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feudpMulti.cxx
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//
// feudp.cxx
//
// Frontend for receiving and storing UDP packets as MIDAS data banks.
//
// Remade for mPMT BRB... combine together UDP packets that have the same frameID.
//
//
//
#include <iostream>
#include <stdio.h>
#include <netdb.h> // getnameinfo()
//#include <stdlib.h>
#include <string.h> // memcpy()
#include <errno.h> // errno
//#include <unistd.h>
//#include <time.h>
#include <string>
#include <vector>
#include <map>
#include "midas.h"
#include "mfe.h"
const char *frontend_name = "feudp"; /* fe MIDAS client name */
const char *frontend_file_name = __FILE__; /* The frontend file name */
BOOL equipment_common_overwrite = FALSE;
BOOL frontend_call_loop = TRUE; /* frontend_loop called periodically TRUE */
int display_period = 0; /* status page displayed with this freq[ms] */
int max_event_size = 1*1024*1024; /* max event size produced by this frontend */
int max_event_size_frag = 5 * 1024 * 1024; /* max for fragmented events */
int event_buffer_size = 8*1024*1024; /* buffer size to hold events */
int interrupt_configure(INT cmd, INT source, PTYPE adr);
INT poll_event(INT source, INT count, BOOL test);
int frontend_init();
int frontend_exit();
int begin_of_run(int run, char *err);
int end_of_run(int run, char *err);
int pause_run(int run, char *err);
int resume_run(int run, char *err);
int frontend_loop();
int read_event(char *pevent, INT off);
// Last frame ID
// We store the data separately for each packet, so that we can reorder the packets based on packet ID
std::map<std::string, std::vector< std::pair<int, std::vector<uint16_t> > > > event_datas;
std::map<std::string, uint16_t> fLastTriggerCount;
std::map<std::string, bool> fGotFirstPackets;
std::map<std::string, int> fBadEventCounts;
std::map<std::string, int> nUDPpackets;
// container for storing event packets
std::vector<uint16_t> event_data;
uint16_t fLastFrameID;
bool fGotFirstPacket = false;
int fBadEvents = 0;
int npackets = 0;
#ifndef EQ_NAME
#define EQ_NAME "UDP"
#endif
#ifndef EQ_EVID
#define EQ_EVID 1
#endif
EQUIPMENT equipment[] = {
{ EQ_NAME "%02d", /* equipment name */
{EQ_EVID, 0, "SYSTEM", /* event ID, trigger mask, Evbuf */
EQ_MULTITHREAD, 0, "MIDAS", /* equipment type, EventSource, format */
TRUE, RO_ALWAYS, /* enabled?, WhenRead? */
1, 0, 0, 0, /* poll[ms], Evt Lim, SubEvtLim, LogHist */
"", "", "",}, read_event, /* readout routine */
},
{""}
};
////////////////////////////////////////////////////////////////////////////
#include <sys/time.h>
#if 0
static double GetTimeSec()
{
struct timeval tv;
gettimeofday(&tv,NULL);
return tv.tv_sec + 0.000001*tv.tv_usec;
}
#endif
struct Source
{
struct sockaddr addr;
char bank_name[5];
std::string host_name;
};
static std::vector<Source> gSrc;
//static HNDLE hDB;
static HNDLE hKeySet; // equipment settings
static int gDataSocket;
static int gUnknownPacketCount = 0;
static bool gSkipUnknownPackets = false;
int open_udp_socket(int server_port)
{
int status;
int fd = socket(AF_INET, SOCK_DGRAM, 0);
if (fd < 0) {
cm_msg(MERROR, "open_udp_socket", "socket(AF_INET,SOCK_DGRAM) returned %d, errno %d (%s)", fd, errno, strerror(errno));
return -1;
}
int opt = 1;
status = setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &opt, sizeof(opt));
if (status == -1) {
cm_msg(MERROR, "open_udp_socket", "setsockopt(SOL_SOCKET,SO_REUSEADDR) returned %d, errno %d (%s)", status, errno, strerror(errno));
return -1;
}
int bufsize = 8*1024*1024;
//int bufsize = 20*1024;
status = setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &bufsize, sizeof(bufsize));
if (status == -1) {
cm_msg(MERROR, "open_udp_socket", "setsockopt(SOL_SOCKET,SO_RCVBUF) returned %d, errno %d (%s)", status, errno, strerror(errno));
return -1;
}
struct sockaddr_in local_addr;
memset(&local_addr, 0, sizeof(local_addr));
local_addr.sin_family = AF_INET;
local_addr.sin_port = htons(server_port);
local_addr.sin_addr.s_addr = INADDR_ANY;
status = bind(fd, (struct sockaddr *)&local_addr, sizeof(local_addr));
if (status == -1) {
cm_msg(MERROR, "open_udp_socket", "bind(port=%d) returned %d, errno %d (%s)", server_port, status, errno, strerror(errno));
return -1;
}
int xbufsize = 0;
unsigned size = sizeof(xbufsize);
status = getsockopt(fd, SOL_SOCKET, SO_RCVBUF, &xbufsize, &size);
//printf("status %d, xbufsize %d, size %d\n", status, xbufsize, size);
if (status == -1) {
cm_msg(MERROR, "open_udp_socket", "getsockopt(SOL_SOCKET,SO_RCVBUF) returned %d, errno %d (%s)", status, errno, strerror(errno));
return -1;
}
cm_msg(MINFO, "open_udp_socket", "UDP port %d socket receive buffer size is %d", server_port, xbufsize);
return fd;
}
bool addr_match(const Source* s, void *addr, int addr_len)
{
int v = memcmp(&s->addr, addr, addr_len);
#if 0
for (int i=0; i<addr_len; i++)
printf("%3d - 0x%02x 0x%02x\n", i, ((char*)&s->addr)[i], ((char*)addr)[i]);
printf("match %d, hostname [%s] bank [%s], status %d\n", addr_len, s->host_name.c_str(), s->bank_name, v);
#endif
return v==0;
}
int wait_udp(int socket, int msec)
{
int status;
fd_set fdset;
struct timeval timeout;
FD_ZERO(&fdset);
FD_SET(socket, &fdset);
timeout.tv_sec = msec/1000;
timeout.tv_usec = (msec%1000)*1000;
status = select(socket+1, &fdset, NULL, NULL, &timeout);
#ifdef EINTR
if (status < 0 && errno == EINTR) {
return 0; // watchdog interrupt, try again
}
#endif
if (status < 0) {
cm_msg(MERROR, "wait_udp", "select() returned %d, errno %d (%s)", status, errno, strerror(errno));
return -1;
}
if (status == 0) {
return 0; // timeout
}
if (FD_ISSET(socket, &fdset)) {
return 1; // have data
}
// timeout
return 0;
}
int find_source(Source* src, const sockaddr* paddr, int addr_len)
{
char host[NI_MAXHOST], service[NI_MAXSERV];
int status = getnameinfo(paddr, addr_len, host, NI_MAXHOST, service, NI_MAXSERV, NI_NUMERICSERV);
if (status != 0) {
cm_msg(MERROR, "read_udp", "getnameinfo() returned %d (%s), errno %d (%s)", status, gai_strerror(status), errno, strerror(errno));
return -1;
}
char bankname[NAME_LENGTH];
int size = sizeof(bankname);
status = db_get_value(hDB, hKeySet, host, bankname, &size, TID_STRING, FALSE);
if (status == DB_NO_KEY) {
cm_msg(MERROR, "read_udp", "UDP packet from unknown host \"%s\"", host);
cm_msg(MINFO, "read_udp", "Register this host by running following commands:");
cm_msg(MINFO, "read_udp", "odbedit -c \"create STRING /Equipment/%s%02i/Settings/%s\"", EQ_NAME, get_frontend_index(), host);
cm_msg(MINFO, "read_udp", "odbedit -c \"set /Equipment/%s%02i/Settings/%s AAAA\", where AAAA is the MIDAS bank name for this host", EQ_NAME, get_frontend_index(), host);
