delete 0.5

git-svn-id: https://svn.code.sf.net/p/openv2g/code/trunk@49 d9f2db14-54d0-4bde-b00c-16405c910529
This commit is contained in:
sebastiankb 2012-01-30 13:37:53 +00:00
parent 3d3a117445
commit 3e7b97d740
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@ -1,579 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "DecoderChannel.h"
#include "CoderChannel.h"
#include "BitInputStream.h"
#include "EXITypes.h"
#ifndef ABSTRACT_DECODER_CHANNEL_C
#define ABSTRACT_DECODER_CHANNEL_C
/* unsigned long == 64 bits, 10 * 7bits = 70 bits */
#define MAX_OCTETS_FOR_UNSIGNED_INTEGER_64 10
/* unsigned int == 32 bits, 5 * 7bits = 35 bits */
#define MAX_OCTETS_FOR_UNSIGNED_INTEGER_32 5
/* buffer for reading (arbitrary) large integer values */
static unsigned int maskedOctets[MAX_OCTETS_FOR_UNSIGNED_INTEGER_64];
static int _decodeUnsignedInteger(bitstream_t* stream, integer_t* iv, int negative) {
int errn = 0;
int i, k;
uint8_t b;
for (i = 0; i < MAX_OCTETS_FOR_UNSIGNED_INTEGER_64; i++) {
/* Read the next octet */
errn = decode(stream, &b);
/* If the most significant bit of the octet was 1,
another octet is going to come */
if (b < 128) {
/* no more octets */
/* For negative values, the Unsigned Integer holds the
* magnitude of the value minus 1 */
switch(i) {
case 0: /* 7 bits */
if (negative) {
iv->val.int8 = - ( b + 1);
iv->type = INTEGER_8;
} else {
iv->val.uint8 = b;
iv->type = UNSIGNED_INTEGER_8;
}
return 0;
case 1: /* 14 bits */
maskedOctets[i] = b;
iv->val.uint16 = 0;
for (k = i; k >= 0 ; k--) {
iv->val.uint16 = (iv->val.uint16 << 7) | maskedOctets[k];
}
if (negative) {
iv->val.int16 = - ( iv->val.uint16 + 1 );
iv->type = INTEGER_16;
} else {
iv->type = UNSIGNED_INTEGER_16;
}
return 0;
case 2: /* 21 bits */
case 3: /* 28 bits */
maskedOctets[i] = b;
iv->val.uint32 = 0;
for (k = i; k >= 0 ; k--) {
iv->val.uint32 = (iv->val.uint32 << 7) | maskedOctets[k];
}
if (negative) {
iv->val.int32 = - ( iv->val.uint32 + 1 );
if (iv->val.int32 <= INT16_MAX && iv->val.int32 >= INT16_MIN ) {
iv->type = INTEGER_16;
} else {
iv->type = INTEGER_32;
}
} else {
if (iv->val.uint32 <= UINT16_MAX) {
iv->type = UNSIGNED_INTEGER_16;
} else {
iv->type = UNSIGNED_INTEGER_32;
}
}
return 0;
case 4: /* 35 bits */
case 5: /* 42 bits */
case 6: /* 49 bits */
case 7: /* 56 bits */
case 8: /* 63 bits */
case 9: /* 70 bits */
maskedOctets[i] = b;
iv->val.uint64 = 0;
for (k = i; k >= 0 ; k--) {
iv->val.uint64 = (iv->val.uint64 << 7) | maskedOctets[k];
}
if (negative) {
if (i > 8) {
/* too large */
return EXI_UNSUPPORTED_INTEGER_VALUE;
}
iv->val.int64 = - ( iv->val.uint64 + 1 );
if (iv->val.int64 <= INT32_MAX && iv->val.int64 >= INT32_MIN ) {
iv->type = INTEGER_32;
} else {
iv->type = INTEGER_64;
}
} else {
if (iv->val.uint64 <= UINT32_MAX) {
iv->type = UNSIGNED_INTEGER_32;
/* iv->val.uint32 = iv->val.uint64;*/
} else {
iv->type = UNSIGNED_INTEGER_64;
}
}
return 0;
default:
return EXI_UNSUPPORTED_INTEGER_VALUE;
}
} else {
/* the 7 least significant bits hold the actual value */
maskedOctets[i] = (b & 127);
}
}
return EXI_UNSUPPORTED_INTEGER_VALUE;
}
int decodeUnsignedInteger(bitstream_t* stream, integer_t* iv) {
return _decodeUnsignedInteger(stream, iv, 0);
}
int decodeUnsignedInteger16(bitstream_t* stream, uint16_t* uint16) {
unsigned int mShift = 0;
int errn = 0;
uint8_t b;
*uint16 = 0;
do {
/* 1. Read the next octet */
errn = decode(stream, &b);
/* 2. Multiply the value of the unsigned number represented by the 7
* least significant
* bits of the octet by the current multiplier and add the result to
* the current value */
*uint16 += (b & 127) << mShift;
/* 3. Multiply the multiplier by 128 */
mShift += 7;
/* 4. If the most significant bit of the octet was 1, go back to step 1 */
} while (errn >= 0 && (b >> 7) == 1);
return errn;
}
int decodeUnsignedInteger32(bitstream_t* stream, uint32_t* uint32) {
/* 0XXXXXXX ... 1XXXXXXX 1XXXXXXX */
unsigned int mShift = 0;
int errn = 0;
uint8_t b;
*uint32 = 0;
do {
/* 1. Read the next octet */
errn = decode(stream, &b);
/* 2. Multiply the value of the unsigned number represented by the 7
* least significant
* bits of the octet by the current multiplier and add the result to
* the current value */
*uint32 += (b & 127) << mShift;
/* 3. Multiply the multiplier by 128 */
mShift += 7;
/* 4. If the most significant bit of the octet was 1, go back to step 1 */
} while (errn >= 0 && (b >> 7) == 1);
return errn;
}
/**
* Decode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int decodeUnsignedInteger64(bitstream_t* stream, uint64_t* uint64) {
unsigned int mShift = 0;
int errn = 0;
uint8_t b;
*uint64 = 0L;
do {
errn = decode(stream, &b);
*uint64 += ((uint64_t) (b & 127)) << mShift;
mShift += 7;
} while (errn >= 0 && (b >> 7) == 1);
return errn;
}
int decodeInteger(bitstream_t* stream, integer_t* iv) {
int b;
int errn = decodeBoolean(stream, &b);
if (errn < 0) {
return errn;
}
return _decodeUnsignedInteger(stream, iv, b);
}
/**
* Decode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int decodeInteger32(bitstream_t* stream, int32_t* int32) {
int b;
uint32_t uint32;
int errn = decodeBoolean(stream, &b);
if (errn < 0) {
return errn;
}
if (b) {
/* For negative values, the Unsigned Integer holds the
* magnitude of the value minus 1 */
errn = decodeUnsignedInteger32(stream, &uint32);
*int32 = -(uint32 + 1);
} else {
/* positive */
errn = decodeUnsignedInteger32(stream, &uint32);
*int32 = (int32_t)(uint32);
}
return errn;
}
/**
* Decode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int decodeInteger64(bitstream_t* stream, int64_t* int64) {
int b;
uint64_t uint64;
int errn = decodeBoolean(stream, &b);
if (errn < 0) {
return errn;
}
if (b) {
/* For negative values, the Unsigned Integer holds the
* magnitude of the value minus 1 */
errn = decodeUnsignedInteger64(stream, &uint64);
*int64 = -(uint64 + 1);
} else {
/* positive */
errn = decodeUnsignedInteger64(stream, &uint64);
*int64 = (int64_t)(uint64);
}
return errn;
}
/**
* Decode a Float datatype as two consecutive Integers.
* The first Integer represents the mantissa of the floating point
* number and the second Integer represents the base-10 exponent
* of the floating point number.
*/
int decodeFloat(bitstream_t* stream, float_me_t* f) {
int errn = decodeInteger64(stream, &f->mantissa);
if (errn < 0) {
return errn;
}
return decodeInteger32(stream, &f->exponent);
}
/**
* Decode a decimal represented as a Boolean sign followed by two Unsigned
* Integers. A sign value of zero (0) is used to represent positive Decimal
* values and a sign value of one (1) is used to represent negative Decimal
* values The first Integer represents the integral portion of the Decimal
* value. The second positive integer represents the fractional portion of
* the decimal with the digits in reverse order to preserve leading zeros.
*/
int decodeDecimal(bitstream_t* stream, decimal_t* d) {
int errn = decodeBoolean(stream, &d->negative);
if (errn < 0) {
return errn;
}
errn = decodeUnsignedInteger(stream, &d->integral);
if (errn < 0) {
return errn;
}
errn = decodeUnsignedInteger(stream, &d->reverseFraction);
return errn;
}
/**
* Decode a sequence of characters for a given length.
*/
int decodeStringOnly(bitstream_t* stream, uint16_t len, string_ucs_t* s) {
if (len > s->size) {
/* not enough space */
return EXI_ERROR_OUT_OF_STRING_BUFFER;
}
decodeCharacters(stream, len, s->codepoints);
s->len = len;
return 0;
}
/**
* Decode a length prefixed sequence of characters.
*/
int decodeString(bitstream_t* stream, string_ucs_t* s) {
int errn = decodeUnsignedInteger16(stream, &s->len);
if (errn < 0) {
return errn;
}
return decodeStringOnly(stream, s->len, s);
}
int decodeStringASCII(bitstream_t* stream, string_ascii_t* s) {
uint16_t slen;
int errn = decodeUnsignedInteger16(stream, &slen);
if (errn < 0) {
return errn;
}
if (s->size < slen) {
return EXI_ERROR_OUT_OF_ASCII_BUFFER;
}
return decodeCharactersASCII(stream, slen, s->chars);
}
int decodeStringValue(bitstream_t* stream, string_ucs_t* s) {
int errn = decodeUnsignedInteger16(stream, &s->len);
if (errn < 0) {
return errn;
}
switch (s->len) {
case 0:
/* local value partition */
return EXI_UNSUPPORTED_STRING_TABLE_LOCAL_HIT;
case 1:
/* found in global value partition */
return EXI_UNSUPPORTED_STRING_TABLE_GLOBAL_HIT;
default:
/* not found in global value (and local value) partition
* ==> string literal is encoded as a String with the length
* incremented by two */
return decodeStringOnly(stream, ((s->len) - 2), s);
/* After encoding the string value, it is added to both the
* associated "local" value string table partition and the global
* value string table partition */
/* addValue(context, value); */
}
}
int decodeRCSStringValue(bitstream_t* stream, rcs_t* rcs, string_ucs_t* s) {
unsigned int i;
uint32_t cp;
int errn = decodeUnsignedInteger16(stream, &s->len);
if (errn < 0) {
return errn;
}
switch (s->len) {
case 0:
/* local value partition */
return EXI_UNSUPPORTED_STRING_TABLE_LOCAL_HIT;
case 1:
/* found in global value partition */
return EXI_UNSUPPORTED_STRING_TABLE_GLOBAL_HIT;
default:
/* not found in global value (and local value) partition
* ==> string literal is encoded as a String with the length
* incremented by two */
s->len = s->len - 2;
if (s->len > s->size) {
/* not enough space */
return EXI_ERROR_OUT_OF_STRING_BUFFER;
}
for (i = 0; i < s->len && errn >= 0; i++) {
errn = decodeNBitUnsignedInteger(stream, rcs->codingLength, &cp);
if (errn < 0) {
return errn;
}
s->codepoints[i] = rcs->codepoints[cp];
}
/* After encoding the string value, it is added to both the
* associated "local" value string table partition and the global
* value string table partition */
/* addValue(context, value); */
return 0;
}
}
/**
* Decode a sequence of characters according to a given length.
* Each character is represented by its UCS [ISO/IEC 10646]
* code point encoded as an Unsigned Integer
*/
int decodeCharacters(bitstream_t* stream, uint16_t len, uint32_t* chars) {
unsigned int i;
int errn = 0;
for (i = 0; i < len && errn >= 0; i++) {
errn = decodeUnsignedInteger32(stream, &chars[i]);
if (errn < 0) {
return errn;
}
}
return errn;
}
int decodeCharactersASCII(bitstream_t* stream, uint16_t len, char* chars) {
unsigned int i;
uint32_t c;
int errn = 0;
for (i = 0; i < len && errn >= 0; i++) {
errn = decodeUnsignedInteger32(stream, &c);
if (errn < 0) {
return errn;
}
if (c > 127) {
return EXI_ERROR_CONVERSION_NO_ASCII_CHARACTERS;
}
chars[i] = c;
}
chars[i] = '\0';
return errn;
}
/**
* Decode a binary value as a length-prefixed sequence of octets.
*/
int decodeBinary(bitstream_t* stream, bytes_t* bytes) {
unsigned int i;
uint8_t b;
int errn = decodeUnsignedInteger16(stream, &bytes->len);
if (errn < 0) {
return errn;
}
if (bytes->len > bytes->size) {
/* not enough space */
return EXI_ERROR_OUT_OF_BYTE_BUFFER;
}
for (i = 0; i < bytes->len && errn >= 0; i++) {
errn = decode(stream, &b);
if (errn < 0) {
return errn;
}
bytes->data[i] = (uint8_t)b;
}
return errn;
}
/**
* Decode Date-Time as sequence of values representing the individual
* components of the Date-Time.
*/
int decodeDateTime(bitstream_t* stream, exi_datetime_type_t type, datetime_t* datetime){
int errn;
datetime->type = type;
datetime->year = 0;
datetime->monthDay = 0;
datetime->time = 0;
datetime->presenceFractionalSecs = 0;
datetime->fractionalSecs = 0;
datetime->presenceTimezone = 0;
datetime->timezone = 0;
switch (type) {
case exiGYear: /* Year, [Time-Zone] */
errn = decodeInteger32(stream, &datetime->year);
if (errn < 0) {
return errn;
}
datetime->year += DATETIME_YEAR_OFFSET;
break;
case exiGYearMonth: /* Year, MonthDay, [TimeZone] */
case exiDate:
errn = decodeInteger32(stream, &datetime->year);
if (errn < 0) {
return errn;
}
datetime->year += DATETIME_YEAR_OFFSET;
errn = decodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_MONTHDAY, &datetime->monthDay);
break;
case exiDateTime: /* Year, MonthDay, Time, [FractionalSecs], [TimeZone] */
/* e.g. "0001-01-01T00:00:00.111+00:33" */
errn = decodeInteger32(stream, &datetime->year);
if (errn < 0) {
return errn;
}
datetime->year += DATETIME_YEAR_OFFSET;
errn = decodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_MONTHDAY, &datetime->monthDay);
if (errn < 0) {
return errn;
}
/* Note: *no* break */
case exiTime: /* Time, [FractionalSecs], [TimeZone] */
/* e.g. "12:34:56.135" */
errn = decodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_TIME, &datetime->time);
if (errn < 0) {
return errn;
}
errn = decodeBoolean(stream, &datetime->presenceFractionalSecs);
if (errn < 0) {
return errn;
}
if (datetime->presenceFractionalSecs) {
errn = decodeUnsignedInteger32(stream, &datetime->fractionalSecs);
}
break;
case exiGMonth: /* MonthDay, [TimeZone] */
/* e.g. "--12" */
case exiGMonthDay: /* MonthDay, [TimeZone] */
/* e.g. "--01-28" */
case exiGDay: /* MonthDay, [TimeZone] */
/* "---16" */
errn = decodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_MONTHDAY, &datetime->monthDay );
break;
default:
return -1;
}
errn = decodeBoolean(stream, &datetime->presenceTimezone );
if (errn < 0) {
return errn;
}
if (datetime->presenceTimezone) {
errn = decodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_TIMEZONE, &datetime->timezone);
datetime->timezone -= DATETIME_TIMEZONE_OFFSET_IN_MINUTES;
}
return errn;
}
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "EncoderChannel.h"
#include "CoderChannel.h"
#include "BitOutputStream.h"
#include "EXITypes.h"
#include "MethodsBag.h"
#ifndef ABSTRACT_ENCODER_CHANNEL_C
#define ABSTRACT_ENCODER_CHANNEL_C
int encodeUnsignedInteger(bitstream_t* stream, integer_t* iv) {
int errn = 0;
switch(iv->type) {
/* Unsigned Integer */
case UNSIGNED_INTEGER_8:
errn = encodeUnsignedInteger32(stream, iv->val.uint8);
break;
case UNSIGNED_INTEGER_16:
errn = encodeUnsignedInteger32(stream, iv->val.uint16);
break;
case UNSIGNED_INTEGER_32:
errn = encodeUnsignedInteger32(stream, iv->val.uint32);
break;
case UNSIGNED_INTEGER_64:
errn = encodeUnsignedInteger64(stream, iv->val.uint64);
break;
/* (Signed) Integer */
case INTEGER_8:
if (iv->val.int8 < 0) {
return EXI_NEGATIVE_UNSIGNED_INTEGER_VALUE;
}
errn = encodeUnsignedInteger32(stream, iv->val.int8);
break;
case INTEGER_16:
if (iv->val.int16 < 0) {
return EXI_NEGATIVE_UNSIGNED_INTEGER_VALUE;
}
errn = encodeUnsignedInteger32(stream, iv->val.int16);
break;
case INTEGER_32:
if (iv->val.int32 < 0) {
return EXI_NEGATIVE_UNSIGNED_INTEGER_VALUE;
}
errn = encodeUnsignedInteger32(stream, iv->val.int32);
break;
case INTEGER_64:
if (iv->val.int64 < 0) {
return EXI_NEGATIVE_UNSIGNED_INTEGER_VALUE;
}
errn = encodeUnsignedInteger64(stream, iv->val.int64);
break;
default:
errn = EXI_UNSUPPORTED_INTEGER_VALUE_TYPE;
}
return errn;
}
/**
* Encode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int encodeUnsignedInteger32(bitstream_t* stream, uint32_t n) {
int errn = 0;
if (n < 128) {
/* write byte as is */
errn = encode(stream, (uint8_t) n);
} else {
uint8_t n7BitBlocks = numberOf7BitBlocksToRepresent(n);
switch (n7BitBlocks) {
case 5:
errn = encode(stream, (uint8_t) (128 | n));
n = n >> 7;
if (errn < 0) {
break;
}
case 4:
errn = encode(stream, (uint8_t) (128 | n));
n = n >> 7;
if (errn < 0) {
break;
}
case 3:
errn = encode(stream, (uint8_t) (128 | n));
n = n >> 7;
if (errn < 0) {
break;
}
case 2:
errn = encode(stream, (uint8_t) (128 | n));
n = n >> 7;
if (errn < 0) {
break;
}
case 1:
/* 0 .. 7 (last byte) */
errn = encode(stream, (uint8_t) (0 | n));
}
}
return errn;
}
/**
* Encode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int encodeUnsignedInteger64(bitstream_t* stream, uint64_t n) {
int errn = 0;
uint8_t lastEncode = (uint8_t) n;
n >>= 7;
while (n != 0) {
errn = encode(stream, lastEncode | 128);
if (errn < 0) {
return errn;
}
lastEncode = (uint8_t) n;
n >>= 7;
}
return encode(stream, lastEncode);
}
int encodeInteger(bitstream_t* stream, integer_t* iv) {
int errn = 0;
switch(iv->type) {
/* Unsigned Integer */
case UNSIGNED_INTEGER_8:
errn = encodeInteger32(stream, iv->val.uint8);
break;
case UNSIGNED_INTEGER_16:
errn = encodeInteger32(stream, iv->val.uint16);
break;
case UNSIGNED_INTEGER_32:
errn = encodeInteger64(stream, iv->val.uint32);
break;
case UNSIGNED_INTEGER_64:
errn = encodeInteger64(stream, iv->val.uint64);
break;
/* (Signed) Integer */
case INTEGER_8:
errn = encodeInteger32(stream, iv->val.int8);
break;
case INTEGER_16:
errn = encodeInteger32(stream, iv->val.int16);
break;
case INTEGER_32:
errn = encodeInteger32(stream, iv->val.int32);
break;
case INTEGER_64:
errn = encodeInteger64(stream, iv->val.int64);
break;
default:
errn = EXI_UNSUPPORTED_INTEGER_VALUE_TYPE;
}
return errn;
}
/**
* Encode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int encodeInteger32(bitstream_t* stream, int32_t n) {
int errn;
/* signalize sign */
if (n < 0) {
errn = encodeBoolean(stream, 1);
/* For negative values, the Unsigned Integer holds the
* magnitude of the value minus 1 */
n = (-n) - 1;
} else {
errn = encodeBoolean(stream, 0);
}
if (errn < 0) {
return errn;
}
return encodeUnsignedInteger32(stream, n);
}
/**
* Encode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int encodeInteger64(bitstream_t* stream, int64_t n) {
int errn;
/* signalize sign */
if (n < 0) {
errn = encodeBoolean(stream, 1);
/* For negative values, the Unsigned Integer holds the
* magnitude of the value minus 1 */
n = (-n) - 1;
} else {
errn = encodeBoolean(stream, 0);
}
if (errn < 0) {
return errn;
}
return encodeUnsignedInteger64(stream, n);
}
/**
* The Float datatype representation is two consecutive Integers.
* The first Integer represents the mantissa of the floating point
* number and the second Integer represents the base-10 exponent
* of the floating point number.
*/
int encodeFloat(bitstream_t* stream, float_me_t* f) {
int errn = encodeInteger64(stream, f->mantissa);
if (errn >= 0) {
errn = encodeInteger32(stream, f->exponent);
}
return errn;
}
/**
* Encode a decimal represented as a Boolean sign followed by two Unsigned
* Integers. A sign value of zero (0) is used to represent positive Decimal
* values and a sign value of one (1) is used to represent negative Decimal
* values The first Integer represents the integral portion of the Decimal
* value. The second positive integer represents the fractional portion of
* the decimal with the digits in reverse order to preserve leading zeros.
*/
int encodeDecimal(bitstream_t* stream, decimal_t* d) {
/* sign, integral, reverse fractional */
int errn = encodeBoolean(stream, d->negative);
if (errn < 0) {
return errn;
}
errn = encodeUnsignedInteger(stream, &d->integral);
if (errn < 0) {
return errn;
}
errn = encodeUnsignedInteger(stream, &d->reverseFraction);
return errn;
}
/**
* Encode a length prefixed sequence of characters.
*/
int encodeASCII(bitstream_t* stream, const char* ascii) {
int errn;
uint32_t slen = (uint32_t) strlen(ascii);
errn = encodeUnsignedInteger32(stream, slen);
if (errn >= 0) {
errn = encodeASCIICharacters(stream, ascii, slen);
}
return errn;
}
int encodeString(bitstream_t* stream, string_ucs_t* string) {
int errn = encodeUnsignedInteger32(stream, string->len);
if (errn >= 0) {
errn = encodeUCSCharacters(stream, string->codepoints, string->len);
}
return errn;
}
int encodeStringValue(bitstream_t* stream, string_ucs_t* string) {
/* encode string as string table miss */
int errn = encodeUnsignedInteger32(stream, string->len + 2);
if (errn >= 0) {
errn = encodeUCSCharacters(stream, string->codepoints, string->len);
}
return errn;
}
int encodeRCSStringValue(bitstream_t* stream, rcs_t* rcs, string_ucs_t* string) {
unsigned int i;
uint32_t k;
/* encode string as string table miss */
int errn = encodeUnsignedInteger32(stream, string->len + 2);
if (errn >= 0) {
for (i = 0; i < string->len && errn >= 0; i++) {
for (k = 0; k < rcs->size && errn >= 0; k++) {
if (rcs->codepoints[k] == string->codepoints[i]) {
errn = encodeNBitUnsignedInteger(stream, rcs->codingLength, k);
break; /* break inner for loop */
}
}
}
}
return errn;
}
/**
* Encode a sequence of characters according to a given length.
* Each character is represented by its UCS [ISO/IEC 10646]
* code point encoded as an Unsigned Integer
*/
int encodeUCSCharacters(bitstream_t* stream, uint32_t* chars, uint16_t len) {
unsigned int i;
int errn = 0;
for (i = 0; i < len && errn >= 0; i++) {
errn = encodeUnsignedInteger32(stream, chars[i]);
}
return errn;
}
int encodeASCIICharacters(bitstream_t* stream, const char* chars, uint16_t len) {
unsigned int i;
int errn = 0;
for (i = 0; i < len && errn >= 0; i++) {
errn = encode(stream, chars[i]);
}
return errn;
}
/**
* Encode a binary value as a length-prefixed sequence of octets.
*/
int encodeBinary(bitstream_t* stream, bytes_t* bytes) {
unsigned int i;
int errn = encodeUnsignedInteger32(stream, bytes->len);
for (i = 0; i < bytes->len && errn >= 0; i++) {
errn = encode(stream, bytes->data[i]);
}
return errn;
}
/**
* Encode a datetime representation which is a sequence of values
* representing the individual components of the Date-Time
*/
int encodeDateTime(bitstream_t* stream, datetime_t* datetime) {
int errn = 0;
switch (datetime->type) {
case exiGYear: /* Year, [Time-Zone] */
errn = encodeInteger32(stream, datetime->year - DATETIME_YEAR_OFFSET);
break;
case exiGYearMonth: /* Year, MonthDay, [TimeZone] */
case exiDate: /* Year, MonthDay, [TimeZone] */
errn = encodeInteger32(stream, datetime->year - DATETIME_YEAR_OFFSET);
if (errn < 0) {
return errn;
}
errn = encodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_MONTHDAY, datetime->monthDay);
break;
case exiDateTime: /* Year, MonthDay, Time, [FractionalSecs], [TimeZone] */
errn = encodeInteger32(stream, datetime->year - DATETIME_YEAR_OFFSET);
if (errn < 0) {
return errn;
}
errn = encodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_MONTHDAY, datetime->monthDay);
if (errn < 0) {
return errn;
}
/* Note: *no* break */
case exiTime: /* Time, [FractionalSecs], [TimeZone] */
errn = encodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_TIME, datetime->time);
if (errn < 0) {
return errn;
}
if (datetime->presenceFractionalSecs) {
encodeBoolean(stream, 1);
if (errn < 0) {
return errn;
}
encodeUnsignedInteger32(stream, datetime->fractionalSecs);
} else {
encodeBoolean(stream, 0);
}
break;
case exiGMonth: /* MonthDay, [TimeZone] */
case exiGMonthDay: /* MonthDay, [TimeZone] */
case exiGDay: /* MonthDay, [TimeZone] */
errn = encodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_MONTHDAY, datetime->monthDay);
break;
default:
return EXI_ERROR_UNEXPECTED_DATETIME_TYPE;
}
if (errn < 0) {
return errn;
}
/* [TimeZone] */
if (datetime->presenceTimezone) {
errn = encodeBoolean(stream, 1);
if (errn < 0) {
return errn;
}
encodeNBitUnsignedInteger(stream, DATETIME_NUMBER_BITS_TIMEZONE, datetime->timezone
+ DATETIME_TIMEZONE_OFFSET_IN_MINUTES);
} else {
encodeBoolean(stream, 0);
}
return errn;
}
#endif

