def get_health(incoming_msg):
'''
This function is used to consolidate Health information from all of the individual product modules
:param incoming_msg: String. this is the message that is posted in Spark
:return: String. this is a fully formatted string that will be sent back to Spark
'''
retval = ""
# If Meraki environment variables have been enabled, retrieve Meraki health information
if cico_common.meraki_support():
print("Meraki Support Enabled")
retval += cico_meraki.get_meraki_health(incoming_msg, "html")
# If Spark Call environment variables have been enabled, retrieve Spark Call health information
if cico_common.spark_call_support():
print("Spark Call Support Enabled")
if retval != "":
retval += "<br><br>"
retval += cico_spark_call.get_spark_call_health(incoming_msg, "html")
# If Umbrella (S3) environment variables have been enabled, retrieve Umbrella health information
if cico_common.umbrella_support():
print("Umbrella Support Enabled")
if retval != "":
retval += "<br><br>"
retval += cico_umbrella.get_umbrella_health(incoming_msg, "html")
return retval
def get_health(incoming_msg):
retval = ""
if cico_common.meraki_support():
retval += cico_meraki.get_meraki_health(incoming_msg, "html")
if cico_common.spark_call_support():
if retval != "":
retval += "<br><br>"
retval += cico_spark_call.get_spark_call_health(incoming_msg, "html")
if cico_common.umbrella_support():
if retval != "":
retval += "<br><br>"
retval += cico_umbrella.get_umbrella_health(incoming_msg, "html")
return retval
def get_clients(incoming_msg):
'''
This function is used to consolidate Client information from all of the individual product modules
:param incoming_msg: this is the message that is posted in Spark
:return: this is a fully formatted string that will be sent back to Spark
'''
# initialize variables
retm = ""
retsc = ""
retscn = ""
retu = ""
retmsg = ""
devcount = 0
sclients = {}
mclients = {}
uclients = {}
netlist = []
newsmlist = []
# Parse incoming message in order to retrieve the username of the client
cmdlist = incoming_msg.text.split(" ")
client_id = cmdlist[len(cmdlist)-1]
# If Meraki environment variables have been enabled, retrieve Meraki client information
if cico_common.meraki_support():
print("Meraki Support Enabled")
# cico_spark_call.get_spark_call_clients_html(incoming_msg)
mclients = cico_meraki.get_meraki_clients(incoming_msg, "json")
netlist = mclients["client"] # Dashboard Clients
newsmlist = mclients["sm"] # Systems Manager Clients
# If Spark Call environment variables have been enabled, retrieve Spark Call client information
if cico_common.spark_call_support():
print("Spark Call Support Enabled")
# cico_meraki.get_meraki_clients_html(incoming_msg)
sclients = cico_spark_call.get_spark_call_clients(incoming_msg, "json")
# If Umbrella (S3) environment variables have been enabled, retrieve Umbrella client information
if cico_common.umbrella_support():
print("Umbrella Support Enabled")
uclients = cico_umbrella.get_umbrella_clients(incoming_msg, "json")
# Initialize individual product return strings
retm = "<h3>Associated Clients:</h3>"
retsc = "<h3>Collaboration:</h3>"
retsc += "<b>Phones:</b>"
# netlist is a list of all Meraki Networks in the supplied or derived organization. Iterate these, sorted by name.
for net in sorted(netlist):
# netlist[net]["devices"] represents a list of devices in the individual network that is being iterated.
for dev in netlist[net]["devices"]:
# netlist[net]["devices"][dev]["clients"] represents a list of clients attached to a specific device that
# is being iterated.
for cli in netlist[net]["devices"][dev]["clients"]:
# The client should not be a string. If it is for some reason, do not process it.
if not isinstance(cli, str):
# If the description of the client matches the username specified in Spark, and if this specific
# client has a switchport mapping, then continue (duplicate clients from MX security appliances
# will also be in this list, the switchport check is used to exclude those)
if cli["description"] == client_id and "switchport" in cli and cli["switchport"] is not None:
devbase = netlist[net]["devices"][dev]["info"]
# These functions generate the cross-launch links (if available) for the given
# client/device/port
showdev = cico_meraki.meraki_create_dashboard_link("devices", devbase["mac"], devbase["name"], "?timespan=" + meraki_client_to, 0)
showport = cico_meraki.meraki_create_dashboard_link("devices", devbase["mac"], str(cli["switchport"]), "/ports/" + str(cli["switchport"]) + "?timespan=" + meraki_client_to, 1)
showcli = cico_meraki.meraki_dashboard_client_mod(showdev, cli["id"], cli["dhcpHostname"])
if devcount > 0:
retm += "<br>"
devcount += 1
retm += "<i>Computer Name:</i> " + showcli + "<br>"
# Iterate the Systems Manager list to see if the client exists there. Iterate through networks.
if net in newsmlist:
# If this network has any devices, then we will attempt to cross reference the client data
if "devices" in newsmlist[net]:
# Our cross-reference point is mac address, as it will exist in both the dashboard
# clients list as well as the systems manager clients list.
if cli["mac"] in newsmlist[net]["devices"]:
# If we are able to cross-reference, we will add some system-specific and
# OS-specific details from SM
smbase = newsmlist[net]["devices"][cli["mac"]]
retm += "<i>Model:</i> " + smbase["systemModel"] + "<br>"
retm += "<i>OS:</i> " + smbase["osName"] + "<br>"
# Once we've checked for Systems Manager cross references, we will display the rest of the
# client details
retm += "<i>IP:</i> " + cli["ip"] + "<br>"
retm += "<i>MAC:</i> " + cli["mac"] + "<br>"
retm += "<i>VLAN:</i> " + str(cli["vlan"]) + "<br>"
# This creates the description of the switch / port the client is connected to
# --duplicate-- devbase = netlist[net]["devices"][dev]["info"]
retm += "<i>Connected To:</i> " + showdev + " (" + devbase["model"] + "), Port " + showport + "<br>"
