(* Test and demo program for Libnodave, a free communication libray for Siemens S7. ********************************************************************** * WARNING: This and other test programs overwrite data in your PLC. * * DO NOT use it on PLC's when anything is connected to their outputs.* * This is alpha software. Use entirely on your own risk. * ********************************************************************** (C) Thomas Hergenhahn (thomas.hergenhahn@web.de) 2002, 2003. This is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Libnodave; see the file COPYING. If not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. *) uses nodave, tests {$ifdef WIN32} , windows {$endif} {$ifdef LINUX} ,oldlinux {$define UNIX_STYLE} {$endif} ; {$ifdef CYGWIN} {$define UNIX_STYLE} {$endif} procedure usage; begin writeln('Usage: testPPI [-d] [-w] serial port.'); writeln('-w will try to write to Flag words. It will overwrite FB0 to FB15 (MB0 to MB15) !'); writeln('-d will produce a lot of debug messages.'); writeln('-b will run benchmarks. Specify -b and -w to run write benchmarks.'); writeln('-m will run a test for multiple variable reads.'); writeln('-c will write 0 to the PLC memory used in write tests.'); writeln('-s will put the CPU in STOP mode.'); writeln('-r will put the CPU in RUN mode.'); writeln('--mpi= will use number as the PPI adddres of the PLC. Default is 2.'); writeln('--ppi= will use number as the PPI adddres of the PLC. Default is 2.'); writeln('--local= will set the local PPI adddres to number. Default is 0.'); {$ifdef UNIX_STYLE} writeln('Example: testPPI -w /dev/ttyS0'); {$endif} {$ifdef WIN32} writeln('Example: testPPI -w COM1'); {$endif} end; var i, a,b,c,adrPos, doWrite, doBenchmark, doMultiple, doClear, doNewfunctions, doRun,doStop, res, saveDebug, plcMPI, localmpi: longint; d: single; di:pdaveInterface; dc:pdaveConnection; rs:daveResultSet; fds: _daveOSserialType; {$ifdef UNIX_STYLE} t1,t2:timeval; {$endif} {$ifdef WIN32} t1, t2:longint; {$endif} usec:double; p:PDU; pms:string; COMname: array[0..20] of char; begin USEC:=0; adrPos:=1; doWrite:=0; doBenchmark:=0; doMultiple:=0; doClear:=0; doNewfunctions:=0; doRun:=0; doStop:=0; plcMPI:=2; if (paramcount<1) then begin usage; halt(1); end; while (paramstr(adrPos)[1]='-') do begin if paramstr(adrPos)='-d' then begin (* daveDebug:=daveDebugAll; *) daveSetDebug(daveDebugAll); writeln('turning debug on'); end else if copy(paramstr(adrPos),1,6)='--mpi=' then begin val(copy(paramstr(adrPos),7,255),plcMPI,res); writeln('set PLC PPI adress to: ',plcMPI); end else if copy(paramstr(adrPos),1,6)='--ppi=' then begin val(copy(paramstr(adrPos),7,255),plcMPI,res); writeln('set PLC PPI adress to: ',plcMPI); end else if copy(paramstr(adrPos),1,8)='--local=' then begin val(copy(paramstr(adrPos),9,255),localMPI,res); writeln('setting local MPI adress to: ',localMPI); end else if paramstr(adrPos)='-w' then begin doWrite:=1; end else if paramstr(adrPos)='-b' then begin doBenchmark:=1; end else if paramstr(adrPos)='-m' then begin doMultiple:=1; end else if paramstr(adrPos)='-c' then begin doClear:=1; end else if paramstr(adrPos)='-n' then begin doNewfunctions:=1; end else if paramstr(adrPos)='-r' then begin doRun:=1; end else if paramstr(adrPos)='-s' then begin doStop:=1; end; adrPos:=adrPos+1; if (paramcount0) then begin di :=daveNewInterface(fds, 'IF1',localmpi, daveProtoPPI, daveSpeed187k); dc :=daveNewConnection(di,plcMPI,0,0); // insert your PPI address here (* // just try out