Commit 81e5e0dd authored by frtabu's avatar frtabu

implement modifying channel model algo while running, complete function freeing a model

parent 0c9ef5e6
......@@ -508,7 +508,7 @@ int process_command(char *buf) {
}
rt= CMDSTATUS_FOUND;
} else if (strncasecmp(cmd,"get",3) == 0 || strncasecmp(cmd,"set",3) == 0) {
} else if (strcasecmp(cmd,"get") == 0 || strcasecmp(cmd,"set") == 0) {
rt= setgetvar(i,cmd[0],cmdb);
} else {
for (k=0 ; telnetparams.CmdParsers[i].cmd[k].cmdfunc != NULL ; k++) {
......@@ -516,7 +516,7 @@ int process_command(char *buf) {
if (telnetparams.CmdParsers[i].cmd[k].qptr != NULL) {
notifiedFIFO_elt_t *msg =newNotifiedFIFO_elt(sizeof(telnetsrv_qmsg_t),0,NULL,NULL);
telnetsrv_qmsg_t *cmddata=NotifiedFifoData(msg);
cmddata->cmdfunc=telnetparams.CmdParsers[i].cmd[k].cmdfunc;
cmddata->cmdfunc=(qcmdfunc_t)telnetparams.CmdParsers[i].cmd[k].cmdfunc;
cmddata->prnt=client_printf;
cmddata->debug=telnetparams.telnetdbg;
cmddata->cmdbuff=strdup(cmdb);
......@@ -684,12 +684,12 @@ void run_telnetsrv(void) {
return;
}
void poll_telnetcmdq(void *qid) {
void poll_telnetcmdq(void *qid, void *arg) {
notifiedFIFO_elt_t *msg = pollNotifiedFIFO((notifiedFIFO_t *)qid);
if (msg != NULL) {
telnetsrv_qmsg_t *msgdata=NotifiedFifoData(msg);
msgdata->cmdfunc(msgdata->cmdbuff,msgdata->debug,msgdata->prnt);
msgdata->cmdfunc(msgdata->cmdbuff,msgdata->debug,msgdata->prnt,arg);
free(msgdata->cmdbuff);
delNotifiedFIFO_elt(msg);
}
......@@ -826,8 +826,10 @@ int telnetsrv_checkbuildver(char *mainexec_buildversion, char **shlib_buildvers
}
int telnetsrv_getfarray(loader_shlibfunc_t **farray) {
*farray=malloc(sizeof(loader_shlibfunc_t));
*farray=malloc(sizeof(loader_shlibfunc_t)*2);
(*farray)[0].fname=TELNET_ADDCMD_FNAME;
(*farray)[0].fptr=(int (*)(void) )add_telnetcmd;
return 1;
(*farray)[1].fname=TELNET_POLLCMDQ_FNAME;
(*farray)[1].fptr=(int (*)(void) )poll_telnetcmdq;
return ( 2);
}
......@@ -53,6 +53,7 @@
/* to add a set of new command to the telnet server shell */
typedef void(*telnet_printfunc_t)(const char* format, ...);
typedef int(*cmdfunc_t)(char*, int, telnet_printfunc_t prnt);
typedef int(*qcmdfunc_t)(char*, int, telnet_printfunc_t prnt,void *arg);
#define TELNETSRV_CMDFLAG_PUSHINTPOOLQ (1<<0) // ask the telnet server to push the command in a thread pool queue
typedef struct cmddef {
......@@ -67,7 +68,7 @@ typedef struct cmddef {
/* structure used to send a command via a message queue to enable */
/* executing a command in a thread different from the telnet server thread */
typedef struct telnetsrv_qmsg {
cmdfunc_t cmdfunc;
qcmdfunc_t cmdfunc;
telnet_printfunc_t prnt;
int debug;
char *cmdbuff;
......@@ -144,7 +145,7 @@ VT escape sequence definition, for smarter display....
#define TELNET_ADDCMD_FNAME "add_telnetcmd"
#define TELNET_POLLCMDQ_FNAME "poll_telnetcmdq"
typedef int(*add_telnetcmd_func_t)(char *, telnetshell_vardef_t *, telnetshell_cmddef_t *);
typedef void(*poll_telnetcmdq_func_t)(void *qid);
typedef void(*poll_telnetcmdq_func_t)(void *qid,void *arg);
#ifdef TELNETSERVERCODE
int add_telnetcmd(char *modulename, telnetshell_vardef_t *var, telnetshell_cmddef_t *cmd);
void set_sched(pthread_t tid, int pid,int priority);
......
