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Tesla Powerwall 2 - Local Gateway API documentation

Contributing

(This documentation is currently in flux: portions are updated and portions aren't updated. Use at your own risk)

(If you find issues, please submit pull requests - currently testing on firmware version 20.49.0)

*** Please be patient as I have an unrelated day job! ***

Please help me update this: Pull requests are welcome!

Overview

This is a list of api URLs and some random thoughts I've been able to pull together from the interwebs and other functions we've been able to reverse engineer from the local gateway. This is not the [ Tesla Owner API] which you can find here: (https://tesla-api.timdorr.com) with a Python library that works nicely to control a Powerwall 2 here: (https://github.com/mlowijs/tesla_api).

Libraries / apps using this API

The following projects are known to be using portions of this API, and may be useful for those looking to interact with Powerwall devices:

Getting Started

A note about HTTPS and SSL Certificates

In a recent update to the Powerwall firmware (v1.20+) non-SSL requests (http) are no longer supported and queries will return HTTP/1.1 301 Moved Permanently. Unfortunately the certificate presented by the Powerwall is not signed by a root certificate authority as they are self-signed. This results in web browsers and tools like curl not accept it without it either being included as a trusted certificate or a specific action by the user to override the error.

You have three ways around a certificate error:

  1. In web browser this will manifest itself as an error that the certificate is not trusted. To bypass simply click "details" (IE/Edge) or "Advanced..." (Firefox) and select continue.

  2. With curl the --insecure or -k option will ignore the SSL certificate. This is ok, but it doesn't authenticate the device you are connecting to.

  3. A better way is to export the Powerwall public certificate and add it to the local machine's trusted certificate list or just use the certificate in your curl request.

I recommend option 3 above.

In addition to the issues of validating the certificate itself, the Powerwall gateway also apparently uses SNI when serving the TLS certificate, and will simply abort the connection if the wrong hostname is presented via SNI when establishing the TLS connection. It can therefore only be accessed using a few set hostnames (and if you put its IP address in your local DNS or hosts file with a different name, it will likely not work).

Hostnames which are known to work to access a Powerwall:

  • (IP address)
  • teg
  • powerwall
  • powerpack

Note that none of these names have any domain component. That means you must access the Powerwall as, for example, https://powerwall/. Something like https://powerwall.mycooldomain.net/ will not work (even if mycooldomain.net is configured to have the necessary DNS entry).

If you want to access your Powerwall using a name other than one of the above, you will likely need to do some custom hacking with your client's HTTPS/TLS settings to provide one of these names via SNI instead of the actual hostname (note that not all clients support this).

Here's what worked for me:

Step 1: DNS

Enable DNS lookups, on your local network, for one of the hostnames listed above (for example, powerwall) pointing to the device's IP address.

You can add this to your local DNS server as an A Record or /etc/hosts file or other DNS name resolution service.

For /etc/hosts add an entry that looks like this if your Powerwall gateway's IP was 192.168.99.99:

192.168.99.99 powerwall

Step 2: Get the certificate openssl s_client -showcerts -connect powerwall:443 < /dev/null | sed --quiet '/BEGIN CERTIFICATE/,/END CERTIFICATE/p' > cacert.pem

This grabs the certificate from the powerwall using the DNS entry you setup in step 1.

Step 3: use the certificate in your curl statements e.g. curl --cacert cacert.pem https://powerwall/api/status

If you get this error: curl: (51) SSL: no alternative certificate subject name matches target host name then the name you chose (teg or powerwall or powerpack) doesn't match what's in the certificate file and you'll need to check the certificate and perhaps do some googling to figure out the solution.

For the rest of the documentation, I will assume you copied the certificate and are using method C with the Powerwall's public certificate. If you didn't, just leave out the certificate --cacert cacert.pem portion and add -k.

Powerwall 2 Web UI

The web UI provides an instantaneous a 250-500ms average(?) power flow diagram an access to the wizard. Hit your local gateway IP with a browser, i.e. _https://powerwall/

You should see something like this:

GatewayUI


Wizard You can hit the "Login" link on this page and go through the setup (be careful what you change in the wizard).

username: <Enter whatever you like here>

password: Follow the instructions on the web page to set/change/recover the password. Whatever you set here will be used later.

As of version 20.49.0, the password you set here will be required to pull any of the URIs (statistics & settings) listed below.

