renormalize CHB

This commit is contained in:
Robin Müller 2020-09-01 11:49:43 +02:00
parent 54112acf62
commit a4d9c761a7
8 changed files with 2571 additions and 2571 deletions

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@ -1,117 +1,117 @@
#ifndef _sgp4unit_
#define _sgp4unit_
/* ----------------------------------------------------------------
*
* sgp4unit.h
*
* this file contains the sgp4 procedures for analytical propagation
* of a satellite. the code was originally released in the 1980 and 1986
* spacetrack papers. a detailed discussion of the theory and history
* may be found in the 2006 aiaa paper by vallado, crawford, hujsak,
* and kelso.
*
* companion code for
* fundamentals of astrodynamics and applications
* 2007
* by david vallado
*
* (w) 719-573-2600, email dvallado@agi.com
*
* current :
* 20 apr 07 david vallado
* misc fixes for constants
* changes :
* 11 aug 06 david vallado
* chg lyddane choice back to strn3, constants, misc doc
* 15 dec 05 david vallado
* misc fixes
* 26 jul 05 david vallado
* fixes for paper
* note that each fix is preceded by a
* comment with "sgp4fix" and an explanation of
* what was changed
* 10 aug 04 david vallado
* 2nd printing baseline working
* 14 may 01 david vallado
* 2nd edition baseline
* 80 norad
* original baseline
* ---------------------------------------------------------------- */
#include <math.h>
#include <stdio.h>
// -------------------------- structure declarations ----------------------------
typedef enum
{
wgs72old,
wgs72,
wgs84
} gravconsttype;
typedef struct elsetrec
{
long int satnum;
int epochyr, epochtynumrev;
int error;
char init, method;
/* Near Earth */
int isimp;
double aycof , con41 , cc1 , cc4 , cc5 , d2 , d3 , d4 ,
delmo , eta , argpdot, omgcof , sinmao , t , t2cof, t3cof ,
t4cof , t5cof , x1mth2 , x7thm1 , mdot , nodedot, xlcof , xmcof ,
nodecf;
/* Deep Space */
int irez;
double d2201 , d2211 , d3210 , d3222 , d4410 , d4422 , d5220 , d5232 ,
d5421 , d5433 , dedt , del1 , del2 , del3 , didt , dmdt ,
dnodt , domdt , e3 , ee2 , peo , pgho , pho , pinco ,
plo , se2 , se3 , sgh2 , sgh3 , sgh4 , sh2 , sh3 ,
si2 , si3 , sl2 , sl3 , sl4 , gsto , xfact , xgh2 ,
xgh3 , xgh4 , xh2 , xh3 , xi2 , xi3 , xl2 , xl3 ,
xl4 , xlamo , zmol , zmos , atime , xli , xni;
double a , altp , alta , epochdays, jdsatepoch , nddot , ndot ,
bstar , rcse , inclo , nodeo , ecco , argpo , mo ,
no;
} elsetrec;
// --------------------------- function declarations ----------------------------
int sgp4init
(
gravconsttype whichconst, const int satn, const double epoch,
const double xbstar, const double xecco, const double xargpo,
const double xinclo, const double xmo, const double xno,
const double xnodeo,
elsetrec& satrec
);
int sgp4
(
gravconsttype whichconst,
elsetrec& satrec, double tsince,
double r[], double v[]
);
double gstime
(
double
);
void getgravconst
(
gravconsttype,
double&,
double&,
double&,
double&,
double&,
double&,
double&,
double&
);
#endif
#ifndef _sgp4unit_
#define _sgp4unit_
/* ----------------------------------------------------------------
*
* sgp4unit.h
*
* this file contains the sgp4 procedures for analytical propagation
* of a satellite. the code was originally released in the 1980 and 1986
* spacetrack papers. a detailed discussion of the theory and history
* may be found in the 2006 aiaa paper by vallado, crawford, hujsak,
* and kelso.