......@@ -68,7 +68,7 @@ void fill_channel_desc(channel_desc_t *chan_desc,
uint8_t nb_taps,
uint8_t channel_length,
double *amps,
double *delays,
double *delays,
struct complex **R_sqrt,
double Td,
double sampling_rate,
......@@ -93,6 +93,7 @@ void fill_channel_desc(channel_desc_t *chan_desc,
if (delays==NULL) {
chan_desc->delays = (double *) malloc(nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_DELAY ;
delta_tau = Td/nb_taps;
for (i=0; i<nb_taps; i++)
......@@ -134,10 +135,9 @@ void fill_channel_desc(channel_desc_t *chan_desc,
if (R_sqrt == NULL) {
chan_desc->R_sqrt = (struct complex **) calloc(nb_taps,sizeof(struct complex *));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_RSQRT_NTAPS ;
for (i = 0; i<nb_taps; i++) {
chan_desc->R_sqrt[i] = (struct complex *) calloc(nb_tx*nb_rx*nb_tx*nb_rx,sizeof(struct complex));
chan_desc->R_sqrt[i] = (struct complex *) calloc(nb_tx*nb_rx*nb_tx*nb_rx,sizeof(struct complex));
for (j = 0; j<nb_tx*nb_rx*nb_tx*nb_rx; j+=(nb_tx*nb_rx+1)) {
chan_desc->R_sqrt[i][j].x = 1.0;
chan_desc->R_sqrt[i][j].y = 0.0;
......@@ -145,7 +145,7 @@ void fill_channel_desc(channel_desc_t *chan_desc,
}
} else {
chan_desc->R_sqrt = (struct complex **) calloc(nb_taps,sizeof(struct complex *));
for (i = 0; i<nb_taps; i++) {
//chan_desc->R_sqrt[i] = (struct complex*) calloc(nb_tx*nb_rx*nb_tx*nb_rx,sizeof(struct complex));
//chan_desc->R_sqrt = (struct complex*)&R_sqrt[i][0];
......@@ -175,7 +175,7 @@ void fill_channel_desc(channel_desc_t *chan_desc,
double mbsfn_delays[] = {0,.03,.15,.31,.37,1.09,12.490,12.52,12.64,12.80,12.86,13.58,27.49,27.52,27.64,27.80,27.86,28.58};
double mbsfn_amps_dB[] = {0,-1.5,-1.4,-3.6,-0.6,-7.0,-10,-11.5,-11.4,-13.6,-10.6,-17.0,-20,-21.5,-21.4,-23.6,-20.6,-27};
double scm_c_delays[] = {0, 0.0125, 0.0250, 0.3625, 0.3750, 0.3875, 0.2500, 0.2625, 0.2750, 1.0375, 1.0500, 1.0625, 2.7250, 2.7375, 2.7500, 4.6000, 4.6125, 4.6250};
double scm_c_delays[] = {0, 0.0125, 0.0250, 0.3625, 0.3750, 0.3875, 0.2500, 0.2625, 0.2750, 1.0375, 1.0500, 1.0625, 2.7250, 2.7375, 2.7500, 4.6000, 4.6125, 4.6250};
double scm_c_amps_dB[] = {0.00, -2.22, -3.98, -1.86, -4.08, -5.84, -1.08, -3.30, -5.06, -9.08, -11.30, -13.06, -15.14, -17.36, -19.12, -20.64, -22.85, -24.62};
double epa_delays[] = { 0,.03,.07,.09,.11,.19,.41};
......@@ -282,10 +282,10 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
SCM_t channel_model,
double sampling_rate,
double channel_bandwidth,
double forgetting_factor,
double forgetting_factor,
int32_t channel_offset,
double path_loss_dB) {
channel_desc_t *chan_desc = (channel_desc_t *)malloc(sizeof(channel_desc_t));
channel_desc_t *chan_desc = (channel_desc_t *)calloc(1,sizeof(channel_desc_t));
for(int i=0; i<max_chan;i++) {
if (defined_channels[i] == NULL) {
defined_channels[i]=chan_desc;
......@@ -330,7 +330,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*scm_c_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -368,9 +368,10 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
for (i = 0; i<6; i++)
chan_desc->R_sqrt[i] = (struct complex *) &R12_sqrt[i][0];
} else {
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_RSQRT_6 ;
for (i = 0; i<6; i++) {
chan_desc->R_sqrt[i] = (struct complex *) malloc(nb_tx*nb_rx*nb_tx*nb_rx * sizeof(struct complex));
for (j = 0; j<nb_tx*nb_rx*nb_tx*nb_rx; j+=(nb_tx*nb_rx+1)) {
chan_desc->R_sqrt[i][j].x = 1.0;
chan_desc->R_sqrt[i][j].y = 0.0;
......@@ -389,7 +390,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*scm_c_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -427,6 +428,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
for (i = 0; i<6; i++)
chan_desc->R_sqrt[i] = (struct complex *) &R12_sqrt[i][0];
} else {
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_RSQRT_6 ;
for (i = 0; i<6; i++) {
