Commit f15b4464 authored by Cedric Roux's avatar Cedric Roux
Browse files

Merge remote-tracking branch 'origin/feature-agent-id' into develop_integration_2018_w12

parents b79e6bfb 9c47c860
......@@ -131,7 +131,7 @@ message flex_enb_config_request {
message flex_enb_config_reply {
optional flex_header header = 1;
optional uint32 eNB_id = 2; // Unique id to distinguish the eNB
optional uint64 eNB_id = 2; // Unique id to distinguish the eNB
repeated flex_cell_config cell_config = 3;
optional uint32 device_spec = 4;
}
......
......@@ -60,37 +60,124 @@
extern uint16_t sf_ahead;
void RCconfig_flexran()
{
int i;
uint16_t i;
uint16_t num_enbs;
char aprefix[MAX_OPTNAME_SIZE*2 + 8];
/* this will possibly truncate the cell id (RRC assumes int32_t).
* Both Nid_cell and enb_id are signed in RRC case, but we use unsigned for
* the bitshifting to work properly */
int32_t Nid_cell = 0;
uint16_t Nid_cell_tr = 0;
uint32_t enb_id = 0;
/*
* the only reason for all these variables is, that they are "hard-encoded"
* into the CCPARAMS_DESC macro and we need it for the Nid_cell variable ...
*/
char *frame_type, *prefix_type, *pbch_repetition, *prach_high_speed,
*pusch_hoppingMode, *pusch_enable64QAM, *pusch_groupHoppingEnabled,
*pusch_sequenceHoppingEnabled, *phich_duration, *phich_resource,
*srs_enable, *srs_ackNackST, *srs_MaxUpPts, *pusch_alpha,
*pucch_deltaF_Format1, *pucch_deltaF_Format1b, *pucch_deltaF_Format2,
*pucch_deltaF_Format2a, *pucch_deltaF_Format2b,
*rach_preamblesGroupAConfig, *rach_messagePowerOffsetGroupB, *pcch_nB;
long long int downlink_frequency;
int32_t tdd_config, tdd_config_s, eutra_band, uplink_frequency_offset,
Nid_cell_mbsfn, N_RB_DL, nb_antenna_ports, prach_root, prach_config_index,
prach_zero_correlation, prach_freq_offset, pucch_delta_shift,
pucch_nRB_CQI, pucch_nCS_AN, pucch_n1_AN, pdsch_referenceSignalPower,
pdsch_p_b, pusch_n_SB, pusch_hoppingOffset, pusch_groupAssignment,
pusch_nDMRS1, srs_BandwidthConfig, srs_SubframeConfig, pusch_p0_Nominal,
pucch_p0_Nominal, msg3_delta_Preamble, rach_numberOfRA_Preambles,
rach_sizeOfRA_PreamblesGroupA, rach_messageSizeGroupA,
rach_powerRampingStep, rach_preambleInitialReceivedTargetPower,
rach_preambleTransMax, rach_raResponseWindowSize,
rach_macContentionResolutionTimer, rach_maxHARQ_Msg3Tx,
pcch_defaultPagingCycle, bcch_modificationPeriodCoeff,
ue_TimersAndConstants_t300, ue_TimersAndConstants_t301,
ue_TimersAndConstants_t310, ue_TimersAndConstants_t311,
ue_TimersAndConstants_n310, ue_TimersAndConstants_n311,
ue_TransmissionMode;
/* get number of eNBs */
paramdef_t ENBSParams[] = ENBSPARAMS_DESC;
config_get(ENBSParams, sizeof(ENBSParams)/sizeof(paramdef_t), NULL);
num_enbs = ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt;
/* for eNB ID */
paramdef_t ENBParams[] = ENBPARAMS_DESC;
paramlist_def_t ENBParamList = {ENB_CONFIG_STRING_ENB_LIST, NULL, 0};
/* for Nid_cell */
checkedparam_t config_check_CCparams[] = CCPARAMS_CHECK;
paramdef_t CCsParams[] = CCPARAMS_DESC;
paramlist_def_t CCsParamList = {ENB_CONFIG_STRING_COMPONENT_CARRIERS, NULL, 0};
/* map parameter checking array instances to parameter definition array instances */
for (int I = 0; I < (sizeof(CCsParams) / sizeof(paramdef_t)); I++) {
CCsParams[I].chkPptr = &(config_check_CCparams[I]);
}
paramdef_t flexranParams[] = FLEXRANPARAMS_DESC;