*
* companion code for
* fundamentals of astrodynamics and applications
* 2007
* by david vallado
*
* (w) 719-573-2600, email dvallado@agi.com
*
* current :
* 20 apr 07 david vallado
* misc fixes for constants
* changes :
* 11 aug 06 david vallado
* chg lyddane choice back to strn3, constants, misc doc
* 15 dec 05 david vallado
* misc fixes
* 26 jul 05 david vallado
* fixes for paper
* note that each fix is preceded by a
* comment with "sgp4fix" and an explanation of
* what was changed
* 10 aug 04 david vallado
* 2nd printing baseline working
* 14 may 01 david vallado
* 2nd edition baseline
* 80 norad
* original baseline
* ---------------------------------------------------------------- */
#include <math.h>
#include <stdio.h>
// -------------------------- structure declarations ----------------------------
typedef enum
{
wgs72old,
wgs72,
wgs84
} gravconsttype;
typedef struct elsetrec
{
long int satnum;
int epochyr, epochtynumrev;
int error;
char init, method;
/* Near Earth */
int isimp;
double aycof , con41 , cc1 , cc4 , cc5 , d2 , d3 , d4 ,
delmo , eta , argpdot, omgcof , sinmao , t , t2cof, t3cof ,
t4cof , t5cof , x1mth2 , x7thm1 , mdot , nodedot, xlcof , xmcof ,
nodecf;
/* Deep Space */
int irez;
double d2201 , d2211 , d3210 , d3222 , d4410 , d4422 , d5220 , d5232 ,
d5421 , d5433 , dedt , del1 , del2 , del3 , didt , dmdt ,
dnodt , domdt , e3 , ee2 , peo , pgho , pho , pinco ,
plo , se2 , se3 , sgh2 , sgh3 , sgh4 , sh2 , sh3 ,
si2 , si3 , sl2 , sl3 , sl4 , gsto , xfact , xgh2 ,
xgh3 , xgh4 , xh2 , xh3 , xi2 , xi3 , xl2 , xl3 ,
xl4 , xlamo , zmol , zmos , atime , xli , xni;
double a , altp , alta , epochdays, jdsatepoch , nddot , ndot ,
bstar , rcse , inclo , nodeo , ecco , argpo , mo ,
no;
} elsetrec;
// --------------------------- function declarations ----------------------------
int sgp4init
(
gravconsttype whichconst, const int satn, const double epoch,
const double xbstar, const double xecco, const double xargpo,
const double xinclo, const double xmo, const double xno,
const double xnodeo,
elsetrec& satrec
);
int sgp4
(
gravconsttype whichconst,
elsetrec& satrec, double tsince,
double r[], double v[]
);
double gstime
(
double
);
void getgravconst
(
gravconsttype,
double&,
double&,
double&,
double&,
double&,
double&,
double&,
double&
);
#endif

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@ -1,45 +1,45 @@
#include "../subsystem/SubsystemBase.h"
#include "../devicehandlers/ChildHandlerBase.h"
#include "../subsystem/SubsystemBase.h"
ChildHandlerBase::ChildHandlerBase(object_id_t setObjectId,
object_id_t deviceCommunication, CookieIF * cookie,
uint32_t thermalStatePoolId, uint32_t thermalRequestPoolId,
object_id_t parent, FailureIsolationBase* customFdir,
size_t cmdQueueSize) :
DeviceHandlerBase(setObjectId, deviceCommunication, cookie,
(customFdir == nullptr? &childHandlerFdir : customFdir),
cmdQueueSize),
parentId(parent), childHandlerFdir(setObjectId) {
this->setThermalStateRequestPoolIds(thermalStatePoolId,
thermalRequestPoolId);
}
ChildHandlerBase::~ChildHandlerBase() {
}
ReturnValue_t ChildHandlerBase::initialize() {
ReturnValue_t result = DeviceHandlerBase::initialize();
if (result != HasReturnvaluesIF::RETURN_OK) {
return result;
}
MessageQueueId_t parentQueue = 0;
if (parentId != objects::NO_OBJECT) {
SubsystemBase *parent = objectManager->get<SubsystemBase>(parentId);
if (parent == NULL) {
return RETURN_FAILED;
}
parentQueue = parent->getCommandQueue();
parent->registerChild(getObjectId());
}
healthHelper.setParentQueue(parentQueue);
modeHelper.setParentQueue(parentQueue);
return RETURN_OK;
}
#include "../subsystem/SubsystemBase.h"
#include "../devicehandlers/ChildHandlerBase.h"
#include "../subsystem/SubsystemBase.h"
ChildHandlerBase::ChildHandlerBase(object_id_t setObjectId,
object_id_t deviceCommunication, CookieIF * cookie,
uint32_t thermalStatePoolId, uint32_t thermalRequestPoolId,
object_id_t parent, FailureIsolationBase* customFdir,