chan_desc->R_sqrt[i] = (struct complex *) malloc(nb_tx*nb_rx*nb_tx*nb_rx * sizeof(struct complex));
......@@ -447,7 +449,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*epa_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -466,7 +468,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
for (i = 0; i<nb_tx*nb_rx; i++)
chan_desc->ch[i] = (struct complex *) malloc(chan_desc->channel_length * sizeof(struct complex));
for (i = 0; i<nb_tx*nb_rx; i++)
chan_desc->chF[i] = (struct complex *) malloc(1200 * sizeof(struct complex));
......@@ -480,7 +482,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->R_sqrt[i] = (struct complex *) &R22_sqrt[i][0];
} else {
chan_desc->R_sqrt = (struct complex **) malloc(6*sizeof(struct complex **));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_RSQRT_6 ;
for (i = 0; i<6; i++) {
chan_desc->R_sqrt[i] = (struct complex *) malloc(nb_tx*nb_rx*nb_tx*nb_rx * sizeof(struct complex));
......@@ -501,7 +503,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*epa_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -547,7 +549,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
LOG_W(OCM,"correlation matrix only implemented for nb_tx==2 and nb_rx==2, using identity\n");
}
}*/
break;
break;
case EPA_high:
chan_desc->nb_taps = 7;
......@@ -555,7 +557,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*epa_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -609,7 +611,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*epa_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -663,7 +665,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*eva_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -696,8 +698,8 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->R_sqrt[i] = (struct complex *) &R22_sqrt[i][0];
} else {
chan_desc->R_sqrt = (struct complex **) malloc(6*sizeof(struct complex **));
for (i = 0; i<6; i++) {
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_RSQRT_6 ;
for (i = 0; i<6; i++) {
chan_desc->R_sqrt[i] = (struct complex *) malloc(nb_tx*nb_rx*nb_tx*nb_rx * sizeof(struct complex));
for (j = 0; j<nb_tx*nb_rx*nb_tx*nb_rx; j+=(nb_tx*nb_rx+1)) {
......@@ -717,7 +719,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*etu_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -750,7 +752,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->R_sqrt[i] = (struct complex *) &R22_sqrt[i][0];
} else {
chan_desc->R_sqrt = (struct complex **) malloc(6*sizeof(struct complex **));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_RSQRT_6 ;
for (i = 0; i<6; i++) {
chan_desc->R_sqrt[i] = (struct complex *) malloc(nb_tx*nb_rx*nb_tx*nb_rx * sizeof(struct complex));
......@@ -771,7 +773,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->channel_length = (int) (2*chan_desc->sampling_rate*chan_desc->Td + 1 + 2/(M_PI*M_PI)*log(4*M_PI*chan_desc->sampling_rate*chan_desc->Td));
sum_amps = 0;
chan_desc->amps = (double *) malloc(chan_desc->nb_taps*sizeof(double));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_AMPS ;
for (i = 0; i<chan_desc->nb_taps; i++) {
chan_desc->amps[i] = pow(10,.1*mbsfn_amps_dB[i]);
sum_amps += chan_desc->amps[i];
......@@ -798,7 +800,7 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->a[i] = (struct complex *) malloc(nb_tx*nb_rx * sizeof(struct complex));
chan_desc->R_sqrt = (struct complex **) malloc(6*sizeof(struct complex *));
chan_desc->free_flags=chan_desc->free_flags|CHANMODEL_FREE_RSQRT_6;
for (i = 0; i<6; i++) {
chan_desc->R_sqrt[i] = (struct complex *) malloc(nb_tx*nb_rx*nb_tx*nb_rx * sizeof(struct complex));
......@@ -1309,11 +1311,37 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
chan_desc->nb_paths = 10;
return(chan_desc);
}
void free_channel_desc_scm(channel_desc_t *ch) {
// Must be made cleanly, a lot of leaks...