Check out the bash script powerwallstats.sh in the samples directory for an example:


API Reference

Base Endpoint

https://<tesla-powerwall-ip>/api/

Key

Symbol Meaning
✔️ Yes
❌ or <blank> No
🚧 Requires updating or has partial info

Overview

Endpoint Method Requires Authentication? Documented? Summary
/${e} GET
/auth/toggle/login POST
DELETE
/auth/toggle/start POST
/auth/toggle/supported GET
/autoconfig/cancel POST
/autoconfig/retry POST
/autoconfig/run POST
/autoconfig/status GET
/config GET ✔️ 🚧
/config/completed GET ✔️ ✔️ Applies config changes
/customer GET ✔️ ✔️
POST
/customer/registration GET ❌ ✔️
/customer/registration/legal POST 🚧 🚧
/customer/registration/skip POST 🚧 🚧
/devices/vitals GET ✔️ 🚧
/generators GET ✔️ 🚧
/generators/disconnect_types GET ✔️ 🚧
/installer GET ✔️ ✔️
/installer/companies GET 🚧 🚧
/logging POST
/login/Basic POST ❌ 🚧
/logout GET 🚧 🚧
/meters GET ✔️ 🚧
POST
/meters/${e}/ct_config GET
POST
/meters/${e}/cts DELETE
/meters/${e}/invert_cts POST
/meters/${i}/commission POST
/meters/${o.serial}/cts POST
/meters/${t} DELETE
/meters/${t}/verify POST 🚧 🚧
/meters/aggregates GET ✔️ ✔️ Instantaneous readings from the CT clamps
/meters/detect_wired_meters POST
/meters/readings GET ✔️ 🚧
/meters/status GET ✔️
/meters/verify POST
/networks GET ✔️ 🚧
POST ✔️ 🚧
DELETE ✔️ ❌
/networks/${e}/disconnect DELETE
/networks/client_protocols GET
POST
/networks/connect POST
/networks/enable_${e} POST
/networks/request_scan_wifi POST
/operation GET ✔️ ✔️
POST ✔️ ✔️
/password/change POST
/password/generate POST
/password/reset POST
/powerwalls GET ✔️ ✔️
/powerwalls/phase_detection GET
/powerwalls/phase_usages GET
/powerwalls/status GET ✔️ ✔️
/powerwalls/update GET
/site_info GET ✔️ ✔️ High Level info about site and grid the powerwall connected to
/site_info/grid_code POST ❌
/site_info/grid_codes GET ✔️ ✔️
/site_info/grid_regions GET
/site_info/offgrid POST
/site_info/site_name GET ✔️ ✔️ Name of the site + timezone
POST
/site_info/timezone POST
/sitemaster GET ✔️ ✔️
/sitemaster/run GET ✔️ ✔️ Starts the Powerwall electricity flow
/sitemaster/run_for_commissioning POST
/sitemaster/stop GET ✔️ ✔️ Stops the Powerwall electricity flow
/solar_powerwall/${n}/power_status GET
/solar_powerwall/${t}/reset GET
/solar_powerwall/power_status GET
/solar_powerwall/reset GET
/solars GET ✔️ ✔️
/solars/brands GET ✔️ ✔️
/solars/brands/${brand} GET ✔️ ✔️
/status GET ❌ ✔️ Information about the gateway software version
/synchrometer/ct_voltage_references GET
POST
/synchrometer/ct_voltage_references/options GET
/system/networks/conn_tests GET
POST
/system/networks/ping_test POST 🚧 🚧
/system/testing GET 🚧 🚧
DELETE
/system/testing/PINV_TEST POST
/system/update/status GET ✔️ ✔️
/system_status GET ✔️ 🚧
/system_status/grid_faults GET ✔️ 🚧
/system_status/grid_status GET ✔️ ✔️ Whether the Powerwall is on or off grid
/system_status/soe GET ✔️ ✔️ Powerwall charged percentage
/v2/islanding/mode GET

Table partially generated using https://github.com/vls29/tesla-powerwall2-api-to-table


GET /api/meters/aggregates

request: curl --cacert cacert.pem https://powerwall/api/meters/aggregates

response: see sample response here

This returns the current readings from the meters that measure solar, grid, battery, and home production and usage. Watts, Hz, etc. Watt values can be positive or negative.

  1. "site" corresponds to "Grid" in the Tesla mobile app -Positive numbers indicate power draw from the grid to the system -Negative numbers indicate sending power from the system to the grid
  2. "battery" corresponds to "Powerwall" in the Tesla mobile app - this is an aggregate number if you have more than one Powerwall -Positive numbers indicate power draw from the batteries to the system -Negative numbers indicate sending power from the system to the batteries
  3. "load" corresponds to "Home" in the Tesla mobile app -Positive numbers indicate power draw from the system to the home -Negative numbers should never happen
  4. "solar" corresponds to "Solar" in the Tesla mobile app -Positive numbers indicate power production from solar to the system -Negative numbers indicate sending power from the system to solar - this should never be higher than 100 Watts. On occasion I see +/- -10 at night.
  5. "busway" - Unknown - my numbers show 0 for this.
  6. "frequency" - Unknown - my numbers show 0 for this.
  7. "generator" - Unknown I don't have a generator - my numbers show 0 for this.