config_get(flexranParams, sizeof(flexranParams)/sizeof(paramdef_t), CONFIG_STRING_NETWORK_CONTROLLER_CONFIG);
if (!RC.flexran) {
RC.flexran = calloc(RC.nb_L1_inst, sizeof(flexran_agent_info_t*));
AssertFatal(RC.flexran != NULL,
RC.flexran = calloc(num_enbs, sizeof(flexran_agent_info_t*));
AssertFatal(RC.flexran,
"can't ALLOCATE %zu Bytes for %d flexran agent info with size %zu\n",
RC.nb_L1_inst * sizeof(flexran_agent_info_t*),
RC.nb_L1_inst, sizeof(flexran_agent_info_t*));
num_enbs * sizeof(flexran_agent_info_t*),
num_enbs, sizeof(flexran_agent_info_t*));
}
/* For all agent instance, fill in the same controller configuration. */
for (i = 0; i < RC.nb_L1_inst; i++) {
for (i = 0; i < num_enbs; i++) {
RC.flexran[i] = calloc(1, sizeof(flexran_agent_info_t));
AssertFatal(RC.flexran[i] != NULL,
AssertFatal(RC.flexran[i],
"can't ALLOCATE %zu Bytes for flexran agent info (iteration %d/%d)\n",
sizeof(flexran_agent_info_t), i + 1, RC.nb_L1_inst);
sizeof(flexran_agent_info_t), i + 1, num_enbs);
/* if config says "yes", enable Agent, in all other cases it's like "no" */
RC.flexran[i]->enabled = strcmp(*(flexranParams[FLEXRAN_ENABLED].strptr), "yes") == 0;
RC.flexran[i]->enabled = strcasecmp(*(flexranParams[FLEXRAN_ENABLED].strptr), "yes") == 0;
/* if not enabled, simply skip the rest, it is not needed anyway */
if (!RC.flexran[i]->enabled)
continue;
RC.flexran[i]->interface_name = strdup(*(flexranParams[FLEXRAN_INTERFACE_NAME_IDX].strptr));
//inet_ntop(AF_INET, &(enb_properties->properties[mod_id]->flexran_agent_ipv4_address), in_ip, INET_ADDRSTRLEN);
RC.flexran[i]->remote_ipv4_addr = strdup(*(flexranParams[FLEXRAN_IPV4_ADDRESS_IDX].strptr));
RC.flexran[i]->remote_port = *(flexranParams[FLEXRAN_PORT_IDX].uptr);
RC.flexran[i]->cache_name = strdup(*(flexranParams[FLEXRAN_CACHE_IDX].strptr));
RC.flexran[i]->node_ctrl_state = strcmp(*(flexranParams[FLEXRAN_AWAIT_RECONF_IDX].strptr), "yes") == 0 ? ENB_WAIT : ENB_NORMAL_OPERATION;
RC.flexran[i]->enb_id = i;
RC.flexran[i]->node_ctrl_state = strcasecmp(*(flexranParams[FLEXRAN_AWAIT_RECONF_IDX].strptr), "yes") == 0 ? ENB_WAIT : ENB_NORMAL_OPERATION;
config_getlist(&ENBParamList, ENBParams, sizeof(ENBParams)/sizeof(paramdef_t),NULL);
/* eNB ID from configuration, as read in by RCconfig_RRC() */
if (!ENBParamList.paramarray[i][ENB_ENB_ID_IDX].uptr) {
// Calculate a default eNB ID
# if defined(ENABLE_USE_MME)
enb_id = i + (s1ap_generate_eNB_id () & 0xFFFF8);
# else
enb_id = i;
# endif
} else {
enb_id = *(ENBParamList.paramarray[i][ENB_ENB_ID_IDX].uptr);
}
/* cell ID */
sprintf(aprefix, "%s.[%i]", ENB_CONFIG_STRING_ENB_LIST, i);
config_getlist(&CCsParamList, NULL, 0, aprefix);
if (CCsParamList.numelt > 0) {
sprintf(aprefix, "%s.[%i].%s.[%i]", ENB_CONFIG_STRING_ENB_LIST, i, ENB_CONFIG_STRING_COMPONENT_CARRIERS, 0);
config_get(CCsParams, sizeof(CCsParams)/sizeof(paramdef_t), aprefix);
Nid_cell_tr = (uint16_t) Nid_cell;
}
RC.flexran[i]->mod_id = i;
RC.flexran[i]->agent_id = (((uint64_t)i) << 48) | (((uint64_t)enb_id) << 16) | ((uint64_t)Nid_cell_tr);
/* assume for the moment the monolithic case, i.e. agent can provide
* information for all layers */
RC.flexran[i]->capability_mask = FLEXRAN_CAP_LOPHY | FLEXRAN_CAP_HIPHY
| FLEXRAN_CAP_LOMAC | FLEXRAN_CAP_HIMAC
| FLEXRAN_CAP_RLC | FLEXRAN_CAP_PDCP
| FLEXRAN_CAP_SDAP | FLEXRAN_CAP_RRC;
}
}
......