defined_channels[ch->chan_idx]=NULL;
free(ch);
defined_channels[ch->chan_idx]=NULL;
if(ch->free_flags&CHANMODEL_FREE_AMPS)
free(ch->amps);
for (int i = 0; i<ch->nb_tx*ch->nb_rx; i++) {
free(ch->ch[i]);
free(ch->chF[i]);
}
for (int i = 0; i<ch->nb_taps; i++) {
free(ch->a[i]);
}
if(ch->free_flags&CHANMODEL_FREE_DELAY)
free(ch->delays);
if(ch->free_flags&CHANMODEL_FREE_RSQRT_6)
for (int i = 0; i<6; i++)
free(ch->R_sqrt[i]);
if(ch->free_flags&CHANMODEL_FREE_RSQRT_NTAPS)
for (int i = 0; i<ch->nb_taps;i++)
free(ch->R_sqrt[i]);
free(ch->R_sqrt);
free(ch->ch);
free(ch->chF);
free(ch->a);
free(ch);
}
void set_channeldesc_owner(channel_desc_t *cdesc, uint32_t module_id) {
cdesc->module_id=module_id;
}
int random_channel(channel_desc_t *desc, uint8_t abstraction_flag) {
......@@ -1454,7 +1482,7 @@ int random_channel(channel_desc_t *desc, uint8_t abstraction_flag) {
return (0);
}
double N_RB2sampling_rate(uint16_t N_RB) {
double sampling_rate;
......@@ -1522,6 +1550,10 @@ static int channelmod_print_help(char *buff, int debug, telnet_printfunc_t prnt
static void display_channelmodel(channel_desc_t *cd,int debug, telnet_printfunc_t prnt) {
char *module_id_str[]=MODULEID_STR_INIT;
if (cd->module_id != 0) {
prnt("model owner: %s\n",module_id_str[cd->module_id]);
}
prnt("nb_tx: %i nb_rx: %i taps: %i bandwidth: %lf sampling: %lf\n",cd->nb_tx, cd->nb_rx, cd->nb_taps, cd->channel_bandwidth, cd->sampling_rate);
prnt("channel length: %i Max path delay: %lf ricean fact.: %lf angle of arrival: %lf (randomized:%s)\n",
cd->channel_length, cd->Td, cd->ricean_factor, cd->aoa, (cd->random_aoa?"Yes":"No"));
......@@ -1617,10 +1649,10 @@ static int channelmod_modify_cmd(char *buff, int debug, telnet_printfunc_t prnt)
return CMDSTATUS_FOUND;
}
int modelid_fromname(char *modelname) {
int modelid=map_str_to_int(channelmod_names,modelname);
AssertFatal(modelid>0,
"random_channel.c: Error channel model %s unknown\n",modelname);
int modelid_fromname(char *modelname) {
int modelid=map_str_to_int(channelmod_names,modelname);
if (modelid < 0)
LOG_E(OCM,"random_channel.c: Error channel model %s unknown\n",modelname);
return modelid;
}
......
......@@ -40,6 +40,16 @@ The present clause specifies several numerical functions for testing of digital
#define NB_SAMPLES_CHANNEL_OFFSET 4
typedef enum {
UNSPECIFIED_MODID=0,
RFSIMU_MODULEID=1
} channelmod_moduleid_t;
#define MODULEID_STR_INIT {"","rfsimulator"}
#define CHANMODEL_FREE_DELAY 1<<0
#define CHANMODEL_FREE_RSQRT_6 1<<1
#define CHANMODEL_FREE_RSQRT_NTAPS 1<<2
#define CHANMODEL_FREE_AMPS 1<<3
typedef struct {
///Number of tx antennas
uint8_t nb_tx;
......@@ -96,6 +106,10 @@ typedef struct {
unsigned int chan_idx;
/// id of the channel modeling algorithm
int modelid;
/// identifies channel descriptor owner (the module which created this descriptor)
channelmod_moduleid_t module_id;
/// flags to properly trigger memory free
unsigned int free_flags;
} channel_desc_t;
typedef struct {
......@@ -278,9 +292,18 @@ channel_desc_t *new_channel_desc_scm(uint8_t nb_tx,
double forgetting_factor,
int32_t channel_offset,
double path_loss_dB);
/**
\brief free memory allocated for a model descriptor
\param ch points to the model, which cannot be used after calling this fuction
*/
void free_channel_desc_scm(channel_desc_t *ch);
/**
\brief This set the ownerid of a model descriptor, can be later used to check what module created a channel model
\param cdesc points to the model descriptor
\param module_id identifies the channel model. should be define as a macro in simu.h
*/
void set_channeldesc_owner(channel_desc_t *cdesc, channelmod_moduleid_t module_id);
/** \fn void random_channel(channel_desc_t *desc)
\brief This routine generates a random channel response (time domain) according to a tapped delay line model.