what else might be readable in an S7-200 (on your own risk!): *) writeln('Trying to read 64 bytes (32 words) from data block 1. This is V memory of the 200.'); wait; res:=daveReadBytes(dc,daveDB,1,0,64,nil); if (res=0) then begin a:=daveGetU16(dc); writeln('VW0: ',a); a:=daveGetU16(dc); writeln('VW2: ',a); end; (* a:=daveGetU16at(dc,62); writeln('DB1:DW32: %d',a); *) writeln('Trying to read 16 bytes from FW0.'); wait; (* * Some comments about daveReadBytes(): * * The 200 family PLCs have the V area. This is accessed like a datablock with number 1. * This is not a quirk or convention introduced by libnodave, but the command transmitted * to the PLC is exactly the same that would read from DB1 of a 300 or 400. * * to read VD68 and VD72 use: * daveReadBytes(dc, daveDB, 1, 68, 6, nil); * to read VD68 and VD72 into your applications buffer appBuffer use: * daveReadBytes(dc, daveDB, 1, 68, 6, appBuffer); * to read VD68 and VD78 into your applications buffer appBuffer use: * daveReadBytes(dc, daveDB, 1, 68, 14, appBuffer); * this reads DBD68 and DBD78 and everything in between and fills the range * appBuffer+4 to appBuffer+9 with unwanted bytes, but is much faster than: * daveReadBytes(dc, daveDB, 1, 68, 4, appBuffer); * daveReadBytes(dc, daveDB, 1, 78, 4, appBuffer+4); *) res:=daveReadBytes(dc,daveFlags,0,0,16,nil); if (res=0) then begin (* * daveGetU32(dc); reads a word (2 bytes) from the current buffer position and increments * an internal pointer by 2, so next daveGetXXX() wil read from the new position behind that * word. *) a:=daveGetU32(dc); b:=daveGetU32(dc); c:=daveGetU32(dc); d:=daveGetFloat(dc); writeln('FD0: ',a); writeln('FD4: ',b); writeln('FD8: ',c); writeln('FD12:',d); (* d:=daveGetFloatAt(dc,12); writeln('FD12:',d); *) end; if(doNewfunctions<>0) then begin (* // saveDebug:=daveDebug; // daveDebug:=daveDebugAll; *) res:=daveReadBits(dc, daveInputs, 0, 2, 1,nil); writeln('function result:%d:=%s', res, daveStrerror(res)); // daveDebug:=0; res:=daveReadBits(dc, daveDB, 1, 1, 2,nil); writeln('function result:%d:=%s', res, daveStrerror(res)); res:=daveReadBits(dc, daveDB, 1, 1, 0,nil); writeln('function result:%d:=%s', res, daveStrerror(res)); res:=daveReadBits(dc, daveDB, 1, 1, 1,nil); writeln('function result:%d:=%s', res, daveStrerror(res)); a:=0; res:=daveWriteBytes(dc, daveOutputs, 0, 0, 1, @a); // daveDebug:=daveDebugAll; a:=1; res:=daveWriteBits(dc, daveOutputs, 0, 5, 1, @a); writeln('function result:', res,' = ', daveStrerror(res)); res:=daveReadBytes(dc, daveAnaOut, 0, 0, 1,nil); writeln('function result:%d:=%s', res, daveStrerror(res)); a:=2341; res:=daveWriteBytes(dc, daveAnaOut, 0, 0, 2,@a); writeln('function result:%d:=%s', res, daveStrerror(res)); // daveDebug:=saveDebug; end; if doRun<>0 then begin daveStart(dc); end; if doStop<>0 then begin daveStop(dc); end; if(doMultiple<>0) then begin writeln('Now testing read multiple variables.''This will read 1 Byte from inputs,''4 bytes from flags, 2 bytes from DB6'' and other 2 bytes from flags'); wait; davePrepareReadRequest(dc, @p); daveAddVarToReadRequest(@p,daveInputs,0,0,1); daveAddVarToReadRequest(@p,daveFlags,0,0,4); daveAddVarToReadRequest(@p,daveDB,6,20,2); daveAddVarToReadRequest(@p,daveSysInfo,0,0,24); daveAddVarToReadRequest(@p,daveFlags,0,12,2); daveAddVarToReadRequest(@p,daveAnaIn,0,0,2); daveAddVarToReadRequest(@p,daveAnaOut,0,0,2); res:=daveExecReadRequest(dc, @p, @rs); write('Input Byte 0: '); res:=daveUseResult(dc, @rs, 0); // first result if (res=0) then