/** * 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/paths.hpp" #include "extensions/openpower-pels/repository.hpp" #include "pel_utils.hpp" #include #include #include using namespace openpower::pels; namespace fs = std::filesystem; /** * Clean the Repo after every testcase. * And because we have PEL object, also clean up * the log ID. */ class RepositoryTest : public CleanLogID { protected: void SetUp() override { repoPath = getPELRepoPath(); } void TearDown() override { fs::remove_all(repoPath); } fs::path repoPath; }; TEST_F(RepositoryTest, FilenameTest) { BCDTime date = {0x20, 0x30, 0x11, 0x28, 0x13, 0x6, 0x7, 0x8}; EXPECT_EQ(Repository::getPELFilename(0x12345678, date), "2030112813060708_12345678"); EXPECT_EQ(Repository::getPELFilename(0xAABBCCDD, date), "2030112813060708_AABBCCDD"); EXPECT_EQ(Repository::getPELFilename(0x3AFF1, date), "2030112813060708_0003AFF1"); EXPECT_EQ(Repository::getPELFilename(100, date), "2030112813060708_00000064"); EXPECT_EQ(Repository::getPELFilename(0, date), "2030112813060708_00000000"); } TEST_F(RepositoryTest, AddTest) { Repository repo{repoPath}; auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data); repo.add(pel); // Check that the PEL was stored where it was supposed to be, // and that it wrote the PEL data. const auto ts = pel->privateHeader().commitTimestamp(); auto name = Repository::getPELFilename(pel->id(), ts); fs::path file = repoPath / "logs" / name; EXPECT_TRUE(fs::exists(file)); auto newData = readPELFile(file); auto pelData = pel->data(); EXPECT_EQ(*newData, pelData); EXPECT_EQ(repo.lastPelID(), pel->id()); } TEST_F(RepositoryTest, RemoveTest) { using pelID = Repository::LogID::Pel; using obmcID = Repository::LogID::Obmc; // Add and remove a PEL from the repo Repository repo{repoPath}; auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data, 1); pel->assignID(); Repository::LogID id{pelID{pel->id()}, obmcID{pel->obmcLogID()}}; repo.add(pel); auto removedID = repo.remove(id); ASSERT_TRUE(removedID); EXPECT_EQ(*removedID, id); EXPECT_FALSE(repo.hasPEL(id)); // Try to remove it again, not there EXPECT_FALSE(repo.remove(id)); } TEST_F(RepositoryTest, RestoreTest) { using pelID = Repository::LogID::Pel; using obmcID = Repository::LogID::Obmc; std::vector ids; { Repository repo{repoPath}; // Add some PELs to the repository { auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data, 1); pel->assignID(); repo.add(pel); ids.emplace_back(pelID(pel->id()), obmcID(1)); } { auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data, 2); pel->assignID(); repo.add(pel); ids.emplace_back(pelID(pel->id()), obmcID(2)); } // Check they're there EXPECT_TRUE(repo.hasPEL(ids[0])); EXPECT_TRUE(repo.hasPEL(ids[1])); // Do some other search tests while we're here. // Search based on PEL ID Repository::LogID id(pelID(ids[0].pelID)); EXPECT_TRUE(repo.hasPEL(id)); // Search based on OBMC log ID id.pelID.id = 0; id.obmcID = ids[0].obmcID; EXPECT_TRUE(repo.hasPEL(id)); // ... based on the other PEL ID id.pelID = ids[1].pelID; id.obmcID.id = 0; EXPECT_TRUE(repo.hasPEL(id)); // Not found id.pelID.id = 99; id.obmcID.id = 100; EXPECT_FALSE(repo.hasPEL(id)); // Try to remove it anyway EXPECT_FALSE(repo.remove(id)); } { // Restore and check they're still there, then // remove them. Repository