return -1;
} else if (status != DB_SUCCESS) {
cm_msg(MERROR, "read_udp", "db_get_value(\"/Equipment/%s%02i/Settings/%s\") status %d", EQ_NAME, get_frontend_index(), host, status);
return -1;
}
if (strlen(bankname) != 4) {
cm_msg(MERROR, "read_udp", "ODB \"/Equipment/%s/Settings/%s\" should be set to a 4 character MIDAS bank name", EQ_NAME, host);
cm_msg(MINFO, "read_udp", "Use this command:");
cm_msg(MINFO, "read_udp", "odbedit -c \"set /Equipment/%s/Settings/%s AAAA\", where AAAA is the MIDAS bank name for this host", EQ_NAME, host);
return -1;
}
cm_msg(MINFO, "read_udp", "UDP packets from host \"%s\" will be stored in bank \"%s\"", host, bankname);
src->host_name = host;
strlcpy(src->bank_name, bankname, 5);
memcpy(&src->addr, paddr, sizeof(src->addr));
return 0;
}
int read_udp(int socket, char* buf, int bufsize, char* pbankname)
{
if (wait_udp(socket, 100) < 1)
return 0;
#if 0
static int count = 0;
static double tt = 0;
double t = GetTimeSec();
double dt = (t-tt)*1e6;
count++;
if (dt > 1000) {
printf("read_udp: %5d %6.0f usec\n", count, dt);
count = 0;
}
tt = t;
#endif
struct sockaddr addr;
socklen_t addr_len = sizeof(addr);
int rd = recvfrom(socket, buf, bufsize, 0, &addr, &addr_len);
if (rd < 0) {
cm_msg(MERROR, "read_udp", "recvfrom() returned %d, errno %d (%s)", rd, errno, strerror(errno));
return -1;
}
for (unsigned i=0; i<gSrc.size(); i++) {
if (addr_match(&gSrc[i], &addr, addr_len)) {
strlcpy(pbankname, gSrc[i].bank_name, 5);
//printf("rd %d, bank [%s]\n", rd, pbankname);
return rd;
}
}
if (gSkipUnknownPackets)
return -1;
Source sss;
int status = find_source(&sss, &addr, addr_len);
if (status < 0) {
gUnknownPacketCount++;
if (gUnknownPacketCount > 10) {
gSkipUnknownPackets = true;
cm_msg(MERROR, "read_udp", "further messages are now suppressed...");
return -1;
}
return -1;
}
gSrc.push_back(sss);
strlcpy(pbankname, sss.bank_name, 5);
return rd;
}
int interrupt_configure(INT cmd, INT source, PTYPE adr)
{
return SUCCESS;
}
int frontend_init()
{
int status;
status = cm_get_experiment_database(&hDB, NULL);
if (status != CM_SUCCESS) {
cm_msg(MERROR, "frontend_init", "Cannot connect to ODB, cm_get_experiment_database() returned %d", status);
return FE_ERR_ODB;
}
char eq_dir[200];
sprintf(eq_dir,"/Equipment/%s%02i/Settings",EQ_NAME,get_frontend_index());
std::string path (eq_dir);
// path += "/Equipment";
//path += "/";
//path += EQ_NAME;
//path += "/Settings";
std::string path1 = path + "/udp_port";
int udp_port = 1500;
int size = sizeof(udp_port);
status = db_get_value(hDB, 0, path1.c_str(), &udp_port, &size, TID_INT, TRUE);
if (status != DB_SUCCESS) {
cm_msg(MERROR, "frontend_init", "Cannot find \"%s\", db_get_value() returned %d", path1.c_str(), status);
return FE_ERR_ODB;
}
status = db_find_key(hDB, 0, path.c_str(), &hKeySet);
if (status != DB_SUCCESS) {
cm_msg(MERROR, "frontend_init", "Cannot find \"%s\", db_find_key() returned %d", path.c_str(), status);
return FE_ERR_ODB;
}
gDataSocket = open_udp_socket(udp_port);
if (gDataSocket < 0) {
printf("frontend_init: cannot open udp socket\n");
cm_msg(MERROR, "frontend_init", "Cannot open UDP socket for port %d", udp_port);
return FE_ERR_HW;
}
// Initialize the counters and structure needed for combining data packets.
