_states_size + sizeof(state->state_set_id) +
sizeof(state->possible_states_size);
state = reinterpret_cast<state_sensor_possible_states*>(state_start);
state->state_set_id = 1;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
auto record = findStateSensorPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(pdr, record[0]);
pldm_pdr_destroy(repo);
}
TEST(FindStateSensorPDR, testNoMatchCompositeSensor)
{
auto repo = pldm_pdr_init();
uint8_t tid = 1;
uint16_t entityID = 5;
uint16_t stateSetId = 1;
std::vector<uint8_t> pdr(
sizeof(struct pldm_state_sensor_pdr) - sizeof(uint8_t) +
sizeof(struct state_sensor_possible_states) * 3);
auto rec = reinterpret_cast<pldm_state_sensor_pdr*>(pdr.data());
auto state_start = rec->possible_states;
auto state = reinterpret_cast<state_sensor_possible_states*>(state_start);
rec->hdr.type = 4;
rec->hdr.record_handle = 1;
rec->entity_type = 21;
rec->container_id = 0;
rec->composite_sensor_count = 3;
state->state_set_id = 15;
state->possible_states_size = 1;
state_start += state->possible_states_size + sizeof(state->state_set_id) +
sizeof(state->possible_states_size);
state = reinterpret_cast<state_sensor_possible_states*>(state_start);
state->state_set_id = 19;
state->possible_states_size = 1;
state_start += state->possible_states_size + sizeof(state->state_set_id) +
sizeof(state->possible_states_size);
state = reinterpret_cast<state_sensor_possible_states*>(state_start);
state->state_set_id = 39;
state->possible_states_size = 1;
uint32_t handle = 0;
ASSERT_EQ(pldm_pdr_add(repo, pdr.data(), pdr.size(), false, 1, &handle), 0);
auto record = findStateSensorPDR(tid, entityID, stateSetId, repo);
EXPECT_EQ(record.empty(), true);
pldm_pdr_destroy(repo);
}
TEST(toString, allTestCases)
{
variable_field buffer{};
constexpr std::string_view str1{};
auto returnStr1 = toString(buffer);
EXPECT_EQ(returnStr1, str1);
constexpr std::string_view str2{"0penBmc"};
constexpr std::array<uint8_t, 7> bufferArr1{0x30, 0x70, 0x65, 0x6e,
0x42, 0x6d, 0x63};
buffer.ptr = bufferArr1.data();
buffer.length = bufferArr1.size();
auto returnStr2 = toString(buffer);
EXPECT_EQ(returnStr2, str2);
constexpr std::string_view str3{"0pen mc"};
// \xa0 - the non-breaking space in ISO-8859-1
constexpr std::array<uint8_t, 7> bufferArr2{0x30, 0x70, 0x65, 0x6e,
0xa0, 0x6d, 0x63};
buffer.ptr = bufferArr2.data();
buffer.length = bufferArr2.size();
auto returnStr3 = toString(buffer);
EXPECT_EQ(returnStr3, str3);
}
TEST(Split, allTestCases)
{
std::string s1 = "aa,bb,cc,dd";
auto results1 = split(s1, ",");
EXPECT_EQ(results1[0], "aa");
EXPECT_EQ(results1[1], "bb");
EXPECT_EQ(results1[2], "cc");
EXPECT_EQ(results1[3], "dd");
std::string s2 = "aa||bb||cc||dd";
auto results2 = split(s2, "||");
EXPECT_EQ(results2[0], "aa");
EXPECT_EQ(results2[1], "bb");
EXPECT_EQ(results2[2], "cc");
EXPECT_EQ(results2[3], "dd");
std::string s3 = " aa || bb||cc|| dd";
auto results3 = split(s3, "||", " ");
EXPECT_EQ(results3[0], "aa");
EXPECT_EQ(results3[1], "bb");
EXPECT_EQ(results3[2], "cc");
EXPECT_EQ(results3[3], "dd");
std::string s4 = "aa\\\\bb\\cc\\dd";
auto results4 = split(s4, "\\");
EXPECT_EQ(results4[0], "aa");
EXPECT_EQ(results4[1], "bb");