repo{repoPath}; EXPECT_TRUE(repo.hasPEL(ids[0])); EXPECT_TRUE(repo.hasPEL(ids[1])); repo.remove(ids[0]); EXPECT_FALSE(repo.hasPEL(ids[0])); repo.remove(ids[1]); EXPECT_FALSE(repo.hasPEL(ids[1])); } } TEST_F(RepositoryTest, TestGetPELData) { using ID = Repository::LogID; Repository repo{repoPath}; ID badID{ID::Pel(42)}; auto noData = repo.getPELData(badID); EXPECT_FALSE(noData); // Add a PEL to the repo, and get the data back with getPELData. auto data = pelDataFactory(TestPELType::pelSimple); auto dataCopy = data; auto pel = std::make_unique(data); auto pelID = pel->id(); repo.add(pel); ID id{ID::Pel(pelID)}; auto pelData = repo.getPELData(id); ASSERT_TRUE(pelData); EXPECT_EQ(dataCopy, *pelData); } TEST_F(RepositoryTest, TestForEach) { Repository repo{repoPath}; // Add 2 PELs auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data); repo.add(pel); pel = std::make_unique(data); pel->assignID(); pel->setCommitTime(); repo.add(pel); // Make a function that saves the IDs std::vector ids; Repository::ForEachFunc f1 = [&ids](const PEL& pel) { ids.push_back(pel.id()); return false; }; repo.for_each(f1); EXPECT_EQ(ids.size(), 2); // Stop after the first time in. Repository::ForEachFunc f2 = [&ids](const PEL& pel) { ids.push_back(pel.id()); return true; }; ids.clear(); repo.for_each(f2); EXPECT_EQ(ids.size(), 1); } TEST_F(RepositoryTest, TestSubscriptions) { std::vector added; std::vector removed; Repository::AddCallback ac = [&added](const PEL& pel) { added.push_back(pel.id()); }; Repository::DeleteCallback dc = [&removed](uint32_t id) { removed.push_back(id); }; Repository repo{repoPath}; repo.subscribeToAdds("test", ac); repo.subscribeToDeletes("test", dc); auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data); auto pelID = pel->id(); repo.add(pel); EXPECT_EQ(added.size(), 1); using ID = Repository::LogID; ID id{ID::Pel(pelID)}; repo.remove(id); EXPECT_EQ(removed.size(), 1); repo.unsubscribeFromAdds("test"); repo.unsubscribeFromDeletes("test"); added.clear(); removed.clear(); repo.add(pel); EXPECT_EQ(added.size(), 0); repo.remove(id); EXPECT_EQ(removed.size(), 0); } TEST_F(RepositoryTest, TestGetAttributes) { uint32_t pelID = 0; std::bitset<16> actionFlags; { Repository repo{repoPath}; // Add a PEL to the repo auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data); repo.add(pel); pelID = pel->id(); actionFlags = pel->userHeader().actionFlags(); using ID = Repository::LogID; ID id{ID::Pel(pelID)}; auto a = repo.getPELAttributes(id); EXPECT_TRUE(a); EXPECT_EQ((*a).get().actionFlags, actionFlags); id.pelID.id = 0; a = repo.getPELAttributes(id); EXPECT_FALSE(a); } { // Restore the repository and check again Repository repo{repoPath}; using ID = Repository::LogID; ID id{ID::Pel(pelID)}; auto a = repo.getPELAttributes(id); EXPECT_TRUE(a); EXPECT_EQ((*a).get().actionFlags, actionFlags); id.pelID.id = 0; a = repo.getPELAttributes(id); EXPECT_FALSE(a); } } TEST_F(RepositoryTest, TestSetHostState) { // Add a PEL to the repo auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data); using ID = Repository::LogID; ID id{ID::Pel(pel->id())}; { Repository repo{repoPath}; repo.add(pel); auto a = repo.getPELAttributes(id); EXPECT_EQ((*a).get().hostState, TransmissionState::newPEL); repo.setPELHostTransState(pel->id(), TransmissionState::acked); // First, check the attributes a = repo.getPELAttributes(id); EXPECT_EQ((*a).get().hostState, TransmissionState::acked); // Next, check the PEL data itself auto pelData = repo.getPELData(id); PEL