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gerrit.openbmc.org / openbmc / phosphor-logging / 1369ad0df5bcc5fb3b26759e4f3dbc0fd0d80eba / . / test / openpower-pels / host_notifier_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/data_interface.hpp"
#include "extensions/openpower-pels/host_notifier.hpp"
#include "mocks.hpp"
#include "pel_utils.hpp"
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <chrono>
#include <gtest/gtest.h>
using namespace openpower::pels;
using ::testing::_;
using ::testing::Invoke;
using ::testing::NiceMock;
using ::testing::Return;
namespace fs = std::filesystem;
using namespace std::chrono;
const size_t actionFlags0Offset = 66;
const size_t actionFlags1Offset = 67;
class HostNotifierTest : public CleanPELFiles
{
public:
HostNotifierTest() : repo(repoPath)
{
auto r = sd_event_default(&event);
EXPECT_TRUE(r >= 0);
ON_CALL(dataIface, getHostPELEnablement).WillByDefault(Return(true));
hostIface = std::make_unique<NiceMock<MockHostInterface>>(event,
dataIface);
mockHostIface = reinterpret_cast<MockHostInterface*>(hostIface.get());
auto send = [this](uint32_t /*id*/, uint32_t /*size*/) {
return this->mockHostIface->send(0);
};
// Unless otherwise specified, sendNewLogCmd should always pass.
ON_CALL(*mockHostIface, sendNewLogCmd(_, _))
.WillByDefault(Invoke(send));
}
~HostNotifierTest()
{
sd_event_unref(event);
}
protected:
sd_event* event;
Repository repo;
NiceMock<MockDataInterface> dataIface;
std::unique_ptr<HostInterface> hostIface;
MockHostInterface* mockHostIface;
};
/**
* @brief Create PEL with the specified action flags
*
* @param[in] actionFlagsMask - Optional action flags to use
*
* @return std::unique_ptr<PEL>
*/
std::unique_ptr<PEL> makePEL(uint16_t actionFlagsMask = 0)
{
static uint32_t obmcID = 1;
auto data = pelDataFactory(TestPELType::pelSimple);
data[actionFlags0Offset] |= actionFlagsMask >> 8;
data[actionFlags1Offset] |= actionFlagsMask & 0xFF;
auto pel = std::make_unique<PEL>(data, obmcID++);
pel->assignID();
pel->setCommitTime();
return pel;
}
/**
* @brief Run an iteration of the event loop.
*
* An event loop is used for:
* 1) timer expiration callbacks
* 2) Dispatches
* 3) host interface receive callbacks
*
* @param[in] event - The event object
* @param[in] numEvents - number of times to call Event::run()
* @param[in] timeout - timeout value for run()
*/
void runEvents(sdeventplus::Event& event, size_t numEvents,
milliseconds timeout = milliseconds(1))
{
for (size_t i = 0; i < numEvents; i++)
{
event.run(timeout);
}
}
// Test that host state change callbacks work
TEST_F(HostNotifierTest, TestHostStateChange)
{
bool hostState = false;
bool called = false;
DataInterfaceBase::HostStateChangeFunc func =
[&hostState, &called](bool state) {
hostState = state;
called = true;
};
dataIface.subscribeToHostStateChange("test", func);
// callback called
dataIface.changeHostState(true);
EXPECT_TRUE(called);
EXPECT_TRUE(hostState);
// No change, not called
called = false;
dataIface.changeHostState(true);
EXPECT_FALSE(called);
// Called again
dataIface.changeHostState(false);
EXPECT_FALSE(hostState);
EXPECT_TRUE(called);
// Shouldn't get called after an unsubscribe
dataIface.unsubscribeFromHostStateChange("test");
called = false;
dataIface.changeHostState(true);
EXPECT_FALSE(called);
}
// Test dealing with how acked PELs are put on the
// notification queue.