When site master or the Powerwalls are off, the response is: HTTP Status 502

GET /api/meters/site

Detailed information about the site specific meter.

request: curl --cacert cacert.pem https://powerwall/api/meters/site

response: see sample response here

GET /api/meters/solar

Detailed information about the solar specific meter.

request: curl --cacert cacert.pem https://powerwall/api/meters/solar

response: see sample response here


State of Charge / State of Energy

GET /api/system_status/soe

This returns the aggregate charge state in percent of the powerwall(s).

request: curl --cacert cacert.pem https://powerwall/api/system_status/soe

response: {"percentage":69.1675560298826}

When site master or the Powerwalls are off, the response is: HTTP Status 502


GET /api/sitemaster

Use this URL to determine:

  1. Powerwall state {running|stopped}
  2. How long the powerwall has been set to the running state {in seconds}
  3. Is the powerwall gateway connected to Tesla's servers {true|false}}

request: curl --cacert cacert.pem https://powerwall/api/sitemaster

response: {"running":true,"uptime":"802459s,","connected_to_tesla":true}

When site master or the Powerwalls are off, the response is: {"running":false,"uptime":"log:","connected_to_tesla":false}


GET /api/powerwalls

Use this URL to determine how many power walls you have, their serial numbers, and if they are in sync (assuming more than one powerwall).

request: curl --cacert cacert.pem https://powerwall/api/powerwalls

response: see sample response here

I have two of the AC Powerwall 2s in the United States. The PackagePartNumber is: 1092170-03-E. Let me know if you have a different package part number and what Powerwall model you have. (i.e. DC, AC, Powerwall v1 or v2)


GET /api/customer/registration

Use this URL to determine registration status. The below shows the results from a system that is fully configured and running.

request: curl --cacert cacert.pem https://powerwall/api/customer/registration

response: {"privacy_notice":true,"limited_warranty":true,"grid_services":null,"marketing":null,"registered":true,"timed_out_registration":false}


GET /api/system_status

Provides information on batteries and inverters. (nominal_full_pack_energy is useful for monitoring degradation over time, as discussed here: (https://teslamotorsclub.com/tmc/threads/powerwall-2-available-energy-after-2-years.228580/#post-5537358).

Request: curl --cacert cacert.pem https://powerwall/api/system_status


GET /api/system_status/grid_status

Determine if the Grid is up or down.

request: curl --cacert cacert.pem https://powerwall/api/system_status/grid_status

response: {"grid_status":"SystemGridConnected","grid_services_active":false}

{"grid_status":"SystemGridConnected"} = grid is up

{"grid_status":"SystemIslandedActive"} = grid is down

{"grid_status":"SystemTransitionToGrid"} = grid is restored but not yet in sync.


GET /api/system/update/status

UPDATE: You need to be authenticated for this command

From: @kylerove: "After digging, the answer was right on Tesla's website: https://www.tesla.com/support/energy/powerwall/own/monitoring-from-home-network

username=customer email=your Tesla account email address password=last 5 digits of your gateway serial number

You can then reset/choose your own customer password, if you want to make it stronger."

request: curl --cacert cacert.pem https://powerwall/api/system/update/status

response: {"state":"/update_failed","info":{"status":["nonactionable"]},"current_time":1422697552910}

  1. update_failed / status nonactionable = I tried to do an upgrade but I have the latest firmware version already installed.
  2. current_time in EPOC. -1422697552910 = GMT: Monday, April 2, 2018 8:09:17.447 PM

possible values of "state" property, according to the code:

  • "/clear_update_status", // Checking for firmware update is in progress (need to keep sending request until state is changed)

  • "/update_succeeded", // Success

  • "/update_failed", // Update failed, or not required

  • "/update_staged", // Staging update?

  • "/download", // Downloading update

  • "/update_downloaded", // Ready to update

  • "/update_unknown"

possible values of "status" property according to the code:

  • "ignoring", // possibly some uninterruptable action is in progress?

  • "error",

  • "nonactionable" // everything is OK

Use case: One user is making this request to check new firmware available, and run the upgrade, approximately 30 minutes before switching to discharging (self_consumption mode with 5% reserve). Assumption is - we better upgrade firmware while battery is in standby mode, rather then letting gateway upgrade itself later, because it will stop battery possibly during peak hours for an upgrade. He noticed his gateway has self-upgraded during peak hours, resulting around 15 minutes stop of battery, which was an unpleasant surprise and extra cost. So, his idea was to force a new firmware check (and upgrade) when battery is not used:

  • 7:15am check for new fimware and run an upgrade if firmware is available

  • 7:55am - start discharging (self_consumption, 5% reserve)

  • 10:05pm - start charging (backup, 100% reserve)

Southern California Edison has TOU plan with the following details:

  • 8am-2pm, 8pm-10pm - offpeak

  • 2pm-8pm - peak

  • 10pm-8am - super offpeak


GET /api/site_info

request: curl --cacert cacert.pem https://powerwall/api/site_info

response: {"max_site_meter_power_kW":1000000000,"min_site_meter_power_kW":-1000000000,"nominal_system_energy_kWh":13.5,"nominal_system_power_kW":10,"site_name":"Loschiavo","timezone":"America/Los_Angeles","grid_code":"60Hz_240V_s_UL1741SA:2016_California","grid_voltage_setting":240,"grid_freq_setting":60,"grid_phase_setting":"Split","country":"United States","state":"California","distributor":"*","utility":"Pacific Gas and Electric Company","retailer":"*","region":"UL1741SA"}


GET /api/site_info/site_name

request: curl --cacert cacert.pem https://powerwall/api/site_info/site_name

response: {"site_name":"Home Energy Gateway","timezone":"America/Los_Angeles"}

The site_name value can be changed from the Tesla Mobile app settings.


