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Merge branch 'main' of https://github.com/K-Lab-Students/kempt-kinkajou

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Artem-Darius Weber 1 year ago
parent 6977c802c1 a9a8fac3f4
commit c30617a9cf
9 changed files with 1012 additions and 87 deletions
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86
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12
cybergarden-aggregator/lib/CustomTypes/MeasureData.h
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#ifndef KEMPT_KINKAJOU_MEASUREDATA_H
#define KEMPT_KINKAJOU_MEASUREDATA_H
#include <Arduino.h>
struct MeasureData {
uint8_t sensor_id;
uint8_t sensor_type;
uint16_t payload;
};
#endif //KEMPT_KINKAJOU_MEASUREDATA_H

46
cybergarden-aggregator/lib/README
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This directory is intended for project specific (private) libraries.
PlatformIO will compile them to static libraries and link into executable file.
The source code of each library should be placed in a an own separate directory
("lib/your_library_name/[here are source files]").
For example, see a structure of the following two libraries `Foo` and `Bar`:
|--lib
| |
| |--Bar
| | |--docs
| | |--examples
| | |--src
| | |- Bar.c
| | |- Bar.h
| | |- library.json (optional, custom build options, etc) https://docs.platformio.org/page/librarymanager/config.html
| |
| |--Foo
| | |- Foo.c
| | |- Foo.h
| |
| |- README --> THIS FILE
|
|- platformio.ini
|--src
|- main.c
and a contents of `src/main.c`:
```
#include <Foo.h>
#include <Bar.h>
int main (void)
{
...
}
```
PlatformIO Library Dependency Finder will find automatically dependent
libraries scanning project source files.
More information about PlatformIO Library Dependency Finder
- https://docs.platformio.org/page/librarymanager/ldf.html

852
cybergarden-aggregator/lib/ReedSolomonModule/RS-FEC.h
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#ifndef POLY_H
#define POLY_H
#include <stdint.h>
#include <string.h>
#if !defined DEBUG && !defined __CC_ARM
#include <assert.h>
#else
#define assert(dummy)
#endif
namespace RS {
struct Poly {
Poly()
: length(0), _memory(NULL) {}
Poly(uint8_t id, uint16_t offset, uint8_t size) \
: length(0), _id(id), _size(size), _offset(offset), _memory(NULL) {}
/* @brief Append number at the end of polynomial
* @param num - number to append
* @return false if polynomial can't be stretched */
inline bool Append(uint8_t num) {
assert(length+1 < _size);
ptr()[length++] = num;
return true;
}
/* @brief Polynomial initialization */
inline void Init(uint8_t id, uint16_t offset, uint8_t size, uint8_t** memory_ptr) {
this->_id = id;
this->_offset = offset;
this->_size = size;
this->length = 0;
this->_memory = memory_ptr;
}
/* @brief Polynomial memory zeroing */
inline void Reset() {
memset((void*)ptr(), 0, this->_size);
}
/* @brief Copy polynomial to memory
* @param src - source byte-sequence
* @param size - size of polynomial
* @param offset - write offset */
inline void Set(const uint8_t* src, uint8_t len, uint8_t offset = 0) {
assert(src && len <= this->_size-offset);
memcpy(ptr()+offset, src, len * sizeof(uint8_t));
length = len + offset;
}
#define poly_max(a, b) ((a > b) ? (a) : (b))
inline void Copy(const Poly* src) {
length = poly_max(length, src->length);
Set(src->ptr(), length);
}
inline uint8_t& at(uint8_t i) const {
assert(i < _size);
return ptr()[i];
}
inline uint8_t id() const {
return _id;
}
inline uint8_t size() const {
return _size;
}
// Returns pointer to memory of this polynomial
inline uint8_t* ptr() const {
assert(_memory && *_memory);
return (*_memory) + _offset;
}
uint8_t length;
protected:
uint8_t _id;
uint8_t _size; // Size of reserved memory for this polynomial
uint16_t _offset; // Offset in memory
uint8_t** _memory; // Pointer to pointer to memory
};
}
#endif // POLY_H
#ifndef GF_H
#define GF_H
#include <stdint.h>
#include <string.h>
#if !defined DEBUG && !defined __CC_ARM
#include <assert.h>
#else
#define assert(dummy)
#endif
namespace RS {
namespace gf {
/* GF tables pre-calculated for 0x11d primitive polynomial */
const uint8_t exp[512] = {
0x1, 0x2, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80, 0x1d, 0x3a, 0x74, 0xe8, 0xcd, 0x87, 0x13, 0x26, 0x4c,
0x98, 0x2d, 0x5a, 0xb4, 0x75, 0xea, 0xc9, 0x8f, 0x3, 0x6, 0xc, 0x18, 0x30, 0x60, 0xc0, 0x9d,
0x27, 0x4e, 0x9c, 0x25, 0x4a, 0x94, 0x35, 0x6a, 0xd4, 0xb5, 0x77, 0xee, 0xc1, 0x9f, 0x23, 0x46,
0x8c, 0x5, 0xa, 0x14, 0x28, 0x50, 0xa0, 0x5d, 0xba, 0x69, 0xd2, 0xb9, 0x6f, 0xde, 0xa1, 0x5f,
0xbe, 0x61, 0xc2, 0x99, 0x2f, 0x5e, 0xbc, 0x65, 0xca, 0x89, 0xf, 0x1e, 0x3c, 0x78, 0xf0, 0xfd,
0xe7, 0xd3, 0xbb, 0x6b, 0xd6, 0xb1, 0x7f, 0xfe, 0xe1, 0xdf, 0xa3, 0x5b, 0xb6, 0x71, 0xe2, 0xd9,
0xaf, 0x43, 0x86, 0x11, 0x22, 0x44, 0x88, 0xd, 0x1a, 0x34, 0x68, 0xd0, 0xbd, 0x67, 0xce, 0x81,
0x1f, 0x3e, 0x7c, 0xf8, 0xed, 0xc7, 0x93, 0x3b, 0x76, 0xec, 0xc5, 0x97, 0x33, 0x66, 0xcc, 0x85,
0x17, 0x2e, 0x5c, 0xb8, 0x6d, 0xda, 0xa9, 0x4f, 0x9e, 0x21, 0x42, 0x84, 0x15, 0x2a, 0x54, 0xa8,
0x4d, 0x9a, 0x29, 0x52, 0xa4, 0x55, 0xaa, 0x49, 0x92, 0x39, 0x72, 0xe4, 0xd5, 0xb7, 0x73, 0xe6,
0xd1, 0xbf, 0x63, 0xc6, 0x91, 0x3f, 0x7e, 0xfc, 0xe5, 0xd7, 0xb3, 0x7b, 0xf6, 0xf1, 0xff, 0xe3,
0xdb, 0xab, 0x4b, 0x96, 0x31, 0x62, 0xc4, 0x95, 0x37, 0x6e, 0xdc, 0xa5, 0x57, 0xae, 0x41, 0x82,
0x19, 0x32, 0x64, 0xc8, 0x8d, 0x7, 0xe, 0x1c, 0x38, 0x70, 0xe0, 0xdd, 0xa7, 0x53, 0xa6, 0x51,
0xa2, 0x59, 0xb2, 0x79, 0xf2, 0xf9, 0xef, 0xc3, 0x9b, 0x2b, 0x56, 0xac, 0x45, 0x8a, 0x9, 0x12,
0x24, 0x48, 0x90, 0x3d, 0x7a, 0xf4, 0xf5, 0xf7, 0xf3, 0xfb, 0xeb, 0xcb, 0x8b, 0xb, 0x16, 0x2c,
0x58, 0xb0, 0x7d, 0xfa, 0xe9, 0xcf, 0x83, 0x1b, 0x36, 0x6c, 0xd8, 0xad, 0x47, 0x8e, 0x1, 0x2,
0x4, 0x8, 0x10, 0x20, 0x40, 0x80, 0x1d, 0x3a, 0x74, 0xe8, 0xcd, 0x87, 0x13, 0x26, 0x4c, 0x98,
0x2d, 0x5a, 0xb4, 0x75, 0xea, 0xc9, 0x8f, 0x3, 0x6, 0xc, 0x18, 0x30, 0x60, 0xc0, 0x9d, 0x27,
0x4e, 0x9c, 0x25, 0x4a, 0x94, 0x35, 0x6a, 0xd4, 0xb5, 0x77, 0xee, 0xc1, 0x9f, 0x23, 0x46, 0x8c,
0x5, 0xa, 0x14, 0x28, 0x50, 0xa0, 0x5d, 0xba, 0x69, 0xd2, 0xb9, 0x6f, 0xde, 0xa1, 0x5f, 0xbe,
0x61, 0xc2, 0x99, 0x2f, 0x5e, 0xbc, 0x65, 0xca, 0x89, 0xf, 0x1e, 0x3c, 0x78, 0xf0, 0xfd, 0xe7,
0xd3, 0xbb, 0x6b, 0xd6, 0xb1, 0x7f, 0xfe, 0xe1, 0xdf, 0xa3, 0x5b, 0xb6, 0x71, 0xe2, 0xd9, 0xaf,
0x43, 0x86, 0x11, 0x22, 0x44, 0x88, 0xd, 0x1a, 0x34, 0x68, 0xd0, 0xbd, 0x67, 0xce, 0x81, 0x1f,
0x3e, 0x7c, 0xf8, 0xed, 0xc7, 0x93, 0x3b, 0x76, 0xec, 0xc5, 0x97, 0x33, 0x66, 0xcc, 0x85, 0x17,
0x2e, 0x5c, 0xb8, 0x6d, 0xda, 0xa9, 0x4f, 0x9e, 0x21, 0x42, 0x84, 0x15, 0x2a, 0x54, 0xa8, 0x4d,
0x9a, 0x29, 0x52, 0xa4, 0x55, 0xaa, 0x49, 0x92, 0x39, 0x72, 0xe4, 0xd5, 0xb7, 0x73, 0xe6, 0xd1,
0xbf, 0x63, 0xc6, 0x91, 0x3f, 0x7e, 0xfc, 0xe5, 0xd7, 0xb3, 0x7b, 0xf6, 0xf1, 0xff, 0xe3, 0xdb,
0xab, 0x4b, 0x96, 0x31, 0x62, 0xc4, 0x95, 0x37, 0x6e, 0xdc, 0xa5, 0x57, 0xae, 0x41, 0x82, 0x19,
0x32, 0x64, 0xc8, 0x8d, 0x7, 0xe, 0x1c, 0x38, 0x70, 0xe0, 0xdd, 0xa7, 0x53, 0xa6, 0x51, 0xa2,
0x59, 0xb2, 0x79, 0xf2, 0xf9, 0xef, 0xc3, 0x9b, 0x2b, 0x56, 0xac, 0x45, 0x8a, 0x9, 0x12, 0x24,
0x48, 0x90, 0x3d, 0x7a, 0xf4, 0xf5, 0xf7, 0xf3, 0xfb, 0xeb, 0xcb, 0x8b, 0xb, 0x16, 0x2c, 0x58,
0xb0, 0x7d, 0xfa, 0xe9, 0xcf, 0x83, 0x1b, 0x36, 0x6c, 0xd8, 0xad, 0x47, 0x8e, 0x1, 0x2
};
const uint8_t log[256] = {
0x0, 0x0, 0x1, 0x19, 0x2, 0x32, 0x1a, 0xc6, 0x3, 0xdf, 0x33, 0xee, 0x1b, 0x68, 0xc7, 0x4b, 0x4,