TEST_F(HostNotifierTest, TestPolicyAckedPEL)
{
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
auto pel = makePEL();
repo.add(pel);
// This is required
EXPECT_TRUE(notifier.enqueueRequired(pel->id()));
EXPECT_TRUE(notifier.notifyRequired(pel->id()));
// Not in the repo
EXPECT_FALSE(notifier.enqueueRequired(42));
EXPECT_FALSE(notifier.notifyRequired(42));
// Now set this PEL to host acked
repo.setPELHostTransState(pel->id(), TransmissionState::acked);
// Since it's acked, doesn't need to be enqueued or transmitted
EXPECT_FALSE(notifier.enqueueRequired(pel->id()));
EXPECT_FALSE(notifier.notifyRequired(pel->id()));
}
// Test the 'don't report' PEL flag
TEST_F(HostNotifierTest, TestPolicyDontReport)
{
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// dontReportToHostFlagBit
auto pel = makePEL(0x1000);
// Double check the action flag is still set
std::bitset<16> actionFlags = pel->userHeader().actionFlags();
EXPECT_TRUE(actionFlags.test(dontReportToHostFlagBit));
repo.add(pel);
// Don't need to send this to the host
EXPECT_FALSE(notifier.enqueueRequired(pel->id()));
}
// Test that hidden PELs need notification when there
// is no HMC.
TEST_F(HostNotifierTest, TestPolicyHiddenNoHMC)
{
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// hiddenFlagBit
auto pel = makePEL(0x4000);
// Double check the action flag is still set
std::bitset<16> actionFlags = pel->userHeader().actionFlags();
EXPECT_TRUE(actionFlags.test(hiddenFlagBit));
repo.add(pel);
// Still need to enqueue this
EXPECT_TRUE(notifier.enqueueRequired(pel->id()));
// Still need to send it
EXPECT_TRUE(notifier.notifyRequired(pel->id()));
}
// Don't need to enqueue a hidden log already acked by the HMC
TEST_F(HostNotifierTest, TestPolicyHiddenWithHMCAcked)
{
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// hiddenFlagBit
auto pel = makePEL(0x4000);
// Double check the action flag is still set
std::bitset<16> actionFlags = pel->userHeader().actionFlags();
EXPECT_TRUE(actionFlags.test(hiddenFlagBit));
repo.add(pel);
// No HMC yet, so required
EXPECT_TRUE(notifier.enqueueRequired(pel->id()));
repo.setPELHMCTransState(pel->id(), TransmissionState::acked);
// Not required anymore
EXPECT_FALSE(notifier.enqueueRequired(pel->id()));
}
// Test that changing the HMC manage status affects
// the policy with hidden log notification.
TEST_F(HostNotifierTest, TestPolicyHiddenWithHMCManaged)
{
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// hiddenFlagBit
auto pel = makePEL(0x4000);
repo.add(pel);
// The first time, the HMC managed is false
EXPECT_TRUE(notifier.notifyRequired(pel->id()));
dataIface.setHMCManaged(true);
// This time, HMC managed is true so no need to notify
EXPECT_FALSE(notifier.notifyRequired(pel->id()));
}
// Test that PELs are enqueued on startup
TEST_F(HostNotifierTest, TestStartup)
{
// Give the repo 10 PELs to start with
for (int i = 0; i < 10; i++)
{
auto pel = makePEL();
repo.add(pel);
}
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
ASSERT_EQ(notifier.queueSize(), 10);
// Now add 10 more after the notifier is watching
for (int i = 0; i < 10; i++)
{
auto pel = makePEL();
repo.add(pel);
}
ASSERT_EQ(notifier.queueSize(), 20);
}
// Test the simple path were PELs get sent to the host
TEST_F(HostNotifierTest, TestSendCmd)
{
sdeventplus::Event sdEvent{event};
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// Add a PEL with the host off
auto pel = makePEL();
repo.add(pel);
EXPECT_EQ(notifier.queueSize(), 1);
dataIface.changeHostState(true);
runEvents(sdEvent, 2);
// It was sent up
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 1);
EXPECT_EQ(notifier.queueSize(), 0);
// Verify the state was written to the PEL.
