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extern "C" {
#include <json-c/json.h>
#include <uuid/uuid.h>
#include "metrics/metrics_int.h"
#include "metrics/metrics_max10.h"
#include "metrics/vector.h"
#include "opae_int.h"
#include "types_int.h"
}
#include <config.h>
#include <opae/fpga.h>
#include <vector>
#include "gtest/gtest.h"
#include "sysfs_int.h"
#include "mock/test_system.h"
#include "mock/test_utils.h"
#include "token_list_int.h"
#include "xfpga.h"
extern "C" {
int xfpga_plugin_initialize(void);
int xfpga_plugin_finalize(void);
}
using namespace opae::testing;
class metrics_max10_c_p : public ::testing::TestWithParam<std::string> {
protected:
metrics_max10_c_p() : tokens_{{nullptr, nullptr}}, handle_(nullptr) {}
virtual void SetUp() override {
ASSERT_TRUE(test_platform::exists(GetParam()));
platform_ = test_platform::get(GetParam());
system_ = test_system::instance();
system_->initialize();
system_->prepare_syfs(platform_);
ASSERT_EQ(xfpga_plugin_initialize(), FPGA_OK);
ASSERT_EQ(xfpga_fpgaGetProperties(nullptr, &filter_), FPGA_OK);
ASSERT_EQ(fpgaPropertiesSetObjectType(filter_, FPGA_DEVICE), FPGA_OK);
ASSERT_EQ(xfpga_fpgaEnumerate(&filter_, 1, tokens_.data(), tokens_.size(),
&num_matches_),
FPGA_OK);
ASSERT_GT(num_matches_, 0);
ASSERT_EQ(xfpga_fpgaOpen(tokens_[0], &handle_, 0), FPGA_OK);
}
virtual void TearDown() override {
EXPECT_EQ(fpgaDestroyProperties(&filter_), FPGA_OK);
for (auto &t : tokens_) {
if (t) {
EXPECT_EQ(xfpga_fpgaDestroyToken(&t), FPGA_OK);
t = nullptr;
}
}
if (handle_ != nullptr) {
EXPECT_EQ(xfpga_fpgaClose(handle_), FPGA_OK);
handle_ = nullptr;
}
xfpga_plugin_finalize();
system_->finalize();
}
std::array<fpga_token, 2> tokens_;
fpga_handle handle_;
fpga_properties filter_;
uint32_t num_matches_;
test_platform platform_;
test_system *system_;
};
/**
* @test test_metric_max10_1
* @brief Tests: read_sensor_sysfs_file
* @details When the parameters are valid read_sensor_sysfs_file
* reads system attributes
* When the parameters are invalid read_sensor_sysfs_file
* retuns error.
*
*/
TEST_P(metrics_max10_c_p, test_metric_max10_1) {
uint32_t tot_bytes_ret;
void *buf = NULL;
char file[] = "name";
char sysfs[] =
"/sys/class/fpga/intel-fpga-dev.0/intel-fpga-fme.0/spi-altera.0.auto/"
"spi_master/spi0/spi0.0/sensor2";
EXPECT_NE(read_sensor_sysfs_file(NULL, file, &buf, &tot_bytes_ret), FPGA_OK);
EXPECT_NE(read_sensor_sysfs_file(sysfs, NULL, &buf, &tot_bytes_ret), FPGA_OK);
EXPECT_NE(read_sensor_sysfs_file(sysfs, NULL, &buf, NULL), FPGA_OK);
EXPECT_EQ(read_sensor_sysfs_file(sysfs, file, &buf, &tot_bytes_ret), FPGA_OK);
EXPECT_NE(read_sensor_sysfs_file(sysfs, "test", &buf, &tot_bytes_ret),
FPGA_OK);
if (buf) free(buf);
}
/**
* @test test_metric_max10_2
* @brief Tests: enum_max10_metrics_info
* @details When the parameters are valid enum_max10_metrics_info
* eunum max10 metrics and add to vector
* When the parameters are invalid enum_max10_metrics_info
* retuns error.
*
*/
TEST_P(metrics_max10_c_p, test_metric_max10_2) {
struct _fpga_handle *_handle = (struct _fpga_handle *)handle_;
fpga_metric_vector vector;
uint64_t metric_num = 0;
EXPECT_EQ(FPGA_OK, fpga_vector_init(&vector));
EXPECT_EQ(FPGA_OK, enum_max10_metrics_info(_handle, &vector, &metric_num,
FPGA_HW_DCP_VC));
EXPECT_NE(FPGA_OK,
enum_max10_metrics_info(_handle, &vector, NULL, FPGA_HW_DCP_VC));
EXPECT_NE(FPGA_OK, enum_max10_metrics_info(NULL, &vector, &metric_num,
FPGA_HW_DCP_VC));
EXPECT_NE(FPGA_OK, enum_max10_metrics_info(_handle, NULL, &metric_num,
FPGA_HW_DCP_VC));
EXPECT_NE(FPGA_OK,
enum_max10_metrics_info(_handle, &vector, NULL, FPGA_HW_DCP_VC));
EXPECT_EQ(FPGA_OK, enum_max10_metrics_info(_handle, &vector, &metric_num,
FPGA_HW_UNKNOWN));
EXPECT_EQ(FPGA_OK, fpga_vector_free(&vector));
}
INSTANTIATE_TEST_CASE_P(metrics_max10_c, metrics_max10_c_p,
::testing::ValuesIn(test_platform::mock_platforms({"dcp-vc"})));
class metrics_invalid_max10_c_p : public metrics_max10_c_p {};
/**
* @test test_metric_max10_3
* @brief Tests: enum_max10_metrics_info
* @details When the parameters are valid and run on not supportd platform
* enum_max10_metrics_info retuns error.
*
*/
TEST_P(metrics_invalid_max10_c_p, test_metric_max10_3) {
struct _fpga_handle *_handle = (struct _fpga_handle *)handle_;
fpga_metric_vector vector;
uint64_t metric_num = 0;
EXPECT_EQ(FPGA_OK, fpga_vector_init(&vector));
EXPECT_NE(FPGA_OK, enum_max10_metrics_info(_handle, &vector, &metric_num,
FPGA_HW_DCP_VC));
EXPECT_EQ(FPGA_OK, fpga_vector_free(&vector));
}
INSTANTIATE_TEST_CASE_P(metrics_max10_c, metrics_invalid_max10_c_p,
::testing::ValuesIn(test_platform::mock_platforms({"dcp-rc"})));
class metrics_max10_vc_c_p : public metrics_max10_c_p {
protected:
metrics_max10_vc_c_p() {}
};
/**
* @test test_metric_max10_4
* @brief Tests: read_max10_value
* @details When passed with valid argument fn reads metric values <br>
* When passed with invalid argument return
* FPGA_INVALID_PARAM <br>
*/
TEST_P(metrics_max10_vc_c_p, test_metric_max10_4) {
struct _fpga_handle *_handle = (struct _fpga_handle *)handle_;
EXPECT_EQ(FPGA_OK, enum_fpga_metrics(handle_));
struct fpga_metric fpga_metric;
EXPECT_EQ(FPGA_OK,
get_fme_metric_value(handle_, &(_handle->fpga_enum_metric_vector),
1, &fpga_metric));
double dvalue = 0;
EXPECT_EQ(FPGA_INVALID_PARAM, read_max10_value(NULL, &dvalue));
}
INSTANTIATE_TEST_CASE_P(metrics_max10_c, metrics_max10_vc_c_p,
::testing::ValuesIn(test_platform::mock_platforms({ "dcp-vc" })));