| (no vulnerabilities list available)";
if (SINGLEPKG != "" ) {
printf("Only creating README for %s\n",SINGLEPKG);
for( key in topdepends ) {
delete topdepends[key];
}
topdepends[SINGLEPKG] = "yes";
}
printf("Generating README.html files\n");
pkgcnt = 0;
if (do_pkg_readme) {
templatefile = PKGSRCDIR "/templates/README.pkg";
fatal_check_file(templatefile);
for (toppkg in topdepends){
pkgcnt++;
pkgdir = PKGSRCDIR "/" toppkg;
readmenew=pkgdir "/" readme_name;
if (debug) printf("Creating %s for %s\n",
readme, readmenew);
if (quiet != "yes") {
printf(".");
if ((pkgcnt % 100) == 0) {
printf("\n%d\n", pkgcnt);
}
}
printf("") > readme;
htmldeps = "";
for( key in dpkgs ) {
delete dpkgs[key];
}
split(alldepends[toppkg], dpkgs);
i = 1;
htmldeps_file = TMPDIR "/htmldep";
printf("") > htmldeps_file;
while(i in dpkgs){
if (debug) {
printf("\tdpkg=%s, pat2dir[%s] = %s\n",
dpkgs[i],
dpkgs[i],
pat2dir[dpkgs[i]]);
}
nm=dpkgs[i];
gsub(/&/, "\\&", nm);
gsub(//, "\\>", nm);
# htmldeps=sprintf("%s%s\n",
# htmldeps,
# pat2dir[dpkgs[i]],
# readme_name, nm);
# We use a temp file to hold the html dependencies because for
# packages like gnome, this list can get very very large and
# become larger than what some awk implementations can deal
# with. The nawk shipped with solaris 9 is an example of
# such a limited awk.
printf("%s%s\n",
htmldeps,
pat2dir[dpkgs[i]],
readme_name, nm) >> htmldeps_file;
i = i + 1;
}
if ( i == 1 ) {
printf("none") >> htmldeps_file;
}
close(htmldeps_file);
if (debug) printf("wrote = %d entries to \"%s\"\n",
i-1, htmldeps_file);
vul = "";
if (SCAN_VULNERABILITIES == 2) {
pkgbase = pkgdir2name[toppkg];
sub("-[^-]*$", "", pkgbase);
cmd = sprintf("%s audit-history %s", PKG_ADMIN, pkgbase);
while (cmd | getline vuln_entry) {
split(vuln_entry, entry, " ");
status_cmd = sprintf("if %s pmatch '%s' %s; then echo open; else echo fixed; fi",
PKG_ADMIN, entry[1], pkgdir2name[toppkg]);
status_cmd | getline status
close(status_cmd)
if (status == "open")
status = "an OPEN";
else
status = "a " status;
vul = sprintf("%s%s %s vulnerability\n",
vul, status, entry[3], entry[2]);
}
close(cmd);
if ( vul == "" ) {
vul="(no vulnerabilities known)";
}
}
if (debug) {
printf("Checking for binary package with lookup_cache( %s)\n",
toppkg);
}
# lookup_cache( wildcard ) will produce HTML for the packages which are found
lookup_cache( toppkg );
if ( flatdepends[toppkg] ~ /^[ \t]*$/ ) {
rundeps = "none";
} else {
rundeps = flatdepends[toppkg];
}
while((getline < templatefile) > 0){
gsub(/%%PORT%%/, toppkg);
gsub(/%%PKG%%/, pkgdir2name[toppkg]);
gsub(/%%COMMENT%%/, comment[toppkg]);
if (homepage[toppkg] == "") {
gsub(/%%HOMEPAGE%%/, "");
} else {
gsub(/%%HOMEPAGE%%/,
" This package has a home page at " homepage[toppkg] ". ");
}
if (license[toppkg] == "") {
gsub(/%%LICENSE%%/, "");
} else {
gsub(/%%LICENSE%%/,
"Please note that this package has a " license[toppkg] " license. ");
}
gsub(/%%VULNERABILITIES%%/, ""vul"");
gsub(/%%VULDATE%%/, ""vuldate"");
gsub(/%%RUN_DEPENDS%%/, ""rundeps"");
gsub(/%%OPTIONS%%/, ""options[toppkg]"");
line = $0;
if( line ~/%%BIN_PKGS%%/ ) {
gsub(/%%BIN_PKGS%%/, "", line);
while((getline < binpkgs_file) > 0) {
print >> readme;
}
close( binpkgs_file );
