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Commit 872cfc03 authored by Robert Schmidt's avatar Robert Schmidt
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Implement Static Slicing

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cmake_targets/CMakeLists.txt
View file @ 872cfc03
......@@ -1830,6 +1830,7 @@ set (MAC_SRC
${MAC_DIR}/eNB_scheduler_fairRR.c
${MAC_DIR}/eNB_scheduler_phytest.c
${MAC_DIR}/pre_processor.c
${MAC_DIR}/slicing/slicing.c
${MAC_DIR}/config.c
${MAC_DIR}/config_ue.c
)
......
openair2/LAYER2/MAC/slicing/slicing.c 0 → 100644
View file @ 872cfc03
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.1 (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.openairinterface.org/?page_id=698
*
* 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.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/*!
* \file slicing.c
* \brief Generic slicing helper functions and Static Slicing Implementation
* \author Robert Schmidt
* \date 2020
* \email robert.schmidt@eurecom.fr
*/
#define _GNU_SOURCE
#include <stdlib.h>
#include <dlfcn.h>
#include "assertions.h"
#include "common/utils/LOG/log.h"
#include "slicing.h"
#include "slicing_internal.h"
#include "common/ran_context.h"
extern RAN_CONTEXT_t RC;
#define RET_FAIL(ret, x...) do { LOG_E(MAC, x); return ret; } while (0)
int slicing_get_UE_slice_idx(slice_info_t *si, int UE_id) {
return si->UE_assoc_slice[UE_id];
}
void slicing_add_UE(slice_info_t *si, int UE_id) {
add_ue_list(&si->s[0]->UEs, UE_id);
si->UE_assoc_slice[UE_id] = 0;
}
void _remove_UE(slice_t **s, uint8_t *assoc, int UE_id) {
const uint8_t i = assoc[UE_id];
DevAssert(remove_ue_list(&s[i]->UEs, UE_id));
assoc[UE_id] = -1;
}
void slicing_remove_UE(slice_info_t *si, int UE_id) {
_remove_UE(si->s, si->UE_assoc_slice, UE_id);
}
void _move_UE(slice_t **s, uint8_t *assoc, int UE_id, int to) {
const uint8_t i = assoc[UE_id];
const int ri = remove_ue_list(&s[i]->UEs, UE_id);
if (!ri)
LOG_W(MAC, "did not find UE %d in DL slice index %d\n", UE_id, i);
add_ue_list(&s[to]->UEs, UE_id);
assoc[UE_id] = to;
}
void slicing_move_UE(slice_info_t *si, int UE_id, int idx) {
DevAssert(idx >= -1 && idx < si->num);
if (idx >= 0)
_move_UE(si->s, si->UE_assoc_slice, UE_id, idx);
}
int _exists_slice(uint8_t n, slice_t **s, int id) {
for (int i = 0; i < n; ++i)
if (s[i]->id == id)
return i;
return -1;
}
slice_t *_add_slice(uint8_t *n, slice_t **s) {
s[*n] = calloc(1, sizeof(slice_t));
if (!s[*n])
return NULL;
init_ue_list(&s[*n]->UEs);
*n += 1;
return s[*n - 1];
}
slice_t *_remove_slice(uint8_t *n, slice_t **s, uint8_t *assoc, int idx) {
if (idx >= *n)
return NULL;
slice_t *sr = s[idx];
while (sr->UEs.head >= 0)
_move_UE(s, assoc, sr->UEs.head, 0);
for (int i = idx + 1; i < *n; ++i)
s[i - 1] = s[i];
*n -= 1;
s[*n] = NULL;
for (int i = 0; i < MAX_MOBILES_PER_ENB; ++i)
if (assoc[i] > idx)
assoc[i] -= 1;
if (sr->label)
free(sr->label);
return sr;
}
/************************ Static Slicing Implementation ************************/
int addmod_static_slice_dl(slice_info_t *si,
int id,
char *label,
void *algo,
void *slice_params_dl) {
static_slice_param_t *dl = slice_params_dl;