// Assume we have only two boards for now.
event_datas["BRB0"] = std::vector< std::pair<int, std::vector<uint16_t> > >();
event_datas["BRB1"] = std::vector< std::pair<int, std::vector<uint16_t> > >();
fLastTriggerCount["BRB0"] = 0;
fLastTriggerCount["BRB1"] = 0;
fGotFirstPackets["BRB0"] = false;
fGotFirstPackets["BRB1"] = false;
fBadEventCounts["BRB0"] = 0;
fBadEventCounts["BRB1"] = 0;
nUDPpackets["BRB0"] = 0;
nUDPpackets["BRB1"] = 0;
cm_msg(MINFO, "frontend_init", "Frontend equipment \"%s\" is ready, listening on UDP port %d", EQ_NAME, udp_port);
return SUCCESS;
}
int frontend_loop()
{
ss_sleep(10);
return SUCCESS;
}
int begin_of_run(int run_number, char *error)
{
gUnknownPacketCount = 0;
gSkipUnknownPackets = false;
fBadEvents = 0;
event_data.clear();
fLastFrameID = 0;
fGotFirstPacket = false;
// Initialize the counters and structure needed for combining data packets.
// Assume we have only two boards for now.
event_datas["BRB0"].clear();
event_datas["BRB1"].clear();
fLastTriggerCount["BRB0"] = 0;
fLastTriggerCount["BRB1"] = 0;
fGotFirstPackets["BRB0"] = false;
fGotFirstPackets["BRB1"] = false;
fBadEventCounts["BRB0"] = 0;
fBadEventCounts["BRB1"] = 0;
nUDPpackets["BRB0"] = 0;
nUDPpackets["BRB1"] = 0;
return SUCCESS;
}
int end_of_run(int run_number, char *error)
{
if(fBadEventCounts["BRB0"] > 0){
cm_msg(MERROR, "end_of_run", "There was at least %i suppressed events with missing UDP packets for BRB0 in this run.",fBadEventCounts["BRB0"]);
}
if(fBadEventCounts["BRB1"] > 0){
cm_msg(MERROR, "end_of_run", "There was at least %i suppressed events with missing UDP packets for BRB1 in this run.",fBadEventCounts["BRB1"]);
}
fBadEventCounts["BRB0"] = 0;
fBadEventCounts["BRB1"] = 0;
event_data.clear();
fLastFrameID = 0;
fGotFirstPacket = false;
// Initialize the counters and structure needed for combining data packets.
// Assume we have only two boards for now.
