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TWCManager.py
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TWCManager.py
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#! /usr/bin/python3
################################################################################
# Code and TWC protocol reverse engineering by Chris Dragon.
#
# Additional logs and hints provided by Teslamotorsclub.com users:
# TheNoOne, IanAmber, and twc.
# Thank you!
#
# For support and information, please read through this thread:
# https://teslamotorsclub.com/tmc/threads/new-wall-connector-load-sharing-protocol.72830
#
# Report bugs at https://github.com/cdragon/TWCManager/issues
#
# This software is released under the "Unlicense" model: http://unlicense.org
# This means source code and TWC protocol knowledge are released to the general
# public free for personal or commercial use. I hope the knowledge will be used
# to increase the use of green energy sources by controlling the time and power
# level of car charging.
#
# WARNING:
# Misuse of the protocol described in this software can direct a Tesla Wall
# Charger to supply more current to a car than the charger wiring was designed
# for. This will trip a circuit breaker or may start a fire in the unlikely
# event that the circuit breaker fails.
# This software was not written or designed with the benefit of information from
# Tesla and there is always a small possibility that some unforeseen aspect of
# its operation could damage a Tesla vehicle or a Tesla Wall Charger. All
# efforts have been made to avoid such damage and this software is in active use
# on the author's own vehicle and TWC.
#
# In short, USE THIS SOFTWARE AT YOUR OWN RISK.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
#
# For more information, please visit http://unlicense.org
################################################################################
# What's TWCManager good for?
#
# This script (TWCManager) pretends to be a Tesla Wall Charger (TWC) set to
# master mode. When wired to the IN or OUT pins of real TWC units set to slave
# mode (rotary switch position F), TWCManager can tell them to limit car
# charging to any whole amp value between 5A and the max rating of the charger.
# Charging can also be stopped so the car goes to sleep.
#
# This level of control is useful for having TWCManager track the real-time
# availability of green energy sources and direct the slave TWCs to use near the
# exact amount of energy available. This saves energy compared to sending the
# green energy off to a battery for later car charging or off to the grid where
# some of it is lost in transmission.
#
# TWCManager can also be set up to only allow charging during certain hours,
# stop charging if a grid overload or "save power day" is detected, reduce
# charging on one TWC when a "more important" one is plugged in, or whatever
# else you might want to do.
#
# One thing TWCManager does not have direct access to is the battery charge
# percentage of each plugged-in car. There are hints on forums that some TWCs
# do report battery state, but we have yet to see a TWC send such a message.
# It's possible the feature exists in TWCs with newer firmware.
# This is unfortunate, but if you own a Tesla vehicle being charged, people have
# figured out how to get its charge state by contacting Tesla's servers using
# the same password you use in the Tesla phone app. Be very careful not to
# expose that password because it allows unlocking and starting the car.
################################################################################
# Overview of protocol TWCs use to load share
#
# A TWC set to slave mode (rotary switch position F) sends a linkready message
# every 10 seconds.
# The message contains a unique 4-byte id that identifies that particular slave
# as the sender of the message.
#
# A TWC set to master mode sees a linkready message. In response, it sends a
# heartbeat message containing the slave's 4-byte id as the intended recipient
# of the message.
# The master's 4-byte id is included as the sender of the message.
#
# Slave sees a heartbeat message from master directed to its unique 4-byte id
# and responds with its own heartbeat message containing the master's 4-byte id
# as the intended recipient of the message.
# The slave's 4-byte id is included as the sender of the message.
#
# Master sends a heartbeat to a slave around once per second and expects a
# response heartbeat from the slave.
# Slaves do not send heartbeats without seeing one from a master first. If
# heartbeats stop coming from master, slave resumes sending linkready every 10
# seconds.
# If slaves stop replying to heartbeats from master, master stops sending
# heartbeats after about 26 seconds.
#
# Heartbeat messages contain a data block used to negotiate the amount of power
# available to each slave and to the master.
# The first byte is a status indicating things like is TWC plugged in, does it
# want power, is there an error, etc.
# Next two bytes indicate the amount of power requested or the amount allowed in
# 0.01 amp increments.
# Next two bytes indicate the amount of power being used to charge the car, also in
# 0.01 amp increments.
# Remaining bytes always contain a value of 0.
import serial
import time
import re
import subprocess
import queue
import random
import math
import struct
import sys
import traceback
import sysv_ipc
import json
from datetime import datetime
import threading
##########################
#
# Configuration parameters
#
# Most users will have only one ttyUSB adapter plugged in and the default value
# of '/dev/ttyUSB0' below will work. If not, run 'dmesg |grep ttyUSB' on the
# command line to find your rs485 adapter and put its ttyUSB# value in the
# parameter below.
# If you're using a non-USB adapter like an RS485 shield, the value may need to
# be something like '/dev/serial0'.
rs485Adapter = '/dev/ttyUSB0'
