blob: 3ac44d1c869127bceb9f77df6cfb995581d119bd [file] [log] [blame]
#include <stdio.h>
#include <analyzer/plugins/plugin.hpp>
#include <analyzer/ras-data/ras-data-parser.hpp>
#include <hei_util.hpp>
#include <util/pdbg.hpp>
#include <util/trace.hpp>
#include "gtest/gtest.h"
using namespace analyzer;
static const auto nodeId =
static_cast<libhei::NodeId_t>(libhei::hash<libhei::NodeId_t>("PLL_UNLOCK"));
// Sub-test #1 - single PLL unlock attention on proc 1, clock 1
TEST(PllUnlock, TestSet1)
{
pdbg_targets_init(nullptr);
libhei::Chip chip1{util::pdbg::getTrgt("/proc1"), P10_20};
libhei::Signature sig11{chip1, nodeId, 0, 1, libhei::ATTN_TYPE_CHECKSTOP};
libhei::IsolationData isoData{};
isoData.addSignature(sig11);
ServiceData sd{sig11, AnalysisType::SYSTEM_CHECKSTOP, isoData};
RasDataParser rasData{};
rasData.getResolution(sig11)->resolve(sd);
nlohmann::json j{};
std::string s{};
// Callout list
j = sd.getCalloutList();
s = R"([
{
"Deconfigured": false,
"Guarded": false,
"LocationCode": "P0",
"Priority": "M"
},
{
"Deconfigured": false,
"Guarded": false,
"LocationCode": "/proc1",
"Priority": "M"
}
])";
EXPECT_EQ(s, j.dump(4));
// Callout FFDC
j = sd.getCalloutFFDC();
s = R"([
{
"Callout Type": "Clock Callout",
"Clock Type": "OSC_REF_CLOCK_1",
"Priority": "medium"
},
{
"Callout Type": "Hardware Callout",
"Guard": false,
"Priority": "medium",
"Target": "/proc1"
}
])";
EXPECT_EQ(s, j.dump(4));
}
// Sub-test #2 - PLL unlock attention on multiple procs and clocks. Isolating
// only to proc 1 clock 0 PLL unlock attentions.
TEST(PllUnlock, TestSet2)
{
pdbg_targets_init(nullptr);
libhei::Chip chip0{util::pdbg::getTrgt("/proc0"), P10_20};
libhei::Chip chip1{util::pdbg::getTrgt("/proc1"), P10_20};
// PLL unlock signatures for each clock per processor.
libhei::Signature sig00{chip0, nodeId, 0, 0, libhei::ATTN_TYPE_CHECKSTOP};
libhei::Signature sig01{chip0, nodeId, 0, 1, libhei::ATTN_TYPE_CHECKSTOP};
libhei::Signature sig10{chip1, nodeId, 0, 0, libhei::ATTN_TYPE_CHECKSTOP};
libhei::Signature sig11{chip1, nodeId, 0, 1, libhei::ATTN_TYPE_CHECKSTOP};
// Plugins for each processor.
auto plugin = PluginMap::getSingleton().get(chip1.getType(), "pll_unlock");
libhei::IsolationData isoData{};
isoData.addSignature(sig00);
isoData.addSignature(sig01);
isoData.addSignature(sig10);
isoData.addSignature(sig11);
ServiceData sd{sig10, AnalysisType::SYSTEM_CHECKSTOP, isoData};
// Call the PLL unlock plugin.
plugin(0, chip1, sd);
nlohmann::json j{};
std::string s{};
// Callout list
j = sd.getCalloutList();
s = R"([
{
"Deconfigured": false,
"Guarded": false,
"LocationCode": "P0",
"Priority": "H"
},
{
"Deconfigured": false,
"Guarded": false,
"LocationCode": "/proc0",
"Priority": "M"
},
{
"Deconfigured": false,
"Guarded": false,
"LocationCode": "/proc1",
"Priority": "M"
}
])";
EXPECT_EQ(s, j.dump(4));
// Callout FFDC
j = sd.getCalloutFFDC();
s = R"([
{
"Callout Type": "Clock Callout",
"Clock Type": "OSC_REF_CLOCK_0",
"Priority": "high"
},
{
"Callout Type": "Hardware Callout",
"Guard": false,
"Priority": "medium",
"Target": "/proc0"
},
{
"Callout Type": "Hardware Callout",
"Guard": false,
"Priority": "medium",
"Target": "/proc1"
}
])";
EXPECT_EQ(s, j.dump(4));
}