test(bkgpslog):More PID testing
[EVA-2020-02.git] / exec / bkgpslog
1 #!/bin/bash
2
3 # Desc: Records gps data until midnight
4 # Author: Steven Baltakatei Sandoval; License: GPLv3+
5 # Usage: bkgpslog -o [output dir]
6
7 #==BEGIN Define script parameters==
8 ## Logging Behavior parameters
9 BUFFER_TTL="300"; # time between file writes
10 SCRIPT_TTL_TE="day"; # (day|hour)
11 #### TZ="UTC"; export TZ; # Default time zone; overridden by '--time-zone=[str]' option
12 DIR_TMP_DEFAULT="/dev/shm"; # Default parent of working directory
13
14 SCRIPT_TIME_START=$(date +%Y%m%dT%H%M%S.%N);
15 PATH="$HOME/.local/bin:$PATH"; # Add "$(systemd-path user-binaries)" path in case apps saved there
16 SCRIPT_HOSTNAME=$(hostname); # Save hostname of system running this script.
17 SCRIPT_VERSION="0.4.4-alpha"; # Define version of script.
18 SCRIPT_NAME="bkgpslog"; # Define basename of script file.
19 SCRIPT_URL="https://gitlab.com/baltakatei/ninfacyzga-01"; # Define wesite hosting this script.
20 AGE_VERSION="1.0.0-beta2"; # Define version of age (encryption program)
21 AGE_URL="https://github.com/FiloSottile/age/releases/tag/v1.0.0-beta2"; # Define website hosting age.
22
23 declare -Ag appRollCall # Associative array for storing app status
24 declare -Ag fileRollCall # Associative array for storing file status
25 declare -Ag dirRollCall # Associative array for storing dir status
26 declare -a argRecPubKeys # for processArguments function
27 # declare -a errorHistory # for correcting buffer lag
28
29 ## Initialize variables
30 OPTION_VERBOSE=""; OPTION_ENCRYPT=""; OPTION_COMPRESS=""; OPTION_TMPDIR="";
31 errReset=0; BUFFER_TTL_ADJ_FLOAT="";
32
33 #===BEGIN Declare local script functions===
34 checkapp() {
35 # Desc: If arg is a command, save result in assoc array 'appRollCall'
36 # Usage: checkapp arg1 arg2 arg3 ...
37 # Input: global assoc. array 'appRollCall'
38 # Output: adds/updates key(value) to global assoc array 'appRollCall'
39 local returnState
40 #echo "DEBUG:$(date +%S.%N)..Starting checkapp function."
41 #echo "DEBUG:args: $@"
42 #echo "DEBUG:returnState:$returnState"
43
44 #===Process Args===
45 for arg in "$@"; do
46 #echo "DEBUG:processing arg:$arg"
47 if command -v "$arg" 1>/dev/null 2>&1; then # Check if arg is a valid command
48 appRollCall[$arg]="true";
49 #echo "DEBUG:appRollCall[$arg]:"${appRollCall[$arg]}
50 if ! [ "$returnState" = "false" ]; then returnState="true"; fi
51 else
52 appRollCall[$arg]="false"; returnState="false";
53 fi
54 done
55
56 #for key in "${!appRollCall[@]}"; do echo "DEBUG:$key => ${appRollCall[$key]}"; done
57 #echo "DEBUG:evaluating returnstate. returnState:"$returnState
58
59 #===Determine function return code===
60 if [ "$returnState" = "true" ]; then
61 #echo "DEBUG:checkapp returns true for $arg";
62 return 0;
63 else
64 #echo "DEBUG:checkapp returns false for $arg";
65 return 1;
66 fi
67 } # Check that app exists
68 checkfile() {
69 # Desc: If arg is a file path, save result in assoc array 'fileRollCall'
70 # Usage: checkfile arg1 arg2 arg3 ...
71 # Input: global assoc. array 'fileRollCall'
72 # Output: adds/updates key(value) to global assoc array 'fileRollCall';
73 # Output: returns 0 if app found, 1 otherwise
74 local returnState
75
76 #===Process Args===
77 for arg in "$@"; do
78 #echo "DEBUG:processing arg:$arg"
79 if [ -f "$arg" ]; then
80 fileRollCall["$arg"]="true";
81 #echo "DEBUG:fileRollCall[\"$arg\"]:"${fileRollCall["$arg"]}
82 if ! [ "$returnState" = "false" ]; then returnState="true"; fi
83 else
84 fileRollCall["$arg"]="false"; returnState="false";
85 fi
86 done
87
88 #for key in "${!fileRollCall[@]}"; do echo "DEBUG:fileRollCall key [$key] is:${fileRollCall[$key]}"; done
89 #echo "DEBUG:evaluating returnstate. returnState:"$returnState
90
91 #===Determine function return code===
92 if [ "$returnState" = "true" ]; then
93 #echo "DEBUG:checkapp returns true for $arg";
94 return 0;
95 else
96 #echo "DEBUG:checkapp returns false for $arg";
97 return 1;
98 fi
99 } # Check that file exists
100 checkdir() {
101 # Desc: If arg is a dir path, save result in assoc array 'dirRollCall'
102 # Usage: checkdir arg1 arg2 arg3 ...
103 # Input: global assoc. array 'dirRollCall'
104 # Output: adds/updates key(value) to global assoc array 'dirRollCall';
105 # Output: returns 0 if app found, 1 otherwise
106 local returnState
107
108 #===Process Args===
109 for arg in "$@"; do
110 #echo "DEBUG:processing arg:$arg"
111 if [ -d "$arg" ]; then
112 dirRollCall["$arg"]="true";
113 #echo "DEBUG:dirRollCall[\"$arg\"]:"${dirRollCall["$arg"]}
114 if ! [ "$returnState" = "false" ]; then returnState="true"; fi
115 elif [ "$arg" = "" ]; then
116 dirRollCall["$arg"]="false"; returnState="false";
117 else
118 returnState="false";
119 fi
120 done
121
122 #for key in "${!dirRollCall[@]}"; do echo "DEBUG:dirRollCall key [$key] is:${dirRollCall[$key]}"; done
123 #echo "DEBUG:evaluating returnstate. returnState:"$returnState
124
125 #===Determine function return code===
126 if [ "$returnState" = "true" ]; then
127 #echo "DEBUG:checkapp returns true for $arg";
128 return 0;
129 else
130 #echo "DEBUG:checkapp returns false for $arg";
131 return 1;
132 fi
133 } # Check that dir exists
134
135 # Yell, Die, Try Three-Fingered Claw technique
136 # Ref/Attrib: https://stackoverflow.com/a/25515370
137 yell() { echo "$0: $*" >&2; }
138 die() { yell "$*"; exit 111; }
139 try() { "$@" || die "cannot $*"; }
140
141 echoerr() {
142 echo "$@" 1>&2; # Define stderr echo function.
143 } # Define stderr message function.
144 showUsage() {
145 echoerr "USAGE:"
146 echoerr " bkgpslog [ options ]"
147 echoerr
148 echoerr "OPTIONS:"
149 echoerr " -h, --help"
150 echoerr " Display help information."
151 echoerr " --version"
152 echoerr " Display script version."
153 echoerr " -v, --verbose"
154 echoerr " Display debugging info."
155 echoerr " -e, --encrypt"
156 echoerr " Encrypt output."
157 echoerr " -r, --recipient [ string pubkey ]"
158 echoerr " Specify recipient. May be age or ssh pubkey."
159 echoerr " May be specified multiple times for multiple pubkeys."
160 echoerr " See https://github.com/FiloSottile/age"
161 echoerr " -o, --output [ path dir ]"
162 echoerr " Specify output directory to save logs."
163 echoerr " -c, --compress"
164 echoerr " Compress output with gzip (before encryption if enabled)."
165 echoerr " -z, --time-zone"
166 echoerr " Specify time zone. (ex: \"America/New_York\")"
167 echoerr " -t, --temp-dir [path dir]"
168 echoerr " Specify parent directory for temporary working directory."
169 echoerr " Default: \"/dev/shm\""
170 echoerr " -R, --recipient-dir [path dir]"
171 echoerr " Specify directory containing files whose first lines are"
172 echoerr " to be interpreted as pubkey strings (see \\'-r\\' option)."
173 echoerr " -b, --buffer-ttl [integer]"
174 echoerr " Specify custom buffer period in seconds (default: 300 seconds)"
175 echoerr " -B, --script-ttl [integer]"
176 echoerr " Specify custom script time-to-live in seconds (default: \"day\")"
177 echoerr
178 echoerr "EXAMPLE: (bash script lines)"
179 echoerr "/bin/bash bkgpslog -v -e -c \\"
180 echoerr "-z \"UTC\" -t \"/dev/shm\" \\"
181 echoerr "-r age1mrmfnwhtlprn4jquex0ukmwcm7y2nxlphuzgsgv8ew2k9mewy3rs8u7su5 \\"
182 echoerr "-r age1ala848kqrvxc88rzaauc6vc5v0fqrvef9dxyk79m0vjea3hagclswu0lgq \\"
183 echoerr "-o ~/Sync/Location"
184 } # Display information on how to use this script.
185 showVersion() {
186 echoerr "$SCRIPT_VERSION"
187 } # Display script version.
188 vbm() {
189 # Usage: vbm "DEBUG:verbose message here"
190 # Description: Prints verbose message ("vbm") to stderr if OPTION_VERBOSE is set to "true".
191 # Input:
192 # - OPTION_VERBOSE variable set by processArguments function. (ex: "true", "false")
193 # - "$@" positional arguments fed to this function.
