The BluFi for {IDF_TARGET_NAME} is a Wi-Fi network configuration function via Bluetooth channel. It provides a secure protocol to pass Wi-Fi configuration and credentials to the {IDF_TARGET_NAME}. Using this information {IDF_TARGET_NAME} can then e.g. connect to an AP or establish a SoftAP.
You can customize symmetric encryption, asymmetric encryption and checksum support customization. Here we use the DH algorithm for key negotiation, 128-AES algorithm for data encryption, and CRC16 algorithm for checksum verification.
The following uses Station as an example to illustrate the core parts of the procedure, including broadcast, connection, service discovery, negotiation of the shared key, data transmission, connection status backhaul.
1. Set the {IDF_TARGET_NAME} into GATT Server mode and then it will send broadcasts with specific *advertising data*. You can customize this broadcast as needed, which is not a part of the BluFi Profile.
2. Use the App installed on the mobile phone to search for this particular broadcast. The mobile phone will connect to {IDF_TARGET_NAME} as the GATT Client once the broadcast is confirmed. The App used during this part is up to you.
3. After the GATT connection is successfully established, the mobile phone will send a data frame for key negotiation to {IDF_TARGET_NAME} (see the section :ref:`frame_formats` for details).
7. When receiving this control frame, {IDF_TARGET_NAME} will be able to encrypt and decrypt the communication data using the shared key and the security configuration.
8. The mobile phone sends the data frame defined in the section of :ref:`frame_formats`,with the Wi-Fi configuration information to {IDF_TARGET_NAME}, including SSID, password, etc.
9. The mobile phone sends a control frame of Wi-Fi connection request to {IDF_TARGET_NAME}. When receiving this control frame, {IDF_TARGET_NAME} will regard the communication of essential information as done and get ready to connect to the Wi-Fi.
10. After connecting to the Wi-Fi, {IDF_TARGET_NAME} will send a control frame of Wi-Fi connection status report to the mobile phone,to report the connection status. At this point the networking procedure is completed.
1. After {IDF_TARGET_NAME} receives the control frame of security-mode configuration, it will execute the operations in accordance with the defined security mode.
If the **Frame Ctrl** bit is enabled, the **Total length** bit indicates the length of remaining part of the frame. It can tell the remote how much memory needs to be alloced.
- The data field of the ACK frame uses the same sequence value of the frame to reply to.
- The data field consumes a byte and its value is the same as the sequence field of the frame to reply to.
* - 0x1 (b’000001)
- Set ESP device to the security mode.
- To inform ESP device of the security mode to use when sending data, which is allowed to be reset multiple times during the process. Each setting affects the subsequent security mode used.
If it is not set, ESP device will send the control frame and data frame with no checksum and encryption by default. The data transmission from the mobile phone to ESP device is controlled by this control frame.
- The data field consumes a byte. The higher 4 bits are for the security mode setting of the control frame, and the lower 4 bits are for the security mode setting of the data frame.
* b’0000: no checksum and no encryption;
* b’0001: with checksum but no encryption;
* b’0010: no checksum but with encryption;
* b’0011: with both checksum and encryption.
* - 0x2 (b’000010)
- Set the opmode of Wi-Fi.
- The frame contains opmode settings for configuring the Wi-Fi mode of ESP device.
- data[0] is for opmode settings, including:
* 0x00: NULL
* 0x01: STA
* 0x02: SoftAP
* 0x03: SoftAP & STA
Please set the SSID/Password/Max Connection Number of the AP mode in the first place if an AP gets involved.
* - 0x3 (b’000011)
- Connect ESP device to the AP.
- To notify ESP device that the essential information has been sent and it is allowed to connect to the AP.
- No data field is contained.
* - 0x4 (b’000100)
- Disconnect ESP device from the AP.
-
- No data field is contained.
* - 0x5 (b’000101)
- To get the information of ESP device’s Wi-Fi mode and it’s status.