......@@ -114,12 +114,12 @@ void *receive_thread(void *args) {
while (1) {
while (flexran_agent_msg_recv(d->enb_id, FLEXRAN_AGENT_DEFAULT, &data, &size, &priority) == 0) {
while (flexran_agent_msg_recv(d->mod_id, FLEXRAN_AGENT_DEFAULT, &data, &size, &priority) == 0) {
LOG_D(FLEXRAN_AGENT,"received message with size %d\n", size);
// Invoke the message handler
msg=flexran_agent_handle_message(d->enb_id, data, size);
msg=flexran_agent_handle_message(d->mod_id, data, size);
free(data);
......@@ -127,7 +127,7 @@ void *receive_thread(void *args) {
if (msg != NULL){
data=flexran_agent_pack_message(msg,&size);
if (flexran_agent_msg_send(d->enb_id, FLEXRAN_AGENT_DEFAULT, data, size, priority)) {
if (flexran_agent_msg_send(d->mod_id, FLEXRAN_AGENT_DEFAULT, data, size, priority)) {
err_code = PROTOCOL__FLEXRAN_ERR__MSG_ENQUEUING;
goto error;
}
......@@ -190,13 +190,6 @@ int flexran_agent_start(mid_t mod_id)
LOG_I(FLEXRAN_AGENT, "FlexRAN Agent for eNB %d is DISABLED\n", mod_id);
return 100;
}
flexran->enb_id = mod_id;
/* assume for the moment the monolithic case, i.e. agent can provide
* information for all layers */
flexran->capability_mask = FLEXRAN_CAP_LOL1 | FLEXRAN_CAP_HIL1
| FLEXRAN_CAP_LOL2 | FLEXRAN_CAP_HIL2
| FLEXRAN_CAP_PDCP | FLEXRAN_CAP_RRC;
/*
* Initialize the channel container
......
......@@ -804,7 +804,6 @@ int flexran_agent_enb_config_reply(mid_t mod_id, const void *params, Protocol__F
xid = (enb_config_req_msg->header)->xid;
int i, j;
int enb_id = mod_id;
Protocol__FlexEnbConfigReply *enb_config_reply_msg;
enb_config_reply_msg = malloc(sizeof(Protocol__FlexEnbConfigReply));
......@@ -816,10 +815,10 @@ int flexran_agent_enb_config_reply(mid_t mod_id, const void *params, Protocol__F
goto error;
enb_config_reply_msg->header = header;
enb_config_reply_msg->enb_id = mod_id;
enb_config_reply_msg->enb_id = RC.flexran[mod_id]->agent_id;
enb_config_reply_msg->has_enb_id = 1;
enb_config_reply_msg->n_cell_config = MAX_NUM_CCs;
Protocol__FlexCellConfig **cell_conf;
......@@ -832,61 +831,60 @@ int flexran_agent_enb_config_reply(mid_t mod_id, const void *params, Protocol__F
protocol__flex_cell_config__init(cell_conf[i]);
cell_conf[i]->phy_cell_id = 1;
cell_conf[i]->has_phy_cell_id = flexran_get_cell_id(enb_id,i);
cell_conf[i]->has_phy_cell_id = flexran_get_cell_id(mod_id,i);
cell_conf[i]->cell_id = i;
cell_conf[i]->has_cell_id = 1;
cell_conf[i]->pusch_hopping_offset = flexran_get_hopping_offset(enb_id,i);
cell_conf[i]->pusch_hopping_offset = flexran_get_hopping_offset(mod_id,i);
cell_conf[i]->has_pusch_hopping_offset = 1;
if (flexran_get_hopping_mode(enb_id,i) == 0) {
if (flexran_get_hopping_mode(mod_id,i) == 0) {
cell_conf[i]->hopping_mode = PROTOCOL__FLEX_HOPPING_MODE__FLHM_INTER;
} else if(flexran_get_hopping_mode(enb_id,i) == 1) {
} else if(flexran_get_hopping_mode(mod_id,i) == 1) {