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@ -1,73 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "DecoderChannel.h"
#include "BitInputStream.h"
#include "EXITypes.h"
#ifndef BIT_DECODER_CHANNEL_C
#define BIT_DECODER_CHANNEL_C
#if EXI_ALIGNMENT == BIT_PACKED
int decode(bitstream_t* stream, uint8_t* b) {
uint32_t bb;
int errn = readBits(stream, 8, &bb);
if (errn < 0) {
return errn;
}
if (bb > 256) {
return EXI_ERROR_UNEXPECTED_BYTE_VALUE;
} else {
*b = (uint8_t)bb;
}
return errn;
}
int decodeBoolean(bitstream_t* stream, int* b) {
uint32_t ub;
int errn = readBits(stream, 1, &ub);
*b = (ub == 0) ? 0 : 1;
return errn;
}
int decodeNBitUnsignedInteger(bitstream_t* stream, uint16_t nbits, uint32_t* uint32) {
if (nbits == 0) {
*uint32 = 0;
return 0;
} else {
return readBits(stream, nbits, uint32);
}
}
#endif
#endif

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@ -1,138 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-05-23
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
#ifndef BIT_DECODER_CHANNEL_H
#define BIT_DECODER_CHANNEL_H
/**
* Decode a single boolean value. The value false is represented by the bit
* 0, and the value true is represented by the bit 1.
*/
int decodeBoolean(bitstream_t* stream, int* b);
/**
* Decodes and returns an n-bit unsigned integer.
*/
int decodeNBitUnsignedInteger(bitstream_t* stream, uint16_t nbits, uint32_t* uint32);
/**
* Decode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int decodeUnsignedInteger16(bitstream_t* stream, uint16_t* uint16);
/**
* Decode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int decodeUnsignedInteger32(bitstream_t* stream, uint32_t* uint32);
/**
* Decode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int decodeUnsignedInteger64(bitstream_t* stream, uint64_t* uint64);
/**
* Decode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int decodeInteger32(bitstream_t* stream, int32_t* int32);
/**
* Decode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int decodeInteger64(bitstream_t* stream, int64_t* int64);
/**
* Decode a Float datatype as two consecutive Integers.
* The first Integer represents the mantissa of the floating point
* number and the second Integer represents the base-10 exponent
* of the floating point number.
*/
int decodeFloat(bitstream_t* stream, float_me_t* f);
/**
* Decode a sequence of characters for a given length.
*/
int decodeStringOnly(bitstream_t* stream, uint16_t len, string_ucs_t* s);
/**
* Decode a length prefixed sequence of characters.
*/
int decodeString(bitstream_t* stream, string_ucs_t* s);
int decodeStringASCII(bitstream_t* stream, string_ascii_t* s);
/**
* Decode a length prefixed sequence of characters in the sense of string tables.
* length == 0, local value partition hit
* length == 1, global value partition hit
* --> string literal is encoded as a String with the length incremented by two
*/
int decodeStringValue(bitstream_t* stream, string_ucs_t* s);
/**
* Decode a sequence of characters according to a given length.
*/
int decodeCharacters(bitstream_t* stream, uint16_t len, uint32_t* chars);
int decodeCharactersASCII(bitstream_t* stream, uint16_t len, char* chars);
/**
* Decode a binary value as a length-prefixed sequence of octets.
*/
int decodeBinary(bitstream_t* stream, bytes_t* bytes);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,88 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "EncoderChannel.h"
#include "CoderChannel.h"
#include "BitOutputStream.h"
#include "EXITypes.h"
#ifndef BIT_ENCODER_CHANNEL_C
#define BIT_ENCODER_CHANNEL_C
#if EXI_ALIGNMENT == BIT_PACKED
int encode(bitstream_t* stream, uint8_t b) {
return writeBits(stream, 8, b);
}
/**
* Encode a single boolean value. A false value is encoded as bit 0 and true
* value is encode as bit 1.
*/
int encodeBoolean(bitstream_t* stream, int b) {
uint8_t val = b ? 1 : 0;
return writeBits(stream, 1, val);
}
/**
* Encode n-bit unsigned integer. The n least significant bits of parameter
* b starting with the most significant, i.e. from left to right.
*/
int encodeNBitUnsignedInteger(bitstream_t* stream, uint16_t nbits, uint32_t val) {
if (nbits > 0) {
return writeBits(stream, nbits, val);
}
return 0;
}
/**
* Flush underlying bit output stream.
*/
int encodeFinish(bitstream_t* stream) {
return flush(stream);
}
#endif /* alignment */
#endif

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@ -1,140 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-05-23
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include <stdint.h>
#include "EXITypes.h"
#ifndef BIT_ENCODER_CHANNEL_H
#define BIT_ENCODER_CHANNEL_H
/**
* Encode a single boolean value. A false value is encoded as bit 0 and true
* value is encode as bit 1.
*/
int encodeBoolean(bitstream_t* stream, int b);
/**
* Encode n-bit unsigned integer. The n least significant bits of parameter
* b starting with the most significant, i.e. from left to right.
*/
int encodeNBitUnsignedInteger(bitstream_t* stream, uint16_t nbits, uint32_t val);
/**
* Encode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int encodeUnsignedInteger32(bitstream_t* stream, uint32_t n);
/**
* Encode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int encodeUnsignedInteger64(bitstream_t* stream, uint64_t n);
/**
* Encode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int encodeInteger32(bitstream_t* stream, int32_t n);
/**
* Encode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int encodeInteger64(bitstream_t* stream, int64_t n);
/**
* Encode a Float datatype as two consecutive Integers.
* The first Integer represents the mantissa of the floating point
* number and the second Integer represents the base-10 exponent
* of the floating point number.
*/
int encodeFloat(bitstream_t* stream, float_me_t* f);
/**
* Encode a length prefixed sequence of characters.
*/
int encodeString(bitstream_t* stream, string_ucs_t* string);
int encodeASCII(bitstream_t* stream, const char* ascii);
/**
* Encode a length prefixed sequence of characters in the sense of string tables
*/
int encodeStringValue(bitstream_t* stream, string_ucs_t* string);
/**
* Encode a sequence of characters according to a given length.
* Each character is represented by its UCS [ISO/IEC 10646]
* code point encoded as an Unsigned Integer
*/
int encodeUCSCharacters(bitstream_t* stream, uint32_t* chars, uint16_t len);
int encodeASCIICharacters(bitstream_t* stream, const char* chars, uint16_t len);
/**
* Encode a binary value as a length-prefixed sequence of octets.
*/
int encodeBinary(bitstream_t* stream, bytes_t* bytes);
/**
* Flush underlying bit output stream
*/
int encodeFinish(bitstream_t* stream);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,110 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "EXITypes.h"
#include "BitInputStream.h"
#ifndef BIT_INPUT_STREAM_C
#define BIT_INPUT_STREAM_C
/* internal method to (re)fill buffer */
int readBuffer(bitstream_t* stream)
{
int errn = 0;
if(stream->capacity==0)
{
#if EXI_STREAM == BYTE_ARRAY
if ( (*stream->pos) < stream->size ) {
stream->buffer = stream->data[(*stream->pos)++];
stream->capacity = BITS_IN_BYTE;
} else {
errn = EXI_ERROR_INPUT_STREAM_EOF;
}
#endif
#if EXI_STREAM == FILE_STREAM
stream->buffer = getc(stream->file);
/* EOF cannot be used, 0xFF valid value */
if ( feof(stream->file) || ferror(stream->file) ) {
return EXI_ERROR_INPUT_STREAM_EOF;
}
stream->capacity = BITS_IN_BYTE;
#endif
}
return errn;
}
int readBits(bitstream_t* stream, uint16_t num_bits, uint32_t* b)
{
int errn = readBuffer(stream);
if (errn < 0) {
return errn;
}
/* read the bits in one step */
if(num_bits <= stream->capacity)
{
stream->capacity -= num_bits;
*b = (stream->buffer >> stream->capacity) & (0xff >> (BITS_IN_BYTE - num_bits));
}
else
{
/* read bits as much as possible */
*b = stream->buffer & (0xff >> (BITS_IN_BYTE - stream->capacity));
num_bits -= stream->capacity;
stream->capacity = 0;
/* read whole bytes */
while(num_bits >= 8)
{
errn = readBuffer(stream);
if (errn < 0) {
return errn;
}
*b = ((*b) << BITS_IN_BYTE) | stream->buffer;
num_bits -= BITS_IN_BYTE;
stream->capacity = 0;
}
/* read the spare bits in the buffer */
if(num_bits>0)
{
errn = readBuffer(stream);
if (errn < 0) {
return errn;
}
*b = ((*b) << num_bits) | (stream->buffer >> (BITS_IN_BYTE - num_bits));
stream->capacity = BITS_IN_BYTE - num_bits;
}
}
return errn;
}
#endif

View file

@ -1,48 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
#ifndef BIT_INPUT_STREAM_H
#define BIT_INPUT_STREAM_H
int readBits(bitstream_t* stream, uint16_t num_bits, uint32_t* b);
int flush();
#endif
#ifdef __cplusplus
}
#endif

View file

@ -1,118 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "EXITypes.h"
#include "BitOutputStream.h"
#ifndef BIT_OUTPUT_STREAM_C
#define BIT_OUTPUT_STREAM_C
/* NOTE: nbits <= 8 */
int writeBits(bitstream_t* stream, uint16_t nbits, uint32_t val) {
/* is there enough space in the buffer */
if (nbits <= stream->capacity) {
/* all bits fit into the current buffer */
stream->buffer = (stream->buffer << (nbits)) | (val & (0xff
>> (BITS_IN_BYTE - nbits)));
stream->capacity -= nbits;
/* if the buffer is full write byte */
if (stream->capacity == 0) {
#if EXI_STREAM == BYTE_ARRAY
if ((*stream->pos) >= stream->size) {
return EXI_ERROR_OUTPUT_STREAM_EOF;
}
stream->data[(*stream->pos)++] = stream->buffer;
#endif
#if EXI_STREAM == FILE_STREAM
if ( putc(stream->buffer, stream->file) == EOF ) {
return EXI_ERROR_OUTPUT_STREAM_EOF;
}
#endif
stream->capacity = BITS_IN_BYTE;
stream->buffer = 0;
}
} else {
/* the buffer is not enough
* fill the buffer */
stream->buffer = (stream->buffer << stream->capacity) | ((val >> (nbits
- stream->capacity)) & (0xff >> (BITS_IN_BYTE
- stream->capacity)));
nbits -= stream->capacity;
#if EXI_STREAM == BYTE_ARRAY
if ((*stream->pos) >= stream->size) {
return EXI_ERROR_OUTPUT_STREAM_EOF;
}
stream->data[(*stream->pos)++] = stream->buffer;
#endif
#if EXI_STREAM == FILE_STREAM
if ( putc(stream->buffer, stream->file) == EOF ) {
return EXI_ERROR_OUTPUT_STREAM_EOF;
}
#endif
stream->buffer = 0;
/* write whole bytes */
while (nbits >= BITS_IN_BYTE) {
nbits -= BITS_IN_BYTE;
#if EXI_STREAM == BYTE_ARRAY
if ((*stream->pos) >= stream->size) {
return EXI_ERROR_OUTPUT_STREAM_EOF;
}
stream->data[(*stream->pos)++] = (val >> (nbits));
#endif
#if EXI_STREAM == FILE_STREAM
if ( putc((val >> (nbits)), stream->file) == EOF ) {
return EXI_ERROR_OUTPUT_STREAM_EOF;
}
#endif
}
/* spared bits are kept in the buffer */
stream->buffer = val; /* Note: the high bits will be shifted out during further filling */
stream->capacity = BITS_IN_BYTE - (nbits);
}
return 0;
}
/**
* Flush output
*/
int flush(bitstream_t* stream) {
if (stream->capacity == BITS_IN_BYTE) {
/* nothing to do, no bits in buffer */
return 0;
} else {
return writeBits(stream, stream->capacity, 0);
}
}
#endif

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@ -1,52 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include <stdint.h>
#include "EXITypes.h"
#ifndef BIT_OUTPUT_STREAM_H
#define BIT_OUTPUT_STREAM_H
int writeBits(bitstream_t* stream, uint16_t nbits, uint32_t bits);
/* flush output */
int flush(bitstream_t* stream);
#endif
#ifdef __cplusplus
}
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "DecoderChannel.h"
#include "CoderChannel.h"
#include "BitInputStream.h"
#include "EXITypes.h"
#ifndef BYTE_DECODER_CHANNEL_C
#define BYTE_DECODER_CHANNEL_C
#if EXI_ALIGNMENT == BYTE_ALIGNMENT
int decode(bitstream_t* stream, uint8_t* b) {
int errn = 0;
#if EXI_STREAM == BYTE_ARRAY
if ( (*stream->pos) < stream->size ) {
*b = stream->data[(*stream->pos)++];
} else {
errn = EXI_ERROR_INPUT_STREAM_EOF;
}
#endif /* EXI_STREAM == BYTE_ARRAY */
#if EXI_STREAM == FILE_STREAM
*b = getc(stream->file);
/* EOF cannot be used, 0xFF valid value */
if ( feof(stream->file) || ferror(stream->file) ) {
return EXI_ERROR_INPUT_STREAM_EOF;
}
#endif /* EXI_STREAM == FILE_STREAM */
return errn;
}
int decodeBoolean(bitstream_t* stream, int* b) {
uint8_t bb;
int errn = decode(stream, &bb);
*b = (bb == 0) ? 0 : 1;
return errn;
}
/**
* Decodes and returns an n-bit unsigned integer using the minimum number of
* bytes required for n bits.
*/
int decodeNBitUnsignedInteger(bitstream_t* stream, uint16_t nbits, uint32_t* uint32) {
uint16_t bitsRead = 0;
uint8_t b;
int errn = 0;
*uint32 = 0;
while (bitsRead < nbits) {
errn = decode(stream, &b);
if (errn != 0) {
return errn;
}
*uint32 += (b << bitsRead);
bitsRead += 8;
}
return errn;
}
#endif
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "EncoderChannel.h"
#include "CoderChannel.h"
#include "BitOutputStream.h"
#include "EXITypes.h"
#include "MethodsBag.h"
#ifndef BYTE_ENCODER_CHANNEL_C
#define BYTE_ENCODER_CHANNEL_C
#if EXI_ALIGNMENT == BYTE_ALIGNMENT
int encode(bitstream_t* stream, uint8_t b) {
#if EXI_STREAM == BYTE_ARRAY
if ( (*stream->pos) < stream->size ) {
stream->data[(*stream->pos)++] = b;
return 0;
} else {
return EXI_ERROR_OUTPUT_STREAM_EOF;
}
#endif /* EXI_STREAM == BYTE_ARRAY */
#if EXI_STREAM == FILE_STREAM
if ( putc(b, stream->file) == EOF ) {
return EXI_ERROR_OUTPUT_STREAM_EOF;
} else {
return 0;
}
#endif /* EXI_STREAM == FILE_STREAM */
}
/**
* Encode a single boolean value. A false value is encoded as byte 0 and true
* value is encode as byte 1.
*/
int encodeBoolean(bitstream_t* stream, int b) {
uint8_t val = b ? 1 : 0;
return encode(stream, val);
}
/**
* Encode n-bit unsigned integer. The n least significant bits of parameter
* b starting with the most significant, i.e. from left to right.
*/
int encodeNBitUnsignedInteger(bitstream_t* stream, uint16_t nbits, uint32_t val) {
if (nbits > 0) {
if (nbits < 9) {
/* 1 byte */
encode(stream, val & 0xff);
} else if (nbits < 17) {
/* 2 bytes */
encode(stream, val & 0x00ff);
encode(stream, (val & 0xff00) >> 8);
} else if (nbits < 25) {
/* 3 bytes */
encode(stream, val & 0x0000ff);
encode(stream, (val & 0x00ff00) >> 8);
encode(stream, (val & 0xff0000) >> 16);
} else if (nbits < 33) {
/* 4 bytes */
encode(stream, val & 0x000000ff);
encode(stream, (val & 0x0000ff00) >> 8);
encode(stream, (val & 0x00ff0000) >> 16);
encode(stream, (val & 0xff000000) >> 24);
} else {
/* TODO Currently not more than 4 Bytes allowed for NBitUnsignedInteger */
return EXI_UNSUPPORTED_NBIT_INTEGER_LENGTH;
}
}
return 0;
}
/**
* Flush underlying bit output stream.
*/
int encodeFinish(bitstream_t* stream) {
/* no pending bits in byte-aligned mode */
return 0;
}
#endif /* alignment */
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#define _CRT_SECURE_NO_DEPRECATE 1
#include "EXITypes.h"
#ifndef BYTE_STREAM_C
#define BYTE_STREAM_C
int readBytesFromFile(const char * filename, uint8_t* data, uint32_t size, uint32_t pos) {
FILE* f;
int character;
f = fopen(filename, "rb");
if (f == NULL) {
return EXI_ERROR_INPUT_FILE_HANDLE;
} else {
/* read bytes */
while ((character = getc(f)) != EOF) {
if (pos >= size) {
return EXI_ERROR_OUT_OF_BYTE_BUFFER;
}
data[pos++] = (uint8_t) character;
}
fclose(f);
}
return pos;
}
int writeBytesToFile(uint8_t* data, uint32_t len, const char * filename) {
uint16_t rlen;
FILE* f = fopen(filename, "wb+");
if (f == NULL) {
return -1;
} else {
rlen = fwrite(data, sizeof(uint8_t), len, f);
fflush(f);
fclose(f);
if(rlen == len) {
return 0;
} else {
return EXI_ERROR_OUTPUT_FILE;
}
}
}
#endif

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@ -1,48 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
#ifndef BYTE_STREAM_H
#define BYTE_STREAM_H
int writeBytesToFile(uint8_t* data, uint32_t len, const char * filename);
int readBytesFromFile(const char * filename, uint8_t* data, uint32_t size, uint32_t pos);
#endif
#ifdef __cplusplus
}
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
#ifndef CODER_CHANNEL_H
#define CODER_CHANNEL_H
/* EXI alignment mode */
#define BIT_PACKED 1
#define BYTE_ALIGNMENT 2
#define EXI_ALIGNMENT BIT_PACKED
#endif
#ifdef __cplusplus
}
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
#include "CoderChannel.h"
#ifndef DECODER_CHANNEL_H
#define DECODER_CHANNEL_H
/**
* Decode a byte value.
*/
int decode(bitstream_t* stream, uint8_t* b);
/**
* Decode a single boolean value. The value false is represented by the bit
* 0, and the value true is represented by the bit 1.
*/
int decodeBoolean(bitstream_t* stream, int* b);
/**
* Decodes and returns an n-bit unsigned integer.
*/
int decodeNBitUnsignedInteger(bitstream_t* stream, uint16_t nbits, uint32_t* uint32);
/**
* Decode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int decodeUnsignedInteger(bitstream_t* stream, integer_t* iv);
/**
* Decode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int decodeUnsignedInteger16(bitstream_t* stream, uint16_t* uint16);
/**
* Decode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int decodeUnsignedInteger32(bitstream_t* stream, uint32_t* uint32);
/**
* Decode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int decodeUnsignedInteger64(bitstream_t* stream, uint64_t* uint64);
/**
* Decode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int decodeInteger(bitstream_t* stream, integer_t* iv);
/**
* Decode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int decodeInteger32(bitstream_t* stream, int32_t* int32);
/**
* Decode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int decodeInteger64(bitstream_t* stream, int64_t* int64);
/**
* Decode a Float datatype as two consecutive Integers.
* The first Integer represents the mantissa of the floating point
* number and the second Integer represents the base-10 exponent
* of the floating point number.
*/
int decodeFloat(bitstream_t* stream, float_me_t* f);
/**
* Decode a decimal represented as a Boolean sign followed by two Unsigned
* Integers. A sign value of zero (0) is used to represent positive Decimal
* values and a sign value of one (1) is used to represent negative Decimal
* values The first Integer represents the integral portion of the Decimal
* value. The second positive integer represents the fractional portion of
* the decimal with the digits in reverse order to preserve leading zeros.
*/
int decodeDecimal(bitstream_t* stream, decimal_t* d);
/**
* Decode a sequence of characters for a given length.
*/
int decodeStringOnly(bitstream_t* stream, uint16_t len, string_ucs_t* s);
/**
* Decode a length prefixed sequence of characters.
*/
int decodeString(bitstream_t* stream, string_ucs_t* s);
int decodeStringASCII(bitstream_t* stream, string_ascii_t* s);
/**
* Decode a length prefixed sequence of characters in the sense of string tables.
* length == 0, local value partition hit
* length == 1, global value partition hit
* --> string literal is encoded as a String with the length incremented by two
*/
int decodeStringValue(bitstream_t* stream, string_ucs_t* s);
/**
* Restricted character set
*/
int decodeRCSStringValue(bitstream_t* stream, rcs_t* rcs, string_ucs_t* s);
/**
* Decode a sequence of characters according to a given length.
*/
int decodeCharacters(bitstream_t* stream, uint16_t len, uint32_t* chars);
int decodeCharactersASCII(bitstream_t* stream, uint16_t len, char* chars);
/**
* Decode a binary value as a length-prefixed sequence of octets.
*/
int decodeBinary(bitstream_t* stream, bytes_t* bytes);
/**
* Decode Date-Time as sequence of values representing the individual
* components of the Date-Time.
*/
int decodeDateTime(bitstream_t* stream, exi_datetime_type_t type, datetime_t* datetime);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,65 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef EXI_CODER_H
#define EXI_CODER_H
#include "EXITypes.h"
#define IS_STRICT 0
#define DOCUMENT 0
#define DOC_CONTENT 1
#define DOC_END 2
#define UR_TYPE_GRAMMAR_0 97
#define UR_TYPE_GRAMMAR_1 809
int exiPushStack(exi_state_t* state, uint16_t newState, eqname_t* eqn);
int exiPopStack(exi_state_t* state);
int exiHandleXsiNilTrue(exi_state_t* state);
int exiHandleXsiType(exi_state_t* state, eqname_t* xsiType);
int exiIsStartContent(int16_t ruleID);
int exiMoveToElementContentRule(exi_state_t* state);
#endif
#ifdef __cplusplus
}
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef EXI_DECODER_H
#define EXI_DECODER_H
#include "EXITypes.h"
int exiInitDecoder(bitstream_t* stream, exi_state_t* state, exi_name_table_runtime_t runtimeTable);
int exiDecodeNextEvent(bitstream_t* stream, exi_state_t* state,
exi_event_t* nextEvent);
int exiDecodeStartDocument(bitstream_t* stream, exi_state_t* state);
int exiDecodeEndDocument(bitstream_t* stream, exi_state_t* state);
int
exiDecodeStartElement(bitstream_t* stream, exi_state_t* state,
eqname_t* se);
int exiDecodeStartElementGeneric(bitstream_t* stream, exi_state_t* state,
qname_t* qname);
int exiDecodeEndElement(bitstream_t* stream, exi_state_t* state, eqname_t* ee);
int exiDecodeEndElementUndeclared(bitstream_t* stream, exi_state_t* state, eqname_t* ee);
int exiDecodeCharacters(bitstream_t* stream, exi_state_t* state,
exi_value_t* val);
int exiDecodeCharactersGeneric(bitstream_t* stream, exi_state_t* state,
exi_value_t* val);
int exiDecodeCharactersGenericUndeclared(bitstream_t* stream, exi_state_t* state,
exi_value_t* val);
int exiDecodeAttribute(bitstream_t* stream, exi_state_t* state, eqname_t* at,
exi_value_t* val);
int exiDecodeAttributeXsiNil(bitstream_t* stream, exi_state_t* state,
exi_value_t* val);
int exiDecodeAttributeXsiType(bitstream_t* stream, exi_state_t* state,
exi_value_t* val);
int exiDecodeAttributeGenericUndeclared(bitstream_t* stream, exi_state_t* state, qname_t* at,
exi_value_t* val);
#endif
#ifdef __cplusplus
}
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef EXI_ENCODER_H
#define EXI_ENCODER_H
#include "EXITypes.h"
int exiInitEncoder(bitstream_t* stream, exi_state_t* state, exi_name_table_runtime_t runtimeTable);
int exiEncodeStartDocument(bitstream_t* stream, exi_state_t* state);
int exiEncodeEndDocument(bitstream_t* stream, exi_state_t* state);
int
exiEncodeStartElement(bitstream_t* stream, exi_state_t* state,
eqname_t* se);
int exiEncodeStartElementGeneric(bitstream_t* stream, exi_state_t* state,
string_ascii_t* namespaceURI, string_ascii_t* localName);
int exiEncodeEndElement(bitstream_t* stream, exi_state_t* state);
int exiEncodeCharacters(bitstream_t* stream, exi_state_t* state,
exi_value_t* val);
int exiEncodeAttribute(bitstream_t* stream, exi_state_t* state, eqname_t* at,
exi_value_t* val);
int exiEncodeAttributeXsiNil(bitstream_t* stream, exi_state_t* state,
exi_value_t* val);
int exiEncodeAttributeXsiType(bitstream_t* stream, exi_state_t* state,
exi_value_t* val);
#endif
#ifdef __cplusplus
}
#endif

