#!/usr/bin/env bash # vi: ts=4:sw=4:et if [ "${BASH_VERSINFO[0]}" -lt 4 ]; then echo "Your BASH shell version (${BASH_VERSION}) is too old." >&2 echo "Run bootstrap on a machine with BASH 4.x" >&2 exit 1 fi # see #849 unset CDPATH ######################################## # Common meta-language implementation. Syntax: # # The template file is processed line by line, with @@VAR@@ placeholders # being replaced with a value of the VAR variable. # Special lines start with '#!' and a keyword: # # #!// # Comment, the rest of the line is ignored # #!if COND # Conditional: the lines until the matching #!end-if are processed # only if the conditional COND evaluates to true. # #!foreach NAME # Iterate over NAME entities (the iterator must be set up first # using the set_iter function), processing the lines until the matching # #!end-foreach line. # # Also, several forms of @@VAR@@ expansions are possible: # # @@VAR@@ # Just the value of the variable VAR # @@VAR|@@ # The value of VAR made into Kconfig-name: all non-alphanumeric character # replaced with underscores; upper-cased. # @@VAR?val@@ # If VAR is non-empty, insert value "val". Otherwise, insert nothing. # @@*ITER@@ # Expands to a space separated list of values for the iterator ITER. # Postprocess operations, if any, are applied to each value. declare -A info debug() { if [ -n "${DEBUG}" ]; then echo "DEBUG :: $@" >&2 fi } msg() { if [ -z "${QUIET}" ]; then echo "INFO :: $@" >&2 fi } warn() { echo "WARN :: $@" >&2 } error() { echo "ERROR :: $@" >&2 exit 1 } find_end() { local token="${1}" local count=1 # Skip first line, we know it has the proper '#!' command on it endline=$[l + 1] while [ "${endline}" -le "${end}" ]; do case "${tlines[${endline}]}" in "#!${token} "*) count=$[count + 1] ;; "#!end-${token}") count=$[count - 1] ;; esac if [ "${count}" = 0 ]; then return fi endline=$[endline + 1] done error "${template}:${l}: '${token}' token is unpaired" } set_iter() { local name="${1}" local -a temp if [ "${info[iter_${name}]+set}" = "set" ]; then error "Iterator over '${name}' is already set up" fi shift debug "Setting iterator over '${name}' to '$*'" temp=("$@") info[iter_${name}]="$*" info[#${name}]=${#temp[@]} } run_if() { local cond="$*" local endline find_end "if" if eval "${cond}"; then debug "True conditional '${cond}' at lines ${l}..${endline}" run_lines $[l + 1] $[endline - 1] else debug "False conditional '${cond}' at lines ${l}..${endline}" fi lnext=$[endline + 1] debug "Continue at line ${lnext}" } do_foreach() { local var="${1}" local -A saveinfo local v k shift if [ "`type -t enter_${var}`" != "function" ]; then error "No parameter setup routine for iterator over '${var}'" fi if [ "x${info[iter_${var}]+set}" != "xset" ]; then error "Iterator over '${var}' not configured" fi for v in ${info[iter_${var}]}; do # This works in bash 4.4, but not in bash 4.3: # local saveinfo=`declare -p info` # ... # eval "${saveinfo}" # Therefore, need to save key-by-key saveinfo=() for k in "${!info[@]}"; do saveinfo["${k}"]=${info["${k}"]} done if eval "enter_${var} ${v}"; then eval "$@" fi info=() for k in "${!saveinfo[@]}"; do info["${k}"]=${saveinfo["${k}"]} done done } run_foreach() { local endline local var="${1}" shift if [ "${info[iter_${var}]+set}" != "set" ]; then error "${template}:${l}: iterator over '${var}' is not defined" fi find_end "foreach" debug "Loop over '${var}', lines ${l}..