#!/bin/ksh # $OpenBSD: install.sub,v 1.1178 2021/09/13 11:49:21 robert Exp $ # # Copyright (c) 1997-2015 Todd Miller, Theo de Raadt, Ken Westerback # Copyright (c) 2015, Robert Peichaer # # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR # IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES # OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. # IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, # INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT # NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF # THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. # # Copyright (c) 1996 The NetBSD Foundation, Inc. # All rights reserved. # # This code is derived from software contributed to The NetBSD Foundation # by Jason R. Thorpe. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS # ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED # TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR # PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # # OpenBSD install/upgrade script common subroutines and initialization code # ------------------------------------------------------------------------------ # Misc functions # ------------------------------------------------------------------------------ # Print error message to stderr and exit the script. err_exit() { print -u2 -- "$*" exit 1 } # Show usage of the installer script and exit. usage() { err_exit "usage: ${0##*/} [-ax] [-f filename] [-m install | upgrade]" } # Wait for the ftp(1) process started in start_cgiinfo() to end and extract # various informations from the ftplist.cgi output. wait_cgiinfo() { local _l _s _key _val wait "$CGIPID" 2>/dev/null # Ensure, there is actual data to extract info from. [[ -s $CGI_INFO ]] || return # Extract the list of mirror servers. sed -En 's,^https?://([[A-Za-z0-9:_][]A-Za-z0-9:._-]*),\1,p' \ $CGI_INFO >$HTTP_LIST 2>/dev/null # Extract the previously selected mirror server (first entry in the # ftplist.cgi output, if that has no location info). read -r -- _s _l <$HTTP_LIST [[ -z $_l ]] && : ${HTTP_SERVER:=${_s%%/*}} # Extract the previously used install method, timezone information # and a reference timestamp. while IFS='=' read -r -- _key _val; do case $_key=$_val in method=+([a-z])*([0-9])) CGI_METHOD=$_val;; TIME=+([0-9])) CGI_TIME=$_val;; TZ=+([-_/+[:alnum:]])) CGI_TZ=$_val;; esac done <$CGI_INFO } # ------------------------------------------------------------------------------ # Utils functions # ------------------------------------------------------------------------------ # Sort and print unique list of provided arguments. bsort() { local _a=$1 _b _l (($#)) && shift || return for _b; do [[ $_a == "$_b" ]] && continue if [[ $_a > $_b ]]; then _l="$_a $_l" _a=$_b else _l="$_b $_l" fi done # Output the smallest value found. (($#)) && echo -n "$_a " || echo -n "$_a" # Sort remaining values. bsort $_l } # Test the first argument against the remaining ones, return success on a match. isin() { local _a=$1 _b shift for _b; do [[ $_a == "$_b" ]] && return 0 done return 1 } # Add first argument to list formed by the remaining arguments. # Adds to the tail if the element does not already exist. addel() { local _a=$1 shift isin "$_a" $* && echo -n "$*" || echo -n "${*:+$* }$_a" } # Remove all occurrences of first argument from list formed by the remaining # arguments. rmel() { local _a=$1 _b _c shift for _b; do [[ $_a != "$_b" ]] && _c="${_c:+$_c }$_b" done echo -n "$_c" } # If possible, print the timestamp received from the ftplist.cgi output, # adjusted with the time elapsed since it was received. http_time() { local _sec=$(cat $HTTP_SEC 2>/dev/null) [[ -n $_sec && -n $CGI_TIME ]] && echo $((CGI_TIME + SECONDS - _sec)) } # Prints the supplied parameters properly escaped for future sh/ksh parsing. # Quotes are added if needed, so you should not do that yourself. quote() ( # Since this is a subshell we won't pollute the calling namespace. for _a; do alias Q=$_a; _a=$(alias Q); print -rn -- " ${_a#Q=}" done | sed '1s/ //' echo ) # Show a list of ordered arguments (read line by line from stdin) in column # output using ls. show_cols() { local _l _cdir=/tmp/i/cdir _clist mkdir -p $_cdir rm -rf -- $_cdir/* while read _l; do [[ -n $_l ]] || continue mkdir -p /tmp/i/cdir/"$_l" _clist[${#_clist[*]}]="$_l" done (cd $_cdir; ls -Cdf "${_clist[@]}") rm -rf -- $_cdir } # Echo file $1 to stdout. Skip comment lines. Strip leading and trailing # whitespace if IFS is set. stripcom() { local _file=$1 _line [[ -f $_file ]] || return set -o noglob while read _line; do [[ -n ${_line%%#*} ]] && echo $_line done <$_file set +o noglob } # Create a temporary directory based on the supplied directory name prefix. tmpdir() { local _i=1 _dir until _dir="${1?}.$_i.$RANDOM" && mkdir -- "$_dir" 2>/dev/null; do ((++_i < 10000)) || return 1 done echo "$_dir" } # Generate unique filename based on the supplied filename $1. unique_filename() { local _fn=$1 _ufn while _ufn=${_fn}.$RANDOM && [[ -e $_ufn ]]; do :; done print -- "$_ufn" } # Let rc.firsttime feed file $1 using $2 as subject to whatever mail system we # have at hand by then. prep_root_mail() { local _fn=$1 _subject=$2 _ufn [[ -s $_fn ]] || return _ufn=$(unique_filename /mnt/var/log/${_fn##*/}) cp $_fn $_ufn chmod 600 $_ufn _ufn=${_ufn#/mnt} cat <<__EOT >>/mnt/etc/rc.firsttime ( /usr/bin/mail -s '$_subject' root <$_ufn && rm $_ufn ) >/dev/null 2>&1 & __EOT } # Examine the contents of the dhcpleased lease file $1 for a line containing the # field(s) provided as parameters and return the value of the first field found. # # Note that value strings are VIS_SAFE'd. lease_value() { local _lf=$1 _o _opt _val [[ -s $_lf ]] || return shift for _o; do while read -r _opt _val; do [[ $_opt == ${_o}: ]] && echo "$_val" && return done < "$_lf" done } # Extract one boot's worth of dmesg. dmesgtail() { dmesg | sed -n 'H;/^OpenBSD/h;${g;p;}' } # ------------------------------------------------------------------------------ # Device related functions # ------------------------------------------------------------------------------ # Show device name, info, NAA and size for the provided list of disk devices. # Create device nodes as needed and cleanup afterwards. diskinfo() { local _d _i _n _s for _d; do # Extract disk information enclosed in <> from dmesg. _i=$(dmesg | sed -n '/^'$_d' at /h;${g;s/^.*<\(.*\)>.*$/\1/p;}') _i=${_i##+([[:space:],])} _i=${_i%%+([[:space:],])} # Extract Network Address Authority information from dmesg. _n=$(dmesg | sed -En '/^'$_d' at /h;${g;s/^.* ([a-z0-9]+\.[a-zA-Z0-9_]+)$/\1/p;}') # Extract disk size from disklabel output. make_dev $_d _s=$(disklabel -dpg $_d 2>/dev/null | sed -n '/.*# total bytes: \(.*\)/{s//(\1)/p;}') rm -f /dev/{r,}$_d? echo "$_d: $_i $_n $_s" done } # Create devices passed as arguments. make_dev() { [[ -z $(cd /dev && sh MAKEDEV "$@" 2>&1) ]] } # Sort and print information from dmesg.boot using sed expression $1. scan_dmesg() { bsort $(sed -n "$1" /var/run/dmesg.boot) } # Extract device names from hw.disknames matching sed expression $1. scan_disknames() { local IFS=, _disks=$(sysctl -n hw.disknames) bsort $(for _n in $_disks; do echo "${_n%%:*} "; done | sed -n "$1") } # Return disk devices found in hw.disknames. get_dkdevs() { echo $(scan_disknames "${MDDKDEVS:-/^[sw]d[0-9][0-9]* /s/ .*//p}") } # Return CDROM devices found in hw.disknames. get_cddevs() { echo $(scan_disknames "${MDCDDEVS:-/^cd[0-9][0-9]* /s/ .*//p}") } # Return sorted list of disks not in DISKS_DONE which contains disks already # initialized during installation. get_dkdevs_uninitialized() { local _disks=$(get_dkdevs) _d for _d in $DISKS_DONE; do _disks=$(rmel "$_d" $_disks) done bsort $_disks } # Return list of valid root disks get_dkdevs_root() { local _disks=$(get_dkdevs) _d if [[ $MODE == upgrade ]]; then for _d in $_disks; do is_rootdisk "$_d" || _disks=$(rmel "$_d" $_disks) done fi echo -n $_disks } # Return list of all network devices, optionally limited by parameters to # ifconfig. Filter out dynamically created network pseudo-devices except vlan. get_ifs() { local _if _if_list=$(rmel vlan $(ifconfig -C)) for _if in $(ifconfig "$@" 2>/dev/null | sed '/^[a-z]/!d;s/:.*//'); do isin "${_if%%+([0-9])}" $_if_list || echo $_if done } # Return the device name of the disk device $1, which may be a disklabel UID. get_dkdev_name() { local _dev=${1#/dev/} _d _dev=${_dev%.[a-p]} ((${#_dev} < 16)) && _dev=${_dev%[a-p]} local IFS=, for _d in $(sysctl -n hw.disknames); do [[ $_dev == @(${_d%:*}|${_d#*:}) ]] && echo ${_d%:*} && break done } # Inspect disk $1 if it has a partition-table of type $2 and optionally # if it has a partition of type $3. disk_has() { local _disk=$1 _pttype=$2 _part=$3 _cmd _p_pttype _p_part [[ -n $_disk && -n $_pttype ]] || exit # Commands to inspect disk. Default: "fdisk $_disk" local _c_hfs="pdisk -l $_disk" local _c_sr="bioctl -q $_disk" # Patterns for partition-table-types and partition-types. local _p_gpt='Usable LBA:' local _p_gpt_openbsd='^[ *]...: OpenBSD ' local _p_gpt_apfs='^[ *]...: APFS ' local _p_gpt_apfsisc='^[ *]...: APFS ISC ' local _p_gpt_apfsrecovery='^[ *]...: APFS Recovry ' local _p_gpt_efisys='^[ *]...: EFI Sys ' local _p_hfs='^Partition map ' local _p_hfs_openbsd=' OpenBSD OpenBSD ' local _p_mbr='Signature: 0xAA55' local _p_mbr_openbsd='^..: A6 ' local _p_mbr_dos='^..: 06 ' local _p_mbr_dos_active='^\*.: 06 ' local _p_mbr_linux='^..: 83 ' local _p_sr='OPENBSD, SR' local _p_sr_crypto='OPENBSD, SR CRYPTO' # Compose command and patterns based on the parameters. eval "_cmd=\"\$_c_${_pttype}\"" eval "_p_pttype=\"\$_p_${_pttype}\"" eval "_p_part=\"\$_p_${_pttype}_${_part}\"" # Set the default command if none was defined before. _cmd=${_cmd:-fdisk $_disk} # Abort in case of undefined patterns. [[ -z $_p_pttype ]] && exit [[ -n $_part && -z $_p_part ]] && exit if [[ -z $_p_part ]]; then $_cmd 2>/dev/null | grep -Eq "$_p_pttype" else $_cmd 2>/dev/null | grep -Eq "$_p_pttype" && $_cmd 2>/dev/null | grep -Eq "$_p_part" fi } # Handle disklabel auto-layout for the root disk $1 during interactive install # and autopartitioning during unattended install by asking for and downloading # autopartitioning template. Write the resulting fstab to $2. Abort unattended # installation if autopartitioning fails. disklabel_autolayout() { local _disk=$1 _f=$2 _dl=/tmp/i/disklabel.auto _op _qst # Skip disklabel auto-layout for any disk except the root disk. [[ $_disk != $ROOTDISK ]] && return while $AI; do ask "URL to autopartitioning template for disklabel?" none [[ $resp == none ]] && break if ! $FTP_TLS && [[ $resp == https://* ]]; then err_exit "https not supported on this platform." fi echo "Fetching $resp" if unpriv ftp -Vo - "$resp" >$_dl && [[ -s $_dl ]]; then disklabel -T $_dl -F $_f -w -A $_disk && return err_exit "Autopartitioning failed." else err_exit "No autopartitioning template found." fi done _qst="Use (A)uto layout, (E)dit auto layout, or create (C)ustom layout?" while :; do echo "The auto-allocated layout for $_disk is:" disklabel -h -A $_disk | egrep "^# |^ [a-p]:" ask "$_qst" a case $resp in [aA]*) _op=-w;; [eE]*) _op=-E;; [cC]*) return 0;; *) continue;; esac disklabel -F $_f $_op -A $_disk return done } # Create a partition table and configure the partition layout for disk $1. configure_disk() { local _disk=$1 _fstab=/tmp/i/fstab.