1ffdccd5175273c2f554b4ef8e2261723bc28472
[EVA-2020-02.git] / doc / location / README.org
1 * Location Logging
2 This document was created by Steven Baltakatei Sandoval on
3 ~2020-06-29T12:14Z~ under a [[https://creativecommons.org/licenses/by-sa/4.0/][Creative Commons BY-SA 4.0 license]]. It
4 was updated by Steven Baltakatei Sandoval on ~2020-07-12T21:04Z~
5 #+TITLE: Ninfacyzga-01 Manual
6 #+AUTHOR: Steven Baltakatei Sandoval
7 #+EMAIL: baltakatei@gmail.com
8 ** Narrative
9 Ninfacyzga-01 records (logs) its position in time and space using a
10 [[https://en.wikipedia.org/wiki/Satellite_navigation_device][GPS receiver]]. The NMEA location data produced by the receiver is
11 converted into the more commonly used GPS data storage formats of GPX
12 and KML. All three types of data are then compressed and encrypted
13 against a set of public keys. The encrypted data is then written to
14 disk. Data produced by the receiver is segmented into 60-second chunks
15 before being processed and written to disk.
16 ** Description
17 *** Hardware
18 **** Raspberry Pi Zero W
19 See the [[https://www.raspberrypi.org/pi-zero-w/][OEM]] webpage for this product.
20 **** PiZ UpTime 2.0
21 See the [[https://alchemy-power.com/piz-uptime-2-0/][OEM]] webpage for this product.
22 *** Software
23 ~bklog~ : A bash script that saves its stdin stream to a tar file. The
24 file may be compressed by ~gzip~ and encrypted by ~age~. It is an
25 executable file contained within this repository at ~exec/bklog~. It
26 should be copied to ~$HOME/.local/bin~.
27
28 ~bkgpslog~ : A legacy bash script similar to ~bklog~ but narrower in
29 scope in that it only records output from ~gpspipe~.
30
31 ~gpsd~ : A background daemon app capable of interfacing with the
32 Ozzmaker BerryGPS-IMU's GPS submodule. Installed and initialized by
33 ~apt~.
34
35 ~gpspipe~ : A command line app that polls ~gpsd~ and produces a stream
36 stdout consisting of GPS data lines in NMEA format. Installed via
37 ~apt~.
38
39 ~gpsbabel~ : A command line app that converts GPS data from one format
40 into another. ~bklog~ may be used to convert NMEA data into GPX and
41 KML. Installed via ~apt~.
42
43 ~gzip~ : A simple command line app that compresses stdin into a
44 smaller stdout stream.
45
46 ~age~ : A simple command line app that encrypts stdin against public
47 keys specified in its options. Produces encrypted stdout. Is an
48 executable file contained within this repository at ~exec/age~. It
49 should be copied to ~$HOME/.local/bin~.
50
51 **** Narrative
52 ~bklog~ may be used to log location data by receiving stdout produced
53 by ~gpspipe~. ~bklog~ contains options that allow file writes to be
54 performed at adjustable time intervals (default: 300 seconds),
55 compressed (with ~gzip~), and encrypted (with ~age~). Files are
56 written in the form of appendages to a ~tar~ archive saved to a
57 specified location. The NMEA data produced by ~gpspipe~ may be
58 processed via a ~gpsbabel~ command string specified as an option to
59 ~bklog~, assuming ~gpsbabel~ is installed.
60
61 *** Output
62
63 Several output file formats have been tested with ~bklog~.
64
65 **** File Formats
66 ***** NMEA
67 See the [[https://en.wikipedia.org/wiki/NMEA_0183][Wikipedia page]] for this. This file format is the default
68 output of the ~gpspipe -r~ command.
69 ***** GPX
70 See the [[https://en.wikipedia.org/wiki/GPS_Exchange_Format][Wikipedia page]] for this. [[http://wiki.gis.com/wiki/index.php/WGS84][WGS84]] is the datum used. An NMEA file
71 may be converted to this format using ~gpsbabel~.
72 ***** KML
73 See the [[https://en.wikipedia.org/wiki/Keyhole_Markup_Language][Wikipedia page]] for this. [[http://wiki.gis.com/wiki/index.php/WGS84][WGS84]] is the datum used. An NMEA file
74 may be converted to this format using ~gpsbabel~.
75
76 **** Encryption Method
77 Files produced by the bkgpslog script are encrypted against a set of
78 public keys using [[https://github.com/FiloSottile/age][~age~]], a simple command line encryption tool
79 selected over ~gpg~ because of ~age~'s deliberate lack of
80 configurability.
