Provided by: weakforced-trackalert_2.10.2-1build1_amd64 
NAME
trackalert.conf - configuration file for trackalert daemon
DESCRIPTION
This file is read by trackalert and is a Lua script containing Lua commands to implement (a)
configuration of the trackalert daemon and (b) functions that control the operation of the trackalert
daemon in response to HTTP commands, specifically “report”.
An alternative version of this file can be specified with
trackalert -C private_trackalert.conf ...
CONFIGURATION-ONLY FUNCTIONS
The following functions are for configuration of trackalert only, and cannot be called inside the report
or background functions:
• setACL(<list of netmasks>) - Set the access control list for the HTTP Server. For example, to allow
access from any IP address, specify:
setACL({"0.0.0.0/0"})
• addACL(<netmask>) - Add a netmask to the access control list for the HTTP server. For example, to
allow access from 127.0.0.0/8, specify:
addACL("127.0.0.0/8")
• addCustomWebHook(<custom webhook name>, <config key map>) - Add a custom webhook, i.e. one which can be
called from Lua (using “runCustomWebHook()” - see below) with arbitrary data, using the specified
configuration keys. See trackalert_webhook(5) for the supported config keys, and details of the
HTTP(S) POST sent to webhook URLs. For example:
config_keys={}
config_keys["url"] = "http://webhooks.example.com:8080/webhook/"
config_keys["secret"] = "verysecretcode"
addCustomWebHook("mycustomhook", config_keys)
• addCustomStat(<stat name>) - Add a custom counter which can be used to track statistics. The stats for
custom counters are logged every 5 minutes. The counter is incremented with the “incCustomCounter”
command. For example:
addCustomStat("custom_stat1")
• webserver(<IP:port>, <password>) - (deprecated - see addListener() instead) Listen for HTTP commands on
the specified IP address and port. The password is used to authenticate client connections using basic
authentication. For example:
webserver("0.0.0.0:8084", "super")
• addListener(<IP:port>, <useSSL>, <cert file>, <key file>, <options>) - (replacement for webserver())
Listen for HTTP commands on the specified IP address and port. If useSSL is true, then HTTPS must be
used, and cert_file and key file are used, otherwise they are empty. Options contains a list of key
value pairs to configure the TLS connection; these follow the command line option names in
https://www.openssl.org/docs/manmaster/man3/SSL_CONF_cmd.html. For example, “min_protocol” to set the
minimum TLS protocol version. You can add as many listeners as you choose. For example:
addListener("0.0.0.0:8084", false, "", "", {})
addListener("1.2.3.4:1234", true, "/etc/wforce/cert.pem", "/etc/wforce/key.pem", {minimum_protocol="TLSv1.2"})
addListener("[::1]:9000", true, "/etc/wforce/cert.pem", "/etc/wforce/key.pem", {minimum_protocol="TLSv1.3"})
• setWebserverPassword(<Password>) - (replacement for webserver password parameter) Sets the basic
authentication password for access to the webserver. This has been decoupled from the addListener()
command because multiple listeners can now be created, which was not previously possible. For example:
setWebserverPassword("foobar")
• controlSocket(<IP[:port]>) - Listen for control connections on the specified IP address and port. If
port is not specified it defaults to 5199. For example:
controlSocket("0.0.0.0:4004")
• setKey(<key>) - Use the specified key for authenticating connections from siblings. The key must be
generated with makeKey() from the console. See trackalert(1) for instructions on running a console
client. Returns false if the key could not be set (e.g. invalid base64). For example:
if not setKey("Ay9KXgU3g4ygK+qWT0Ut4gH8PPz02gbtPeXWPdjD0HE=")
then
...
• setNumLuaStates(<num states>) - Set the number of Lua Contexts that will be created to run report
commands. Defaults to 10 if not specified. See also setNumReportThreads() and
setNumSchedulerThreads(). Should be at least equal to NumReportThreads + NumSchedulerThreads. For
example:
setNumLuaStates(10)
• setNumWorkerThreads(<num threads>) - Set the number of threads in the pool used to receive webserver
commands. Note that the report function itself is run in a separate report thread pool controlled by
setNumReportThreads(). Defaults to 4 if not specified. For example:
setNumWorkerThreads(4)
• setMaxWebserverConns(<max conns>) - Set the maximum number of active connections to the webserver.