}
# XXX Need to handle BUILD_DEPENDS/TOOL_DEPENDS
# split.
if( line ~/%%BUILD_DEPENDS%%/ ) {
gsub(/%%BUILD_DEPENDS%%/, "", line);
while((getline < htmldeps_file) > 0) {
print >> readme;
}
close( htmldeps_file );
}
print line >> readme;
}
close(readme);
close(templatefile);
cmd = "if [ ! -d " pkgdir " ]; then exit 1 ; fi";
if (debug) printf("Execute: %s\n",cmd);
rc = system(cmd);
if (rc != 0) {
printf("\n**** WARNING ****\nPackage directory %s\n",
pkgdir) > "/dev/stderr";
printf("Does not exist. This is probably ") > "/dev/stderr";
printf("due to an incorrect DEPENDS line.\n") > "/dev/stderr";
printf("Try running: grep %s */*/Makefile\n", fulldir2pkgdir(pkgdir)) > "/dev/stderr";
printf("or: grep %s */*/buildlink3.mk\n", fulldir2pkgdir(pkgdir)) > "/dev/stderr";
printf("to find the problem\n", pkgdir) > "/dev/stderr";
printf("**** ------- ****\n") > "/dev/stderr";
} else {
copy_readme(readmenew, readme);
}
}
printf("\n");
} # if (do_pkg_readme)
printf("\n");
if (SINGLEPKG != "" ) {
close("/dev/stderr");
exit 0;
}
printf("Generating category readmes\n");
templatefile = PKGSRCDIR "/templates/README.category";
fatal_check_file(templatefile);
# string with URLs for all categories (used by the top README.html)
allcat = "";
# string with URLs for all pkgs (used by the top README-all.html)
tot_numpkg = 0;
top_make = PKGSRCDIR"/Makefile";
while((getline < top_make) > 0){
if ($0 ~ /^[ \t]*SUBDIR.*=[^\$]*$/) {
category = $0;
gsub(/^[ \t]*SUBDIR.*=[ \t]*/, "", category);
catdir = PKGSRCDIR"/"category;
readmenew = catdir"/"readme_name;
if (quiet != "yes") {
printf("Category = %s\n", category);
}
cat_make = catdir"/Makefile";
pkgs = "";
pkgs_file = TMPDIR "/pkgs_file";
printf("") > pkgs_file;
numpkg = 0;
print "" > readme;
while((getline < cat_make) > 0){
if ($0 ~ /^[ \t]*SUBDIR.*=[^\$]*$/) {
pkg = $0;
gsub(/^[ \t]*SUBDIR.*=[ \t]*/, "",
pkg);
dir = category"/"pkg;
numpkg++;
tot_numpkg++;
if (debug) {
printf("\tAdding %s (%s : %s)\n",
dir,
pkgdir2name[dir],
comment[dir]);
}
# pkgs = sprintf("%s |
| %s: %s | \n",
allcat, category, readme_name,
category, descr);
close(cat_make);
}
}
close(top_make);
printf("Generating toplevel readmes:\n");
templatefile = PKGSRCDIR "/templates/README.top";
fatal_check_file(templatefile);
readmenew = PKGSRCDIR "/"readme_name;
printf("\t%s\n", readmenew);
print "" > readme;
while((getline < templatefile) > 0){
gsub(/%%DESCR%%/, "");
gsub(/%%SUBDIR%%/, allcat);
gsub(/README.html/, readme_name);
print >> readme;
}
close(readme);
close(templatefile);
copy_readme(readmenew, readme);
templatefile = PKGSRCDIR "/templates/README.all";
fatal_check_file(templatefile);
readmenew = PKGSRCDIR "/README-all.html";
printf("\t%s\n", readmenew);
# sort the pkgs
sfile = TMPDIR"/unsorted";
spipe = "sort " sfile;
i = 1;
print "" >sfile;
while(i in allpkg) {
printf("%s",allpkg[i]) >> sfile;
i++;
}
close(sfile);
print "" > readme;
while((getline < templatefile) > 0){
line = $0;
if ($0 ~ /%%PKGS%%/) {
while((spipe | getline) > 0) {
print >> readme;
}
close(spipe);
} else {
gsub(/%%DESCR%%/, "", line);
gsub(/%%NPKGS%%/, tot_numpkg, line);
gsub(/README.html/, readme_name, line);
print line >> readme;
}
}
close(readme);
close(templatefile);
copy_readme(readmenew, readme);
close("/dev/stderr");
exit 0;
}
function find_all_depends(pkg, type, pkgreg, i, deps, depdir, topdep){
# pkg is the package directory, like math/scilab
# printf("find_all_depends(%s, %s)\n", pkg, type);
# if we find the package already has been fully depended
# then return the depends list
if (pkg in alldepends){
if (debug) printf("\t%s is allready depended. Returning %s\n",
pkg, alldepends[pkg]);
return(alldepends[pkg]);