size_t cmdQueueSize) :
DeviceHandlerBase(setObjectId, deviceCommunication, cookie,
(customFdir == nullptr? &childHandlerFdir : customFdir),
cmdQueueSize),
parentId(parent), childHandlerFdir(setObjectId) {
this->setThermalStateRequestPoolIds(thermalStatePoolId,
thermalRequestPoolId);
}
ChildHandlerBase::~ChildHandlerBase() {
}
ReturnValue_t ChildHandlerBase::initialize() {
ReturnValue_t result = DeviceHandlerBase::initialize();
if (result != HasReturnvaluesIF::RETURN_OK) {
return result;
}
MessageQueueId_t parentQueue = 0;
if (parentId != objects::NO_OBJECT) {
SubsystemBase *parent = objectManager->get<SubsystemBase>(parentId);
if (parent == NULL) {
return RETURN_FAILED;
}
parentQueue = parent->getCommandQueue();
parent->registerChild(getObjectId());
}
healthHelper.setParentQueue(parentQueue);
modeHelper.setParentQueue(parentQueue);
return RETURN_OK;
}

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@ -1,26 +1,26 @@
#ifndef FSFW_DEVICES_CHILDHANDLERBASE_H_
#define FSFW_DEVICES_CHILDHANDLERBASE_H_
#include "ChildHandlerFDIR.h"
#include "DeviceHandlerBase.h"
class ChildHandlerBase: public DeviceHandlerBase {
public:
ChildHandlerBase(object_id_t setObjectId, object_id_t deviceCommunication,
CookieIF * cookie, uint32_t thermalStatePoolId,
uint32_t thermalRequestPoolId,
object_id_t parent = objects::NO_OBJECT,
FailureIsolationBase* customFdir = nullptr,
size_t cmdQueueSize = 20);
virtual ~ChildHandlerBase();
virtual ReturnValue_t initialize();
protected:
const uint32_t parentId;
ChildHandlerFDIR childHandlerFdir;
};
#endif /* FSFW_DEVICES_CHILDHANDLERBASE_H_ */
#define FSFW_DEVICES_CHILDHANDLERBASE_H_
#include "ChildHandlerFDIR.h"
#include "DeviceHandlerBase.h"
class ChildHandlerBase: public DeviceHandlerBase {
public:
ChildHandlerBase(object_id_t setObjectId, object_id_t deviceCommunication,
CookieIF * cookie, uint32_t thermalStatePoolId,
uint32_t thermalRequestPoolId,
object_id_t parent = objects::NO_OBJECT,
FailureIsolationBase* customFdir = nullptr,
size_t cmdQueueSize = 20);
virtual ~ChildHandlerBase();
virtual ReturnValue_t initialize();
protected:
const uint32_t parentId;
ChildHandlerFDIR childHandlerFdir;
};
#endif /* FSFW_DEVICES_CHILDHANDLERBASE_H_ */

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@ -1,24 +1,24 @@
#include "../../osal/FreeRTOS/TaskManagement.h"
void TaskManagement::vRequestContextSwitchFromTask() {
vTaskDelay(0);
}
void TaskManagement::requestContextSwitch(
CallContext callContext = CallContext::TASK) {
if(callContext == CallContext::ISR) {
// This function depends on the partmacro.h definition for the specific device
vRequestContextSwitchFromISR();
} else {
vRequestContextSwitchFromTask();
}
}
TaskHandle_t TaskManagement::getCurrentTaskHandle() {
return xTaskGetCurrentTaskHandle();
}
size_t TaskManagement::getTaskStackHighWatermark(
TaskHandle_t task) {
return uxTaskGetStackHighWaterMark(task) * sizeof(StackType_t);
}
#include "../../osal/FreeRTOS/TaskManagement.h"
void TaskManagement::vRequestContextSwitchFromTask() {
vTaskDelay(0);
}
void TaskManagement::requestContextSwitch(
CallContext callContext = CallContext::TASK) {
if(callContext == CallContext::ISR) {
// This function depends on the partmacro.h definition for the specific device
vRequestContextSwitchFromISR();
} else {
vRequestContextSwitchFromTask();
}
}
TaskHandle_t TaskManagement::getCurrentTaskHandle() {
return xTaskGetCurrentTaskHandle();
}
size_t TaskManagement::getTaskStackHighWatermark(
TaskHandle_t task) {
return uxTaskGetStackHighWaterMark(task) * sizeof(StackType_t);
}

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@ -1,64 +1,64 @@
#ifndef FRAMEWORK_OSAL_FREERTOS_TASKMANAGEMENT_H_
#define FRAMEWORK_OSAL_FREERTOS_TASKMANAGEMENT_H_
#include "../../returnvalues/HasReturnvaluesIF.h"
extern "C" {
#include <freertos/FreeRTOS.h>
#include <freertos/task.h>
}
#include <cstdint>
/**
* Architecture dependant portmacro.h function call.