This can be used to limit the effect of too many queries to trackalert. It defaults to 10,000. For
example:
setMaxWebserverConns(5000)
• setNumReportThreads(<num threads>) - Set the number of threads in the pool used to run Lua report
functions. Each thread uses a separate Lua Context, (see setNumLuaStates()). Defaults to 6 if not
specified. For example:
setNumReportThreads(6)
• setNumSchedulerThreads(<num threads>) - Set the number of threads in the pool used to run scheduled
background Lua functions. Each thread uses a separate Lua Context, the number of which is set with
setNumLuaStates(). Defaults to 4 if not specified. For example:
setNumSchedulerThreads(2)
• setNumWebHookThreads(<num threads>) - Set the number of threads in the pool used to send webhook
events. Defaults to 4 if not specified. For example:
setNumWebHookThreads(2)
• newGeoIP2DB(<db name>, <filename>) - Opens and initializes a GeoIP2 database. A name must be chosen,
and the filename of the database to open must also be supplied. To obtain an object allowing lookups
to be performed against the database, use the getGeoIP2DB() function. For example:
newGeoIP2DB("CityDB", "/usr/share/GeoIP/GeoLite2-City.mmdb")
• initGeoIPDB() - (Deprecated - use newGeoIP2DB()). Initializes the country-level IPv4 and IPv6 GeoIP
databases. If either of these databases is not installed, this command will fail and trackalert will
not start. For example:
initGeoIPDB()
• initGeoIPCityDB() - (Deprecated - use newGeoIP2DB()). Initializes the city-level IPv4 and IPv6 GeoIP
databases. If either of these databases is not installed, this command will fail and trackalert will
not start. Ensure these databases have the right names if you’re using the free/lite DBs - you may
need to create symbolic links e.g. GeoIPCityv6.dat -> GeoLiteCityv6.dat. For example:
initGeoIPCityDB()
• initGeoIPISPDB() - (Deprecated - use newGeoIP2DB()). Initializes the ISP-level IPv4 and IPv6 GeoIP
databases. If either of these databases is not installed, this command will fail and trackalert will
not start. For example:
initGeoIPISPDB()
• setNumWebHookThreads(<num threads>) - Set the number of threads in the pool used to send webhook
events. Defaults to 5 if not specified. For example:
setNumWebHookThreads(2)
• setNumWebHookConnsPerThread(<num conns>) - Set the maximum number of connections used by each WebHook
thread. Defaults to 10 if not specified. This setting replaces the deprecated “num_conns” per-hook
configuration setting. For example:
setNumWebHookConnsPerThread(50)
• setWebHookQueueSize(<queue size>) - Set the size of the queue for webhook events. If the queue gets
too big, then webhooks will be discarded, and an error will be logged. The default queue size is
50000, which should be appropriate for most use-cases.
setWebHookQueueSize(100000)
• setWebHookTimeoutSecs(<timeout secs>) - Set the maximum time a request can take for webhooks. For
example:
setWebHookTimeoutSecs(2)
• setReport(<report func>) - Tell trackalert to use the specified Lua function for handling all “report”
commands. For example:
setReport(report)
• setBackground(<name>, <lua function> - The setBackground function registers a background function with
a given name. The name is used when scheduling the function using the xxxScheduleBackgroundFunc()
functions.
setBackground("mybg", backgroundFunc)
• cronScheduleBackgroundFunc(<cron string>, <background function name>) - Tells trackalert to run the
specified function according to the given cron schedule (note the name given in setBackground() is
used, not the actual function name). Note that cron ranges are not currently supported - if you want
to schedule the same function to run for example on two different days of the week, then you would use
two different calls to this function to achieve that. For example:
cronScheduleBackgroundFunc("0 0 1 * *", "mybg")
cronScheduleBackgroundFunc("0 0 6 * *", "mybg")
• intervalScheduleBackgroundFunc(<duration string>, <background function name>) - Tells trackalert to run
the specified function at the interval given in duration string. The duration string is of the format
h[h][:mm][:ss], so for example “10” would indicate an interval of 10 hours, “00:00:01” would indicate
an interval of 1 second, and “5:01” would indicate an interval of 5 hours and 1 minute. For example:
intervalScheduleBackgroundFunc("00:30:00", "mybg")
intervalScheduleBackgroundFunc("24", "mybg")
• setCustomEndpoint(<name of endpoint>, <custom lua function>) - Create a new custom REST endpoint with
the given name, which when invoked will call the supplied custom lua function. This allows admins to
arbitrarily extend the trackalert REST API with new REST endpoints. Admins can create as many custom
endpoints as they require. Custom endpoints can only be accessed via a POST method, and all arguments
are passed as key-value pairs of a top-level “attrs” json object (these will be split into two tables -
one for single-valued attrs, and the other for multi-valued attrs - see CustomFuncArgs below). Return
information is passed with a boolean “success” and “r_attrs” json object containing return key-value
pairs. For example:
function custom(args)
for k,v in pairs(args.attrs) do
infoLog("custom func argument attrs", { key=k, value=v });
end
-- return consists of a boolean, followed by { key-value pairs }
return true, { key=value }
end
setCustomEndpoint("custom", custom)
• disableCurlPeerVerification() - Disable checking of peer certificates in all outbound HTTPS
connections. This is not recommended except for debugging or development purposes. For example:
disableCurlPeerVerification()
• disableCurlHostVerification() - Disable checking of the hostname in the peer certificate for all
outbound HTTPS connections. This is not recommended except for debugging or development purposes.
