Merge "Fix indentation and style issues in fm_cli"

changes/84/683384/1
Zuul 3 years ago committed by Gerrit Code Review
commit 206e5c4745
  1. 305
      fm-common/sources/fm_cli.cpp

@ -12,177 +12,190 @@
#include <string.h>
#include <string>
void error(const char *add="") {
printf("%s\n",add);
exit(-1);
void error(const char *add = "") {
printf("%s\n", add);
exit(-1);
}
void ok(const char *s="") {
printf("Ok\n%s%s",s,strlen(s)!=0 ? "\n":"");
exit(0);
void ok(const char *s = "") {
printf("Ok\n%s%s", s, strlen(s) != 0 ? "\n" : "");
exit(0);
}
void ok(fm_uuid_t *uuid) {
return ok(*uuid);
return ok(*uuid);
}
void create_alarm(const char *al) {
SFmAlarmDataT alarm;
EFmErrorT rc;
memset(&alarm,0,sizeof(alarm));
if (!fm_alarm_from_string(al,&alarm)) {
error("Invalid alarm string..");
}
//clear uuid and let it be set by fm-mgr
memset(alarm.uuid, 0, sizeof(*alarm.uuid));
fm_uuid_t uuid;
if ((rc = fm_set_fault(&alarm,&uuid))!=FM_ERR_OK) {
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
ok(&uuid);
SFmAlarmDataT alarm;
EFmErrorT rc;
memset(&alarm, 0, sizeof(alarm));
if (!fm_alarm_from_string(al, &alarm)) {
error("Invalid alarm string..");
}
// clear uuid and let it be set by fm-mgr
memset(alarm.uuid, 0, sizeof(*alarm.uuid));
fm_uuid_t uuid;
if ((rc = fm_set_fault(&alarm, &uuid)) != FM_ERR_OK) {
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
ok(&uuid);
}
void delete_alarms(const char *id) {
fm_ent_inst_t inst_id;
EFmErrorT rc;
fm_ent_inst_t inst_id;
EFmErrorT rc;
memset(inst_id, 0 , sizeof(inst_id));
strncpy(inst_id, id ,sizeof(inst_id)-1);
memset(inst_id, 0, sizeof(inst_id));
strncpy(inst_id, id, sizeof(inst_id) - 1);
if ((rc = fm_clear_all(&inst_id))!=FM_ERR_OK) {
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
ok();
if ((rc = fm_clear_all(&inst_id)) != FM_ERR_OK) {
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
ok();
}
void delete_alarm(const char *f) {
AlarmFilter af;
EFmErrorT rc;
memset(&af,0,sizeof(af));
if (!fm_alarm_filter_from_string(f,&af)) {
error("Invalid alarm filter");
}
if ((rc = fm_clear_fault(&af))!=FM_ERR_OK) {
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
ok();
AlarmFilter af;
EFmErrorT rc;
memset(&af, 0, sizeof(af));
if (!fm_alarm_filter_from_string(f, &af)) {
error("Invalid alarm filter");
}
if ((rc = fm_clear_fault(&af)) != FM_ERR_OK) {
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
ok();
}
void get_alarm(const char *f) {
AlarmFilter af;
EFmErrorT rc;
memset(&af, 0, sizeof(af));
if (!fm_alarm_filter_from_string(f,&af)) {
error("Invalid alarm filter");
}
SFmAlarmDataT ad;
memset(&ad, 0 , sizeof(ad));
if ((rc = fm_get_fault(&af,&ad))!=FM_ERR_OK) {
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
std::string s;
fm_alarm_to_string(&ad,s);
ok(s.c_str());
AlarmFilter af;
EFmErrorT rc;
memset(&af, 0, sizeof(af));
if (!fm_alarm_filter_from_string(f, &af)) {
error("Invalid alarm filter");
}
SFmAlarmDataT ad;
memset(&ad, 0, sizeof(ad));
if ((rc = fm_get_fault(&af, &ad)) != FM_ERR_OK) {
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
std::string s;
fm_alarm_to_string(&ad, s);
ok(s.c_str());
}
void get_alarms(const char *id) {
fm_ent_inst_t inst_id;
EFmErrorT rc;