Repository::LogID id{Repository::LogID::Pel{pel->id()}};
auto data = repo.getPELData(id);
PEL pelFromRepo{*data};
EXPECT_EQ(pelFromRepo.hostTransmissionState(), TransmissionState::sent);
// Add a few more PELs. They will get sent.
pel = makePEL();
repo.add(pel);
// Dispatch it by hitting the event loop (no commands sent yet)
// Don't need to test this step discretely in the future
runEvents(sdEvent, 1);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 1);
EXPECT_EQ(notifier.queueSize(), 0);
// Send the command
runEvents(sdEvent, 1);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 2);
EXPECT_EQ(notifier.queueSize(), 0);
pel = makePEL();
repo.add(pel);
// dispatch and process the command
runEvents(sdEvent, 2);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 3);
EXPECT_EQ(notifier.queueSize(), 0);
}
// Test that if the class is created with the host up,
// it will send PELs
TEST_F(HostNotifierTest, TestStartAfterHostUp)
{
// Add PELs right away
auto pel = makePEL();
repo.add(pel);
pel = makePEL();
repo.add(pel);
sdeventplus::Event sdEvent{event};
// Create the HostNotifier class with the host already up
dataIface.changeHostState(true);
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// It should start sending PELs right away
runEvents(sdEvent, 3);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 2);
EXPECT_EQ(notifier.queueSize(), 0);
}
// Test that a single failure will cause a retry
TEST_F(HostNotifierTest, TestHostRetry)
{
sdeventplus::Event sdEvent{event};
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
auto sendFailure = [this](uint32_t /*id*/, uint32_t /*size*/) {
return this->mockHostIface->send(1);
};
auto sendSuccess = [this](uint32_t /*id*/, uint32_t /*size*/) {
return this->mockHostIface->send(0);
};
EXPECT_CALL(*mockHostIface, sendNewLogCmd(_, _))
.WillOnce(Invoke(sendFailure))
.WillOnce(Invoke(sendSuccess))
.WillOnce(Invoke(sendSuccess));
dataIface.changeHostState(true);
auto pel = makePEL();
repo.add(pel);
// Dispatch and handle the command
runEvents(sdEvent, 2);
// The command failed, so the queue isn't empty
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 1);
EXPECT_EQ(notifier.queueSize(), 1);
// Run the events again to let the timer expire and the
// command to be retried, which will be successful.
runEvents(sdEvent, 2, mockHostIface->getReceiveRetryDelay());
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 2);
EXPECT_EQ(notifier.queueSize(), 0);
// This one should pass with no problems
pel = makePEL();
repo.add(pel);
// Dispatch and handle the command
runEvents(sdEvent, 2);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 3);
EXPECT_EQ(notifier.queueSize(), 0);
}
// Test that all commands fail and notifier will give up
TEST_F(HostNotifierTest, TestHardFailure)
{
sdeventplus::Event sdEvent{event};
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// Every call will fail
auto sendFailure = [this](uint32_t /*id*/, uint32_t /*size*/) {
return this->mockHostIface->send(1);
};
EXPECT_CALL(*mockHostIface, sendNewLogCmd(_, _))
.WillRepeatedly(Invoke(sendFailure));
dataIface.changeHostState(true);
auto pel = makePEL();
repo.add(pel);
// Clock more retries than necessary
runEvents(sdEvent, 40, mockHostIface->getReceiveRetryDelay());
// Should have stopped after the 15 Tries
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 15);
EXPECT_EQ(notifier.queueSize(), 1);
// Now add another PEL, and it should start trying again
// though it will also eventually give up
pel = makePEL();
repo.add(pel);
runEvents(sdEvent, 40, mockHostIface->getReceiveRetryDelay());
// Tried an additional 15 times
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 30);
EXPECT_EQ(notifier.queueSize(), 2);
}
// Cancel an in progress command
TEST_F(HostNotifierTest, TestCancelCmd)
{
sdeventplus::Event sdEvent{event};
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
dataIface.changeHostState(true);
// Add and send one PEL, but don't enter the event loop
// so the receive function can't run.
