def run(self):
""" Run command """
if not self.is_quiet():
pr.p('Loading packages list...')
pr.p('========================')
loaded_packages = []
for argument in self.arguments:
arg_parts = argument.split('=')
if len(arg_parts) == 1:
# load last version as default
pkg = Pkg.load_last(argument)
elif len(arg_parts) == 2:
# load specify version
pkg = Pkg.load_version(arg_parts[0], arg_parts[1])
if pkg == 1:
pkg = False
elif pkg == 2:
self.message('package "' + arg_parts[0] +
'" has not version "' + arg_parts[1] + '"' +
ansi.reset,
before=ansi.red)
continue
else:
# load specify version and specify arch
pkg = Pkg.load_version(arg_parts[0], arg_parts[1],
arg_parts[2])
if pkg == 1:
pkg = False
elif pkg == 2:
self.message('package "' + arg_parts[0] +
'" has not version or arch "' + arg_parts[1] +
':' + arg_parts[2] + '"' + ansi.reset,
before=ansi.red)
continue
if pkg:
loaded_packages.append(pkg)
else:
self.message('unknow package "' + argument + '"' + ansi.reset,
before=ansi.red)
if not loaded_packages:
return 1
# download loaded packages
is_any_success = False
output_path = self.option_value('--output')
for pkg in loaded_packages:
if len(loaded_packages) > 1:
tmp = self.download_once(pkg)
else:
tmp = self.download_once(pkg, output_path)
if tmp:
is_any_success = True
if not is_any_success:
return 1
def find_unused_packages(self):
""" finds unused packages """
all_packages = Pkg.all_list()['list']
for pkg in all_packages:
try:
if Pkg.is_installed(pkg.data['name']):
if not Pkg.is_installed_manual(pkg.data['name']):
has_any_reverse_depends = False
reverse_depends = Pkg.load_version(
pkg.data['name'],
Pkg.installed_version(
pkg.data['name'])).get_reverse_depends()
for rdep in reverse_depends:
if rdep.installed():
rdep_is_in_unused_packages = False
for upkg in self.unused_packages:
if upkg.data['name'] == rdep.data['name']:
rdep_is_in_unused_packages = True
if not rdep_is_in_unused_packages:
has_any_reverse_depends = True
if not has_any_reverse_depends:
self.unused_packages.append(pkg)
except:
pass
def handle_install_reverse_depends(self):
""" Adds installable packages reverse depends to install list """
new_to_remove = []
i = 0
while i < len(self.to_install):
reverse_depends = self.to_install[i].get_reverse_depends()
for dep in reverse_depends:
if dep.installed():
dep = Pkg.load_version(dep.data['name'], dep.installed())
for tmp_dep in dep.get_depends():
result = Pkg.check_state(tmp_dep, virtual={
'install': [
[
self.to_install[i].data['name'], self.to_install[i].data['version']
]
],
})
if not result:
a = 0
added = False
while a < len(self.to_remove):
if self.to_remove[a].data['name'] == dep.data['name']:
added = True
a += 1
if not added:
new_to_remove.append(dep)
i += 1
if new_to_remove:
self.remove(new_to_remove)
def refresh_lists(self):
""" Refresh packages list and sync them with depends and conflicts """
# sync versions
i = 0
while i < len(self.to_remove):
self.to_remove[i] = Pkg.load_version(self.to_remove[i].data['name'], self.to_remove[i].installed())
i += 1
i = 0
while i < len(self.to_install):
wv = self.to_install[i].wanted_version
im = self.to_install[i].is_manual
self.to_install[i] = Pkg.load_version(self.to_install[i].data['name'], self.to_install[i].wanted_version)
self.to_install[i].wanted_version = wv
self.to_install[i].is_manual = im
i += 1
# remove repeated lists in to_remove list
a = 0
while a < len(self.to_remove):
b = 0
while b < len(self.to_remove):
if a != b:
if self.to_remove[a].data['name'] == self.to_remove[b].data['name']:
self.to_remove.pop(b)
a -= 1
b -= 1
b += 1
a += 1
# sync to_remove list
new_to_remove = []
for item in self.to_remove:
# load reverse dependnecy of current package and add them to list
reverse_depends = item.get_reverse_depends()
for rd in reverse_depends:
if rd.installed():
if not rd.data['name'] in [tmp.data['name'] for tmp in self.to_remove]:
new_to_remove.append(rd)
if new_to_remove:
self.remove(new_to_remove)
self.handle_install_depends()
self.handle_install_conflicts()
def run(self):
""" Run command """
pr.p('Loading packages list...')