if (dl && dl->posLow > dl->posHigh)
RET_FAIL(-1, "%s(): slice id %d posLow > posHigh\n", __func__, id);
uint8_t rbgMap[25] = { 0 };
int index = _exists_slice(si->num, si->s, id);
if (index >= 0) {
for (int s = 0; s < si->num; ++s) {
static_slice_param_t *sd = dl && si->s[s]->id == id ? dl : si->s[s]->algo_data;
for (int i = sd->posLow; i <= sd->posHigh; ++i) {
if (rbgMap[i])
RET_FAIL(-33, "%s(): overlap of slices detected at RBG %d\n", __func__, i);
rbgMap[i] = 1;
}
}
/* no problem, can allocate */
slice_t *s = si->s[index];
if (label) {
if (s->label) free(s->label);
s->label = label;
}
if (algo) {
s->dl_algo.unset(&s->dl_algo.data);
s->dl_algo = *(default_sched_dl_algo_t *) algo;
if (!s->dl_algo.data)
s->dl_algo.data = s->dl_algo.setup();
}
if (dl) {
free(s->algo_data);
s->algo_data = dl;
}
return index;
}
if (!dl)
RET_FAIL(-100, "%s(): no parameters for new slice %d, aborting\n", __func__, id);
if (si->num >= MAX_STATIC_SLICES)
RET_FAIL(-2, "%s(): cannot have more than %d slices\n", __func__, MAX_STATIC_SLICES);
for (int s = 0; s < si->num; ++s) {
static_slice_param_t *sd = si->s[s]->algo_data;
for (int i = sd->posLow; i <= sd->posHigh; ++i)
rbgMap[i] = 1;
}
for (int i = dl->posLow; i <= dl->posHigh; ++i)
if (rbgMap[i])
RET_FAIL(-3, "%s(): overlap of slices detected at RBG %d\n", __func__, i);
if (!algo)
RET_FAIL(-14, "%s(): no scheduler algorithm provided\n", __func__);
slice_t *ns = _add_slice(&si->num, si->s);
if (!ns)
RET_FAIL(-4, "%s(): could not create new slice\n", __func__);
ns->id = id;
ns->label = label;
ns->dl_algo = *(default_sched_dl_algo_t *) algo;
if (!ns->dl_algo.data)
ns->dl_algo.data = ns->dl_algo.setup();
ns->algo_data = dl;
return si->num - 1;
}
int addmod_static_slice_ul(slice_info_t *si,
int id,
char *label,
void *algo,
void *slice_params_ul) {
static_slice_param_t *ul = slice_params_ul;
/* Minimum 3RBs, because LTE stack requires this */
if (ul && ul->posLow + 2 > ul->posHigh)
RET_FAIL(-1, "%s(): slice id %d posLow + 2 > posHigh\n", __func__, id);
uint8_t rbMap[110] = { 0 };
int index = _exists_slice(si->num, si->s, id);
if (index >= 0) {
for (int s = 0; s < si->num; ++s) {
static_slice_param_t *su = ul && si->s[s]->id == id && ul ? ul : si->s[s]->algo_data;
for (int i = su->posLow; i <= su->posHigh; ++i) {
if (rbMap[i])
RET_FAIL(-33, "%s(): overlap of slices detected at RBG %d\n", __func__, i);
rbMap[i] = 1;
}
}
/* no problem, can allocate */
slice_t *s = si->s[index];
if (algo) {
s->ul_algo.unset(&s->ul_algo.data);
s->ul_algo = *(default_sched_ul_algo_t *) algo;
if (!s->ul_algo.data)
s->ul_algo.data = s->ul_algo.setup();
}
if (label) {
if (s->label) free(s->label);
s->label = label;
}
if (ul) {
free(s->algo_data);
s->algo_data = ul;
}
return index;
}
if (!ul)
RET_FAIL(-100, "%s(): no parameters for new slice %d, aborting\n", __func__, id);
if (si->num >= MAX_STATIC_SLICES)
RET_FAIL(-2, "%s(): cannot have more than %d slices\n", __func__, MAX_STATIC_SLICES);
for (int s = 0; s < si->num; ++s) {
static_slice_param_t *sd = si->s[s]->algo_data;
for (int i = sd->posLow; i <= sd->posHigh; ++i)
rbMap[i] = 1;
}
for (int i = ul->posLow; i <= ul->posHigh; ++i)