disableCurlHostVerification()
• setCurlCABundleFile(<Path to CA File>) - Gives the location of a file containing the certificate
authorities to use for checking HTTPS server certificates. Use this if the standard installed root
certs do not contain the certs you need. This should be a file containing 1:N certs in PEM format.
setCurlCABundleFile("/etc/ca/local_cas.pem")
• setCurlClientCertAndKey(<Path to Cert File>, <Path to Key File>) - Gives the location of the
certificate and key files to use for mutual TLS authentication (in PEM format).
setCurlClientCertAndKey("/etc/certs/clientcert.pem", "/etc/certs/clientkey.pem")
• setMetricsNoPassword() - Disable password protection for the /metrics endpoint.
GENERAL FUNCTIONS
The following functions are available anywhere; either as part of the configuration or within the
allow/report/reset functions:
• getGeoIP2DB(<db name>) - Return an object which can be used to perform GeoIP lookups. The database
must first be initialised using newGeoIP2DB(). For example:
local citydb = getGeoIP2DB("CityDB")
• GeoIP2DB:lookupCountry(<ComboAddress>) - Returns the two-character country code of the country that the
IP address is located in. A ComboAddress object can be created with the newCA() function. For
example:
my_country = countrydb:lookupCountry(newCA("8.8.8.8"))
my_country = countrydb:lookupCountry(lt.remote)
• GeoIP2DB:lookupISP(<ComboAddress>) - Returns the name of the ISP hosting the IP address. A
ComboAddress object can be created with the newCA() function. For example:
local my_isp = ispdb:lookupISP(newCA("128.243.16.21"))
• GeoIP2DB:lookupCity(<ComboAddress>) - Returns a map containing information about the IP address, such
as the city name and latitude and longitude. See GeoIPRecord below for the full list of fields. For
example:
local gip_record = citydb:lookupCity(lt.remote)
local my_city = gip_record.city
local my_latitude = gip_record.latitude
• lookupCountry(<ComboAddress>) - (Deprecated - use the new GeoIP2 function). Returns the two-character
country code of the country that the IP address is located in. A ComboAddress object can be created
with the newCA() function. For example:
my_country = lookupCountry(my_ca)
• lookupISP(<ComboAddress>) - (Deprecated - use the new GeoIP2 function). Returns the name of the ISP
hosting the IP address. A ComboAddress object can be created with the newCA() function. For example:
local my_isp = lookupISP(newCA("128.243.16.21"))
• lookupCity(<ComboAddress>) - (Deprecated - use the new GeoIP2 function). Returns a map containing
information about the IP address, such as the city name and latitude and longitude. See GeoIPRecord
below for the full list of fields. For example:
local gip_record = lookupCity(lt.remote)
local my_city = gip_record.city
local my_latitude = gip_record.latitude
• newCA(<IP[:port]>) - Create and return an object representing an IP address (v4 or v6) and optional
port. The object is called a ComboAddress. For example:
my_ca = newCA("192.128.12.82")
• ComboAddress:tostring() - Return a string representing the IP address. For example:
mystr = my_ca:tostring()
• newNetmaskGroup() - Return a NetmaskGroup object, which is a way to efficiently match IPs/subnets
against a range. For example:
mynm = newNetmaskGroup()
• NetmaskGroup:addMask(<cidr>) - Add a mask to the NetmaskGroup, in cidr format. For example:
mynm:addMask("182.22.0.0/16")
• NetmaskGroup:match(<ip address>) - Match an IP address against a NetmaskGroup. The IP address must be
a ComboAddress object. For example:
if (mynm.match(lt.remote))
then
print("ip address matched")
end
• runCustomWebHook(<custom webhook name>, <webhook data>) - Run a previously configured custom webhook,
using the supplied webhook data. By default the Content-Type of the data is “application/json”,
however this can be changed using the “content-type” config key when configuring the custom webhook.