$1 _opt make_dev $_disk || return # Deal with disklabels, including editing the root disklabel # and labeling additional disks. This is machine-dependent since # some platforms may not be able to provide this functionality. # /tmp/i/fstab.$_disk is created here with 'disklabel -F'. rm -f /tmp/i/*.$_disk md_prep_disklabel $_disk || return # Make sure a '/' mount point exists on the root disk. if ! grep -qs ' / ffs ' /tmp/i/fstab.$ROOTDISK; then echo "'/' must be configured!" $AI && exit 1 || return 1 fi if [[ -f $_fstab ]]; then # Avoid duplicate mount points on different disks. while read _pp _mp _rest; do # Multiple swap partitions are ok. if [[ $_mp == none ]]; then echo "$_pp $_mp $_rest" >>/tmp/i/fstab continue fi # Non-swap mountpoints must be in only one file. if [[ $_fstab != $(grep -l " $_mp " /tmp/i/fstab.*) ]]; then _rest=$_disk _disk= break fi done <$_fstab # Duplicate mountpoint. if [[ -z $_disk ]]; then # Allow disklabel(8) to read back mountpoint info # if it is immediately run against the same disk. cat /tmp/i/fstab.$_rest >/etc/fstab rm /tmp/i/fstab.$_rest set -- $(grep -h " $_mp " /tmp/i/fstab.*[0-9]) echo "$_pp and $1 can't both be mounted at $_mp." $AI && exit 1 || return 1 fi # Add ffs filesystems to list after newfs'ing them. Ignore # other filesystems. while read _pp _mp _fstype _rest; do [[ $_fstype == ffs ]] || continue # Default to FFS2 unless otherwise directed. if [[ $_mp == / ]]; then _opt=${MDROOTFSOPT:--O2} else _opt=${MDFSOPT:--O2} fi newfs -q $_opt ${_pp##/dev/} # N.B.: '!' is lexically < '/'. # That is required for correct sorting of mount points. FSENT="$FSENT $_mp!$_pp" done <$_fstab fi return 0 } # ------------------------------------------------------------------------------ # Functions for the dmesg listener # ------------------------------------------------------------------------------ # Acquire lock. lock() { while ! mkdir /tmp/i/lock 2>/dev/null && sleep .1; do :; done } # Release lock. unlock() { rm -df /tmp/i/lock 2>/dev/null } # Add a trap to kill the dmesg listener co-process on exit of the installer. retrap() { trap 'kill -KILL $CPPID 2>/dev/null; echo; stty echo; exit 0' \ INT EXIT TERM } # Start a listener process looking for dmesg changes which indicates a possible # plug-in/-out of devices (e.g. usb disks, cdroms, etc.). This is used to abort # and redraw question prompts, especially in ask_which(). start_dmesg_listener() { local _update=/tmp/i/update # Ensure the lock is initially released and that no update files exists. unlock rm -f $_update # Do not start the listener if in non-interactive mode. $AI && return # To ensure that only one dmesg listener instance can be active, run it # in a co-process subshell of which there can always only be one active. ( while :; do lock # The dmesg listener will continuously check for the existence of # the update file and sends a signal to the parent process (that # is the installer script) if the dmesg output differs from the # contents of that file. if [[ -e $_update && "$(dmesgtail)" != "$(<$_update)" ]]; then dmesgtail >$_update kill -TERM 2>/dev/null $$ || exit 1 fi unlock sleep .5 done ) |& # Save the co-process PID in a global variable so it can be used in # the retrap() function which adds a trap to kill the co-process on # exit of the installer script. CPPID=$! retrap } # ------------------------------------------------------------------------------ # Functions to ask (or auto-answer) questions # ------------------------------------------------------------------------------ # Log installer questions and answers so that the resulting file can be used as # response file for an unattended install/upgrade. log_answers() { if [[ -n $1 && -n $2 ]]; then print -r -- "${1%%'?'*} = $2" >>/tmp/i/$MODE.resp fi } # Fetch response file for autoinstall. get_responsefile() { local _rf _if _lf _path _aifile export AI_HOSTNAME= AI_MAC= AI_MODE= AI_SERVER= [[ -f /auto_upgrade.conf ]] && _rf=/auto_upgrade.conf AI_MODE=upgrade [[ -f /auto_install.conf ]] && _rf=/auto_install.conf AI_MODE=install [[ -f $_rf ]] && cp $_rf /tmp/ai/ai.$AI_MODE.conf && return for _if in ''; do [[ -x /sbin/dhcpleased ]] || break # Select a network interface for initial dhcp request. # Prefer the interface the system netbooted from. set -- $(get_ifs netboot) (($# == 0)) && set -- $(get_ifs) (($# == 1)) && _if=$1 # Ask if multiple were found and system was not netbooted. while (($# > 1)); do ask_which "network interface" \ "should be used for the initial DHCP request" \ "$*" isin "$resp" $* && _if=$resp && break done # Issue initial dhcp request via the found interface. [[ -n $_if ]] && ifconfig $_if inet autoconf || break _lf=/var/db/dhcpleased/$_if if ! wait_for_dhcp_info $_if 30; then echo "No dhcp address on interface $_if in 30 seconds." continue fi # Extract installer mode and response file path from lease file. _aifile=$(lease_value $_lf filename) [[ $_aifile == ?(*/)auto_@(install|upgrade) ]] || _aifile= _path=${_aifile%auto_@(install|upgrade)} AI_MODE=${_aifile##*?(/)auto_} # Extract install server ip address from lease file. AI_SERVER=$(lease_value $_lf next-server) # Prime hostname with host-name option from lease file. AI_HOSTNAME=$(lease_value $_lf host-name) hostname "$AI_HOSTNAME" done # Try to fetch mac-mode.conf, then hostname-mode.conf, and finally # mode.conf if install server and mode are known, otherwise tell which # one was missing. if [[ -n $AI_SERVER && -n $AI_MODE ]]; then AI_MAC=$(ifconfig $_if | sed 's/.*lladdr \(.*\)/\1/p;d') for _rf in {$AI_MAC-,${AI_HOSTNAME:+$AI_HOSTNAME-,}}$AI_MODE; do # Append HTTP_SETDIR as parameter to _url which can be # used by the webserver to return dynamically created # response files. _url="http://$AI_SERVER/$_path$_rf.conf?path=$HTTP_SETDIR" echo "Fetching $_url" if unpriv ftp -Vo - "$_url" \ >"/tmp/ai/ai.$AI_MODE.conf" 2>/dev/null; then ifconfig $_if inet -autoconf delete down \ 2>/dev/null rm /var/db/dhcpleased/$_if return 0 fi done else [[ -z $AI_SERVER ]] && echo "Could not determine auto server." [[ -z $AI_MODE ]] && echo "Could not determine auto mode." fi # Ask for url or local path to response file. Provide a default url if # server was found in lease file. while :; do ask "Response file location?" \ "${AI_SERVER:+http://$AI_SERVER/install.conf}" [[ -n $resp ]] && _rf=$resp && break done # Ask for the installer mode only if auto-detection failed. AI_MODE=$(echo "$_rf" | sed -En 's/^.*(install|upgrade).conf$/\1/p') while [[ -z $AI_MODE ]]; do ask "(I)nstall or (U)pgrade?" [[ $resp == [iI]* ]] && AI_MODE=install [[ $resp == [uU]* ]] && AI_MODE=upgrade done echo "Fetching $_rf" [[ -f $_rf ]] && _rf="file://$_rf" if unpriv ftp -Vo - "$_rf" >"/tmp/ai/ai.$AI_MODE.conf" 2>/dev/null; then ifconfig $_if inet -autoconf delete down 2>/dev/null return 0 fi return 1 } # Find a response to question $1 in $AI_RESPFILE and return it via $resp. # Return default answer $2 if provided and none is found in the file. # # Move the existing ai.conf file to a tmp file, read from it line by line # and write a new ai.conf file skipping the line containing the response. # # 1) skip empty and comment lines and lines without = # 2) split question (_key) and answer (_val) at leftmost = # 3) strip leading/trailing blanks # 4) compare questions case insensitive (typeset -l) # _autorespond() { typeset -l _q=$1 _key local _def=$2 _l _val [[ -f $AI_RESPFILE && -n $_q ]] || return mv /tmp/ai/ai.conf /tmp/ai/ai.conf.tmp while IFS=' ' read -r _l; do [[ $_l == [!#=]*=?* ]] || continue _key=${_l%%*([[:blank:]])=*} _val=${_l##*([!=])=*([[:blank:]])} [[ $_q == @(|*[[:blank:]])"$_key"@([[:blank:]?]*|) ]] && resp=$_val && cat && return print -r " $_l" done /tmp/ai/ai.conf [[ -n $_def ]] && resp=$_def && return err_exit "\nQuestion has no answer in response file: \"$_q\"" } # Capture user response either by issuing an interactive read or by searching # the response file and store the response in the global variable $resp. # # Optionally present a question $1 and a default answer $2 shown in []. # # If the dmesg output is changed while waiting for the interactive response, # the current read will be aborted and the function will return a non-zero # value. Normally, the caller function will then reprint any prompt and call # the function again. _ask() { local _q=$1 _def=$2 _int _redo=0 _pid lock; dmesgtail >/tmp/i/update; unlock echo -n "${_q:+$_q }${_def:+[$_def] }" _autorespond "$_q" "$_def" && echo "$resp" && return trap "_int=1" INT trap "_redo=1" TERM read resp lock; rm /tmp/i/update; unlock if ((_redo)); then stty raw stty -raw else case $resp in !) echo "Type 'exit' to return to install." sh _redo=1 ;; !*) eval "${resp#?}" _redo=1 ;; esac fi retrap ((_int)) && kill -INT $$ : ${resp:=$_def} return $_redo } # Ask for user response to question $1 with an optional default answer $2. # Write the question and the answer to a logfile. ask() { # Prompt again in case the dmesg listener detected a change. while ! _ask "$1" "$2"; do :; done log_answers "$1" "$resp" } # Ask the user a yes/no question $1 with 'no' as default answer unless $2 is # set to 'yes' and insist on 'y', 'yes', 'n' or 'no' as response. # Return response via $resp as 'y' with exit code 0 or 'n' with exit code 1. ask_yn() { local _q=$1 _a=${2:-no} typeset -l _resp while :; do ask "$_q" "$_a" _resp=$resp case $_resp in y|yes) resp=y; return 0;; n|no) resp=n; return 1;; esac echo "'$resp' is not a valid choice." $AI && exit 1 done } # Ask for the user to select one value from a list, or 'done'. # At exit $resp holds selected item, or 'done'. # # Parameters: # # $1 = name of the list items (disk, cd, etc.) # $2 = question to ask # $3 = list of valid choices # $4 = default choice, if it is not specified use the first item in $3 # # N.B.! $3 and $4 will be "expanded" using eval, so be sure to escape them # if they contain spooky stuff ask_which() { local _name=$1 _query=$2 _list=$3 _def=$4 _dynlist _dyndef _key _q _key=$(echo "$_name" | sed 's/[^[:alnum:]]/_/g') while :; do eval "_dynlist=\"$_list\"" eval "_dyndef=\"$_def\"" # Clean away whitespace and determine the default. set -o noglob set -- $_dyndef; _dyndef="$1" set -- $_dynlist; _dynlist="$*" set +o noglob (($# < 1)) && resp=done && return : ${_dyndef:=$1} echo "Available ${_name}s are: $_dynlist." _q="Which $_name $_query?" echo -n "$_q (or 'done') ${_dyndef:+[$_dyndef] }" _autorespond "$_q" "${_dyndef-done}" && echo "$resp" \ || _ask || continue [[ -z $resp ]] && resp="$_dyndef" # Quote $resp to prevent user from confusing isin() by # entering something like 'a a'. if isin "$resp" $_dynlist done; then log_answers "$_q" "$resp" break fi echo "'$resp' is not a valid choice." $AI && [[ -n $AI_RESPFILE ]] && exit 1 done } # Ask for user response to question $1 with an optional default answer $2 # until a non-empty reply is entered. ask_until() { resp= while :; do ask "$1" "$2" [[ -n $resp ]] && break echo "A response is required." $AI && exit 1 done } # Capture a user password and save it in $resp, optionally showing prompt $1. # # 1) *Don't* allow the '!' options that ask does. # 2) *Don't* echo input. # 3) *Don't* interpret "\" as escape character. # 4) Preserve whitespace in input # ask_pass() { stty -echo IFS= read -r resp?"