GET /api/status

request: curl --cacert cacert.pem https://powerwall/api/status

response: {"start_time":"2019-09-23 23:38:46 +0800","up_time_seconds":"223h5m51.577762169s","is_new":false,"version":"1.40.2","git_hash":"14f7c1769ec307bba2ea62355a09d01c8e58988c+"}

Useful here: Gateway Version: "version":"1.40.2\n"


GET /api/logout

The Gateway Web UI uses this url to logout of the wizard. I assume you can also use this to expire an auth token...(some testing is required). This is untested. Question for the community: Does this still work? Soliciting for pull requests! :)

Request: curl --cacert cacert.pem -i https://powerwall/api/logout

Response: HTTP/2 204 date: Thu, 03 Oct 2019 13:48:10 GMT

returns HTTP/2 Status 204, with a date


GET /api/system_status/grid_faults

Not sure what this does...does it list the recent grid failure dates/times?

Request: curl --cacert cacert.pem https://powerwall/api/system_status/grid_faults

Response: [{"timestamp":1569976192352,"alert_name":"PINV_a006_vfCheckUnderFrequency","alert_is_fault":false,"decoded_alert":"[{\"name\":\"PINV_alertID\",\"value\":\"PINV_a006_vfCheckUnderFrequency\"},{\"name\":\"PINV_alertType\",\"value\":\"Warning\"},{\"name\":\"PINV_a006_frequency\",\"value\":57.207,\"units\":\"Hz\"}]","alert_raw":432406325129904128,"git_hash":"14f7c1769ec307","site_uid":"xxxx","ecu_type":"TEPINV","ecu_package_part_number":"xxxxx","ecu_package_serial_number":"xxxxxx"}]


GET /api/sitemaster/stop

UPDATE: You need to be authenticated for this command This stops the powerwalls & gateway. In the stopped state, the powerwall will not charge, discharge, or monitor solar, grid, battery, home statistics.

Request: curl --cacert cacert.pem https://powerwall/api/sitemaster/stop

Response:

returns HTTP Status 500 if powerwall cannot be stopped at this moment with the following JSON:

{"code":500,"error":"Cannot Start Wizard","message":"Unable to stop sitemaster"}


GET /api/sitemaster/run

UPDATE: You need to be authenticated for this command This starts the powerwalls & gateway. Use this after getting an authentication token to restart the powerwalls.

Request: curl --cacert cacert.pem https://powerwall/api/sitemaster/run

Response:
Returns HTTPS Status 202 if request is accepted


GET /api/config/completed

UPDATE: You need to be authenticated for this command This applies configuration changes.

Request: curl --cacert cacert.pem https://powerwall/api/config/completed

Response: Returns HTTP Status 202 if input accepted


Note: *** The below API calls require authentication ***

Note2: *** This documentation is old (created on version 1.15) and needs updating *** *** I wouldn't be surprised if less than 1% of the below still works in versions 1.40+ ***

Login

POST /api/login/Basic

Note: This section needs updating: Does this work?

Authentication example: Note: Getting an authentication token will stop the powerwall. It won't charge, discharge, or collect stats on v1.15+. Therefore you should re-enable the powerwall after getting a token.
See: the /api/sitemaster/run section above.

Here is an example login using a blank username (none needed) and a serial number of T123456789. The password is S+Serial number: ST123456789.

Request:

curl --cacert cacert.pem -s -i -X POST -H "Content-Type: application/json" -d '{"username":"","password":"ST123456789","force_sm_off":false}' https://powerwall/api/login/Basic

Response:

{"email":null,"firstname":"Tesla","lastname":"Energy","roles":["Provider_Engineer"],"token":"OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==","provider":"Basic"}

Save the token for use with the below calls.

Note for Windows users: Windows shell handles quotes differently than linux Bash. In windows, the above example works by:

  1. changing the single quotes to double quotes
  2. escape the double quotes inside the -d section

Windows Example Request:

curl -s -i -X POST -H "Content-Type: application/json" -d "{\"username\":\"\",\"password\":\"ST123456789\",\"force_sm_off\":false}" https://192.168.xxx.xxx/api/login/Basic


/api/operation

Change the Powerwall mode and Reserve Percentage

Note 1: Making changes to the Powerwalls via the Mobile application can take some time to go into effect. There's a rumor that states that the changes happen around 30 minutes past the hour. (Probably based on a cron job in Tesla's servers).