194 # Output: stderr
195 # Script function dependencies: echoerr
196 # External function dependencies: echo
197 # Last modified: 2020-04-11T23:57Z
198 # Last modified by: Steven Baltakatei Sandoval
199 # License: GPLv3+
200 # Ref./Attrib:
201
202 if [ "$OPTION_VERBOSE" = "true" ]; then
203 FUNCTION_TIME=$(date --iso-8601=ns); # Save current time in nano seconds.
204 echoerr "[$FUNCTION_TIME] ""$*"; # Display argument text.
205 fi
206
207 # End function
208 return 0; # Function finished.
209 } # Verbose message display function.
210 processArguments() {
211 while [ ! $# -eq 0 ]; do # While number of arguments ($#) is not (!) equal to (-eq) zero (0).
212 #echoerr "DEBUG:Starting processArguments while loop."
213 #echoerr "DEBUG:Provided arguments are:""$*"
214 case "$1" in
215 -h | --help) showUsage; exit 1;; # Display usage.
216 --version) showVersion; exit 1;; # Show version
217 -v | --verbose) OPTION_VERBOSE="true"; vbm "DEBUG:Verbose mode enabled.";; # Enable verbose mode.
218 -o | --output) if [ -d "$2" ]; then DIR_OUT="$2"; vbm "DEBUG:DIR_OUT:$DIR_OUT"; shift; fi ;; # Define output directory.
219 -e | --encrypt) OPTION_ENCRYPT="true"; vbm "DEBUG:Encrypted output mode enabled.";; # Enable encryption
220 -r | --recipient) OPTION_RECIPIENTS="true"; argRecPubKeys+=("$2"); vbm "STATUS:pubkey added:""$2"; shift;; # Add recipients
221 -c | --compress) OPTION_COMPRESS="true"; vbm "DEBUG:Compressed output mode enabled.";; # Enable compression
222 -z | --time-zone) try setTimeZoneEV "$2"; shift;; # Set timestamp timezone
223 -t | --temp-dir) OPTION_TMPDIR="true" && argTempDirPriority="$2"; shift;; # Set time zone
224 -R | --recipient-dir) OPTION_RECIPIENTS="true"; OPTION_RECDIR="true" && argRecDir="$2"; shift;; # Add recipient watch dir
225 -b | --buffer-ttl) OPTION_CUSTOM_BUFFERTTL="true" && argCustomBufferTTL="$2"; shift;; # Set custom buffer period (default: 300 seconds)
226 -B | --script-ttl) OPTION_CUSTOM_SCRIPTTTL_TE="true" && argCustomScriptTTL="$2"; shift;; # Set custom script TTL (default: "day")
227 *) echoerr "ERROR: Unrecognized argument: $1"; echoerr "STATUS:All arguments:$*"; exit 1;; # Handle unrecognized options.
228 esac
229 shift
230 done
231 } # Argument Processing
232 setTimeZoneEV(){
233 # Desc: Set time zone environment variable TZ
234 # Usage: setTimeZoneEV arg1
235 # Input: arg1: 'date'-compatible timezone string (ex: "America/New_York")
236 # TZDIR env var (optional; default: "/usr/share/zoneinfo")
237 # Output: exports TZ
238 # exit code 0 on success
239 # exit code 1 on incorrect number of arguments
240 # exit code 2 if unable to validate arg1
241 # Depends: yell, printenv, bash 5
242 # Tested on: Debian 10
243 ARG1="$1"
244 local tzDir returnState
245 if ! [[ $# -eq 1 ]]; then
246 yell "ERROR:Invalid argument count.";
247 return 1;
248 fi
249
250 # Read TZDIR env var if available
251 if printenv TZDIR 1>/dev/null 2>&1; then
252 tzDir="$(printenv TZDIR)";
253 else
254 tzDir="/usr/share/zoneinfo";
255 fi
256
257 # Validate TZ string
258 if ! [[ -f "$tzDir"/"$ARG1" ]]; then
259 yell "ERROR:Invalid time zone argument.";
260 return 2;
261 else
262 # Export ARG1 as TZ environment variable
263 TZ="$ARG1" && export TZ && returnState="true";
264 fi
265
266 # Determine function return code
267 if [ "$returnState" = "true" ]; then
268 return 0;
269 fi
270 } # Exports TZ environment variable
271 timeUntilNextDay(){
272 # Desc: Report seconds until next day.
273 # Version: 1.0.0
274 # Output: stdout: integer seconds until next day
275 # Output: exit code 0 if stdout > 0; 1 if stdout = 0; 2 if stdout < 0
276 # Usage: timeUntilNextDay
277 # Usage: if ! myTTL="$(timeUntilNextDay)"; then yell "ERROR in if statement"; exit 1; fi
278 # Depends: date 8, echo 8, yell, try
279
280 local returnState TIME_CURRENT TIME_NEXT_DAY SECONDS_UNTIL_NEXT_DAY
281
282 TIME_CURRENT="$(date --iso-8601=seconds)" ; # Produce `date`-parsable current timestamp with resolution of 1 second.
283 TIME_NEXT_DAY="$(date -d "$TIME_CURRENT next day" --iso-8601=date)"; # Produce timestamp of beginning of tomorrow with resolution of 1 second.
284 SECONDS_UNTIL_NEXT_DAY="$(( $(date +%s -d "$TIME_NEXT_DAY") - $(date +%s -d "$TIME_CURRENT") ))" ; # Calculate seconds until closest future midnight (res. 1 second).
285 if [[ "$SECONDS_UNTIL_NEXT_DAY" -gt 0 ]]; then
286 returnState="true";
287 elif [[ "$SECONDS_UNTIL_NEXT_DAY" -eq 0 ]]; then
288 returnState="warning_zero";
289 yell "WARNING:Reported time until next day exactly zero.";
290 elif [[ "$SECONDS_UNTIL_NEXT_DAY" -lt 0 ]]; then
291 returnState="warning_negative";
292 yell "WARNING:Reported time until next day is negative.";
293 fi
294
295 try echo "$SECONDS_UNTIL_NEXT_DAY"; # Report
296
297 # Determine function return code
298 if [[ "$returnState" = "true" ]]; then
299 return 0;
300 elif [[ "$returnState" = "warning_zero" ]]; then
301 return 1;
302 elif [[ "$returnState" = "warning_negative" ]]; then
303 return 2;
304 fi
305 } # Report seconds until next day
306 timeUntilNextHour(){
307 # Desc: Report seconds until next hour
308 # Version 1.0.0
309 # Output: stdout: integer seconds until next hour
310 # Output: exit code 0 if stdout > 0; 1 if stdout = 0; 2 if stdout < 0
311 # Usage: timeUntilNextHour
312 # Usage: if ! myTTL="$(timeUntilNextHour)"; then yell "ERROR in if statement"; exit 1; fi
313
314 local returnState TIME_CURRENT TIME_NEXT_HOUR SECONDS_UNTIL_NEXT_HOUR
315 TIME_CURRENT="$(date --iso-8601=seconds)"; # Produce `date`-parsable current timestamp with resolution of 1 second.
316 TIME_NEXT_HOUR="$(date -d "$TIME_CURRENT next hour" --iso-8601=hours)"; # Produce `date`-parsable current time stamp with resolution of 1 second.
317 SECONDS_UNTIL_NEXT_HOUR="$(( $(date +%s -d "$TIME_NEXT_HOUR") - $(date +%s -d "$TIME_CURRENT") ))"; # Calculate seconds until next hour (res. 1 second).
318 if [[ "$SECONDS_UNTIL_NEXT_HOUR" -gt 0 ]]; then
319 returnState="true";
320 elif [[ "$SECONDS_UNTIL_NEXT_HOUR" -eq 0 ]]; then
321 returnState="warning_zero";
322 yell "WARNING:Reported time until next hour exactly zero.";
323 elif [[ "$SECONDS_UNTIL_NEXT_HOUR" -lt 0 ]]; then
324 returnState="warning_negative";
325 yell "WARNING:Reported time until next hour is negative.";
326 fi
327
328 try echo "$SECONDS_UNTIL_NEXT_HOUR"; # Report
329
330 # Determine function return code
331 if [[ "$returnState" = "true" ]]; then
332 return 0;
333 elif [[ "$returnState" = "warning_zero" ]]; then
334 return 1;
335 elif [[ "$returnState" = "warning_negative" ]]; then
336 return 2;
337 fi
338 } # Report seconds until next hour
339 dateTimeShort(){
340 # Desc: Timestamp without separators (YYYYmmddTHHMMSS+zzzz)
341 # Usage: dateTimeShort ([str date])
342 # Version 1.1.0
343 # Input: arg1: 'date'-parsable timestamp string (optional)
344 # Output: stdout: timestamp (ISO-8601, no separators)
345 # Depends: yell
346 local TIME_CURRENT TIME_CURRENT_SHORT
347
348 argTime="$1";
349 # Get Current Time
350 TIME_CURRENT="$(date --iso-8601=seconds)" ; # Produce `date`-parsable current timestamp with resolution of 1 second.
351 # Decide to parse current or supplied date
352 ## Check if time argument empty
353 if [[ -z "$argTime" ]]; then
354 ## T: Time argument empty, use current time
355 TIME_INPUT="$TIME_CURRENT";
356 else
357 ## F: Time argument exists, validate time
358 if date --date="$argTime" 1>/dev/null 2>&1; then
359 ### T: Time argument is valid; use it
360 TIME_INPUT="$argTime";
361 else
362 ### F: Time argument not valid; exit
363 yell "ERROR:Invalid time argument supplied. Exiting."; exit 1;
364 fi
365 fi
366 # Construct and deliver separator-les date string
367 TIME_CURRENT_SHORT="$(date -d "$TIME_INPUT" +%Y%m%dT%H%M%S%z)";
368 echo "$TIME_CURRENT_SHORT";
369 } # Get YYYYmmddTHHMMSS±zzzz
370 dateShort(){
371 # Desc: Date without separators (YYYYmmdd)
372 # Usage: dateShort ([str date])
373 # Version: 1.1.0
374 # Input: arg1: 'date'-parsable timestamp string (optional)
375 # Output: stdout: date (ISO-8601, no separators)
376 # Depends: yell
377 local TIME_CURRENT DATE_CURRENT_SHORT
378
379 argTime="$1";