memset(inst_id, 0 , sizeof(inst_id));
strncpy(inst_id, id ,sizeof(inst_id)-1);
unsigned int max_alarms=500;
SFmAlarmDataT *p = (SFmAlarmDataT*)malloc(max_alarms*sizeof(SFmAlarmDataT));
if (p==NULL) error("Not enough memory...");
if ((rc=fm_get_faults(&inst_id,p,&max_alarms))!=FM_ERR_OK) {
free(p);
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
printf("Ok\n");
size_t ix = 0;
for ( ; ix < max_alarms; ++ix ) {
std::string a;
fm_alarm_to_string(p+ix,a);
printf("%s\n",a.c_str());
}
free(p);
exit(0);
fm_ent_inst_t inst_id;
EFmErrorT rc;
memset(inst_id, 0, sizeof(inst_id));
strncpy(inst_id, id, sizeof(inst_id) - 1);
unsigned int max_alarms = 500;
SFmAlarmDataT *p = (SFmAlarmDataT*) \
malloc(max_alarms * sizeof(SFmAlarmDataT));
if (p == NULL)
error("Not enough memory...");
if ((rc = fm_get_faults(&inst_id, p, &max_alarms)) != FM_ERR_OK) {
free(p);
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
printf("Ok\n");
size_t ix = 0;
for ( ; ix < max_alarms; ++ix ) {
std::string a;
fm_alarm_to_string(p + ix, a);
printf("%s\n", a.c_str());
}
free(p);
exit(0);
}
void get_alarms_by_id(const char *id) {
fm_alarm_id alm_id;
EFmErrorT rc;
memset(alm_id, 0 , sizeof(alm_id));
strncpy(alm_id, id ,sizeof(alm_id)-1);
unsigned int max_alarms=500;
SFmAlarmDataT *p = (SFmAlarmDataT*)malloc(max_alarms*sizeof(SFmAlarmDataT));
if (p==NULL) error("Not enough memory...");
if ((rc=fm_get_faults_by_id(&alm_id,p,&max_alarms))!=FM_ERR_OK) {
free(p);
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
printf("Ok\n");
size_t ix = 0;
for ( ; ix < max_alarms; ++ix ) {
std::string a;
fm_alarm_to_string(p+ix,a);
printf("%s\n",a.c_str());
}
free(p);
exit(0);
}
int main(int argc, char**argv) {
int c;
if (argc < 3) {
error("Wrong arguments");
}
while ( (c=getopt(argc,argv,"c:d:D:g:G:A:"))) {
switch(c) {
case 'c':
create_alarm(optarg);
break;
case 'd':
delete_alarm(optarg);
break;
case 'D':
delete_alarms(optarg);
break;
case 'g':
get_alarm(optarg);
break;
case 'G':
get_alarms(optarg);
break;
case 'A':
get_alarms_by_id(optarg);
break;
default:
error("Invalid option...");
break;
}
}
return 0;
void get_alarms_by_id(const char *id) {
fm_alarm_id alm_id;
EFmErrorT rc;
memset(alm_id, 0, sizeof(alm_id));
strncpy(alm_id, id, sizeof(alm_id) - 1);
unsigned int max_alarms = 500;
SFmAlarmDataT *p = (SFmAlarmDataT*)malloc(max_alarms*sizeof(SFmAlarmDataT));
if (p == NULL)
error("Not enough memory...");
if ((rc = fm_get_faults_by_id(&alm_id, p, &max_alarms)) != FM_ERR_OK) {
free(p);
std::string errstr = fm_error_from_int(rc);
error(errstr.c_str());
}
printf("Ok\n");
size_t ix = 0;
for ( ; ix < max_alarms; ++ix ) {
std::string a;
fm_alarm_to_string(p + ix, a);
printf("%s\n", a.c_str());
}
free(p);
exit(0);
}
int main(int argc, char **argv) {
int c;
if (argc < 3) {
error("Wrong arguments");
}
while ((c = getopt(argc, argv, "c:d:D:g:G:A:"))) {
switch (c) {
case 'c':
create_alarm(optarg);
break;
case 'd':
delete_alarm(optarg);
break;
case 'D':
delete_alarms(optarg);
break;
case 'g':
get_alarm(optarg);
break;
case 'G':
get_alarms(optarg);
break;
case 'A':
get_alarms_by_id(optarg);
break;
default:
error("Invalid option...");
break;
}
}
return 0;
}

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