[distorted-keys] / cryptop.list

#! /bin/sh
###
### List a user's keys
###
### (c) 2011 Mark Wooding
###

###----- Licensing notice ---------------------------------------------------
###
### This file is part of the distorted.org.uk key management suite.
###
### distorted-keys is free software; you can redistribute it and/or modify
### it under the terms of the GNU General Public License as published by
### the Free Software Foundation; either version 2 of the License, or
### (at your option) any later version.
###
### distorted-keys is distributed in the hope that it will be useful,
### but WITHOUT ANY WARRANTY; without even the implied warranty of
### MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
### GNU General Public License for more details.
###
### You should have received a copy of the GNU General Public License
### along with distorted-keys; if not, write to the Free Software Foundation,
### Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

set -e
case "${KEYSLIB+t}" in t) ;; *) echo >&2 "$0: KEYSLIB unset"; exit 1 ;; esac
. "$KEYSLIB"/keyfunc.sh

defhelp <<HELP
[-Ha] [-C COLUMN,...] [-u USER] [PATTERN ...]
List stored keys.  If PATTERNs are given, only list keys whose labels match
at least one PATTERN.

Options:
  -H		Don't show the column headings (useful for scripts).
  -C COLUMN,...	Select the columns to show.
  -a		Show keys owned by all users.
  -u USER	Show keys owned by USER.

A COLUMN spec consists of a column name and an optional column width,
separated by a colon.  The widths of omitted columns are computed
automatically.

Columns:
  flags		Various flags for the key.  (Unset flags are shown as \`.')
		  R	key has recovery information
		  !	key nub needs recovery
  label		The key's label (relative to its owner).
  profile	The key's profile name.
  recov		Recovery key labels, comma-separated.
HELP

###--------------------------------------------------------------------------
### Column types.

ALLCOLS=""
defcol () { ALLCOLS=${ALLCOLS:+$ALLCOLS,}$1; }

defcol flags
col_flags () {
  label=$1
  flags=""

  rflag=.
  for i in recov/*/current/$label.recov; do
    if [ -f "$i" ]; then rflag=R; break; fi
  done
  flags=$flags$rflag

  bangflag=!
  if [ -f nub/$label ]; then bangflag=.; fi
  flags=$flags$bangflag

  echo "$flags"
}

defcol label
col_label () {
  label=$1

  case $all,$label in
    nil,$USERV_USER*) plabel=${label#*/} ;;
    t,*) plabel=${label%%/*}:${label#*/} ;;
  esac
  echo "$plabel"
}

defcol profile
col_profile () {
  label=$1

  readmeta store/$label
  echo "$profile"
}

defcol recov
col_recov () {
  label=$1
  recov=""

  for i in recov/*; do
    if [ -f "$i/current/$label.recov" ]; then
      recov=${recov:+$recov,}${i#recov/}
    fi
  done
  echo "$recov"
}

###--------------------------------------------------------------------------
### Main program.

## Parse the command-line options.  Remaining arguments are glob patterns.
header=t
cols=$ALLCOLS
all=nil
user=$USERV_USER
while getopts "HaC:u:" opt; do
  case "$opt" in
    a) all=t ;;
    H) header=nil ;;
    C) cols=$OPTARG ;;
    u) user=$OPTARG ;;
    *) usage_err ;;
  esac
done
shift $(( $OPTIND - 1 ))
case $# in 0) set "*" ;; esac
cd $KEYS

## First pass: validate the column specifications.  Translate all bare column
## names into explicit `NAME+0' forms.  Decide whether we need a width-
## measuring pass.
calcwd=nil
cc=$cols
wdcols=""
while :; do

  ## Pick off the next column name.  If none are left, leave the loop.
  case "$cc" in
    *,*) col=${cc%%,*} cc=${cc#*,} ;;
    ?*) col=$cc cc="" ;;
    *) break ;;
  esac

