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#include "easiroc.h"
static const int SiTCP_PORT
= 24;
SOCKET sock
;
unsigned int slowdata
[sizeByte_SC
];
unsigned int ReadSCdata
[sizeByte_RSC
];
unsigned int Probedata
[sizeByte_PSC
];
unsigned int Pindata
[sizeByte_PIN
];
unsigned int Probedata
[sizeByte_PSC
];
int ForceStop
= 0;
int EndADC
= 0;
#include <windows.h>
void usleep
(__int64 usec
)
{
HANDLE timer
;
LARGE_INTEGER ft
;
ft.
QuadPart = -(10*usec
); // Convert to 100 nanosecond interval, negative value indicates relative time
timer
= CreateWaitableTimer
(NULL
, TRUE
, NULL
);
SetWaitableTimer
(timer
, &ft
, 0, NULL
, NULL
, 0);
WaitForSingleObject
(timer
, INFINITE
);
CloseHandle
(timer
);
}
//------------------------------------------------------------------------------------------------------
int easiroc_Init
(const char* SiTCP_MASTER_IP
, unsigned int daq_mode
)
{
// Start WinSock
printf("easiroc_Init --> Start.\n");
WORD wVersionRequested
;
WSADATA wsaData
;
if (WSAStartup
(MAKEWORD
(2, 2), &wsaData
) != 0) {
printf("WSAStartup failed with error!\n");
}
//Initialize -------------------------------------------------------------
sock
= INVALID_SOCKET
;
struct sockaddr_in SiTCP_ADDR
;
const char* IP
;
unsigned int port
;
sock
= socket
(AF_INET
, SOCK_STREAM
, IPPROTO_TCP
);
if(sock
== INVALID_SOCKET
) {
printf("Error: easiroc_Init::sock = %d\n", sock
);
return -1;
}
IP
= SiTCP_MASTER_IP
;
port
= SiTCP_PORT
;
SiTCP_ADDR.
sin_family = AF_INET
;
SiTCP_ADDR.
sin_port = htons
(port
);
SiTCP_ADDR.
sin_addr.
s_addr = inet_addr
(IP
);
struct timeval tv
;
tv.
tv_sec = 3;
tv.
tv_usec = 0;
setsockopt
(sock
, SOL_SOCKET
, SO_RCVTIMEO
, (char*)&tv
, sizeof(tv
));
int flag
= 1;
setsockopt
(sock
, IPPROTO_TCP
, TCP_NODELAY
, (char*)&flag
, sizeof(flag
));
//Connection -------------------------------------------------------------
int con
= connect
(sock
, (struct sockaddr
*)&SiTCP_ADDR
, sizeof(SiTCP_ADDR
));
printf("easiroc_Init::connect = %d\n", con
);
if(0 > con
){
printf("SiTCP Master :: Connection fail\n");
closesocket
(sock
);
return -1;
}
printf("SiTCP Master :: Connection Done\n\n");
// Auto Initialize -------------------------------------------------------
PrepareFPGA
();
DebugFPGA
(sock
);
printf("\nASIS Initialize : Done\n\n");
//Sleep(1000);
WriteData
(sock
, 37888);
PrepareSC
(1);
TransmitSC
(sock
);
printf("\nSlow Control chip1 : Done\n\n");
PrepareReadSC
(1);
TransmitReadSC
(sock
);
printf("\nRead Slow Control chip1 : Done\n\n");
WriteData
(sock
, 21504);
PrepareSC
(2);
TransmitSC
(sock
);
printf("\nSlow Control chip2 : Done\n\n");
PrepareReadSC
(2);
TransmitReadSC
(sock
);
printf("\nRead Slow Control chip2: Done\n\n");
WriteData
(sock
, 5120);
{
unsigned int signal
= 31;
signal
= signal
<< 16;
unsigned int data
= daq_mode
;
data
= data
<< 8;
signal
+= data
;
if(-1 == WriteData
(sock
, signal
)){
return -1;
}
printf("\n#D : DAQ mode is %d \n", daq_mode
);
}
return 0;
}
//------------------------------------------------------------------------------------------------------
void easiroc_Close
()
{
closesocket
(sock
);
WSACleanup
();
printf("easiroc_Close -> Done.\n");
}
//------------------------------------------------------------------------------------------------------
int WriteData
(SOCKET sock
, unsigned int data
)
{
int esrcdbg
= 0;
data
+= 128 << 24;;
if(esrcdbg
) printf("0x%X\n", data
);
send
(sock
, (char*)&data
, sizeof(int), 0);
// this sleep is needed!