380 # Get Current Time
381 TIME_CURRENT="$(date --iso-8601=seconds)" ; # Produce `date`-parsable current timestamp with resolution of 1 second.
382 # Decide to parse current or supplied date
383 ## Check if time argument empty
384 if [[ -z "$argTime" ]]; then
385 ## T: Time argument empty, use current time
386 TIME_INPUT="$TIME_CURRENT";
387 else
388 ## F: Time argument exists, validate time
389 if date --date="$argTime" 1>/dev/null 2>&1; then
390 ### T: Time argument is valid; use it
391 TIME_INPUT="$argTime";
392 else
393 ### F: Time argument not valid; exit
394 yell "ERROR:Invalid time argument supplied. Exiting."; exit 1;
395 fi
396 fi
397 # Construct and deliver separator-les date string
398 DATE_CURRENT_SHORT="$(date -d "$TIME_INPUT" +%Y%m%d)"; # Produce separator-less current date with resolution 1 day.
399 echo "$DATE_CURRENT_SHORT";
400 } # Get YYYYmmdd
401 timeDuration(){
402 # Desc: Given seconds, output ISO-8601 duration string
403 # Ref/Attrib: ISO-8601:2004(E), §4.4.4.2 Representations of time intervals by duration and context information
404 # Note: "1 month" ("P1M") is assumed to be "30 days" (see ISO-8601:2004(E), §2.2.1.2)
405 # Usage: timeDuration [1:seconds] ([2:precision])
406 # Version: 1.0.3
407 # Input: arg1: seconds as base 10 integer >= 0 (ex: 3601)
408 # arg2: precision level (optional; default=2)
409 # Output: stdout: ISO-8601 duration string (ex: "P1H1S", "P2Y10M15DT10H30M20S")
410 # exit code 0: success
411 # exit code 1: error_input
412 # exit code 2: error_unknown
413 # Example: 'timeDuration 111111 3' yields 'P1DT6H51M'
414 # Depends: date 8 (gnucoreutils), yell,
415 local returnState argSeconds argPrecision remainder precision witherPrecision
416 local fullYears fullMonths fullDays fullHours fullMinutes fullSeconds
417 local displayYears displayMonths displayDays displayHours displayMinutes displaySeconds
418 local hasYears hasMonths hasDays hasHours hasMinutes hasSeconds
419
420 argSeconds="$1"; # read arg1 (seconds)
421 argPrecision="$2"; # read arg2 (precision)
422 precision=2; # set default precision
423
424 # Check that between one and two arguments is supplied
425 if ! { [[ $# -ge 1 ]] && [[ $# -le 2 ]]; }; then
426 yell "ERROR:Invalid number of arguments:$# . Exiting.";
427 returnState="error_input"; fi
428
429 # Check that argSeconds provided
430 if [[ $# -ge 1 ]]; then
431 ## Check that argSeconds is a positive integer
432 if [[ "$argSeconds" =~ ^[[:digit:]]+$ ]]; then
433 :
434 else
435 yell "ERROR:argSeconds not a digit.";
436 returnState="error_input";
437 fi
438 else
439 yell "ERROR:No argument provided. Exiting.";
440 exit 1;
441 fi
442
443 # Consider whether argPrecision was provided
444 if [[ $# -eq 2 ]]; then
445 # Check that argPrecision is a positive integer
446 if [[ "$argPrecision" =~ ^[[:digit:]]+$ ]] && [[ "$argPrecision" -gt 0 ]]; then
447 precision="$argPrecision";
448 else
449 yell "ERROR:argPrecision not a positive integer. (is $argPrecision ). Leaving early.";
450 returnState="error_input";
451 fi;
452 else
453 :
454 fi;
455
456 remainder="$argSeconds" ; # seconds
457 ## Calculate full years Y, update remainder
458 fullYears=$(( remainder / (365*24*60*60) ));
459 remainder=$(( remainder - (fullYears*365*24*60*60) ));
460 ## Calculate full months M, update remainder
461 fullMonths=$(( remainder / (30*24*60*60) ));
462 remainder=$(( remainder - (fullMonths*30*24*60*60) ));
463 ## Calculate full days D, update remainder
464 fullDays=$(( remainder / (24*60*60) ));
465 remainder=$(( remainder - (fullDays*24*60*60) ));
466 ## Calculate full hours H, update remainder
467 fullHours=$(( remainder / (60*60) ));
468 remainder=$(( remainder - (fullHours*60*60) ));
469 ## Calculate full minutes M, update remainder
470 fullMinutes=$(( remainder / (60) ));
471 remainder=$(( remainder - (fullMinutes*60) ));
472 ## Calculate full seconds S, update remainder
473 fullSeconds=$(( remainder / (1) ));
474 remainder=$(( remainder - (remainder*1) ));
475 ## Check which fields filled
476 if [[ $fullYears -gt 0 ]]; then hasYears="true"; else hasYears="false"; fi
477 if [[ $fullMonths -gt 0 ]]; then hasMonths="true"; else hasMonths="false"; fi
478 if [[ $fullDays -gt 0 ]]; then hasDays="true"; else hasDays="false"; fi
479 if [[ $fullHours -gt 0 ]]; then hasHours="true"; else hasHours="false"; fi
480 if [[ $fullMinutes -gt 0 ]]; then hasMinutes="true"; else hasMinutes="false"; fi
481 if [[ $fullSeconds -gt 0 ]]; then hasSeconds="true"; else hasSeconds="false"; fi
482
483 ## Determine which fields to display (see ISO-8601:2004 §4.4.3.2)
484 witherPrecision="false"
485
486 ### Years
487 if $hasYears && [[ $precision -gt 0 ]]; then
488 displayYears="true";
489 witherPrecision="true";
490 else
491 displayYears="false";
492 fi;
493 if $witherPrecision; then ((precision--)); fi;
494
495 ### Months
496 if $hasMonths && [[ $precision -gt 0 ]]; then
497 displayMonths="true";
498 witherPrecision="true";
499 else
500 displayMonths="false";
501 fi;
502 if $witherPrecision && [[ $precision -gt 0 ]]; then
503 displayMonths="true";
504 fi;
505 if $witherPrecision; then ((precision--)); fi;
506
507 ### Days
508 if $hasDays && [[ $precision -gt 0 ]]; then
509 displayDays="true";
510 witherPrecision="true";
511 else
512 displayDays="false";
513 fi;
514 if $witherPrecision && [[ $precision -gt 0 ]]; then
515 displayDays="true";
516 fi;
517 if $witherPrecision; then ((precision--)); fi;
518
519 ### Hours
520 if $hasHours && [[ $precision -gt 0 ]]; then
521 displayHours="true";
522 witherPrecision="true";
523 else
524 displayHours="false";
525 fi;
526 if $witherPrecision && [[ $precision -gt 0 ]]; then
527 displayHours="true";
528 fi;
529 if $witherPrecision; then ((precision--)); fi;
530
531 ### Minutes
532 if $hasMinutes && [[ $precision -gt 0 ]]; then
533 displayMinutes="true";
534 witherPrecision="true";
535 else
536 displayMinutes="false";
537 fi;
538 if $witherPrecision && [[ $precision -gt 0 ]]; then
539 displayMinutes="true";
540 fi;
541 if $witherPrecision; then ((precision--)); fi;
542
543 ### Seconds
544
545 if $hasSeconds && [[ $precision -gt 0 ]]; then
546 displaySeconds="true";
547 witherPrecision="true";
548 else
549 displaySeconds="false";
550 fi;
551 if $witherPrecision && [[ $precision -gt 0 ]]; then
552 displaySeconds="true";
553 fi;
554 if $witherPrecision; then ((precision--)); fi;
555
556 ## Determine whether or not the "T" separator is needed to separate date and time elements
557 if ( $displayHours || $displayMinutes || $displaySeconds); then
558 displayDateTime="true"; else displayDateTime="false"; fi
559
560 ## Construct duration output string
561 OUTPUT="P"
562 if $displayYears; then
563 OUTPUT=$OUTPUT$fullYears"Y"; fi
564 if $displayMonths; then
565 OUTPUT=$OUTPUT$fullMonths"M"; fi
566 if $displayDays; then
567 OUTPUT=$OUTPUT$fullDays"D"; fi
568 if $displayDateTime; then
569 OUTPUT=$OUTPUT"T"; fi
570 if $displayHours; then
571 OUTPUT=$OUTPUT$fullHours"H"; fi
572 if $displayMinutes; then
573 OUTPUT=$OUTPUT$fullMinutes"M"; fi
574 if $displaySeconds; then
575 OUTPUT=$OUTPUT$fullSeconds"S"; fi
576
577 ## Output duration string to stdout
578 echo "$OUTPUT" && returnState="true";
579
580 #===Determine function return code===
581 if [ "$returnState" = "true" ]; then
582 return 0;
583 elif [ "$returnState" = "error_input" ]; then
584 yell "ERROR:input";
585 return 1;
586 else
587 yell "ERROR:Unknown";
588 return 2;
589 fi
590
591 } # Get duration (ex: PT10M4S )
592 displayMissing() {
593 # Desc: Displays missing apps, files, and dirs
594 # Usage: displayMissing
595 # Input: associative arrays: appRollCall, fileRollCall, dirRollCall
596 # Output: stderr messages
597 #==BEGIN Display errors==
598 #===BEGIN Display Missing Apps===
599 missingApps="Missing apps :"
600 #for key in "${!appRollCall[@]}"; do echo "DEBUG:$key => ${appRollCall[$key]}"; done
601 for key in "${!appRollCall[@]}"; do
602 value="${appRollCall[$key]}"
603 if [ "$value" = "false" ]; then
604 #echo "DEBUG:Missing apps: $key => $value";
605 missingApps="$missingApps""$key "
606 appMissing="true"
607 fi
608 done
609 if [ "$appMissing" = "true" ]; then # Only indicate if an app is missing.
