void wrapper_noc::b_transport(ac_tlm2_payload &payload,
sc_core::sc_time &time_info) {
if (NOC_DEBUG)
printf("\n\nB_TRANSPORT--> Wrapper %d,%d with status %d is receiving a "
"package",
getX(), getY(), getStatus());
tlm_payload_extension *ex;
// tlm::tlm_extension_base* base;
// base = payload.get_extension(1);
// ex = reinterpret_cast<tlm_payload_extension*>(base);
payload.get_extension(ex);
if (ex == NULL) {
uint64_t addr = payload.get_address();
int targetX, targetY;
tableOfRouts.returnsTargetPosition(addr, targetX, targetY);
ex = new tlm_payload_extension();
ex->setTargetX(targetX);
ex->setTargetY(targetY);
ex->setInitX(getX());
ex->setInitY(getY());
ex->setDirection(FORWARD); // blocking transport has just FORWARD path
// payload.set_extension(1,ex);
payload.set_extension(ex);
if (NOC_DEBUG)
printf("\nB_TRANSPORT--> Wrapper %d,%d is transporting package INTO the "
"NOC trought NODE_port",
getX(), getY());
NODE_port->b_transport(payload, time_info);
payload.release_extension(ex);
} else {
if (NOC_DEBUG)
printf("\nB_TRANSPORT--> Wrapper %d,%d is cleaning payload extension",
getX(), getY());
if (NOC_DEBUG)
printf("\nB_TRANSPORT--> Wrapper %d,%d is trasporting package OUT of NOC "
"trought LOCAL_port",
getX(), getY());
LOCAL_port->b_transport(payload, time_info);
}
if (NOC_DEBUG) {
printf("\n(wrapper_noc::b_transport returning)");
}
}
void tlm_dir::b_transport( ac_tlm2_payload &payload, sc_core::sc_time &time_info ) {
tlm_payload_dir_extension *payloadExt;
time_info = time_info + sc_core::sc_time(1,SC_NS);
int nCache=-1;
bool validation=false;
tlm::tlm_extension_base* base;
base = payload.get_extension(0);
payloadExt = reinterpret_cast<tlm_payload_dir_extension*>(base);
if(payloadExt != 0)
{
nCache = payloadExt->getnumberCache(); //id do processador
uint32_t address =-1;
address= payloadExt->getAddress(); //endereco do dado armazenado
int cacheIndex = payloadExt->getCacheIndex(); //indice do vetor da cache
int rule = payloadExt->getRule(); //comando requisitado
if(rule == 0){
int nWay = payloadExt->getNWay();
int index_size = payloadExt->getIndex_size();
dir->start(nWay, index_size);
}
if(rule == 1) //Cache leu dado da memoria, atualizar valor no diretorio
{
dir->validate(nCache, address, cacheIndex);
}
if(rule==2) //aconteceu escrita na memoria, invalidar todos os outros processadores diferentes de nCache
{
dir->unvalidate(nCache, address, cacheIndex);
}
if(rule == 3) //Verificar se dado da cache esta Valido
{
validation = dir->checkValidation(nCache, address, cacheIndex);
payloadExt->setValidation(validation);
}
}
tlm_command command = payload.get_command();
uint32_t addr = (uint32_t) payload.get_address();
unsigned char* data_pointer = payload.get_data_ptr();
unsigned int len = payload.get_data_length();
unsigned int resp;
payload.set_response_status(tlm::TLM_OK_RESPONSE);
return;
}
tlm::tlm_sync_enum wrapper_master_slave_to_noc::nb_transport_fw(ac_tlm2_payload& payload, tlm::tlm_phase& phase, sc_core::sc_time& time_info)
{
tlm::tlm_sync_enum status;
if (NOC_DEBUG) printf("\n\nNB_TRANSPORT_FW--> Wrapper %d,%d with status %d is receiving a package",getX(), getY(), getStatus());
tlm_payload_extension *ex;
payload.get_extension(ex);
if (ex==NULL)
{
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW-->Wrapper %d,%d is creating payload extension",getX(),getY());
ex = new tlm_payload_extension();
uint64_t addr = payload.get_address();
int targetX, targetY;
tableOfRouts.returnsTargetPosition(addr, targetX, targetY);
ex->setTargetX(targetX);
ex->setTargetY(targetY);
ex->setInitX(getX());
ex->setInitY(getY());
ex->setDirection(FORWARD);
/* NUMBER OF PACKAGES */
this->numberOfPackages ++;
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW --> Wrapper %d,%d is incrementing the number of requests(%ld)",getX(), getY(),this->numberOfPackages);
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW --> Wrapper %d,%d is setting the new extension into the payload",getX(),getY());