Sleep
(WRITEDATA_DELAY
);
unsigned int buf
= 0;
unsigned int length
= 4;
int ret
= recv
(sock
, (char*)&buf
, length
, 0);
if ( ret
> 0 ) {
if(esrcdbg
) printf("Bytes received: %d\n", ret
);
else printf(".");
} else if ( ret
== 0 ) {
printf("Connection closed\n");
return -1;
} else {
printf("recv failed: %d\n", WSAGetLastError
());
return -1;
}
return 0;
}
//------------------------------------------------------------------------------------------------------
void PrepareFPGA
()
{
Pindata
[0] = 20;
Pindata
[1] = 65776;
}
//------------------------------------------------------------------------------------------------------
void PrepareSC
(int chipNo
)
{
if(chipNo
== 1) {
slowdata
[0] = 192;
slowdata
[1] = 1720319;
slowdata
[2] = 4253040640;
slowdata
[3] = 413;
slowdata
[4] = 0;
slowdata
[5] = 3739423232;
slowdata
[6] = 4294967295;
slowdata
[7] = 4294967295;
slowdata
[8] = 4294967295;
slowdata
[9] = 4294967295;
slowdata
[10] = 4294967295;
slowdata
[11] = 4294967295;
slowdata
[12] = 4294967295;
slowdata
[13] = 4294967295;
slowdata
[14] = 4294967295;
} else {
slowdata
[0] = 192;
slowdata
[1] = 4292874239;
slowdata
[2] = 4257218559;
slowdata
[3] = 478;
slowdata
[4] = 0;
slowdata
[5] = 3740340736;
slowdata
[6] = 1175693740;
slowdata
[7] = 2815957775;
slowdata
[8] = 766945147;
slowdata
[9] = 1504433946;
slowdata
[10] = 2729016485;
slowdata
[11] = 3412554245;
slowdata
[12] = 2725848728;
slowdata
[13] = 2267165112;
slowdata
[14] = 4291041547;
}
}
//------------------------------------------------------------------------------------------------------
void PrepareReadSC
(int chipNo
)
{
if(chipNo
== 1) {
ReadSCdata
[0] = 0;
} else {
ReadSCdata
[0] = 1;
}
}
//------------------------------------------------------------------------------------------------------
int DebugFPGA
(SOCKET socket
)
{
unsigned int buffer
= 0;
buffer
+= 0 << 16;
buffer
+= (Pindata
[0] & 255) << 8;
if(-1 == WriteData
(socket
, buffer
)){
return -1;
}
for(int i
= 1 ; i
<5; ++i
){
buffer
= 0;
if(i
== 4){
buffer
+= 5 << 16;
}else{
buffer
+= i
<< 16;
}
buffer
+= ((Pindata
[1] >> (i
-1)*8) & 255) << 8;
if(-1 == WriteData
(socket
, buffer
)){
return -1;
}
Sleep
(1);
}
return 0;
}
//------------------------------------------------------------------------------------------------------
int TransmitSC
(SOCKET socket
)
{
unsigned int data
= 0;
//Set SC mode -----------------------------------------------------------
data
= 0;
data
+= 1 << 16;
data
+= 240 << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
//SC start -------------------------------------------------------------
data
= 0;
data
+= 10 << 16;
data
+= (slowdata
[0] & 255) << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
for(int i
= 1; i
<15; ++i
){
for(int shift
= 0; shift
<4; ++shift
){
data
= 0;
data
+= 10 << 16;
data
+= ((slowdata
[i
] >> 8*shift
) & 255) << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
//std::cout<<"test"<<std::endl;
Sleep
(1);
}
}
// Sleep(50000);
//StartCycle -----------------------------------------------------------
data
= 0;
data
+= 1 << 16;
data
+= 242 << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
data
= 0;
data
+= 1 << 16;
data
+= 240 << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
// Sleep(50000);
//Load SC --------------------------------------------------------------
data
= 0;
data
+= 1 << 16;
