#!/usr/bin/env python3 """\ @file viewer_manifest.py @author Ryan Williams @brief Description of all installer viewer files, and methods for packaging them into installers for all supported platforms. $LicenseInfo:firstyear=2006&license=viewerlgpl$ Second Life Viewer Source Code Copyright (C) 2006-2014, Linden Research, Inc. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; version 2.1 of the License only. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA $/LicenseInfo$ """ import errno import glob import itertools import json import os import os.path import plistlib import random import re import secrets import shutil import subprocess import sys import tarfile import tempfile import time viewer_dir = os.path.dirname(__file__) # Add indra/lib/python to our path so we don't have to muck with PYTHONPATH. # Put it FIRST because some of our build hosts have an ancient install of # indra.util.llmanifest under their system Python! sys.path.insert(0, os.path.join(viewer_dir, os.pardir, "lib", "python")) from indra.util.llmanifest import LLManifest, main, path_ancestors, CHANNEL_VENDOR_BASE, RELEASE_CHANNEL, ManifestError, MissingError import llsd class ViewerManifest(LLManifest): def is_packaging_viewer(self): # Some commands, files will only be included # if we are packaging the viewer on windows. # This manifest is also used to copy # files during the build (see copy_w_viewer_manifest # and copy_l_viewer_manifest targets) return 'package' in self.args['actions'] def construct(self): super(ViewerManifest, self).construct() self.path(src="../../scripts/messages/message_template.msg", dst="app_settings/message_template.msg") self.path(src="../../etc/message.xml", dst="app_settings/message.xml") if self.is_packaging_viewer(): with self.prefix(src_dst="app_settings"): self.exclude("logcontrol.xml") self.exclude("logcontrol-dev.xml") self.path("*.ini") self.path("*.xml") # include the entire shaders directory recursively self.path("shaders") # include the extracted list of contributors contributions_path = os.path.join(self.args['source'], "..", "..", "doc", "contributions.txt") contributor_names = self.extract_names(contributions_path) self.put_in_file(contributor_names.encode(), "contributors.txt", src=contributions_path) # ... and the default camera position settings self.path("camera") # ... and the entire windlight directory self.path("windlight") # ... and the entire image filters directory self.path("filters") # ... and the included spell checking dictionaries pkgdir = os.path.join(self.args['build'], os.pardir, 'packages') with self.prefix(src=pkgdir): self.path("dictionaries") # include the extracted packages information (see BuildPackagesInfo.cmake) self.path(src=os.path.join(self.args['build'],"packages-info.txt"), dst="packages-info.txt") # CHOP-955: If we have "sourceid" or "viewer_channel" in the # build process environment, generate it into # settings_install.xml. settings_template = dict( sourceid=dict(Comment='Identify referring agency to Linden web servers', Persist=1, Type='String', Value=''), CmdLineGridChoice=dict(Comment='Default grid', Persist=0, Type='String', Value=''), CmdLineChannel=dict(Comment='Command line specified channel name', Persist=0, Type='String', Value='')) settings_install = {} sourceid = self.args.get('sourceid') if sourceid: settings_install['sourceid'] = settings_template['sourceid'].copy() settings_install['sourceid']['Value'] = sourceid print("Set sourceid in settings_install.xml to '%s'" % sourceid) if self.args.get('channel_suffix'): settings_install['CmdLineChannel'] = settings_template['CmdLineChannel'].copy() settings_install['CmdLineChannel']['Value'] = self.channel_with_pkg_suffix() print("Set CmdLineChannel in settings_install.xml to '%s'" % self.channel_with_pkg_suffix()) if self.args.get('grid'): settings_install['CmdLineGridChoice'] = settings_template['CmdLineGridChoice'].copy() settings_install['CmdLineGridChoice']['Value'] = self.grid() print("Set CmdLineGridChoice in settings_install.xml to '%s'" % self.grid()) # put_in_file(src=) need not be an actual pathname; it # only needs to be non-empty self.put_in_file(llsd.format_pretty_xml(settings_install), "settings_install.xml", src="environment") with self.prefix(src_dst="character"): self.path("*.llm") self.path("*.xml") self.path("*.tga") # Include our fonts with self.prefix(src="../packages/fonts",src_dst="fonts"): self.path("*.ttf") self.path("*.txt") # skins with self.prefix(src_dst="skins"): # include the entire textures directory recursively with self.prefix(src_dst="*/textures"): self.path("*/*.jpg") self.path("*/*.png") self.path("*.tga") self.path("*.j2c") self.path("*.png") self.path("textures.xml") self.path("*/xui/*/*.xml") self.path("*/xui/*/widgets/*.xml") self.path("*/*.xml") # Update: 2017-11-01 CP Now we store app code in the html folder # Initially the HTML/JS code to render equirectangular # images for the 360 capture feature but more to follow. with self.prefix(src="*/html", dst="*/html"): self.path("*/*/*/*.js") self.path("*/*/*.html") #build_data.json. Standard with exception handling is fine. If we can't open a new file for writing, we have worse problems #platform is computed above with other arg parsing build_data_dict = {"Type":"viewer","Version":'.'