Commit c5196908 authored by Navid Nikaein's avatar Navid Nikaein

* Update the relay node (RN) procedure when multicast relaying is enabled

* Fix the non-continous indexing of the PDCP array (replace rb_id by lc_id)
* Add a new test case 03 for Rel10 and eMBMS  
  


git-svn-id: http://svn.eurecom.fr/openair4G/trunk@4149 818b1a75-f10b-46b9-bf7c-635c3b92a50f
parent e46fb846
......@@ -336,7 +336,7 @@ typedef struct {
#define NUMBER_OF_RN_MAX 3
typedef enum {no_relay=0,unicast_relay=1,multicast_relay=2} relaying_mode_t;
typedef enum {no_relay=1,unicast_relay_type1,unicast_relay_type2, multicast_relay} relaying_type_t;
typedef struct
{
......
......@@ -125,9 +125,9 @@ void cleanup_dlsch_threads(void);
@param next_slot Index of next_slot (0-19)
@param phy_vars_eNB Pointer to eNB variables on which to act
@param abstraction_flag Indicator of PHY abstraction
@param r_mode indicates the relaying operation: 0: no_relaying, 1: unicast relaying, 2: multicast relaying
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_eNB_lte(u8 last_slot, u8 next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag, relaying_mode_t r_mode);
void phy_procedures_eNB_lte(u8 last_slot, u8 next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag, relaying_type_t r_type);
/*!
\brief Top-level entry routine for UE procedures. Called every slot by process scheduler. In even slots, it performs RX functions from previous subframe (if required). On odd slots, it generate TX waveform for the following subframe.
@param last_slot Index of last slot (0-19)
......@@ -136,9 +136,26 @@ void phy_procedures_eNB_lte(u8 last_slot, u8 next_slot,PHY_VARS_eNB *phy_vars_eN
@param eNB_id ID of eNB on which to act
@param abstraction_flag Indicator of PHY abstraction
@param mode calibration/debug mode
@param relaying_mode indicates the relaying operation: 0: no_relaying, 1: unicast relaying, 2: multicast relaying
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_UE_lte(u8 last_slot, u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode, relaying_mode_t r_mode);
void phy_procedures_UE_lte(u8 last_slot, u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode, relaying_type_t r_type);
#ifdef Rel10
/*!
\brief Top-level entry routine for relay node procedures when acting as eNB. This proc will make us of the existing eNB procs.
@param last_slot Index of last slot (0-19)
@param next_slot Index of next_slot (0-19)
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
int phy_procedures_RN_eNB_TX(unsigned char last_slot, unsigned char next_slot, relaying_type_t r_type);
/*!
\brief Top-level entry routine for relay node procedures actinf as UE. This proc will make us of the existing UE procs.
@param last_slot Index of last slot (0-19)
@param next_slot Index of next_slot (0-19)
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
int phy_procedures_RN_UE_RX(unsigned char last_slot, unsigned char next_slot, relaying_type_t r_type);
#endif
/*!
\brief Scheduling for UE TX procedures in normal subframes.
......@@ -147,8 +164,9 @@ void phy_procedures_UE_lte(u8 last_slot, u8 next_slot,PHY_VARS_UE *phy_vars_ue,u
@param eNB_id Local id of eNB on which to act
@param abstraction_flag Indicator of PHY abstraction
@param mode calib/normal mode
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_UE_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode,relaying_mode_t r_mode);
void phy_procedures_UE_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode,relaying_type_t r_type);
/*!
\brief Scheduling for UE RX procedures in normal subframes.
@param last_slot Index of last slot (0-19)
......@@ -156,9 +174,9 @@ void phy_procedures_UE_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abs
@param eNB_id Local id of eNB on which to act
@param abstraction_flag Indicator of PHY abstraction
@param mode calibration/debug mode
@param r_mode instruct PHY to operate as normal (0), unicast relay (1), or multicast relay (2)
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
int phy_procedures_UE_RX(u8 last_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode,relaying_mode_t r_mode);
int phy_procedures_UE_RX(u8 last_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode,relaying_type_t r_type);
/*!
\brief Scheduling for UE TX procedures in TDD S-subframes.
......@@ -166,8 +184,9 @@ int phy_procedures_UE_RX(u8 last_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abst
@param phy_vars_ue Pointer to UE variables on which to act
@param eNB_id Local id of eNB on which to act
@param abstraction_flag Indicator of PHY abstraction
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_UE_S_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,relaying_mode_t r_mode);
void phy_procedures_UE_S_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,relaying_type_t r_type);
/*!
\brief Scheduling for UE RX procedures in TDD S-subframes.
......@@ -175,42 +194,45 @@ void phy_procedures_UE_S_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 a
@param phy_vars_ue Pointer to UE variables on which to act
@param eNB_id Local id of eNB on which to act
@param abstraction_flag Indicator of PHY abstraction
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_UE_S_RX(u8 last_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag, relaying_mode_t r_mode);
void phy_procedures_UE_S_RX(u8 last_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag, relaying_type_t r_type);
/*!
\brief Scheduling for eNB TX procedures in normal subframes.
@param next_slot Index of next slot (0-19)
@param phy_vars_eNB Pointer to eNB variables on which to act
@param abstraction_flag Indicator of PHY abstraction
@param r_mode instruct PHY to operate as normal (0), unicast relay (1), or multicast relay (2),
@note: r_mode could be extended to support other values to indicate the type of relaying AF,DF,QF, and QMF
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_eNB_TX(u8 next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_mode_t r_mode);
void phy_procedures_eNB_TX(u8 next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_type_t r_type);
/*!
\brief Scheduling for eNB RX procedures in normal subframes.
@param last_slot Index of last slot (0-19)
@param phy_vars_eNB Pointer to eNB variables on which to act
@param abstraction_flag Indicator of PHY abstraction
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_eNB_RX(u8 last_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_mode_t r_mode);
void phy_procedures_eNB_RX(u8 last_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_type_t r_type);
/*!
\brief Scheduling for eNB TX procedures in TDD S-subframes.
@param next_slot Index of next slot (0-19)
@param phy_vars_eNB Pointer to eNB variables on which to act
@param abstraction_flag Indicator of PHY abstraction
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_eNB_S_TX(u8 next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_mode_t r_mode);
void phy_procedures_eNB_S_TX(u8 next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_type_t r_type);
/*!
\brief Scheduling for eNB RX procedures in TDD S-subframes.
@param last_slot Index of next slot (0-19)
@param phy_vars_eNB Pointer to eNB variables on which to act
@param abstraction_flag Indicator of PHY abstraction
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void phy_procedures_eNB_S_RX(u8 last_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_mode_t r_mode);
void phy_procedures_eNB_S_RX(u8 last_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_type_t r_type);
/*!
\brief Function to compute subframe type as a function of Frame type and TDD Configuration (implements Table 4.2.2 from 36.211, p.11 from version 8.6) and subframe index.
......