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/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "EXIHeaderDecoder.h"
#include "BitInputStream.h"
#include "DecoderChannel.h"
#ifndef EXI_HEADER_DECODER_C
#define EXI_HEADER_DECODER_C
int readEXIHeader(bitstream_t* stream) {
uint32_t header = 0;
int errn = readBits(stream, 8, &header);
if (errn < 0) {
return errn;
}
if(header == '$') {
/* we do not support "EXI Cookie" */
errn = EXI_UNSUPPORTED_HEADER_COOKIE;
} else if ( header & 0x20 ) {
/* we do not support "Presence Bit for EXI Options" */
errn = EXI_UNSUPPORTED_HEADER_OPTIONS;
} else {
/* Yes, a *simple* header */
errn = 0;
}
return errn;
}
#endif

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@ -1,46 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
#ifndef EXI_HEADER_DECODER_H
#define EXI_HEADER_DECODER_H
int readEXIHeader(bitstream_t* stream);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,44 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include "EXIHeaderEncoder.h"
#include "BitOutputStream.h"
#include "EncoderChannel.h"
#ifndef EXI_HEADER_ENCODER_C
#define EXI_HEADER_ENCODER_C
int writeEXIHeader(bitstream_t* stream) {
return writeBits(stream, 8, 128);
}
#endif

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@ -1,46 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
#ifndef EXI_HEADER_ENCODER_H
#define EXI_HEADER_ENCODER_H
int writeEXIHeader(bitstream_t* stream);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,423 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include <stdint.h>
#include <stdio.h>
#ifndef EXI_TYPES_H
#define EXI_TYPES_H
#define BITS_IN_BYTE 8
#define DATETIME_YEAR_OFFSET 2000
#define DATETIME_NUMBER_BITS_MONTHDAY 9
#define DATETIME_NUMBER_BITS_TIME 17
#define DATETIME_NUMBER_BITS_TIMEZONE 11
#define DATETIME_MONTH_MULTIPLICATOR 32
#define DATETIME_TIMEZONE_OFFSET_IN_MINUTES 896
#define UINT_MAX_VALUE 65535
/* EXI stream */
#define BYTE_ARRAY 1
#define FILE_STREAM 2
#define EXI_STREAM BYTE_ARRAY
/* #define EXI_STREAM FILE_STREAM */
#define EXI_ELEMENT_STACK_SIZE 16
#define FLOAT_EXPONENT_SPECIAL_VALUES -16384
#define FLOAT_MANTISSA_INFINITY 1
#define FLOAT_MANTISSA_MINUS_INFINITY -1
#define FLOAT_MANTISSA_NOT_A_NUMBER 0
typedef struct {
#if EXI_STREAM == BYTE_ARRAY
/* Byte Array */
uint32_t size; /* array size */
uint8_t* data; /* int data array */
uint32_t* pos; /* next position in array */
#endif
#if EXI_STREAM == FILE_STREAM
/* FILE */
FILE *file;
#endif
/* Current byte buffer & its remaining bit capacity */
uint8_t buffer;
uint8_t capacity;
} bitstream_t;
typedef enum {
/* Binary */
BINARY_BASE64,
BINARY_HEX,
/* Boolean */
BOOLEAN,
BOOLEAN_FACET,
/* Decimal */
DECIMAL,
/* Float & Double */
FLOAT,
/* N-Bit Unsigned Integer */
NBIT_UNSIGNED_INTEGER,
/* Unsigned Integer */
UNSIGNED_INTEGER,
/* (Signed) Integer */
INTEGER,
/* Datetime */
DATETIME,
/* String */
STRING,
/* Restricted Character Set String */
RCS_STRING,
/* Enumeration */
ENUMERATION,
/* List */
LIST
} exi_datatype_t;
typedef enum {
/* Unsigned Integer */
UNSIGNED_INTEGER_8,
UNSIGNED_INTEGER_16,
UNSIGNED_INTEGER_32,
UNSIGNED_INTEGER_64,
/* (Signed) Integer */
INTEGER_8,
INTEGER_16,
INTEGER_32,
INTEGER_64
} exi_integer_type_t;
typedef enum {
START_DOCUMENT,
END_DOCUMENT,
START_ELEMENT,
START_ELEMENT_GENERIC,
START_ELEMENT_GENERIC_UNDECLARED,
END_ELEMENT,
END_ELEMENT_UNDECLARED,
CHARACTERS,
CHARACTERS_GENERIC,
CHARACTERS_GENERIC_UNDECLARED,
ATTRIBUTE_XSI_TYPE,
ATTRIBUTE_XSI_NIL,
ATTRIBUTE,
ATTRIBUTE_GENERIC,
ATTRIBUTE_INVALID_VALUE,
ATTRIBUTE_ANY_INVALID_VALUE,
ATTRIBUTE_GENERIC_UNDECLARED,
/* error state */
ERROR
} exi_event_t;
/* differ datetime types */
typedef enum {
exiGYear, exiGYearMonth, exiDate, exiDateTime, exiGMonth, exiGMonthDay, exiGDay, exiTime
} exi_datetime_type_t;
typedef struct {
/* Bytes Size and array container */
uint16_t size;
uint8_t* data;
/* current length (len <= size) */
uint16_t len;
} bytes_t;
/* Universal Character Set (UCS) strings */
typedef struct {
/* UCS size and UCS character container*/
uint16_t size;
uint32_t* codepoints;
/* current length == number of code-points, (len <= size) */
uint16_t len;
} string_ucs_t;
/* Restricted Characeter Set */
typedef struct {
/* size and UCS character codep*/
uint16_t size;
/* rcs codepoints */
uint32_t* codepoints;
/* character coding length*/
uint8_t codingLength; /* less than 256 characters */
} rcs_t;
/* ASCII strings */
typedef struct {
/* size of String array */
uint16_t size;
char* chars;
/* current length can be retrieved by calling strlen(chars)*/
} string_ascii_t;
typedef struct {
exi_integer_type_t type;
union {
/* unsigned values */
int8_t int8;
int16_t int16;
int32_t int32;
int32_t int64;
/* (signed) values */
uint8_t uint8;
uint16_t uint16;
uint32_t uint32;
uint64_t uint64;
} val;
} integer_t;
typedef struct {
/* range of the mantissa is -(2^63) to 2^63-1 */
int64_t mantissa;
/* range of the exponent is - (2^14-1) to 2^14-1 */
int32_t exponent; /* base-10 */
} float_me_t;
typedef struct {
/* a sign value */
int negative;
/* represents the integral portion of the Decimal */
integer_t integral;
/* represents the fractional portion of the Decimal with the digits in reverse order to preserve leading zeros */
integer_t reverseFraction;
} decimal_t;
typedef struct {
/* datetime type */
exi_datetime_type_t type;
/* values */
int32_t year;
uint32_t monthDay;
uint32_t time;
int presenceFractionalSecs;
uint32_t fractionalSecs;
int presenceTimezone;
uint32_t timezone;
} datetime_t;
/* TODO list support */
typedef struct {
/* list item type */
exi_datatype_t type;
/* number of items */
uint16_t len;
/* List container with memory size */
uint16_t size;
uint8_t* data;
} list_t;
/* efficient ID qname */
typedef struct {
uint16_t namespaceURI;
uint16_t localPart;
} eqname_t;
/* ascii qname */
typedef struct {
string_ascii_t namespaceURI;
string_ascii_t localName;
} qname_t;
/* ==================================== */
/* LocalName Entries */
struct exiNamePartition {
/* length of array */
uint16_t len;
/* array of string entries */
char** names;
};
typedef struct exiNameTablePrepopulated {
/* length of both arrays (uris & localNames) */
uint16_t len;
/* URI entries*/
char** uris;
/* localName entries divided by URI */
struct exiNamePartition * localNames;
} exi_name_table_prepopulated_t;
#define EXI_MAXIMUM_NUMBER_OF_NAME_PARTITION_CHARACTERS 500
#define EXI_MAXIMUM_NUMBER_OF_NAME_PARTITION_ENTRIES 25
#define EXI_RESERVED_NUMBER_URI_PARTITION_ENTRIES 5
#define EXI_RESERVED_NUMBER_LOCALNAME_PARTITION_ENTRIES 10
typedef enum {
URI_PARTITION,
LOCALNAME_PARTITION
} exi_name_partition_type_t;
typedef struct {
char* uri;
uint16_t uriID;
} exi_uri_partition_t;
typedef struct {
char* localName;
uint16_t localNameID;
uint16_t uriID;
} exi_localname_partition_t;
typedef struct {
exi_name_partition_type_t namePartitionType;
struct
{
exi_uri_partition_t uriPartition;
exi_localname_partition_t localNamePartition;
} entry;
} exi_name_partition_t;
typedef struct exiNameTableRuntime {
/* maximum number of characters in the name partitions entries PLUS null terminators */
char characters[EXI_MAXIMUM_NUMBER_OF_NAME_PARTITION_CHARACTERS + EXI_MAXIMUM_NUMBER_OF_NAME_PARTITION_ENTRIES];
uint16_t numberOfUsedCharacters; /* initially zero <= EXI_MAXIMUM_NUMBER_OF_NAME_PARTITION_CHARACTERS */
/* maximum number of name partitions entries. Name partitions entries consist in all uri, and local-name partition entries */
exi_name_partition_t namePartitionsEntries[EXI_MAXIMUM_NUMBER_OF_NAME_PARTITION_ENTRIES];
/* uint16_t numberOfUsedNamePartitions; */ /* initially zero */
/* added entries */
uint16_t addedUriEntries; /* initially zero */
uint16_t addedLocalNameEntries; /* initially zero */
} exi_name_table_runtime_t;
typedef struct {
/* stack of grammar states */
int16_t grammarStack[EXI_ELEMENT_STACK_SIZE];
/* stack of grammar elements */
eqname_t elementStack[EXI_ELEMENT_STACK_SIZE];
uint16_t stackIndex;
/* event-code */
uint32_t eventCode;
/* string table entries */
exi_name_table_prepopulated_t nameTablePrepopulated;
exi_name_table_runtime_t nameTableRuntime;
} exi_state_t;
typedef struct {
/* type of value */
exi_datatype_t type;
/* base types */
int boolean;
integer_t integer;
/*uint16_t uint8;
uint16_t uint16;
uint32_t uint32;
uint64_t uint64;
int8_t int8;
int16_t int16;
int32_t int32;
int64_t int64;*/
uint32_t enumeration;
/* Bytes, Strings and Lists are not native types anymore */
bytes_t binary;
string_ucs_t string;
float_me_t float_me;
decimal_t decimal;
datetime_t datetime;
list_t list;
eqname_t eqname;
} exi_value_t;
/*
* ERROR-Codes
*/
#define EXI_ERROR_INPUT_STREAM_EOF -10
#define EXI_ERROR_OUTPUT_STREAM_EOF -11
#define EXI_ERROR_INPUT_FILE_HANDLE -12
#define EXI_ERROR_OUTPUT_FILE -13
#define EXI_ERROR_OUT_OF_BOUNDS -100
#define EXI_ERROR_OUT_OF_STRING_BUFFER -101
#define EXI_ERROR_OUT_OF_ASCII_BUFFER -102
#define EXI_ERROR_OUT_OF_BYTE_BUFFER -103
#define EXI_ERROR_OUT_OF_GRAMMAR_STACK -104
#define EXI_ERROR_UNKOWN_EVENT -109
#define EXI_ERROR_UNKOWN_EVENT_CODE -110
#define EXI_ERROR_UNEXPECTED_EVENT_LEVEL1 -111
#define EXI_ERROR_UNEXPECTED_EVENT_LEVEL2 -112
#define EXI_ERROR_UNEXPECTED_START_DOCUMENT -113
#define EXI_ERROR_UNEXPECTED_END_DOCUMENT -114
#define EXI_ERROR_UNEXPECTED_START_ELEMENT -115
#define EXI_ERROR_UNEXPECTED_START_ELEMENT_GENERIC -116
#define EXI_ERROR_UNEXPECTED_END_ELEMENT -117
#define EXI_ERROR_UNEXPECTED_CHARACTERS -118
#define EXI_ERROR_UNEXPECTED_ATTRIBUTE -119
#define EXI_ERROR_UNEXPECTED_ATTRIBUTE_XSI_TYPE -120
#define EXI_ERROR_UNEXPECTED_ATTRIBUTE_XSI_NIL -121
#define EXI_ERROR_UNEXPECTED_GRAMMAR_ID -122
#define EXI_ERROR_UNEXPECTED_ATTRIBUTE_MOVE_TO_CONTENT_RULE -123
#define EXI_UNSUPPORTED_STRING_TABLE_LOCAL_HIT -130
#define EXI_UNSUPPORTED_STRING_TABLE_GLOBAL_HIT -131
#define EXI_UNSUPPORTED_NBIT_INTEGER_LENGTH -132
#define EXI_UNSUPPORTED_EVENT_CODE_CHARACTERISTICS -133
#define EXI_UNSUPPORTED_INTEGER_VALUE_TYPE -134
#define EXI_UNSUPPORTED_INTEGER_VALUE -135
#define EXI_NEGATIVE_UNSIGNED_INTEGER_VALUE -136
#define EXI_UNSUPPORTED_LIST_VALUE_TYPE -137
#define EXI_UNSUPPORTED_HEADER_COOKIE -138
#define EXI_UNSUPPORTED_HEADER_OPTIONS -139
#define EXI_ERROR_UNEXPECTED_BYTE_VALUE -200
#define EXI_ERROR_UNEXPECTED_DATETIME_TYPE -201
#define EXI_ERROR_CONVERSION_NO_ASCII_CHARACTERS -300
#define EXI_ERROR_CONVERSION_TYPE_TO_STRING -301
#endif
#ifdef __cplusplus
}
#endif

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@ -1,180 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
#ifndef ENCODER_CHANNEL_H
#define ENCODER_CHANNEL_H
/**
* Encode a byte value.
*/
int encode(bitstream_t* stream, uint8_t b);
/**
* Encode a single boolean value. A false value is encoded as 0 and true
* value is encode as 1.
*/
int encodeBoolean(bitstream_t* stream, int b);
/**
* Encode n-bit unsigned integer. The n least significant bits of parameter
* b starting with the most significant, i.e. from left to right.
*/
int encodeNBitUnsignedInteger(bitstream_t* stream, uint16_t nbits, uint32_t val);
/**
* Encode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int encodeUnsignedInteger(bitstream_t* stream, integer_t* iv);
/**
* Encode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int encodeUnsignedInteger32(bitstream_t* stream, uint32_t n);
/**
* Encode an arbitrary precision non negative integer using a sequence of
* octets. The most significant bit of the last octet is set to zero to
* indicate sequence termination. Only seven bits per octet are used to
* store the integer's value.
*/
int encodeUnsignedInteger64(bitstream_t* stream, uint64_t n);
/**
* Encode an arbitrary precision integer using a sign boolean followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int encodeInteger(bitstream_t* stream, integer_t* iv);
/**
* Encode an arbitrary precision integer using a sign boolean followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int encodeInteger32(bitstream_t* stream, int32_t n);
/**
* Encode an arbitrary precision integer using a sign bit followed by a
* sequence of octets. The most significant bit of the last octet is set to
* zero to indicate sequence termination. Only seven bits per octet are used
* to store the integer's value.
*/
int encodeInteger64(bitstream_t* stream, int64_t n);
/**
* Encode a Float datatype as two consecutive Integers.
* The first Integer represents the mantissa of the floating point
* number and the second Integer represents the base-10 exponent
* of the floating point number.
*/
int encodeFloat(bitstream_t* stream, float_me_t* f);
/**
* Encode a decimal represented as a Boolean sign followed by two Unsigned
* Integers. A sign value of zero (0) is used to represent positive Decimal
* values and a sign value of one (1) is used to represent negative Decimal
* values The first Integer represents the integral portion of the Decimal
* value. The second positive integer represents the fractional portion of
* the decimal with the digits in reverse order to preserve leading zeros.
*/
int encodeDecimal(bitstream_t* stream, decimal_t* d);
/**
* Encode a length prefixed sequence of characters.
*/
int encodeString(bitstream_t* stream, string_ucs_t* string);
int encodeASCII(bitstream_t* stream, const char* ascii);
/**
* Encode a length prefixed sequence of characters in the sense of string tables
*/
int encodeStringValue(bitstream_t* stream, string_ucs_t* string);
/**
* Restricted character set
*/
int encodeRCSStringValue(bitstream_t* stream, rcs_t* rcs, string_ucs_t* string);
/**
* Encode a sequence of characters according to a given length.
* Each character is represented by its UCS [ISO/IEC 10646]
* code point encoded as an Unsigned Integer
*/
int encodeUCSCharacters(bitstream_t* stream, uint32_t* chars, uint16_t len);
int encodeASCIICharacters(bitstream_t* stream, const char* chars, uint16_t len);
/**
* Encode a binary value as a length-prefixed sequence of octets.
*/
int encodeBinary(bitstream_t* stream, bytes_t* bytes);
/**
* Encode a datetime representation which is a sequence of values
* representing the individual components of the Date-Time
*/
int encodeDateTime(bitstream_t* stream, datetime_t* datetime);
/**
* Flush underlying bit output stream
*/
int encodeFinish(bitstream_t* stream);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,106 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifndef METHODS_BAG_C
#define METHODS_BAG_C
#include "MethodsBag.h"
#include "EXITypes.h"
static const int smallLengths[] = { 0, 0, 1, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 4,
4, 4, 4 };
int exiGetCodingLength(uint32_t characteristics, uint16_t* codingLength) {
if (characteristics < 17) {
*codingLength = smallLengths[characteristics];
return 0;
} else if (characteristics < 33) {
/* 17 .. 32 */
*codingLength = 5;
return 0;
} else if (characteristics < 65) {
/* 33 .. 64 */
*codingLength = 6;
return 0;
} else if (characteristics < 129) {
/* 65 .. 128 */
*codingLength = 7;
return 0;
} else if (characteristics < 257) {
/* 129 .. 256 */
*codingLength = 8;
return 0;
} else if (characteristics < 513) {
/* 257 .. 512 */
*codingLength = 9;
return 0;
} else if (characteristics < 1025) {
/* 513 .. 1024 */
*codingLength = 10;
return 0;
} else {
/*
return (int) Math.ceil(Math.log((double) (characteristics))
/ Math.log(2.0)); */
return EXI_UNSUPPORTED_EVENT_CODE_CHARACTERISTICS;
}
}
uint8_t numberOf7BitBlocksToRepresent(uint32_t n) {
/* assert (n >= 0); */
/* 7 bits */
if (n < 128) {
return 1;
}
/* 14 bits */
else if (n < 16384) {
return 2;
}
/* 21 bits */
else if (n < 2097152) {
return 3;
}
/* 28 bits */
else if (n < 268435456) {
return 4;
}
/* 35 bits */
else {
/* int, 32 bits */
return 5;
}
}
#endif

View file

@ -1,59 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifndef METHODS_BAG_H
#define METHODS_BAG_H
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
/**
* Returns the number of bits to identify the characteristics.
*
* @param characteristics
* @param codingLength (return value)
*
*/
int exiGetCodingLength(uint32_t characteristics, uint16_t* codingLength);
/**
* Returns the least number of 7 bit-blocks that is needed to represent the
* int <param>n</param>. Returns 1 if <param>n</param> is 0.
*
* @param n
* integer value
*
*/
uint8_t numberOf7BitBlocksToRepresent(uint32_t n);
#endif