# Set wiringMaxAmpsAllTWCs to the maximum number of amps your charger wiring
# can handle. I default this to a low 6A which should be safe with the minimum
# standard of wiring in the areas of the world that I'm aware of.
# Most U.S. chargers will be wired to handle at least 40A and sometimes 80A,
# whereas EU chargers will handle at most 32A (using 3 AC lines instead of 2 so
# the total power they deliver is similar).
# Setting wiringMaxAmpsAllTWCs too high will trip the circuit breaker on your
# charger at best or START A FIRE if the circuit breaker malfunctions.
# Keep in mind that circuit breakers are designed to handle only 80% of their
# max power rating continuously, so if your charger has a 50A circuit breaker,
# put 50 * 0.8 = 40 here.
# 40 amp breaker * 0.8 = 32 here.
# 30 amp breaker * 0.8 = 24 here.
# 100 amp breaker * 0.8 = 80 here.
# IF YOU'RE NOT SURE WHAT TO PUT HERE, ASK THE ELECTRICIAN WHO INSTALLED YOUR
# CHARGER.
wiringMaxAmpsAllTWCs = 40
# If all your chargers share a single circuit breaker, set wiringMaxAmpsPerTWC
# to the same value as wiringMaxAmpsAllTWCs.
# Rarely, each TWC will be wired to its own circuit breaker. If you're
# absolutely sure your chargers each have a separate breaker, put the value of
# that breaker * 0.8 here, and put the sum of all breakers * 0.8 as the value of
# wiringMaxAmpsAllTWCs.
# For example, if you have two TWCs each with a 50A breaker, set
# wiringMaxAmpsPerTWC = 50 * 0.8 = 40 and wiringMaxAmpsAllTWCs = 40 + 40 = 80.
wiringMaxAmpsPerTWC = 40
# https://teslamotorsclub.com/tmc/threads/model-s-gen2-charger-efficiency-testing.78740/#post-1844789
# says you're using 10.85% more power (91.75/82.77=1.1085) charging at 5A vs 40A,
# 2.48% more power at 10A vs 40A, and 1.9% more power at 20A vs 40A. This is
# using a car with 2nd generation onboard AC/DC converter (VINs ending in 20000
# and higher).
# https://teslamotorsclub.com/tmc/threads/higher-amp-charging-is-more-efficient.24972/
# says that cars using a 1st generation charger may use up to 30% more power
# at 6A vs 40A! However, the data refers to 120V 12A charging vs 240V 40A
# charging. 120V 12A is technically the same power as 240V 6A, but the car
# batteries need 400V DC to charge and a lot more power is wasted converting
# 120V AC to 400V DC than 240V AC to 400V DC.
#
# The main point is 6A charging wastes a lot of power, so we default to charging
# at a minimum of 12A by setting minAmpsPerTWC to 12. I picked 12A instead of 10A
# because there is a theory that multiples of 3A are most efficient, though I
# couldn't find any data showing that had been tested.
#
# Most EU chargers are connected to 230V, single-phase power which means 12A is
# about the same power as in US chargers. If you have three-phase power, you can
# lower minAmpsPerTWC to 6 and still be charging with more power than 12A on
# single-phase. For example, 12A * 230V * 1 = 2760W for single-phase power, while
# 6A * 230V * 3 = 4140W for three-phase power. Consult an electrician if this
# doesn't make sense.
#
# https://forums.tesla.com/forum/forums/charging-lowest-amperage-purposely
# says another reason to charge at higher power is to preserve battery life.
# The best charge rate is the capacity of the battery pack / 2. Home chargers
# can't reach that rate, so charging as fast as your wiring supports is best
# from that standpoint. It's not clear how much damage charging at slower
# rates really does.
minAmpsPerTWC = 12
# When you have more than one vehicle associated with the Tesla car API and
# onlyChargeMultiCarsAtHome = True, cars will only be controlled by the API when
# parked at home. For example, when one vehicle is plugged in at home and
# another is plugged in at a remote location and you've set TWCManager to stop
# charging at the current time, only the one plugged in at home will be stopped
# from charging using the car API.
# Unfortunately, bugs in the car GPS system may cause a car to not be reported
# as at home even if it is, in which case the car might not be charged when you
# expect it to be. If you encounter that problem with multiple vehicles, you can
# set onlyChargeMultiCarsAtHome = False, but you may encounter the problem of
# a car not at home being stopped from charging by the API.
onlyChargeMultiCarsAtHome = True
# After determining how much green energy is available for charging, we add
# greenEnergyAmpsOffset to the value. This is most often given a negative value
# equal to the average amount of power consumed by everything other than car
# charging. For example, if your house uses an average of 2.8A to power
# computers, lights, etc while you expect the car to be charging, set
# greenEnergyAmpsOffset = -2.8.
#
# If you have solar panels, look at your utility meter while your car charges.
# If it says you're using 0.67kW, that means you should set
# greenEnergyAmpsOffset = -0.67kW * 1000 / 240V = -2.79A assuming you're on the
# North American 240V grid. In other words, during car charging, you want your
# utility meter to show a value close to 0kW meaning no energy is being sent to
# or from the grid.
greenEnergyAmpsOffset = 0
