/*=============================================================================| | PROJECT SNAP7 1.4.0 | |==============================================================================| | Copyright (C) 2013, 2014 Davide Nardella | | All rights reserved. | |==============================================================================| | SNAP7 is free software: you can redistribute it and/or modify | | it under the terms of the Lesser GNU General Public License as published by | | the Free Software Foundation, either version 3 of the License, or | | (at your option) any later version. | | | | It means that you can distribute your commercial software linked with | | SNAP7 without the requirement to distribute the source code of your | | application and without the requirement that your application be itself | | distributed under LGPL. | | | | SNAP7 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 | | Lesser GNU General Public License for more details. | | | | You should have received a copy of the GNU General Public License and a | | copy of Lesser GNU General Public License along with Snap7. | | If not, see http://www.gnu.org/licenses/ | |==============================================================================| | | | Client Example | | | |=============================================================================*/ #include #include #include #include "snap7.h" #ifdef OS_WINDOWS # define WIN32_LEAN_AND_MEAN # include #endif S7Object Client; unsigned char Buffer[65536]; // 64 K buffer int SampleDBNum = 1000; char *Address; // PLC IP Address int Rack=0,Slot=2; // Default Rack and Slot int ok = 0; // Number of test pass int ko = 0; // Number of test failure int JobDone=false; int JobResult=0; //------------------------------------------------------------------------------ // Async completion callback //------------------------------------------------------------------------------ // This is a simply text demo, we use callback only to set an internal flag... void S7API CliCompletion(void *usrPtr, int opCode, int opResult) { JobResult=opResult; JobDone = true; } //------------------------------------------------------------------------------ // SysSleep (copied from snap_sysutils.cpp) multiplatform millisec sleep //------------------------------------------------------------------------------ void SysSleep(longword Delay_ms) { #ifdef OS_WINDOWS Sleep(Delay_ms); #else struct timespec ts; ts.tv_sec = (time_t)(Delay_ms / 1000); ts.tv_nsec =(long)((Delay_ms - ts.tv_sec) * 1000000); nanosleep(&ts, (struct timespec *)0); #endif } //------------------------------------------------------------------------------ // Usage Syntax //------------------------------------------------------------------------------ void Usage() { printf("Usage\n"); printf(" client [Rack=0 Slot=2]\n"); printf("Example\n"); printf(" client 192.168.1.101 0 2\n"); printf("or\n"); printf(" client 192.168.1.101\n"); getchar(); } //------------------------------------------------------------------------------ // hexdump, a very nice function, it's not mine. // I found it on the net somewhere some time ago... thanks to the author ;-) //------------------------------------------------------------------------------ #ifndef HEXDUMP_COLS #define HEXDUMP_COLS 16 #endif void hexdump(void *mem, unsigned int len) { unsigned int i, j; for(i = 0; i < len + ((len % HEXDUMP_COLS) ? (HEXDUMP_COLS - len % HEXDUMP_COLS) : 0); i++) { /* print offset */ if(i % HEXDUMP_COLS == 0) { printf("0x%04x: ", i); } /* print hex data */ if(i < len) { printf("%02x ", 0xFF & ((char*)mem)[i]); } else /* end of block, just aligning for ASCII dump */ { printf(" "); } /* print ASCII dump */ if(i % HEXDUMP_COLS == (HEXDUMP_COLS - 1)) { for(j = i - (HEXDUMP_COLS - 1); j <= i; j++) { if(j >= len) /* end of block, not really printing */ { putchar(' '); } else if(isprint((((char*)mem)[j] & 0x7F))) /* printable char */ { putchar(0xFF & ((char*)mem)[j]); } else /* other char */ { putchar('.'); } } putchar('\n'); } } } //------------------------------------------------------------------------------ // Check error //------------------------------------------------------------------------------ int Check(int Result, char * function) { int ExecTime; char text[1024]; printf("\n"); printf("+-----------------------------------------------------\n"); printf("| %s\n",function); printf("+-----------------------------------------------------\n"); if (Result==0) { Cli_GetExecTime(Client, &ExecTime); printf("| Result : OK\n"); printf("| Execution time : %d ms\n",ExecTime); printf("+-----------------------------------------------------\n"); ok++; } else { printf("| ERROR !!! \n"); if (Result<0) printf("| Library Error (-1)\n"); else { Cli_ErrorText(Result, text, 1024); printf("| %s\n",text); } printf("+-----------------------------------------------------\n"); ko++; } return !Result; } //------------------------------------------------------------------------------ // Multi Read //------------------------------------------------------------------------------ void MultiRead() { int res; // Multiread buffers byte MB[16]; // 16 Merker bytes byte EB[16]; // 16 Digital Input bytes byte AB[16]; // 16 Digital Output bytes word TM[8]; // 8 timers word CT[8]; // 8 counters // Prepare struct TS7DataItem Items[5]; // NOTE : *AMOUNT IS NOT SIZE* , it's the number of items // Merkers Items[0].Area =S7AreaMK; Items[0].WordLen =S7WLByte; Items[0].DBNumber =0; // Don't need DB Items[0].Start =0; // Starting from 0 Items[0].Amount =16; // 16 Items (bytes) Items[0].pdata =&MB; // Digital Input bytes Items[1].Area =S7AreaPE; Items[1].WordLen =S7WLByte; Items[1].DBNumber =0; // Don't need DB Items[1].Start =0; // Starting from 0 Items[1].Amount =16; // 16 Items (bytes) Items[1].pdata =&EB; // Digital Output bytes Items[2].Area =S7AreaPA; Items[2].WordLen =S7WLByte; Items[2].DBNumber =0; // Don't need DB Items[2].Start =0; // Starting from 0 Items[2].Amount =16; // 16 Items (bytes) Items[2].pdata =&AB; // Timers Items[3].Area =S7AreaTM; Items[3].WordLen =S7WLTimer; Items[3].DBNumber =0; // Don't need DB Items[3].Start =0; // Starting from 0 Items[3].Amount =8; // 8 Timers Items[3].pdata =&TM; // Counters Items[4].Area =S7AreaCT; Items[4].WordLen =S7WLCounter; Items[4].DBNumber =0; // Don't need DB Items[4].Start =0; // Starting from 0 Items[4].Amount =8; // 8 Counters Items[4].pdata =&CT; res=Cli_ReadMultiVars(Client, &Items[0], 5); if (Check(res,"Multiread Vars")) { // Result of Client->ReadMultivars is the "global result" of // the function, it's OK if something was exchanged. // But we need to check single Var results. // Let shall suppose that we ask for 5 vars, 4 of them are ok but // the 5th is inexistent, we will have 4 results ok and 1 not ok. printf("Dump MB0..MB15 - Var Result : %d\n",Items[0].Result); if (Items[0].Result==0) hexdump(&MB,16); printf("Dump EB0..EB15 - Var Result : %d\n",Items[1].Result); if (Items[1].Result==0) hexdump(&EB,16); printf("Dump AB0..AB15 - Var Result : %d\n",Items[2].Result); if (Items[2].Result==0) hexdump(&AB,16); printf("Dump T0..T7 - Var Result : %d\n",Items[3].Result); if (Items[3].Result==0) hexdump(&TM,16); // 8 Timers -> 16 bytes printf("Dump Z0..Z7 - Var Result : %d\n",Items[4].Result); if (Items[4].Result==0) hexdump(&CT,16); // 8 Counters -> 16 bytes }; } //------------------------------------------------------------------------------ // List blocks in AG //------------------------------------------------------------------------------ void ListBlocks() { TS7BlocksList List; int res=Cli_ListBlocks(Client, &List); if (Check(res,"List Blocks in AG")) { printf(" OBCount : %d\n",List.OBCount); printf(" FBCount : %d\n",List.FBCount); printf(" FCCount : %d\n",List.FCCount); printf(" SFBCount : %d\n",List.SFBCount); printf(" SFCCount : %d\n",List.SFCCount); printf(" DBCount : %d\n",List.DBCount); printf(" SDBCount : %d\n",List.SDBCount); }; } //------------------------------------------------------------------------------ // CPU Info : catalog //------------------------------------------------------------------------------ void OrderCode() { TS7OrderCode Info; int res=Cli_GetOrderCode(Client, &Info); if (Check(res,"Catalog")) { printf(" Order Code : %s\n",Info.Code); printf(" Version : %d.%d.%d\n",Info.V1,Info.V2,Info.V3); }; } //------------------------------------------------------------------------------ // CPU Info : unit info //------------------------------------------------------------------------------ void CpuInfo() { TS7CpuInfo Info; int res=Cli_GetCpuInfo(Client, &Info); if (Check(res,"Unit Info")) { printf(" Module Type Name : %s\n",Info.ModuleTypeName); printf(" Seriel Number : %s\n",Info.SerialNumber); printf(" AS Name : %s\n",Info.ASName); printf(" Module Name : %s\n",Info.ModuleName); }; } //------------------------------------------------------------------------------ // CP Info //------------------------------------------------------------------------------ void CpInfo() { TS7CpInfo Info; int res=Cli_GetCpInfo(Client, &Info); if (Check(res,"Communication processor Info")) { printf(" Max PDU Length : %d bytes\n",Info.MaxPduLengt); printf(" Max Connections : %d \n",Info.MaxConnections); printf(" Max MPI Rate : %d bps\n",Info.MaxMpiRate); printf(" Max Bus Rate : %d bps\n",Info.MaxBusRate); }; } //------------------------------------------------------------------------------ // PLC Status //------------------------------------------------------------------------------ void UnitStatus() { int res=0; int Status; Cli_GetPlcStatus(Client, &Status); if (Check(res,"CPU Status")) { switch (Status) { case S7CpuStatusRun : printf(" RUN\n"); break; case S7CpuStatusStop: printf(" STOP\n"); break; default : printf(" UNKNOWN\n"); break; } }; } //------------------------------------------------------------------------------ // Upload DB0 (surely exists in AG) //------------------------------------------------------------------------------ void UploadDB0() { int Size = sizeof(Buffer); // Size is IN/OUT par // In input it tells the client the size available // In output it tells us how many bytes were uploaded. int res=Cli_Upload(Client, Block_SDB, 0, &Buffer, &Size); if (Check(res,"Block Upload (SDB 0)")) { printf("Dump (%d bytes) :\n",Size); hexdump(&Buffer,Size); } } //------------------------------------------------------------------------------ // Async Upload DB0 (using callback as completion trigger) //------------------------------------------------------------------------------ void AsCBUploadDB0() { int Size = sizeof(Buffer); // Size is IN/OUT par // In input it tells the client the size available // In output it tells us how many bytes were uploaded. int res; JobDone=false; res=Cli_AsUpload(Client, Block_SDB, 0, &Buffer, &Size); if (res==0) { while (!JobDone) { SysSleep(100); } res=JobResult; } if (Check(res,"Async (callback) Block Upload (SDB 0)")) { printf("Dump (%d bytes) :\n",Size); hexdump(&Buffer,Size); } } //------------------------------------------------------------------------------ // Async Upload DB0 (using event wait as completion trigger) //------------------------------------------------------------------------------ void AsEWUploadDB0() { int Size = sizeof(Buffer); // Size is IN/OUT par // In input it tells the client the size available // In output it tells us how many bytes were uploaded. int res; JobDone=false; res=Cli_AsUpload(Client, Block_SDB, 0, &Buffer, &Size); if (res==0) { res=Cli_WaitAsCompletion(Client,3000); } if (Check(res,"Async (Wait event) Block Upload (SDB 0)")) { printf("Dump (%d bytes) :\n",Size); hexdump(&Buffer,Size); } } //------------------------------------------------------------------------------ // Async Upload DB0 (using polling as completion trigger) //------------------------------------------------------------------------------ void AsPOUploadDB0() { int Size = sizeof(Buffer); // Size is IN/OUT par // In input it tells the client the size available // In output it tells us how many bytes were uploaded. int res; JobDone=false; res=Cli_AsUpload(Client, Block_SDB, 0, &Buffer, &Size); if (res==0) { while (Cli_CheckAsCompletion(Client,&res)!=JobComplete) { SysSleep(100); }; } if (Check(res,"Async (polling) Block Upload (SDB 0)")) { printf("Dump (%d bytes) :\n",Size); hexdump(&Buffer,Size); } } //------------------------------------------------------------------------------ // Read a sample SZL Block //------------------------------------------------------------------------------ void ReadSzl_0011_0000() { PS7SZL SZL = (PS7SZL)(&Buffer); // use our buffer casted as TS7SZL int Size = sizeof(Buffer); // Block ID 0x0011 IDX 0x0000 normally exists in every CPU int res=Cli_ReadSZL(Client, 0x0011, 0x0000, SZL, &Size); if (Check(res,"Read SZL - ID : 0x0011, IDX 0x0000")) { printf(" LENTHDR : %d\n",SZL->Header.LENTHDR); printf(" N_DR : %d\n",SZL->Header.N_DR); printf("Dump (%d bytes) :\n",Size); hexdump(&Buffer,Size); } } //------------------------------------------------------------------------------ // Unit Connection //------------------------------------------------------------------------------ int CliConnect() { int Requested, Negotiated, res; res = Cli_ConnectTo(Client, Address,Rack,Slot); if (Check(res,"UNIT Connection")) { Cli_GetPduLength(Client, &Requested, &Negotiated); printf(" Connected to : %s (Rack=%d, Slot=%d)\n",Address,Rack,Slot); printf(" PDU Requested : %d bytes\n",Requested); printf(" PDU Negotiated : %d bytes\n",Negotiated); }; return !res; } //------------------------------------------------------------------------------ // Unit Disconnection //------------------------------------------------------------------------------ void CliDisconnect() { Cli_Disconnect(Client); } //------------------------------------------------------------------------------ // Perform readonly tests, no cpu status modification //------------------------------------------------------------------------------ void PerformTests() { OrderCode(); CpuInfo(); CpInfo(); UnitStatus(); ReadSzl_0011_0000(); UploadDB0(); AsCBUploadDB0(); AsEWUploadDB0(); AsPOUploadDB0(); MultiRead(); } void Summary() { printf("\n"); printf("+-----------------------------------------------------\n"); printf("| Test Summary \n"); printf("+-----------------------------------------------------\n"); printf("| Performed : %d\n",(ok+ko)); printf("| Passed : %d\n",ok); printf("| Failed : %d\n",ko); printf("+----------------------------------------[press a key]\n"); getchar(); } int main(int argc, char* argv[]) { // Get Progran args if (argc!=2 && argc!=4) { Usage(); return 1; } Address=argv[1]; if (argc==4) { Rack=atoi(argv[2]); Slot=atoi(argv[3]); } // Client Creation Client=Cli_Create(); Cli_SetAsCallback(Client, CliCompletion,NULL); // Connection if (CliConnect()) { PerformTests(); CliDisconnect(); }; // Deletion Cli_Destroy(&Client); Summary(); return 0; }