0x64, 0xe0, 0xe, 0x34, 0x8d, 0xef, 0x81, 0x1c, 0xc1, 0x69, 0xf8, 0xc8, 0x8, 0x4c, 0x71, 0x5,
0x8a, 0x65, 0x2f, 0xe1, 0x24, 0xf, 0x21, 0x35, 0x93, 0x8e, 0xda, 0xf0, 0x12, 0x82, 0x45, 0x1d,
0xb5, 0xc2, 0x7d, 0x6a, 0x27, 0xf9, 0xb9, 0xc9, 0x9a, 0x9, 0x78, 0x4d, 0xe4, 0x72, 0xa6, 0x6,
0xbf, 0x8b, 0x62, 0x66, 0xdd, 0x30, 0xfd, 0xe2, 0x98, 0x25, 0xb3, 0x10, 0x91, 0x22, 0x88, 0x36,
0xd0, 0x94, 0xce, 0x8f, 0x96, 0xdb, 0xbd, 0xf1, 0xd2, 0x13, 0x5c, 0x83, 0x38, 0x46, 0x40, 0x1e,
0x42, 0xb6, 0xa3, 0xc3, 0x48, 0x7e, 0x6e, 0x6b, 0x3a, 0x28, 0x54, 0xfa, 0x85, 0xba, 0x3d, 0xca,
0x5e, 0x9b, 0x9f, 0xa, 0x15, 0x79, 0x2b, 0x4e, 0xd4, 0xe5, 0xac, 0x73, 0xf3, 0xa7, 0x57, 0x7,
0x70, 0xc0, 0xf7, 0x8c, 0x80, 0x63, 0xd, 0x67, 0x4a, 0xde, 0xed, 0x31, 0xc5, 0xfe, 0x18, 0xe3,
0xa5, 0x99, 0x77, 0x26, 0xb8, 0xb4, 0x7c, 0x11, 0x44, 0x92, 0xd9, 0x23, 0x20, 0x89, 0x2e, 0x37,
0x3f, 0xd1, 0x5b, 0x95, 0xbc, 0xcf, 0xcd, 0x90, 0x87, 0x97, 0xb2, 0xdc, 0xfc, 0xbe, 0x61, 0xf2,
0x56, 0xd3, 0xab, 0x14, 0x2a, 0x5d, 0x9e, 0x84, 0x3c, 0x39, 0x53, 0x47, 0x6d, 0x41, 0xa2, 0x1f,
0x2d, 0x43, 0xd8, 0xb7, 0x7b, 0xa4, 0x76, 0xc4, 0x17, 0x49, 0xec, 0x7f, 0xc, 0x6f, 0xf6, 0x6c,
0xa1, 0x3b, 0x52, 0x29, 0x9d, 0x55, 0xaa, 0xfb, 0x60, 0x86, 0xb1, 0xbb, 0xcc, 0x3e, 0x5a, 0xcb,
0x59, 0x5f, 0xb0, 0x9c, 0xa9, 0xa0, 0x51, 0xb, 0xf5, 0x16, 0xeb, 0x7a, 0x75, 0x2c, 0xd7, 0x4f,
0xae, 0xd5, 0xe9, 0xe6, 0xe7, 0xad, 0xe8, 0x74, 0xd6, 0xf4, 0xea, 0xa8, 0x50, 0x58, 0xaf
};
/* ################################
* # OPERATIONS OVER GALUA FIELDS #
* ################################ */
/* @brief Addition in Galua Fields
* @param x - left operand
* @param y - right operand
* @return x + y */
inline uint8_t add(uint8_t x, uint8_t y) {
return x^y;
}
/* ##### GF substraction ###### */
/* @brief Substraction in Galua Fields
* @param x - left operand
* @param y - right operand
* @return x - y */
inline uint8_t sub(uint8_t x, uint8_t y) {
return x^y;
}
/* @brief Multiplication in Galua Fields
* @param x - left operand
* @param y - rifht operand
* @return x * y */
inline uint8_t mul(uint16_t x, uint16_t y){
if (x == 0 || y == 0)
return 0;
return exp[log[x] + log[y]];
}
/* @brief Division in Galua Fields
* @param x - dividend
* @param y - divisor
* @return x / y */
inline uint8_t div(uint8_t x, uint8_t y){
assert(y != 0);
if(x == 0) return 0;
return exp[(log[x] + 255 - log[y]) % 255];
}
/* @brief X in power Y w
* @param x - operand
* @param power - power
* @return x^power */
inline uint8_t pow(uint8_t x, intmax_t power){
intmax_t i = log[x];
i *= power;
i %= 255;
if(i < 0) i = i + 255;
return exp[i];
}
/* @brief Inversion in Galua Fields
* @param x - number
* @return inversion of x */
inline uint8_t inverse(uint8_t x){
return exp[255 - log[x]]; /* == div(1, x); */
}
/* ##########################
* # POLYNOMIALS OPERATIONS #
* ########################## */
/* @brief Multiplication polynomial by scalar
* @param &p - source polynomial
* @param &newp - destination polynomial
* @param x - scalar */
inline void
poly_scale(const Poly *p, Poly *newp, uint16_t x) {
newp->length = p->length;
for(uint16_t i = 0; i < p->length; i++){
newp->at(i) = mul(p->at(i), x);
}
}
/* @brief Addition of two polynomials
* @param &p - right operand polynomial
* @param &q - left operand polynomial
* @param &newp - destination polynomial */
inline void
poly_add(const Poly *p, const Poly *q, Poly *newp) {
newp->length = poly_max(p->length, q->length);
memset(newp->ptr(), 0, newp->length * sizeof(uint8_t));
for(uint8_t i = 0; i < p->length; i++){
newp->at(i + newp->length - p->length) = p->at(i);
}
for(uint8_t i = 0; i < q->length; i++){
newp->at(i + newp->length - q->length) ^= q->at(i);
}
}
/* @brief Multiplication of two polynomials