81
82 The public keys are bech32 strings supplied as options to bkgpslog
83 when called. The secret key should *NOT* be stored in Ninfacyzga-01.
84
85 If a key pair was generated using ~age-keygen~, then it is an [[https://en.wikipedia.org/wiki/Curve25519][~X25519~]]
86 key pair. See the [[https://age-encryption.org/v1][~age~ Version 1 specification]].
87
88 An ~ssh-rsa~ or ~ssh-ed25519~ SSH public key string may be used instead of
89 the bech32 public key string produced by ~age-keygen~ for convenience.
90
91 Help information for ~age~ is available by running ~$ age --help~.
92 ***** Encryption Commands
93 ****** Encryption through ~age~
94 In order to illustrate how ~bklog~ encrypts files, below is an example
95 command illustrating how ~age~ may be used to encrypt a file.
96
97 #+BEGIN_EXAMPLE
98 $ echo "asdf" | age -r \
99 age1kza7pfshy7xwygf9349zgmk7x53mquvedgw9r98qwyyqhssh830qqjzlsw \
100 > "$HOME/secret_file"
101 #+END_EXAMPLE
102
103 The resulting ~secret-file~ is a binary blob with a plaintext header
104 indicating how the blob was encrypted (which version of age was used,
105 which public key was used).
106
107 ****** Encryption through ~bklog~
108 ~bklog~ may instructed to encrypt files via the ~-e~ and ~-r [pubkey
109 string]~ options. An example is shown below:
110
111 #+BEGIN_EXAMPLE
112 $ gpspipe -r | bklog -e \
113 -r age1kza7pfshy7xwygf9349zgmk7x53mquvedgw9r98qwyyqhssh830qqjzlsw \
114 -r age1ce3pvzrqfcn2pc6zqzglc8ac8yjk3fzukpy08cesqjjwns53xywqmaq7xw \
115 -r age1pu5usxm743sx7rf22985xv2f4s0luzv6r6yx4fa7p8c2zyvp9fvqus2xr5 \
116 -o "$HOME/Location"
117 #+END_EXAMPLE
118
119 ~bklog~ may be instructed via the ~-e~ and ~-R~ options to watch a
120 directory in order to locate public key strings in its files. ~bklog~
121 reads the first line of each file and interprets it as a public key
122 string.
123
124 In this example, the strings beginning with ~age1...~ are
125 bech32-formatted public key strings. Please see the [[*Key Generation][Key Generation]]
126 section for an explanation.
127
128 Since ~age~ also accepts ~ssh~ public key strings, these may also be
129 used if they are of the following form (no comment).
130
131 : ssh-rsa AAAAB3NzaC1yc2EAAAADAQABA…AACAQDLnJbPs7CjwPT+OxXd
132
133 ***** Decryption Commands
134 Files may be decrypted using a command similar to:
135
136 #+BEGIN_EXAMPLE
137 cat location.gpx.age | age -d -i key.txt > location.gpx
138 #+END_EXAMPLE
139
140 The version of ~age~ used to perform the encryption
141
142 ** Operating Procedures
143 *** Initial Startup
144 See OEM (Ozzmaker) [[https://ozzmaker.com/berrygps-berrygps-imu-quick-start-guide/][quickstart guide for the BerryGPS-IMU]].
145
146 **** Physical Setup
147
148 BerryGPS-IMU must be electrically connected to the correct pins on the
149 GPIO header of a Raspberry Pi Zero W.
150
151 *Optional*: stack together with PiZ Uptime 2.0 module. No GPIO pins
152 conflict so a simple stacking and soldering with long header pins is
153 possible.
154
155 **** Software Setup
156 ***** Install Executables
157
158 Install Raspbian 10 Buster onto an SD card image. See the Raspberry Pi
159 Foundation [[https://www.raspberrypi.org/documentation/installation/installing-images/README.md][installation instructions]]. Configure WiFi to permit log
160 file transfer. Configure SSH to permit remote administration via the
161 command line interface.
162
163 Make sure to install the ~unattended-upgrades~ package to make sure
164 the latest security patches for packages are installed. See [[https://linux-audit.com/using-unattended-upgrades-on-debian-and-ubuntu/][this page]]
165 for a description of how ~unattended-upgrades~ works.
166
167 Install ~gpsd~, ~gpspipe~, ~git~, and this repository for location
168 logging capability.