......@@ -410,10 +410,13 @@ void phy_procedures_emos_eNB_TX(unsigned char next_slot, PHY_VARS_eNB *phy_vars_
}
*/
void phy_procedures_eNB_S_RX(unsigned char last_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_mode_t r_mode) {
void phy_procedures_eNB_S_RX(unsigned char last_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_type_t r_type) {
unsigned char sect_id=0;
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d: Doing phy_procedures_eNB_S_RX(%d)\n", phy_vars_eNB->Mod_id,phy_vars_eNB->frame, last_slot);
#endif
if (last_slot%2 == 0) {
for (sect_id=0;sect_id<number_of_cards;sect_id++) {
......@@ -885,7 +888,7 @@ void fill_dci_emos(DCI_PDU *DCI_pdu, u8 subframe, PHY_VARS_eNB *phy_vars_eNB) {
int QPSK[4]={AMP_OVER_SQRT2|(AMP_OVER_SQRT2<<16),AMP_OVER_SQRT2|((65536-AMP_OVER_SQRT2)<<16),((65536-AMP_OVER_SQRT2)<<16)|AMP_OVER_SQRT2,((65536-AMP_OVER_SQRT2)<<16)|(65536-AMP_OVER_SQRT2)};
int QPSK2[4]={AMP_OVER_2|(AMP_OVER_2<<16),AMP_OVER_2|((65536-AMP_OVER_2)<<16),((65536-AMP_OVER_2)<<16)|AMP_OVER_2,((65536-AMP_OVER_2)<<16)|(65536-AMP_OVER_2)};
void phy_procedures_eNB_TX(unsigned char next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_mode_t r_mode) {
void phy_procedures_eNB_TX(unsigned char next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_type_t r_type) {
u8 *pbch_pdu=&phy_vars_eNB->pbch_pdu[0];
// unsigned int nb_dci_ue_spec = 0, nb_dci_common = 0;
u16 input_buffer_length, re_allocated=0;
......@@ -918,6 +921,11 @@ void phy_procedures_eNB_TX(unsigned char next_slot,PHY_VARS_eNB *phy_vars_eNB,u8
vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_TX,1);
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[%s %d] Frame %d subframe %d : Doing phy_procedures_eNB_TX(%d)\n",
(r_type == multicast_relay) ? "RN/eNB" : "eNB",
phy_vars_eNB->Mod_id,phy_vars_eNB->frame, next_slot>>1, next_slot);
#endif
#ifdef OPENAIR2
// Get scheduling info for next subframe during odd slot of previous subframe (next_slot is even)
if (next_slot%2 == 0)
......@@ -2397,7 +2405,7 @@ void ulsch_decoding_procedures(unsigned char last_slot, unsigned int i, PHY_VARS
}
void phy_procedures_eNB_RX(unsigned char last_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_mode_t r_mode) {
void phy_procedures_eNB_RX(unsigned char last_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag,relaying_type_t r_type) {
//RX processing
u32 l, ret,i,j;
u32 sect_id=0;
......@@ -2419,6 +2427,9 @@ void phy_procedures_eNB_RX(unsigned char last_slot,PHY_VARS_eNB *phy_vars_eNB,u8
int frame = ((last_slot>>1)>=8 ? -1 : 0 )+ phy_vars_eNB->frame;
vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_RX,1);
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d: Doing phy_procedures_eNB_RX(%d)\n",phy_vars_eNB->Mod_id,phy_vars_eNB->frame, last_slot);
#endif
if (abstraction_flag == 0) {
remove_7_5_kHz(phy_vars_eNB,last_slot);
......@@ -3357,44 +3368,58 @@ void phy_procedures_eNB_RX(unsigned char last_slot,PHY_VARS_eNB *phy_vars_eNB,u8
#undef DEBUG_PHY_PROC
void phy_procedures_eNB_lte(unsigned char last_slot, unsigned char next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag, relaying_mode_t r_mode) {
#ifdef Rel10
int phy_procedures_RN_eNB_TX(unsigned char last_slot, unsigned char next_slot, relaying_type_t r_type){
int do_proc=0;// do nothing
switch(r_type){
case no_relay:
do_proc= no_relay; // perform the normal eNB operation
break;
case multicast_relay:
if ( ((next_slot >>1) < 6) || ((next_slot >>1) > 8))
do_proc = 0; // do nothing
else // SF#6, SF#7 and SF#8
do_proc = multicast_relay; // do PHY procedures eNB TX
break;
default: // should'not be here
LOG_W(PHY,"Not supported relay type %d, do nothing\n", r_type);
do_proc=0;
break;
}
return do_proc;
}
#endif
void phy_procedures_eNB_lte(unsigned char last_slot, unsigned char next_slot,PHY_VARS_eNB *phy_vars_eNB,u8 abstraction_flag, relaying_type_t r_type) {
/*
if (phy_vars_eNB->frame >= 1000)
mac_xface->macphy_exit("Exiting after 1000 Frames\n");
*/
vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_SLOT_NUMBER, (last_slot + 1) % 20);
vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_FRAME_NUMBER, phy_vars_eNB->frame);
vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_LTE,1);
if (((phy_vars_eNB->lte_frame_parms.frame_type == 1)&&(subframe_select(&phy_vars_eNB->lte_frame_parms,next_slot>>1)==SF_DL))||
(phy_vars_eNB->lte_frame_parms.frame_type == 0)){
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d: Calling phy_procedures_eNB_TX(%d)\n", phy_vars_eNB->Mod_id,phy_vars_eNB->frame, next_slot);
#ifdef Rel10
if (phy_procedures_RN_eNB_TX(last_slot, next_slot, r_type) != 0 )
#endif
phy_procedures_eNB_TX(next_slot,phy_vars_eNB,abstraction_flag,r_mode);
phy_procedures_eNB_TX(next_slot,phy_vars_eNB,abstraction_flag,r_type);
}
if (((phy_vars_eNB->lte_frame_parms.frame_type == 1 )&&(subframe_select(&phy_vars_eNB->lte_frame_parms,last_slot>>1)==SF_UL))||
(phy_vars_eNB->lte_frame_parms.frame_type == 0)){
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d: Calling phy_procedures_eNB_RX(%d)\n",phy_vars_eNB->Mod_id,phy_vars_eNB->frame, last_slot);
#endif
phy_procedures_eNB_RX(last_slot,phy_vars_eNB,abstraction_flag,r_mode);
phy_procedures_eNB_RX(last_slot,phy_vars_eNB,abstraction_flag,r_type);
}
if ((subframe_select(&phy_vars_eNB->lte_frame_parms,next_slot>>1)==SF_S) &&
((next_slot&1)==0)) {
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d: Calling phy_procedures_eNB_S_TX(%d)\n",phy_vars_eNB->Mod_id,phy_vars_eNB->frame, next_slot);
#ifdef Rel10
if (phy_procedures_RN_eNB_TX(last_slot, next_slot, r_type) != 0 )
#endif
phy_procedures_eNB_TX(next_slot,phy_vars_eNB,abstraction_flag,r_mode);
phy_procedures_eNB_TX(next_slot,phy_vars_eNB,abstraction_flag,r_type);
}
if ((subframe_select(&phy_vars_eNB->lte_frame_parms,last_slot>>1)==SF_S) &&
((last_slot&1)==0)){
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d: Calling phy_procedures_eNB_S_RX(%d)\n", phy_vars_eNB->Mod_id,phy_vars_eNB->frame, last_slot);
#endif
phy_procedures_eNB_S_RX(last_slot,phy_vars_eNB,abstraction_flag,r_mode);
phy_procedures_eNB_S_RX(last_slot,phy_vars_eNB,abstraction_flag,r_type);
}
vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_LTE,0);
......
