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pigweed / third_party / github / project-chip / connectedhomeip / 511c9743ebda168fc4e056b9f587b0c7ad8072e2 / . / src / platform / nxp / common / NXPConfig.cpp
blob: cc6f8d51ec125607359dadde8b7eb64b372c0149 [file] [log] [blame]
/*
*
* Copyright (c) 2020-2022 Project CHIP Authors
* Copyright 2023 NXP
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @file
* Utilities for accessing persisted device configuration on
* platforms based on the NXP SDK.
*/
/* this file behaves like a config.h, comes first */
#include <platform/internal/CHIPDeviceLayerInternal.h>
#include "NXPConfig.h"
#include "FreeRTOS.h"
#include "FunctionLib.h"
#include "board.h"
#include <lib/core/CHIPEncoding.h>
#include <platform/internal/testing/ConfigUnitTest.h>
/* FS Writes in Idle task only - LittleFS only , already enabled by default on NVM */
#ifndef CHIP_PLAT_SAVE_NVM_DATA_ON_IDLE
#define CHIP_PLAT_SAVE_NVM_DATA_ON_IDLE 1
#endif
#define BUFFER_LOG_SIZE 256
/*
* If the developer has specified a size for integer keys RAM buffer
* partition, use it. Othewise use the default.
*/
#ifndef CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT
#define CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT (4 * 2048)
#endif
/*
* If the developer has specified a size for string keys RAM buffer
* partition, use it. Othewise use the default.
*/
#ifndef CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING
#define CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING (4 * 5000)
#endif
#ifndef NVM_ID_CHIP_CONFIG_DATA_KEY_INT
#define NVM_ID_CHIP_CONFIG_DATA_KEY_INT 0xf104
#endif
#ifndef NVM_ID_CHIP_CONFIG_DATA_KEY_STRING
#define NVM_ID_CHIP_CONFIG_DATA_KEY_STRING 0xf105
#endif
#if defined(DEBUG_NVM) && (DEBUG_NVM == 2)
#include "fsl_debug_console.h"
#define DBG_PRINTF PRINTF
#define INFO_PRINTF PRINTF
#elif defined(DEBUG_NVM) && (DEBUG_NVM == 1)
#include "fsl_debug_console.h"
#define DBG_PRINTF PRINTF
#define INFO_PRINTF(...)
#else
#define DBG_PRINTF(...)
#define INFO_PRINTF(...)
#endif
#define FREERTOS_TIMER_TICKS_2_MS(ticks) (((uint64_t) ticks) * portTICK_PERIOD_MS)
typedef struct
{
uint16_t chipConfigRamBufferLen;
uint16_t padding;
uint8_t chipConfigRamBuffer[CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT];
} ChipConfigRamStructKeyInt;
typedef struct
{
uint16_t chipConfigRamBufferLen;
uint16_t padding;
uint8_t chipConfigRamBuffer[CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING];
} ChipConfigRamStructKeyString;
/* File system containing only integer keys */
static ChipConfigRamStructKeyInt chipConfigRamStructKeyInt;
static ramBufferDescriptor ramDescrKeyInt = {
.ramBufferLen = &chipConfigRamStructKeyInt.chipConfigRamBufferLen,
.ramBufferMaxLen = CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT,
.pRamBuffer = &chipConfigRamStructKeyInt.chipConfigRamBuffer[0],
};
/* File system containing only string keys */
static ChipConfigRamStructKeyString chipConfigRamStructKeyString;
static ramBufferDescriptor ramDescrKeyString = {
.ramBufferLen = &chipConfigRamStructKeyString.chipConfigRamBufferLen,
.ramBufferMaxLen = CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING,
.pRamBuffer = &chipConfigRamStructKeyString.chipConfigRamBuffer[0],
};
static bool isInitialized = false;
#if (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_NVM_FWK)
NVM_RegisterDataSet((void *) &chipConfigRamStructKeyInt, 1, sizeof(chipConfigRamStructKeyInt), NVM_ID_CHIP_CONFIG_DATA_KEY_INT,
gNVM_MirroredInRam_c);
NVM_RegisterDataSet((void *) &chipConfigRamStructKeyString, 1, sizeof(chipConfigRamStructKeyString),
NVM_ID_CHIP_CONFIG_DATA_KEY_STRING, gNVM_MirroredInRam_c);
#elif (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_LITTLEFS)
const char * mt_key_int_file_name = "mt_key_int";
const char * mt_key_str_file_name = "mt_key_str";
