#!/usr/bin/env python
# Generate file lists used by apt-ftparchive to generate Packages and Sources files
-# Copyright (C) 2000, 2001, 2002 James Troup <james@nocrew.org>
-# $Id: jenna,v 1.19 2002-06-05 16:53:05 troup Exp $
+# Copyright (C) 2000, 2001, 2002, 2003, 2004 James Troup <james@nocrew.org>
+# $Id: jenna,v 1.29 2004-11-27 17:58:47 troup Exp $
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
-n, --no-delete don't delete older versions
-s, --suite=SUITE only write file lists for this suite
-ARCH, COMPONENT and SUITE can be space seperated lists, e.g.
+ARCH, COMPONENT and SUITE can be space separated lists, e.g.
--architecture=\"m68k i386\"""";
sys.exit(exit_code);
################################################################################
-# Handle -a, -c and -s arguments; returns them as SQL constraints
-def parse_args():
- if Options["Suite"]:
- suite_ids_list = [];
- for suite in string.split(Options["Suite"]):
- suite_id = db_access.get_suite_id(suite);
- if suite_id == -1:
- utils.warn("suite '%s' not recognised." % (suite));
- else:
- suite_ids_list.append(suite_id);
- if suite_ids_list:
- con_suites = "AND su.id IN (%s)" % string.join(map(str, suite_ids_list), ", ");
- else:
- utils.fubar("No valid suite given.");
- else:
- con_suites = "";
-
- if Options["Architecture"]:
- arch_ids_list = [];
- check_source = 0;
- for architecture in string.split(Options["Architecture"]):
- if architecture == "source":
- check_source = 1;
- else:
- architecture_id = db_access.get_architecture_id(architecture);
- if architecture_id == -1:
- utils.warn("architecture '%s' not recognised." % (architecture));
- else:
- arch_ids_list.append(architecture_id);
- if arch_ids_list:
- con_architectures = "AND a.id IN (%s)" % string.join(map(str, arch_ids_list), ", ");
- else:
- if not check_source:
- utils.fubar("No valid architecture given.");
- else:
- con_architectures = "";
- check_source = 1;
-
- if Options["Component"]:
- component_ids_list = [];
- for component in string.split(Options["Component"]):
- component_id = db_access.get_component_id(component);
- if component_id == -1:
- utils.warn("component '%s' not recognised." % (component));
- else:
- component_ids_list.append(component_id);
- if component_ids_list:
- con_components = "AND su.id IN (%s)" % string.join(map(str, component_ids_list), ", ");
- else:
- utils.fubar("No valid component given.");
- else:
- con_components = "";
-
- return (con_suites, con_architectures, con_components, check_source);
-
-################################################################################
-
def version_cmp(a, b):
return -apt_pkg.VersionCompare(a[0], b[0]);
unique_id = i[1];
arch = packages[unique_id]["arch"];
if arch == "all":
- arch_all_versions = i;
+ arch_all_versions = [i];
arch_all_version = i[0];
arch_any_versions.remove(i);
# Sort arch: any versions into descending order
delete_table = "bin_associations";
delete_col = "bin";
- if apt_pkg.VersionCompare(highest_arch_any_version, arch_all_version) != 1:
+ if apt_pkg.VersionCompare(highest_arch_any_version, arch_all_version) < 1:
# arch: all dominates
delete_packages(arch_any_versions, pkg, "all", suite,
arch_all_version, delete_table, delete_col, packages);
# Remove all but the highest
delete_packages(dominated_versions, pkg, arch, suite,
dominant_version, delete_table, delete_col, packages);
- return dominant_versions;
+ return [dominant_versions];
################################################################################
pkg = packages[unique_id]["pkg"];
arch = packages[unique_id]["arch"];
version = packages[unique_id]["version"];
- if not d.has_key(suite):
- d[suite] = {};
- if not d[suite].has_key(pkg):
- d[suite][pkg] = {};
- if not d[suite][pkg].has_key(arch):
- d[suite][pkg][arch] = [];
+ d.setdefault(suite, {});
+ d[suite].setdefault(pkg, {});
+ d[suite][pkg].setdefault(arch, []);
d[suite][pkg][arch].append([version, unique_id]);
# Clean up old versions
for suite in d.keys():
# Check to see if we have arch: all and arch: !all (ignoring source)
num_arches = len(arches.keys());
if arches.has_key("source"):
- num_arches = num_arches - 1;
+ num_arches -= 1;
# If we do, remove the duplicates
if num_arches > 1:
versions = [];
for arch in arches.keys():
if arch != "source":
versions.extend(d[suite][pkg][arch]);
- remove_duplicate_versions(versions, packages);
+ resolve_arch_all_vs_any(versions, packages);
################################################################################
component = packages[unique_id]["component"];
arch = packages[unique_id]["arch"];
