def sign_packages(self, keyfp=None):
# Do nothing if signing is not requested.
if not self.settings.get("sign_packages"):
return
# Get key, that should be used for signing.
if not keyfp:
keyfp = self.keyring.get_host_key_id()
# Find all files to process.
files = self.find_result_packages()
# Create a progressbar.
print _("Signing packages...")
p = util.make_progress(keyfp, len(files))
i = 0
for file in files:
# Update progressbar.
if p:
i += 1
p.update(i)
# Open package file.
pkg = packages.open(self.pakfire, None, file)
# Sign it.
pkg.sign(keyfp)
# Close progressbar.
if p:
p.finish()
print "" # Print an empty line.
def handle_extract(self):
p = self.create_pakfire()
# Open all packages.
pkgs = []
for pkg in self.args.package:
pkg = packages.open(self, None, pkg)
pkgs.append(pkg)
target_prefix = self.args.target
# Search for binary packages.
binary_packages = any([p.type == "binary" for p in pkgs])
source_packages = any([p.type == "source" for p in pkgs])
if binary_packages and source_packages:
raise Error, _("Cannot extract mixed package types")
if binary_packages and not target_prefix:
raise Error, _("You must provide an install directory with --target=...")
elif source_packages and not target_prefix:
target_prefix = "/usr/src/packages/"
if target_prefix == "/":
raise Error, _("Cannot extract to /.")
for pkg in pkgs:
if pkg.type == "binary":
target_dir = target_prefix
elif pkg.type == "source":
target_dir = os.path.join(target_prefix, pkg.friendly_name)
pkg.extract(message=_("Extracting"), prefix=target_dir)
def info(self, patterns):
# Initialize this pakfire instance.
self.initialize()
pkgs = []
# For all patterns we run a single search which returns us a bunch
# of solvables which are transformed into Package objects.
for pattern in patterns:
if os.path.exists(pattern) and not os.path.isdir(pattern):
pkg = packages.open(self, self.repos.dummy, pattern)
if pkg:
pkgs.append(pkg)
else:
solvs = self.pool.search(pattern, satsolver.SEARCH_GLOB,
"solvable:name")
for solv in solvs:
pkg = packages.SolvPackage(self, solv)
if pkg in pkgs:
continue
pkgs.append(pkg)
return sorted(pkgs)
def info(self, patterns): # Initialize this pakfire instance. self.initialize() pkgs = [] # For all patterns we run a single search which returns us a bunch # of solvables which are transformed into Package objects. for pattern in patterns: if os.path.exists(pattern) and not os.path.isdir(pattern): pkg = packages.open(self, self.repos.dummy, pattern) if pkg: pkgs.append(pkg) else: solvs = self.pool.search(pattern, satsolver.SEARCH_GLOB, "solvable:name") for solv in solvs: pkg = packages.SolvPackage(self, solv) if pkg in pkgs: continue pkgs.append(pkg) return sorted(pkgs)
def sign_packages(self, keyfp=None):
# Do nothing if signing is not requested.
if not self.settings.get("sign_packages"):
return
# Get key, that should be used for signing.
if not keyfp:
keyfp = self.keyring.get_host_key_id()
# Find all files to process.
files = self.find_result_packages()
# Create a progressbar.
print _("Signing packages...")
p = util.make_progress(keyfp, len(files))
i = 0
for file in files:
# Update progressbar.
if p:
i += 1
p.update(i)
# Open package file.
pkg = packages.open(self.pakfire, None, file)
# Sign it.
pkg.sign(keyfp)
# Close progressbar.
if p:
p.finish()
print "" # Print an empty line.
def dump(self):
pkgs = []
for file in self.find_result_packages():
pkg = packages.open(self.pakfire, None, file)
pkgs.append(pkg)
# If there are no packages, there is nothing to do.
if not pkgs:
return
pkgs.sort()
self.log.info(_("Dumping package information:"))
for pkg in pkgs:
dump = pkg.dump(long=True)
for line in dump.splitlines():
self.log.info(" %s" % line)
self.log.info("") # Empty line.
def dump(self):
pkgs = []
for file in self.find_result_packages():
pkg = packages.open(self.pakfire, None, file)
pkgs.append(pkg)
# If there are no packages, there is nothing to do.
if not pkgs:
return
pkgs.sort()
self.log.info(_("Dumping package information:"))
for pkg in pkgs:
dump = pkg.dump(long=True)
for line in dump.splitlines():
self.log.info(" %s" % line)
self.log.info("") # Empty line.
def handle_verify(self):
# Get the files from the command line options
files = []
for file in self.args.package:
# Check, if we got a regular file
if os.path.exists(file) and not os.path.isdir(file):
file = os.path.abspath(file)
files.append(file)
# Create pakfire instance.
p = self.create_pakfire()
for file in files:
# Open the package.
pkg = packages.open(p, None, file)
print _("Verifying %s...") % pkg.friendly_name
sigs = pkg.verify()
for sig in sigs:
key = p.keyring.get_key(sig.fpr)
if key:
subkey = key.subkeys[0]
print " %s %s" % (subkey.fpr[-16:], key.uids[0].uid)
if sig.validity:
print " %s" % _("This signature is valid.")
else:
print " %s <%s>" % (sig.fpr, _("Unknown key"))
print " %s" % _("Could not check if this signature is valid.")
created = datetime.datetime.fromtimestamp(sig.timestamp)
print " %s" % _("Created: %s") % created
if sig.exp_timestamp:
expires = datetime.datetime.fromtimestamp(sig.exp_timestamp)
print " %s" % _("Expires: %s") % expires
print # Empty line
def resolvdep(self, pakfire, pkg, logger=None): assert os.path.exists(pkg) # Open the package file. pkg = packages.open(pakfire, None, pkg) # Create a new request. request = self.create_request(install=pkg.requires) # Add build dependencies if needed. if isinstance(pkg, packages.Makefile) or isinstance(pkg, packages.SourcePackage): for req in self.expand_requires(BUILD_PACKAGES): request.install(req) # Solv the request. solver = self.solve(request, logger=logger) if solver.status: return solver raise DependencyError, solver.get_problem_string()
def handle_sign(self):
# Get the files from the command line options
files = []
for file in self.args.package:
# Check, if we got a regular file
if os.path.exists(file):
file = os.path.abspath(file)
files.append(file)
else:
raise FileNotFoundError, file
key = self.args.key[0]
# Create pakfire instance.
p = self.create_pakfire()
for file in files:
# Open the package.
pkg = packages.open(p, None, file)
print _("Signing %s...") % pkg.friendly_name
pkg.sign(key)