#if CHIP_PLAT_SAVE_NVM_DATA_ON_IDLE
static bool mt_key_int_save_in_flash = false;
static bool mt_key_str_save_in_flash = false;
#endif
#endif
namespace chip {
namespace DeviceLayer {
namespace Internal {
int NXPConfig::SaveIntKeysToFS(void)
{
int err_len;
#if (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_NVM_FWK)
err_len = -1;
NvSaveOnIdle(&chipConfigRamStructKeyInt, false);
#elif (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_LITTLEFS)
err_len = -2;
#if CHIP_PLAT_SAVE_NVM_DATA_ON_IDLE
mt_key_int_save_in_flash = true;
#else
/* Save it in flash now */
err_len = ramStorageSavetoFlash(mt_key_int_file_name, &chipConfigRamStructKeyInt.chipConfigRamBuffer[0],
chipConfigRamStructKeyInt.chipConfigRamBufferLen);
assert(err_len <= CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT);
assert(err_len >= 0);
#endif
#else
err_len = -3;
#endif
return err_len;
}
int NXPConfig::SaveStringKeysToFS(void)
{
int err_len;
#if (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_NVM_FWK)
err_len = -1;
NvSaveOnIdle(&chipConfigRamStructKeyString, false);
#elif (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_LITTLEFS)
err_len = -2;
#if CHIP_PLAT_SAVE_NVM_DATA_ON_IDLE
mt_key_str_save_in_flash = true;
#else
/* Save it in flash now */
err_len = ramStorageSavetoFlash(mt_key_str_file_name, &chipConfigRamStructKeyString.chipConfigRamBuffer[0],
chipConfigRamStructKeyString.chipConfigRamBufferLen);
assert(err_len <= CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING);
assert(err_len >= 0);
#endif
#else
err_len = -3;
#endif
return err_len;
}
CHIP_ERROR NXPConfig::Init()
{
if (!isInitialized)
{
ramStorageInit();
#if (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_NVM_FWK)
/* Init the NVM module */
NvModuleInit();
#elif (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_LITTLEFS)
int err_len;
/* Init the NVM module */
err_len = FS_Init();
assert(err_len >= 0);
#endif
FLib_MemSet((void *) &chipConfigRamStructKeyInt, 0, sizeof(chipConfigRamStructKeyInt));
FLib_MemSet((void *) &chipConfigRamStructKeyString, 0, sizeof(chipConfigRamStructKeyString));
#if (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_NVM_FWK)
/* Try to load the ot dataset in RAM */
NvRestoreDataSet((void *) &chipConfigRamStructKeyInt, 0);
NvRestoreDataSet((void *) &chipConfigRamStructKeyString, 0);
#elif (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_LITTLEFS)
/* Try to load the ot dataset in RAM */
err_len = ramStorageReadFromFlash(mt_key_int_file_name, &chipConfigRamStructKeyInt.chipConfigRamBuffer[0],
CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT);
assert(err_len <= CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT);
assert(err_len >= 0);
chipConfigRamStructKeyInt.chipConfigRamBufferLen = (uint16_t) err_len;
err_len = ramStorageReadFromFlash(mt_key_str_file_name, &chipConfigRamStructKeyString.chipConfigRamBuffer[0],
CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING);
assert(err_len <= CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING);
assert(err_len >= 0);
chipConfigRamStructKeyString.chipConfigRamBufferLen = (uint16_t) err_len;
#endif
isInitialized = true;
}
DBG_PRINTF("mt read %d / %d\r\n", chipConfigRamStructKeyInt.chipConfigRamBufferLen,
chipConfigRamStructKeyString.chipConfigRamBufferLen);
return CHIP_NO_ERROR;
}
CHIP_ERROR NXPConfig::ReadConfigValue(Key key, bool & val)
{
CHIP_ERROR err;
bool tempVal;
rsError status;
uint16_t sizeToRead = sizeof(tempVal);
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageGet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), 0, (uint8_t *) &tempVal, &sizeToRead);
SuccessOrExit(err = MapRamStorageStatus(status));
val = tempVal;
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "ReadConfigValue bool = %u", val);
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::ReadConfigValue(Key key, uint32_t & val)