* @param &p - right operand polynomial
* @param &q - left operand polynomial
* @param &newp - destination polynomial */
inline void
poly_mul(const Poly *p, const Poly *q, Poly *newp) {
newp->length = p->length + q->length - 1;
memset(newp->ptr(), 0, newp->length * sizeof(uint8_t));
/* Compute the polynomial multiplication (just like the outer product of two vectors,
* we multiply each coefficients of p with all coefficients of q) */
for(uint8_t j = 0; j < q->length; j++){
for(uint8_t i = 0; i < p->length; i++){
newp->at(i+j) ^= mul(p->at(i), q->at(j)); /* == r[i + j] = gf_add(r[i+j], gf_mul(p[i], q[j])) */
}
}
}
/* @brief Division of two polynomials
* @param &p - right operand polynomial
* @param &q - left operand polynomial
* @param &newp - destination polynomial */
inline void
poly_div(const Poly *p, const Poly *q, Poly *newp) {
if(p->ptr() != newp->ptr()) {
memcpy(newp->ptr(), p->ptr(), p->length*sizeof(uint8_t));
}
newp->length = p->length;
uint8_t coef;
for(int i = 0; i < (p->length-(q->length-1)); i++){
coef = newp->at(i);
if(coef != 0){
for(uint8_t j = 1; j < q->length; j++){
if(q->at(j) != 0)
newp->at(i+j) ^= mul(q->at(j), coef);
}
}
}
size_t sep = p->length-(q->length-1);
memmove(newp->ptr(), newp->ptr()+sep, (newp->length-sep) * sizeof(uint8_t));
newp->length = newp->length-sep;
}
/* @brief Evaluation of polynomial in x
* @param &p - polynomial to evaluate
* @param x - evaluation point */
inline int8_t
poly_eval(const Poly *p, uint16_t x) {
uint8_t y = p->at(0);
for(uint8_t i = 1; i < p->length; i++){
y = mul(y, x) ^ p->at(i);
}
return y;
}
} /* end of gf namespace */
}
#endif // GF_H
#ifndef RS_HPP
#define RS_HPP
#include <string.h>
#include <stdint.h>
#if !defined DEBUG && !defined __CC_ARM
#include <assert.h>
#else
#define assert(dummy)
#endif
namespace RS {
#define MSG_CNT 3 // message-length polynomials count
#define POLY_CNT 14 // (ecc_length*2)-length polynomialc count
template <const uint8_t msg_length, // Message length without correction code
const uint8_t ecc_length> // Length of correction code
class ReedSolomon {
public:
ReedSolomon() {
const uint8_t enc_len = msg_length + ecc_length;
const uint8_t poly_len = ecc_length * 2;
uint8_t** memptr = &memory;
uint16_t offset = 0;
/* Initialize first six polys manually cause their amount depends on template parameters */
polynoms[0].Init(ID_MSG_IN, offset, enc_len, memptr);
offset += enc_len;
polynoms[1].Init(ID_MSG_OUT, offset, enc_len, memptr);
offset += enc_len;
for(uint8_t i = ID_GENERATOR; i < ID_MSG_E; i++) {
polynoms[i].Init(i, offset, poly_len, memptr);
offset += poly_len;
}
polynoms[5].Init(ID_MSG_E, offset, enc_len, memptr);
offset += enc_len;
for(uint8_t i = ID_TPOLY3; i < ID_ERR_EVAL+2; i++) {
polynoms[i].Init(i, offset, poly_len, memptr);
offset += poly_len;
}
}
~ReedSolomon() {
// Dummy destructor, gcc-generated one crashes programm
memory = NULL;
}
/* @brief Message block encoding
* @param *src - input message buffer (msg_lenth size)
* @param *dst - output buffer for ecc (ecc_length size at least) */
void EncodeBlock(const void* src, void* dst) {
assert(msg_length + ecc_length < 256);
/* Generator cache, it dosn't change for one template parameters */
static uint8_t generator_cache[ecc_length+1] = {0};
static bool generator_cached = false;
/* Allocating memory on stack for polynomials storage */
uint8_t stack_memory[MSG_CNT * msg_length + POLY_CNT * ecc_length * 2];
this->memory = stack_memory;
const uint8_t* src_ptr = (const uint8_t*) src;
uint8_t* dst_ptr = (uint8_t*) dst;
Poly *msg_in = &polynoms[ID_MSG_IN];
Poly *msg_out = &polynoms[ID_MSG_OUT];
Poly *gen = &polynoms[ID_GENERATOR];