event_datas["BRB0"].clear();
event_datas["BRB1"].clear();
fLastTriggerCount["BRB0"] = 0;
fLastTriggerCount["BRB1"] = 0;
fGotFirstPackets["BRB0"] = false;
fGotFirstPackets["BRB1"] = false;
fBadEventCounts["BRB0"] = 0;
fBadEventCounts["BRB1"] = 0;
return SUCCESS;
}
int pause_run(INT run_number, char *error)
{
return SUCCESS;
}
int resume_run(INT run_number, char *error)
{
return SUCCESS;
}
int frontend_exit()
{
return SUCCESS;
}
INT poll_event(INT source, INT count, BOOL test)
{
//printf("poll_event: source %d, count %d, test %d\n", source, count, test);
if (test) {
for (int i=0; i<count; i++)
ss_sleep(10);
return 1;
}
return 1;
}
#define MAX_UDP_SIZE (0x10000)
std::vector<int> packet_list;
int read_event(char *pevent, int off)
{
char buf[MAX_UDP_SIZE];
char bankname[5];
int length = read_udp(gDataSocket, buf, MAX_UDP_SIZE, bankname);
if (length <= 0)
return 0;
std::string bname(bankname);
// Check the frame ID
//printf("Got packet! %i\n",length);
//Just throw out the short packets
// if(length < 100) return 0;
if(length < 50) std::cerr << "Error packet too short!!! " << length << std::endl;
uint16_t *data = (uint16_t*)buf;
int packetID = (((data[2] & 0xff00)>>8) | ((data[2] & 0xff)<<8));
int frameID = (((data[4] & 0xff00)>>8) | ((data[4] & 0xff)<<8));
int triggerCount = (((data[10] & 0xff00)>>8) | ((data[10] & 0xff)<<8));
int adc = (((data[19] & 0xff00)>>8) | ((data[19] & 0xff)<<8));
adc = (adc>>8);
// Temp hack for lack of consistent frameIDs
packetID = packetID + (adc*8);
if(0)std::cout << "packet has frameID: " << frameID
<< " packetID: " << packetID << " for ADC " << adc
<< " triggerCount = " << triggerCount
<< " with length: " << length << std::endl;
if(length < 100 && 0){
printf("Trailer: ");
for(int i = 0; i < length/2; i++){
uint16_t tmp = (((data[i] & 0xff00)>>8) | ((data[i] & 0xff)<<8));
printf("%5i ",tmp);
//if(i%4==3) std::cout << std::endl;
}
printf("\n");
}
bool saveEvent = false;
if(triggerCount != fLastTriggerCount[bname] && fGotFirstPackets[bname]){
if(0) std::cout << "Frame IDs differ ("<<triggerCount <<"/" << fLastTriggerCount[bname]
<< "): saving last event." << std::endl;
//if(nUDPpackets[bname]%4 != 1){ // The number of packets should be 1 + multiple of 4. Don't save if not the right number of packets
bool bad_event = false;
if(nUDPpackets[bname]%1 != 0) bad_event = true; // check if number of packets is divisible by 8.
// Check that each set of eight packets are sequential
if(!bad_event){
int nadcs = nUDPpackets[bname] / 1;
for(int tadc = 0; tadc < nadcs; tadc++){
int initial_number = event_datas[bname][tadc*8].first;
for (int i = 1; i < 1; i++){
int this_number = initial_number + i;
if(this_number != event_datas[bname][tadc*8+i].first) bad_event = true;
}
}
if(bad_event){
std::cout << "Not sequential. packet has IDs: " ;
for(int i = 0; i < event_datas[bname].size(); i++){
std::cout << event_datas[bname][i].first << " ";
}
std::cout << std::endl;
std::cout << "original packet sequence: " ;
for(int i = 0; i < packet_list.size(); i++){
std::cout << packet_list[i] << " " ;
}
std::cout << std::endl;
}
}
if(bad_event){
if(1){
std::cout << "Failure! Number of packets: " << nUDPpackets[bname] << " for bank " << bname << std::endl;
std::cout << "npackets: " << nUDPpackets[std::string("BRB0")] << " " << nUDPpackets[std::string("BRB1")] << std::endl;
std::cout << "frameIDs: " << triggerCount << " " << fLastTriggerCount[std::string("BRB0")] << " " << fLastTriggerCount[std::string("BRB1")] << std::endl;
}
nUDPpackets[bname] = 0;
for(int i = 0; i < event_datas[bname].size(); i++){
event_datas[bname][i].second.clear();