newPEL{*pelData}; EXPECT_EQ(newPEL.hostTransmissionState(), TransmissionState::acked); } { // Now restore, and check again Repository repo{repoPath}; // First, check the attributes auto a = repo.getPELAttributes(id); EXPECT_EQ((*a).get().hostState, TransmissionState::acked); // Next, check the PEL data itself auto pelData = repo.getPELData(id); PEL newPEL{*pelData}; EXPECT_EQ(newPEL.hostTransmissionState(), TransmissionState::acked); } } TEST_F(RepositoryTest, TestSetHMCState) { // Add a PEL to the repo auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data); using ID = Repository::LogID; ID id{ID::Pel(pel->id())}; { Repository repo{repoPath}; repo.add(pel); auto a = repo.getPELAttributes(id); EXPECT_EQ((*a).get().hmcState, TransmissionState::newPEL); repo.setPELHMCTransState(pel->id(), TransmissionState::acked); // First, check the attributes a = repo.getPELAttributes(id); EXPECT_EQ((*a).get().hmcState, TransmissionState::acked); // Next, check the PEL data itself auto pelData = repo.getPELData(id); PEL newPEL{*pelData}; EXPECT_EQ(newPEL.hmcTransmissionState(), TransmissionState::acked); } { // Now restore, and check again Repository repo{repoPath}; // First, check the attributes auto a = repo.getPELAttributes(id); EXPECT_EQ((*a).get().hmcState, TransmissionState::acked); // Next, check the PEL data itself auto pelData = repo.getPELData(id); PEL newPEL{*pelData}; EXPECT_EQ(newPEL.hmcTransmissionState(), TransmissionState::acked); } } TEST_F(RepositoryTest, TestGetPELFD) { Repository repo{repoPath}; auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data); pel->setCommitTime(); pel->assignID(); repo.add(pel); using ID = Repository::LogID; ID id{ID::Pel(pel->id())}; auto fd = repo.getPELFD(id); EXPECT_TRUE(fd); // Get the size struct stat s; int r = fstat(*fd, &s); ASSERT_EQ(r, 0); auto size = s.st_size; // Read the PEL data out of the FD FILE* fp = fdopen(*fd, "r"); ASSERT_NE(fp, nullptr); std::vector newData; newData.resize(size); r = fread(newData.data(), 1, size, fp); EXPECT_EQ(r, size); PEL newPEL{newData}; EXPECT_TRUE(newPEL.valid()); EXPECT_EQ(newPEL.id(), pel->id()); fclose(fp); // Call getPELFD again, this time with a bad ID id.pelID.id = 42; fd = repo.getPELFD(id); EXPECT_FALSE(fd); } // Test the repo size statistics TEST_F(RepositoryTest, TestRepoSizes) { uint32_t id = 1; Repository repo{repoPath, 10000, 500}; // All of the size stats are the sizes on disk a PEL takes up, // which is different than the file size. Disk usage seems // to have a granularity of 4096 bytes. This probably shouldn't // be hardcoded, but I don't know how to look it up dynamically. // All sizes are zero { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 0); EXPECT_EQ(stats.bmc, 0); EXPECT_EQ(stats.nonBMC, 0); EXPECT_EQ(stats.bmcServiceable, 0); EXPECT_EQ(stats.bmcInfo, 0); EXPECT_EQ(stats.nonBMCServiceable, 0); EXPECT_EQ(stats.nonBMCInfo, 0); } // Add a 2000B BMC predictive error auto data = pelFactory(id++, 'O', 0x20, 0x8800, 2000); auto pel = std::make_unique(data); auto pelID1 = pel->id(); repo.add(pel); { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 4096); EXPECT_EQ(stats.bmc, 4096); EXPECT_EQ(stats.nonBMC, 0); EXPECT_EQ(stats.bmcServiceable, 4096); EXPECT_EQ(stats.bmcInfo, 0); EXPECT_EQ(stats.nonBMCServiceable, 0); EXPECT_EQ(stats.nonBMCInfo, 0); } // Add a 5000B BMC informational error data = pelFactory(id++, 'O', 0x00, 0x8800, 5000); pel = std::make_unique(data); auto pelID2 = pel->id(); repo.add(pel); { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 4096 + 8192); EXPECT_EQ(stats.bmc, 4096 + 8192); EXPECT_EQ(stats.nonBMC, 0); EXPECT_EQ(stats.bmcServiceable, 4096); EXPECT_EQ(stats.bmcInfo, 8192); EXPECT_EQ(stats.nonBMCServiceable, 0); EXPECT_EQ(stats.nonBMCInfo, 0); } // Add a 4000B Hostboot unrecoverable error data = pelFactory(id++, 'B', 0x40, 0x8800, 4000); pel = std::make_unique(data); auto pelID3 = pel->id(); repo.add(pel); { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 4096 + 8192 + 4096); EXPECT_EQ(stats.bmc, 4096 + 8192); EXPECT_EQ(stats.nonBMC, 4096); EXPECT_EQ(stats.bmcServiceable, 4096); EXPECT_EQ(stats.bmcInfo, 8192); EXPECT_EQ(stats.nonBMCServiceable, 4096); EXPECT_EQ(stats.nonBMCInfo, 0); } // Add a 5000B Hostboot informational error data = pelFactory(id++, 'B', 0x00, 0x8800, 5000); pel = std::make_unique(data); auto pelID4 = pel->id(); repo.add(pel); { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 4096 + 8192 + 4096 + 8192); EXPECT_EQ(stats.bmc, 4096 + 8192); EXPECT_EQ(stats.nonBMC, 4096 + 8192); EXPECT_EQ(stats.bmcServiceable, 4096); EXPECT_EQ(stats.bmcInfo, 8192); EXPECT_EQ(stats.nonBMCServiceable, 4096); EXPECT_EQ(stats.nonBMCInfo, 8192); } // Remove the BMC serviceable error using ID = Repository::LogID; ID id1{ID::Pel(pelID1)}; repo.remove(id1); { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 8192 + 4096 + 8192); EXPECT_EQ(stats.bmc, 8192); EXPECT_EQ(stats.nonBMC, 4096 + 8192); EXPECT_EQ(stats.bmcServiceable, 0); EXPECT_EQ(stats.bmcInfo, 8192); EXPECT_EQ(stats.nonBMCServiceable, 4096); EXPECT_EQ(stats.nonBMCInfo, 8192); } // Remove the Hostboot informational error ID id4{ID::Pel(pelID4)}; repo.remove(id4); { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 8192 + 4096); EXPECT_EQ(stats.bmc, 8192); EXPECT_EQ(stats.nonBMC, 4096); EXPECT_EQ(stats.bmcServiceable, 0); EXPECT_EQ(stats.bmcInfo, 8192); EXPECT_EQ(stats.nonBMCServiceable, 4096); EXPECT_EQ(stats.nonBMCInfo, 0); } // Remove the BMC informational error ID id2{ID::Pel(pelID2)}; repo.remove(id2); { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 4096); EXPECT_EQ(stats.bmc, 0); EXPECT_EQ(stats.nonBMC, 4096); EXPECT_EQ(stats.bmcServiceable, 0); EXPECT_EQ(stats.bmcInfo, 0); EXPECT_EQ(stats.nonBMCServiceable, 4096); EXPECT_EQ(stats.nonBMCInfo, 0); } // Remove the hostboot unrecoverable error ID id3{ID::Pel(pelID3)}; repo.remove(id3); { const auto& stats = repo.getSizeStats(); EXPECT_EQ(stats.total, 0); EXPECT_EQ(stats.bmc, 0); EXPECT_EQ(stats.nonBMC, 0); EXPECT_EQ(stats.bmcServiceable, 0); EXPECT_EQ(stats.bmcInfo, 0); EXPECT_EQ(stats.nonBMCServiceable, 0); EXPECT_EQ(stats.nonBMCInfo, 0); } } // Prune PELs, when no HMC/OS/PHYP acks TEST_F(RepositoryTest, TestPruneNoAcks) { std::vector id; Repository repo{repoPath, 4096 * 20, 100}; // Add 10 4096B (on disk) PELs of BMC nonInfo, Info and nonBMC info, // nonInfo errors. None of them acked by PHYP, host, or HMC. for (uint32_t i = 1; i <= 10; i++) { // BMC predictive auto data = pelFactory(i, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); // BMC info data = pelFactory(i + 100, 'O', 0x0, 0x8800, 500); pel = std::make_unique(data); repo.add(pel); // Hostboot predictive data = pelFactory(i + 200, 'B', 0x20, 0x8800, 500); pel = std::make_unique(data); repo.add(pel); // Hostboot info data = pelFactory(i + 300, 'B', 0x0, 0x8800, 