if (rbMap[i])
RET_FAIL(-3, "%s(): overlap of slices detected at RBG %d\n", __func__, i);
if (!algo)
RET_FAIL(-14, "%s(): no scheduler algorithm provided\n", __func__);
slice_t *ns = _add_slice(&si->num, si->s);
if (!ns)
RET_FAIL(-4, "%s(): could not create new slice\n", __func__);
ns->id = id;
ns->label = label;
ns->ul_algo = *(default_sched_ul_algo_t *) algo;
if (!ns->ul_algo.data)
ns->ul_algo.data = ns->ul_algo.setup();
ns->algo_data = ul;
return si->num - 1;
}
int remove_static_slice(slice_info_t *si, uint8_t slice_idx) {
if (slice_idx == 0)
return 0;
slice_t *sr = _remove_slice(&si->num, si->s, si->UE_assoc_slice, slice_idx);
if (!sr)
return 0;
free(sr->algo_data);
free(sr);
return 1;
}
void static_dl(module_id_t mod_id,
int CC_id,
frame_t frame,
sub_frame_t subframe) {
UE_info_t *UE_info = &RC.mac[mod_id]->UE_info;
store_dlsch_buffer(mod_id, CC_id, frame, subframe);
for (int UE_id = UE_info->list.head; UE_id >= 0; UE_id = UE_info->list.next[UE_id]) {
UE_sched_ctrl_t *ue_sched_ctrl = &UE_info->UE_sched_ctrl[UE_id];
/* initialize per-UE scheduling information */
ue_sched_ctrl->pre_nb_available_rbs[CC_id] = 0;
ue_sched_ctrl->dl_pow_off[CC_id] = 2;
memset(ue_sched_ctrl->rballoc_sub_UE[CC_id], 0, sizeof(ue_sched_ctrl->rballoc_sub_UE[CC_id]));
ue_sched_ctrl->pre_dci_dl_pdu_idx = -1;
}
const int N_RBG = to_rbg(RC.mac[mod_id]->common_channels[CC_id].mib->message.dl_Bandwidth);
const int RBGsize = get_min_rb_unit(mod_id, CC_id);
uint8_t *vrb_map = RC.mac[mod_id]->common_channels[CC_id].vrb_map;
uint8_t rbgalloc_mask[N_RBG_MAX];
for (int i = 0; i < N_RBG; i++) {
// calculate mask: init to one + "AND" with vrb_map:
// if any RB in vrb_map is blocked (1), the current RBG will be 0
rbgalloc_mask[i] = 1;
for (int j = 0; j < RBGsize; j++)
rbgalloc_mask[i] &= !vrb_map[RBGsize * i + j];
}
slice_info_t *s = RC.mac[mod_id]->pre_processor_dl.slices;
int max_num_ue;
switch (s->num) {
case 1:
max_num_ue = 4;
break;
case 2:
max_num_ue = 2;
break;
default:
max_num_ue = 1;
break;
}
for (int i = 0; i < s->num; ++i) {
if (s->s[i]->UEs.head < 0)
continue;
uint8_t rbgalloc_slice_mask[N_RBG_MAX];
memset(rbgalloc_slice_mask, 0, sizeof(rbgalloc_slice_mask));
static_slice_param_t *p = s->s[i]->algo_data;
int n_rbg_sched = 0;
for (int rbg = p->posLow; rbg <= p->posHigh && rbg <= N_RBG; ++rbg) {
rbgalloc_slice_mask[rbg] = rbgalloc_mask[rbg];
n_rbg_sched += rbgalloc_mask[rbg];
}
s->s[i]->dl_algo.run(mod_id,
CC_id,
frame,
subframe,
&s->s[i]->UEs,
max_num_ue, // max_num_ue
n_rbg_sched,
rbgalloc_slice_mask,
s->s[i]->dl_algo.data);
}
// the following block is meant for validation of the pre-processor to check
// whether all UE allocations are non-overlapping and is not necessary for
// scheduling functionality
char t[26] = "_________________________";
t[N_RBG] = 0;
for (int i = 0; i < N_RBG; i++)
for (int j = 0; j < RBGsize; j++)
if (vrb_map[RBGsize*i+j] != 0)
t[i] = 'x';
int print = 0;
for (int UE_id = UE_info->list.head; UE_id >= 0; UE_id = UE_info->list.next[UE_id]) {
const UE_sched_ctrl_t *ue_sched_ctrl = &UE_info->UE_sched_ctrl[UE_id];
if (ue_sched_ctrl->pre_nb_available_rbs[CC_id] == 0)
