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#include <Container.h>
#include <PMR/Common/MessageContainer.pb-c.h>
#include <PMR/Stubs/ProgressRequest.pb-c.h>
#include <PMR/Stubs/ProgressResponse.pb-c.h>
#include "include.h"
#include "driverlib/gpio.h"
#include "Drivers/USB_Communication/USBCDCD.h"
#include "StateMachines/Initialization/PowerOffSequence.h"
#include "drivers/Flash_Memory/FATFS/ff.h"
#include "drivers/Flash_Memory/FATFS/Control_File_System.h"
#include "drivers/adc_sampling/adc.h"
#include "drivers/Heater/TemperatureSensor.h"
#include "drivers/ADC_Sampling/adc.h"
#include "Drivers/I2C_Communication/Head_Card/PT100/PT100_ADC.h"
#include "drivers/Motors/Motor.h"
#include "drivers/FPGA/FPGA_SPI_Comm.h"
//#include "graphics_adapter.h"
extern uint8_t Input_Voltage;
extern uint8_t Test_Read_Buf[4];
void Stub_ProgressRequest(MessageContainer* requestContainer)
{
MessageContainer responseContainer;
ProgressRequest* request = progress_request__unpack(NULL, requestContainer->data.len, requestContainer->data.data);
//writeLine("Progress Request...");
ProgressResponse response = PROGRESS_RESPONSE__INIT;
if((request->amount == 0xDE) && (request->delay < 8) && (request->delay >= 0)) // read dispenser type + LS status
{
response.progress = ((Dispenser_struct[request->delay].Type) << 8) + Dispenser_struct[request->delay].Status;
response.has_progress = true;
}
else
if((request->amount == 0xAD) && (request->delay == 0xAD01)) //undef AUTO_HOME_DISPENSERS
{
#undef AUTO_HOME_DISPENSERS
response.progress = 01;
response.has_progress = true;
}
else
if((request->amount == 0xAD) && (request->delay == 0xAD00)) //define AUTO_HOME_DISPENSERS
{
#define AUTO_HOME_DISPENSERS
response.progress = 01;
response.has_progress = true;
}
else
if((request->amount == 0x01) && ((request->delay &0x010000) == 0x010000)) //change mode powerset01
{
response.progress = Power_Step_01_Mode(((request->delay &0x00FF00)>>8), request->delay &0x0000FF);
response.has_progress = true;
}
else
if((request->amount == 0xAB) && (request->delay == 0xAB)) //Get pressure with flow (orifice flow meter)
{
response.progress = Calculate_Pitot_Pressure(true);
response.has_progress = true;
}
else
if((request->amount == 0xAB) && (request->delay == 0x0)) //measured sensor voltage without flow (orifice flow meter)
{
response.progress = Calculate_Pitot_Pressure(false);
response.has_progress = true;
}
else
if((request->amount == 0x5C4E) && (request->delay == 0x5C4E)) //Screw Home Pos dir
{
test_Home_Pos();
}
else
if((request->amount == 0x100) && (request->delay == 0x100)) //head card PT100
{
Test_HeadCard_PT100(TEMP_SENSE_ANALOG_DYEINGH_TEMP1);
//response.progress = (double)Test_Read_Buf[0];
response.progress = (double)Data_ADC_Head;
response.has_progress = true;
}
else
if((request->amount == 0xCF) && (request->delay == 0xCF)) //Create File System on the Drive
{
#ifdef WATCHDOG
ROM_WatchdogResetDisable(WATCHDOG0_BASE);
uint32_t timeout = 0xFFFFFFFFU;
ROM_WatchdogReloadSet(WATCHDOG0_BASE, timeout);
#endif
FRESULT iFResult = Init_Flash_File_System(true);
if(iFResult != FR_OK)
{
LOG_ERROR (iFResult, "Error during init Flash File System");
assert(iFResult);
}
#ifdef WATCHDOG
ROM_WatchdogResetEnable(WATCHDOG0_BASE);
timeout = 120000000*3;
ROM_WatchdogReloadSet(WATCHDOG0_BASE, timeout);
#endif
}
else
if((request->amount == 0x0C) && (request->delay == 0x0C)) //Get Gas Sensor
{
response.progress = (double)Calculate_Gas_Power_Consumption();
response.has_progress = true;
}
else
if((request->amount == 0xDD) && (request->delay == 0xDD)) //Read Input Voltage
{
CheckAcInputVoltage();
response.progress = (double)Input_Voltage;
response.has_progress = true;
}
else
if((request->amount == 0x0CE) && (request->delay == 0x0CE)) //Get Gas Sensor
{
FlashInitAndLoad();
response.progress = (double)OK;
response.has_progress = true;
}
else
if(request->amount == 0x0CC) //C�������� V��������� ��������
{
ResponseDemo(request->delay);
response.progress = (double)OK;
response.has_progress = true;
}
else if((request->amount == 0xDF) && (request->delay == 0xDF)) //Power off
{
PowerOffInit();
}
else
{
response.has_progress = true;
int i = 0;
for (i = 0; i < request->amount; i++)
{
response.progress = i;
responseContainer = createContainer(MESSAGE_TYPE__ProgressResponse, requestContainer->token, false, &response, &progress_response__pack, &progress_response__get_packed_size);
uint8_t* container_buffer = malloc(message_container__get_packed_size(&responseContainer));
size_t container_size = message_container__pack(&responseContainer, container_buffer);
free(responseContainer.data.data);
SendChars((char*)container_buffer, container_size);
//free(container_buffer);
int co = 0;
for (co = 0; co < request->delay; co++)
{
__delay_cycles(1000000);
}
}
}
responseContainer = createContainer(MESSAGE_TYPE__ProgressResponse, requestContainer->token, true, &response, &progress_response__pack, &progress_response__get_packed_size);
uint8_t* container_buffer = malloc(message_container__get_packed_size(&responseContainer));
size_t container_size = message_container__pack(&responseContainer, container_buffer);
free(responseContainer.data.data);
//writeLine("Progress Completed!");
SendChars((char*)container_buffer, container_size);
//free(container_buffer);
return;
}
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