data
+= 241 << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
data
= 0;
data
+= 1 << 16;
data
+= 240 << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
return 0;
}
//------------------------------------------------------------------------------------------------------
int TransmitReadSC
(SOCKET socket
)
{
//SCA read ---------------------------------------------------------------
unsigned int data
= 0;
for(int i
= 0; i
<4; ++i
){
data
= 0;
data
+= 12 << 16;
data
+= ((ReadSCdata
[0] >> i
*8) & 255) << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
Sleep
(1);
}
//StartCycle ------------------------------------------------------------
data
= 0;
data
+= 1 << 16;
data
+= 242 << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
data
= 0;
data
+= 1 << 16;
data
+= 240 << 8;
if(-1 == WriteData
(socket
, data
)){
return -1;
}
return 0;
}
//------------------------------------------------------------------------------------------------------
int PreparePSC
(int CurrentCh
, int CurrentProbeType
)
{
enum Asign
{fs_all
, ssh_16
, ssh_0
, pa_16
, pa_0
, sizeAsign
};
enum DataName
{fs
, ssh_hg
, ssh_lg
, pa_hg
, pa_lg
, sizeDataName
};
enum DataName CurrentProbe
;
CurrentProbe
= fs
;
static unsigned int ProbeBuffer
= 0;
int flag_rst
= 0;
int flag_input
= 1;
for(int i
= 0; i
<sizeByte_PSC
; ++i
){
Probedata
[i
] = 0;
}
switch(CurrentProbeType
){
case '1':
CurrentProbe
= pa_hg
;
break;
case '2':
CurrentProbe
= pa_lg
;
break;
case '3':
CurrentProbe
= ssh_hg
;
break;
case '4':
CurrentProbe
= ssh_lg
;
break;
case '5':
CurrentProbe
= fs
;
break;
case '6':
break;
case '7':
break;
case '8':
flag_rst
= 1;
CurrentCh
= 0;
ProbeBuffer
= 0;
CurrentProbe
= fs
;
break;
default:
break;
};
if(flag_rst
) {
return 0;
}
if(flag_input
) {
ProbeBuffer
= 1 << (31 - CurrentCh
);
}
unsigned int buffer_16
= ProbeBuffer
*ProbeBuffer
;
unsigned int buffer_0
= (ProbeBuffer
>> 16)*(ProbeBuffer
>> 16);
if(CurrentProbe
== ssh_hg
|| CurrentProbe
== pa_hg
) {
buffer_16
= buffer_16
<< 1;
buffer_0
= buffer_0
<< 1;
}
if(CurrentProbe
== fs
) {
Probedata
[fs_all
] = ProbeBuffer
;
} else if(CurrentProbe
== ssh_hg
|| CurrentProbe
== ssh_lg
) {
if(CurrentCh
> 15) {
Probedata
[ssh_16
] = buffer_16
;
} else {
Probedata
[ssh_0
] = buffer_0
;
}
} else if(CurrentProbe
== pa_hg
|| CurrentProbe
== pa_lg
) {
if(CurrentCh
> 15){
Probedata
[pa_16
] = buffer_16
;
}else{
Probedata
[pa_0
] = buffer_0
;
}
} else {
printf("bug desu\n");
}
for(int shift
= 0; shift
<32; ++shift
) {
if(((Probedata
[fs_all
]) >> shift
) & 1) {
printf("!");
}else{
printf(".");
}
}
printf("\n");
for(int index
= ssh_16
; index
<= ssh_0
; ++index
) {
for(int shift
= 0; shift
<32; ++shift
) {
if(((Probedata
[index
]) >> shift
) & 1) {
printf("!");
} else {
printf(".");
}
}
}
printf("\n");
for(int index
= pa_16
; index
<= pa_0
; ++index
) {
for(int shift
= 0; shift
<32; ++shift
) {
if(((Probedata
[index
]) >> shift
) & 1) {
printf("!");
}else{
printf(".");
}
}
}
printf("\n");
return 0;
}
//------------------------------------------------------------------------------------------------------
int TransmitProbe
(SOCKET socket
)
{
unsigned int data
= 0;
//Set Probe mode --------------------------------------------------------
data
+= 1 << 16;
data
+= 208 << 8;
if(-1 == WriteData
(socket
, data
)) {
return -1;
}
//Probe start ----------------------------------------------------------