continue;
LOG_D(MAC,
"%4d.%d UE%d %d RBs allocated, pre MCS %d\n",
frame,
subframe,
UE_id,
ue_sched_ctrl->pre_nb_available_rbs[CC_id],
UE_info->eNB_UE_stats[CC_id][UE_id].dlsch_mcs1);
print = 1;
for (int i = 0; i < N_RBG; i++) {
if (!ue_sched_ctrl->rballoc_sub_UE[CC_id][i])
continue;
for (int j = 0; j < RBGsize; j++) {
if (vrb_map[RBGsize*i+j] != 0) {
LOG_I(MAC, "%4d.%d DL scheduler allocation list: %s\n", frame, subframe, t);
LOG_E(MAC, "%4d.%d: UE %d allocated at locked RB %d/RBG %d\n", frame,
subframe, UE_id, RBGsize * i + j, i);
}
vrb_map[RBGsize*i+j] = 1;
}
t[i] = '0' + UE_id;
}
}
if (print)
LOG_D(MAC, "%4d.%d DL scheduler allocation list: %s\n", frame, subframe, t);
}
void static_ul(module_id_t mod_id,
int CC_id,
frame_t frame,
sub_frame_t subframe,
frame_t sched_frame,
sub_frame_t sched_subframe) {
UE_info_t *UE_info = &RC.mac[mod_id]->UE_info;
const int N_RB_UL = to_prb(RC.mac[mod_id]->common_channels[CC_id].ul_Bandwidth);
COMMON_channels_t *cc = &RC.mac[mod_id]->common_channels[CC_id];
for (int UE_id = UE_info->list.head; UE_id >= 0; UE_id = UE_info->list.next[UE_id]) {
UE_TEMPLATE *UE_template = &UE_info->UE_template[CC_id][UE_id];
UE_template->pre_assigned_mcs_ul = 0;
UE_template->pre_allocated_nb_rb_ul = 0;
UE_template->pre_allocated_rb_table_index_ul = -1;
UE_template->pre_first_nb_rb_ul = 0;
UE_template->pre_dci_ul_pdu_idx = -1;
}
slice_info_t *s = RC.mac[mod_id]->pre_processor_ul.slices;
int max_num_ue;
switch (s->num) {
case 1:
max_num_ue = 4;
break;
case 2:
max_num_ue = 2;
break;
default:
max_num_ue = 1;
break;
}
for (int i = 0; i < s->num; ++i) {
if (s->s[i]->UEs.head < 0)
continue;
int last_rb_blocked = 1;
int n_contig = 0;
contig_rbs_t rbs[2]; // up to two contig RBs for PRACH in between
static_slice_param_t *p = s->s[i]->algo_data;
for (int rb = p->posLow; rb <= p->posHigh && rb < N_RB_UL; ++rb) {
if (cc->vrb_map_UL[rb] == 0 && last_rb_blocked) {
last_rb_blocked = 0;
n_contig++;
AssertFatal(n_contig <= 2, "cannot handle more than two contiguous RB regions\n");
rbs[n_contig - 1].start = rb;
}
if (cc->vrb_map_UL[rb] == 1 && !last_rb_blocked) {
last_rb_blocked = 1;
rbs[n_contig - 1].length = rb - rbs[n_contig - 1].start;
}
}
if (!last_rb_blocked)
rbs[n_contig - 1].length = p->posHigh - rbs[n_contig - 1].start + 1;
s->s[i]->ul_algo.run(mod_id,
CC_id,
frame,
subframe,
sched_frame,
sched_subframe,
&s->s[i]->UEs,
max_num_ue, // max_num_ue
n_contig,
rbs,
s->s[i]->ul_algo.data);
}
// the following block is meant for validation of the pre-processor to check
// whether all UE allocations are non-overlapping and is not necessary for
// scheduling functionality
char t[101] = "__________________________________________________"
"__________________________________________________";
t[N_RB_UL] = 0;
for (int j = 0; j < N_RB_UL; j++)
if (cc->vrb_map_UL[j] != 0)
t[j] = 'x';
int print = 0;
for (int UE_id = UE_info->list.head; UE_id >= 0; UE_id = UE_info->list.next[UE_id]) {
UE_TEMPLATE *UE_template = &UE_info->UE_template[CC_id][UE_id];
if (UE_template->pre_allocated_nb_rb_ul == 0)
continue;
print = 1;
uint8_t harq_pid = subframe2harqpid(&RC.mac[mod_id]->common_channels[CC_id],
