void ipv4_get_ff(struct fins_module *module) {
struct finsFrame *ff;
do {
secure_sem_wait(module->event_sem);
secure_sem_wait(module->input_sem);
ff = read_queue(module->input_queue);
sem_post(module->input_sem);
} while (module->state == FMS_RUNNING && ff == NULL); //TODO change logic here, combine with switch_to_ipv4?
if (module->state != FMS_RUNNING) {
if (ff != NULL) {
freeFinsFrame(ff);
}
return;
}
if (ff->metaData == NULL) {
PRINT_ERROR("Error fcf.metadata==NULL");
exit(-1);
}
if (ff->dataOrCtrl == FF_CONTROL) {
ipv4_fcf(module, ff);
PRINT_DEBUG("");
} else if (ff->dataOrCtrl == FF_DATA) {
if (ff->dataFrame.directionFlag == DIR_UP) {
ipv4_in_fdf(module, ff);
PRINT_DEBUG("");
} else if (ff->dataFrame.directionFlag == DIR_DOWN) {
ipv4_out_fdf(module, ff);
PRINT_DEBUG("");
} else {
PRINT_ERROR("Error: Wrong value of fdf.directionFlag");
exit(-1);
}
} else {
PRINT_ERROR("Error: Wrong ff->dataOrCtrl value");
exit(-1);
}
}
void IP4_receive_fdf(void) {
struct finsFrame* pff = NULL;
uint32_t protocol;
do {
sem_wait(&Switch_to_IPv4_Qsem);
pff = read_queue(Switch_to_IPv4_Queue);
sem_post(&Switch_to_IPv4_Qsem);
} while (ipv4_running && pff == NULL);
if (!ipv4_running) {
return;
}
if (pff->dataOrCtrl == CONTROL) {
PRINT_DEBUG("Received frame: D/C: %d, DestID=%d, ff=%p, meta=%p", pff->dataOrCtrl, pff->destinationID.id, pff, pff->metaData);
ipv4_fcf(pff);
} else if (pff->dataOrCtrl == DATA) {
PRINT_DEBUG("Received frame: D/C: %d, DestID=%d, ff=%p, meta=%p", pff->dataOrCtrl, pff->destinationID.id, pff, pff->metaData);
PRINT_DEBUG("PDU Length: %d", pff->dataFrame.pduLength);
PRINT_DEBUG("Data direction: %d", pff->dataFrame.directionFlag);
PRINT_DEBUG("pdu=%p", pff->dataFrame.pdu);
if (pff->dataFrame.directionFlag == UP) {
PRINT_DEBUG("IP4_in");
IP4_in(pff, (struct ip4_packet*) pff->dataFrame.pdu, pff->dataFrame.pduLength);
} else if (pff->dataFrame.directionFlag == DOWN) {
PRINT_DEBUG("IP4_out");
metadata *params = pff->metaData;
if (params == NULL) {
PRINT_ERROR("todo error");
freeFinsFrame(pff);
return;
}
int ret = 0;
ret += metadata_readFromElement(params, "send_protocol", &protocol) == META_FALSE;
if (ret) {
PRINT_ERROR("metadata read error: ret=%d", ret);
}
PRINT_DEBUG("%lu", my_ip_addr);
PRINT_DEBUG("Transport protocol going out passed to IPv4: protocol=%u", protocol);
switch (protocol) {
case IP4_PT_ICMP:
IP4_out(pff, pff->dataFrame.pduLength, my_ip_addr, IP4_PT_ICMP);
break;
case IP4_PT_TCP:
IP4_out(pff, pff->dataFrame.pduLength, my_ip_addr, IP4_PT_TCP);
break;
case IP4_PT_UDP:
IP4_out(pff, pff->dataFrame.pduLength, my_ip_addr, IP4_PT_UDP);
break;
default:
PRINT_ERROR("invalid protocol: protocol=%u", protocol);
/**
* TODO investigate why the freeFinsFrame below create segmentation fault
*/
freeFinsFrame(pff);
break;
}
} else {
PRINT_ERROR("Error: Wrong value of fdf.directionFlag");
freeFinsFrame(pff);
}
} else {
PRINT_ERROR("Error: Wrong pff->dataOrCtrl value");
freeFinsFrame(pff);
}
}