......@@ -557,7 +557,7 @@ int dummy_tx_buffer[3840*4] __attribute__((aligned(16)));
PRACH_RESOURCES_t prach_resources_local;
#endif
void phy_procedures_UE_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode,relaying_mode_t r_mode) {
void phy_procedures_UE_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode,relaying_type_t r_type) {
// int i_d;
u16 first_rb, nb_rb;
......@@ -1292,7 +1292,7 @@ void phy_procedures_UE_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abs
vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_UE_TX, VCD_FUNCTION_OUT);
}
void phy_procedures_UE_S_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,relaying_mode_t r_mode) {
void phy_procedures_UE_S_TX(u8 next_slot,PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,relaying_type_t r_type) {
int aa;//i,aa;
LTE_DL_FRAME_PARMS *frame_parms=&phy_vars_ue->lte_frame_parms;
......@@ -2163,7 +2163,7 @@ int lte_ue_pdcch_procedures(u8 eNB_id,u8 last_slot, PHY_VARS_UE *phy_vars_ue,u8
}
int phy_procedures_UE_RX(u8 last_slot, PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode,relaying_mode_t r_mode) {
int phy_procedures_UE_RX(u8 last_slot, PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode,relaying_type_t r_type) {
u16 l,m,n_symb;
// int eNB_id = 0,
......@@ -2184,7 +2184,11 @@ int phy_procedures_UE_RX(u8 last_slot, PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abs
vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_UE_RX, VCD_FUNCTION_IN);
//msg("UE_RX 1 last_slot %d \n",last_slot);
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[%s %d] Frame %d subframe %d: Doing phy_procedures_UE_RX(%d)\n",
(r_type == multicast_relay) ? "RN/UE" : "UE",
phy_vars_ue->Mod_id,phy_vars_ue->frame, last_slot>>1, last_slot);
#endif
if (phy_vars_ue->lte_frame_parms.Ncp == 0) { // normal prefix
pilot1 = 4;
pilot2 = 7;
......@@ -3016,7 +3020,29 @@ int phy_procedures_UE_RX(u8 last_slot, PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abs
return (0);
}
void phy_procedures_UE_lte(u8 last_slot, u8 next_slot, PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode, relaying_mode_t r_mode) {
#ifdef Rel10
int phy_procedures_RN_UE_RX(u8 last_slot, u8 next_slot, relaying_type_t r_type) {
int do_proc =0; // do nothing by default
switch(r_type){
case no_relay:
do_proc=no_relay; // perform the normal UE operation
break;
case multicast_relay:
if (last_slot > 12)
do_proc = 0; // do nothing
else // SF#1, SF#2, SF3, SF#3, SF#4, SF#5, SF#6(do rx slot 12)
do_proc =multicast_relay ; // do PHY procedures UE RX
break;
default: // should'not be here
LOG_W(PHY,"Not supported relay type %d, do nothing \n", r_type);
do_proc= 0;
break;
}
return do_proc;
}
#endif
void phy_procedures_UE_lte(u8 last_slot, u8 next_slot, PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abstraction_flag,runmode_t mode, relaying_type_t r_type) {
#undef DEBUG_PHY_PROC
......@@ -3040,22 +3066,28 @@ int phy_procedures_UE_RX(u8 last_slot, PHY_VARS_UE *phy_vars_ue,u8 eNB_id,u8 abs
if ((subframe_select(&phy_vars_ue->lte_frame_parms,next_slot>>1)==SF_UL)||
(phy_vars_ue->lte_frame_parms.frame_type == 0)){
phy_procedures_UE_TX(next_slot,phy_vars_ue,eNB_id,abstraction_flag,mode,r_mode);
phy_procedures_UE_TX(next_slot,phy_vars_ue,eNB_id,abstraction_flag,mode,r_type);
}
if ((subframe_select(&phy_vars_ue->lte_frame_parms,last_slot>>1)==SF_DL) ||
(phy_vars_ue->lte_frame_parms.frame_type == 0)){
phy_procedures_UE_RX(last_slot,phy_vars_ue,eNB_id,abstraction_flag,mode,r_mode);
#ifdef Rel10
if (phy_procedures_RN_UE_RX(last_slot, next_slot, r_type) != 0 )
#endif
phy_procedures_UE_RX(last_slot,phy_vars_ue,eNB_id,abstraction_flag,mode,r_type);
#ifdef EMOS
phy_procedures_emos_UE_RX(phy_vars_ue,last_slot,eNB_id);
#endif
}
if ((subframe_select(&phy_vars_ue->lte_frame_parms,next_slot>>1)==SF_S) &&
((next_slot&1)==1)) {
phy_procedures_UE_S_TX(next_slot,phy_vars_ue,eNB_id,abstraction_flag,r_mode);
phy_procedures_UE_S_TX(next_slot,phy_vars_ue,eNB_id,abstraction_flag,r_type);
}
if ((subframe_select(&phy_vars_ue->lte_frame_parms,last_slot>>1)==SF_S) &&
((last_slot&1)==0)) {
phy_procedures_UE_RX(last_slot,phy_vars_ue,eNB_id,abstraction_flag,mode, r_mode);
#ifdef Rel10
if (phy_procedures_RN_UE_RX(last_slot, next_slot, r_type) != 0 )
#endif
phy_procedures_UE_RX(last_slot,phy_vars_ue,eNB_id,abstraction_flag,mode, r_type);
}
#ifdef OPENAIR2
......
......@@ -1325,7 +1325,7 @@ int schedule_MBMS(unsigned char Mod_id,u32 frame, u8 subframe) {
// there is MCCH
if (mcch_flag == 1) {
LOG_D(MAC,"Scheduler: MCCH MESSAGE is transmitted in this subframe \n" );
LOG_D(MAC,"Scheduler: MCCH MESSAGE is transmitted in this subframe %d \n", subframe);
mcch_sdu_length = mac_rrc_data_req(Mod_id,
frame,
......@@ -1334,20 +1334,20 @@ int schedule_MBMS(unsigned char Mod_id,u32 frame, u8 subframe) {
1,// this is eNB
Mod_id);
if (mcch_sdu_length > 0) {
LOG_D(MAC,"[eNB %d] Frame %d : MCCH->MCH, Received %d bytes from RRC \n",Mod_id,frame,mcch_sdu_length);
LOG_D(MAC,"[eNB %d] Frame %d subframe %d : MCCH->MCH, Received %d bytes from RRC \n",Mod_id,frame,subframe,mcch_sdu_length);
header_len_mcch = 2;
if (mac_xface->lte_frame_parms->frame_type == TDD) {
LOG_D(MAC,"[eNB %d] Frame %d : Scheduling MCCH->MCH (TDD) for MCCH message %d bytes (mcs %d )\n",
LOG_D(MAC,"[eNB %d] Frame %d subframe %d: Scheduling MCCH->MCH (TDD) for MCCH message %d bytes (mcs %d )\n",
Mod_id,
frame,
frame,subframe,
mcch_sdu_length,
mcch_mcs);
}
else {
LOG_I(MAC,"[eNB %d] Frame %d : Scheduling MCCH->MCH (FDD) for MCCH message %d bytes (mcs %d)\n",
LOG_I(MAC,"[eNB %d] Frame %d subframe %d: Scheduling MCCH->MCH (FDD) for MCCH message %d bytes (mcs %d)\n",
Mod_id,
frame,
frame, subframe,
mcch_sdu_length,
mcch_mcs);
}
......
......@@ -86,7 +86,7 @@ BOOL pdcp_data_req(module_id_t module_id, u32_t frame, u8_t eNB_flag, rb_id_t rb
#ifdef PDCP_UNIT_TEST
pdcp_t* pdcp = test_pdcp_entity;
#else
pdcp_t* pdcp = &pdcp_array[module_id][rb_id];
pdcp_t* pdcp = &pdcp_array[module_id][rb_id%NB_RB_MAX];
#endif
u8 i;
u8 pdcp_header_len=0, pdcp_tailer_len=0;
......@@ -266,7 +266,7 @@ BOOL pdcp_data_ind(module_id_t module_id, u32_t frame, u8_t eNB_flag, rb_id_t rb
pdcp_t* pdcp = pdcp_test_entity;
list_t* sdu_list = test_list;
#else
pdcp_t* pdcp = &pdcp_array[module_id][rb_id];
pdcp_t* pdcp = &pdcp_array[module_id][rb_id%NB_RB_MAX];
list_t* sdu_list = &pdcp_sdu_list;
#endif
mem_block_t *new_sdu = NULL;
......@@ -541,8 +541,9 @@ BOOL rrc_pdcp_config_asn1_req (module_id_t module_id, u32_t frame, u8_t eNB_flag
if (srb2add_list != NULL) {
for (cnt=0;cnt<srb2add_list->list.count;cnt++) {
srb_id = srb2add_list->list.array[cnt]->srb_Identity;
lc_id = srb_id;
rb_id = (index * NB_RB_MAX) + srb_id;
if (pdcp_array[module_id][rb_id].instanciated_instance == module_id + 1)
if (pdcp_array[module_id][lc_id].instanciated_instance == module_id + 1)
action = ACTION_MODIFY;
else
action = ACTION_ADD;
......@@ -596,7 +597,7 @@ BOOL rrc_pdcp_config_asn1_req (module_id_t module_id, u32_t frame, u8_t eNB_flag
lc_id = -1;
}
rb_id = (index * NB_RB_MAX) + lc_id;
if (pdcp_array[module_id][rb_id].instanciated_instance == module_id + 1)
if (pdcp_array[module_id][lc_id].instanciated_instance == module_id + 1)
action = ACTION_MODIFY;
else
action = ACTION_ADD;