  ## Extract the column name for later.
  name=${col%[:=+]*}

  ## If we have a minimum width or no width, we need a measuring pass.
  case "$col" in *[:=]*) ;; *) calcwd=t ;; esac

  ## Check the column width is valid.  Build the new column list with
  ## explicit widths.
  case "$col" in
    *[:=+]*)
      wd=${col#*[:=+]}
      wdcols=${wdcols:+$wdcols,}$col
      checknumber "column width" "$wd"
      ;;
    *)
      wdcols=${wdcols:+$wdcols,}$col+0
      ;;
  esac

  ## Check the column name.
  case ,$ALLCOLS, in
    *,"$name",*) ;;
    *) echo >&2 "$quis: unknown column \`$name'"; exit 1 ;;
  esac
done

## Second and third pass: find the keys, compute their properties and either
## measure column widths or display the results.
while :; do

  ## Decide whether we need to display a header.  (We need this on both
  ## passes, because it may contribute to width.)
  doheader=$header

  ## Find the metadata files.  This tells us where the keys are.
  case $all in
    t) dir=store ;;
    nil) dir=store/$user ;;
  esac
  metas=$(find store -type f -name meta)

  ## Work through the keys we found.
  while :; do

    ## If we're not doing a header line, read the next metadata file name.
    ## Check that it matches at least one pattern.
    case $doheader in
      nil)
	if ! read meta; then break; fi
	label=${meta#store/}; label=${label%/meta}
	matchp=nil
	for pat in "$@"; do
	  case "$label" in $pat) matchp=t; break ;; esac
	done
	case $matchp in nil) continue ;; esac
	;;
    esac

    ## Now iterate over the columns.  If we're calculating widths, use the
    ## ones we worked out last time, and clear the list so we can build a new
    ## one as we go.
    case $calcwd in t) cols=$wdcols ;; esac
    cc=$cols wdcols="" sep=""
    while :; do

      ## Pick off the next column spec.
      case "$cc" in
	*,*) col=${cc%%,*} cc=${cc#*,} ;;
	?*) col=$cc cc="" ;;
	*) break ;;
      esac

      ## Work out the column name.
      name=${col%[:=+]*} wd=${col#*[:=+]}

      ## Work out the value.  If this is a header line, then it's just the
      ## column name in upper case; otherwise we have work to do.
      case $doheader in
	t) value=$(echo $name | tr a-z A-Z) ;;
	nil) value=$(col_$name $label) ;;
      esac

      ## Work out what to do about it.  If we're measuring, then update our
      ## idea of the column width.  If we're printing, work out a format.
      case $calcwd,$col in
	t,*[:=]*)
	  wdcols=${wdcols:+$wdcols,}$col
	  ;;
	t,*+*)
	  colwd=$(( $(echo "$value" | wc -c) - 1 ))
	  if [ $colwd -gt $wd ]; then wd=$colwd; fi
	  wdcols=${wdcols:+$wdcols,}$name+$wd
	  ;;
	nil,*[=+]*)
	  fmt="%-${wd}.${wd}s"
	  ;;
	nil,*:*)
	  fmt="%-${wd}s"
	  ;;
      esac

      ## If we're printing, then print something.  Leave space between the
      ## columns.
      case $calcwd in nil) printf "$sep$fmt" "$value"; sep="  " ;; esac
    done

    ## The next line will certainly not be a header.
    doheader=nil

    ## Start a new line if we're printing.
    case $calcwd in nil) printf "\n" ;; esac
  done <<EOF
$metas
EOF

  ## If we were measuring, go round again and print; otherwise we're done.
  case $calcwd in
    t) calcwd=nil ;;
    nil) break ;;
  esac
done