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW --> Wrapper %d,%d is setting firstForward with false into the payload extension",getX(),getY());
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW-->Wrapper %d,%d is processing transaction from InitX-> %d InitY-> %d to TargetX-> %d TargetY-> %d", getX(), getY(), ex->getInitX(), ex->getInitY(), ex->getTargetX(), ex->getTargetY());
payload.set_extension(ex);
}
if (ex->isFirstForward())
{
ex->setFirstForward(false);
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW--> Wrapper %d,%d is trasporting package INTO the NOC using non-blocking-forward transport trought NODE-init-socket", getX(), getY());
status = NODE_init_socket->nb_transport_fw(payload,phase,time_info);
if (status != tlm::TLM_UPDATED)
{
printf("\nNB_TRANSPORT_FW--> Wrapper %d,%d TRANSPORT ERROR (2)", getX(), getY());
exit(1);
}
#ifdef POWER_SIM
#ifdef DFS_AUTO_SELECTION_CPU_RATE
dfs->noteFwTime();
#endif
#endif
}
else
{
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW--> Wrapper %d,%d is trasporting package out of NOC to the target using blocking-forward transport trought LOCAL-init-socket", getX(), getY());
LOCAL_init_socket->b_transport(payload,time_info);
if (payload.get_response_status() != tlm::TLM_OK_RESPONSE)
{
printf("\nNB_TRANSPORT_FW--> Wrapper %d,%d TRANSPORT ERROR (1)", getX(), getY());
exit(1);
}
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW--> Wrapper %d,%d is transporting into the NOC using non-blocking-backward transport trought the NODE-target-socket",getX(), getY());
status = this->nb_transport_bw(payload,phase,time_info);
if (status != tlm::TLM_COMPLETED)
{
printf("\nNB_TRANSPORT_FW--> Wrapper %d,%d TRANSPORT ERROR (2)", getX(), getY());
exit(1);
}
}
if (NOC_DEBUG) printf("\n\nNB_TRANSPORT_FW --> Wrapper %d,%d is returning with status %d\n",getX(), getY(),tlm::TLM_UPDATED);
phase = tlm::END_REQ;
return status;
}
tlm::tlm_sync_enum wrapper_master_slave_to_noc::nb_transport_bw(ac_tlm2_payload& payload, tlm::tlm_phase& phase, sc_core::sc_time& time_info)
{
if (NOC_DEBUG) printf("\n\nNB_TRANSPORT_BW --> Wrapper %d,%d with status %d is receiving a package",getX(), getY(), getStatus());
tlm::tlm_sync_enum status;
tlm_payload_extension *ex;
payload.get_extension(ex);
if (ex == NULL) {
printf("\n\nNB_TRANSPORT_BW ERROR --> Wrapper %d,%d is processing a NULL payload extension",getX(),getY());
exit(1);
}
if (ex->isFirstBackward())
{
ex->setFirstBackward(false);
ex->setDirection(BACKWARD);
ex->exchangeXY();
phase = tlm::TLM_COMPLETED;
if (NOC_DEBUG) printf("\n\nNB_TRANSPORT_BW --> Wrapper %d,%d is setting firstBackward with false into the payload extension",getX(),getY());
if (NOC_DEBUG) printf("\nNB_TRANSPORT_BW--> Wrapper %d,%d is trasporting package INTO the NOC using non-blocking-backward transport trought NODE-target-socket", getX(), getY());
status = NODE_target_socket->nb_transport_bw(payload,phase,time_info);
if (NOC_DEBUG) printf("\n\nNB_TRANSPORT_BW --> Wrapper %d,%d is returning\n",getX(), getY());
phase = tlm::END_RESP;
return status;
}
else
{
//printf("\ncpu_wait_time: %.10lf", cpu_wait_time);
if (NOC_DEBUG) printf("\nNB_TRANSPORT_BW--> Wrapper %d,%d is cleaning payload extension", getX(), getY());
/*NUMBER OF HOPS*/
this->numberOfHops += ex->getNumberOfHops();
if (NOC_DEBUG) printf("\nNB_TRANSPORT_FW --> Wrapper %d,%d is updating the number of hops (%ld)",getX(), getY(),this->getNumberOfHops());
/*NUMBER OF HOPS*/
if (NOC_DEBUG) printf("\nNB_TRANSPORT_BW--> Wrapper %d,%d is trasporting package OUT of NOC using non-blocking-backward transport trought LOCAL-target-socket", getX(), getY());
status = LOCAL_target_socket->nb_transport_bw(payload,phase,time_info);
if (status != tlm::TLM_COMPLETED)
{
printf("\nNB_TRANSPORT_BW--> Wrapper %d,%d TRANSPORT ERROR", getX(), getY());
exit(1);
}
phase = tlm::END_RESP;
#ifdef POWER_SIM
#ifdef DFS_AUTO_SELECTION_CPU_RATE
dfs->noteBwTime();
dfs->autoSelectionCPUrate();
#endif
#ifdef DFS_AUTO_SELECTION_ENERGY_STAMP
dfs->autoSelectionEnergyStamp();
#endif
#endif
return status;
}
}