# Choose how much debugging info to output.
# 0 is no output other than errors.
# 1 is just the most useful info.
# 2-8 add debugging info
# 9 includes raw RS-485 messages transmitted and received (2-3 per sec)
# 10 is all info.
# 11 is more than all info. ;)
debugLevel = 1
# Choose whether to display milliseconds after time on each line of debug info.
displayMilliseconds = False
# Normally we fake being a TWC Master using fakeMaster = 1.
# Two other settings are available, but are only useful for debugging and
# experimenting:
# Set fakeMaster = 0 to fake being a TWC Slave instead of Master.
# Set fakeMaster = 2 to display received RS-485 messages but not send any
# unless you use the debugging web interface
# (index.php?debugTWC=1) to send messages.
fakeMaster = 1
# TWC's rs485 port runs at 9600 baud which has been verified with an
# oscilloscope. Don't change this unless something changes in future hardware.
baud = 9600
# All TWCs ship with a random two-byte TWCID. We default to using 0x7777 as our
# fake TWC ID. There is a 1 in 64535 chance that this ID will match each real
# TWC on the network, in which case you should pick a different random id below.
# This isn't really too important because even if this ID matches another TWC on
# the network, that TWC will pick its own new random ID as soon as it sees ours
# conflicts.
fakeTWCID = bytearray(b'\x77\x77')
# TWCs send a seemingly-random byte after their 2-byte TWC id in a number of
# messages. I call this byte their "Sign" for lack of a better term. The byte
# never changes unless the TWC is reset or power cycled. We use hard-coded
# values for now because I don't know if there are any rules to what values can
# be chosen. I picked 77 because it's easy to recognize when looking at logs.
# These shouldn't need to be changed.
masterSign = bytearray(b'\x77')
slaveSign = bytearray(b'\x77')
#
# End configuration parameters
#
##############################
##############################
#
# Begin functions
#
def time_now():
global displayMilliseconds
return(datetime.now().strftime("%H:%M:%S" + (
".%f" if displayMilliseconds else "")))
def hex_str(s:str):
return " ".join("{:02X}".format(ord(c)) for c in s)
def hex_str(ba:bytearray):
return " ".join("{:02X}".format(c) for c in ba)
def run_process(cmd):
result = None
try:
result = subprocess.check_output(cmd, shell=True)
except subprocess.CalledProcessError:
# We reach this point if the process returns a non-zero exit code.
result = b''
return result
def load_settings():
global debugLevel, settingsFileName, nonScheduledAmpsMax, scheduledAmpsMax, \
scheduledAmpsStartHour, scheduledAmpsEndHour, \
scheduledAmpsDaysBitmap, hourResumeTrackGreenEnergy, kWhDelivered, \
carApiBearerToken, carApiRefreshToken, carApiTokenExpireTime, \
homeLat, homeLon
try:
fh = open(settingsFileName, 'r')
for line in fh:
m = re.search(r'^\s*nonScheduledAmpsMax\s*=\s*([-0-9.]+)', line, re.MULTILINE)
if(m):
nonScheduledAmpsMax = int(m.group(1))
if(debugLevel >= 10):
print("load_settings: nonScheduledAmpsMax set to " + str(nonScheduledAmpsMax))
continue
m = re.search(r'^\s*scheduledAmpsMax\s*=\s*([-0-9.]+)', line, re.MULTILINE)
if(m):
scheduledAmpsMax = int(m.group(1))
if(debugLevel >= 10):
print("load_settings: scheduledAmpsMax set to " + str(scheduledAmpsMax))
continue
m = re.search(r'^\s*scheduledAmpsStartHour\s*=\s*([-0-9.]+)', line, re.MULTILINE)
if(m):
scheduledAmpsStartHour = float(m.group(1))
if(debugLevel >= 10):
print("load_settings: scheduledAmpsStartHour set to " + str(scheduledAmpsStartHour))
continue
m = re.search(r'^\s*scheduledAmpsEndHour\s*=\s*([-0-9.]+)', line, re.MULTILINE)
if(m):
scheduledAmpsEndHour = float(m.group(1))
if(debugLevel >= 10):
print("load_settings: scheduledAmpsEndHour set to " + str(scheduledAmpsEndHour))
continue
m = re.search(r'^\s*scheduledAmpsDaysBitmap\s*=\s*([-0-9.]+)', line, re.MULTILINE)
if(m):
scheduledAmpsDaysBitmap = int(m.group(1))
if(debugLevel >= 10):
print("load_settings: scheduledAmpsDaysBitmap set to " + str(scheduledAmpsDaysBitmap))
continue
m = re.search(r'^\s*hourResumeTrackGreenEnergy\s*=\s*([-0-9.]+)', line, re.MULTILINE)
if(m):
hourResumeTrackGreenEnergy = float(m.group(1))
if(debugLevel >= 10):
print("load_settings: hourResumeTrackGreenEnergy set to " + str(hourResumeTrackGreenEnergy))
continue
m = re.search(r'^\s*kWhDelivered\s*=\s*([-0-9.]+)', line, re.MULTILINE)
if(m):
kWhDelivered = float(m.group(1))