610 echo "$missingApps" 1>&2;
611 fi
612 #===END Display Missing Apps===
613
614 #===BEGIN Display Missing Files===
615 missingFiles="Missing files:"
616 #for key in "${!fileRollCall[@]}"; do echo "DEBUG:$key => ${fileRollCall[$key]}"; done
617 for key in "${!fileRollCall[@]}"; do
618 value="${fileRollCall[$key]}"
619 if [ "$value" = "false" ]; then
620 #echo "DEBUG:Missing files: $key => $value";
621 missingFiles="$missingFiles""$key "
622 fileMissing="true"
623 fi
624 done
625 if [ "$fileMissing" = "true" ]; then # Only indicate if an app is missing.
626 echo "$missingFiles" 1>&2;
627 fi
628 #===END Display Missing Files===
629
630 #===BEGIN Display Missing Directories===
631 missingDirs="Missing dirs:"
632 #for key in "${!dirRollCall[@]}"; do echo "DEBUG:$key => ${dirRollCall[$key]}"; done
633 for key in "${!dirRollCall[@]}"; do
634 value="${dirRollCall[$key]}"
635 if [ "$value" = "false" ]; then
636 #echo "DEBUG:Missing dirs: $key => $value";
637 missingDirs="$missingDirs""$key "
638 dirMissing="true"
639 fi
640 done
641 if [ "$dirMissing" = "true" ]; then # Only indicate if an dir is missing.
642 echo "$missingDirs" 1>&2;
643 fi
644 #===END Display Missing Directories===
645
646 #==END Display errors==
647 } # Display missing apps, files, dirs
648 magicSetScriptTTL() {
649 #Desc: Sets script_TTL seconds from provided time_element string argument
650 #Usage: magicSetScriptTTL [str time_element]
651 #Input: arg1: string (Ex: SCRIPT_TTL_TE; "day" or "hour")
652 #Output: var: SCRIPT_TTL (integer seconds)
653 #Depends: timeUntilNextHour, timeUntilNextDay
654 local argTimeElement
655 argTimeElement="$1"
656 if [[ "$argTimeElement" = "day" ]]; then
657 # Set script lifespan to end at start of next day
658 if ! SCRIPT_TTL="$(timeUntilNextDay)"; then
659 if [[ "$SCRIPT_TTL" -eq 0 ]]; then
660 ((SCRIPT_TTL++)); # Add 1 because 0 would cause 'timeout' to never timeout.
661 else
662 yell "ERROR: timeUntilNextDay exit code $?"; exit 1;
663 fi;
664 fi;
665 elif [[ "$argTimeElement" = "hour" ]]; then
666 # Set script lifespan to end at start of next hour
667 if ! SCRIPT_TTL="$(timeUntilNextHour)"; then
668 if [[ "$SCRIPT_TTL" -eq 0 ]]; then
669 ((SCRIPT_TTL++)); # Add 1 because 0 would cause 'timeout' to never timeout.
670 else
671 yell "ERROR: timeUntilNextHour exit code $?"; exit 1;
672 fi;
673 fi;
674 else
675 yell "ERROR:Invalid argument for setScriptTTL function:$argTimeElement"; exit 1;
676 fi
677 } # Seconds until next (day|hour).
678 checkMakeTar() {
679 # Desc: Checks that a valid tar archive exists, creates one otherwise
680 # Usage: checkMakeTar [ path ]
681 # Version: 1.0.1
682 # Input: arg1: path of tar archive
683 # Output: exit code 0 : tar readable
684 # exit code 1 : tar missing; created
685 # exit code 2 : tar not readable; moved; replaced
686 # Depends: try, tar, date
687 local PATH_TAR returnFlag0 returnFlag1 returnFlag2
688 PATH_TAR="$1"
689
690 # Check if file is a valid tar archive
691 if tar --list --file="$PATH_TAR" 1>/dev/null 2>&1; then
692 ## T1: return success
693 returnFlag0="tar valid";
694 else
695 ## F1: Check if file exists
696 if [[ -f "$PATH_TAR" ]]; then
697 ### T: Rename file
698 try mv "$PATH_TAR" "$PATH_TAR""--broken--""$(date +%Y%m%dT%H%M%S)" && \
699 returnFlag1="tar moved";
700 else
701 ### F: -
702 :
703 fi
704 ## F2: Create tar archive, return 0
705 try tar --create --file="$PATH_TAR" --files-from=/dev/null && \
706 returnFlag2="tar created";
707 fi
708
709 # Determine function return code
710 if [[ "$returnFlag0" = "tar valid" ]]; then
711 return 0;
712 elif [[ "$returnFlag2" = "tar created" ]] && ! [[ "$returnFlag1" = "tar moved" ]]; then
713 return 1; # tar missing so created
714 elif [[ "$returnFlag2" = "tar created" ]] && [[ "$returnFlag1" = "tar moved" ]]; then
715 return 2; # tar not readable so moved; replaced
716 fi
717 } # checks if arg1 is tar; creates one otherwise
718 appendArgTar(){
719 # Desc: Writes first argument to temporary file with arguments as options, then appends file to tar
720 # Usage: appendArgTar "$(echo "Data to be written.")" [name of file to be inserted] [tar path] [temp dir] ([cmd1] [cmd2] [cmd3] [cmd4]...)
721 # Version: 1.0.3
722 # Input: arg1: data to be written
723 # arg2: file name of file to be inserted into tar
724 # arg3: tar archive path (must exist first)
725 # arg4: temporary working dir
726 # arg5+: command strings (ex: "gpsbabel -i nmea -f - -o kml -F - ")
727 # Output: file written to disk
728 # Example: decrypt multiple large files in parallel
729 # appendArgTar "$(cat /tmp/largefile1.gpg)" "largefile1" $HOME/archive.tar /tmp "gpg --decrypt" &
730 # appendArgTar "$(cat /tmp/largefile2.gpg)" "largefile2" $HOME/archive.tar /tmp "gpg --decrypt" &
731 # appendArgTar "$(cat /tmp/largefile3.gpg)" "largefile3" $HOME/archive.tar /tmp "gpg --decrypt" &
732 # Depends: bash 5
733 # Ref/Attrib: Using 'eval' to construct command strings https://askubuntu.com/a/476533
734
735 # Save function name
736 local FN="${FUNCNAME[0]}";
737 #yell "DEBUG:STATUS:$FN:Finished appendArgTar()."
738
739 # Set file name
740 if ! [ -z "$2" ]; then FILENAME="$2"; else yell "ERROR:$FN:Not enough arguments."; exit 1; fi
741
742 # Check tar path is a file
743 if [ -f "$3" ]; then TAR_PATH="$3"; else yell "ERROR:$FN:Tar archive arg not a file."; exit 1; fi
744
745 # Check temp dir arg
746 if ! [ -z "$4" ]; then TMP_DIR="$4"; else yell "ERROR:$FN:No temporary working dir set."; exit 1; fi
747
748 # Set command strings
749 if ! [ -z "$5" ]; then CMD1="$5"; else CMD1="tee /dev/null "; fi # command string 1
750 if ! [ -z "$6" ]; then CMD2="$6"; else CMD2="tee /dev/null "; fi # command string 2
751 if ! [ -z "$7" ]; then CMD3="$7"; else CMD3="tee /dev/null "; fi # command string 3
752 if ! [ -z "$8" ]; then CMD4="$8"; else CMD4="tee /dev/null "; fi # command string 4
753
754 # Input command
755 CMD0="echo \"\$1\""
756
757 # # Debug
758 # yell "DEBUG:STATUS:$FN:CMD0:$CMD0"
759 # yell "DEBUG:STATUS:$FN:CMD1:$CMD1"
760 # yell "DEBUG:STATUS:$FN:CMD2:$CMD2"
761 # yell "DEBUG:STATUS:$FN:CMD3:$CMD3"
762 # yell "DEBUG:STATUS:$FN:CMD4:$CMD4"
763 # yell "DEBUG:STATUS:$FN:FILENAME:$FILENAME"
764 # yell "DEBUG:STATUS:$FN:TAR_PATH:$TAR_PATH"
765 # yell "DEBUG:STATUS:$FN:TMP_DIR:$TMP_DIR"
766
767 # Write to temporary working dir
768 eval "$CMD0"" | ""$CMD1"" | ""$CMD2"" | ""$CMD3"" | ""$CMD4" > "$TMP_DIR"/"$FILENAME";
769
770 # Append to tar
771 try tar --append --directory="$TMP_DIR" --file="$TAR_PATH" "$FILENAME";
772 #yell "DEBUG:STATUS:$FN:Finished appendArgTar()."
773 } # Append Bash var to file appended to Tar archive
774 appendFileTar(){
775 # Desc: Processes first file and then appends to tar
776 # Usage: appendFileTar [file path] [name of file to be inserted] [tar path] [temp dir] ([cmd1] [cmd2] [cmd3] [cmd4]...)
