[BK-2020-03.git] / unitproc / bkt-uptimeIso8601

#!/bin/bash
# Desc: Displays `uptime` information but with ISO-8601 time period
#   string.

yell() { echo "$0: $*" >&2; } # Yell, Die, Try Three-Fingered Claw technique; # Ref/Attrib: https://stackoverflow.com/a/25515370
die() { yell "$*"; exit 111; }
try() { "$@" || die "cannot $*"; }
timeDuration(){
    # Desc: Given seconds, output ISO-8601 duration string
    # Ref/Attrib: ISO-8601:2004(E), §4.4.4.2 Representations of time intervals by duration and context information
    # Note: "1 month" ("P1M") is assumed to be "30 days" (see ISO-8601:2004(E), §2.2.1.2)
    # Usage: timeDuration [1:seconds] ([2:precision])
    # Version: 1.0.5
    # Input: arg1: seconds as base 10 integer >= 0  (ex: 3601)
    #        arg2: precision level (optional; default=2)
    # Output: stdout: ISO-8601 duration string (ex: "P1H1S", "P2Y10M15DT10H30M20S")
    #         exit code 0: success
    #         exit code 1: error_input
    #         exit code 2: error_unknown
    # Example: 'timeDuration 111111 3' yields 'P1DT6H51M'
    # Depends: date 8, bash 5, yell,
    local argSeconds argPrecision precision returnState remainder
    local fullYears fullMonths fullDays fullHours fullMinutes fullSeconds
    local hasYears hasMonths hasDays hasHours hasMinutes hasSeconds
    local witherPrecision output
    local displayYears displayMonths displayDays displayHours displayMinutes displaySeconds
    
    argSeconds="$1"; # read arg1 (seconds)
    argPrecision="$2"; # read arg2 (precision)
    precision=2; # set default precision

    # Check that between one and two arguments is supplied
    if ! { [[ $# -ge 1 ]] && [[ $# -le 2 ]]; }; then
	yell "ERROR:Invalid number of arguments:$# . Exiting.";
	returnState="error_input"; fi

    # Check that argSeconds provided
    if [[ $# -ge 1 ]]; then
	## Check that argSeconds is a positive integer
	if [[ "$argSeconds" =~ ^[[:digit:]]+$ ]]; then
   	    :
	else
	    yell "ERROR:argSeconds not a digit.";
	    returnState="error_input";
	fi
    else
	yell "ERROR:No argument provided. Exiting.";
	exit 1;
    fi

    # Consider whether argPrecision was provided
    if  [[ $# -eq 2 ]]; then
	# Check that argPrecision is a positive integer
	if [[ "$argPrecision" =~ ^[[:digit:]]+$ ]] && [[ "$argPrecision" -gt 0 ]]; then
	precision="$argPrecision";
	else
	    yell "ERROR:argPrecision not a positive integer. (is $argPrecision ). Leaving early.";
	    returnState="error_input";
	fi;
    else
	:
    fi;
    
    remainder="$argSeconds" ; # seconds
    ## Calculate full years Y, update remainder
    fullYears=$(( remainder / (365*24*60*60) ));
    remainder=$(( remainder - (fullYears*365*24*60*60) ));
    ## Calculate full months M, update remainder
    fullMonths=$(( remainder / (30*24*60*60) ));
    remainder=$(( remainder - (fullMonths*30*24*60*60) ));
    ## Calculate full days D, update remainder
    fullDays=$(( remainder / (24*60*60) ));
    remainder=$(( remainder - (fullDays*24*60*60) ));
    ## Calculate full hours H, update remainder
    fullHours=$(( remainder / (60*60) ));
    remainder=$(( remainder - (fullHours*60*60) ));
    ## Calculate full minutes M, update remainder
    fullMinutes=$(( remainder / (60) ));
    remainder=$(( remainder - (fullMinutes*60) ));
    ## Calculate full seconds S, update remainder
    fullSeconds=$(( remainder / (1) ));
    remainder=$(( remainder - (remainder*1) ));
    ## Check which fields filled
    if [[ $fullYears -gt 0 ]]; then hasYears="true"; else hasYears="false"; fi
    if [[ $fullMonths -gt 0 ]]; then hasMonths="true"; else hasMonths="false"; fi
    if [[ $fullDays -gt 0 ]]; then hasDays="true"; else hasDays="false"; fi
    if [[ $fullHours -gt 0 ]]; then hasHours="true"; else hasHours="false"; fi
    if [[ $fullMinutes -gt 0 ]]; then hasMinutes="true"; else hasMinutes="false"; fi
    if [[ $fullSeconds -ge 0 ]]; then hasSeconds="true"; else hasSeconds="false"; fi
    