cell_conf[i]->hopping_mode = PROTOCOL__FLEX_HOPPING_MODE__FLHM_INTERINTRA;
}
cell_conf[i]->has_hopping_mode = 1;
cell_conf[i]->n_sb = flexran_get_n_SB(enb_id,i);
cell_conf[i]->n_sb = flexran_get_n_SB(mod_id,i);
cell_conf[i]->has_n_sb = 1;
if (flexran_get_phich_resource(enb_id,i) == 0) {
if (flexran_get_phich_resource(mod_id,i) == 0) {
cell_conf[i]->phich_resource = PROTOCOL__FLEX_PHICH_RESOURCE__FLPR_ONE_SIXTH; //0
} else if (flexran_get_phich_resource(enb_id,i) == 1) {
} else if (flexran_get_phich_resource(mod_id,i) == 1) {
cell_conf[i]->phich_resource = PROTOCOL__FLEX_PHICH_RESOURCE__FLPR_HALF; //1
} else if (flexran_get_phich_resource(enb_id,i) == 2) {
} else if (flexran_get_phich_resource(mod_id,i) == 2) {
cell_conf[i]->phich_resource = PROTOCOL__FLEX_PHICH_RESOURCE__FLPR_ONE; // 2
} else if (flexran_get_phich_resource(enb_id,i) == 3) {
} else if (flexran_get_phich_resource(mod_id,i) == 3) {
cell_conf[i]->phich_resource = PROTOCOL__FLEX_PHICH_RESOURCE__FLPR_TWO;//3
}
cell_conf[i]->has_phich_resource = 1;
if (flexran_get_phich_duration(enb_id,i) == 0) {
if (flexran_get_phich_duration(mod_id,i) == 0) {
cell_conf[i]->phich_duration = PROTOCOL__FLEX_PHICH_DURATION__FLPD_NORMAL;
} else if(flexran_get_phich_duration(enb_id,i) == 1) {
} else if(flexran_get_phich_duration(mod_id,i) == 1) {
cell_conf[i]->phich_duration = PROTOCOL__FLEX_PHICH_DURATION__FLPD_EXTENDED;
}
cell_conf[i]->has_phich_duration = 1;
//TODO: Fill in with actual value, See TS 36.211, section 6.9
cell_conf[i]->init_nr_pdcch_ofdm_sym = flexran_get_num_pdcch_symb(enb_id,i);
cell_conf[i]->has_init_nr_pdcch_ofdm_sym = 0;
//TODO: Fill in with actual value
/* Protocol__FlexSiConfig *si_config; */
/* si_config = malloc(sizeof(Protocol__FlexSiConfig)); */
/* if(si_config == NULL) */
/* goto error; */
/* protocol__flex_si_config__init(si_config); */
/* //TODO: Fill in with actual value, Frame number to apply the SI configuration */
/* si_config->sfn = 1; */
/* si_config->has_sfn = 1; */
/* //TODO: Fill in with actual value, the length of SIB1 in bytes */
/* si_config->sib1_length = get_sib1_length(enb_id,i); */
/* si_config->has_sib1_length = 1; */
/* //TODO: Fill in with actual value, Scheduling window for all SIs in SF */
/* si_config->si_window_length = (uint32_t) get_si_window_length(enb_id,i); */
/* si_config->has_si_window_length = 1; */
/* //TODO: Fill in with actual value, the number of SI messages */
/* si_config->n_si_message=1; */
cell_conf[i]->init_nr_pdcch_ofdm_sym = flexran_get_num_pdcch_symb(mod_id,i);
cell_conf[i]->has_init_nr_pdcch_ofdm_sym = 1;
Protocol__FlexSiConfig *si_config;
si_config = malloc(sizeof(Protocol__FlexSiConfig));
if(si_config == NULL)
goto error;
protocol__flex_si_config__init(si_config);
si_config->sfn = flexran_get_current_system_frame_num(mod_id);
si_config->has_sfn = 1;
si_config->sib1_length = flexran_get_sib1_length(mod_id,i);
si_config->has_sib1_length = 1;