{
CHIP_ERROR err;
uint32_t tempVal;
rsError status;
uint16_t sizeToRead = sizeof(tempVal);
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageGet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), 0, (uint8_t *) &tempVal, &sizeToRead);
SuccessOrExit(err = MapRamStorageStatus(status));
val = tempVal;
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "ReadConfigValue uint32_t = %lu", val);
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::ReadConfigValue(Key key, uint64_t & val)
{
CHIP_ERROR err;
uint32_t tempVal;
rsError status;
uint16_t sizeToRead = sizeof(tempVal);
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageGet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), 0, (uint8_t *) &tempVal, &sizeToRead);
SuccessOrExit(err = MapRamStorageStatus(status));
val = tempVal;
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "ReadConfigValue uint64_t = " ChipLogFormatX64, ChipLogValueX64(val));
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::ReadConfigValueStr(Key key, char * buf, size_t bufSize, size_t & outLen)
{
CHIP_ERROR err;
rsError status;
uint16_t sizeToRead = bufSize;
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageGet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), 0, (uint8_t *) buf, &sizeToRead);
SuccessOrExit(err = MapRamStorageStatus(status));
outLen = sizeToRead;
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "ReadConfigValueStr lenRead = %u", outLen);
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::ReadConfigValueBin(Key key, uint8_t * buf, size_t bufSize, size_t & outLen)
{
return ReadConfigValueStr(key, (char *) buf, bufSize, outLen);
}
CHIP_ERROR NXPConfig::ReadConfigValueBin(const char * keyString, uint8_t * buf, size_t bufSize, size_t & outLen)
{
CHIP_ERROR err;
rsError status;
uint16_t sizeToRead = bufSize;
VerifyOrExit(keyString != NULL, err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageGet(&ramDescrKeyString, (const uint8_t *) keyString, strlen(keyString), 0, (uint8_t *) buf, &sizeToRead);
SuccessOrExit(err = MapRamStorageStatus(status));
outLen = sizeToRead;
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "ReadConfigValueStr lenRead = %u", outLen);
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::ReadConfigValueCounter(uint8_t counterIdx, uint32_t & val)
{
Key key = kMinConfigKey_ChipCounter + counterIdx;
return ReadConfigValue(key, val);
}
CHIP_ERROR NXPConfig::WriteConfigValue(Key key, bool val)
{
CHIP_ERROR err;
rsError status;
int err_len;
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageSet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), (uint8_t *) &val, sizeof(bool));
SuccessOrExit(err = MapRamStorageStatus(status));
err_len = SaveIntKeysToFS();
(void) err_len;
DBG_PRINTF("WriteConfigValue: MT write %d\r\n", err_len);
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "WriteConfigValue done");
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::WriteConfigValue(Key key, uint32_t val)
{
CHIP_ERROR err;
rsError status;
int err_len;
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageSet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), (uint8_t *) &val, sizeof(uint32_t));
SuccessOrExit(err = MapRamStorageStatus(status));
err_len = NXPConfig::SaveIntKeysToFS();
(void) err_len;
DBG_PRINTF("WriteConfigValue: MT write %d\r\n", err_len);
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "WriteConfigValue done");
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::WriteConfigValue(Key key, uint64_t val)
{
CHIP_ERROR err;
rsError status;
int err_len;
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageSet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), (uint8_t *) &val, sizeof(uint64_t));
SuccessOrExit(err = MapRamStorageStatus(status));
err_len = NXPConfig::SaveIntKeysToFS();