.join(self.args['version']), "Channel Base": CHANNEL_VENDOR_BASE, "Channel":self.channel_with_pkg_suffix(), "Platform":self.build_data_json_platform, "Address Size":self.address_size, "Update Service":"https://update.secondlife.com/update", } # Only store this if it's both present and non-empty bugsplat_db = self.args.get('bugsplat') if bugsplat_db: build_data_dict["BugSplat DB"] = bugsplat_db build_data_dict = self.finish_build_data_dict(build_data_dict) with open(os.path.join(os.pardir,'build_data.json'), 'w') as build_data_handle: json.dump(build_data_dict,build_data_handle) #we likely no longer need the test, since we will throw an exception above, but belt and suspenders and we get the #return code for free. if not self.path2basename(os.pardir, "build_data.json"): print("No build_data.json file") def finish_build_data_dict(self, build_data_dict): return build_data_dict def grid(self): return self.args['grid'] def channel(self): return self.args['channel'] def channel_with_pkg_suffix(self): fullchannel=self.channel() channel_suffix = self.args.get('channel_suffix') if channel_suffix: fullchannel+=' '+channel_suffix return fullchannel def channel_variant(self): global CHANNEL_VENDOR_BASE return self.channel().replace(CHANNEL_VENDOR_BASE, "").strip() def channel_type(self): # returns 'release', 'beta', 'project', or 'test' channel_qualifier=self.channel_variant().lower() if channel_qualifier.startswith('release'): channel_type='release' elif channel_qualifier.startswith('beta'): channel_type='beta' elif channel_qualifier.startswith('project'): channel_type='project' else: channel_type='test' return channel_type def channel_variant_app_suffix(self): # get any part of the channel name after the CHANNEL_VENDOR_BASE suffix=self.channel_variant() # by ancient convention, we don't use Release in the app name if self.channel_type() == 'release': suffix=suffix.replace('Release', '').strip() # for the base release viewer, suffix will now be null - for any other, append what remains if suffix: suffix = "_".join([''] + suffix.split()) # the additional_packages mechanism adds more to the installer name (but not to the app name itself) # ''.split() produces empty list, so suffix only changes if # channel_suffix is non-empty suffix = "_".join([suffix] + self.args.get('channel_suffix', '').split()) return suffix def installer_base_name(self): global CHANNEL_VENDOR_BASE # a standard map of strings for replacing in the templates substitution_strings = { 'channel_vendor_base' : '_'.join(CHANNEL_VENDOR_BASE.split()), 'channel_variant_underscores':self.channel_variant_app_suffix(), 'version_underscores' : '_'.join(self.args['version']), 'arch':self.args['arch'] } return "%(channel_vendor_base)s%(channel_variant_underscores)s_%(version_underscores)s_%(arch)s" % substitution_strings def app_name(self): global CHANNEL_VENDOR_BASE channel_type=self.channel_type() if channel_type == 'release': app_suffix='Viewer' else: app_suffix=self.channel_variant() return CHANNEL_VENDOR_BASE + ' ' + app_suffix def exec_name(self): return "SecondLifeViewer" def app_name_oneword(self): return ''.join(self.app_name().split()) def icon_path(self): return "icons/" + self.channel_type() def extract_names(self,src): """Extract contributor names from source file, returns string""" try: with open(src, 'r') as contrib_file: lines = contrib_file.readlines() except IOError: print("Failed to open '%s'" % src) raise # All lines up to and including the first blank line are the file header; skip them lines.reverse() # so that pop will pull from first to last line while not re.match("\s*$", lines.pop()) : pass # do nothing # A line that starts with a non-whitespace character is a name; all others describe contributions, so collect the names names = [] for line in lines : if re.match("\S", line) : names.append(line.rstrip()) # It's not fair to always put the same people at the head of the list random.shuffle(names) return ', '.join(names) def relsymlinkf(self, src, dst=None, catch=True): """ relsymlinkf() is just like symlinkf(), but instead of requiring the caller to pass 'src' as a relative pathname, this method expects 'src' to be absolute, and creates a symlink whose target is the relative path from 'src' to dirname(dst). """ dstdir, dst = self._symlinkf_prep_dst(src, dst) # Determine the relative path starting from the directory containing # dst to the intended src. src = self.relpath(src, dstdir) self._symlinkf(src, dst, catch) return dst def symlinkf(self, src, dst=None, catch=True): """ Like ln -sf, but uses os.symlink() instead of running ln. This creates a symlink at 'dst' that points to 'src' -- see: https://docs.python.org/3/library/os.html#os.symlink If you omit 'dst', this creates a symlink with basename(src) at get_dst_prefix() -- in other words: put a symlink to this pathname here at the current dst prefix. 'src' must specifically be a *relative* symlink. It makes no sense to create an absolute symlink pointing to some path on the build machine! Also: - We prepend 'dst' with the current get_dst_prefix(), so it has similar meaning to associated self.path() calls. - We ensure that the containing directory os.path.dirname(dst) exists before attempting the symlink. If you pass catch=False, exceptions will be propagated instead of caught. """ dstdir, dst = self._symlinkf_prep_dst(src, dst) self._symlinkf(src, dst, catch) return dst def _symlinkf_prep_dst(self, src, dst): # helper for relsymlinkf() and symlinkf() if dst is None: dst = os.path.basename(src) dst = os.path.join(self.get_dst_prefix(), dst) # Seems silly to prepend get_dst_prefix() to dst only to call # os.path.dirname() on it again, but this works even when the passed # 'dst' is itself a pathname. dstdir = os.path.dirname(dst) self.cmakedirs(dstdir) return (dstdir, dst) def _symlinkf(self, src, dst, catch): # helper for relsymlinkf() and symlinkf() # the passed src must be relative if os.path.isabs(src): raise ManifestError("Do not symlinkf(absolute %r, asis=True)" % src) # The outer catch is the one that reports failure even after attempted # recovery. try: # At the inner layer, recovery may be possible. try: os.symlink(src, dst) except OSError as err: if err.errno != errno.EEXIST: raise # We could just blithely attempt to remove and recreate the target # file, but that strategy doesn't work so well if we don't have # permissions to remove it. Check to see if it's already the # symlink we want, which is the usual reason for EEXIST. elif os.path.islink(dst): if os.readlink(dst) == src: # the requested link already exists pass else: # dst is the wrong symlink; attempt to remove and recreate it os.remove(dst) os.symlink(src, dst) elif os.path.isdir(dst): print("Requested symlink (%s) exists but is a directory; replacing" % dst) shutil.rmtree(dst) os.symlink(src, dst) elif os.path.exists(dst): print("Requested symlink (%s) exists but is a file; replacing" % dst) os.remove(dst) os.symlink(src, dst) else: # out of ideas raise except Exception as err: # report print("Can't symlink %r -> %r: %s: %s" % \ (dst, src, err.