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// cmdline_util.cc
//
// Copyright 2004 Daniel Burrows
#include "cmdline_util.h"
#include "cmdline_common.h"
#include "cmdline_progress.h"
#include "cmdline_show.h" // For operator<<
#include <aptitude.h>
#include <ui.h>
#include <progress.h>
#include <generic/apt/apt.h>
#include <generic/apt/config_signal.h>
#include <generic/apt/download_manager.h>
#include <generic/apt/download_signal_log.h>
#include <generic/apt/matchers.h>
#include <cwidget/fragment.h>
#include <cwidget/toplevel.h>
#include <cwidget/generic/util/ssprintf.h>
#include <sigc++/bind.h>
#include <sigc++/functors/ptr_fun.h>
#include <apt-pkg/error.h>
#include <apt-pkg/indexfile.h>
#include <apt-pkg/metaindex.h>
#include <apt-pkg/pkgsystem.h>
#include <apt-pkg/sourcelist.h>
#include <apt-pkg/version.h>
namespace cw = cwidget;
namespace
{
const int no_install_run_from_ui_preview_return = -1;
const int ui_preview_install_failed_return = -1;
// Completion routine for the UI preview; causes the program to
// return 0 if the install succeded and 1 otherwise.
//
// There's a question in my mind of what to do if the user cancels
// the preview or runs multiple previews. At the moment we return
// -1 if the preview is cancelled and the result of the last install
// run otherwise.
void ui_preview_complete(bool success, int *result)
{
*result = success ? 0 : ui_preview_install_failed_return;
}
}
void ui_preview()
{
int result = no_install_run_from_ui_preview_return;
ui_init();
file_quit.connect(sigc::ptr_fun(cwidget::toplevel::exitmain));
install_finished.connect(sigc::bind(sigc::ptr_fun(ui_preview_complete),
&result));
do_package_run_or_show_preview();
ui_main();
exit(result);
}
void ui_solution_screen()
{
ui_init();
file_quit.connect(sigc::ptr_fun(cwidget::toplevel::exitmain));
progress_ref p = gen_progress_bar();
do_new_package_view(*p.unsafe_get_ref());
do_examine_solution();
ui_main();
exit(0);
}
void cmdline_show_stringlist(strvector &items)
{
int loc=2;
printf(" ");
for(strvector::iterator i=items.begin(); i!=items.end(); ++i)
{
if(loc+i->size()>screen_width-5)
{
printf("\n ");
loc=2;
}
printf("%s ", i->c_str());
loc+=i->size()+1;
}
printf("\n");
}
void cmdline_show_pkglist(pkgvector &items)
{
strvector tmp;
for(pkgvector::iterator i=items.begin(); i!=items.end(); ++i)
tmp.push_back(i->Name());
cmdline_show_stringlist(tmp);
}
pkgCache::VerIterator cmdline_find_ver(pkgCache::PkgIterator pkg,
cmdline_version_source source,
string sourcestr)
{
switch(source)
{
case cmdline_version_curr_or_cand:
if(!pkg.CurrentVer().end())
return pkg.CurrentVer();
// Fall-through.
case cmdline_version_cand:
{
pkgCache::VerIterator candver=(*apt_cache_file)[pkg].CandidateVerIter(*apt_cache_file);
if(candver.end())
{
if(source == cmdline_version_cand)
printf(_("No candidate version found for %s\n"), pkg.Name());
else
printf(_("No current or candidate version found for %s\n"), pkg.Name());
}
return candver;
}
case cmdline_version_archive:
for(pkgCache::VerIterator ver=pkg.VersionList(); !ver.end(); ++ver)
for(pkgCache::VerFileIterator verfile=ver.FileList();
!verfile.end(); ++verfile)
{
pkgCache::PkgFileIterator pkgfile=verfile.File();
if(pkgfile.Archive() && sourcestr==pkgfile.Archive())
return ver;
}
printf(_("Unable to find an archive \"%s\" for the package \"%s\"\n"),
sourcestr.c_str(),
pkg.Name());
return pkgCache::VerIterator(*apt_cache_file, 0);
case cmdline_version_version:
for(pkgCache::VerIterator ver=pkg.VersionList(); !ver.end(); ++ver)
if(sourcestr==ver.VerStr())
return ver;
printf(_("Unable to find a version \"%s\" for the package \"%s\"\n"),
sourcestr.c_str(),
pkg.Name());
return pkgCache::VerIterator(*apt_cache_file, 0);
default:
printf(_("Internal error: invalid value %i passed to cmdline_find_ver!\n"),
source);
return pkg.VersionList();
}
}
bool cmdline_parse_source(const string &input,
cmdline_version_source &source,
string &package,
string &sourcestr)
{
string scratch=input;
source=cmdline_version_cand;
sourcestr="";
if(scratch.find('/')!=scratch.npos)
{
source=cmdline_version_archive;
// Use the last one.