777 # Version: 1.0.2
778 # Input: arg1: path of file to be (processed and) written
779 # arg2: name to use for file inserted into tar
780 # arg3: tar archive path (must exist first)
781 # arg4: temporary working dir
782 # arg5+: command strings (ex: "gpsbabel -i nmea -f - -o kml -F - ")
783 # Output: file written to disk
784 # Example: decrypt multiple large files in parallel
785 # appendFileTar /tmp/largefile1.gpg "largefile1" $HOME/archive.tar /tmp "gpg --decrypt" &
786 # appendFileTar /tmp/largefile2.gpg "largefile2" $HOME/archive.tar /tmp "gpg --decrypt" &
787 # appendFileTar /tmp/largefile3.gpg "largefile3" $HOME/archive.tar /tmp "gpg --decrypt" &
788 # Depends: bash 5
789
790 # Save function name
791 local FN="${FUNCNAME[0]}";
792 #yell "DEBUG:STATUS:$FN:Finished appendFileTar()."
793
794 # Set file name
795 if ! [ -z "$2" ]; then FILENAME="$2"; else yell "ERROR:$FN:Not enough arguments."; exit 1; fi
796 # Check tar path is a file
797 if [ -f "$3" ]; then TAR_PATH="$3"; else yell "ERROR:$FN:Tar archive arg not a file."; exit 1; fi
798 # Check temp dir arg
799 if ! [ -z "$4" ]; then TMP_DIR="$4"; else yell "ERROR:$FN:No temporary working dir set."; exit 1; fi
800 # Set command strings
801 if ! [ -z "$5" ]; then CMD1="$5"; else CMD1="tee /dev/null "; fi # command string 1
802 if ! [ -z "$6" ]; then CMD2="$6"; else CMD2="tee /dev/null "; fi # command string 2
803 if ! [ -z "$7" ]; then CMD3="$7"; else CMD3="tee /dev/null "; fi # command string 3
804 if ! [ -z "$8" ]; then CMD4="$8"; else CMD4="tee /dev/null "; fi # command string 4
805
806 # Input command string
807 CMD0="cat \"\$1\""
808
809 # # Debug
810 # yell "DEBUG:STATUS:$FN:CMD0:$CMD0"
811 # yell "DEBUG:STATUS:$FN:CMD1:$CMD1"
812 # yell "DEBUG:STATUS:$FN:CMD2:$CMD2"
813 # yell "DEBUG:STATUS:$FN:CMD3:$CMD3"
814 # yell "DEBUG:STATUS:$FN:CMD4:$CMD4"
815 # yell "DEBUG:STATUS:$FN:FILENAME:$FILENAME"
816 # yell "DEBUG:STATUS:$FN:TAR_PATH:$TAR_PATH"
817 # yell "DEBUG:STATUS:$FN:TMP_DIR:$TMP_DIR"
818
819 # Write to temporary working dir
820 eval "$CMD0 | $CMD1 | $CMD2 | $CMD3 | $CMD4" > "$TMP_DIR"/"$FILENAME";
821
822 # Append to tar
823 try tar --append --directory="$TMP_DIR" --file="$TAR_PATH" "$FILENAME";
824 #yell "DEBUG:STATUS:$FN:Finished appendFileTar()."
825 } # Append file to Tar archive
826 checkAgePubkey() {
827 # Desc: Checks if string is an age-compatible pubkey
828 # Usage: checkAgePubkey [str pubkey]
829 # Version: 0.1.2
830 # Input: arg1: string
831 # Output: return code 0: string is age-compatible pubkey
832 # return code 1: string is NOT an age-compatible pubkey
833 # age stderr (ex: there is stderr if invalid string provided)
834 # Depends: age (v0.1.0-beta2; https://github.com/FiloSottile/age/releases/tag/v1.0.0-beta2 )
835
836 argPubkey="$1";
837
838 if echo "test" | age -a -r "$argPubkey" 1>/dev/null; then
839 return 0;
840 else
841 return 1;
842 fi;
843 } # Check age pubkey
844 validateInput() {
845 # Desc: Validates Input
846 # Usage: validateInput [str input] [str input type]
847 # Version: 0.3.0
848 # Input: arg1: string to validate
849 # arg2: string specifying input type (ex:"ssh_pubkey")
850 # Output: return code 0: if input string matched specified string type
851 # Depends: bash 5, yell
852
853 # Save function name
854 local FN="${FUNCNAME[0]}";
855
856 # Process arguments
857 argInput="$1";
858 argType="$2";
859 if [[ $# -gt 2 ]]; then yell "ERROR:$0:$FN:Too many arguments."; exit 1; fi;
860
861 # Check for blank
862 if [[ -z "$argInput" ]]; then return 1; fi
863
864 # Define input types
865 ## ssh_pubkey
866 ### Check for alnum/dash base64 (ex: "ssh-rsa AAAAB3NzaC1yc2EAAA")
867 if [[ "$argType" = "ssh_pubkey" ]]; then
868 if [[ "$argInput" =~ ^[[:alnum:]-]*[\ ]*[[:alnum:]+/=]*$ ]]; then
869 return 0; fi; fi;
870
871 ## age_pubkey
872 ### Check for age1[:bech32:]
873 if [[ "$argType" = "age_pubkey" ]]; then
874 if [[ "$argInput" =~ ^age1[qpzry9x8gf2tvdw0s3jn54khce6mua7l]*$ ]]; then
875 return 0; fi; fi
876
877 ## integer
878 if [[ "$argType" = "integer" ]]; then
879 if [[ "$argInput" =~ ^[[:digit:]]*$ ]]; then
880 return 0; fi; fi;
881
882 ## time element (year, month, week, day, hour, minute, second)
883 if [[ "$argType" = "time_element" ]]; then
884 if [[ "$argInput" = "year" ]] || \
885 [[ "$argInput" = "month" ]] || \
886 [[ "$argInput" = "week" ]] || \
887 [[ "$argInput" = "day" ]] || \
888 [[ "$argInput" = "hour" ]] || \
889 [[ "$argInput" = "minute" ]] || \
890 [[ "$argInput" = "second" ]]; then
891 return 0; fi; fi;
892
893 # Return error if no condition matched.
894 return 1;
895 } # Validates strings
896 timeEpochNS() {
897 # Desc: Get epoch nanoseconds
898 # Usage: timeEpochNS
899 # Version 0.2.2
900 # Input: arg1: 'date'-parsable timestamp string (optional)
901 # Output: Nanoseconds since 1970-01-01
902 # Depends: date 8, yell()
903 # Ref/Attrib: Force base 10 Bash arith with '10#'. https://stackoverflow.com/a/24777667
904 local TIME_CURRENT TIME_INPUT TIME_EPOCH_FLOAT TIME_EPOCH_NSFRAC
905 local TIME_EPOCH_NS
906
907 argTime="$1";
908
909 # Get Current Time
910 TIME_CURRENT="$(date --iso-8601=ns)"; # Produce `date`-parsable current timestamp with resolution of 1 nanosecond.
911
912 # Decide to parse current or supplied time
913 ## Check if time argument empty
914 if [[ -z "$argTime" ]]; then
915 ## T: Time argument empty, use current time
916 TIME_INPUT="$TIME_CURRENT";
917 else
918 ## F: Time argument exists, validate time
919 if date --date="$argTime" 1>/dev/null 2>&1; then
920 ### T: Time argument is valid; use it
921 TIME_INPUT="$argTime";
922 else
923 ### F: Time argument not valid; exit
924 yell "ERROR:Invalid time argument supplied. Exiting."; exit 1;
925 fi;
926 fi;
927 # Construct and deliver nanoseconds since 1970-01-01
928 TIME_EPOCH_FLOAT="$(date --date="$TIME_INPUT" +%s.%N)"; # Save ssss.NNNNNNNNN
929 TIME_EPOCH_INT="$(echo "$TIME_EPOCH_FLOAT" | cut -d. -f1)"; # Get ssss
930 TIME_EPOCH_NSFRAC="$(echo "$TIME_EPOCH_FLOAT" | cut -d. -f2)"; # Get NNNNNNNNN
931 TIME_EPOCH_NS="$(( (10#"$TIME_EPOCH_INT" * 10**9) + (10#"$TIME_EPOCH_NSFRAC") ))";
932 echo "$TIME_EPOCH_NS";
933 } # Nanoseconds since 1970-01-01
934 magicBufferSleepPID() {
935 # Desc: Compensates for lag so buffer rounds start every BUFFER_TTL seconds
936 # Input: vars: BUFFER_TTL, errResetx10e3, K_P, T_I, T_D
937 # # Input: array: errorHistory
938 # Output: vars: BUFFER_TTL_ADJ_FLOAT
939 # Re/Attrib: https://en.wikipedia.org/wiki/PID_controller#Standard_versus_parallel_(ideal)_form
940 local BUFFER_TTL_NS
941 local timeBufferStartNS timeBufferStartNSExp errNS errNSx10e3
942 local errResetx10e3 errRatex10e3 ADJ BUFFER_TTL_ADJ_NS BUFFER_TTL_ADJ_INT
943 local BUFFER_TTL_ADJ_FLOATFRAC
944 # local errorHistorySize
945
946 # ## Define errorHistorySize
947 # errorHistorySize=100;
948 ## Define BUFFER_TTL in nanoseconds
949 BUFFER_TTL_NS=$((BUFFER_TTL * 10**9)) && vbm "BUFFER_TTL_NS:$BUFFER_TTL_NS";
950
951 ### PID Control factors
952 K_P=1; # Gain for compensating buffer round lag
953 T_I="$((4*BUFFER_TTL_NS))"; # Consider this number of past nanoseconds to eliminate error
954 T_D="$((1*BUFFER_TTL_NS))"; # Predict value this number of nanoseconds into the future
955
956 # Calculate Error, errNS, in nanoseconds
957 ## Get current time