__class__.__name__, err)) # if caller asked us not to catch, re-raise this exception if not catch: raise def relpath(self, path, base=None, symlink=False): """ Return the relative path from 'base' to the passed 'path'. If base is omitted, self.get_dst_prefix() is assumed. In other words: make a same-name symlink to this path right here in the current dest prefix. Normally we resolve symlinks. To retain symlinks, pass symlink=True. """ if base is None: base = self.get_dst_prefix() # Since we use os.path.relpath() for this, which is purely textual, we # must ensure that both pathnames are absolute. if symlink: # symlink=True means: we know path is (or indirects through) a # symlink, don't resolve, we want to use the symlink. abspath = os.path.abspath else: # symlink=False means to resolve any symlinks we may find abspath = os.path.realpath return os.path.relpath(abspath(path), abspath(base)) def set_github_output_path(self, variable, path): self.set_github_output(variable, os.path.normpath(os.path.join(self.get_dst_prefix(), path))) def set_github_output(self, variable, *values): GITHUB_OUTPUT = os.getenv('GITHUB_OUTPUT') if GITHUB_OUTPUT and values: with open(GITHUB_OUTPUT, 'a') as outf: if len(values) == 1: print('='.join((variable, values[0])), file=outf) else: delim = secrets.token_hex(8) print('<<'.join((variable, delim)), file=outf) for value in values: print(value, file=outf) print(delim, file=outf) class Windows_x86_64_Manifest(ViewerManifest): # We want the platform, per se, for every Windows build to be 'win'. The # VMP will concatenate that with the address_size. build_data_json_platform = 'win' address_size = 64 def final_exe(self): return self.exec_name()+".exe" def finish_build_data_dict(self, build_data_dict): build_data_dict['Executable'] = self.final_exe() build_data_dict['AppName'] = self.app_name() return build_data_dict def test_msvcrt_and_copy_action(self, src, dst): # This is used to test a dll manifest. # It is used as a temporary override during the construct method from test_win32_manifest import test_assembly_binding # TODO: This is redundant with LLManifest.copy_action(). Why aren't we # calling copy_action() in conjunction with test_assembly_binding()? if src and (os.path.exists(src) or os.path.islink(src)): # ensure that destination path exists self.cmakedirs(os.path.dirname(dst)) self.created_paths.append(dst) if not os.path.isdir(src): if(self.args['buildtype'].lower() == 'debug'): test_assembly_binding(src, "Microsoft.VC80.DebugCRT", "8.0.50727.4053") else: test_assembly_binding(src, "Microsoft.VC80.CRT", "8.0.50727.4053") self.ccopy(src,dst) else: raise Exception("Directories are not supported by test_CRT_and_copy_action()") else: print("Doesn't exist:", src) def test_for_no_msvcrt_manifest_and_copy_action(self, src, dst): # This is used to test that no manifest for the msvcrt exists. # It is used as a temporary override during the construct method from test_win32_manifest import test_assembly_binding from test_win32_manifest import NoManifestException, NoMatchingAssemblyException # TODO: This is redundant with LLManifest.copy_action(). Why aren't we # calling copy_action() in conjunction with test_assembly_binding()? if src and (os.path.exists(src) or os.path.islink(src)): # ensure that destination path exists self.cmakedirs(os.path.dirname(dst)) self.created_paths.append(dst) if not os.path.isdir(src): try: if(self.args['buildtype'].lower() == 'debug'): test_assembly_binding(src, "Microsoft.VC80.DebugCRT", "") else: test_assembly_binding(src, "Microsoft.VC80.CRT", "") raise Exception("Unknown condition") except NoManifestException as err: pass except NoMatchingAssemblyException as err: pass self.ccopy(src,dst) else: raise Exception("Directories are not supported by test_CRT_and_copy_action()") else: print("Doesn't exist:", src) def construct(self): super().construct() pkgdir = os.path.join(self.args['build'], os.pardir, 'packages') relpkgdir = os.path.join(pkgdir, "lib", "release") debpkgdir = os.path.join(pkgdir, "lib", "debug") if self.is_packaging_viewer(): # Find secondlife-bin.exe in the 'configuration' dir, then rename it to the result of final_exe. self.path(src='%s/secondlife-bin.exe' % self.args['configuration'], dst=self.final_exe()) # Emit the whole app image as one of the GitHub step outputs. We # want the whole app -- but NOT the extraneous build products that # get tossed into the same directory, such as the installer and # the symbols tarball, so add exclusions. When we feed # upload-artifact multiple absolute pathnames, even just for # exclusion, it ends up creating several extraneous directory # levels within the artifact -- so try using only relative paths. # One problem: as of right now, our current directory os.getcwd() # is not the same as the initial working directory for this job # step, meaning paths relative to our os.getcwd() won't work for # the subsequent upload-artifact step. We're a couple directory # levels down. Try adjusting for those when specifying the base # for self.relpath(). appbase = self.relpath( self.get_dst_prefix(), base=os.path.join(os.getcwd(), os.pardir, os.pardir)) self.set_github_output('viewer_app', appbase, # except for this stuff *(('!' + os.path.join(appbase, pattern)) for pattern in ( 'secondlife-bin.