string::size_type loc=scratch.rfind('/');
sourcestr=string(scratch, loc+1);
scratch.erase(loc);
}
if(scratch.find('=')!=scratch.npos)
{
if(source==cmdline_version_archive)
{
printf(_("You cannot specify both an archive and a version for a package\n"));
return false;
}
source=cmdline_version_version;
string::size_type loc=scratch.rfind('=');
sourcestr=string(scratch, loc+1);
scratch.erase(loc);
}
package=scratch;
return true;
}
namespace
{
/** \brief Used to display some statistics about how the cache
* changed after an update.
*
* Perhaps this should be extended to other commands too?
*/
class stats
{
int num_broken;
int num_upgradable;
int num_new;
std::set<pkgCache::PkgIterator> obsolete;
public:
stats(int _num_broken, int _num_upgradable, int _num_new,
const std::set<pkgCache::PkgIterator> &_obsolete)
: num_broken(_num_broken),
num_upgradable(_num_upgradable),
num_new(_num_new),
obsolete(_obsolete)
{
}
int get_num_broken() const { return num_broken; }
int get_num_upgradable() const { return num_upgradable; }
int get_num_new() const { return num_new; }
const std::set<pkgCache::PkgIterator> &get_obsolete() const { return obsolete; }
};
stats compute_apt_stats()
{
int num_upgradable = 0;
int num_new = 0;
int num_broken = 0;
std::set<pkgCache::PkgIterator> obsolete;
if(apt_cache_file == NULL)
return stats(0, 0, 0, obsolete);
for(pkgCache::PkgIterator p = (*apt_cache_file)->PkgBegin();
!p.end(); ++p)
{
if(pkg_obsolete(p))
obsolete.insert(p);
const pkgDepCache::StateCache &state = (*apt_cache_file)[p];
const aptitudeDepCache::aptitude_state &estate =
(*apt_cache_file)->get_ext_state(p);
// Q: this will count to-be-removed packages, should it?
if(state.Status != 2 && state.Upgradable())
++num_upgradable;
if(state.NowBroken())
++num_broken;
if((state.Status != 2 || state.CandidateVer != NULL) &&
estate.new_package)
++num_new;
}
return stats(num_broken, num_upgradable, num_new, obsolete);
}
void show_stats_change(stats initial, stats final,
bool show_all,
bool show_unchanged)
{
using cw::fragf;
using cw::util::ssprintf;
std::vector<cw::fragment *> fragments;
if(show_all ||
(show_unchanged && final.get_num_broken() != 0) ||
final.get_num_broken() != initial.get_num_broken())
{
std::string change =
ssprintf(ngettext("%d broken [%+d]",
"%d broken [%+d]",
final.get_num_broken()),
final.get_num_broken(),
final.get_num_broken() - initial.get_num_broken());
fragments.push_back(cw::text_fragment(change));
}
if(show_all ||
(show_unchanged && final.get_num_upgradable() != 0) ||
final.get_num_upgradable() != initial.get_num_upgradable())
{
std::string change =
ssprintf(ngettext("%d update [%+d]",
"%d updates [%+d]",
final.get_num_upgradable()),
final.get_num_upgradable(),
final.get_num_upgradable() - initial.get_num_upgradable());
fragments.push_back(cw::text_fragment(change));
}
if(show_all ||
(show_unchanged && final.get_num_new() != 0) ||
final.get_num_new() != initial.get_num_new())
{
std::string change =
ssprintf(ngettext("%d new [%+d]",
"%d new [%+d]",
final.get_num_new()),
final.get_num_new(),
final.get_num_new() - initial.get_num_new());
fragments.push_back(cw::text_fragment(change));
}
std::vector<cw::fragment *> output_fragments;
if(fragments.size() > 0)
output_fragments.push_back(fragf(_("There are now %F."),
cw::join_fragments(fragments, L", ")));
std::vector<pkgCache::PkgIterator> new_obsolete;
std::set_difference(final.get_obsolete().begin(), final.get_obsolete().end(),
initial.get_obsolete().begin(), initial.get_obsolete().end(),
std::back_insert_iterator<std::vector<pkgCache::PkgIterator> >(new_obsolete));
const int obsolete_list_limit = aptcfg->FindI(PACKAGE "::Max-Obsolete-List-Length", 50);
if(new_obsolete.size() > obsolete_list_limit)
{
output_fragments.push_back(cw::text_fragment(ssprintf(ngettext("There is %d newly obsolete package.",
"There are %d newly obsolete packages.",
new_obsolete.size()),
new_obsolete.size())));
}
else if(new_obsolete.size() > 0)
{
std::vector<cw::fragment *> package_name_fragments;
for(std::vector<pkgCache::PkgIterator>::const_iterator it =
new_obsolete.begin(); it != new_obsolete.end(); ++it)
package_name_fragments.push_back(cw::text_fragment(it->Name()));
output_fragments.push_back(cw::dropbox(cw::text_fragment(ssprintf(ngettext("There is %d newly obsolete package: ",
"There are %d newly obsolete packages: ",
new_obsolete.size()),
(int)new_obsolete.size())),
wrapbox(cw::join_fragments(package_name_fragments, L", "))));
}
if(output_fragments.size() > 0)
{
cw::fragment *f = join_fragments(output_fragments, L"\n");
update_screen_width();
std::cout << f->layout(screen_width, screen_width, cw::style());
delete f;
}
}
}
download_manager::result cmdline_do_download(download_manager *m,
int verbose)
{
stats initial_stats(0, 0, 0, std::set<pkgCache::PkgIterator>());
OpTextProgress progress(aptcfg->FindI("Quiet", 0));
if(aptcfg->FindI("Quiet", 0) == 0)
{
// This does exactly what we want: nothing if the cache is
// already loaded, and loads the cache with a minimum of frills
// otherwise.
OpProgress tmpProgress;
// Dump errors so we don't spuriously think we failed.
_error->DumpErrors();
apt_load_cache(&tmpProgress, false, NULL);
initial_stats = compute_apt_stats();
}
std::auto_ptr<download_signal_log> log(gen_cmdline_download_progress());
// Dump errors here because prepare() might check for pending errors
// and think something failed.
_error->DumpErrors();
if(!m->prepare(progress, *log.get(), log.get()))
return download_manager::failure;
download_manager::result finish_res;
do
{
pkgAcquire::RunResult download_res = m->do_download();
finish_res = m->finish(download_res, progress);
}
while(finish_res == download_manager::do_again);
stats final_stats(0, 0, 0, std::set<pkgCache::PkgIterator>());
if(aptcfg->FindI("Quiet", 0) == 0)
{
OpProgress tmpProgress;
apt_load_cache(&tmpProgress, false, NULL);
final_stats = compute_apt_stats();
show_stats_change(initial_stats, final_stats,
verbose >= 1, verbose >= 2);
}
return finish_res;
}
bool cmdline_is_search_pattern(const std::string &s)
{
return s.find_first_of("~?") != s.npos;
}
namespace aptitude
{
namespace cmdline
{
namespace
{
source_package find_source_package(const std::string &source_name,
const std::string &source_version)
{
if(apt_source_list == NULL)
return NULL;
pkgSrcRecords records(*apt_source_list);
records.Restart();
pkgSrcRecords::Parser *parser = records.Find(source_name.c_str());
while(parser != NULL && parser->Version() != source_version)
parser = records.Find(source_name.c_str());
return parser;
}
// Find the most recent source package for the given name.