958 timeBufferStartNS="$(timeEpochNS)" && vbm "timeBufferStartNS :$timeBufferStartNS";
959 ## Calculate expected time (from start time, current buffer round number, nominal BUFFER_TTL)
960 timeBufferStartNSExp="$(( (timeBufferFirstNS) + (BUFFER_TTL_NS * bufferRound) ))" && vbm "timeBufferStartNSExp:$timeBufferStartNSExp";
961 ## Calculate error (diff between timeBufferStartNSExp and timeBufferStartNS; usually negative)
962 errNS="$(( timeBufferStartNSExp - timeBufferStartNS ))" && vbm "errNS:$errNS";
963 # errNSx10e3="$((errNS*10**3))" && vbm "errNSx10e3:$errNSx10e3";
964 # ## Append error to errorHistory
965 # errorHistory+=("errNS");
966 # ### Trim errorHistory array if over errorHistorySize
967 # while [[ "${#errorHistory[@]}" -gt "errorHistorySize" ]]; then do
968 # unset "errorHistory[0]"; # remove oldest entry, creating sparse array
969 # errorHistory=("${errorHistory[@]}"); # reindex sparse array
970 # vbm "STATUS:Trimmed errorHistory array. Entry count:${#errorHistory[@]}";
971 # done;
972
973 # Calculate errReset in nanoseconds^2
974 ## errReset = int(errHistory(t),wrt(delta_BUFFER_TTL))
975 ## Integrate errorHistory with respect to time
976 # for value in "${errorHistory[@]}"; do
977 # errReset=$(( errReset + ( value*BUFFER_TTL_NS ) ));
978 # done;
979 errReset="$(( (errReset + (errNS*BUFFER_TTL_NS)) ))" && vbm "errReset:$errReset";
980 # errResetx10e3="$(( ( errResetx10e3 + ( errNSx10e3 * BUFFER_TTL_NS ) )*10**3 ))" && vbm "errResetx10e3:$errResetx10e3";
981
982 # Calculate errRate in nanoseconds per nanosecond
983 errRate="$(( errNS / BUFFER_TTL_NS ))" && vbm "errRate:$errRate";
984 # errRatex10e3="$(( ( errNSx10e3 ) / BUFFER_TTL_NS ))" && vbm "errRatex10e3:$errRatex10e3";
985
986 # Calculate PID control signal
987 ## ADJ = K_P * (errNS + errReset/T_I + errRate*T_D)
988 ADJ="$(( K_P*(errNS + errReset/T_I + errRate*T_D) ))" && vbm "ADJ:$ADJ";
989 # ADJ="$((K_P*(errNSx10e3 + (errResetx10e3/T_I) + (errRatex10e3*T_D) )/(10**3)))" && vbm "ADJ:$ADJ";
990
991 # Calculate BUFFER_TTL_ADJ_FLOAT from ADJ (ns)
992 ## Calculate BUFFER_TTL_ADJ in nanoseconds (BUFFER_TTL_ADJ_NS = BUFFER_TTL_NS + ADJ)
993 BUFFER_TTL_ADJ_NS="$((BUFFER_TTL_NS + ADJ))" && vbm "BUFFER_TTL_ADJ_NS:$BUFFER_TTL_ADJ_NS";
994 ## Calculate integer seconds
995 BUFFER_TTL_ADJ_INT="$((BUFFER_TTL_ADJ_NS/(10**9)))" && vbm "BUFFER_TTL_ADJ_INT:$BUFFER_TTL_ADJ_INT";
996 ### Catch negative integer seconds, set minimum of BUFFER_TTL/10 seconds
997 if [[ "$BUFFER_TTL_ADJ_INT" -le "$((BUFFER_TTL/10))" ]]; then
998 BUFFER_TTL_ADJ_INT="$((BUFFER_TTL/10))";
999 yell "WARNING:Buffer lag adjustment yielded negative seconds.";
1000 fi;
1001 ## Calculate nanosecond remainder
1002 BUFFER_TTL_ADJ_FLOATFRAC="$((BUFFER_TTL_NS - (BUFFER_TTL_ADJ_INT*(10**9)) ))" && vbm "BUFFER_TTL_ADJ_FLOATFRAC:$BUFFER_TTL_ADJ_FLOATFRAC";
1003 ## Form float BUFFER_TTL_ADJ_FLOAT
1004 BUFFER_TTL_ADJ_FLOAT="$BUFFER_TTL_ADJ_INT"."$BUFFER_TTL_ADJ_FLOATFRAC" && vbm "BUFFER_TTL_ADJ_FLOAT:$BUFFER_TTL_ADJ_FLOAT";
1005 vbm "STATUS:Calculated adjusted BUFFER_TTL (seconds):$BUFFER_TTL_ADJ_FLOAT";
1006 sleep 1 # Debug
1007 } # Calc BUFFER_TTL_ADJ_FLOAT so buffer starts every BUFFER_TTL seconds
1008 magicWriteVersion() {
1009 # Desc: Appends time-stamped VERSION to PATHOUT_TAR
1010 # Usage: magicWriteVersion
1011 # Version: 0.1.0
1012 # Input: CONTENT_VERSION, FILEOUT_VERSION, PATHOUT_TAR, DIR_TMP
1013 # Input: SCRIPT_VERSION, SCRIPT_URL, AGE_VERSION, AGE_URL, SCRIPT_HOSTNAME
1014 # Output: appends tar PATHOUT_TAR
1015 # Depends: dateTimeShort, appendArgTar
1016 local CONTENT_VERSION pubKeyIndex
1017
1018 # Set VERSION file name
1019 FILEOUT_VERSION="$(dateTimeShort)..VERSION";
1020
1021 # Gather VERSION data in CONTENT_VERSION
1022 CONTENT_VERSION="SCRIPT_VERSION=$SCRIPT_VERSION";
1023 #CONTENT_VERSION="$CONTENT_VERSION""\\n";
1024 CONTENT_VERSION="$CONTENT_VERSION""\\n""SCRIPT_NAME=$SCRIPT_NAME";
1025 CONTENT_VERSION="$CONTENT_VERSION""\\n""SCRIPT_URL=$SCRIPT_URL";
1026 CONTENT_VERSION="$CONTENT_VERSION""\\n""AGE_VERSION=$AGE_VERSION";
1027 CONTENT_VERSION="$CONTENT_VERSION""\\n""AGE_URL=$AGE_URL";
1028 CONTENT_VERSION="$CONTENT_VERSION""\\n""DATE=$(date --iso-8601=seconds)";
1029 CONTENT_VERSION="$CONTENT_VERSION""\\n""HOSTNAME=$SCRIPT_HOSTNAME";
1030 ## Add list of recipient pubkeys
1031 for pubkey in "${recPubKeysValid[@]}"; do
1032 ((pubKeyIndex++))
1033 CONTENT_VERSION="$CONTENT_VERSION""\\n""PUBKEY_$pubKeyIndex=$pubkey";
1034 done
1035 ## Process newline escapes
1036 CONTENT_VERSION="$(echo -e "$CONTENT_VERSION")"
1037
1038 # Write CONTENT_VERSION as file FILEOUT_VERSION and write-append to PATHOUT_TAR
1039 appendArgTar "$CONTENT_VERSION" "$FILEOUT_VERSION" "$PATHOUT_TAR" "$DIR_TMP";
1040
1041 } # bkgpslog: write version data to PATHOUT_TAR via appendArgTar()
1042 magicGatherWriteBuffer() {
1043 # Desc: bkgpslog-specific meta function for writing data to DIR_TMP then appending each file to PATHOUT_TAR
1044 # Inputs: vars: PATHOUT_TAR FILEOUT_{NMEA,GPX,KML} CMD_CONV_{NMEA,GPX,KML} CMD_{COMPRESS,ENCRYPT} DIR_TMP,
1045 # Inputs: vars: BUFFER_TTL bufferTTL_STR SCRIPT_HOSTNAME CMD_COMPRESS_SUFFIX CMD_ENCRYPT_SUFFIX
1046 # Output: file: (PATHOUT_TAR)
1047 # Depends: yell(), try(), vbm(), appendArgTar(), tar 1, sleep 8, checkMakeTar()
1048 # Depends: magicWriteVersion(), appendFileTar()
1049 local FN
1050
1051 # Debug:Get function name
1052 FN="${FUNCNAME[0]}";
1053
1054 # Create buffer file with unique name
1055 PATHOUT_BUFFER="$DIR_TMP/buffer$SECONDS";
1056 # Fill buffer
1057 timeout "$BUFFER_TTL"s gpspipe -r -o "$PATHOUT_BUFFER" ;
1058 timeBufferStart="$(dateTimeShort "$(date --date="$BUFFER_TTL seconds ago")")"; # Note start time
1059 vbm "DEBUG:STATUS:$FN:Started magicWriteBuffer().";
1060 # Determine file paths (time is start of buffer period)
1061 FILEOUT_BASENAME="$timeBufferStart""--""$bufferTTL_STR""..""$SCRIPT_HOSTNAME""_location" && vbm "STATUS:Set FILEOUT_BASENAME to:$FILEOUT_BASENAME";
1062 ## Files saved to DIR_TMP
1063 FILEOUT_NMEA="$FILEOUT_BASENAME".nmea"$CMD_COMPRESS_SUFFIX""$CMD_ENCRYPT_SUFFIX" && vbm "STATUS:Set FILEOUT_NMEA to:$FILEOUT_NMEA";
1064 FILEOUT_GPX="$FILEOUT_BASENAME".gpx"$CMD_COMPRESS_SUFFIX""$CMD_ENCRYPT_SUFFIX" && vbm "STATUS:Set FILEOUT_GPX to:$FILEOUT_GPX";
1065 FILEOUT_KML="$FILEOUT_BASENAME".kml"$CMD_COMPRESS_SUFFIX""$CMD_ENCRYPT_SUFFIX" && vbm "STATUS:Set FILEOUT_KML to:$FILEOUT_KML";
1066 PATHOUT_NMEA="$DIR_TMP"/"$FILEOUT_NMEA" && vbm "STATUS:Set PATHOUT_NMEA to:$PATHOUT_NMEA";
1067 PATHOUT_GPX="$DIR_TMP"/"$FILEOUT_GPX" && vbm "STATUS:Set PATHOUT_GPX to:$PATHOUT_GPX";
1068 PATHOUT_KML="$DIR_TMP"/"$FILEOUT_KML" && vbm "STATUS:Set PATHOUT_KML to:$PATHOUT_KML";
1069 ## Files saved to disk (DIR_OUT)
1070 ### one file per day (Ex: "20200731..hostname_location.[.gpx.gz].tar")
1071 PATHOUT_TAR="$DIR_OUT"/"$(dateShort "$(date --date="$BUFFER_TTL seconds ago")")".."$SCRIPT_HOSTNAME""_location""$CMD_COMPRESS_SUFFIX""$CMD_ENCRYPT_SUFFIX".tar && \
1072 vbm "STATUS:Set PATHOUT_TAR to:$PATHOUT_TAR";
1073 # DEBUG: check vars
1074 vbm "STATUS:DIR_TMP :$DIR_TMP";
1075 vbm "STATUS:PATHOUT_TAR :$PATHOUT_TAR";
1076 vbm "STATUS:PATHOUT_NMEA:$PATHOUT_NMEA";
1077 vbm "STATUS:PATHOUT_GPX:$PATHOUT_GPX";
1078 vbm "STATUS:PATHOUT_KML:$PATHOUT_KML";
1079
1080
1081 # Validate PATHOUT_TAR as tar.