pr.p('========================')
loaded_packages = []
for argument in self.arguments:
arg_parts = argument.split('=')
if len(arg_parts) == 1:
# load last version as default
pkg = Pkg.load_last(argument)
else:
# load specify version
pkg = Pkg.load_version(arg_parts[0], arg_parts[1])
if pkg == 1:
pkg = False
elif pkg == 2:
self.message('package "' + arg_parts[0] + '" has not version "' + arg_parts[1] + '"' + ansi.reset, before=ansi.red)
continue
if pkg:
loaded_packages.append(pkg)
else:
self.message('unknow package "' + argument + '"' + ansi.reset, before=ansi.red)
if not loaded_packages:
return 1
# show loaded packages
for pkg in loaded_packages:
if self.has_option('--versions'):
versions_list = pkg.get_versions_list()
pr.p(pkg.data['name'] + ':')
for ver in versions_list:
pr.p(' ' + ver[0] + ':' + ver[1])
else:
PackageShower.show(pkg.data)
if len(loaded_packages) > 1:
pr.p('---------------------')
def run(self):
""" Run command """
RootRequired.require_root_permission()
pr.p('Loading packages list...')
pr.p('========================')
loaded_packages = []
for argument in self.arguments:
arg_parts = argument.split('=')
if len(arg_parts) == 1:
# load last version as default
pkg = Pkg.load_last(argument)
else:
# load specify version
pkg = Pkg.load_version(arg_parts[0], arg_parts[1])
if pkg == 1:
pkg = False
elif pkg == 2:
self.message('package "' + arg_parts[0] + '" has not version "' + arg_parts[1] + '"' + ansi.reset, before=ansi.red)
continue
else:
pkg.only_specify_version = True
if pkg:
try:
pkg.only_specify_version
except:
pkg.only_specify_version = False
if pkg.installed():
if not pkg.only_specify_version:
self.message('package "' + argument + '" is installed. cannot forget installed packages' + ansi.reset, before=ansi.red)
continue
else:
if pkg.installed() == pkg.data['version']:
self.message('package ' + argument + ' (' + pkg.data['version'] + ') is installed. cannot forget installed packages' + ansi.reset, before=ansi.red)
continue
loaded_packages.append(pkg)
else:
self.message('unknow package "' + argument + '"' + ansi.reset, before=ansi.red)
if not loaded_packages:
return 1
# forget loaded packages
for pkg in loaded_packages:
if not pkg.only_specify_version:
# forget all of package versions
shutil.rmtree(Env.packages_lists('/' + pkg.data['name']))
pr.p('Package ' + pkg.data['name'] + ' was forgoten successfully')
else:
files = glob.glob(Env.packages_lists('/' + pkg.data['name'] + '/' + pkg.data['version'] + '-*'))
for f in files:
if not '-' in f[len(Env.packages_lists('/' + pkg.data['name'] + '/' + pkg.data['version'] + '-')):]:
os.remove(f)
pr.p('Version ' + pkg.data['version'] + ' of package ' + pkg.data['name'] + ' was forgoten successfully')
try:
if len(os.listdir(Env.packages_lists('/' + pkg.data['name']))) <= 1:
shutil.rmtree(Env.packages_lists('/' + pkg.data['name']))
except:
pass
ListUpdater.update_indexes({
'cannot_read_file': self.empty_method_for_event,
'invalid_json_data': self.empty_method_for_event,
})
def run(self):
""" Run command """
if self.has_option('--installed'):
if not self.is_quiet():
pr.p('Loading files list...')
pr.p('=====================')
all_of_installed_files_list = Pkg.get_all_installed_files_list()
for item in all_of_installed_files_list:
if self.is_quiet():
pr.p(item[2])
else:
message = ''
if item[1] == 'd':
message = ' (directory)'
elif item[1] == 'cf':
message = ' (config file)'
elif item[1] == 'cd':
message = ' (config directory)'
pr.p(item[0] + ': ' + item[2] + message)
return 0
if not self.arguments:
self.message('argument package names is required', True)
return 1
if not self.is_quiet():
pr.p('Loading packages list...')
pr.p('========================')
loaded_packages = []
for argument in self.arguments:
arg_parts = argument.split('=')
if len(arg_parts) == 1:
# load last version as default
pkg = Pkg.load_last(argument)
else:
# load specify version
pkg = Pkg.load_version(arg_parts[0], arg_parts[1])
if pkg == 1:
pkg = False
elif pkg == 2:
self.message('package "' + arg_parts[0] +
'" has not version "' + arg_parts[1] + '"' +
ansi.reset,
before=ansi.red)
continue
if pkg:
loaded_packages.append(pkg)
else:
self.message('unknow package "' + argument + '"' + ansi.reset,
before=ansi.red)
if not loaded_packages:
return 1
# show files list of loaded packages
for pkg in loaded_packages:
try:
files_list = pkg.data['files']
except:
files_list = []
if not self.is_quiet():
pr.p(pkg.data['name'] + ':')
if not files_list:
pr.p(ansi.yellow + ' This package is empty' + ansi.reset)
for item in files_list:
pr.p(' ' + item)
else:
for item in files_list:
pr.p(item)
if len(loaded_packages) > 1:
if not self.is_quiet():
pr.p('========================')
def handle_install_depends(self):
""" Adds installable packages depends to install list """
new_to_install = []
i = 0
while i < len(self.to_install):
depends = self.to_install[i].get_depends()
if self.with_recommends:
depends = [*depends, *self.to_install[i].get_recommends()]
for depend in depends:
if not Pkg.check_state(depend) and depend.strip()[0] != '@':
# find package depend
try:
self.to_install[i].depend_get_next[depend]
except:
try:
self.to_install[i].depend_get_next[depend] = 0
except:
self.to_install[i].depend_get_next = {}
self.to_install[i].depend_get_next[depend] = 0
pkg = Pkg.check_state(depend, get_false_pkg=True, get_false_pkg_next=self.to_install[i].depend_get_next[depend])
self.to_install[i].depend_get_next[depend] += 1
if len(pkg) == 1:
a = 0
added = False
while a < len(self.to_install):
if self.to_install[a].data['name'] == pkg[0]:
added = True
a += 1
if not added:
new_to_install.append(Pkg.load_last(pkg[0]))
elif len(pkg) == 3:
a = 0
added = False
while a < len(self.to_install):
if self.to_install[a].data['name'] == pkg[0]:
wanted_version = pkg[2]
installed_version = self.to_install[a].wanted_version
if pkg[1] == '=':
if Pkg.compare_version(installed_version, wanted_version) == 0:
added = True
elif pkg[1] == '>=':
if Pkg.compare_version(installed_version, wanted_version) >= 0:
added = True
elif pkg[1] == '<=':
if Pkg.compare_version(installed_version, wanted_version) <= 0:
added = True
elif pkg[1] == '>':
if Pkg.compare_version(installed_version, wanted_version) == 1:
added = True
elif pkg[1] == '<':
if Pkg.compare_version(installed_version, wanted_version) == -1:
added = True
a += 1
if not added:
pkg_obj = None
if pkg[1] == '=':
pkg_obj = Pkg.load_version(pkg[0], pkg[2])
elif pkg[1] == '>=' or pkg[1] == '>':
pkg_obj = Pkg.load_last(pkg[0])
elif pkg[1] == '<=':
pkg_obj = Pkg.load_version(pkg[0], pkg[2])
elif pkg[1] == '<':
pkg_obj = Pkg.load_last(pkg[0])
versions = pkg_obj.get_versions_list()
x = 0
while x < len(versions):
if Pkg.compare_version(versions[x][0], pkg[0]) >= 0:
versions.pop(x)
x += 1
versions = [v[0] for v in versions]
wanted_ver = pkg.get_last_version(versions)
pkg_obj = Pkg.load_version(pkg[0], wanted_ver)
new_to_install.append(pkg_obj)
i += 1
if new_to_install:
self.install(new_to_install)
self.handle_install_reverse_depends()
def run(self):
""" Run command """
RootRequired.require_root_permission()
pr.p('Loading packages list...')
pr.p('========================')
loaded_packages = []
for argument in self.arguments:
arg_parts = argument.split('=')
if len(arg_parts) == 1:
# load last version as default
pkg = Pkg.load_last(argument)
else:
# load specify version
pkg = Pkg.load_version(arg_parts[0], arg_parts[1])
if pkg == 1:
pkg = False
elif pkg == 2:
self.message('package "' + arg_parts[0] +
'" has not version "' + arg_parts[1] + '"' +
ansi.reset,
before=ansi.red)
continue
if pkg:
loaded_packages.append(pkg)
else:
self.message('unknow package "' + argument + '"' + ansi.reset,
before=ansi.red)
# remove local packages from list
new_loaded_packages = []
for pkg in loaded_packages:
try:
file_path = pkg.data['file_path']
new_loaded_packages.append(pkg)
except:
self.message('package "' + pkg.data['name'] +
'" is a local package',
is_error=True)
loaded_packages = new_loaded_packages
if not loaded_packages:
return 1
# calculate transactions
pr.p('Calculating transactions...')
