Commit dfb56961 authored by Robert Schmidt's avatar Robert Schmidt

Bugfix RR DL: a retx UE might not be allocated again

parent e1a225d8
...@@ -83,15 +83,22 @@ int round_robin_dl(module_id_t Mod_id, ...@@ -83,15 +83,22 @@ int round_robin_dl(module_id_t Mod_id,
const int N_RBG = to_rbg(RC.mac[Mod_id]->common_channels[CC_id].mib->message.dl_Bandwidth); 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); const int RBGsize = get_min_rb_unit(Mod_id, CC_id);
const int RBGlastsize = get_rbg_size_last(Mod_id, CC_id); const int RBGlastsize = get_rbg_size_last(Mod_id, CC_id);
int num_ue_req = 0;
UE_info_t *UE_info = &RC.mac[Mod_id]->UE_info; UE_info_t *UE_info = &RC.mac[Mod_id]->UE_info;
int rbg = 0; int rbg = 0;
for (; !rbgalloc_mask[rbg]; rbg++) for (; !rbgalloc_mask[rbg]; rbg++)
; /* fast-forward to first allowed RBG */ ; /* fast-forward to first allowed RBG */
// Calculate the amount of RBs every UE wants to send. /* just start with the UE after the one we had last time. If it does not
for (int UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) { * exist, this will start at the head */
int g_start_ue_dl = data;
g_start_ue_dl = next_ue_list_looped(UE_list, g_start_ue_dl);
int UE_id = g_start_ue_dl;
UE_list_t UE_sched;
int *cur_UE = &UE_sched.head;
// Allocate retransmissions, and mark UEs with new transmissions
do {
// check whether there are HARQ retransmissions // check whether there are HARQ retransmissions
const COMMON_channels_t *cc = &RC.mac[Mod_id]->common_channels[CC_id]; const COMMON_channels_t *cc = &RC.mac[Mod_id]->common_channels[CC_id];
const uint8_t harq_pid = frame_subframe2_dl_harq_pid(cc->tdd_Config, frame, subframe); const uint8_t harq_pid = frame_subframe2_dl_harq_pid(cc->tdd_Config, frame, subframe);
...@@ -100,14 +107,14 @@ int round_robin_dl(module_id_t Mod_id, ...@@ -100,14 +107,14 @@ int round_robin_dl(module_id_t Mod_id,
if (round != 8) { // retransmission: allocate if (round != 8) { // retransmission: allocate
const int nb_rb = UE_info->UE_template[CC_id][UE_id].nb_rb[harq_pid]; const int nb_rb = UE_info->UE_template[CC_id][UE_id].nb_rb[harq_pid];
if (nb_rb == 0) if (nb_rb == 0)
continue; goto skip_ue;
int nb_rbg = (nb_rb + (nb_rb % RBGsize)) / RBGsize; int nb_rbg = (nb_rb + (nb_rb % RBGsize)) / RBGsize;
// needs more RBGs than we can allocate // needs more RBGs than we can allocate
if (nb_rbg > n_rbg_sched) { if (nb_rbg > n_rbg_sched) {
LOG_D(MAC, LOG_D(MAC,
"retransmission of UE %d needs more RBGs (%d) than we have (%d)\n", "retransmission of UE %d needs more RBGs (%d) than we have (%d)\n",
UE_id, nb_rbg, n_rbg_sched); UE_id, nb_rbg, n_rbg_sched);
continue; goto skip_ue;
} }
// ensure that the number of RBs can be contained by the RBGs (!), i.e. // ensure that the number of RBs can be contained by the RBGs (!), i.e.
// if we allocate the last RBG this one should have the full RBGsize // if we allocate the last RBG this one should have the full RBGsize
...@@ -116,12 +123,12 @@ int round_robin_dl(module_id_t Mod_id, ...@@ -116,12 +123,12 @@ int round_robin_dl(module_id_t Mod_id,
LOG_D(MAC, LOG_D(MAC,
"retransmission of UE %d needs %d RBs, but the last RBG %d is too small (%d, normal %d)\n", "retransmission of UE %d needs %d RBs, but the last RBG %d is too small (%d, normal %d)\n",
UE_id, nb_rb, N_RBG - 1, RBGlastsize, RBGsize); UE_id, nb_rb, N_RBG - 1, RBGlastsize, RBGsize);
continue; goto skip_ue;
} }
const uint8_t cqi = ue_ctrl->dl_cqi[CC_id]; const uint8_t cqi = ue_ctrl->dl_cqi[CC_id];
const int idx = CCE_try_allocate_dlsch(Mod_id, CC_id, subframe, UE_id, cqi); const int idx = CCE_try_allocate_dlsch(Mod_id, CC_id, subframe, UE_id, cqi);
if (idx < 0) if (idx < 0)
continue; // cannot allocate CCE goto skip_ue; // cannot allocate CCE
ue_ctrl->pre_dci_dl_pdu_idx = idx; ue_ctrl->pre_dci_dl_pdu_idx = idx;
