This guide describes the required changes to existing projects migrating from the original bluedroid API to NimBLE.
The changes listed here are only the required changes that must be made, and a short overview of options for migrating existing applications.
For more information on the improvements and additions please refer to the class documentation and Improvements and updates
All classes are accessible by including NimBLEDevice.h
in your application, no further headers need to be included.
(Mainly for Arduino) You may choose to include NimBLELog.h
in your appplication if you want to use the NIMBLE_LOGx
macros for debugging.
These macros are used the same way as the ESP_LOGx
macros.
Class names remain the same as the original with the addition of a "Nim" prefix.
For example BLEDevice
is now NimBLEDevice
and BLEServer
is now NimBLEServer
etc.
For convienience definitions have been added to allow applications to use either name for all classes
this means no class names need to be changed in existing code and makes migrating easier.
BLEAddress
(NimBLEAddress
) When constructing an address the constructor now takes an (optional) uint8_t type
paramameter
to specify the address type. Default is (0) Public static address.
For example BLEAddress addr(11:22:33:44:55:66, 1)
will create the address object with an address type of: 1 (Random).
As this paramameter is optional no changes to existing code are needed, it is mentioned here for information.
BLEAddress::getNative
(NimBLEAddress::getNative
) returns a uint8_t pointer to the native address byte array.
In this library the address bytes are stored in reverse order from the original library. This is due to the way
the NimBLE stack expects addresses to be presented to it. All other functions such as toString
are
not affected as the endian change is made within them.
Creating a BLEServer
instance is the same as original, no changes required.
For example BLEDevice::createServer()
will work just as it did before.
BLEServerCallbacks
(NimBLEServerCallbacks
) has new methods for handling security operations.
Note: All callback methods have default implementations which allows the application to implement only the methods applicable.
Creating a BLEService
(NimBLEService
) instance is the same as original, no changes required.
For example BLEServer::createService(SERVICE_UUID)
will work just as it did before.
The constructor for (Nim)BLECharacteristic
is now private, so if you currently subclass it to add logic you should switch to use NimBLEService::createCharacteristic
instead. Any custom processing logic previously in a BLECharacteristic
subclass should be moved to a NimBLECharacteristicCallbacks
subclass instead, and passed into NimBLECharacteristic::setCallbacks
.
BLEService::createCharacteristic
(NimBLEService::createCharacteristic
) is used the same way as originally except the properties parameter has changed.
When creating a characteristic the properties are now set with NIMBLE_PROPERTY::XXXX
instead of BLECharacteristic::XXXX
.
BLECharacteristic::PROPERTY_READ |
BLECharacteristic::PROPERTY_WRITE
NIMBLE_PROPERTY::READ |
NIMBLE_PROPERTY::WRITE
NIMBLE_PROPERTY::READ
NIMBLE_PROPERTY::READ_ENC
NIMBLE_PROPERTY::READ_AUTHEN
NIMBLE_PROPERTY::READ_AUTHOR
NIMBLE_PROPERTY::WRITE
NIMBLE_PROPERTY::WRITE_NR
NIMBLE_PROPERTY::WRITE_ENC
NIMBLE_PROPERTY::WRITE_AUTHEN
NIMBLE_PROPERTY::WRITE_AUTHOR
NIMBLE_PROPERTY::BROADCAST
NIMBLE_PROPERTY::NOTIFY
NIMBLE_PROPERTY::INDICATE
Example:
BLECharacteristic *pCharacteristic = pService->createCharacteristic(
CHARACTERISTIC_UUID,
BLECharacteristic::PROPERTY_READ |
BLECharacteristic::PROPERTY_WRITE
);
Needs to be changed to:
BLECharacteristic *pCharacteristic = pService->createCharacteristic(
CHARACTERISTIC_UUID,
NIMBLE_PROPERTY::READ |
NIMBLE_PROPERTY::WRITE
);
BLECharacteristicCallbacks
(NimBLECharacteristicCallbacks
) has a new method NimBLECharacteristicCallbacks::onSubscribe
which is called when a client subscribes to notifications/indications.
Note: All callback methods have default implementations which allows the application to implement only the methods applicable.
BLECharacteristic::getData
Has been removed from the API.
Originally this returned a uint8_t*
to the internal data, which is volatile.
To prevent possibly throwing exceptions this has been removed and NimBLECharacteristic::getValue
should be used
to get a copy of the data first which can then safely be accessed via pointer.
Example:
std::string value = pCharacteristic->getValue();
uint8_t *pData = (uint8_t*)value.data();
Alternatively use the getValue
template:
my_struct_t myStruct = pChr->getValue<my_struct_t>();
The previous method BLECharacteristic::addDescriptor()
has been removed.
