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Current Path : /usr/lib/python3.6/site-packages/dnf/cli/ |
Current File : //usr/lib/python3.6/site-packages/dnf/cli/output.py |
# Copyright 2005 Duke University # Copyright (C) 2012-2016 Red Hat, Inc. # # 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 Library General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. """Handle actual output from the cli.""" from __future__ import absolute_import from __future__ import print_function from __future__ import unicode_literals import fnmatch import hawkey import itertools import libdnf.transaction import logging import operator import pwd import re import sys import time from dnf.cli.format import format_number, format_time from dnf.i18n import _, C_, P_, ucd, fill_exact_width, textwrap_fill, exact_width, select_short_long from dnf.pycomp import xrange, basestring, long, unicode, sys_maxsize from dnf.yum.rpmtrans import TransactionDisplay from dnf.db.history import MergedTransactionWrapper import dnf.base import dnf.callback import dnf.cli.progress import dnf.cli.term import dnf.conf import dnf.crypto import dnf.i18n import dnf.transaction import dnf.util import dnf.yum.misc logger = logging.getLogger('dnf') def _spread_in_columns(cols_count, label, lst): left = itertools.chain((label,), itertools.repeat('')) lst_length = len(lst) right_count = cols_count - 1 missing_items = -lst_length % right_count if not lst_length: lst = itertools.repeat('', right_count) elif missing_items: lst.extend(('',) * missing_items) lst_iter = iter(lst) return list(zip(left, *[lst_iter] * right_count)) class Output(object): """Main output class for the yum command line.""" GRP_PACKAGE_INDENT = ' ' * 3 FILE_PROVIDE_RE = re.compile(r'^\*{0,2}/') def __init__(self, base, conf): self.conf = conf self.base = base self.term = dnf.cli.term.Term() self.progress = None def _banner(self, col_data, row): term_width = self.term.columns rule = '%s' % '=' * term_width header = self.fmtColumns(zip(row, col_data), ' ') return rule, header, rule def _col_widths(self, rows): col_data = [dict() for _ in rows[0]] for row in rows: for (i, val) in enumerate(row): col_dct = col_data[i] length = len(val) col_dct[length] = col_dct.get(length, 0) + 1 cols = self.calcColumns(col_data, None, indent=' ') # align to the left return list(map(operator.neg, cols)) def _highlight(self, highlight): hibeg = '' hiend = '' if not highlight: pass elif not isinstance(highlight, basestring) or highlight == 'bold': hibeg = self.term.MODE['bold'] elif highlight == 'normal': pass # Minor opt. else: # Turn a string into a specific output: colour, bold, etc. for high in highlight.replace(',', ' ').split(): if high == 'normal': hibeg = '' elif high in self.term.MODE: hibeg += self.term.MODE[high] elif high in self.term.FG_COLOR: hibeg += self.term.FG_COLOR[high] elif (high.startswith('fg:') and high[3:] in self.term.FG_COLOR): hibeg += self.term.FG_COLOR[high[3:]] elif (high.startswith('bg:') and high[3:] in self.term.BG_COLOR): hibeg += self.term.BG_COLOR[high[3:]] if hibeg: hiend = self.term.MODE['normal'] return (hibeg, hiend) def _sub_highlight(self, haystack, highlight, needles, **kwds): hibeg, hiend = self._highlight(highlight) return self.term.sub(haystack, hibeg, hiend, needles, **kwds) @staticmethod def _calc_columns_spaces_helps(current, data_tups, left): """ Spaces left on the current field will help how many pkgs? """ ret = 0 for tup in data_tups: if left < (tup[0] - current): break ret += tup[1] return ret @property def history(self): return self.base.history @property def sack(self): return self.base.sack def calcColumns(self, data, columns=None, remainder_column=0, total_width=None, indent=''): """Dynamically calculate the widths of the columns that the fields in data should be placed into for output. :param data: a list of dictionaries that represent the data to be output. Each dictionary in the list corresponds to a column of output. The keys of the dictionary are the lengths of the items to be output, and the value associated with a key is the number of items of that length. :param columns: a list containing the minimum amount of space that must be allocated for each row. This can be used to ensure that there is space available in a column if, for example, the actual lengths of the items being output cannot be given in *data* :param remainder_column: number of the column to receive a few extra spaces that may remain after other allocation has taken place :param total_width: the total width of the output. self.term.real_columns is used by default :param indent: string that will be prefixed to a line of output to create e.g. an indent :return: a list of the widths of the columns that the fields in data should be placed into for output """ cols = len(data) # Convert the data to ascending list of tuples, (field_length, pkgs) pdata = data data = [None] * cols # Don't modify the passed in data for d in range(0, cols): data[d] = sorted(pdata[d].items()) if total_width is None: total_width = self.term.real_columns # We start allocating 1 char to everything but the last column, and a # space between each (again, except for the last column). Because # at worst we are better with: # |one two three| # | four | # ...than: # |one two three| # | f| # |our | # ...the later being what we get if we pre-allocate the last column, and # thus. the space, due to "three" overflowing it's column by 2 chars. if columns is None: columns = [1] * (cols - 1) columns.append(0) # i'm not able to get real terminal width so i'm probably # running in non interactive terminal (pipe to grep, redirect to file...) # avoid splitting lines to enable filtering output if not total_width: full_columns = [] for d in xrange(0, cols): col = data[d] if col: full_columns.append(col[-1][0]) else: full_columns.append(columns[d] + 1) full_columns[0] += len(indent) # if possible, try to keep default width (usually 80 columns) default_width = self.term.columns if sum(full_columns) > default_width: return full_columns total_width = default_width total_width -= (sum(columns) + (cols - 1) + exact_width(indent)) if not columns[-1]: total_width += 1 while total_width > 0: # Find which field all the spaces left will help best helps = 0 val = 0 for d in xrange(0, cols): thelps = self._calc_columns_spaces_helps(columns[d], data[d], total_width) if not thelps: continue # We prefer to overflow: the last column, and then earlier # columns. This is so that in the best case (just overflow the # last) ... grep still "works", and then we make it prettier. if helps and (d == (cols - 1)) and (thelps / 2) < helps: continue if thelps < helps: continue helps = thelps val = d # If we found a column to expand, move up to the next level with # that column and start again with any remaining space. if helps: diff = data[val].pop(0)[0] - columns[val] if not columns[val] and (val == (cols - 1)): # If we are going from 0 => N on the last column, take 1 # for the space before the column. total_width -= 1 columns[val] += diff total_width -= diff continue overflowed_columns = 0 for d in xrange(0, cols): if not data[d]: continue overflowed_columns += 1 if overflowed_columns: # Split the remaining spaces among each overflowed column # equally norm = total_width // overflowed_columns for d in xrange(0, cols): if not data[d]: continue columns[d] += norm total_width -= norm # Split the remaining spaces among each column equally, except the # last one. And put the rest into the remainder column cols -= 1 norm = total_width // cols for d in xrange(0, cols): columns[d] += norm columns[remainder_column] += total_width - (cols * norm) total_width = 0 return columns @staticmethod def _fmt_column_align_width(width): """Returns tuple of (align_left, width)""" if width < 0: return (True, -width) return (False, width) def _col_data(self, col_data): assert len(col_data) == 2 or len(col_data) == 3 if len(col_data) == 2: (val, width) = col_data hibeg = hiend = '' if len(col_data) == 3: (val, width, highlight) = col_data (hibeg, hiend) = self._highlight(highlight) return (ucd(val), width, hibeg, hiend) def fmtColumns(self, columns, msg=u'', end=u''): """Return a row of data formatted into a string for output. Items can overflow their columns. :param columns: a list of tuples containing the data to output. Each tuple contains first the item to be output, then the amount of space allocated for the column, and then optionally a type of highlighting for the item :param msg: a string to begin the line of output with :param end: a string to end the line of output with :return: a row of data formatted into a string for output """ columns = list(columns) total_width = len(msg) data = [] for col_data in columns[:-1]: (val, width, hibeg, hiend) = self._col_data(col_data) if not width: # Don't count this column, invisible text msg += u"%s" data.append(val) continue (align_left, width) = self._fmt_column_align_width(width) val_width = exact_width(val) if val_width <= width: # Don't use fill_exact_width() because it sucks performance # wise for 1,000s of rows. Also allows us to use len(), when # we can. msg += u"%s%s%s%s " if align_left: data.extend([hibeg, val, " " * (width - val_width), hiend]) else: data.extend([hibeg, " " * (width - val_width), val, hiend]) else: msg += u"%s%s%s\n" + " " * (total_width + width + 1) data.extend([hibeg, val, hiend]) total_width += width total_width += 1 (val, width, hibeg, hiend) = self._col_data(columns[-1]) (align_left, width) = self._fmt_column_align_width(width) val = fill_exact_width(val, width, left=align_left, prefix=hibeg, suffix=hiend) msg += u"%%s%s" % end data.append(val) return msg % tuple(data) def simpleList(self, pkg, ui_overflow=False, indent='', highlight=False, columns=None): """Print a package as a line. :param pkg: the package to be printed :param ui_overflow: unused :param indent: string to be prefixed onto the line to provide e.g. an indent :param highlight: highlighting options for the name of the package :param columns: tuple containing the space allocated for each column of output. The columns are the package name, version, and repository """ if columns is None: columns = (-40, -22, -16) # Old default na = '%s%s.%s' % (indent, pkg.name, pkg.arch) hi_cols = [highlight, 'normal', 'normal'] columns = zip((na, pkg.evr, pkg._from_repo), columns, hi_cols) print(self.fmtColumns(columns)) def simpleEnvraList(self, pkg, ui_overflow=False, indent='', highlight=False, columns=None): """Print a package as a line, with the package itself in envra format so it can be passed to list/install/etc. :param pkg: the package to be printed :param ui_overflow: unused :param indent: string to be prefixed onto the line to provide e.g. an indent :param highlight: highlighting options for the name of the package :param columns: tuple containing the space allocated for each column of output. The columns the are the package envra and repository """ if columns is None: columns = (-63, -16) # Old default envra = '%s%s' % (indent, ucd(pkg)) hi_cols = [highlight, 'normal', 'normal'] rid = pkg.ui_from_repo columns = zip((envra, rid), columns, hi_cols) print(self.fmtColumns(columns)) def simple_name_list(self, pkg): """Print a package as a line containing its name.""" print(ucd(pkg.name)) def simple_nevra_list(self, pkg): """Print a package as a line containing its NEVRA.""" print(ucd(pkg)) def fmtKeyValFill(self, key, val): """Return a key value pair in the common two column output format. :param key: the key to be formatted :param val: the value associated with *key* :return: the key value pair formatted in two columns for output """ keylen = exact_width(key) cols = self.term.real_columns if not cols: cols = sys_maxsize elif cols < 20: cols = 20 nxt = ' ' * (keylen - 2) + ': ' if not val: # textwrap.fill in case of empty val returns empty string return key val = ucd(val) ret = textwrap_fill(val, width=cols, initial_indent=key, subsequent_indent=nxt) if ret.count("\n") > 1 and keylen > (cols // 3): # If it's big, redo it again with a smaller subsequent off ret = textwrap_fill(val, width=cols, initial_indent=key, subsequent_indent=' ...: ') return ret def fmtSection(self, name, fill='='): """Format and return a section header. The format of the header is a line with *name* centered, and *fill* repeated on either side to fill an entire line on the terminal. :param name: the name of the section :param fill: the character to repeat on either side of *name* to fill an entire line. *fill* must be a single character. :return: a string formatted to be a section header """ name = ucd(name) cols = self.term.columns - 2 name_len = exact_width(name) if name_len >= (cols - 4): beg = end = fill * 2 else: beg = fill * ((cols - name_len) // 2) end = fill * (cols - name_len - len(beg)) return "%s %s %s" % (beg, name, end) def infoOutput(self, pkg, highlight=False): """Print information about the given package. :param pkg: the package to print information about :param highlight: highlighting options for the name of the package """ def format_key_val(key, val): return " ".join([fill_exact_width(key, 12, 12), ":", str(val)]) def format_key_val_fill(key, val): return self.fmtKeyValFill(fill_exact_width(key, 12, 12) + " : ", val or "") output_list = [] (hibeg, hiend) = self._highlight(highlight) # Translators: This is abbreviated 'Name'. Should be no longer # than 12 characters. You can use the full version if it is short # enough in your language. key = select_short_long(12, C_("short", "Name"), C_("long", "Name")) output_list.append(format_key_val(key, "%s%s%s" % (hibeg, pkg.name, hiend))) if pkg.epoch: # Translators: This message should be no longer than 12 characters. output_list.append(format_key_val(_("Epoch"), pkg.epoch)) key = select_short_long(12, C_("short", "Version"), C_("long", "Version")) output_list.append(format_key_val(key, pkg.version)) # Translators: This message should be no longer than 12 characters. output_list.append(format_key_val(_("Release"), pkg.release)) key = select_short_long(12, C_("short", "Arch"), C_("long", "Architecture")) output_list.append(format_key_val(key, pkg.arch)) key = select_short_long(12, C_("short", "Size"), C_("long", "Size")) output_list.append(format_key_val(key, format_number(float(pkg._size)))) # Translators: This message should be no longer than 12 characters. output_list.append(format_key_val(_("Source"), pkg.sourcerpm)) key = select_short_long(12, C_("short", "Repo"), C_("long", "Repository")) output_list.append(format_key_val(key, pkg.repoid)) if pkg._from_system: history_repo = self.history.repo(pkg) if history_repo: # Translators: This message should be no longer than 12 chars. output_list.append(format_key_val(_("From repo"), history_repo)) if self.conf.verbose: # :hawkey does not support changelog information # print(_("Committer : %s") % ucd(pkg.committer)) # print(_("Committime : %s") % time.ctime(pkg.committime)) # Translators: This message should be no longer than 12 characters. output_list.append(format_key_val(_("Packager"), pkg.packager)) # Translators: This message should be no longer than 12 characters. output_list.append(format_key_val(_("Buildtime"), dnf.util.normalize_time(pkg.buildtime))) if pkg.installtime: # Translators: This message should be no longer than 12 characters. output_list.append(format_key_val(_("Install time"), dnf.util.normalize_time(pkg.installtime))) history_pkg = self.history.package_data(pkg) if history_pkg: try: uid = int(history_pkg._item.getInstalledBy()) except ValueError: # In case int() fails uid = None # Translators: This message should be no longer than 12 chars. output_list.append(format_key_val(_("Installed by"), self._pwd_ui_username(uid))) # Translators: This is abbreviated 'Summary'. Should be no longer # than 12 characters. You can use the full version if it is short # enough in your language. key = select_short_long(12, C_("short", "Summary"), C_("long", "Summary")) output_list.append(format_key_val_fill(key, pkg.summary)) if pkg.url: output_list.append(format_key_val(_("URL"), ucd(pkg.url))) # Translators: This message should be no longer than 12 characters. output_list.append(format_key_val_fill(_("License"), pkg.license)) # Translators: This is abbreviated 'Description'. Should be no longer # than 12 characters. You can use the full version if it is short # enough in your language. key = select_short_long(12, C_("short", "Description"), C_("long", "Description")) output_list.append(format_key_val_fill(key, pkg.description)) return "\n".join(output_list) def updatesObsoletesList(self, uotup, changetype, columns=None): """Print a simple string that explains the relationship between the members of an update or obsoletes tuple. :param uotup: an update or obsoletes tuple. The first member is the new package, and the second member is the old package :param changetype: a string indicating what the change between the packages is, e.g. 