EXPECT_EQ(results4[2], "cc");
EXPECT_EQ(results4[3], "dd");
std::string s5 = "aa\\";
auto results5 = split(s5, "\\");
EXPECT_EQ(results5[0], "aa");
}
TEST(ValidEID, allTestCases)
{
auto rc = isValidEID(MCTP_ADDR_NULL);
EXPECT_EQ(rc, false);
rc = isValidEID(MCTP_ADDR_ANY);
EXPECT_EQ(rc, false);
rc = isValidEID(1);
EXPECT_EQ(rc, false);
rc = isValidEID(2);
EXPECT_EQ(rc, false);
rc = isValidEID(3);
EXPECT_EQ(rc, false);
rc = isValidEID(4);
EXPECT_EQ(rc, false);
rc = isValidEID(5);
EXPECT_EQ(rc, false);
rc = isValidEID(6);
EXPECT_EQ(rc, false);
rc = isValidEID(7);
EXPECT_EQ(rc, false);
rc = isValidEID(MCTP_START_VALID_EID);
EXPECT_EQ(rc, true);
rc = isValidEID(254);
EXPECT_EQ(rc, true);
}
TEST(TrimNameForDbus, goodTest)
{
std::string name = "Name with space";
std::string_view expectedName = "Name_with__space";
std::string_view result = trimNameForDbus(name);
EXPECT_EQ(expectedName, result);
name = "Name 1\0";
expectedName = "Name_1";
result = trimNameForDbus(name);
EXPECT_EQ(expectedName, result);
}
TEST(dbusPropValuesToDouble, goodTest)
{
double value = 0;
bool ret =
dbusPropValuesToDouble("uint8_t", static_cast<uint8_t>(0x12), &value);
EXPECT_EQ(true, ret);
EXPECT_EQ(0x12, value);
ret =
dbusPropValuesToDouble("int16_t", static_cast<int16_t>(0x1234), &value);
EXPECT_EQ(true, ret);
EXPECT_EQ(0x1234, value);
ret = dbusPropValuesToDouble("uint16_t", static_cast<uint16_t>(0x8234),
&value);
EXPECT_EQ(true, ret);
EXPECT_EQ(0x8234, value);
ret = dbusPropValuesToDouble("int32_t", static_cast<int32_t>(0x12345678),
&value);
EXPECT_EQ(true, ret);
EXPECT_EQ(0x12345678, value);
ret = dbusPropValuesToDouble("uint32_t", static_cast<uint32_t>(0x82345678),
&value);
EXPECT_EQ(true, ret);
EXPECT_EQ(0x82345678, value);
ret = dbusPropValuesToDouble(
"int64_t", static_cast<int64_t>(0x1234567898765432), &value);
EXPECT_EQ(true, ret);
EXPECT_EQ(0x1234567898765432, value);
ret = dbusPropValuesToDouble(
"uint64_t", static_cast<uint64_t>(0x8234567898765432), &value);
EXPECT_EQ(true, ret);
EXPECT_EQ(0x8234567898765432, value);
ret = dbusPropValuesToDouble("double", static_cast<double>(1234.5678),
&value);
EXPECT_EQ(true, ret);
EXPECT_EQ(1234.5678, value);
}
TEST(dbusPropValuesToDouble, badTest)
{
double value = std::numeric_limits<double>::quiet_NaN();
/* Type and Data variant are different */
bool ret =
dbusPropValuesToDouble("uint8_t", static_cast<uint16_t>(0x12), &value);
EXPECT_EQ(false, ret);
/* Unsupported Types */
ret = dbusPropValuesToDouble("string", static_cast<std::string>("hello"),
&value);
EXPECT_EQ(false, ret);
ret = dbusPropValuesToDouble("bool", static_cast<bool>(true), &value);
EXPECT_EQ(false, ret);
ret = dbusPropValuesToDouble("vector<uint8_t>",
static_cast<std::string>("hello"), &value);
EXPECT_EQ(false, ret);
ret = dbusPropValuesToDouble("vector<string>",
static_cast<std::string>("hello"), &value);
EXPECT_EQ(false, ret);
/* Support Type but Data Type is unsupported */
ret = dbusPropValuesToDouble("double", static_cast<std::string>("hello"),
&value);
EXPECT_EQ(false, ret);
/* Null pointer */
ret = dbusPropValuesToDouble("double", static_cast<std::string>("hello"),
nullptr);
EXPECT_EQ(false, ret);
}