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@ -1,185 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifndef NAME_TABLE_ENTRIES_C
#define NAME_TABLE_ENTRIES_C
#include "NameTableEntries.h"
/* ==================================== */
/* String Table Population */
/* localName entries for URI id = 0 */
char * localNames0[] = {
"Algorithm", "Encoding", "Id", "MimeType", "Target",
"Type", "URI"
};
/* localName entries for URI id = 1 */
char * localNames1[] = {
"base", "id", "lang", "space"
};
/* localName entries for URI id = 2 */
char * localNames2[] = {
"nil", "type"
};
/* localName entries for URI id = 3 */
char * localNames3[] = {
"ENTITIES", "ENTITY", "ID", "IDREF", "IDREFS",
"NCName", "NMTOKEN", "NMTOKENS", "NOTATION", "Name",
"QName", "anySimpleType", "anyType", "anyURI", "base64Binary",
"boolean", "byte", "date", "dateTime", "decimal",
"double", "duration", "float", "gDay", "gMonth",
"gMonthDay", "gYear", "gYearMonth", "hexBinary", "int",
"integer", "language", "long", "negativeInteger", "nonNegativeInteger",
"nonPositiveInteger", "normalizedString", "positiveInteger", "short", "string",
"time", "token", "unsignedByte", "unsignedInt", "unsignedLong",
"unsignedShort"
};
/* localName entries for URI id = 4 */
char * localNames4[] = {
"CanonicalizationMethod", "CanonicalizationMethodType", "CryptoBinary", "DSAKeyValue", "DSAKeyValueType",
"DigestMethod", "DigestMethodType", "DigestValue", "DigestValueType", "Exponent",
"G", "HMACOutputLength", "HMACOutputLengthType", "J", "KeyInfo",
"KeyInfoType", "KeyName", "KeyValue", "KeyValueType", "Manifest",
"ManifestType", "MgmtData", "Modulus", "Object", "ObjectType",
"P", "PGPData", "PGPDataType", "PGPKeyID", "PGPKeyPacket",
"PgenCounter", "Q", "RSAKeyValue", "RSAKeyValueType", "Reference",
"ReferenceType", "RetrievalMethod", "RetrievalMethodType", "SPKIData", "SPKIDataType",
"SPKISexp", "Seed", "Signature", "SignatureMethod", "SignatureMethodType",
"SignatureProperties", "SignaturePropertiesType", "SignatureProperty", "SignaturePropertyType", "SignatureType",
"SignatureValue", "SignatureValueType", "SignedInfo", "SignedInfoType", "Transform",
"TransformType", "Transforms", "TransformsType", "X509CRL", "X509Certificate",
"X509Data", "X509DataType", "X509IssuerName", "X509IssuerSerial", "X509IssuerSerialType",
"X509SKI", "X509SerialNumber", "X509SubjectName", "XPath", "Y"
};
/* localName entries for URI id = 5 */
char * localNames5[] = {
"AC_EVSEStatus", "AC_PEVStatus", "BulkChargingComplete", "CableCheckReq", "CableCheckReqType",
"CableCheckRes", "CableCheckResType", "CertificateInstallationReq", "CertificateInstallationReqType", "CertificateInstallationRes",
"CertificateInstallationResType", "CertificateUpdateReq", "CertificateUpdateReqType", "CertificateUpdateRes", "CertificateUpdateResType",
"ChargeCurrentRequest", "ChargeParameterDiscoveryReq", "ChargeParameterDiscoveryReqType", "ChargeParameterDiscoveryRes", "ChargeParameterDiscoveryResType",
"ChargeService", "ChargingComplete", "ChargingProfile", "ContractAuthenticationReq", "ContractAuthenticationReqType",
"ContractAuthenticationRes", "ContractAuthenticationResType", "ContractEncryptionCert", "ContractEncryptionCertChain", "ContractEncryptionPrivateKey",
"ContractID", "ContractSignatureCertChain", "ContractSignaturePrivateKey", "CurrentDemandReq", "CurrentDemandReqType",
"CurrentDemandRes", "CurrentDemandResType", "CurrentDifferential", "DC_EVSEStatus", "DC_PEVStatus",
"EVSECurrentLimitAchieved", "EVSEID", "EVSEMaxPower", "EVSEMaximumCurrentLimit", "EVSEMaximumPowerLimit",
"EVSEMaximumVoltageLimit", "EVSEPowerLimitAchieved", "EVSEPresentCurrent", "EVSEPresentVoltage", "EVSEVoltageLimitAchieved",
"EnergyProvider", "GenChallenge", "LineLockReq", "LineLockReqType", "LineLockRes",
"LineLockResType", "MeterInfo", "MeteringReceiptReq", "MeteringReceiptReqType", "MeteringReceiptRes",
"MeteringReceiptResType", "MeteringStatusReq", "MeteringStatusReqType", "MeteringStatusRes", "MeteringStatusResType",
"OEMProvisioningCert", "PCurrent", "PEVDemandCurrent", "PEVID", "PEVMaximumCurrentLimit",
"PEVMaximumPowerLimit", "PEVMaximumVoltageLimit", "PEVRESSVoltage", "PEVRequestedEnergyTransferType", "PEVTargetVoltage",
"PaymentDetailsReq", "PaymentDetailsReqType", "PaymentDetailsRes", "PaymentDetailsResType", "PaymentOptions",
"PowerDeliveryReq", "PowerDeliveryReqType", "PowerDeliveryRes", "PowerDeliveryResType", "PreChargeReq",
"PreChargeReqType", "PreChargeRes", "PreChargeResType", "ReceiptSignature", "RemainingTimeToBulkSoC",
"RemainingTimeToFullSoC", "ReqLockStatus", "ReqSwitchStatus", "ResponseCode", "RetryCounter",
"SelectedPaymentOption", "ServiceDetailReq", "ServiceDetailReqType", "ServiceDetailRes", "ServiceDetailResType",
"ServiceDiscoveryReq", "ServiceDiscoveryReqType", "ServiceDiscoveryRes", "ServiceDiscoveryResType", "ServiceID",
"ServiceList", "ServicePaymentSelectionReq", "ServicePaymentSelectionReqType", "ServicePaymentSelectionRes", "ServicePaymentSelectionResType",
"ServiceScope", "ServiceTag", "ServiceType", "SessionID", "SessionSetupReq",
"SessionSetupReqType", "SessionSetupRes", "SessionSetupResType", "TCurrent", "Tariff",
"TariffTable", "TerminateChargingReq", "TerminateChargingReqType", "TerminateChargingRes", "TerminateChargingResType",
"VoltageDifferential", "WeldingDetectionReq", "WeldingDetectionReqType", "WeldingDetectionRes", "WeldingDetectionResType",
"v2g_Service"
};
/* localName entries for URI id = 6 */
char * localNames6[] = {
"AC_EVSEChargeParameter", "AC_EVSEChargeParameterType", "AC_EVSEStatus", "AC_EVSEStatusType", "AC_PEVChargeParameter",
"AC_PEVChargeParameterType", "AC_PEVPowerDeliveryParameter", "AC_PEVPowerDeliveryParameterType", "AC_PEVStatus", "AC_PEVStatusType",
"AC_rcdType", "BulkChargingComplete", "BulkSOC", "Certificate", "CertificateChainType",
"CertificateInstall", "CertificateUpdate", "ChargingComplete", "ChargingProfileEntryMaxPower", "ChargingProfileEntryStart",
"ChargingProfileType", "ConnectorLocked", "Currency", "DC_BulkChargingCompleteType", "DC_ChargingCompleteType",
"DC_EVSEChargeParameter", "DC_EVSEChargeParameterType", "DC_EVSEStatus", "DC_EVSEStatusCodeType", "DC_EVSEStatusType",
"DC_PEVChargeParameter", "DC_PEVChargeParameterType", "DC_PEVPowerDeliveryParameter", "DC_PEVPowerDeliveryParameterType", "DC_PEVReadyType",
"DC_PEVStatus", "DC_PEVStatusCodeType", "DC_PEVStatusType", "DC_protocolVersionType", "EAmount",
"EPrice", "EPriceMultiplier", "EPriceType", "EPriceUnit", "EVSEChargeParameter",
"EVSEChargeParameterType", "EVSECurrentRegulationTolerance", "EVSEEnergyToBeDelivered", "EVSEMaxCurrent", "EVSEMaxPhases",
"EVSEMaxVoltage", "EVSEMaximumCurrentLimit", "EVSEMaximumPowerLimit", "EVSEMaximumVoltageLimit", "EVSEMinCurrent",
"EVSEMinVoltage", "EVSEMinimumCurrentLimit", "EVSEMinimumVoltageLimit", "EVSEPeakCurrentRipple", "EVSEProtocolVersion",
"EVSEStandby", "EVSEStatus", "EVSEStatusCode", "EVSEStatusType", "EVSESupportedEnergyTransferType",
"EnergyTransferType", "EoC", "FaultCode", "FaultMsg", "FloatingValueType",
"FreeService", "FullSOC", "MeterID", "MeterInfoType", "MeterPubKey",
"MeterReading", "MeterStatus", "Multiplier", "NotificationType", "PEVChargeParameter",
"PEVChargeParameterType", "PEVEnergyCapacity", "PEVEnergyRequest", "PEVMaxCurrent", "PEVMaxPhases",
"PEVMaxPower", "PEVMaxVoltage", "PEVMaximumCurrentLimit", "PEVMaximumPowerLimit", "PEVMaximumVoltageLimit",
"PEVMinCurrent", "PEVMinVoltage", "PEVPowerDeliveryParameter", "PEVPowerDeliveryParameterType", "PEVProtocolVersion",
"PEVRESSSOC", "PEVReady", "PEVRequestedEnergyTransferType", "PEVStandby", "PEVStatus",
"PEVStatusCode", "PEVStatusType", "PMaxType", "PaymentOption", "PowerSwitchClosed",
"ProfileEntry", "ProfileEntryType", "ProtocolVersion", "RCD", "SecurityType",
"Service", "ServiceCategory", "ServiceCertificate", "ServiceCertificateType", "ServiceCharge",
"ServiceChargeType", "ServiceCustom", "ServiceCustomType", "ServiceDetails", "ServiceDetailsType",
"ServiceID", "ServiceInternet", "ServiceInternetType", "ServiceName", "ServiceRCS",
"ServiceRCSType", "ServiceScope", "ServiceSessionID", "ServiceTag", "ServiceTagListType",
"ServiceTagType", "ServiceType", "SessionID", "SessionInformationType", "ShutDownTime",
"SigMeterReading", "StopCharging", "SubCertificates", "SubCertificatesType", "TMeter",
"Tariff", "TariffDescrType", "TariffDescription", "TariffEntries", "TariffEntriesType",
"TariffEntry", "TariffEntryType", "TariffID", "TariffPMax", "TariffStart",
"TariffTableType", "Unit", "Value", "certificateType", "challengeSignatureType",
"contractIDType", "currencyType", "ePriceType", "encryptionPrivateKeyType", "energyProviderType",
"evseIDType", "faultCodeType", "faultMsgType", "genChallengeType", "lockStatusType",
"maxPhasesType", "messageSignatureType", "meterIDType", "meterSignatureType", "meterStatusType",
"paymentOptionType", "paymentOptionsType", "percentValueType", "pevIDType", "protocolVersionType",
"pubKeyType", "responseCodeType", "retryCounterType", "serviceCategoryType", "serviceIDType",
"serviceNameType", "serviceScopeType", "sessionIDType", "signaturePrivateKeyType", "standbyType",
"switchStatusType", "tariffDescriptionType", "tariffIDType", "tariffStartType", "timeType",
"unitMultiplierType", "unitSymbolType"
};
/* localName entries for URI id = 7 */
char * localNames7[] = {
"Body", "BodyBaseType", "BodyElement", "BodyType", "Header",
"V2G_Message"
};
/* localName entries for URI id = 8 */
char * localNames8[] = {
"MessageHeaderType", "Notification", "Security", "SessionInformation"
};
struct exiNamePartition localNamePartitions[9] = {
{ 7, localNames0 },
{ 4, localNames1 },
{ 2, localNames2 },
{ 46, localNames3 },
{ 70, localNames4 },
{ 131, localNames5 },
{ 192, localNames6 },
{ 6, localNames7 },
{ 4, localNames8 }
};
char * uris[] = {
"", "http://www.w3.org/XML/1998/namespace", "http://www.w3.org/2001/XMLSchema-instance", "http://www.w3.org/2001/XMLSchema", "http://www.w3.org/2000/09/xmldsig#", "urn:iso:15118:2:2010:MsgBody", "urn:iso:15118:2:2010:MsgDataTypes", "urn:iso:15118:2:2010:MsgDef", "urn:iso:15118:2:2010:MsgHeader"
};
exi_name_table_prepopulated_t nameTablePrepopulated = { 9, uris, localNamePartitions };
exi_name_table_prepopulated_t nameTablePrepopulated;
#endif

View file

@ -1,41 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifndef NAME_TABLE_ENTRIES_H
#define NAME_TABLE_ENTRIES_H
#include "EXITypes.h"
/* ==================================== */
/* String Table Population */
extern exi_name_table_prepopulated_t nameTablePrepopulated;
#endif

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@ -1,238 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifndef STRING_TABLE_C
#define STRING_TABLE_C
#include <string.h>
#include "StringTable.h"
#include "NameTableEntries.h"
int exiGetUri(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID,
const char** uri) {
if (uriID < prepopulatedTable->len) {
*uri = prepopulatedTable->uris[uriID];
} else {
int i = 0;
uriID -= prepopulatedTable->len;
for(i=0; i<(runtimeTable->addedUriEntries+runtimeTable->addedLocalNameEntries); i++) {
if ( runtimeTable->namePartitionsEntries[i].namePartitionType == URI_PARTITION ) {
if (uriID == 0) {
*uri = runtimeTable->namePartitionsEntries[i].entry.uriPartition.uri;
return 0;
}
uriID--;
}
}
return EXI_ERROR_OUT_OF_BOUNDS;
}
return 0;
}
int exiGetUriSize(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t* uriLength) {
*uriLength = prepopulatedTable->len;
return 0;
}
/* 0 ... Success, 1 ... Miss, -1 ... Error */
int exiGetUriID(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, const char* uri,
uint16_t* uriID) {
unsigned int i;
for (i = 0; i < prepopulatedTable->len; i++) {
if (strcmp(uri, prepopulatedTable->uris[i]) == 0) {
*uriID = i;
return 0;
}
}
if (runtimeTable->addedUriEntries > 0) {
*uriID = prepopulatedTable->len - 1;
for(i=0; i< (runtimeTable->addedUriEntries + runtimeTable->addedLocalNameEntries); i++) {
if ( runtimeTable->namePartitionsEntries[i].namePartitionType == URI_PARTITION ) {
*uriID = *uriID + 1;
if (strcmp(uri, runtimeTable->namePartitionsEntries[i].entry.uriPartition.uri) == 0) {
return 0;
}
}
}
}
/* no URI ID found */
return +1;
}
int exiGetLocalName(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID,
uint16_t localNameID, const char** localName) {
int i;
if (uriID < prepopulatedTable->len) {
if (localNameID < prepopulatedTable->localNames[uriID].len) {
*localName = prepopulatedTable->localNames[uriID].names[localNameID];
return 0;
} else {
localNameID -= prepopulatedTable->localNames[uriID].len;
}
}
/* runtime tables */
for(i=0; i<(runtimeTable->addedLocalNameEntries+runtimeTable->addedUriEntries); i++) {
if ( runtimeTable->namePartitionsEntries[i].namePartitionType == LOCALNAME_PARTITION &&
runtimeTable->namePartitionsEntries[i].entry.localNamePartition.uriID == uriID ) {
if (localNameID == 0) {
*localName = runtimeTable->namePartitionsEntries[i].entry.localNamePartition.localName;
return 0;
}
localNameID--;
}
}
return EXI_ERROR_OUT_OF_BOUNDS;
}
int exiGetLocalNameSize(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable,
uint16_t uriID, uint16_t* localNameLength) {
*localNameLength = 0;
/* 1. pre-populated entries*/
if (uriID < prepopulatedTable->len) {
(*localNameLength) += prepopulatedTable->localNames[uriID].len;
} else {
/* range check */
if (uriID >= ( prepopulatedTable->len + runtimeTable->addedUriEntries )) {
return EXI_ERROR_OUT_OF_BOUNDS;
}
}
/* 2. runtime entries */
if (runtimeTable->addedLocalNameEntries > 0 ) {
int i;
for(i=0; i<(runtimeTable->addedUriEntries+runtimeTable->addedLocalNameEntries); i++) {
if ( runtimeTable->namePartitionsEntries[i].namePartitionType == LOCALNAME_PARTITION &&
runtimeTable->namePartitionsEntries[i].entry.localNamePartition.uriID == uriID ) {
(*localNameLength)++;
}
}
}
return 0;
}
/* 0 ... Success, 1 ... Miss, -1 ... Error */
int exiGetLocalNameID(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID,
const char* localName, uint16_t* localNameID) {
unsigned int i;
if (uriID < prepopulatedTable->len) {
/* pre-populated names */
/* TODO binary search */
for (i = 0; i < prepopulatedTable->localNames[uriID].len; i++) {
if (strcmp(localName, prepopulatedTable->localNames[uriID].names[i]) == 0) {
*localNameID = i;
return 0;
}
}
/* runtime names */
for (i = 0; i < (runtimeTable->addedUriEntries + runtimeTable->addedLocalNameEntries); i++) {
if (runtimeTable->namePartitionsEntries[i].namePartitionType == LOCALNAME_PARTITION &&
strcmp(localName, runtimeTable->namePartitionsEntries[i].entry.localNamePartition.localName ) == 0) {
*localNameID = runtimeTable->namePartitionsEntries[i].entry.localNamePartition.localNameID;
return 0;
}
}
/* no localName ID found */
return +1;
} else if (uriID == prepopulatedTable->len) {
/* UCD profile */
/* no localName ID found */
return +1;
} else {
return EXI_ERROR_OUT_OF_BOUNDS;
}
}
/* inline */
static int _max(int a, int b) {
return (a > b) ? a : b;
}
int exiInitNameTableRuntime(exi_name_table_runtime_t* runtimeTable) {
runtimeTable->numberOfUsedCharacters = 0;
runtimeTable->addedLocalNameEntries = 0;
runtimeTable->addedUriEntries = 0;
return 0;
}
int exiAddUri(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, char* uri) {
if (runtimeTable->addedUriEntries < EXI_RESERVED_NUMBER_URI_PARTITION_ENTRIES
|| runtimeTable->addedUriEntries
< (EXI_MAXIMUM_NUMBER_OF_NAME_PARTITION_ENTRIES - _max(
runtimeTable->addedLocalNameEntries,
EXI_RESERVED_NUMBER_LOCALNAME_PARTITION_ENTRIES))) {
uint16_t index = runtimeTable->addedUriEntries + runtimeTable->addedLocalNameEntries;
int charsIndex = runtimeTable->numberOfUsedCharacters+runtimeTable->addedUriEntries+runtimeTable->addedLocalNameEntries;
runtimeTable->namePartitionsEntries[index].namePartitionType = URI_PARTITION;
strcpy(runtimeTable->characters+charsIndex, uri);
runtimeTable->namePartitionsEntries[index].entry.uriPartition.uri = runtimeTable->characters+charsIndex;
runtimeTable->namePartitionsEntries[index].entry.uriPartition.uriID = prepopulatedTable->len + runtimeTable->addedUriEntries;
runtimeTable->addedUriEntries++;
runtimeTable->numberOfUsedCharacters += strlen(uri);
return 0;
} else {
return -1;
}
}
int exiAddLocalName(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID,
char* localName) {
if (runtimeTable->addedUriEntries < EXI_RESERVED_NUMBER_LOCALNAME_PARTITION_ENTRIES
|| runtimeTable->addedLocalNameEntries
< (EXI_MAXIMUM_NUMBER_OF_NAME_PARTITION_ENTRIES - _max(
runtimeTable->addedUriEntries,
EXI_RESERVED_NUMBER_URI_PARTITION_ENTRIES))) {
uint16_t index = runtimeTable->addedUriEntries + runtimeTable->addedLocalNameEntries;
int charsIndex = runtimeTable->numberOfUsedCharacters+runtimeTable->addedUriEntries+runtimeTable->addedLocalNameEntries;
uint16_t localNameID;
int errn = exiGetLocalNameSize(prepopulatedTable, runtimeTable, uriID, &localNameID);
if (errn < 0) {
return errn;
}
runtimeTable->namePartitionsEntries[index].namePartitionType = LOCALNAME_PARTITION;
strcpy(runtimeTable->characters+charsIndex, localName);
runtimeTable->namePartitionsEntries[index].entry.localNamePartition.localName = runtimeTable->characters+charsIndex;
runtimeTable->namePartitionsEntries[index].entry.localNamePartition.localNameID = localNameID;
runtimeTable->namePartitionsEntries[index].entry.localNamePartition.uriID = uriID;
runtimeTable->addedLocalNameEntries++;
runtimeTable->numberOfUsedCharacters += strlen(localName);
return 0;
} else {
return -1;
}
}
#endif

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@ -1,67 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef STRING_TABLE_H
#define STRING_TABLE_H
#include "EXITypes.h"
int exiGetUri(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID, const char** uri);
int exiGetUriSize(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t* uriLength);
/* 0 ... Success, 1 ... Miss, -1 ... Error */
int exiGetUriID(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, const char* uri, uint16_t* uriID);
int exiGetLocalName(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID, uint16_t localNameID, const char** localName);
int exiGetLocalNameSize(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID, uint16_t* localNameLength);
/* 0 ... Success, 1 ... Miss, -1 ... Error */
int exiGetLocalNameID(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID, const char* localName, uint16_t* localNameID);
/* inits counter et cetera */
int exiInitNameTableRuntime(exi_name_table_runtime_t* runtimeTable);
/* add runtime URI entry */
int exiAddUri(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, char* uri);
/* add runtime local-name entry */
int exiAddLocalName(exi_name_table_prepopulated_t* prepopulatedTable, exi_name_table_runtime_t* runtimeTable, uint16_t uriID, char* localName);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,66 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#include <string.h>
#include "DecoderChannel.h"
#include "BitInputStream.h"
#include "EXITypes.h"
#ifndef UCS_STRING_C
#define UCS_STRING_C
int toUCSString(char* chars, string_ucs_t* s) {
unsigned int i;
s->len = strlen(chars);
if (s->len <= s->size) {
for(i=0; i<s->len; i++) {
s->codepoints[i] = chars[i];
}
return 0;
} else {
return EXI_ERROR_OUT_OF_STRING_BUFFER;
}
}
/* Note A: fails if string contains non ASCII characters */
/* Note B: causes harm if char array is not sufficiently long */
int toASCIIString(string_ucs_t* string, char* outASCII) {
unsigned int i;
for(i=0; i<string->len; i++) {
outASCII[i] = (char)string->codepoints[i];
}
outASCII[string->len] = '\0';
return 0;
}
#endif

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@ -1,52 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-12-02
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#include "EXITypes.h"
/* TODO utf8/cstring//wchar_t/char16_t/char32_t methods */
#ifndef UCS_STRING_H
#define UCS_STRING_H
int toUCSString(char* chars, string_ucs_t* s);
/* Note: fails if string contains non ASCII characters */
int toASCIIString(string_ucs_t* string, char* outASCII);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,84 +0,0 @@
/*
* Copyright (C) 2007-2010 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef EXI_SERVICE_H_
#define EXI_SERVICE_H_
#include "v2g_serviceDataTypes.h"
#include "EXITypes.h"
struct uniqueIDPath
{
int id[10];
size_t pos;
};
struct EXIService
{
/* in-/ out-stream */
bitstream_t inStream;
bitstream_t outStream;
/* EXI */
exi_state_t stateDecode;
exi_state_t stateEncode;
exi_event_t event;
eqname_t eqn;
exi_value_t val;
/* v2g message data structure */
struct EXIDocumentType exiMsg;
/* unique id for ambiguous elements */
struct uniqueIDPath idPath;
/* error code */
uint8_t errorCode;
/* offset for transported header data */
uint16_t transportHeaderOffset;
};
enum responseMessages
{
has_to_be_filled
};
/* define error codes (TODO: define precise error codes) */
#define EXI_NON_VALID_MESSAGE 0x01
#define EXI_SERIALIZATION_FAILED 0x02
#define EXI_UNKNOWN_ERROR 0xFF
#endif /* EXI_SERVICE_H_ */
#ifdef __cplusplus
}
#endif

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@ -1,44 +0,0 @@
/*
* Copyright (C) 2007-2010 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef V2G_SERVICECLIENTDATATRANSMITTER_H_
#define V2G_SERVICECLIENTDATATRANSMITTER_H_
#include "EXITypes.h"
/* This method has to be implemented!
* This method sends EXI stream (outStream) to the EVSE and receives response stream (inStream)*/
int serviceDataTransmitter(uint8_t* outStream, uint16_t outStreamLength, uint8_t* inStream);
#endif /* V2G_SERVICECLIENTDATATRANSMITTER_H_ */
#ifdef __cplusplus
}
#endif

