Pathfindr
init
Dependencies: aconno_I2C Lis2dh12 WatchdogTimer
app_data.cpp
- Committer:
- pathfindr
- Date:
- 2020-02-17
- Revision:
- 58:8d4a354816b1
- Parent:
- 51:9078e6928412
File content as of revision 58:8d4a354816b1:
//------------------------------------------------------------------------------
//This module:
//------------------------------------------------------------------------------
#include "app_data.h"
//------------------------------------------------------------------------------
//LOCAL Macros
FlashIAP flash;
//------------------------------------------------------------------------------
//debugging state
#define DEBUG_THIS DEBUG_APP_DATA
//------------------------------------------------------------------------------
//IO pin setup
//------------------------------------------------------------------------------
//NONE
//------------------------------------------------------------------------------
//GLOBAL Variables
//------------------------------------------------------------------------------
app_data_t app_data;
//------------------------------------------------------------------------------
//LOCAL Data structures
//------------------------------------------------------------------------------
//NONE
//------------------------------------------------------------------------------
//LOCAL Constants
//------------------------------------------------------------------------------
//NONE
//------------------------------------------------------------------------------
//LOCAL Variables
//------------------------------------------------------------------------------
//NONE
//------------------------------------------------------------------------------
//LOCAL Function prototypes
//------------------------------------------------------------------------------
//NONE
//------------------------------------------------------------------------------
//LOCAL Function definitions
//------------------------------------------------------------------------------
//NONE
//------------------------------------------------------------------------------
//GLOBAL Function definitions
//------------------------------------------------------------------------------
extern bool set_flag(app_data_t *ptr, uint32_t flag)
{
ptr->status_flags |= flag;
return 0;
}
//------------------------------------------------------------------------------
extern bool get_flag(app_data_t *ptr, uint32_t flag)
{
bool result;
result = (ptr->status_flags & flag);
return result;
}
//------------------------------------------------------------------------------
extern bool clr_flag(app_data_t *ptr, uint32_t flag)
{
ptr->status_flags &= ~flag;
return 0;
}
//------------------------------------------------------------------------------
extern bool tgl_flag(app_data_t *ptr, uint32_t flag)
{
ptr->status_flags ^= flag;
return 0;
}
//------------------------------------------------------------------------------
extern bool rst_flag_buffer(app_data_t *ptr)
{
ptr->status_flags = 0;
return 0;
}
//------------------------------------------------------------------------------
extern bool write_app_data_to_flash(app_data_t *ptr)
//write the app data to the memory location defined by APPDATA_START
{
bool pass = false;
int8_t error = 0; //used to catch errors in the flash operations
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "Flash - Init 1");debug_exe();
error = flash.init();
if(error != 0)
{
//DEBUG(DEBUG_THIS, "ERROR: flash init %d \r\n", error);
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "ERROR: flash init %d",error);debug_exe();
return false;
}
const uint32_t page_size = flash.get_page_size();
char page_buffer[page_size];
uint32_t addr = APPDATA_START;
uint32_t value[1] = {0};
uint32_t val = 0;
uint8_t setting = 1;
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "Flash - Init 2");debug_exe();
flash.init();
// DEBUGGING APP DATA MEMORY CRASH
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "Flash - Erase");debug_exe();
error = flash.erase(addr, flash.get_sector_size(addr));
if(error != 0)
{
//DEBUG(DEBUG_THIS, "ERROR: flash erase %d \r\n", error);
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "ERROR: flash erase %d",error);debug_exe();
return false;
}
//DEBUG(DEBUG_THIS, "WRITE VALUES FROM RAM TO FLASH... \r\n\n");
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "Flash - Write 1");debug_exe();
for(setting=1; setting<=N_SETTINGS; setting++)
{
switch(setting)
{
case 1: val = ptr->current_firmware_version; break;
case 2: val = ptr->target_firmware_version; break;
case 3: val = ptr->app_execution_fail_counter; break;
case 4: val = ptr->blinky_state; break;
case 5: val = ptr->sleep_counter; break;
case 6: val = ptr->sleep_duration; break;
case 7: val = ptr->update_duration; break;
case 8: val = ptr->reset_counter; break;
case 9: val = ptr->wd_counter; break;
case 10: val = ptr->status_flags; break;
default:
//DEBUG(DEBUG_THIS, "Undefined state in function: %s() \r\n", __FUNCTION__);
break;
}
//DEBUG(DEBUG_THIS, "COPY : %u to BUFFER \r\n", val);
//transfer the 32bit uint to the char page buffer
page_buffer[0] = (char)(val & 0x000000FF);
page_buffer[1] = (char)((val & 0x0000FF00) >> 8);
page_buffer[2] = (char)((val & 0x00FF0000) >> 16);
page_buffer[3] = (char)((val & 0xFF000000) >> 24);
//transfer the page buffer to the flash memory
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "Flash - Write 2");debug_exe();
error = flash.program(page_buffer, addr, page_size);
if(error != 0)
{
//DEBUG(DEBUG_THIS, "ERROR: flash program %d \r\n", error);
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "ERROR: flash program %d",error);debug_exe();
return false;
}
//for debug check read back the value...