* Should be implemented in bsp.
*/
extern void vRequestContextSwitchFromISR();
/*!
* Used by functions to tell if they are being called from
* within an ISR or from a regular task. This is required because FreeRTOS
* has different functions for handling semaphores and messages from within
* an ISR and task.
*/
enum class CallContext {
TASK = 0x00,//!< task_context
ISR = 0xFF //!< isr_context
};
class TaskManagement {
public:
/**
* @brief In this function, a function dependant on the portmacro.h header
* function calls to request a context switch can be specified.
* This can be used if sending to the queue from an ISR caused a task
* to unblock and a context switch is required.
*/
static void requestContextSwitch(CallContext callContext);
/**
* If task preemption in FreeRTOS is disabled, a context switch
* can be requested manually by calling this function.
*/
static void vRequestContextSwitchFromTask(void);
/**
* @return The current task handle
*/
static TaskHandle_t getCurrentTaskHandle();
/**
* Get returns the minimum amount of remaining stack space in words
* that was a available to the task since the task started executing.
* Please note that the actual value in bytes depends
* on the stack depth type.
* E.g. on a 32 bit machine, a value of 200 means 800 bytes.
* @return Smallest value of stack remaining since the task was started in
* words.
*/
static size_t getTaskStackHighWatermark(
TaskHandle_t task = nullptr);
};
#endif /* FRAMEWORK_OSAL_FREERTOS_TASKMANAGEMENT_H_ */
#ifndef FRAMEWORK_OSAL_FREERTOS_TASKMANAGEMENT_H_
#define FRAMEWORK_OSAL_FREERTOS_TASKMANAGEMENT_H_
#include "../../returnvalues/HasReturnvaluesIF.h"
extern "C" {
#include <freertos/FreeRTOS.h>
#include <freertos/task.h>
}
#include <cstdint>
/**
* Architecture dependant portmacro.h function call.
* Should be implemented in bsp.
*/
extern void vRequestContextSwitchFromISR();
/*!
* Used by functions to tell if they are being called from
* within an ISR or from a regular task. This is required because FreeRTOS
* has different functions for handling semaphores and messages from within
* an ISR and task.
*/
enum class CallContext {
TASK = 0x00,//!< task_context
ISR = 0xFF //!< isr_context
};
class TaskManagement {
public:
/**
* @brief In this function, a function dependant on the portmacro.h header
* function calls to request a context switch can be specified.
* This can be used if sending to the queue from an ISR caused a task
* to unblock and a context switch is required.
*/
static void requestContextSwitch(CallContext callContext);
/**
* If task preemption in FreeRTOS is disabled, a context switch
* can be requested manually by calling this function.
*/
static void vRequestContextSwitchFromTask(void);
/**
* @return The current task handle
*/
static TaskHandle_t getCurrentTaskHandle();
/**
* Get returns the minimum amount of remaining stack space in words
* that was a available to the task since the task started executing.
* Please note that the actual value in bytes depends
* on the stack depth type.
* E.g. on a 32 bit machine, a value of 200 means 800 bytes.
* @return Smallest value of stack remaining since the task was started in
* words.