sched_frame, sched_subframe);
LOG_D(MAC, "%4d.%d UE%d %d RBs (index %d) at start %d, pre MCS %d %s\n",
frame,
subframe,
UE_id,
UE_template->pre_allocated_nb_rb_ul,
UE_template->pre_allocated_rb_table_index_ul,
UE_template->pre_first_nb_rb_ul,
UE_template->pre_assigned_mcs_ul,
UE_info->UE_sched_ctrl[UE_id].round_UL[CC_id][harq_pid] > 0 ? "(retx)" : "");
for (int i = 0; i < UE_template->pre_allocated_nb_rb_ul; ++i) {
/* only check if this is not a retransmission */
if (UE_info->UE_sched_ctrl[UE_id].round_UL[CC_id][harq_pid] == 0
&& cc->vrb_map_UL[UE_template->pre_first_nb_rb_ul + i] == 1) {
LOG_I(MAC, "%4d.%d UL scheduler allocation list: %s\n", frame, subframe, t);
LOG_E(MAC,
"%4d.%d: UE %d allocated at locked RB %d (is: allocated start "
"%d/length %d)\n",
frame, subframe, UE_id, UE_template->pre_first_nb_rb_ul + i,
UE_template->pre_first_nb_rb_ul,
UE_template->pre_allocated_nb_rb_ul);
}
cc->vrb_map_UL[UE_template->pre_first_nb_rb_ul + i] = 1;
t[UE_template->pre_first_nb_rb_ul + i] = UE_id + '0';
}
}
if (print)
LOG_D(MAC,
"%4d.%d UL scheduler allocation list: %s\n",
sched_frame,
sched_subframe,
t);
}
void static_destroy(slice_info_t **si) {
const int n = (*si)->num;
(*si)->num = 0;
for (int i = 0; i < n; ++i) {
slice_t *s = (*si)->s[i];
if (s->label)
free(s->label);
free(s->algo_data);
free(s);
}
free((*si)->s);
free(*si);
}
pp_impl_param_t static_dl_init(module_id_t mod_id, int CC_id) {
slice_info_t *si = calloc(1, sizeof(slice_info_t));
DevAssert(si);
si->num = 0;
si->s = calloc(MAX_STATIC_SLICES, sizeof(slice_t));
DevAssert(si->s);
for (int i = 0; i < MAX_MOBILES_PER_ENB; ++i)
si->UE_assoc_slice[i] = -1;
/* insert default slice, all resources */
static_slice_param_t *dlp = malloc(sizeof(static_slice_param_t));
dlp->posLow = 0;
dlp->posHigh = to_rbg(RC.mac[mod_id]->common_channels[CC_id].mib->message.dl_Bandwidth) - 1;
default_sched_dl_algo_t *algo = &RC.mac[mod_id]->pre_processor_dl.dl_algo;
DevAssert(0 == addmod_static_slice_dl(si, 0, strdup("default"), algo, dlp));
const UE_list_t *UE_list = &RC.mac[mod_id]->UE_info.list;
for (int UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id])
slicing_add_UE(si, UE_id);
pp_impl_param_t sttc;
sttc.algorithm = STATIC_SLICING;
sttc.add_UE = slicing_add_UE;
sttc.remove_UE = slicing_remove_UE;
sttc.move_UE = slicing_move_UE;
sttc.addmod_slice = addmod_static_slice_dl;
sttc.remove_slice = remove_static_slice;
sttc.dl = static_dl;
// current DL algo becomes default scheduler
sttc.dl_algo = *algo;
sttc.destroy = static_destroy;
sttc.slices = si;
return sttc;
}
pp_impl_param_t static_ul_init(module_id_t mod_id, int CC_id) {
slice_info_t *si = calloc(1, sizeof(slice_info_t));
DevAssert(si);
si->num = 0;
si->s = calloc(MAX_STATIC_SLICES, sizeof(slice_t));
DevAssert(si->s);
for (int i = 0; i < MAX_MOBILES_PER_ENB; ++i)
si->UE_assoc_slice[i] = -1;
/* insert default slice, all resources */
static_slice_param_t *ulp = malloc(sizeof(static_slice_param_t));
ulp->posLow = 0;
ulp->posHigh = to_prb(RC.mac[mod_id]->common_channels[CC_id].ul_Bandwidth) - 1;
default_sched_ul_algo_t *algo = &RC.mac[mod_id]->pre_processor_ul.ul_algo;