......@@ -733,93 +734,93 @@ BOOL pdcp_config_req_asn1 (module_id_t module_id, u32 frame, u8_t eNB_flag, u16
u8 security_mode){
switch (action) {
case ACTION_ADD:
pdcp_array[module_id][rb_id].instanciated_instance = module_id + 1;
pdcp_array[module_id][rb_id].lcid = lc_id;
pdcp_array[module_id][rb_id].header_compression_profile=header_compression_profile;
pdcp_array[module_id][rb_id].cipheringAlgorithm=security_mode & 0x0f;
pdcp_array[module_id][rb_id].integrityProtAlgorithm=(security_mode>>4) & 0xf;
pdcp_array[module_id][rb_id].status_report = rb_report;
pdcp_array[module_id][lc_id].instanciated_instance = module_id + 1;
pdcp_array[module_id][lc_id].lcid = lc_id;
pdcp_array[module_id][lc_id].header_compression_profile=header_compression_profile;
pdcp_array[module_id][lc_id].cipheringAlgorithm=security_mode & 0x0f;
pdcp_array[module_id][lc_id].integrityProtAlgorithm=(security_mode>>4) & 0xf;
pdcp_array[module_id][lc_id].status_report = rb_report;
if (rb_sn == PDCP_Config__rlc_UM__pdcp_SN_Size_len7bits)
pdcp_array[module_id][rb_id].seq_num_size = 7;
pdcp_array[module_id][lc_id].seq_num_size = 7;
else if (rb_sn == PDCP_Config__rlc_UM__pdcp_SN_Size_len12bits)
pdcp_array[module_id][rb_id].seq_num_size=12;
pdcp_array[module_id][lc_id].seq_num_size=12;
else
pdcp_array[module_id][rb_id].seq_num_size=5;
pdcp_array[module_id][lc_id].seq_num_size=5;
pdcp_array[module_id][rb_id].rlc_mode = rlc_mode;
pdcp_array[module_id][rb_id].next_pdcp_tx_sn = 0;
pdcp_array[module_id][rb_id].next_pdcp_rx_sn = 0;
pdcp_array[module_id][rb_id].tx_hfn = 0;
pdcp_array[module_id][rb_id].rx_hfn = 0;
pdcp_array[module_id][rb_id].last_submitted_pdcp_rx_sn = 4095;
pdcp_array[module_id][rb_id].first_missing_pdu = -1;
pdcp_array[module_id][lc_id].rlc_mode = rlc_mode;
pdcp_array[module_id][lc_id].next_pdcp_tx_sn = 0;
pdcp_array[module_id][lc_id].next_pdcp_rx_sn = 0;
pdcp_array[module_id][lc_id].tx_hfn = 0;
pdcp_array[module_id][lc_id].rx_hfn = 0;
pdcp_array[module_id][lc_id].last_submitted_pdcp_rx_sn = 4095;
pdcp_array[module_id][lc_id].first_missing_pdu = -1;
LOG_I(PDCP,"[%s %d] Config request : Action ADD for %s %d: Frame %d radio bearer id %d configured with SN size %d bits and RLC %s\n",
LOG_I(PDCP,"[%s %d] Config request : Action ADD for %s %d: Frame %d LCID %d (rb id %d) configured with SN size %d bits and RLC %s\n",
(eNB_flag) ? "eNB" : "UE", module_id,
(eNB_flag) ? "UE" : "eNB", index,
frame, rb_id, pdcp_array[module_id][rb_id].seq_num_size,
frame, lc_id, rb_id, pdcp_array[module_id][lc_id].seq_num_size,
(rlc_mode == 1) ? "AM" : (rlc_mode == 2) ? "TM" : "UM");
LOG_D(PDCP, "[MSC_NEW][FRAME %05d][PDCP][MOD %02d][RB %02d]\n", frame, module_id,rb_id);
break;
case ACTION_MODIFY:
pdcp_array[module_id][rb_id].header_compression_profile=header_compression_profile;
pdcp_array[module_id][rb_id].cipheringAlgorithm=security_mode & 0x0f;
pdcp_array[module_id][rb_id].integrityProtAlgorithm=(security_mode>>4) & 0xf;
pdcp_array[module_id][rb_id].status_report = rb_report;
pdcp_array[module_id][rb_id].rlc_mode = rlc_mode;
pdcp_array[module_id][lc_id].header_compression_profile=header_compression_profile;
pdcp_array[module_id][lc_id].cipheringAlgorithm=security_mode & 0x0f;
pdcp_array[module_id][lc_id].integrityProtAlgorithm=(security_mode>>4) & 0xf;
pdcp_array[module_id][lc_id].status_report = rb_report;
pdcp_array[module_id][lc_id].rlc_mode = rlc_mode;
if (rb_sn == PDCP_Config__rlc_UM__pdcp_SN_Size_len7bits)
pdcp_array[module_id][rb_id].seq_num_size = 7;
pdcp_array[module_id][lc_id].seq_num_size = 7;
else if (rb_sn == PDCP_Config__rlc_UM__pdcp_SN_Size_len12bits)
pdcp_array[module_id][rb_id].seq_num_size=12;
pdcp_array[module_id][lc_id].seq_num_size=12;
else
pdcp_array[module_id][rb_id].seq_num_size=5;
pdcp_array[module_id][lc_id].seq_num_size=5;
LOG_I(PDCP,"[%s %d] Config request : Action MODIFY for %s %d: Frame %d radio bearer id %d configured with SN size %d and RLC %s \n",
LOG_I(PDCP,"[%s %d] Config request : Action MODIFY for %s %d: Frame %d LCID %d RB id %d configured with SN size %d and RLC %s \n",
(eNB_flag) ? "eNB" : "UE", module_id,
(eNB_flag) ? "UE" : "eNB", index,
frame, rb_id, rb_sn,
frame, lc_id, rb_id, rb_sn,
(rlc_mode == 1) ? "AM" : (rlc_mode == 2) ? "TM" : "UM");
break;
case ACTION_REMOVE:
pdcp_array[module_id][rb_id].instanciated_instance = 0;
pdcp_array[module_id][rb_id].lcid= 0;
pdcp_array[module_id][rb_id].header_compression_profile=0x0;
pdcp_array[module_id][rb_id].cipheringAlgorithm=0xff;
pdcp_array[module_id][rb_id].integrityProtAlgorithm=0xff;
pdcp_array[module_id][rb_id].status_report = 0;
pdcp_array[module_id][rb_id].rlc_mode = RLC_NONE;
pdcp_array[module_id][rb_id].next_pdcp_tx_sn = 0;
pdcp_array[module_id][rb_id].next_pdcp_rx_sn = 0;
pdcp_array[module_id][rb_id].tx_hfn = 0;
pdcp_array[module_id][rb_id].rx_hfn = 0;
pdcp_array[module_id][rb_id].last_submitted_pdcp_rx_sn = 4095;
pdcp_array[module_id][rb_id].seq_num_size = 0;
pdcp_array[module_id][rb_id].first_missing_pdu = -1;
LOG_I(PDCP,"[%s %d] Config request : ACTION_REMOVE: Frame %d radio bearer id %d configured\n",
(eNB_flag) ? "eNB" : "UE", module_id, frame, rb_id);
pdcp_array[module_id][lc_id].instanciated_instance = 0;
pdcp_array[module_id][lc_id].lcid= 0;
pdcp_array[module_id][lc_id].header_compression_profile=0x0;
pdcp_array[module_id][lc_id].cipheringAlgorithm=0xff;
pdcp_array[module_id][lc_id].integrityProtAlgorithm=0xff;
pdcp_array[module_id][lc_id].status_report = 0;
pdcp_array[module_id][lc_id].rlc_mode = RLC_NONE;
pdcp_array[module_id][lc_id].next_pdcp_tx_sn = 0;
pdcp_array[module_id][lc_id].next_pdcp_rx_sn = 0;
pdcp_array[module_id][lc_id].tx_hfn = 0;
pdcp_array[module_id][lc_id].rx_hfn = 0;
pdcp_array[module_id][lc_id].last_submitted_pdcp_rx_sn = 4095;
pdcp_array[module_id][lc_id].seq_num_size = 0;
pdcp_array[module_id][lc_id].first_missing_pdu = -1;
LOG_I(PDCP,"[%s %d] Config request : ACTION_REMOVE: Frame %d LCID %d RBID %d configured\n",
(eNB_flag) ? "eNB" : "UE", module_id, frame, lc_id,rb_id);
break;
case ACTION_MBMS_ADD:
case ACTION_MBMS_MODIFY:
pdcp_mbms_array[module_id][rb_id].instanciated_instance = module_id + 1 ;
pdcp_mbms_array[module_id][rb_id].service_id = mch_id;
pdcp_mbms_array[module_id][rb_id].session_id = lc_id;
pdcp_mbms_array[module_id][rb_id].rb_id = rb_id;
pdcp_mbms_array[module_id][lc_id].instanciated_instance = module_id + 1 ;
pdcp_mbms_array[module_id][lc_id].service_id = mch_id;
pdcp_mbms_array[module_id][lc_id].session_id = lc_id;
pdcp_mbms_array[module_id][lc_id].rb_id = rb_id;
LOG_I(PDCP,"[%s %d] Config request : ACTION_MBMS_ADD: Frame %d service_id/mch index %d, session_id/lcid %d, rbid %d configured\n",
(eNB_flag == 1) ? "eNB" : "UE", module_id, frame, mch_id, lc_id, rb_id);
break;
case ACTION_SET_SECURITY_MODE:
if ((security_mode >= 0 ) && (security_mode <=0x77)) {
pdcp_array[module_id][rb_id].cipheringAlgorithm= security_mode & 0x0f;
pdcp_array[module_id][rb_id].integrityProtAlgorithm = (security_mode>>4) & 0xf;
pdcp_array[module_id][lc_id].cipheringAlgorithm= security_mode & 0x0f;
pdcp_array[module_id][lc_id].integrityProtAlgorithm = (security_mode>>4) & 0xf;
LOG_D(PDCP,"[%s %d] Set security mode : ACTION_SET_SECURITY_MODE: Frame %d cipheringAlgorithm %d integrityProtAlgorithm %d\n",
