1 /******************************************************************************
3 * Copyright (c) 2019 Intel.
5 * Licensed under the Apache License, Version 2.0 (the "License");
6 * you may not use this file except in compliance with the License.
7 * You may obtain a copy of the License at
9 * http://www.apache.org/licenses/LICENSE-2.0
11 * Unless required by applicable law or agreed to in writing, software
12 * distributed under the License is distributed on an "AS IS" BASIS,
13 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14 * See the License for the specific language governing permissions and
15 * limitations under the License.
17 *******************************************************************************/
21 #include "xran_fh_o_du.h"
22 #include "xran_cp_api.h"
23 #include "xran_lib_wrap.hpp"
24 #include "xran_common.h"
35 const std::string module_name = "init_sys_functional";
37 extern enum xran_if_state xran_if_current_state;
39 void physide_sym_call_back(void * param)
45 int physide_dl_tti_call_back(void * param)
51 int physide_ul_half_slot_call_back(void * param)
57 int physide_ul_full_slot_call_back(void * param)
63 void xran_fh_rx_callback(void *pCallbackTag, xran_status_t status)
69 void xran_fh_rx_prach_callback(void *pCallbackTag, xran_status_t status)
75 class Init_Sys_Check : public KernelTests
82 xranlib->Open(nullptr, nullptr, (void *)xran_fh_rx_callback, (void *)xran_fh_rx_prach_callback);
85 /* It's called after an execution of the each test case.*/
86 void TearDown() override
94 BbuIoBufCtrlStruct sFrontHaulTxBbuIoBufCtrl[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR];
95 BbuIoBufCtrlStruct sFrontHaulTxPrbMapBbuIoBufCtrl[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR];
96 BbuIoBufCtrlStruct sFrontHaulRxBbuIoBufCtrl[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR];
97 BbuIoBufCtrlStruct sFrontHaulRxPrbMapBbuIoBufCtrl[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR];
98 BbuIoBufCtrlStruct sFHPrachRxBbuIoBufCtrl[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR];
101 struct xran_flat_buffer sFrontHaulTxBuffers[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR][XRAN_NUM_OF_SYMBOL_PER_SLOT];
102 struct xran_flat_buffer sFrontHaulTxPrbMapBuffers[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR];
103 struct xran_flat_buffer sFrontHaulRxBuffers[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR][XRAN_NUM_OF_SYMBOL_PER_SLOT];
104 struct xran_flat_buffer sFrontHaulRxPrbMapBuffers[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR];
105 struct xran_flat_buffer sFHPrachRxBuffers[XRAN_N_FE_BUF_LEN][XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR][XRAN_NUM_OF_SYMBOL_PER_SLOT];
107 void* nInstanceHandle[XRAN_PORTS_NUM][XRAN_MAX_SECTOR_NR]; // instance per sector
108 uint32_t nBufPoolIndex[XRAN_MAX_SECTOR_NR][xranLibWraper::MAX_SW_XRAN_INTERFACE_NUM];