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@ -1,269 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXISeGen</p>
*
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef SERVICECLIENTSTUBS_H
#define SERVICECLIENTSTUBS_H
#include "v2g_service.h"
#include "v2g_serviceDataTypes.h"
#include "v2g_serviceClientStubs.h"
/**
* \brief Calls the remote sessionSetup method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct SessionSetupReqType* Request data for the server (has to be set up before)
* \param result struct SessionSetupResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_sessionSetup(struct EXIService* service, struct MessageHeaderType* header, struct SessionSetupReqType* params, struct SessionSetupResType* result);
/**
* \brief Calls the remote serviceDiscovery method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct ServiceDiscoveryReqType* Request data for the server (has to be set up before)
* \param result struct ServiceDiscoveryResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_serviceDiscovery(struct EXIService* service, struct MessageHeaderType* header, struct ServiceDiscoveryReqType* params, struct ServiceDiscoveryResType* result);
/**
* \brief Calls the remote serviceDetail method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct ServiceDetailReqType* Request data for the server (has to be set up before)
* \param result struct ServiceDetailResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_serviceDetail(struct EXIService* service, struct MessageHeaderType* header, struct ServiceDetailReqType* params, struct ServiceDetailResType* result);
/**
* \brief Calls the remote selectedServicePayment method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct ServicePaymentSelectionReqType* Request data for the server (has to be set up before)
* \param result struct ServicePaymentSelectionResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_selectedServicePayment(struct EXIService* service, struct MessageHeaderType* header, struct ServicePaymentSelectionReqType* params, struct ServicePaymentSelectionResType* result);
/**
* \brief Calls the remote paymentDetails method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct PaymentDetailsReqType* Request data for the server (has to be set up before)
* \param result struct PaymentDetailsResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_paymentDetails(struct EXIService* service, struct MessageHeaderType* header, struct PaymentDetailsReqType* params, struct PaymentDetailsResType* result);
/**
* \brief Calls the remote contractAuthentication method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct ContractAuthenticationReqType* Request data for the server (has to be set up before)
* \param result struct ContractAuthenticationResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_contractAuthentication(struct EXIService* service, struct MessageHeaderType* header, struct ContractAuthenticationReqType* params, struct ContractAuthenticationResType* result);
/**
* \brief Calls the remote chargeParameterDiscovery method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct ChargeParameterDiscoveryReqType* Request data for the server (has to be set up before)
* \param result struct ChargeParameterDiscoveryResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_chargeParameterDiscovery(struct EXIService* service, struct MessageHeaderType* header, struct ChargeParameterDiscoveryReqType* params, struct ChargeParameterDiscoveryResType* result);
/**
* \brief Calls the remote lineLock method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct LineLockReqType* Request data for the server (has to be set up before)
* \param result struct LineLockResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_lineLock(struct EXIService* service, struct MessageHeaderType* header, struct LineLockReqType* params, struct LineLockResType* result);
/**
* \brief Calls the remote powerDelivery method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct PowerDeliveryReqType* Request data for the server (has to be set up before)
* \param result struct PowerDeliveryResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_powerDelivery(struct EXIService* service, struct MessageHeaderType* header, struct PowerDeliveryReqType* params, struct PowerDeliveryResType* result);
/**
* \brief Calls the remote meteringStatus method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct MeteringStatusReqType* Request data for the server (has to be set up before)
* \param result struct MeteringStatusResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_meteringStatus(struct EXIService* service, struct MessageHeaderType* header, struct MeteringStatusReqType* params, struct MeteringStatusResType* result);
/**
* \brief Calls the remote meteringReceipt method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct MeteringReceiptReqType* Request data for the server (has to be set up before)
* \param result struct MeteringReceiptResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_meteringReceipt(struct EXIService* service, struct MessageHeaderType* header, struct MeteringReceiptReqType* params, struct MeteringReceiptResType* result);
/**
* \brief Calls the remote certificateUpdate method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct CertificateUpdateReqType* Request data for the server (has to be set up before)
* \param result struct CertificateUpdateResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_certificateUpdate(struct EXIService* service, struct MessageHeaderType* header, struct CertificateUpdateReqType* params, struct CertificateUpdateResType* result);
/**
* \brief Calls the remote certificateInstallation method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct CertificateInstallationReqType* Request data for the server (has to be set up before)
* \param result struct CertificateInstallationResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_certificateInstallation(struct EXIService* service, struct MessageHeaderType* header, struct CertificateInstallationReqType* params, struct CertificateInstallationResType* result);
/**
* \brief Calls the remote cableCheck method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct CableCheckReqType* Request data for the server (has to be set up before)
* \param result struct CableCheckResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_cableCheck(struct EXIService* service, struct MessageHeaderType* header, struct CableCheckReqType* params, struct CableCheckResType* result);
/**
* \brief Calls the remote preCharge method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct PreChargeReqType* Request data for the server (has to be set up before)
* \param result struct PreChargeResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_preCharge(struct EXIService* service, struct MessageHeaderType* header, struct PreChargeReqType* params, struct PreChargeResType* result);
/**
* \brief Calls the remote currentDemand method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct CurrentDemandReqType* Request data for the server (has to be set up before)
* \param result struct CurrentDemandResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_currentDemand(struct EXIService* service, struct MessageHeaderType* header, struct CurrentDemandReqType* params, struct CurrentDemandResType* result);
/**
* \brief Calls the remote weldingDetection method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct WeldingDetectionReqType* Request data for the server (has to be set up before)
* \param result struct WeldingDetectionResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_weldingDetection(struct EXIService* service, struct MessageHeaderType* header, struct WeldingDetectionReqType* params, struct WeldingDetectionResType* result);
/**
* \brief Calls the remote terminateCharging method
* \param service struct EXIService* Service data structure (has to be initialized before)
* \param header struct HeaderType* Header data structure
* \param params struct TerminateChargingReqType* Request data for the server (has to be set up before)
* \param result struct TerminateChargingResType* Contains the response data from the server
* \return 0 = 0K; -1 = ERROR */
int call_terminateCharging(struct EXIService* service, struct MessageHeaderType* header, struct TerminateChargingReqType* params, struct TerminateChargingResType* result);
/* Initialize the v2g client */
int init_v2gServiceClient(struct EXIService* service, bytes_t bytes, string_ucs_t string, uint8_t* inStream, size_t max_inStream_size, uint8_t* outStream, size_t max_outStream_size, uint16_t transportHeaderOffset);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,755 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXISeGen</p>
*
********************************************************************/
#include "EXITypes.h"
#include "v2g_serviceDataTypes.h"
static void init_sessionIDType(struct sessionIDType* type)
{
type->arraylen.data=0;
}
static void init_protocolVersionType(struct protocolVersionType* type)
{
type->arraylen.data=0;
}
static void init_SessionInformationType(struct SessionInformationType* type)
{
init_sessionIDType(&(type->SessionID));
init_sessionIDType(&(type->ServiceSessionID));
type->isused.ServiceSessionID=0;
init_protocolVersionType(&(type->ProtocolVersion));
type->isused.ProtocolVersion=0;
}
static void init_faultMsgType(struct faultMsgType* type)
{
type->arraylen.data=0;
}
static void init_NotificationType(struct NotificationType* type)
{
type->isused.FaultCode=0;
init_faultMsgType(&(type->FaultMsg));
type->isused.FaultMsg=0;
}
static void init_service_string(struct service_string* type)
{
type->arraylen.data=0;
}
static void init_CanonicalizationMethodType(struct CanonicalizationMethodType* type)
{
init_service_string(&(type->attr_Algorithm));
}
static void init_SignatureMethodType(struct SignatureMethodType* type)
{
init_service_string(&(type->attr_Algorithm));
}
static void init_DigestMethodType(struct DigestMethodType* type)
{
init_service_string(&(type->attr_Algorithm));
}
static void init_DigestValueType(struct DigestValueType* type)
{
type->arraylen.data=0;
}
static void init_ReferenceType(struct ReferenceType* type)
{
init_DigestMethodType(&(type->DigestMethod));
init_DigestValueType(&(type->DigestValue));
init_service_string(&(type->attr_URI));
}
static void init_SignedInfoType(struct SignedInfoType* type)
{
init_CanonicalizationMethodType(&(type->CanonicalizationMethod));
init_SignatureMethodType(&(type->SignatureMethod));
init_ReferenceType(&(type->Reference));
}
static void init_SignatureValueType(struct SignatureValueType* type)
{
}
static void init_X509IssuerSerialType(struct X509IssuerSerialType* type)
{
init_service_string(&(type->X509IssuerName));
}
static void init_service_byte(struct service_byte* type)
{
type->arraylen.data=0;
}
static void init_X509DataType(struct X509DataType* type)
{
init_X509IssuerSerialType(&(type->X509IssuerSerial));
init_service_byte(&(type->X509SKI));
init_service_string(&(type->X509SubjectName));
init_service_byte(&(type->X509Certificate));
init_service_byte(&(type->X509CRL));
}
static void init_KeyInfoType(struct KeyInfoType* type)
{
init_X509DataType(&(type->X509Data));
init_service_string(&(type->attr_Id));
}
static void init_SignatureType(struct SignatureType* type)
{
/*
init_SignedInfoType(&(type->SignedInfo));
init_SignatureValueType(&(type->SignatureValue));
init_KeyInfoType(&(type->KeyInfo));
type->isused.KeyInfo=0;
init_service_string(&(type->attr_Id));
*/
}
static void init_SecurityType(struct SecurityType* type)
{
init_SignatureType(type->Signature);
type->isused.Signature=0;
}
static void init_MessageHeaderType(struct MessageHeaderType* type)
{
init_SessionInformationType(&(type->SessionInformation));
init_NotificationType(&(type->Notification));
type->isused.Notification=0;
init_SecurityType(&(type->Security));
type->isused.Security=0;
}
static void init_pevIDType(struct pevIDType* type)
{
type->arraylen.data=0;
}
static void init_SessionSetupReqType(struct SessionSetupReqType* type)
{
init_pevIDType(&(type->PEVID));
type->isused.PEVID=0;
}
static void init_evseIDType(struct evseIDType* type)
{
type->arraylen.data=0;
}
static void init_SessionSetupResType(struct SessionSetupResType* type)
{
init_evseIDType(&(type->EVSEID));
}
static void init_serviceScopeType(struct serviceScopeType* type)
{
type->arraylen.data=0;
}
static void init_ServiceDiscoveryReqType(struct ServiceDiscoveryReqType* type)
{
init_serviceScopeType(&(type->ServiceScope));
type->isused.ServiceScope=0;
type->isused.ServiceType=0;
}
static void init_PaymentOptionsType(struct PaymentOptionsType* type)
{
type->arraylen.PaymentOption=0;
}
static void init_serviceIDType(struct serviceIDType* type)
{
type->arraylen.data=0;
}
static void init_serviceNameType(struct serviceNameType* type)
{
type->arraylen.data=0;
}
static void init_ServiceTagType(struct ServiceTagType* type)
{
init_serviceIDType(&(type->ServiceID));
init_serviceNameType(&(type->ServiceName));
type->isused.ServiceName=0;
type->isused.ServiceCategory=0;
init_serviceScopeType(&(type->ServiceScope));
type->isused.ServiceScope=0;
}
static void init_ServiceChargeType(struct ServiceChargeType* type)
{
init_ServiceTagType(&(type->ServiceTag));
}
static void init_ServiceTagListType(struct ServiceTagListType* type)
{
int i_loop;
for(i_loop=0; i_loop<32;i_loop++)
{
init_ServiceTagType(&(type->Service[i_loop]));
}
type->arraylen.Service=0;
}
static void init_ServiceDiscoveryResType(struct ServiceDiscoveryResType* type)
{
init_PaymentOptionsType(&(type->PaymentOptions));
init_ServiceChargeType(&(type->ChargeService));
init_ServiceTagListType(&(type->ServiceList));
type->isused.ServiceList=0;
}
static void init_ServiceDetailReqType(struct ServiceDetailReqType* type)
{
init_serviceIDType(&(type->ServiceID));
}
static void init_ServiceCertificateType(struct ServiceCertificateType* type)
{
init_ServiceTagType(&(type->ServiceTag));
}
static void init_ServiceCustomType(struct ServiceCustomType* type)
{
init_ServiceTagType(&(type->ServiceTag));
}
static void init_ServiceRCSType(struct ServiceRCSType* type)
{
init_ServiceTagType(&(type->ServiceTag));
}
static void init_ServiceInternetType(struct ServiceInternetType* type)
{
init_ServiceTagType(&(type->ServiceTag));
}
static void init_ServiceDetailResType(struct ServiceDetailResType* type)
{
init_ServiceTagType(&(type->ServiceTag));
init_PaymentOptionsType(&(type->PaymentOptions));
type->isused.ServiceCharge=0;
type->isused.ServiceCertificate=0;
type->isused.ServiceCustom=0;
type->isused.ServiceRCS=0;
type->isused.ServiceInternet=0;
}
static void init_ServicePaymentSelectionReqType(struct ServicePaymentSelectionReqType* type)
{
init_ServiceTagListType(&(type->ServiceList));
}
static void init_contractIDType(struct contractIDType* type)
{
type->arraylen.data=0;
}
static void init_certificateType(struct certificateType* type)
{
type->arraylen.data=0;
}
static void init_SubCertificatesType(struct SubCertificatesType* type)
{
int i_loop;
for(i_loop=0; i_loop<5;i_loop++)
{
init_certificateType(&(type->Certificate[i_loop]));
}
type->arraylen.Certificate=0;
}
static void init_CertificateChainType(struct CertificateChainType* type)
{
init_certificateType(&(type->Certificate));
init_SubCertificatesType(&(type->SubCertificates));
type->isused.SubCertificates=0;
}
static void init_PaymentDetailsReqType(struct PaymentDetailsReqType* type)
{
init_contractIDType(&(type->ContractID));
init_CertificateChainType(&(type->ContractSignatureCertChain));
}
static void init_genChallengeType(struct genChallengeType* type)
{
type->arraylen.data=0;
}
static void init_PaymentDetailsResType(struct PaymentDetailsResType* type)
{
init_genChallengeType(&(type->GenChallenge));
}
static void init_ContractAuthenticationReqType(struct ContractAuthenticationReqType* type)
{
init_genChallengeType(&(type->GenChallenge));
}
static void init_AC_PEVChargeParameterType(struct AC_PEVChargeParameterType* type)
{
}
static void init_DC_PEVChargeParameterType(struct DC_PEVChargeParameterType* type)
{
type->isused.PEVMaximumPowerLimit=0;
type->isused.PEVEnergyCapacity=0;
type->isused.PEVEnergyRequest=0;
type->isused.FullSOC=0;
type->isused.BulkSOC=0;
}
static void init_ChargeParameterDiscoveryReqType(struct ChargeParameterDiscoveryReqType* type)
{
type->isused.AC_PEVChargeParameter=0;
type->isused.DC_PEVChargeParameter=0;
}
static void init_energyProviderType(struct energyProviderType* type)
{
type->arraylen.data=0;
}
static void init_ePriceType(struct ePriceType* type)
{
type->arraylen.data=0;
}
static void init_TariffEntryType(struct TariffEntryType* type)
{
init_ePriceType(&(type->EPrice));
type->isused.EPrice=0;
}
static void init_TariffEntriesType(struct TariffEntriesType* type)
{
int i_loop;
for(i_loop=0; i_loop<8;i_loop++)
{
init_TariffEntryType(&(type->TariffEntry[i_loop]));
}
type->arraylen.TariffEntry=0;
}
static void init_TariffDescrType(struct TariffDescrType* type)
{
type->isused.TariffDescription=0;
init_TariffEntriesType(&(type->TariffEntries));
}
static void init_TariffTableType(struct TariffTableType* type)
{
int i_loop;
for(i_loop=0; i_loop<6;i_loop++)
{
init_TariffDescrType(&(type->Tariff[i_loop]));
}
type->arraylen.Tariff=0;
}
static void init_AC_EVSEChargeParameterType(struct AC_EVSEChargeParameterType* type)
{
}
static void init_DC_EVSEChargeParameterType(struct DC_EVSEChargeParameterType* type)
{
type->isused.EVSEMaximumPowerLimit=0;
type->isused.EVSECurrentRegulationTolerance=0;
type->isused.EVSEEnergyToBeDelivered=0;
}
static void init_ChargeParameterDiscoveryResType(struct ChargeParameterDiscoveryResType* type)
{
init_energyProviderType(&(type->EnergyProvider));
type->isused.EnergyProvider=0;
init_TariffTableType(&(type->TariffTable));
type->isused.TariffTable=0;
type->isused.AC_EVSEChargeParameter=0;
type->isused.DC_EVSEChargeParameter=0;
}
static void init_ChargingProfileType(struct ChargingProfileType* type)
{
type->arraylen.ProfileEntry=0;
}
static void init_AC_PEVPowerDeliveryParameterType(struct AC_PEVPowerDeliveryParameterType* type)
{
}
static void init_DC_PEVPowerDeliveryParameterType(struct DC_PEVPowerDeliveryParameterType* type)
{
type->isused.BulkChargingComplete=0;
}
static void init_PowerDeliveryReqType(struct PowerDeliveryReqType* type)
{
type->isused.Tariff=0;
init_ChargingProfileType(&(type->ChargingProfile));
type->isused.ChargingProfile=0;
type->isused.AC_PEVPowerDeliveryParameter=0;
type->isused.DC_PEVPowerDeliveryParameter=0;
}
static void init_PowerDeliveryResType(struct PowerDeliveryResType* type)
{
type->isused.AC_EVSEStatus=0;
type->isused.DC_EVSEStatus=0;
}
static void init_MeteringStatusReqType(struct MeteringStatusReqType* type)
{
type->isused.AC_PEVStatus=0;
type->isused.DC_PEVStatus=0;
}
static void init_meterIDType(struct meterIDType* type)
{
type->arraylen.data=0;
}
static void init_pubKeyType(struct pubKeyType* type)
{
type->arraylen.data=0;
}
static void init_MeterInfoType(struct MeterInfoType* type)
{
init_meterIDType(&(type->MeterID));
type->isused.MeterID=0;
init_pubKeyType(&(type->MeterPubKey));
type->isused.MeterPubKey=0;
type->isused.MeterReading=0;
type->isused.SigMeterReading=0;
type->isused.MeterStatus=0;
type->isused.TMeter=0;
}
static void init_MeteringStatusResType(struct MeteringStatusResType* type)
{
init_evseIDType(&(type->EVSEID));
type->isused.PCurrent=0;
init_MeterInfoType(&(type->MeterInfo));
type->isused.MeterInfo=0;
type->isused.AC_EVSEStatus=0;
type->isused.DC_EVSEStatus=0;
}
static void init_meterSignatureType(struct meterSignatureType* type)
{
type->arraylen.data=0;
}
static void init_MeteringReceiptReqType(struct MeteringReceiptReqType* type)
{
init_pevIDType(&(type->PEVID));
type->isused.PEVID=0;
init_evseIDType(&(type->EVSEID));
init_sessionIDType(&(type->SessionID));
init_MeterInfoType(&(type->MeterInfo));
type->isused.TCurrent=0;
init_meterSignatureType(&(type->ReceiptSignature));
type->isused.AC_PEVStatus=0;
type->isused.DC_PEVStatus=0;
}
static void init_MeteringReceiptResType(struct MeteringReceiptResType* type)
{
type->isused.AC_EVSEStatus=0;
type->isused.DC_EVSEStatus=0;
}
static void init_CertificateUpdateReqType(struct CertificateUpdateReqType* type)
{
init_CertificateChainType(&(type->ContractSignatureCertChain));
init_certificateType(&(type->ContractEncryptionCert));
init_contractIDType(&(type->ContractID));
}
static void init_signaturePrivateKeyType(struct signaturePrivateKeyType* type)
{
type->arraylen.data=0;
}
static void init_encryptionPrivateKeyType(struct encryptionPrivateKeyType* type)
{
type->arraylen.data=0;
}
static void init_CertificateUpdateResType(struct CertificateUpdateResType* type)
{
init_CertificateChainType(&(type->ContractSignatureCertChain));
init_signaturePrivateKeyType(&(type->ContractSignaturePrivateKey));
init_CertificateChainType(&(type->ContractEncryptionCertChain));
init_encryptionPrivateKeyType(&(type->ContractEncryptionPrivateKey));
init_contractIDType(&(type->ContractID));
}
static void init_CertificateInstallationReqType(struct CertificateInstallationReqType* type)
{
init_certificateType(&(type->OEMProvisioningCert));
}
static void init_CertificateInstallationResType(struct CertificateInstallationResType* type)
{
init_CertificateChainType(&(type->ContractSignatureCertChain));
init_pubKeyType(&(type->ContractSignaturePrivateKey));
init_CertificateChainType(&(type->ContractEncryptionCertChain));
init_encryptionPrivateKeyType(&(type->ContractEncryptionPrivateKey));
init_contractIDType(&(type->ContractID));
}
static void init_LineLockReqType(struct LineLockReqType* type)
{
}
static void init_LineLockResType(struct LineLockResType* type)
{
}
static void init_CableCheckReqType(struct CableCheckReqType* type)
{
}
static void init_CableCheckResType(struct CableCheckResType* type)
{
}
static void init_PreChargeReqType(struct PreChargeReqType* type)
{
}
static void init_PreChargeResType(struct PreChargeResType* type)
{
}
static void init_CurrentDemandReqType(struct CurrentDemandReqType* type)
{
type->isused.PEVMaximumVoltageLimit=0;
type->isused.PEVMaximumCurrentLimit=0;
type->isused.PEVMaximumPowerLimit=0;
type->isused.BulkChargingComplete=0;
type->isused.RemainingTimeToFullSoC=0;
type->isused.RemainingTimeToBulkSoC=0;
}
static void init_CurrentDemandResType(struct CurrentDemandResType* type)
{
type->isused.EVSEMaximumVoltageLimit=0;
type->isused.EVSEMaximumCurrentLimit=0;
type->isused.EVSEMaximumPowerLimit=0;
}
static void init_WeldingDetectionReqType(struct WeldingDetectionReqType* type)
{
}
static void init_WeldingDetectionResType(struct WeldingDetectionResType* type)
{
}
static void init_TerminateChargingReqType(struct TerminateChargingReqType* type)
{
}
static void init_TerminateChargingResType(struct TerminateChargingResType* type)
{
}
static void init_BodyType(struct BodyType* type)
{
type->isused.SessionSetupReq=0;
type->isused.SessionSetupRes=0;
type->isused.ServiceDiscoveryReq=0;
type->isused.ServiceDiscoveryRes=0;
type->isused.ServiceDetailReq=0;
type->isused.ServiceDetailRes=0;
type->isused.ServicePaymentSelectionReq=0;
type->isused.ServicePaymentSelectionRes=0;
type->isused.PaymentDetailsReq=0;
type->isused.PaymentDetailsRes=0;
type->isused.ContractAuthenticationReq=0;
type->isused.ContractAuthenticationRes=0;
type->isused.ChargeParameterDiscoveryReq=0;
type->isused.ChargeParameterDiscoveryRes=0;
type->isused.PowerDeliveryReq=0;
type->isused.PowerDeliveryRes=0;
type->isused.MeteringStatusReq=0;
type->isused.MeteringStatusRes=0;
type->isused.MeteringReceiptReq=0;
type->isused.MeteringReceiptRes=0;
type->isused.CertificateUpdateReq=0;
type->isused.CertificateUpdateRes=0;
type->isused.CertificateInstallationReq=0;
type->isused.CertificateInstallationRes=0;
type->isused.LineLockReq=0;
type->isused.LineLockRes=0;
type->isused.CableCheckReq=0;
type->isused.CableCheckRes=0;
type->isused.PreChargeReq=0;
type->isused.PreChargeRes=0;
type->isused.CurrentDemandReq=0;
type->isused.CurrentDemandRes=0;
type->isused.WeldingDetectionReq=0;
type->isused.WeldingDetectionRes=0;
type->isused.TerminateChargingReq=0;
type->isused.TerminateChargingRes=0;
}
static void init_AnonType_V2G_Message(struct AnonType_V2G_Message* type)
{
init_BodyType(&(type->Body));
}
static void init_EXIDocumentType(struct EXIDocumentType* type)
{
init_AnonType_V2G_Message(&(type->V2G_Message));
}

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@ -1,43 +0,0 @@
/*
* Copyright (C) 2007-2010 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef V2GSERVER_H_
#define V2GSERVER_H_
#include "v2g_serviceDataTypes.h"
int init_v2gservice(struct EXIService* service,bytes_t bytes, string_ucs_t string, uint16_t transportHeaderOffset);
int messageDispatcher(struct EXIService* service, uint8_t* inStream, uint16_t sizeInStream, uint8_t* outStream, uint16_t sizeOutStream, uint16_t* outPos);
#endif /* V2GSERVER_H_ */
#ifdef __cplusplus
}
#endif

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@ -1,89 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXISeGen</p>
*
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef SERVICEMETHODS_H
#define SERVICEMETHODS_H
#include "v2g_serviceDataTypes.h"
#include "EXITypes.h"
/* This service methods has to be implemented by the EVSE server */
int sessionSetup(struct MessageHeaderType* header, struct SessionSetupReqType* param, struct SessionSetupResType* result);
int serviceDiscovery(struct MessageHeaderType* header, struct ServiceDiscoveryReqType* param, struct ServiceDiscoveryResType* result);
int serviceDetail(struct MessageHeaderType* header, struct ServiceDetailReqType* param, struct ServiceDetailResType* result);
int selectedServicePayment(struct MessageHeaderType* header, struct ServicePaymentSelectionReqType* param, struct ServicePaymentSelectionResType* result);
int paymentDetails(struct MessageHeaderType* header, struct PaymentDetailsReqType* param, struct PaymentDetailsResType* result);
int contractAuthentication(struct MessageHeaderType* header, struct ContractAuthenticationReqType* param, struct ContractAuthenticationResType* result);
int chargeParameterDiscovery(struct MessageHeaderType* header, struct ChargeParameterDiscoveryReqType* param, struct ChargeParameterDiscoveryResType* result);
int powerDelivery(struct MessageHeaderType* header, struct PowerDeliveryReqType* param, struct PowerDeliveryResType* result);
int meteringStatus(struct MessageHeaderType* header, struct MeteringStatusReqType* param, struct MeteringStatusResType* result);
int meteringReceipt(struct MessageHeaderType* header, struct MeteringReceiptReqType* param, struct MeteringReceiptResType* result);
int certificateUpdate(struct MessageHeaderType* header, struct CertificateUpdateReqType* param, struct CertificateUpdateResType* result);
int certificateInstallation(struct MessageHeaderType* header, struct CertificateInstallationReqType* param, struct CertificateInstallationResType* result);
int lineLock(struct MessageHeaderType* header, struct LineLockReqType* param, struct LineLockResType* result);
int cableCheck(struct MessageHeaderType* header, struct CableCheckReqType* param, struct CableCheckResType* result);
int preCharge(struct MessageHeaderType* header, struct PreChargeReqType* param, struct PreChargeResType* result);
int currentDemand(struct MessageHeaderType* header, struct CurrentDemandReqType* param, struct CurrentDemandResType* result);
int weldingDetection(struct MessageHeaderType* header, struct WeldingDetectionReqType* param, struct WeldingDetectionResType* result);
int terminateCharging(struct MessageHeaderType* header, struct TerminateChargingReqType* param, struct TerminateChargingResType* result);
#endif
#ifdef __cplusplus
}
#endif