(void) err_len;
DBG_PRINTF("WriteConfigValue64: MT write %d\r\n", err_len);
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "WriteConfigValue done");
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::WriteConfigValueStr(Key key, const char * str)
{
return WriteConfigValueStr(key, str, (str != NULL) ? strlen(str) : 0);
}
CHIP_ERROR NXPConfig::WriteConfigValueStr(Key key, const char * str, size_t strLen)
{
CHIP_ERROR err;
rsError status;
int err_len;
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageSet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), (uint8_t *) str, strLen);
SuccessOrExit(err = MapRamStorageStatus(status));
err_len = NXPConfig::SaveIntKeysToFS();
(void) err_len;
DBG_PRINTF("WriteConfigValueStr: MT write %d\r\n", err_len);
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "WriteConfigValue done");
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::WriteConfigValueBin(Key key, const uint8_t * data, size_t dataLen)
{
return WriteConfigValueStr(key, (char *) data, dataLen);
}
CHIP_ERROR NXPConfig::WriteConfigValueBin(const char * keyString, const uint8_t * data, size_t dataLen)
{
CHIP_ERROR err;
rsError status;
int err_len;
VerifyOrExit(keyString != NULL, err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageSet(&ramDescrKeyString, (const uint8_t *) keyString, strlen(keyString), (uint8_t *) data, dataLen);
SuccessOrExit(err = MapRamStorageStatus(status));
err_len = NXPConfig::SaveStringKeysToFS();
(void) err_len;
DBG_PRINTF("WriteConfigValueBin: MT write %d\r\n", err_len);
#if (DEBUG_NVM > 0)
ChipLogProgress(DeviceLayer, "WriteConfigValue done");
#endif
exit:
return err;
}
CHIP_ERROR NXPConfig::WriteConfigValueCounter(uint8_t counterIdx, uint32_t val)
{
Key key = kMinConfigKey_ChipCounter + counterIdx;
return WriteConfigValue(key, val);
}
CHIP_ERROR NXPConfig::ClearConfigValue(Key key)
{
CHIP_ERROR err = CHIP_NO_ERROR;
rsError status;
int err_len;
VerifyOrExit(ValidConfigKey(key), err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageDelete(&ramDescrKeyInt, (uint8_t *) &key, sizeof(key), 0);
SuccessOrExit(err = MapRamStorageStatus(status));
err_len = NXPConfig::SaveIntKeysToFS();
(void) err_len;
DBG_PRINTF("ClearConfigValue: MT write %d\r\n", err_len);
exit:
return err;
}
CHIP_ERROR NXPConfig::ClearConfigValue(const char * keyString)
{
CHIP_ERROR err = CHIP_NO_ERROR;
rsError status;
int err_len;
VerifyOrExit(keyString != NULL, err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND); // Verify key id.
status = ramStorageDelete(&ramDescrKeyString, (const uint8_t *) keyString, strlen(keyString), 0);
SuccessOrExit(err = MapRamStorageStatus(status));
err_len = NXPConfig::SaveStringKeysToFS();
(void) err_len;
DBG_PRINTF("WriteConfigValueBin: MT write %d\r\n", err_len);
exit:
return err;
}
bool NXPConfig::ConfigValueExists(Key key)
{
rsError status;
uint16_t sizeToRead;
bool found = false;
if (ValidConfigKey(key))
{
status = ramStorageGet(&ramDescrKeyInt, (uint8_t *) &key, sizeof(Key), 0, NULL, &sizeToRead);
found = (status == RS_ERROR_NONE && sizeToRead != 0);
}
return found;
}
CHIP_ERROR NXPConfig::FactoryResetConfig(void)
{
for (Key key = kMinConfigKey_ChipConfig; key <= kMaxConfigKey_ChipConfig; key++)
{
ClearConfigValue(key);
}
// Clear RebootCount, TotalOperationalHours, UpTime counters during factory reset
for (Key key = kMinConfigKey_ChipCounter; key <= (kMinConfigKey_ChipCounter + 3); key++)
{
ClearConfigValue(key);
}
/* Reset the key string file system as it contains on data that needs to be erased when doing a factoryreset */
FLib_MemSet((void *) &chipConfigRamStructKeyString, 0, sizeof(chipConfigRamStructKeyString));
#if (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_NVM_FWK)
/*
* Save to flash now. System is restarting and there is no more time to
* wait for the idle task to save the data.