109 uint16_t nInstanceNum;
112 TEST_P(Init_Sys_Check, Test_Open_Close)
114 struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
115 /* check stat of lib */
116 ASSERT_EQ(1, p_xran_dev_ctx->enableCP);
117 ASSERT_EQ(1, p_xran_dev_ctx->xran2phy_mem_ready);
120 TEST_P(Init_Sys_Check, Test_xran_mm_init)
123 ret = xran_mm_init (xranlib->get_xranhandle(), (uint64_t) SW_FPGA_FH_TOTAL_BUFFER_LEN, SW_FPGA_SEGMENT_BUFFER_LEN);
127 /* this case cannot be tested since memory cannot be initialized twice */
128 /* memory initialization is moved to the wrapper class */
130 TEST_P(Init_Sys_Check, Test_xran_bm_init_alloc_free)
135 uint32_t nSW_ToFpga_FTH_TxBufferLen = 13168; /* 273*12*4 + 64*/
139 struct xran_buffer_list *pFthTxBuffer[XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN];
140 struct xran_buffer_list *pFthTxPrbMapBuffer[XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN];
141 struct xran_buffer_list *pFthRxBuffer[XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN];
142 struct xran_buffer_list *pFthRxPrbMapBuffer[XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN];
143 struct xran_buffer_list *pFthRxRachBuffer[XRAN_MAX_SECTOR_NR][XRAN_MAX_ANTENNA_NR][XRAN_N_FE_BUF_LEN];
145 Init_Sys_Check::nInstanceNum = xranlib->get_num_cc();
147 for (k = 0; k < XRAN_PORTS_NUM; k++) {
148 ret = xran_sector_get_instances (xranlib->get_xranhandle(), Init_Sys_Check::nInstanceNum, &(Init_Sys_Check::nInstanceHandle[k][0]));
150 ASSERT_EQ(1, Init_Sys_Check::nInstanceNum);
154 ret = xran_bm_init(Init_Sys_Check::nInstanceHandle[0][0],
155 &Init_Sys_Check::nBufPoolIndex[0][0],
156 XRAN_N_FE_BUF_LEN*XRAN_MAX_ANTENNA_NR*XRAN_NUM_OF_SYMBOL_PER_SLOT, nSW_ToFpga_FTH_TxBufferLen);
159 ret = xran_bm_allocate_buffer(Init_Sys_Check::nInstanceHandle[0][0], Init_Sys_Check::nBufPoolIndex[0][0],&ptr, &mb);
161 ASSERT_NE(ptr, nullptr);
162 ASSERT_NE(mb, nullptr);
164 ret = xran_bm_free_buffer(Init_Sys_Check::nInstanceHandle[0][0], ptr, mb);
169 for(int i=0; i< xranlib->get_num_cc(); i++)
171 for(int j=0; j<XRAN_N_FE_BUF_LEN; j++)
173 for(int z = 0; z < XRAN_MAX_ANTENNA_NR; z++){
174 pFthTxBuffer[i][z][j] = &(Init_Sys_Check::sFrontHaulTxBbuIoBufCtrl[j][i][z].sBufferList);
175 pFthTxPrbMapBuffer[i][z][j] = &(Init_Sys_Check::sFrontHaulTxPrbMapBbuIoBufCtrl[j][i][z].sBufferList);
176 pFthRxBuffer[i][z][j] = &(Init_Sys_Check::sFrontHaulRxBbuIoBufCtrl[j][i][z].sBufferList);
177 pFthRxPrbMapBuffer[i][z][j] = &(Init_Sys_Check::sFrontHaulRxPrbMapBbuIoBufCtrl[j][i][z].sBufferList);
178 pFthRxRachBuffer[i][z][j] = &(Init_Sys_Check::sFHPrachRxBbuIoBufCtrl[j][i][z].sBufferList);
183 if(NULL != Init_Sys_Check::nInstanceHandle[0])
185 for (int i = 0; i < xranlib->get_num_cc(); i++)
187 ret = xran_5g_fronthault_config (Init_Sys_Check::nInstanceHandle[0][i],
189 pFthTxPrbMapBuffer[i],
191 pFthRxPrbMapBuffer[i],