if(debugLevel >= 10):
print("load_settings: kWhDelivered set to " + str(kWhDelivered))
continue
m = re.search(r'^\s*carApiBearerToken\s*=\s*(.+)', line, re.MULTILINE)
if(m):
carApiBearerToken = m.group(1)
if(debugLevel >= 10):
print("load_settings: carApiBearerToken set to " + str(carApiBearerToken))
continue
m = re.search(r'^\s*carApiRefreshToken\s*=\s*(.+)', line, re.MULTILINE)
if(m):
carApiRefreshToken = m.group(1)
if(debugLevel >= 10):
print("load_settings: carApiRefreshToken set to " + str(carApiRefreshToken))
continue
m = re.search(r'^\s*carApiTokenExpireTime\s*=\s*(.+)', line, re.MULTILINE)
if(m):
carApiTokenExpireTime = float(m.group(1))
if(debugLevel >= 10):
print("load_settings: carApiTokenExpireTime set to " + str(carApiTokenExpireTime))
continue
m = re.search(r'^\s*homeLat\s*=\s*(.+)', line, re.MULTILINE)
if(m):
homeLat = float(m.group(1))
if(debugLevel >= 10):
print("load_settings: homeLat set to " + str(homeLat))
continue
m = re.search(r'^\s*homeLon\s*=\s*(.+)', line, re.MULTILINE)
if(m):
homeLon = float(m.group(1))
if(debugLevel >= 10):
print("load_settings: homeLon set to " + str(homeLon))
continue
print(time_now() + ": load_settings: Unknown setting " + line)
fh.close()
except FileNotFoundError:
pass
def save_settings():
global debugLevel, settingsFileName, nonScheduledAmpsMax, scheduledAmpsMax, \
scheduledAmpsStartHour, scheduledAmpsEndHour, \
scheduledAmpsDaysBitmap, hourResumeTrackGreenEnergy, kWhDelivered, \
carApiBearerToken, carApiRefreshToken, carApiTokenExpireTime, \
homeLat, homeLon
fh = open(settingsFileName, 'w')
fh.write('nonScheduledAmpsMax=' + str(nonScheduledAmpsMax) +
'\nscheduledAmpsMax=' + str(scheduledAmpsMax) +
'\nscheduledAmpsStartHour=' + str(scheduledAmpsStartHour) +
'\nscheduledAmpsEndHour=' + str(scheduledAmpsEndHour) +
'\nscheduledAmpsDaysBitmap=' + str(scheduledAmpsDaysBitmap) +
'\nhourResumeTrackGreenEnergy=' + str(hourResumeTrackGreenEnergy) +
'\nkWhDelivered=' + str(kWhDelivered) +
'\ncarApiBearerToken=' + str(carApiBearerToken) +
'\ncarApiRefreshToken=' + str(carApiRefreshToken) +
'\ncarApiTokenExpireTime=' + str(int(carApiTokenExpireTime)) +
'\nhomeLat=' + str(homeLat) +
'\nhomeLon=' + str(homeLon)
)
fh.close()
def trim_pad(s:bytearray, makeLen):
# Trim or pad s with zeros so that it's makeLen length.
while(len(s) < makeLen):
s += b'\x00'
if(len(s) > makeLen):
s = s[0:makeLen]
return s
def send_msg(msg):
# Send msg on the RS485 network. We'll escape bytes with a special meaning,
# add a CRC byte to the message end, and add a C0 byte to the start and end
# to mark where it begins and ends.
global ser, timeLastTx, fakeMaster, slaveTWCRoundRobin
msg = bytearray(msg)
checksum = 0
for i in range(1, len(msg)):
checksum += msg[i]
msg.append(checksum & 0xFF)
# Escaping special chars:
# The protocol uses C0 to mark the start and end of the message. If a C0
# must appear within the message, it is 'escaped' by replacing it with
# DB and DC bytes.
# A DB byte in the message is escaped by replacing it with DB DD.
#
# User FuzzyLogic found that this method of escaping and marking the start
# and end of messages is based on the SLIP protocol discussed here:
# https://en.wikipedia.org/wiki/Serial_Line_Internet_Protocol
i = 0
while(i < len(msg)):
if(msg[i] == 0xc0):
msg[i:i+1] = b'\xdb\xdc'
i = i + 1
elif(msg[i] == 0xdb):
msg[i:i+1] = b'\xdb\xdd'
i = i + 1
i = i + 1
msg = bytearray(b'\xc0' + msg + b'\xc0')
if(debugLevel >= 9):
print("Tx@" + time_now() + ": " + hex_str(msg))
ser.write(msg)
timeLastTx = time.time()
def unescape_msg(msg:bytearray, msgLen):
# Given a message received on the RS485 network, remove leading and trailing
# C0 byte, unescape special byte values, and verify its data matches the CRC
# byte.
msg = msg[0:msgLen]
# See notes in send_msg() for the way certain bytes in messages are escaped.
# We basically want to change db dc into c0 and db dd into db.
# Only scan to one less than the length of the string to avoid running off
# the end looking at i+1.
i = 0
while i < len(msg):
if(msg[i] == 0xdb):
if(msg[i+1] == 0xdc):
# Replace characters at msg[i] and msg[i+1] with 0xc0,
# shortening the string by one character. In Python, msg[x:y]
# refers to a substring starting at x and ending immediately
# before y. y - x is the length of the substring.
msg[i:i+2] = [0xc0]
elif(msg[i+1] == 0xdd):
msg[i:i+2] = [0xdb]
else:
print(time_now(), "ERROR: Special character 0xDB in message is " \
"followed by invalid character 0x%02X. " \
"Message may be corrupted." %
(msg[i+1]))
# Replace the character with something even though it's probably
# not the right thing.
msg[i:i+2] = [0xdb]
i = i+1
# Remove leading and trailing C0 byte.
msg = msg[1:len(msg)-1]
return msg
def send_master_linkready1():
if(debugLevel >= 1):
print(time_now() + ": Send master linkready1")