}
event_datas[bname].clear();
fBadEventCounts[bname]++;
}else{
nUDPpackets[bname] = 0;
if(1)std::cout << "Saving " << event_datas[bname].size() << " packets." << std::endl;
//printf("%4i %4i %4i %4i\n",(event_data[21]>>4),(event_data[22]>>4),(event_data[23]>>4),(event_data[24]>>4));
//printf("%4i %4i %4i %4i\n",(event_data[554]>>4),(event_data[555]>>4),(event_data[556]>>4),(event_data[557]>>4));
//printf("%4i %4i %4i %4i\n",(event_data[1087]>>4),(event_data[1088]>>4),(event_data[1089]>>4),(event_data[1090]>>4));
//printf("%4i %4i %4i %4i\n",(event_data[1620]>>4),(event_data[1621]>>4),(event_data[1622]>>4),(event_data[1623]>>4));
saveEvent = true;
bk_init32(pevent);
uint16_t* pdata;
bk_create(pevent, bankname, TID_WORD, (void**)&pdata);
bool printy = true;
if(printy) std::cout << "adc packet has IDs: " ;
// Add the ADC packets first
for(int i = 0; i < event_datas[bname].size(); i++){
//std::cout << "size: " << event_datas[bname][i].second.size() << std::endl;
if(event_datas[bname][i].second.size() < 100) continue;
if(printy) std::cout << event_datas[bname][i].first << " ";
for(int j = 0; j < event_datas[bname][i].second.size(); j++){
*pdata++ = event_datas[bname][i].second[j];
}
}
// Next add a single trailer packet
bool added_trailer = false;
if(printy) std::cout << " trailer packet has ID: ";
for(int i = 0; i < event_datas[bname].size(); i++){
if(added_trailer) continue;
if(event_datas[bname][i].second.size() > 100) continue;
if(printy) std::cout << event_datas[bname][i].first << " ";
for(int j = 0; j < event_datas[bname][i].second.size(); j++){
*pdata++ = event_datas[bname][i].second[j];
}
added_trailer = true;
}
if(printy)std::cout << std::endl;
bk_close(pevent, pdata);
// std::cout << "Event size: " << bk_size(pevent) << std::endl;
nUDPpackets[bname] = 0;
for(int i = 0; i < event_datas[bname].size(); i++){
event_datas[bname][i].second.clear();
}
event_datas[bname].clear();
}
packet_list.clear();
}
// save the data in overall packet. Endian flip
// reorder the packets based on packet ID
std::pair<int, std::vector<uint16_t> > this_data;
this_data.first = packetID;
this_data.second = std::vector<uint16_t>();
int nwords = length/2;
// save the data in overall packet. Endian flip
bool want_short = false;
if(want_short){ if(nwords > 221) nwords = 221; } // Only save 221 words; 21 header words and 50 ADC samples for 4 channels
for(int i = 0; i < nwords; i++){
uint16_t tmp = (((data[i] & 0xff00)>>8) | ((data[i] & 0xff)<<8));
// event_datas[bname].push_back(tmp);
this_data.second.push_back(tmp);
}
packet_list.push_back(packetID);
// Figure out where to insert this packet
if(event_datas[bname].size() == 0){
event_datas[bname].push_back(this_data);
//}else if(event_datas[bname].size() == 1 && packetID < event_datas[bname][0].first){
}else if(packetID < event_datas[bname][0].first){
event_datas[bname].insert(event_datas[bname].begin(), this_data);
}else{
// find the first element where the packet index is larger; insert before that.
int index = -1;
bool found = false;
for(unsigned int i = 0; i < event_datas[bname].size(); i++){
if(found) continue;
if(packetID > event_datas[bname][i].first){
index = i;
}else{
found = true;
}
}
if(index == -1){
event_datas[bname].push_back(this_data);
}else{
event_datas[bname].insert(event_datas[bname].begin() + index+1, this_data);
}
}
nUDPpackets[bname]++;
fLastTriggerCount[bname] = triggerCount;
fGotFirstPackets[bname] = true;
if(!saveEvent) return 0;
return bk_size(pevent);
}
/* emacs
* Local Variables:
* tab-width: 8
* c-basic-offset: 3
* indent-tabs-mode: nil
* End:
*/