begin a:=daveGetU8(dc); writeln(a); end else writeln('*** Error: ',daveStrerror(res)); write('Flag DWord 0: '); res:=daveUseResult(dc, @rs, 1); // 2nd result if (res=0) then begin a:=daveGetS16(dc); writeln(a); end else writeln('*** Error: ',daveStrerror(res)); write('DB 6 Word 20 (not present in 200): '); res:=daveUseResult(dc, @rs, 2); // 3rd result if (res=0) then begin a:=daveGetS16(dc); writeln(a); end else writeln('*** Error: ',daveStrerror(res)); write('System Information: '); res:=daveUseResult(dc, @rs, 3); // 4th result if (res=0) then begin for i:=0 to 39 do begin a:=daveGetU8(dc); write(char(a)); end; writeln(''); end else writeln('*** Error: ',daveStrerror(res)); write('Flag Word 12: '); res:=daveUseResult(dc, @rs, 4); // 5th result if (res=0)then begin a:=daveGetU16(dc); writeln(a); end else writeln('*** Error: ',daveStrerror(res)); write('non existing result (we try to use 1 more than the number of items): '); res:=daveUseResult(dc, @rs, 4); // 5th result if (res=0)then begin a:=daveGetU16(dc); writeln(a); end else writeln('*** Error: %s',daveStrerror(res)); write('Analog Input Word 0:'); res:=daveUseResult(dc, @rs, 5); // 6th result if (res=0)then begin a:=daveGetU16(dc); writeln(a); end else writeln('*** Error: ',daveStrerror(res)); write('Analog Output Word 0:'); res:=daveUseResult(dc, @rs, 6); // 7th result if (res=0)then begin a:=daveGetU16(dc); writeln(a); end else writeln('*** Error: ',daveStrerror(res)); daveFreeResults(@rs); (* for (i:=0; ierror), r2->length); res:=daveUseResult(dc, @rs, i); if (r2->length>0) _daveDump('bytes',r2->bytes,r2->length); if (r2->bytes!:=nil) begin _daveDump('bytes',r2->bytes,r2->length); d:=daveGetFloat(dc); writeln('FD12: %f',d); end end *) end; if(doWrite>0) then begin writeln('Now we write back these data after incrementing the first to by 1,2 and 3 and the first two floats by 1.1.'); wait; (* Attention! you need to daveSwapIed little endian variables before using them as a buffer for daveWriteBytes() or before copying them into a buffer for daveWriteBytes()! *) a:=daveSwapIed_32(a+1); daveWriteBytes(dc,daveFlags,0,0,4,@a); b:=daveSwapIed_32(b+2); daveWriteBytes(dc,daveFlags,0,4,4,@b); c:=daveSwapIed_32(c+3); daveWriteBytes(dc,daveFlags,0,8,4,@c); d:=toPLCfloat(d+1.1); daveWriteBytes(dc,daveFlags,0,12,4,@d); daveReadBytes(dc,daveFlags,0,0,16,nil); a:=daveGetU32(dc); b:=daveGetU32(dc); c:=daveGetU32(dc); d:=daveGetFloat(dc); writeln('FD0: ',a); writeln('FD4: ',b); writeln('FD8: ',c); writeln('FD12:',d); end; {doWrite} if(doClear>0) then begin writeln('Now writing 0 to the bytes FB0...FB15.'); wait(); a:=0; daveWriteBytes(dc,daveFlags,0,0,4,@a); daveWriteBytes(dc,daveFlags,0,4,4,@a); daveWriteBytes(dc,daveFlags,0,8,4,@a); daveWriteBytes(dc,daveFlags,0,12,4,@a); daveReadBytes(dc,daveFlags,0,0,16,nil); a:=daveGetU32(dc); b:=daveGetU32(dc); c:=daveGetU32(dc); d:=daveGetFloat(dc); writeln('FD0: %d',a); writeln('FD4: %d',b); writeln('FD8: %d',c); writeln('FD12: %f',d); end; { doClear} if(doBenchmark>0) then begin readBench(dc); if(doWrite>0)then begin writeBench(dc); end; {// doWrite} end; { // doBenchmark} halt(0); end else begin writeln('Couldn''t open serial port ',paramstr(adrPos)); halt(2); end; end. (* Changes: 07/19/04 added return values in main(). 09/09/04 applied patch for variable Profibus speed from Andrew Rostovtsew. 09/09/04 removed unused include byteswap.h 09/10/04 removed SZL read, it doesn?t work on 200 family. 09/11/04 added multiple variable read example code. *)