# When master is powered on or reset, it sends 5 to 7 copies of this
# linkready1 message followed by 5 copies of linkready2 (I've never seen
# more or less than 5 of linkready2).
#
# This linkready1 message advertises master's TWCID to other slaves on the
# network.
# If a slave happens to have the same id as master, it will pick a new
# random TWCID. Other than that, slaves don't seem to respond to linkready1.
# linkready1 and linkready2 are identical except FC E1 is replaced by FB E2
# in bytes 2-3. Both messages will cause a slave to pick a new id if the
# slave's id conflicts with master.
# If a slave stops sending heartbeats for awhile, master may send a series
# of linkready1 and linkready2 messages in seemingly random order, which
# means they don't indicate any sort of startup state.
# linkready1 is not sent again after boot/reset unless a slave sends its
# linkready message.
# At that point, linkready1 message may start sending every 1-5 seconds, or
# it may not be sent at all.
# Behaviors I've seen:
# Not sent at all as long as slave keeps responding to heartbeat messages
# right from the start.
# If slave stops responding, then re-appears, linkready1 gets sent
# frequently.
# One other possible purpose of linkready1 and/or linkready2 is to trigger
# an error condition if two TWCs on the network transmit those messages.
# That means two TWCs have rotary switches setting them to master mode and
# they will both flash their red LED 4 times with top green light on if that
# happens.
# Also note that linkready1 starts with FC E1 which is similar to the FC D1
# message that masters send out every 4 hours when idle. Oddly, the FC D1
# message contains all zeros instead of the master's id, so it seems
# pointless.
# I also don't understand the purpose of having both linkready1 and
# linkready2 since only two or more linkready2 will provoke a response from
# a slave regardless of whether linkready1 was sent previously. Firmware
# trace shows that slaves do something somewhat complex when they receive
# linkready1 but I haven't been curious enough to try to understand what
# they're doing. Tests show neither linkready1 or 2 are necessary. Slaves
# send slave linkready every 10 seconds whether or not they got master
# linkready1/2 and if a master sees slave linkready, it will start sending
# the slave master heartbeat once per second and the two are then connected.
send_msg(bytearray(b'\xFC\xE1') + fakeTWCID + masterSign + bytearray(b'\x00\x00\x00\x00\x00\x00\x00\x00'))
def send_master_linkready2():
if(debugLevel >= 1):
print(time_now() + ": Send master linkready2")
# This linkready2 message is also sent 5 times when master is booted/reset
# and then not sent again if no other TWCs are heard from on the network.
# If the master has ever seen a slave on the network, linkready2 is sent at
# long intervals.
# Slaves always ignore the first linkready2, but respond to the second
# linkready2 around 0.2s later by sending five slave linkready messages.
#
# It may be that this linkready2 message that sends FB E2 and the master
# heartbeat that sends fb e0 message are really the same, (same FB byte
# which I think is message type) except the E0 version includes the TWC ID
# of the slave the message is intended for whereas the E2 version has no
# recipient TWC ID.
#
# Once a master starts sending heartbeat messages to a slave, it
# no longer sends the global linkready2 message (or if it does,
# they're quite rare so I haven't seen them).
send_msg(bytearray(b'\xFB\xE2') + fakeTWCID + masterSign + bytearray(b'\x00\x00\x00\x00\x00\x00\x00\x00'))
def send_slave_linkready():
# In the message below, \x1F\x40 (hex 0x1f40 or 8000 in base 10) refers to
# this being a max 80.00Amp charger model.
# EU chargers are 32A and send 0x0c80 (3200 in base 10).
#
# I accidentally changed \x1f\x40 to \x2e\x69 at one point, which makes the
# master TWC immediately start blinking its red LED 6 times with top green
# LED on. Manual says this means "The networked Wall Connectors have
# different maximum current capabilities".
msg = bytearray(b'\xFD\xE2') + fakeTWCID + slaveSign + bytearray(b'\x1F\x40\x00\x00\x00\x00\x00\x00')
if(self.protocolVersion == 2):
msg += bytearray(b'\x00\x00')
send_msg(msg)
def master_id_conflict():
# We're playing fake slave, and we got a message from a master with our TWCID.
# By convention, as a slave we must change our TWCID because a master will not.
fakeTWCID[0] = random.randint(0, 0xFF)
fakeTWCID[1] = random.randint(0, 0xFF)
# Real slaves change their sign during a conflict, so we do too.
slaveSign[0] = random.randint(0, 0xFF)
print(time_now() + ": Master's TWCID matches our fake slave's TWCID. " \
"Picked new random TWCID %02X%02X with sign %02X" % \
(fakeTWCID[0], fakeTWCID[1], slaveSign[0]))
def new_slave(newSlaveID, maxAmps):
global slaveTWCs, slaveTWCRoundRobin
try:
slaveTWC = slaveTWCs[newSlaveID]
# We didn't get KeyError exception, so this slave is already in
# slaveTWCs and we can simply return it.
return slaveTWC
except KeyError:
pass
slaveTWC = TWCSlave(newSlaveID, maxAmps)
slaveTWCs[newSlaveID] = slaveTWC
slaveTWCRoundRobin.append(slaveTWC)
if(len(slaveTWCRoundRobin) > 3):
print("WARNING: More than 3 slave TWCs seen on network. " \
"Dropping oldest: " + hex_str(slaveTWCRoundRobin[0].TWCID) + ".")