${endline}" do_foreach ${var} run_lines_if $[l + 1] $[endline - 1] "$*" lnext=$[endline + 1] debug "Continue at line ${lnext}" } run_lines_if() { local start="${1}" local end="${2}" shift 2 local cond="$*" local a prev for a in ${cond}; do if [ -n "${prev}" ]; then case "${prev}" in if-differs) if [ "${info[${a}]}" = "${saveinfo[${a}]}" ]; then return fi ;; *) error "${template}:${l}: unknown condition '${prev}' for loop" ;; esac prev= else prev=${a} fi done run_lines "${start}" "${end}" } run_lines() { local start="${1}" local end="${2}" local l lnext s s1 v vn vp pp p val val0 is_iter pp_saved local -a vpl debug "Running lines ${start}..${end}" l=${start} while [ "${l}" -le "${end}" ]; do lnext=$[l+1] s="${tlines[${l}]}" # Expand @@foo@@ to ${info[foo]}. First escape variables/backslashes for evals below. s="${s//\\/\\\\}" s="${s//\$/\\\$}" s1= while [ -n "${s}" ]; do case "${s}" in *@@*@@*) v="${s#*@@}" v="${v%%@@*}" # $v now has the complete reference. First check if it is cached already. if [ "${info[${v}]+set}" != "set" ]; then case "${v}" in "*"*) is_iter=y; vn="${v#\*}";; *) is_iter=n; vn="${v}";; esac # $vn is now the reference without the preceding iterator vp="${vn%%[|?]*}" pp="${vn#${vp}}" # $vp is name of the variable proper, $pp is any postprocessing if [ "${is_iter}" = "n" ]; then if [ "${info[${vp}]+set}" != "set" ]; then error "${template}:${l}: reference to undefined variable '${vp}'" fi vpl=( "${info[${vp}]}" ) else if [ "${info[iter_${vp}]+set}" != "set" ]; then error "${template}:${l}: iterator over '${vp} is not defined" fi vpl=( ${info[iter_${vp}]} ) fi # ${vpl[@]} now is an array of values to be transformed. val= pp_saved="${pp}" for val0 in "${vpl[@]}"; do debug "val0 [${val0}]" pp="${pp_saved}" # Apply postprocessing(s) while [ -n "${pp}" ]; do case "${pp}" in "|"*) # Kconfigize pp="${pp#|}" val0=${val0//[^0-9A-Za-z_]/_} val0=${val0^^} ;; "?"*) pp="${pp#?}" p="${pp%%[|?]*}" pp="${pp#${p}}" val0="${val0:+${p}}" ;; esac done val="${val:+${val} }${val0}" done # Cache for future references. info[${v}]="${val}" fi s1="${s1}${s%%@@*}\${info[${v}]}" s="${s#*@@*@@}" ;; *@@*) error "${template}:${l}: non-paired @@ markers" ;; *) s1="${s1}${s}" break ;; esac done s=${s1} debug "Evaluate: ${s}" case "${s}" in "#!if "*) run_if ${s#* } ;; "#!foreach "*) run_foreach ${s#* } ;; "#!//"*) # Comment, do nothing ;; "#!"*) error "${template}:${l}: unrecognized command" ;; *) # Not a special command eval "echo \"${s//\"/\\\"}\"" ;; esac l=${lnext} done } run_template() { local -a tlines local src="${1}" if [ ! -r "${src}" ]; then error "Template '${src}' not found" fi template="${src}" debug "Running template ${src}" mapfile -O 1 -t tlines < "${src}" run_lines 1 ${#tlines[@]} } ######################################## # Leave only relevant portion of the string relevantize() { local p pb pa vx local v="${1}" shift # Find the first match and contract to the matching portion. for p in "$@"; do pb=${p%|*} pa=${p#*|} eval "vx=\${v#${pb}${pa}}" if [ "${v%${pa}${vx}}" != "${v}" ]; then v=${v%${pa}${vx}} break fi done echo "${v}" } # Helper for cmp_versions: compare an upstream/debian portion of # a version. Returns 0 if equal, otherwise echoes "-1" or "1" and # returns 1. equal_versions() { local v1="${1}" local v2="${2}" local p1 p2 # Compare alternating