Note 2: Setting a value is not sufficient to make the change. You must "save" or "commit" the configuration to have it go into effect. See the Config Completed section below.

Note 3: Once a value is changed and committed it is immediately in effect.

GET /api/operation

request: curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/operation

response: {"mode":"self_consumption","backup_reserve_percent":15}

POST /api/operation

The below request would set the battery mode to "Self-powered" and a "Reserve for Power Outages" to 20% (app value) using the token retrieved from the authentication example.

request: curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" -X POST -d '{"mode":"self_consumption","backup_reserve_percent":24.6}' https://192.168.xxx.xxx/api/operation

response: {"mode":"self_consumption","backup_reserve_percent":24.6}

Valid Modes:

  1. self_consumption
  2. backup
  3. autonomous (aka Time of Use (TOU) as reported by dlieu on the teslamotorsclub.com forums)
  4. scheduler aka Aggregation - This seems like it is not supported now.

The JavaScript constant in the code of mobile client for Android has the following options:

OperationModes = 
{SELF_CONSUMPTION: "self_consumption",
TIME_OF_USE: "autonomous",
BACKUP: "backup",
AGGREGATION: "scheduler"}

There also is an option to set the max PV Export power in kW. I'm not 100% sure what that does but I could guess (Time of use?). Mine is currently set to null (probably because time of use isn't enabled on my system yet (as of April 2018). You can omit this key/value pair from the POST.

{max_pv_export_power_kW: null, mode: "self_consumption", backup_reserve_percent: 24}

Note the difference in the app value (20%) versus the value we set via the local API (24%). The difference is likely proportional until you reach 100%:

Tested values:

APP Setting API Setting
5% 10%
16% 20%
16% 20.6%
20% 24%
21% 24.6%
30% 33%
100% 100%

GET /api/powerwalls/status

Informational:

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/powerwalls/status

Response:

{"code":409,"error":"Sitemaster is current running","message":"Sitemaster is current running"}


GET /api/site_info/grid_codes

vls29 - I couldn't find this endpoint in the javascript file and it returns 404

Informational: setting options used in the wizard

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/site_info/grid_codes

Response:

Grid Codes Long JSON response here


GET /api/solars

Informational: responds with the solar inverter brand, model, and max power rating as stored on the gateway.

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/solars

Reply:

[{"brand":"SolarEdge Technologies","model":"SE5000 (240V) w/ -ER-US or A-US","power_rating_watts":6000}]


GET /api/solars/brands

Informational: responds with the Solar inverter Brand options for the wizard.

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/solars/brands > api_solars_brands.json

Solar Brands - Long JSON response here


GET /api/solars/brands/SolarEdge%20Technologies

Informational: Get a list of SolarEdge models - used in the wizard.

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/solars/brands/SolarEdge%20Technologies

Response

SolarEdge Models - Long JSON response here


GET /api/generators

Note: I don't have a generator tied to my system.

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" httsp://192.168.xxx.xxx/api/generators

Response:

{"disconnect_type":"None","generators":[]}


GET /api/customer

Informational:

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/customer

Response:

{"city":"New York","state":"New York ","zip":"10010","country":"US","registered":true,"privacy_notice":true,"limited_warranty":true,"emailed_registration":true}


GET /api/config

Informational - I'm not sure what this is...

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/config

Response:

{vin: "0123456-00-E--T1234567890"}


Others to be documented:

GET /api/devices/vitals

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" -o https://192.168.xxx.xxx/api/devices/vitals

Response:

darryllee - Found when I logged into my Gateway as an Installer, this returns a binary file with what looks like interesting information including:

THC_State THC_STATE_AUTONOMOUSCONTROL
THC_AmbientTemp!
...
POD_nom_energy_to_be_charged!
POD_nom_energy_remaining!
POD_nom_full_pack_energy!
POD_available_charge_power!
POD_available_dischg_power!
POD_curtailed_charge_power!
POD_curtailed_dischg_power!
POD_est_DC_Bus_Power!
        POD_Ibatt!
        POD_Vbatt!
POD_DC_Bus_Voltage!
        POD_state*
POD_ACTIVE
POD_enable_line0
POD_ChargeComplete0
POD_DischargeComplete0
POD_PersistentlyFaulted0
POD_PermanentlyFaulted0
POD_ChargeRequest0
POD_ActiveHeating0
POD_Resting0
POD_CCVhold0
POD_HeatZeroCurrentReg0
POD_ExtendedCapacityMode0
POD_IpcRequestedBusUp0
POD_SelfTestRequested0

jasonacox - The binary file is a protobuf payload. It includes all devices including metrics for string data. Without the proto schema, the protoc tool can decode the raw file (some information will be missing without the schema):

protoc --decode_raw < vitals

The output represents the data in { ... } groupings with number prefixing and key values in hex, strings or 1/0 boolean. Thanks to @brianhealey we have a working tesla.proto file. This can be used to decode the protobuf payload (e.g. protoc --python_out=. tesla.proto).