delete_slave(slaveTWCRoundRobin[0].TWCID)
return slaveTWC
def delete_slave(deleteSlaveID):
global slaveTWCs, slaveTWCRoundRobin
for i in range(0, len(slaveTWCRoundRobin)):
if(slaveTWCRoundRobin[i].TWCID == deleteSlaveID):
del slaveTWCRoundRobin[i]
break
try:
del slaveTWCs[deleteSlaveID]
except KeyError:
pass
def total_amps_actual_all_twcs():
global debugLevel, slaveTWCRoundRobin, wiringMaxAmpsAllTWCs
totalAmps = 0
for slaveTWC in slaveTWCRoundRobin:
totalAmps += slaveTWC.reportedAmpsActual
if(debugLevel >= 10):
print("Total amps all slaves are using: " + str(totalAmps))
return totalAmps
def car_api_available(email = None, password = None, charge = None):
global debugLevel, carApiLastErrorTime, carApiErrorRetryMins, \
carApiTransientErrors, carApiBearerToken, carApiRefreshToken, \
carApiTokenExpireTime, carApiVehicles
now = time.time()
apiResponseDict = {}
if(now - carApiLastErrorTime < carApiErrorRetryMins*60):
# It's been under carApiErrorRetryMins minutes since the car API
# generated an error. To keep strain off Tesla's API servers, wait
# carApiErrorRetryMins mins till we try again. This delay could be
# reduced if you feel the need. It's mostly here to deal with unexpected
# errors that are hopefully transient.
# https://teslamotorsclub.com/tmc/threads/model-s-rest-api.13410/page-114#post-2732052
# says he tested hammering the servers with requests as fast as possible
# and was automatically blacklisted after 2 minutes. Waiting 30 mins was
# enough to clear the blacklist. So at this point it seems Tesla has
# accepted that third party apps use the API and deals with bad behavior
# automatically.
if(debugLevel >= 11):
print(time_now() + ': Car API disabled for ' +
str(int(carApiErrorRetryMins*60 - (now - carApiLastErrorTime))) +
' more seconds due to recent error.')
return False
# Tesla car API info comes from https://timdorr.docs.apiary.io/
if(carApiBearerToken == '' or carApiTokenExpireTime - now < 30*24*60*60):
cmd = None
apiResponse = b''
# If we don't have a bearer token or our refresh token will expire in
# under 30 days, get a new bearer token. Refresh tokens expire in 45
# days when first issued, so we'll get a new token every 15 days.
if(carApiRefreshToken != ''):
cmd = 'curl -s -m 60 -X POST -H "accept: application/json" -H "Content-Type: application/json" -d \'' + \
json.dumps({'grant_type': 'refresh_token', \
'client_id': '81527cff06843c8634fdc09e8ac0abefb46ac849f38fe1e431c2ef2106796384', \
'client_secret': 'c7257eb71a564034f9419ee651c7d0e5f7aa6bfbd18bafb5c5c033b093bb2fa3', \
'refresh_token': carApiRefreshToken }) + \
'\' "https://owner-api.teslamotors.com/oauth/token"'
elif(email != None and password != None):
cmd = 'curl -s -m 60 -X POST -H "accept: application/json" -H "Content-Type: application/json" -d \'' + \
json.dumps({'grant_type': 'password', \
'client_id': '81527cff06843c8634fdc09e8ac0abefb46ac849f38fe1e431c2ef2106796384', \
'client_secret': 'c7257eb71a564034f9419ee651c7d0e5f7aa6bfbd18bafb5c5c033b093bb2fa3', \
'email': email, 'password': password }) + \
'\' "https://owner-api.teslamotors.com/oauth/token"'
if(cmd != None):
if(debugLevel >= 2):
# Hide car password in output
cmdRedacted = re.sub(r'("password": )"[^"]+"', r'\1[HIDDEN]', cmd)
print(time_now() + ': Car API cmd', cmdRedacted)
apiResponse = run_process(cmd)
# Example response:
# b'{"access_token":"4720d5f980c9969b0ca77ab39399b9103adb63ee832014fe299684201929380","token_type":"bearer","expires_in":3888000,"refresh_token":"110dd4455437ed351649391a3425b411755a213aa815171a2c6bfea8cc1253ae","created_at":1525232970}'
try:
apiResponseDict = json.loads(apiResponse.decode('ascii'))
except json.decoder.JSONDecodeError:
pass
try:
if(debugLevel >= 4):
print(time_now() + ': Car API auth response', apiResponseDict, '\n')
carApiBearerToken = apiResponseDict['access_token']
carApiRefreshToken = apiResponseDict['refresh_token']
carApiTokenExpireTime = now + apiResponseDict['expires_in']
except KeyError:
print(time_now() + ": ERROR: Can't access Tesla car via API. Please log in again via web interface.")
