starlingx
/
fault
Code Issues Proposed changes

Fix indentation and style issues in fmAPI 

Several indentation issues were solved, also some style was applied
to improve code's readability.

No funcionality changes were done.

Story: 2006425
Task: 36322

Change-Id: Ie3339ed10254a053a2e26397337c45dfa2d552bd
Signed-off-by: Erich Cordoba <erich.cordoba.malibran@intel.com>
This commit is contained in:
Erich Cordoba 2019-08-21 16:04:49 -05:00
parent 96f4179575
commit f9ba635bfd
2 changed files with 394 additions and 370 deletions
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33
fm-common/sources/fmAPI.cpp
View File

@ -51,21 +51,26 @@ static bool m_connected = false;
static bool m_thread = false; static bool m_thread = false;
typedef std::list<fm_buff_t> FmRequestListT; typedef std::list<fm_buff_t> FmRequestListT;
static FmRequestListT & GetListOfFmRequests() { static FmRequestListT & GetListOfFmRequests() {
static FmRequestListT reqs; static FmRequestListT reqs;
return reqs; return reqs;
} }
static CFmMutex & getListMutex() { static CFmMutex & getListMutex() {
static CFmMutex *m = new CFmMutex; static CFmMutex *m = new CFmMutex;
return *m; return *m;
} }
static CFmMutex & getThreadMutex() { static CFmMutex & getThreadMutex() {
static CFmMutex *m = new CFmMutex; static CFmMutex *m = new CFmMutex;
return *m; return *m;
} }
CFmMutex & getAPIMutex() { CFmMutex & getAPIMutex() {
static pthread_mutex_t ml = PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP; static pthread_mutex_t ml = PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP;
static CFmMutex *m = NULL; static CFmMutex *m = NULL;
@ -77,16 +82,19 @@ CFmMutex & getAPIMutex(){
return *m; return *m;
} }
static void enqueue(fm_buff_t &req) { static void enqueue(fm_buff_t &req) {
CFmMutexGuard m(getListMutex()); CFmMutexGuard m(getListMutex());
GetListOfFmRequests().push_back(req); GetListOfFmRequests().push_back(req);
} }
static bool dequeue(fm_buff_t &req) { static bool dequeue(fm_buff_t &req) {
CFmMutexGuard m(getListMutex()); CFmMutexGuard m(getListMutex());
if (GetListOfFmRequests().size() == 0) { if (GetListOfFmRequests().size() == 0) {
return false; return false;
} }
FmRequestListT::iterator it = GetListOfFmRequests().begin(); FmRequestListT::iterator it = GetListOfFmRequests().begin();
req.clear(); req.clear();
req = (*it); req = (*it);
@ -94,6 +102,7 @@ static bool dequeue(fm_buff_t &req){
return true; return true;
} }
static bool fm_lib_reconnect() { static bool fm_lib_reconnect() {
char addr[INET6_ADDRSTRLEN]; char addr[INET6_ADDRSTRLEN];
@ -140,6 +149,7 @@ static bool fm_lib_reconnect() {
return (m_connected); return (m_connected);
} }
EFmErrorT fm_msg_utils_prep_requet_msg(fm_buff_t &buff, EFmErrorT fm_msg_utils_prep_requet_msg(fm_buff_t &buff,
EFmMsgActionsT act, EFmMsgActionsT act,
const void * data, const void * data,
@ -160,6 +170,7 @@ EFmErrorT fm_msg_utils_prep_requet_msg(fm_buff_t &buff,
return FM_ERR_OK; return FM_ERR_OK;
} }
static void fmApiJobHandlerThread(void *context) { static void fmApiJobHandlerThread(void *context) {
while (true) { while (true) {
@ -181,8 +192,7 @@ static void fmApiJobHandlerThread(void *context){
fm_log_response(buff, in_buff, true); fm_log_response(buff, in_buff, true);
m_connected = false; m_connected = false;
continue; continue;
} } else {
else {
fm_log_response(buff, in_buff); fm_log_response(buff, in_buff);
break; break;
} }
@ -198,20 +208,21 @@ static void fmApiJobHandlerThread(void *context){
} }
} }
static bool fm_lib_thread() { static bool fm_lib_thread() {
CFmMutexGuard m(getThreadMutex()); CFmMutexGuard m(getThreadMutex());
if (!m_thread) { if (!m_thread) {
FM_INFO_LOG("Creating thread"); FM_INFO_LOG("Creating thread");