$1 " stty echo echo } # Ask for a password twice showing prompt $1. Ensure both inputs are identical # and save it in $_password. ask_password() { local _q=$1 if $AI; then echo -n "$_q " _autorespond "$_q" echo '' _password=$resp return fi while :; do ask_pass "$_q (will not echo)" _password=$resp ask_pass "$_q (again)" [[ $resp == "$_password" ]] && break echo "Passwords do not match, try again." done } # ------------------------------------------------------------------------------ # Support functions for donetconfig() # ------------------------------------------------------------------------------ # Issue a DHCP request to configure interface $1 and add it to group 'dhcp' to # later be able to identify DHCP configured interfaces. dhcp_request() { local _if=$1 echo "lookup file bind" >>/etc/resolv.conf ifconfig $_if group dhcp >/dev/null 2>&1 if [[ -x /sbin/dhcpleased ]]; then ifconfig $_if inet autoconf if ! wait_for_dhcp_info $_if 30; then echo "No dhcp address on interface $_if in 30 seconds." fi else echo "DHCP leases not available during install." fi } # Obtain and output the inet information related to interface $1. # Outputs: # \n [\n] v4_info() { ifconfig $1 inet | sed -n ' 1s/.*flags=.*<\(.*\)>.*/\1/p /inet/s/netmask // /.inet /s///p' } # Wait until dhcp has configured interface $1 within timeout $2 seconds. wait_for_dhcp_info() { local _if=$1 _secs=$2 # Wait until $_if has a V4 address. while (( _secs > 0 )); do set -- $(v4_info $_if) [[ -n $2 ]] && break sleep 1 (( _secs-- )) done # Wait until there is a leases file to parse. while (( _secs > 0 )); do [[ -s /var/db/dhcpleased/$_if ]] && break sleep 1 (( _secs-- )) done return $(( _secs <= 0 )) } # Convert a netmask in hex format ($1) to dotted decimal format. hextodec() { set -- $(echo ${1#0x} | sed 's/\(..\)/0x\1 /g') echo $(($1)).$(($2)).$(($3)).$(($4)) } # Create an entry in the hosts file using IP address $1 and symbolic name $2. # Treat $1 as IPv6 address if it contains ':', otherwise as IPv4. If an entry # with the same name and address family already exists, delete it first. add_hostent() { local _addr=$1 _name=$2 _delim="." [[ -z $_addr || -z $_name ]] && return [[ $_addr == *:* ]] && _delim=":" sed -i "/^[0-9a-fA-F]*[$_delim].*[ ]$_name\$/d" \ /tmp/i/hosts 2>/dev/null echo "$_addr $_name" >>/tmp/i/hosts } # Configure VLAN interface $1 and create the corresponding hostname.if(5) file. # Ask the user what parent network interface and vnetid to use. vlan_config() { local _if=$1 _hn=/tmp/i/hostname.$1 _hn_vd _vd _vdvi _vdvi_used _vi local _sed_vdvi='s/.encap: vnetid ([[:alnum:]]+) parent ([[:alnum:]]+)/\2:\1/p' # Use existing parent device and vnetid for this interface as default in # case of a restart. _vdvi=$(ifconfig $_if 2>/dev/null | sed -En "$_sed_vdvi") _vd=${_vdvi%%:*} _vi=${_vdvi##*:} # Use the vlan interface minor as the default vnetid. If it's 0, set it # to 'none' which equals to the default vlan. if [[ $_vi == @(|none) ]]; then ((${_if##vlan} == 0)) && _vi=none || _vi=${_if##vlan} fi # Use the first non vlan interface as the default parent. if [[ $_vd == @(|none) ]]; then _vd=$(get_ifs | sed '/^vlan/d' | sed q) fi ask "Which interface:tag should $_if be on?" "$_vd:$_vi" _vd=${resp%%:*} _vi=${resp##*:} # Ensure that the given parent is an existing (non vlan) interface. if ! isin "$_vd" $(get_ifs | sed '/^vlan/d'); then echo "Invalid parent interface choice '$_vd'." return 1 fi # Get a list of parent:vnetid tuples of all configured vlan interfaces. _vdvi_used=$(ifconfig vlan 2>/dev/null | sed -En "$_sed_vdvi") # Ensure that the given vnetid is not already configured on the given # parent interface. for _vdvi in $_vdvi_used; do if [[ $_vdvi == $_vd:* && ${_vdvi##*:} == $_vi ]]; then echo "vlan tag '$_vi' already used on parent '$_vd'" return 1 fi done # Further ensure that the given vnetid is 'none', or within 1-4095. if [[ $_vi == none ]]; then _vi="-vnetid" elif (($_vi > 0 && $_vi < 4096)); then _vi="vnetid $_vi" else echo "Invalid vlan tag '$_vi'." return 1 fi # Write the config to the hostname.if files and set proper permissions. _hn_vd=/tmp/i/hostname.$_vd grep -qs "^up" $_hn_vd || echo up >>$_hn_vd echo "$_vi parent $_vd" >>$_hn chmod 640 $_hn_vd $_hn # Bring up the parent interface and configure the vlan interface. ifconfig $_vd up ifconfig $_if destroy >/dev/null 2>&1 ifconfig $_if create >/dev/null 2>&1 ifconfig $_if $_vi parent $_vd } # Configure IPv4 on interface $1. v4_config() { local _if=$1 _name=$2 _hn=$3 _addr _mask _newaddr # Set default answers based on any existing configuration. set -- $(v4_info $_if) if [[ -n $2 ]] && ! isin $_if $(get_ifs dhcp); then _addr=$2; _mask=$(hextodec $3) fi # Nuke existing inet configuration. ifconfig $_if -inet ifconfig $_if -group dhcp >/dev/null 2>&1 while :; do ask_until "IPv4 address for $_if? (or 'autoconf' or 'none')" \ "${_addr:-autoconf}" case $resp in none) return ;; autoconf|dhcp) dhcp_request $_if echo "autoconf" >>$_hn return ;; esac _newaddr=$resp # Ask for the netmask if the user did not use CIDR notation. if [[ $_newaddr == */* ]]; then ifconfig $_if $_newaddr up else ask_until "Netmask for $_if?" "${_mask:-255.255.255.0}" ifconfig $_if $_newaddr netmask $resp fi set -- $(v4_info $_if) if [[ -n $2 ]]; then echo "inet $2 $3" >>$_hn add_hostent "$2" "$_name" return fi $AI && exit 1 done } # Obtain and output the inet6 information related to interface $1. # \n [\n] v6_info() { ifconfig $1 inet6 | sed -n ' 1s/.*flags=.*<\(.*\)>.*/\1/p /scopeid/d /inet6/s/prefixlen // /.inet6 /s///p' } # Configure an IPv6 default route on interface $1 and preserve that information # in the /etc/mygate file. Ask the user to either select from a list of default # router candidates or to enter a router IPv6 address. v6_defroute() { local _if _v6ifs _prompt _resp _routers _dr PS3 # Only configure a default route if an IPv6 address was manually configured. for _if in $(get_ifs); do set -- $(v6_info $_if) [[ -z $2 || $1 == *AUTOCONF6* ]] || _v6ifs="$_v6ifs $_if" done [[ -n $_v6ifs ]] || return # Start with any existing default routes. _routers=$(route -n show -inet6 | sed -En 's/^default[[:space:]]+([^[:space:]]+).*/\1 /p') # Add more default router canditates by ping6'ing # the All-Routers multicast address. for _if in $_v6ifs; do _resp=$(ping6 -n -c 2 ff02::2%$_if 2>/dev/null | sed -En '/^[0-9]+ bytes from /{s///;s/: .*$//p;}') for _dr in $_resp; do _routers=$(addel $_dr $_routers) done done [[ -n $_routers ]] && _routers=$(bsort $_routers) _prompt="IPv6 default router?" if $AI; then _autorespond "$_prompt (IPv6 address or 'none')" none && echo "$_prompt $resp" [[ $resp != none ]] && route -n add -inet6 -host default $resp && echo $resp >>/tmp/i/mygate else PS3="$_prompt (list #, IPv6 address or 'none') " select _resp in none $_routers; do [[ $REPLY == none || $_resp == none ]] && break [[ -z $_resp ]] && _resp=$REPLY # Avoid possible "file exists" errors route -n -q delete -inet6 -host default $_resp if route -n add -inet6 -host default $_resp; then echo $_resp >>/tmp/i/mygate break fi done fi } # Configure IPv6 interface $1, add hostname $2 to the hosts file, # create the hostname.if file $3. Ask the user for the IPv6 address # and prefix length if the address was not specified in CIDR notation, # unless he chooses 'autoconf'. v6_config() { local _if=$1 _name=$2 _hn=$3 _addr _newaddr _prefixlen ifconfig lo0 inet6 >/dev/null 2>&1 || return # Preset the default answers by preserving possibly existing # configuration from previous runs. set -- $(v6_info $_if) if [[ $1 == *AUTOCONF6* ]]; then _addr=autoconf elif [[ -n $2 ]]; then _addr=$2 _prefixlen=$3 fi # Nuke existing inet6 configuration. ifconfig $_if -inet6 while :; do ask_until "IPv6 address for $_if? (or 'autoconf' or 'none')" \ "${_addr:-none}" case $resp in none) return ;; autoconf) ifconfig $_if inet6 autoconf up echo "inet6 autoconf" >>$_hn return ;; esac _newaddr=$resp if [[ $_newaddr == */* ]]; then ifconfig $_if inet6 $_newaddr up else ask_until "IPv6 prefix length for $_if?" \ "${_prefixlen:-64}" ifconfig $_if inet6 $_newaddr/$resp up fi set -- $(v6_info $_if) if [[ -n $2 ]]; then echo "inet6 $2 $3" >>$_hn add_hostent "$2" "$_name" return fi $AI && exit 1 done } # Perform an 802.11 network scan on interface $1 and cache the result a file. ieee80211_scan() { [[ -f $WLANLIST ]] || ifconfig $1 scan | sed -n 's/^[[:space:]]*nwid \(.*\) chan [0-9]* bssid \([[:xdigit:]:]*\).*/\1 (\2)/p' >$WLANLIST cat $WLANLIST } # Configure 802.11 interface $1 and append ifconfig options to hostname.if $2. # Ask the user for the access point ESSID, the security protocol and a secret. ieee80211_config() { local _if=$1 _hn=$2 _prompt _nwid _haswpa=0 _err # Reset 802.11 settings and determine wpa capability. ifconfig $_if -nwid -nwkey ifconfig $_if -wpa 2>/dev/null && _haswpa=1 # Empty scan cache. rm -f $WLANLIST while [[ -z $_nwid ]]; do ask_until "Access point? (ESSID, 'any', list# or '?')" "any" case "$resp" in +([0-9])) _nwid=$(ieee80211_scan $_if | sed -n ${resp}'{s/ ([[:xdigit:]:]*)$//p;q;}') [[ -z $_nwid ]] && echo "There is no line $resp." [[ $_nwid = \"*\" ]] && _nwid=${_nwid#\"} _nwid=${_nwid%\"} ;; \?) ieee80211_scan $_if | cat -n | more -c ;; *) _nwid=$resp ;; esac done # 'any' implies that only open access points are considered. if [[ $_nwid != any ]]; then _prompt="Security protocol? (O)pen, (W)EP" ((_haswpa == 1)) && _prompt="$_prompt, WPA-(P)SK" while :; do ask_until "$_prompt" "O" case "$_haswpa-$resp" in ?-[Oo]) # No further questions ifconfig $_if nwid "$_nwid" quote nwid "$_nwid" >>$_hn break ;; ?-[Ww]) ask_until "WEP key? (will echo)" # Make sure ifconfig accepts the key. if _err=$(ifconfig $_if nwid "$_nwid" nwkey "$resp" 2>&1) && [[ -z $_err ]]; then quote nwid "$_nwid" nwkey "$resp" >>$_hn break fi echo "$_err" ;; 1-[Pp]) ask_until "WPA passphrase? (will echo)" # Make sure ifconfig accepts the key. if ifconfig $_if nwid "$_nwid" wpakey "$resp"; then quote nwid "$_nwid" wpakey "$resp" >>$_hn break fi ;; *) echo "'$resp' is not a valid choice." ;; esac done fi } # Set up IPv4 and IPv6 interface configuration. configure_ifs() { local _first _hn _if _name _p _vi # Always need lo0 configured. ifconfig lo0 inet 127.0.0.1/8 # In case of restart, delete previous default gateway config. rm -f /tmp/i/mygate while :; do # Discover last configured vlan interface and increment its # minor for the next offered vlan interface. _vi=$(get_ifs vlan | sed '$!d;s/^vlan//') [[ -n $_vi ]] && ((_vi++)) ask_which "network interface" "do you wish to configure" \ "\$(get_ifs) vlan${_vi:-0}" \ ${_p:-'$( (get_ifs netboot; get_ifs) | sed q )'} [[ $resp == done ]] && break _if=$resp _hn=/tmp/i/hostname.