calc = Calculator(with_recommends=self.has_option('--with-recommends'))
i = 0
while i < len(loaded_packages):
loaded_packages[i].is_manual = True
i += 1
try:
calc.install(list(reversed(loaded_packages)))
except:
pr.e(ansi.red + 'ERROR: There is some dependnecy problems.' +
ansi.reset)
return 1
# handle reinstallable packages
i = 0
while i < len(calc.to_install):
if calc.to_install[i].installed():
if calc.to_install[i].installed(
) == calc.to_install[i].wanted_version:
if not self.has_option('--reinstall'):
pr.p(
'Package ' + calc.to_install[i].data['name'] +
'=' + calc.to_install[i].wanted_version +
' is currently installed. use --reinstall option to re-install it.'
)
if calc.to_install[i].is_manual:
try:
pr.p(
'Setting it as manual installed package...'
)
manual_f = open(
Env.installed_lists('/' +
pkg.data['name'] +
'/manual'), 'w')
manual_f.write('')
manual_f.close()
except:
pass
calc.to_install.pop(i)
i += 1
# check transactions exists
if not calc.has_any_thing():
pr.p('Nothing to do.')
return 0
# show transaction
TransactionShower.show(calc)
if not self.has_option('-y') or self.has_option('--yes'):
pr.p('Do you want to continue? [Y/n] ', end='')
answer = input()
if answer == 'y' or answer == 'Y' or answer == '':
pass
else:
pr.p('Abort.')
return 1
# start download packages
pr.p('Downloading packages...')
downloaed_paths = []
for pkg in calc.to_install:
download_path = Env.cache_dir('/archives/' + pkg.data['name'] +
'-' + pkg.wanted_version + '-' +
pkg.data['arch'])
if os.path.isfile(download_path):
file_sha256 = calc_file_sha256(download_path)
file_md5 = calc_file_md5(download_path)
valid_sha256 = None
valid_md5 = None
try:
valid_sha256 = pkg.data['file_sha256']
except:
valid_sha256 = file_sha256
try:
valid_md5 = pkg.data['file_md5']
except:
valid_md5 = file_md5
if file_md5 != valid_md5 or file_sha256 != valid_sha256:
# file is corrupt and should be download again
os.remove(download_path)
else:
pr.p('Using Cache for ' + pkg.data['name'] + ':' +
pkg.data['version'] + ':' + pkg.data['arch'] + '...')
downloaed_paths.append(download_path)
continue
download_cmd = DownloadCommand()
i = 0
res = 1
tmp = True
while tmp:
if i > 5:
pr.e(ansi.red + 'Failed to download packages' + ansi.reset)
return res
pr.p('Downloading ' + pkg.data['name'] + ':' +
pkg.data['version'] + ':' + pkg.data['arch'] + '...')
res = download_cmd.handle(
ArgParser.parse([
'cati', 'download', '-q',
pkg.data['name'] + '=' + pkg.wanted_version,
'--output=' + download_path
]))
if res == 1 or res == None:
tmp = False
i += 1
downloaed_paths.append(download_path)
pr.p('Download completed.')
# check --download-only option
if self.has_option('--download-only'):
return 0
cati_pkg_cmd_options = []
remove_cmd_options = []
if self.has_option('--keep-conffiles'):
cati_pkg_cmd_options.append('--keep-conffiles')
if self.has_option('--target'):
cati_pkg_cmd_options.append('--target')
if self.has_option('--without-scripts'):
cati_pkg_cmd_options.append('--without-scripts')
remove_cmd_options.append('--without-scripts')
# remove packages
if calc.to_remove:
pr.p('Removing packages...')
package_names = [pkg.data['name'] for pkg in calc.to_remove]
remove_cmd = RemoveCommand()
res = remove_cmd.handle(
ArgParser.parse([
'cati', 'remove', *package_names, '-y', *remove_cmd_options
]))
if res != 0 and res != None:
pr.e(ansi.red + 'Failed to remove packages' + ansi.reset)
return res
# install packages
pr.p('Installing packages...')
pkg_cmd = PkgCommand()
res = pkg_cmd.handle(
ArgParser.parse([
'cati', 'pkg', 'install', *downloaed_paths,
*cati_pkg_cmd_options
]))
if res != 0 and res != None:
self.set_manual_installs(calc.to_install)
pr.e(ansi.red + 'Failed to install packages' + ansi.reset)
return res
self.set_manual_installs(calc.to_install)
pr.p(ansi.green + 'Done.' + ansi.reset)