*', '*_Setup.exe', '*.bat', '*.tar.xz'))) with self.prefix(src=os.path.join(pkgdir, "VMP")): # include the compiled launcher scripts so that it gets included in the file_list self.path('SLVersionChecker.exe') with self.prefix(dst="vmp_icons"): with self.prefix(src=self.icon_path()): self.path("secondlife.ico") #VMP Tkinter icons with self.prefix(src="vmp_icons"): self.path("*.png") self.path("*.gif") # Plugin host application self.path2basename(os.path.join(os.pardir, 'llplugin', 'slplugin', self.args['configuration']), "slplugin.exe") # Get shared libs from the shared libs staging directory with self.prefix(src=os.path.join(self.args['build'], os.pardir, 'sharedlibs', self.args['buildtype'])): # WebRTC libraries for libfile in ( 'llwebrtc.dll', ): self.path(libfile) # Get fmodstudio dll if needed if self.args['fmodstudio'] == 'ON': if(self.args['buildtype'].lower() == 'debug'): self.path("fmodL.dll") else: self.path("fmod.dll") if self.args['openal'] == 'ON': # Get openal dll self.path("OpenAL32.dll") self.path("alut.dll") # For textures self.path("openjp2.dll") # Uriparser self.path("uriparser.dll") # These need to be installed as a SxS assembly, currently a 'private' assembly. # See http://msdn.microsoft.com/en-us/library/ms235291(VS.80).aspx self.path("msvcp140.dll") self.path("vcruntime140.dll") self.path_optional("vcruntime140_1.dll") # SLVoice executable with self.prefix(src=os.path.join(pkgdir, 'bin', 'release')): self.path("SLVoice.exe") # Vivox libraries self.path("vivoxsdk_x64.dll") self.path("ortp_x64.dll") # OpenSSL self.path("libcrypto-1_1-x64.dll") self.path("libssl-1_1-x64.dll") # HTTP/2 self.path("nghttp2.dll") # Hunspell self.path("libhunspell.dll") # BugSplat if self.args.get('bugsplat'): self.path("BsSndRpt64.exe") self.path("BugSplat64.dll") self.path("BugSplatRc64.dll") self.path(src="licenses-win32.txt", dst="licenses.txt") self.path("featuretable.txt") self.path("cube.dae") with self.prefix(src=pkgdir): self.path("ca-bundle.crt") # Media plugins - CEF with self.prefix(dst="llplugin"): with self.prefix(src=os.path.join(self.args['build'], os.pardir, 'media_plugins')): with self.prefix(src=os.path.join('cef', self.args['configuration'])): self.path("media_plugin_cef.dll") # Media plugins - LibVLC with self.prefix(src=os.path.join('libvlc', self.args['configuration'])): self.path("media_plugin_libvlc.dll") # Media plugins - Example (useful for debugging - not shipped with release viewer) if self.channel_type() != 'release': with self.prefix(src=os.path.join('example', self.args['configuration'])): self.path("media_plugin_example.dll") # CEF runtime files - debug # CEF runtime files - not debug (release, relwithdebinfo etc.) config = 'debug' if self.args['configuration'].lower() == 'debug' else 'release' with self.prefix(src=os.path.join(pkgdir, 'bin', config)): self.path("chrome_elf.dll") self.path("d3dcompiler_47.dll") self.path("libcef.dll") self.path("libEGL.dll") self.path("libGLESv2.dll") self.path("dullahan_host.exe") self.path("snapshot_blob.bin") self.path("v8_context_snapshot.bin") # MSVC DLLs needed for CEF and have to be in same directory as plugin with self.prefix(src=os.path.join(self.args['build'], os.pardir, 'sharedlibs', self.args['buildtype'])): self.path("msvcp140.dll") self.path("vcruntime140.dll") self.path_optional("vcruntime140_1.dll") # CEF files common to all configurations with self.prefix(src=os.path.join(pkgdir, 'resources')): self.path("chrome_100_percent.pak") self.path("chrome_200_percent.pak") self.path("resources.pak") self.path("icudtl.dat") with self.prefix(src=os.path.join(pkgdir, 'resources', 'locales'), dst='locales'): self.path("am.pak") self.path("ar.pak") self.path("bg.pak") self.path("bn.pak") self.path("ca.pak") self.path("cs.pak") self.path("da.pak") self.path("de.pak") self.path("el.pak") self.path("en-GB.pak") self.path("en-US.pak") self.path("es-419.pak") self.path("es.pak") self.path("et.pak") self.path("fa.pak") self.path("fi.pak") self.path("fil.pak") self.path("fr.pak") self.path("gu.pak") self.path("he.pak") self.path("hi.pak") self.path("hr.pak") self.path("hu.pak") self.path("id.pak") self.path("it.pak") self.path("ja.pak") self.path("kn.pak") self.path("ko.pak") self.path("lt.pak") self.path("lv.pak") self.path("ml.pak") self.path("mr.pak") self.path("ms.pak") self.path("nb.pak") self.path("nl.pak") self.path("pl.pak") self.path("pt-BR.pak") self.path("pt-PT.pak") self.path("ro.pak") self.path("ru.pak") self.path("sk.pak") self.path("sl.pak") self.path("sr.pak") self.path("sv.pak") self.path("sw.pak") self.path("ta.pak") self.path("te.pak") self.path("th.pak") self.path("tr.pak") self.path("uk.pak") self.path("vi.pak") self.path("zh-CN.pak") self.path("zh-TW.pak") with self.prefix(src=os.path.join(pkgdir, 'bin', 'release')): self.path("libvlc.dll") self.path("libvlccore.dll") self.path("plugins/") if not self.is_packaging_viewer(): self.package_file = "copied_deps" def nsi_file_commands(self, install=True): def INSTDIR(path): # Note that '$INSTDIR' is purely textual here: we write # exactly that into the .nsi file for NSIS to interpret. # Pass the result through normpath() to handle the case in which # path is the empty string. On Windows, that produces "$INSTDIR\". # Unfortunately, if that's the last item on a line, NSIS takes # that as line continuation and misinterprets the following line. # Ensure we don't emit a trailing backslash. return os.path.normpath(os.path.join('$INSTDIR', path)) result = [] dest_files = [pair[1] for pair in self.file_list if pair[0] and os.path.isfile(pair[1])] # sort deepest hierarchy first dest_files.sort(key=lambda f: (f.count(os.path.sep), f), reverse=True) out_path = None for pkg_file in dest_files: pkg_file = os.path.normpath(pkg_file) rel_file = self.relpath(pkg_file) installed_dir = INSTDIR(os.path.dirname(rel_file)) if install and installed_dir != out_path: out_path = installed_dir # emit SetOutPath every time it changes result.append('SetOutPath ' + out_path) if install: result.append('File ' + rel_file) else: result.append('Delete ' + INSTDIR(rel_file)) # at the end of a delete, just rmdir all the directories if not install: deleted_file_dirs = [os.path.dirname(self.relpath(f)) for f in dest_files] # find all ancestors so that we don't skip any dirs that happened # to have no non-dir children deleted_dirs = set(itertools.chain.from_iterable(path_ancestors(d) for d in deleted_file_dirs)) # sort deepest hierarchy first for d in sorted(deleted_dirs, key=lambda f: (f.count(os.path.sep), f), reverse=True): result.append('RMDir ' + INSTDIR(d)) return '\n'.join(result) def package_finish(self): # a standard map of strings for replacing in the templates substitution_strings = { 'version' : '.'