if (!fmCreateThread(fmApiJobHandlerThread, NULL)) { if (!fmCreateThread(fmApiJobHandlerThread, NULL)) {
FM_ERROR_LOG("Fail to create API job thread"); FM_ERROR_LOG("Fail to create API job thread");
} } else {
else {
m_thread = true; m_thread = true;
} }
} }
return m_thread; return m_thread;
} }
static EFmErrorT fm_check_thread_pending_request() { static EFmErrorT fm_check_thread_pending_request() {
CFmMutexGuard m(getThreadMutex()); CFmMutexGuard m(getThreadMutex());
if (m_thread) { if (m_thread) {
@ -233,6 +244,7 @@ EFmErrorT fm_init_lib() {
return FM_ERR_OK; return FM_ERR_OK;
} }
EFmErrorT fm_set_fault(const SFmAlarmDataT *alarm, EFmErrorT fm_set_fault(const SFmAlarmDataT *alarm,
fm_uuid_t *uuid) { fm_uuid_t *uuid) {
@ -263,6 +275,7 @@ EFmErrorT fm_set_fault(const SFmAlarmDataT *alarm,
return FM_ERR_OK; return FM_ERR_OK;
} }
EFmErrorT fm_clear_fault(AlarmFilter *filter) { EFmErrorT fm_clear_fault(AlarmFilter *filter) {
CFmMutexGuard m(getAPIMutex()); CFmMutexGuard m(getAPIMutex());
@ -287,6 +300,7 @@ EFmErrorT fm_clear_fault(AlarmFilter *filter){
return FM_ERR_OK; return FM_ERR_OK;
} }
EFmErrorT fm_clear_all(fm_ent_inst_t *inst_id) { EFmErrorT fm_clear_all(fm_ent_inst_t *inst_id) {
CFmMutexGuard m(getAPIMutex()); CFmMutexGuard m(getAPIMutex());
@ -343,8 +357,10 @@ EFmErrorT fm_get_fault(AlarmFilter *filter, SFmAlarmDataT *alarm ){
return FM_ERR_OK; return FM_ERR_OK;
} }
EFmErrorT fm_get_faults(fm_ent_inst_t *inst_id, EFmErrorT fm_get_faults(fm_ent_inst_t *inst_id,
SFmAlarmDataT *alarm, unsigned int *max_alarms_to_get) { SFmAlarmDataT *alarm,
unsigned int *max_alarms_to_get) {
CFmMutexGuard m(getAPIMutex()); CFmMutexGuard m(getAPIMutex());
if (!fm_lib_reconnect()) return FM_ERR_NOCONNECT; if (!fm_lib_reconnect()) return FM_ERR_NOCONNECT;
@ -396,7 +412,9 @@ EFmErrorT fm_get_faults(fm_ent_inst_t *inst_id,
return FM_ERR_OK; return FM_ERR_OK;
} }
EFmErrorT fm_get_faults_by_id(fm_alarm_id *alarm_id, SFmAlarmDataT *alarm,
EFmErrorT fm_get_faults_by_id(fm_alarm_id *alarm_id,
SFmAlarmDataT *alarm,
unsigned int *max_alarms_to_get) { unsigned int *max_alarms_to_get) {
CFmMutexGuard m(getAPIMutex()); CFmMutexGuard m(getAPIMutex());
@ -449,6 +467,7 @@ EFmErrorT fm_get_faults_by_id(fm_alarm_id *alarm_id, SFmAlarmDataT *alarm,
return FM_ERR_OK; return FM_ERR_OK;
} }
/* /*
* APIs that enqueue the request and return ok for acknowledgment. * APIs that enqueue the request and return ok for acknowledgment.
* A backgroup thread will pick up the request and send it to the FM Manager * A backgroup thread will pick up the request and send it to the FM Manager
@ -477,6 +496,7 @@ EFmErrorT fm_set_fault_async(const SFmAlarmDataT *alarm, fm_uuid_t *uuid){
return FM_ERR_OK; return FM_ERR_OK;
} }
EFmErrorT fm_clear_fault_async(AlarmFilter *filter) { EFmErrorT fm_clear_fault_async(AlarmFilter *filter) {
if ( !fm_lib_thread()) return FM_ERR_RESOURCE_UNAVAILABLE; if ( !fm_lib_thread()) return FM_ERR_RESOURCE_UNAVAILABLE;
@ -495,6 +515,7 @@ EFmErrorT fm_clear_fault_async(AlarmFilter *filter){
return FM_ERR_OK; return FM_ERR_OK;
} }
EFmErrorT fm_clear_all_async(fm_ent_inst_t *inst_id) { EFmErrorT fm_clear_all_async(fm_ent_inst_t *inst_id) {
if ( !fm_lib_thread()) return FM_ERR_RESOURCE_UNAVAILABLE; if ( !fm_lib_thread()) return FM_ERR_RESOURCE_UNAVAILABLE;

3
fm-common/sources/fmAPI.h
View File

@ -187,6 +187,9 @@ typedef struct {
}AlarmFilter; }AlarmFilter;
/*
* APIs to create, clear and query alarms.
*/
EFmErrorT fm_set_fault(const SFmAlarmDataT *alarm, fm_uuid_t *uuid); EFmErrorT fm_set_fault(const SFmAlarmDataT *alarm, fm_uuid_t *uuid);
EFmErrorT fm_clear_fault(AlarmFilter *filter); EFmErrorT fm_clear_fault(AlarmFilter *filter);