si_config->si_window_length = (uint32_t) flexran_get_si_window_length(mod_id, i);
si_config->has_si_window_length = 1;
si_config->n_si_message = 0;
/* Protocol__FlexSiMessage **si_message; */
/* si_message = malloc(sizeof(Protocol__FlexSiMessage *) * si_config->n_si_message); */
/* if(si_message == NULL) */
......@@ -906,44 +904,42 @@ int flexran_agent_enb_config_reply(mid_t mod_id, const void *params, Protocol__F
/* if(si_config->n_si_message > 0){ */
/* si_config->si_message = si_message; */
/* } */
/* cell_conf[i]->si_config = si_config; */
cell_conf[i]->dl_bandwidth = flexran_get_N_RB_DL(enb_id,i);
cell_conf[i]->si_config = si_config;
cell_conf[i]->dl_bandwidth = flexran_get_N_RB_DL(mod_id,i);
cell_conf[i]->has_dl_bandwidth = 1;
cell_conf[i]->ul_bandwidth = flexran_get_N_RB_UL(enb_id,i);
cell_conf[i]->ul_bandwidth = flexran_get_N_RB_UL(mod_id,i);
cell_conf[i]->has_ul_bandwidth = 1;
if (flexran_get_ul_cyclic_prefix_length(enb_id, i) == 0) {
if (flexran_get_ul_cyclic_prefix_length(mod_id, i) == 0) {
cell_conf[i]->ul_cyclic_prefix_length = PROTOCOL__FLEX_UL_CYCLIC_PREFIX_LENGTH__FLUCPL_NORMAL;
} else if(flexran_get_ul_cyclic_prefix_length(enb_id, i) == 1) {
cell_conf[i]->ul_cyclic_prefix_length = PROTOCOL__FLEX_UL_CYCLIC_PREFIX_LENGTH__FLUCPL_EXTENDED;
} else if(flexran_get_ul_cyclic_prefix_length(mod_id, i) == 1) {
cell_conf[i]->ul_cyclic_prefix_length = PROTOCOL__FLEX_UL_CYCLIC_PREFIX_LENGTH__FLUCPL_EXTENDED;
}
cell_conf[i]->has_ul_cyclic_prefix_length = 1;
if (flexran_get_ul_cyclic_prefix_length(enb_id,i) == 0) {
if (flexran_get_ul_cyclic_prefix_length(mod_id,i) == 0) {
cell_conf[i]->ul_cyclic_prefix_length = PROTOCOL__FLEX_DL_CYCLIC_PREFIX_LENGTH__FLDCPL_NORMAL;
} else if (flexran_get_ul_cyclic_prefix_length(enb_id,i) == 1) {
} else if (flexran_get_ul_cyclic_prefix_length(mod_id,i) == 1) {
cell_conf[i]->ul_cyclic_prefix_length = PROTOCOL__FLEX_DL_CYCLIC_PREFIX_LENGTH__FLDCPL_EXTENDED;
}
cell_conf[i]->has_dl_cyclic_prefix_length = 1;
//TODO: Fill in with actual value, number of cell specific antenna ports. Currently single port support
cell_conf[i]->antenna_ports_count = 1;
cell_conf[i]->antenna_ports_count = flexran_get_antenna_ports(mod_id, i);
cell_conf[i]->has_antenna_ports_count = 1;
if (flexran_get_duplex_mode(enb_id,i) == 1) {
if (flexran_get_duplex_mode(mod_id,i) == 1) {
cell_conf[i]->duplex_mode = PROTOCOL__FLEX_DUPLEX_MODE__FLDM_FDD;
} else if(flexran_get_duplex_mode(enb_id,i) == 0) {
} else if(flexran_get_duplex_mode(mod_id,i) == 0) {
cell_conf[i]->duplex_mode = PROTOCOL__FLEX_DUPLEX_MODE__FLDM_TDD;
}
cell_conf[i]->has_duplex_mode = 1;
//TODO: Fill in with actual value, DL/UL subframe assignment. TDD only
cell_conf[i]->subframe_assignment = flexran_get_subframe_assignment(enb_id, i);
cell_conf[i]->has_subframe_assignment = 0;
//TODO: Fill in with actual value, TDD only. See TS 36.211, table 4.2.1