non-numerical/numerical portions, until # non-equal portion is found or either string is exhausted. while [ -n "${v1}" -a -n "${v2}" ]; do # Find non-numerical portions and compare lexicographically p1="${v1%%[0-9]*}" p2="${v2%%[0-9]*}" v1="${v1#${p1}}" v2="${v2#${p2}}" #debug "lex [${p1}] v [${p2}]" if [ "${p1}" \< "${p2}" ]; then echo "-1" return 1 elif [ "${p1}" \> "${p2}" ]; then echo "1" return 1 fi #debug "rem [${v1}] v [${v2}]" # Find numerical portions and compare numerically p1="${v1%%[^0-9]*}" p2="${v2%%[^0-9]*}" v1="${v1#${p1}}" v2="${v2#${p2}}" #debug "num [${p1}] v [${p2}]" if [ "${p1:-0}" -lt "${p2:-0}" ]; then echo "-1" return 1 elif [ "${p1:-0}" -gt "${p2:-0}" ]; then echo "1" return 1 fi #debug "rem [${v1}] v [${v2}]" done if [ -n "${v1}" ]; then echo "1" return 1 elif [ -n "${v2}" ]; then echo "-1" return 1 fi return 0 } # Compare two version strings, similar to sort -V. But we don't # want to depend on GNU sort availability on the host. # See http://www.debian.org/doc/debian-policy/ch-controlfields.html # for description of what the version is expected to be. # Returns "-1", "0" or "1" if first version is earlier, same or # later than the second. cmp_versions() { local v1="${1}" local v2="${2}" local e1=0 e2=0 d1=0 d2=0 # Case-insensitive comparison v1="${v1^^}" v2="${v2^^}" # Find if the versions contain epoch part case "${v1}" in *:*) e1="${v1%%:*}" v1="${v1#*:}" ;; esac case "${v2}" in *:*) e2="${v2%%:*}" v2="${v2#*:}" ;; esac # Compare epochs numerically if [ "${e1}" -lt "${e2}" ]; then echo "-1" return elif [ "${e1}" -gt "${e2}" ]; then echo "1" return fi # Find if the version contains a "debian" part. # v1/v2 will now contain "upstream" part. case "${v1}" in *-*) d1=${v1##*-} v1=${v1%-*} ;; esac case "${v2}" in *-*) d2=${v2##*-} v2=${v2%-*} ;; esac # Compare upstream if equal_versions "${v1}" "${v2}" && equal_versions "${d1}" "${d2}"; then echo "0" fi } # Sort versions, descending sort_versions() { local sorted local remains="$*" local next_remains local v vx found while [ -n "${remains}" ]; do #debug "Sorting [${remains}]" for v in ${remains}; do found=yes next_remains= #debug "Candidate ${v}" for vx in ${remains}; do #debug "${v} vs ${vx} :: `cmp_versions ${v} ${vx}`" case `cmp_versions ${v} ${vx}` in 1) next_remains+=" ${vx}" ;; 0) ;; -1) found=no #debug "Bad: earlier than ${vx}" break ;; esac done if [ "${found}" = "yes" ]; then # $v is less than all other members in next_remains sorted+=" ${v}" remains="${next_remains}" #debug "Good candidate ${v} sorted [${sorted}] remains [${remains}]" break fi done done echo "${sorted}" } read_file() { local l p while read l; do l="${p}${l}" p= case "${l}" in "") continue ;; *\\) p="${l%\\}" continue ;; "#"*) continue ;; *=*) echo "info[${l%%=*}]=${l#*=}" ;; *) error "syntax error in '${1}': '${l}'" ;; esac done < "${1}" } read_package_desc() { read_file "packages/${1}/package.desc" } read_version_desc() { read_file "packages/${1}/${2}/version.desc" } find_forks() { local -A info info[preferred]=${1} eval `read_package_desc ${1}` if [ -n "${info[master]}" ]; then pkg_nforks[${info[master]}]=$[pkg_nforks[${info[master]}]+1] pkg_forks[${info[master]}]+=" ${1} " else pkg_preferred[${1}]=${info[preferred]} pkg_nforks[${1}]=$[pkg_nforks[${1}]+1] pkg_forks[${1}]+=" ${1} " pkg_milestones[${1}]=`sort_versions ${info[milestones]}` pkg_relevantpattern[${1}]=${info[relevantpattern]} pkg_masters+=( "${1}" ) fi # Keep sorting so that preferred fork is first if [ -n "${pkg_preferred[${1}]}" ]; then pkg_forks[${1}]="${pkg_preferred[${1}]} ${pkg_forks[${1}]##* ${pkg_preferred[${1}]} } ${pkg_forks[${1}]%% ${pkg_preferred[${1}]} *}" fi } enter_fork() { local fork="${1}" local versions local only_obsolete only_experimental local -A seen_selectors # Set defaults info[obsolete]= info[experimental]= info[repository]= info[repository_branch]= info[repository_cset]= info[repository_subdir]= info[bootstrap]= info[fork]=${fork} info[pkg_name]=${fork} info[pkg_label]=${fork} info[mirrors]= info[src_release]= info[src_devel]= info[src_custom]= info[archive_filename]='@{pkg_name}-@{version}' info[archive_dirname]='@{pkg_name}-@{version}' info[versionlocked]= info[origin]= info[signature_format]= eval `read_package_desc ${fork}` if [ -r "packages/${info[origin]}.help" ]; then info[originhelp]=`sed 's/^/ /' "packages/${info[origin]}.help"` else info[originhelp]=" ${info[master]} from ${info[origin]}." fi if [ -n "${info[repository]}" ]; then info[vcs]=${info[repository]%% *} info[repository_url]=${info[repository]#* } fi info[mirrors]=${info[mirrors]//$\(/\\$\(} versions=`cd packages/${fork} && \ for f in */version.desc; do [ -r "${f}" ] && echo "${f%/version.desc}"; done` versions=`sort_versions ${versions}` set_iter version ${versions} info[all_versions]=${versions} check_relevant_pattern() { if [ "x${seen_selectors[${info[ver_sel]}]+set}" = "xset" ]; then error "${info[pkg_name]}: version ${info[ver]} conflicts with version ${seen_selectors[${info[ver_sel]}]} (${info[ver_sel]} selector)" else seen_selectors[${info[ver_sel]}]=${info[ver]} fi } do_foreach version check_relevant_pattern # If a fork does not define any versions at all ("rolling release"), do not # consider it obsolete/experimental unless it is so marked in the fork's # description. if [ -n "${versions}" ]; then only_obsolete=yes only_experimental=yes check_obsolete_experimental() { [ -z "${info[obsolete]}" ] && only_obsolete= [ -z "${info[experimental]}" ] && only_experimental= } do_foreach version check_obsolete_experimental info[only_obsolete]=${only_obsolete} info[only_experimental]=${only_experimental} else info[only_obsolete]=${info[obsolete]} info[only_experimental]=${info[experimental]} fi } enter_version() { local version="${1}" eval `read_version_desc ${info[fork]} ${version}` info[ver]=${version} info[ver_sel]=`relevantize ${version} ${info[relevantpattern]}` } enter_milestone() { local ms="${1}" info[ms]=${ms} if [ -n "${info[ver]}" ]; then if [ -n "${info[version_number]}" ]; then info[version_cmp_milestone]=`cmp_versions ${info[version_number]} ${info[ms]}` else info[version_cmp_milestone]=`cmp_versions ${info[ver]} ${info[ms]}` fi fi } gen_packages() { local -A pkg_forks pkg_milestones pkg_nforks pkg_relevantpattern local -a pkg_masters pkg_all pkg_preferred pkg_all=( `cd packages && \ ls */package.desc 2>/dev/null | \ while read f; do [ -r "${f}" ] && echo "${f%/package.desc}"; done | \ xargs echo` ) debug "Packages: ${pkg_all[@]}" # We need to group forks of the same package into the same # config file. Discover such relationships and only iterate # over "master" packages at the top. for p in "${pkg_all[@]}"; do find_forks "${p}" done msg "Master packages: ${pkg_masters[@]}" # Now for