}
# if this package has no top dependencies, enter an empty flat dependency
# list for it.
if( type == "run" ) {
# we only want DEPENDS
topdep = topdepends[pkg];
} else {
# we want BUILD_DEPENDS and DEPENDS
topdep = topdepends[pkg] " " topbuilddepends[pkg];
}
if (topdep ~ "^[ \t]*$") {
alldepends[pkg] = " ";
if (debug) printf("\t%s has no depends(%s). Returning %s\n",
pkg, topdep, alldepends[pkg]);
return(alldepends[pkg]);
}
# recursively gather depends that each of the depends has
pkgreg = reg2str(pkg);
split(topdep, deps);
i = 1;
alldepends[pkg] = " ";
while ( i in deps ) {
# figure out the directory name associated with the package hame
# in (wild card/dewey) version form
depdir = pat2dir[deps[i]];
if (debug) printf("\tadding dependency #%d on \"%s\" (%s)\n",
i, deps[i], depdir);
# do not add ourselves to the list (should not happen, but
# we would like to not get stuck in a loop if one exists)
# if (" "deps[i]" " !~ pkgreg){
# if we do not already have this dependency (deps[i]) listed, then add
# it. However, we may have already added it because another package
# we depend on may also have depended on
# deps[i].
if (alldepends[pkg] !~ reg2str(deps[i])){
alldepends[pkg] = alldepends[pkg] " " deps[i] " " find_all_depends(depdir, type);
}
else {
if (debug) printf("\t%s is already listed in %s\n",
deps[i], alldepends[pkg]);
}
i = i + 1;
} # while i
if (debug) printf("\tcalling uniq() on alldepends[%s] = %s\n",
pkg, alldepends[pkg]);
alldepends[pkg] = uniq(alldepends[pkg]);
if (debug) printf("\tuniq() output alldepends[%s] = %s\n",
pkg, alldepends[pkg]);
return(alldepends[pkg]);
}
#
# take a string which has special characters like '+' in it and
# escape them. Also put a space before and after since that's how
# we'll distinguish things like gnome from gnome-libs
#
function reg2str(reg){
gsub(/\./, "\\.", reg);
gsub(/\+/, "\\+", reg);
gsub(/\*/, "\\*", reg);
gsub(/\?/, "\\?", reg);
gsub(/\[/, "\\[", reg);
gsub(/\]/, "\\]", reg);
reg = " "reg" ";
return(reg);
}
#
# take a string which has a shell glob pattern and turn it into
# an awk regular expression.
#
function glob2reg(reg){
# escape some characters which are special in regular expressions
gsub(/\./, "\\.", reg);
gsub(/\+/, "\\+", reg);
# and reformat some others
gsub(/\*/, ".*", reg);
gsub(/\?/, ".?", reg);
# finally, expand {a,b,c} type patterns
return(reg);
}
#
# accepts a full path to a package directory, like "/usr/pkgsrc/math/scilab"
# and returns just the last 2 directories, like "math/scilab"
#
function fulldir2pkgdir(d, i){
i = match(d, /\/[^\/]+\/[^\/]+$/);
return substr(d, i + 1);