169
170 Install ~syncthing~ for log file transfer capability.
171
172 Place ~age~ binary (the one compiled for ARM CPU architecture for
173 Linux) in ~$HOME/.local/bin~.
174
175 ***** Disable Swap File
176 Since standard Raspbian 10 (Buster) install involves copying
177 unencrypted file system image to SD card which is mounted by the
178 Raspberry Pi, system memory may be written to disk in the form of a
179 Swap file as described [[https://ideaheap.com/2013/07/stopping-sd-card-corruption-on-a-raspberry-pi/][here]]. In order to reduce the chance that
180 location log data is ever written to disk, swap file functionality
181 must be disabled[fn:ideaheap_20130731_disableswap].
182
183 Raspbian 10 uses dphys-swapfile to manage a swap file. It may be
184 disabled persistently[fn:rpf_20190702_disableswappersist] by running
185 the following command:
186
187 : sudo systemctl disable dphys-swapfile.service
188
189 To view the status of the swap file in Raspbian 10, run ~free -m~:
190
191 #+BEGIN_EXAMPLE
192 pi@ninfacyzga-01:~$ free -m
193 total used free shared buff/cache available
194 Mem: 432 86 36 21 309 268
195 Swap: 99 0 99
196 #+END_EXAMPLE
197
198 After disabling the swap file and rebooting:
199
200 #+BEGIN_EXAMPLE
201 pi@ninfacyzga-01:~$ free -m
202 total used free shared buff/cache available
203 Mem: 432 89 214 3 128 289
204 Swap: 0 0 0
205 #+END_EXAMPLE
206
207 [fn:ideaheap_20130731_disableswap] Explanation:
208 https://ideaheap.com/2013/07/stopping-sd-card-corruption-on-a-raspberry-pi/
209
210 [fn:rpf_20190702_disableswappersist] Persistant disabling of swap in
211 Raspbian 10 Buster:
212 https://www.raspberrypi.org/forums/viewtopic.php?p=1490692&sid=5c596a124b7805d6b10dab8d3d7caf16#p1490692
213
214 ***** Automatic Start Configuration
215
216 It is recommended to create a daily ~cron~ job that executes a bash
217 script that starts ~bklog~ jobs to record location along with other
218 types of data recording. An example of such a script is below:
219
220 #+BEGIN_EXAMPLE
221 #!/bin/bash
222
223 # Log location
224 gpspipe -r | /bin/bash "$HOME/.local/bin/bklog" -c -e -z "UTC" -t "/dev/shm" \
225 -r age1kza7pfshy7xwygf9349zgmk7x53mquvedgw9r98qwyyqhssh830qqjzlsw \
226 -r age1ce3pvzrqfcn2pc6zqzglc8ac8yjk3fzukpy08cesqjjwns53xywqmaq7xw \
227 -R "$HOME/.config/bklog/recipients" -w ".nmea" -b "300" -B "day" \
228 -o "$HOME/Sync/Evanescent_Location" -l "location" \
229 -p "gpsbabel -i nmea -f - -o gpx -F - " ".gpx" \
230 -p "gpsbabel -i nmea -f - -o kml -F - " ".kml" &
231 # Log pressure
232 python ~/.local/bin/bmp388.py | /bin/bash "$HOME/git-OC/ninfacyzga-01/exec/bklog" \
233 -c -e -z "UTC" -t "/dev/shm" \
234 -r age1kza7pfshy7xwygf9349zgmk7x53mquvedgw9r98qwyyqhssh830qqjzlsw \
235 -r age1ce3pvzrqfcn2pc6zqzglc8ac8yjk3fzukpy08cesqjjwns53xywqmaq7xw \
236 -R "$HOME/.config/bklog/recipients" -w ".txt" -b "300" -B "day" \
237 -o "$HOME/Sync/Evanescent_Location" -l "pressure" &
238 #+END_EXAMPLE
239
240 This script, if it were saved at
241 ~"$HOME/.local/bin/cron/dailylog.sh"~ would then be added as a
242 line in the ~crontab~ file as shown below:
243
244 #+BEGIN_EXAMPLE
245 $ crontab -e
246 0 0 * * * /bin/bash ~/.local/bin/cron/dailylog.sh
247 @reboot /bin/bash ~/.local/bin/cron/dailylog.sh
248 #+END_EXAMPLE
249
250 In the example script, the options are:
251
252 : -c : tells bklog to compress output
253 : -e : tells bklog log to encrypt output
254 : -r : tells bklog to interpret the next argument as a pubkey string
255 : -R : tells bklog to interpret the next argument as a directory
256 : where public keys may be found (first line of each file is
257 : read).