$_if rm -f $_hn # If the offered vlan is chosen, ask the relevant # questions and bring it up. if [[ $_if == vlan+([0-9]) ]]; then vlan_config $_if || continue fi # Test if it is an 802.11 interface. ifconfig $_if 2>/dev/null | grep -q "^[[:space:]]*ieee80211:" && ieee80211_config $_if $_hn # First interface configured will use the hostname without # asking the user. resp=$(hostname -s) [[ -n $_first && $_first != $_if ]] && ask "Symbolic (host) name for $_if?" "$resp" _name=$resp v4_config $_if $_name $_hn v6_config $_if $_name $_hn if [[ -f $_hn ]]; then chmod 640 $_hn : ${_first:=$_if} fi NIFS=$(ls -1 /tmp/i/hostname.* 2>/dev/null | grep -c ^) _p=done done } # Set up IPv4 default route by asking the user for an IPv4 address and preserve # that information in /etc/mygate. If setting the default route fails, try to # revert to a possibly existing previous one. v4_defroute() { local _dr _dr_if # Only configure a default route if an IPv4 address was configured. grep -q '^inet ' /tmp/i/hostname.* 2>/dev/null || return # Check routing table to see if a default route ($1) already exists # and what interface it is connected to ($2). set -- $(route -n show -inet | sed -En 's/^default +([0-9.]+) .* ([a-z0-9]+) *$/\1 \2/p') [[ -n $1 ]] && _dr=$1 _dr_if=$2 # Don't ask if a default route exits and is handled by dhcp. [[ -n $_dr ]] && isin "$_dr_if" $(get_ifs dhcp) && return while :; do ask_until "Default IPv4 route? (IPv4 address or none)" "$_dr" [[ $resp == none ]] && break route delete -inet default >/dev/null 2>&1 if route -n add -inet -host default "$resp"; then echo "$resp" >>/tmp/i/mygate break else route -n add -inet -host default $_dr >/dev/null 2>&1 fi done } # Extract the domain part from currently configured fully qualified domain name. # If none is set, use 'my.domain'. get_fqdn() { local _dn _dn=$(hostname) _dn=${_dn#$(hostname -s)} _dn=${_dn#.} echo "${_dn:=my.domain}" } # ------------------------------------------------------------------------------ # Support functions for install_sets() # ------------------------------------------------------------------------------ # SANESETS defines the required list of set files for a sane install or upgrade. # During install_files(), each successfully installed set file is removed from # DEFAULTSETS. Check if there are SANESETS still in DEFAULTSETS and if they were # deliberately skipped. If $1 is not defined, ask the user about each skipped # set file. Care is taken to make sure the return value is correct. sane_install() { local _q=$1 _s for _s in $SANESETS; do isin "$_s" $DEFAULTSETS || continue [[ -n $_q ]] && return 1 if ! ask_yn "Are you *SURE* your $MODE is complete without '$_s'?"; then $AI && exit 1 || return 1 fi done } # Show list of available sets $1 and let the user select which sets to install. # Preselect sets listed in $2 and store the list of selected sets in $resp. # # If the list of available sets only contains kernels during an upgrade, assume # that the user booted into the installer using the currently installed bsd.rd # and specified a set location pointing to a new release. In this case, only # show and preselect bsd.rd. By setting UPGRADE_BSDRD the signify key for the # next release is used to verify the downloaded bsd.rd, the current bsd.rd is # preserved and no questions about missing sets are asked. select_sets() { local _avail=$1 _selected=$2 _f _action _col=$COLUMNS local _bsd_rd _no_sets=true if [[ $MODE == upgrade ]]; then for _f in $_avail; do [[ $_f != bsd* ]] && _no_sets=false [[ $_f == bsd.rd* ]] && _bsd_rd=$_f done $_no_sets && UPGRADE_BSDRD=true _avail=$_bsd_rd _selected=$_bsd_rd fi # account for 4 spaces added to the sets list let COLUMNS=_col-8 cat <<__EOT Select sets by entering a set name, a file name pattern or 'all'. De-select sets by prepending a '-', e.g.: '-game*'. Selected sets are labelled '[X]'. __EOT while :; do for _f in $_avail; do isin "$_f" $_selected && echo "[X] $_f" || echo "[ ] $_f" done | show_cols | sed 's/^/ /' ask "Set name(s)? (or 'abort' or 'done')" done set -o noglob for resp in $resp; do case $resp in abort) _selected=; break 2;; done) break 2;; -*) _action=rmel;; *) _action=addel;; esac resp=${resp#[+-]} [[ $resp == all ]] && resp=* for _f in $_avail; do [[ $_f == $resp ]] && _selected=$($_action $_f $_selected) done done done set +o noglob COLUMNS=$_col resp=$_selected } # Run a command ($2+) as unprivileged user ($1). # Take extra care that after "cmd" no "user" processes exist. # # Optionally: # - create "file" and chown it to "user" # - after "cmd", chown "file" back to root # # Usage: do_as user [-f file] cmd do_as() { (( $# >= 2 )) || return local _file _rc _user=$1 shift if [[ $1 == -f ]]; then _file=$2 shift 2 fi if [[ -n $_file ]]; then >$_file chown "$_user" "$_file" fi doas -u "$_user" "$@" _rc=$? while doas -u "$_user" kill -9 -1 2>/dev/null; do echo "Processes still running for user $_user after: $@" sleep 1 done [[ -n $_file ]] && chown root "$_file" return $_rc } unpriv() { do_as _sndio "$@" } unpriv2() { do_as _file "$@" } # Find and list filesystems to store the prefetched sets. Prefer filesystems # which are not used during extraction with 512M free space. Otherwise search # any other filesystem that has 2 GB free space to prevent overflow during # extraction. prefetcharea_fs_list() { local _fs_list _fs_list=$( ( for fs in /mnt/{tmp,home,usr{/local,}}; do df -k $fs 2>/dev/null | grep " $fs\$" done df -k ) | ( while read a a a a m m; do [[ $m == /mnt/@(tmp|home|usr/@(src,obj,xobj))@(|/*) ]] && ((a > 524288)) && echo $m && continue [[ $m == /mnt@(|/*) ]] && ((a > 524288 * 4)) && echo $m done ) | ( while read fs; do isin "$fs" $list || list="$list${list:+ }$fs" done echo $list ) ) [[ -n $_fs_list ]] && echo $_fs_list || return 1 } # Install a user-selected subset of the files listed in $2 from the source $1. # Display an error message for each failed install and ask the user whether to # continue or not. install_files() { local _src=$1 _files=$2 _f _sets _get_sets _n _col=$COLUMNS _tmpfs \ _tmpfs_list _tmpsrc _cfile=/tmp/SHA256 _fsrc _unver _t _issue local _srclocal=false _unpriv=unpriv # Fetch sets from local sources (disk, cdrom, nfs) as root. [[ $_src == file://* ]] && _srclocal=true _unpriv= # Based on the file list in $_files, create two lists for select_sets(). # _sets: the list of files the user can select from # _get_sets: the list of files that are shown as pre-selected # # Sets will be installed in the order given in ALLSETS to ensure proper # installation. So, to minimize user confusion display the sets in the # order in which they will be installed. for _f in $ALLSETS; do isin "$_f" $_files || continue _sets=$(addel $_f $_sets) isin "$_f" $DEFAULTSETS "site$VERSION-$(hostname -s).tgz" && _get_sets=$(addel $_f $_get_sets) done if [[ -z $_sets ]]; then echo -n "Looked at $_src " echo "and found no $OBSD sets. The set names looked for were:" let COLUMNS=_col-8 for _n in $ALLSETS; do echo $_n; done | show_cols | sed 's/^/ /' COLUMNS=$_col $AI && exit 1 echo return fi isin "INSTALL.$ARCH" $_files || ask_yn "INSTALL.$ARCH not found. Use sets found here anyway?" || return select_sets "$_sets" "$_get_sets" [[ -n $resp ]] || return _get_sets=$resp # Reorder $_get_sets. _get_sets=$(for s in $ALLSETS; do isin "$s" $_get_sets && echo $s; done) # Note which sets didn't verify ok. _unver=$_get_sets # Try to prefetch and control checksum of the set files. # Use dummy for loop as combined assignment and do { ... } while(0). for _issue in ''; do ! isin SHA256.sig $_files && _issue="Directory does not contain SHA256.sig" && break if ! $_srclocal; then ! _tmpfs_list=$(prefetcharea_fs_list) && _issue="Cannot determine prefetch area" && break for _tmpfs in $_tmpfs_list; do # Try to clean up from previous runs, assuming # the _tmpfs selection yields the same mount # point. for _tmpsrc in $_tmpfs/sets.+([0-9]).+([0-9]); do [[ -d $_tmpsrc ]] && rm -r $_tmpsrc done # Create a download directory for the sets and # check that the _sndio user can read files from # it. Otherwise cleanup and skip the filesystem. if _tmpsrc=$(tmpdir "$_tmpfs/sets"); then ( >$_tmpsrc/t && $_unpriv cat $_tmpsrc/t ) >/dev/null 2>&1 && break || rm -r $_tmpsrc fi done [[ ! -d $_tmpsrc ]] && _issue="Cannot create prefetch area" && break fi # Cleanup from previous runs. rm -f $_cfile $_cfile.sig _t=Get/Verify $_srclocal && _t='Verifying ' # Fetch signature file. ! $_unpriv ftp -D "$_t" -Vmo - "$_src/SHA256.sig" >"$_cfile.sig" && _issue="Cannot fetch SHA256.sig" && break # The bsd.rd only download/verify/install assumes the sets # location of the next release. So use the right signature file. $UPGRADE_BSDRD && PUB_KEY=/mnt/etc/signify/openbsd-$((VERSION + 1))-base.pub # Verify signature file with public keys. ! unpriv -f "$_cfile" \ signify -Vep $PUB_KEY -x "$_cfile.sig" -m "$_cfile" && _issue="Signature check of SHA256.sig failed" && break # Fetch and verify the set files. for _f in $_get_sets; do $UU && reset_watchdog rm -f /tmp/h /tmp/fail # Fetch set file and create a checksum by piping through # sha256. Create a flag file in case ftp failed. Sets # from net are written to the prefetch area, the output # of local sets is discarded. ( $_unpriv ftp -D "$_t" -Vmo - "$_src/$_f" || >/tmp/fail ) | ( $_srclocal && unpriv2 sha256 >/tmp/h || unpriv2 -f /tmp/h sha256 -ph /tmp/h >"$_tmpsrc/$_f" ) # Handle failed transfer. if [[ -f /tmp/fail ]]; then rm -f "$_tmpsrc/$_f" if ! ask_yn "Fetching of $_f failed. Continue anyway?"; then [[ -d $_tmpsrc ]] && rm -rf "$_tmpsrc" $AI && exit 1 return fi _unver=$(rmel $_f $_unver) _get_sets=$(rmel $_f $_get_sets) continue fi # Verify sets by comparing its checksum with SHA256. if fgrep -qx "SHA256 ($_f) = $("/mnt/$_f" ;; esac if (($?)); then if ! ask_yn "Installation of $_f failed. Continue anyway?"; then [[ -d $_tmpsrc ]] && rm -rf "$_tmpsrc" $AI && exit 1 return fi else # Remove each successfully installed set file from # DEFAULTSETS which is checked by sane_sets(). DEFAULTSETS=$(rmel $_f $DEFAULTSETS) # Reset DEFAULTSETS to make sure that sane_sets() does # not complain about missing set files in the bsd.rd # only download/verify/install case, $UPGRADE_BSDRD && DEFAULTSETS= fi [[ -d $_tmpsrc ]] && rm -f "$_tmpsrc/$_f" done [[ -d $_tmpsrc ]] && rm -rf "$_tmpsrc" || true # Keep SHA256 from installed sets for sysupgrade(8). if [[ -f $_cfile ]]; then cp $_cfile /mnt/var/db/installed.SHA256 elif $_srclocal && [[ -f ${_src#file://}/SHA256 ]]; then cp ${_src#file://}/SHA256 /mnt/var/db/installed.SHA256 fi $UU && reset_watchdog } # Fetch install sets from an HTTP server possibly using a proxy. install_http() { local _d _f _flist _file_list _prompt _tls _http_proto _url_base local _idx=/tmp/i/index.txt _sha=/tmp/i/SHA256 _sig=/tmp/i/SHA256.sig local _iu_url _iu_srv _iu_dir _mirror_url _mirror_srv _mirror_dir local _ftp_stdout=/tmp/i/ftpstdout _rurl_base # N.B.: Don't make INSTALL_MIRROR a local variable! It preserves the # mirror information if install_http() is called multiple times with # mirror and local servers. That ensures that the mirror server ends # up in /etc/installurl file if one of the servers is not a mirror. # N.B.: 'http_proxy' is an environment variable used by ftp(1). # DON'T change the name or case! ask "HTTP proxy URL? (e.g. 