//doesn't need error checking, not essential.
memset(value, 0x00, 4);
flash.read(value, addr, 4);
//DEBUG(DEBUG_THIS, "READ FROM ADDR: 0x%08x \t VALUE: %u \r\n", addr, value[0]);
addr += page_size;
}
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "Flash - Deinit");debug_exe();
error = flash.deinit();
if(error != 0)
{
//DEBUG(DEBUG_THIS, "ERROR: flash deinit %d \r\n", error);
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "ERROR: flash deinit %d",error);debug_exe();
return false;
}
//DEBUG(DEBUG_THIS, "DONE \r\n");
debug_prep();snprintf(GLOBAL_debug_buffer, sizeof(GLOBAL_debug_buffer), "Flash - Done");debug_exe();
return pass;
}
//------------------------------------------------------------------------------
extern bool read_app_data_from_flash(app_data_t *ptr)
//read the app data from the memory location defined by APPDATA_START
//and restore to APP_DATA
{
bool pass = false;
int8_t error = 0;
error = flash.init();
if(error != 0)
{
//DEBUG(DEBUG_THIS, "ERROR: flash init %d \r\n", error);
return false;
}
const uint32_t page_size = flash.get_page_size();
uint32_t addr = APPDATA_START;
uint32_t value[1] = {0};
uint8_t setting = 1;
//DEBUG(DEBUG_THIS, "\r\nLOAD VALUES TO RAM FROM FLASH... \r\n");
for(setting=1; setting<=N_SETTINGS; setting++)
{
error = flash.read(value, addr, 4);
if(error != 0)
{
//DEBUG(DEBUG_THIS, "ERROR: flash read %d \r\n", error);
return false;
}
switch(setting)
{
case 1: ptr->current_firmware_version = value[0]; break;
case 2: ptr->target_firmware_version = value[0]; break;
case 3: ptr->app_execution_fail_counter = value[0]; break;
case 4: ptr->blinky_state = value[0]; break;
case 5: ptr->sleep_counter = value[0]; break;
case 6: ptr->sleep_duration = value[0]; break;
case 7: ptr->update_duration = value[0]; break;
case 8: ptr->reset_counter = value[0]; break;
case 9: ptr->wd_counter = value[0]; break;
case 10: ptr->status_flags = value[0]; break;
default:
//DEBUG(DEBUG_THIS, "Undefined state in function: %s() \r\n", __FUNCTION__);
break;
}
//DEBUG(DEBUG_THIS, "READ FROM ADDR: 0x%08x \t VALUE: %u \r\n", addr, value[0]);
addr += page_size;
}
error = flash.deinit();
if(error != 0)
{
//DEBUG(DEBUG_THIS, "ERROR: flash deinit %d \r\n", error);
return false;
}
//DEBUG(DEBUG_THIS, "DONE \r\n");
return pass;
}
//------------------------------------------------------------------------------
extern void clear_app_data(app_data_t *ptr)
//reset the app data values
{
ptr->current_firmware_version = 0;
ptr->target_firmware_version = 0;
ptr->app_execution_fail_counter = 0;
ptr->blinky_state = 0;
ptr->sleep_counter = 0;
ptr->sleep_duration = 0;
ptr->update_duration = 0;
ptr->reset_counter = 0;
ptr->wd_counter = 0;
ptr->status_flags = 0;
return;
}
//------------------------------------------------------------------------------
extern void set_app_data(app_data_t *ptr)
//test function - load some initial values for testing
{
ptr->current_firmware_version = 0xFFFF0000;
ptr->target_firmware_version = 0x0000FFFF;
ptr->app_execution_fail_counter = 0x00FFFF00;
//set flags in one go...
ptr->status_flags = 0xAAAAAAAA; //flag - load from bank 2 to bank 1.
//...or one at a time
set_flag(ptr, rollback_flag);
clr_flag(ptr, app_execution_flag);
tgl_flag(ptr, registered_flag);
set_flag(ptr, first_run_flag);
return;
}
//------------------------------------------------------------------------------