500); pel = std::make_unique(data); repo.add(pel); } const auto& sizes = repo.getSizeStats(); EXPECT_EQ(sizes.total, 4096 * 40); // Sanity check the very first PELs with IDs 1 to 4 are // there so we can check they are removed after the prune. for (uint32_t i = 1; i < 5; i++) { Repository::LogID logID{Repository::LogID::Pel{i}}; EXPECT_TRUE(repo.getPELAttributes(logID)); } // Prune down to 15%/30%/15%/30% = 90% total auto IDs = repo.prune(id); // Check the final sizes EXPECT_EQ(sizes.total, 4096 * 18); // 90% of 20 PELs EXPECT_EQ(sizes.bmcInfo, 4096 * 3); // 15% of 20 PELs EXPECT_EQ(sizes.bmcServiceable, 4096 * 6); // 30% of 20 PELs EXPECT_EQ(sizes.nonBMCInfo, 4096 * 3); // 15% of 20 PELs EXPECT_EQ(sizes.nonBMCServiceable, 4096 * 6); // 30% of 20 PELs // Check that at least the 4 oldest, which are the oldest of // each type, were removed. for (uint32_t i = 1; i < 5; i++) { Repository::LogID logID{Repository::LogID::Pel{i}}; EXPECT_FALSE(repo.getPELAttributes(logID)); // Make sure the corresponding OpenBMC event log ID which is // 500 + the PEL ID is in the list. EXPECT_TRUE(std::find(IDs.begin(), IDs.end(), 500 + i) != IDs.end()); } } // Test that if filled completely with 1 type of PEL, that // pruning still works properly TEST_F(RepositoryTest, TestPruneInfoOnly) { std::vector id; Repository repo{repoPath, 4096 * 22, 100}; // Fill 4096*23 bytes on disk of BMC info PELs for (uint32_t i = 1; i <= 23; i++) { auto data = pelFactory(i, 'O', 0, 0x8800, 1000); auto pel = std::make_unique(data); repo.add(pel); } const auto& sizes = repo.getSizeStats(); EXPECT_EQ(sizes.total, 4096 * 23); // Pruning to 15% of 4096 * 22 will leave 3 4096B PELs. // Sanity check the oldest 20 are there so when they // get pruned below we'll know they were removed. for (uint32_t i = 1; i <= 20; i++) { Repository::LogID logID{Repository::LogID::Pel{i}}; EXPECT_TRUE(repo.getPELAttributes(logID)); } auto IDs = repo.prune(id); // Check the final sizes EXPECT_EQ(sizes.total, 4096 * 3); EXPECT_EQ(sizes.bmcInfo, 4096 * 3); EXPECT_EQ(sizes.bmcServiceable, 0); EXPECT_EQ(sizes.nonBMCInfo, 0); EXPECT_EQ(sizes.nonBMCServiceable, 0); EXPECT_EQ(IDs.size(), 20); // Can no longer find the oldest 20 PELs. for (uint32_t i = 1; i <= 20; i++) { Repository::LogID logID{Repository::LogID::Pel{i}}; EXPECT_FALSE(repo.getPELAttributes(logID)); EXPECT_TRUE(std::find(IDs.begin(), IDs.end(), 500 + i) != IDs.end()); } } // Test that the HMC/OS/PHYP ack values affect the // pruning order. TEST_F(RepositoryTest, TestPruneWithAcks) { std::vector id; Repository repo{repoPath, 4096 * 20, 100}; // Fill 30% worth of BMC non-info non-acked PELs for (uint32_t i = 1; i <= 6; i++) { // BMC predictive auto data = pelFactory(i, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } // Add another PEL to push it over the 30%, each time adding // a different type that should be pruned before the above ones // even though those are older. for (uint32_t i = 1; i <= 3; i++) { auto data = pelFactory(i, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); auto idToDelete = pel->obmcLogID(); repo.add(pel); if (1 == i) { repo.setPELHMCTransState(pel->id(), TransmissionState::acked); } else if (2 == i) { repo.setPELHostTransState(pel->id(), TransmissionState::acked); } else { repo.setPELHostTransState(pel->id(), TransmissionState::sent); } auto IDs = repo.prune(id); EXPECT_EQ(repo.getSizeStats().total, 4096 * 6); // The