'updates' or 'obsoletes' :param columns: a tuple containing information about how to format the columns of output. The absolute value of each number in the tuple indicates how much space has been allocated for the corresponding column. If the number is negative, the text in the column will be left justified, and if it is positive, the text will be right justified. The columns of output are the package name, version, and repository """ (changePkg, instPkg) = uotup if columns is not None: # New style, output all info. for both old/new with old indented chi = self.conf.color_update_remote if changePkg.reponame != hawkey.SYSTEM_REPO_NAME: chi = self.conf.color_update_local self.simpleList(changePkg, columns=columns, highlight=chi) self.simpleList(instPkg, columns=columns, indent=' ' * 4, highlight=self.conf.color_update_installed) return # Old style c_compact = changePkg.compactPrint() i_compact = '%s.%s' % (instPkg.name, instPkg.arch) c_repo = changePkg.repoid print('%-35.35s [%.12s] %.10s %-20.20s' % (c_compact, c_repo, changetype, i_compact)) def listPkgs(self, lst, description, outputType, highlight_na={}, columns=None, highlight_modes={}): """Prints information about the given list of packages. :param lst: a list of packages to print information about :param description: string describing what the list of packages contains, e.g. 'Available Packages' :param outputType: The type of information to be printed. Current options:: 'list' - simple pkg list 'info' - similar to rpm -qi output 'name' - simple name list 'nevra' - simple nevra list :param highlight_na: a dictionary containing information about packages that should be highlighted in the output. The dictionary keys are (name, arch) tuples for the package, and the associated values are the package objects themselves. :param columns: a tuple containing information about how to format the columns of output. The absolute value of each number in the tuple indicates how much space has been allocated for the corresponding column. If the number is negative, the text in the column will be left justified, and if it is positive, the text will be right justified. The columns of output are the package name, version, and repository :param highlight_modes: dictionary containing information about to highlight the packages in *highlight_na*. *highlight_modes* should contain the following keys:: 'not_in' - highlighting used for packages not in *highlight_na* '=' - highlighting used when the package versions are equal '<' - highlighting used when the package has a lower version number '>' - highlighting used when the package has a higher version number :return: number of packages listed """ if outputType in ['list', 'info', 'name', 'nevra']: if len(lst) > 0: print('%s' % description) info_set = set() if outputType == 'list': unique_item_dict = {} for pkg in lst: unique_item_dict[str(pkg) + str(pkg._from_repo)] = pkg lst = unique_item_dict.values() for pkg in sorted(lst): key = (pkg.name, pkg.arch) highlight = False if key not in highlight_na: highlight = highlight_modes.get('not in', 'normal') elif pkg.evr_eq(highlight_na[key]): highlight = highlight_modes.get('=', 'normal') elif pkg.evr_lt(highlight_na[key]): highlight = highlight_modes.get('>', 'bold') else: highlight = highlight_modes.get('<', 'normal') if outputType == 'list': self.simpleList(pkg, ui_overflow=True, highlight=highlight, columns=columns) elif outputType == 'info': info_set.add(self.infoOutput(pkg, highlight=highlight) + "\n") elif outputType == 'name': self.simple_name_list(pkg) elif outputType == 'nevra': self.simple_nevra_list(pkg) else: pass if info_set: print("\n".join(sorted(info_set))) return len(lst) def userconfirm(self, msg=None, defaultyes_msg=None): """Get a yes or no from the user, and default to No :msg: String for case with [y/N] :defaultyes_msg: String for case with [Y/n] :return: True if the user selects yes, and False if the user selects no """ yui = (ucd(_('y')), ucd(_('yes'))) nui = (ucd(_('n')), ucd(_('no'))) aui = yui + nui while True: if msg is None: msg = _('Is this ok [y/N]: ') choice = '' if self.conf.defaultyes: if defaultyes_msg is None: msg = _('Is this ok [Y/n]: ') else: msg = defaultyes_msg try: choice = dnf.i18n.ucd_input(msg) except EOFError: pass except KeyboardInterrupt: choice = nui[0] choice = ucd(choice).lower() if len(choice) == 0: choice = yui[0] if self.conf.defaultyes else nui[0] if choice in aui: break # If the English one letter names don't mix with the translated # letters, allow them too: if u'y' == choice and u'y' not in aui: choice = yui[0] break if u'n' == choice and u'n' not in aui: choice = nui[0] break if choice in yui: return True return False def _pkgs2name_dict(self, sections): installed = self.sack.query().installed()._name_dict() available = self.sack.query().available()._name_dict() d = {} for pkg_name in itertools.chain(*list(zip(*sections))[1]): if pkg_name in installed: d[pkg_name] = installed[pkg_name][0] elif pkg_name in available: d[pkg_name] = available[pkg_name][0] return d def _pkgs2col_lengths(self, sections, name_dict): nevra_lengths = {} repo_lengths = {} for pkg_name in itertools.chain(*list(zip(*sections))[1]): pkg = name_dict.get(pkg_name) if pkg is None: continue nevra_l = exact_width(ucd(pkg)) + exact_width(self.GRP_PACKAGE_INDENT) repo_l = exact_width(ucd(pkg.reponame)) nevra_lengths[nevra_l] = nevra_lengths.get(nevra_l, 0) + 1 repo_lengths[repo_l] = repo_lengths.get(repo_l, 0) + 1 return (nevra_lengths, repo_lengths) def _display_packages(self, pkg_names): for name in pkg_names: print('%s%s' % (self.GRP_PACKAGE_INDENT, name)) def _display_packages_verbose(self, pkg_names, name_dict, columns): for name in pkg_names: try: pkg = name_dict[name] except KeyError: # package not in any repo -> print only package name print('%s%s' % (self.GRP_PACKAGE_INDENT, name)) continue highlight = False if not pkg._from_system: highlight = self.conf.color_list_available_install self.simpleEnvraList(pkg, ui_overflow=True, indent=self.GRP_PACKAGE_INDENT, highlight=highlight, columns=columns) def display_pkgs_in_groups(self, group): """Output information about the packages in a given group :param group: a Group object to output information about """ def names(packages): return sorted(pkg.name for pkg in packages) print('\n' + _('Group: %s') % group.ui_name) verbose = self.conf.verbose if verbose: print(_(' Group-Id: %s') % ucd(group.id)) if group.ui_description: print(_(' Description: %s') % ucd(group.ui_description) or "") if group.lang_only: print(_(' Language: %s') % group.lang_only) sections = ( (_(' Mandatory Packages:'), names(group.mandatory_packages)), (_(' Default Packages:'), names(group.default_packages)), (_(' Optional Packages:'), names(group.optional_packages)), (_(' Conditional Packages:'), names(group.conditional_packages))) if verbose: name_dict = self._pkgs2name_dict(sections) col_lengths = self._pkgs2col_lengths(sections, name_dict) columns = self.calcColumns(col_lengths) columns = (-columns[0], -columns[1]) for (section_name, packages) in sections: if len(packages) < 1: continue print(section_name) self._display_packages_verbose(packages, name_dict, columns) else: for (section_name, packages) in sections: if len(packages) < 1: continue print(section_name) self._display_packages(packages) def display_groups_in_environment(self, environment): """Output information about the packages in a given environment :param environment: an Environment object to output information about """ def names(groups): return sorted(group.name for group in groups) print(_('Environment Group: %s') % environment.ui_name) if self.conf.verbose: print(_(' Environment-Id: %s') % ucd(environment.id)) if environment.ui_description: description = ucd(environment.ui_description) or "" print(_(' Description: %s') % description) sections = ( (_(' Mandatory Groups:'), names(environment.mandatory_groups)), (_(' Optional Groups:'), names(environment.optional_groups))) for (section_name, packages) in sections: if len(packages) < 1: continue print(section_name) self._display_packages(packages) def matchcallback(self, po, values, matchfor=None, verbose=None, highlight=None): """Output search/provides type callback matches. :param po: the package object that matched the search :param values: the information associated with *po* that matched the search :param matchfor: a list of strings to be highlighted in the output :param verbose: whether to output extra verbose information :param highlight: highlighting options for the highlighted matches """ def print_highlighted_key_item(key, item, printed_headline, can_overflow=False): if not printed_headline: print(_('Matched from:')) item = ucd(item) or "" if item == "": return if matchfor: item = self._sub_highlight(item, highlight, matchfor, ignore_case=True) if can_overflow: print(self.fmtKeyValFill(key, item)) else: print(key % item) def print_file_provides(item, printed_match): if not self.FILE_PROVIDE_RE.match(item): return False key = _("Filename : %s") file_match = False for filename in po.files: if fnmatch.fnmatch(filename, item): print_highlighted_key_item( key, filename, file_match or printed_match, can_overflow=False) file_match = True return file_match if self.conf.showdupesfromrepos: msg = '%s : ' % po else: msg = '%s.%s : ' % (po.name, po.arch) msg = self.fmtKeyValFill(msg, po.summary or "") if matchfor: if highlight is None: highlight = self.conf.color_search_match msg = self._sub_highlight(msg, highlight, matchfor, ignore_case=True) print(msg) if verbose is None: verbose = self.conf.verbose if not verbose: return print(_("Repo : %s") % po.ui_from_repo) printed_match = False name_match = False for item in set(values): if po.summary == item: name_match = True continue # Skip double name/summary printing if po.description == item: key = _("Description : ") print_highlighted_key_item(key, item, printed_match, can_overflow=True) printed_match = True elif po.url == item: key = _("URL : %s") print_highlighted_key_item(key, item, printed_match, can_overflow=False) printed_match = True elif po.license == item: key = _("License : %s") print_highlighted_key_item(key, item, printed_match, can_overflow=False) printed_match = True elif print_file_provides(item, printed_match): printed_match = True else: key = _("Provide : %s") for provide in po.provides: provide = str(provide) if fnmatch.fnmatch(provide, item): print_highlighted_key_item(key, provide, printed_match, can_overflow=False) printed_match = True else: first_provide = provide.split()[0] possible = set('=<>') if any((char in possible) for char in item): item_new = item.split()[0] else: item_new = item if fnmatch.fnmatch(first_provide, item_new): print_highlighted_key_item( key, provide, printed_match, can_overflow=False) printed_match = True if not any([printed_match, name_match]): for item in set(values): key = _("Other : %s") print_highlighted_key_item(key, item, printed_match, can_overflow=False) print() def matchcallback_verbose(self, po, values, matchfor=None): """Output search/provides type callback matches. This will output more information than :func:`matchcallback`. :param po: the package object that matched the search :param values: the information associated with *po* that matched the search :param matchfor: a list of strings to be highlighted in the output """ return self.matchcallback(po, values, matchfor, verbose=True) def reportDownloadSize(self, packages, installonly=False): """Report the total download size for a set of packages :param packages: a list of package objects :param installonly: whether the transaction consists only of installations """ totsize = 0 locsize = 0 insize = 0 error = False for pkg in packages: # Just to be on the safe side, if for some reason getting # the package size fails, log the error and don't report download # size try: size = int(pkg._size) totsize += size try: if pkg.verifyLocalPkg(): locsize += size except Exception: pass if not installonly: continue try: size = int(pkg.installsize) except Exception: pass insize += size except Exception: error = True msg = _('There was an error calculating total download size') logger.error(msg) break if not error: if locsize: logger.info(_("Total size: %s"), format_number(totsize)) if locsize != totsize: logger.info(_("Total download size: %s"), format_number(totsize - locsize)) if installonly: logger.info(_("Installed size: %s"), format_number(insize)) def reportRemoveSize(self, packages): """Report the total size of packages being removed. :param packages: a list of package objects """ totsize = 0 error = False for pkg in packages: # Just to be on the safe side, if for some reason getting # the package size fails, log the error and don't report download # size try: size = pkg._size totsize += size except Exception: error = True msg = _('There was an error calculating installed size') logger.error(msg) break if not error: logger.info(_("Freed space: %s"), format_number(totsize)) def list_group_transaction(self, comps, history, diff): if not diff: return None out = [] rows = [] if diff.new_groups: out.append(_('Marking packages as installed by the group:')) for grp_id in diff.new_groups: pkgs = list(diff.added_packages(grp_id)) group_object = comps._group_by_id(grp_id) grp_name = group_object.ui_name if group_object else grp_id rows.extend(_spread_in_columns(4, "@" + grp_name, pkgs)) if diff.removed_groups: out.append(_('Marking packages as removed by the group:')) for grp_id in diff.removed_groups: pkgs = list(diff.removed_packages(grp_id)) grp_name = history.group.get(grp_id).ui_name rows.extend(_spread_in_columns(4, "@" + grp_name, pkgs)) if rows: col_data = self._col_widths(rows) for row in rows: out.append(self.fmtColumns(zip(row, col_data), ' ')) out[0:0] = self._banner(col_data, (_('Group'), _('Packages'), '', '')) return '\n'.join(out) def list_transaction(self, transaction, total_width=None): """Return a string representation of the transaction in an easy-to-read format. """ forward_actions = hawkey.UPGRADE | hawkey.UPGRADE_ALL | hawkey.DISTUPGRADE | \ hawkey.DISTUPGRADE_ALL | hawkey.DOWNGRADE | hawkey.INSTALL skipped_conflicts = set() skipped_broken = set() if transaction is None: # set empty transaction list instead of returning None # in order to display module changes when RPM transaction is empty transaction = [] list_bunch = dnf.util._make_lists(transaction) pkglist_lines = [] data = {'n' : {}, 'v' : {}, 'r' : {}} a_wid = 0 # Arch can't get "that big" ... so always use the max. def _add_line(lines, data, a_wid, po, obsoletes=[]): (n, a, e, v, r) = po.pkgtup evr = po.evr repoid = po._from_repo size = format_number(po._size) if a is None: # gpgkeys are weird a = 'noarch' # none, partial, full? if po._from_system: hi = self.conf.color_update_installed elif po._from_cmdline: hi = self.conf.color_update_local else: hi = self.conf.color_update_remote lines.append((n, a, evr, repoid, size, obsoletes, hi)) # Create a dict of field_length => number of packages, for # each field. for (d, v) in (("n", len(n)), ("v", len(evr)), ("r", len(repoid))): data[d].setdefault(v, 0) data[d][v] += 1 a_wid = max(a_wid, len(a)) return a_wid ins_group_msg = _('Installing group/module packages') if dnf.base.WITH_MODULES \ else _('Installing group packages') for (action, pkglist) in [ # TRANSLATORS: This is for a list of packages to be installed. (C_('summary', 'Installing'), list_bunch.installed), # TRANSLATORS: This is for a list of packages to be upgraded. (C_('summary', 'Upgrading'), list_bunch.upgraded), # TRANSLATORS: This is for a list of packages to be reinstalled. (C_('summary', 'Reinstalling'), list_bunch.reinstalled), (ins_group_msg, list_bunch.installed_group), (_('Installing dependencies'), list_bunch.installed_dep), (_('Installing weak dependencies'), list_bunch.installed_weak), # TRANSLATORS: This is for a list of packages to be removed. (_('Removing'), list_bunch.erased), (_('Removing dependent packages'), list_bunch.erased_dep), (_('Removing unused dependencies'), list_bunch.erased_clean), # TRANSLATORS: This is for a list of packages to be downgraded. (C_('summary', 'Downgrading'), list_bunch.downgraded)]: lines = [] # build a reverse mapping to 'replaced_by' # this is required to achieve reasonable speed replaces = {} for tsi in transaction: if tsi.action != libdnf.transaction.TransactionItemAction_OBSOLETED: continue for i in tsi._item.getReplacedBy(): replaces.setdefault(i, set()).add(tsi) for tsi in sorted(pkglist, key=lambda x: x.pkg): if tsi.action not in dnf.transaction.FORWARD_ACTIONS + [libdnf.transaction.TransactionItemAction_REMOVE]: continue # get TransactionItems obsoleted by tsi obsoleted = sorted(replaces.get(tsi._item, [])) a_wid = _add_line(lines, data, a_wid, tsi.pkg, obsoleted) pkglist_lines.append((action, lines)) installedProfiles = sorted(dict(self.base._moduleContainer.getInstalledProfiles()).items()) if installedProfiles: action = _("Installing module profiles") lines = [] for name, profiles in installedProfiles: for profile in list(profiles): lines.append(("%s/%s" % (name, profile), "", "", "", "", "", "")) pkglist_lines.append((action, lines)) removedProfiles = sorted(dict(self.base._moduleContainer.getRemovedProfiles()).items()) if removedProfiles: action = _("Disabling module profiles") lines = [] for name, profiles in removedProfiles: for profile in list(profiles): lines.append(("%s/%s" % (name, profile), "", "", "", "", "", "")) pkglist_lines.append((action, lines)) enabledStreams = sorted(dict(self.base._moduleContainer.getEnabledStreams()).items()) if enabledStreams: action = _("Enabling module streams") lines = [] for name, stream in enabledStreams: lines.append((name, "", stream, "", "", "", "")) pkglist_lines.append((action, lines)) switchedStreams = sorted(dict(self.base._moduleContainer.getSwitchedStreams()).items()) if switchedStreams: action = _("Switching module streams") lines = [] for name, stream in switchedStreams: lines.append((name, "", "%s -> %s" % (stream[0], stream[1]), "", "", "", "")) pkglist_lines.append((action, lines)) disabledModules = sorted(list(self.base._moduleContainer.getDisabledModules())) if disabledModules: action = _("Disabling modules") lines = [] for name in disabledModules: lines.append((name, "", "", "", "", "", "")) pkglist_lines.append((action, lines)) resetModules = sorted(list(self.base._moduleContainer.getResetModules())) if resetModules: action = _("Resetting modules") lines = [] for name in resetModules: lines.append((name, "", "", "", "", "", "")) pkglist_lines.append((action, lines)) if self.base._history: def format_line(group): name = group.getName() return (name if name else _("<name-unset>"), "", "", "", "", "", "") install_env_group = self.base._history.env._installed if install_env_group: action = _("Installing Environment Groups") lines = [] for group in install_env_group.values(): lines.append(format_line(group)) pkglist_lines.append((action, lines)) upgrade_env_group = self.base._history.env._upgraded if upgrade_env_group: action = _("Upgrading Environment Groups") lines = [] for group in upgrade_env_group.values(): lines.append(format_line(group)) pkglist_lines.append((action, lines)) remove_env_group = self.base._history.env._removed if remove_env_group: action = _("Removing Environment Groups") lines = [] for group in remove_env_group.values(): lines.append(format_line(group)) pkglist_lines.append((action, lines)) install_group = self.base._history.group._installed if install_group: action = _("Installing Groups") lines = [] for group in install_group.values(): lines.append(format_line(group)) pkglist_lines.append((action, lines)) upgrade_group = self.base._history.group._upgraded if upgrade_group: action = _("Upgrading Groups") lines = [] for group in upgrade_group.values(): lines.append(format_line(group)) pkglist_lines.append((action, lines)) remove_group = self.base._history.group._removed if remove_group: action = _("Removing Groups") lines = [] for group in remove_group.values(): lines.append(format_line(group)) pkglist_lines.append((action, lines)) # show skipped conflicting packages if not self.conf.best and self.base._goal.actions & forward_actions: lines = [] skipped_conflicts, skipped_broken = self.base._skipped_packages( report_problems=True, transaction=transaction) skipped_broken = dict((str(pkg), pkg) for pkg in skipped_broken) for pkg in sorted(skipped_conflicts): a_wid = _add_line(lines, data, a_wid, pkg, []) recommendations = ["--best"] if not self.base._allow_erasing: recommendations.append("--allowerasing") skip_str = _("Skipping packages with conflicts:\n" "(add '%s' to command line " "to force their upgrade)") % " ".join(recommendations) # remove misleading green color from the "packages with conflicts" lines lines = [i[:-1] + ("", ) for i in lines] pkglist_lines.append((skip_str, lines)) lines = [] for nevra, pkg in sorted(skipped_broken.items()): a_wid = _add_line(lines, data, a_wid, pkg, []) skip_str = _("Skipping packages with broken dependencies%s") if self.base.conf.upgrade_group_objects_upgrade: skip_str = skip_str % "" else: skip_str = skip_str % _(" or part of a group") # remove misleading green color from the "broken dependencies" lines lines = [i[:-1] + ("", ) for i in lines] pkglist_lines.append((skip_str, lines)) output_width = self.term.columns if not data['n'] and not self.base._moduleContainer.isChanged() and not \ (self.base._history and (self.base._history.group or self.base._history.env)): return u'' else: data = [data['n'], {}, data['v'], data['r'], {}] columns = [1, a_wid, 1, 1, 5] columns = self.calcColumns(data, indent=" ", columns=columns, remainder_column=2, total_width=total_width) (n_wid, a_wid, v_wid, r_wid, s_wid) = columns real_width = sum(columns) + 5 output_width = output_width if output_width >= real_width else real_width # Do not use 'Package' without context. Using context resolves # RhBug 1302935 as a side effect. msg_package = select_short_long(n_wid, # Translators: This is the short version of 'Package'. You can # use the full (unabbreviated) term 'Package' if you think that # the translation to your language is not too long and will # always fit to limited space. C_('short', 'Package'), # Translators: This is the full (unabbreviated) term 'Package'. C_('long', 'Package')) msg_arch = select_short_long(a_wid, # Translators: This is abbreviated 'Architecture', used when # we have not enough space to display the full word. C_('short', 'Arch'), # Translators: This is the full word 'Architecture', used when # we have enough space. C_('long', 'Architecture')) msg_version = select_short_long(v_wid, # Translators: This is the short version of 'Version'. You can # use the full (unabbreviated) term 'Version' if you think that # the translation to your language is not too long and will # always fit to limited space. C_('short', 'Version'), # Translators: This is the full (unabbreviated) term 'Version'. C_('long', 'Version')) msg_repository = select_short_long(r_wid, # Translators: This is abbreviated 'Repository', used when # we have not enough space to display the full word. C_('short', 'Repo'), # Translators: This is the full word 'Repository', used when # we have enough space. C_('long', 'Repository')) msg_size = select_short_long(s_wid, # Translators: This is the short version of 'Size'. It should # not be longer than 5 characters. If the term 'Size' in your # language is not longer than 5 characters then you can use it # unabbreviated. C_('short', 'Size'), # Translators: This is the full (unabbreviated) term 'Size'. C_('long', 'Size')) out = [u"%s\n%s\n%s\n" % ('=' * output_width, self.fmtColumns(((msg_package, -n_wid), (msg_arch, -a_wid), (msg_version, -v_wid), (msg_repository, -r_wid), (msg_size, s_wid)), u" "), '=' * output_width)] for (action, lines) in pkglist_lines: if lines: totalmsg = u"%s:\n" % action for (n, a, evr, repoid, size, obsoletes, hi) in lines: columns = ((n, -n_wid, hi), (a, -a_wid), (evr, -v_wid), (repoid, -r_wid), (size, s_wid)) msg = self.fmtColumns(columns, u" ", u"\n") hibeg, hiend = self._highlight(self.conf.color_update_installed) for obspo in sorted(obsoletes): appended = ' ' + _('replacing') + ' %s%s%s.