type = packages[unique_id]["type"];
- if not d.has_key(suite):
- d[suite] = {};
- if not d[suite].has_key(component):
- d[suite][component] = {};
- if not d[suite][component].has_key(arch):
- d[suite][component][arch] = {};
- if not d[suite][component].has_key(arch):
- d[suite][component][arch] = {};
- if not d[suite][component][arch].has_key(type):
- d[suite][component][arch][type] = [];
+ d.setdefault(suite, {});
+ d[suite].setdefault(component, {});
+ d[suite][component].setdefault(arch, {});
+ d[suite][component][arch].setdefault(type, []);
d[suite][component][arch][type].append(unique_id);
# Flesh out the index
if not Options["Suite"]:
suites = Cnf.SubTree("Suite").List();
else:
- suites = string.split(Options["Suite"]);
+ suites = utils.split_args(Options["Suite"]);
for suite in map(string.lower, suites):
- if not d.has_key(suite):
- d[suite] = {};
+ d.setdefault(suite, {});
if not Options["Component"]:
components = Cnf.ValueList("Suite::%s::Components" % (suite));
else:
- components = string.split(Options["Components"]);
+ components = utils.split_args(Options["Component"]);
udeb_components = Cnf.ValueList("Suite::%s::UdebComponents" % (suite));
udeb_components = udeb_components;
for component in components:
- if not d[suite].has_key(component):
- d[suite][component] = {};
+ d[suite].setdefault(component, {});
if component in udeb_components:
binary_types = [ "deb", "udeb" ];
else:
if not Options["Architecture"]:
architectures = Cnf.ValueList("Suite::%s::Architectures" % (suite));
else:
- architectures = string.split(Options["Architectures"]);
+ architectures = utils.split_args(Options["Architectures"]);
for arch in map(string.lower, architectures):
- if not d[suite][component].has_key(arch):
- d[suite][component][arch] = {};
+ d[suite][component].setdefault(arch, {});
if arch == "source":
types = [ "dsc" ];
else:
types = binary_types;
for type in types:
- if not d[suite][component][arch].has_key(type):
- d[suite][component][arch][type] = [];
+ d[suite][component][arch].setdefault(type, []);
# Then walk it
for suite in d.keys():
if Cnf.has_key("Suite::%s::Components" % (suite)):
for type in d[suite][component][arch].keys():
list = d[suite][component][arch][type];
# If it's a binary, we need to add in the arch: all debs too
- if arch != "source" and d[suite][component].has_key("all") \
- and d[suite][component]["all"].has_key(type):
- list.extend(d[suite][component]["all"][type]);
+ if arch != "source":
+ archall_suite = Cnf.get("Jenna::ArchAllMap::%s" % (suite));
+ if archall_suite:
+ list.extend(d[archall_suite][component]["all"][type]);
+ elif d[suite][component].has_key("all") and \
+ d[suite][component]["all"].has_key(type):
+ list.extend(d[suite][component]["all"][type]);
write_filelist(suite, component, arch, type, list,
packages, dislocated_files);
else: # legacy-mixed suite
if not Options["Suite"]:
return 1;
# Otherwise, look in what suites the user specified
- suites = string.split(Options["Suite"]);
- return suites.count("stable");
+ suites = utils.split_args(Options["Suite"]);
+
+ if "stable" in suites:
+ return 1;
+ else:
+ return 0;
################################################################################
def do_da_do_da():
- (con_suites, con_architectures, con_components, check_source) = parse_args();
+ # If we're only doing a subset of suites, ensure we do enough to
+ # be able to do arch: all mapping.
+ if Options["Suite"]:
+ suites = utils.split_args(Options["Suite"]);
+ for suite in suites:
+ archall_suite = Cnf.get("Jenna::ArchAllMap::%s" % (suite));
+ if archall_suite and archall_suite not in suites:
+ utils.warn("Adding %s as %s maps Arch: all from it." % (archall_suite, suite));
+ suites.append(archall_suite);
+ Options["Suite"] = ",".join(suites);
+
+ (con_suites, con_architectures, con_components, check_source) = \
+ utils.parse_args(Options);
if stable_dislocation_p():
dislocated_files = claire.find_dislocated_stable(Cnf, projectB);
AND f.location = l.id AND l.component = c.id AND ba.suite = su.id
%s %s %s""" % (con_suites, con_architectures, con_components);
if check_source:
- query = query + """
+ query += """
UNION
SELECT s.id, s.source, 'source', s.version, l.path, f.filename, c.name, f.id,
su.suite_name, 'dsc'
for i in ql:
(id, pkg, arch, version, path, filename, component, file_id, suite, type) = i;
# 'id' comes from either 'binaries' or 'source', so it's not unique
- unique_id = unique_id + 1;
+ unique_id += 1;
packages[unique_id] = Dict(id=id, pkg=pkg, arch=arch, version=version,
path=path, filename=filename,
component=component, file_id=file_id,