newest PEL should be the one deleted ASSERT_EQ(IDs.size(), 1); EXPECT_EQ(IDs[0], idToDelete); } } // Test that the total number of PELs limit is enforced. TEST_F(RepositoryTest, TestPruneTooManyPELs) { std::vector id; Repository repo{repoPath, 4096 * 100, 10}; // Add 10, which is the limit and is still OK for (uint32_t i = 1; i <= 10; i++) { auto data = pelFactory(i, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } auto IDs = repo.prune(id); // Nothing pruned yet EXPECT_TRUE(IDs.empty()); // Add 1 more PEL which will be too many. { auto data = pelFactory(11, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } // Now that's it's over the limit of 10, it will bring it down // to 80%, which is 8 after it removes 3. IDs = repo.prune(id); EXPECT_EQ(repo.getSizeStats().total, 4096 * 8); ASSERT_EQ(IDs.size(), 3); // Check that it deleted the oldest ones. // The OpenBMC log ID is the PEL ID + 500. EXPECT_EQ(IDs[0], 500 + 1); EXPECT_EQ(IDs[1], 500 + 2); EXPECT_EQ(IDs[2], 500 + 3); } // Test the sizeWarning function TEST_F(RepositoryTest, TestSizeWarning) { uint32_t id = 1; Repository repo{repoPath, 100 * 4096, 500}; EXPECT_FALSE(repo.sizeWarning()); // 95% is still OK (disk size for these is 4096) for (uint32_t i = 1; i <= 95; i++) { auto data = pelFactory(i, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } EXPECT_FALSE(repo.sizeWarning()); // Now at 96% auto data = pelFactory(id++, 'B', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); EXPECT_TRUE(repo.sizeWarning()); } // Test sizeWarning when there are too many PEls TEST_F(RepositoryTest, TestSizeWarningNumPELs) { Repository repo{repoPath, 4096 * 100, 5}; EXPECT_FALSE(repo.sizeWarning()); for (uint32_t i = 1; i <= 5; i++) { auto data = pelFactory(i, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } EXPECT_FALSE(repo.sizeWarning()); // Add 1 more for a total of 6, now over the limit { auto data = pelFactory(6, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } EXPECT_TRUE(repo.sizeWarning()); } // Test existense of archive file TEST_F(RepositoryTest, TestArchiveFile) { using pelID = Repository::LogID::Pel; using obmcID = Repository::LogID::Obmc; // Add and remove a PEL from the repo Repository repo{repoPath}; fs::path archivePath = repoPath / "logs" / "archive"; EXPECT_TRUE(fs::exists(archivePath)); auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data, 1); pel->assignID(); Repository::LogID id{pelID{pel->id()}, obmcID{pel->obmcLogID()}}; repo.add(pel); auto path = repoPath / "logs" / Repository::getPELFilename(pel->id(), pel->commitTime()); EXPECT_TRUE(fs::exists(path)); auto removedID = repo.remove(id); ASSERT_TRUE(removedID); EXPECT_EQ(*removedID, id); archivePath /= Repository::getPELFilename(pel->id(), pel->commitTime()); EXPECT_TRUE(fs::exists(archivePath)); EXPECT_FALSE(repo.hasPEL(id)); } // Test archive folder size with sizeWarning function TEST_F(RepositoryTest, TestArchiveSize) { using pelID = Repository::LogID::Pel; using obmcID = Repository::LogID::Obmc; // Create repo with max PEL=500 and space=4096*100 Repository repo{repoPath, 100 * 4096, 500}; // Fill 94% (disk size for these is 4096) for (uint32_t i = 1; i <= 94; i++) { auto data = pelFactory(i, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } // Add another PEL which makes 95% still ok auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data, 1); pel->assignID(); Repository::LogID