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@ -1,87 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @@version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#include "evse_server.h"
#include "v2g_service.h"
#include "v2g_serviceDispatcher.h"
#include "v2gtp.h"
#define MAX_BYTE_SIZE 64
#define MAX_STRING_SIZE 64
#define MAX_STREAM_SIZE 100
int testV2GService(uint8_t* inStream, uint16_t inStreamLength, uint8_t* outStream, uint16_t* outStreamLength)
{
static uint8_t byte_array[MAX_BYTE_SIZE]; /* define MAX_BYTE_SIZE before*/
static uint32_t string_array[MAX_STRING_SIZE]; /* define MAX_STRING_SIZE before*/
uint16_t exiMsgLength;
struct EXIService service;
/* BINARY memory setup */
bytes_t bytes = { MAX_BYTE_SIZE, byte_array, 0 };
/* STRING memory setup */
string_ucs_t string = { MAX_STRING_SIZE, string_array, 0 };
/**********************************************
* Init V2G server and initialize array types *
* for the EXI decoding as well as the offset *
* for the transportation header *
**********************************************/
init_v2gservice(&service, bytes, string, V2GTP_HEADER_LENGTH);
/* check, if the DoIP header is correct and determine payload */
if(read_v2gtpHeader(inStream,inStreamLength, &exiMsgLength))
{
/* v2gtp header not correct */
return -1;
}
/****************************************************************************
* Pass the received EXI message stream (inStream + exiMsgLength) to the *
* v2g message dispatcher. The outStream contains the response message *
* stream. *
****************************************************************************/
if(messageDispatcher(&service, inStream, exiMsgLength, outStream, MAX_STREAM_SIZE, outStreamLength))
{
/* an error occured */
}
else
{
/* write v2gtp header */
write_v2gtpHeader(outStream, outStreamLength, V2GTP_EXI_TYPE);
}
return 0;
}

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@ -1,33 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @@version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#ifndef V2G_SERVER_H_
#define V2G_SERVER_H_
#include "EXITypes.h"
int testV2GService(uint8_t* inStream, uint16_t inStreamLength, uint8_t* outStream,uint16_t* outStreamLength);
#endif /* V2G_SERVER_H_ */

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@ -1,569 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#include "v2g_serviceMethods.h"
#include "v2g_serviceDataTypes.h"
#include <stdio.h>
int sessionSetup(struct MessageHeaderType* header, struct SessionSetupReqType* param, struct SessionSetupResType* result)
{
printf("EVSE: sessionSetup called\n" );
printf("\tReceived data:\n");
printf("\t\t Header SessionID=%d\n",header->SessionInformation.SessionID.data[0]);
printf("\t\t PEVID=%d\n",param->PEVID.data[0]);
header->SessionInformation.SessionID.data[0] = 10;
header->SessionInformation.SessionID.arraylen.data=1;
/* Prepare data for PEV */
result->ResponseCode = OK_responseCodeType;
result->EVSEID.data[0]=1;
result->EVSEID.arraylen.data=1;
result->TCurrent=12345678;
return 0;
}
int serviceDiscovery(struct MessageHeaderType* header, struct ServiceDiscoveryReqType* param, struct ServiceDiscoveryResType* result)
{
printf("EVSE: serviceDiscovery called\n" );
printf("\tReceived data:\n");
printf("\t\t ServiceType=%d\n", param->ServiceType);
result->isused.ServiceList=0;
result->ResponseCode= OK_responseCodeType;
result->ChargeService.ServiceTag.ServiceID.data[0]=1;
result->ChargeService.ServiceTag.ServiceID.arraylen.data=1;
result->ChargeService.ServiceTag.isused.ServiceName=0;
result->ChargeService.ServiceTag.isused.ServiceCategory=0;
result->ChargeService.ServiceTag.isused.ServiceScope=0;
result->ChargeService.FreeService = 1;
result->PaymentOptions.PaymentOption[0] = ExternalPayment_paymentOptionType; /* only free of charge yet ;-) */
result->PaymentOptions.arraylen.PaymentOption=1;
result->ChargeService.EnergyTransferType = DC_core_EVSESupportedEnergyTransferType;
result->isused.ServiceList=0;
return 0;
}
int selectedServicePayment(struct MessageHeaderType* header, struct ServicePaymentSelectionReqType* param, struct ServicePaymentSelectionResType* result)
{
return 0;
}
int paymentDetails(struct MessageHeaderType* header, struct PaymentDetailsReqType* param, struct PaymentDetailsResType* result)
{
return 0;
}
int chargeParameterDiscovery(struct MessageHeaderType* header, struct ChargeParameterDiscoveryReqType* param, struct ChargeParameterDiscoveryResType* result)
{
struct FloatingValueType f;
printf("EVSE: chargeParameterDiscovery called\n" );
printf("\tReceived data:\n");
printf("\t\t PEVRequestedEnergyTransferType=%d\n",param->PEVRequestedEnergyTransferType);
/* check,if DC or AC is requested */
if(param->PEVRequestedEnergyTransferType==DC_core_PEVRequestedEnergyTransferType || param->isused.DC_PEVChargeParameter==1)
{
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->DC_PEVChargeParameter->DC_PEVStatus.PEVStandby);
printf("\t\t\t PEVReady=%d\n", param->DC_PEVChargeParameter->DC_PEVStatus.PEVReady);
printf("\t\t\t PEVRESSSOC=%d\n", param->DC_PEVChargeParameter->DC_PEVStatus.PEVRESSSOC);
printf("\t\t\t PEVStatusCode=%d\n", param->DC_PEVChargeParameter->DC_PEVStatus.PEVStatusCode);
printf("\t\t\t ConnectorLocked=%d\n", param->DC_PEVChargeParameter->DC_PEVStatus.ConnectorLocked);
printf("\t\t PEVMaximumCurrentLimit=%d\n", param->DC_PEVChargeParameter->PEVMaximumCurrentLimit.Value);
printf("\t\t PEVMaximumPowerLimit=%d\n", param->DC_PEVChargeParameter->PEVMaximumPowerLimit.Value);
printf("\t\t PEVMaximumVoltageLimit=%d\n", param->DC_PEVChargeParameter->PEVMaximumVoltageLimit.Value);
printf("\t\t PEVEnergyCapacity=%d\n", param->DC_PEVChargeParameter->PEVEnergyCapacity.Value);
printf("\t\t PEVEnergyRequest=%d\n", param->DC_PEVChargeParameter->PEVEnergyRequest.Value);
printf("\t\t FullSOC=%d\n", param->DC_PEVChargeParameter->FullSOC);
printf("\t\t BulkSOC=%d\n", param->DC_PEVChargeParameter->BulkSOC);
printf("\t\t PEVProtocolVersion=%d\n", param->DC_PEVChargeParameter->PEVProtocolVersion);
result->ResponseCode = OK_responseCodeType;
result->isused.EnergyProvider=0;
result->isused.TariffTable=0;
result->isused.DC_EVSEChargeParameter = 1;
result->isused.AC_EVSEChargeParameter = 0;
result->DC_EVSEChargeParameter->DC_EVSEStatus.EVSEStandby = 1;
result->DC_EVSEChargeParameter->DC_EVSEStatus.EVSEStatusCode = IsolationMonitoringActive_DC_EVSEStatusCodeType;
f.Multiplier = 0;
f.Unit = A_unitSymbolType;
f.Value = 100;
result->DC_EVSEChargeParameter->EVSEMaximumCurrentLimit=f;
f.Unit = W_unitSymbolType;
f.Value = 200;
result->DC_EVSEChargeParameter->EVSEMaximumPowerLimit=f;
result->DC_EVSEChargeParameter->isused.EVSEMaximumPowerLimit=1;
f.Unit = V_unitSymbolType;
f.Value = 300;
result->DC_EVSEChargeParameter->EVSEMaximumVoltageLimit=f;
f.Unit = A_unitSymbolType;
f.Value = 400;
result->DC_EVSEChargeParameter->EVSEMinimumCurrentLimit=f;
f.Unit = V_unitSymbolType;
f.Value = 500;
result->DC_EVSEChargeParameter->EVSEMinimumVoltageLimit=f;
f.Unit = A_unitSymbolType;
f.Value = 600;
result->DC_EVSEChargeParameter->EVSECurrentRegulationTolerance=f;
result->DC_EVSEChargeParameter->isused.EVSECurrentRegulationTolerance=1;
f.Unit = V_unitSymbolType;
f.Value = 700;
result->DC_EVSEChargeParameter->EVSEPeakCurrentRipple=f;
f.Unit = A_unitSymbolType;
f.Value = 800;
result->DC_EVSEChargeParameter->EVSEEnergyToBeDelivered=f;
result->DC_EVSEChargeParameter->isused.EVSEEnergyToBeDelivered=1;
result->DC_EVSEChargeParameter->EVSEProtocolVersion=12;
} else { /* AC related */
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->AC_PEVChargeParameter->AC_PEVStatus.PEVStandby);
printf("\t\t\t ConnectorLocked=%d\n", param->AC_PEVChargeParameter->AC_PEVStatus.ConnectorLocked);
printf("\t\t EAmount=%d\n", param->AC_PEVChargeParameter->EAmount.Value);
printf("\t\t EoC=%d\n", param->AC_PEVChargeParameter->EoC);
printf("\t\t PEVMaxCurrent=%d\n", param->AC_PEVChargeParameter->PEVMaxCurrent.Value);
printf("\t\t PEVMaxPhases=%d\n", param->AC_PEVChargeParameter->PEVMaxPhases);
printf("\t\t PEVMaxPower=%d\n", param->AC_PEVChargeParameter->PEVMaxPower.Value);
printf("\t\t PEVMaxVoltage=%d\n", param->AC_PEVChargeParameter->PEVMaxVoltage.Value);
printf("\t\t PEVMinCurrent=%d\n", param->AC_PEVChargeParameter->PEVMinCurrent.Value);
printf("\t\t PEVMinVoltage=%d\n", param->AC_PEVChargeParameter->PEVMinVoltage.Value);
result->ResponseCode = OK_responseCodeType;
result->isused.EnergyProvider=0;
result->isused.TariffTable=0;
result->isused.AC_EVSEChargeParameter = 1;
result->isused.DC_EVSEChargeParameter = 0;
result->AC_EVSEChargeParameter->AC_EVSEStatus.ConnectorLocked=1;
result->AC_EVSEChargeParameter->AC_EVSEStatus.EVSEStandby=1;
result->AC_EVSEChargeParameter->AC_EVSEStatus.PowerSwitchClosed=1;
result->AC_EVSEChargeParameter->AC_EVSEStatus.RCD=1;
result->AC_EVSEChargeParameter->AC_EVSEStatus.ShutDownTime=12345;
result->AC_EVSEChargeParameter->AC_EVSEStatus.StopCharging=1;
f.Multiplier = 0;
f.Unit = A_unitSymbolType;
f.Value = 100;
result->AC_EVSEChargeParameter->EVSEMaxCurrent=f;
result->AC_EVSEChargeParameter->EVSEMaxPhases=3;
f.Unit = V_unitSymbolType;
f.Value = 200;
result->AC_EVSEChargeParameter->EVSEMaxVoltage=f;
f.Unit = A_unitSymbolType;
f.Value = 300;
result->AC_EVSEChargeParameter->EVSEMinCurrent=f;
f.Unit = V_unitSymbolType;
f.Value = 400;
result->AC_EVSEChargeParameter->EVSEMinVoltage=f;
}
return 0;
}
int lineLock(struct MessageHeaderType* header, struct LineLockReqType* param, struct LineLockResType* result)
{
printf("EVSE: lineLock called\n" );
printf("\tReceived data:\n");
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->AC_PEVStatus.PEVStandby);
printf("\t\t\t ConnectorLocked=%d\n", param->AC_PEVStatus.ConnectorLocked);
printf("\t\t ReqLockStatus=%d\n", param->ReqLockStatus);
result->ResponseCode = OK_responseCodeType;
result->AC_EVSEStatus.ConnectorLocked=1;
result->AC_EVSEStatus.EVSEStandby=1;
result->AC_EVSEStatus.PowerSwitchClosed=1;
result->AC_EVSEStatus.RCD=1;
result->AC_EVSEStatus.ShutDownTime=12345;
result->AC_EVSEStatus.StopCharging=1;
return 0;
}
int powerDelivery(struct MessageHeaderType* header, struct PowerDeliveryReqType* param, struct PowerDeliveryResType* result)
{
printf("EVSE: powerDelivery called\n" );
printf("\tReceived data:\n");
printf("\t\t\t ReqSwitchStatus=%d\n", param->ReqSwitchStatus);
if(param->isused.DC_PEVPowerDeliveryParameter)
{
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->DC_PEVPowerDeliveryParameter->DC_PEVStatus.PEVStandby);
printf("\t\t\t PEVReady=%d\n", param->DC_PEVPowerDeliveryParameter->DC_PEVStatus.PEVReady);
printf("\t\t\t PEVRESSSOC=%d\n", param->DC_PEVPowerDeliveryParameter->DC_PEVStatus.PEVRESSSOC);
printf("\t\t\t PEVStatusCode=%d\n", param->DC_PEVPowerDeliveryParameter->DC_PEVStatus.PEVStatusCode);
printf("\t\t\t ConnectorLocked=%d\n", param->DC_PEVPowerDeliveryParameter->DC_PEVStatus.ConnectorLocked);
printf("\t\t BulkChargingComplete=%d\n", param->DC_PEVPowerDeliveryParameter->BulkChargingComplete);
printf("\t\t ChargingComplete=%d\n", param->DC_PEVPowerDeliveryParameter->ChargingComplete);
result->ResponseCode = FAILED_NotReady_responseCodeType;
result->DC_EVSEStatus->EVSEStandby =1;
result->DC_EVSEStatus->EVSEStatusCode = IsolationMonitoringActive_DC_EVSEStatusCodeType;
result->isused.DC_EVSEStatus=1;
result->isused.AC_EVSEStatus=0;
} else {
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->AC_PEVPowerDeliveryParameter->AC_PEVStatus.PEVStandby);
printf("\t\t\t ConnectorLocked=%d\n", param->AC_PEVPowerDeliveryParameter->AC_PEVStatus.ConnectorLocked);
result->ResponseCode = OK_responseCodeType;
result->AC_EVSEStatus->ConnectorLocked=1;
result->AC_EVSEStatus->EVSEStandby=1;
result->AC_EVSEStatus->PowerSwitchClosed=1;
result->AC_EVSEStatus->RCD=1;
result->AC_EVSEStatus->ShutDownTime=12345;
result->AC_EVSEStatus->StopCharging=1;
result->isused.AC_EVSEStatus=1;
result->isused.DC_EVSEStatus=0;
}
return 0;
}
int meteringStatus(struct MessageHeaderType* header, struct MeteringStatusReqType* param, struct MeteringStatusResType* result)
{
printf("EVSE: meteringStatus called\n" );
if(param->isused.AC_PEVStatus==1)
{
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->AC_PEVStatus->PEVStandby);
printf("\t\t\t ConnectorLocked=%d\n", param->AC_PEVStatus->ConnectorLocked);
}
result->ResponseCode=OK_responseCodeType;
result->EVSEID.data[0]=1;
result->EVSEID.arraylen.data=1;
result->isused.AC_EVSEStatus=1;
result->isused.DC_EVSEStatus=0;
result->AC_EVSEStatus->ConnectorLocked=1;
result->AC_EVSEStatus->EVSEStandby=1;
result->AC_EVSEStatus->PowerSwitchClosed=1;
result->AC_EVSEStatus->RCD=1;
result->AC_EVSEStatus->ShutDownTime=12345;
result->AC_EVSEStatus->StopCharging=1;
result->TCurrent=12345678;
result->EVSEMaxPower.Multiplier = 2;
result->EVSEMaxPower.Unit = A_unitSymbolType;
result->EVSEMaxPower.Value = 400;
result->isused.MeterInfo=1;
result->MeterInfo.MeterID.arraylen.data=1;
result->MeterInfo.MeterID.data[0]=2;
result->MeterInfo.MeterReading.Multiplier = 0;
result->MeterInfo.MeterReading.Unit = A_unitSymbolType;
result->MeterInfo.MeterReading.Value = 500;
result->MeterInfo.MeterStatus = 4321;
result->MeterInfo.TMeter =123456789;
result->MeterInfo.isused.MeterID=1;
result->MeterInfo.isused.MeterReading = 1;
result->MeterInfo.isused.MeterStatus=1;
result->MeterInfo.isused.TMeter=1;
result->isused.PCurrent=1;
result->PCurrent.Value=4321;
return 0;
}
int meteringReceipt(struct MessageHeaderType* header, struct MeteringReceiptReqType* param, struct MeteringReceiptResType* result)
{
printf("EVSE: meteringReceipt called\n" );
printf("\tReceived data:\n");
if(param->isused.AC_PEVStatus)
{
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->AC_PEVStatus->PEVStandby);
printf("\t\t\t ConnectorLocked=%d\n", param->AC_PEVStatus->ConnectorLocked);
}
printf("\t\t TCurrent=%d\n", param->TCurrent);
printf("\t\t Tariff=%d\n", param->Tariff);
printf("\t\t MeterInfo.MeterStatus=%d\n", param->MeterInfo.MeterStatus);
printf("\t\t MeterInfo.MeterID=%d\n", param->MeterInfo.MeterID.data[0]);
printf("\t\t MeterInfo.isused.MeterReading=%d\n", param->MeterInfo.isused.MeterReading);
printf("\t\t MeterReading.Value=%d\n", param->MeterInfo.MeterReading.Value);
printf("\t\t MeterInfo.TMeter=%d\n", param->MeterInfo.TMeter);
if(param->Tariff==12)
printf("\t\t Tariff==Green_charge_tariffIDType\n");
result->ResponseCode = 0;
result->isused.AC_EVSEStatus=1;
result->isused.DC_EVSEStatus=0;
result->AC_EVSEStatus->ConnectorLocked=1;
result->AC_EVSEStatus->EVSEStandby=1;
result->AC_EVSEStatus->PowerSwitchClosed=1;
result->AC_EVSEStatus->RCD=1;
result->AC_EVSEStatus->ShutDownTime=12345;
result->AC_EVSEStatus->StopCharging=1;
return 0;
}
int cableCheck(struct MessageHeaderType* header, struct CableCheckReqType* param, struct CableCheckResType* result)
{
printf("EVSE: cableCheck called\n" );
printf("\tReceived data:\n");
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->DC_PEVStatus.PEVStandby);
printf("\t\t\t PEVReady=%d\n", param->DC_PEVStatus.PEVReady);
printf("\t\t\t PEVRESSSOC=%d\n", param->DC_PEVStatus.PEVRESSSOC);
printf("\t\t\t PEVStatusCode=%d\n", param->DC_PEVStatus.PEVStatusCode);
printf("\t\t\t ConnectorLocked=%d\n", param->DC_PEVStatus.ConnectorLocked);
result->ResponseCode = OK_responseCodeType;
result->DC_EVSEStatus.EVSEStandby = 1;
result->DC_EVSEStatus.EVSEStatusCode = IsolationMonitoringActive_DC_EVSEStatusCodeType;
return 0;
}
int preCharge(struct MessageHeaderType* header, struct PreChargeReqType* param, struct PreChargeResType* result)
{
struct FloatingValueType float_type;
printf("EVSE: preCharge called\n" );
printf("\tReceived data:\n");
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->DC_PEVStatus.PEVStandby);
printf("\t\t\t PEVReady=%d\n", param->DC_PEVStatus.PEVReady);
printf("\t\t\t PEVRESSSOC=%d\n", param->DC_PEVStatus.PEVRESSSOC);
printf("\t\t\t PEVStatusCode=%d\n", param->DC_PEVStatus.PEVStatusCode);
printf("\t\t\t ConnectorLocked=%d\n", param->DC_PEVStatus.ConnectorLocked);
result->ResponseCode = OK_responseCodeType;
result->DC_EVSEStatus.EVSEStandby = 1;
result->DC_EVSEStatus.EVSEStatusCode = IsolationMonitoringActive_DC_EVSEStatusCodeType;
float_type.Multiplier = 0;
float_type.Unit = V_unitSymbolType;
float_type.Value = 100;
result->EVSEPresentVoltage = float_type;
return 0;
}
int currentDemand(struct MessageHeaderType* header, struct CurrentDemandReqType* param, struct CurrentDemandResType* result)
{
struct FloatingValueType f;
printf("EVSE: currentDemand called\n" );
printf("\tReceived data:\n");
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->DC_PEVStatus.PEVStandby);
printf("\t\t\t PEVReady=%d\n", param->DC_PEVStatus.PEVReady);
printf("\t\t\t PEVRESSSOC=%d\n", param->DC_PEVStatus.PEVRESSSOC);
printf("\t\t\t PEVStatusCode=%d\n", param->DC_PEVStatus.PEVStatusCode);
printf("\t\t\t ConnectorLocked=%d\n", param->DC_PEVStatus.ConnectorLocked);
printf("\t\t ChargeCurrentRequest=%d\n", param->ChargeCurrentRequest.Value);
printf("\t\t PEVMaximumVoltageLimit=%d\n", param->PEVMaximumVoltageLimit.Value);
printf("\t\t PEVMaximumPowerLimit=%d\n", param->PEVMaximumPowerLimit.Value);
printf("\t\t PEVMaximumCurrentLimit=%d\n", param->PEVMaximumCurrentLimit.Value);
printf("\t\t BulkChargingComplete=%d\n", param->BulkChargingComplete);
printf("\t\t ChargingComplete=%d\n", param->ChargingComplete);
printf("\t\t RemainingTimeToFullSoC=%d\n", param->RemainingTimeToFullSoC.Value);
printf("\t\t RemainingTimeToBulkSoC=%d\n", param->RemainingTimeToBulkSoC.Value);
printf("\t\t PEVTargetVoltage=%d\n", param->PEVTargetVoltage.Value);
printf("\t\t CurrentDifferential=%d\n", param->CurrentDifferential.Value);
printf("\t\t VoltageDifferential=%d\n", param->VoltageDifferential.Value);
result->ResponseCode = OK_responseCodeType;
result->DC_EVSEStatus.EVSEStandby = 1;
result->DC_EVSEStatus.EVSEStatusCode = IsolationMonitoringActive_DC_EVSEStatusCodeType;
f.Multiplier = 0;
f.Unit = V_unitSymbolType;
f.Value = 100;
result->EVSEPresentVoltage=f;
f.Unit = A_unitSymbolType;
f.Value = 200;
result->EVSEPresentCurrent=f;
result->EVSECurrentLimitAchieved=1;
result->EVSEVoltageLimitAchieved=0;
result->EVSEPowerLimitAchieved=1;
f.Unit = V_unitSymbolType;
f.Value = 300;
result->EVSEMaximumVoltageLimit=f;
result->isused.EVSEMaximumVoltageLimit=1;
f.Unit = A_unitSymbolType;
f.Value = 400;
result->EVSEMaximumCurrentLimit=f;
result->isused.EVSEMaximumCurrentLimit=1;
f.Unit = W_unitSymbolType;
f.Value = 500;
result->EVSEMaximumPowerLimit=f;
result->isused.EVSEMaximumPowerLimit=1;
return 0;
}
int weldingDetection(struct MessageHeaderType* header, struct WeldingDetectionReqType* param, struct WeldingDetectionResType* result)
{
printf("EVSE: weldingDetection called\n" );
printf("\tReceived data:\n");
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->DC_PEVStatus.PEVStandby);
printf("\t\t\t PEVReady=%d\n", param->DC_PEVStatus.PEVReady);
printf("\t\t\t PEVRESSSOC=%d\n", param->DC_PEVStatus.PEVRESSSOC);
printf("\t\t\t PEVStatusCode=%d\n", param->DC_PEVStatus.PEVStatusCode);
printf("\t\t\t ConnectorLocked=%d\n", param->DC_PEVStatus.ConnectorLocked);
result->ResponseCode = OK_responseCodeType;
result->DC_EVSEStatus.EVSEStandby = 1;
result->DC_EVSEStatus.EVSEStatusCode = IsolationMonitoringActive_DC_EVSEStatusCodeType;
result->EVSEPresentVoltage.Value = 123;
result->EVSEPresentVoltage.Unit = V_unitSymbolType;
result->EVSEPresentVoltage.Multiplier = 0;
return 0;
}
int terminateCharging(struct MessageHeaderType* header, struct TerminateChargingReqType* param, struct TerminateChargingResType* result)
{
printf("EVSE: terminateCharging called\n" );
printf("\tReceived data:\n");
printf("\t\t PEVStatus:\n\t\t\t PEVStandby=%d\n",param->DC_PEVStatus.PEVStandby);
printf("\t\t\t PEVReady=%d\n", param->DC_PEVStatus.PEVReady);
printf("\t\t\t PEVRESSSOC=%d\n", param->DC_PEVStatus.PEVRESSSOC);
printf("\t\t\t PEVStatusCode=%d\n", param->DC_PEVStatus.PEVStatusCode);
printf("\t\t\t ConnectorLocked=%d\n", param->DC_PEVStatus.ConnectorLocked);
result->ResponseCode = OK_responseCodeType;
result->EVSEPresentVoltage.Value = 123;
result->EVSEPresentVoltage.Unit = V_unitSymbolType;
result->EVSEPresentVoltage.Multiplier = 0;
return 0;
}
int serviceDetail(struct MessageHeaderType* header, struct ServiceDetailReqType* param, struct ServiceDetailResType* result)
{
return 0;
}
int contractAuthentication(struct MessageHeaderType* header, struct ContractAuthenticationReqType* param, struct ContractAuthenticationResType* result)
{
return 0;
}
int certificateUpdate(struct MessageHeaderType* header, struct CertificateUpdateReqType* param, struct CertificateUpdateResType* result)
{
return 0;
}
int certificateInstallation(struct MessageHeaderType* header, struct CertificateInstallationReqType* param, struct CertificateInstallationResType* result)
{
printf("EVSE: certificateInstallation called\n" );
printf("\tReceived data:\n");
printf("\t\t\t OEMProvisioningCert=%d\n", param->OEMProvisioningCert.data[0]);
return 0;
}