A decoded output example /api/devices/vitals from pypowerwall (pw.vitals()) looks like this:

Full example: samples/api-devices-vitals.json

Some interesting data points:

    "STSTSM--1232100-00-E--TTTTTTTTTTTTTT": {
        "Parent": "",
        "STSTSM-Location": "Gateway",
        "firmwareVersion": "2021-11-02-g3d303deef",
        "lastCommunicationTime": "1639168200",
        "manufacturer": "TESLA",
        "partNumber": "1232100-00-E",
        "serialNumber": "TTTTTTTTTTTTTT"
    },
	"NEURIO--VVVVVVVVVVVVV": {
        "NEURIO_CT0_InstRealPower": 1576.0756967629245,
        "NEURIO_CT0_Location": "solar",
...
    },
    "PVAC--1538100-00-F--CCCCCCCCCCCCCC": {
...
        "PVAC_LifetimeEnergyPV_Total": 1543380.0,
        "PVAC_PVCurrent_A": 2.24,
        "PVAC_PVCurrent_B": 0.0,
        "PVAC_PVCurrent_C": 1.62,
        "PVAC_PVCurrent_D": 1.6,
        "PVAC_PVMeasuredPower_A": 552.0,
        "PVAC_PVMeasuredPower_B": 0.0,
        "PVAC_PVMeasuredPower_C": 508.0,
        "PVAC_PVMeasuredPower_D": 503.0,
        "PVAC_PVMeasuredVoltage_A": 244.8,
        "PVAC_PVMeasuredVoltage_B": -2.5,
        "PVAC_PVMeasuredVoltage_C": 314.5,
        "PVAC_PVMeasuredVoltage_D": 315.20000000000005,
        "PVAC_Pout": 1610.0,
        "PVAC_PvState_A": "PV_Active",
        "PVAC_PvState_B": "PV_Active",
        "PVAC_PvState_C": "PV_Active",
        "PVAC_PvState_D": "PV_Active_Parallel",
        "PVAC_Qout": 20.0,
...
    },
    "PVS--1538100-00-F--CCCCCCCCCCCCCC": {
...
        "PVS_StringA_Connected": true,
        "PVS_StringB_Connected": false,
        "PVS_StringC_Connected": true,
        "PVS_StringD_Connected": true,
        "PVS_vLL": 241.5,
...
    },
	"TEPINV--1081100-10-U--SSSSSSSSSSS": {
        "PINV_EnergyCharged": 439040.0,
        "PINV_EnergyDischarged": 383090.0,
...
        "PINV_PllFrequency": 59.969,
        "PINV_PllLocked": true,
        "PINV_Pout": -0.19,
        "PINV_PowerLimiter": "PWRLIM_POD_Power_Limit",
        "PINV_Qout": 0.0,
        "PINV_ReadyForGridForming": true,
        "PINV_State": "PINV_GridFollowing",
        "PINV_VSplit1": 120.9,
        "PINV_VSplit2": 120.30000000000001,
        "PINV_Vout": 241.10000000000002,
...
    },
	"TEPOD--1081100-10-U--SSSSSSSSSSS": {
        "POD_ActiveHeating": false,
        "POD_CCVhold": false,
        "POD_ChargeComplete": false,
        "POD_ChargeRequest": false,
        "POD_DischargeComplete": false,
        "POD_PermanentlyFaulted": false,
        "POD_PersistentlyFaulted": false,
        "POD_available_charge_power": 7000.0,
        "POD_available_dischg_power": 12000.0,
        "POD_enable_line": true,
        "POD_nom_energy_remaining": 8636.0,
        "POD_nom_energy_to_be_charged": 5685.0,
        "POD_nom_full_pack_energy": 13990.0,
        "POD_state": "POD_ACTIVE",
...
    },
	"TESYNC--1493315-01-F--77777777777777": {
        "ISLAND_FreqL1_Load": 59.980000000000004,
        "ISLAND_FreqL1_Main": 59.980000000000004,
        "ISLAND_FreqL2_Load": 60.010000000000005,
        "ISLAND_FreqL2_Main": 60.0,
...
        "ISLAND_GridConnected": true,
        "ISLAND_GridState": "ISLAND_GridState_Grid_Compliant",
        "ISLAND_L1L2PhaseDelta": -256.0,
        "ISLAND_L1L3PhaseDelta": -256.0,
        "ISLAND_L1MicrogridOk": true,
        "ISLAND_L2L3PhaseDelta": -256.0,
        "ISLAND_L2MicrogridOk": true,
        "ISLAND_L3MicrogridOk": false,
        "ISLAND_PhaseL1_Main_Load": 0.0,
        "ISLAND_PhaseL2_Main_Load": 0.0,
        "ISLAND_PhaseL3_Main_Load": -256.0,
        "ISLAND_ReadyForSynchronization": true,
        "ISLAND_VL1N_Load": 121.0,
        "ISLAND_VL1N_Main": 121.0,
        "ISLAND_VL2N_Load": 121.0,
        "ISLAND_VL2N_Main": 121.0,
        "ISLAND_VL3N_Load": 0.0,
        "ISLAND_VL3N_Main": 0.0,
        "METER_X_CTA_I": 4.2525,
        "METER_X_CTA_InstReactivePower": -13.0,
        "METER_X_CTA_InstRealPower": 434.0,
        "METER_X_CTB_I": 3.9210000000000003,
        "METER_X_CTB_InstReactivePower": -44.0,
        "METER_X_CTB_InstRealPower": -433.0,
        "METER_X_CTC_I": 0.0,
        "METER_X_CTC_InstReactivePower": 0.0,
        "METER_X_CTC_InstRealPower": 0.0,
        "METER_X_LifetimeEnergyExport": 372371.0,
        "METER_X_LifetimeEnergyImport": 1904776.0,
        "METER_X_VL1N": 120.3,
        "METER_X_VL2N": 120.68,
        "METER_X_VL3N": 0.0,
        "METER_Y_CTA_I": 0.0,
        "METER_Y_CTA_InstReactivePower": 0.0,
        "METER_Y_CTA_InstRealPower": 0.0,
        "METER_Y_CTB_I": 0.0,
        "METER_Y_CTB_InstReactivePower": 0.0,
        "METER_Y_CTB_InstRealPower": 0.0,
        "METER_Y_CTC_I": 0.0,
        "METER_Y_CTC_InstReactivePower": 0.0,
        "METER_Y_CTC_InstRealPower": 0.0,
        "METER_Y_LifetimeEnergyExport": 0.0,
        "METER_Y_LifetimeEnergyImport": 2.0,
        "METER_Y_VL1N": 120.31,
        "METER_Y_VL2N": 120.68,
        "METER_Y_VL3N": 0.0,
...
    },
    "TETHC--2012170-25-E--44444444444444": {
        "Parent": "STSTSM--1232100-00-E--TTTTTTTTTTTTTT",
        "THC_AmbientTemp": 16.0,
        "THC_State": "THC_STATE_AUTONOMOUSCONTROL",
...
    },