    ## Determine which fields to display (see ISO-8601:2004 §4.4.3.2)
    witherPrecision="false"
    
    ### Years
    if $hasYears && [[ $precision -gt 0 ]]; then
	displayYears="true";
	witherPrecision="true";
    else
	displayYears="false";
    fi;
    if $witherPrecision; then ((precision--)); fi;
    
    ### Months
    if $hasMonths && [[ $precision -gt 0 ]]; then
	displayMonths="true";
	witherPrecision="true";
    else
	displayMonths="false";
    fi;
    if $witherPrecision && [[ $precision -gt 0 ]]; then
	displayMonths="true";
    fi;
    if $witherPrecision; then ((precision--)); fi;

    ### Days
    if $hasDays && [[ $precision -gt 0 ]]; then
	displayDays="true";
	witherPrecision="true";
    else
	displayDays="false";
    fi;
    if $witherPrecision && [[ $precision -gt 0 ]]; then
	displayDays="true";
    fi;
    if $witherPrecision; then ((precision--)); fi;

    ### Hours
    if $hasHours && [[ $precision -gt 0 ]]; then
	displayHours="true";
	witherPrecision="true";
    else
	displayHours="false";
    fi;
    if $witherPrecision && [[ $precision -gt 0 ]]; then
	displayHours="true";
    fi;
    if $witherPrecision; then ((precision--)); fi;

    ### Minutes
    if $hasMinutes && [[ $precision -gt 0 ]]; then
	displayMinutes="true";
	witherPrecision="true";
    else
	displayMinutes="false";
    fi;
    if $witherPrecision && [[ $precision -gt 0 ]]; then
	displayMinutes="true";
    fi;
    if $witherPrecision; then ((precision--)); fi;

    ### Seconds

    if $hasSeconds && [[ $precision -gt 0 ]]; then
	displaySeconds="true";
	witherPrecision="true";
    else
	displaySeconds="false";
    fi;
    if $witherPrecision && [[ $precision -gt 0 ]]; then
	displaySeconds="true";
    fi;
    if $witherPrecision; then ((precision--)); fi;

    ## Determine whether or not the "T" separator is needed to separate date and time elements
    if ( $displayHours || $displayMinutes || $displaySeconds); then
	displayDateTime="true"; else displayDateTime="false"; fi
    
    ## Construct duration output string
    output="P"
    if $displayYears; then
	output=$output$fullYears"Y"; fi
    if $displayMonths; then
	output=$output$fullMonths"M"; fi
    if $displayDays; then
	output=$output$fullDays"D"; fi
    if $displayDateTime; then
	output=$output"T"; fi
    if $displayHours; then
	output=$output$fullHours"H"; fi
    if $displayMinutes; then
	output=$output$fullMinutes"M"; fi
    if $displaySeconds; then
	output=$output$fullSeconds"S"; fi

    ## Output duration string to stdout
    echo "$output" && returnState="true";

    #===Determine function return code===
    if [ "$returnState" = "true" ]; then
	return 0;
    elif [ "$returnState" = "error_input" ]; then
	yell "ERROR:input";
	return 1;
    else
	yell "ERROR:Unknown";
	return 2;
    fi

} # Get duration (ex: PT10M4S )
uptimeIso8601() {
    # Desc: Get system uptime with ISO_8601-formatted time period
    # Usage: uptimeIso8601    
    # Output: A string similar to `uptime` but with date and uptime
    #   time period replaced with a period/endtime ISO-8601-formatted
    #   string.
    #     ex: `P3DT23H36M46S/2021-03-28T14:47:48+0000,  5 users,  load average: 0.09, 0.10, 0.13`
    # Note: No arguments used.
    # Depends: timeDuration() v1.0.5, uptime
    # Version: 0.0.1
    # Ref/Attrib: get uptime in seconds https://leo.leung.xyz/wiki/Linux_Uptime_in_Seconds
    sysUptime=$(</proc/uptime);
    sysUptime=${sysUptime%%.*}; # 
    sysUptimeIso="$(timeDuration $sysUptime 4)";
    timeNow="$(date +%Y-%m-%dT%H:%M:%S%z)";
    users_load="$(uptime | cut -d',' -f3-)";
    output="$sysUptimeIso"/"$timeNow","$users_load ";
    echo "$output";
} # Get uptime with ISO-8601 time period
main() {
    uptimeIso8601;
}


