etc/rhel | ||
mdb | ||
wdocs | ||
.gitignore | ||
base64.c | ||
base64.h | ||
config.h.example | ||
config.mk.in | ||
gcache-dump.c | ||
gcache.c | ||
gcache.h | ||
geo.c | ||
geo.h | ||
geohash.c | ||
geohash.h | ||
ghash2lmdb.c | ||
ghashfind.c | ||
http.c | ||
http.h | ||
jget.h | ||
json.c | ||
json.h | ||
LICENSE | ||
Makefile | ||
misc.c | ||
misc.h | ||
mkpath.c | ||
mongoose.c | ||
mongoose.h | ||
ocat.c | ||
ot-recorder.c | ||
README.md | ||
storage.c | ||
storage.h | ||
TODO.md | ||
udata.h | ||
utarray.h | ||
util.c | ||
util.h | ||
utstring.h |
OwnTracks Recorder
recorder
ocat
The ocat utility prints data from the storage which is updated by the recorder, accessing it directly via the file system (not via the recorder's REST API). ocat has a daunting number of options, some combinations of which make no sense at all.
Some example uses we consider useful:
ocat --list
show which uers are in storage.ocat --list --user jjolie
show devices for the specified userocat --user jjolie --device ipad
print JSON data for the user's device produced during the last 6 hours.ocat ... --format csv
produces CSV. Limit the fields you want extracted with--fields lat,lon,cc
for example.ocat ... --limit 10
prints data for the current month, starting now and going backwards; only 10 locations will be printed. Generally, the--limit
option reads the storage back to front which makes no sense in some combinations.
Specifying --fields lat,tid,lon
will request just those JSON elements from storage. (Note that doing so with output GPX or GEOJSON could render those formats useless if, say, `lat is missing in the list of fields.)
Design decisions
We took a number of decisions for the design of the recorder and its utilities:
- Flat files. The filesystem is the database. Period. That's were everything is stored. It makes incremental backups, purging old data, manipulation via the Unix toolset easy. (Admittedly, for fast lookups you can employ LMDB as a cache, but the final word is in the filesystem.) We considered all manner of databases and decided to keep this as simple and lightweight as possible.
- Storage format is typically JSON because it's extensible. If we add an attribute to the JSON published by our apps, you have it right there. There's one slight exception: the monthly logs have a leading timestamp and a relative topic; see below.
- File names are lower case. A user called
JaNe
with a device namedmyPHONe
will be found in a file namedjane/myphone
. - All times are UTC (a.k.a. Zulu or GMT). We got sick and tired of converting stuff back and forth. It is up to the consumer of the data to convert to localtime if need be.
- The recorder does not provide authentication or authorization. Nothing at all. Zilch. Nada. Think about this before making it available on a publicly-accessible IP address. Or rather: don't think about it; just don't do it.
ocat
, the cat program for the recorder uses the same back-end which is used by the API though it accesses it directly (i.e. without resorting to HTTP).
Storage
As mentioned earlier, data is stored in files, and these files are relative to STORAGEDIR
(compiled into the programs or specified as an option). In particular, the following directory structure can exist, whereby directories are created as needed by the recorder:
cards/
, optional, contain user cards.ghash/
, unless disabled, reverse Geo data is collected into an LMDB database located in this directory.last/
contains the last location publish from a device. E.g. Jane's last publish from her iPhone would be inlast/jjolie/iphone/jjolie-iphone.json
.monitor
a file which contains a timestamp and the last received topic (see Monitoring below).msg/
contains messages received by the Messaging system.photos/
optional; contains the binary photos from a card.rec/
the recorder data proper. One subdirectory per user, one subdirectory therein per device. Data files are namedYYYY-MM.rec
(e.g.2015-08.rec
for the data accumulated during the month of August 2015.
Requirements
- libmosquitto
- libCurl
- lmdb unless
HAVE_LMDB
is false.
Installation
- Copy
config.mk.in
toconfig.mk
and select the features you want (defaults should be ok). - Copy
config.h.example
toconfig.h
and edit. - Type
make
Reverse Geo
If not disabled with option -G
, the recorder will attempt to perform a reverse-geo lookup on the location coordinates it obtains. This is stored in LMDB if it can be obtained. If a lookup is not possible, for example because you're over quota, the service isn't available, etc., recorder keeps tracks of the coordinates which could not be resolved in a missing
file:
$ cat store/ghash/missing
u0tfsr3 48.292223 8.274535
u0m97hc 46.652733 7.868803
...
This can be used to subsequently obtain said geo lookups.
Monitoring
In order to monitor the recorder, whenever an MQTT message is received, the recorder will add an epoch timestamp and the last received topic to a file.
The monitor
file is located relative to STORE and contains a single line, the epoch timestamp at the moment of message reception and the topic separated from eachother by a single space:
1439738692 owntracks/jjolie/ipad
ocat
ocat is a CLI driver for recorder: it prints data stored by the recorder in a variety of output formats.
Environment
The following environment variables control ocat's behaviour:
OCAT_FORMAT
can be set to the preferred output format. If unset, JSON is used. The--format
option overrides this setting.OCAT_USERNAME
can be set to the preferred username. The--user
option overrides this environment variable.OCAT_DEVICE
can be set to the preferred device name. The--device
option overrides this environment variable.
nginx
Running the recorder protected by an nginx or Apache server should be possible. This snippet shows how to do it, but you would also add authentication to that.
server {
listen 8080;
server_name 192.168.1.130;
location / {
root html;
index index.html index.htm;
}
# Proxy and upgrade Websocket connection
location /otr/ws {
rewrite ^/otr/(.*) /$1 break;
proxy_pass http://127.0.0.1:8084;
proxy_http_version 1.1;
proxy_set_header Upgrade $http_upgrade;
proxy_set_header Connection "upgrade";
proxy_set_header Host $host;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
}
location /otr/ {
proxy_pass http://127.0.0.1:8084/;
proxy_http_version 1.1;
proxy_set_header Host $host;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
}
}