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bldc/libcanard/dsdl/uavcan/protocol/protocol_HardwareVersion.c

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/*
* UAVCAN data structure definition for libcanard.
*
* Autogenerated, do not edit.
*
* Source file: /Users/jaime/Developer/ardupilot/modules/uavcan/dsdl/uavcan/protocol/HardwareVersion.uavcan
*/
#include "uavcan/protocol/HardwareVersion.h"
#include "canard.h"
#ifndef CANARD_INTERNAL_SATURATE
#define CANARD_INTERNAL_SATURATE(x, max) ( ((x) > max) ? max : ( (-(x) > max) ? (-max) : (x) ) );
#endif
#ifndef CANARD_INTERNAL_SATURATE_UNSIGNED
#define CANARD_INTERNAL_SATURATE_UNSIGNED(x, max) ( ((x) >= max) ? max : (x) );
#endif
#if defined(__GNUC__)
# define CANARD_MAYBE_UNUSED(x) x __attribute__((unused))
#else
# define CANARD_MAYBE_UNUSED(x) x
#endif
/**
* @brief uavcan_protocol_HardwareVersion_encode_internal
* @param source : pointer to source data struct
* @param msg_buf: pointer to msg storage
* @param offset: bit offset to msg storage
* @param root_item: for detecting if TAO should be used
* @retval returns offset
*/
uint32_t uavcan_protocol_HardwareVersion_encode_internal(uavcan_protocol_HardwareVersion* source,
void* msg_buf,
uint32_t offset,
uint8_t CANARD_MAYBE_UNUSED(root_item))
{
uint32_t c = 0;
canardEncodeScalar(msg_buf, offset, 8, (void*)&source->major); // 255
offset += 8;
canardEncodeScalar(msg_buf, offset, 8, (void*)&source->minor); // 255
offset += 8;
// Static array (unique_id)
for (c = 0; c < 16; c++)
{
canardEncodeScalar(msg_buf, offset, 8, (void*)(source->unique_id + c)); // 255
offset += 8;
}
// Dynamic Array (certificate_of_authenticity)
if (! root_item)
{
// - Add array length
canardEncodeScalar(msg_buf, offset, 8, (void*)&source->certificate_of_authenticity.len);
offset += 8;
}
// - Add array items
for (c = 0; c < source->certificate_of_authenticity.len; c++)
{
canardEncodeScalar(msg_buf,
offset,
8,
(void*)(source->certificate_of_authenticity.data + c));// 255
offset += 8;
}
return offset;
}
/**
* @brief uavcan_protocol_HardwareVersion_encode
* @param source : Pointer to source data struct
* @param msg_buf: Pointer to msg storage
* @retval returns message length as bytes
*/
uint32_t uavcan_protocol_HardwareVersion_encode(uavcan_protocol_HardwareVersion* source, void* msg_buf)
{
uint32_t offset = 0;
offset = uavcan_protocol_HardwareVersion_encode_internal(source, msg_buf, offset, 1);
return (offset + 7 ) / 8;
}
/**
* @brief uavcan_protocol_HardwareVersion_decode_internal
* @param transfer: Pointer to CanardRxTransfer transfer
* @param payload_len: Payload message length
* @param dest: Pointer to destination struct
* @param dyn_arr_buf: NULL or Pointer to memory storage to be used for dynamic arrays
* uavcan_protocol_HardwareVersion dyn memory will point to dyn_arr_buf memory.
* NULL will ignore dynamic arrays decoding.
* @param offset: Call with 0, bit offset to msg storage
* @retval offset or ERROR value if < 0
*/
int32_t uavcan_protocol_HardwareVersion_decode_internal(
const CanardRxTransfer* transfer,
uint16_t CANARD_MAYBE_UNUSED(payload_len),
uavcan_protocol_HardwareVersion* dest,
uint8_t** CANARD_MAYBE_UNUSED(dyn_arr_buf),
int32_t offset)
{
int32_t ret = 0;
uint32_t c = 0;
ret = canardDecodeScalar(transfer, (uint32_t)offset, 8, false, (void*)&dest->major);
if (ret != 8)
{
goto uavcan_protocol_HardwareVersion_error_exit;
}
offset += 8;
ret = canardDecodeScalar(transfer, (uint32_t)offset, 8, false, (void*)&dest->minor);
if (ret != 8)
{
goto uavcan_protocol_HardwareVersion_error_exit;
}
offset += 8;
// Static array (unique_id)
for (c = 0; c < 16; c++)
{
ret = canardDecodeScalar(transfer, (uint32_t)offset, 8, false, (void*)(dest->unique_id + c));
if (ret != 8)
{
goto uavcan_protocol_HardwareVersion_error_exit;
}
offset += 8;
}
// Dynamic Array (certificate_of_authenticity)
// - Last item in struct & Root item & (Array Size > 8 bit), tail array optimization
if (payload_len)
{
// - Calculate Array length from MSG length
dest->certificate_of_authenticity.len = ((payload_len * 8) - offset ) / 8; // 8 bit array item size
}
else
{
// - Array length 8 bits
ret = canardDecodeScalar(transfer,
(uint32_t)offset,
8,
false,
(void*)&dest->certificate_of_authenticity.len); // 255
if (ret != 8)
{
goto uavcan_protocol_HardwareVersion_error_exit;
}
offset += 8;
}
// - Get Array
if (dyn_arr_buf)
{
dest->certificate_of_authenticity.data = (uint8_t*)*dyn_arr_buf;
}
for (c = 0; c < dest->certificate_of_authenticity.len; c++)
{
if (dyn_arr_buf)
{
ret = canardDecodeScalar(transfer,
(uint32_t)offset,
8,
false,
(void*)*dyn_arr_buf); // 255
if (ret != 8)
{
goto uavcan_protocol_HardwareVersion_error_exit;
}
*dyn_arr_buf = (uint8_t*)(((uint8_t*)*dyn_arr_buf) + 1);
}
offset += 8;
}
return offset;
uavcan_protocol_HardwareVersion_error_exit:
if (ret < 0)
{
return ret;
}
else
{
return -CANARD_ERROR_INTERNAL;
}
}
/**
* @brief uavcan_protocol_HardwareVersion_decode
* @param transfer: Pointer to CanardRxTransfer transfer
* @param payload_len: Payload message length
* @param dest: Pointer to destination struct
* @param dyn_arr_buf: NULL or Pointer to memory storage to be used for dynamic arrays
* uavcan_protocol_HardwareVersion dyn memory will point to dyn_arr_buf memory.
* NULL will ignore dynamic arrays decoding.
* @retval offset or ERROR value if < 0
*/
int32_t uavcan_protocol_HardwareVersion_decode(const CanardRxTransfer* transfer,
uint16_t payload_len,
uavcan_protocol_HardwareVersion* dest,
uint8_t** dyn_arr_buf)
{
const int32_t offset = 0;
int32_t ret = 0;
// Clear the destination struct
for (uint32_t c = 0; c < sizeof(uavcan_protocol_HardwareVersion); c++)
{
((uint8_t*)dest)[c] = 0x00;
}
ret = uavcan_protocol_HardwareVersion_decode_internal(transfer, payload_len, dest, dyn_arr_buf, offset);
return ret;
}
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