cell_conf[i]->special_subframe_patterns = flexran_get_special_subframe_assignment(enb_id,i);
cell_conf[i]->has_special_subframe_patterns = 0;
cell_conf[i]->subframe_assignment = flexran_get_subframe_assignment(mod_id, i);
cell_conf[i]->has_subframe_assignment = 1;
cell_conf[i]->special_subframe_patterns = flexran_get_special_subframe_assignment(mod_id,i);
cell_conf[i]->has_special_subframe_patterns = 1;
//TODO: Fill in with actual value, The MBSFN radio frame period
cell_conf[i]->n_mbsfn_subframe_config_rfperiod = 0;
uint32_t *elem_rfperiod;
......@@ -954,7 +950,7 @@ int flexran_agent_enb_config_reply(mid_t mod_id, const void *params, Protocol__F
elem_rfperiod[j] = 1;
}
cell_conf[i]->mbsfn_subframe_config_rfperiod = elem_rfperiod;
//TODO: Fill in with actual value, The MBSFN radio frame offset
cell_conf[i]->n_mbsfn_subframe_config_rfoffset = 0;
uint32_t *elem_rfoffset;
......@@ -965,7 +961,7 @@ int flexran_agent_enb_config_reply(mid_t mod_id, const void *params, Protocol__F
elem_rfoffset[j] = 1;
}
cell_conf[i]->mbsfn_subframe_config_rfoffset = elem_rfoffset;
//TODO: Fill in with actual value, Bitmap indicating the MBSFN subframes
cell_conf[i]->n_mbsfn_subframe_config_sfalloc = 0;
uint32_t *elem_sfalloc;
......@@ -976,63 +972,62 @@ int flexran_agent_enb_config_reply(mid_t mod_id, const void *params, Protocol__F
elem_sfalloc[j] = 1;
}
cell_conf[i]->mbsfn_subframe_config_sfalloc = elem_sfalloc;
cell_conf[i]->prach_config_index = flexran_get_prach_ConfigIndex(enb_id,i);
cell_conf[i]->prach_config_index = flexran_get_prach_ConfigIndex(mod_id,i);
cell_conf[i]->has_prach_config_index = 1;
cell_conf[i]->prach_freq_offset = flexran_get_prach_FreqOffset(enb_id,i);
cell_conf[i]->prach_freq_offset = flexran_get_prach_FreqOffset(mod_id,i);
cell_conf[i]->has_prach_freq_offset = 1;
cell_conf[i]->ra_response_window_size = flexran_get_ra_ResponseWindowSize(enb_id,i);
cell_conf[i]->ra_response_window_size = flexran_get_ra_ResponseWindowSize(mod_id,i);
cell_conf[i]->has_ra_response_window_size = 1;
cell_conf[i]->mac_contention_resolution_timer = flexran_get_mac_ContentionResolutionTimer(enb_id,i);
cell_conf[i]->mac_contention_resolution_timer = flexran_get_mac_ContentionResolutionTimer(mod_id,i);
cell_conf[i]->has_mac_contention_resolution_timer = 1;
cell_conf[i]->max_harq_msg3tx = flexran_get_maxHARQ_Msg3Tx(enb_id,i);
cell_conf[i]->max_harq_msg3tx = flexran_get_maxHARQ_Msg3Tx(mod_id,i);
cell_conf[i]->has_max_harq_msg3tx = 1;
cell_conf[i]->n1pucch_an = flexran_get_n1pucch_an(enb_id,i);
cell_conf[i]->n1pucch_an = flexran_get_n1pucch_an(mod_id,i);
cell_conf[i]->has_n1pucch_an = 1;
cell_conf[i]->deltapucch_shift = flexran_get_deltaPUCCH_Shift(enb_id,i);
cell_conf[i]->deltapucch_shift = flexran_get_deltaPUCCH_Shift(mod_id,i);
cell_conf[i]->has_deltapucch_shift = 1;
cell_conf[i]->nrb_cqi = flexran_get_nRB_CQI(enb_id,i);