for(int i
= 0; i
<sizeByte_PSC
; ++i
) {
for(int shift
= 0; shift
<4; ++shift
) {
data
= 0;
data
+= 10 << 16;
data
+= ((Probedata
[i
] >> 8*shift
) & 255) << 8;
if(-1 == WriteData
(socket
, data
)) {
return -1;
}
}
}
//StartCycle ------------------------------------------------------------
data
= 0;
data
+= 1 << 16;
data
+= 210 << 8;
if(-1 == WriteData
(socket
, data
)) {
return -1;
}
data
= 0;
data
+= 1 << 16;
data
+= 208 << 8;
if(-1 == WriteData
(socket
, data
)) {
return -1;
}
return 0;
}
//------------------------------------------------------------------------------------------------------
int easiroc_fTransmitSC
()
{
if(WriteData
(sock
, 37888) != 0) return -1;
PrepareSC
(1);
if(TransmitSC
(sock
) != 0) return -1;
printf("\nSlow Control chip1 : Done\n\n");
if(WriteData
(sock
, 21504) != 0) return -1;
PrepareSC
(2);
if(TransmitSC
(sock
) != 0) return -1;
printf("\nSlow Control chip2 : Done\n\n");
if(WriteData
(sock
, 5120) != 0) return -1;
return 0;
}
//------------------------------------------------------------------------------------------------------
int easiroc_fTransmitReadSC
()
{
if(WriteData
(sock
, 37888) != 0) return -1;
PrepareReadSC
(1);
if(TransmitReadSC
(sock
) != 0) return -1;
printf("\nRead Slow Control chip1 : Done\n\n");
if(WriteData
(sock
, 21504) != 0) return -1;
PrepareReadSC
(2);
if(TransmitReadSC
(sock
) != 0) return -1;
printf("\nRead Slow Control chip2 : Done\n\n");
if(WriteData
(sock
, 5120) != 0) return -1;
return 0;
}
//------------------------------------------------------------------------------------------------------
int easiroc_fAsicInitialize
()
{
PrepareFPGA
();
DebugFPGA
(sock
);
printf("\nASIS Initialize : Done\n\n");
return 0;
}
//------------------------------------------------------------------------------------------------------
int easiroc_fTransmitProbe
(int CurrentCh
, int CurrentProbe
)
{
//printf("\neasiroc_fTransmitProbe: CurrentCh : %d | CurrentProbe: %d\n\n", CurrentCh, CurrentProbe);
if(CurrentCh
< 32) {
if(WriteData
(sock
, 37888)!= 0) return -1;
} else if(CurrentCh
> 31) {
if(WriteData
(sock
, 21504)!= 0) return -1;
CurrentCh
= CurrentCh
- 32;
}
//printf("\neasiroc_fTransmitProbe: Preparing PSC\n\n");
if(PreparePSC
(CurrentCh
, CurrentProbe
)!= 0) {
printf("\neasiroc_fTransmitProbe: PreparingPSC ERROR !!!!!!!!!!!!!!!!!!!\n\n");
return -1;
}
//printf("\neasiroc_fTransmitProbe: TransmitProbe\n\n");
if(TransmitProbe
(sock
)!= 0) {
printf("\neasiroc_fTransmitProbe: TransmitProbe ERROR !!!!!!!!!!!!!!!!!!!\n\n");
return -1;
}
//WriteData(3, 5120);
//printf("\nTransmitProbe: Success!\n\n");
return 0;
}
//------------------------------------------------------------------------------------------------------
int ADCOneCycle_wHeader_ver2
(SOCKET socket
, FILE
* file
)
{
static const int NofHeader
= 3;
unsigned int DataBuffer
[1000];
memset(DataBuffer
, 0, sizeof(DataBuffer
));
unsigned int *ptr_DataBuf
= DataBuffer
;
unsigned int TotalRecvByte
= 0;
unsigned int TotalRecvEvent
= 0;
unsigned int sizeHeader
= NofHeader
*sizeof(int);
unsigned int Header
[] = {1, 1, 1};
int ret
= 0;
ret
= recv
(sock
, (char*)Header
, sizeHeader
, 0);
if(ret
<= 0 && EndADC
== 1) {
if(EndADC
!= 0) printf("Fatal ADC ERROR : recv\n");
return -1;
}
// sleep necessary! ERRORS happen if trigger rate lower than ~ sleep frequency!