// Weird shit, but without reseting msg_in it simply doesn't work
msg_in->Reset();
msg_out->Reset();
// Using cached generator or generating new one
if(generator_cached) {
gen->Set(generator_cache, sizeof(generator_cache));
} else {
GeneratorPoly();
memcpy(generator_cache, gen->ptr(), gen->length);
generator_cached = true;
}
// Copying input message to internal polynomial
msg_in->Set(src_ptr, msg_length);
msg_out->Set(src_ptr, msg_length);
msg_out->length = msg_in->length + ecc_length;
// Here all the magic happens
uint8_t coef = 0; // cache
for(uint8_t i = 0; i < msg_length; i++){
coef = msg_out->at(i);
if(coef != 0){
for(uint32_t j = 1; j < gen->length; j++){
msg_out->at(i+j) ^= gf::mul(gen->at(j), coef);
}
}
}
// Copying ECC to the output buffer
memcpy(dst_ptr, msg_out->ptr()+msg_length, ecc_length * sizeof(uint8_t));
}
/* @brief Message encoding
* @param *src - input message buffer (msg_lenth size)
* @param *dst - output buffer (msg_length + ecc_length size at least) */
void Encode(const void* src, void* dst) {
uint8_t* dst_ptr = (uint8_t*) dst;
// Copying message to the output buffer
memcpy(dst_ptr, src, msg_length * sizeof(uint8_t));
// Calling EncodeBlock to write ecc to out[ut buffer
EncodeBlock(src, dst_ptr+msg_length);
}
/* @brief Message block decoding
* @param *src - encoded message buffer (msg_length size)
* @param *ecc - ecc buffer (ecc_length size)
* @param *msg_out - output buffer (msg_length size at least)
* @param *erase_pos - known errors positions
* @param erase_count - count of known errors
* @return RESULT_SUCCESS if successfull, error code otherwise */
int DecodeBlock(const void* src, const void* ecc, void* dst, uint8_t* erase_pos = NULL, size_t erase_count = 0) {
assert(msg_length + ecc_length < 256);
const uint8_t *src_ptr = (const uint8_t*) src;
const uint8_t *ecc_ptr = (const uint8_t*) ecc;
uint8_t *dst_ptr = (uint8_t*) dst;
const uint8_t src_len = msg_length + ecc_length;
const uint8_t dst_len = msg_length;
bool ok;
/* Allocation memory on stack */
uint8_t stack_memory[MSG_CNT * msg_length + POLY_CNT * ecc_length * 2];
this->memory = stack_memory;
Poly *msg_in = &polynoms[ID_MSG_IN];
Poly *msg_out = &polynoms[ID_MSG_OUT];
Poly *epos = &polynoms[ID_ERASURES];
// Copying message to polynomials memory
msg_in->Set(src_ptr, msg_length);
msg_in->Set(ecc_ptr, ecc_length, msg_length);
msg_out->Copy(msg_in);
// Copying known errors to polynomial
if(erase_pos == NULL) {
epos->length = 0;
} else {
epos->Set(erase_pos, erase_count);
for(uint8_t i = 0; i < epos->length; i++){
msg_in->at(epos->at(i)) = 0;
}
}
// Too many errors
if(epos->length > ecc_length) return 1;
Poly *synd = &polynoms[ID_SYNDROMES];
Poly *eloc = &polynoms[ID_ERRORS_LOC];
Poly *reloc = &polynoms[ID_TPOLY1];
Poly *err = &polynoms[ID_ERRORS];
Poly *forney = &polynoms[ID_FORNEY];
// Calculating syndrome
CalcSyndromes(msg_in);
// Checking for errors
bool has_errors = false;
for(uint8_t i = 0; i < synd->length; i++) {
if(synd->at(i) != 0) {
has_errors = true;
break;
}
}
// Going to exit if no errors
if(!has_errors) goto return_corrected_msg;
CalcForneySyndromes(synd, epos, src_len);
FindErrorLocator(forney, NULL, epos->length);
// Reversing syndrome
// TODO optimize through special Poly flag
reloc->length = eloc->length;
for(int8_t i = eloc->length-1, j = 0; i >= 0; i--, j++){
reloc->at(j) = eloc->at(i);
}
// Fing errors
ok = FindErrors(reloc, src_len);
if(!ok) return 1;
// Error happened while finding errors (so helpfull :D)
if(err->length == 0) return 1;
/* Adding found errors with known */
for(uint8_t i = 0; i < err->length; i++) {
epos->Append(err->at(i));
}
// Correcting errors
CorrectErrata(synd, epos, msg_in);
return_corrected_msg:
// Wrighting corrected message to output buffer
msg_out->length = dst_len;
memcpy(dst_ptr, msg_out->ptr(), msg_out->length * sizeof(uint8_t));
return 0;
}
/* @brief Message block decoding
* @param *src - encoded message buffer (msg_length + ecc_length size)
* @param *msg_out - output buffer (msg_length size at least)
* @param *erase_pos - known errors positions
* @param erase_count - count of known errors
* @return RESULT_SUCCESS if successfull, error code otherwise */
int Decode(const void* src, void* dst, uint8_t* erase_pos = NULL, size_t erase_count = 0) {
const uint8_t *src_ptr = (const uint8_t*) src;
const uint8_t *ecc_ptr = src_ptr + msg_length;
return DecodeBlock(src, ecc_ptr, dst, erase_pos, erase_count);
}
#ifndef DEBUG
private:
#endif
enum POLY_ID {
ID_MSG_IN = 0,
ID_MSG_OUT,
ID_GENERATOR, // 3
ID_TPOLY1, // T for Temporary
ID_TPOLY2,
ID_MSG_E, // 5
ID_TPOLY3, // 6
ID_TPOLY4,
ID_SYNDROMES,
ID_FORNEY,
ID_ERASURES_LOC,
ID_ERRORS_LOC,
ID_ERASURES,
ID_ERRORS,
ID_COEF_POS,
ID_ERR_EVAL
};
// Pointer for polynomials memory on stack
uint8_t* memory;
Poly polynoms[MSG_CNT + POLY_CNT];
void GeneratorPoly() {
Poly *gen = polynoms + ID_GENERATOR;
gen->at(0) = 1;
gen->length = 1;
Poly *mulp = polynoms + ID_TPOLY1;
Poly *temp = polynoms + ID_TPOLY2;
mulp->length = 2;
for(int8_t i = 0; i < ecc_length; i++){
mulp->at(0) = 1;
mulp->at(1) = gf::pow(2, i);
gf::poly_mul(gen, mulp, temp);
gen->Copy(temp);
}
}
void CalcSyndromes(const Poly *msg) {
Poly *synd = &polynoms[ID_SYNDROMES];
synd->length = ecc_length+1;
synd->at(0) = 0;
for(uint8_t i = 1; i < ecc_length+1; i++){
synd->at(i) = gf::poly_eval(msg, gf::pow(2, i-1));
}
}
void FindErrataLocator(const Poly *epos) {
Poly *errata_loc = &polynoms[ID_ERASURES_LOC];
Poly *mulp = &polynoms[ID_TPOLY1];
Poly *addp = &polynoms[ID_TPOLY2];
Poly *apol = &polynoms[ID_TPOLY3];
Poly *temp = &polynoms[ID_TPOLY4];
errata_loc->length = 1;
errata_loc->at(0) = 1;
mulp->length = 1;
addp->length = 2;
for(uint8_t i = 0; i < epos->length; i++){
mulp->at(0) = 1;
addp->at(0) = gf::pow(2, epos->at(i));
addp->at(1) = 0;
gf::poly_add(mulp, addp, apol);
gf::poly_mul(errata_loc, apol, temp);
errata_loc->Copy(temp);
}
}
void FindErrorEvaluator(const Poly *synd, const Poly *errata_loc, Poly *dst, uint8_t ecclen) {
Poly *mulp = &polynoms[ID_TPOLY1];
gf::poly_mul(synd, errata_loc, mulp);
Poly *divisor = &polynoms[ID_TPOLY2];
divisor->length = ecclen+2;
divisor->Reset();
divisor->at(0) = 1;
gf::poly_div(mulp, divisor, dst);
}
void CorrectErrata(const Poly *synd, const Poly *err_pos, const Poly *msg_in) {
Poly *c_pos = &polynoms[ID_COEF_POS];
Poly *corrected = &polynoms[ID_MSG_OUT];
c_pos->length = err_pos->length;
for(uint8_t i = 0; i < err_pos->length; i++)
c_pos->at(i) = msg_in->length - 1 - err_pos->at(i);
/* uses t_poly 1, 2, 3, 4 */
FindErrataLocator(c_pos);
Poly *errata_loc = &polynoms[ID_ERASURES_LOC];
/* reversing syndromes */
Poly *rsynd = &polynoms[ID_TPOLY3];
rsynd->length = synd->length;
for(int8_t i = synd->length-1, j = 0; i >= 0; i--, j++) {
rsynd->at(j) = synd->at(i);
}
/* getting reversed error evaluator polynomial */
Poly *re_eval = &polynoms[ID_TPOLY4];
/* uses T_POLY 1, 2 */
FindErrorEvaluator(rsynd, errata_loc, re_eval, errata_loc->length-1);
/* reversing it back */
Poly *e_eval = &polynoms[ID_ERR_EVAL];
e_eval->length = re_eval->length;
for(int8_t i = re_eval->length-1, j = 0; i >= 0; i--, j++) {
e_eval->at(j) = re_eval->at(i);
}
Poly *X = &polynoms[ID_TPOLY1]; /* this will store errors positions */
X->length = 0;
int16_t l;
for(uint8_t i = 0; i < c_pos->length; i++){
l = 255 - c_pos->at(i);
X->Append(gf::pow(2, -l));
}
/* Magnitude polynomial
Shit just got real */