}
#
# take the depends lists and uniq them.
#
function uniq(list, deps, i, ulist){
# split out the depends
split(list, deps);
i = 1;
ulist = " ";
while (i in deps){
# printf("uniq(): Checking \"%s\"\n", ulist);
# printf(" for \"%s\"\n", reg2str(deps[i]));
if (ulist !~reg2str(deps[i])){
ulist = ulist deps[i]" ";
}
i++;
}
return(ulist);
}
function fatal_check_file(file, cmd){
cmd="test -f " file ;
if (debug) printf("Execute: %s\n",cmd);
if (system(cmd) != 0) {
printf("**** FATAL ****\nRequired file %s does not exist\n",
file) > "/dev/stderr";
printf("**** ------- ****\n") > "/dev/stderr";
close("/dev/stderr");
exit(1);
}
}
# 'new' is the newly created README.html file
# 'old' is the existing (possibly not present) README.html file
#
# This function copies over the 'new' file if the 'old' one does
# not exist or if they are different. In addition, the 'new' one
# which is a temporary file is removed at the end
function copy_readme(old, new, cmd, rc) {
# if the README.html file does not exist at all then copy over
# the one we created
cmd = "if [ ! -f "old" ]; then cp " new " " old " ; fi";
if (debug) printf("copy_readme() execute: %s\n",cmd);
rc = system(cmd);
if (rc != 0) {
printf("**** WARNING ****\nThe command\n %s\n", cmd) > "/dev/stderr";
printf("failed with result code %d\n", rc) > "/dev/stderr";
printf("**** ------- ****\n") > "/dev/stderr";
}
# Compare the existing README.html file to the one we created. If they are
# not the same, then copy over the one we created
cmd = sprintf("%s -s %s %s ; if test $? -ne 0 ; then mv -f %s %s ; fi",
CMP, new, old, new, old);
if (debug) printf("copy_readme() execute: %s\n",cmd);
rc = system(cmd);
if (rc != 0) {
printf("**** WARNING ****\nThe command\n %s\n", cmd) > "/dev/stderr";
printf("failed with result code %d\n", rc) > "/dev/stderr";
printf("**** ------- ****\n") > "/dev/stderr";
}
# If the temp file still exists, then delete it
cmd = " if [ -f "new" ]; then rm -f "new" ; fi";
if (debug) printf("copy_readme() execute: %s\n",cmd);
rc = system(cmd);
if (rc != 0) {
printf("**** WARNING ****\nThe command\n %s\n", cmd) > "/dev/stderr";
printf("failed with result code %d\n", rc) > "/dev/stderr";
printf("**** ------- ****\n") > "/dev/stderr";
}
}
function load_cache_file( file, pkgfile, opsys, osver, march, wk, rx ) {
if ( quiet != "yes" ) printf(" * %s\n", file);
fatal_check_file( file );
# read the cache file
while( getline < file ) {
# if this line points to another cache file, then recursively
# load it
if( $0 ~ /^pkgcache_cachefile/ ) {
if( debug ) printf("\tFound pkgcache_cachefile line.\n");
load_cache_file( $2 );
} else if( $0 ~/^pkgcache_begin /) {
pkgfile = $2;
if( debug ) printf("\tStarting %s\n", pkgfile);
opsys = "unknown";
osver = "unknown";
march = "unknown";
pkgpath = "unknown";
} else if( $0 ~/^PKGPATH=/ ) {
pkgpath = $0;
gsub(/PKGPATH=[ \t]*/, "", pkgpath);
} else if( $0 ~/^OPSYS=/ ) {
opsys = $0;
gsub(/OPSYS=[ \t]*/, "", opsys);
} else if( $0 ~/^OS_VERSION=/ ) {
osver = $0;
gsub(/OS_VERSION=[ \t]*/, "", osver);
} else if( $0 ~/^MACHINE_ARCH=/ ) {
march = $0;
gsub(/MACHINE_ARCH=[ \t]*/, "", march);
} else if( $0 ~/^pkgcache_end /) {
if( debug ) printf("\t%s, OPSYS=%s, OS_VERSION=%s, MACHINE_ARCH=%s, PKGPATH=%s\n",
pkgfile, opsys, osver, march, pkpath);
pkg_count[pkgpath] = pkg_count[pkgpath] + 1;
opsys_list[pkgpath, pkg_count[pkgpath]] = opsys;
osver_list[pkgpath, pkg_count[pkgpath]] = osver;
march_list[pkgpath, pkg_count[pkgpath]] = march;
pkgfile_list[pkgpath, pkg_count[pkgpath]] = pkgfile;
gsub(/.*\//, "", pkgfile);
pkgnm_list[pkgpath, pkg_count[pkgpath]] = pkgfile;
} else {
# skip this line
}
}
# close the cache file
close( file );
}
function lookup_cache( d, binpkgs) {
if( debug ) printf("lookup_cache( %s ): pkg_count = %d\n",
d, pkg_count[d]);
binpkgs_file = TMPDIR "/binpkgs";
spipe = SORT " > " binpkgs_file;
for(i=1 ; i<=pkg_count[d]; i=i+1) {
printf(" |