The goal of this software is to automatically generate C/C++ code which reads and writes GOOSE and Sampled Value packets. Any valid IEC 61850 Substation Configuration Description (SCD) file, describing GOOSE and/or SV communications, can be used as the input. The output code is lightweight and platform-independent, so it can run on a variety of devices, including low-cost microcontrollers. It\'s ideal for rapid-prototyping new protection and control systems that require communications. This mbed project is a simple example of this functionality. Other code: https://github.com/stevenblair/rapid61850 Project homepage: http://personal.strath.ac.uk/steven.m.blair/
svDecode.c
- Committer:
- sblair
- Date:
- 2011-10-07
- Revision:
- 1:9399d44c2b1a
- Parent:
- 0:230c10b228ea
File content as of revision 1:9399d44c2b1a:
/** * Rapid-prototyping protection schemes with IEC 61850 * * Copyright (c) 2011 Steven Blair * * This program 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 * of the License, or (at your option) any later version. * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "svDecodeBasic.h" #include "ied.h" #include "svDecode.h" int decode_myAnalogValue(unsigned char *buf, struct myAnalogValue *myAnalogValue) { int offset = 0; offset += DECODE_CTYPE_FLOAT32(&buf[offset], &myAnalogValue->f); return offset; } int decode_ScaledValueConfig(unsigned char *buf, struct ScaledValueConfig *ScaledValueConfig) { int offset = 0; offset += DECODE_CTYPE_FLOAT32(&buf[offset], &ScaledValueConfig->scaleFactor); offset += DECODE_CTYPE_FLOAT32(&buf[offset], &ScaledValueConfig->offset); return offset; } int decode_myVector(unsigned char *buf, struct myVector *myVector) { int offset = 0; offset += decode_myAnalogValue(&buf[offset], &myVector->mag); offset += decode_myAnalogValue(&buf[offset], &myVector->ang); return offset; } int decode_simpleVector(unsigned char *buf, struct simpleVector *simpleVector) { int offset = 0; offset += decode_myAnalogValue(&buf[offset], &simpleVector->mag); offset += decode_myAnalogValue(&buf[offset], &simpleVector->ang); return offset; } int decode_myMod(unsigned char *buf, struct myMod *myMod) { int offset = 0; offset += DECODE_CTYPE_ENUM(&buf[offset], (CTYPE_ENUM *) &myMod->ctlVal); offset += DECODE_CTYPE_ENUM(&buf[offset], (CTYPE_ENUM *) &myMod->stVal); offset += DECODE_CTYPE_QUALITY(&buf[offset], &myMod->q); offset += DECODE_CTYPE_TIMESTAMP(&buf[offset], &myMod->t); return offset; } int decode_myHealth(unsigned char *buf, struct myHealth *myHealth) { int offset = 0; offset += DECODE_CTYPE_ENUM(&buf[offset], (CTYPE_ENUM *) &myHealth->stVal); return offset; } int decode_myBeh(unsigned char *buf, struct myBeh *myBeh) { int offset = 0; offset += DECODE_CTYPE_ENUM(&buf[offset], (CTYPE_ENUM *) &myBeh->stVal); return offset; } int decode_myINS(unsigned char *buf, struct myINS *myINS) { int offset = 0; offset += DECODE_CTYPE_INT32(&buf[offset], &myINS->stVal); return offset; } int decode_myLPL(unsigned char *buf, struct myLPL *myLPL) { int offset = 0; offset += DECODE_CTYPE_VISSTRING255(&buf[offset], &myLPL->ldNs); offset += DECODE_CTYPE_VISSTRING255(&buf[offset], &myLPL->configRev); return offset; } int decode_myDPL(unsigned char *buf, struct myDPL *myDPL) { int offset = 0; offset += DECODE_CTYPE_VISSTRING255(&buf[offset], &myDPL->vendor); offset += DECODE_CTYPE_VISSTRING255(&buf[offset], &myDPL->hwRev); return offset; } int decode_myPos(unsigned char *buf, struct myPos *myPos) { int offset = 0; offset += DECODE_CTYPE_DBPOS(&buf[offset], &myPos->stVal); offset += DECODE_CTYPE_QUALITY(&buf[offset], &myPos->q); offset += DECODE_CTYPE_TIMESTAMP(&buf[offset], &myPos->t); offset += DECODE_CTYPE_BOOLEAN(&buf[offset], &myPos->ctlVal); return offset; } int decode_mySPS(unsigned char *buf, struct mySPS *mySPS) { int offset = 0; offset += DECODE_CTYPE_INT32(&buf[offset], &mySPS->stVal); offset += DECODE_CTYPE_QUALITY(&buf[offset], &mySPS->q); offset += DECODE_CTYPE_TIMESTAMP(&buf[offset], &mySPS->t); return offset; } int decode_myMV(unsigned char *buf, struct myMV *myMV) { int offset = 0; offset += decode_myAnalogValue(&buf[offset], &myMV->mag); offset += DECODE_CTYPE_QUALITY(&buf[offset], &myMV->q); offset += DECODE_CTYPE_TIMESTAMP(&buf[offset], &myMV->t); offset += decode_ScaledValueConfig(&buf[offset], &myMV->sVC); return offset; } int decode_simpleMV(unsigned char *buf, struct simpleMV *simpleMV) { int offset = 0; offset += DECODE_CTYPE_FLOAT32(&buf[offset], &simpleMV->mag); offset += DECODE_CTYPE_QUALITY(&buf[offset], &simpleMV->q); offset += DECODE_CTYPE_TIMESTAMP(&buf[offset], &simpleMV->t); offset += decode_ScaledValueConfig(&buf[offset], &simpleMV->sVC); return offset; } int decode_simpleCMV(unsigned char *buf, struct simpleCMV *simpleCMV) { int offset = 0; offset += decode_simpleVector(&buf[offset], &simpleCMV->cVal); offset += DECODE_CTYPE_QUALITY(&buf[offset], &simpleCMV->q); offset += DECODE_CTYPE_TIMESTAMP(&buf[offset], &simpleCMV->t); return offset; } int decode_simpleWYE(unsigned char *buf, struct simpleWYE *simpleWYE) { int offset = 0; offset += decode_simpleCMV(&buf[offset], &simpleWYE->phsA); offset += decode_simpleCMV(&buf[offset], &simpleWYE->phsB); offset += decode_simpleCMV(&buf[offset], &simpleWYE->phsC); return offset; } int decode_myCMV(unsigned char *buf, struct myCMV *myCMV) { int offset = 0; offset += decode_myVector(&buf[offset], &myCMV->cVal); offset += DECODE_CTYPE_QUALITY(&buf[offset], &myCMV->q); offset += DECODE_CTYPE_TIMESTAMP(&buf[offset], &myCMV->t); return offset; } int decode_mySEQ(unsigned char *buf, struct mySEQ *mySEQ) { int offset = 0; offset += decode_myCMV(&buf[offset], &mySEQ->c1); offset += decode_myCMV(&buf[offset], &mySEQ->c2); offset += decode_myCMV(&buf[offset], &mySEQ->c3); offset += DECODE_CTYPE_ENUM(&buf[offset], (CTYPE_ENUM *) &mySEQ->seqT); return offset; } int decode_mySAV(unsigned char *buf, struct mySAV *mySAV) { int offset = 0; offset += decode_myAnalogValue(&buf[offset], &mySAV->instMag); offset += DECODE_CTYPE_QUALITY(&buf[offset], &mySAV->q); return offset; } int decode_simpleSAV(unsigned char *buf, struct simpleSAV *simpleSAV) { int offset = 0; offset += decode_myAnalogValue(&buf[offset], &simpleSAV->instMag); offset += DECODE_CTYPE_QUALITY(&buf[offset], &simpleSAV->q); return offset; } int decode_rmxu_MMXU_1(unsigned char *buf, int noASDU) { int offset = 0; offset += decode_simpleSAV(&buf[offset], &D1Q1SB4.S1.C1.MMXU_1.sv_inputs.AmpLocPhsA_1[noASDU]); offset += decode_simpleSAV(&buf[offset], &D1Q1SB4.S1.C1.MMXU_1.sv_inputs.AmpLocPhsB_1[noASDU]); offset += decode_simpleSAV(&buf[offset], &D1Q1SB4.S1.C1.MMXU_1.sv_inputs.AmpLocPhsC_1[noASDU]); return offset; } void svDecodeDataset(unsigned char *dataset, int datasetLength, int ASDU, unsigned char *svID, int svIDLength) { if (strncmp((const char *) svID, "rmxu", svIDLength) == 0) { decode_rmxu_MMXU_1(dataset, ASDU); } }