'http://proxy:8080', or 'none')" \ "${http_proxy:-none}" unset http_proxy [[ $resp == none ]] || export http_proxy=$resp # If the mirror server listfile download failed, inform the user and # show a reduced prompt. if [[ -s $HTTP_LIST ]]; then _prompt="HTTP Server? (hostname, list#, 'done' or '?')" else echo "(Unable to get list from ftp.openbsd.org, but that is OK)" _prompt="HTTP Server? (hostname or 'done')" fi # Use information from /etc/installurl as defaults for upgrades. # Format of installurl: _http_proto://_iu_srv/_iu_dir # ^--------- _iu_url ---------^ if [[ $MODE == upgrade ]] && _iu_url=$(stripcom /mnt/etc/installurl); then _iu_srv=${_iu_url#*://} _iu_srv=${_iu_srv%%/*} _iu_dir=${_iu_url##*$_iu_srv*(/)} [[ -n $_iu_srv ]] && HTTP_SERVER=$_iu_srv fi # Get server IP address or hostname and optionally the http protocol. while :; do ask_until "$_prompt" "$HTTP_SERVER" case $resp in done) return ;; "?") [[ -s $HTTP_LIST ]] || continue # Show a numbered list of mirror servers. cat -n < $HTTP_LIST | more -c ;; +([0-9])) # A number is only used as a line number in $HTTP_LIST. [[ -s $HTTP_LIST ]] || continue # Extract the URL from the mirror server listfile. set -- $(sed -n "${resp}p" $HTTP_LIST) if (($# < 1)); then echo "There is no line $resp." continue fi HTTP_SERVER=${1%%/*} # Repeat loop to get user to confirm server address. ;; ?(http?(s)://)+([A-Za-z0-9:.\[\]_-])) case $resp in https://*) _tls=force _http_proto=https;; http://*) _tls=no _http_proto=http;; *) _tls=try _http_proto=$HTTP_PROTO;; esac if ! $FTP_TLS && [[ $_tls == force ]]; then echo "https not supported on this platform." $AI && exit 1 || continue fi HTTP_SERVER=${resp#*://} break ;; *) echo "'$resp' is not a valid hostname." ;; esac done # Get directory info from *last* line starting with the server # name. This means the last install from a mirror will not keep # the specific directory info. But an install from a local # server *will* remember the specific directory info. # Format: _mirror_srv/_mirror_dir location_info # ^---- _mirror_url ----^ set -- $(grep -i "^$HTTP_SERVER" $HTTP_LIST 2>/dev/null | sed '$!d') _mirror_url=${1%%*(/)} _mirror_srv=${_mirror_url%%/*} _mirror_dir=${_mirror_url##*$_mirror_srv*(/)} # Decide on the default for the "Server directory" question. if [[ -n $_mirror_url ]]; then # Use directory information from cgi server if HTTP_SERVER was # found in HTTP_LIST. That is either an official mirror or the # server used in a previous installation or upgrade. _d=$_mirror_dir/$HTTP_SETDIR # Preserve the information that it is an official mirror if # location is present in $2. (($# > 1)) && INSTALL_MIRROR=$_mirror_url elif [[ -n $_iu_url ]]; then # Otherwise, if it exists, use directory information from # installurl(5) during upgrade. _d=$_iu_dir/$HTTP_SETDIR else _d=pub/OpenBSD/$HTTP_SETDIR fi ask_until "Server directory?" "$_d" HTTP_DIR=${resp##+(/)} _url_base="$_http_proto://$HTTP_SERVER/$HTTP_DIR" # Fetch SHA256.sig to create the list of files to select from. rm -f $_idx $_sha $_sig $_ftp_stdout if ! unpriv -f $_sig \ ftp -w 15 -vMo $_sig "$_url_base/SHA256.sig" \ >$_ftp_stdout 2>/dev/null; then case $_tls in force) $AI && exit 1 || return ;; try) ask_yn "Unable to connect using https. Use http instead?" || return _http_proto=http _url_base="http://$HTTP_SERVER/$HTTP_DIR" unpriv -f $_sig ftp -vMo $_sig "$_url_base/SHA256.sig" \ >$_ftp_stdout 2>/dev/null ;; esac fi # In case of URL redirection, use the final location to retrieve the # rest of the files from. Redirection does not change INSTALL_MIRROR. _rurl_base=$(sed -n 's/^Requesting //p' $_ftp_stdout | sed '$!d') _rurl_base=${_rurl_base%/SHA256.sig*} # Verify SHA256.sig, write SHA256 and extract the list of files. if unpriv -f $_sha \ signify -Vep $PUB_KEY -x $_sig -m $_sha >/dev/null 2>&1; then _file_list="$(sed -n 's/^SHA256 (\(.*\)).*$/\1/p' $_sha)" _file_list="SHA256.sig $_file_list" else echo "Unable to get a verified list of distribution sets." # Deny this server, if it's a mirror without a valid SHA256.sig. if [[ ${_rurl_base%/$HTTP_SETDIR} == "$_http_proto://$INSTALL_MIRROR" ]]; then $AI && exit 1 || return fi fi # Fetch index.txt, extract file list but add only entries that are not # already in _file_list. This allows for a verified list of distribution # sets from SHA256.sig, siteXX sets or the whole set list from index.txt # if SHA256.sig was not found (e.g. self compiled sets). if unpriv -f $_idx \ ftp -VMo $_idx "$_rurl_base/index.txt" 2>/dev/null; then _flist=$(sed -En 's/^.* ([a-zA-Z][a-zA-Z0-9._-]+)$/\1/p' $_idx) for _f in $_flist; do ! isin "$_f" $_file_list && _file_list="$_file_list $_f" done fi rm -f $_idx $_sha $_sig $_ftp_stdout install_files "$_rurl_base" "$_file_list" # Remember the sets location which is used later for creating the # installurl(5) file and to tell the cgi server. if [[ -n $INSTALL_MIRROR ]]; then INSTALL_URL=$_http_proto://$INSTALL_MIRROR else # Remove the architecture and snaphots or version part. INSTALL_URL=${_url_base%/$ARCH} INSTALL_URL=${INSTALL_URL%@(/$VNAME|/snapshots)} fi } # Ask for the path to the set files on an already mounted filesystem and start # the set installation. install_mounted_fs() { local _dir while :; do ask_until "Pathname to the sets? (or 'done')" "$SETDIR" [[ $resp == done ]] && return # Accept a valid /mnt2 or /mnt relative path. [[ -d /mnt2/$resp ]] && { _dir=/mnt2/$resp; break; } [[ -d /mnt/$resp ]] && { _dir=/mnt/$resp; break; } # Accept a valid absolute path. [[ -d /$resp ]] && { _dir=/$resp; break; } echo "The directory '$resp' does not exist." $AI && exit 1 done install_files "file://$_dir" "$(ls $_dir/)" } # Install sets from CD-ROM drive $1. install_cdrom() { local _drive=$1 make_dev $_drive && mount_mnt2 $_drive || return install_mounted_fs } # Install sets from disk. # Ask for the disk device containing the set files. install_disk() { if ! ask_yn "Is the disk partition already mounted?" yes; then ask_which "disk" "contains the $MODE media" \ '$(bsort $(get_dkdevs))' \ '$(bsort $(rmel $ROOTDISK $(get_dkdevs)))' [[ $resp == done ]] && return 1 # Ensure the device file exists and mount the fs on /mnt2. make_dev $resp && mount_mnt2 $resp || return fi install_mounted_fs } # Ask for the nfs share details, mount it and start the set installation. install_nfs() { local _tcp # Get the IP address of the server. ask_until "Server IP address or hostname?" "$NFS_ADDR" NFS_ADDR=$resp # Get the server path to mount. ask_until "Filesystem on server to mount?" "$NFS_PATH" NFS_PATH=$resp # Determine use of TCP. ask_yn "Use TCP transport? (requires TCP-capable NFS server)" && _tcp=-T # Mount the server. mount_nfs $_tcp -o ro -R 5 $NFS_ADDR:$NFS_PATH /mnt2 || return install_mounted_fs } # Mount filesystem containing the set files on device $1, optionally ask the # user for the device name. mount_mnt2() { local _dev=$1 _opts _file=/tmp/i/parts.$1 _parts disklabel $_dev 2>/dev/null | sed -En '/swap|unused/d;/^ [a-p]: /p' >$_file _parts=$(sed 's/^ \(.\): .*/\1/' $_file) set -- $_parts (($# == 0)) && { echo "No filesystems found on $_dev."; return 1; } if isin "c" $_parts; then # Don't ask questions if 'c' contains a filesystem. resp=c elif (($# == 1)); then # Don't ask questions if there's only one choice. resp=$1 else # Display partitions with filesystems and ask which to use. cat $_file ask_which "$_dev partition" "has the $MODE sets" \ '$(disklabel '$_dev' 2>/dev/null | sed -En '\''/swap|unused/d;/^ ([a-p]): .*/s//\1/p'\'')' [[ $resp == done ]] && return 1 fi # Always mount msdos partitions with -s to get lower case names. grep -q "^ $resp: .*MSDOS" $_file && _opts="-s" mount -o ro,$_opts /dev/$_dev$resp /mnt2 } # ------------------------------------------------------------------------------ # Functions used in install.sh/upgrade.sh and its associates # ------------------------------------------------------------------------------ # Ask for terminal type if on console, otherwise ask for/set keyboard layout. set_term() { local _layouts export TERM=${TERM:-${MDTERM:-vt220}} if [[ -n $CONSOLE ]]; then ask "Terminal type?" "$TERM" TERM=$resp else [[ -x /sbin/kbd ]] || return _layouts=$(bsort $(kbd -l | egrep -v "^(user|tables|encoding)")) while :; do ask "Choose your keyboard layout ('?' or 'L' for list)" default case $resp in [lL\?]) echo "Available layouts: $_layouts" ;; default) break ;; *) if kbd -q "$resp"; then echo $resp >/tmp/i/kbdtype break fi ;; esac done fi } # Configure the network. donetconfig() { local _dn _ns _f1 _f2 _f3 _autoconf_ns=false configure_ifs v4_defroute v6_defroute # Check for nameserver proposals resolvd found. if [[ -f /etc/resolv.conf ]]; then # Get/store nameserver address(es) as a blank separated list # and the default fully qualified domain name from *first* # domain given on *last* search or domain statement. while read -r -- _f1 _f2 _f3; do [[ $_f1 == nameserver ]] && _ns="${_ns:+$_ns }$_f2" [[ $_f3 == '# resolvd: '* ]] && _autoconf_ns=true [[ $_f1 == @(domain|search) ]] && _dn=$_f2 done /dev/null 2>&1 && [[ $NIFS == 1 && -z $_dn ]]; then # If we have a 'domain-name' option in the lease file use that. # It might *NOT* not be the same as the first domain in any # 'domain-search' option. set -- $(get_ifs dhcp) set -- $(lease_value /var/db/dhcpleased/$1 domain-name) [[ -n $1 ]] && resp=$1 echo "Using DNS domainname $resp" else ask "DNS domain name? (e.g. 'example.com')" "$resp" fi hostname "$(hostname -s).$resp" if $_autoconf_ns && [[ -n $_ns ]]; then echo "Using DNS nameservers at $_ns" return fi # Get & add nameservers to /tmp/resolv.conf. Don't ask if there's only # one configured interface and if it's managed by dhcp and if the # nameserver is configured via dhcp too. resp="${_ns:-none}" if ifconfig dhcp >/dev/null 2>&1 && [[ $NIFS == 1 && -n $_ns ]]; then echo "Using DNS nameservers at $resp" else ask "DNS nameservers? (IP address list or 'none')" "$resp" fi # Construct appropriate resolv.conf. if [[ $resp != none ]]; then echo "lookup file bind" >/tmp/resolv.conf for _ns in $resp; do echo "nameserver $_ns" >>/tmp/resolv.conf done # replace it, and resolvd will repair cp /tmp/resolv.conf /etc/resolv.conf fi } # Ask user about daemon startup on boot, X Window usage and console setup. # The actual configuration is done later in apply(). questions() { local _d _cdef=no ask_yn "Start sshd(8) by default?" yes START_SSHD=$resp APERTURE= resp= START_XDM= if [[ -n $(scan_dmesg '/^wsdisplay[0-9]* /s/ .