GET /api/generators/disconnect_types

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/generators/disconnect_types

Response:

["DownstreamATS"]


GET /api/meters

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/meters

Response:

[{"serial":"OBB3172012345","short_id":"49123","connected":true,"cts":[{"type":"solar","valid":[false,false,true,true],"inverted":[false,false,false,false]},{"type":"site","valid":[true,true,false,false],"inverted":[false,false,false,false]}]}]


GET /api/installer

Details of the company that did the installation of the powerwall as well as your customer ID in their system. This can be configured in the Wizard.

Request:

curl --header "Authorization: Bearer OgiGHjoNvwx17SRIaYFIOWPJSaKBYwmMGc5K4tTz57EziltPYsdtjU_DJ08tJqaWbWjTuI3fa_8QW32ED5zg1A==" https://192.168.xxx.xxx/api/installer

Response:

{company: "Tesla Timbuktu", customer_id: "01234567", phone: "8885551212"}

Alternative Response: {"company":"Tesla Orange County","customer_id":"1234567","phone":"1231234567","email":"...","run_sitemaster":true}


Others to document

POST /api/sitemaster/run_for_commissioning

POST /api/customer/registration/skip

vls29 - I couldn't find this endpoint in the javascript file and it returns 404

GET /api/installer/companies

[{ "company" : "1 Willpower Ltd", "customer_id" : "AN-0000059" }, { "company" : "1000 Energie", "customer_id" : "AN-0000062" }, { ... <LONG_LIST> }]

POST /api/networks/wifi_scan

vls29 - I couldn't find this endpoint in the javascript file and it returns 404

POST /api/networks

"Content-Type": "application/json" { interface: K.InterfaceTypes.WIFI, network_name: ???, security_type: ??? }

POST /api/networks/<...>/disable

POST /api/networks/<...>/enable

POST /api/system/networks/conn_tests

while test is running the request returns: {"results":null,"timestamp":"0001-01-01T00:00:00Z"}

when test is complete it returns:

{
	"results" : {
		"Config Syncer Test" : {
			"pass" : true,
			"error" : ""
		},
		"Gle GET Test" : {
			"pass" : true,
			"error" : ""
		},
		"Hermes Status Test" : {
			"pass" : true,
			"error" : ""
		},
		"Synergy Data Test" : {
			"pass" : true,
			"error" : ""
		}
	},
	"timestamp" : "2018-02-22T17:12:56.296673681-08:00"
}

Also need to research:

/api/system/networks/ping_test

POST /api/logging { level: ???, log: ??? }

POST /api/customer/registration/emailed

vls29 - I couldn't find this endpoint in the javascript file and it returns 404

POST /api/customer/registration/legal

"Content-Type": "application/json" response:

{
	marketing: ???,
	privacy_notice: ???,
	limited_warranty: ???,
	grid_services: ???
}