(eNB_flag) ? "eNB" : "UE", module_id, frame,
pdcp_array[module_id][rb_id].cipheringAlgorithm,
pdcp_array[module_id][rb_id].integrityProtAlgorithm );
pdcp_array[module_id][lc_id].cipheringAlgorithm,
pdcp_array[module_id][lc_id].integrityProtAlgorithm );
}else
LOG_D(PDCP,"[%s %d] bad security mode %d", security_mode);
break;
......@@ -830,29 +831,27 @@ BOOL pdcp_config_req_asn1 (module_id_t module_id, u32 frame, u8_t eNB_flag, u16
return 0;
}
void
rrc_pdcp_config_req (module_id_t module_id, u32 frame, u8_t eNB_flag, u32 action, rb_id_t rb_id, u8 security_mode){
void rrc_pdcp_config_req (module_id_t module_id, u32 frame, u8_t eNB_flag, u32 action, rb_id_t rb_id, u8 security_mode){
/*
* Initialize sequence number state variables of relevant PDCP entity
*/
switch (action) {
case ACTION_ADD:
pdcp_array[module_id][rb_id].instanciated_instance = module_id + 1;
pdcp_array[module_id][rb_id%NB_RB_MAX].instanciated_instance = module_id + 1;
pdcp_array[module_id][rb_id].next_pdcp_tx_sn = 0;
pdcp_array[module_id][rb_id].next_pdcp_rx_sn = 0;
pdcp_array[module_id][rb_id].tx_hfn = 0;
pdcp_array[module_id][rb_id].rx_hfn = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].next_pdcp_tx_sn = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].next_pdcp_rx_sn = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].tx_hfn = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].rx_hfn = 0;
/* SN of the last PDCP SDU delivered to upper layers */
pdcp_array[module_id][rb_id].last_submitted_pdcp_rx_sn = 4095;
pdcp_array[module_id][rb_id%NB_RB_MAX].last_submitted_pdcp_rx_sn = 4095;
if ( (rb_id % NB_RB_MAX) < DTCH) // SRB
pdcp_array[module_id][rb_id].seq_num_size = 5;
pdcp_array[module_id][rb_id%NB_RB_MAX].seq_num_size = 5;
else // DRB
pdcp_array[module_id][rb_id].seq_num_size = 12;
pdcp_array[module_id][rb_id].first_missing_pdu = -1;
pdcp_array[module_id][rb_id%NB_RB_MAX].seq_num_size = 12;
pdcp_array[module_id][rb_id%NB_RB_MAX].first_missing_pdu = -1;
LOG_D(PDCP,"[%s %d] Config request : Action ADD: Frame %d radio bearer id %d configured\n",
(eNB_flag) ? "eNB" : "UE", module_id, frame, rb_id);
LOG_D(PDCP, "[MSC_NEW][FRAME %05d][PDCP][MOD %02d][RB %02d]\n", frame, module_id,rb_id);
......@@ -860,26 +859,26 @@ void
case ACTION_MODIFY:
break;
case ACTION_REMOVE:
pdcp_array[module_id][rb_id].instanciated_instance = 0;
pdcp_array[module_id][rb_id].next_pdcp_tx_sn = 0;
pdcp_array[module_id][rb_id].next_pdcp_rx_sn = 0;
pdcp_array[module_id][rb_id].tx_hfn = 0;
pdcp_array[module_id][rb_id].rx_hfn = 0;
pdcp_array[module_id][rb_id].last_submitted_pdcp_rx_sn = 4095;
pdcp_array[module_id][rb_id].seq_num_size = 0;
pdcp_array[module_id][rb_id].first_missing_pdu = -1;
pdcp_array[module_id][rb_id%NB_RB_MAX].instanciated_instance = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].next_pdcp_tx_sn = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].next_pdcp_rx_sn = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].tx_hfn = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].rx_hfn = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].last_submitted_pdcp_rx_sn = 4095;
pdcp_array[module_id][rb_id%NB_RB_MAX].seq_num_size = 0;
pdcp_array[module_id][rb_id%NB_RB_MAX].first_missing_pdu = -1;
LOG_D(PDCP,"[%s %d] Config request : ACTION_REMOVE: Frame %d radio bearer id %d configured\n",
(eNB_flag) ? "eNB" : "UE", module_id, frame, rb_id);
break;
case ACTION_SET_SECURITY_MODE:
if ((security_mode >= 0 ) && (security_mode <=0x77)) {
pdcp_array[module_id][rb_id].cipheringAlgorithm= security_mode & 0x0f;
pdcp_array[module_id][rb_id].integrityProtAlgorithm = (security_mode>>4) & 0xf;
pdcp_array[module_id][rb_id%NB_RB_MAX].cipheringAlgorithm= security_mode & 0x0f;
pdcp_array[module_id][rb_id%NB_RB_MAX].integrityProtAlgorithm = (security_mode>>4) & 0xf;
LOG_D(PDCP,"[%s %d] Set security mode : ACTION_SET_SECURITY_MODE: Frame %d cipheringAlgorithm %d integrityProtAlgorithm %d\n",
(eNB_flag) ? "eNB" : "UE", module_id, frame,
pdcp_array[module_id][rb_id].cipheringAlgorithm,
pdcp_array[module_id][rb_id].integrityProtAlgorithm );
pdcp_array[module_id][rb_id%NB_RB_MAX].cipheringAlgorithm,
pdcp_array[module_id][rb_id%NB_RB_MAX].integrityProtAlgorithm );
}else
LOG_D(PDCP,"[%s %d] bad security mode %d", security_mode);
break;
......@@ -951,7 +950,7 @@ void
*/
list_init(&pdcp_sdu_list, NULL);
for (i=0; i < MAX_MODULES; i++) {
for (j=0; j < MAX_RB; j++) {
for (j=0; j < NB_RB_MAX; j++) {
memset((void*)&pdcp_array[i][j], 0, sizeof(pdcp_t));
}
......
......@@ -351,7 +351,7 @@ typedef struct pdcp_missing_pdu_info_t {
#define PDCP_MAX_SN_12BIT 4095 // 2^12-1
protected_pdcp(signed int pdcp_2_nas_irq;)
protected_pdcp(pdcp_t pdcp_array[MAX_MODULES][MAX_RB];)
protected_pdcp(pdcp_t pdcp_array[MAX_MODULES][NB_RB_MAX];)
public_pdcp(pdcp_mbms_t pdcp_mbms_array[MAX_MODULES][16*29];) // MAX_SERVICEx MAX_SESSION
protected_pdcp(sdu_size_t pdcp_output_sdu_bytes_to_write;)
protected_pdcp(sdu_size_t pdcp_output_header_bytes_to_write;)
......
......@@ -300,7 +300,7 @@ int
LOG_D(PDCP, "[MSC_MSG][FRAME %05d][IP][MOD %02d][][--- PDCP_DATA_REQ / %d Bytes --->][PDCP][MOD %02d][RB %02d]\n",
frame, pdcp_read_header.inst, pdcp_read_header.data_size, pdcp_read_header.inst, pdcp_read_header.rb_id);
if (pdcp_array[pdcp_read_header.inst][pdcp_read_header.rb_id].instanciated_instance) {
if (pdcp_array[pdcp_read_header.inst][pdcp_read_header.rb_id%NB_RB_MAX].instanciated_instance) {
pdcp_data_req (pdcp_input_header.inst,
frame, eNB_flag,
pdcp_input_header.rb_id,
......@@ -316,7 +316,7 @@ int
#warning CODE TO BE REVIEWED, ONLY WORK FOR SIMPLE TOPOLOGY CASES
for (rab_id = DEFAULT_RAB_ID; rab_id < MAX_RB; rab_id = rab_id + NB_RB_MAX) {
LOG_D(PDCP, "Checking if could sent on default rab id %d\n", rab_id);
if (pdcp_array[pdcp_input_header.inst][rab_id].instanciated_instance == (pdcp_input_header.inst + 1)) {
if (pdcp_array[pdcp_input_header.inst][rab_id%NB_RB_MAX].instanciated_instance == (pdcp_input_header.inst + 1)) {
pdcp_data_req (pdcp_input_header.inst,
frame, eNB_flag,
rab_id,
......@@ -576,7 +576,7 @@ int
#endif
if (pdcp_read_header.rb_id != 0) {
if (pdcp_array[pdcp_read_header.inst][pdcp_read_header.rb_id].instanciated_instance) {
if (pdcp_array[pdcp_read_header.inst][pdcp_read_header.rb_id%NB_RB_MAX].instanciated_instance) {
#ifdef PDCP_DEBUG
LOG_I(PDCP, "[PDCP][NETLINK][IP->PDCP] TTI %d, INST %d: Received socket with length %d (nlmsg_len = %d) on Rab %d \n",
frame, pdcp_read_header.inst, len, nas_nlh_rx->nlmsg_len-sizeof(struct nlmsghdr), pdcp_read_header.rb_id);
......@@ -601,7 +601,7 @@ int
// is a broadcast packet, we have to send this packet on all default RABS of all connected UEs
#warning CODE TO BE REVIEWED, ONLY WORK FOR SIMPLE TOPOLOGY CASES
for (rab_id = DEFAULT_RAB_ID; rab_id < MAX_RB; rab_id = rab_id + NB_RB_MAX) {
if (pdcp_array[pdcp_input_header.inst][rab_id].instanciated_instance == (pdcp_input_header.inst + 1)) {
if (pdcp_array[pdcp_input_header.inst][rab_id%NB_RB_MAX].instanciated_instance == (pdcp_input_header.inst + 1)) {
pdcp_data_req (pdcp_read_header.inst, frame, eNB_flag, rab_id, RLC_MUI_UNDEFINED,RLC_SDU_CONFIRM_NO,
pdcp_read_header.data_size,
(unsigned char *)NLMSG_DATA(nas_nlh_rx),
......