\param desc Pointer to the channel descriptor
......
......@@ -89,9 +89,9 @@ extern RAN_CONTEXT_t RC;
static int rfsimu_setchanmod_cmd(char *buff, int debug, telnet_printfunc_t prnt);
static int rfsimu_setchanmod_cmd(char *buff, int debug, telnet_printfunc_t prnt, void *arg);
static telnetshell_cmddef_t rfsimu_cmdarray[] = {
{"setmodel","<model name>",rfsimu_setchanmod_cmd,TELNETSRV_CMDFLAG_PUSHINTPOOLQ},
{"setmodel","<model name>",(cmdfunc_t)rfsimu_setchanmod_cmd,TELNETSRV_CMDFLAG_PUSHINTPOOLQ},
{"","",NULL},
};
......@@ -185,6 +185,7 @@ void allocCirBuf(rfsimulator_state_t *bridge, int sock) {
bridge->chan_forgetfact, // forgetting_factor
bridge->chan_offset, // maybe used for TA
bridge->chan_pathloss); // path_loss in dB
set_channeldesc_owner(ptr->channel_model, RFSIMU_MODULEID);
random_channel(ptr->channel_model,false);
}
}
......@@ -311,25 +312,38 @@ void rfsimulator_readconfig(rfsimulator_state_t *rfsimulator) {
rfsimulator->typeStamp = UE_MAGICDL_FDD;
}
static int rfsimu_setchanmod_cmd(char *buff, int debug, telnet_printfunc_t prnt) {
static int rfsimu_setchanmod_cmd(char *buff, int debug, telnet_printfunc_t prnt, void *arg) {
char *modelname=NULL;
int s = sscanf(buff,"%ms\n",&modelname);
int channelmod=modelid_fromname(modelname);
for (int i=0; i<FD_SETSIZE; i++) {
/* if(rfsimulator->buf[i].conn_sock > 0) {
channel_desc_t *cm = rfsimulator->buf[i].channel_model;
rfsimulator->buf[i].channel_model=new_channel_desc_scm(cm->nb_tx,cm->nb_rx,
channelmod,
cm->sampling_rate,
cm->channel_bandwidth,
cm->forgetting_factor, // forgetting_factor
cm->channel_offset, // maybe used for TA
cm-> path_loss_dB); // path_loss in dB
free_channel_desc_scm(cm);
random_channel(ptr->channel_model,false);
} */
if (s == 1) {
int channelmod=modelid_fromname(modelname);
if (channelmod<0)
prnt("ERROR: model %s unknown\n",modelname);
else {
rfsimulator_state_t *t = (rfsimulator_state_t *)arg;
for (int i=0; i<FD_SETSIZE; i++) {
buffer_t *b=&t->buf[i];
if (b->conn_sock >= 0 ) {
channel_desc_t *newmodel=new_channel_desc_scm(t->tx_num_channels,t->rx_num_channels,
channelmod,
t->sample_rate,
t->tx_bw,
t->chan_forgetfact, // forgetting_factor
t->chan_offset, // maybe used for TA
t->chan_pathloss); // path_loss in dB
set_channeldesc_owner(newmodel, RFSIMU_MODULEID);
random_channel(newmodel,false);
channel_desc_t *oldmodel=b->channel_model;
b->channel_model=newmodel;
free_channel_desc_scm(oldmodel);
prnt("New model %s applied to channel connected to sock %d\n",modelname,i);
}
}
}
} else {
prnt("ERROR: no model specified\n");
}
free(modelname);
return CMDSTATUS_FOUND;
}
......@@ -683,7 +697,8 @@ int rfsimulator_read(openair0_device *device, openair0_timestamp *ptimestamp, vo
// it seems legacy behavior is: never in UL, each frame in DL
if (reGenerateChannel)
random_channel(ptr->channel_model,0);
t->poll_telnetcmdq(t->telnetcmd_qid);
if (t->poll_telnetcmdq)
t->poll_telnetcmdq(t->telnetcmd_qid,t);
for (int a=0; a<nbAnt; a++) {
if ( ptr->channel_model != NULL ) // apply a channel model
rxAddInput( ptr->circularBuf, (struct complex16 *) samplesVoid[a],
......
Markdown is supported
0%
or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment