#!/usr/bin/python2.5
# -*- coding: utf-8 -*-
# Copyright (C) 2001-2008 Anthony Towns <ajt@debian.org>
# Andreas Barth <aba@debian.org>
# Fabio Tranchitella <kobold@debian.org>
# 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
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
"""
= Introdution =
This is the Debian testing updater script , also known as " Britney " .
Packages are usually installed into the ` testing ' distribution after
they have undergone some degree of testing in unstable . The goal of
this software is to do this task in a smart way , allowing testing
to be always fully installable and close to being a release candidate .
Britney ' s source code is split between two different but related tasks:
the first one is the generation of the update excuses , while the
second tries to update testing with the valid candidates ; first
each package alone , then larger and even larger sets of packages
together . Each try is accepted if testing is not more uninstallable
after the update than before .
= Data Loading =
In order to analyze the entire Debian distribution , Britney needs to
load in memory the whole archive : this means more than 10.000 packages
for twelve architectures , as well as the dependency interconnections
between them . For this reason , the memory requirements for running this
software are quite high and at least 1 gigabyte of RAM should be available .
Britney loads the source packages from the ` Sources ' file and the binary
packages from the ` Packages_ $ { arch } ' files, where $ {arch} is substituted
with the supported architectures . While loading the data , the software
analyzes the dependencies and builds a directed weighted graph in memory
with all the interconnections between the packages ( see Britney . read_sources
and Britney . read_binaries ) .
Other than source and binary packages , Britney loads the following data :
* BugsV , which contains the list of release - critical bugs for a given
version of a source or binary package ( see Britney . read_bugs ) .
* Dates , which contains the date of the upload of a given version
of a source package ( see Britney . read_dates ) .
* Urgencies , which contains the urgency of the upload of a given
version of a source package ( see Britney . read_urgencies ) .
* Hints , which contains lists of commands which modify the standard behaviour
of Britney ( see Britney . read_hints ) .
For a more detailed explanation about the format of these files , please read
the documentation of the related methods . The exact meaning of them will be
instead explained in the chapter " Excuses Generation " .
= Excuses =
An excuse is a detailed explanation of why a package can or cannot
be updated in the testing distribution from a newer package in
another distribution ( like for example unstable ) . The main purpose
of the excuses is to be written in an HTML file which will be
published over HTTP . The maintainers will be able to parse it manually
or automatically to find the explanation of why their packages have
been updated or not .
== Excuses generation ==
These are the steps ( with references to method names ) that Britney
does for the generation of the update excuses .
* If a source package is available in testing but it is not
present in unstable and no binary packages in unstable are
built from it , then it is marked for removal .
* Every source package in unstable and testing - proposed - updates ,
if already present in testing , is checked for binary - NMUs , new
or dropped binary packages in all the supported architectures
( see Britney . should_upgrade_srcarch ) . The steps to detect if an
upgrade is needed are :
1. If there is a ` remove ' hint for the source package, the package
is ignored : it will be removed and not updated .
2. For every binary package built from the new source , it checks
for unsatisfied dependencies , new binary package and updated
binary package ( binNMU ) excluding the architecture - independent
ones and the packages not built from the same source .
3. For every binary package built from the old source , it checks
if it is still built from the new source ; if this is not true
and the package is not architecture - independent , the script
removes it from testing .
4. Finally , if there is something worth doing ( eg . a new or updated
binary package ) and nothing wrong it marks the source package
as " Valid candidate " , or " Not considered " if there is something
wrong which prevented the update .
* Every source package in unstable and testing - proposed - updates is
checked for upgrade ( see Britney . should_upgrade_src ) . The steps
to detect if an upgrade is needed are :
1. If the source package in testing is more recent the new one
is ignored .
2. If the source package doesn ' t exist (is fake), which means that
a binary package refers to it but it is not present in the
` Sources ' file, the new one is ignored.
3. If the package doesn ' t exist in testing, the urgency of the
upload is ignored and set to the default ( actually ` low ' ).
4. If there is a ` remove ' hint for the source package, the package
is ignored : it will be removed and not updated .
5. If there is a ` block ' hint for the source package without an
` unblock ` hint or a ` block - all source ` , the package is ignored .
6. If there is a ` block - udeb ' hint for the source package, it will
have the same effect as ` block ' , but may only be cancelled by
a subsequent ` unblock - udeb ' hint.
7. If the suite is unstable , the update can go ahead only if the
upload happened more than the minimum days specified by the
urgency of the upload ; if this is not true , the package is
ignored as ` too - young ' . Note that the urgency is sticky, meaning
that the highest urgency uploaded since the previous testing
transition is taken into account .
8. If the suite is unstable , all the architecture - dependent binary
packages and the architecture - independent ones for the ` nobreakall '
architectures have to be built from the source we are considering .
If this is not true , then these are called ` out - of - date '
architectures and the package is ignored .
9. The source package must have at least a binary package , otherwise
it is ignored .
10. If the suite is unstable , the new source package must have no
release critical bugs which do not also apply to the testing
one . If this is not true , the package is ignored as ` buggy ' .
11. If there is a ` force ' hint for the source package, then it is
updated even if it is marked as ignored from the previous steps .
12. If the suite is testing - proposed - updates , the source package can
be updated only if there is an explicit approval for it . Unless
a ` force ' hint exists, the new package must also be available
on all of the architectures for which it has binary packages in
testing .
13. If the package will be ignored , mark it as " Valid candidate " ,
otherwise mark it as " Not considered " .
* The list of ` remove ' hints is processed: if the requested source
package is not already being updated or removed and the version
actually in testing is the same specified with the ` remove ' hint,
it is marked for removal .
* The excuses are sorted by the number of days from the last upload
( days - old ) and by name .
* A list of unconsidered excuses ( for which the package is not upgraded )
is built . Using this list , all the excuses depending on them is marked
as invalid for " unpossible dependency " .
* The excuses are written in an HTML file .
"""
import os
import re
import sys
import string
import time
import copy
import optparse
import operator
import urllib
import apt_pkg
from excuse import Excuse
from britney import buildSystem
__author__ = ' Fabio Tranchitella '
__version__ = ' 2.0.alpha1 '
# source package
VERSION = 0
SECTION = 1
BINARIES = 2
MAINTAINER = 3
FAKESRC = 4
# binary package
SOURCE = 2
SOURCEVER = 3
ARCHITECTURE = 4
PREDEPENDS = 5
DEPENDS = 6
CONFLICTS = 7
PROVIDES = 8
RDEPENDS = 9
RCONFLICTS = 10
class Britney :
""" Britney, the Debian testing updater script
This is the script that updates the testing distribution . It is executed
each day after the installation of the updated packages . It generates the
` Packages ' files for the testing distribution, but it does so in an
intelligent manner ; it tries to avoid any inconsistency and to use only
non - buggy packages .
For more documentation on this script , please read the Developers Reference .
"""
HINTS_HELPERS = ( " easy " , " hint " , " remove " , " block " , " block-udeb " , " unblock " , " unblock-udeb " , " approve " )
HINTS_STANDARD = ( " urgent " , " age-days " ) + HINTS_HELPERS
HINTS_ALL = ( " force " , " force-hint " , " block-all " ) + HINTS_STANDARD
def __init__ ( self ) :
""" Class constructor
This method initializes and populates the data lists , which contain all
the information needed by the other methods of the class .
"""
self . date_now = int ( ( ( time . time ( ) / ( 60 * 60 ) ) - 15 ) / 24 )
# parse the command line arguments
self . __parse_arguments ( )
# initialize the apt_pkg back-end
apt_pkg . init ( )
self . systems = { }
# if requested, build the non-installable status and save it
# if this or the population of self.binaries below takes a very
# long time, try increasing SIZEOFHASHMAP in lib/dpkg.c and rebuilding
if not self . options . nuninst_cache :
self . __log ( " Building the list of not installable packages for the full archive " , type = " I " )
self . sources = { ' testing ' : self . read_sources ( self . options . testing ) }
nuninst = { }
for arch in self . options . architectures :
self . binaries = { ' testing ' : { arch : self . read_binaries ( self . options . testing , " testing " , arch ) } }
self . build_systems ( arch )
self . __log ( " > Checking for non-installable packages for architecture %s " % arch , type = " I " )
result = self . get_nuninst ( arch , build = True )
nuninst . update ( result )
self . __log ( " > Found %d non-installable packages " % len ( nuninst [ arch ] ) , type = " I " )
if self . options . print_uninst :
self . nuninst_arch_report ( nuninst , arch )
if not self . options . print_uninst :
self . write_nuninst ( nuninst )
else :
self . __log ( " Not building the list of not installable packages, as requested " , type = " I " )
# if running in --print-uninst mode, quit here
if self . options . print_uninst :
print ' * summary '
print ' \n ' . join ( map ( lambda x : ' %4d %s ' % ( len ( nuninst [ x ] ) , x ) , self . options . architectures ) )
return
# read the source and binary packages for the involved distributions
# if this takes a very long time, try increasing SIZEOFHASHMAP in
# lib/dpkg.c and rebuilding
self . sources = { ' testing ' : self . read_sources ( self . options . testing ) ,
' unstable ' : self . read_sources ( self . options . unstable ) ,
' tpu ' : self . read_sources ( self . options . tpu ) , }
self . binaries = { ' testing ' : { } , ' unstable ' : { } , ' tpu ' : { } }
for arch in self . options . architectures :
self . binaries [ ' testing ' ] [ arch ] = self . read_binaries ( self . options . testing , " testing " , arch )
self . binaries [ ' unstable ' ] [ arch ] = self . read_binaries ( self . options . unstable , " unstable " , arch )
self . binaries [ ' tpu ' ] [ arch ] = self . read_binaries ( self . options . tpu , " tpu " , arch )
# build the testing system
self . build_systems ( arch )
# read the release-critical bug summaries for testing and unstable
self . bugs = { ' unstable ' : self . read_bugs ( self . options . unstable ) ,
' testing ' : self . read_bugs ( self . options . testing ) , }
self . normalize_bugs ( )
# read additional data
self . dates = self . read_dates ( self . options . testing )
self . urgencies = self . read_urgencies ( self . options . testing )
self . hints = self . read_hints ( self . options . unstable )
self . excuses = [ ]
self . dependencies = { }
def __parse_arguments ( self ) :
""" Parse the command line arguments
This method parses and initializes the command line arguments .
While doing so , it preprocesses some of the options to be converted
in a suitable form for the other methods of the class .
"""
# initialize the parser
self . parser = optparse . OptionParser ( version = " % prog " )
self . parser . add_option ( " -v " , " " , action = " count " , dest = " verbose " , help = " enable verbose output " )
self . parser . add_option ( " -c " , " --config " , action = " store " , dest = " config " , default = " /etc/britney.conf " ,
help = " path for the configuration file " )
self . parser . add_option ( " " , " --architectures " , action = " store " , dest = " architectures " , default = None ,
help = " override architectures from configuration file " )
self . parser . add_option ( " " , " --actions " , action = " store " , dest = " actions " , default = None ,
help = " override the list of actions to be performed " )
self . parser . add_option ( " " , " --hints " , action = " store " , dest = " hints " , default = None ,
help = " additional hints, separated by semicolons " )
self . parser . add_option ( " " , " --hint-tester " , action = " store_true " , dest = " hint_tester " , default = None ,
help = " provide a command line interface to test hints " )
self . parser . add_option ( " " , " --dry-run " , action = " store_true " , dest = " dry_run " , default = False ,
help = " disable all outputs to the testing directory " )
self . parser . add_option ( " " , " --compatible " , action = " store_true " , dest = " compatible " , default = False ,
help = " enable full compatibility with old britney ' s output " )
self . parser . add_option ( " " , " --auto-hinter " , action = " store_true " , dest = " autohinter " , default = False ,
help = " enable use of auto-hinter " )
self . parser . add_option ( " " , " --control-files " , action = " store_true " , dest = " control_files " , default = False ,
help = " enable control files generation " )
self . parser . add_option ( " " , " --nuninst-cache " , action = " store_true " , dest = " nuninst_cache " , default = False ,
help = " do not build the non-installability status, use the cache from file " )
self . parser . add_option ( " " , " --print-uninst " , action = " store_true " , dest = " print_uninst " , default = False ,
help = " just print a summary of uninstallable packages " )
( self . options , self . args ) = self . parser . parse_args ( )
# integrity checks
if self . options . nuninst_cache and self . options . print_uninst :
exit . __log ( " nuninst_cache and print_uninst are mutually exclusive! " , type = " E " )
sys . exit ( 1 )
# if the configuration file exists, than read it and set the additional options
elif not os . path . isfile ( self . options . config ) :
self . __log ( " Unable to read the configuration file ( %s ), exiting! " % self . options . config , type = " E " )
sys . exit ( 1 )
# minimum days for unstable-testing transition and the list of hints
# are handled as an ad-hoc case
self . MINDAYS = { }
self . HINTS = { ' command-line ' : self . HINTS_ALL }
for k , v in [ map ( string . strip , r . split ( ' = ' , 1 ) ) for r in file ( self . options . config ) if ' = ' in r and not r . strip ( ) . startswith ( ' # ' ) ] :
if k . startswith ( " MINDAYS_ " ) :
self . MINDAYS [ k . split ( " _ " ) [ 1 ] . lower ( ) ] = int ( v )
elif k . startswith ( " HINTS_ " ) :
self . HINTS [ k . split ( " _ " ) [ 1 ] . lower ( ) ] = \
reduce ( lambda x , y : x + y , [ hasattr ( self , " HINTS_ " + i ) and getattr ( self , " HINTS_ " + i ) or ( i , ) for i in v . split ( ) ] )
elif not hasattr ( self . options , k . lower ( ) ) or \
not getattr ( self . options , k . lower ( ) ) :
setattr ( self . options , k . lower ( ) , v )
# Sort the architecture list
allarches = sorted ( self . options . architectures . split ( ) )
arches = [ x for x in allarches if x in self . options . nobreakall_arches . split ( ) ]
arches + = [ x for x in allarches if x not in arches and x not in self . options . fucked_arches . split ( ) ]
arches + = [ x for x in allarches if x not in arches and x not in self . options . break_arches . split ( ) ]
arches + = [ x for x in allarches if x not in arches and x not in self . options . new_arches . split ( ) ]
arches + = [ x for x in allarches if x not in arches ]
self . options . architectures = arches
self . options . smooth_updates = self . options . smooth_updates . split ( )
def __log ( self , msg , type = " I " ) :
""" Print info messages according to verbosity level
An easy - and - simple log method which prints messages to the standard
output . The type parameter controls the urgency of the message , and
can be equal to ` I ' for `Information ' , ` W ' for `Warning ' and ` E ' for
` Error ' . Warnings and errors are always printed, and information is
printed only if the verbose logging is enabled .
"""
if self . options . verbose or type in ( " E " , " W " ) :
print " %s : [ %s ] - %s " % ( type , time . asctime ( ) , msg )
# Data reading/writing methods
# ----------------------------
def build_systems ( self , arch = None ) :
for a in self . options . architectures :
if arch and a != arch : continue
packages = { }
binaries = self . binaries [ ' testing ' ] [ arch ] [ 0 ] . copy ( )
for k in binaries :
packages [ k ] = binaries [ k ] [ : ]
if packages [ k ] [ PROVIDES ] :
packages [ k ] [ PROVIDES ] = " , " . join ( packages [ k ] [ PROVIDES ] )
else : packages [ k ] [ PROVIDES ] = None
self . systems [ a ] = buildSystem ( a , packages )
def read_sources ( self , basedir ) :
""" Read the list of source packages from the specified directory
The source packages are read from the ` Sources ' file within the
directory specified as ` basedir ' parameter. Considering the
large amount of memory needed , not all the fields are loaded
in memory . The available fields are Version , Maintainer and Section .
The method returns a list where every item represents a source
package as a dictionary .
"""
sources = { }
package = None
filename = os . path . join ( basedir , " Sources " )
self . __log ( " Loading source packages from %s " % filename )
Packages = apt_pkg . ParseTagFile ( open ( filename ) )
get_field = Packages . Section . get
while Packages . Step ( ) :
pkg = get_field ( ' Package ' )
ver = get_field ( ' Version ' )
# There may be multiple versions of the source package
# (in unstable) if some architectures have out-of-date
# binaries. We only ever consider the source with the
# largest version for migration.
if pkg in sources and apt_pkg . VersionCompare ( sources [ pkg ] [ 0 ] , ver ) > 0 :
continue
sources [ pkg ] = [ ver ,
get_field ( ' Section ' ) ,
[ ] ,
get_field ( ' Maintainer ' ) ,
False ,
]
return sources
def read_binaries ( self , basedir , distribution , arch ) :
""" Read the list of binary packages from the specified directory
The binary packages are read from the ` Packages_ $ { arch } ' files
within the directory specified as ` basedir ' parameter, replacing
$ { arch } with the value of the arch parameter . Considering the
large amount of memory needed , not all the fields are loaded
in memory . The available fields are Version , Source , Pre - Depends ,
Depends , Conflicts , Provides and Architecture .
After reading the packages , reverse dependencies are computed
and saved in the ` rdepends ' keys, and the `Provides ' field is
used to populate the virtual packages list .
The dependencies are parsed with the apt . pkg . ParseDepends method ,
and they are stored both as the format of its return value and
text .
The method returns a tuple . The first element is a list where
every item represents a binary package as a dictionary ; the second
element is a dictionary which maps virtual packages to real
packages that provide them .
"""
packages = { }
provides = { }
sources = self . sources
package = None
filename = os . path . join ( basedir , " Packages_ %s " % arch )
self . __log ( " Loading binary packages from %s " % filename )
Packages = apt_pkg . ParseTagFile ( open ( filename ) )
get_field = Packages . Section . get
while Packages . Step ( ) :
pkg = get_field ( ' Package ' )
version = get_field ( ' Version ' )
# There may be multiple versions of any arch:all packages
# (in unstable) if some architectures have out-of-date
# binaries. We only ever consider the package with the
# largest version for migration.
if pkg in packages and apt_pkg . VersionCompare ( packages [ pkg ] [ 0 ] , version ) > 0 :
continue
final_conflicts_list = [ ]
conflicts = get_field ( ' Conflicts ' )
if conflicts :
final_conflicts_list . append ( conflicts )
breaks = get_field ( ' Breaks ' )
if breaks :
final_conflicts_list . append ( breaks )
dpkg = [ version ,
get_field ( ' Section ' ) ,
pkg ,
version ,
get_field ( ' Architecture ' ) ,
get_field ( ' Pre-Depends ' ) ,
get_field ( ' Depends ' ) ,
' , ' . join ( final_conflicts_list ) or None ,
get_field ( ' Provides ' ) ,
[ ] ,
[ ] ,
]
# retrieve the name and the version of the source package
source = get_field ( ' Source ' )
if source :
dpkg [ SOURCE ] = source . split ( " " ) [ 0 ]
if " ( " in source :
dpkg [ SOURCEVER ] = source [ source . find ( " ( " ) + 1 : source . find ( " ) " ) ]
# if the source package is available in the distribution, then register this binary package
if dpkg [ SOURCE ] in sources [ distribution ] :
sources [ distribution ] [ dpkg [ SOURCE ] ] [ BINARIES ] . append ( pkg + " / " + arch )
# if the source package doesn't exist, create a fake one
else :
sources [ distribution ] [ dpkg [ SOURCE ] ] = [ dpkg [ SOURCEVER ] , None , [ pkg + " / " + arch ] , None , True ]
# register virtual packages and real packages that provide them
if dpkg [ PROVIDES ] :
parts = map ( string . strip , dpkg [ PROVIDES ] . split ( " , " ) )
for p in parts :
if p not in provides :
provides [ p ] = [ ]
provides [ p ] . append ( pkg )
dpkg [ PROVIDES ] = parts
else : dpkg [ PROVIDES ] = [ ]
# add the resulting dictionary to the package list
packages [ pkg ] = dpkg
# loop again on the list of packages to register reverse dependencies and conflicts
register_reverses = self . register_reverses
for pkg in packages :
register_reverses ( pkg , packages , provides , check_doubles = False )
# return a tuple with the list of real and virtual packages
return ( packages , provides )
def register_reverses ( self , pkg , packages , provides , check_doubles = True , parse_depends = apt_pkg . ParseDepends ) :
""" Register reverse dependencies and conflicts for the specified package
This method register the reverse dependencies and conflicts for
a give package using ` packages ` as list of packages and ` provides `
as list of virtual packages .
The method has an optional parameter parse_depends which is there
just for performance reasons and is not meant to be overwritten .
"""
# register the list of the dependencies for the depending packages
dependencies = [ ]
if packages [ pkg ] [ DEPENDS ] :
dependencies . extend ( parse_depends ( packages [ pkg ] [ DEPENDS ] ) )
if packages [ pkg ] [ PREDEPENDS ] :
dependencies . extend ( parse_depends ( packages [ pkg ] [ PREDEPENDS ] ) )
# go through the list
for p in dependencies :
for a in p :
# register real packages
if a [ 0 ] in packages and ( not check_doubles or pkg not in packages [ a [ 0 ] ] [ RDEPENDS ] ) :
packages [ a [ 0 ] ] [ RDEPENDS ] . append ( pkg )
# register packages which provide a virtual package
elif a [ 0 ] in provides :
for i in provides . get ( a [ 0 ] ) :
if i not in packages : continue
if not check_doubles or pkg not in packages [ i ] [ RDEPENDS ] :
packages [ i ] [ RDEPENDS ] . append ( pkg )
# register the list of the conflicts for the conflicting packages
if packages [ pkg ] [ CONFLICTS ] :
for p in parse_depends ( packages [ pkg ] [ CONFLICTS ] ) :
for a in p :
# register real packages
if a [ 0 ] in packages and ( not check_doubles or pkg not in packages [ a [ 0 ] ] [ RCONFLICTS ] ) :
packages [ a [ 0 ] ] [ RCONFLICTS ] . append ( pkg )
# register packages which provides a virtual package
elif a [ 0 ] in provides :
for i in provides [ a [ 0 ] ] :
if i not in packages : continue
if not check_doubles or pkg not in packages [ i ] [ RCONFLICTS ] :
packages [ i ] [ RCONFLICTS ] . append ( pkg )
def read_bugs ( self , basedir ) :
""" Read the release critial bug summary from the specified directory
The RC bug summaries are read from the ` BugsV ' file within the
directory specified as ` basedir ' parameter. The file contains
rows with the format :
< package - name > < bug number > [ , < bug number > . . . ]
The method returns a dictionary where the key is the binary package
name and the value is the list of open RC bugs for it .
"""
bugs = { }
filename = os . path . join ( basedir , " BugsV " )
self . __log ( " Loading RC bugs count from %s " % filename )
for line in open ( filename ) :
l = line . split ( )
if len ( l ) != 2 :
self . __log ( " Malformed line found in line %s " % ( line ) , type = ' W ' )
continue
pkg = l [ 0 ]
if pkg . startswith ( ' src: ' ) : pkg = pkg [ 4 : ]
bugs . setdefault ( pkg , [ ] )
bugs [ pkg ] + = l [ 1 ] . split ( " , " )
return bugs
def write_bugs ( self , basedir , bugs ) :
""" Write the release critical bug summary to the specified directory
For a more detailed explanation of the format , please check the method
read_bugs .
"""
filename = os . path . join ( basedir , " BugsV " )
self . __log ( " Writing RC bugs count to %s " % filename )
f = open ( filename , ' w ' )
for pkg in sorted ( bugs . keys ( ) ) :
if not bugs [ pkg ] :
continue
f . write ( " %s %s \n " % ( pkg , ' , ' . join ( bugs [ pkg ] ) ) )
f . close ( )
def __maxver ( self , pkg , dist ) :
""" Return the maximum version for a given package name
This method returns None if the specified source package
is not available in the ` dist ' distribution. If the package
exists , then it returns the maximum version between the
source package and its binary packages .
"""
maxver = None
if pkg in self . sources [ dist ] :
maxver = self . sources [ dist ] [ pkg ] [ VERSION ]
for arch in self . options . architectures :
if pkg not in self . binaries [ dist ] [ arch ] [ 0 ] : continue
pkgv = self . binaries [ dist ] [ arch ] [ 0 ] [ pkg ] [ VERSION ]
if maxver == None or apt_pkg . VersionCompare ( pkgv , maxver ) > 0 :
maxver = pkgv
return maxver
def normalize_bugs ( self ) :
""" Normalize the release critical bug summaries for testing and unstable
The method doesn ' t return any value: it directly modifies the
object attribute ` bugs ' .
"""
# loop on all the package names from testing and unstable bug summaries
for pkg in set ( self . bugs [ ' testing ' ] . keys ( ) + self . bugs [ ' unstable ' ] . keys ( ) ) :
# make sure that the key is present in both dictionaries
if pkg not in self . bugs [ ' testing ' ] :
self . bugs [ ' testing ' ] [ pkg ] = [ ]
elif pkg not in self . bugs [ ' unstable ' ] :
self . bugs [ ' unstable ' ] [ pkg ] = [ ]
# retrieve the maximum version of the package in testing:
maxvert = self . __maxver ( pkg , ' testing ' )
# if the package is not available in testing, then reset
# the list of RC bugs
if maxvert == None :
self . bugs [ ' testing ' ] [ pkg ] = [ ]
def read_dates ( self , basedir ) :
""" Read the upload date for the packages from the specified directory
The upload dates are read from the ` Date ' file within the directory
specified as ` basedir ' parameter. The file contains rows with the
format :
< package - name > < version > < date - of - upload >
The dates are expressed as days starting from the 1970 - 01 - 01.
The method returns a dictionary where the key is the binary package
name and the value is tuple with two items , the version and the date .
"""
dates = { }
filename = os . path . join ( basedir , " Dates " )
self . __log ( " Loading upload data from %s " % filename )
for line in open ( filename ) :
l = line . split ( )
if len ( l ) != 3 : continue
try :
dates [ l [ 0 ] ] = ( l [ 1 ] , int ( l [ 2 ] ) )
except ValueError :
self . __log ( " Dates, unable to parse \" %s \" " % line , type = " E " )
return dates
def write_dates ( self , basedir , dates ) :
""" Write the upload date for the packages to the specified directory
For a more detailed explanation of the format , please check the method
read_dates .
"""
filename = os . path . join ( basedir , " Dates " )
self . __log ( " Writing upload data to %s " % filename )
f = open ( filename , ' w ' )
for pkg in sorted ( dates . keys ( ) ) :
f . write ( " %s %s %d \n " % ( ( pkg , ) + dates [ pkg ] ) )
f . close ( )
def read_urgencies ( self , basedir ) :
""" Read the upload urgency of the packages from the specified directory
The upload urgencies are read from the ` Urgency ' file within the
directory specified as ` basedir ' parameter. The file contains rows
with the format :
< package - name > < version > < urgency >
The method returns a dictionary where the key is the binary package
name and the value is the greatest urgency from the versions of the
package that are higher then the testing one .
"""
urgencies = { }
filename = os . path . join ( basedir , " Urgency " )
self . __log ( " Loading upload urgencies from %s " % filename )
for line in open ( filename ) :
l = line . split ( )
if len ( l ) != 3 : continue
# read the minimum days associated with the urgencies
urgency_old = urgencies . get ( l [ 0 ] , self . options . default_urgency )
mindays_old = self . MINDAYS . get ( urgency_old , self . MINDAYS [ self . options . default_urgency ] )
mindays_new = self . MINDAYS . get ( l [ 2 ] , self . MINDAYS [ self . options . default_urgency ] )
# if the new urgency is lower (so the min days are higher), do nothing
if mindays_old < = mindays_new :
continue
# if the package exists in testing and it is more recent, do nothing
tsrcv = self . sources [ ' testing ' ] . get ( l [ 0 ] , None )
if tsrcv and apt_pkg . VersionCompare ( tsrcv [ VERSION ] , l [ 1 ] ) > = 0 :
continue
# if the package doesn't exist in unstable or it is older, do nothing
usrcv = self . sources [ ' unstable ' ] . get ( l [ 0 ] , None )
if not usrcv or apt_pkg . VersionCompare ( usrcv [ VERSION ] , l [ 1 ] ) < 0 :
continue
# update the urgency for the package
urgencies [ l [ 0 ] ] = l [ 2 ]
return urgencies
def read_hints ( self , basedir ) :
""" Read the hint commands from the specified directory
The hint commands are read from the files contained in the ` Hints '
directory within the directory specified as ` basedir ' parameter.
The names of the files have to be the same as the authorized users
for the hints .
The file contains rows with the format :
< command > < package - name > [ / < version > ]
The method returns a dictionary where the key is the command , and
the value is the list of affected packages .
"""
hints = dict ( [ ( k , [ ] ) for k in self . HINTS_ALL ] )
for who in self . HINTS . keys ( ) :
if who == ' command-line ' :
lines = self . options . hints and self . options . hints . split ( ' ; ' ) or ( )
else :
filename = os . path . join ( basedir , " Hints " , who )
if not os . path . isfile ( filename ) :
self . __log ( " Cannot read hints list from %s , no such file! " % filename , type = " E " )
continue
self . __log ( " Loading hints list from %s " % filename )
lines = open ( filename )
for line in lines :
line = line . strip ( )
if line == " " : continue
l = line . split ( )
if l [ 0 ] == ' finished ' :
break
elif l [ 0 ] not in self . HINTS [ who ] :
continue
elif l [ 0 ] in [ " easy " , " hint " , " force-hint " ] :
hints [ l [ 0 ] ] . append ( ( who , [ k . rsplit ( " / " , 1 ) for k in l if " / " in k ] ) )
elif l [ 0 ] in [ " block-all " ] :
hints [ l [ 0 ] ] . extend ( [ ( y , who ) for y in l [ 1 : ] ] )
elif l [ 0 ] in [ " block " , " block-udeb " ] :
hints [ l [ 0 ] ] . extend ( [ ( y , who ) for y in l [ 1 : ] ] )
elif l [ 0 ] in [ " age-days " ] and len ( l ) > = 3 and l [ 1 ] . isdigit ( ) :
days = l [ 1 ]
tmp = [ tuple ( [ who ] + k . rsplit ( " / " , 1 ) ) for k in l [ 2 : ] if " / " in k ]
hints [ l [ 0 ] ] . extend ( [ ( p , ( v , h , days ) ) for h , p , v in tmp ] )
elif l [ 0 ] in [ " remove " , " approve " , " unblock " , " unblock-udeb " , " force " , " urgent " ] :
hints [ l [ 0 ] ] . extend ( [ ( k . rsplit ( " / " , 1 ) [ 0 ] , ( k . rsplit ( " / " , 1 ) [ 1 ] , who ) ) for k in l if " / " in k ] )
for x in [ " approve " , " block " , " block-all " , " block-udeb " , " unblock " , " unblock-udeb " , " force " , " urgent " , " remove " , " age-days " ] :
z = { }
for a , b in hints [ x ] :
if z . has_key ( a ) and z [ a ] != b :
if x in [ ' unblock ' , ' unblock-udeb ' ] :
if apt_pkg . VersionCompare ( z [ a ] [ 0 ] , b [ 0 ] ) < 0 :
# This hint is for a newer version, so discard the old one
self . __log ( " Overriding %s [ %s ] = %s with %s " % ( x , a , z [ a ] , b ) , type = " W " )
else :
# This hint is for an older version, so ignore the new one
self . __log ( " Ignoring %s [ %s ] = %s , %s is higher or equal " % ( x , a , b , z [ a ] ) , type = " W " )
continue
else :
self . __log ( " Overriding %s [ %s ] = %s with %s " % ( x , a , z [ a ] , b ) , type = " W " )
z [ a ] = b
hints [ x ] = z
# Sanity check the hints hash
if len ( hints [ " block " ] ) == 0 and len ( hints [ " block-udeb " ] ) == 0 :
self . __log ( " WARNING: No block hints at all, not even udeb ones! " , type = " W " )
# A t-p-u approval overrides an unstable block
for p in hints [ " approve " ] :
hints [ " unblock " ] [ p ] = hints [ " approve " ] [ p ]
return hints
def write_heidi ( self , filename ) :
""" Write the output HeidiResult
This method write the output for Heidi , which contains all the
binary packages and the source packages in the form :
< pkg - name > < pkg - version > < pkg - architecture > < pkg - section >
< src - name > < src - version > < src - section >
"""
self . __log ( " Writing Heidi results to %s " % filename )
f = open ( filename , ' w ' )
# local copies
sources = self . sources [ ' testing ' ]
# write binary packages
for arch in sorted ( self . options . architectures ) :
binaries = self . binaries [ ' testing ' ] [ arch ] [ 0 ]
for pkg_name in sorted ( binaries ) :
pkg = binaries [ pkg_name ]
pkgv = pkg [ VERSION ]
pkgarch = pkg [ ARCHITECTURE ] or ' all '
pkgsec = pkg [ SECTION ] or ' faux '
f . write ( ' %s %s %s %s \n ' % ( pkg_name , pkgv , pkgarch , pkgsec ) )
# write sources
for src_name in sorted ( sources ) :
src = sources [ src_name ]
srcv = src [ VERSION ]
srcsec = src [ FAKESRC ] and ' faux ' or src [ SECTION ] or ' unknown '
f . write ( ' %s %s source %s \n ' % ( src_name , srcv , srcsec ) )
f . close ( )
def write_controlfiles ( self , basedir , suite ) :
""" Write the control files
This method writes the control files for the binary packages of all
the architectures and for the source packages .
"""
sources = self . sources [ suite ]
self . __log ( " Writing new %s control files to %s " % ( suite , basedir ) )
for arch in self . options . architectures :
filename = os . path . join ( basedir , ' Packages_ %s ' % arch )
f = open ( filename , ' w ' )
binaries = self . binaries [ suite ] [ arch ] [ 0 ]
for pkg in binaries :
output = " Package: %s \n " % pkg
for key , k in ( ( SECTION , ' Section ' ) , ( ARCHITECTURE , ' Architecture ' ) , ( SOURCE , ' Source ' ) , ( VERSION , ' Version ' ) ,
( PREDEPENDS , ' Pre-Depends ' ) , ( DEPENDS , ' Depends ' ) , ( PROVIDES , ' Provides ' ) , ( CONFLICTS , ' Conflicts ' ) ) :
if not binaries [ pkg ] [ key ] : continue
if key == SOURCE :
if binaries [ pkg ] [ SOURCE ] == pkg :
if binaries [ pkg ] [ SOURCEVER ] != binaries [ pkg ] [ VERSION ] :
source = binaries [ pkg ] [ SOURCE ] + " ( " + binaries [ pkg ] [ SOURCEVER ] + " ) "
else : continue
else :
if binaries [ pkg ] [ SOURCEVER ] != binaries [ pkg ] [ VERSION ] :
source = binaries [ pkg ] [ SOURCE ] + " ( " + binaries [ pkg ] [ SOURCEVER ] + " ) "
else :
source = binaries [ pkg ] [ SOURCE ]
output + = ( k + " : " + source + " \n " )
if sources [ binaries [ pkg ] [ SOURCE ] ] [ MAINTAINER ] :
output + = ( " Maintainer: " + sources [ binaries [ pkg ] [ SOURCE ] ] [ MAINTAINER ] + " \n " )
elif key == PROVIDES :
if len ( binaries [ pkg ] [ key ] ) > 0 :
output + = ( k + " : " + " , " . join ( binaries [ pkg ] [ key ] ) + " \n " )
else :
output + = ( k + " : " + binaries [ pkg ] [ key ] + " \n " )
f . write ( output + " \n " )
f . close ( )
filename = os . path . join ( basedir , ' Sources ' )
f = open ( filename , ' w ' )
for src in sources :
output = " Package: %s \n " % src
for key , k in ( ( VERSION , ' Version ' ) , ( SECTION , ' Section ' ) , ( MAINTAINER , ' Maintainer ' ) ) :
if not sources [ src ] [ key ] : continue
output + = ( k + " : " + sources [ src ] [ key ] + " \n " )
f . write ( output + " \n " )
f . close ( )
def write_nuninst ( self , nuninst ) :
""" Write the non-installable report """
f = open ( self . options . noninst_status , ' w ' )
f . write ( " Built on: " + time . strftime ( " % Y. % m. %d % H: % M: % S % z " , time . gmtime ( time . time ( ) ) ) + " \n " )
f . write ( " Last update: " + time . strftime ( " % Y. % m. %d % H: % M: % S % z " , time . gmtime ( time . time ( ) ) ) + " \n \n " )
f . write ( " " . join ( [ k + " : " + " " . join ( nuninst [ k ] ) + " \n " for k in nuninst ] ) )
f . close ( )
def read_nuninst ( self ) :
""" Read the non-installable report """
f = open ( self . options . noninst_status )
nuninst = { }
for r in f :
if " : " not in r : continue
arch , packages = r . strip ( ) . split ( " : " , 1 )
if arch . split ( " + " , 1 ) [ 0 ] in self . options . architectures :
nuninst [ arch ] = set ( packages . split ( ) )
return nuninst
# Utility methods for package analisys
# ------------------------------------
def same_source ( self , sv1 , sv2 ) :
""" Check if two version numbers are built from the same source
This method returns a boolean value which is true if the two
version numbers specified as parameters are built from the same
source . The main use of this code is to detect binary - NMU .
"""
if sv1 == sv2 :
return 1
m = re . match ( r ' ^(.*) \ +b \ d+$ ' , sv1 )
if m : sv1 = m . group ( 1 )
m = re . match ( r ' ^(.*) \ +b \ d+$ ' , sv2 )
if m : sv2 = m . group ( 1 )
if sv1 == sv2 :
return 1
return 0
def get_dependency_solvers ( self , block , arch , distribution , excluded = [ ] , strict = False ) :
""" Find the packages which satisfy a dependency block
This method returns the list of packages which satisfy a dependency
block ( as returned by apt_pkg . ParseDepends ) for the given architecture
and distribution .
It returns a tuple with two items : the first is a boolean which is
True if the dependency is satisfied , the second is the list of the
solving packages .
"""
packages = [ ]
# local copies for better performances
binaries = self . binaries [ distribution ] [ arch ]
# for every package, version and operation in the block
for name , version , op in block :
# look for the package in unstable
if name not in excluded and name in binaries [ 0 ] :
package = binaries [ 0 ] [ name ]
# check the versioned dependency (if present)
if op == ' ' and version == ' ' or apt_pkg . CheckDep ( package [ VERSION ] , op , version ) :
packages . append ( name )
# look for the package in the virtual packages list and loop on them
for prov in binaries [ 1 ] . get ( name , [ ] ) :
if prov in excluded or \
prov not in binaries [ 0 ] : continue
package = binaries [ 0 ] [ prov ]
# check the versioned dependency (if present)
# TODO: this is forbidden by the debian policy, which says that versioned
# dependencies on virtual packages are never satisfied. The old britney
# does it and we have to go with it, but at least a warning should be raised.
if op == ' ' and version == ' ' or not strict and apt_pkg . CheckDep ( package [ VERSION ] , op , version ) :
packages . append ( prov )
return ( len ( packages ) > 0 , packages )
def excuse_unsat_deps ( self , pkg , src , arch , suite , excuse , excluded = [ ] , conflicts = False ) :
""" Find unsatisfied dependencies for a binary package
This method analyzes the dependencies of the binary package specified
by the parameter ` pkg ' , built from the source package `src ' , for the
architecture ` arch ' within the suite `suite ' . If the dependency can ' t
be satisfied in testing and / or unstable , it updates the excuse passed
as parameter .
The dependency fields checked are Pre - Depends and Depends .
"""
# retrieve the binary package from the specified suite and arch
binary_u = self . binaries [ suite ] [ arch ] [ 0 ] [ pkg ]
# local copies for better performances
parse_depends = apt_pkg . ParseDepends
get_dependency_solvers = self . get_dependency_solvers
strict = True # not self.options.compatible
# analyze the dependency fields (if present)
for type_key , type in ( ( PREDEPENDS , ' Pre-Depends ' ) , ( DEPENDS , ' Depends ' ) ) :
if not binary_u [ type_key ] :
continue
# for every block of dependency (which is formed as conjunction of disconjunction)
for block , block_txt in zip ( parse_depends ( binary_u [ type_key ] ) , binary_u [ type_key ] . split ( ' , ' ) ) :
# if the block is satisfied in testing, then skip the block
solved , packages = get_dependency_solvers ( block , arch , ' testing ' , excluded , strict = strict )
if solved :
for p in packages :
if p not in self . binaries [ suite ] [ arch ] [ 0 ] : continue
excuse . add_sane_dep ( self . binaries [ suite ] [ arch ] [ 0 ] [ p ] [ SOURCE ] )
continue
# check if the block can be satisfied in unstable, and list the solving packages
solved , packages = get_dependency_solvers ( block , arch , suite , [ ] , strict = strict )
packages = [ self . binaries [ suite ] [ arch ] [ 0 ] [ p ] [ SOURCE ] for p in packages ]
# if the dependency can be satisfied by the same source package, skip the block:
# obviously both binary packages will enter testing together
if src in packages : continue
# if no package can satisfy the dependency, add this information to the excuse
if len ( packages ) == 0 :
excuse . addhtml ( " %s / %s unsatisfiable %s : %s " % ( pkg , arch , type , block_txt . strip ( ) ) )
if arch not in self . options . break_arches . split ( ) :
excuse . add_unsat_dep ( arch )
continue
# for the solving packages, update the excuse to add the dependencies
for p in packages :
if arch not in self . options . break_arches . split ( ) :
excuse . add_dep ( p )
else :
excuse . add_break_dep ( p , arch )
return True
# Package analysis methods
# ------------------------
def should_remove_source ( self , pkg ) :
""" Check if a source package should be removed from testing
This method checks if a source package should be removed from the
testing distribution ; this happens if the source package is not
present in the unstable distribution anymore .
It returns True if the package can be removed , False otherwise .
In the former case , a new excuse is appended to the the object
attribute excuses .
"""
# if the source package is available in unstable, then do nothing
if pkg in self . sources [ ' unstable ' ] :
return False
# otherwise, add a new excuse for its removal and return True
src = self . sources [ ' testing ' ] [ pkg ]
excuse = Excuse ( " - " + pkg )
excuse . set_vers ( src [ VERSION ] , None )
src [ MAINTAINER ] and excuse . set_maint ( src [ MAINTAINER ] . strip ( ) )
src [ SECTION ] and excuse . set_section ( src [ SECTION ] . strip ( ) )
# if the package is blocked, skip it
if self . hints [ ' block ' ] . has_key ( ' - ' + pkg ) :
excuse . addhtml ( " Not touching package, as requested by %s (contact debian-release "
" if update is needed) " % self . hints [ ' block ' ] [ ' - ' + pkg ] )
excuse . addhtml ( " Not considered " )
self . excuses . append ( excuse )
return False
excuse . addhtml ( " Valid candidate " )
self . excuses . append ( excuse )
return True
def should_upgrade_srcarch ( self , src , arch , suite ) :
""" Check if a binary package should be upgraded
This method checks if a binary package should be upgraded ; this can
happen also if the binary package is a binary - NMU for the given arch .
The analysis is performed for the source package specified by the
` src ' parameter, checking the architecture `arch ' for the distribution
` suite ' .
It returns False if the given package doesn ' t need to be upgraded,
True otherwise . In the former case , a new excuse is appended to
the the object attribute excuses .
"""
# retrieve the source packages for testing and suite
source_t = self . sources [ ' testing ' ] [ src ]
source_u = self . sources [ suite ] [ src ]
# build the common part of the excuse, which will be filled by the code below
ref = " %s / %s %s " % ( src , arch , suite != ' unstable ' and " _ " + suite or " " )
excuse = Excuse ( ref )
excuse . set_vers ( source_t [ VERSION ] , source_t [ VERSION ] )
source_u [ MAINTAINER ] and excuse . set_maint ( source_u [ MAINTAINER ] . strip ( ) )
source_u [ SECTION ] and excuse . set_section ( source_u [ SECTION ] . strip ( ) )
# if there is a `remove' hint and the requested version is the same as the
# version in testing, then stop here and return False
if src in self . hints [ " remove " ] and \
self . same_source ( source_t [ VERSION ] , self . hints [ " remove " ] [ src ] [ 0 ] ) :
excuse . addhtml ( " Removal request by %s " % ( self . hints [ " remove " ] [ src ] [ 1 ] ) )
excuse . addhtml ( " Trying to remove package, not update it " )
excuse . addhtml ( " Not considered " )
self . excuses . append ( excuse )
return False
# the starting point is that there is nothing wrong and nothing worth doing
anywrongver = False
anyworthdoing = False
# for every binary package produced by this source in unstable for this architecture
for pkg in sorted ( filter ( lambda x : x . endswith ( " / " + arch ) , source_u [ BINARIES ] ) , key = lambda x : x . split ( " / " ) [ 0 ] ) :
pkg_name = pkg . split ( " / " ) [ 0 ]
# retrieve the testing (if present) and unstable corresponding binary packages
binary_t = pkg in source_t [ BINARIES ] and self . binaries [ ' testing ' ] [ arch ] [ 0 ] [ pkg_name ] or None
binary_u = self . binaries [ suite ] [ arch ] [ 0 ] [ pkg_name ]
# this is the source version for the new binary package
pkgsv = self . binaries [ suite ] [ arch ] [ 0 ] [ pkg_name ] [ SOURCEVER ]
# if the new binary package is architecture-independent, then skip it
if binary_u [ ARCHITECTURE ] == ' all ' :
excuse . addhtml ( " Ignoring %s %s (from %s ) as it is arch: all " % ( pkg_name , binary_u [ VERSION ] , pkgsv ) )
continue
# if the new binary package is not from the same source as the testing one, then skip it
if not self . same_source ( source_t [ VERSION ] , pkgsv ) :
anywrongver = True
excuse . addhtml ( " From wrong source: %s %s ( %s not %s ) " % ( pkg_name , binary_u [ VERSION ] , pkgsv , source_t [ VERSION ] ) )
break
# find unsatisfied dependencies for the new binary package
self . excuse_unsat_deps ( pkg_name , src , arch , suite , excuse )
# if the binary is not present in testing, then it is a new binary;
# in this case, there is something worth doing
if not binary_t :
excuse . addhtml ( " New binary: %s ( %s ) " % ( pkg_name , binary_u [ VERSION ] ) )
anyworthdoing = True
continue
# at this point, the binary package is present in testing, so we can compare
# the versions of the packages ...
vcompare = apt_pkg . VersionCompare ( binary_t [ VERSION ] , binary_u [ VERSION ] )
# ... if updating would mean downgrading, then stop here: there is something wrong
if vcompare > 0 :
anywrongver = True
excuse . addhtml ( " Not downgrading: %s ( %s to %s ) " % ( pkg_name , binary_t [ VERSION ] , binary_u [ VERSION ] ) )
break
# ... if updating would mean upgrading, then there is something worth doing
elif vcompare < 0 :
excuse . addhtml ( " Updated binary: %s ( %s to %s ) " % ( pkg_name , binary_t [ VERSION ] , binary_u [ VERSION ] ) )
anyworthdoing = True
# if there is nothing wrong and there is something worth doing or the source
# package is not fake, then check what packages should be removed
if not anywrongver and ( anyworthdoing or not self . sources [ suite ] [ src ] [ FAKESRC ] ) :
srcv = self . sources [ suite ] [ src ] [ VERSION ]
ssrc = self . same_source ( source_t [ VERSION ] , srcv )
# for every binary package produced by this source in testing for this architecture
for pkg in sorted ( [ x . split ( " / " ) [ 0 ] for x in self . sources [ ' testing ' ] [ src ] [ BINARIES ] if x . endswith ( " / " + arch ) ] ) :
# if the package is architecture-independent, then ignore it
if self . binaries [ ' testing ' ] [ arch ] [ 0 ] [ pkg ] [ ARCHITECTURE ] == ' all ' :
excuse . addhtml ( " Ignoring removal of %s as it is arch: all " % ( pkg ) )
continue
# if the package is not produced by the new source package, then remove it from testing
if pkg not in self . binaries [ suite ] [ arch ] [ 0 ] :
tpkgv = self . binaries [ ' testing ' ] [ arch ] [ 0 ] [ pkg ] [ VERSION ]
excuse . addhtml ( " Removed binary: %s %s " % ( pkg , tpkgv ) )
if ssrc : anyworthdoing = True
# if there is nothing wrong and there is something worth doing, this is a valid candidate
if not anywrongver and anyworthdoing :
excuse . addhtml ( " Valid candidate " )
self . excuses . append ( excuse )
return True
# else if there is something worth doing (but something wrong, too) this package won't be considered
elif anyworthdoing :
excuse . addhtml ( " Not considered " )
self . excuses . append ( excuse )
# otherwise, return False
return False
def should_upgrade_src ( self , src , suite ) :
""" Check if source package should be upgraded
This method checks if a source package should be upgraded . The analysis
is performed for the source package specified by the ` src ' parameter,
checking the architecture ` arch ' for the distribution `suite ' .
It returns False if the given package doesn ' t need to be upgraded,
True otherwise . In the former case , a new excuse is appended to
the the object attribute excuses .
"""
# retrieve the source packages for testing (if available) and suite
source_u = self . sources [ suite ] [ src ]
if src in self . sources [ ' testing ' ] :
source_t = self . sources [ ' testing ' ] [ src ]
# if testing and unstable have the same version, then this is a candidate for binary-NMUs only
if apt_pkg . VersionCompare ( source_t [ VERSION ] , source_u [ VERSION ] ) == 0 :
return False
else :
source_t = None
# build the common part of the excuse, which will be filled by the code below
ref = " %s %s " % ( src , suite != ' unstable ' and " _ " + suite or " " )
excuse = Excuse ( ref )
excuse . set_vers ( source_t and source_t [ VERSION ] or None , source_u [ VERSION ] )
source_u [ MAINTAINER ] and excuse . set_maint ( source_u [ MAINTAINER ] . strip ( ) )
source_u [ SECTION ] and excuse . set_section ( source_u [ SECTION ] . strip ( ) )
# the starting point is that we will update the candidate
update_candidate = True
# if the version in unstable is older, then stop here with a warning in the excuse and return False
if source_t and apt_pkg . VersionCompare ( source_u [ VERSION ] , source_t [ VERSION ] ) < 0 :
excuse . addhtml ( " ALERT: %s is newer in testing ( %s %s ) " % ( src , source_t [ VERSION ] , source_u [ VERSION ] ) )
self . excuses . append ( excuse )
return False
# check if the source package really exists or if it is a fake one
if source_u [ FAKESRC ] :
excuse . addhtml ( " %s source package doesn ' t exist " % ( src ) )
update_candidate = False
# retrieve the urgency for the upload, ignoring it if this is a NEW package (not present in testing)
urgency = self . urgencies . get ( src , self . options . default_urgency )
if not source_t and urgency != self . options . default_urgency :
excuse . addhtml ( " Ignoring %s urgency setting for NEW package " % ( urgency ) )
urgency = self . options . default_urgency
# if there is a `remove' hint and the requested version is the same as the
# version in testing, then stop here and return False
if src in self . hints [ " remove " ] :
if source_t and self . same_source ( source_t [ VERSION ] , self . hints [ ' remove ' ] [ src ] [ 0 ] ) or \
self . same_source ( source_u [ VERSION ] , self . hints [ ' remove ' ] [ src ] [ 0 ] ) :
excuse . addhtml ( " Removal request by %s " % ( self . hints [ " remove " ] [ src ] [ 1 ] ) )
excuse . addhtml ( " Trying to remove package, not update it " )
update_candidate = False
# check if there is a `block' or `block-udeb' hint for this package, or a `block-all source' hint
blocked = { }
if src in self . hints [ " block " ] :
blocked [ " block " ] = self . hints [ " block " ] [ src ]
elif ' source ' in self . hints [ " block-all " ] :
blocked [ " block " ] = self . hints [ " block-all " ] [ " source " ]
if src in self . hints [ " block-udeb " ] :
blocked [ " block-udeb " ] = self . hints [ " block-udeb " ] [ src ]
# if the source is blocked, then look for an `unblock' hint; the unblock request
# is processed only if the specified version is correct. If a package is blocked
# by `block-udeb', then `unblock-udeb' must be present to cancel it.
for block_cmd in blocked :
unblock_cmd = " un " + block_cmd
unblock = self . hints [ unblock_cmd ] . get ( src , ( None , None ) )
if unblock [ 0 ] != None and self . same_source ( unblock [ 0 ] , source_u [ VERSION ] ) :
excuse . addhtml ( " Ignoring %s request by %s , due to %s request by %s " %
( block_cmd , blocked [ block_cmd ] , unblock_cmd , self . hints [ unblock_cmd ] [ src ] [ 1 ] ) )
else :
if unblock [ 0 ] != None :
excuse . addhtml ( " %s request by %s ignored due to version mismatch: %s " %
( unblock_cmd . capitalize ( ) , self . hints [ unblock_cmd ] [ src ] [ 1 ] , self . hints [ unblock_cmd ] [ src ] [ 0 ] ) )
excuse . addhtml ( " Not touching package due to %s request by %s (contact debian-release if update is needed) " %
( block_cmd , blocked [ block_cmd ] ) )
update_candidate = False
# if the suite is unstable, then we have to check the urgency and the minimum days of
# permanence in unstable before updating testing; if the source package is too young,
# the check fails and we set update_candidate to False to block the update; consider
# the age-days hint, if specified for the package
if suite == ' unstable ' :
if src not in self . dates :
self . dates [ src ] = ( source_u [ VERSION ] , self . date_now )
elif not self . same_source ( self . dates [ src ] [ 0 ] , source_u [ VERSION ] ) :
self . dates [ src ] = ( source_u [ VERSION ] , self . date_now )
days_old = self . date_now - self . dates [ src ] [ 1 ]
min_days = self . MINDAYS [ urgency ]
age_days_hint = self . hints [ " age-days " ] . get ( src )
if age_days_hint is not None and ( age_days_hint [ 0 ] == " - " or \
self . same_source ( source_u [ VERSION ] , age_days_hint [ 0 ] ) ) :
excuse . addhtml ( " Overriding age needed from %d days to %d by %s " % ( min_days ,
int ( self . hints [ " age-days " ] [ src ] [ 2 ] ) , self . hints [ " age-days " ] [ src ] [ 1 ] ) )
min_days = int ( self . hints [ " age-days " ] [ src ] [ 2 ] )
excuse . setdaysold ( days_old , min_days )
if days_old < min_days :
if src in self . hints [ " urgent " ] and self . same_source ( source_u [ VERSION ] , self . hints [ " urgent " ] [ src ] [ 0 ] ) :
excuse . addhtml ( " Too young, but urgency pushed by %s " % ( self . hints [ " urgent " ] [ src ] [ 1 ] ) )
else :
update_candidate = False
if suite == ' tpu ' :
# o-o-d(ish) checks for t-p-u
for arch in self . options . architectures :
# If the package isn't in testing or the testing
# package produces no packages on this architecture,
# then it can't be out-of-date. We assume that if
# the t-p-u package has produced any binaries for
# this architecture then it is ok
if not src in self . sources [ " testing " ] or \
( len ( [ x for x in self . sources [ " testing " ] [ src ] [ BINARIES ] if x . endswith ( " / " + arch ) and self . binaries [ " testing " ] [ arch ] [ 0 ] [ x . split ( " / " ) [ 0 ] ] [ ARCHITECTURE ] != ' all ' ] ) == 0 ) or \
( len ( [ x for x in self . sources [ suite ] [ src ] [ BINARIES ] if x . endswith ( " / " + arch ) and self . binaries [ suite ] [ arch ] [ 0 ] [ x . split ( " / " ) [ 0 ] ] [ ARCHITECTURE ] != ' all ' ] ) > 0 ) :
continue
text = " Not yet built on <a href= \" http://buildd.debian.org/build.php?arch= %s &pkg= %s &ver= %s &suite=testing \" target= \" _blank \" > %s </a> (relative to testing) " % ( urllib . quote ( arch ) , urllib . quote ( src ) , urllib . quote ( source_u [ VERSION ] ) , arch )
if arch in self . options . fucked_arches . split ( ) :
text = text + " (but %s isn ' t keeping up, so never mind) " % ( arch )
else :
update_candidate = False
excuse . addhtml ( text )
# at this point, we check the status of the builds on all the supported architectures
# to catch the out-of-date ones
pkgs = { src : [ " source " ] }
for arch in self . options . architectures :
oodbins = { }
# for every binary package produced by this source in the suite for this architecture
for pkg in sorted ( [ x . split ( " / " ) [ 0 ] for x in self . sources [ suite ] [ src ] [ BINARIES ] if x . endswith ( " / " + arch ) ] ) :
if pkg not in pkgs : pkgs [ pkg ] = [ ]
pkgs [ pkg ] . append ( arch )
# retrieve the binary package and its source version
binary_u = self . binaries [ suite ] [ arch ] [ 0 ] [ pkg ]
pkgsv = binary_u [ SOURCEVER ]
# if it wasn't builded by the same source, it is out-of-date
if not self . same_source ( source_u [ VERSION ] , pkgsv ) :
if pkgsv not in oodbins :
oodbins [ pkgsv ] = [ ]
oodbins [ pkgsv ] . append ( pkg )
continue
# if the package is architecture-dependent or the current arch is `nobreakall'
# find unsatisfied dependencies for the binary package
if binary_u [ ARCHITECTURE ] != ' all ' or arch in self . options . nobreakall_arches . split ( ) :
self . excuse_unsat_deps ( pkg , src , arch , suite , excuse )
# if there are out-of-date packages, warn about them in the excuse and set update_candidate
# to False to block the update; if the architecture where the package is out-of-date is
# in the `fucked_arches' list, then do not block the update
if oodbins :
oodtxt = " "
for v in oodbins . keys ( ) :
if oodtxt : oodtxt = oodtxt + " ; "
oodtxt = oodtxt + " %s (from <a href= \" http://buildd.debian.org/build.php? " \
" arch= %s &pkg= %s &ver= %s \" target= \" _blank \" > %s </a>) " % \
( " , " . join ( sorted ( oodbins [ v ] ) ) , urllib . quote ( arch ) , urllib . quote ( src ) , urllib . quote ( v ) , v )
text = " out of date on <a href= \" http://buildd.debian.org/build.php? " \
" arch= %s &pkg= %s &ver= %s \" target= \" _blank \" > %s </a>: %s " % \
( urllib . quote ( arch ) , urllib . quote ( src ) , urllib . quote ( source_u [ VERSION ] ) , arch , oodtxt )
if arch in self . options . fucked_arches . split ( ) :
text = text + " (but %s isn ' t keeping up, so nevermind) " % ( arch )
else :
update_candidate = False
if self . date_now != self . dates [ src ] [ 1 ] :
excuse . addhtml ( text )
# if the source package has no binaries, set update_candidate to False to block the update
if len ( self . sources [ suite ] [ src ] [ BINARIES ] ) == 0 :
excuse . addhtml ( " %s has no binaries on any arch " % src )
update_candidate = False
# if the suite is unstable, then we have to check the release-critical bug lists before
# updating testing; if the unstable package has RC bugs that do not apply to the testing
# one, the check fails and we set update_candidate to False to block the update
if suite == ' unstable ' :
for pkg in pkgs . keys ( ) :
if pkg not in self . bugs [ ' testing ' ] :
self . bugs [ ' testing ' ] [ pkg ] = [ ]
if pkg not in self . bugs [ ' unstable ' ] :
self . bugs [ ' unstable ' ] [ pkg ] = [ ]
new_bugs = sorted ( set ( self . bugs [ ' unstable ' ] [ pkg ] ) . difference ( self . bugs [ ' testing ' ] [ pkg ] ) )
old_bugs = sorted ( set ( self . bugs [ ' testing ' ] [ pkg ] ) . difference ( self . bugs [ ' unstable ' ] [ pkg ] ) )
if len ( new_bugs ) > 0 :
excuse . addhtml ( " %s ( %s ) <a href= \" http://bugs.debian.org/cgi-bin/pkgreport.cgi? " \
" which=pkg&data= %s &sev-inc=critical&sev-inc=grave&sev-inc=serious \" " \
" target= \" _blank \" >has new bugs</a>! " % ( pkg , " , " . join ( pkgs [ pkg ] ) , urllib . quote ( pkg ) ) )
excuse . addhtml ( " Updating %s introduces new bugs: %s " % ( pkg , " , " . join (
[ " <a href= \" http://bugs.debian.org/ %s \" ># %s </a> " % ( urllib . quote ( a ) , a ) for a in new_bugs ] ) ) )
update_candidate = False
if len ( old_bugs ) > 0 :
excuse . addhtml ( " Updating %s fixes old bugs: %s " % ( pkg , " , " . join (
[ " <a href= \" http://bugs.debian.org/ %s \" ># %s </a> " % ( urllib . quote ( a ) , a ) for a in old_bugs ] ) ) )
if len ( old_bugs ) > len ( new_bugs ) and len ( new_bugs ) > 0 :
excuse . addhtml ( " %s introduces new bugs, so still ignored (even "
" though it fixes more than it introduces, whine at debian-release) " % pkg )
# check if there is a `force' hint for this package, which allows it to go in even if it is not updateable
if src in self . hints [ " force " ] and self . same_source ( source_u [ VERSION ] , self . hints [ " force " ] [ src ] [ 0 ] ) :
excuse . dontinvalidate = 1
if not update_candidate and src in self . hints [ " force " ] and \
self . same_source ( source_u [ VERSION ] , self . hints [ " force " ] [ src ] [ 0 ] ) :
excuse . addhtml ( " Should ignore, but forced by %s " % ( self . hints [ " force " ] [ src ] [ 1 ] ) )
update_candidate = True
# if the suite is testing-proposed-updates, the package needs an explicit approval in order to go in
if suite == " tpu " :
key = " %s _ %s " % ( src , source_u [ VERSION ] )
if src in self . hints [ " approve " ] and \
self . same_source ( source_u [ VERSION ] , self . hints [ " approve " ] [ src ] [ 0 ] ) :
excuse . addhtml ( " Approved by %s " % self . hints [ " approve " ] [ src ] [ 1 ] )
else :
excuse . addhtml ( " NEEDS APPROVAL BY RM " )
update_candidate = False
# if the package can be updated, it is a valid candidate
if update_candidate :
excuse . addhtml ( " Valid candidate " )
# else it won't be considered
else :
excuse . addhtml ( " Not considered " )
self . excuses . append ( excuse )
return update_candidate
def reversed_exc_deps ( self ) :
""" Reverse the excuses dependencies
This method returns a dictionary where the keys are the package names
and the values are the excuse names which depend on it .
"""
res = { }
for exc in self . excuses :
for d in exc . deps :
if d not in res : res [ d ] = [ ]
res [ d ] . append ( exc . name )
return res
def invalidate_excuses ( self , valid , invalid ) :
""" Invalidate impossible excuses
This method invalidates the impossible excuses , which depend
on invalid excuses . The two parameters contains the list of
` valid ' and `invalid ' excuses .
"""
# build a lookup-by-name map
exclookup = { }
for e in self . excuses :
exclookup [ e . name ] = e
# build the reverse dependencies
revdeps = self . reversed_exc_deps ( )
# loop on the invalid excuses
i = 0
while i < len ( invalid ) :
# if there is no reverse dependency, skip the item
if invalid [ i ] not in revdeps :
i + = 1
continue
# if the dependency can be satisfied by a testing-proposed-updates excuse, skip the item
if ( invalid [ i ] + " _tpu " ) in valid :
i + = 1
continue
# loop on the reverse dependencies
for x in revdeps [ invalid [ i ] ] :
# if the item is valid and it is marked as `dontinvalidate', skip the item
if x in valid and exclookup [ x ] . dontinvalidate :
continue
# otherwise, invalidate the dependency and mark as invalidated and
# remove the depending excuses
exclookup [ x ] . invalidate_dep ( invalid [ i ] )
if x in valid :
p = valid . index ( x )
invalid . append ( valid . pop ( p ) )
exclookup [ x ] . addhtml ( " Invalidated by dependency " )
exclookup [ x ] . addhtml ( " Not considered " )
i = i + 1
def write_excuses ( self ) :
""" Produce and write the update excuses
This method handles the update excuses generation : the packages are
looked at to determine whether they are valid candidates . For the details
of this procedure , please refer to the module docstring .
"""
self . __log ( " Update Excuses generation started " , type = " I " )
# list of local methods and variables (for better performance)
sources = self . sources
architectures = self . options . architectures
should_remove_source = self . should_remove_source
should_upgrade_srcarch = self . should_upgrade_srcarch
should_upgrade_src = self . should_upgrade_src
# this list will contain the packages which are valid candidates;
# if a package is going to be removed, it will have a "-" prefix
upgrade_me = [ ]
# for every source package in testing, check if it should be removed
for pkg in sources [ ' testing ' ] :
if should_remove_source ( pkg ) :
upgrade_me . append ( " - " + pkg )
# for every source package in unstable check if it should be upgraded
for pkg in sources [ ' unstable ' ] :
if sources [ ' unstable ' ] [ pkg ] [ FAKESRC ] : continue
# if the source package is already present in testing,
# check if it should be upgraded for every binary package
if pkg in sources [ ' testing ' ] and not sources [ ' testing ' ] [ pkg ] [ FAKESRC ] :
for arch in architectures :
if should_upgrade_srcarch ( pkg , arch , ' unstable ' ) :
upgrade_me . append ( " %s / %s " % ( pkg , arch ) )
# check if the source package should be upgraded
if should_upgrade_src ( pkg , ' unstable ' ) :
upgrade_me . append ( pkg )
# for every source package in testing-proposed-updates, check if it should be upgraded
for pkg in sources [ ' tpu ' ] :
# if the source package is already present in testing,
# check if it should be upgraded for every binary package
if pkg in sources [ ' testing ' ] :
for arch in architectures :
if should_upgrade_srcarch ( pkg , arch , ' tpu ' ) :
upgrade_me . append ( " %s / %s _tpu " % ( pkg , arch ) )
# check if the source package should be upgraded
if should_upgrade_src ( pkg , ' tpu ' ) :
upgrade_me . append ( " %s _tpu " % pkg )
# process the `remove' hints, if the given package is not yet in upgrade_me
for src in self . hints [ " remove " ] . keys ( ) :
if src in upgrade_me : continue
if ( " - " + src ) in upgrade_me : continue
if src not in sources [ ' testing ' ] : continue
# check if the version specified in the hint is the same as the considered package
tsrcv = sources [ ' testing ' ] [ src ] [ VERSION ]
if not self . same_source ( tsrcv , self . hints [ " remove " ] [ src ] [ 0 ] ) : continue
# add the removal of the package to upgrade_me and build a new excuse
upgrade_me . append ( " - %s " % ( src ) )
excuse = Excuse ( " - %s " % ( src ) )
excuse . set_vers ( tsrcv , None )
excuse . addhtml ( " Removal request by %s " % ( self . hints [ " remove " ] [ src ] [ 1 ] ) )
excuse . addhtml ( " Package is broken, will try to remove " )
self . excuses . append ( excuse )
# sort the excuses by daysold and name
self . excuses . sort ( lambda x , y : cmp ( x . daysold , y . daysold ) or cmp ( x . name , y . name ) )
# extract the not considered packages, which are in the excuses but not in upgrade_me
unconsidered = [ e . name for e in self . excuses if e . name not in upgrade_me ]
# invalidate impossible excuses
for e in self . excuses :
for d in e . deps :
if d not in upgrade_me and d not in unconsidered :
e . addhtml ( " Unpossible dep: %s -> %s " % ( e . name , d ) )
self . invalidate_excuses ( upgrade_me , unconsidered )
# sort the list of candidates
self . upgrade_me = sorted ( upgrade_me )
# write excuses to the output file
if not self . options . dry_run :
self . __log ( " > Writing Excuses to %s " % self . options . excuses_output , type = " I " )
f = open ( self . options . excuses_output , ' w ' )
f . write ( " <!DOCTYPE HTML PUBLIC \" -//W3C//DTD HTML 4.01//EN \" \" http://www.w3.org/TR/REC-html40/strict.dtd \" > \n " )
f . write ( " <html><head><title>excuses...</title> " )
f . write ( " <meta http-equiv= \" Content-Type \" content= \" text/html;charset=utf-8 \" ></head><body> \n " )
f . write ( " <p>Generated: " + time . strftime ( " % Y. % m. %d % H: % M: % S % z " , time . gmtime ( time . time ( ) ) ) + " </p> \n " )
f . write ( " <ul> \n " )
for e in self . excuses :
f . write ( " <li> %s " % e . html ( ) )
f . write ( " </ul></body></html> \n " )
f . close ( )
self . __log ( " Update Excuses generation completed " , type = " I " )
# Upgrade run
# -----------
def newlyuninst ( self , nuold , nunew ) :
""" Return a nuninst statstic with only new uninstallable packages
This method subtracts the uninstallable packages of the statistic
` nunew ` from the statistic ` nuold ` .
It returns a dictionary with the architectures as keys and the list
of uninstallable packages as values .
"""
res = { }
for arch in nuold :
if arch not in nunew : continue
res [ arch ] = [ x for x in nunew [ arch ] if x not in nuold [ arch ] ]
return res
def get_nuninst ( self , requested_arch = None , build = False ) :
""" Return the uninstallability statistic for all the architectures
To calculate the uninstallability counters , the method checks the
installability of all the packages for all the architectures , and
tracks dependencies in a recursive way . The architecture
independent packages are checked only for the ` nobreakall `
architectures .
It returns a dictionary with the architectures as keys and the list
of uninstallable packages as values .
"""
# if we are not asked to build the nuninst, read it from the cache
if not build :
return self . read_nuninst ( )
nuninst = { }
# local copies for better performance
binaries = self . binaries [ ' testing ' ]
systems = self . systems
# for all the architectures
for arch in self . options . architectures :
if requested_arch and arch != requested_arch : continue
# if it is in the nobreakall ones, check arch-independent packages too
if arch not in self . options . nobreakall_arches . split ( ) :
skip_archall = True
else : skip_archall = False
# check all the packages for this architecture, calling add_nuninst if a new
# uninstallable package is found
nuninst [ arch ] = set ( )
for pkg_name in binaries [ arch ] [ 0 ] :
r = systems [ arch ] . is_installable ( pkg_name )
if not r :
nuninst [ arch ] . add ( pkg_name )
# if they are not required, remove architecture-independent packages
nuninst [ arch + " +all " ] = nuninst [ arch ] . copy ( )
if skip_archall :
for pkg in nuninst [ arch + " +all " ] :
bpkg = binaries [ arch ] [ 0 ] [ pkg ]
if bpkg [ ARCHITECTURE ] == ' all ' :
nuninst [ arch ] . remove ( pkg )
# return the dictionary with the results
return nuninst
def eval_nuninst ( self , nuninst , original = None ) :
""" Return a string which represents the uninstallability counters
This method returns a string which represents the uninstallability
counters reading the uninstallability statistics ` nuninst ` and , if
present , merging the results with the ` original ` one .
An example of the output string is :
1 + 2 : i - 0 : a - 0 : a - 0 : h - 0 : i - 1 : m - 0 : m - 0 : p - 0 : a - 0 : m - 0 : s - 2 : s - 0
where the first part is the number of broken packages in non - break
architectures + the total number of broken packages for all the
architectures .
"""
res = [ ]
total = 0
totalbreak = 0
for arch in self . options . architectures :
if arch in nuninst :
n = len ( nuninst [ arch ] )
elif original and arch in original :
n = len ( original [ arch ] )
else : continue
if arch in self . options . break_arches . split ( ) :
totalbreak = totalbreak + n
else :
total = total + n
res . append ( " %s - %d " % ( arch [ 0 ] , n ) )
return " %d + %d : %s " % ( total , totalbreak , " : " . join ( res ) )
def eval_uninst ( self , nuninst ) :
""" Return a string which represents the uninstallable packages
This method returns a string which represents the uninstallable
packages reading the uninstallability statistics ` nuninst ` .
An example of the output string is :
* i386 : broken - pkg1 , broken - pkg2
"""
parts = [ ]
for arch in self . options . architectures :
if arch in nuninst and len ( nuninst [ arch ] ) > 0 :
parts . append ( " * %s : %s \n " % ( arch , " , " . join ( sorted ( nuninst [ arch ] ) ) ) )
return " " . join ( parts )
def is_nuninst_asgood_generous ( self , old , new ) :
diff = 0
for arch in self . options . architectures :
if arch in self . options . break_arches . split ( ) : continue
diff = diff + ( len ( new [ arch ] ) - len ( old [ arch ] ) )
return diff < = 0
def check_installable ( self , pkg , arch , suite , excluded = [ ] , conflicts = False ) :
""" Check if a package is installable
This method analyzes the dependencies of the binary package specified
by the parameter ` pkg ' for the architecture `arch ' within the suite
` suite ' . If the dependency can be satisfied in the given `suite` and
` conflicts ` parameter is True , then the co - installability with
conflicts handling is checked .
The dependency fields checked are Pre - Depends and Depends .
The method returns a boolean which is True if the given package is
installable .
NOTE : this method has been deprecated , actually we use is_installable
from the britney c extension called within a testing system . See
self . build_systems for more information .
"""
self . __log ( " WARNING: method check_installable is deprecated: use is_installable instead! " , type = " E " )
# retrieve the binary package from the specified suite and arch
binary_u = self . binaries [ suite ] [ arch ] [ 0 ] [ pkg ]
# local copies for better performances
parse_depends = apt_pkg . ParseDepends
get_dependency_solvers = self . get_dependency_solvers
# analyze the dependency fields (if present)
for type in ( PREDEPENDS , DEPENDS ) :
if not binary_u [ type ] :
continue
# for every block of dependency (which is formed as conjunction of disconjunction)
for block in parse_depends ( binary_u [ type ] ) :
# if the block is not satisfied, return False
solved , packages = get_dependency_solvers ( block , arch , ' testing ' , excluded , strict = True )
if not solved :
return False
# otherwise, the package is installable (not considering conflicts)
# if the conflicts handling is enabled, then check conflicts before
# saying that the package is really installable
if conflicts :
return self . check_conflicts ( pkg , arch , excluded , { } , { } )
return True
def check_conflicts ( self , pkg , arch , broken , system , conflicts ) :
""" Check if a package can be installed satisfying the conflicts
This method checks if the ` pkg ` package from the ` arch ` architecture
can be installed ( excluding ` broken ` packages ) within the system
` system ` along with all its dependencies . This means that all the
conflicts relationships are checked in order to achieve the test
co - installability of the package .
The method returns a boolean which is True if the given package is
co - installable in the given system .
"""
# local copies for better performances
binaries = self . binaries [ ' testing ' ] [ arch ]
parse_depends = apt_pkg . ParseDepends
check_depends = apt_pkg . CheckDep
# unregister conflicts, local method to remove conflicts
# registered from a given package.
def unregister_conflicts ( pkg , conflicts ) :
for c in conflicts . keys ( ) :
i = 0
while i < len ( conflicts [ c ] ) :
if conflicts [ c ] [ i ] [ 3 ] == pkg :
del conflicts [ c ] [ i ]
else : i = i + 1
if len ( conflicts [ c ] ) == 0 :
del conflicts [ c ]
def remove_package ( pkg , system , conflicts ) :
for k in system :
if pkg in system [ k ] [ 1 ] :
system [ k ] [ 1 ] . remove ( pkg )
unregister_conflicts ( pkg , conflicts )
# handle a conflict, local method to solve a conflict which happened
# in the system; the behaviour of the conflict-solver is:
# 1. If there are alternatives for the package which must be removed,
# try them, and if one of them resolves the system return True;
# 2. If none of the alternatives can solve the conflict, then call
# itself for the package which depends on the conflicting package.
# 3. If the top of the dependency tree is reached, then the conflict
# can't be solved, so return False.
def handle_conflict ( pkg , source , system , conflicts ) :
# skip packages which don't have reverse dependencies
if source not in system or system [ source ] [ 1 ] == [ ] :
remove_package ( source , system , conflicts )
return ( system , conflicts )
# reached the top of the tree
if not system [ source ] [ 1 ] [ 0 ] :
return False
# remove its conflicts
unregister_conflicts ( source , conflicts )
# if there are alternatives, try them
alternatives = system [ source ] [ 0 ]
for alt in alternatives :
if satisfy ( alt , [ x for x in alternatives if x != alt ] , pkg_from = system [ source ] [ 1 ] ,
system = system , conflicts = conflicts , excluded = [ source ] ) :
remove_package ( source , system , conflicts )
return ( system , conflicts )
# there are no good alternatives, so remove the package which depends on it
for p in system [ source ] [ 1 ] :
# the package does not exist, we reached the top of the tree
if not p : return False
# we are providing the package we conflict on (eg. exim4 and mail-transfer-agent), skip it
if p == pkg : continue
output = handle_conflict ( pkg , p , system , conflicts )
if output :
system , conflicts = output
else : return False
remove_package ( source , system , conflicts )
return ( system , conflicts )
# dependency tree satisfier, local method which tries to satisfy the dependency
# tree for a given package. It calls itself recursively in order to check the
# co-installability of the full tree of dependency of the starting package.
# If a conflict is detected, it tries to handle it calling the handle_conflict
# method; if it can't be resolved, then it returns False.
def satisfy ( pkg , pkg_alt = None , pkg_from = None , system = system , conflicts = conflicts , excluded = [ ] ) :
# if it is a real package and it is already installed, skip it and return True
if pkg in binaries [ 0 ] :
if pkg in system :
if type ( pkg_from ) == list :
system [ pkg ] [ 1 ] . extend ( pkg_from )
else :
system [ pkg ] [ 1 ] . append ( pkg_from )
system [ pkg ] = ( system [ pkg ] [ 1 ] , filter ( lambda x : x in pkg_alt , system [ pkg ] [ 0 ] ) )
return True
binary_u = binaries [ 0 ] [ pkg ]
else : binary_u = None
# if it is a virtual package
providers = [ ]
if pkg_from and pkg in binaries [ 1 ] :
providers = binaries [ 1 ] [ pkg ]
# it is both real and virtual, so the providers are alternatives
if binary_u :
providers = filter ( lambda x : ( not pkg_alt or x not in pkg_alt ) and x != pkg , providers )
if not pkg_alt :
pkg_alt = [ ]
pkg_alt . extend ( providers )
# try all the alternatives and if none of them suits, give up and return False
else :
# if we already have a provider in the system, everything is ok and return True
if len ( filter ( lambda x : x in providers and x not in excluded , system ) ) > 0 :
return True
for p in providers :
# try to install the providers skipping excluded packages,
# which we already tried but do not work
if p in excluded : continue
elif satisfy ( p , [ a for a in providers if a != p ] , pkg_from ) :
return True
# if none of them suits, return False
return False
# if the package doesn't exist, return False
if not binary_u : return False
# it is broken, but we have providers
if pkg in broken and pkg_from :
for p in providers :
# try to install the providers skipping excluded packages,
# which we already tried but do not work
if p in excluded : continue
elif satisfy ( p , [ a for a in providers if a != p ] , pkg_from ) :
return True
return False
# install the package into the system, recording which package required it
if type ( pkg_from ) != list :
pkg_from = [ pkg_from ]
system [ pkg ] = ( pkg_alt or [ ] , pkg_from )
# register provided packages
if binary_u [ PROVIDES ] :
for p in binary_u [ PROVIDES ] :
if p in system :
# do not consider packages providing the one which we are checking
if len ( system [ p ] [ 1 ] ) == 1 and system [ p ] [ 1 ] [ 0 ] == None : continue
system [ p ] [ 1 ] . append ( pkg )
else :
system [ p ] = ( [ ] , [ pkg ] )
# check the conflicts
if pkg in conflicts :
for name , version , op , conflicting in conflicts [ pkg ] :
if conflicting in binary_u [ PROVIDES ] and system [ conflicting ] [ 1 ] == [ pkg ] : continue
if op == ' ' and version == ' ' or check_depends ( binary_u [ VERSION ] , op , version ) :
# if conflict is found, check if it can be solved removing
# already-installed packages without breaking the system; if
# this is not possible, give up and return False
output = handle_conflict ( pkg , conflicting , system . copy ( ) , conflicts . copy ( ) )
if output :
system , conflicts = output
else :
del system [ pkg ]
return False
# register conflicts from the just-installed package
if binary_u [ CONFLICTS ] :
for block in map ( operator . itemgetter ( 0 ) , parse_depends ( binary_u [ CONFLICTS ] or [ ] ) ) :
name , version , op = block
# skip conflicts for packages provided by itself
# if the conflicting package is in the system (and it is not a self-conflict)
if not ( name in binary_u [ PROVIDES ] and system [ name ] [ 1 ] == [ pkg ] ) and \
block [ 0 ] != pkg and block [ 0 ] in system :
if block [ 0 ] in binaries [ 0 ] :
binary_c = binaries [ 0 ] [ block [ 0 ] ]
else : binary_c = None
if op == ' ' and version == ' ' or binary_c and check_depends ( binary_c [ VERSION ] , op , version ) :
# if conflict is found, check if it can be solved removing
# already-installed packages without breaking the system; if
# this is not possible, give up and return False
output = handle_conflict ( pkg , name , system . copy ( ) , conflicts . copy ( ) )
if output :
system , conflicts = output
else :
del system [ pkg ]
unregister_conflicts ( pkg , conflicts )
return False
# register the conflict
if block [ 0 ] not in conflicts :
conflicts [ block [ 0 ] ] = [ ]
conflicts [ block [ 0 ] ] . append ( ( name , version , op , pkg ) )
# list all its dependencies ...
dependencies = [ ]
for key in ( PREDEPENDS , DEPENDS ) :
if not binary_u [ key ] : continue
dependencies . extend ( parse_depends ( binary_u [ key ] ) )
# ... and go through them
for block in dependencies :
# list the possible alternatives, in case of a conflict
alternatives = map ( operator . itemgetter ( 0 ) , block )
valid = False
for name , version , op in block :
# otherwise, if it is already installed or it is installable, the block is satisfied
if name in system or satisfy ( name , [ a for a in alternatives if a != name ] , pkg ) :
valid = True
break
# if the block can't be satisfied, the package is not installable so
# we need to remove it, its conflicts and its provided packages and
# return False
if not valid :
del system [ pkg ]
unregister_conflicts ( pkg , conflicts )
for p in providers :
if satisfy ( p , [ a for a in providers if a != p ] , pkg_from ) :
return True
return False
# if all the blocks have been satisfied, the package is installable
return True
# check the package at the top of the tree
return satisfy ( pkg )
def doop_source ( self , pkg ) :
""" Apply a change to the testing distribution as requested by `pkg`
This method applies the changes required by the action ` pkg ` tracking
them so it will be possible to revert them .
The method returns a list of the package name , the suite where the
package comes from , the list of packages affected by the change and
the dictionary undo which can be used to rollback the changes .
"""
undo = { ' binaries ' : { } , ' sources ' : { } , ' virtual ' : { } , ' nvirtual ' : [ ] }
affected = [ ]
arch = None
# local copies for better performances
sources = self . sources
binaries = self . binaries [ ' testing ' ]
# removal of single-arch binary package = "-<package>/<arch>"
if pkg [ 0 ] == " - " and " / " in pkg :
pkg_name , arch = pkg . split ( " / " )
pkg_name = pkg_name [ 1 : ]
suite = " testing "
# arch = "<source>/<arch>",
elif " / " in pkg :
pkg_name , arch = pkg . split ( " / " )
if arch . endswith ( " _tpu " ) :
arch , suite = arch . split ( " _ " )
else : suite = " unstable "
# removal of source packages = "-<source>",
elif pkg [ 0 ] == " - " :
pkg_name = pkg [ 1 : ]
suite = " testing "
# testing-proposed-updates = "<source>_tpu"
elif pkg . endswith ( " _tpu " ) :
pkg_name = pkg [ : - 4 ]
suite = " tpu "
# normal update of source packages = "<source>"
else :
pkg_name = pkg
suite = " unstable "
# remove all binary packages (if the source already exists)
if not ( arch and pkg [ 0 ] == ' - ' ) :
if pkg_name in sources [ ' testing ' ] :
source = sources [ ' testing ' ] [ pkg_name ]
# remove all the binaries
for p in source [ BINARIES ] :
binary , parch = p . split ( " / " )
if arch and parch != arch : continue
# do not remove binaries which have been hijacked by other sources
if binaries [ parch ] [ 0 ] [ binary ] [ SOURCE ] != pkg_name : continue
# if a smooth update is possible for the package, skip it
if not self . options . compatible and suite == ' unstable ' and \
binary not in self . binaries [ suite ] [ parch ] [ 0 ] and \
( ' ALL ' in self . options . smooth_updates or \
binaries [ parch ] [ 0 ] [ binary ] [ SECTION ] in self . options . smooth_updates ) :
continue
# save the old binary for undo
undo [ ' binaries ' ] [ p ] = binaries [ parch ] [ 0 ] [ binary ]
# all the reverse dependencies are affected by the change
for j in binaries [ parch ] [ 0 ] [ binary ] [ RDEPENDS ] :
key = ( j , parch )
if key not in affected : affected . append ( key )
for p in self . get_full_tree ( j , parch , ' testing ' ) :
key = ( p , parch )
if key not in affected : affected . append ( key )
# remove the provided virtual packages
for j in binaries [ parch ] [ 0 ] [ binary ] [ PROVIDES ] :
key = j + " / " + parch
if key not in undo [ ' virtual ' ] :
undo [ ' virtual ' ] [ key ] = binaries [ parch ] [ 1 ] [ j ] [ : ]
binaries [ parch ] [ 1 ] [ j ] . remove ( binary )
if len ( binaries [ parch ] [ 1 ] [ j ] ) == 0 :
del binaries [ parch ] [ 1 ] [ j ]
# finally, remove the binary package
del binaries [ parch ] [ 0 ] [ binary ]
self . systems [ parch ] . remove_binary ( binary )
# remove the source package
if not arch :
undo [ ' sources ' ] [ pkg_name ] = source
del sources [ ' testing ' ] [ pkg_name ]
else :
# the package didn't exist, so we mark it as to-be-removed in case of undo
undo [ ' sources ' ] [ ' - ' + pkg_name ] = True
# single binary removal
elif pkg_name in binaries [ arch ] [ 0 ] :
undo [ ' binaries ' ] [ pkg_name + " / " + arch ] = binaries [ arch ] [ 0 ] [ pkg_name ]
for j in binaries [ arch ] [ 0 ] [ pkg_name ] [ RDEPENDS ] :
key = ( j , arch )
if key not in affected : affected . append ( key )
del binaries [ arch ] [ 0 ] [ pkg_name ]
self . systems [ arch ] . remove_binary ( pkg_name )
# add the new binary packages (if we are not removing)
if pkg [ 0 ] != " - " :
source = sources [ suite ] [ pkg_name ]
for p in source [ BINARIES ] :
binary , parch = p . split ( " / " )
if arch and parch != arch : continue
key = ( binary , parch )
# obviously, added/modified packages are affected
if key not in affected : affected . append ( key )
# if the binary already exists (built from another source)
if binary in binaries [ parch ] [ 0 ] :
# save the old binary package
undo [ ' binaries ' ] [ p ] = binaries [ parch ] [ 0 ] [ binary ]
# all the reverse dependencies are affected by the change
for j in binaries [ parch ] [ 0 ] [ binary ] [ RDEPENDS ] :
key = ( j , parch )
if key not in affected : affected . append ( key )
# all the reverse conflicts and their dependency tree are affected by the change
for j in binaries [ parch ] [ 0 ] [ binary ] [ RCONFLICTS ] :
key = ( j , parch )
if key not in affected : affected . append ( key )
for p in self . get_full_tree ( j , parch , ' testing ' ) :
key = ( p , parch )
if key not in affected : affected . append ( key )
self . systems [ parch ] . remove_binary ( binary )
# add/update the binary package
binaries [ parch ] [ 0 ] [ binary ] = self . binaries [ suite ] [ parch ] [ 0 ] [ binary ]
self . systems [ parch ] . add_binary ( binary , binaries [ parch ] [ 0 ] [ binary ] [ : PROVIDES ] + \
[ " , " . join ( binaries [ parch ] [ 0 ] [ binary ] [ PROVIDES ] ) or None ] )
# register new provided packages
for j in binaries [ parch ] [ 0 ] [ binary ] [ PROVIDES ] :
key = j + " / " + parch
if j not in binaries [ parch ] [ 1 ] :
undo [ ' nvirtual ' ] . append ( key )
binaries [ parch ] [ 1 ] [ j ] = [ ]
elif key not in undo [ ' virtual ' ] :
undo [ ' virtual ' ] [ key ] = binaries [ parch ] [ 1 ] [ j ] [ : ]
binaries [ parch ] [ 1 ] [ j ] . append ( binary )
# all the reverse dependencies are affected by the change
for j in binaries [ parch ] [ 0 ] [ binary ] [ RDEPENDS ] :
key = ( j , parch )
if key not in affected : affected . append ( key )
# register reverse dependencies and conflicts for the new binary packages
for p in source [ BINARIES ] :
binary , parch = p . split ( " / " )
if arch and parch != arch : continue
self . register_reverses ( binary , binaries [ parch ] [ 0 ] , binaries [ parch ] [ 1 ] )
# add/update the source package
if not arch :
sources [ ' testing ' ] [ pkg_name ] = sources [ suite ] [ pkg_name ]
# return the package name, the suite, the list of affected packages and the undo dictionary
return ( pkg_name , suite , affected , undo )
def get_full_tree ( self , pkg , arch , suite ) :
""" Calculate the full dependency tree for the given package
This method returns the full dependency tree for the package ` pkg ` ,
inside the ` arch ` architecture for the suite ` suite ` .
"""
packages = [ pkg ]
binaries = self . binaries [ suite ] [ arch ] [ 0 ]
if pkg in binaries :
l = n = 0
while len ( packages ) > l :
l = len ( packages )
for p in packages [ n : ] :
packages . extend ( [ x for x in binaries [ p ] [ RDEPENDS ] if x not in packages and x in binaries ] )
n = l
return packages
else :
return [ ]
def iter_packages ( self , packages , selected , hint = False , nuninst = None ) :
""" Iter on the list of actions and apply them one-by-one
This method applies the changes from ` packages ` to testing , checking the uninstallability
counters for every action performed . If the action does not improve them , it is reverted .
The method returns the new uninstallability counters and the remaining actions if the
final result is successful , otherwise ( None , None ) .
"""
extra = [ ]
deferred = [ ]
skipped = [ ]
mark_passed = False
position = len ( packages )
if nuninst :
nuninst_comp = nuninst . copy ( )
else :
nuninst_comp = self . nuninst_orig . copy ( )
# local copies for better performance
binaries = self . binaries [ ' testing ' ]
sources = self . sources
systems = self . systems
architectures = self . options . architectures
nobreakall_arches = self . options . nobreakall_arches . split ( )
new_arches = self . options . new_arches . split ( )
break_arches = self . options . break_arches . split ( )
dependencies = self . dependencies
compatible = self . options . compatible
# pre-process a hint batch
pre_process = { }
if selected and hint :
for pkg in selected :
pkg_name , suite , affected , undo = self . doop_source ( pkg )
pre_process [ pkg ] = ( pkg_name , suite , affected , undo )
lundo = [ ]
if not hint :
self . output_write ( " recur: [ %s ] %s %d / %d \n " % ( " " , " , " . join ( selected ) , len ( packages ) , len ( extra ) ) )
# loop on the packages (or better, actions)
while packages :
pkg = packages . pop ( 0 )
# this is the marker for the first loop
if not compatible and not mark_passed and position < 0 :
mark_passed = True
packages . extend ( deferred )
del deferred
else : position - = 1
# defer packages if their dependency has been already skipped
if not compatible and not mark_passed :
defer = False
for p in dependencies . get ( pkg , [ ] ) :
if p in skipped :
deferred . append ( pkg )
skipped . append ( pkg )
defer = True
break
if defer : continue
if not hint :
self . output_write ( " trying: %s \n " % ( pkg ) )
better = True
nuninst = { }
# apply the changes
if pkg in pre_process :
pkg_name , suite , affected , undo = pre_process [ pkg ]
else :
pkg_name , suite , affected , undo = self . doop_source ( pkg )
if hint :
lundo . append ( ( undo , pkg , pkg_name , suite ) )
# check the affected packages on all the architectures
for arch in ( " / " in pkg and ( pkg . split ( " / " ) [ 1 ] . split ( " _ " ) [ 0 ] , ) or architectures ) :
if arch not in nobreakall_arches :
skip_archall = True
else : skip_archall = False
nuninst [ arch ] = set ( [ x for x in nuninst_comp [ arch ] if x in binaries [ arch ] [ 0 ] ] )
nuninst [ arch + " +all " ] = set ( [ x for x in nuninst_comp [ arch + " +all " ] if x in binaries [ arch ] [ 0 ] ] )
broken = nuninst [ arch + " +all " ]
to_check = [ ]
# broken packages (first round)
for p in [ x [ 0 ] for x in affected if x [ 1 ] == arch ] :
if p not in binaries [ arch ] [ 0 ] : continue
r = systems [ arch ] . is_installable ( p )
if not r and p not in broken :
to_check . append ( p )
broken . add ( p )
if not ( skip_archall and binaries [ arch ] [ 0 ] [ p ] [ ARCHITECTURE ] == ' all ' ) :
nuninst [ arch ] . add ( p )
elif r and p in broken :
to_check . append ( p )
broken . remove ( p )
if not ( skip_archall and binaries [ arch ] [ 0 ] [ p ] [ ARCHITECTURE ] == ' all ' ) :
# if the package was previously arch:all and uninstallable
# and has moved to being architecture-dependent, becoming
# installable in the process then it will not be in the
# architecture-dependent uninstallability set; therefore,
# don't try removing it
if p in nuninst [ arch ] :
nuninst [ arch ] . remove ( p )
# broken packages (second round, reverse dependencies of the first round)
while to_check :
j = to_check . pop ( 0 )
if j not in binaries [ arch ] [ 0 ] : continue
for p in binaries [ arch ] [ 0 ] [ j ] [ RDEPENDS ] :
if p in broken or p not in binaries [ arch ] [ 0 ] : continue
r = systems [ arch ] . is_installable ( p )
if not r and p not in broken :
broken . add ( p )
to_check . append ( p )
if not ( skip_archall and binaries [ arch ] [ 0 ] [ p ] [ ARCHITECTURE ] == ' all ' ) :
nuninst [ arch ] . add ( p )
elif r and p in nuninst [ arch + " +all " ] :
broken . remove ( p )
to_check . append ( p )
if not ( skip_archall and binaries [ arch ] [ 0 ] [ p ] [ ARCHITECTURE ] == ' all ' ) :
# if the package was previously arch:all and uninstallable
# and has moved to being architecture-dependent, becoming
# installable in the process then it will not be in the
# architecture-dependent uninstallability set; therefore,
# don't try removing it
if p in nuninst [ arch ] :
nuninst [ arch ] . remove ( p )
# if we are processing hints, go ahead
if hint :
nuninst_comp [ arch ] = nuninst [ arch ]
nuninst_comp [ arch + " +all " ] = nuninst [ arch + " +all " ]
continue
# if the uninstallability counter is worse than before, break the loop
if ( ( " / " in pkg and arch not in new_arches ) or \
( arch not in break_arches ) ) and len ( nuninst [ arch ] ) > len ( nuninst_comp [ arch ] ) :
better = False
break
# if we are processing hints or the package is already accepted, go ahead
if hint or pkg in selected : continue
# check if the action improved the uninstallability counters
if better :
lundo . append ( ( undo , pkg , pkg_name , suite ) )
selected . append ( pkg )
packages . extend ( extra )
extra = [ ]
self . output_write ( " accepted: %s \n " % ( pkg ) )
self . output_write ( " ori: %s \n " % ( self . eval_nuninst ( self . nuninst_orig ) ) )
self . output_write ( " pre: %s \n " % ( self . eval_nuninst ( nuninst_comp ) ) )
self . output_write ( " now: %s \n " % ( self . eval_nuninst ( nuninst , nuninst_comp ) ) )
if len ( selected ) < = 20 :
self . output_write ( " all: %s \n " % ( " " . join ( selected ) ) )
else :
self . output_write ( " most: ( %d ) .. %s \n " % ( len ( selected ) , " " . join ( selected [ - 20 : ] ) ) )
for k in nuninst :
nuninst_comp [ k ] = nuninst [ k ]
else :
self . output_write ( " skipped: %s ( %d <- %d ) \n " % ( pkg , len ( extra ) , len ( packages ) ) )
self . output_write ( " got: %s \n " % ( self . eval_nuninst ( nuninst , " / " in pkg and nuninst_comp or None ) ) )
self . output_write ( " * %s : %s \n " % ( arch , " , " . join ( sorted ( [ b for b in nuninst [ arch ] if b not in nuninst_comp [ arch ] ] ) ) ) )
extra . append ( pkg )
if not mark_passed :
skipped . append ( pkg )
# undo the changes (source)
for k in undo [ ' sources ' ] . keys ( ) :
if k [ 0 ] == ' - ' :
del sources [ ' testing ' ] [ k [ 1 : ] ]
else : sources [ ' testing ' ] [ k ] = undo [ ' sources ' ] [ k ]
# undo the changes (new binaries)
if pkg [ 0 ] != ' - ' and pkg_name in sources [ suite ] :
for p in sources [ suite ] [ pkg_name ] [ BINARIES ] :
binary , arch = p . split ( " / " )
if ' / ' not in pkg or pkg . endswith ( " / %s " % ( arch ) ) or pkg . endswith ( " / %s _tpu " % ( arch ) ) :
del binaries [ arch ] [ 0 ] [ binary ]
self . systems [ arch ] . remove_binary ( binary )
# undo the changes (binaries)
for p in undo [ ' binaries ' ] . keys ( ) :
binary , arch = p . split ( " / " )
if binary [ 0 ] == " - " :
del binaries [ arch ] [ 0 ] [ binary [ 1 : ] ]
self . systems [ arch ] . remove_binary ( binary [ 1 : ] )
else :
binaries [ arch ] [ 0 ] [ binary ] = undo [ ' binaries ' ] [ p ]
self . systems [ arch ] . remove_binary ( binary )
self . systems [ arch ] . add_binary ( binary , binaries [ arch ] [ 0 ] [ binary ] [ : PROVIDES ] + \
[ " , " . join ( binaries [ arch ] [ 0 ] [ binary ] [ PROVIDES ] ) or None ] )
# undo the changes (virtual packages)
for p in undo [ ' nvirtual ' ] :
j , arch = p . split ( " / " )
del binaries [ arch ] [ 1 ] [ j ]
for p in undo [ ' virtual ' ] :
j , arch = p . split ( " / " )
if j [ 0 ] == ' - ' :
del binaries [ arch ] [ 1 ] [ j [ 1 : ] ]
else : binaries [ arch ] [ 1 ] [ j ] = undo [ ' virtual ' ] [ p ]
# if we are processing hints, return now
if hint :
return ( nuninst_comp , [ ] , lundo )
self . output_write ( " finish: [ %s ] \n " % " , " . join ( selected ) )
self . output_write ( " endloop: %s \n " % ( self . eval_nuninst ( self . nuninst_orig ) ) )
self . output_write ( " now: %s \n " % ( self . eval_nuninst ( nuninst_comp ) ) )
self . output_write ( self . eval_uninst ( self . newlyuninst ( self . nuninst_orig , nuninst_comp ) ) )
self . output_write ( " \n " )
return ( nuninst_comp , extra , lundo )
def do_all ( self , maxdepth = 0 , init = None , actions = None ) :
""" Testing update runner
This method tries to update testing checking the uninstallability
counters before and after the actions to decide if the update was
successful or not .