carApiLastErrorTime = now
# Instead of just setting carApiLastErrorTime, erase tokens to
# prevent further authorization attempts until user enters password
# on web interface. I feel this is safer than trying to log in every
# ten minutes with a bad token because Tesla might decide to block
# remote access to your car after too many authorization errors.
carApiBearerToken = ''
carApiRefreshToken = ''
save_settings()
if(carApiBearerToken != ''):
if(len(carApiVehicles) < 1):
cmd = 'curl -s -m 60 -H "accept: application/json" -H "Authorization:Bearer ' + \
carApiBearerToken + \
'" "https://owner-api.teslamotors.com/api/1/vehicles"'
if(debugLevel >= 8):
print(time_now() + ': Car API cmd', cmd)
try:
apiResponseDict = json.loads(run_process(cmd).decode('ascii'))
except json.decoder.JSONDecodeError:
pass
try:
if(debugLevel >= 4):
print(time_now() + ': Car API vehicle list', apiResponseDict, '\n')
for i in range(0, apiResponseDict['count']):
carApiVehicles.append(CarApiVehicle(apiResponseDict['response'][i]['id']))
except (KeyError, TypeError):
# This catches cases like trying to access
# apiResponseDict['response'] when 'response' doesn't exist in
# apiResponseDict.
print(time_now() + ": ERROR: Can't get list of vehicles via Tesla car API. Will try again in "
+ str(carApiErrorRetryMins) + " minutes.")
carApiLastErrorTime = now
return False
if(len(carApiVehicles) > 0):
# Wake cars if needed
needSleep = False
for vehicle in carApiVehicles:
if(charge == True and vehicle.stopAskingToStartCharging):
if(debugLevel >= 8):
print(time_now() + ": Don't charge vehicle " + str(vehicle.ID)
+ " because vehicle.stopAskingToStartCharging == True")
continue
if(now - vehicle.lastErrorTime < carApiErrorRetryMins*60):
# It's been under carApiErrorRetryMins minutes since the car
# API generated an error on this vehicle. Don't send it more
# commands yet.
if(debugLevel >= 8):
print(time_now() + ": Don't send commands to vehicle " + str(vehicle.ID)
+ " because it returned an error in the last "
+ str(carApiErrorRetryMins) + " minutes.")
continue
if(vehicle.ready()):
continue
if(now - vehicle.lastWakeAttemptTime <= vehicle.delayNextWakeAttempt):
if(debugLevel >= 10):
print(time_now() + ": car_api_available returning False because we are still delaying "
+ str(delayNextWakeAttempt) + " seconds after the last failed wake attempt.")
return False
# It's been delayNextWakeAttempt seconds since we last failed to
# wake the car, or it's never been woken. Wake it.
vehicle.lastWakeAttemptTime = now
cmd = 'curl -s -m 60 -X POST -H "accept: application/json" -H "Authorization:Bearer ' + \
carApiBearerToken + \
'" "https://owner-api.teslamotors.com/api/1/vehicles/' + \
str(vehicle.ID) + '/wake_up"'
if(debugLevel >= 8):
print(time_now() + ': Car API cmd', cmd)
try:
apiResponseDict = json.loads(run_process(cmd).decode('ascii'))
except json.decoder.JSONDecodeError:
pass
state = 'error'
try:
if(debugLevel >= 4):
print(time_now() + ': Car API wake car response', apiResponseDict, '\n')
state = apiResponseDict['response']['state']
except (KeyError, TypeError):
# This catches unexpected cases like trying to access
# apiResponseDict['response'] when 'response' doesn't exist
# in apiResponseDict.
state = 'error'
if(state == 'online'):
# With max power saving settings, car will almost always
# report 'asleep' or 'offline' the first time it's sent
# wake_up. Rarely, it returns 'online' on the first wake_up
# even when the car has not been contacted in a long while.
# I suspect that happens when we happen to query the car
# when it periodically awakens for some reason.
vehicle.firstWakeAttemptTime = 0
vehicle.delayNextWakeAttempt = 0
# Don't alter vehicle.lastWakeAttemptTime because
# vehicle.ready() uses it to return True if the last wake
# was under 2 mins ago.
needSleep = True
else:
if(vehicle.firstWakeAttemptTime == 0):
vehicle.firstWakeAttemptTime = now
if(state == 'asleep' or state == 'waking'):
if(now - vehicle.firstWakeAttemptTime <= 10*60):