DevAssert(0 == addmod_static_slice_ul(si, 0, strdup("default"), algo, ulp));
const UE_list_t *UE_list = &RC.mac[mod_id]->UE_info.list;
for (int UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id])
slicing_add_UE(si, UE_id);
pp_impl_param_t sttc;
sttc.algorithm = STATIC_SLICING;
sttc.add_UE = slicing_add_UE;
sttc.remove_UE = slicing_remove_UE;
sttc.move_UE = slicing_move_UE;
sttc.addmod_slice = addmod_static_slice_ul;
sttc.remove_slice = remove_static_slice;
sttc.ul = static_ul;
// current DL algo becomes default scheduler
sttc.ul_algo = *algo;
sttc.destroy = static_destroy;
sttc.slices = si;
return sttc;
}
openair2/LAYER2/MAC/slicing/slicing.h 0 → 100644
View file @ 872cfc03
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.1 (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.openairinterface.org/?page_id=698
*
* 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.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/*!
* \file slicing.h
* \brief General slice definition and helper parameters
* \author Robert Schmidt
* \date 2020
* \email robert.schmidt@eurecom.fr
*/
#ifndef __SLICING_H__
#define __SLICING_H__
#include "openair2/LAYER2/MAC/mac.h"
typedef struct slice_s {
/// Arbitrary ID
slice_id_t id;
/// Arbitrary label
char *label;
union {
default_sched_dl_algo_t dl_algo;
default_sched_ul_algo_t ul_algo;
};
/// A specific algorithm's implementation parameters
void *algo_data;
/// Internal data that might be kept alongside a slice's params
void *int_data;
// list of users in this slice
UE_list_t UEs;
} slice_t;
typedef struct slice_info_s {
uint8_t num;
slice_t **s;
uint8_t UE_assoc_slice[MAX_MOBILES_PER_ENB];
} slice_info_t;
int slicing_get_UE_slice_idx(slice_info_t *si, int UE_id);
#define STATIC_SLICING 10
/* only four static slices for UL, DL resp. (not enough DCIs) */
#define MAX_STATIC_SLICES 4
typedef struct {
uint16_t posLow;
uint16_t posHigh;
} static_slice_param_t;
pp_impl_param_t static_dl_init(module_id_t mod_id, int CC_id);
pp_impl_param_t static_ul_init(module_id_t mod_id, int CC_id);
#endif /* __SLICING_H__ */
openair2/LAYER2/MAC/slicing/slicing_internal.h 0 → 100644
View file @ 872cfc03
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.1 (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.openairinterface.org/?page_id=698
*
* 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.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/*!
* \file slicing_internal.h
* \brief Internal slice helper functions
* \author Robert Schmidt
* \date 2020
* \email robert.schmidt@eurecom.fr
*/
#ifndef __SLICING_INTERNAL_H__
#define __SLICING_INTERNAL_H__
#include "slicing.h"
void slicing_add_UE(slice_info_t *si, int UE_id);
void _remove_UE(slice_t **s, uint8_t *assoc, int UE_id);
void slicing_remove_UE(slice_info_t *si, int UE_id);
void _move_UE(slice_t **s, uint8_t *assoc, int UE_id, int to);
void slicing_move_UE(slice_info_t *si, int UE_id, int idx);
slice_t *_add_slice(uint8_t *n, slice_t **s);
slice_t *_remove_slice(uint8_t *n, slice_t **s, uint8_t *assoc, int idx);
#endif /* __SLICING_INTERNAL_H__ */
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