each master, create its kconfig file with version # definitions. As a byproduct, generate a list of all package # versions for maintenance purposes. exec 3>"maintainer/package-versions" for p in "${pkg_masters[@]}"; do msg "Generating '${config_versions_dir}/${p}.in'" exec >"${config_versions_dir}/${p}.in" # Base definitions for the whole config file info=( \ [master]=${p} \ [nforks]=${pkg_nforks[${p}]} \ [relevantpattern]=${pkg_relevantpattern[${p}]} \ ) set_iter fork ${pkg_forks[${p}]} set_iter milestone ${pkg_milestones[${p}]} run_template "maintainer/kconfig-versions.template" run_template "maintainer/package-versions.template" >&3 done } msg "*** Generating package version descriptions" config_versions_dir=config/versions rm -rf "${config_versions_dir}" mkdir -p "${config_versions_dir}" gen_packages get_components() { local dir="${1}" local f b for f in ${dir}/*.in; do b=${f#${dir}/} echo ${b%.in} done } enter_choice() { local choice="${1}" local input="config/${info[dir]}/${choice}.in" local l ln info[choice]="${choice}" info[pkg]="${choice}" # Not local, we need these arrays be set in enter_dependency/enter_help deplines=( ) helplines=( ) ln=0 while read l; do ln=$[ln+1] case "${l}" in "## help "*) helplines+=( "${l#\#\# help }" ) ;; "## depends "*|"## select "*|"## default "*) deplines+=( "${l#\#\# }" ) ;; "## no-package") info[pkg]= ;; "## package "*) info[pkg]=${l#\#\# package } ;; "##"|"## help") # accept empty, for formatting ;; "##"*) error "${input}:${ln}: unrecognized command" ;; esac done < "${input}" set_iter dependency "${!deplines[@]}" set_iter help "${!helplines[@]}" } enter_dependency() { info[depline]="${deplines[${1}]}" } enter_help() { info[helpline]="${helplines[${1}]}" } gen_selection() { local type="${1}" local dir="${2}" local label="${3}" msg "Generating ${dir}.in (${type})" exec >"${config_gen_dir}/${dir}.in" info=( \ [dir]=${dir} \ [label]="${label}" \ ) set_iter choice `get_components config/${dir}` run_template "maintainer/kconfig-${type}.template" } msg "*** Generating menu/choice selections" config_gen_dir=config/gen rm -rf "${config_gen_dir}" mkdir -p "${config_gen_dir}" gen_selection choice arch "Target Architecture" gen_selection choice kernel "Target OS" gen_selection choice cc "Compiler" gen_selection choice binutils "Binutils" gen_selection choice libc "C library" gen_selection menu debug "Debug facilities" gen_selection menu comp_tools "Companion tools" gen_selection menu comp_libs "Companion libraries" msg "*** Gathering the list of data files to install" { declare -A seen_files echo -n "verbatim_data =" find COPYING config contrib licenses.d packages samples scripts -type f | LANG=C sort | while read f; do # Implement some kind of .installignore for these files? case "${f}" in # Avoid temp files *.sw[po]) continue ;; # And, some files automake insists we must have scripts/compile | scripts/missing | scripts/depcomp | scripts/ltmain.sh | scripts/install-sh) continue ;; # # will produce. FIXME: create this file at the time of 'ct-ng build'. config/configure.in.in | config/configure.in) continue ;; esac # Checks & substitutions above may result in duplicate files if [ -n "${seen_files[${f}]}" ]; then continue fi echo " \\" echo -en "\t${f}" seen_files[${f}]=y done } > verbatim-data.mk msg "*** Running autoreconf" autoreconf -Wall --force -I m4 msg "*** Done!"