Descriptors are now created using the NimBLECharacteristic::createDescriptor
method.
BLE2902 or NimBLE2902 class has been removed.
NimBLE automatically creates the 0x2902 descriptor if a characteristic has a notification or indication property assigned to it.
It was no longer useful to have a class for the 0x2902 descriptor as a new callback NimBLECharacteristicCallbacks::onSubscribe
was added
to handle callback functionality and the client subscription status is handled internally.
Note: Attempting to create a 0x2902 descriptor will trigger an assert to notify the error, allowing the creation of it would cause a fault in the NimBLE stack.
All other descriptors are now created just as characteristics are by using the NimBLECharacteristic::createDescriptor
method (except 0x2904, see below).
Which are defined as:
NimBLEDescriptor* createDescriptor(const char* uuid,
uint32_t properties =
NIMBLE_PROPERTY::READ |
NIMBLE_PROPERTY::WRITE,
uint16_t max_len = 100);
NimBLEDescriptor* createDescriptor(NimBLEUUID uuid,
uint32_t properties =
NIMBLE_PROPERTY::READ |
NIMBLE_PROPERTY::WRITE,
uint16_t max_len = 100);
pDescriptor = pCharacteristic->createDescriptor("ABCD",
NIMBLE_PROPERTY::READ |
NIMBLE_PROPERTY::WRITE |
NIMBLE_PROPERTY::WRITE_ENC,
25);
Would create a descriptor with the UUID 0xABCD, publicly readable but only writable if paired/bonded (encrypted) and has a max value length of 25 bytes.
For the 0x2904, there is a special class that is created when you call `createDescriptor("2904").
The pointer returned is of the base class NimBLEDescriptor
but the call will create the derived class of NimBLE2904
so you must cast the returned pointer to
NimBLE2904
to access the specific class methods.
p2904 = (NimBLE2904*)pCharacteristic->createDescriptor("2904");
Security is set on the characteristic or descriptor properties by applying one of the following:
NIMBLE_PROPERTY::READ_ENC
NIMBLE_PROPERTY::READ_AUTHEN
NIMBLE_PROPERTY::READ_AUTHOR
NIMBLE_PROPERTY::WRITE_ENC
NIMBLE_PROPERTY::WRITE_AUTHEN
NIMBLE_PROPERTY::WRITE_AUTHOR
When a peer wants to read or write a characteristic or descriptor with any of these properties applied
it will trigger the pairing process. By default the "just-works" pairing will be performed automatically.
This can be changed to use passkey authentication or numeric comparison. See Security API for details.
Advertising works the same as the original API except:
BLEAdvertising::setMinPreferred
BLEAdvertising::setMaxPreferred
These methods were found to not provide useful functionality and consumed valuable advertising space (6 bytes of 31) if used unknowingly.
If you wish to advertise these parameters you can still do so manually via BLEAdvertisementData::addData
(NimBLEAdvertisementData::addData
).
Calling NimBLEAdvertising::setAdvertisementData
will entirely replace any data set with NimBLEAdvertising::addServiceUUID
, or
NimBLEAdvertising::setAppearance
or similar methods. You should set all the data you wish to advertise within the NimBLEAdvertisementData
instead.
Calling NimBLEAdvertising::setScanResponseData
without also calling NimBLEAdvertising::setAdvertisementData
will have no effect.
When using custom scan response data you must also use custom advertisement data.
No longer true as of release 1.2.0 and above, custom scan response is now supported without custom advertisement data.
BLEAdvertising::start (NimBLEAdvertising::start)
Now takes 2 optional parameters, the first is the duration to advertise for (in seconds), the second is a callback
that is invoked when advertsing ends and takes a pointer to a NimBLEAdvertising
object (similar to the NimBLEScan::start
API).
This provides an opportunity to update the advertisment data if desired.
Client instances are created just as before with BLEDevice::createClient
(NimBLEDevice::createClient
).
Multiple client instances can be created, up to the maximum number of connections set in the config file (default: 3).
To delete a client instance you must use NimBLEDevice::deleteClient
.
BLEClient::connect
(NimBLEClient::connect
) Has had it's parameters altered.
Defined as:
NimBLEClient::connect(bool deleteServices = true);
NimBLEClient::connect(NimBLEAdvertisedDevice* device, bool deleteServices = true);
NimBLEClient::connect(NimBLEAddress address, bool deleteServices = true);
The type parameter has been removed and a new bool parameter has been added to indicate if the client should
delete the attribute database previously retrieved (if applicable) for the peripheral, default value is true.
If set to false the client will use the attribute database it retrieved from the peripheral when previously connected.
This allows for faster connections and power saving if the devices dropped connection and are reconnecting.