id{pelID{pel->id()}, obmcID{pel->obmcLogID()}}; repo.add(pel); // With 95% full expect no size warning EXPECT_FALSE(repo.sizeWarning()); // Remove last created PEL repo.remove(id); // Repo is 94% full with one PEL in archive log // Total repo size 95% full (including archive) still ok EXPECT_FALSE(repo.sizeWarning()); // Confirm the repo size 94% full const auto& sizes = repo.getSizeStats(); EXPECT_EQ(sizes.total, 4096 * 94); // Make sure archive contain the one deleted file fs::path archivePath = repoPath / "logs" / "archive"; archivePath /= Repository::getPELFilename(pel->id(), pel->commitTime()); EXPECT_TRUE(fs::exists(archivePath)); // Add another PEL which makes repo 95% full data = pelDataFactory(TestPELType::pelSimple); pel = std::make_unique(data, 1); pel->assignID(); Repository::LogID idx{pelID{pel->id()}, obmcID{pel->obmcLogID()}}; repo.add(pel); // Repo with 95% full + one archive file becomes 96% // which is greater than the warning // expect archive file to be deleted to get repo size back to 95% EXPECT_FALSE(repo.sizeWarning()); EXPECT_FALSE(fs::exists(archivePath)); } TEST_F(RepositoryTest, GetLogIDFoundTC) { // Add and Check the created LogId Repository repo{repoPath}; auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data, 1); pel->assignID(); repo.add(pel); // Getting by PEL Id Repository::LogID idWithPelId{Repository::LogID::Pel(pel->id())}; auto logID = repo.getLogID(idWithPelId); ASSERT_TRUE(logID.has_value()); EXPECT_EQ(logID->obmcID.id, pel->obmcLogID()); EXPECT_EQ(logID->pelID.id, pel->id()); // Getting by OBMC Event Log Id Repository::LogID idWithObmcLogId{ Repository::LogID::Obmc(pel->obmcLogID())}; logID = repo.getLogID(idWithObmcLogId); ASSERT_TRUE(logID.has_value()); EXPECT_EQ(logID->obmcID.id, pel->obmcLogID()); EXPECT_EQ(logID->pelID.id, pel->id()); } TEST_F(RepositoryTest, GetLogIDNotFoundTC) { // Add and Check the created LogId Repository repo{repoPath}; auto data = pelDataFactory(TestPELType::pelSimple); auto pel = std::make_unique(data, 1); pel->assignID(); repo.add(pel); // Getting by invalid PEL Id Repository::LogID idWithPelId{Repository::LogID::Pel(0xFFFFFFFF)}; auto logID = repo.getLogID(idWithPelId); ASSERT_TRUE(!logID.has_value()); // Getting by invalid OBMC Event Log ID Repository::LogID idWithObmcLogId{Repository::LogID::Obmc(0xFFFFFFFF)}; logID = repo.getLogID(idWithObmcLogId); ASSERT_TRUE(!logID.has_value()); } // Test that OpenBMC log Id with hardware isolation entry is not removed. TEST_F(RepositoryTest, TestPruneWithIdHwIsoEntry) { std::vector id{502}; Repository repo{repoPath, 4096 * 100, 10}; // Add 10, which is the limit and is still OK for (uint32_t i = 1; i <= 10; i++) { auto data = pelFactory(i, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } auto IDs = repo.prune(id); // Nothing pruned yet EXPECT_TRUE(IDs.empty()); // Add 1 more PEL which will be too many. { auto data = pelFactory(11, 'O', 0x20, 0x8800, 500); auto pel = std::make_unique(data); repo.add(pel); } // Now that's it's over the limit of 10, it will bring it down // to 80%, which is 8 after it removes 3. IDs = repo.prune(id); EXPECT_EQ(repo.getSizeStats().total, 4096 * 8); ASSERT_EQ(IDs.size(), 3); // Check that it deleted the oldest ones. // And the Id with hw isolation entry is NOT removed. // The OpenBMC log ID is the PEL ID + 500. EXPECT_EQ(IDs[0], 500 + 1); EXPECT_EQ(IDs[1], 500 + 3); EXPECT_EQ(IDs[2], 500 + 4); }