*/
NvSyncSave(&chipConfigRamStructKeyString, false);
NvSyncSave(&chipConfigRamStructKeyInt, false);
#else
SaveStringKeysToFS();
SaveIntKeysToFS();
#endif
DBG_PRINTF("FactoryResetConfig done\r\n");
return CHIP_NO_ERROR;
}
bool NXPConfig::ValidConfigKey(Key key)
{
// Returns true if the key is in the valid CHIP Config PDM key range.
if ((key >= kMinConfigKey_ChipFactory) && (key <= kMaxConfigKey_KVS))
{
return true;
}
return false;
}
CHIP_ERROR NXPConfig::MapRamStorageStatus(rsError rsStatus)
{
CHIP_ERROR err;
switch (rsStatus)
{
case RS_ERROR_NONE:
err = CHIP_NO_ERROR;
break;
case RS_ERROR_NOT_FOUND:
err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND;
break;
case RS_ERROR_WRONG_ARG:
err = CHIP_DEVICE_ERROR_CONFIG_NOT_FOUND;
assert(0);
break;
default:
err = CHIP_ERROR_BUFFER_TOO_SMALL;
break;
}
return err;
}
void NXPConfig::RunConfigUnitTest(void) {}
void NXPConfig::RunSystemIdleTask(void)
{
if (isInitialized)
{
#if (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_NVM_FWK)
NvIdle();
#elif (CHIP_PLAT_NVM_SUPPORT == CHIP_PLAT_LITTLEFS)
#if CHIP_PLAT_SAVE_NVM_DATA_ON_IDLE
if (mt_key_int_save_in_flash)
{
int err_len;
/* Clear the flag first, so there could be an other write
if the buffer is updated when the write in flash has not completed fully */
mt_key_int_save_in_flash = false;
/* Save it in flash now */
err_len = ramStorageSavetoFlash(mt_key_int_file_name, &chipConfigRamStructKeyInt.chipConfigRamBuffer[0],
chipConfigRamStructKeyInt.chipConfigRamBufferLen);
assert(err_len <= CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT);
assert(err_len >= 0);
INFO_PRINTF("int mt write %d bytes / %d \r\n", err_len, chipConfigRamStructKeyInt.chipConfigRamBufferLen);
#if 0
int len = ramStorageReadFromFlash(mt_key_int_file_name,
&chipConfigRamStructKeyInt.chipConfigRamBuffer[0],
CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_INT);
INFO_PRINTF("mt read after write %d\r\n", len);
#endif
}
if (mt_key_str_save_in_flash)
{
int err_len;
/* Clear the flag first, so there could be an other write
if the buffer is updated when the write in flash has not completed fully */
mt_key_str_save_in_flash = false;
/* Save it in flash now */
err_len = ramStorageSavetoFlash(mt_key_str_file_name, &chipConfigRamStructKeyString.chipConfigRamBuffer[0],
chipConfigRamStructKeyString.chipConfigRamBufferLen);
assert(err_len <= CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING);
assert(err_len >= 0);
INFO_PRINTF("str mt write %d bytes / %d \r\n", err_len, chipConfigRamStructKeyString.chipConfigRamBufferLen);
#if 0
int len = ramStorageReadFromFlash(mt_key_str_file_name,
&chipConfigRamStructKeyString.chipConfigRamBuffer[0],
CONFIG_CHIP_NVM_RAMBUFFER_SIZE_KEY_STRING);
INFO_PRINTF("mt read after write %d\r\n", len);
#endif
}
#endif
#endif
}
#if (defined(LOG_ENABLE) && (LOG_ENABLE > 0)) && ((defined LOG_ENABLE_ASYNC_MODE) && (LOG_ENABLE_ASYNC_MODE))
LOG_Dump(bufferLog, sizeof(bufferLog), NULL);
#endif
}
} // namespace Internal
} // namespace DeviceLayer
} // namespace chip