Poly *E = &polynoms[ID_MSG_E];
E->Reset();
E->length = msg_in->length;
uint8_t Xi_inv;
Poly *err_loc_prime_temp = &polynoms[ID_TPOLY2];
uint8_t err_loc_prime;
uint8_t y;
for(uint8_t i = 0; i < X->length; i++){
Xi_inv = gf::inverse(X->at(i));
err_loc_prime_temp->length = 0;
for(uint8_t j = 0; j < X->length; j++){
if(j != i){
err_loc_prime_temp->Append(gf::sub(1, gf::mul(Xi_inv, X->at(j))));
}
}
err_loc_prime = 1;
for(uint8_t j = 0; j < err_loc_prime_temp->length; j++){
err_loc_prime = gf::mul(err_loc_prime, err_loc_prime_temp->at(j));
}
y = gf::poly_eval(re_eval, Xi_inv);
y = gf::mul(gf::pow(X->at(i), 1), y);
E->at(err_pos->at(i)) = gf::div(y, err_loc_prime);
}
gf::poly_add(msg_in, E, corrected);
}
bool FindErrorLocator(const Poly *synd, Poly *erase_loc = NULL, size_t erase_count = 0) {
Poly *error_loc = &polynoms[ID_ERRORS_LOC];
Poly *err_loc = &polynoms[ID_TPOLY1];
Poly *old_loc = &polynoms[ID_TPOLY2];
Poly *temp = &polynoms[ID_TPOLY3];
Poly *temp2 = &polynoms[ID_TPOLY4];
if(erase_loc != NULL) {
err_loc->Copy(erase_loc);
old_loc->Copy(erase_loc);
} else {
err_loc->length = 1;
old_loc->length = 1;
err_loc->at(0) = 1;
old_loc->at(0) = 1;
}
uint8_t synd_shift = 0;
if(synd->length > ecc_length) {
synd_shift = synd->length - ecc_length;
}
uint8_t K = 0;
uint8_t delta = 0;
uint8_t index;
for(uint8_t i = 0; i < ecc_length - erase_count; i++){
if(erase_loc != NULL)
K = erase_count + i + synd_shift;
else
K = i + synd_shift;
delta = synd->at(K);
for(uint8_t j = 1; j < err_loc->length; j++) {
index = err_loc->length - j - 1;
delta ^= gf::mul(err_loc->at(index), synd->at(K-j));
}
old_loc->Append(0);
if(delta != 0) {
if(old_loc->length > err_loc->length) {
gf::poly_scale(old_loc, temp, delta);
gf::poly_scale(err_loc, old_loc, gf::inverse(delta));
err_loc->Copy(temp);
}
gf::poly_scale(old_loc, temp, delta);
gf::poly_add(err_loc, temp, temp2);
err_loc->Copy(temp2);
}
}
uint32_t shift = 0;
while(err_loc->length && err_loc->at(shift) == 0) shift++;
uint32_t errs = err_loc->length - shift - 1;
if(((errs - erase_count) * 2 + erase_count) > ecc_length){
return false; /* Error count is greater then we can fix! */
}
memcpy(error_loc->ptr(), err_loc->ptr() + shift, (err_loc->length - shift) * sizeof(uint8_t));
error_loc->length = (err_loc->length - shift);
return true;
}
bool FindErrors(const Poly *error_loc, size_t msg_in_size) {
Poly *err = &polynoms[ID_ERRORS];
uint8_t errs = error_loc->length - 1;
err->length = 0;
for(uint8_t i = 0; i < msg_in_size; i++) {
if(gf::poly_eval(error_loc, gf::pow(2, i)) == 0) {
err->Append(msg_in_size - 1 - i);
}
}
/* Sanity check:
* the number of err/errata positions found
* should be exactly the same as the length of the errata locator polynomial */
if(err->length != errs)
/* couldn't find error locations */
return false;
return true;
}
void CalcForneySyndromes(const Poly *synd, const Poly *erasures_pos, size_t msg_in_size) {
Poly *erase_pos_reversed = &polynoms[ID_TPOLY1];
Poly *forney_synd = &polynoms[ID_FORNEY];
erase_pos_reversed->length = 0;
for(uint8_t i = 0; i < erasures_pos->length; i++){
erase_pos_reversed->Append(msg_in_size - 1 - erasures_pos->at(i));
}
forney_synd->Reset();
forney_synd->Set(synd->ptr()+1, synd->length-1);
uint8_t x;
for(uint8_t i = 0; i < erasures_pos->length; i++) {
x = gf::pow(2, erase_pos_reversed->at(i));
for(int8_t j = 0; j < forney_synd->length - 1; j++){
forney_synd->at(j) = gf::mul(forney_synd->at(j), x) ^ forney_synd->at(j+1);
}
}
}
};
}
#endif // RS_HPP
using namespace std;

27
cybergarden-aggregator/lib/ReedSolomonModule/ReedSolomonModule.h
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@ -0,0 +1,27 @@
//
// Created by o.likhogub on 10/7/2023.