*/
static size_t getTaskStackHighWatermark(
TaskHandle_t task = nullptr);
};
#endif /* FRAMEWORK_OSAL_FREERTOS_TASKMANAGEMENT_H_ */

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@ -1,129 +1,129 @@
#include "../serialize/SerialBufferAdapter.h"
#include "../serviceinterface/ServiceInterfaceStream.h"
#include <cstring>
template<typename count_t>
SerialBufferAdapter<count_t>::SerialBufferAdapter(const uint8_t* buffer,
count_t bufferLength, bool serializeLength) :
serializeLength(serializeLength),
constBuffer(buffer), buffer(nullptr),
bufferLength(bufferLength) {}
template<typename count_t>
SerialBufferAdapter<count_t>::SerialBufferAdapter(uint8_t* buffer,
count_t bufferLength, bool serializeLength) :
serializeLength(serializeLength), constBuffer(buffer), buffer(buffer),
bufferLength(bufferLength) {}
template<typename count_t>
SerialBufferAdapter<count_t>::~SerialBufferAdapter() {
}
template<typename count_t>
ReturnValue_t SerialBufferAdapter<count_t>::serialize(uint8_t** buffer,
size_t* size, size_t maxSize, Endianness streamEndianness) const {
if (serializeLength) {
ReturnValue_t result = SerializeAdapter::serialize(&bufferLength,
buffer, size, maxSize, streamEndianness);
if(result != HasReturnvaluesIF::RETURN_OK) {
return result;
}
}
if (*size + bufferLength > maxSize) {
return BUFFER_TOO_SHORT;
}
if (this->constBuffer != nullptr) {
std::memcpy(*buffer, this->constBuffer, bufferLength);
}
else if (this->buffer != nullptr) {
// This will propably be never reached, constBuffer should always be
// set if non-const buffer is set.
std::memcpy(*buffer, this->buffer, bufferLength);
}
else {
return HasReturnvaluesIF::RETURN_FAILED;
}
*size += bufferLength;
(*buffer) += bufferLength;
return HasReturnvaluesIF::RETURN_OK;
}
template<typename count_t>
size_t SerialBufferAdapter<count_t>::getSerializedSize() const {
if (serializeLength) {
return bufferLength + SerializeAdapter::getSerializedSize(&bufferLength);
} else {
return bufferLength;
}
}
template<typename count_t>
ReturnValue_t SerialBufferAdapter<count_t>::deSerialize(const uint8_t** buffer,
size_t* size, Endianness streamEndianness) {
if (this->buffer == nullptr) {
return HasReturnvaluesIF::RETURN_FAILED;
}
if(serializeLength){
count_t lengthField = 0;
ReturnValue_t result = SerializeAdapter::deSerialize(&lengthField,
buffer, size, streamEndianness);
if(result != HasReturnvaluesIF::RETURN_OK) {
return result;
}
if(lengthField > bufferLength) {
return TOO_MANY_ELEMENTS;
}
bufferLength = lengthField;
}
if (bufferLength <= *size) {
*size -= bufferLength;
std::memcpy(this->buffer, *buffer, bufferLength);
(*buffer) += bufferLength;
return HasReturnvaluesIF::RETURN_OK;
}
else {
return STREAM_TOO_SHORT;
}
}
template<typename count_t>
uint8_t * SerialBufferAdapter<count_t>::getBuffer() {
if(buffer == nullptr) {
sif::error << "Wrong access function for stored type !"
" Use getConstBuffer()." << std::endl;
return nullptr;
}
return buffer;
}
template<typename count_t>
const uint8_t * SerialBufferAdapter<count_t>::getConstBuffer() {
if(constBuffer == nullptr) {
sif::error << "SerialBufferAdapter::getConstBuffer:"
" Buffers are unitialized!" << std::endl;
return nullptr;
}
return constBuffer;
}
template<typename count_t>
void SerialBufferAdapter<count_t>::setBuffer(uint8_t* buffer,
count_t bufferLength) {
this->buffer = buffer;
this->constBuffer = buffer;
this->bufferLength = bufferLength;
}
//forward Template declaration for linker
template class SerialBufferAdapter<uint8_t>;
template class SerialBufferAdapter<uint16_t>;
template class SerialBufferAdapter<uint32_t>;
template class SerialBufferAdapter<uint64_t>;
#include "../serialize/SerialBufferAdapter.h"
#include "../serviceinterface/ServiceInterfaceStream.h"
#include <cstring>
template<typename count_t>
SerialBufferAdapter<count_t>::SerialBufferAdapter(const uint8_t* buffer,
count_t bufferLength, bool serializeLength) :
serializeLength(serializeLength),
constBuffer(buffer), buffer(nullptr),
bufferLength(bufferLength) {}
template<typename count_t>
SerialBufferAdapter<count_t>::SerialBufferAdapter(uint8_t* buffer,
count_t bufferLength, bool serializeLength) :
serializeLength(serializeLength), constBuffer(buffer), buffer(buffer),
bufferLength(bufferLength) {}
template<typename count_t>
SerialBufferAdapter<count_t>::~SerialBufferAdapter() {
}
template<typename count_t>
ReturnValue_t SerialBufferAdapter<count_t>::serialize(uint8_t** buffer,
size_t* size, size_t maxSize, Endianness streamEndianness) const {
if (serializeLength) {
ReturnValue_t result = SerializeAdapter::serialize(&bufferLength,
buffer, size, maxSize, streamEndianness);
if(result != HasReturnvaluesIF::RETURN_OK) {
return result;
}
}
if (*size + bufferLength > maxSize) {
return BUFFER_TOO_SHORT;
}
if (this->constBuffer != nullptr) {
std::memcpy(*buffer, this->constBuffer, bufferLength);
}
else if (this->buffer != nullptr) {
// This will propably be never reached, constBuffer should always be
// set if non-const buffer is set.