.join(self.args['version']), 'version_short' : '.'.join(self.args['version'][:-1]), 'version_dashes' : '-'.join(self.args['version']), 'version_registry' : '%s(64)' % '.'.join(self.args['version']), 'final_exe' : self.final_exe(), 'flags':'', 'app_name':self.app_name(), 'app_name_oneword':self.app_name_oneword() } installer_file = self.installer_base_name() + '_Setup.exe' substitution_strings['installer_file'] = installer_file version_vars = """ !define INSTEXE "SLVersionChecker.exe" !define VERSION "%(version_short)s" !define VERSION_LONG "%(version)s" !define VERSION_DASHES "%(version_dashes)s" !define VERSION_REGISTRY "%(version_registry)s" !define VIEWER_EXE "%(final_exe)s" """ % substitution_strings if self.channel_type() == 'release': substitution_strings['caption'] = CHANNEL_VENDOR_BASE else: substitution_strings['caption'] = self.app_name() + ' ${VERSION}' inst_vars_template = """ OutFile "%(installer_file)s" !define INSTNAME "%(app_name_oneword)s" !define SHORTCUT "%(app_name)s" !define URLNAME "secondlife" Caption "%(caption)s" """ engage_registry="SetRegView 64" program_files="!define MULTIUSER_USE_PROGRAMFILES64" # Dump the installers/windows directory into the raw app image tree # because NSIS needs those files. But don't use path() because we # don't want them installed with the viewer - they're only for use by # the installer itself. shutil.copytree(os.path.join(self.get_src_prefix(), 'installers', 'windows'), os.path.join(self.get_dst_prefix(), 'installers', 'windows'), dirs_exist_ok=True) tempfile = "secondlife_setup_tmp.nsi" # the following replaces strings in the nsi template # it also does python-style % substitution self.replace_in("installers/windows/installer_template.nsi", tempfile, { "%%VERSION%%":version_vars, # The template references "%%SOURCE%%\installers\windows\...". # Now that we've copied that directory into the app image # tree, we can just replace %%SOURCE%% with '.'. "%%SOURCE%%":'.', "%%INST_VARS%%":inst_vars_template % substitution_strings, "%%INSTALL_FILES%%":self.nsi_file_commands(True), "%%PROGRAMFILES%%":program_files, "%%ENGAGEREGISTRY%%":engage_registry, "%%DELETE_FILES%%":self.nsi_file_commands(False)}) self.package_file = installer_file class Darwin_x86_64_Manifest(ViewerManifest): build_data_json_platform = 'mac' address_size = 64 def finish_build_data_dict(self, build_data_dict): build_data_dict.update({'Bundle Id':self.args['bundleid']}) return build_data_dict def is_packaging_viewer(self): # darwin requires full app bundle packaging even for debugging. return True def is_rearranging(self): # That said, some stuff should still only be performed once. # Are either of these actions in 'actions'? Is the set intersection # non-empty? return bool(set(["package", "unpacked"]).intersection(self.args['actions'])) def construct(self): # copy over the build result (this is a no-op if run within the xcode # script) self.path(os.path.join(self.args['configuration'], self.channel() + ".app"), dst="") pkgdir = os.path.join(self.args['build'], os.pardir, 'packages') relpkgdir = os.path.join(pkgdir, "lib", "release") debpkgdir = os.path.join(pkgdir, "lib", "debug") with self.prefix(src="", dst="Contents"): # everything goes in Contents bugsplat_db = self.args.get('bugsplat') if bugsplat_db: # Inject BugsplatServerURL into Info.plist if provided. Info_plist = self.dst_path_of("Info.plist") with open(Info_plist, 'rb') as f: Info = plistlib.load(f) # https://www.bugsplat.com/docs/platforms/os-x#configuration Info["BugsplatServerURL"] = \ "https://{}.bugsplat.com/".format(bugsplat_db) self.put_in_file( plistlib.dumps(Info), os.path.basename(Info_plist), "Info.plist") # CEF framework goes inside Contents/Frameworks. # Remember where we parked this car. with self.prefix(src="", dst="Frameworks"): CEF_framework = "Chromium Embedded Framework.framework" self.path2basename(relpkgdir, CEF_framework) CEF_framework = self.dst_path_of(CEF_framework) if self.args.get('bugsplat'): self.path2basename(relpkgdir, "BugsplatMac.framework") with self.prefix(dst="MacOS"): executable = self.dst_path_of(self.channel()) if self.args.get('bugsplat'): # According to Apple Technical Note TN2206: # https://developer.apple.com/library/archive/technotes/tn2206/_index.html#//apple_ref/doc/uid/DTS40007919-CH1-TNTAG207 # "If an app uses @rpath or an absolute path to link to a # dynamic library outside of the app, the app will be # rejected by Gatekeeper. ... Neither the codesign nor the # spctl tool will show the error." # (Thanks, Apple. Maybe fix spctl to warn?) # The BugsplatMac framework embeds @rpath, which is # causing scary Gatekeeper popups at viewer start. Work # around this by changing the reference baked into our # viewer. The install_name_tool -change option needs the # previous value. Instead of guessing -- which might # silently be defeated by a BugSplat SDK update that # changes their baked-in @rpath -- ask for the path # stamped into the framework. # Let exception, if any, propagate -- if this doesn't # work, we need the build to noisily fail! oldpath = subprocess.check_output( ['objdump', '--macho', '--dylib-id', '--non-verbose', os.path.join(relpkgdir, "BugsplatMac.framework", "BugsplatMac")], text=True ).splitlines()[-1] # take the last line of output self.run_command( ['install_name_tool', '-change', oldpath, '@executable_path/../Frameworks/BugsplatMac.framework/BugsplatMac', executable]) # NOTE: the -S argument to strip causes it to keep # enough info for annotated backtraces (i.e. function # names in the crash log). 