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@ -1,42 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
* <p>Switch for sample programs: EXI codec only or for entire V2G service</p>
*
********************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include "main.h"
int main(int argc, char *argv[]) {
/* EXI codec only */
/*return main_codec(argc, argv); */
/* V2G client / service example scenario */
return main_service(argc, argv);
}

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@ -1,34 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
*
********************************************************************/
#ifndef MAIN_H_
#define MAIN_H_
int main_codec(int argc, char *argv[]);
int main_service(int argc, char *argv[]);
#endif

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@ -1,499 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Daniel.Peintner.EXT@siemens.com
* @version 2011-11-08
* @contact Joerg.Heuer@siemens.com
*
* <p>Code generated by EXIdizer</p>
********************************************************************/
/*******************************************************************
*
* <p>Sample program to illustrate how to read an EXI stream and
* directly write it again to an output</p>
*
* <p>e.g., data/test/sessionSetupReq.xml.exi out/test/sessionSetupReq.xml.exi</p>
********************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include "EXIDecoder.h"
#include "StringTable.h"
#include "EXIEncoder.h"
#include "EXITypes.h"
#include "ByteStream.h"
#define DEBUG 1
#if EXI_STREAM == BYTE_ARRAY
/* 64 kilobytes = 65 536 bytes */
/* 1 megabyte = 1 048 576 bytes*/
#define BUFFER_SIZE 1048576
uint8_t bufferIn[BUFFER_SIZE];
uint8_t bufferOut[BUFFER_SIZE];
#endif /* EXI_STREAM == BYTE_ARRAY */
/* avoids warning: initializer element is not computable at load time */
#define ARRAY_SIZE_BYTES 300
uint8_t bytesData[ARRAY_SIZE_BYTES];
#define ARRAY_SIZE_STRINGS 30000
uint32_t codepoints[ARRAY_SIZE_STRINGS];
#define ARRAY_SIZE_STRINGS_ASCII 150
char charsNamespaceURI[ARRAY_SIZE_STRINGS_ASCII];
char charsLocalName[ARRAY_SIZE_STRINGS_ASCII];
void debugValue(exi_value_t* val) ;
int main_codec(int argc, char *argv[]) {
int errn = 0;
bitstream_t iStream, oStream;
uint32_t posDecode;
uint32_t posEncode;
/* EXI set-up */
exi_state_t stateDecode;
exi_state_t stateEncode;
exi_event_t event;
eqname_t eqn; /* efficient qname */
qname_t qn; /* ascii qname */
exi_value_t val;
exi_name_table_runtime_t runtimeTableDecode;
exi_name_table_runtime_t runtimeTableEncode;
/* BINARY memory setup */
bytes_t bytes = { ARRAY_SIZE_BYTES, bytesData, 0 };
const char * localName;
const char * namespaceURI;
int noEndOfDocument = 1; /* true */
/* STRING memory setup */
string_ucs_t string = { ARRAY_SIZE_STRINGS, codepoints, 0 };
string_ascii_t stringNamespaceURI = { ARRAY_SIZE_STRINGS_ASCII, charsNamespaceURI };
string_ascii_t stringLocalName = { ARRAY_SIZE_STRINGS_ASCII, charsLocalName };
qn.namespaceURI = stringNamespaceURI;
qn.localName = stringLocalName;
if (argc != 3) {
printf("Usage: %s exiInput exiOutput\n", argv[0]);
return -1;
}
/* input pos */
posDecode = 0;
#if EXI_STREAM == BYTE_ARRAY
/* parse EXI stream to internal byte structures */
errn = readBytesFromFile(argv[1], bufferIn, BUFFER_SIZE, posDecode);
if (errn < 0) {
printf("Problems while reading file into buffer\n");
return errn;
}
#endif /* EXI_STREAM == BYTE_ARRAY */
/* setup input stream */
#if EXI_STREAM == BYTE_ARRAY
iStream.size = BUFFER_SIZE;
iStream.data = bufferIn;
iStream.pos = &posDecode;
#endif /* EXI_STREAM == BYTE_ARRAY */
#if EXI_STREAM == FILE_STREAM
iStream.file = fopen(argv[1],"rb");
#endif /* EXI_STREAM == FILE_STREAM */
iStream.buffer = 0;
iStream.capacity = 0;
/* setup output stream */
posEncode = 0;
#if EXI_STREAM == BYTE_ARRAY
oStream.size = BUFFER_SIZE;
oStream.data = bufferOut;
oStream.pos = &posEncode;
#endif
#if EXI_STREAM == FILE_STREAM
oStream.file = fopen(argv[2],"wb");
#endif /* EXI_STREAM == FILE_STREAM */
oStream.buffer = 0;
oStream.capacity = 8;
val.binary = bytes;
val.string = string;
/* init decoder (read header, set initial state) */
/* init runtime table */
errn = exiInitNameTableRuntime(&runtimeTableDecode);
exiInitDecoder(&iStream, &stateDecode, runtimeTableDecode);
/* init encoder (write header, set initial state) */
errn = exiInitNameTableRuntime(&runtimeTableEncode);
exiInitEncoder(&oStream, &stateEncode, runtimeTableEncode);
if (DEBUG) {
printf("[DECODE] >>> EXI >>> [ENCODE] \n");
}
do {
if (errn < 0) {
if (DEBUG) {
printf("[Encode-ERROR] %d \n", errn);
}
return errn;
}
errn = exiDecodeNextEvent(&iStream, &stateDecode, &event);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR] %d \n", errn);
}
return errn;
}
switch (event) {
case START_DOCUMENT:
/* decode */
errn = exiDecodeStartDocument(&iStream, &stateDecode);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-SD] %d \n", errn);
}
return errn;
}
if (DEBUG) {
printf(">> START_DOCUMENT \n");
}
/* encode */
errn = exiEncodeStartDocument(&oStream, &stateEncode);
break;
case END_DOCUMENT:
/* decode */
errn = exiDecodeEndDocument(&iStream, &stateDecode);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-ED] %d \n", errn);
}
return errn;
}
if (DEBUG) {
printf(">> END_DOCUMENT \n");
}
/* encode */
errn = exiEncodeEndDocument(&oStream, &stateEncode);
/* signalize end of document */
noEndOfDocument = 0; /* false */
break;
case START_ELEMENT:
/* decode */
errn = exiDecodeStartElement(&iStream, &stateDecode, &eqn);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-SE] %d \n", errn);
}
return errn;
}
if (DEBUG) {
exiGetLocalName(&(stateDecode.nameTablePrepopulated), &(stateDecode.nameTableRuntime), eqn.namespaceURI, eqn.localPart, &localName);
exiGetUri(&(stateDecode.nameTablePrepopulated), &(stateDecode.nameTableRuntime), eqn.namespaceURI, &namespaceURI);
printf(">> SE {%s}%s \n", namespaceURI, localName);
}
/* encode */
errn = exiEncodeStartElement(&oStream, &stateEncode, &eqn);
break;
case START_ELEMENT_GENERIC:
/* decode */
errn = exiDecodeStartElementGeneric(&iStream, &stateDecode, &qn);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-SEgen] %d \n", errn);
}
return errn;
}
if (DEBUG) {
printf(">> SE_Gen {%s}%s \n", stringNamespaceURI.chars, stringLocalName.chars);
}
/* encode */
errn = exiEncodeStartElementGeneric(&oStream, &stateEncode,
&stringNamespaceURI, &stringLocalName);
break;
case END_ELEMENT:
/* decode */
errn = exiDecodeEndElement(&iStream, &stateDecode, &eqn);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-EE] %d \n", errn);
}
return errn;
}
if (DEBUG) {
printf("<< EE \n");
}
/* encode */
errn = exiEncodeEndElement(&oStream, &stateEncode);
break;
case END_ELEMENT_UNDECLARED:
/* decode */
errn = exiDecodeEndElementUndeclared(&iStream, &stateDecode, &eqn);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-EE-Undecl] %d \n", errn);
}
return errn;
}
if (DEBUG) {
printf("<< EEundecl \n");
}
/* encode */
errn = exiEncodeEndElement(&oStream, &stateEncode);
break;
case CHARACTERS:
/* decode */
errn = exiDecodeCharacters(&iStream, &stateDecode, &val);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-CH] %d \n", errn);
}
return errn;
}
if (DEBUG) {
debugValue(&val);
}
/* encode */
errn = exiEncodeCharacters(&oStream, &stateEncode, &val);
break;
case CHARACTERS_GENERIC:
/* decode */
errn = exiDecodeCharactersGeneric(&iStream, &stateDecode, &val);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-CHgen] %d \n", errn);
}
return errn;
}
if (DEBUG) {
debugValue(&val);
}
/* encode */
errn = exiEncodeCharacters(&oStream, &stateEncode, &val);
break;
case CHARACTERS_GENERIC_UNDECLARED:
/* decode */
errn = exiDecodeCharactersGenericUndeclared(&iStream, &stateDecode, &val);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-CHgenUndecl] %d \n", errn);
}
return errn;
}
if (DEBUG) {
debugValue(&val);
}
/* encode */
errn = exiEncodeCharacters(&oStream, &stateEncode, &val);
break;
case ATTRIBUTE:
/* decode */
errn = exiDecodeAttribute(&iStream, &stateDecode, &eqn, &val);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-AT] %d \n", errn);
}
return errn;
}
if (DEBUG) {
exiGetLocalName(&(stateDecode.nameTablePrepopulated), &(stateDecode.nameTableRuntime), eqn.namespaceURI, eqn.localPart, &localName);
exiGetUri(&(stateDecode.nameTablePrepopulated), &(stateDecode.nameTableRuntime), eqn.namespaceURI, &namespaceURI);
printf(" AT {%s}%s \n", namespaceURI, localName);
debugValue(&val);
}
/* encode */
errn = exiEncodeAttribute(&oStream, &stateEncode, &eqn, &val);
break;
case ATTRIBUTE_XSI_NIL:
/* decode */
errn = exiDecodeAttributeXsiNil(&iStream, &stateDecode, &val);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-AT-NIL] %d \n", errn);
}
return errn;
}
if (DEBUG) {
printf(" AT {xsi}nil == %i \n", val.boolean);
}
/* encode */
errn = exiEncodeAttributeXsiNil(&oStream, &stateEncode, &val);
break;
case ATTRIBUTE_XSI_TYPE:
/* decode */
errn = exiDecodeAttributeXsiType(&iStream, &stateDecode, &val);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-AT-TYPE] %d \n", errn);
}
return errn;
}
if (DEBUG) {
exiGetLocalName(&(stateDecode.nameTablePrepopulated), &(stateDecode.nameTableRuntime), val.eqname.namespaceURI, val.eqname.localPart, &localName);
exiGetUri(&(stateDecode.nameTablePrepopulated), &(stateDecode.nameTableRuntime), val.eqname.namespaceURI, &namespaceURI);
printf(" AT {type}type == {%s}%s \n", namespaceURI, localName);
}
/* encode */
errn = exiEncodeAttributeXsiType(&oStream, &stateEncode, &val);
break;
case ATTRIBUTE_GENERIC_UNDECLARED:
/* decode */
errn = exiDecodeAttributeGenericUndeclared(&iStream, &stateDecode, &qn, &val);
if (errn < 0) {
if (DEBUG) {
printf("[Decode-ERROR-ATgenUnd] %d \n", errn);
}
return errn;
}
if (DEBUG) {
/* exiGetLocalName(&(stateDecode.nameTablePrepopulated), &(stateDecode.nameTableRuntime), eqn.namespaceURI, eqn.localPart, &localName);
exiGetUri(&(stateDecode.nameTablePrepopulated), &(stateDecode.nameTableRuntime), eqn.namespaceURI, &namespaceURI); */
printf(" AT {%s}%s \n", qn.namespaceURI.chars, qn.localName.chars);
debugValue(&val);
}
/* encode */
errn = exiEncodeAttribute(&oStream, &stateEncode, &eqn, &val);
break;
default:
/* ERROR */
if (DEBUG) {
printf("[Unknown-Event] %d \n", event);
}
return EXI_ERROR_UNKOWN_EVENT;
}
} while (noEndOfDocument);
#if EXI_STREAM == BYTE_ARRAY
/* write to file */
writeBytesToFile(oStream.data, posEncode, argv[2]);
#endif
#if EXI_STREAM == FILE_STREAM
fclose(iStream.file);
fclose(oStream.file);
#endif
return 0;
}
static int _setInt32Value(integer_t* iv, int32_t* int32) {
int errn = 0;
switch(iv->type) {
/* Unsigned Integer */
case UNSIGNED_INTEGER_8:
*int32 = iv->val.uint8;
break;
case UNSIGNED_INTEGER_16:
*int32 = iv->val.uint16;
break;
case UNSIGNED_INTEGER_32:
if (iv->val.uint32 <= 2147483647) {
*int32 = iv->val.uint32;
} else {
errn = EXI_UNSUPPORTED_INTEGER_VALUE;
}
break;
case UNSIGNED_INTEGER_64:
errn = EXI_UNSUPPORTED_INTEGER_VALUE;
break;
/* (Signed) Integer */
case INTEGER_8:
*int32 = iv->val.int8;
break;
case INTEGER_16:
*int32 = iv->val.int16;
break;
case INTEGER_32:
*int32 = iv->val.int32;
break;
case INTEGER_64:
errn = EXI_UNSUPPORTED_INTEGER_VALUE;
}
return errn;
}
void debugValue(exi_value_t* val) {
int i;
switch(val->type) {
case INTEGER:
switch(val->integer.type) {
/* Unsigned Integer */
case UNSIGNED_INTEGER_8:
printf(" Value uint8 : %d \n", val->integer.val.uint8);
break;
case UNSIGNED_INTEGER_16:
printf(" Value uint16 : %d \n", val->integer.val.uint16);
break;
case UNSIGNED_INTEGER_32:
printf(" Value uint32 : %d \n", val->integer.val.uint32);
break;
case UNSIGNED_INTEGER_64:
printf(" Value uint64 : %ld \n", (long unsigned int) val->integer.val.uint64);
break;
/* (Signed) Integer */
case INTEGER_8:
printf(" Value int8 : %d \n", val->integer.val.int8);
break;
case INTEGER_16:
printf(" Value int16 : %d \n", val->integer.val.int16);
break;
case INTEGER_32:
printf(" Value int32 : %d \n", val->integer.val.int32);
break;
case INTEGER_64:
printf(" Value int64 : %ld \n", (long int) val->integer.val.int64);
break;
}
break;
case BINARY_BASE64:
case BINARY_HEX:
printf(" Value Binary (len == %d) : ", val->binary.len);
for (i = 0; i < val->binary.len; i++) {
printf(" [%d]", val->binary.data[i]);
}
printf("\n");
break;
case BOOLEAN:
printf(" Value Boolean : %d \n", val->boolean);
break;
case STRING:
printf(" Value String (len==%d) : '", val->string.len);
for (i = 0; i < val->string.len; i++) {
printf("%c", (char) val->string.codepoints[i]);
}
printf("'\n");
break;
default:
printf(" Value ?? \n");
}
}

