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from abc import ABCMeta, abstractmethod
import os
import re
import bb
class Manifest(object, metaclass=ABCMeta):
"""
This is an abstract class. Do not instantiate this directly.
"""
PKG_TYPE_MUST_INSTALL = "mip"
PKG_TYPE_MULTILIB = "mlp"
PKG_TYPE_LANGUAGE = "lgp"
PKG_TYPE_ATTEMPT_ONLY = "aop"
MANIFEST_TYPE_IMAGE = "image"
MANIFEST_TYPE_SDK_HOST = "sdk_host"
MANIFEST_TYPE_SDK_TARGET = "sdk_target"
var_maps = {
MANIFEST_TYPE_IMAGE: {
"PACKAGE_INSTALL": PKG_TYPE_MUST_INSTALL,
"PACKAGE_INSTALL_ATTEMPTONLY": PKG_TYPE_ATTEMPT_ONLY,
"LINGUAS_INSTALL": PKG_TYPE_LANGUAGE
},
MANIFEST_TYPE_SDK_HOST: {
"TOOLCHAIN_HOST_TASK": PKG_TYPE_MUST_INSTALL,
"TOOLCHAIN_HOST_TASK_ATTEMPTONLY": PKG_TYPE_ATTEMPT_ONLY
},
MANIFEST_TYPE_SDK_TARGET: {
"TOOLCHAIN_TARGET_TASK": PKG_TYPE_MUST_INSTALL,
"TOOLCHAIN_TARGET_TASK_ATTEMPTONLY": PKG_TYPE_ATTEMPT_ONLY
}
}
INSTALL_ORDER = [
PKG_TYPE_LANGUAGE,
PKG_TYPE_MUST_INSTALL,
PKG_TYPE_ATTEMPT_ONLY,
PKG_TYPE_MULTILIB
]
initial_manifest_file_header = \
"# This file was generated automatically and contains the packages\n" \
"# passed on to the package manager in order to create the rootfs.\n\n" \
"# Format:\n" \
"# <package_type>,<package_name>\n" \
"# where:\n" \
"# <package_type> can be:\n" \
"# 'mip' = must install package\n" \
"# 'aop' = attempt only package\n" \
"# 'mlp' = multilib package\n" \
"# 'lgp' = language package\n\n"
def __init__(self, d, manifest_dir=None, manifest_type=MANIFEST_TYPE_IMAGE):
self.d = d
self.manifest_type = manifest_type
if manifest_dir is None:
if manifest_type != self.MANIFEST_TYPE_IMAGE:
self.manifest_dir = self.d.getVar('SDK_DIR')
else:
self.manifest_dir = self.d.getVar('WORKDIR')
else:
self.manifest_dir = manifest_dir
bb.utils.mkdirhier(self.manifest_dir)
self.initial_manifest = os.path.join(self.manifest_dir, "%s_initial_manifest" % manifest_type)
self.final_manifest = os.path.join(self.manifest_dir, "%s_final_manifest" % manifest_type)
self.full_manifest = os.path.join(self.manifest_dir, "%s_full_manifest" % manifest_type)
# packages in the following vars will be split in 'must install' and
# 'multilib'
self.vars_to_split = ["PACKAGE_INSTALL",
"TOOLCHAIN_HOST_TASK",
"TOOLCHAIN_TARGET_TASK"]
"""
This creates a standard initial manifest for core-image-(minimal|sato|sato-sdk).
This will be used for testing until the class is implemented properly!
"""
def _create_dummy_initial(self):
image_rootfs = self.d.getVar('IMAGE_ROOTFS')
pkg_list = dict()
if image_rootfs.find("core-image-sato-sdk") > 0:
pkg_list[self.PKG_TYPE_MUST_INSTALL] = \
"packagegroup-core-x11-sato-games packagegroup-base-extended " \
"packagegroup-core-x11-sato packagegroup-core-x11-base " \
"packagegroup-core-sdk packagegroup-core-tools-debug " \
"packagegroup-core-boot packagegroup-core-tools-testapps " \
"packagegroup-core-eclipse-debug packagegroup-core-qt-demoapps " \
"apt packagegroup-core-tools-profile psplash " \
"packagegroup-core-standalone-sdk-target " \
"packagegroup-core-ssh-openssh dpkg kernel-dev"
pkg_list[self.PKG_TYPE_LANGUAGE] = \
"locale-base-en-us locale-base-en-gb"
elif image_rootfs.find("core-image-sato") > 0:
pkg_list[self.PKG_TYPE_MUST_INSTALL] = \
"packagegroup-core-ssh-dropbear packagegroup-core-x11-sato-games " \
"packagegroup-core-x11-base psplash apt dpkg packagegroup-base-extended " \
"packagegroup-core-x11-sato packagegroup-core-boot"
pkg_list['lgp'] = \
"locale-base-en-us locale-base-en-gb"
elif image_rootfs.find("core-image-minimal") > 0:
pkg_list[self.PKG_TYPE_MUST_INSTALL] = "packagegroup-core-boot"
with open(self.initial_manifest, "w+") as manifest:
manifest.write(self.initial_manifest_file_header)
for pkg_type in pkg_list:
for pkg in pkg_list[pkg_type].split():
manifest.write("%s,%s\n" % (pkg_type, pkg))
"""
This will create the initial manifest which will be used by Rootfs class to
generate the rootfs
"""
@abstractmethod
def create_initial(self):
pass
"""
This creates the manifest after everything has been installed.
"""
@abstractmethod
def create_final(self):
pass
"""
This creates the manifest after the package in initial manifest has been
dummy installed. It lists all *to be installed* packages. There is no real
installation, just a test.