###----- That's all, folks --------------------------------------------------
Commit	Line	Data
f5673211 MW	1	#! /bin/sh
	2	###
	3	### List a user's keys
	4	###
	5	### (c) 2011 Mark Wooding
	6	###
	7
	8	###----- Licensing notice ---------------------------------------------------
	9	###
	10	### This file is part of the distorted.org.uk key management suite.
	11	###
	12	### distorted-keys is free software; you can redistribute it and/or modify
	13	### it under the terms of the GNU General Public License as published by
	14	### the Free Software Foundation; either version 2 of the License, or
	15	### (at your option) any later version.
	16	###
	17	### distorted-keys is distributed in the hope that it will be useful,
	18	### but WITHOUT ANY WARRANTY; without even the implied warranty of
	19	### MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	20	### GNU General Public License for more details.
	21	###
	22	### You should have received a copy of the GNU General Public License
	23	### along with distorted-keys; if not, write to the Free Software Foundation,
	24	### Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
	25
	26	set -e
	27	case "${KEYSLIB+t}" in t) ;; *) echo >&2 "$0: KEYSLIB unset"; exit 1 ;; esac
	28	. "$KEYSLIB"/keyfunc.sh
	29
	30	defhelp <<HELP
	31	[-Ha] [-C COLUMN,...] [-u USER] [PATTERN ...]
	32	List stored keys. If PATTERNs are given, only list keys whose labels match
	33	at least one PATTERN.
	34
	35	Options:
	36	-H Don't show the column headings (useful for scripts).
	37	-C COLUMN,... Select the columns to show.
	38	-a Show keys owned by all users.
	39	-u USER Show keys owned by USER.
	40
	41	A COLUMN spec consists of a column name and an optional column width,
	42	separated by a colon. The widths of omitted columns are computed
	43	automatically.
	44
	45	Columns:
	46	flags Various flags for the key. (Unset flags are shown as \`.')
	47	R key has recovery information
	48	! key nub needs recovery
	49	label The key's label (relative to its owner).
	50	profile The key's profile name.
	51	recov Recovery key labels, comma-separated.
	52	HELP
	53
	54	###--------------------------------------------------------------------------
	55	### Column types.
	56
	57	ALLCOLS=""
	58	defcol () { ALLCOLS=${ALLCOLS:+$ALLCOLS,}$1; }
	59
	60	defcol flags
	61	col_flags () {
	62	label=$1
	63	flags=""
	64
65	rflag=.
66	for i in recov/*/current/$label.recov; do
67	if [ -f "$i" ]; then rflag=R; break; fi
68	done
69	flags=$flags$rflag
70
71	bangflag=!
72	if [ -f nub/$label ]; then bangflag=.; fi
73	flags=$flags$bangflag
74
75	echo "$flags"
76	}
77
78	defcol label
79	col_label () {
80	label=$1
81
82	case $all,$label in
83	nil,$USERV_USER) plabel=${label#/} ;;
84	t,) plabel=${label%%/}:${label#*/} ;;
85	esac
86	echo "$plabel"
87	}
88
89	defcol profile
90	col_profile () {
91	label=$1
92
93	readmeta store/$label
94	echo "$profile"
95	}
96
97	defcol recov
98	col_recov () {
99	label=$1
100	recov=""
101
102	for i in recov/*; do
103	if [ -f "$i/current/$label.recov" ]; then
104	recov=${recov:+$recov,}${i#recov/}
105	fi
106	done
107	echo "$recov"
108	}
109
110	###--------------------------------------------------------------------------
111	### Main program.
112
113	## Parse the command-line options. Remaining arguments are glob patterns.
114	header=t
115	cols=$ALLCOLS
116	all=nil
117	user=$USERV_USER
118	while getopts "HaC:u:" opt; do
119	case "$opt" in
120	a) all=t ;;
121	H) header=nil ;;
122	C) cols=$OPTARG ;;
123	u) user=$OPTARG ;;
124	*) usage_err ;;
125	esac
126	done
127	shift $(( $OPTIND - 1 ))
128	case $# in 0) set "*" ;; esac
129	cd $KEYS
130
131	## First pass: validate the column specifications. Translate all bare column