//
#ifndef KEMPT_KINKAJOU_REEDSOLOMONMODULE_H
#define KEMPT_KINKAJOU_REEDSOLOMONMODULE_H
#include <Arduino.h>
#include <RS-FEC.h>
#define MSG_LENGTH 5
#define ECC_LENGTH 4
class ReedSolomonModule {
private:
RS::ReedSolomon<MSG_LENGTH, ECC_LENGTH> rs;
public:
void encode(uint8_t * msg, uint8_t * encoded) {
rs.Encode(msg, encoded);
}
bool decode(uint8_t * encoded, uint8_t * msg) {
return rs.Decode(encoded, msg) == 0;
}
};
#endif //KEMPT_KINKAJOU_REEDSOLOMONMODULE_H

26
cybergarden-aggregator/lib/TransmissionModule/TransmissionModule.cpp
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@ -0,0 +1,26 @@
//
// Created by o.likhogub on 10/7/2023.
//
#include "TransmissionModule.h"
#define MSG_LENGTH 5
#define ECC_LENGTH 4
#define TOTAL_LENGTH (MSG_LENGTH + ECC_LENGTH)
bool TransmissionModule::receive(uint8_t &sensor_id, MeasureData &data) {
uint8_t buf[TOTAL_LENGTH];
if (!transmitterModule->receive(buf, TOTAL_LENGTH)) {
return false;
}
uint8_t msg[MSG_LENGTH];
if (!reedSolomonModule->decode(buf, msg)) {
return false;
}
sensor_id = msg[0];
memcpy((void *) &data, msg+1, 4);
return true;
}

19
cybergarden-aggregator/lib/TransmissionModule/TransmissionModule.h
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@ -0,0 +1,19 @@
#include <Arduino.h>
#include "MeasureData.h"
#include "TransmitterModule.h"
#include "ReedSolomonModule.h"
#ifndef KEMPT_KINKAJOU_TRANSMISSIONMODULE_H
#define KEMPT_KINKAJOU_TRANSMISSIONMODULE_H
class TransmissionModule {
private:
TransmitterModule * transmitterModule;
ReedSolomonModule * reedSolomonModule;
public:
TransmissionModule(TransmitterModule &transmitterModule, ReedSolomonModule &reedSolomonModule) : transmitterModule(&transmitterModule), reedSolomonModule(&reedSolomonModule) {}
bool receive(uint8_t &sendor_id, MeasureData &data);
};
#endif //KEMPT_KINKAJOU_TRANSMISSIONMODULE_H

29
cybergarden-aggregator/lib/TransmitterModule/TransmitterModule.h
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@ -0,0 +1,29 @@
//
// Created by o.likhogub on 10/7/2023.
//
#include "Arduino.h"
#include <RH_ASK.h>
#include <SPI.h>
#ifndef KEMPT_KINKAJOU_TRANSMITTERMODULE_H
#define KEMPT_KINKAJOU_TRANSMITTERMODULE_H
class TransmitterModule {
private:
RH_ASK *rhAsk;
public:
TransmitterModule() {
rhAsk = new RH_ASK(2000, 4, 5, 0);
}
bool init() {
return rhAsk->init();
}
void send(uint8_t * data, uint8_t length) {
}
bool receive(uint8_t * data, uint8_t length) {
return rhAsk->recv(data, &length);
}
};
#endif //KEMPT_KINKAJOU_TRANSMITTERMODULE_H

2
cybergarden-sensor/src/main.cpp
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@ -27,5 +27,5 @@ void loop() {
analogWrite(LED_BUILTIN, 255);
delay(200);
analogWrite(LED_BUILTIN, 0);
delay(10000);
delay(1000);
}
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