%s %s\n' appended %= (hibeg, obspo.name, hiend, obspo.arch, obspo.evr) msg += appended totalmsg = totalmsg + msg if lines: out.append(totalmsg) out.append(_(""" Transaction Summary %s """) % ('=' * output_width)) summary_data = ( (_('Install'), len(list_bunch.installed) + len(list_bunch.installed_group) + len(list_bunch.installed_weak) + len(list_bunch.installed_dep), 0), (_('Upgrade'), len(list_bunch.upgraded), 0), (_('Remove'), len(list_bunch.erased) + len(list_bunch.erased_dep) + len(list_bunch.erased_clean), 0), (_('Downgrade'), len(list_bunch.downgraded), 0), (_('Skip'), len(skipped_conflicts) + len(skipped_broken), 0)) max_msg_action = 0 max_msg_count = 0 max_msg_pkgs = 0 max_msg_depcount = 0 for action, count, depcount in summary_data: if not count and not depcount: continue msg_pkgs = P_('Package', 'Packages', count) len_msg_action = exact_width(action) len_msg_count = exact_width(unicode(count)) len_msg_pkgs = exact_width(msg_pkgs) if depcount: len_msg_depcount = exact_width(unicode(depcount)) else: len_msg_depcount = 0 max_msg_action = max(len_msg_action, max_msg_action) max_msg_count = max(len_msg_count, max_msg_count) max_msg_pkgs = max(len_msg_pkgs, max_msg_pkgs) max_msg_depcount = max(len_msg_depcount, max_msg_depcount) for action, count, depcount in summary_data: msg_pkgs = P_('Package', 'Packages', count) if depcount: msg_deppkgs = P_('Dependent package', 'Dependent packages', depcount) action_msg = fill_exact_width(action, max_msg_action) if count: msg = '%s %*d %s (+%*d %s)\n' out.append(msg % (action_msg, max_msg_count, count, "%-*s" % (max_msg_pkgs, msg_pkgs), max_msg_depcount, depcount, msg_deppkgs)) else: msg = '%s %s ( %*d %s)\n' out.append(msg % (action_msg, (max_msg_count + max_msg_pkgs) * ' ', max_msg_depcount, depcount, msg_deppkgs)) elif count: msg = '%s %*d %s\n' out.append(msg % (fill_exact_width(action, max_msg_action), max_msg_count, count, msg_pkgs)) return ''.join(out) def _pto_callback(self, action, tsis): # Works a bit like calcColumns, but we never overflow a column we just # have a dynamic number of columns. def _fits_in_cols(msgs, num): """ Work out how many columns we can use to display stuff, in the post trans output. """ if len(msgs) < num: return [] left = self.term.columns - ((num - 1) + 2) if left <= 0: return [] col_lens = [0] * num col = 0 for msg in msgs: if len(msg) > col_lens[col]: diff = (len(msg) - col_lens[col]) if left <= diff: return [] left -= diff col_lens[col] = len(msg) col += 1 col %= len(col_lens) for col in range(len(col_lens)): col_lens[col] += left // num col_lens[col] *= -1 return col_lens if not tsis: return '' out = [] msgs = [] out.append('{}:'.format(action)) for tsi in tsis: msgs.append(str(tsi)) for num in (8, 7, 6, 5, 4, 3, 2): cols = _fits_in_cols(msgs, num) if cols: break if not cols: cols = [-(self.term.columns - 2)] while msgs: current_msgs = msgs[:len(cols)] out.append(' {}'.format(self.fmtColumns(zip(current_msgs, cols)))) msgs = msgs[len(cols):] return out def post_transaction_output(self, transaction): """ Return a human-readable summary of the transaction. Packages in sections are arranged to columns. """ return dnf.util._post_transaction_output(self.base, transaction, self._pto_callback) def setup_progress_callbacks(self): """Set up the progress callbacks and various output bars based on debug level. """ progressbar = None if self.conf.debuglevel >= 2: progressbar = dnf.cli.progress.MultiFileProgressMeter(fo=sys.stdout) self.progress = dnf.cli.progress.MultiFileProgressMeter(fo=sys.stdout) # setup our depsolve progress callback return (progressbar, DepSolveProgressCallBack()) def download_callback_total_cb(self, remote_size, download_start_timestamp): """Outputs summary information about the download process. :param remote_size: the total amount of information that was downloaded, in bytes :param download_start_timestamp: the time when the download process started, in seconds since the epoch """ if remote_size <= 0: return width = self.term.columns logger.info("-" * width) dl_time = max(0.01, time.time() - download_start_timestamp) msg = ' %5sB/s | %5sB %9s ' % ( format_number(remote_size // dl_time), format_number(remote_size), format_time(dl_time)) msg = fill_exact_width(_("Total"), width - len(msg)) + msg logger.info(msg) def _history_uiactions(self, hpkgs): actions = set() actions_short = set() count = 0 for pkg in hpkgs: if pkg.action in (libdnf.transaction.TransactionItemAction_UPGRADED, libdnf.transaction.TransactionItemAction_DOWNGRADED): # skip states we don't want to display in user input continue actions.add(pkg.action_name) actions_short.add(pkg.action_short) count += 1 if len(actions) > 1: return count, ", ".join(sorted(actions_short)) # So empty transactions work, although that "shouldn't" really happen return count, "".join(list(actions)) def _pwd_ui_username(self, uid, limit=None): if isinstance(uid, list): return [self._pwd_ui_username(u, limit) for u in uid] # loginuid is set to -1 (0xFFFF_FFFF) on init, in newer kernels. # loginuid is set to INT_MAX (0x7FFF_FFFF) on init, in older kernels. if uid is None or uid in (0xFFFFFFFF, 0x7FFFFFFF): loginid = _("<unset>") name = _("System") + " " + loginid if limit is not None and len(name) > limit: name = loginid return ucd(name) def _safe_split_0(text, *args): """ Split gives us a [0] for everything _but_ '', this function returns '' in that case. """ ret = text.split(*args) if not ret: return '' return ret[0] try: user = pwd.getpwuid(int(uid)) fullname = _safe_split_0(ucd(user.pw_gecos), ';', 2) user_name = ucd(user.pw_name) name = "%s <%s>" % (fullname, user_name) if limit is not None and len(name) > limit: name = "%s ... <%s>" % (_safe_split_0(fullname), user_name) if len(name) > limit: name = "<%s>" % user_name return name except KeyError: return ucd(uid) def historyListCmd(self, tids, reverse=False): """Output a list of information about the history of yum transactions. :param tids: transaction Ids; lists all transactions if empty """ transactions = self.history.old(tids) if self.conf.history_list_view == 'users': uids = [1, 2] elif self.conf.history_list_view == 'commands': uids = [1] else: assert self.conf.history_list_view == 'single-user-commands' uids = set() done = 0 blanks = 0 for transaction in transactions: done += 1 if transaction.cmdline is None: blanks += 1 uids.add(transaction.loginuid) fmt = "%s | %s | %s | %s | %s" if len(uids) == 1: name = _("Command line") real_cols = self.term.real_columns if real_cols is None: # if output is redirected in `less` the columns # detected are None value, to detect terminal size # use stdin file descriptor real_cols = dnf.cli.term._real_term_width(0) if real_cols is None: # if even stdin fd fails use 24 to fit to 80 cols real_cols = 24 name_width = real_cols - 55 if real_cols > 79 else 24 else: # TRANSLATORS: user names who executed transaction in history command output name = _("User name") name_width = 24 print(fmt % (fill_exact_width(_("ID"), 6, 6), fill_exact_width(name, name_width, name_width), fill_exact_width(_("Date and time"), 16, 16), fill_exact_width(_("Action(s)"), 14, 14), fill_exact_width(_("Altered"), 7, 7))) # total table width: each column length +3 (padding and separator between columns) table_width = 6 + 3 + name_width + 3 + 16 + 3 + 14 + 3 + 7 print("-" * table_width) fmt = "%6u | %s | %-16.16s | %s | %4u" if reverse is True: transactions = reversed(transactions) for transaction in transactions: if len(uids) == 1: name = transaction.cmdline or '' else: name = self._pwd_ui_username(transaction.loginuid, 24) name = ucd(name) tm = time.strftime("%Y-%m-%d %H:%M", time.localtime(transaction.beg_timestamp)) num, uiacts = self._history_uiactions(transaction.data()) name = fill_exact_width(name, name_width, name_width) uiacts = fill_exact_width(uiacts, 14, 14) rmark = lmark = ' ' if transaction.return_code is None: rmark = lmark = '*' elif transaction.return_code: rmark = lmark = '#' # We don't check .errors, because return_code will be non-0 elif transaction.is_output: rmark = lmark = 'E' if transaction.altered_lt_rpmdb: rmark = '<' if transaction.altered_gt_rpmdb: lmark = '>' print(fmt % (transaction.tid, name, tm, uiacts, num), "%s%s" % (lmark, rmark)) def historyInfoCmd(self, tids, pats=[], mtids=set()): """Output information about a transaction in history :param tids: transaction Ids; prints info for the last transaction if empty :raises dnf.exceptions.Error in case no transactions were found """ tids = set(tids) last = self.history.last() if last is None: logger.critical(_('No transactions')) raise dnf.exceptions.Error(_('Failed history info')) lasttid = last.tid lastdbv = last.end_rpmdb_version transactions = [] if not tids: last = self.history.last(complete_transactions_only=False) if last is not None: tids.add(last.tid) transactions.append(last) else: transactions = self.history.old(tids) if not tids: logger.critical(_('No transaction ID, or package, given')) raise dnf.exceptions.Error(_('Failed history info')) bmtid, emtid = -1, -1 mobj = None done = False if mtids: mtids = sorted(mtids) bmtid, emtid = mtids.pop() for trans in transactions: if lastdbv is not None and trans.tid == lasttid: # If this is the last transaction, is good and it doesn't # match the current rpmdb ... then mark it as bad. rpmdbv = self.sack._rpmdb_version() trans.compare_rpmdbv(str(rpmdbv)) lastdbv = None merged = False if trans.tid >= bmtid and trans.tid <= emtid: if mobj is None: mobj = MergedTransactionWrapper(trans) else: mobj.merge(trans) merged = True elif mobj is not None: if done: print("-" * 79) done = True self._historyInfoCmd(mobj) mobj = None if mtids: bmtid, emtid = mtids.pop() if trans.tid >= bmtid and trans.tid <= emtid: mobj = trans merged = True if not merged: if done: print("-" * 79) done = True self._historyInfoCmd(trans, pats) if mobj is not None: if done: print("-" * 79) self._historyInfoCmd(mobj) def _historyInfoCmd(self, old, pats=[]): loginuid = old.loginuid if isinstance(loginuid, int): loginuid = [loginuid] name = [self._pwd_ui_username(uid) for uid in loginuid] _pkg_states_installed = {'i' : _('Installed'), 'e' : _('Erased'), 'o' : _('Upgraded'), 'n' : _('Downgraded')} _pkg_states_available = {'i' : _('Installed'), 'e' : _('Not installed'), 'o' : _('Older'), 'n' : _('Newer')} maxlen = max([len(x) for x in (list(_pkg_states_installed.values()) + list(_pkg_states_available.values()))]) _pkg_states_installed['maxlen'] = maxlen _pkg_states_available['maxlen'] = maxlen def _simple_pkg(pkg, prefix_len, was_installed=False, highlight=False, pkg_max_len=0, show_repo=True): prefix = " " * prefix_len if was_installed: _pkg_states = _pkg_states_installed else: _pkg_states = _pkg_states_available state = _pkg_states['i'] # get installed packages with name = pkg.name ipkgs = self.sack.query().installed().filterm(name=pkg.name).run() if not ipkgs: state = _pkg_states['e'] else: # get latest installed package from software database inst_pkg = self.history.package(ipkgs[0]) if inst_pkg: res = pkg.compare(inst_pkg) # res is: # 0 if inst_pkg == pkg # > 0 when inst_pkg > pkg # < 0 when inst_pkg < pkg if res == 0: pass # installed elif res > 0: state = _pkg_states['o'] # updated else: state = _pkg_states['n'] # downgraded if highlight: (hibeg, hiend) = self._highlight('bold') else: (hibeg, hiend) = self._highlight('normal') state = fill_exact_width(state, _pkg_states['maxlen']) ui_repo = '' if show_repo: ui_repo = pkg.ui_from_repo() print("%s%s%s%s %-*s %s" % (prefix, hibeg, state, hiend, pkg_max_len, str(pkg), ui_repo)) tids = old.tids() if len(tids) > 1: print(_("Transaction ID :"), "%u..%u" % (tids[0], tids[-1])) else: print(_("Transaction ID :"), tids[0]) begt = float(old.beg_timestamp) begtm = time.strftime("%c", time.localtime(begt)) print(_("Begin time :"), begtm) if old.beg_rpmdb_version is not None: if old.altered_lt_rpmdb: print(_("Begin rpmdb :"), old.beg_rpmdb_version, "**") else: print(_("Begin rpmdb :"), old.beg_rpmdb_version) if old.end_timestamp is not None: endt = old.end_timestamp endtm = time.strftime("%c", time.localtime(endt)) diff = endt - begt if diff < 5 * 60: diff = _("(%u seconds)") % diff elif diff < 5 * 60 * 60: diff = _("(%u minutes)") % (diff // 60) elif diff < 5 * 60 * 60 * 24: diff = _("(%u hours)") % (diff // (60 * 60)) else: diff = _("(%u days)") % (diff // (60 * 60 * 24)) print(_("End time :"), endtm, diff) if old.end_rpmdb_version is not None: if old.altered_gt_rpmdb: print(_("End rpmdb :"), old.end_rpmdb_version, "**") else: print(_("End rpmdb :"), old.end_rpmdb_version) if isinstance(name, (list, tuple)): seen = set() for i in name: if i in seen: continue seen.add(i) print(_("User :"), i) else: print(_("User :"), name) if isinstance(old.return_code, (list, tuple)): codes = old.return_code if codes[0] is None: print(_("Return-Code :"), "**", _("Aborted"), "**") codes = codes[1:] elif not all(codes): print(_("Return-Code :"), _("Success")) elif codes: print(_("Return-Code :"), _("Failures:"), ", ".join([str(i) for i in codes])) elif old.return_code is None: print(_("Return-Code :"), "**", _("Aborted"), "**") elif old.return_code: print(_("Return-Code :"), _("Failure:"), old.return_code) else: print(_("Return-Code :"), _("Success")) if isinstance(old.releasever, (list, tuple)): seen = set() for i in old.releasever: if i in seen: continue seen.add(i) print(_("Releasever :"), i) else: print(_("Releasever :"), old.releasever) if old.cmdline is not None: if isinstance(old.cmdline, (list, tuple)): for cmdline in old.cmdline: print(_("Command Line :"), cmdline) else: print(_("Command Line :"), old.cmdline) if old.comment is not None: if isinstance(old.comment, (list, tuple)): for comment in old.comment: print(_("Comment :"), comment) else: print(_("Comment :"), old.comment) perf_with = old.performed_with() if perf_with: print(_("Transaction performed with:")) max_len = 0 for with_pkg in perf_with: str_len = len(str(with_pkg)) if str_len > max_len: max_len = str_len for with_pkg in perf_with: _simple_pkg(with_pkg, 4, was_installed=True, pkg_max_len=max_len) print(_("Packages Altered:")) self.historyInfoCmdPkgsAltered(old, pats) t_out = old.output() if t_out: print(_("Scriptlet output:")) num = 0 for line in t_out: num += 1 print("%4d" % num, line) t_err = old.error() if t_err: print(_("Errors:")) num = 0 for line in t_err: num += 1 print("%4d" % num, line) # TODO: remove _history_state2uistate = {'True-Install' : _('Install'), 'Install' : _('Install'), 'Dep-Install' : _('Dep-Install'), 'Obsoleted' : _('Obsoleted'), 'Obsoleting' : _('Obsoleting'), 'Erase' : _('Erase'), 'Reinstall' : _('Reinstall'), 'Downgrade' : _('Downgrade'), 'Downgraded' : _('Downgraded'), 'Update' : _('Upgrade'), 'Updated' : _('Upgraded'), } def historyInfoCmdPkgsAltered(self, old, pats=[]): """Print information about how packages are altered in a transaction. :param old: the :class:`DnfSwdbTrans` to print information about :param pats: a list of patterns. Packages that match a patten in *pats* will be highlighted in the output """ # Note that these don't use _simple_pkg() because we are showing what # happened to them in the transaction ... not the difference