auto pel = makePEL();
repo.add(pel);
// Not dispatched yet
EXPECT_EQ(notifier.queueSize(), 1);
// Dispatch it
runEvents(sdEvent, 2);
// It was sent and off the queue
EXPECT_EQ(notifier.queueSize(), 0);
// This will cancel the receive
dataIface.changeHostState(false);
// Back on the queue
EXPECT_EQ(notifier.queueSize(), 1);
// Turn the host back on and make sure
// commands will work again
dataIface.changeHostState(true);
runEvents(sdEvent, 1);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 1);
EXPECT_EQ(notifier.queueSize(), 0);
}
// Test that acking a PEL persist across power cycles
TEST_F(HostNotifierTest, TestPowerCycleAndAcks)
{
sdeventplus::Event sdEvent{event};
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// Add 2 PELs with host off
auto pel = makePEL();
repo.add(pel);
auto id1 = pel->id();
pel = makePEL();
repo.add(pel);
auto id2 = pel->id();
dataIface.changeHostState(true);
runEvents(sdEvent, 3);
// The were both sent.
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 2);
EXPECT_EQ(notifier.queueSize(), 0);
dataIface.changeHostState(false);
// Those PELs weren't acked, so they will get sent again
EXPECT_EQ(notifier.queueSize(), 2);
// Power back on and send them again
dataIface.changeHostState(true);
runEvents(sdEvent, 3);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 4);
EXPECT_EQ(notifier.queueSize(), 0);
// Ack them and verify the state in the PEL.
notifier.ackPEL(id1);
notifier.ackPEL(id2);
Repository::LogID id{Repository::LogID::Pel{id1}};
auto data = repo.getPELData(id);
PEL pelFromRepo1{*data};
EXPECT_EQ(pelFromRepo1.hostTransmissionState(), TransmissionState::acked);
id.pelID.id = id2;
data = repo.getPELData(id);
PEL pelFromRepo2{*data};
EXPECT_EQ(pelFromRepo2.hostTransmissionState(), TransmissionState::acked);
// Power back off, and they should't get re-added
dataIface.changeHostState(false);
EXPECT_EQ(notifier.queueSize(), 0);
}
// Test the host full condition
TEST_F(HostNotifierTest, TestHostFull)
{
// The full interaction with the host is:
// BMC: new PEL available
// Host: ReadPELFile (not modeled here)
// Host: Ack(id) (if not full), or HostFull(id)
// BMC: if full and any new PELs come in, don't sent them
// Start a timer and try again
// Host responds with either Ack or full
// and repeat
sdeventplus::Event sdEvent{event};
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
dataIface.changeHostState(true);
// Add and dispatch/send one PEL
auto pel = makePEL();
auto id = pel->id();
repo.add(pel);
runEvents(sdEvent, 2);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 1);
EXPECT_EQ(notifier.queueSize(), 0);
// Host is full
notifier.setHostFull(id);
// It goes back on the queue
EXPECT_EQ(notifier.queueSize(), 1);
// The transmission state goes back to new
Repository::LogID i{Repository::LogID::Pel{id}};
auto data = repo.getPELData(i);
PEL pelFromRepo{*data};
EXPECT_EQ(pelFromRepo.hostTransmissionState(), TransmissionState::newPEL);
// Clock it, nothing should be sent still.
runEvents(sdEvent, 1);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 1);
EXPECT_EQ(notifier.queueSize(), 1);
// Add another PEL and clock it, still nothing sent
pel = makePEL();
repo.add(pel);
runEvents(sdEvent, 2);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 1);
EXPECT_EQ(notifier.queueSize(), 2);
// Let the host full timer expire to trigger a retry.