*//p') ]]; then if [[ -n $(scan_dmesg '/^[a-z]*[01]: aperture needed/p') ]]; then ask_yn "Do you expect to run the X Window System?" yes && APERTURE=$MDXAPERTURE fi if [[ -n $MDXDM && $resp != n ]]; then ask_yn "Do you want the X Window System to be started by xenodm(1)?" START_XDM=$resp fi fi if [[ -n $CDEV ]]; then _d=${CPROM:-$CDEV} [[ -n $CONSOLE ]] && _cdef=yes ask_yn "Change the default console to $_d?" $_cdef DEFCONS=$resp if [[ $resp == y ]]; then ask_which "speed" "should $_d use" \ "9600 19200 38400 57600 115200" $CSPEED case $resp in done) DEFCONS=n;; *) CSPEED=$resp;; esac fi fi } # Gather information for setting up the user later in do_install(). user_setup() { local _q="Setup a user? (enter a lower-case loginname, or 'no')" while :; do ask "$_q" no case $resp in n|no) return ;; y|yes) _q="No really, what is the lower-case loginname, or 'no'?" continue ;; root|daemon|operator|bin|build|sshd|www|nobody|ftp) ;; [a-z]*([-a-z0-9_])) ((${#resp} <= 31)) && break ;; esac echo "$resp is not a usable loginname." done ADMIN=$resp while :; do ask "Full name for user $ADMIN?" "$ADMIN" case $resp in *[:\&,]*) echo "':', '&' or ',' are not allowed." ;; *) ((${#resp} <= 100)) && break echo "Too long." ;; esac done ADMIN_NAME=$resp ask_password "Password for user $ADMIN?" ADMIN_PASS=$_password ADMIN_KEY= $AI && ask "Public ssh key for user $ADMIN" none && [[ $resp != none ]] && ADMIN_KEY=$resp } # Ask user whether or not to allow logins to root in case sshd(8) is enabled. # If no user is setup, show a hint to enable root logins, but warn about risks # of doing so. ask_root_sshd() { typeset -l _resp [[ $START_SSHD == y ]] || return if [[ -z $ADMIN ]]; then echo "Since no user was setup, root logins via sshd(8) might be useful." fi echo "WARNING: root is targeted by password guessing attacks, pubkeys are safer." while :; do ask "Allow root ssh login? (yes, no, prohibit-password)" no _resp=$resp case $_resp in y|yes) SSHD_ENABLEROOT=yes ;; n|no) SSHD_ENABLEROOT=no ;; w|p|without-password|prohibit-password) SSHD_ENABLEROOT=prohibit-password ;; *) echo "'$resp' is not a valid choice." $AI && exit 1 continue ;; esac break done } # Set TZ variable based on zonefile $1 and user selection. set_timezone() { local _zonefile=$1 _zonepath _zsed _zoneroot=/usr/share/zoneinfo # If the timezone file is not available, # return immediately. [[ ! -f $_zonefile ]] && return # If configured in a previous call, return immediately. [[ -n $TZ ]] && return if [[ -h /mnt/etc/localtime ]]; then TZ=$(ls -l /mnt/etc/localtime 2>/dev/null) TZ=${TZ#*${_zoneroot#/mnt}/} fi wait_cgiinfo isin "$CGI_TZ" $(<$_zonefile) && TZ=$CGI_TZ # If neither the base or HTTP_LIST gave a hint, and this is the # early question, give up, and ask after the sets are installed. [[ $_zonefile == /var/tzlist && -z $TZ ]] && return while :; do ask "What timezone are you in? ('?' for list)" "$TZ" _zonepath=${resp%%*(/)} case $_zonepath in "") continue ;; "?") grep -v /. $_zonefile | show_cols continue ;; esac while isin "$_zonepath/" $(<$_zonefile); do ask "What sub-timezone of '$_zonepath' are you in? ('?' for list)" _zsed=$(echo $_zonepath/ | sed 's,/,\\/,g') resp=${resp%%*(/)} case $resp in "") ;; "?") sed -n "/^$_zsed/{s/$_zsed//;/\/./!p;}" $_zonefile | show_cols;; *) _zonepath=$_zonepath/$resp;; esac done if isin "$_zonepath" $(<$_zonefile); then TZ=${_zonepath#$_zoneroot} return fi echo -n "'${_zonepath}'" echo " is not a valid timezone on this system." done } # Determine if the supplied disk is a potential root disk, by: # - Check the disklabel if there is an 'a' partition of type 4.2BSD # - Mount the partition (read-only) and look for typical root filesystem layout is_rootdisk() { local _d=$1 _rc=1 ( make_dev $_d if disklabel $_d | grep -q '^ a: .*4\.2BSD ' && mount -t ffs -r /dev/${_d}a /mnt; then if $UU; then ls -d /mnt/{auto_upgrade.conf,bin,dev,etc,home,mnt,root,sbin,tmp,usr,var} else ls -d /mnt/{bin,dev,etc,home,mnt,root,sbin,tmp,usr,var} fi _rc=$? umount -f /mnt fi rm -f /dev/{r,}$_d? return $_rc ) >/dev/null 2>&1 } # Get global root information. ie. ROOTDISK, ROOTDEV and SWAPDEV. get_rootinfo() { local _default=$(get_dkdevs_root) _dkdev local _q="Which disk is the root disk? ('?' for details)" while :; do echo "Available disks are: $(get_dkdevs_root | sed 's/^$/none/')." _ask "$_q" $_default || continue case $resp in "?") diskinfo $(get_dkdevs);; '') ;; *) # Translate $resp to disk dev name in case it is a DUID. # get_dkdev_name bounces back the disk dev name if not. _dkdev=$(get_dkdev_name "$resp") if isin "$_dkdev" $(get_dkdevs); then [[ $MODE == install ]] && break is_rootdisk "$_dkdev" && break echo "$resp is not a valid root disk." _default="$(rmel "$_dkdev" $_default) $_dkdev" else echo "no such disk" fi ;; esac $AI && exit 1 done log_answers "$_q" "$resp" make_dev $_dkdev || exit ROOTDISK=$_dkdev ROOTDEV=${ROOTDISK}a SWAPDEV=${ROOTDISK}b } # Parse and "unpack" a hostname.if(5) line given as positional parameters. # Fill the _cmds array with the resulting interface configuration commands. parse_hn_line() { local _af=0 _name=1 _mask=2 _bc=3 _prefix=2 _c _cmd _prev _daddr _dhcp _i local _has_dhcp=false _has_inet6=false set -A _c -- "$@" set -o noglob ifconfig $_if inet6 >/dev/null 2>&1 && _has_inet6=true [[ -x /sbin/dhcpleased ]] && _has_dhcp=true case ${_c[_af]} in ''|*([[:blank:]])'#'*) return ;; inet) ((${#_c[*]} > 1)) || return if [[ ${_c[_name]} == autoconf ]]; then _cmds[${#_cmds[*]}]="ifconfig $_if ${_c[@]}" V4_AUTOCONF=true return fi [[ ${_c[_name]} == alias ]] && _mask=3 _bc=4 [[ -n ${_c[_mask]} ]] && _c[_mask]="netmask ${_c[_mask]}" if [[ -n ${_c[_bc]} ]]; then _c[_bc]="broadcast ${_c[_bc]}" [[ ${_c[_bc]} == *NONE ]] && _c[_bc]= fi _cmds[${#_cmds[*]}]="ifconfig $_if ${_c[@]}" ;; inet6) ! $_has_inet6 && return ((${#_c[*]} > 1)) || return if [[ ${_c[_name]} == autoconf ]]; then _cmds[${#_cmds[*]}]="ifconfig $_if ${_c[@]}" V6_AUTOCONF=true return fi [[ ${_c[_name]} == alias ]] && _prefix=3 [[ -n ${_c[_prefix]} ]] && _c[_prefix]="prefixlen ${_c[_prefix]}" _cmds[${#_cmds[*]}]="ifconfig $_if ${_c[@]}" ;; dest) ((${#_c[*]} == 2)) && _daddr=${_c[1]} || return ! $_has_inet6 && [[ $_daddr == @(*:*) ]] && return _prev=$((${#_cmds[*]} - 1)) ((_prev >= 0)) || return set -A _c -- ${_cmds[_prev]} _name=3 [[ ${_c[_name]} == alias ]] && _name=4 _c[_name]="${_c[_name]} $_daddr" _cmds[$_prev]="${_c[@]}" ;; dhcp) ! $_has_dhcp && return _cmds[${#_cmds[*]}]="ifconfig $_if inet autoconf" V4_AUTOCONF=true ;; '!'*|bridge) # Skip shell commands and bridge in the installer. return ;; *) _cmds[${#_cmds[*]}]="ifconfig $_if ${_c[@]}" ;; esac unset _c set +o noglob } # Start interface using the on-disk hostname.if file passed as argument $1. # Much of this is gratuitously stolen from /etc/netstart. ifstart() { local _if=$1 _hn=/mnt/etc/hostname.$1 _cmds _i=0 _line set -A _cmds # Create interface if it does not yet exist. { ifconfig $_if || ifconfig $_if create; } >/dev/null 2>&1 || return ((NIFS++)) # Parse the hostname.if(5) file and fill _cmds array with interface # configuration commands. set -o noglob while IFS= read -- _line; do parse_hn_line $_line done <$_hn # Apply the interface configuration commands stored in _cmds array. while ((_i < ${#_cmds[*]})); do eval "${_cmds[_i]}" ((_i++)) done unset _cmds set +o noglob } # Configure the network during upgrade based on the on-disk configuration. enable_network() { local _f _gw _v4set=false _v6set=false _hn _if _trunks _svlans _vlans # Use installed network configuration files during upgrade. for _f in dhclient.conf resolv.conf; do if [[ -f /mnt/etc/$_f ]]; then cp /mnt/etc/$_f /etc/$_f fi done # Create a minimal hosts file. echo "127.0.0.1\tlocalhost" >/tmp/i/hosts echo "::1\t\tlocalhost" >>/tmp/i/hosts _f=/mnt/etc/soii.key [[ -f $_f ]] && sysctl "net.inet6.ip6.soiikey=$(<$_f)" # Set the address for the loopback interface. Bringing the # interface up, automatically invokes the IPv6 address ::1. ifconfig lo0 inet 127.0.0.1/8 # Configure all of the non-loopback interfaces which we know about. # Refer to hostname.if(5) for _hn in /mnt/etc/hostname.*; do # Strip off prefix to get interface name. _if=${_hn#/mnt/etc/hostname.} if isin "${_if%%+([0-9])}" $(ifconfig -C); then # Dynamic interfaces must be done later. case ${_if%%+([0-9])} in trunk) _trunks="$_trunks $_if";; svlan) _svlans="$_svlans $_if";; vlan) _vlans="$_vlans $_if";; esac else # 'Real' interfaces (if available) are done now. ifconfig $_if >/dev/null 2>&1 && ifstart $_if fi done # Configure any dynamic interfaces now that 'real' ones are up. # ORDER IS IMPORTANT! (see /etc/netstart). for _if in $_trunks $_svlans $_vlans; do ifstart $_if done # /mnt/etc/mygate, if it exists, contains the address(es) of my # default gateway(s). Use for ipv4 if no interfaces configured via # dhcp. Use for ipv6 if no interfaces configured via autoconf. stripcom /mnt/etc/mygate | while read _gw; do case $_gw in '!'*) # Skip shell commands in the installer. continue ;; !(*:*)) ($_v4set || $V4_AUTOCONF) && continue route -qn add -host default $_gw _v4set=true ;; *) ($_v6set || $V6_AUTOCONF) && continue route -qn add -host -inet6 default $_gw _v6set=true ;; esac done route -qn add -net 127 127.0.0.1 -reject >/dev/null } # Fetch the list of mirror servers and installer choices from previous runs if # available from ftplist.cgi. Start the ftp process in the background, but kill # it if it takes longer than 12 seconds. start_cgiinfo() { # If no networks are configured, we do not need the httplist file. ((NIFS < 1)) && return # Ensure proper name resolution in case there's no dns yet. add_hostent 129.128.5.191 ftp.openbsd.org # Make sure the ftp subshell gets its own process group. set -m ( unpriv2 ftp -w 15 -Vao - \ "$HTTP_PROTO://ftp.openbsd.org/cgi-bin/ftplist.cgi?dbversion=1" \ 2>/dev/null >$CGI_INFO # Remember finish time for adjusting the received timestamp. echo -n $SECONDS >$HTTP_SEC feed_random ) & CGIPID=$! set +m # If the ftp process takes more than 12 seconds, kill it. # XXX We are relying on the pid space not randomly biting us. # XXX ftp could terminate early, and the pid could be reused. (sleep 12; kill -INT -$CGIPID >/dev/null 2>&1) & } # Create a skeletal but useful /etc/fstab from /tmp/i/fstab by stripping all # comment lines and dropping all filesystems which # # 1) can't be mounted (no mount_* command is found), # 2) have 'xx' in the option field (usually /altroot), # 3) have 'noauto' in the option field, # 4) are nfs (since name resolution may not be present), # 5) are on a vnd device. # # In addition, # # 1) delete 'softdep' options (no soft updates in ramdisk kernels), # 2) mount non-ffs filesystems read only, # 3) prepend '/mnt' to all mount points, # 4) delete any trailing '/' from the mount point (e.g. root), # # If no /etc/fstab is created, do not proceed with install/upgrade. munge_fstab() { local _dev _mp _fstype _opt _rest while read _dev _mp _fstype _opt _rest; do # Drop irrelevant lines and filesystems. [[ $_dev == @(/dev/vnd*|\#*) || $_fstype == nfs || ! -f /sbin/mount_$_fstype || $_opt == *noauto* || $_opt == *xx* ]] && continue # Remove any softdep options, as soft updates are not # available in the ramdisk kernels. _opt=$(echo $_opt | sed 's/softdep//') # Change read-only ffs to read-write since we'll potentially # write to these filesystems. # Mount non-ffs filesystems read only. if [[ $_fstype == ffs ]]; then _opt=$(echo $_opt | sed 's/[[:<:]]ro[[:>:]]/rw/') else _opt=$(echo $_opt | sed 's/[[:<:]]rw[[:>:]]/ro/') fi # Write fs entry in fstab. # 1) prepend '/mnt' to the mount point. # 2) remove a trailing '/' from the mount point (e.g. root). echo $_dev /mnt${_mp%/} $_fstype $_opt $_rest done /etc/fstab # If no /etc/fstab was created, we have nowhere to $MODE to. if [[ ! -s /etc/fstab ]]; then echo "Unable to create valid /etc/fstab." exit fi } # Preen all filesystems in /etc/fstab that have a /sbin/fsck_XXX and a # fs_passno > 0, showing individual results, but skipping $ROOTDEV. This was # already fsck'ed successfully. # # Exit if any fsck's fail (but do them all before exiting!). check_fs() { local _dev _dn _mp _fstype _rest _fail _f _passno ask_yn "Force checking of clean non-root filesystems?" && _f=f while read _dev _mp _fstype _rest _rest _passno _rest; do _dn=$(get_dkdev_name "$_dev") [[ $ROOTDEV == @(${_dev#/dev/}|$_dn${_dev##*.