132	## names into explicit `NAME+0' forms. Decide whether we need a width-
133	## measuring pass.
134	calcwd=nil
135	cc=$cols
136	wdcols=""
137	while :; do
138
139	## Pick off the next column name. If none are left, leave the loop.
140	case "$cc" in
141	,) col=${cc%%,} cc=${cc#,} ;;
142	?*) col=$cc cc="" ;;
143	*) break ;;
144	esac
145
146	## Extract the column name for later.
147	name=${col%[:=+]*}
148
149	## If we have a minimum width or no width, we need a measuring pass.
150	case "$col" in [:=]) ;; *) calcwd=t ;; esac
151
152	## Check the column width is valid. Build the new column list with
153	## explicit widths.
154	case "$col" in
155	[:=+])
156	wd=${col#*[:=+]}
157	wdcols=${wdcols:+$wdcols,}$col
158	checknumber "column width" "$wd"
159	;;
160	*)
161	wdcols=${wdcols:+$wdcols,}$col+0
162	;;
163	esac
164
165	## Check the column name.
166	case ,$ALLCOLS, in
167	,"$name",) ;;
168	*) echo >&2 "$quis: unknown column \`$name'"; exit 1 ;;
169	esac
170	done
171
172	## Second and third pass: find the keys, compute their properties and either
173	## measure column widths or display the results.
174	while :; do
175
176	## Decide whether we need to display a header. (We need this on both
177	## passes, because it may contribute to width.)
178	doheader=$header
179
180	## Find the metadata files. This tells us where the keys are.
181	case $all in
182	t) dir=store ;;
183	nil) dir=store/$user ;;
184	esac
185	metas=$(find store -type f -name meta)
186
187	## Work through the keys we found.
188	while :; do
189
190	## If we're not doing a header line, read the next metadata file name.
191	## Check that it matches at least one pattern.
192	case $doheader in
193	nil)
194	if ! read meta; then break; fi
195	label=${meta#store/}; label=${label%/meta}
196	matchp=nil
197	for pat in "$@"; do
198	case "$label" in $pat) matchp=t; break ;; esac
199	done
200	case $matchp in nil) continue ;; esac
201	;;
202	esac
203
204	## Now iterate over the columns. If we're calculating widths, use the
205	## ones we worked out last time, and clear the list so we can build a new
206	## one as we go.
207	case $calcwd in t) cols=$wdcols ;; esac
208	cc=$cols wdcols="" sep=""
209	while :; do
210
211	## Pick off the next column spec.
212	case "$cc" in
213	,) col=${cc%%,} cc=${cc#,} ;;
214	?*) col=$cc cc="" ;;
215	*) break ;;
216	esac
217
218	## Work out the column name.
219	name=${col%[:=+]} wd=${col#[:=+]}
220
221	## Work out the value. If this is a header line, then it's just the
222	## column name in upper case; otherwise we have work to do.
223	case $doheader in
224	t) value=$(echo $name \| tr a-z A-Z) ;;
225	nil) value=$(col_$name $label) ;;
226	esac
227
228	## Work out what to do about it. If we're measuring, then update our
229	## idea of the column width. If we're printing, work out a format.
230	case $calcwd,$col in
231	t,[:=])
232	wdcols=${wdcols:+$wdcols,}$col
233	;;
234	t,+)
235	colwd=$(( $(echo "$value" \| wc -c) - 1 ))
236	if [ $colwd -gt $wd ]; then wd=$colwd; fi
237	wdcols=${wdcols:+$wdcols,}$name+$wd
238	;;
239	nil,[=+])
240	fmt="%-${wd}.${wd}s"
241	;;
242	nil,:)
243	fmt="%-${wd}s"
244	;;
245	esac
246
247	## If we're printing, then print something. Leave space between the
248	## columns.
249	case $calcwd in nil) printf "$sep$fmt" "$value"; sep=" " ;; esac
250	done
251
252	## The next line will certainly not be a header.
253	doheader=nil
254
255	## Start a new line if we're printing.
256	case $calcwd in nil) printf "\n" ;; esac
257	done <<EOF
258	$metas
259	EOF
260
261	## If we were measuring, go round again and print; otherwise we're done.
262	case $calcwd in
263	t) calcwd=nil ;;
264	nil) break ;;
265	esac
266	done
267
268	###----- That's all, folks --------------------------------------------------