# Author: Steven Baltakatei Sandoval
# License: GPLv3+
Commit	Line	Data
1e71fc20 SBS	1	#!/bin/bash
	2	# Desc: Displays `uptime` information but with ISO-8601 time period
	3	# string.
	4
	5	yell() { echo "$0: $*" >&2; } # Yell, Die, Try Three-Fingered Claw technique; # Ref/Attrib: https://stackoverflow.com/a/25515370
	6	die() { yell "$*"; exit 111; }
	7	try() { "$@" \|\| die "cannot $*"; }
	8	timeDuration(){
	9	# Desc: Given seconds, output ISO-8601 duration string
	10	# Ref/Attrib: ISO-8601:2004(E), §4.4.4.2 Representations of time intervals by duration and context information
	11	# Note: "1 month" ("P1M") is assumed to be "30 days" (see ISO-8601:2004(E), §2.2.1.2)
	12	# Usage: timeDuration [1:seconds] ([2:precision])
	13	# Version: 1.0.5
	14	# Input: arg1: seconds as base 10 integer >= 0 (ex: 3601)
	15	# arg2: precision level (optional; default=2)
	16	# Output: stdout: ISO-8601 duration string (ex: "P1H1S", "P2Y10M15DT10H30M20S")
	17	# exit code 0: success
	18	# exit code 1: error_input
	19	# exit code 2: error_unknown
	20	# Example: 'timeDuration 111111 3' yields 'P1DT6H51M'
	21	# Depends: date 8, bash 5, yell,
	22	local argSeconds argPrecision precision returnState remainder
	23	local fullYears fullMonths fullDays fullHours fullMinutes fullSeconds
	24	local hasYears hasMonths hasDays hasHours hasMinutes hasSeconds
	25	local witherPrecision output
	26	local displayYears displayMonths displayDays displayHours displayMinutes displaySeconds
	27
	28	argSeconds="$1"; # read arg1 (seconds)
	29	argPrecision="$2"; # read arg2 (precision)
	30	precision=2; # set default precision
	31
	32	# Check that between one and two arguments is supplied
	33	if ! { [[ $# -ge 1 ]] && [[ $# -le 2 ]]; }; then
	34	yell "ERROR:Invalid number of arguments:$# . Exiting.";
	35	returnState="error_input"; fi
	36
	37	# Check that argSeconds provided
	38	if [[ $# -ge 1 ]]; then
	39	## Check that argSeconds is a positive integer
	40	if [[ "$argSeconds" =~ ^[[:digit:]]+$ ]]; then
	41	:
	42	else
	43	yell "ERROR:argSeconds not a digit.";
	44	returnState="error_input";
	45	fi
	46	else
	47	yell "ERROR:No argument provided. Exiting.";
	48	exit 1;
	49	fi
	50
	51	# Consider whether argPrecision was provided
	52	if [[ $# -eq 2 ]]; then
	53	# Check that argPrecision is a positive integer
	54	if [[ "$argPrecision" =~ ^[[:digit:]]+$ ]] && [[ "$argPrecision" -gt 0 ]]; then
	55	precision="$argPrecision";
	56	else
	57	yell "ERROR:argPrecision not a positive integer. (is $argPrecision ). Leaving early.";
	58	returnState="error_input";
	59	fi;
	60	else
	61	:
	62	fi;
	63
	64	remainder="$argSeconds" ; # seconds
65	## Calculate full years Y, update remainder
66	fullYears=$(( remainder / (3652460*60) ));
67	remainder=$(( remainder - (fullYears365246060) ));
68	## Calculate full months M, update remainder
69	fullMonths=$(( remainder / (302460*60) ));
70	remainder=$(( remainder - (fullMonths30246060) ));
71	## Calculate full days D, update remainder
72	fullDays=$(( remainder / (246060) ));
73	remainder=$(( remainder - (fullDays2460*60) ));
74	## Calculate full hours H, update remainder
75	fullHours=$(( remainder / (60*60) ));
76	remainder=$(( remainder - (fullHours6060) ));
77	## Calculate full minutes M, update remainder
78	fullMinutes=$(( remainder / (60) ));
79	remainder=$(( remainder - (fullMinutes*60) ));
80	## Calculate full seconds S, update remainder
81	fullSeconds=$(( remainder / (1) ));
82	remainder=$(( remainder - (remainder*1) ));
83	## Check which fields filled
84	if [[ $fullYears -gt 0 ]]; then hasYears="true"; else hasYears="false"; fi
85	if [[ $fullMonths -gt 0 ]]; then hasMonths="true"; else hasMonths="false"; fi
86	if [[ $fullDays -gt 0 ]]; then hasDays="true"; else hasDays="false"; fi
87	if [[ $fullHours -gt 0 ]]; then hasHours="true"; else hasHours="false"; fi
88	if [[ $fullMinutes -gt 0 ]]; then hasMinutes="true"; else hasMinutes="false"; fi
89	if [[ $fullSeconds -ge 0 ]]; then hasSeconds="true"; else hasSeconds="false"; fi