GET /api/networks

returns all configured network adapters in gateway which seems running Linux:

can0 - very interesting unknown adapter (CAN-bus for the car??) eth0 - ethernet rpine0 - seems cellular network adapter (3G) wifi0 - wireless adapter to connect to home network wifi1 - configured as access point (TEG-XXXX)

[{
		"id" : 2,
		"name" : "can0",
		"connected" : true,
		"is_dhcp" : true,
		"ip_address" : "",
		"subnet" : "",
		"config" : null
	}, {
		"id" : 3,
		"name" : "eth0",
		"connected" : true,
		"is_dhcp" : true,
		"ip_address" : "",
		"subnet" : "",
		"config" : null
	}, {
		"id" : 170,
		"name" : "rpine0",
		"connected" : true,
		"is_dhcp" : true,
		"ip_address" : "",
		"subnet" : "",
		"config" : null
	}, {
		"id" : 171,
		"name" : "wifi0",
		"connected" : true,
		"is_dhcp" : true,
		"ip_address" : "<IP_ADDRESS>",
		"subnet" : "255.255.255.0",
		"config" : {
			"network_name" : "<AP_NAME>",
			"interface" : "WifiType",
			"security_type" : "WPA2_Personal",
			"dhcp" : true,
			"enabled" : true
		}
	}, {
		"id" : 172,
		"name" : "wifi1",
		"connected" : true,
		"is_dhcp" : true,
		"ip_address" : "192.168.91.1",
		"subnet" : "255.255.255.0",
		"config" : null
	}
]

GET /api/system/networks

vls29 - I couldn't find this endpoint in the javascript file and it returns 404

[{
		"network_name" : "default_gsm",
		"interface" : "GsmType",
		"security_type" : "NONE",
		"dhcp" : null
	}, {
		"network_name" : "default_eth",
		"interface" : "EthType",
		"security_type" : "NONE",
		"dhcp" : true
	}, {
		"network_name" : "<AP_NAME>",
		"interface" : "WifiType",
		"security_type" : "WPA2_Personal",
		"dhcp" : true,
		"enabled" : true
	}
]

GET /api/networks/wifi_security_types

vls29 - I couldn't find this endpoint in the javascript file and it returns 404

["NONE","WEP","WPAorWPA2_Personal"]

POST /api/meters/ABC1234567890/verify

"Content-Type": "application/json" request's body: {"short_id":"12345","serial":" ABC1234567890 "}

GET /api/meters/readings

{
	"ABC1234567890" : {
		"error" : "",
		"data" : {
			"IP" : "Neurio-12345",
			"sensorId" : "0x<EIGHT_BYTES_HERE_IN_HEX_FORMAT>",
			"firmwareVersion" : "Tesla-0.0.7",
			"f_Hz" : 60,
			"cts" : [{
					"ct" : 1,
					"v_V" : 120.1,
					"p_W" : 345.07,
					"q_VAR" : -179.66,
					"eExp_Ws" : 12601671,
					"eImp_Ws" : 579265920
				}, {
					"ct" : 2,
					"v_V" : 120.81,
					"p_W" : 68.48,
					"q_VAR" : -109.03,
					"eExp_Ws" : 76422454,
					"eImp_Ws" : 447595772
				}, {
					"ct" : 3,
					"v_V" : 120.88,
					"p_W" : -0.2,
					"q_VAR" : 0,
					"eExp_Ws" : 258718,
					"eImp_Ws" : 32548
				}, {
					"ct" : 4,
					"v_V" : 120.1,
					"p_W" : -0.06,
					"q_VAR" : -0.17,
					"eExp_Ws" : 112940,
					"eImp_Ws" : 88921
				}
			]
		}
	}
}

GET /api/system/testing

{
	"running" : false,
	"status" : "TestPassed",
	"charge_tests" : [0, -1000, -2000, -1000, 0],
	"meter_results" : [[{
				"Power" : 575.6900024414062,
				"CT" : 1,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}, {
				"Power" : 71.94999694824219,
				"CT" : 2,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}
		], [{
				"Power" : 595.2100219726562,
				"CT" : 1,
				"Serial" : " ABC1234890",
				"Type" : "site"
			}, {
				"Power" : 71.5199966430664,
				"CT" : 2,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}
		], [{
				"Power" : 1064.7099609375,
				"CT" : 1,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}, {
				"Power" : 540.1099853515625,
				"CT" : 2,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}
		], [{
				"Power" : 1283.739990234375,
				"CT" : 1,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}, {
				"Power" : 779.1300048828125,
				"CT" : 2,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}
		], [{
				"Power" : 562.5499877929688,
				"CT" : 1,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}, {
				"Power" : 69.66999816894531,
				"CT" : 2,
				"Serial" : " ABC1234567890",
				"Type" : "site"
			}
		]],
	"inverter_results" : null,
	"hysteresis" : 0.05,
	"error" : "",
	"errors" : null,
	"tests" : null
}

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