std::memcpy(*buffer, this->buffer, bufferLength);
}
else {
return HasReturnvaluesIF::RETURN_FAILED;
}
*size += bufferLength;
(*buffer) += bufferLength;
return HasReturnvaluesIF::RETURN_OK;
}
template<typename count_t>
size_t SerialBufferAdapter<count_t>::getSerializedSize() const {
if (serializeLength) {
return bufferLength + SerializeAdapter::getSerializedSize(&bufferLength);
} else {
return bufferLength;
}
}
template<typename count_t>
ReturnValue_t SerialBufferAdapter<count_t>::deSerialize(const uint8_t** buffer,
size_t* size, Endianness streamEndianness) {
if (this->buffer == nullptr) {
return HasReturnvaluesIF::RETURN_FAILED;
}
if(serializeLength){
count_t lengthField = 0;
ReturnValue_t result = SerializeAdapter::deSerialize(&lengthField,
buffer, size, streamEndianness);
if(result != HasReturnvaluesIF::RETURN_OK) {
return result;
}
if(lengthField > bufferLength) {
return TOO_MANY_ELEMENTS;
}
bufferLength = lengthField;
}
if (bufferLength <= *size) {
*size -= bufferLength;
std::memcpy(this->buffer, *buffer, bufferLength);
(*buffer) += bufferLength;
return HasReturnvaluesIF::RETURN_OK;
}
else {
return STREAM_TOO_SHORT;
}
}
template<typename count_t>
uint8_t * SerialBufferAdapter<count_t>::getBuffer() {
if(buffer == nullptr) {
sif::error << "Wrong access function for stored type !"
" Use getConstBuffer()." << std::endl;
return nullptr;
}
return buffer;
}
template<typename count_t>
const uint8_t * SerialBufferAdapter<count_t>::getConstBuffer() {
if(constBuffer == nullptr) {
sif::error << "SerialBufferAdapter::getConstBuffer:"
" Buffers are unitialized!" << std::endl;
return nullptr;
}
return constBuffer;
}
template<typename count_t>
void SerialBufferAdapter<count_t>::setBuffer(uint8_t* buffer,
count_t bufferLength) {
this->buffer = buffer;
this->constBuffer = buffer;
this->bufferLength = bufferLength;
}
//forward Template declaration for linker
template class SerialBufferAdapter<uint8_t>;
template class SerialBufferAdapter<uint16_t>;
template class SerialBufferAdapter<uint32_t>;
template class SerialBufferAdapter<uint64_t>;

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@ -1,78 +1,78 @@
#ifndef SERIALBUFFERADAPTER_H_
#define SERIALBUFFERADAPTER_H_
#include "../serialize/SerializeIF.h"
#include "../serialize/SerializeAdapter.h"
/**
* This adapter provides an interface for SerializeIF to serialize or deserialize
* buffers with no length header but a known size.
*
* Additionally, the buffer length can be serialized too and will be put in
* front of the serialized buffer.
*
* Can be used with SerialLinkedListAdapter by declaring a SerializeElement with
* SerialElement<SerialBufferAdapter<bufferLengthType(will be uint8_t mostly)>>.
* Right now, the SerialBufferAdapter must always
* be initialized with the buffer and size !