90
91	## Determine which fields to display (see ISO-8601:2004 §4.4.3.2)
92	witherPrecision="false"
93
94	### Years
95	if $hasYears && [[ $precision -gt 0 ]]; then
96	displayYears="true";
97	witherPrecision="true";
98	else
99	displayYears="false";
100	fi;
101	if $witherPrecision; then ((precision--)); fi;
102
103	### Months
104	if $hasMonths && [[ $precision -gt 0 ]]; then
105	displayMonths="true";
106	witherPrecision="true";
107	else
108	displayMonths="false";
109	fi;
110	if $witherPrecision && [[ $precision -gt 0 ]]; then
111	displayMonths="true";
112	fi;
113	if $witherPrecision; then ((precision--)); fi;
114
115	### Days
116	if $hasDays && [[ $precision -gt 0 ]]; then
117	displayDays="true";
118	witherPrecision="true";
119	else
120	displayDays="false";
121	fi;
122	if $witherPrecision && [[ $precision -gt 0 ]]; then
123	displayDays="true";
124	fi;
125	if $witherPrecision; then ((precision--)); fi;
126
127	### Hours
128	if $hasHours && [[ $precision -gt 0 ]]; then
129	displayHours="true";
130	witherPrecision="true";
131	else
132	displayHours="false";
133	fi;
134	if $witherPrecision && [[ $precision -gt 0 ]]; then
135	displayHours="true";
136	fi;
137	if $witherPrecision; then ((precision--)); fi;
138
139	### Minutes
140	if $hasMinutes && [[ $precision -gt 0 ]]; then
141	displayMinutes="true";
142	witherPrecision="true";
143	else
144	displayMinutes="false";
145	fi;
146	if $witherPrecision && [[ $precision -gt 0 ]]; then
147	displayMinutes="true";
148	fi;
149	if $witherPrecision; then ((precision--)); fi;
150
151	### Seconds
152
153	if $hasSeconds && [[ $precision -gt 0 ]]; then
154	displaySeconds="true";
155	witherPrecision="true";
156	else
157	displaySeconds="false";
158	fi;
159	if $witherPrecision && [[ $precision -gt 0 ]]; then
160	displaySeconds="true";
161	fi;
162	if $witherPrecision; then ((precision--)); fi;
163
164	## Determine whether or not the "T" separator is needed to separate date and time elements
165	if ( $displayHours \|\| $displayMinutes \|\| $displaySeconds); then
166	displayDateTime="true"; else displayDateTime="false"; fi
167
168	## Construct duration output string
169	output="P"
170	if $displayYears; then
171	output=$output$fullYears"Y"; fi
172	if $displayMonths; then
173	output=$output$fullMonths"M"; fi
174	if $displayDays; then
175	output=$output$fullDays"D"; fi
176	if $displayDateTime; then
177	output=$output"T"; fi
178	if $displayHours; then
179	output=$output$fullHours"H"; fi
180	if $displayMinutes; then
181	output=$output$fullMinutes"M"; fi
182	if $displaySeconds; then
183	output=$output$fullSeconds"S"; fi
184
185	## Output duration string to stdout
186	echo "$output" && returnState="true";
187
188	#===Determine function return code===
189	if [ "$returnState" = "true" ]; then
190	return 0;
191	elif [ "$returnState" = "error_input" ]; then
192	yell "ERROR:input";
193	return 1;
194	else
195	yell "ERROR:Unknown";
196	return 2;
197	fi
198
199	} # Get duration (ex: PT10M4S )
200	uptimeIso8601() {
201	# Desc: Get system uptime with ISO_8601-formatted time period
202	# Usage: uptimeIso8601
203	# Output: A string similar to `uptime` but with date and uptime
204	# time period replaced with a period/endtime ISO-8601-formatted
205	# string.
206	# ex: `P3DT23H36M46S/2021-03-28T14:47:48+0000, 5 users, load average: 0.09, 0.10, 0.13`
207	# Note: No arguments used.
208	# Depends: timeDuration() v1.0.5, uptime
209	# Version: 0.0.1
210	# Ref/Attrib: get uptime in seconds https://leo.leung.xyz/wiki/Linux_Uptime_in_Seconds
211	sysUptime=$(</proc/uptime);
212	sysUptime=${sysUptime%%.*}; #
213	sysUptimeIso="$(timeDuration $sysUptime 4)";
214	timeNow="$(date +%Y-%m-%dT%H:%M:%S%z)";
215	users_load="$(uptime \| cut -d',' -f3-)";
216	output="$sysUptimeIso"/"$timeNow","$users_load ";
217	echo "$output";
218	} # Get uptime with ISO-8601 time period
219	main() {
220	uptimeIso8601;
221	}
222
223
224	# Author: Steven Baltakatei Sandoval
225	# License: GPLv3+