usleep
(200);
//Sleep(1);
//printf("Header1 (0xFFFFEA0C) : 0x%x | Header2 (0x00000100) : 0x%x\n", Header[0], Header[1]);
if(Header
[0] != 0xFFFFEA0C) {
printf("Fatal ADC ERROR : HEADER\n");
printf("Header1 : 0x%x | Header2 : 0x%x | Header3 : 0x%x\n", Header
[0], Header
[1], Header
[2]);
return -1;
} else {
unsigned int sizeData
= (sizeof(int)*Header
[1] & 0xffff);
unsigned int NofWord
= (Header
[1] & 0xffff);
unsigned int OneData
[NofWord
];
recv
(socket
, (char*)OneData
, sizeData
, 0);
// for(int i = 0; i<NofWord; ++i){ std::cout << std::hex << OneData[i] << std::endl; }
memcpy(ptr_DataBuf
, Header
, sizeHeader
);
ptr_DataBuf
+= NofHeader
;
memcpy(ptr_DataBuf
, OneData
, sizeData
);
ptr_DataBuf
+= sizeData
/sizeof(int);
TotalRecvByte
+= sizeHeader
+ sizeData
;
++TotalRecvEvent
;
}
if(EndADC
!= 1){
for(unsigned int i
= 0; i
<TotalRecvByte
/sizeof(int); ++i
) {
unsigned int buffer
= DataBuffer
[i
];
fwrite((char*)&buffer
, sizeof(int), 1, file
);
}
}
return 0;
}
//------------------------------------------------------------------------------------------------------
void ADCStop
(SOCKET socket
)
{
unsigned int signal
= 0;
printf("ADC exit process\n");
signal
+= 16 << 24;
signal
+= 100 << 16;
send
(socket
, (char*)&signal
, sizeof(int), 0);
Sleep
(1);
signal
= 0;
signal
+= 100 << 16;
send
(socket
, (char*)&signal
, sizeof(int), 0);
Sleep
(10);
return;
}
//------------------------------------------------------------------------------------------------------
int ContinuousADC_ver2
(SOCKET socket
, char *file_name
, int MaxCycleNum
)
{
unsigned int signal
= 0;
int EventNum
= 0;
FILE
*file
= NULL
;
file
= fopen(file_name
, "wb");
if(file
==NULL
) {
printf("ContinuousADC_ver2: ERROR opneing file %s\n", file_name
);
return -1;
}
signal
+= 32 << 24;
signal
+= 100 << 16;
send
(socket
, (char*)&signal
, sizeof(int), 0);
Sleep
(100);
while(EventNum
< MaxCycleNum
){
//Sleep(10);
ADCOneCycle_wHeader_ver2
(socket
, file
);
++EventNum
;
if(0 == EventNum
%1000){
printf("Event # %d\n", EventNum
);
}
if(0 || EventNum
== MaxCycleNum
|| ForceStop
== 1) {
ADCStop
(socket
);
EndADC
= 1;
int abort = 0;
while(0 == ADCOneCycle_wHeader_ver2
(socket
, file
)) {
Sleep
(1);
if(abort == 50) {
ADCStop
(socket
);
abort = 0;
}
//printf("dummy data\n");
printf(".");
++abort;
}
EndADC
= 0;
ForceStop
= 0;
break;
}
}
printf("\nEnd ADC\n");
fclose(file
);
return 0;
}
//------------------------------------------------------------------------------------------------------
int easiroc_fDAQ
(char *file_name
, int MaxCycleNum
)
{
printf("easiroc_fDAQ: Starting DAQ with file_name = %s | MaxCycleNum = %d\n", file_name
, MaxCycleNum
);
if(ContinuousADC_ver2
(sock
, file_name
, MaxCycleNum
) != 0) return -1;
return 0;
}