......@@ -1605,7 +1605,7 @@ int decode_MCCH_Message(u8 Mod_id, u32 frame, u8 eNB_index, u8 *Sdu, u8 Sdu_len)
(void*)&mcch->message.choice.c1.choice.mbsfnAreaConfiguration_r9,
sizeof(MBSFNAreaConfiguration_r9_t)); */
*mcch_message = &mcch->message.choice.c1.choice.mbsfnAreaConfiguration_r9;
LOG_I(RRC,"[UE %d] Frame %d : Found MBSFNAreaConfiguration from eNB \n",Mod_id, frame, eNB_index);
LOG_I(RRC,"[UE %d] Frame %d : Found MBSFNAreaConfiguration from eNB %d \n",Mod_id, frame, eNB_index);
decode_MBSFNAreaConfiguration(Mod_id,eNB_index,frame);
}
......
......@@ -454,7 +454,7 @@ openair_rrc_lite_eNB_init (u8 Mod_id)
LOG_I (RRC, "Checking release \n");
#ifdef Rel10
// This has to come from some top-level configuration
// Thishas to come from some top-level configuration
printf ("Rel10 RRC detected, MBMS flag %d\n",
eNB_rrc_inst[Mod_id].MBMS_flag);
......
......@@ -173,8 +173,8 @@ float owd_const_application_v=owd_const_application()/2;
}
if (otg_hdr_info_rx->flag == 0x1000){
LOG_I(OTG,"received a multicast packet at time %d with size %d, seq num %d, ran owd %d number loss packet %d\n",
ctime,otg_hdr_info_rx->size, otg_hdr_rx->seq_num, ctime - otg_hdr_rx->time, nb_loss_pkts);
LOG_I(OTG,"[SRC%d -> DST %d] Received a multicast packet at time %d with size %d, seq num %d, ran owd %d number loss packet %d\n",
dst, src, ctime,otg_hdr_info_rx->size, otg_hdr_rx->seq_num, ctime - otg_hdr_rx->time, nb_loss_pkts);
LOG_I(OTG,"INFO LATENCY :: [SRC %d][DST %d] radio access %.2f (tx time %d, ctime %d), OWD:%.2f (ms):\n",
src, dst, otg_multicast_info->radio_access_delay[src][dst], otg_hdr_rx->time, ctime , otg_multicast_info->rx_pkt_owd[src][dst]);
......
......@@ -201,7 +201,7 @@ help (void) {
printf (" - wireshark: Enable tracing of layers above PHY using an UDP socket\n");
printf (" - pcap: Enable tracing of layers above PHY to a pcap file\n");
printf (" - tshark: Not implemented yet\n");
printf ("-Q Activate and set the MBMS service: 0 : not used (default eMBMS disabled), 1: eMBMS and RRC enabled, 2: eMBMS relaying and RRC enabled, 3: eMBMS enabled, RRC disabled, 4: eMBMS relaying enabled, RRC disabled\n");
printf ("-Q Activate and set the MBMS service: 0 : not used (default eMBMS disabled), 1: eMBMS and RRC Connection enabled, 2: eMBMS relaying and RRC Connection enabled, 3: eMBMS enabled, RRC Connection disabled, 4: eMBMS relaying enabled, RRC Connection disabled\n");
printf ("-R [6,15,25,50,75,100] Sets N_RB_DL\n");
printf ("-r Activates rate adaptation (DL for now)\n");
printf ("-s snr_dB set a fixed (average) SNR, this deactivates the openair channel model generator (OCM)\n");
......@@ -368,7 +368,7 @@ int
s32 UE_id=0, eNB_id=0, RN_id=0;
relaying_mode_t r_mode=no_relay; // no relaying
relaying_type_t r_type=no_relay; // no relaying
// time calibration for soft realtime mode
lte_subframe_t direction;
......@@ -631,7 +631,6 @@ int
direction = subframe_select(frame_parms,next_slot>>1);
r_mode = no_relay;
#ifdef PROC
if(Channel_Flag==1)
Channel_Func(s_re2,s_im2,r_re2,r_im2,r_re02,r_im02,r_re0_d,r_im0_d,r_re0_u,r_im0_u,eNB2UE,UE2eNB,enb_data,ue_data,abstraction_flag,frame_parms,slot);
......@@ -647,8 +646,8 @@ int
eNB_id++) {
//printf ("debug: Nid_cell %d\n", PHY_vars_eNB_g[eNB_id]->lte_frame_parms.Nid_cell);
//printf ("debug: frame_type %d,tdd_config %d\n", PHY_vars_eNB_g[eNB_id]->lte_frame_parms.frame_type,PHY_vars_eNB_g[eNB_id]->lte_frame_parms.tdd_config);
LOG_D(EMU,"PHY procedures eNB %d mode %s for frame %d, slot %d (subframe TX %d, RX %d) TDD %d/%d Nid_cell %d\n",
eNB_id, (r_mode == 0)?"Normal":"Relaying", frame, slot, next_slot >> 1,last_slot>>1,
LOG_D(EMU,"PHY procedures eNB %d for frame %d, slot %d (subframe TX %d, RX %d) TDD %d/%d Nid_cell %d\n",
eNB_id, frame, slot, next_slot >> 1,last_slot>>1,
PHY_vars_eNB_g[eNB_id]->lte_frame_parms.frame_type,
PHY_vars_eNB_g[eNB_id]->lte_frame_parms.tdd_config,PHY_vars_eNB_g[eNB_id]->lte_frame_parms.Nid_cell);
......@@ -659,7 +658,7 @@ int
pdcp_run(frame, 1, 0, eNB_id);//PHY_vars_eNB_g[eNB_id]->Mod_id
// PHY_vars_eNB_g[eNB_id]->frame = frame;
phy_procedures_eNB_lte (last_slot, next_slot, PHY_vars_eNB_g[eNB_id], abstraction_flag, r_mode);
phy_procedures_eNB_lte (last_slot, next_slot, PHY_vars_eNB_g[eNB_id], abstraction_flag, no_relay);
#ifdef PRINT_STATS
if(last_slot==9 && frame%10==0)
......@@ -692,8 +691,8 @@ int
UE_id++){
if (frame >= (UE_id * 20)) { // activate UE only after 20*UE_id frames so that different UEs turn on separately
LOG_D(EMU,"PHY procedures UE %d mode %s for frame %d, slot %d (subframe TX %d, RX %d)\n",
UE_id, (r_mode == 0)?"Normal":"Relaying", frame, slot, next_slot >> 1,last_slot>>1);
LOG_D(EMU,"PHY procedures UE %d for frame %d, slot %d (subframe TX %d, RX %d)\n",
UE_id, frame, slot, next_slot >> 1,last_slot>>1);
if (PHY_vars_UE_g[UE_id]->UE_mode[0] != NOT_SYNCHED) {
if (frame>0) {
......@@ -705,7 +704,7 @@ int
//Access layer
pdcp_run(frame, 0, UE_id, 0);
phy_procedures_UE_lte (last_slot, next_slot, PHY_vars_UE_g[UE_id], 0, abstraction_flag,normal_txrx, r_mode);
phy_procedures_UE_lte (last_slot, next_slot, PHY_vars_UE_g[UE_id], 0, abstraction_flag,normal_txrx, no_relay);
ue_data[UE_id]->tx_power_dBm = PHY_vars_UE_g[UE_id]->tx_power_dBm;
}
}
......@@ -754,34 +753,33 @@ int
eNB_id= oai_emulation.info.first_enb_local+oai_emulation.info.nb_enb_local + RN_id; // NB_eNB_INST + RN_id
// currently only works in FDD
if (oai_emulation.info.eMBMS_active_state == 4){
r_mode = multicast_relay;
LOG_I(EMU,"Activating the multicast relaying\n");
r_type = multicast_relay;
//LOG_I(EMU,"Activating the multicast relaying\n");
}else {
LOG_E(EMU,"Not supported option when relaying is enabled %d\n", r_mode);
LOG_E(EMU,"Not supported eMBMS option when relaying is enabled %d\n", r_type);
exit(-1);
}
if ( oai_emulation.info.frame_type == 0) {
// RN == UE, do RX as in UE for SF0-SF5
// we could add another arg, such as operation, to call the top func phy_procedures_UE_lte
// RN == UE