// Add some extra event passes just to be sure nothing new is sent.
runEvents(sdEvent, 5, mockHostIface->getHostFullRetryDelay());
// The timer expiration will send just the 1, not both
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 2);
EXPECT_EQ(notifier.queueSize(), 1);
// Host still full
notifier.setHostFull(id);
// Let the host full timer attempt again
runEvents(sdEvent, 2, mockHostIface->getHostFullRetryDelay());
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 3);
// Add yet another PEL with the retry timer expired.
// It shouldn't get sent out.
pel = makePEL();
repo.add(pel);
runEvents(sdEvent, 2);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 3);
// The last 2 PELs still on the queue
EXPECT_EQ(notifier.queueSize(), 2);
// Host no longer full, it finally acks the first PEL
notifier.ackPEL(id);
// Now the remaining 2 PELs will be dispatched
runEvents(sdEvent, 3);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 5);
EXPECT_EQ(notifier.queueSize(), 0);
}
// Test when the host says it was send a malformed PEL
TEST_F(HostNotifierTest, TestBadPEL)
{
sdeventplus::Event sdEvent{event};
{
Repository repo1{repoPath};
HostNotifier notifier{repo1, dataIface, std::move(hostIface)};
dataIface.changeHostState(true);
// Add a PEL and dispatch and send it
auto pel = makePEL();
auto id = pel->id();
repo1.add(pel);
runEvents(sdEvent, 2);
EXPECT_EQ(mockHostIface->numCmdsProcessed(), 1);
EXPECT_EQ(notifier.queueSize(), 0);
// The host rejected it.
notifier.setBadPEL(id);
// Doesn't go back on the queue
EXPECT_EQ(notifier.queueSize(), 0);
// Check the state was saved in the PEL itself
Repository::LogID i{Repository::LogID::Pel{id}};
auto data = repo1.getPELData(i);
PEL pelFromRepo{*data};
EXPECT_EQ(pelFromRepo.hostTransmissionState(),
TransmissionState::badPEL);
dataIface.changeHostState(false);
// Ensure it doesn't go back on the queue on a power cycle
EXPECT_EQ(notifier.queueSize(), 0);
}
// Now restore the repo, and make sure it doesn't come back
{
Repository repo1{repoPath};
std::unique_ptr<HostInterface> hostIface1 =
std::make_unique<MockHostInterface>(event, dataIface);
HostNotifier notifier{repo1, dataIface, std::move(hostIface1)};
EXPECT_EQ(notifier.queueSize(), 0);
}
}
// Test that sending PELs can be disabled
TEST_F(HostNotifierTest, TestDisable)
{
// Turn off sending the PELs except for once in the middle
EXPECT_CALL(dataIface, getHostPELEnablement())
.WillOnce(Return(false))
.WillOnce(Return(false))
.WillOnce(Return(true))
.WillOnce(Return(false))
.WillOnce(Return(false))
.WillOnce(Return(false));
{
HostNotifier notifier{repo, dataIface, std::move(hostIface)};
// Add a PEL with the host off
auto pel = makePEL();
repo.add(pel);
// Not added to the send queue
EXPECT_EQ(notifier.queueSize(), 0);
dataIface.changeHostState(true);
// Try again with the host on
pel = makePEL();
repo.add(pel);
EXPECT_EQ(notifier.queueSize(), 0);
// Now getHostPELEnablement() will return true for the new PEL
pel = makePEL();
repo.add(pel);
EXPECT_EQ(notifier.queueSize(), 1);
}
// getHostPELEnablement is back to returning false.
// Create a new second instance and make sure the 3 existing PELs
// aren't put on the queue on startup
{
Repository repo1{repoPath};
std::unique_ptr<HostInterface> hostIface1 =
std::make_unique<MockHostInterface>(event, dataIface);
HostNotifier notifier{repo1, dataIface, std::move(hostIface1)};
EXPECT_EQ(notifier.queueSize(), 0);
}
}