-
- * No data field is contained. When receiving this control frame, ESP device will send back a follow-up frame of Wi-Fi connection state report to the mobile phone with the information of the current opmode, connection status, SSID and so on.
* The types of information sent to the mobile phone is defined by the application installed on the phone.
* - 0x6 (b’000110)
- Disconnect the STA device from the SoftAP (in SoftAP mode).
-
- Date[0~5] is taken as the MAC address for the STA device. If there is a second STA device, then it uses data[6-11] and the rest can be done in the same manner.
* - 0x7 (b’000111)
- Get the version information.
-
-
* - 0x8 (b’001000)
- Disconnect the BLE GATT link.
-
- ESP device will disconnect the BLE GATT link after receives this command.
* - 0x9 (b’001001)
- Get the Wi-Fi list.
- To get ESP device to scan the Wi-Fi access points around.
- No data field is contained. When receiving this control frame, ESP device will send back a follow-up frame of Wi-Fi list report to the mobile phone.
1.2 Data Frame (Binary: 0x1 b’01)
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* - Data Frame
- Implication
- Explanation
- Note
* - 0x0 (b’000000)
- Send the negotiation data.
- The negotiation data will be sent to the callback function registered in the application layer.
- The length of the data depends on the length field.
* - 0x1 (b’000001)
- Send the BSSID for STA mode.
- To send the BSSID of the AP for the STA device to connect under the condition that the SSID is hidden.
- Please refer to Note 1 below.
* - 0x2 (b’000010)
- Send the SSID for STA mode.
- To send the SSID of the AP for the STA device to connect.
- Please refer to Note 1 below.
* - 0x3 (b’000011)
- Send the password for STA mode.
- To send the password of the AP for the STA device to connect.
- Please refer to Note 1 below.
* - 0x4 (b’000100)
- Send the SSID for SoftAP mode.
-
- Please refer to Note 1 below.
* - 0x5 (b’000101)
- Send the password for SoftAPmode.
-
- Please refer to Note 1 below.
* - 0x6 (b’000110)
- Set the maximum connection number for SoftAP mode.
-
- data[0] represents the value of the connection number, ranging from 1 to 4. When the transmission direction is ESP device to the mobile phone, it means to provide the mobile phone with the needed information.
* - 0x7 (b’000111)
- Set the authentication mode for the SoftAP.
-
- data[0]:
* 0x00: OPEN
* 0x01: WEP
* 0x02: WPA_PSK
* 0x03: WPA2_PSK
* 0x04: WPA_WPA2_PSK
When the transmission direction is ESP device to the mobile phone, it means to provide the mobile phone with the needed information.
* - 0x8 (b’001000)
- Set the number of channels for SoftAP mode.
-
- data[0] represents the quantity of the supported channels, ranging from 1 to 14. When the transmission direction is ESP device to the mobile phone, it means to provide the mobile phone with the needed information.
* - 0x9 (b’001001)
- Username
- It provides the username of the GATT client when using encryption of enterprise level.
- The length of the data depends on the length field.
* - 0xa (b’001010)
- CA Certification
- It provides the CA Certification when using encryption of enterprise level.
- Please refer to Note 2 below.
* - 0xb (b’001011)
- Client Certification
- It provides the client certification when using encryption of enterprise level. Whether the private key is contained or not depends on the content of the certification.
- Please refer to Note 2 below.
* - 0xc (b’001100)
- Server Certification
- It provides the sever certification when using encryption of enterprise level. Whether the private key is contained or not depends on the content of the certification.
- Please refer to Note 2 below.
* - 0xd (b’001101)
- Client Private Key
- It provides the private key of the client when using encryption of enterprise level.
- Please refer to Note 2 below.
* - 0xe (b’001110)
- Server Private Key
- It provides the private key of the sever when using encryption of enterprise level.
- Please refer to Note 2 below.