1082 checkMakeTar "$PATHOUT_TAR";
1083 ## Add VERSION file if checkMakeTar had to create a tar (exited 1) or replace one (exited 2)
1084 if [[ $? -eq 1 ]] || [[ $? -eq 2 ]]; then magicWriteVersion; fi
1085
1086 # Write bufferBash to PATHOUT_TAR
1087 wait; # Wait to avoid collision with older magicWriteBuffer() instances (see https://www.tldp.org/LDP/abs/html/x9644.html )
1088 appendFileTar "$PATHOUT_BUFFER" "$FILEOUT_NMEA" "$PATHOUT_TAR" "$DIR_TMP" "$CMD_CONV_NMEA" "$CMD_COMPRESS" "$CMD_ENCRYPT"; # Write NMEA data
1089 appendFileTar "$PATHOUT_BUFFER" "$FILEOUT_GPX" "$PATHOUT_TAR" "$DIR_TMP" "$CMD_CONV_GPX" "$CMD_COMPRESS" "$CMD_ENCRYPT"; # Write GPX file
1090 appendFileTar "$PATHOUT_BUFFER" "$FILEOUT_KML" "$PATHOUT_TAR" "$DIR_TMP" "$CMD_CONV_KML" "$CMD_COMPRESS" "$CMD_ENCRYPT"; # Write KML file
1091
1092 # Remove secured chunks from DIR_TMP
1093 rm "$PATHOUT_BUFFER" "$PATHOUT_NMEA" "$PATHOUT_GPX" "$PATHOUT_KML";
1094 vbm "DEBUG:STATUS:$FN:Finished magicWriteBuffer().";
1095 } # write buffer to disk
1096 magicParseRecipientDir() {
1097 # Desc: Updates recPubKeysValid with pubkeys in dir specified by '-R' option ("recipient directory")
1098 # Inputs: vars: OPTION_RECDIR, argRecDir, OPTION_ENCRYPT
1099 # arry: recPubKeysValid
1100 # Outputs: arry: recPubKeysValid
1101 # Depends: processArguments,
1102 local recFileLine updateRecipients recipientDir
1103 declare -a candRecPubKeysValid
1104
1105 # Check that '-e' and '-R' set
1106 if [[ "$OPTION_ENCRYPT" = "true" ]] && [[ "$OPTION_RECDIR" = "true" ]]; then
1107 ### Check that argRecDir is a directory.
1108 if [[ -d "$argRecDir" ]]; then
1109 recipientDir="$argRecDir" && vbm "STATUS:Recipient watch directory detected:\"$recipientDir\"";
1110 #### Initialize variable indicating outcome of pubkey review
1111 unset updateRecipients
1112 #### Add existing recipients
1113 candRecPubKeysValid=("${recPubKeysValidStatic[@]}");
1114 #### Parse files in recipientDir
1115 for file in "$recipientDir"/*; do
1116 ##### Read first line of each file
1117 recFileLine="$(head -n1 "$file")" && vbm "STATUS:Checking if pubkey:\"$recFileLine\"";
1118 ##### check if first line is a valid pubkey
1119 if checkAgePubkey "$recFileLine" && \
1120 ( validateInput "$recFileLine" "ssh_pubkey" || validateInput "$recFileLine" "age_pubkey"); then
1121 ###### T: add candidate pubkey to candRecPubKeysValid
1122 candRecPubKeysValid+=("$recFileLine") && vbm "STATUS:RecDir pubkey is valid pubkey:\"$recFileLine\"";
1123 else
1124 ###### F: throw warning;
1125 yell "ERROR:Invalid recipient file detected. Not modifying recipient list."
1126 updateRecipients="false";
1127 fi;
1128 done
1129 #### Write updated recPubKeysValid array to recPubKeysValid if no failure detected
1130 if ! [[ "$updateRecipients" = "false" ]]; then
1131 recPubKeysValid=("${candRecPubKeysValid[@]}") && vbm "STATUS:Wrote candRecPubkeysValid to recPubKeysValid:\"${recPubKeysValid[*]}\"";
1132 fi;
1133 else
1134 yell "ERROR:$0:Recipient directory $argRecDir does not exist. Exiting."; exit 1;
1135 fi;
1136 fi;
1137 # Handle case if '-R' set but '-e' not set
1138 if [[ ! "$OPTION_ENCRYPT" = "true" ]] && [[ "$OPTION_RECDIR" = "true" ]]; then
1139 yell "ERROR: \\'-R\\' is set but \\'-e\\' is not set."; fi;
1140 } # Update recPubKeysValid with argRecDir
1141 magicParseRecipientArgs() {
1142 # Desc: Parses recipient arguments specified by '-r' option
1143 # Input: vars: OPTION_ENCRYPT from processArguments()
1144 # arry: argRecPubKeys from processArguments()
1145 # Output: vars: CMD_ENCRYPT, CMD_ENCRYPT_SUFFIX
1146 # arry: recPubKeysValid, recPubKeysValidStatic
1147 # Depends: checkapp(), checkAgePubkey(), validateInput(), processArguments()
1148 local recipients
1149
1150 # Check if encryption option active.
1151 if [[ "$OPTION_ENCRYPT" = "true" ]] && [[ "$OPTION_RECIPIENTS" = "true" ]]; then
1152 if checkapp age; then # Check that age is available.
1153 for pubkey in "${argRecPubKeys[@]}"; do # Validate recipient pubkey strings by forming test message
1154 vbm "DEBUG:Testing pubkey string:$pubkey";
1155 if checkAgePubkey "$pubkey" && \
1156 ( validateInput "$pubkey" "ssh_pubkey" || validateInput "$pubkey" "age_pubkey"); then
1157 #### Form age recipient string
1158 recipients="$recipients""-r '$pubkey' ";
1159 vbm "STATUS:Added pubkey for forming age recipient string:""$pubkey";
1160 vbm "DEBUG:recipients:""$recipients";
1161 #### Add validated pubkey to recPubKeysValid array
1162 recPubKeysValid+=("$pubkey") && vbm "DEBUG:recPubkeysValid:pubkey added:$pubkey";
1163 else
1164 yell "ERROR:Exit code ""$?"". Invalid recipient pubkey string. Exiting."; exit 1;
1165 fi;
1166 done
1167 vbm "DEBUG:Finished processing argRecPubKeys array";
1168 vbm "STATUS:Array of validated pubkeys:${recPubKeysValid[*]}";
1169 recPubKeysValidStatic=("${recPubKeysValid[@]}"); # Save static image of pubkeys validated by this function
1170
1171 ## Form age command string
1172 CMD_ENCRYPT="age ""$recipients " && vbm "CMD_ENCRYPT:$CMD_ENCRYPT";
1173 CMD_ENCRYPT_SUFFIX=".age" && vbm "CMD_ENCRYPT_SUFFIX:$CMD_ENCRYPT_SUFFIX";
1174 else
1175 yell "ERROR:Encryption enabled but \"age\" not found. Exiting."; exit 1;
1176 fi;
1177 else
1178 CMD_ENCRYPT="tee /dev/null " && vbm "CMD_ENCRYPT:$CMD_ENCRYPT";
1179 CMD_ENCRYPT_SUFFIX="" && vbm "CMD_ENCRYPT_SUFFIX:$CMD_ENCRYPT_SUFFIX";
1180 vbm "DEBUG:Encryption not enabled."