}) ]] && continue [[ -f /sbin/fsck_$_fstype ]] || continue # Make sure device exists before fsck'ing it. make_dev "$_dn" || continue ((_passno > 0)) || continue echo -n "fsck -${_f}p $_dev..." if ! fsck -${_f}p $_dev >/dev/null 2>&1; then echo " FAILED. You must fsck $_dev manually." _fail=y else echo " OK." fi done /dev/random 2>&1 if [[ -e /mnt/var/db/host.random ]]; then dd if=/mnt/var/db/host.random of=/dev/random bs=65536 count=1 \ status=none fi } # Ask the user for locations of sets, and then install whatever sets the user # selects from that location. Repeat as many times as the user needs to get all # desired sets. install_sets() { local _cddevs=$(get_cddevs) _d _im _locs="disk http" _src echo # Set default location to method recorded last time. _d=$CGI_METHOD # Set default location to HTTP in case we netbooted. ifconfig netboot >/dev/null 2>&1 && : ${_d:=http} # Set default location to HTTP if installurl(5) exists. [[ -s /mnt/etc/installurl ]] && _d=http # Set default location to the first cdrom device if any are found. [[ -n $_cddevs ]] && : ${_d:=cd0} # Add NFS to set locations if the boot kernel supports it. [[ -x /sbin/mount_nfs ]] && _locs="$_locs nfs" # In case none of the above applied, set HTTP as default location. : ${_d:=http} # If the default location set so far is not one of the cdrom devices or # is not in the list of valid locations, set a sane default. if ! isin "$_d" $_cddevs $_locs; then for _src in http $_cddevs nfs disk; do isin "$_src" $_cddevs $_locs && _d=$_src && break done fi echo "Let's $MODE the sets!" while :; do # Get list of cdroms again in case one just got plugged in. _cddevs=$(get_cddevs) umount -f /mnt2 >/dev/null 2>&1 ask "Location of sets? (${_cddevs:+$_cddevs }$_locs or 'done')" "$_d" case $resp in done) sane_install && return ;; [cC]*) if [[ -n $_cddevs ]]; then set -- $_cddevs [[ $resp == [cC]?([dD]) ]] && resp=$1 _im=$resp install_cdrom $resp && INSTALL_METHOD=$_im fi ;; [dD]*) install_disk && INSTALL_METHOD=disk ;; [hH]*) isin http $_locs && install_http && INSTALL_METHOD=http ;; [nN]*) isin nfs $_locs && install_nfs && INSTALL_METHOD=nfs ;; *) $AI && err_exit "'$resp' is not a valid choice." ;; esac # Preserve the selected install source selection. [[ -n $INSTALL_METHOD ]] && _d=$INSTALL_METHOD # Set default to 'done' to leave the while-loop. sane_install quiet || $AI && _d=done done } # Apply configuration settings based on the previously gathered information. apply() { if [[ $START_SSHD == n ]]; then echo "sshd_flags=NO" >>/mnt/etc/rc.conf.local elif [[ -n $SSHD_ENABLEROOT ]]; then # Only change sshd_config if the user choice is not the default. if ! grep -q "^#PermitRootLogin $SSHD_ENABLEROOT\$" \ /mnt/etc/ssh/sshd_config; then sed -i "s/^#\(PermitRootLogin\) .*/\1 $SSHD_ENABLEROOT/" \ /mnt/etc/ssh/sshd_config fi fi [[ -n $APERTURE ]] && echo "machdep.allowaperture=$APERTURE # See xf86(4)" \ >>/mnt/etc/sysctl.conf [[ $START_XDM == y && -x /mnt/usr/X11R6/bin/xenodm ]] && echo "xenodm_flags=" >>/mnt/etc/rc.conf.local if [[ $DEFCONS == y ]]; then cp /mnt/etc/ttys /tmp/i/ttys sed -e "/^$CTTY/s/std.9600/std.${CSPEED}/" \ -e "/^$CTTY/s/std.115200/std.${CSPEED}/" \ -e "/^$CTTY/s/unknown/vt220 /" \ -e "/$CTTY/s/off.*/on secure/" /tmp/i/ttys >/mnt/etc/ttys [[ -n $CPROM ]] && echo "stty $CPROM $CSPEED\nset tty $CPROM" \ >>/mnt/etc/boot.conf fi ln -sf /usr/share/zoneinfo/$TZ /mnt/etc/localtime } # Return string suitable for the encrypted password field in master.passwd. # # 1) Without argument, return a single '*'. # 2) Return argument unchanged if it looks like a encrypted password string # or if it consists of just 13 asterisks. # 3) Otherwise return encrypted password string. # encr_pwd() { local _p=$1 if [[ -z $_p ]]; then echo '*' elif [[ $_p == \$2?\$[0-9][0-9]\$* && ${#_p} > 40 || $_p == '*************' ]]; then echo "$_p" else encrypt -b a -- "$_p" fi } # Store entropy for the next boot. store_random() { dd if=/dev/random of=/mnt/var/db/host.random bs=65536 count=1 \ status=none dd if=/dev/random of=/mnt/etc/random.seed bs=512 count=1 status=none chmod 600 /mnt/var/db/host.random /mnt/etc/random.seed } # Final steps common for installs and upgrades. finish_up() { local _dev _mp _fstype _rest _d local _kernel_dir=/mnt/usr/share/relink/kernel local _kernel=${MDKERNEL:-GENERIC} _syspatch_archs="amd64 arm64 i386" # Mount all known swap partitions. This gives systems with little # memory a better chance at running 'MAKEDEV all'. if [[ -x /mnt/sbin/swapctl ]]; then /mnt/sbin/swapctl -a /dev/$SWAPDEV >/dev/null 2>&1 # Can't do chmod && swapctl -A because devices are not yet # created on install'ed systems. On upgrade'ed system there # is a small chance the device does not exist on the ramdisk # and will thus not get mounted. while read _dev _mp _fstype _rest; do [[ $_fstype == swap ]] && /mnt/sbin/swapctl -a $_dev >/dev/null 2>&1 done /mnt/etc/installurl fi echo -n "Making all device nodes..." (cd /mnt/dev; sh MAKEDEV all # Make sure any devices we found during probe are created in the # installed system. for _dev in $(get_dkdevs) $(get_cddevs); do sh MAKEDEV $_dev done ) echo " done." # We may run some programs in chroot, and some of them might be # dynamic. That is highly discouraged, but let us play it safe. rm -f /mnt/var/run/ld.so.hints # Conditionally create /usr/{src,obj,xobj} directories and set # proper ownership and permissions during install. if [[ $MODE == install ]]; then mkdir -p /mnt/usr/{src,{,x}obj} && ( cd /mnt/usr chmod 770 {,x}obj chown build:wobj {,x}obj chmod 775 src chown root:wsrc src ) fi # In case this is a softraid device, make sure all underlying # device nodes exist before installing boot-blocks on disk. make_dev $(bioctl $ROOTDISK 2>/dev/null | sed -n 's/.*<\(.*\)>$/\1/p') md_installboot $ROOTDISK chmod og-rwx /mnt/bsd{,.mp,.rd} 2>/dev/null if [[ -f /mnt/bsd.mp ]] && ((NCPU > 1)); then _kernel=$_kernel.MP echo "Multiprocessor machine; using bsd.mp instead of bsd." mv /mnt/bsd /mnt/bsd.sp 2>/dev/null mv /mnt/bsd.mp /mnt/bsd fi # Write kernel.SHA256 matching the just installed kernel and fix path to # ensure it references the kernel as /bsd. sha256 /mnt/bsd | (umask 077; sed 's,/mnt,,' >/mnt/var/db/kernel.SHA256) if [[ -f $_kernel_dir.tgz ]]; then echo -n "Relinking to create unique kernel..." ( set -e rm -rf $_kernel_dir mkdir -m 700 -p $_kernel_dir tar -C $_kernel_dir -xzf $_kernel_dir.tgz $_kernel rm -f $_kernel_dir.tgz chroot /mnt /bin/ksh -e -c "cd ${_kernel_dir#/mnt}/$_kernel; \ make newbsd; \ [ -f /etc/bsd.re-config ] && \ config -e -c /etc/bsd.re-config -f bsd; \ make newinstall" ) >/dev/null 2>&1 && echo " done." || echo " failed." fi # Ensure that sysmerge in batch mode is run on reboot. [[ $MODE == upgrade ]] && echo "/usr/sbin/sysmerge -b" >>/mnt/etc/rc.sysmerge # If a proxy was needed to fetch the sets, use it for fw_update and syspatch [[ -n $http_proxy ]] && quote export "http_proxy=$http_proxy" >>/mnt/etc/rc.firsttime # Ensure that fw_update is run on reboot. echo "/usr/sbin/fw_update -v" >>/mnt/etc/rc.firsttime # Run syspatch -c on reboot if the arch is supported and if it is a # release system (not -stable or -current). List uninstalled syspatches # on the console and in the rc.firsttime output mail. isin "$ARCH" $_syspatch_archs && cat <<__EOT >>/mnt/etc/rc.firsttime set -A _KERNV -- \$(sysctl -n kern.version | sed 's/^OpenBSD \([1-9][0-9]*\.[0-9]\)\([^ ]*\).*/\1 \2/;q') if ((\${#_KERNV[*]} == 1)) && [[ -s /etc/installurl ]] && _CKPATCH=\$(mktemp /tmp/_ckpatch.XXXXXXXXXX); then echo "Checking for available binary patches..." syspatch -c > \$_CKPATCH if [[ -s \$_CKPATCH ]]; then echo "Run syspatch(8) to install:" column -xc 80 \$_CKPATCH fi rm -f \$_CKPATCH fi __EOT # Email installer questions and their answers to root on next boot. prep_root_mail /tmp/i/$MODE.resp "$(hostname) $MODE response file" if [[ -x /mnt/$MODE.site ]]; then if ! chroot /mnt /$MODE.site; then store_random err_exit "$MODE.site failed" fi fi # Store entropy for the next boot. store_random # Pat on the back. cat <<__EOT CONGRATULATIONS! Your OpenBSD $MODE has been successfully completed! __EOT [[ $MODE == install ]] && cat <<__EOT When you login to your new system the first time, please read your mail using the 'mail' command. __EOT md_congrats $AI && >/tmp/ai/ai.done } do_autoinstall() { rm -f /tmp/ai/ai.done echo "Performing non-interactive $AI_MODE..." /$AI_MODE -af /tmp/ai/ai.$AI_MODE.conf 2>&1 /tmp/ai/ai.log $UU || [[ -f /tmp/ai/ai.done ]] || err_exit "failed; check /tmp/ai/ai.log" # Email autoinstall protocol to root on next boot. prep_root_mail /tmp/ai/ai.log "$(hostname) $AI_MODE log" exec reboot } do_install() { local _rootkey _rootpass # Ask for and set the system hostname and add the hostname specific # siteXX set. while :; do ask_until "System hostname? (short form, e.g. 'foo')" \ "$(hostname -s)" [[ $resp != *+([[:cntrl:]]|[[:space:]])* ]] && break echo "Invalid hostname." $AI && exit 1 done [[ ${resp%%.*} != $(hostname -s) ]] && hostname "$resp" ALLSETS="$ALLSETS site$VERSION-$(hostname -s).tgz" export PS1='\h# ' echo # Configure the network. donetconfig # Fetch list of mirror servers and installer choices from previous runs. start_cgiinfo echo while :; do ask_password "Password for root account?" _rootpass="$_password" [[ -n "$_password" ]] && break echo "The root password must be set." done # Ask for the root user public ssh key during autoinstall. _rootkey= if $AI; then ask "Public ssh key for root account?" none [[ $resp != none ]] && _rootkey=$resp fi # Ask user about daemon startup on boot, X Window usage and console # setup. questions # Gather information for setting up the initial user account. user_setup ask_root_sshd # Set TZ variable based on zonefile and user selection. set_timezone /var/tzlist echo # Get information about ROOTDISK, etc. get_rootinfo DISKS_DONE= FSENT= # Remove traces of previous install attempt. rm -f /tmp/i/fstab* # Configure the disk(s). while :; do # Always do ROOTDISK first, and repeat until it is configured. if ! isin "$ROOTDISK" $DISKS_DONE; then resp=$ROOTDISK rm -f /tmp/i/fstab else # Force the user to think and type in a disk name by # making 'done' the default choice. ask_which "disk" "do you wish to initialize" \ '$(get_dkdevs_uninitialized)' done [[ $resp == done ]] && break fi _disk=$resp configure_disk $_disk || continue DISKS_DONE=$(addel $_disk $DISKS_DONE) done # Write fstab entries to fstab in mount point alphabetic order # to enforce a rational mount order. for _mp in $(bsort $FSENT); do _pp=${_mp##*!} _mp=${_mp%!