*
* \ingroup serialize
*/
template<typename count_t>
class SerialBufferAdapter: public SerializeIF {
public:
/**
* Constructor for constant uint8_t buffer. Length field can be serialized optionally.
* Type of length can be supplied as template type.
* @param buffer
* @param bufferLength
* @param serializeLength
*/
SerialBufferAdapter(const uint8_t* buffer, count_t bufferLength,
bool serializeLength = false);
/**
* Constructor for non-constant uint8_t buffer.
* Length field can be serialized optionally.
* Type of length can be supplied as template type.
* @param buffer
* @param bufferLength
* @param serializeLength Length field will be serialized with size count_t
*/
SerialBufferAdapter(uint8_t* buffer, count_t bufferLength,
bool serializeLength = false);
virtual ~SerialBufferAdapter();
virtual ReturnValue_t serialize(uint8_t** buffer, size_t* size,
size_t maxSize, Endianness streamEndianness) const override;
virtual size_t getSerializedSize() const override;
/**
* @brief This function deserializes a buffer into the member buffer.
* @details
* If a length field is present, it is ignored, as the size should have
* been set in the constructor. If the size is not known beforehand,
* consider using SerialFixedArrayListAdapter instead.
* @param buffer [out] Resulting buffer
* @param size remaining size to deserialize, should be larger than buffer
* + size field size
* @param bigEndian
* @return
*/
virtual ReturnValue_t deSerialize(const uint8_t** buffer, size_t* size,
Endianness streamEndianness) override;
uint8_t * getBuffer();
const uint8_t * getConstBuffer();
void setBuffer(uint8_t* buffer, count_t bufferLength);
private:
bool serializeLength = false;
const uint8_t *constBuffer = nullptr;
uint8_t *buffer = nullptr;
count_t bufferLength = 0;
};
#endif /* SERIALBUFFERADAPTER_H_ */
#ifndef SERIALBUFFERADAPTER_H_
#define SERIALBUFFERADAPTER_H_
#include "../serialize/SerializeIF.h"
#include "../serialize/SerializeAdapter.h"
/**
* This adapter provides an interface for SerializeIF to serialize or deserialize
* buffers with no length header but a known size.
*
* Additionally, the buffer length can be serialized too and will be put in
* front of the serialized buffer.
*
* Can be used with SerialLinkedListAdapter by declaring a SerializeElement with
* SerialElement<SerialBufferAdapter<bufferLengthType(will be uint8_t mostly)>>.
* Right now, the SerialBufferAdapter must always
* be initialized with the buffer and size !
*
* \ingroup serialize
*/
template<typename count_t>
class SerialBufferAdapter: public SerializeIF {
public:
/**
* Constructor for constant uint8_t buffer. Length field can be serialized optionally.
* Type of length can be supplied as template type.
* @param buffer
* @param bufferLength
* @param serializeLength
*/
SerialBufferAdapter(const uint8_t* buffer, count_t bufferLength,
bool serializeLength = false);
/**
* Constructor for non-constant uint8_t buffer.
* Length field can be serialized optionally.
* Type of length can be supplied as template type.
* @param buffer
* @param bufferLength
* @param serializeLength Length field will be serialized with size count_t
*/
SerialBufferAdapter(uint8_t* buffer, count_t bufferLength,
bool serializeLength = false);
virtual ~SerialBufferAdapter();
virtual ReturnValue_t serialize(uint8_t** buffer, size_t* size,
size_t maxSize, Endianness streamEndianness) const override;
virtual size_t getSerializedSize() const override;
/**
* @brief This function deserializes a buffer into the member buffer.
* @details
* If a length field is present, it is ignored, as the size should have
* been set in the constructor. If the size is not known beforehand,
* consider using SerialFixedArrayListAdapter instead.
* @param buffer [out] Resulting buffer
* @param size remaining size to deserialize, should be larger than buffer
* + size field size
* @param bigEndian
* @return
*/
virtual ReturnValue_t deSerialize(const uint8_t** buffer, size_t* size,
Endianness streamEndianness) override;
uint8_t * getBuffer();
const uint8_t * getConstBuffer();
void setBuffer(uint8_t* buffer, count_t bufferLength);
private:
bool serializeLength = false;
const uint8_t *constBuffer = nullptr;
uint8_t *buffer = nullptr;
count_t bufferLength = 0;
};
#endif /* SERIALBUFFERADAPTER_H_ */