between the # version in the transaction and now. all_uistates = self._history_state2uistate maxlen = 0 pkg_max_len = 0 packages = old.packages() for pkg in packages: uistate = all_uistates.get(pkg.action_name, pkg.action_name) if maxlen < len(uistate): maxlen = len(uistate) pkg_len = len(str(pkg)) if pkg_max_len < pkg_len: pkg_max_len = pkg_len for pkg in packages: prefix = " " * 4 if pkg.state != libdnf.transaction.TransactionItemState_DONE: prefix = " ** " highlight = 'normal' if pats: if any([pkg.match(pat) for pat in pats]): highlight = 'bold' (hibeg, hiend) = self._highlight(highlight) uistate = all_uistates.get(pkg.action_name, pkg.action_name) uistate = fill_exact_width(ucd(uistate), maxlen) print("%s%s%s%s %-*s %s" % (prefix, hibeg, uistate, hiend, pkg_max_len, str(pkg), pkg.ui_from_repo())) class DepSolveProgressCallBack(dnf.callback.Depsolve): """Provides text output callback functions for Dependency Solver callback.""" def pkg_added(self, pkg, mode): """Print information about a package being added to the transaction set. :param pkgtup: tuple containing the package name, arch, version, and repository :param mode: a short string indicating why the package is being added to the transaction set. Valid current values for *mode* are:: i = the package will be installed u = the package will be an update e = the package will be erased r = the package will be reinstalled d = the package will be a downgrade o = the package will be obsoleting another package ud = the package will be updated od = the package will be obsoleted """ output = None if mode == 'i': output = _('---> Package %s.%s %s will be installed') elif mode == 'u': output = _('---> Package %s.%s %s will be an upgrade') elif mode == 'e': output = _('---> Package %s.%s %s will be erased') elif mode == 'r': output = _('---> Package %s.%s %s will be reinstalled') elif mode == 'd': output = _('---> Package %s.%s %s will be a downgrade') elif mode == 'o': output = _('---> Package %s.%s %s will be obsoleting') elif mode == 'ud': output = _('---> Package %s.%s %s will be upgraded') elif mode == 'od': output = _('---> Package %s.%s %s will be obsoleted') if output: logger.debug(output, pkg.name, pkg.arch, pkg.evr) def start(self): """Perform setup at the beginning of the dependency solving process. """ logger.debug(_('--> Starting dependency resolution')) def end(self): """Output a message stating that dependency resolution has finished.""" logger.debug(_('--> Finished dependency resolution')) class CliKeyImport(dnf.callback.KeyImport): def __init__(self, base, output): self.base = base self.output = output def _confirm(self, id, userid, fingerprint, url, timestamp): def short_id(id): rj = '0' if dnf.pycomp.PY3 else b'0' return id[-8:].rjust(8, rj) msg = (_('Importing GPG key 0x%s:\n' ' Userid : "%s"\n' ' Fingerprint: %s\n' ' From : %s') % (short_id(id), userid, dnf.crypto._printable_fingerprint(fingerprint), url.replace("file://", ""))) logger.critical("%s", msg) if self.base.conf.assumeyes: return True if self.base.conf.assumeno: return False return self.output.userconfirm() class CliTransactionDisplay(TransactionDisplay): """A YUM specific callback class for RPM operations.""" width = property(lambda self: dnf.cli.term._term_width()) def __init__(self): super(CliTransactionDisplay, self).__init__() self.lastmsg = "" self.lastpackage = None # name of last package we looked at self.output = True # for a progress bar self.mark = "=" self.marks = 22 def progress(self, package, action, ti_done, ti_total, ts_done, ts_total): """Output information about an rpm operation. This may include a text progress bar. :param package: the package involved in the event :param action: the type of action that is taking place. Valid values are given by :func:`rpmtrans.TransactionDisplay.action.keys()` :param ti_done: a number representing the amount of work already done in the current transaction :param ti_total: a number representing the total amount of work to be done in the current transaction :param ts_done: the number of the current transaction in transaction set :param ts_total: the total number of transactions in the transaction set """ action_str = dnf.transaction.ACTIONS.get(action) if action_str is None: return wid1 = self._max_action_width() pkgname = ucd(package) self.lastpackage = package if ti_total == 0: percent = 0 else: percent = (ti_done*long(100))//ti_total self._out_progress(ti_done, ti_total, ts_done, ts_total, percent, action_str, pkgname, wid1) def _max_action_width(self): if not hasattr(self, '_max_action_wid_cache'): wid1 = 0 for val in dnf.transaction.ACTIONS.values(): wid_val = exact_width(val) if wid1 < wid_val: wid1 = wid_val self._max_action_wid_cache = wid1 wid1 = self._max_action_wid_cache return wid1 def _out_progress(self, ti_done, ti_total, ts_done, ts_total, percent, process, pkgname, wid1): if self.output and (sys.stdout.isatty() or ti_done == ti_total): (fmt, wid1, wid2) = self._makefmt(percent, ts_done, ts_total, progress=sys.stdout.isatty(), pkgname=pkgname, wid1=wid1) pkgname = ucd(pkgname) msg = fmt % (fill_exact_width(process, wid1, wid1), fill_exact_width(pkgname, wid2, wid2)) if msg != self.lastmsg: dnf.util._terminal_messenger('write_flush', msg, sys.stdout) self.lastmsg = msg if ti_done == ti_total: print(" ") def _makefmt(self, percent, ts_done, ts_total, progress=True, pkgname=None, wid1=15): l = len(str(ts_total)) size = "%s.%s" % (l, l) fmt_done = "%" + size + "s/%" + size + "s" done = fmt_done % (ts_done, ts_total) # This should probably use TerminLine, but we don't want to dep. on # that. So we kind do an ok job by hand ... at least it's dynamic now. if pkgname is None: pnl = 22 else: pnl = exact_width(pkgname) overhead = (2 * l) + 2 # Length of done, above overhead += 2 + wid1 +2 # Length of beginning (" " action " :") overhead += 1 # Space between pn and done overhead += 2 # Ends for progress overhead += 1 # Space for end width = self.width if width < overhead: width = overhead # Give up width -= overhead if pnl > width // 2: pnl = width // 2 marks = self.width - (overhead + pnl) width = "%s.%s" % (marks, marks) fmt_bar = "[%-" + width + "s]" # pnl = str(28 + marks + 1) full_pnl = pnl + marks + 1 if progress and percent == 100: # Don't chop pkg name on 100% fmt = "\r %s: %s " + done wid2 = full_pnl elif progress: if marks > 5: bar = fmt_bar % (self.mark * int(marks * (percent / 100.0)), ) else: bar = "" fmt = "\r %s: %s " + bar + " " + done wid2 = pnl elif percent == 100: fmt = " %s: %s " + done wid2 = full_pnl else: if marks > 5: bar = fmt_bar % (self.mark * marks, ) else: bar = "" fmt = " %s: %s " + bar + " " + done wid2 = pnl return fmt, wid1, wid2 def progressbar(current, total, name=None): """Output the current status to the terminal using a simple text progress bar consisting of 50 # marks. :param current: a number representing the amount of work already done :param total: a number representing the total amount of work to be done :param name: a name to label the progress bar with """ mark = '#' if not sys.stdout.isatty(): return if current == 0: percent = 0 else: if total != 0: percent = float(current) / total else: percent = 0 width = dnf.cli.term._term_width() if name is None and current == total: name = '-' end = ' %d/%d' % (current, total) width -= len(end) + 1 if width < 0: width = 0 if name is None: width -= 2 if width < 0: width = 0 hashbar = mark * int(width * percent) output = '\r[%-*s]%s' % (width, hashbar, end) elif current == total: # Don't chop name on 100% output = '\r%s%s' % (fill_exact_width(name, width, width), end) else: width -= 4 if width < 0: width = 0 nwid = width // 2 if nwid > exact_width(name): nwid = exact_width(name) width -= nwid hashbar = mark * int(width * percent) output = '\r%s: [%-*s]%s' % (fill_exact_width(name, nwid, nwid), width, hashbar, end) if current <= total: dnf.util._terminal_messenger('write', output, sys.stdout) if current == total: dnf.util._terminal_messenger('write', '\n', sys.stdout) dnf.util._terminal_messenger('flush', out=sys.stdout)