"""
selected = [ ]
if actions :
upgrade_me = actions [ : ]
else :
upgrade_me = self . upgrade_me [ : ]
nuninst_start = self . nuninst_orig
# these are special parameters for hints processing
undo = False
force = False
earlyabort = False
if maxdepth == " easy " or maxdepth < 0 :
force = maxdepth < 0
earlyabort = True
maxdepth = 0
# if we have a list of initial packages, check them
if init :
self . output_write ( " leading: %s \n " % ( " , " . join ( init ) ) )
for x in init :
if x not in upgrade_me :
self . output_write ( " failed: %s \n " % ( x ) )
return None
selected . append ( x )
upgrade_me . remove ( x )
self . output_write ( " start: %s \n " % self . eval_nuninst ( nuninst_start ) )
if not force :
self . output_write ( " orig: %s \n " % self . eval_nuninst ( nuninst_start ) )
if earlyabort :
extra = upgrade_me [ : ]
( nuninst_end , extra , lundo ) = self . iter_packages ( init , selected , hint = True )
undo = True
if force :
self . output_write ( " orig: %s \n " % self . eval_nuninst ( nuninst_end ) )
self . output_write ( " easy: %s \n " % ( self . eval_nuninst ( nuninst_end ) ) )
if not force :
self . output_write ( self . eval_uninst ( self . newlyuninst ( nuninst_start , nuninst_end ) ) + " \n " )
if not force and not self . is_nuninst_asgood_generous ( self . nuninst_orig , nuninst_end ) :
nuninst_end , extra = None , None
else :
lundo = [ ]
if init :
( nuninst_end , extra , tundo ) = self . iter_packages ( init , selected , hint = True )
lundo . extend ( tundo )
undo = True
else : nuninst_end = None
( nuninst_end , extra , tundo ) = self . iter_packages ( upgrade_me , selected , nuninst = nuninst_end )
lundo . extend ( tundo )
if not self . is_nuninst_asgood_generous ( self . nuninst_orig , nuninst_end ) :
nuninst_end , extra = None , None
if nuninst_end :
if not force and not earlyabort :
self . output_write ( " Apparently successful \n " )
self . output_write ( " final: %s \n " % " , " . join ( sorted ( selected ) ) )
self . output_write ( " start: %s \n " % self . eval_nuninst ( nuninst_start ) )
if not force :
self . output_write ( " orig: %s \n " % self . eval_nuninst ( self . nuninst_orig ) )
else :
self . output_write ( " orig: %s \n " % self . eval_nuninst ( nuninst_end ) )
self . output_write ( " end: %s \n " % self . eval_nuninst ( nuninst_end ) )
if force :
self . output_write ( " force breaks: \n " )
self . output_write ( self . eval_uninst ( self . newlyuninst ( nuninst_start , nuninst_end ) ) + " \n " )
self . output_write ( " SUCCESS ( %d / %d ) \n " % ( len ( actions or self . upgrade_me ) , len ( extra ) ) )
self . nuninst_orig = nuninst_end
if not actions :
if not earlyabort :
self . upgrade_me = sorted ( extra )
else :
self . upgrade_me = [ x for x in self . upgrade_me if x not in selected ]
if not self . options . compatible :
self . sort_actions ( )
else :
self . output_write ( " FAILED \n " )
if not undo : return
# undo all the changes
for ( undo , pkg , pkg_name , suite ) in lundo :
# undo the changes (source)
for k in undo [ ' sources ' ] . keys ( ) :
if k [ 0 ] == ' - ' :
del self . sources [ ' testing ' ] [ k [ 1 : ] ]
else : self . sources [ ' testing ' ] [ k ] = undo [ ' sources ' ] [ k ]
# undo the changes (new binaries)
if pkg [ 0 ] != ' - ' and pkg_name in self . sources [ suite ] :
for p in self . sources [ suite ] [ pkg_name ] [ BINARIES ] :
binary , arch = p . split ( " / " )
if ' / ' not in pkg or pkg . endswith ( " / %s " % ( arch ) ) or pkg . endswith ( " / %s _tpu " % ( arch ) ) :
del self . binaries [ ' testing ' ] [ arch ] [ 0 ] [ binary ]
self . systems [ arch ] . remove_binary ( binary )
# undo the changes (binaries)
for p in undo [ ' binaries ' ] . keys ( ) :
binary , arch = p . split ( " / " )
if binary [ 0 ] == " - " :
del self . binaries [ ' testing ' ] [ arch ] [ 0 ] [ binary [ 1 : ] ]
self . systems [ arch ] . remove_binary ( binary [ 1 : ] )
else : self . binaries [ ' testing ' ] [ arch ] [ 0 ] [ binary ] = undo [ ' binaries ' ] [ p ]
# undo the changes (virtual packages)
for p in undo [ ' nvirtual ' ] :
j , arch = p . split ( " / " )
del self . binaries [ ' testing ' ] [ arch ] [ 1 ] [ j ]
for p in undo [ ' virtual ' ] :
j , arch = p . split ( " / " )
if j [ 0 ] == ' - ' :
del self . binaries [ ' testing ' ] [ arch ] [ 1 ] [ j [ 1 : ] ]
else : self . binaries [ ' testing ' ] [ arch ] [ 1 ] [ j ] = undo [ ' virtual ' ] [ p ]
def upgrade_testing ( self ) :
""" Upgrade testing using the unstable packages
This method tries to upgrade testing using the packages from unstable .
Before running the do_all method , it tries the easy and force - hint
commands .
"""
self . __log ( " Starting the upgrade test " , type = " I " )
self . output_write ( " Generated on: %s \n " % ( time . strftime ( " % Y. % m. %d % H: % M: % S % z " , time . gmtime ( time . time ( ) ) ) ) )
self . output_write ( " Arch order is: %s \n " % " , " . join ( self . options . architectures ) )
self . __log ( " > Calculating current uninstallability counters " , type = " I " )
self . nuninst_orig = self . get_nuninst ( )
if not self . options . actions :
# process `easy' hints
for x in self . hints [ ' easy ' ] :
self . do_hint ( " easy " , x [ 0 ] , x [ 1 ] )
# process `force-hint' hints
for x in self . hints [ " force-hint " ] :
self . do_hint ( " force-hint " , x [ 0 ] , x [ 1 ] )
# run the first round of the upgrade
self . __log ( " > First loop on the packages with depth = 0 " , type = " I " )
# separate runs for break arches
allpackages = [ ]
normpackages = self . upgrade_me [ : ]
archpackages = { }
for a in self . options . break_arches . split ( ) :
archpackages [ a ] = [ p for p in normpackages if p . endswith ( " / " + a ) or p . endswith ( " / " + a + " _tpu " ) ]
normpackages = [ p for p in normpackages if p not in archpackages [ a ] ]
self . upgrade_me = normpackages
self . output_write ( " info: main run \n " )
self . do_all ( )
allpackages + = self . upgrade_me
for a in self . options . break_arches . split ( ) :
backup = self . options . break_arches
self . options . break_arches = " " . join ( [ x for x in self . options . break_arches . split ( ) if x != a ] )
self . upgrade_me = archpackages [ a ]
self . output_write ( " info: broken arch run for %s \n " % ( a ) )
self . do_all ( )
allpackages + = self . upgrade_me
self . options . break_arches = backup
self . upgrade_me = allpackages
if self . options . actions :
return
# process `hint' hints
hintcnt = 0
for x in self . hints [ " hint " ] [ : 50 ] :
if hintcnt > 50 :
self . output_write ( " Skipping remaining hints... " )
break
if self . do_hint ( " hint " , x [ 0 ] , x [ 1 ] ) :
hintcnt + = 1
# run the auto hinter
if not self . options . compatible or self . options . autohinter :
self . auto_hinter ( )
# smooth updates
if not self . options . compatible and len ( self . options . smooth_updates ) > 0 :
self . __log ( " > Removing old packages left in testing from smooth updates " , type = " I " )
removals = self . old_libraries ( )
if len ( removals ) > 0 :
self . output_write ( " Removing packages left in testing for smooth updates ( %d ): \n %s " % \
( len ( removals ) , self . old_libraries_format ( removals ) ) )
self . do_all ( actions = removals )
removals = self . old_libraries ( )
else :
removals = ( )
if not self . options . compatible :
self . output_write ( " List of old libraries in testing ( %d ): \n %s " % \
( len ( removals ) , self . old_libraries_format ( removals ) ) )
# output files
if not self . options . dry_run :
# re-write control files
if self . options . control_files :
self . write_controlfiles ( self . options . testing , ' testing ' )
# write bugs and dates
# XXX: disabled, we don't have write permission over there
# self.write_dates(self.options.testing, self.dates)
# write HeidiResult
self . write_heidi ( self . options . heidi_output )
self . __log ( " Test completed! " , type = " I " )
def hint_tester ( self ) :
""" Run a command line interface to test hints
This method provides a command line interface for the release team to
try hints and evaulate the results .
"""
self . __log ( " > Calculating current uninstallability counters " , type = " I " )
self . nuninst_orig = self . get_nuninst ( )
import readline
histfile = os . path . expanduser ( ' ~/.britney2_history ' )
if os . path . exists ( histfile ) :
readline . read_history_file ( histfile )
while True :
# read the command from the command line
try :
input = raw_input ( ' britney> ' ) . lower ( ) . split ( )
except EOFError :
print " "
break
except KeyboardInterrupt :
print " "
continue
# quit the hint tester
if input and input [ 0 ] in ( ' quit ' , ' exit ' ) :
break
# run a hint
elif input and input [ 0 ] in ( ' easy ' , ' hint ' , ' force-hint ' ) :
try :
self . do_hint ( input [ 0 ] , ' hint-tester ' ,
[ k . rsplit ( " / " , 1 ) for k in input [ 1 : ] if " / " in k ] )
except KeyboardInterrupt :
continue
readline . write_history_file ( histfile )
def do_hint ( self , type , who , pkgvers ) :
""" Process hints
This method process ` easy ` , ` hint ` and ` force - hint ` hints . If the
requested version is not in unstable , then the hint is skipped .
"""
hintinfo = { " easy " : " easy " ,
" hint " : 0 ,
" force-hint " : - 1 , }
self . __log ( " > Processing ' %s ' hint from %s " % ( type , who ) , type = " I " )
self . output_write ( " Trying %s from %s : %s \n " % ( type , who , " " . join ( [ " %s / %s " % ( p , v ) for ( p , v ) in pkgvers ] ) ) )
ok = True
# loop on the requested packages and versions
for pkg , v in pkgvers :
# remove architecture
if " / " in pkg :
pkg = pkg [ : pkg . find ( " / " ) ]
# skip removal requests
if pkg [ 0 ] == " - " :
continue
# handle testing-proposed-updates
elif pkg . endswith ( " _tpu " ) :
pkg = pkg [ : - 4 ]
if pkg not in self . sources [ ' tpu ' ] : continue
if apt_pkg . VersionCompare ( self . sources [ ' tpu ' ] [ pkg ] [ VERSION ] , v ) != 0 :
self . output_write ( " Version mismatch, %s %s != %s \n " % ( pkg , v , self . sources [ ' tpu ' ] [ pkg ] [ VERSION ] ) )
ok = False
# does the package exist in unstable?
elif pkg not in self . sources [ ' unstable ' ] :
self . output_write ( " Source %s has no version in unstable \n " % pkg )
ok = False
elif apt_pkg . VersionCompare ( self . sources [ ' unstable ' ] [ pkg ] [ VERSION ] , v ) != 0 :
self . output_write ( " Version mismatch, %s %s != %s \n " % ( pkg , v , self . sources [ ' unstable ' ] [ pkg ] [ VERSION ] ) )
ok = False
if not ok :
self . output_write ( " Not using hint \n " )
return False
self . do_all ( hintinfo [ type ] , map ( operator . itemgetter ( 0 ) , pkgvers ) )
return True
def sort_actions ( self ) :
""" Sort actions in a smart way
This method sorts the list of actions in a smart way . In detail , it uses
as the base sort the number of days the excuse is old , then reorders packages
so the ones with most reverse dependencies are at the end of the loop .
If an action depends on another one , it is put after it .
"""
upgrade_me = [ x . name for x in self . excuses if x . name in self . upgrade_me ]
for e in self . excuses :
if e . name not in upgrade_me : continue
# try removes at the end of the loop
elif e . name [ 0 ] == ' - ' :
upgrade_me . remove ( e . name )
upgrade_me . append ( e . name )
# otherwise, put it in a good position checking its dependencies
else :
pos = [ ]
udeps = [ upgrade_me . index ( x ) for x in e . deps if x in upgrade_me and x != e . name ]
if len ( udeps ) > 0 :
pos . append ( max ( udeps ) )
sdeps = [ upgrade_me . index ( x ) for x in e . sane_deps if x in upgrade_me and x != e . name ]
if len ( sdeps ) > 0 :
pos . append ( min ( sdeps ) )
if len ( pos ) == 0 : continue
upgrade_me . remove ( e . name )
upgrade_me . insert ( max ( pos ) + 1 , e . name )
self . dependencies [ e . name ] = e . deps
# replace the list of actions with the new one
self . upgrade_me = upgrade_me
def auto_hinter ( self ) :
""" Auto hint circular dependencies
This method tries to auto hint circular dependencies analyzing the update
excuses relationships . If they build a circular dependency , which we already
know as not - working with the standard do_all algorithm , try to ` easy ` them .
"""
self . __log ( " > Processing hints from the auto hinter " , type = " I " )
# consider only excuses which are valid candidates
excuses = dict ( [ ( x . name , x ) for x in self . excuses if x . name in self . upgrade_me ] )
def find_related ( e , hint , first = False ) :
if e not in excuses :
return False
excuse = excuses [ e ]
if e in self . sources [ ' testing ' ] and self . sources [ ' testing ' ] [ e ] [ VERSION ] == excuse . ver [ 1 ] :
return True
if not first :
hint [ e ] = excuse . ver [ 1 ]
if len ( excuse . deps ) == 0 :
return hint
for p in excuse . deps :
if p in hint : continue
if not find_related ( p , hint ) :
return False
return hint
# loop on them
cache = [ ]
for e in excuses :
excuse = excuses [ e ]
if e in self . sources [ ' testing ' ] and self . sources [ ' testing ' ] [ e ] [ VERSION ] == excuse . ver [ 1 ] or \
len ( excuse . deps ) == 0 :
continue
hint = find_related ( e , { } , True )
if hint and e in hint and hint not in cache :
self . do_hint ( " easy " , " autohinter " , hint . items ( ) )
cache . append ( hint )
def old_libraries ( self ) :
""" Detect old libraries left in testing for smooth transitions
This method detects old libraries which are in testing but no longer
built from the source package : they are still there because other
packages still depend on them , but they should be removed as soon
as possible .
"""
sources = self . sources [ ' testing ' ]
testing = self . binaries [ ' testing ' ]
unstable = self . binaries [ ' unstable ' ]
removals = [ ]
for arch in self . options . architectures :
for pkg_name in testing [ arch ] [ 0 ] :
pkg = testing [ arch ] [ 0 ] [ pkg_name ]
if pkg_name not in unstable [ arch ] [ 0 ] and \
not self . same_source ( sources [ pkg [ SOURCE ] ] [ VERSION ] , pkg [ SOURCEVER ] ) :
removals . append ( " - " + pkg_name + " / " + arch )
return removals
def old_libraries_format ( self , libs ) :
""" Format old libraries in a smart table """
libraries = { }
for i in libs :
pkg , arch = i . split ( " / " )
pkg = pkg [ 1 : ]
if pkg in libraries :
libraries [ pkg ] . append ( arch )
else :
libraries [ pkg ] = [ arch ]
return " \n " . join ( [ " " + k + " : " + " " . join ( libraries [ k ] ) for k in libraries ] ) + " \n "
def nuninst_arch_report ( self , nuninst , arch ) :
""" Print a report of uninstallable packages for one architecture. """
all = { }
for p in nuninst [ arch ] :
pkg = self . binaries [ ' testing ' ] [ arch ] [ 0 ] [ p ]
all . setdefault ( ( pkg [ SOURCE ] , pkg [ SOURCEVER ] ) , set ( ) ) . add ( p )
print ' * %s ' % ( arch , )
for ( src , ver ) , pkgs in sorted ( all . items ( ) ) :
print ' %s ( %s ): %s ' % ( src , ver , ' ' . join ( sorted ( pkgs ) ) )
print
def output_write ( self , msg ) :
""" Simple wrapper for output writing """
print msg ,
self . __output . write ( msg )
def main ( self ) :
""" Main method
This is the entry point for the class : it includes the list of calls
for the member methods which will produce the output files .
"""
# if running in --print-uninst mode, quit
if self . options . print_uninst :
return
# if no actions are provided, build the excuses and sort them
elif not self . options . actions :
self . write_excuses ( )
if not self . options . compatible :
self . sort_actions ( )
# otherwise, use the actions provided by the command line
else :
self . upgrade_me = self . options . actions . split ( )
self . __output = open ( self . options . upgrade_output , ' w ' )
# run the hint tester
if self . options . hint_tester :
self . hint_tester ( )
# run the upgrade test
else :
self . upgrade_testing ( )
self . __output . close ( )
if __name__ == ' __main__ ' :
Britney ( ) . main ( )