// fieldencode.c was generated by ProtoGen version 3.2.a /* * This file is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This file is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . * * Author: Oliver Walters */ #include "fieldencode.h" /*! * Copy a null terminated string to a destination whose maximum length (with * null terminator) is `maxLength`. The destination string is guaranteed to * have a null terminator when this operation is complete. This is a * replacement for strncpy(). * \param dst receives the string, and is guaranteed to be null terminated. * \param src is the null terminated source string to copy. * \param maxLength is the size of the `dst` buffer. */ void pgstrncpy(char* dst, const char* src, int maxLength) { int index = 0; stringToBytes(src, (uint8_t*)dst, &index, maxLength, 0); } /*! * Encode a null terminated string on a byte stream * \param string is the null termianted string to encode * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by the number of bytes encoded when this function * is complete. * \param maxLength is the maximum number of bytes that can be encoded. A null * terminator is always included in the encoding. * \param fixedLength should be 1 to force the number of bytes encoded to be * exactly equal to maxLength. */ void stringToBytes(const char* string, uint8_t* bytes, int* index, int maxLength, int fixedLength) { int i; // increment byte pointer for starting point bytes += (*index); // Reserve the last byte for null termination for(i = 0; i < maxLength - 1; i++) { if(string[i] == 0) break; else bytes[i] = (uint8_t)string[i]; } // Make sure last byte has null termination bytes[i++] = 0; if(fixedLength) { // Finish with null bytes for(; i < maxLength; i++) bytes[i] = 0; } // Return for the number of bytes we encoded (*index) += i; }// stringToBytes /*! * Copy an array of bytes to a byte stream without changing the order. * \param data is the array of bytes to copy. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by num when this function is complete. * \param num is the number of bytes to copy */ void bytesToBeBytes(const uint8_t* data, uint8_t* bytes, int* index, int num) { // increment byte pointer for starting point bytes += (*index); // Increment byte index to indicate number of bytes copied (*index) += num; // Copy the bytes without changing the order while(num > 0) { *(bytes++) = *(data++); num--; } }// bytesToBeBytes /*! * Copy an array of bytes to a byte stream while reversing the order. * \param data is the array of bytes to copy. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by num when this function is complete. * \param num is the number of bytes to copy */ void bytesToLeBytes(const uint8_t* data, uint8_t* bytes, int* index, int num) { // increment byte pointer for starting point bytes += (*index); // Increment byte index to indicate number of bytes copied (*index) += num; // To encode as "little endian bytes", (a nonsensical statement), reverse the byte order bytes += (num - 1); // Copy the bytes, reversing the order while(num > 0) { *(bytes--) = *(data++); num--; } }// bytesToLeBytes /*! * Encode a 4 byte float on a big endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 4 when this function is complete. */ void float32ToBeBytes(float number, uint8_t* bytes, int* index) { union { float floatValue; uint32_t integerValue; }field; field.floatValue = number; uint32ToBeBytes(field.integerValue, bytes, index); } /*! * Encode a 4 byte float on a little endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 4 when this function is complete. */ void float32ToLeBytes(float number, uint8_t* bytes, int* index) { union { float floatValue; uint32_t integerValue; }field; field.floatValue = number; uint32ToLeBytes(field.integerValue, bytes, index); } /*! * Encode a unsigned 4 byte integer on a big endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 4 when this function is complete. */ void uint32ToBeBytes(uint32_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index) + 3; *(bytes--) = (uint8_t)(number); number = number >> 8; *(bytes--) = (uint8_t)(number); number = number >> 8; *(bytes--) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 4; } /*! * Encode a unsigned 4 byte integer on a little endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 4 when this function is complete. */ void uint32ToLeBytes(uint32_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index); *(bytes++) = (uint8_t)(number); number = number >> 8; *(bytes++) = (uint8_t)(number); number = number >> 8; *(bytes++) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 4; } /*! * Encode a signed 4 byte integer on a big endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 4 when this function is complete. */ void int32ToBeBytes(int32_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index) + 3; *(bytes--) = (uint8_t)(number); number = number >> 8; *(bytes--) = (uint8_t)(number); number = number >> 8; *(bytes--) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 4; } /*! * Encode a signed 4 byte integer on a little endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 4 when this function is complete. */ void int32ToLeBytes(int32_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index); *(bytes++) = (uint8_t)(number); number = number >> 8; *(bytes++) = (uint8_t)(number); number = number >> 8; *(bytes++) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 4; } /*! * Encode a unsigned 3 byte integer on a big endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 3 when this function is complete. */ void uint24ToBeBytes(uint32_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index) + 2; *(bytes--) = (uint8_t)(number); number = number >> 8; *(bytes--) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 3; } /*! * Encode a unsigned 3 byte integer on a little endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 3 when this function is complete. */ void uint24ToLeBytes(uint32_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index); *(bytes++) = (uint8_t)(number); number = number >> 8; *(bytes++) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 3; } /*! * Encode a signed 3 byte integer on a big endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 3 when this function is complete. */ void int24ToBeBytes(int32_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index) + 2; *(bytes--) = (uint8_t)(number); number = number >> 8; *(bytes--) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 3; } /*! * Encode a signed 3 byte integer on a little endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 3 when this function is complete. */ void int24ToLeBytes(int32_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index); *(bytes++) = (uint8_t)(number); number = number >> 8; *(bytes++) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 3; } /*! * Encode a unsigned 2 byte integer on a big endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 2 when this function is complete. */ void uint16ToBeBytes(uint16_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index) + 1; *(bytes--) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 2; } /*! * Encode a unsigned 2 byte integer on a little endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 2 when this function is complete. */ void uint16ToLeBytes(uint16_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index); *(bytes++) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 2; } /*! * Encode a signed 2 byte integer on a big endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 2 when this function is complete. */ void int16ToBeBytes(int16_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index) + 1; *(bytes--) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 2; } /*! * Encode a signed 2 byte integer on a little endian byte stream. * \param number is the value to encode. * \param bytes is a pointer to the byte stream which receives the encoded data. * \param index gives the location of the first byte in the byte stream, and * will be incremented by 2 when this function is complete. */ void int16ToLeBytes(int16_t number, uint8_t* bytes, int* index) { // increment byte pointer for starting point bytes += (*index); *(bytes++) = (uint8_t)(number); number = number >> 8; *bytes = (uint8_t)(number); (*index) += 2; } // end of fieldencode.c