1181 fi;
1182 # Catch case if '-e' is set but '-r' or '-R' is not
1183 if [[ "$OPTION_ENCRYPT" = "true" ]] && [[ ! "$OPTION_RECIPIENTS" = "true" ]]; then
1184 yell "ERROR:\\'-e\\' set but no \\'-r\\' or \\'-R\\' set."; exit 1; fi;
1185 # Catch case if '-r' or '-R' set but '-e' is not
1186 if [[ ! "$OPTION_ENCRYPT" = "true" ]] && [[ "$OPTION_RECIPIENTS" = "true" ]]; then
1187 yell "ERROR:\\'-r\\' or \\'-R\\' set but \\'-e\\' is not set."; exit 1; fi;
1188 } # Populate recPubKeysValid with argRecPubKeys; form encryption cmd string and filename suffix
1189 magicParseCompressionArg() {
1190 # Desc: Parses compression arguments specified by '-c' option
1191 # Input: vars: OPTION_COMPRESS
1192 # Output: CMD_COMPRESS, CMD_COMPRESS_SUFFIX
1193 # Depends: checkapp(), vbm(), gzip,
1194 if [[ "$OPTION_COMPRESS" = "true" ]]; then # Check if compression option active
1195 if checkapp gzip; then # Check if gzip available
1196 CMD_COMPRESS="gzip " && vbm "CMD_COMPRESS:$CMD_COMPRESS";
1197 CMD_COMPRESS_SUFFIX=".gz" && vbm "CMD_COMPRESS_SUFFIX:$CMD_COMPRESS_SUFFIX";
1198 else
1199 yell "ERROR:Compression enabled but \"gzip\" not found. Exiting."; exit 1;
1200 fi
1201 else
1202 CMD_COMPRESS="tee /dev/null " && vbm "CMD_COMPRESS:$CMD_COMPRESS";
1203 CMD_COMPRESS_SUFFIX="" && vbm "CMD_COMPRESS_SUFFIX:$CMD_COMPRESS_SUFFIX";
1204 vbm "DEBUG:Compression not enabled.";
1205 fi
1206 } # Form compression cmd string and filename suffix
1207 magicInitWorkingDir() {
1208 # Desc: Determine temporary working directory from defaults or user input
1209 # Usage: magicInitWorkignDir
1210 # Input: vars: OPTION_TEMPDIR, argTempDirPriority, DIR_TMP_DEFAULT
1211 # Input: vars: SCRIPT_TIME_START
1212 # Output: vars: DIR_TMP
1213 # Depends: processArguments(), vbm(), yell()
1214 # Parse '-t' option (user-specified temporary working dir)
1215 ## Set DIR_TMP_PARENT to user-specified value if specified
1216 local DIR_TMP_PARENT
1217
1218 if [[ "$OPTION_TMPDIR" = "true" ]]; then
1219 if [[ -d "$argTempDirPriority" ]]; then
1220 DIR_TMP_PARENT="$argTempDirPriority";
1221 else
1222 yell "WARNING:Specified temporary working directory not valid:$argTempDirPriority";
1223 exit 1; # Exit since user requires a specific temp dir and it is not available.
1224 fi;
1225 else
1226 ## Set DIR_TMP_PARENT to default or fallback otherwise
1227 if [[ -d "$DIR_TMP_DEFAULT" ]]; then
1228 DIR_TMP_PARENT="$DIR_TMP_DEFAULT";
1229 elif [[ -d /tmp ]]; then
1230 yell "WARNING:$DIR_TMP_DEFAULT not available. Falling back to /tmp .";
1231 DIR_TMP_PARENT="/tmp";
1232 else
1233 yell "ERROR:No valid working directory available. Exiting.";
1234 exit 1;
1235 fi
1236 fi;
1237 ## Set DIR_TMP using DIR_TMP_PARENT and nonce (SCRIPT_TIME_START)
1238 DIR_TMP="$DIR_TMP_PARENT"/"$SCRIPT_TIME_START""..bkgpslog" && vbm "DEBUG:Set DIR_TMP to:$DIR_TMP"; # Note: removed at end of main().
1239 } # Sets working dir
1240 magicParseCustomTTL() {
1241 # Desc: Set user-specified TTLs for buffer and script
1242 # Input: vars: argCustomBufferTTL (integer), argCustomScriptTTL_TE (string)
1243 # Input: vars: OPTION_CUSTOM_BUFFERTTL, OPTION_CUSTOM_SCRIPTTTL
1244 # Input: vars: BUFFER_TTL (integer), SCRIPT_TTL_TE (string)
1245 # Output: BUFFER_TTL (integer), SCRIPT_TTL_TE (string)
1246 # Depends validateInput(), showUsage(), yell
1247
1248 # React to '-b, --buffer-ttl' option
1249 if [[ "$OPTION_CUSTOM_BUFFERTTL" = "true" ]]; then
1250 ## T: Check if argCustomBufferTTL is an integer
1251 if validateInput "$argCustomBufferTTL" "integer"; then
1252 ### T: argCustomBufferTTL is an integer
1253 BUFFER_TTL="$argCustomBufferTTL";
1254 else
1255 ### F: argcustomBufferTTL is not an integer
1256 yell "ERROR:Invalid integer argument for custom buffer time-to-live."; showUsage; exit 1;
1257 fi;
1258 ## F: do not change BUFFER_TTL
1259 fi;
1260
1261 # React to '-B, --script-ttl' option
1262 if [[ "$OPTION_CUSTOM_SCRIPTTTL_TE" = "true" ]]; then
1263 ## T: Check if argCustomScriptTTL is a time element (ex: "day", "hour")
1264 if validateInput "$argCustomScriptTTL" "time_element"; then
1265 ### T: argCustomScriptTTL is a time element
1266 SCRIPT_TTL_TE="$argCustomScriptTTL";
1267 else
1268 ### F: argcustomScriptTTL is not a time element
1269 yell "ERROR:Invalid time element argument for custom script time-to-live."; showUsage; exit 1;
1270 fi;
1271 ## F: do not change SCRIPT_TTL_TE
1272 fi;
1273 } # Sets custom script or buffer TTL if specified
1274
1275
1276 main() {
1277 # Process arguments
1278 processArguments "$@";
1279 ## Act upon arguments
1280 ### Determine working directory
1281 magicInitWorkingDir; # Sets DIR_TMP from argTempDirPriority
1282 ### Set output encryption and compression option strings
1283 #### React to "-r" ("encryption recipients") option
1284 magicParseRecipientArgs; # Updates recPubKeysValid, CMD_ENCRYPT[_SUFFIX] from argRecPubKeys
1285 #### React to "-c" ("compression") option
1286 magicParseCompressionArg; # Updates CMD_COMPRESS[_SUFFIX]
1287 #### React to "-R" ("recipient directory") option
1288 magicParseRecipientDir; # Updates recPubKeysValid
1289 #### React to custom buffer and script TTL options ("-b", "-B")
1290 magicParseCustomTTL; # Sets custom SCRIPT_TTL_TE and/or BUFFER_TTL if specified
1291
1292 # Check that critical apps and dirs are available, display missing ones.
1293 if ! checkapp gpspipe tar && ! checkdir "$DIR_OUT" "DIR_TMP"; then
1294 yell "ERROR:Critical components missing.";
1295 displayMissing; yell "Exiting."; exit 1; fi
1296
1297 # Set script lifespan (SCRIPT_TTL from SCRIPT_TTL_TE)
1298 magicSetScriptTTL "$SCRIPT_TTL_TE";
1299 ## Note: SCRIPT_TTL_TE is time element string (ex: "day") while SCRIPT_TTL is integer seconds
1300
1301 # File name substring (ISO-8601 duration from BUFFER_TTL)
1302 bufferTTL_STR="$(timeDuration "$BUFFER_TTL")";
1303
1304 # Init temp working dir
1305 try mkdir "$DIR_TMP" && vbm "DEBUG:Working dir creatd at:$DIR_TMP";
1306
1307 # Initialize 'tar' archive
1308 ## Define output tar path (note: each day gets *one* tar file (Ex: "20200731..hostname_location.[.gpx.gz].tar"))
1309 PATHOUT_TAR="$DIR_OUT"/"$(dateShort)".."$SCRIPT_HOSTNAME""_location""$CMD_COMPRESS_SUFFIX""$CMD_ENCRYPT_SUFFIX".tar && \
1310 vbm "STATUS:Set PATHOUT_TAR to:$PATHOUT_TAR";
1311 ## Check that PATHOUT_TAR is a tar. Rename old and create empty one otherwise.
1312 checkMakeTar "$PATHOUT_TAR" && vbm "DEBUG:Confirmed or Created to be a tar:$PATHOUT_TAR";
1313 ## Append VERSION file to PATHOUT_TAR
1314 magicWriteVersion;
1315
1316 # Define GPS conversion commands
1317 CMD_CONV_NMEA="tee /dev/null " && vbm "STATUS:Set CMD_CONV_NMEA to:$CMD_CONV_NMEA"; # tee as passthrough
1318 CMD_CONV_GPX="gpsbabel -i nmea -f - -o gpx -F - " && vbm "STATUS:Set CMD_CONV_GPX to:$CMD_CONV_GPX"; # convert NMEA to GPX
1319 CMD_CONV_KML="gpsbabel -i nmea -f - -o kml -F - " && vbm "STATUS:Set CMD_CONV_KML to:$CMD_CONV_KML"; # convert NMEA to KML
1320
1321 # MAIN LOOP:Record gps data until script lifespan ends
1322 timeBufferFirstNS="$(timeEpochNS)"; bufferRound=0; BUFFER_TTL_ADJ_FLOAT="10.0";
1323 while [[ "$SECONDS" -lt "$SCRIPT_TTL" ]]; do
1324 magicParseRecipientDir;
1325 magicGatherWriteBuffer &
1326 sleep "$BUFFER_TTL_ADJ_FLOAT";
1327 ((bufferRound++));
1328 magicBufferSleepPID; # Calculates BUFFER_TTL_ADJ from BUFFER_TTL given buffer expected start time vs. actual
1329 done
1330
1331 # Cleanup
1332 ## Remove DIR_TMP
1333 try rm -r "$DIR_TMP";
1334
1335 vbm "STATUS:Main function finished.";
1336 } # Main function.
1337 #===END Declare local script functions===
1338 #==END Define script parameters==
1339
1340
1341 #==BEGIN Perform work and exit==
1342 main "$@" # Run main function.
1343 exit 0;
1344 #==END Perform work and exit==