# http://visibletesla.com has a 'force wakeup' mode
# that sends wake_up messages once every 5 seconds
# 15 times. This generally manages to wake my car if
# it's returning 'asleep' state, but I don't think
# there is any reason for 5 seconds and 15 attempts.
# The car did wake in two tests with that timing,
# but on the third test, it had not entered online
# mode by the 15th wake_up and took another 10+
# seconds to come online. In general, I hear relays
# in the car clicking a few seconds after the first
# wake_up but the car does not enter 'waking' or
# 'online' state for a random period of time. I've
# seen it take over one minute, 20 sec.
#
# I interpret this to mean a car in 'asleep' mode is
# still receiving car API messages and will start
# to wake after the first wake_up, but it may take
# awhile to finish waking up. Therefore, we try
# waking every 30 seconds for the first 10 mins.
vehicle.delayNextWakeAttempt = 30;
elif(now - vehicle.firstWakeAttemptTime <= 70*60):
# Cars in 'asleep' state should wake within a
# couple minutes in my experience, so we should
# never reach this point. If we do, try every 5
# minutes for the next hour.
vehicle.delayNextWakeAttempt = 5*60;
else:
# Car hasn't woken for an hour and 10 mins. Try
# again in 15 minutes. We'll show an error about
# reaching this point later.
vehicle.delayNextWakeAttempt = 15*60;
elif(state == 'offline'):
if(now - vehicle.firstWakeAttemptTime <= 31*60):
# A car in offline state is presumably not connected
# wirelessly so our wake_up command will not reach
# it. Instead, the car wakes itself every 20-30
# minutes and waits some period of time for a
# message, then goes back to sleep. I'm not sure
# what the period of time is, so I tried sending
# wake_up every 55 seconds for 16 minutes but the
# car failed to wake.
# Next I tried once every 25 seconds for 31 mins.
# This worked after 19.5 and 19.75 minutes in 2
# tests but I can't be sure the car stays awake for
# 30secs or if I just happened to send a command
# during a shorter period of wakefulness.
vehicle.delayNextWakeAttempt = 25;
# I've run tests sending wake_up every 10-30 mins to
# a car in offline state and it will go hours
# without waking unless you're lucky enough to hit
# it in the brief time it's waiting for wireless
# commands. I assume cars only enter offline state
# when set to max power saving mode, and even then,
# they don't always enter the state even after 8
# hours of no API contact or other interaction. I've
# seen it remain in 'asleep' state when contacted
# after 16.5 hours, but I also think I've seen it in
# offline state after less than 16 hours, so I'm not
# sure what the rules are or if maybe Tesla contacts
# the car periodically which resets the offline
# countdown.
#
# I've also seen it enter 'offline' state a few
# minutes after finishing charging, then go 'online'
# on the third retry every 55 seconds. I suspect
# that might be a case of the car briefly losing
# wireless connection rather than actually going
# into a deep sleep.
# 'offline' may happen almost immediately if you
# don't have the charger plugged in.
else:
# Handle 'error' state.
if(now - vehicle.firstWakeAttemptTime <= 60*60):
# We've tried to wake the car for less than an
# hour.
foundKnownError = False
if('error' in apiResponseDict):
error = apiResponseDict['error']
for knownError in carApiTransientErrors:
if(knownError == error[0:len(knownError)]):
foundKnownError = True
break
if(foundKnownError):
# I see these errors often enough that I think
# it's worth re-trying in 1 minute rather than
# waiting 5 minutes for retry in the standard
# error handler.
vehicle.delayNextWakeAttempt = 60;
else:
# We're in an unexpected state. This could be caused
# by the API servers being down, car being out of
# range, or by something I can't anticipate. Try
# waking the car every 5 mins.
vehicle.delayNextWakeAttempt = 5*60;
else:
# Car hasn't woken for over an hour. Try again
# in 15 minutes. We'll show an error about this
# later.
vehicle.delayNextWakeAttempt = 15*60;
if(debugLevel >= 1):
if(state == 'error'):
print(time_now() + ": Car API wake car failed with unknown response. " \
"Will try again in "
+ str(vehicle.delayNextWakeAttempt) + " seconds.")
else:
print(time_now() + ": Car API wake car failed. State remains: '"
+ state + "'. Will try again in "
+ str(vehicle.delayNextWakeAttempt) + " seconds.")
if(vehicle.firstWakeAttemptTime > 0
and now - vehicle.firstWakeAttemptTime > 60*60):
# It should never take over an hour to wake a car. If it
# does, ask user to report an error.
print(time_now() + ": ERROR: We have failed to wake a car from '"
+ state + "' state for %.1f hours.\n" \
"Please private message user CDragon at " \
"http://teslamotorsclub.com with a copy of this error. " \
"Also include this: %s" % (
((now - vehicle.firstWakeAttemptTime) / 60 / 60),
str(apiResponseDict)))
if(now - carApiLastErrorTime < carApiErrorRetryMins*60 or carApiBearerToken == ''):
if(debugLevel >= 8):
print(time_now() + ": car_api_available returning False because of recent carApiLasterrorTime "
+ str(now - carApiLastErrorTime) + " or empty carApiBearerToken '"
+ carApiBearerToken + "'")
return False
if(debugLevel >= 8):
# We return True to indicate there was no error that prevents running
# car API commands and that we successfully got a list of vehicles.
# True does not indicate that any vehicle is actually awake and ready
# for commands.
print(time_now() + ": car_api_available returning True")
if(needSleep):
# If you send charge_start/stop less than 1 second after calling
# update_location(), the charge command usually returns:
# {'response': {'result': False, 'reason': 'could_not_wake_buses'}}
# I'm not sure if the same problem exists when sending commands too
# quickly after we send wake_up. I haven't seen a problem sending a
# command immediately, but it seems safest to sleep 5 seconds after
# waking before sending a command.
time.sleep(5);
return True
def car_api_charge(charge):
# Do not call this function directly. Call by using background thread:
# queue_background_task({'cmd':'charge', 'charge':<True/False>})