cell_conf[i]->nrb_cqi = flexran_get_nRB_CQI(mod_id,i);
cell_conf[i]->has_nrb_cqi = 1;
cell_conf[i]->srs_subframe_config = flexran_get_srs_SubframeConfig(enb_id,i);
cell_conf[i]->srs_subframe_config = flexran_get_srs_SubframeConfig(mod_id,i);
cell_conf[i]->has_srs_subframe_config = 1;
cell_conf[i]->srs_bw_config = flexran_get_srs_BandwidthConfig(enb_id,i);
cell_conf[i]->srs_bw_config = flexran_get_srs_BandwidthConfig(mod_id,i);
cell_conf[i]->has_srs_bw_config = 1;
cell_conf[i]->srs_mac_up_pts = flexran_get_srs_MaxUpPts(enb_id,i);
cell_conf[i]->srs_mac_up_pts = flexran_get_srs_MaxUpPts(mod_id,i);
cell_conf[i]->has_srs_mac_up_pts = 1;
cell_conf[i]->dl_freq = flexran_agent_get_operating_dl_freq (enb_id,i);
cell_conf[i]->dl_freq = flexran_agent_get_operating_dl_freq (mod_id,i);
cell_conf[i]->has_dl_freq = 1;
cell_conf[i]->ul_freq = flexran_agent_get_operating_ul_freq (enb_id, i);
cell_conf[i]->ul_freq = flexran_agent_get_operating_ul_freq (mod_id, i);
cell_conf[i]->has_ul_freq = 1;
cell_conf[i]->eutra_band = flexran_agent_get_operating_eutra_band (enb_id,i);
cell_conf[i]->eutra_band = flexran_agent_get_operating_eutra_band (mod_id,i);
cell_conf[i]->has_eutra_band = 1;
cell_conf[i]->dl_pdsch_power = flexran_agent_get_operating_pdsch_refpower(enb_id, i);
cell_conf[i]->dl_pdsch_power = flexran_agent_get_operating_pdsch_refpower(mod_id, i);
cell_conf[i]->has_dl_pdsch_power = 1;
cell_conf[i]->ul_pusch_power = flexran_agent_get_operating_pusch_p0 (enb_id,i);
cell_conf[i]->ul_pusch_power = flexran_agent_get_operating_pusch_p0 (mod_id,i);
cell_conf[i]->has_ul_pusch_power = 1;
if (flexran_get_enable64QAM(enb_id,i) == 0) {
if (flexran_get_enable64QAM(mod_id,i) == 0) {
cell_conf[i]->enable_64qam = PROTOCOL__FLEX_QAM__FLEQ_MOD_16QAM;
} else if(flexran_get_enable64QAM(enb_id,i) == 1) {
} else if(flexran_get_enable64QAM(mod_id,i) == 1) {
cell_conf[i]->enable_64qam = PROTOCOL__FLEX_QAM__FLEQ_MOD_64QAM;
}
cell_conf[i]->has_enable_64qam = 1;
cell_conf[i]->carrier_index = i;
cell_conf[i]->has_carrier_index = 1;
}
......
......@@ -138,12 +138,14 @@ typedef enum {
FLEXRAN_AGENT_TIMER_STATE_MAX,
} flexran_agent_timer_state_t;
#define FLEXRAN_CAP_LOL1 0x1
#define FLEXRAN_CAP_HIL1 0x2
#define FLEXRAN_CAP_LOL2 0x4 // is: MAC
#define FLEXRAN_CAP_HIL2 0x8 // is: RLC
#define FLEXRAN_CAP_PDCP 0x16
#define FLEXRAN_CAP_RRC 0x32
#define FLEXRAN_CAP_LOPHY 1
#define FLEXRAN_CAP_HIPHY 2
#define FLEXRAN_CAP_LOMAC 4
#define FLEXRAN_CAP_HIMAC 8
#define FLEXRAN_CAP_RLC 16
#define FLEXRAN_CAP_PDCP 32
#define FLEXRAN_CAP_SDAP 64
#define FLEXRAN_CAP_RRC 128
typedef enum {
ENB_NORMAL_OPERATION = 0x0,
......@@ -159,7 +161,8 @@ typedef struct {
uint16_t remote_port;
char *cache_name;
int enb_id;
mid_t mod_id;
uint64_t agent_id;
uint8_t capability_mask;
/* lock for waiting before starting or soft-restart */
......
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