'strip' with no arguments # yields a slightly smaller binary but makes crash # logs mostly useless. This may be desirable for the # final release. Or not. if ("package" in self.args['actions'] or "unpacked" in self.args['actions']): self.run_command( ['strip', '-S', executable]) with self.prefix(dst="Resources"): # defer cross-platform file copies until we're in the # nested Resources directory super().construct() # need .icns file referenced by Info.plist with self.prefix(src=self.icon_path(), dst="") : self.path("secondlife.icns") # Copy in the updater script and helper modules self.path(src=os.path.join(pkgdir, 'VMP'), dst="updater") with self.prefix(src="", dst=os.path.join("updater", "icons")): self.path2basename(self.icon_path(), "secondlife.ico") with self.prefix(src="vmp_icons", dst=""): self.path("*.png") self.path("*.gif") with self.prefix(src=relpkgdir, dst=""): self.path("libndofdev.dylib") self.path("libhunspell-*.dylib") with self.prefix(src_dst="cursors_mac"): self.path("*.tif") self.path("licenses-mac.txt", dst="licenses.txt") self.path("featuretable_mac.txt") self.path("cube.dae") self.path("SecondLife.nib") with self.prefix(src=pkgdir,dst=""): self.path("ca-bundle.crt") # Translations self.path("English.lproj/language.txt") self.replace_in(src="English.lproj/InfoPlist.strings", dst="English.lproj/InfoPlist.strings", searchdict={'%%VERSION%%':'.'.join(self.args['version'])} ) self.path("German.lproj") self.path("Japanese.lproj") self.path("Korean.lproj") self.path("da.lproj") self.path("es.lproj") self.path("fr.lproj") self.path("hu.lproj") self.path("it.lproj") self.path("nl.lproj") self.path("pl.lproj") self.path("pt.lproj") self.path("ru.lproj") self.path("tr.lproj") self.path("uk.lproj") self.path("zh-Hans.lproj") def path_optional(src, dst): """ For a number of our self.path() calls, not only do we want to deal with the absence of src, we also want to remember which were present. Return either an empty list (absent) or a list containing dst (present). Concatenate these return values to get a list of all libs that are present. """ # This was simple before we started needing to pass # wildcards. Fortunately, self.path() ends up appending a # (source, dest) pair to self.file_list for every expanded # file processed. Remember its size before the call. oldlen = len(self.file_list) try: self.path(src, dst) # The dest appended to self.file_list has been prepended # with self.get_dst_prefix(). Strip it off again. added = [os.path.relpath(d, self.get_dst_prefix()) for s, d in self.file_list[oldlen:]] except MissingError as err: print("Warning: "+err.msg, file=sys.stderr) added = [] if not added: print("Skipping %s" % dst) return added # WebRTC libraries with self.prefix(src=os.path.join(self.args['build'], os.pardir, 'sharedlibs', self.args['buildtype'], 'Resources')): for libfile in ( 'libllwebrtc.dylib', ): self.path(libfile) oldpath = os.path.join("@rpath", libfile) self.run_command( ['install_name_tool', '-change', oldpath, '@executable_path/../Resources/%s' % libfile, executable]) # dylibs is a list of all the .dylib files we expect to need # in our bundled sub-apps. For each of these we'll create a # symlink from sub-app/Contents/Resources to the real .dylib. # Need to get the llcommon dll from any of the build directories as well. libfile_parent = self.get_dst_prefix() dylibs=[] for libfile in ( "libapr-1.0.dylib", "libaprutil-1.0.dylib", "libexpat.1.dylib", # libnghttp2.dylib is a symlink to # libnghttp2.major.dylib, which is a symlink to # libnghttp2.version.dylib. Get all of them. "libnghttp2.*dylib", "liburiparser.*dylib", ): dylibs += path_optional(os.path.join(relpkgdir, libfile), libfile) # SLVoice executable with self.prefix(src=os.path.join(pkgdir, 'bin', 'release')): self.path("SLVoice") # Vivox libraries for libfile in ( 'libortp.dylib', 'libvivoxsdk.dylib', ): self.path2basename(relpkgdir, libfile) # Fmod studio dylibs (vary based on configuration) if self.args['fmodstudio'] == 'ON': if self.args['buildtype'].lower() == 'debug': for libfile in ( "libfmodL.dylib", ): dylibs += path_optional(os.path.join(debpkgdir, libfile), libfile) else: for libfile in ( "libfmod.dylib", ): dylibs += path_optional(os.path.join(relpkgdir, libfile), libfile) # our apps executable_path = {} embedded_apps = [ (os.path.join("llplugin", "slplugin"), "SLPlugin.app") ] for app_bld_dir, app in embedded_apps: self.path2basename(os.path.join(os.pardir, app_bld_dir, self.args['configuration']), app) executable_path[app] = \ self.dst_path_of(os.path.join(app, "Contents", "MacOS")) # our apps dependencies on shared libs # for each app, for each dylib we collected in dylibs, # create a symlink to the real copy of the dylib. with self.prefix(dst=os.path.join(app, "Contents", "Resources")): for libfile in dylibs: self.relsymlinkf(os.path.join(libfile_parent, libfile)) # Dullahan helper apps go inside SLPlugin.app with self.prefix(dst=os.path.join( "SLPlugin.app", "Contents", "Frameworks")): frameworkname = 'Chromium Embedded Framework' # This code constructs a relative symlink from the # target framework folder back to the real CEF framework. # It needs to be relative so that the symlink still works when # (as is normal) the user moves the app bundle out of the DMG # and into the /Applications folder. Note we pass catch=False, # letting the uncaught exception terminate the process, since # without this symlink, Second Life web media can't possibly work. # It might seem simpler just to symlink Frameworks back to # the parent of Chromimum Embedded Framework.framework. But # that would create a symlink cycle, which breaks our # packaging step. So make a symlink from Chromium Embedded # Framework.framework to the directory of the same name, which # is NOT an ancestor of the symlink. # from SLPlugin.app/Contents/Frameworks/Chromium Embedded # Framework.framework back to # $viewer_app/Contents/Frameworks/Chromium Embedded Framework.framework SLPlugin_framework = self.relsymlinkf(CEF_framework, catch=False) # for all the multiple CEF/Dullahan (as of CEF 76) helper app bundles we need: for helper in ( "DullahanHelper", "DullahanHelper (GPU)", "DullahanHelper (Renderer)", "DullahanHelper (Plugin)", ): # app is the directory name of the app bundle, with app/Contents/MacOS/helper as the executable app = helper + ".app" # copy DullahanHelper.app self.path2basename(relpkgdir, app) # and fix that up with a Frameworks/CEF symlink too with self.prefix(dst=os.path.join( app, 'Contents', 'Frameworks')): # from Dullahan Helper *.app/Contents/Frameworks/Chromium Embedded # Framework.framework back to # SLPlugin.app/Contents/Frameworks/Chromium Embedded Framework.framework # Since SLPlugin_framework is itself a # symlink, don't let relsymlinkf() resolve -- # explicitly call relpath(symlink=True) and # create that symlink here. helper_framework = \ self.symlinkf(self.relpath(SLPlugin_framework, symlink=True), catch=False) # change_command includes install_name_tool, the # -change subcommand and the old framework rpath # stamped into the executable. To use it with # run_command(), we must still append the new # framework path and the pathname of the # executable to change. change_command = [ 'install_name_tool', '-change', '@rpath/Frameworks/Chromium Embedded Framework.framework/Chromium Embedded Framework'] with self.prefix(dst=os.path.join( app, 'Contents', 'MacOS')): # Now self.get_dst_prefix() is, at runtime, # @executable_path. Locate the helper app # framework (which is a symlink) from here. newpath = os.path.join( '@executable_path', self.relpath(helper_framework, symlink=True), frameworkname) # and restamp the Dullahan Helper executable itself self.run_command( change_command + [newpath, self.dst_path_of(helper)]) # SLPlugin plugins with self.prefix(dst="llplugin"): dylibexecutable = 'media_plugin_cef.dylib' self.path2basename("../media_plugins/cef/" + self.args['configuration'], dylibexecutable) # Do this install_name_tool *after* media plugin is copied over. # Locate the framework lib executable -- relative to # SLPlugin.app/Contents/MacOS, which will be our # @executable_path at runtime! newpath = os.path.join( '@executable_path', self.relpath(SLPlugin_framework, executable_path["SLPlugin.app"], symlink=True), frameworkname) # restamp media_plugin_cef.dylib self.run_command( change_command + [newpath, self.dst_path_of(dylibexecutable)]) # copy LibVLC plugin itself dylibexecutable = 'media_plugin_libvlc.dylib' self.path2basename("../media_plugins/libvlc/" + self.args['configuration'], dylibexecutable) # add @rpath for the correct LibVLC subfolder self.run_command(['install_name_tool', '-add_rpath', '@loader_path/lib', self.dst_path_of(dylibexecutable)]) # copy LibVLC dynamic libraries with self.prefix(src=relpkgdir, dst="lib"): self.path( "libvlc*.dylib*" ) # copy LibVLC plugins folder with self.prefix(src='plugins', dst=""): self.path( "*.dylib" ) self.path( "plugins.dat" ) def package_finish(self): imagename = self.installer_base_name() self.set_github_output('imagename', imagename) finalname = imagename + ".dmg" self.package_file = finalname RUNNER_TEMP = os.getenv('RUNNER_TEMP') # When running as a GitHub Action job, RUNNER_TEMP is the recommended # temp directory. If we're not running on GitHub, don't create this # temp directory or this tarball: we don't clean them up, trusting # that the runner is itself transient. On a dev machine, that would # result in temp-directory clutter. if RUNNER_TEMP: # Per GitHub's actions/upload-artifact documentation # https://github.com/actions/upload-artifact#maintaining-file-permissions-and-case-sensitive-files # we must package the app bundle with tar before posting as an # artifact. Posting individual files follows symlinks, which # causes problems, especially with frameworks: a framework's top # level must contain symlinks into its Versions/Current, which # must itself be a symlink to some specific Versions subdir. tarpath = os.path.join(RUNNER_TEMP, "viewer.tar.xz") print(f'Creating {tarpath} from {self.get_dst_prefix()}') with tarfile.open(tarpath, mode="w:xz") as tarball: # Store in the tarball as just 'Second Life Mumble.app' # instead of 'Users/someone/.../newview/Release/Second...' # It's at this point that we rename 'Second Life Release.app' # to 'Second Life Viewer.app'. tarball.add(self.get_dst_prefix(), arcname=self.app_name() + ".app") self.set_github_output_path('viewer_app', tarpath) class LinuxManifest(ViewerManifest): build_data_json_platform = 'lnx' def construct(self): super(LinuxManifest, self).construct() pkgdir = os.path.join(self.args['build'], os.pardir, 'packages') relpkgdir = os.path.join(pkgdir, "lib", "release") debpkgdir = os.path.join(pkgdir, "lib", "debug") self.path("licenses-linux.txt","licenses.txt") with self.prefix("linux_tools"): self.path("client-readme.txt","README-linux.txt") self.path("client-readme-voice.txt","README-linux-voice.txt") self.path("client-readme-joystick.txt","README-linux-joystick.txt") self.path("wrapper.sh","secondlife") with self.prefix(dst="etc"): self.path("handle_secondlifeprotocol.sh") self.path("register_secondlifeprotocol.sh") self.path("refresh_desktop_app_entry.sh") self.path("launch_url.sh") self.path("install.sh") with self.prefix(dst="bin"): self.path("secondlife-bin","do-not-directly-run-secondlife-bin") self.path("../linux_crash_logger/linux-crash-logger","linux-crash-logger.bin") self.path2basename("../llplugin/slplugin", "SLPlugin") #this copies over the python wrapper script, associated utilities and required libraries, see SL-321, SL-322 and SL-323 with self.prefix(src="../viewer_components/manager", dst=""): self.path("*.py") # recurses, packaged again self.path("res-sdl") # Get the icons based on the channel type icon_path = self.icon_path() print("DEBUG: icon_path '%s'" % icon_path) with self.prefix(src=icon_path) : self.path("secondlife_256.png","secondlife_icon.png") with self.prefix(dst="res-sdl") : self.path("secondlife_256.BMP","ll_icon.BMP") # plugins with self.prefix(src="../media_plugins", dst="bin/llplugin"): self.path("gstreamer010/libmedia_plugin_gstreamer010.so", "libmedia_plugin_gstreamer.so") self.path2basename("libvlc", "libmedia_plugin_libvlc.so") with