if (frame>0) {
if (PHY_vars_UE_g[UE_id]->UE_mode[0] != NOT_SYNCHED) {
LOG_D(EMU,"PHY procedures UE %d mode %d for frame %d, slot %d (subframe TX %d, RX %d)\n",
UE_id, (r_mode == 0)?"Normal":"Relaying", frame, slot, next_slot >> 1,last_slot>>1);
LOG_D(EMU,"[RN %d] PHY procedures UE %d for frame %d, slot %d (subframe TX %d, RX %d)\n",
RN_id, UE_id, frame, slot, next_slot >> 1,last_slot>>1);
PHY_vars_UE_g[UE_id]->frame = frame;
phy_procedures_UE_lte (last_slot, next_slot, PHY_vars_UE_g[UE_id], 0, abstraction_flag,normal_txrx, r_mode);
phy_procedures_UE_lte (last_slot, next_slot, PHY_vars_UE_g[UE_id], 0, abstraction_flag,normal_txrx, r_type);
} else if (last_slot == (LTE_SLOTS_PER_FRAME-2)) {
initial_sync(PHY_vars_UE_g[UE_id],normal_txrx);
}
}
// RN == eNB, do Tx as in eNB for SF6-SF9
LOG_D(EMU,"PHY procedures eNB %d mode %s for frame %d, slot %d (subframe TX %d, RX %d)\n",
eNB_id, (r_mode == 0)?"Normal":"Relaying", frame, slot, next_slot >> 1,last_slot>>1);
phy_procedures_eNB_lte (last_slot, next_slot, PHY_vars_eNB_g[eNB_id], abstraction_flag, r_mode);
// RN == eNB
LOG_D(EMU,"[RN %d] PHY procedures eNB %d for frame %d, slot %d (subframe TX %d, RX %d)\n",
RN_id, eNB_id, frame, slot, next_slot >> 1,last_slot>>1);
phy_procedures_eNB_lte (last_slot, next_slot, PHY_vars_eNB_g[eNB_id], abstraction_flag, r_type);
}
else{
LOG_E(EMU,"TDD is not supported for multicast relaying %d\n", r_mode);
LOG_E(EMU,"TDD is not supported for multicast relaying %d\n", r_type);
exit(-1);
}
}
......
......@@ -141,7 +141,7 @@ void get_simulation_options(int argc, char *argv[]) {
break;
case 'Q':
//eMBMS_active=1;
// 0 : not used (default), 1: eMBMS and RRC enabled, 2: eMBMS relaying and RRC enabled, 3: eMBMS enabled, RRC disabled, 3: eMBMS relaying enabled, RRC disabled
// 0 : not used (default), 1: eMBMS and RRC enabled, 2: eMBMS relaying and RRC enabled, 3: eMBMS enabled, RRC disabled, 4: eMBMS relaying enabled, RRC disabled
oai_emulation.info.eMBMS_active_state = atoi (optarg);
break;
case 'R':
......
......@@ -10,15 +10,26 @@ Obj.# Case# Test# Description
01 01 04 Build dlsim Rel8
01 01 05 Build ulsim Rel8
01 01 06 Build oaisim Rel10
01 01 07 Build oaisim Rel8 with cellular RRC for eNB
01 01 08 Build oaisim Rel8 with cellular RRC for UE
01 02 Run OAI, and check the operation
01 02 Run OAI Rel8, and check the operation
01 02 00 Run OAI Rel8, and search for segmentation fault or exit
01 02 01 Run OAI Rel8, and search for execution errors
01 02 02 Run OAI Rel8 in abstraction mode and check that RRC proc is finished completely for the configured number of eNB and UE
01 02 03 Run OAI Rel8 in abstraction mode, send ping from from one eNB to each UE, and check that there is no packet losses
01 02 04 Run OAI Rel8 with full PHY, and check that the RRC proc for eNBsxUEs
01 02 05 Run OAI Rel10 in abstraction mode, and check the RRC proc for eNBsxUEs
01 02 05 Run OAI Rel10 in full phy mode, and check the RRC proc for eNBsxUEs
01 02 05 Run OAI Rel8 with full PHY in FDD mode, and check that the RRC proc for eNBsxUEs
01 03 Run OAI Rel10, and check the operation
01 03 00 Run OAI Rel10, and search for segmentation fault or exit
01 03 01 Run OAI Rel10, and search for execution errors
01 03 02 Run OAI Rel10 in abstraction mode, and check the RRC proc for eNBsxUEs
01 03 03 Run OAI Rel10 in full phy mode, and check the RRC proc for eNBsxUEs
01 03 04 Run OAI Rel10 in full phy mode in FDD mode, and check the RRC proc for eNBsxUEs
01 03 05 Run OAI Rel10 with eMBMS enabled, and check the SIB13 and MCCH
01 03 06 Run OAI Rel10 with eMBMS enabled, and check the MTCH
01 03 07 Run OAI Rel10 with eMBMS enabled and FDD mode, and check the MTCH
02 Functional test case
......
......@@ -172,9 +172,9 @@ def execute(oai, user, pw, logfile):
try:
test = '07'
name = 'Compile oai.rel8.cellular.rg.make'
name = 'Compile oai.rel8.cellular.eNB.make'
conf = 'make rrc_cellular=1 eNB_flag=1'
diag = 'check the compilation errors for RRC Cellular (node RG)'
diag = 'check the compilation errors for eNB/RG RRC Cellular'
oai.send('make clean;')
oai.send('make cleanall;')
oai.send('make cleanasn1;')
......@@ -188,9 +188,9 @@ def execute(oai, user, pw, logfile):
try:
test = '08'
name = 'Compile oai.rel8.cellular.mt.make'
name = 'Compile oai.rel8.cellular.UE.make'
conf = 'make rrc_cellular=1 UE_flag=1'
diag = 'check the compilation errors for RRC Cellular (node MT)'
diag = 'check the compilation errors for UE/MT RRC Cellular'
oai.send('make clean;')
oai.send('make cleanall;')
oai.send('make cleanasn1;')
......
......@@ -130,26 +130,15 @@ def execute(oai, user, pw, logfile):
try:
test = '05'
name = 'Run oai.rel10.abs.rrc'
diag = 'RRC procedure is not finished completely, check the execution logs and trace BCCH, CCCH, and DCCH channels'
name = 'Run oai.rel8.phy.rrc.fdd'
diag = 'RRC procedure is not finished completely in FDD mode, check the execution logs and trace BCCH, CCCH, and DCCH channels'
for i in range(NUM_UE) :
for j in range(NUM_eNB) :
conf = '-a -A AWGN -n' + str((i+1+j) * 50) + ' -u' + str(i+1) +' -b'+ str(j+1)
oai.send_expect('./oaisim.rel10 ' + conf, ' Received RRCConnectionReconfigurationComplete from UE ' + str(i), (i+1) * 100)
conf = '-A AWGN -F -n' + str((i+1+j) * 50) + ' -u' + str(i+1) +' -b'+ str(j+1) + ' -s15 -x1'
oai.send_expect('./oaisim.rel8 ' + conf, ' Received RRCConnectionReconfigurationComplete from UE ' + str(i), (i+1) * 100)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, '', logfile)
try:
test = '06'
name = 'Run oai.rel10.phy.rrc'
diag = 'RRC procedure is not finished completely, check the execution logs and trace BCCH, CCCH, and DCCH channels'
for i in range(NUM_UE) :
for j in range(NUM_eNB) :
conf = '-A AWGN -s 15 -x 1 -n' + str((i+1+j) * 50) + ' -u' + str(i+1) +' -b'+ str(j+1)
oai.send_expect('./oaisim.rel10 ' + conf, ' Received RRCConnectionReconfigurationComplete from UE ' + str(i), (i+1) * 100)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, '', logfile)