source_package find_source_package(const std::string &source_name)
{
if(apt_source_list == NULL)
return NULL;
pkgSrcRecords records(*apt_source_list);
records.Restart();
pkgSrcRecords::Parser *parser = records.Find(source_name.c_str());
source_package rval = parser;
while(parser != NULL)
{
if(_system->VS->CmpVersion(rval.get_version(), parser->Version()) < 0)
rval = parser;
parser = records.Find(source_name.c_str());
}
return rval;
}
}
source_package::source_package()
{
}
source_package::source_package(pkgSrcRecords::Parser *parser)
{
if(parser != NULL)
{
package = parser->Package();
version = parser->Version();
maintainer = parser->Maintainer();
section = parser->Section();
if(parser->Binaries() != NULL)
{
for(const char **b = parser->Binaries(); *b != NULL; ++b)
binaries.push_back(*b);
}
parser->BuildDepends(build_deps, false);
}
}
source_package find_source_by_archive(const std::string &source_name,
const std::string &archive)
{
if(apt_source_list == NULL)
return NULL;
for(pkgSourceList::const_iterator i = apt_source_list->begin();
i != apt_source_list->end(); ++i)
{
if((*i)->GetDist() != archive)
continue;
vector<pkgIndexFile *> *indexes = (*i)->GetIndexFiles();
for(vector<pkgIndexFile *>::const_iterator j = indexes->begin();
j != indexes->end(); ++j)
{
std::auto_ptr<pkgSrcRecords::Parser> p((*j)->CreateSrcParser());
if(_error->PendingError())
return source_package();
if(p.get() != 0)
{
// Step through the file until we reach the end or find
// the package:
while(p.get()->Step() == true)
{
if(_error->PendingError() == true)
return source_package();
if(p.get()->Package() == source_name)
return source_package(p.get());
}
}
}
}
return source_package();
}
source_package find_source_package(const std::string &package,
cmdline_version_source version_source,
const std::string &version_source_string_orig)
{
// This will be set below to the package archive if necessary.
std::string version_source_string(version_source_string_orig);
if(apt_cache_file == NULL || apt_package_records == NULL || apt_source_list == NULL)
return NULL;
string default_release = aptcfg->Find("APT::Default-Release");
if(version_source == cmdline_version_cand && !default_release.empty())
{
version_source = cmdline_version_archive;
version_source_string = default_release;
}
pkgCache::PkgIterator pkg = (*apt_cache_file)->FindPkg(package);
std::string source_package_name = package;
source_package rval;
// First look for a source of the given name.
switch(version_source)
{
case cmdline_version_cand:
rval = find_source_package(source_package_name);
break;
case cmdline_version_archive:
_error->DumpErrors();
rval = find_source_by_archive(source_package_name, version_source_string);
break;
case cmdline_version_version:
rval = find_source_package(source_package_name, version_source_string);
break;
}
if(rval.valid())
return rval;
// If no source of that name exists, try to find a real package
// and use its source.
if(!pkg.end())
{
pkgCache::VerIterator ver = cmdline_find_ver(pkg,
version_source,
version_source_string);
if(!ver.end())
{
pkgRecords::Parser &rec =
apt_package_records->Lookup(ver.FileList());
if(!rec.SourcePkg().empty())
source_package_name = rec.SourcePkg();
if(version_source == cmdline_version_version)
{
const std::string source_version =
rec.SourceVer().empty() ? ver.VerStr() : rec.SourceVer();
rval = find_source_package(source_package_name, source_version);
}
}
// Last-ditch effort: if no matching version was found but
// a source package can be found, use that and try again below.
else if(!pkg.VersionList().end())
{
pkgRecords::Parser &rec =
apt_package_records->Lookup(pkg.VersionList().FileList());
if(!rec.SourcePkg().empty())
source_package_name = rec.SourcePkg();
}
}
if(!rval.valid())
{
switch(version_source)
{
case cmdline_version_cand:
rval = find_source_package(source_package_name);
break;
case cmdline_version_archive:
_error->DumpErrors();
rval = find_source_by_archive(source_package_name, version_source_string);
break;
case cmdline_version_version:
rval = find_source_package(source_package_name, version_source_string);
break;
}
}
return rval;
}
void apply_user_tags(const std::vector<tag_application> &user_tags)
{
using namespace matching;
for(pkgCache::PkgIterator pkg = (*apt_cache_file)->PkgBegin();
!pkg.end(); ++pkg)
{
for(std::vector<tag_application>::const_iterator it =
user_tags.begin(); it != user_tags.end(); ++it)
{
bool applicable = false;
if(it->get_matcher() != NULL)
{
if(matching::apply_matcher(it->get_matcher(), pkg,
*apt_cache_file,
*apt_package_records))
applicable = true;
}
else
{
const pkgDepCache::StateCache &state = (*apt_cache_file)[pkg];
// Perhaps we should somehow filter out automatic
// changes here, but that's hard and might be
// unpredictable (which would make the user sad).
// Instead we just add the tag to all packages that
// are being modified.
if(!state.Keep())
applicable = true;
}
if(applicable)
{
if(it->get_is_add())
(*apt_cache_file)->attach_user_tag(pkg, it->get_tag(), NULL);
else
(*apt_cache_file)->detach_user_tag(pkg, it->get_tag(), NULL);
}
}
}
}
}
}
|