"""
@abstractmethod
def create_full(self, pm):
pass
"""
The following function parses an initial manifest and returns a dictionary
object with the must install, attempt only, multilib and language packages.
"""
def parse_initial_manifest(self):
pkgs = dict()
with open(self.initial_manifest) as manifest:
for line in manifest.read().split('\n'):
comment = re.match("^#.*", line)
pattern = "^(%s|%s|%s|%s),(.*)$" % \
(self.PKG_TYPE_MUST_INSTALL,
self.PKG_TYPE_ATTEMPT_ONLY,
self.PKG_TYPE_MULTILIB,
self.PKG_TYPE_LANGUAGE)
pkg = re.match(pattern, line)
if comment is not None:
continue
if pkg is not None:
pkg_type = pkg.group(1)
pkg_name = pkg.group(2)
if not pkg_type in pkgs:
pkgs[pkg_type] = [pkg_name]
else:
pkgs[pkg_type].append(pkg_name)
return pkgs
'''
This following function parses a full manifest and return a list
object with packages.
'''
def parse_full_manifest(self):
installed_pkgs = list()
if not os.path.exists(self.full_manifest):
bb.note('full manifest not exist')
return installed_pkgs
with open(self.full_manifest, 'r') as manifest:
for pkg in manifest.read().split('\n'):
installed_pkgs.append(pkg.strip())
return installed_pkgs
class RpmManifest(Manifest):
"""
Returns a dictionary object with mip and mlp packages.
"""
def _split_multilib(self, pkg_list):
pkgs = dict()
for pkg in pkg_list.split():
pkg_type = self.PKG_TYPE_MUST_INSTALL
ml_variants = self.d.getVar('MULTILIB_VARIANTS').split()
for ml_variant in ml_variants:
if pkg.startswith(ml_variant + '-'):
pkg_type = self.PKG_TYPE_MULTILIB
if not pkg_type in pkgs:
pkgs[pkg_type] = pkg
else:
pkgs[pkg_type] += " " + pkg
return pkgs
def create_initial(self):
pkgs = dict()
with open(self.initial_manifest, "w+") as manifest:
manifest.write(self.initial_manifest_file_header)
for var in self.var_maps[self.manifest_type]:
if var in self.vars_to_split:
split_pkgs = self._split_multilib(self.d.getVar(var))
if split_pkgs is not None:
pkgs = dict(list(pkgs.items()) + list(split_pkgs.items()))
else:
pkg_list = self.d.getVar(var)
if pkg_list is not None:
pkgs[self.var_maps[self.manifest_type][var]] = self.d.getVar(var)
for pkg_type in pkgs:
for pkg in pkgs[pkg_type].split():
manifest.write("%s,%s\n" % (pkg_type, pkg))
def create_final(self):
pass
def create_full(self, pm):
pass
class OpkgManifest(Manifest):
"""
Returns a dictionary object with mip and mlp packages.
"""
def _split_multilib(self, pkg_list):
pkgs = dict()
for pkg in pkg_list.split():
pkg_type = self.PKG_TYPE_MUST_INSTALL
ml_variants = self.d.getVar('MULTILIB_VARIANTS').split()
for ml_variant in ml_variants:
if pkg.startswith(ml_variant + '-'):
pkg_type = self.PKG_TYPE_MULTILIB
if not pkg_type in pkgs:
pkgs[pkg_type] = pkg
else:
pkgs[pkg_type] += " " + pkg
return pkgs
def create_initial(self):
pkgs = dict()
with open(self.initial_manifest, "w+") as manifest:
manifest.write(self.initial_manifest_file_header)
for var in self.var_maps[self.manifest_type]:
if var in self.vars_to_split:
split_pkgs = self._split_multilib(self.d.getVar(var))
if split_pkgs is not None:
pkgs = dict(list(pkgs.items()) + list(split_pkgs.items()))
else:
pkg_list = self.d.getVar(var)
if pkg_list is not None:
pkgs[self.var_maps[self.manifest_type][var]] = self.d.getVar(var)
for pkg_type in pkgs:
for pkg in pkgs[pkg_type].split():
manifest.write("%s,%s\n" % (pkg_type, pkg))
def create_final(self):
pass
def create_full(self, pm):
if not os.path.exists(self.initial_manifest):
self.create_initial()
initial_manifest = self.parse_initial_manifest()
pkgs_to_install = list()
for pkg_type in initial_manifest:
pkgs_to_install += initial_manifest[pkg_type]
if len(pkgs_to_install) == 0:
return
output = pm.dummy_install(pkgs_to_install)
with open(self.full_manifest, 'w+') as manifest:
pkg_re = re.compile('^Installing ([^ ]+) [^ ].*')
for line in set(output.split('\n')):
m = pkg_re.match(line)
if m:
manifest.write(m.group(1) + '\n')
return
class DpkgManifest(Manifest):
def create_initial(self):
with open(self.initial_manifest, "w+") as manifest:
manifest.write(self.initial_manifest_file_header)
for var in self.var_maps[self.manifest_type]:
pkg_list = self.d.getVar(var)
if pkg_list is None:
continue
for pkg in pkg_list.split():
manifest.write("%s,%s\n" %
(self.var_maps[self.manifest_type][var], pkg))
def create_final(self):
pass
def create_full(self, pm):
pass
def create_manifest(d, final_manifest=False, manifest_dir=None,
manifest_type=Manifest.MANIFEST_TYPE_IMAGE):
manifest_map = {'rpm': RpmManifest,
'ipk': OpkgManifest,
'deb': DpkgManifest}
manifest = manifest_map[d.getVar('IMAGE_PKGTYPE')](d, manifest_dir, manifest_type)
if final_manifest:
manifest.create_final()
else:
manifest.create_initial()
if __name__ == "__main__":
pass
|