# Here, we will also check to see if there is a phone associated to this user. If so, we will
# follow a similar process to determine where the phone is connected and get client details for it.
# If there are phones available, and if the mac address of the client being reviewed currently is
# one of the devices in that list, and if there is a switchport field (again to eliminate
# duplicate MX entries), then we will provide additional information for the phone.
elif "phones" in sclients and cli["mac"] in sclients["phones"] and "switchport" in cli and cli["switchport"] is not None:
devbase = netlist[net]["devices"][dev]["info"]
# These functions generate the cross-launch links (if available) for the given
# client/device/port
showdev = cico_meraki.meraki_create_dashboard_link("devices", devbase["mac"], devbase["name"], "?timespan=" + meraki_client_to, 0)
showport = cico_meraki.meraki_create_dashboard_link("devices", devbase["mac"], str(cli["switchport"]), "/ports/" + str(cli["switchport"]) + "?timespan=" + meraki_client_to, 1)
showcli = cico_meraki.meraki_dashboard_client_mod(showdev, cli["id"], cli["dhcpHostname"])
# No Systems Manager references here, but we will add the cross-referened data for the phone
# itself, like it's mac address, description, and whether it is registered.
scbase = sclients["phones"][cli["mac"]]
retsc += "<br>" + scbase["description"] + " (<i>" + scbase["registrationStatus"] + "</i>)<br>"
retsc += "<i>Device Name:</i> " + showcli + "<br>"
retsc += "<i>IP:</i> " + cli["ip"] + "<br>"
retsc += "<i>MAC:</i> " + cli["mac"] + "<br>"
retsc += "<i>VLAN:</i> " + str(cli["vlan"]) + "<br>"
# This creates the description of the switch / port the client is connected to
retsc += "<i>Connected To:</i> " + showdev + " (" + devbase["model"] + "), Port " + showport + "<br>"
# If there are phone numbers defined in the Spark Call clients list, we want to add that to the output as well.
if "numbers" in sclients:
# There could potentially be multiple numbers, so iterate the list...
for n in sclients["numbers"]:
num = sclients["numbers"][n]
retscn = "<b>Numbers:</b><br>"
# There are also internal and external numbers. Format this data for output based on what is available...
if "external" in num:
retscn += num["external"] + " (x" + num["internal"] + ")\n"
else:
retscn += "Extension " + num["internal"] + "<br>"
# If there are stats in the Umbrella data, we want to add that to the output
retu = "<h3>Umbrella Client Stats (Last 24 hours):</h3><ul>"
if "Aggregate" in uclients:
# This prints the aggregate statistics for this specific client
retu += "<li>Total Requests: " + str(uclients["Aggregate"]["Total"]) + "</li>"
# This prints the malicious and non-malicious stats for the traffic for this client
for x in uclients["Aggregate"]:
if x != "Total":
retu += "<li>" + x + ": " + str(uclients["Aggregate"][x]) + " (" + str(round(uclients["Aggregate"][x] / uclients["Aggregate"]["Total"] * 100, 2)) + "%)</li>"
retu += "</ul></b>"
# If there is malicious traffic, we want to display the last 5 blocked requests
if len(uclients["Blocked"]) > 0:
retu += "<h4>Last 5 Blocked Requests:</h4><ul>"
# Iterate the list of blocked sites, and add that to the output
for x in uclients["Blocked"]:
retu += "<li>" + x["Timestamp"] + " " + x["Domain"] + " " + x["Categories"] + "</li>"
retu += "</ul>"
else:
retu += "<li>No stats available for this user.</li></ul>"
# If Meraki environment variables have been enabled, add Meraki client information to the output
if cico_common.meraki_support():
retmsg += retm
# If we expect more data, add a line (<hr>) to the output to make it more readable
if cico_common.umbrella_support() or cico_common.spark_call_support():
retmsg += "<hr>"
# If Umbrella (S3) environment variables have been enabled, add Umbrella client information to the output
if cico_common.umbrella_support():
retmsg += retu
# If we expect more data, add a line (<hr>) to the output to make it more readable
if cico_common.spark_call_support():
retmsg += "<hr>"
# If Spark Call environment variables have been enabled, add Spark Call client information to the output
if cico_common.spark_call_support():
retmsg += retsc + "<br>" + retscn
return retmsg
sys.exit()
# Create a new bot
bot = SparkBot(bot_app_name,
spark_bot_token=spark_token,
spark_bot_url=bot_url,
spark_bot_email=bot_email,
debug=True)
# Add new command
if cico_common.meraki_support():
bot.add_command('/meraki-health', 'Get health of Meraki environment.',
cico_meraki.get_meraki_health_html)
bot.add_command('/meraki-check', 'Check Meraki user status.',
cico_meraki.get_meraki_clients_html)
if cico_common.spark_call_support():
bot.add_command('/spark-health', 'Get health of Spark environment.',
cico_spark_call.get_spark_call_health_html)
bot.add_command('/spark-check', 'Check Spark user status.',
cico_spark_call.get_spark_call_clients_html)
if cico_common.umbrella_support():
bot.add_command('/umbrella-health', 'Get health of Umbrella envrionment.',
cico_umbrella.get_umbrella_health_html)
bot.add_command('/umbrella-check', 'Check Umbrella user status.',
cico_umbrella.get_umbrella_clients_html)
bot.add_command('/health', 'Get health of entire environment.',
cico_combined.get_health)
bot.add_command('/check', 'Get user status.', cico_combined.get_clients)
# Run Bot
bot.run(host='0.0.0.0', port=5000)