#******************************************************************************
# Eurecom OpenAirInterface
# Copyright(c) 1999 - 2013 Eurecom
# This program is free software; you can redistribute it and/or modify it
# under the terms and conditions of the GNU General Public License,
# version 2, as published by the Free Software Foundation.
# This program is distributed in the hope it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
# more details.
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
# The full GNU General Public License is included in this distribution in
# the file called "COPYING".
# Contact Information
# Openair Admin: openair_admin@eurecom.fr
# Openair Tech : openair_tech@eurecom.fr
# Forums : http://forums.eurecom.fsr/openairinterface
# Address : Eurecom, Compus SophiaTech 450, route des chappes, 06451 Biot, France
#*****************************************************************************
# \file case03.py
# \brief test case 03 for OAI: executions
# \author Navid Nikaein
# \date 2013
# \version 0.1
# @ingroup _test
import time
import random
import log
import openair
import core
NUM_UE=2
NUM_eNB=1
NUM_TRIALS=3
def execute(oai, user, pw, logfile):
case = '03'
oai.send('cd $OPENAIR_TARGETS;')
oai.send('cd SIMU/USER;')
try:
test = '00'
name = 'Run oai.rel10.sf'
conf = '-a -A AWGN -n 100'
diag = 'OAI is not running normally (Segmentation fault / Exiting / FATAL), debugging might be needed'
oai.send_expect_false('./oaisim.rel10 ' + conf, 'Segmentation fault', 30)
oai.send_expect_false('./oaisim.rel10 ' + conf, 'Exiting', 30)
oai.send_expect_false('./oaisim.rel10 ' + conf, 'FATAL', 30)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, '', logfile)
try:
test = '01'
name = 'Run oai.rel10.err'
conf = '-a -A AWGN -n 100'
diag = 'Error(s) found in the execution, check the execution logs'
oai.send_expect_false('./oaisim.rel10 ' + conf, '[E]', 30)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, '', logfile)
try:
test = '02'
name = 'Run oai.rel10.abs.rrc'
diag = 'RRC procedure is not finished completely, check the execution logs and trace BCCH, CCCH, and DCCH channels'
for i in range(NUM_UE) :
for j in range(NUM_eNB) :
conf = '-a -A AWGN -n' + str((i+1+j) * 50) + ' -u' + str(i+1) +' -b'+ str(j+1)
oai.send_expect('./oaisim.rel10 ' + conf, ' Received RRCConnectionReconfigurationComplete from UE ' + str(i), (i+1) * 100)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, '', logfile)
try:
test = '03'
name = 'Run oai.rel10.phy.rrc'
diag = 'RRC procedure is not finished completely, check the execution logs and trace BCCH, CCCH, and DCCH channels'
for i in range(NUM_UE) :
for j in range(NUM_eNB) :
conf = '-A AWGN -s 15 -x 1 -n' + str((i+1+j) * 50) + ' -u' + str(i+1) +' -b'+ str(j+1)
oai.send_expect('./oaisim.rel10 ' + conf, ' Received RRCConnectionReconfigurationComplete from UE ' + str(i), (i+1) * 100)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, '', logfile)
try:
test = '04'
name = 'Run oai.rel10.phy.rrc.fdd'
diag = 'RRC procedure is not finished completely in FDD mode, check the execution logs and trace BCCH, CCCH, and DCCH channels'
for i in range(NUM_UE) :
for j in range(NUM_eNB) :
conf = '-A AWGN -F -s 15 -x 1 -n' + str((i+1+j) * 50) + ' -u' + str(i+1) +' -b'+ str(j+1)
oai.send_expect('./oaisim.rel10 ' + conf, ' Received RRCConnectionReconfigurationComplete from UE ' + str(i), (i+1) * 100)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, '', logfile)
try:
test = '05'
name = 'Run oai.rel10.phy.eMBMS.MCCH'
diag = 'eMBMS procedure is not finished completely, make sure that the SIB13/MCCH have been correclty received by UEs'
for i in range(NUM_UE) :
for j in range(NUM_eNB) :
conf = '-A AWGN -s 15 -x 1 -Q3 -n' + str((i+1+j) * 50) + ' -u' + str(i+1) +' -b'+ str(j+1)
oai.send_expect('./oaisim.rel10 ' + conf, ' Found MBSFNAreaConfiguration from eNB ' + str(j), (i+1) * 100)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, '', logfile)
try:
test = '06'
name = 'Run oai.rel10.phy.eMBMS.OTG'
diag = 'eMBMS multicast/broadcast data is not received, make sure that the SIB13/MCCH/MTCH have been correclty received by UEs'
for i in range(NUM_UE) :
for j in range(NUM_eNB) :
conf = '-A AWGN -s 15 -x 1 -T mscbr -Q3 -n' + str((i+1+j) * 100) + ' -u' + str(i+1) +' -b'+ str(j+1)
oai.send_expect('./oaisim.rel10 ' + conf, ' Received a multicast packet', (i+1) * 100)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, 'Note: check the packet loss from the OTG stats', logfile)
try:
test = '07'
name = 'Run oai.rel10.phy.eMBMS.OTG.fdd'
diag = 'eMBMS multicast/broadcast data is not received in fdd mode, make sure that the SIB13/MCCH/MTCH have been correclty received by UEs'
for i in range(NUM_UE) :
for j in range(NUM_eNB) :
conf = '-A AWGN -F -s 15 -x 1 -T mscbr -Q3 -n' + str((i+1+j) * 100) + ' -u' + str(i+1) +' -b'+ str(j+1)
oai.send_expect('./oaisim.rel10 ' + conf, ' Received a multicast packet', (i+1) * 100)
except log.err, e:
log.fail(case, test, name, conf, e.value, diag, logfile)
else:
log.ok(case, test, name, conf, 'Note: check the packet loss from the OTG stats', logfile)
......@@ -144,7 +144,7 @@ def ok(case, testnum, testname, conf, message, output):
report(case, testnum, testname, conf, 'passed', output)
log_record('passed', case + testnum + ' : ' + testname + ' ('+ conf+')')
if message :
log_record('passed', "Output follows:\n" + message )
print bcolors.okgreen + message + bcolors.normal
stats['passed'] += 1
......
......@@ -41,10 +41,13 @@ import os
import time
import datetime
import getpass
import math #from time import clock
import log
import case01
import case02
import case03
from openair import *
debug = 0
......@@ -70,11 +73,11 @@ for arg in sys.argv:
# get the oai object
oai = openair('localdomain','localhost')
#start_time = time.time() # datetime.datetime.now()
try:
user = getpass.getuser()
print '\n*******Note that the user <'+user+'> should be a sudoer *******\n'
print '*******Connecting to the localhost to perform the test *******\n'
print '\n******* Note that the user <'+user+'> should be a sudoer *******\n'
print '******* Connecting to the localhost to perform the test *******\n'
if not pw :
print "username: " + user
......@@ -95,14 +98,15 @@ test = 'test01'
ctime=datetime.datetime.utcnow().strftime("%Y-%m-%d.%Hh%M")
logfile = user+'.'+test+'.'+ctime+'.txt'
#print '=================start the ' + test + ' at ' + ctime + '=================\n'
print 'Results will be reported in log file : ' + logfile
#print 'Results will be reported in log file : ' + logfile
log.writefile(logfile,'====================start'+test+' at ' + ctime + '=======================\n')
log.set_debug_level(debug)
oai.kill(user, pw)
# start te test cases
case01.execute(oai, user, pw, logfile)
case02.execute(oai, user, pw, logfile)
#case01.execute(oai, user, pw, logfile)
#case02.execute(oai, user, pw, logfile)
#case03.execute(oai, user, pw, logfile)
oai.kill(user, pw)
......@@ -115,4 +119,6 @@ oai.disconnect()
ctime=datetime.datetime.utcnow().strftime("%Y-%m-%d_%Hh%M")
log.writefile(logfile,'====================end the '+ test + ' at ' + ctime +'====================')
print 'Test results can be found in : ' + logfile
#print '\nThis test took %f minutes\n' % math.ceil((time.time() - start_time)/60)
#print '\n=====================end the '+ test + ' at ' + ctime + '====================='
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