BLEClient::getServices
(NimBLEClient::getServices
)
This method now takes an optional (bool) parameter to indicate if the services should be retrieved from the server (true) or
the currently known database returned (false : default).
Also now returns a pointer to std::vector
instead of std::map
.
Removed: the automatic discovery of all peripheral attributes as they consumed time and resources for data
the user may not be interested in.
Added: NimBLEClient::discoverAttributes
for the user to discover all the peripheral attributes
to replace the the removed automatic functionality.
BLERemoteService
(NimBLERemoteService
) Methods remain mostly unchanged with the exceptions of:
BLERemoteService::getCharacteristicsByHandle
This method has been removed.
BLERemoteService::getCharacteristics
(NimBLERemoteService::getCharacteristics
)
This method now takes an optional (bool) parameter to indicate if the characteristics should be retrieved from the server (true) or
the currently known database returned (false : default).
Also now returns a pointer to std::vector
instead of std::map
.
BLERemoteCharacteristic
(NimBLERemoteCharacteristic
) There have been a few changes to the methods in this class:
BLERemoteCharacteristic::writeValue
(NimBLERemoteCharacteristic::writeValue
)
BLERemoteCharacteristic::registerForNotify
(NimBLERemoteCharacteristic::registerForNotify
)
Now return true or false to indicate success or failure so you can choose to disconnect or try again.
BLERemoteCharacteristic::registerForNotify
(NimBLERemoteCharacteristic::registerForNotify
)
Is now deprecated.
NimBLERemoteCharacteristic::subscribe
NimBLERemoteCharacteristic::unsubscribe
Are the new methods added to replace it.
BLERemoteCharacteristic::readUInt8
(NimBLERemoteCharacteristic::readUInt8
)
BLERemoteCharacteristic::readUInt16
(NimBLERemoteCharacteristic::readUInt16
)
BLERemoteCharacteristic::readUInt32
(NimBLERemoteCharacteristic::readUInt32
)
BLERemoteCharacteristic::readFloat
(NimBLERemoteCharacteristic::readFloat
)
Are deprecated a template: NimBLERemoteCharacteristic::readValue<type>(time_t*, bool) has been added to replace them.
BLERemoteCharacteristic::readRawData
Has been removed from the API
Originally it stored an unnecessary copy of the data and was returning a uint8_t
pointer to volatile internal data.
The user application should use NimBLERemoteCharacteristic::readValue
or NimBLERemoteCharacteristic::getValue
.
To obatain a copy of the data, then cast the returned std::string to the type required such as:
std::string value = pChr->readValue();
uint8_t *data = (uint8_t*)value.data();
Alternatively use the readValue
template:
my_struct_t myStruct = pChr->readValue<my_struct_t>();
BLERemoteCharacteristic::getDescriptors
(NimBLERemoteCharacteristic::getDescriptors
)
This method now takes an optional (bool) parameter to indicate if the descriptors should be retrieved from the server (true) or
the currently known database returned (false : default).
Also now returns a pointer to std::vector
instead of std::map
.
The client will automatically initiate security when the peripheral responds that it's required.
The default configuration will use "just-works" pairing with no bonding, if you wish to enable bonding see below.
Security operations have been moved to BLEDevice
(NimBLEDevice
).
Also security callback methods are now incorporated in the NimBLEServerCallbacks
/ NimBLEClientCallbacks
classes.
However backward compatibility with the original BLESecurity
(NimBLESecurity
) class is retained to minimize application code changes.
The callback methods are:
bool onConfirmPIN(uint32_t pin)
Receives the pin when using numeric comparison authentication, return true;
to accept.
uint32_t onPassKeyRequest()
For server callback; return the passkey expected from the client.
For client callback; return the passkey to send to the server.
void onAuthenticationComplete(ble_gap_conn_desc\* desc)
Authentication complete, success or failed information is in desc
.
Security settings and IO capabilities are now set by the following methods of NimBLEDevice.
NimBLEDevice::setSecurityAuth(bool bonding, bool mitm, bool sc)
NimBLEDevice::setSecurityAuth(uint8_t auth_req)
Sets the authorization mode for this device.
NimBLEDevice::setSecurityIOCap(uint8_t iocap)
Sets the Input/Output capabilities of this device.
NimBLEDevice::setSecurityInitKey(uint8_t init_key)
If we are the initiator of the security procedure this sets the keys we will distribute.
NimBLEDevice::setSecurityRespKey(uint8_t resp_key)
Sets the keys we are willing to accept from the peer during pairing.
Unlike the original library pre-packaged in the esp32-arduino, this library has all the configuration
options that are normally set in menuconfig available in the src/nimconfig.h file.
This allows Arduino users to fully customize the build, such as increasing max connections
or loading the BLE stack into external PSRAM.
For details on the options, they are fully commented in nimconfig.h