192 xran_fh_rx_callback, &pFthRxBuffer[i][0]);
197 // add prach callback here
198 for (int i = 0; i < xranlib->get_num_cc(); i++)
200 ret = xran_5g_prach_req(Init_Sys_Check::nInstanceHandle[0][i], pFthRxRachBuffer[i],
201 xran_fh_rx_prach_callback,&pFthRxRachBuffer[i][0]);
210 TEST_P(Init_Sys_Check, Test_xran_get_common_counters)
213 struct xran_common_counters x_counters;
215 ret = xran_get_common_counters(xranlib->get_xranhandle(), &x_counters);
218 ASSERT_EQ(0, x_counters.Rx_on_time);
219 ASSERT_EQ(0, x_counters.Rx_early);
220 ASSERT_EQ(0, x_counters.Rx_late);
221 ASSERT_EQ(0, x_counters.Rx_corrupt);
222 ASSERT_EQ(0, x_counters.Rx_pkt_dupl);
223 ASSERT_EQ(0, x_counters.Total_msgs_rcvd);
226 TEST_P(Init_Sys_Check, Test_xran_get_slot_idx)
228 #define NUM_OF_SUBFRAME_PER_FRAME 10
229 int32_t nNrOfSlotInSf = 1;
232 uint32_t nSubframeIdx;
236 uint32_t nXranTime = xran_get_slot_idx(&nFrameIdx, &nSubframeIdx, &nSlotIdx, &nSecond);
237 nSfIdx = nFrameIdx*NUM_OF_SUBFRAME_PER_FRAME*nNrOfSlotInSf
238 + nSubframeIdx*nNrOfSlotInSf
241 ASSERT_EQ(0, nSfIdx);
244 TEST_P(Init_Sys_Check, Test_xran_reg_physide_cb)
246 struct xran_device_ctx * p_xran_dev_ctx = xran_dev_get_ctx();
248 ret = xran_reg_physide_cb(xranlib->get_xranhandle(), physide_dl_tti_call_back, NULL, 10, XRAN_CB_TTI);
250 ASSERT_EQ(physide_dl_tti_call_back, p_xran_dev_ctx->ttiCb[XRAN_CB_TTI]);
251 ASSERT_EQ(NULL, p_xran_dev_ctx->TtiCbParam[XRAN_CB_TTI]);
252 ASSERT_EQ(10, p_xran_dev_ctx->SkipTti[XRAN_CB_TTI]);
254 ret = xran_reg_physide_cb(xranlib->get_xranhandle(), physide_ul_half_slot_call_back, NULL, 10, XRAN_CB_HALF_SLOT_RX);
256 ASSERT_EQ(physide_ul_half_slot_call_back, p_xran_dev_ctx->ttiCb[XRAN_CB_HALF_SLOT_RX]);
257 ASSERT_EQ(NULL, p_xran_dev_ctx->TtiCbParam[XRAN_CB_HALF_SLOT_RX]);
258 ASSERT_EQ(10, p_xran_dev_ctx->SkipTti[XRAN_CB_HALF_SLOT_RX]);
260 ret = xran_reg_physide_cb(xranlib->get_xranhandle(), physide_ul_full_slot_call_back, NULL, 10, XRAN_CB_FULL_SLOT_RX);
262 ASSERT_EQ(physide_ul_full_slot_call_back, p_xran_dev_ctx->ttiCb[XRAN_CB_FULL_SLOT_RX]);
263 ASSERT_EQ(NULL, p_xran_dev_ctx->TtiCbParam[XRAN_CB_FULL_SLOT_RX]);
264 ASSERT_EQ(10, p_xran_dev_ctx->SkipTti[XRAN_CB_FULL_SLOT_RX]);
268 TEST_P(Init_Sys_Check, Test_xran_reg_sym_cb){
270 ret = xran_reg_sym_cb(xranlib->get_xranhandle(), physide_sym_call_back, NULL, 11, 0);
274 TEST_P(Init_Sys_Check, Test_xran_mm_destroy){
276 ret = xran_mm_destroy(xranlib->get_xranhandle());
280 TEST_P(Init_Sys_Check, Test_xran_start_stop){
282 ASSERT_EQ(XRAN_STOPPED, xran_if_current_state);
283 ret = xranlib->Start();
285 ASSERT_EQ(XRAN_RUNNING, xran_if_current_state);
286 ret = xranlib->Stop();
288 ASSERT_EQ(XRAN_STOPPED, xran_if_current_state);
291 INSTANTIATE_TEST_CASE_P(UnitTest, Init_Sys_Check,
292 testing::ValuesIn(get_sequence(Init_Sys_Check::get_number_of_cases("init_sys_functional"))));