Custom webhooks are run using the same thread pool as normal webhooks. For example:
runCustomWebHook(mycustomhook", "{ \"foo\":\"bar\" }")
• infoLog(<log string>, <key-value map>) - Log at LOG_INFO level the specified string, adding “key=value”
strings to the log for all the kvs specified in the key-value map. For example:
infoLog("Logging is very important", { logging=1, foo=bar })
• vinfoLog(<log string>, <key-value map>) - Log at LOG_INFO level the specified string, adding
“key=value” strings to the log for all the kvs specified in the key-value map, but only if trackalert
was started with the (undocumented) -v flag (for verbose). For example:
vinfoLog("Logging is very important", { logging=1, foo=bar })
• warnLog(<log string>, <key-value map>) - Log at LOG_WARN level the specified string, adding “key=value”
strings to the log for all the kvs specified in the key-value map. For example:
warnLog("Logging is very important", { logging=1, foo=bar })
• errorLog(<log string>, <key-value map>) - Log at LOG_ERR level the specified string, adding “key=value”
strings to the log for all the kvs specified in the key-value map. For example:
errorLog("Logging is very important", { logging=1, foo=bar })
• debugLog(<log string>, <key-value map>) - Log at LOG_DEBUG level the specified string, adding
“key=value” strings to the log for all the kvs specified in the key-value map, but only if trackalert
was started with the (undocumented) -v flag (for verbose). For example:
debugLog("This will only log if trackalert is started with -v", { logging=1, foo=bar })
• LoginTuple - The only parameter to the report function is a LoginTuple table. This table contains the
following fields:
• LoginTuple.remote - An IP address of type ComboAddress, representing the system performing login.
• LoginTuple.login - The username of the user performing the login.
• LoginTuple.pwhash - A hashed representation of the users password
• LoginTuple.success - Whether the user login was successful.
• LoginTuple.policy_reject - If the login was not successful only because of a policy-based reject from
trackalert (i.e. the username and password were correct).
• LoginTuple.attrs - Additional array of (single valued) attributes about the login, e.g. information
about the user from LDAP. For example:
for k, v in pairs(lt.attrs) do
if (k == "xxx")
then
-- do something
end
end
• LoginTuple.attrs_mv - Additional array of (multi-valued) attributes about the login. For example:
for k, v in pairs(lt.attrs_mv) do
for i, vi in ipairs(v) do
if ((k == "xxx") and (vi == "yyy"))
then
-- do something
end
end
end
• LoginTuple.device_id - An optional string that represents the device that the user logged in from.
Also see device_attrs.
• LoginTuple.device_attrs - Additional array of attributes about the device, which is parsed from the
device_id string. The protocol string is used to determine how to parse device_id, so that MUST also
be present. If device_attrs is already populated, it will be used as-is. For all protocols, the
following keys are set wherever possible: os.family, os.major, os.minor. For http, the following
additional keys are set wherever possible: device.family, device.model, device.brand, browser.family,
browser.major, browser.minor. For imap, the following additional keys are set wherever possible:
imapc.family, imapc.major, imapc.minor. For mobileapi, the following additional keys are set:
app.name, app.brand, app.major, app.minor, device.family. For example:
if (lt.device_attrs["os.family"] == "Mac OS X")
then
-- do something special for macOS
end
• LoginTuple.protocol - A string representing the protocol that was used to access mail, i.e. http, imap,
pop3, mobileapi etc. LoginTuple.protocol MUST be set in order to parse device_id into device_attrs,
however currently only http, imap and mobileapi are recognized protocols when parsing device_id. For
example:
if (lt.protocol == "http")
then
-- do something
end
• LoginTuple.tls - A boolean representing whether the login session used TLS or not. If the client is
using TLS offload proxies then it may be set to false.
• GeoIPRecord - The type returned by the lookupCity() function. See below for fields:
• GeoIPRecord.country_code - The two-letter country code e.g. “US”.
• GeoIPRecord.country_name - The country name, e.g. “United States”
• GeoIPRecord.region - The region, e.g. “CA”
• GeoIPRecord.city - The city name, e.g. “Mountain View”
• GeoIPRecord.postal_code - The postal code, e.g. “93102” or “BA216AS”
• GeoIPRecord.latitude - The latitude, e.g. 37.386001586914
• GeoIPRecord.longitude - The longitude, e.g. -122.08380126953
• CustomFuncArgs - The only parameter to custom functions is a CustomFuncArgs table. This table contains
the following fields:
• CustomFuncArgs.attrs - Array of (single valued) attributes supplied by the caller. For example:
for k, v in pairs(args.attrs) do
if (k == "xxx")
then
-- do something
end
end
• CustomFuncArgs.attrs_mv - Array of (multi-valued) attributes supplied by the caller. For example:
for k, v in pairs(args.attrs_mv) do
for i, vi in ipairs(v) do
if ((k == "xxx") and (vi == "yyy"))
then
-- do something
end
end
end
• incCustomStat(<stat name>) - Increment a custom statistics counter. The value of the counter will be
logged every 5 minutes, and then reset. For example:
incCustomStat("custom_stat1")
FILES
/etc/wforce/trackalert.conf
SEE ALSO
trackalert(1)
AUTHORS
Open-Xchange.
2018 TRACKALERT.CONF(5)