*} echo -n "$_pp $_mp ffs rw" # Only '/' is neither nodev nor nosuid. i.e. it can obviously # *always* contain devices or setuid programs. [[ $_mp == / ]] && { echo " 1 1"; continue; } # Every other mounted filesystem is nodev. If the user chooses # to mount /dev as a separate filesystem, then on the user's # head be it. echo -n ",nodev" # The only directories that the install puts suid binaries into # (as of 3.2) are: # # /sbin # /usr/bin # /usr/sbin # /usr/libexec # /usr/libexec/auth # /usr/X11R6/bin # # and ports and users can do who knows what to /usr/local and # sub directories thereof. # # So try to ensure that only filesystems that are mounted at # or above these directories can contain suid programs. In the # case of /usr/libexec, give blanket permission for # subdirectories. case $_mp in /sbin|/usr) ;; /usr/bin|/usr/sbin) ;; /usr/libexec|/usr/libexec/*) ;; /usr/local|/usr/local/*) ;; /usr/X11R6|/usr/X11R6/bin) ;; *) echo -n ",nosuid" ;; esac echo " 1 2" done >>/tmp/i/fstab # Create a skeletal /etc/fstab which is usable for the installation # process. munge_fstab # Use async options for faster mounts of the filesystems. mount_fs "-o async" # Feed the random pool some entropy before we read from it. feed_random # Ask the user for locations, and install whatever sets the user # selected. install_sets # Set 'wxallowed' mount option for the filesystem /usr/local resides on. _mp=$(df /mnt/usr/local | sed '$!d') _mp=${_mp##*/mnt} sed -i "s#\(${_mp:-/} ffs rw\)#\1,wxallowed#" /tmp/i/fstab # If we did not succeed at setting TZ yet, we try again # using the timezone names extracted from the base set. if [[ -z $TZ ]]; then (cd /mnt/usr/share/zoneinfo ls -1dF $(tar cvf /dev/null [A-Za-y]*) >/mnt/tmp/tzlist ) echo set_timezone /mnt/tmp/tzlist rm -f /mnt/tmp/tzlist fi # If we got a timestamp from the cgi server, and that time diffs by more # than 120 seconds, ask if the user wants to adjust the time. if _time=$(http_time) && _now=$(date +%s) && (( _now - _time > 120 || _time - _now > 120 )); then _tz=/mnt/usr/share/zoneinfo/$TZ if ask_yn "Time appears wrong. Set to '$(TZ=$_tz date -r "$(http_time)")'?" yes; then # We do not need to specify TZ below since both date # invocations use the same one. date $(date -r "$(http_time)" "+%Y%m%d%H%M.%S") >/dev/null # N.B. This will screw up SECONDS. fi fi # If we managed to talk to the cgi server before, tell it what # location we used... so it can perform magic next time. if [[ -s $HTTP_LIST ]]; then _i=${INSTALL_URL:+install=$INSTALL_URL&} _i=$_i${TZ:+TZ=$TZ&} _i=$_i${INSTALL_METHOD:+method=$INSTALL_METHOD} _i=${_i%&} [[ -n $_i ]] && unpriv2 ftp -w 15 -Vao - \ "$HTTP_PROTO://ftp.openbsd.org/cgi-bin/ftpinstall.cgi?dbversion=1&$_i" \ >/dev/null 2>&1 & fi # Ensure an enabled console has the correct speed in /etc/ttys. sed "/^console.*on.*secure.*$/s/std\.[0-9]*/std.$(stty speed /tmp/i/ttys mv /tmp/i/ttys /mnt/etc/ttys echo -n "Saving configuration files..." # Save any leases obtained during install. (cd /var/db/dhcpleased; for _f in *; do [[ -f $_f ]] && mv $_f /mnt/var/db/dhcpleased/. done) # Move configuration files from /tmp/i/ to /mnt/etc. hostname >/tmp/i/myname # Append entries to installed hosts file, changing '1.2.3.4 hostname' # to '1.2.3.4 hostname.$FQDN hostname'. Leave untouched lines containing # domain information or aliases. These are lines the user added/changed # manually. # Add common entries. echo "127.0.0.1\tlocalhost" >/mnt/etc/hosts echo "::1\t\tlocalhost" >>/mnt/etc/hosts # Note we may have no hosts file if no interfaces were configured. if [[ -f /tmp/i/hosts ]]; then # Remove the entry for ftp.openbsd.org sed -i '/^129\.128\.5\.191 /d' /tmp/i/hosts _dn=$(get_fqdn) while read _addr _hn _aliases; do if [[ -n $_aliases || $_hn != ${_hn%%.*} || -z $_dn ]]; then echo "$_addr\t$_hn $_aliases" else echo "$_addr\t$_hn.$_dn $_hn" fi done >/mnt/etc/hosts rm /tmp/i/hosts fi # Possible files to copy from /tmp/i/: fstab hostname.* kbdtype mygate # myname ttys boot.conf resolv.conf sysctl.conf # Save only non-empty (-s) regular (-f) files. (cd /tmp/i; for _f in fstab hostname* kbdtype my* ttys *.conf; do [[ -f $_f && -s $_f ]] && mv $_f /mnt/etc/. done) [[ -s /etc/resolv.conf ]] && cp /etc/resolv.conf /mnt/etc/resolv.conf echo " done." # Apply configuration settings based on information from questions(). apply # Create user account based on information from user_setup(). if [[ -n $ADMIN ]]; then _encr=$(encr_pwd "$ADMIN_PASS") _home=/home/$ADMIN uline="${ADMIN}:${_encr}:1000:1000:staff:0:0:${ADMIN_NAME}:$_home:/bin/ksh" echo "$uline" >>/mnt/etc/master.passwd echo "${ADMIN}:*:1000:" >>/mnt/etc/group echo $ADMIN >/mnt/root/.forward _home=/mnt$_home mkdir -p $_home (cd /mnt/etc/skel; pax -rw -k -pe . $_home) (umask 077 && sed "s,^To: root\$,To: ${ADMIN_NAME} <${ADMIN}>," \ /mnt/var/mail/root >/mnt/var/mail/$ADMIN ) chown -R 1000:1000 $_home /mnt/var/mail/$ADMIN sed -i -e "s@^wheel:.:0:root\$@wheel:\*:0:root,${ADMIN}@" \ /mnt/etc/group 2>/dev/null # During autoinstall, add public ssh key to authorized_keys. [[ -n "$ADMIN_KEY" ]] && print -r -- "$ADMIN_KEY" >>$_home/.ssh/authorized_keys fi # Store root password and rebuild password database. if [[ -n "$_rootpass" ]]; then _encr=$(encr_pwd "$_rootpass") sed -i -e "s@^root::@root:${_encr}:@" /mnt/etc/master.passwd \ 2>/dev/null fi pwd_mkdb -p -d /mnt/etc /etc/master.passwd # During autoinstall, add root user's public ssh key to authorized_keys. [[ -n "$_rootkey" ]] && ( umask 077 print -r -- "$_rootkey" >>/mnt/root/.ssh/authorized_keys ) # Perform final steps common to both an install and an upgrade. finish_up } do_upgrade() { local _f # Get $ROOTDISK and $ROOTDEV get_rootinfo echo -n "Checking root filesystem (fsck -fp /dev/$ROOTDEV)..." fsck -fp /dev/$ROOTDEV >/dev/null 2>&1 || { echo "FAILED."; exit; } echo " OK." echo -n "Mounting root filesystem (mount -o ro /dev/$ROOTDEV /mnt)..." mount -o ro /dev/$ROOTDEV /mnt || { echo "FAILED."; exit; } echo " OK." # The fstab and myname files are required. for _f in /mnt/etc/{fstab,myname}; do [[ -f $_f ]] || { echo "No $_f!"; exit; } cp $_f /tmp/i/${_f##*/} done # Set system hostname and register hostname specific site set. hostname $(stripcom /tmp/i/myname) ALLSETS="$ALLSETS site$VERSION-$(hostname -s).tgz" export PS1='\h# ' # Configure the network. enable_network # Fetch list of mirror servers and installer choices from previous runs. start_cgiinfo # Create a skeletal /etc/fstab which is usable for the upgrade process. munge_fstab # fsck -p non-root filesystems in /etc/fstab. check_fs # Mount filesystems in /etc/fstab. umount /mnt || { echo "Can't umount $ROOTDEV!"; exit; } mount_fs rm -f /mnt/bsd.upgrade /mnt/auto_upgrade.conf # Feed the random pool some entropy before we read from it. feed_random # Ensure that previous installer choices (e.g. method) are available. wait_cgiinfo # Ask the user for locations, and install whatever sets the user # selected. install_sets # Perform final steps common to both an install and an upgrade. finish_up } check_unattendedupgrade() { local _d=$(get_dkdevs_root) _rc=1 _d=${_d%% *} ( if [[ -n $_d ]]; then make_dev $_d if mount -t ffs -r /dev/${_d}a /mnt; then [[ -f /mnt/bsd.upgrade && -f /mnt/auto_upgrade.conf ]] _rc=$? ((_rc == 0)) && cp /mnt/auto_upgrade.conf / echo "Which disk is the root disk = ${_d}" >> /auto_upgrade.conf umount -f /mnt fi rm -f /dev/{r,}$_d? fi return $_rc ) > /dev/null 2>&1 } WATCHDOG_PERIOD_SEC=$((30 * 60)) # Restart the background timer. reset_watchdog() { kill -KILL $WDPID 2>/dev/null start_watchdog } # Start a co-process to reboot a stalled sysupgrade. # This mechanism is only used during non-interactive sysupgrade. start_watchdog() { ( sleep $WATCHDOG_PERIOD_SEC && reboot ) |& WDPID=$! # Close standard input of the co-process. exec 3>&p; exec 3>&- } # ------------------------------------------------------------------------------ # Initial actions common to both installs and upgrades. # # Some may require machine dependent routines, which may call functions defined # above, so it's safest to put this code here rather than at the top. # ------------------------------------------------------------------------------ # Parse parameters. AI=false UU=false MODE= PROGNAME=${0##*/} AI_RESPFILE= while getopts "af:m:x" opt; do case $opt in a) AI=true;; f) AI_RESPFILE=$OPTARG;; m) MODE=$OPTARG;; x) UU=true;; *) usage;; esac done shift $((OPTIND-1)) (($# == 0)) || usage # The installer can be started by using the symbolic links 'install', 'upgrade' # and 'autoinstall' pointing to this script. Set MODE and AI based on that. if [[ -z $MODE ]]; then case $PROGNAME in autoinstall) AI=true;; install|upgrade) MODE=$PROGNAME;; *) exit 1;; esac fi # Do not limit ourselves during installs or upgrades. for _opt in d f l m n p s; do ulimit -$_opt unlimited done # umount all filesystems, just in case we are re-running install or upgrade. cd / umount -af >/dev/null 2>&1 # Include machine-dependent functions and definitions. # # The following functions must be provided: # md_congrats() - display friendly message # md_installboot() - install boot-blocks on disk # md_prep_disklabel() - put an OpenBSD disklabel on the disk # md_consoleinfo() - set CDEV, CTTY, CSPEED, CPROM # # The following variables can be provided if required: # MDEFI - set to 'y' on archs that support GPT partitioning # MDFSOPT - newfs options for non-root partitions, '-O2' assumed if not provided # MDROOTFSOPT - newfs options for the root partition, '-O2' assumed if not provided # MDSETS - list of files to add to DEFAULT and ALLSETS # MDSANESETS - list of files to add to SANESETS # MDTERM - 'vt220' assumed if not provided # MDDKDEVS - '/^[sw]d[0-9][0-9]* /s/ .*//p' assumed if not provided # MDCDDEVS - '/^cd[0-9][0-9]* /s/ .*//p' assumed if not provided # MDXAPERTURE - set machdep.allowaperture=value in sysctl.conf # MDXDM - ask if xdm should be started if set to 'y' # NCPU - the number of cpus for mp capable arches # MDKERNEL - the name of the boot kernel # MDHALT - default to 'halt' at the end of installs if set to 'y' . install.md # Start listener process looking for dmesg changes. start_dmesg_listener CGI_INFO=/tmp/i/cgiinfo CGI_METHOD= CGI_TIME= CGI_TZ= export EDITOR=ed HTTP_DIR= HTTP_LIST=/tmp/i/httplist HTTP_SEC=/tmp/i/httpsec INSTALL_METHOD= NIFS=0 export PS1="$MODE# " PUB_KEY=/etc/signify/openbsd-${VERSION}-base.pub ROOTDEV= ROOTDISK= SETDIR="$VNAME/$ARCH" UPGRADE_BSDRD=false V4_AUTOCONF=false V6_AUTOCONF=false WLANLIST=/tmp/i/wlanlist # Save one boot's worth of dmesg. dmesgtail >/var/run/dmesg.boot # Are we in a real release, or a snapshot? If this is a snapshot # install media, default us to a snapshot directory. HTTP_SETDIR=$SETDIR set -- $(scan_dmesg "/^OpenBSD $VNAME\([^ ]*\).*$/s//\1/p") [[ $1 == -!(stable) ]] && HTTP_SETDIR=snapshots/$ARCH # Detect if ftp(1) has tls support and set defaults based on that. if [[ -e /etc/ssl/cert.pem ]]; then FTP_TLS=true HTTP_PROTO=https else FTP_TLS=false HTTP_PROTO=http fi # Scan /var/run/dmesg.boot for console device. CONSOLE=$(scan_dmesg '/^\([^ ]*\).*: console$/s//\1/p') [[ -n $CONSOLE ]] && CSPEED=$(stty speed 1)); then DEFAULTSETS="${MDSETS:-bsd bsd.mp bsd.rd} $SETS" ALLSETS="${MDSETS:-bsd bsd.mp bsd.rd} $SETS site$VERSION.tgz" SANESETS="${MDSANESETS:-bsd bsd.mp} base${VERSION}.tgz" fi # Prepare COLUMNS sanely. export COLUMNS=$(stty -a