View file

@ -1,951 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#include "v2g_service.h"
#include "v2g_serviceDataTypes.h"
#include "v2g_serviceClientStubs.h"
#include "EXITypes.h"
#include "v2gtp.h"
#include <stdio.h>
#define MAX_BYTE_SIZE 128
#define MAX_STRING_SIZE 256
#define MAX_STREAM_SIZE 100
static void printErrorMessage(struct EXIService* service);
static void printDCEVSEStatus(struct DC_EVSEStatusType* status);
static void printACEVSEStatus(struct AC_EVSEStatusType* status);
static void printASCIIString(uint32_t* string, uint32_t len);
static int ac_charging()
{
static uint8_t byte_array[MAX_BYTE_SIZE]; /* define MAX_BYTE_SIZE before*/
static uint32_t string_array[MAX_STRING_SIZE]; /* define MAX_STRING_SIZE before*/
/* define in and out byte stream */
uint8_t inStream[MAX_STREAM_SIZE]; /* define MAX_STREAM_SIZE before */
uint8_t outStream[MAX_STREAM_SIZE]; /* define MAX_STREAM_SIZE before */
/* define offset variable for transport header data */
uint16_t transportHeaderOffset;
/* service data structure for AC*/
struct EXIService service;
struct MessageHeaderType v2gHeader;
struct SessionSetupReqType sessionSetup;
struct SessionSetupResType resultSessionSetup;
struct ServiceDiscoveryReqType serviceDiscovery;
struct ServiceDiscoveryResType resultServiceDiscovery;
struct ChargeParameterDiscoveryReqType powerDiscovery;
struct ChargeParameterDiscoveryResType resultPowerDiscovery;
struct LineLockReqType lineLock;
struct LineLockResType resultLineLock;
struct PowerDeliveryReqType powerDelivery;
struct PowerDeliveryResType resultPowerDelivery;
struct MeteringStatusReqType meteringStatus;
struct MeteringStatusResType resultMeteringStatus;
struct MeteringReceiptReqType meteringReceipt;
struct MeteringReceiptResType resultMeteringReceipt;
struct AC_PEVStatusType pevStatus;
struct AC_EVSEStatusType evseStatus;
struct AC_PEVChargeParameterType pevChargeParameter;
struct AC_EVSEChargeParameterType evseChargeParameter;
struct AC_PEVPowerDeliveryParameterType pevPowerDelivery;
struct FloatingValueType float_type; /* test float type*/
/* BINARY memory setup */
bytes_t bytes = { MAX_BYTE_SIZE, byte_array, 0 };
/* STRING memory setup */
string_ucs_t string = { MAX_STRING_SIZE, string_array, 0 };
/* setup offset for DoIP header (otherwise set
* transportHeaderOffset=0 if no transfer protocol is used)*/
transportHeaderOffset = V2GTP_HEADER_LENGTH;
/*******************
* Init V2G Client *
*******************/
init_v2gServiceClient(&service,bytes,string,inStream,MAX_STREAM_SIZE, outStream, MAX_STREAM_SIZE, transportHeaderOffset);
/*******************************
* Setup data for sessionSetup *
*******************************/
/* setup header information */
v2gHeader.SessionInformation.SessionID.data[0] = 0; /* sessionID is always '0' at the beginning (the response contains the valid sessionID)*/
v2gHeader.SessionInformation.SessionID.arraylen.data = 1; /* no session id in the initial message -> array length = 0*/
v2gHeader.SessionInformation.ProtocolVersion.data[0]='1'; /* assign protocol version number*/
v2gHeader.SessionInformation.ProtocolVersion.arraylen.data=1; /* array string length =1 of protocol version */
v2gHeader.SessionInformation.isused.ProtocolVersion = 1; /* important: optional elements have to be set used (=1) or not used (=0) */
v2gHeader.SessionInformation.isused.ServiceSessionID = 0; /* service session is not used */
v2gHeader.isused.Notification=0; /* no notification */
v2gHeader.isused.Security=0; /* no security */
/* setup sessionSetup parameter */
sessionSetup.isused.PEVID=1; /* PEVID is transported */
sessionSetup.PEVID.arraylen.data=1;
sessionSetup.PEVID.data[0]=10;
printf("PEV: call EVSE sessionSetup\n");
/*********************
* Call sessionSetup *
*********************/
if(call_sessionSetup(&service,&v2gHeader, &sessionSetup,&resultSessionSetup))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup */
printf("PEV: received response message from EVSE\n");
printf("\tHeader SessionID=%d\n",v2gHeader.SessionInformation.SessionID.data[0]);
printf("\tResponseCode=%d\n",resultSessionSetup.ResponseCode);
printf("\tEVSEID=%d\n", resultSessionSetup.EVSEID.data[0]);
printf("\tTCurrent=%d\n",resultSessionSetup.TCurrent);
}
/*******************************************
* Setup data for serviceDiscovery *
*******************************************/
serviceDiscovery.isused.ServiceType=1;
serviceDiscovery.ServiceType = PEVRechargeCharge_serviceCategoryType;
serviceDiscovery.isused.ServiceScope=0;
printf("PEV: call EVSE serviceDiscovery\n");
/*************************
* Call serviceDiscovery *
*************************/
if(call_serviceDiscovery(&service,&v2gHeader, &serviceDiscovery,&resultServiceDiscovery))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup */
printf("PEV: received response message from EVSE\n");
printf("\t Header SessionID=%d\n",v2gHeader.SessionInformation.SessionID.data[0]);
printf("\t ResponseCode=%d\n",resultServiceDiscovery.ResponseCode);
printf("\t ServiceID=%d\n", resultServiceDiscovery.ChargeService.ServiceTag.ServiceID.data[0]);
printf("\t PaymentOption=%d\n", resultServiceDiscovery.PaymentOptions.PaymentOption[0]);
printf("\t EnergyTransferType=%d\n", resultServiceDiscovery.ChargeService.EnergyTransferType);
}
/*******************************************
* Setup data for chargeParameterDiscovery *
*******************************************/
powerDiscovery.PEVRequestedEnergyTransferType = AC_three_phase_core_PEVRequestedEnergyTransferType;
/* setup PEVStatus */
pevStatus.ConnectorLocked = 1;
pevStatus.PEVStandby = 1;
pevChargeParameter.AC_PEVStatus = pevStatus;
float_type.Multiplier = 0;
float_type.Unit = W_unitSymbolType;
float_type.Value = 100;
pevChargeParameter.EAmount = float_type;
pevChargeParameter.EoC = 89;
float_type.Unit = A_unitSymbolType;
float_type.Value = 200;
pevChargeParameter.PEVMaxCurrent= float_type;
pevChargeParameter.PEVMaxPhases= 3;
float_type.Unit = W_unitSymbolType;
float_type.Value = 300;
pevChargeParameter.PEVMaxPower= float_type;
float_type.Unit = V_unitSymbolType;
float_type.Value = 400;
pevChargeParameter.PEVMaxVoltage=float_type;
float_type.Unit = A_unitSymbolType;
float_type.Value = 500;
pevChargeParameter.PEVMinCurrent=float_type;
float_type.Unit = V_unitSymbolType;
float_type.Value = 600;
pevChargeParameter.PEVMinVoltage = float_type;
powerDiscovery.AC_PEVChargeParameter = &pevChargeParameter;
powerDiscovery.isused.AC_PEVChargeParameter = 1; /* we use here DC based charging parameters */
powerDiscovery.isused.DC_PEVChargeParameter = 0;
resultPowerDiscovery.AC_EVSEChargeParameter = &evseChargeParameter; /* we expect DC-based parameters from the evse*/
/*********************************
* Call chargeParameterDiscovery *
*********************************/
printf("\nPEV: call EVSE chargeParameterDiscovery\n");
if(call_chargeParameterDiscovery(&service,&v2gHeader,&powerDiscovery,&resultPowerDiscovery))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup*/
printf("PEV: received response message from EVSE\n");
printf("\t\t Header SessionID=%d\n",v2gHeader.SessionInformation.SessionID.data[0]);
printf("\tResponseCode=%d\n",resultPowerDiscovery.ResponseCode);
printACEVSEStatus(&(resultPowerDiscovery.AC_EVSEChargeParameter->AC_EVSEStatus));
printf("\t EVSEMaxCurrent=%d\n",resultPowerDiscovery.AC_EVSEChargeParameter->EVSEMaxCurrent.Value);
printf("\t EVSEMaxPhases=%d\n",resultPowerDiscovery.AC_EVSEChargeParameter->EVSEMaxPhases);
printf("\t EVSEMaxVoltage=%d\n",resultPowerDiscovery.AC_EVSEChargeParameter->EVSEMaxVoltage.Value);
printf("\t EVSEMinimumCurrentLimit=%d\n",resultPowerDiscovery.AC_EVSEChargeParameter->EVSEMinCurrent.Value);
printf("\t EVSEMinVoltage=%d\n",resultPowerDiscovery.AC_EVSEChargeParameter->EVSEMinVoltage.Value);
}
/*********************************
* Setup data for lineLock *
*********************************/
lineLock.AC_PEVStatus = pevStatus;
lineLock.ReqLockStatus = 1;
/***********************
* Call lineLock *
***********************/
printf("\nPEV: call EVSE lineLock\n");
if(call_lineLock(&service,&v2gHeader,&lineLock,&resultLineLock))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultLineLock.ResponseCode);
printACEVSEStatus(&resultLineLock.AC_EVSEStatus);
}
/*********************************
* Setup data for powerDelivery *
*********************************/
powerDelivery.ReqSwitchStatus = 1;
powerDelivery.isused.Tariff = 0;
powerDelivery.isused.ChargingProfile= 0;
powerDelivery.isused.DC_PEVPowerDeliveryParameter=0;
powerDelivery.isused.AC_PEVPowerDeliveryParameter=1;
pevPowerDelivery.AC_PEVStatus = pevStatus;
powerDelivery.AC_PEVPowerDeliveryParameter = &pevPowerDelivery;
resultPowerDelivery.AC_EVSEStatus = &evseStatus; /* we expect the AC-based EVSE status */
/***********************
* Call powerDelivery *
***********************/
printf("\nPEV: call EVSE powerDelivery\n");
if(call_powerDelivery(&service,&v2gHeader,&powerDelivery,&resultPowerDelivery))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultPowerDelivery.ResponseCode);
printACEVSEStatus(&evseStatus);
}
/********************
* Call meterStatus *
********************/
meteringStatus.AC_PEVStatus = &pevStatus;
meteringStatus.isused.AC_PEVStatus=1;
meteringStatus.isused.DC_PEVStatus=0;
resultMeteringStatus.AC_EVSEStatus = &evseStatus;
printf("\nPEV: call EVSE meterStatus\n");
if(call_meteringStatus(&service,&v2gHeader,&meteringStatus,&resultMeteringStatus))
{
printErrorMessage(&service);
}
else
{
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultPowerDiscovery.ResponseCode);
printACEVSEStatus(resultMeteringStatus.AC_EVSEStatus);
printf("\tEVSEID=%d\n",resultMeteringStatus.EVSEID.data[0]);
printf("\tEVSEMaxPower=%d\n",resultMeteringStatus.EVSEMaxPower.Value);
printf("\tisused.MeterInfo=%d\n", resultMeteringStatus.isused.MeterInfo);
printf("\t\tMeterInfo.MeterID=%d\n", resultMeteringStatus.MeterInfo.MeterID.data[0]);
printf("\t\tMeterInfo.MeterReading.Value=%d\n", resultMeteringStatus.MeterInfo.MeterReading.Value);
printf("\t\tMeterInfo.MeterStatus=%d\n", resultMeteringStatus.MeterInfo.MeterStatus);
}
/*********************************
* Setup data for meteringReceipt *
*********************************/
meteringReceipt.PEVID.arraylen.data=1;
meteringReceipt.PEVID.data[0]=10;
meteringReceipt.isused.PEVID=1;
meteringReceipt.AC_PEVStatus = &pevStatus;
meteringReceipt.isused.AC_PEVStatus =1;
meteringReceipt.isused.DC_PEVStatus =0;
meteringReceipt.TCurrent = 12345;
meteringReceipt.isused.TCurrent = 1;
meteringReceipt.Tariff = 12;
meteringReceipt.MeterInfo.MeterStatus = 2;
meteringReceipt.MeterInfo.isused.MeterStatus = 1;
meteringReceipt.MeterInfo.MeterID.arraylen.data=1;
meteringReceipt.MeterInfo.MeterID.data[0]=3;
meteringReceipt.MeterInfo.isused.MeterID = 1;
meteringReceipt.MeterInfo.MeterReading.Multiplier = 0;
meteringReceipt.MeterInfo.MeterReading.Unit = A_unitSymbolType;
meteringReceipt.MeterInfo.MeterReading.Value = 500;
meteringReceipt.MeterInfo.isused.MeterReading = 1;
meteringReceipt.MeterInfo.TMeter =123456789;
meteringReceipt.MeterInfo.isused.TMeter = 1;
resultMeteringReceipt.AC_EVSEStatus = &evseStatus;
/***********************
* Call meteringReceipt *
***********************/
printf("\nPEV: call EVSE meteringReceipt\n");
if(call_meteringReceipt(&service,&v2gHeader,&meteringReceipt,&resultMeteringReceipt))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultMeteringReceipt.ResponseCode);
printACEVSEStatus(resultMeteringReceipt.AC_EVSEStatus);
}
return 0;
}
static int dc_charging()
{
static uint8_t byte_array[MAX_BYTE_SIZE]; /* define MAX_BYTE_SIZE before*/
static uint32_t string_array[MAX_STRING_SIZE]; /* define MAX_STRING_SIZE before*/
/* define in and out byte stream */
uint8_t inStream[MAX_STREAM_SIZE]; /* define MAX_STREAM_SIZE before */
uint8_t outStream[MAX_STREAM_SIZE]; /* define MAX_STREAM_SIZE before */
/* define offset variable for transport header data */
uint16_t transportHeaderOffset;
/* service data structure for DC*/
struct EXIService service;
struct MessageHeaderType v2gHeader;
struct SessionSetupReqType sessionSetup;
struct SessionSetupResType resultSessionSetup;
struct ServiceDiscoveryReqType serviceDiscovery;
struct ServiceDiscoveryResType resultServiceDiscovery;
struct ChargeParameterDiscoveryReqType powerDiscovery;
struct ChargeParameterDiscoveryResType resultPowerDiscovery;
struct CableCheckReqType cableCheck;
struct CableCheckResType resultCableCheck;
struct PowerDeliveryReqType powerDelivery;
struct PowerDeliveryResType resultPowerDelivery;
struct PreChargeReqType preCharge;
struct PreChargeResType resultPreCharge;
struct CurrentDemandReqType currentDemand;
struct CurrentDemandResType resultCurrentDemand;
struct WeldingDetectionReqType weldingDetection;
struct WeldingDetectionResType resultWeldingDetection;
struct TerminateChargingReqType terminateCharging;
struct TerminateChargingResType resultTerminateCharging;
struct DC_PEVStatusType pevStatus;
struct DC_EVSEStatusType evseStatus;
struct DC_PEVChargeParameterType pevChargeParameter;
struct DC_EVSEChargeParameterType evseChargeParameter;
struct DC_PEVPowerDeliveryParameterType pevPowerDelivery;
struct FloatingValueType float_type; /* test float type*/
/* BINARY memory setup */
bytes_t bytes = { MAX_BYTE_SIZE, byte_array, 0 };
/* STRING memory setup */
string_ucs_t string = { MAX_STRING_SIZE, string_array, 0 };
/* setup offset for DoIP header (otherwise set
* transportHeaderOffset=0 if no transfer protocol is used)*/
transportHeaderOffset = V2GTP_HEADER_LENGTH;
/*******************
* Init V2G Client *
*******************/
init_v2gServiceClient(&service,bytes,string,inStream,MAX_STREAM_SIZE, outStream, MAX_STREAM_SIZE, transportHeaderOffset);
/*******************************
* Setup data for sessionSetup *
*******************************/
/* setup header information */
v2gHeader.SessionInformation.SessionID.data[0] = 0; /* sessionID is always '0' at the beginning (the response contains the valid sessionID)*/
v2gHeader.SessionInformation.SessionID.arraylen.data = 1; /* no session id in the initial message -> array length = 0*/
v2gHeader.SessionInformation.ProtocolVersion.data[0]='1'; /* assign protocol version number*/
v2gHeader.SessionInformation.ProtocolVersion.arraylen.data=1; /* array string length =1 of protocol version */
v2gHeader.SessionInformation.isused.ProtocolVersion = 1; /* important: optional elements have to be set used (=1) or not used (=0) */
v2gHeader.SessionInformation.isused.ServiceSessionID = 0; /* service session is not used */
v2gHeader.isused.Notification=0; /* no notification */
v2gHeader.isused.Security=0; /* no security */
/* setup sessionSetup parameter */
sessionSetup.isused.PEVID=1; /* PEVID is transported */
sessionSetup.PEVID.arraylen.data=1;
sessionSetup.PEVID.data[0]=10;
printf("PEV: call EVSE sessionSetup\n");
/*********************
* Call sessionSetup *
*********************/
if(call_sessionSetup(&service,&v2gHeader, &sessionSetup,&resultSessionSetup))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup */
printf("PEV: received response message from EVSE\n");
printf("\tHeader SessionID=%d\n",v2gHeader.SessionInformation.SessionID.data[0]);
printf("\tResponseCode=%d\n",resultSessionSetup.ResponseCode);
printf("\tEVSEID=%d\n", resultSessionSetup.EVSEID.data[0]);
printf("\tTCurrent=%d\n",resultSessionSetup.TCurrent);
}
/*******************************************
* Setup data for serviceDiscovery *
*******************************************/
serviceDiscovery.isused.ServiceType=1;
serviceDiscovery.ServiceType = PEVRechargeCharge_serviceCategoryType;
serviceDiscovery.isused.ServiceScope=0;
printf("PEV: call EVSE serviceDiscovery\n");
/*************************
* Call serviceDiscovery *
*************************/
if(call_serviceDiscovery(&service,&v2gHeader, &serviceDiscovery,&resultServiceDiscovery))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup */
printf("PEV: received response message from EVSE\n");
printf("\t Header SessionID=%d\n",v2gHeader.SessionInformation.SessionID.data[0]);
printf("\t ResponseCode=%d\n",resultServiceDiscovery.ResponseCode);
printf("\t ServiceID=%d\n", resultServiceDiscovery.ChargeService.ServiceTag.ServiceID.data[0]);
printf("\t PaymentOption=%d\n", resultServiceDiscovery.PaymentOptions.PaymentOption[0]);
printf("\t EnergyTransferType=%d\n", resultServiceDiscovery.ChargeService.EnergyTransferType);
}
/*******************************************
* Setup data for chargeParameterDiscovery *
*******************************************/
powerDiscovery.PEVRequestedEnergyTransferType = DC_core_PEVRequestedEnergyTransferType;
/* setup PEVStatus */
pevStatus.ConnectorLocked = 1;
pevStatus.PEVRESSSOC = 89;
pevStatus.PEVReady = 1;
pevStatus.PEVStandby = 1;
pevStatus.PEVStatusCode = PEVCabinConditioning_DC_PEVStatusCodeType;
pevChargeParameter.DC_PEVStatus = pevStatus;
float_type.Multiplier = 0;
float_type.Unit = A_unitSymbolType;
float_type.Value = 100;
pevChargeParameter.PEVMaximumCurrentLimit = float_type;
float_type.Unit = W_unitSymbolType;
float_type.Value = 200;
pevChargeParameter.PEVMaximumPowerLimit = float_type;
pevChargeParameter.isused.PEVMaximumPowerLimit = 1;
float_type.Unit = V_unitSymbolType;
float_type.Value = 300;
pevChargeParameter.PEVMaximumVoltageLimit= float_type;
float_type.Unit = W_s_unitSymbolType;
float_type.Value = 400;
pevChargeParameter.PEVEnergyCapacity= float_type;
pevChargeParameter.isused.PEVEnergyCapacity = 1;
float_type.Unit = W_s_unitSymbolType;
float_type.Value = 500;
pevChargeParameter.PEVEnergyRequest= float_type;
pevChargeParameter.isused.PEVEnergyRequest = 1;
pevChargeParameter.FullSOC=0;
pevChargeParameter.isused.FullSOC = 1;
pevChargeParameter.BulkSOC=100;
pevChargeParameter.isused.BulkSOC = 1;
pevChargeParameter.PEVProtocolVersion = 12;
powerDiscovery.DC_PEVChargeParameter = &pevChargeParameter;
powerDiscovery.isused.DC_PEVChargeParameter = 1; /* we use here DC based charging parameters */
powerDiscovery.isused.AC_PEVChargeParameter = 0;
resultPowerDiscovery.DC_EVSEChargeParameter = &evseChargeParameter; /* we expect DC-based parameters from the evse*/
/*********************************
* Call chargeParameterDiscovery *
*********************************/
printf("\nPEV: call EVSE chargeParameterDiscovery\n");
if(call_chargeParameterDiscovery(&service,&v2gHeader,&powerDiscovery,&resultPowerDiscovery))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup*/
printf("PEV: received response message from EVSE\n");
printf("\t\t Header SessionID=%d\n",v2gHeader.SessionInformation.SessionID.data[0]);
printf("\tResponseCode=%d\n",resultPowerDiscovery.ResponseCode);
printDCEVSEStatus(&(resultPowerDiscovery.DC_EVSEChargeParameter->DC_EVSEStatus));
printf("\tEVSEMaximumCurrentLimit=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSEMaximumCurrentLimit.Value);
printf("\tEVSEMaximumPowerLimit=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSEMaximumPowerLimit.Value);
printf("\tEVSEMaximumVoltageLimit=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSEMaximumVoltageLimit.Value);
printf("\tEVSEMinimumCurrentLimit=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSEMinimumCurrentLimit.Value);
printf("\tEVSEMinimumVoltageLimit=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSEMinimumVoltageLimit.Value);
printf("\tEVSECurrentRegulationTolerance=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSECurrentRegulationTolerance.Value);
printf("\tEVSEPeakCurrentRipple=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSEPeakCurrentRipple.Value);
printf("\tEVSEEnergyToBeDelivered=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSEEnergyToBeDelivered.Value);
printf("\tEVSEProtocolVersion=%d\n",resultPowerDiscovery.DC_EVSEChargeParameter->EVSEProtocolVersion);
}
/***********************
* Call cableCheck *
***********************/
printf("\nPEV: call EVSE cableCheck\n");
cableCheck.DC_PEVStatus =pevStatus;
if(call_cableCheck(&service,&v2gHeader,&cableCheck,&resultCableCheck))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE powerDiscovery*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultCableCheck.ResponseCode);
printDCEVSEStatus(&(resultCableCheck.DC_EVSEStatus));
}
/***********************
* Call preCharge *
***********************/
printf("\nPEV: call EVSE preCharge\n");
preCharge.DC_PEVStatus =pevStatus;
float_type.Unit = V_unitSymbolType;
float_type.Value = 100;
preCharge.PEVRESSVoltage = float_type;
float_type.Unit = V_unitSymbolType;
float_type.Value = 200;
preCharge.PEVTargetVoltage = float_type;
float_type.Unit = A_unitSymbolType;
float_type.Value = 300;
preCharge.PEVTargetVoltage = float_type;
float_type.Unit = V_unitSymbolType;
float_type.Value = 400;
preCharge.PEVTargetVoltage = float_type;
if(call_preCharge(&service,&v2gHeader,&preCharge,&resultPreCharge))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE powerDiscovery*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultPreCharge.ResponseCode);
printDCEVSEStatus(&resultPreCharge.DC_EVSEStatus);
printf("\tVoltageOutput=%d\n",resultPreCharge.EVSEPresentVoltage.Value);
}
/*********************************
* Setup data for powerDelivery *
*********************************/
powerDelivery.ReqSwitchStatus = 1;
powerDelivery.isused.Tariff = 0;
powerDelivery.isused.ChargingProfile= 0;
powerDelivery.isused.DC_PEVPowerDeliveryParameter=1;
powerDelivery.isused.AC_PEVPowerDeliveryParameter=0;
pevPowerDelivery.DC_PEVStatus = pevStatus;
pevPowerDelivery.BulkChargingComplete = 1;
pevPowerDelivery.isused.BulkChargingComplete = 1;
pevPowerDelivery.ChargingComplete = 0;
powerDelivery.DC_PEVPowerDeliveryParameter = &pevPowerDelivery;
resultPowerDelivery.DC_EVSEStatus = &evseStatus; /* we expect the DC-based EVSE status */
/***********************
* Call powerDelivery *
***********************/
printf("\nPEV: call EVSE powerDelivery\n");
if(call_powerDelivery(&service,&v2gHeader,&powerDelivery,&resultPowerDelivery))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE sessionSetup*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultPowerDelivery.ResponseCode);
printDCEVSEStatus(resultPowerDelivery.DC_EVSEStatus);
}
/***********************
* Call currentDemand *
***********************/
printf("\nPEV: call EVSE currentDemand\n");
currentDemand.DC_PEVStatus = pevStatus;
float_type.Unit = A_unitSymbolType;
float_type.Value = 100;
currentDemand.ChargeCurrentRequest = float_type;
float_type.Unit = V_unitSymbolType;
float_type.Value = 200;
currentDemand.PEVMaximumVoltageLimit = float_type;
currentDemand.isused.PEVMaximumVoltageLimit = 1;
float_type.Unit = W_unitSymbolType;
float_type.Value = 300;
currentDemand.PEVMaximumPowerLimit = float_type;
currentDemand.isused.PEVMaximumPowerLimit = 1;
float_type.Unit = A_unitSymbolType;
float_type.Value = 400;
currentDemand.PEVMaximumCurrentLimit = float_type;
currentDemand.isused.PEVMaximumCurrentLimit = 1;
currentDemand.BulkChargingComplete = 1;
currentDemand.isused.BulkChargingComplete = 1;
currentDemand.ChargingComplete = 0;
float_type.Unit = s_unitSymbolType;
float_type.Value = 500;
currentDemand.RemainingTimeToFullSoC = float_type;
currentDemand.isused.RemainingTimeToFullSoC = 1;
float_type.Unit = s_unitSymbolType;
float_type.Value = 600;
currentDemand.RemainingTimeToBulkSoC = float_type;
currentDemand.isused.RemainingTimeToBulkSoC = 1;
float_type.Unit = V_unitSymbolType;
float_type.Value = 700;
currentDemand.PEVTargetVoltage = float_type;
float_type.Unit = A_unitSymbolType;
float_type.Value = 800;
currentDemand.CurrentDifferential = float_type;
float_type.Unit = V_unitSymbolType;
float_type.Value = 900;
currentDemand.VoltageDifferential = float_type;
if(call_currentDemand(&service,&v2gHeader,&currentDemand,&resultCurrentDemand))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE powerDiscovery*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultCurrentDemand.ResponseCode);
printDCEVSEStatus(&resultCurrentDemand.DC_EVSEStatus);
printf("\tResponseCode=%d\n",resultCurrentDemand.ResponseCode);
printDCEVSEStatus(&(resultCurrentDemand.DC_EVSEStatus));
printf("\t EVSEPresentVoltage=%d\n",resultCurrentDemand.EVSEPresentVoltage.Value);
printf("\t EVSEPresentCurrent=%d\n",resultCurrentDemand.EVSEPresentCurrent.Value);
printf("\t EVSECurrentLimitAchieved=%d\n",resultCurrentDemand.EVSECurrentLimitAchieved);
printf("\t EVSEVoltageLimitAchieved=%d\n",resultCurrentDemand.EVSEVoltageLimitAchieved);
printf("\t EVSEPowerLimitAchieved=%d\n",resultCurrentDemand.EVSEPowerLimitAchieved);
printf("\t EVSEMaximumVoltageLimit=%d\n",resultCurrentDemand.EVSEMaximumVoltageLimit.Value);
printf("\t EVSEMaximumCurrentLimit=%d\n",resultCurrentDemand.EVSEMaximumCurrentLimit.Value);
printf("\t EVSEMaximumPowerLimit=%d\n",resultCurrentDemand.EVSEMaximumPowerLimit.Value);
}
/***********************
* Call weldingDetection *
***********************/
printf("\nPEV: call EVSE weldingDetection\n");
weldingDetection.DC_PEVStatus =pevStatus;
if(call_weldingDetection(&service,&v2gHeader,&weldingDetection,&resultWeldingDetection))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE powerDiscovery*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultWeldingDetection.ResponseCode);
printDCEVSEStatus(&resultWeldingDetection.DC_EVSEStatus);
printf("\tEVSEPresentVoltage=%d\n",resultWeldingDetection.EVSEPresentVoltage.Value);
}
/*************************
* Call terminateCharging*
*************************/
printf("\nPEV: call EVSE terminateCharging\n");
terminateCharging.DC_PEVStatus =pevStatus;
if(call_terminateCharging(&service,&v2gHeader,&terminateCharging,&resultTerminateCharging))
{
printErrorMessage(&service);
}
else
{
/* show result of the answer message of EVSE powerDiscovery*/
printf("PEV: received response message from EVSE\n");
printf("\tResponseCode=%d\n",resultTerminateCharging.ResponseCode);
printf("\tEVSEPresentVoltage=%d\n",resultTerminateCharging.EVSEPresentVoltage.Value);
}
return 0;
}
int main_service()
{
printf("+++ Start V2G client / service example for AC charging +++\n\n");
ac_charging();
printf("\n+++Terminate V2G Client / Service example for AC charging +++\n");
printf("Please press enter for DC charging!\n");
fflush(stdout);
getchar();
printf("+++ Start V2G client / service example for DC charging +++\n\n");
dc_charging();
printf("\n+++Terminate V2G client / service example for DC charging +++");
return 0;
}
static void printACEVSEStatus(struct AC_EVSEStatusType* status)
{
printf("\tEVSEStatus:\n\t\tConnectorLocked=%d\n",status->ConnectorLocked);
printf("\t\tEVSEStandby=%d\n",status->EVSEStandby);
printf("\t\tPowerSwitchClosed=%d\n",status->PowerSwitchClosed);
printf("\t\tRCD=%d\n",status->RCD);
printf("\t\tShutDownTime=%d\n",status->ShutDownTime);
printf("\t\tStopCharging=%d\n",status->StopCharging);
}
static void printDCEVSEStatus(struct DC_EVSEStatusType* status)
{
printf("\tEVSEStatus:\n\t\tEVSEStandby=%d\n",status->EVSEStandby);
printf("\t\tEVSEStatusCode=%d\n",status->EVSEStatusCode);
}
static void printErrorMessage(struct EXIService* service)
{
if(service->errorCode==EXI_NON_VALID_MESSAGE)
{
printf("PEV did not send a valid V2G message!\n");
}
else if(service->errorCode==EXI_SERIALIZATION_FAILED)
{
printf("EVSE error: Could not serialize the response message\n");
}
}
static void printASCIIString(uint32_t* string, uint32_t len) {
unsigned int i;
for(i=0; i<len; i++) {
printf("%c",(char)string[i]);
}
printf("\n");
}

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@ -1,47 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @@version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#include "v2g_serviceClientDataTransmitter.h"
#include "evse_server.h"
#include "v2gtp.h"
/* This method has to be implemented!
* Send EXI stream (outStream) to EVSE and receive response stream (inStream)*/
int serviceDataTransmitter(uint8_t* outStream, uint16_t outStreamLength, uint8_t* inStream)
{
/* send output stream to the underlying network to the EVSE and wait for response
* --> here provide data to the V2G server directly*/
uint16_t inStreamLength = 0;
uint16_t payloadLength = 0;
/* setup v2gtp header information; outStreamLength==payloadLength*/
write_v2gtpHeader(outStream,&outStreamLength,V2GTP_EXI_TYPE);
/* send data to EVSE server (add v2g offset)*/
testV2GService(outStream, outStreamLength, inStream, &inStreamLength);
return read_v2gtpHeader(inStream,inStreamLength, &payloadLength);
}

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@ -1,98 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
/*
* This file implements the v2gtp header writer and reader.
*
*/
#include <stdint.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdio.h>
#include <math.h>
#include <string.h>
#include "v2gtp.h"
int write_v2gtpHeader(uint8_t* outStream, uint16_t* outStreamLength, uint16_t payloadType)
{
/* write v2gtp version number 1=byte */
outStream[0]=V2GTP_VERSION;
/* write inverse v2gtp version */
outStream[1]=V2GTP_VERSION_INV;
/* write payload type */
outStream[2] = (uint8_t)(payloadType & 0xFF);
outStream[3] = (uint8_t)(payloadType >> 8 & 0xFF);
/* write payload length */
outStream[4] = (uint8_t)(*outStreamLength & 0xFF);
outStream[5] = (uint8_t)(*outStreamLength>>8 & 0xFF);
outStream[6] = (uint8_t)(*outStreamLength>>16 & 0xFF);
outStream[7] = (uint8_t)(*outStreamLength>>24 & 0xFF);
/* here, the outStream length have to be resized by the v2gtp offset*/
*outStreamLength += V2GTP_HEADER_LENGTH;
return 0;
}
int read_v2gtpHeader(uint8_t* inStream, uint16_t inStreamLength, uint16_t* payloadLength)
{
uint16_t payloadType=0;
/* check, if we support this v2gtp version */
if(inStream[0]!=V2GTP_VERSION && inStream[1]!=V2GTP_VERSION_INV)
return -1;
/* check, if we support this payload type*/
payloadType = inStream[3];
payloadType = (payloadType << 8 | inStream[2]);
if(payloadType != V2GTP_EXI_TYPE)
return -1;
/* determine payload length*/
*payloadLength = inStream[7];
*payloadLength = (*payloadLength << 8 | inStream[6]);
*payloadLength = (*payloadLength << 16 | inStream[5]);
*payloadLength = (*payloadLength << 24 | inStream[4]);
if((*payloadLength+V2GTP_HEADER_LENGTH)!=inStreamLength)
return -1;
return 0;
}

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@ -1,54 +0,0 @@
/*
* Copyright (C) 2007-2011 Siemens AG
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*******************************************************************
*
* @author Sebastian.Kaebisch.EXT@siemens.com
* @version 0.5
* @contact Joerg.Heuer@siemens.com
*
********************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
#ifndef V2GTP_H_
#define V2GTP_H_
/* generic V2GTP header length */
#define V2GTP_HEADER_LENGTH 8
/* define V2GTP Version */
#define V2GTP_VERSION 0x01
#define V2GTP_VERSION_INV 0xFE
/* define V2GTP payload types*/
#define V2GTP_EXI_TYPE 0x8001
int write_v2gtpHeader(uint8_t* outStream, uint16_t* outStreamLength, uint16_t payloadType);
int read_v2gtpHeader(uint8_t* inStream, uint16_t inStreamLength, uint16_t* payloadLength);
#endif /* V2GTP_H_ */
#ifdef __cplusplus
}
#endif