// retransmissions: directly allocate // retransmissions: directly allocate
n_rbg_sched -= nb_rbg; n_rbg_sched -= nb_rbg;
...@@ -148,35 +155,32 @@ int round_robin_dl(module_id_t Mod_id, ...@@ -148,35 +155,32 @@ int round_robin_dl(module_id_t Mod_id,
return n_rbg_sched; return n_rbg_sched;
for (; !rbgalloc_mask[rbg]; rbg++) /* fast-forward */ ; for (; !rbgalloc_mask[rbg]; rbg++) /* fast-forward */ ;
} else { } else {
if (UE_info->UE_template[CC_id][UE_id].dl_buffer_total > 0) if (UE_info->UE_template[CC_id][UE_id].dl_buffer_total > 0) {
num_ue_req++; *cur_UE = UE_id;
cur_UE = &UE_sched.next[UE_id];
}
} }
}
if (num_ue_req == 0) skip_ue:
return n_rbg_sched; // no UE has a transmission UE_id = next_ue_list_looped(UE_list, UE_id);
} while (UE_id != g_start_ue_dl);
*cur_UE = -1; // mark end
// after allocating retransmissions: build list of UE to allocate. if (UE_sched.head < 0)
// if start_UE does not exist anymore (detach etc), start at first UE return n_rbg_sched; // no UE has a transmission
if (g_start_ue_dl == -1)
g_start_ue_dl = UE_list->head;
int UE_id = g_start_ue_dl;
UE_list_t UE_sched;
int *cur_UE = &UE_sched.head;
int num_ue_sched = 0; // after allocating retransmissions: pre-allocate CCE, compute number of
max_num_ue = min(min(max_num_ue, num_ue_req), n_rbg_sched); // requested RBGs
max_num_ue = min(max_num_ue, n_rbg_sched);
int rb_required[MAX_MOBILES_PER_ENB]; // how much UEs request int rb_required[MAX_MOBILES_PER_ENB]; // how much UEs request
while (num_ue_sched < max_num_ue) { cur_UE = &UE_sched.head;
while (UE_info->UE_template[CC_id][UE_id].dl_buffer_total <= 0) while (*cur_UE >= 0 && max_num_ue > 0) {
UE_id = next_ue_list_looped(UE_list, UE_id); const int UE_id = *cur_UE;
cur_UE = &UE_sched.next[UE_id]; // go to next
const uint8_t cqi = UE_info->UE_sched_ctrl[UE_id].dl_cqi[CC_id]; const uint8_t cqi = UE_info->UE_sched_ctrl[UE_id].dl_cqi[CC_id];
const int idx = CCE_try_allocate_dlsch(Mod_id, CC_id, subframe, UE_id, cqi); const int idx = CCE_try_allocate_dlsch(Mod_id, CC_id, subframe, UE_id, cqi);
if (idx < 0) { if (idx < 0) {
LOG_D(MAC, "cannot allocate CCE for UE %d, skipping\n", UE_id); LOG_D(MAC, "cannot allocate CCE for UE %d, skipping\n", UE_id);
num_ue_req--;
max_num_ue = min(min(max_num_ue, num_ue_req), n_rbg_sched);
UE_id = next_ue_list_looped(UE_list, UE_id); // next candidate
continue; continue;
} }
UE_info->UE_sched_ctrl[UE_id].pre_dci_dl_pdu_idx = idx; UE_info->UE_sched_ctrl[UE_id].pre_dci_dl_pdu_idx = idx;
...@@ -184,12 +188,9 @@ int round_robin_dl(module_id_t Mod_id, ...@@ -184,12 +188,9 @@ int round_robin_dl(module_id_t Mod_id,
UE_info->eNB_UE_stats[CC_id][UE_id].dlsch_mcs1 = mcs; UE_info->eNB_UE_stats[CC_id][UE_id].dlsch_mcs1 = mcs;
const uint32_t B = UE_info->UE_template[CC_id][UE_id].dl_buffer_total; const uint32_t B = UE_info->UE_template[CC_id][UE_id].dl_buffer_total;
rb_required[UE_id] = find_nb_rb_DL(mcs, B, n_rbg_sched * RBGsize, RBGsize); rb_required[UE_id] = find_nb_rb_DL(mcs, B, n_rbg_sched * RBGsize, RBGsize);
*cur_UE = UE_id; max_num_ue--;
cur_UE = &UE_sched.next[UE_id];
num_ue_sched++;
UE_id = next_ue_list_looped(UE_list, UE_id); // next candidate
} }
*cur_UE = -1; *cur_UE = -1; // not all UEs might be allocated, mark end
/* for one UE after the next: allocate resources */ /* for one UE after the next: allocate resources */
cur_UE = &UE_sched.head; cur_UE = &UE_sched.head;
...@@ -214,9 +215,6 @@ int round_robin_dl(module_id_t Mod_id, ...@@ -214,9 +215,6 @@ int round_robin_dl(module_id_t Mod_id,
for (rbg++; !rbgalloc_mask[rbg]; rbg++) /* fast-forward */ ; for (rbg++; !rbgalloc_mask[rbg]; rbg++) /* fast-forward */ ;
} }
/* just start with the next UE next time */
g_start_ue_dl = next_ue_list_looped(UE_list, g_start_ue_dl);
return n_rbg_sched; return n_rbg_sched;
} }
......
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