258 : -o : tells bklog to write output files to the directory represented
259 : -t : tells bklog to interpret the next argument as a directory
260 : for storing temporary files
261 : by the next argument
262 : -p : tells bklog a command string through which output is piped
263 : before being compressed and encrypted. Also expected is a
264 : file extension to be appended before the compression and
265 : encryption file extensions.
266 : -w : tells bklog to save the unprocessed stdin with a specified
267 : file extension (instead of the default '.stdin').
268 : -b : tells bklog how long each buffer round (time between file
269 : writes) lasts in seconds.
270 : -B : specifies the time-to-live for the bklog script. A valid value may
271 : one of the time elements such as "day" or "hour".
272 : -l : specfies a custom string to be used in output file names to
273 : help differentiate tar files produced via bklog from different
274 : sources of data.
275 : -z : specifies a time zone to be used to determine the script time-to-live.
276 : By default, bklog uses whatever time is specified by the TZ
277 : environment variable.
278
279 ***** Log Transfer Configuration
280 Log files may be shared to other machines via ~syncthing~. See [[https://docs.syncthing.net/][this]]
281 manual for how to set up a shared folder and add Ninfacyzga-01 as a
282 device. Syncthing's directory synchronization capability allows a
283 remote machine to delete files from Ninfacyzga-01 by deleting from the
284 shared folder that they both share.
285
286 When log files are removed from Ninfacyzga-01 is not within the scope
287 of this document.
288
289 ***** Key Generation
290 An ~age~ encryption key may be generated like so:
291 #+BEGIN_EXAMPLE
292 $ umask # Gets current umask
293 0022 # Note: This is the default umask for Raspbian 10
294 $ umask 066 # So key.txt will have no perms except for owner (you)
295 $ umask # Confirm umask set to 066
296 0066
297 $ age-keygen > key.txt
298 Public key: age1pu5usxm743sx7rf22985xv2f4s0luzv6r6yx4fa7p8c2zyvp9fvqus2xr5
299 $ ls -al key.txt
300 -rw------- 1 baltakatei baltakatei 184 Jun 29 18:28 key.txt
301 $ umask 0022 # Return umask to default value
302 $ umask
303 0022
304 #+END_EXAMPLE
305
306 The resulting public/private keypair data looks like:
307 #+BEGIN_EXAMPLE
308 $ cat key.txt
309 # created: 2020-06-29T18:01:56Z
310 # public key: age1pu5usxm743sx7rf22985xv2f4s0luzv6r6yx4fa7p8c2zyvp9fvqus2xr5
311 AGE-SECRET-KEY-1NEUU5U2XGZGL9UYWNPU5DL99TGJJHFSN4F2E2WCCSDJJ6L5ZMLESNTVTU0
312 #+END_EXAMPLE
313
314 The file ~key.txt~ is not password-protected by default and should be
315 secured like an SSH public key should. The ~$ umask 066~ command run
316 before the ~$ age-keygen > key.txt~ command ensures ~key.txt~ will not
317 be readable, writeable, or executable to anyone except the owner
318 (you).
319
320 *** Normal Startup
321 Turn on Ninfacyzga-01 by supplying 5VDC power to the Raspberry Pi. No
322 further interaction should be required.
323 *** Normal Operation
324 No interaction beyond continually supplying approximately 100mA of
325 5VDC power and occasionally removing log files to conserve disk space
326 is required.
327 **** Log Transfer
328 Log files may be transferred by use of ~syncthing~ shared folders.
329 **** Automatic Updates
330 The ~automatic-upgrades~ package, if installed, should automatically
331 install security patches to packages installed via ~apt~.
332 *** Normal Shutdown
333 The system may be shutdown via SSH by running:
334
335 : $ sudo shutdown -r 0
336
337 *** Unscheduled Shutdown
338 Ninfacyzga-01 as described and setup should tolerate unscheduled power
339 loss. Log files being written every 60 seconds means, at most, 60
340 seconds worth of location data may be lost.
341 *** End of Life Disposal
342 LiPo batteries used by the PiZ Uptime 2.0 module should be disposed of
343 properly with their potential ignitability in mind, especially if they
344 are not fully discharged.
345
346 Consult your local municipality for its "E-Waste Disposal" (or
347 equivalent) policy. Metals used in the Raspberry Pi and related
348 components may be recycled.
349
350 Take extra precuation if lead solder was used in assembling the
351 electronics. Consumer electronics in early 21st century should use
352 lead-free solder.