self.prefix(src=os.path.join(pkgdir, 'lib', 'vlc', 'plugins'), dst="bin/llplugin/vlc/plugins"): self.path( "plugins.dat" ) self.path( "*/*.so" ) with self.prefix(src=os.path.join(pkgdir, 'lib' ), dst="lib"): self.path( "libvlc*.so*" ) # llcommon if not self.path("../llcommon/libllcommon.so", "lib/libllcommon.so"): print("Skipping llcommon.so (assuming llcommon was linked statically)") self.path("featuretable_linux.txt") self.path("cube.dae") with self.prefix(src=pkgdir): self.path("ca-bundle.crt") def package_finish(self): installer_name = self.installer_base_name() self.strip_binaries() # Fix access permissions self.run_command(['find', self.get_dst_prefix(), '-type', 'd', '-exec', 'chmod', '755', '{}', ';']) for old, new in ('0700', '0755'), ('0500', '0555'), ('0600', '0644'), ('0400', '0444'): self.run_command(['find', self.get_dst_prefix(), '-type', 'f', '-perm', old, '-exec', 'chmod', new, '{}', ';']) self.package_file = installer_name + '.tar.xz' # temporarily move directory tree so that it has the right # name in the tarfile realname = self.get_dst_prefix() tempname = self.build_path_of(installer_name) self.run_command(["mv", realname, tempname]) try: # only create tarball if it's a release build. if self.args['buildtype'].lower() == 'release': # --numeric-owner hides the username of the builder for # security etc. self.run_command(['tar', '-C', self.get_build_prefix(), '--numeric-owner', '-cJf', tempname + '.tar.xz', installer_name]) else: print("Skipping %s.tar.xz for non-Release build (%s)" % \ (installer_name, self.args['buildtype'])) finally: self.run_command(["mv", tempname, realname]) def strip_binaries(self): if self.args['buildtype'].lower() == 'release' and self.is_packaging_viewer(): print("* Going strip-crazy on the packaged binaries, since this is a RELEASE build") # makes some small assumptions about our packaged dir structure self.run_command( ["find"] + [os.path.join(self.get_dst_prefix(), dir) for dir in ('bin', 'lib')] + ['-type', 'f', '!', '-name', '*.py', '!', '-name', 'update_install', '-exec', 'strip', '-S', '{}', ';']) class Linux_i686_Manifest(LinuxManifest): address_size = 32 def construct(self): super(Linux_i686_Manifest, self).construct() pkgdir = os.path.join(self.args['build'], os.pardir, 'packages') relpkgdir = os.path.join(pkgdir, "lib", "release") debpkgdir = os.path.join(pkgdir, "lib", "debug") with self.prefix(src=relpkgdir, dst="lib"): self.path("libapr-1.so") self.path("libapr-1.so.0") self.path("libapr-1.so.0.4.5") self.path("libaprutil-1.so") self.path("libaprutil-1.so.0") self.path("libaprutil-1.so.0.4.1") self.path("libdb*.so") self.path("libexpat.so.*") self.path("libuuid.so*") self.path("libSDL-1.2.so.*") self.path("libdirectfb-1.*.so.*") self.path("libfusion-1.*.so.*") self.path("libdirect-1.*.so.*") self.path("libopenjp2.so*") self.path("libdirectfb-1.4.so.5") self.path("libfusion-1.4.so.5") self.path("libdirect-1.4.so.5*") self.path("libhunspell-1.3.so*") self.path("libalut.so*") self.path("libopenal.so*") self.path("libopenal.so", "libvivoxoal.so.1") # vivox's sdk expects this soname # KLUDGE: As of 2012-04-11, the 'fontconfig' package installs # libfontconfig.so.1.4.4, along with symlinks libfontconfig.so.1 # and libfontconfig.so. Before we added support for library-file # wildcards, though, this self.path() call specifically named # libfontconfig.so.1.4.4 WITHOUT also copying the symlinks. When I # (nat) changed the call to self.path("libfontconfig.so.*"), we # ended up with the libfontconfig.so.1 symlink in the target # directory as well. But guess what! At least on Ubuntu 10.04, # certain viewer fonts look terrible with libfontconfig.so.1 # present in the target directory. Removing that symlink suffices # to improve them. I suspect that means we actually do better when # the viewer fails to find our packaged libfontconfig.so*, falling # back on the system one instead -- but diagnosing and fixing that # is a bit out of scope for the present project. Meanwhile, this # particular wildcard specification gets us exactly what the # previous call did, without having to explicitly state the # version number. self.path("libfontconfig.so.*.*") # Include libfreetype.so. but have it work as libfontconfig does. self.path("libfreetype.so.*.*") try: self.path("libtcmalloc.so*") #formerly called google perf tools pass except: print("tcmalloc files not found, skipping") pass if self.args['fmodstudio'] == 'ON': try: self.path("libfmod.so.11.7") self.path("libfmod.so.11") self.path("libfmod.so") pass except: print("Skipping libfmod.so - not found") pass # Vivox runtimes with self.prefix(src=relpkgdir, dst="bin"): self.path("SLVoice") with self.prefix(src=relpkgdir, dst="lib"): self.path("libortp.so") self.path("libsndfile.so.1") #self.path("libvivoxoal.so.1") # no - we'll re-use the viewer's own OpenAL lib self.path("libvivoxsdk.so") self.strip_binaries() class Linux_x86_64_Manifest(LinuxManifest): address_size = 64 def construct(self): super(Linux_x86_64_Manifest, self).construct() # support file for valgrind debug tool self.path("secondlife-i686.supp") ################################################################ if __name__ == "__main__": # Report our own command line so that, in case of trouble, a developer can # manually rerun the same command. print(('%s \\\n%s' % (sys.executable, ' '.join((("'%s'" % arg) if ' ' in arg else arg) for arg in sys.argv)))) # fmodstudio and openal can be used simultaneously and controled by environment extra_arguments = [ dict(name='bugsplat', description="""BugSplat database to which to post crashes, if BugSplat crash reporting is desired""", default=''), dict(name='fmodstudio', description="""Indication if fmod studio libraries are needed""", default='OFF'), dict(name='openal', description="""Indication openal libraries are needed""", default='OFF'), ] try: main(extra=extra_arguments) except (ManifestError, MissingError) as err: sys.exit("\nviewer_manifest.py failed: "+err.msg) except: raise