* - 0xf (b’001111)
- Wi-Fi Connection State Report
- To notify the phone of the ESP device’s Wi-Fi status, including STA status and SoftAP status. It is for the STA device to connect to the mobile phone or the SoftAP. However, when the mobile phone receives the Wi-Fi status, it can reply to other frames in addition to this frame.
- data[0] represents opmode, including:
* 0x00: NULL
* 0x01: STA
* 0x02: SoftAP
* 0x03: SoftAP & STA
data[1]:the connection state of the STA device, 0x0 indicates a connection state, and others represent a disconnected state;
data[2]:the connection state of the SoftAP, that is, how many STA devices have been connected.
data[3] and the subsequent is in accordance with the format of SSID/BSSID information.
* - 0x10 (b’010000)
- Version
-
- * data[0]= great version
* data[1]= sub version
* - 0x11 (b’010001)
- Wi-Fi List
- To send the Wi-Fi list to ESP device.
- The format of the data frame is length + RSSI + SSID and it supports to be sent into fragments if the data length is too long.
* - 0x12 (b’010010)
- Report Error
- To notify the mobile phone that there is an error with BluFi.
- * 0x00: sequence error
* 0x01: checksum error
* 0x02: decrypt error
* 0x03: encrypt error
* 0x04: init security error
* 0x05: dh malloc error
* 0x06: dh param error
* 0x07: read param error
* 0x08: make public error
* - 0x13 (b’010011)
- Custom Data
- To send or receive custom data.
- The data frame supports to be sent into fragments if the data length is too long.
..note::
- Note 1: The length of the data depends on the length field. When the transmission direction is ESP device to the mobile phone, it means to provide the mobile phone with the needed information.
- Note 2: The length of the data depends on the length field. The frame supports to be fragmented if the data length is not enough.
The encrypted part of the frame includes the full clear data before the DATA field is encrypted (no checksum). Control frame is not encrypted, so this bit is 0.
* - 0x02
- The data field that indicates whether a frame contains a checksum (such as SHA1,MD5,CRC, etc.) for the end of the frame. Data field includes sequence + data length + clear text. Both the control frame and the data frame can contain a check bit or not.
* - 0x04
- Represents the data direction.
* 0 means the mobile phone to ESP device;
* 1 means ESP device to the mobile phone.
* - 0x08
- Indicates whether the other person is required to reply to an ACK.
* 0 indicates no requirement;
* 1 indicates to reply ACK.
* - 0x10
- Indicates whether there are subsequent data fragments.
* 0 indicates that there are no subsequent data fragments for this frame;
* 1 indicates that there are subsequent data fragments and used to transmit longer data.
In the case of a frag frame, the total length of the current content section + subsequent content section is given, in the first 2 bytes of the data field (that is, the content data of the maximum support 64 K).
Sequence control field. When a frame is sent,the value of sequence fied is automatically incremented by 1 regardless of the type of frame, which prevents Replay Attack. The sequence is cleared after each reconnection.
To ensure that the transmission of the Wi-Fi SSID and password is secure, the message needs to be encrypted using symmetric encryption algorithms, such as AES, DES and so on. Before using symmetric encryption algorithms, the devices are required to negotiate (or generate) a shared key using an asymmetric encryption algorithm (DH, RSA, ECC, etc).
For the coding of {IDF_TARGET_NAME}, you can determine and develop the security processing, such as key negotiation. The mobile application sends the negotiation data to {IDF_TARGET_NAME} and then the data will be sent to the application layer for processing. If the application layer does not process it, you can use the DH encryption algorithm provided by BluFi to negotiate the key.
This function is for {IDF_TARGET_NAME} to receive normal data during negotiation, and after processing is completed, the data will be transmitted using Output_data and Output_len.
Here are two "*", because the length of the data to be emitted is unknown that requires the function to allocate itself (malloc) or point to the global variable, and to inform whether the memory needs to be freed by NEED_FREE.