Usage of `esp-prov` assumes that the provisioning app has specific protocomm endpoints active. These endpoints are active in the provisioning examples and accept specific protobuf data structures:
Print the list of options along with brief descriptions
*`--verbose`, `-v`
Sets the verbosity level of output log
*`--transport <mode>`
Three options are available:
*`softap`
For SoftAP + HTTPD based provisioning. This assumes that the device is running in Wi-Fi SoftAP mode and hosts an HTTP server supporting specific endpoint URIs. Also client needs to connect to the device softAP network before running `esp_prov`
*`ble`
For BLE based provisioning (Linux support only. In Windows/macOS it redirects to console). This assumes that the provisioning endpoints are active on the device with specific BLE service UUIDs
*`console`
For debugging via console based provisioning. The client->device commands are printed to STDOUT and device->client messages are accepted via STDIN. This is to be used when device is accepting provisioning commands on UART console.
*`--ssid <AP SSID>`
For specifying the SSID of the Wi-Fi AP to which the device is to connect after provisioning
*`--passphrase <AP Password>`
For specifying the password of the Wi-Fi AP to which the device is to connect after provisioning
*`--sec_ver <Security version number>`
For specifying version of protocomm endpoint security to use. For now two versions are supported:
*`0` for `protocomm_security0`
*`1` for `protocomm_security1`
*`--pop <Proof of possession string>` (Optional)
For specifying optional Proof of Possession string to use for protocomm endpoint security version 1. This option is ignored when security version 0 is in use
*`--proto_ver <Provisioning application version string>` (Optional) (Default `V0.1`)
For specifying version string for checking compatibility with provisioning app prior to starting provisioning process
For specifying the IP and port of the HTTP server on which provisioning app is running. The client must connect to the device SoftAP prior to running `esp_prov`
*`--ble_devname <BLE device name>` (Optional)
For specifying name of the BLE device to which connection is to be established prior to starting provisioning process. This is only used when `--transport ble` is specified, else it is ignored. Since connection with BLE is supported only on Linux, so this option is again ignored for other platforms
*`--custom_config` (Optional)
This flag assumes the provisioning app has an endpoint called `custom-config`. Use `--custom_info` and `--custom_ver` options to specify the fields accepted by this endpoint
*`--custom_info <some string>` (Optional) (Only use along with `--custom_config`)
For specifying an information string to be sent to the `custom-config` endpoint during provisioning
*`--custom_ver <some integer>` (Optional) (Only use along with `--custom_config`)
For specifying a version number (int) to be sent to the `custom-config` endpoint during provisioning
# AVAILABILITY
`esp_prov` is intended as a cross-platform tool, but currently BLE communication functionality is only available on Linux (via BlueZ and DBus)
For android, a provisioning tool along with source code is available [here](https://github.com/espressif/esp-idf-provisioning-android)
On macOS and Windows, running with `--transport ble` option falls back to console mode, ie. write data and target UUID are printed to STDOUT and read data is input through STDIN. Users are free to use their app of choice to connect to the BLE device, send the write data to the target characteristic and read from it.
## Dependencies
This requires the following python libraries to run (included in requirements.txt):
*`future`
*`protobuf`
*`cryptography`
Run `pip install -r $IDF_PATH/tools/esp_prov/requirements.txt`
Note :
* The packages listed in requirements.txt are limited only to the ones needed AFTER fully satisfying the requirements of ESP-IDF
* BLE communication is only supported on Linux (via Bluez and DBus), therefore, the dependencies for this have been made optional
## Optional Dependencies (Linux Only)
These dependencies are for enabling communication with BLE devices using Bluez and DBus on Linux:
*`dbus-python`
Run `pip install -r $IDF_PATH/tools/esp_prov/requirements_linux_extra.txt`
# EXAMPLE USAGE
Please refer to the README.md files with the examples present under `$IDF_PATH/examples/provisioning/`, namely:
*`ble_prov`
*`softap_prov`
*`custom_config`
*`console_prov`
Each of these examples use specific options of the `esp_prov` tool and give an overview to simple as well as advanced usage scenarios.